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8 7 6 5 4 3 2 1
H6P: JTAG,
USB, PLL, HSIC, XTAL
D
D
NOTE:
CANDIDATE FOR COST-SAVINGS
(REPLACE WITH XW LATER?)
ROOM=H6P
18 16 1.
PP1V8
12 11 10 7 6 5 3 2 |
23 21 19
R1
23 PP1V8 PLL
PCB: PLACE
NEAR U1
T
1T
C33
0 .1UF
20%
6.3V
X5R-CERM
01005
$8pv=m
NEAR
R1
"T
±ROOM=H6P
C20
10%
6. 3V
X5R
01005
0 .01UF
PCB: PLACE
NEAR U1.1)16
T ROOM=H6P
i C21
- 0 .01UF
10%
6.3V
X5R
01005
PCB: PLACE
NEAR U1.AE20
C34
W7
DELETED HERE
12 23
c
18 16 14 12 11 10 7 6 5 3 2 PA _ V O
23 21 19
REVERT R67 TO 100K B/C OF H6 B0
RDAR: //12963383
B
24 22 19 16 14 13 4 RESET 1V8 L
PP23
P2MM
SM
GW
PP24
P2MM
SM „
SERIAL MODE
ÿ
ROOM=H6P
XR67
100K
• 1%
• 1/32W
MF
o 01005
NAMES
7 ROOM=H6P
1 CI
1000PF
10%
6. 3V
X5R-CERM
01005
I
BASEBAND
WLAN (TOP) 24
16
24
23 12 5 4PP1V2
241
J
ROOM=H6P
C2
0 .22UF
20
6 .3v~r
X5R z\
0201 lj
I
N/C OK PER SEG 5/14/12
50_AP_BIBB HSIC1 DATA
50 AP BI BB HSIC1 STB
jC AP BI WLAN HSIC2 DATA
50 AP BI WLAN HSIC2 STB
JTAG_TRSTN IS N/C WITH ALCATRAZ
RDAR: //12963383
TRISTAR BI AP
JTAG SWDIO
16 TRISTAR TO AP JTAG SWCLK
1.8V TOLERANT
B0
NC
NC
A27
B27
AM33
AM34
D28
{
t
C28
F2|.
E29
D29
HI6
eg" m
o <h <n
CNJ CN] CM
Q
Q ÿ
a a
> >
2
J ÿ
u o ><
MUM
</) w w
X X X
ÿ
HSIC0_DATA
HSIC0 STB
n
CO
CNji
rH W
D <
— TT
ÿJ
U1
H6PPOP-1GB—DDR
HSIC VDD120
SC58 960X01-AO 3 0
FCMSP
I SYM 1 OF 13
HSIC1_DATA HSIC_VDD121 0MIT_TABLE
HSIC1_STB_|
HSIC2_DATA I HSIC_VDD122
HS IC2_STB_|
JTAG_SEL
JTAG__TRTCK
JTAG_TRST*
JTAG_TDO
JTAG__TDI
JTAG_TMS
JTAG_TCK
RESET*
CFSB
HOLD
RESET
FUSE1 FSRC
VDD1018_GRP3
i— I CN] O
CNJ CM CM
i—I i—I i— I
CO C/] CO
CO CO CO
>. > >.
I
u u u
H H H
CO CO CO
XXX
VDDIOIS GRP1
O
< CO
CO
5co
D
O - Q
u. ~ §
2 I I <
2 d H
X < cu ~
VO I I
~Q <C
Q
>
Q
Q
>
ml
<M
t mi
CM CM
Cu lu
o
CO
Slg,s
D CQ
CO
5 D
Q S|
m
VDDIQ18 GRP4
XI0
XOO
ANALOGMUXOUT
USB_DP
USB_DM
F25
E25
B29
T
PPiyi iinn
i
C35
- 0 .1UF
20%
6.3V
X5R-CERM
01005
ROOM-H6P
4 5 XTAL 2 4 M I
4':: XTAL 2 4 M O
NC N/C OK PER SEG 5/14/12
90 AP BI TRISTAR USB0 H6P P
A2 9 90 AP BI TRISTAR USBQ H6P
N/C OK PER SEG 5/14/12
12 23
TBD : XTAL PASSIVES WILL CHANGE ON H6P WITH FIRST HW
R7
l.OOM.
i%
1/32W
MF
01005
ROOM=H6P
ROOM=H6P
USB_ANALOGTEST NC
NOTE: REPLACING INDUCTORS WITH
OOHMS FOR PROT02 UNTIL VERIFY USB EYE
D23
USB_VBUS
USB VBUS DETECT 12 23
USB ID_Eÿ NC N/C OK PER SEG 5/14/12
USB REXT
E23
USB_REXT
WDOG
AD 4 AP TO PMU RESET IN 13
XR6
NOTE: NEW USB_REXT
200 VALUE FOR H6 = 200
i% OLD ( H5 ) VALUE: 44. >HM OHM
TST
AC 3
CLKOUT
AP TO PMU TEST Cl.KCUT
-
1;
1/32W
MF
AD
FAST SCAN CLK
- 01005
3
ROOM=H6P
TESTMODEK AB3_ 1 0
ROOM=H6P
R163
uPWV-005
BUILD
Ylf
1.60X1.2 0MM-SM —1— (— —i
2 4 .0 0 0MHZ-30PPM- 9 .5PF-60QHM|-
R71
,1.33k
1. - - 2 45 XTAL 24M O R
1% v v v MF
1/32W 01005
ROOM=H6P
T
ROOM=H6P
C36
12PF
5%
16V
CERM
01005
I C37
01005
USBHS ON/OFF TOLERANCE
90 AP BI TRISTAR USBQ P
ROOM=H6P
R164
tr.!i(WV
30 AP BI TRISTAR USBQ N
12PF
5%
16V
CERM
01005
ROOM=H6P
16
16
5V/1.98V
4 5_ XTAL_2 4M_GND
PCB:
AT
ROOM=H6P
XW4 4
SHORT-10L- 0 .1MM-SM
1Ī 1 2
PLACE THIS XW
Ul, NEAR XI/XO
c
B
cc
c\
X
A
8 7 6 5 4 3
8 7 6 5 4 3 2 1
H6P
DIGITAL I/O, BOOTSTRAPPING
R21
PP1V8 2 3 5 6 7 10 11 12 14 16 18 19
21 23
PP13
P2MM
1 SM
D
c
B
ÿ BUTTON TO AP MENU KEY BUFF L AC5
t BUTTON TO AP HOLD KEY BUFF L AB1
* BUTTON TO AP VOL UP L AB2
BUTTON TO AP VOL DOWN L AD1
ii c; SPKAMP TO AP INT L AD5
LI9A KEEP (STAYING) ALIVE — > i.AP TO SPKAMP BEE GEES
17 16 14 12 10 4 3 PP1V8 SDRAM
24 23
NOTE:
13 8.
R521
22 OK 4
5% „
1/32W «
MF
01005 o
BOARD
,«AP TO SPKAMP RESET L AF1
24 AP TO BT WAKE AE2
24 AP TO BB RST L AE5
BB__JTAG__TDI
BB JTAG TDO
ID3
BOOT CONFIGO
BOOT CONFIG1
DFU STATUS
BOOT_CONFIG2
BOOT CONFIG3
BOARD_REV3
BOARD_REV2
24 AP TO BB JTAG TPI
24 BB TO AP JTAG TDO
AF 3
AF 4
17 AP TO HEADSET HS 3 CTRL AF2
t, AP TO HEADSET HS 4 CTRL
nPMU TO AP
24
20.
IRQ L_ AG1
AG3
BUTTON TO AP RINGER A AG4
3. BOARD INFO AG5
13
18
18
19
19 li
24
3
22 3
BOARD_REV1
BOARD
REVO
THIS PULLUP + NET FOR NAVAJO
DAISY-CHAIN (PROTOlA/PROT02 )
TO BE DELETED FROM DESIGN
WHEN NAVAJO SILICON ARRIVES.
PULLDOWN NEEDED ON FORCE_DFU
FOR AO ROM. CAN BE REMOVED
WHEN GET B0 SILICON
RDAR: //12963383
AP TO BB WAKE MODEM AH3
NCÿiJ
AH4
AP TO PMU KEEPACT AJ5
TOUCH TO AP INT L AJ4
AP TO TOUCH GRAPE RESET L AK2
AP TO LCM RESET L API 3
LCM TO AP HIFA BSYNC AP 12
BB TO AP RESET DET L AR13
BOARD INFO AN14
FORCE DFU ATI 2
o CODEC TO AP INT L
NCÿli
NCÿ
AU13
24 AP TO RADIO ON L AP 15
; TCK *4 AP TO BB JTAG TCK AR14
; TMS AP TO BB JTAG TMS AT 14
BOARD INFO AT 15
BOARD INFO M AR1 6
BOARD INFO R AT 16
REMOVED AP_TO_NAVAJO NET
Ncfÿi—
REMOVED R146 PU FROM NAVAJO
RDAR//12853395
MAKE SURE THIS GPIO ISN'T FLOATING
GPIO0
GPIOl
GP102
GP 103
GP104
GPI05
GPI06
GPI07
GPI08
GP 109
GPIOl0
GPIOl1
GPI012
GPIOl 3
GPIOl4
GPIOl5
GPIOl6
GPIOl7
GPIOl8
GPIOl9
GP 1020
GP 1021
GP 1022
GP 1023
GPI024
GP 1025
GP 1026
GP 1027
GPI028
GPI029
GPIO30
GPI031
GP 1032
GP 1033
GPI034
GPI035
GPI036
GPI037
GPI038
OMIT TABLE
TTT
H6PP0P—1GB-DDR
SC5 8 9 60X01-AO 30
FCMSP
O
H
o
H
CO
Ci
*0
SYM 2 OF 13 2 cc
W|
CO
<— I
O
M
QQ>
CL
CC
°l
CO
«—i
O
M
Q
Q
>
oo cu
SC
CO
o
M
a Q>
TMR32_PWM0
TMR32_PWM1
TMR32 PWM2
UART0_RXD
UART0__TXD
UART1_CTSN
UART1_RTSN
UART1_RXD
UART1_TXD
UART2_CTSN
UART2_RTSN
UART2_RXD
UART2_TXD
UART3_CTSN
UART3_RTSN
UART3_RXD
UART3_TXD
UART4_ CTSN
UART4_RTSN
UART4_RXD
UART4_TXD
UART5_RTXD
UART6_RXD
UART6
TXD
ÿ31_ QgQAR BI AP TIME $YNQ HQ$T INT 20
AD34_ AP TO PMU VIBE PWM EN 12
10 45 AP TO CODEC I2S MCLK 1
CODEC
ROOM=H6P
R16
33 .2
1/32W
MF
01005
ASP
o
10
10
10
45 AP TO CODEC I2S MCLK R C30
45 AP TO CODEC ASP I2S0 BCLK AL32
AP TO CODEC ASP 12 SO LRCLK AL31
CODEC TO AP ASP I2S0 DIN AJ31
AP TO CODEC ASP I2S0 DOUT AK31
24 AP TO BB JTAG TRST L AL33
24 45 AP TO BB I2S1 BCLK AL34
AC32 45 AP TO TOUCH CLK32K RESET L 24 AP TO BB I2S1 LRCLK AK33
ls
BASEBAND
24 BB TO AP I2S1 DIN AJ32
DEBUG UART: TOLERANCE 1.98V
AR19 TRISTAR TO AP DEBUG UARTQ RXD 24 AP TO BB I2S1 DOUT AK34
16
AR18 AP TO TRISTAR DEBUG UARTO TXD 16
15 45 AP TO SPKAMP I2S2 MCLK
AL2 BT TO AP UART1 CTS L
AL4 AP TO BT UARTl RTS L
AK4 BT TO AP UARTl RXD
AK3 AP TO BT UARTl TXD
AL5
OSCAR TO PMU HOST WAKE 13 2o
AM3
AP TO OSCAR RESET L 20
AM2 OSCAR TO AP UART2 RXD 20
OSCAR
AMI AP TO OSCAR UART2 TXD
24
24
24
24
20
BT
ROOM=H6P
R5
33 .2
4 5_AP_TO_SPKAMP_12 S2_MCLK_R E30
ÿVÿT 10 AP TO. CODEC XSP I2S2_ BCLK AJ33
1/32W
MF
01005
CODEC XSP & SPKR AMP
15 10
15 10
15 10
AP TO CODEC XSP I2S2 LRCLK AJ34
CODEC TO AP XSP I2S2 DIN AH31
AP TO CODEC XSP I2S2 DOUT AH3 4
li ALS TO AP INT L AG31
BLUETOOTH
24 45 AP TO BT I2S3 BCLK AG3 2
24 AP TO BT 12 S 3 LRCLK
24 BT TO AP I2S3 DIN
24 AP TO BT 12 S3 DOUT
AN3 AP TO RCAM ORE EN 21
AN4 BB TO AP PP SYNC 16 13 TRISTAR TO AP INT AE31
24
API WLAN TO AP UART3 RXD
io 24
4? AP TO CQpEC VSP BCLK AF33
WIFI UART
AN1
AE32
AP TO WLAN UART3 TXD 24
CODEC VSP
CODEC TO AP VSP I2S4 DIN AD 3 1
AV3
BB TO AP UAfiT 4 QT$ I, 24
AU3
AP TO_BB UART4 RTS L 24
BB
AT 3 BB TO AP UART 4 RXD 1S
AT2 AP TO BB UART 4 TXD
AM5 AP BI BATTERY SWI
W31
24
6 24
ACCESSORY UART: TOLERANCE 1.98V
TRISTAR TO AP ACC UART 6 RXD 16
16
REMOVED PU FROM NAVAJO
RDAR//12853395
17 AP TO NAVAJO SPI2 CLK
ROOM=H6P
R399
33.2
PMr
1%
1/32W
MF
01005
10
10
BOARD_ID2
B0ARD_ID1
BOARD_IDO
REMOVE LCM TO AP PIFA RDAR: //12858364
GRAPE
NAVAJO
18 TOUCH TO__AP_SP11 MISO
AH33
AF31
AG3 4
AP TO CODEC -VSP. I2S4 DOUT AE33
NCÿC.
AU5
18 AP TO TOUCH SPI1 MOSI AV4
18 AP TO TOUCH SPI1 CLK AU4
18 AP TO TOUCH SPI1 CS L AR5
NAVAJO TO AP SP 12 MISO AU 6
17 AP TO NAVAJO SPI2 MOSI AR6
AP TO NAVAJO SPI2 CLK R AP7
NAVAJO TO PMU INT H AN8
10 CODEC TO AP SPI3 MISO AV10
CODEC 10 AP TO CODEC SPI3 MOSI ANl 2
10 AP TO CODEC SPI3 CLK ATI 0
10 AP TO CODEC SPI3 CS L AP 11
12 S0_MCK
12 S0_BCLK
12 S0_LRCK
12 S0_DIN
12 SO_DOUT
I2S1_MCK
12Sl_BCLK
I2S1_LRCK
12 S1_DIN
I2S1_D0UT
12 S2_MCK
12 S2_BCLK
12 S2_LRCK
12 S2_DIN
12 S2_DOUT
12 S3_MCK
12 S3_BCLK
12 S3_LRCK
12 S3_DIN
12 S3_DOUT
12 S4_MCK
12 S4_BCLK
12 S4_LRCK
12 S4_DIN
12 S4_DOUT
SPI0_MISO
SPI0_MOSI
SPI0_SCLK
SPI0_SSIN
SPI1_MISO
SPIl_MOSI
SPI1_SCLK
SPI1_SSIN
SPI2_MISO
SPl2_MOSI
SPI2_SCLK
SPI2_SSIN
SPI3_MI SO
SPI3_MOSI
SPI3_SCLK
SPI3
SSIN
U1
OMIT TABLE
H6PPOP-1GB-DDR
< DD
M
O
CO
SC5 8 9 60X01-AO 30
FCMSP
SYM 3 OF 13
Q 7)
•U
K>
04
CU
cc
U|
CO
•— I
o
M
Q
Q
>
CO
VDDIOl 8
GRP2
o.
cc
o
CO
r-H
o
M
a
>
I2C0_SCI
I2C0_SDA
I2C1_SCL
I2C1 SDA
I2C2_SCL
I2C2 SDA
SCL
SDA
DWI_CLK
DWI_DI
DWI_DO
SEP_7816UART 0_RST
SEP_7816UART0_SCL
SEP_7816UART0_SDA
SEP_78 16UART 1_RST
SEP_78 16UART1_SCL
SEP
7816UART1 SDA
S10_7816UART0_RST
S IO_78 16UART0_SCL
S10_7816UART 0_SDA
SI0_78 16UART 1_RST
S IO_78 16UART1_SCL
SIO 7816UART 1 SDA
VDDI018 GRP1
SOCHOTO
SOCHOT1
DISP VSYNC
2 .2
5
1/32W 1/32
1/32 1/32
MF
PP15
01005 01005
01005 01005
P2MM
Mc
W30
W32
AP TO OSCAR SWDCLK 1V8 20
AP BI OSCAR SWDIO 1V8 20
AP19 4 5 AP TO PMU DWI CLK 1:
-ÿ&c
ATI 9 45 AP TO PMU DWI DO
-ÿNC
AP3
AP2
-ÿNC
-ÿNC
NC
3 14
13 14
AP TO EEPROM I2C SCL 16
AP BI EEPROM I2C SDA 16
EEPROM
AB33 BB TO AP HSICl REMOTE WAKE 24
AA31
AB31
AA33
_ BB TO AP HSICl RDY 24
_ AP TO BB HSICl RDY 24
WLAN TO AP HSIC2 REMOTE WAKE 24
_ AA32 _ WLAN TO AP HSIC2 RDY 24
AA34 AP TO WLAN HSIC2 RDY
AP 18 SOCHOTO 16
AP 17
24
AP TO I2C0 SCLn 14 15 16
AP BI I2C0 SDA 1 ÿ
14 15 16
AP TO I2C1 SCL n
AP
BI I2C1 SDA li
-Mc PLACE PP300 IN MOJAVE AREA TO SEE BRINGING SOCHOTO THERE
RDAR:// 1305714 9
AP TO PMU SOCHOT1 H6P
CHANGE R93 TO XWLINK XW93 TO STILL ENABLE PROBING
REMOVED R53 (HAS BEEN NOSTUFF SINCE EVT1)
RDAR://12963380
PLACE XW93
XW93
SM
ON OUTER LAYER
AP TO PMU SOCHOT1 13
D
c
B
FORCE DFU
XR162
10 OK
5%
1/32W
MF
01005
NOSTUFF
MENU & POWER / HOLD KEY BUFFER
23 12 PP1V8 ALWAYS
A
BOOTSTRAPPING ( BOARD_REV, BOARD_ID, BOOT_OFG)
PCB: PLACE THIS TOP SIDE,
NORTH END OF SINGLE_BRD
BOARD_REV [ 3:0 ] = { GPI034, GPI035, GPI036, GPI037}
FLOAT=LOW,
1111
1110
1101
1100
1011
1010
PULLUP=HIGH
PROT02/2A, TRISAR/L19
EVT1 MAIN BUILD
EVT1 MESA BUILD
EVT1A MESA BUILD
E1B MAIN BUILD
E1C MAIN BUILD <---SELECTED (NOSTUFF R3000 & STUFF R3001)
BOARD_ID [3:0] = { GPIOl6, SPIOO_MISO, SPIO_MOSI, SPI0_SCLK}
FLOAT=LOW,
PULLUP=HIGH
0000 XI4 5 MLB
0001 XI4 5 DEV
0010 XI52 MLB
0011 XI52 DEV
<---SELECTED
COMMON PULL UP FOR BOARD_REV, BOARD_ID AND BOOT_CONFIG PINS
•>
BOARD INFO
BOOT_CONFIG [3:0] = { GP 1029_CONFIG3,GP 1028_CONF IG2,GP 1025_CONFIGl,GPIOl8_CONFIG0 }
FLOAT=LOW,
PULLUP=HIGH
0000 SPI0
0001 SPI0 TEST MODE
0010 NAND
0011 NAND TEST MODE <---SELECTED
_ ££1y£ 2 3 5 6 7 10 11 12 14 16 18 19
|
21 23
R12
1.00K
1/32W
01005
R12 MUST WIN OVER 6X INTERNAL PULL-DOWNS THAT ARE
_ BOARD INFO 3
BOARD
INFO R
ÿ3000
o .00
0%
1/32W
MF
01005
NOSTUFF
_ BOARD INFO 3
2R3 0 01
o .00
o%
1/32W
MF
„ 01005
100K
PCB: PLACE THIS BOTTOM SIDE,
SOUTH END OF SINGLE BRD
BUTTON TO AP
2io" DPP1V8 SDRAM
16 14 12
392K
1/32W
01005
HOLD KEY L ÿ
3 92K
1/32W
01005
7 BUTTON TO AP MENU KEY L
Nd_
NG-L
U25
7 4LVC1G34GX
SOT1226
4 BUTTON TO AP HOLD KEY BUFF L 3 13
U2 6
74LVC1G34GX
SOT1226
4 BUTTON TO AP MENU KEY BUFF L 3 13
BOARD
INFO M
8 7 6 5 4 3
8 7 6 5 4 3 2 1
ÿ
H6P GND, VDDCA, VDDl/2, VDD , VDD_CPU, VDD GPU
VDDCA, VDD1/ 2, VDDQ VDD VDD_CPU, VDD_GPU
D
c
B
2 1 PP""
C41
0 .1UF
20%
6. 3V
X5R-CERM
01005
ROOM=H6P
23 21 12
24 RESET 1V8 L
t
NOTE: CKEIN CONFIRMED 1.8V TOLERANT
ON 5/6/12, BY MANU G
OMIT TABLE
(DDR
2R7 3
• 243
ÿ
i%
;
• 1/32W ,
MF
2 01005
ROOM=H6P
XR7 2
ÿ
243
ÿ
i%
- 1/32W
MF
? 01005
ROOM=H6P
OMIT TABLE
IMPEDANCE CONTROL)
i C285
- 4 . 3UF_
— 20%
4V
2?
X5R-CERM
0610
ROOM=H6P
T
C53
- 1UF
ÿ
20%
4 V
X6S
0204
ROOM=H6P
45 DDRQ ZQ
45 DDR1 ZO
PP1V8 SDRAM
17 16 14 12 10 3.
T C57
4 .3UF
20%
4 V
X5R-CERM
0610
ROOM=H6P
PP1V2
4 2 1
T
T
t
C49
1UF
T20%
4 V
X6S
0204
ROOM=H6P
Fi C59
0 .47UF
— 20%
? 4 V
2 X7S
0204
ROOM=H6P
C5000U C302
15PF 4 .3UF
5%
20%
16V
4 V
2 NP0-C0G-CI:£m X5R-CERM
01005
C43
1UF
20%
4 V
X6S
0204
ROOM=H6P
h C48
0610
ROOM=H6P
1
C40
- 1UF
I20%
4 V
X6S
0204
ROOM=H6P
— 11— 0 .47UF
f1 C 6 0
20%
4 V
X7S
0204
ROOM=H6P
— 1L 0 .47UF'
20%
4 V
X7S
0204
ROOM=H6P
AP22
U32
AP23
U31
AU15
AC 3 3
Fll
T 4
AU17
4.45 DDR1 VREF CA Y33
4 45 DDRO VREF QO
D14
4 45 DDR1 VREF DQ U4
AB34
AF34
AV12
AV21
R34
'34
AC2
10
AUl 4
AU20
AU22
AV17
C4
C8
CI4
• 24
AE34
AUl 2
OJ19
AV2 2
A8
F1
J1
LI
Nl
A10
A12
A15
A17
.19
AC 1
AL1
DDR0_CKEIN
DDR1 CKEIN
DDR0.
DDR1.
DDR0.
DDR1
DDR0.
DDR1.
DDR0.
DDR1.
DDR0.
DDR1
VDD_CKE ( <IMA)
_VDD_CKE ( <1MA )
_RREF_CA
RREF_CA
_RREF_DQ
_RREF__DQ
VREF_CA
VREF_CA
VREF_DQ
VREF_DQ
(CURRENT CONSUMPTION
SHARED WITH VDDIOD)
VDDCA
(500MA)
VDD2
(45MA PULLED BY H6)
VDD1
(CURRENT CONSUMPTION
SHARED WITH VDDIOD)
VDDQ
OMIT TABLE
U1
H6PPOP-1GB-DDR
SC58960X01-AO30
FCMSP
SYM 7 OF 13
VSS
G30
G31
G33
HI
H2
H3
H4
H5
H25
H27
H29
H32
J2
J3
J4
J5
J6
J8
J10
J12
J14
J16
J18
J20
J22
J24
J2 6
J2 8
J30
J31
Kl
K2
K3
K4
K5
K7
K9
Kl1
Kl3
Kl5
Kl7
Kl9
K21
K2 3
K25
K27
K2 9
K31
K34
L2
2 3 12 pfiYip
r
nor
CI7 7
4 .3UF
20%
4 V
X5R-CERM
0610
ROOM=H6P
C282
1UF
20%
4 V
CERM
0402
1 3
ROOM=H 6P
CI7 4
0 .47UF
1'-
20%
6.3V
CERM
-
0402
3
T
CI4 1
4 .3UF
20%
4 V
X5R-CERM
ÿA7_
ROOM=H6PI
i
AAl 7
0610
.19
L2 9
M28
1
CI60
P26
4 .3UF
R25
- 20%
4V
15
2 X5R-CERM
0610
V22
ROOM=H6P
AB30
AH20
ROOM=H6P
CI6 9
1UF
20%
K20
4V
CERM
K22
0402
ÿ
:24
1 3
K26
2
_L
LI1
Ll3
ROOM=H6P
CI6 6
0 .47UF
20%
6.3V
CERM
0402
1
—' 3
L25
Z 2 4
L27
X i
Nil
Nl3
Nl5
N17
10
P12
P18
P2Q
P22
.11
R13
R15
R17
R19
:21
12 45_BUCK2_FB V31
VDD
(VDD
VDD_SENSE
U1
H6PPOP-1GB-DDR
SC58960X01-A030
FCMSP OMIT TABLE
SYM 10 OF 13
BALLS = VDD_SOC
2, 50 0MA FOR VDD_SOC
0125C
01.OV
(THERMAL VIRUS)
VDD
T1
Tlÿ
T18
U7|
Ulÿ
U19
Vlÿ
VI 6
W7|
W17
AF30
AN18
AK<
AK2 0
AK30
al;
AN 9
H2
H28
J7
J17
J19
K8
Kl0
23 12 gUU
r
C151
•
OUF
20%
6.3V
CERM-X5R
0402-2
P,OOM=H6P
23 12
?ivi fni t
C75
1OUF
20%
6.3V
CERM-X5R
0402-2
ROOM=H6P
ROOM=H6P
C87
1UF
20%
4 V
CERM
0402
1 --- --3
V4
ROOM=H6P
C100
0 .47UF
20%
6.3V
CERM
0402
1
ROOM=H6P
C124
0 .47UF
20%
6.3V
CERM
0402
r
C68
4 .3UF
20%
4 V
X5R-CERM
0610
ROOM=H6P
ROOM=H6P
Cl2
1UF
20%
4 V
CERM
0402
ROOM=H6P
04Q2
ROOM=H6P
C122
0 .47UF
20%
6.3V
CERM
0402
1 3
1
ROOM=H6P
C121
0.47UF
20%
6.3V
CERM
0402
I
CI0 7
4 .3UF
20%
7
4 V
X5R-CERM
0610
PxOOM=H6P
r
C80
1OUF
20%
6.3V
CERM-X5R
0402-2
ROOM=H6P
C133
4 .3UF
20%
4 V
X5R-CEPM
0610
ROOM=H6F
ROOM
0402
ROOM=H6P
C97
0 .47UF
>-
20%
6.3V
CERM
0402
1
2
_L
-
3
ROOM=H6P
Cl12
0 .47UF
20%
6.3V
CERM
0402
12
2
1
Cl52
4 .3UF
20%
4 V
X5R-CERM
0610
45_BUCK0_FB
r
1UF -
20%
4 V
X6S
Cl7 3
0204
ROOM=H6PI AA21
AA2 3
AA25
AA27
.2 9
ÿB22
AB24
AB26
AB28
2 1
AC23
AC25
ÿ27
AC29
AD22
'27
ÿE29
AF22
AF25
AF27
AG23
AH22
AJ21
AJ2 3
'25
AJ27
AJ2 9
22
AK24
AK2 6
:28
AL21
AL27
W21
W23
f25
W27
W2 9
Y22
Y24
Y26
'28
AL2 9
VDD_CPU
1 Cl53
- 1UF
— 20%
4 V
z2
X6S
0204
_
ROOM=H6P
C158-
1UF\
20% )
4 V /
CERM
0402 '"t
ROOM=H6P
r
L
U1
H6PPOP-1GB-DDR
SC58 960X01-AO 30
FCMSP OMIT_TABLE
SYM 13 OF 13
10,80OMA FOR CPUO+1
0125C
01.1V/1.2GHZ
AN30 vnn SENSE CPU
Cl61
0 .47UF\
20% )
6.3V /
CERM
0402 <•
ROOM=H6P
7,50 OMA FOR G3 GPU
0125C
01.IV
VDD
GPU
ro
T
CN 4
C14 2
0 .1UF
20%
6.3V
X5R-CERM
01005
ROOM=H6P
ACÿ3
AC 15
ADt
AD14
AE15
AFt
AF16
AGt
AG7
AH1
AH;
al:
AL9
AM6
Y 1
A
mmm
CI0 6
0 .01UF
10%
6.3V
X5R
01005
ROOM=H6P
C10 8
0 .01UF
10%
6.3V
X5R
01005
ROOM=H6P
1/32W
01005
ROOM=H6P
45 DDR0 VREF CA
XR2 8
10K
• i%
'
1/32W
MF
9 01005
ÿ
ROOM=H6P
r
cm
0 .01UF
10%
6.3V
X5R
01005
ROOM=H6P
CI13
0 .01UF
10%
6.3V
X5R
01005
ROOM=H6P
ÿ
*R2 9
10K
i%
1/32W
MF
01005
ROOM=H6P
45 DDR1
2R3 0
1OK
• i%
• 1/32W
MF
2 01005
ROOM=H6P
VREF
CA
23 12 5 4 2
CI14
0 .01UF
10%
6.3V
X5R
01005
ROOM=H6P
CI17
0 .01UF
10%
6.3V
X5R
01005
ROOM=H6P
*R31
4 .7K
i%
1/32W
MF
01005
ROOM=H6P
45 DDRQ VREF DO 4
2R32
• 4 .7K
• i%
•
1/32W
MF
2 01005
ROOM=H6P
CI18
0 .01UF
10%
6. 3V
X5R
01005
ROOM=H6P
CI2 0
o .01UF
10%
6.3V
X5R
01005
ROOM=H6P
XR3 3
4 .7K
i%
1/32W
MF
01005
ROOM=H6P
!R34
• 4 .7K
• 1%
• 1/32W
MF
45 DDR1 VREF DO
? 01005
ÿ
ROOM=H6P
VDD GPU SENSE
AA5 45 BUCK1 FB — 12
8 7 6 5 4 3
8 7 6 5 4 3 2 1
D
C
B
A
H6P (GND, VDDI018, VDDIOD, VDD_SRAM, VDD_SOC)
AN32
AN3 3
AN3 4
AP 6
AP20
AP21
AP24
AP25
AP26
AP27
AP28
AP29
AP30
AP31
AP32
AR3
AR8
AR12
AR15
ARl 7
AR2 0
AR21
AR22
AR23
AR2 4
AR2 5
AR2 8
AR2 9
AR32
ATI
AT 4
AT 6
AT 2 0
AT 21
AT22
AT 2 3
AT 2 4
AT 2 5
AT26
AT 2 7
AT 2 8
AT 2 9
AT 3 0
AT 31
AT 32
AU1
AU2
AU11
AU16
AU18
AU21
AU33
AU34
AV1
AV2
AV9
AV11
AV14
AVl 6
AV18
AV2 0
AV33
AV34
B1
B2
B4
B5
B6
B7
B8
B9
BIO
Bll
Bl2
Bl3
Bl5
Bl6
Bl7
Bl8
Bl9
B25
B28
B30
B33
B34
CI
C2
C3
C5
C 6
C7
C 9
VSS
U1
H6PPOP-1GB—DDR
SC5 8 9 60X01-AO 3 0
FCMSP
SYM 12 OF 13
OMIT TABLE
JUST A FEW GNDS VDDIOD, VDDI018
VSS
C10
A1
Ul
Cll 1 I A2 AF23 1
H6PPOP— 1GB—DDR
SC58 9 6 0X01-AO 3 0
FCMSP
AF21
c12 i I A3 AF2 9 ÿ
CI3 T rL
A 4 AF32 ÿ
CI5 ! I A5 SYM 11 OF 13 AG2
C16
i ir
A7 AG8
C17 X T A9 AGIO ÿ
CI8 T 1 AH
OMIT_TABLE
AG12
CI 9 T T A13 AG14 T
C22 T T A14 AG16 ÿ
C23 T i A16 AG18 T
C2 4 [ i Al 8 AG2 0 ...
c26 I I A2 5 AG2 2
C27 T A28 AG2 4
ÿ
C29 T T A30 AG2 6 i
C31 1 T A33 AG2 8 T
01
T A34 AG30 A
t
aai AH 5
D2 [ 1
D3 T 1 AA2 AH 7 ÿ
D4 t 1 AA3 AH9 A
D5 „l 1 AA4 AH11 „
D6 T it
AA8 AH13 ..
D7 T i AAI 0 AH15
ÿ
D8 T I AA12 AH17 ÿ
D9 T 1 AAI4 AH19 ÿ
DiO I 1 AAI 6 AH21
D11 i AAI 8 AH2 3
D12 I fl
AA22 AH2 5
D13 T I AA2 4 AH2 7
D15 J,, 1 AA2 6 AH2 9
D16 T it
AA2 8 AH32
D17 T I AA30 AJ1
D18 T I AB5 AJ3 T
D19 T i
AB7 AJ8
D20 1 J, AB9 AJ10
D21 f i AB11
D22 T 1 AB13
VSS
VSS
AJl 2
AJ14
D32 T it
abi 5 AJl 6
El 1 T ABI 7 AJl 8
E3 T ! ABI 9 AJ22 T
E4 1 T AB21 AJ2 4 T
E5 T i AB2 3 AJ2 6
E6 1 i AB2 5 AJ2 8
E7 1 AB2 7 AJ30
E8 T i AB2 9 AK5
E9 T T AB32 AK7 T
E10 T f AC4 AK9
Ell T 1
AC 8 AK11 T
El2 I I AC 10 AK13_ T
El3 T ! AC 12 AKl 5
El4 1 1, ACl 4 AK17
El5 1 i ACl 6 AKl 9
El8 T I ACl 8 AK21
El9 1 j. AC2 0 AK23
E20 T i AC 2 2 AK2 7 T
E21 T IAC24 AK2 9
E22 1 1 AC 2 6 AK32
E31 T T AC 2 8 AL3
E32 f i AC30 AL6
E34 I 1 AC 3 4 AL8
F2 T 1 AD2 ALIO ÿ
F3 T I AD 7 AL12 T
F4 1
I
AD9 AL14 T
F5 T T ADll AL16 1
F6 T I AD13 AL18
F7 T i AD 15 AL2 0
F8 1 J, ADl 7 AL2 2 ÿ
F9 J ri
ADl 9 AL2 4 1
F10 i 1 AD2 1 AL2 6 ÿ
F12 1 T AD23 AL28 ÿ
F13 T T AD25 AL30 ÿ
F14 1 I AD2 9 AM4
ÿ
F15 T i
AD 3 2 AM7
F2 6 1 fi
AE3 AM18 ,,
AE8 AM30
F30 I i
F31 I j, AE10 AN2
G1
I I AE12 AN5
G3 T 1 AE14 AN7 T
G4 T 1 AE16 AB6
G5 T 1 AE18 AM9
G6 T T AE22 AMI1
G7 ], j. AE2 4 AMI3
G8 1 J AE2 6 ANl 6 ÿ
G9 J,
r.
AE2 8
AMI5
G10 T T AF5 ANl 9
Gil 1 1 AF7 AN2 0 i
G12 T 1 AF9 AN21
ÿ
G13 T T AFll AN2 2 jv
G14 T I AF13 AN2 3 ...
Gl5 J 1 AFl 5 AN2 4
G2 6 T i AFl7 AN31
G28 I I AFl 9
ÿ
23 12 4 2
PP1V2
CAPS FOR VDDIOD ARE SHARED WITH VDDQ
CAPS FOR VDDIOI 8_X ARE SHARED WITH VDDIODX
14 12 11 30 7 6 5 3 2
23 21 19 18 16
— 20%
6.3V
9
* X5R
402
ROOM=H6P
i C86
- 1UF
— 20%
z? 4V
X6S
0204
ROOM=H6P
IC78
T
1UF
20%
4 V
X6S
0204
ROOM=H6P
Ti C95
0 .47UF
20%
4 V
X7S
0204
ROOM=H6P
ROOM=H6P
FL67
lKOHM-25%— 0 .2A
rrrvLÿ
0201
23 PP1V8 XTAL
C379
1.0UF
20%
10V
0z
X5R-CERM
0201-1
ROOM=H6P
AM2 0
AM21
AM2 4
AMI2
AMI4
AMI 6
AMI 9
30
AH 30
G2
VDDIOD
VDDIOD
DDR0CA
DDR1CA
VDD IOD_DDRDQ
(1000MA)
OMIT_TABLE
U1
H6PPOP-1GB—DDR
SC58960X01-A030
FCMSP
SYM 9 OF 13
VDD1018_GRP1 < 65MA)
( GP IO, UART, SPI,I2C )
( SENSOR, SOCHOT, PMU)
) VDDIOI 8_GRP2 (20MA)
( 12S,TMR, SIO, GP IO, UART)
VDD IOl8_GRP 3 (3 IMA)
(PPN,GPIO, JTAG)
VDDIOI 8_GRP 4 ( 2MA)
(XTAL I/O)
VSS
R33
T 1
T2
T3
T5
T7
T9
Til
T13
T15
Tl 7
T19
T21
T23
T25
T27
T30
T31
T32
T33
T34
U3
U5
U8
U10
U12
Ul4
U18
U20
U22
U24
U26
U28
U30
U34
V2
V3
—
V4
V5
vi.
V9
Vll
VI 3
VI 5
VI 7
VI 9
V21
V2 3
V2 5
V2 7
V30
V32
V34
W1
W2
W3
W4
W5
W8
W10
W12
W14
Wl 6
W18
W20
W22
W24
W2 6
W28
W33
Y2
Y3
Y 4
Y5
Y7
Y 9
Y 11
Y13
Y15
Y17
Yl 9
Y21
Y23
Y27
Y29
Y32
AMI 7
Y30
AC 6
AE6
AG6
AJ6
AE30
t
•jpiwn c:ijflM
L
C81
- 1UF
" 20%
>
4V
- X6S
0204
ROOM=H6P
i
T
C91
0 .47UF-
20%
4 V
X7S
0204
ROOM=H6P
PP1V8
16 14 12 11 10 7 6 5 3 2
23 21 19 1
VDD_SRAM,
r
C305
4 .3UF
20%
4 V
X5R-CERM
0610
ROOM=H6P
r
r
1 CI15
- 1UF
- 20%
4V
?- X6S
0204
ROOM=H6P
CI3 4
0 .47UF
20%
4 V
X7S
0204
ROOM=H6P
T
C85
0 .1UF
20%
6.3V
X5R-CERM
01005
ROOM=H6P
AJ2 0
VDD_ SOC
Ul
H6PPOP-1GB—DDR
SC5 8 9 60X01-AO30
FCMSP
SYM 8 OF 13
OMIT TABLE
VDD_SRAM_CPU
1,500MA FOR CYCLONE + M$ SRAM
0125C
01.0V
VDD
(1500MA)
SRAM SOC
VDD_ANA_TMPSADC0
(2 .5MA)
VDD_ANA_TMPSADC1 (2 .5MA)
VDD_ANA_TMPSADC2 (2 .5MA)
VDD_ANA_TMPSADC 3 <2 .5MA)
VSS
L4
L5
L6
L8
L1Q
L12
LI4
LI6
LI8
L20
L22
L24
L2 6
L28
L30
L33
Ml
M2
M3
M4
M5
M7
M9
Mil
Ml3
M15
Ml7
Ml9
M21
M23
M25
M27
M2 9
M31
N2
N3
N4
N5
N8
N10
N12
N14
N16
Nl8
N20
N22
N24
N2 6
N28
N30
N33
PI
P2
P3
P4
P5
P7
P9
Pll
P13
PI5
P17
PI9
P21
P23
P25
P27
P29
R2
R3
R4
R5
R8
R10
R12
R14
R16
R18
R20
R22
R24
R2 6
R28
R3Q
R31
8 7 6 5 4 3
8 7 6 5 4 3 2 1
ÿ
H6P NAND + 12X17 NAND PKG
SUPPORT FOR PPN1.5 (1.8V 10) ONLY
D
D
C
12 11 10 7 6 5 3 2 p P - V C
23 21 19
AP TO NAND ANCO CENO L
AP BI NAND ANCO IQ<0>
2R7 8
1o OK
ÿ
• 5%
- 1/32W
MF
? 01005
ROOM=H6P
NC
G32
B32
6 AP BI NAND ANCO I0<1> C32
6 AP BI NAND ANCO IO<2> C33
6 AP BI NAND ANCO IO<3> C34
6 AP BI NAND ANCO IO<4> F32
6 AP BI NAND ANCO IO<5> F33
6 AP BI NAND ANCO IO<6> F34
6 AP BT NAND ANCO IO<7> G34
PPNO.
PPNO
PPNO.
PPNO.
PPNO.
PPNO.
PPNO.
PPNO.
PPNO.
PPNO
CENO I
CEN1
.100
.101
102
.103
.104
.105
.106
107
U1
H6PPOP-1GB-DDR
SC58960X01-AO30
FCMSP
SYM 4 OF 13
OMIT TABLE
VDDIOl 8 GRP 3
PPN1 CENO
PPN1 CEN1
PPN1
PPN1
PPN1
PPN1
PPN .
PPN .
PPN1
PPN1
R32
M34
NC
2R82
10 OK
ÿ
5%
- 1/32W
MF
o 01005
ROOM=H6P
AP TO NAND ANC1 CENO
1
CI3 6
- 0 . 01UF
- 10%
0 6.3V 2 X5R
01005
R00M=H6P
1
CI4 4
- 0 . 01UF
— 10%
0 6 .3V 2 X5R
01005
R00M=H6P
ÿ
XR137
5 OK
• i%
• 1/32W
MF
9 01005 z R00M=H6P
AP TO NAND ANC DOVREF
2R143
5 OK
- i%
• 1/32W
MF
9 01005
* R00M=H6P
AP BI NAND ANC1 IQ<0>
M33 .ANCl I0<1>
L32 AP BI NAND ANC1 V C\] A
6 AP BI NAND ANCO IQ<0>
6 AP BI NAND ANCO I0<1>
6
6
AP BI NAND ANCO IQ<2>
AP_B I_NAND_ANC0_IO<3>
AP BI NAND ANCO IO<4>
AP BI NAND ANCO IO<5>
AP BI NAND ANCO IO<6>
AP BI mw ANCO J. O < 7>
f
C50
2 .2UF
20%
4 V
X5R-CERM
0201
ROOMÿNAND
M32 AP BI NAND ANC1 IO<3> N3
K32 AP BI NAND ANC 1 IO<4> N5
J32 AP„„BI NAND ANCl IO<5> L7
H33 AP BI NAND ANC1 oV <£) A
o
G3
H2
J3
K2
L5
K6
J5
H6
G1
LI
H &7
H34 AP BI NAND ANCl IO<7> G7
VDDI
IOO-O
IOl-O
IO2-0
IO3-0
IO4-0
IO5-0
IO6-0
107— 0
IOO-l
101-1
102-1
103-1
104-1
105-1
106-1
107-1
1000MA
VCC
CI8 0
0 .47UF
20%
4 V
X7S
0204
ROOM=NAND
VCCQ
U4
LGA-12X17
Hi
Q
OI
A
H
z
Oa
cu
L
O
h
21
X)
5 0 0MA
20%
4V
X6S
0204
ROOM=NAND
r
C185
1UF
i20%
4 V
X6S
0204
ROOM=NAND
i C376
2 .2UF
20%
4 V
X5R-CERM
0201
ROOM=NAND
OMIT_TABLE
ROOM=NAND
CEO*
CLEO
ALEO
WEO *
REO
REO*
DQSO
DQSO*
R/BO*
CE1*
CLE1
ALEl
WEI*
T
I
T
15UF
20%
4V
X5R
0402
CI82
10UF
T
20%
6.3V
CERM
0402
C377
ROOM=NAND
ROOM=NAND
T
i C378
15UF
T20%
4 V
X5R
0402
ROOM=NAND
A5
c—-
A3 AP TO NAND ANCO CLE
CI AP TO NAND ANCO ALE
oE3
AP TO NAND ANCO WE L
-ÿ4<
nC7 NC 45 AP TO NAND ANCO RE L
J
H4 45 AP BI NAND ANCO DOS
3—4<
E5
NC
NAND
RDYBSYO
C5
C3~ AP TO NAND ANCl CLE
D2 AP TO NAND ANCl ALE
ÿE1
J
AP TO NAND ANCl WE L
TC307
T
10UF
20%
6.3V
CERM
0402
ROOM=NAND
t
i C99<
- 10UF
— 20%
10V
9
2 X5R-CEFH
0402-1
ROOM=NAND
TC209
T
10UF
20%
6.3V
CERM
0402
ROOM=NAND
NOSTUFF
2R160
10 OK
5%
• 1/32W
MF
9 01005 2 ROOM=NAND
T
CI8 7
10UF
20%
6. 3V
CERM
0402
ROOM=NAND
NOSTUFF
2R161
10 OK
5%
1/32W
MF
9 01005 2 ROOM=NAND
_PP_3\
SBW «-.
c
B
i
I
R153
240 ,
1%
1/32W
MF
01005
ROOM=H6P
6AP TO NAND ANCO ALE A3 1
«AP TO NAND ANCO CLE B31
6ap TO NAND ANCO WE L A32
6 45 AP TO NAND ANCO RE L D33
e4 5 AP BI NAND ANCO DOS D34
45 AP PPNQ ZO
E33
«AP TO NAND ANC DOVREF
D31
PPNO_ALE
PPNO_CLE
PPNO_WEN
PPNO_REN
PPNO_DQS
PPNO_ZQ
PPNO VREF
PPNl ALE
PPN1_CLE
PPN1_WEN
PPN1_REN
PPN1_DQS
PPN1_ZQ
PPNl VREF
N34 AP TO_NAND ANC 1_ALE
P31 AP TO NAND ANC1 CLE
N32 AP TO NAND ANC1 WE L
L31 45 AP TO NAND ANC1 RE L
L34 45 AP BI NAND ANCl DOS
K33 45 AP PPNl y.Q
N31 AP TO NAND ANC DOVREF
R55
240 o
-Wv-
mavn
1/
MFl
01005
ROOM=H6P
ROOM=NAND
PP17
P2MM
SM
>P]
PP19
P2MM
ROOM=NAND SM
NAND TO PP TCKC OAO
NAND TO PP TMSC OBO
TCKC
TMSC
Csj
CO
VSS
X
mu
X
I
2
Z
XX
VSSQ
KD 07 r- CS] o o CO O CO
Lu J < 2 U Q U U, O
o O O o\
RE1
NC
REl* 4 5 AP TO NAND ANCl RE L
cD6
DQS1
DOS1*
R/BI*
VREF
ZQ
M4 45 AP BI NAND ANCl DOS
AA<nc
12_ NAND RDYBSY1
G3 KP TO NAND ANC DOVREF
Al 45 NAND PPN ZO
R8
243
-—WV
1%
1/32W
MF
01005
ROOM=NAND
1
B
NOTE: NAND PADS SHOULD BE SHIELDED FROM TRACES WITH A GROUND PLANE
PP2
P2MM
ROOM=H6P SM
1
ROOM=H6P
ROOM=H6P
NOTE: IO<6> PREFERRED BY MATT BYOM
(IS A STATUS READY BIT)
AP BI NAND ANCQ TQ<6>6
SM
45 AP TO NAND ANCO RE L
SM
ra 1 45 AP BI NAND ANCO DOS 6
PP 3
P2MM
PP 1
PP10
P2MM
A
8 7 6 5 4 3
8 7 6 5 4 3 2 1
H6P HIGH SPEED DIG (CAM, LCD r DP)
D
D
c
B
PP1V0
23 12 7 2,
CI90
• 1UF
• 20%
4 V
X6S
0204
ROOM=H6P
;4 BB TO AP IPC GP10 AN10
REMOVE ALS_TO_AP RDAR:/ / 12 82 8 034
15
21
AP TO LEDDRV EN
NC —
AR10
CAM EXT LDO EN AP 10
ENABLE FOR EXTERNAL CAMERA LDO ( RDAR:/ / 13 0 97 0 8 5 )
2i 90 RCAM TO AP MIPI DATAO P _
21 90 RCAMTO AP_MIPI_DATAO_N
;1 9 0 RCAM TO AP MIPI DATA1 P
2i 90 RCAM TO AP
MIPI DATAl N
21 90 RCAM TO AP MIPI DATA2 P
21 90 RCAM TO AP MIPI DATA2 N
2i 9 0 RCAM TO AP MIPI DATA 3 P
21 90 RCAM TO AP MIPI DATA3 N
2i 90 RCAM TO AP MIPI CLK P
2i 90 RCAM TO AP MIPI CLK N
19
19
90 AP BI LCM MIPI DATAO P
90 AP BI LCM MIPI DATAO N
,9 90 AP TO LCM MIPI DATAl P
19 90 AP TO LCM MIPI DATAl N
N/C OK PER SEG 5/14/12
19 9 0 AP TO LCM MIPI CLK P
19 90 AP TO LCM MIPI CLK N
AU2 7
AV2 7
AU2 6
AV2 6
AU2 4
AV2 4
AU2 3
AV2 3
AU2 5
AV2 5
AU32
AV32
AU31
AV31
n<*5£
N<ÿ-
N<*ÿ
AU30
AV3 0
LO
CM
IvoBr-l ool crl
Cvji CNji CS)i CM"
2[ 2 2 2 2
< < <C <
MIPI_VDD10
( 55MA)
SENSORO__ISTRB
SENSORO_XSHUTDOWN
SENSORl_ISTRB
SENSOR1 XSHUTDOWN
MIPI0C_DPDATAO
MIPI0C_DNDATA0
MIPI0C_DPDATAl
MIPI0C_DNDATA1
MIPI0C_DPDATA2
MIPI0C_DNDATA2
MIPI0C_DPDATA3
MIPI0C_DNDATA3
MIPI0C_DPCLK
MIPI0C_DNCLK
MIPI0D_DPDATAO
MIPI0D_DNDATA0
MIPI0D_DPDATAl
MIPI0D_DNDATA1
MIPI0D_DPDATA2
MIPI0D_DNDATA2
MIPI0D_DPDATA3
MIPI0D_DNDATA3
MIPI0D_DPCLK
MIPI0D
DNCLK
U1
CC\ 0-
<\ <
CO
I
Q
Q
CO
rH
Q
Q
ÿ >l
Q
O
H
Q
rH
M
(h O4
H H
2 2
CM
CM
H6PPOP-1GB-DDR
SC58960X01-A030
FCMSP
SYM 5 OF 13
MIPI VDD10
OMIT TABLS
a>
cc u
CO
iH
O
r-
CM
23 PP MIPI0DVREG
23 PP MIPI1D VREG
o
re
CC< CC
> >
<sr
O, CL
o o
J J
W
cc
W
&
>l >l
Q
O
Q
iH
M M
Ou
cu
M H
2 2
ISP 0_SCL
ISP0 SDA
ISP 1_SCL
ISP 1_SDA
SENSOR0_CLK
SENSOR0_RST
SENSORl_CLK
SENSORl_RST
MIPI1C_DPDATAO
MIPI1C_DNDATA0
MIPI1C_DPDATAl
MIPI1C_DNDATA1
MIPI1C_DPCLK
MIPI1C DNCLK
AT 7
AV7
AU8
AP 9
C6 4
2200PF
10%
6. 3V
X5R-CERM
01005
ROOM=H6P
IPF -J —
AV8 45 AP TO RCAM CLK R
C7
2200PF
10%
6.3V
X5R-CERM
01005
ROOM=H6P
AT 8 AP TO. RCAM. SHUTDOWN r,21
AU9 45 AP TO FCAM CLK R
AT 9 AP TO FCAM SHUTDOWN 11
SHUTDOWN
RESET FCAM
IS ALSO
]R3 7
l.o OK
5%
1/32W
MF
01005
AT33 90 FCAM TO AP MIPI DATAO P
AT34 90 FCAM TO AP MIPI DATAO
AR33
AR34
N/C OK PER SEG 5/14/12
90 FCAM TO AP MIPI CLK P
90 FCAM TO AP MIPI CLK N
PP1V8
2 3 5
21 23
1 CI91
0 . 1UF
20%
6.3V
X5R-CERM
01005
ROOM=H6P
-11
li
li
XR3 9
1. 0 0K
5% .
1/32W
MF
„ 01005
6 7 10 19
:R41
1.00K
5%
1/32W f
MF
„ 01005
1
R42
1
C259
56PF
5%
1. 0 0K
5%
1/32W
MF
01005
R38 33-2
NP0-C0G
01005
ROOM=H6P
C280
56PF
5%
6.3V
NP0-C0G
01005
ROOM=H6F
PP1V8
AP TQ RQAM I2Q $CL 15 20 2:
AP BI RCAM I2C SDA 15 20 2;
AP TC FCAM I2C SCL
AP BI FCAM I2C SDA
11
12 14 16 18 19
/yw— 45 AP TO RCAM CLK 21
/ 32W
MF 01005
ROOM-H6P
R40
33.2
-ÿyWr/32w
MF 01005
ROOM=H6P
1
C274
56PF
T
NP0-C0G
01005
ROOM=H6P
1 <284
6PF
O-COG
01005
11 N/C OK PER SEG 5/14/12
MAIN CAMERA
FCAM CLK 11
FF CAMERA
23 12 7 2
Nefc——
ncÿT.
DP PAD DC TP
DP
PAD R BIAS
LPDP NOT USED, NO CAP NEEDED ON THIS PIN
CM CO
CO (O
CO CO
a a
< <
CU|
oÿ
04 04
Q Q
C"i O
CO
CO
>
Q|
Q
<
*1
04
Q
iN
Q
—
Q <
Q o
I C
a
<04I
04
Q
m
M
X ÿ
a <
> ÿ
9-
Q
< 04I
col
I— 1 1
O
O. <
§
5 -
<
*1
04
Q
° T
04
Q
Q
Q
>
<|
Q
<
o
Q
Q
>
Q
<
04 04
I
I
04 04
q a
< <
o o
in m
U1
H6PPOP-1GB-DDR
SC5 8 960X01-AO 3 0
FCMSP
SYM 6 OF 13
OMIT TABLE
X
CO
CO
<1
Q
< 04|
04
Q
o
04
CO
CO
>
<1
a <
04
Q
tH
CO
CO
o
CO
CO
5 5
Q
Q
< <
04| Oÿi
04 04
Q Q
X D<|
CO
CO
<1
Q
< 04|
04
Q
r-l
rH
O1
col
i—11
N
X
D
a
Q
<
*1 04
a
en
Q
Q
CM
M
cm
Q
Q
> >
I
Q
Q
< <
04 04
I
I
04 04
a p
< <
2 2
o o
m m
VDDIOl 8 GRP 3
EDP
HPD
DP__PAD_AUXP
DP
PAD AUXN
DP_PAD_TXOP
DP_PAD_TXON
DP__PAD__TX1P
DP_PAD_TX1N
DP_PAD_TX 2 P
DP__PAD__TX2N
DP_PAD_TX3P
DP PAD TX3N
2 3 5 6
21 23
-ÿNC
-ÿNC
-ÿNC
-ÿNC
-ÿNC
-ÿNC
-ÿNC
-ÿNC
-ÿNC
-ÿNC
-ÿNC
7 10 11 12 14 18
N/C OK PER SEG 5/14/12
C
B
MIPI VSS
m vo r- CO 07 in
CM CM CM CM CM CM
2 2 2
< < < < <
A
8 7 6 5 4 3
8 7 6 5 4 3 2 1
ÿ
BUTTON FLEX (VIBE DRIVER, BUTTONS, ANC REF MIC, STROBE, STROBE_NTC)
D
D
STROBE :
LED WARM,
RETURN
r
23 >5 PP ftTRR PR TVER TO TiFiFI
r
C409
100PF
5%
16V
NPO-COG
01005
ROOM=BUTTON
C406
27PF
5%
NPO-COG
ROAM TO
1
STROBE NTC CONN
C3 97
56PF
6?3V
NPO-COG
01005
ROOM=BUTTON
FL47
120-OHM-21OMA
FL21
12O-OHM-21OMA
L_fYVrYL_ RCAM TO STROBE NTC
01005
ROOM=BUTTON
XR157
51. IK
1%
1/32W
MF
> 01005
STROBE:
STROBE NTC
PP CODEC TO MIC2 3 BIAS 10 11
c
VIBE DRIVE
23 12
PP PMU TO VTRFḊ3
DFN1006-2
BAT5 4 LP
ROOM=BUTTON A
3 BUTTON TO A: HOLD K K Y
FL74
ÿ/TTTLl
C314
100PF
iov
NPO-COG
01005
01005-1
10-OHM-750MA
ROOM=BUTTON
C289
1.OUF
20%
6.3V
X5R
0201-1
ROOM=BUTTON
NOSTUFF
FL3
12O-OHM-2 1OMA
mnrui
01005
ROOM=BUTTON
NO MORE WIFI PAC
REMOVED FL18, C15 ON PP3V0
RDAR: 7/13101ÿ91
- PP gnu in YTDE
DZ101
12V-33PF
01005-1
ROOM=BUTTON
£ DZ1
2V-33PF
01005-1
ROOM=BUTTON
SDRAM
ON MLB -
BUTTON TO AP HOLD KEY CONN
— > 516S1040 PLUG
ROOM=BUTTON
516S1041 RCPT
J2
105847-018
M-ST-SM
20
(FLEX)
NOTE: STROBE NTC
CODEC TO
NOTE: MIC
NOTE: MTC
MIC2 BIAS CQNL
N
NO MORE WTFT PAC
REMOVED FL71.FL70, FL72, C382,C384,C383
RDAR ://13101$91
BUTTON TO AP eiciai * A CONN
BUTTON TO AP VOL DOWN CONN
NOTE: VIBE RETURN, TO GND HERE
BUTTON TO AP VOL UP CONN L
CKPLUS_WA IVE— GNDTERM2PWR
KPLUS WAIVE=GNDTERM2PWR
C45
56PF
5%
6.3V
NPO-COG
01005
ROOM=BUTTON
XW41
SHORT-1OL— 0 . 1MM-SM
SIGNAL_MODEL=EMPTY
ROOM=BUTTON 1
01005
ROOM=BUTTON 1
C244
56PF
5%
6.3V
NPO-COG
01005
ROOM=BUTTON
T
C216
• 1. OUF
20%
6 .3V
ri
X5R
0201-1
ROOM=BUTTON
FfiNn mr? i m rnnnr ret 0 1 1
MIC2 (ANC REF MIC) :
XW5
SHORT— 10L—0.1MM-SM
SIGNAL_MODEL=EMPTY
, ROOM=BUTTON
MI02 TO CODEC N 9 23
MIC2 TO CODEC P 22 23
MIC2/3 BIAS,
MIC2 P, N
c
ROOM=BUTTON
FL7
12O-OHM-21OMA
B
BUTTONS :
RINGER, HOLD,
VOL UP /DOWN
5% —
10V
NPO-COG z
01005
ROOM=BUTTON "
01005
ROOM=BUTTON
FL8
120-OHM-21OMA
iiBUTTON TO AP VOL DOWN L m
_rrm_
BUTTON TO
C311 1
100PF
5%
10V
NPO-COG
01005
ROOM=BUTTON
AP VOLUP L
CI9 7
ROOM=BUTTON
01005
ROOM=BUTTON
I
100PF
5% - 1 -
BUTTON TO AP RINGER A
C313 1
100PF-
10V
NPO-COG 9 2
01005 ,
_
FL46
12 0—OHM-21OMA
lfTTTU,
01005
ROOM=BUTTON
DZ7
12V-33PF
01005-1
ROOM=BUTTON
1 DZ2
12V-33PF
01005-1
ROOM=BUTTON
i DZ 3
12V-33PF
— 01005-1
0 ROOM=BUTTON
C208
27PF
•
5%
16V
NPO-COG
01005
ROOM=BLJTT01
C241
100PF
5%
16V
NPO-COG
01005
ROOM=BUTTON
ft rpf- nuYFiR to Tifin finni » 3:
STROBE :
LED COOL
B
A
8 7 6 5 4 3
8 7 6 5 4 3 2 1
ÿ
L67 AUDIO CODEC
D
D
AUDIO
I/O
(ANALOG MIC IN, DIG MIC IN, HPOUT, LINEOUT, RECEIVER OUT, MIKEYBUS)
C222
0 .1UF
1 2
c
B
23
VOICE MIC
HEADPHONE MIC 17 EXTMIC TO CODEC P
17 EXTMIC TO CODEC N
ANC
ANC
20%
6.3V
20%
6.3V
REF MIC
ERROR MIC
MIC1 TO CODEC P
20% X5R-CE RM
6.3V 01005
23 17 MIC1 TO CODEC N C223
0 .1UF
C220
0 .1UF
i
2
X5R-CE RM
01005
;CODEC
0 .1UF
1
ROOM=CODEC
23 22
23 22 11
X5R-CERM
01005
20% X5R-CERM
6.3V 01005
ROOM-CODEC
C2260
0 .01UF
10%
6.3V
X5R
01005
NOSTUFF
ROOM=CODEC
10NF SHUNT CAPS FOR EMC
RDAR: //12867240
C224
0 .1UF
20%
6. 3V '
MIC2 TO CODEC P ROOM:
23 8 MIC2 TO CODEC N
MIC3 TO CODEC P
20%
6.3V
20%
6. 3V
1
2
X5R-CEJRM
01005
CODEC
C225
0 .1UF
1 I I 2
ROOM=CODEC
C55
o .1UF
1
1
ROOM:
23 n MIC3 TO CODEC N C 61
0 .1UF
20%
6. 3V
ROOM=CODEC
X5R-CERM
01005
2
X5R-CF RM
01005
X5R-CERM
01005
C2290
0 .01UF
10%
6.3V
X5R
01005
NOSTUFF
ROOM=CODEC
ÿ
C227
56PF
5%
6.3V
NP0-C0G
01005
ROOM=CODEC
C228
56PF
5%
6.3V
NP0-C0G
01005
C230
56PF
5%
6.3V
NP0-C0G
01005
ROOM=CODEC
C226
56PF -
5%
6. 3V
NP0-C0G
01005
ROOM=CODEC
C231
56PF
5%
6.3V
NP0-C0G
01005
ROOM=CODECI
C64
56PF
5%
6. 3V
NP0-C0G
01005
ROOM=CODEC
I
C 65
56PF
5%
6.3V
NP0-C0G
01005
ROOM=CODEC
C229
56PF
5%
6.3V
NP0-C0G
01005
ROOM=CODEC
23
MIC1 TO CODEC L67 P G2
MIC1 TO CODEC L67 N G1
EXTMIC TO CODEC L67 P fc'4
EXTMIC TO CODEC L67 N F3
RCVR TO CODEC RCVR TEST L67 E4
NC
23 MIC2 TO CODEC L67 P El
. MIC2 TO CODEC L67 N E2
. ÿMIC 3 TO CODEC L67 P D1
22MIC3 TO CODEC L67 N D2
HPHONE '30 CODEC HPHONK TEST NfrV D3
23 HAC TO CODEC TEST L67
ROOM=;CODEC-#-
NCXÿ-
NCXÿ-
NCX—-
CI
NCX—
nc>A
NCX——
NCX—-
NCXÿ
AIN1+
AIN1—
AIN2 +
AIN3 +
AIN4 +
AIN5 +
AIN6 +
AIN7+
a X m q
AIN8+
DMIC1_ SD
L67 A1
APN : 338S1201
RDAR:/ /12926833
U21
SYM 1 OF 3
PRIMARY rH
(VOICE) MIC
HEADPHONE
MIC
ANALOG
MIC IN
ANC
REF MIC2
ANC
REF MIC1
ANC
ERROR MIC
ANALOG
LINEIN
ANALOG LINEIN
DMIC1_SCLK
DMIC2_SD
DMIC2_SCLK
WLCSP
< I
Ph
N
S
U
I
r-
HQ
J
CM
U)
U
ROOM=CODEC
AOUT1+
AOUT2+
AIN2-
AIN3-
AIN4-
AIN5-
AIN6-
AIN7-
AIN8-
AOUT1-
AOUT2-
LINEOUT_REF
LINEOUTA
LINEOUTB
HPOUTA
HPOUTB
HS3
HS4
HS 3_REF
HS4_REF
HPDETECT
DN
DP
MBUS REF
K7
L7 CODEC TO RCVR N
L5 CODEC TO HAC P
K5 CODEC TO HAC N
K8
H
-E2,
__K9,
K1
L2
L9
L8
G8
G10
F10
Fll
NC 1
ronr.r to hphonf t.
mrir to wmm
50PF LIMIT ON AOUTX
1 23
23
PINS
CODEC TO HPHONE HS3
T
17 23
CODEC TO HPHONK HS 4 17 2:
CODEC TO HPHONE HS3 REF 17 22 23
CQPEC 19 HPHQNE HS4 RSF 17 22 23
HPHONE TO CODEC PET 17 23
C235 i
56PF -
5%
6.3V
NP0-C0G
01005
ROOM=CODEC
1
17 23
. , HEADPHONES
23
C236
- 56PF
5%
6.3V
NP0-C0G
01005
ROOM=CODECI
R102
2
-AAA,2
° . °
1/32W 01005
ROOM=CODEC
5% v v v MF
2390 CODEC BI TRISTAR MIKEYBUS L67 N
3 90. CODEC BI_TRISTAR_MIKEYBUS L67_ P
CODEC MBUS REF 17
R103
1 2°.°? —<wvA-
1/32W 01005
ROOM=CODEC
R102/R103 = 20 OHM FOR TRISTAR2
ROOM=CODEC
CI3 8
100PF
5%
10V
NP0-C0G
01005
ROOM=CODEC
1 C51
- 100PF
1
ÿ0v NOSTUFF
NP0-C0G
01005
CI4 3
100PF
5%
iov
NP0-C0G
01005
ROOM=CODEC
1
90 CODEC BI TRISTAR MIKEYBUS N
90 CODEC BI TRISTAR MIKEYBUS P 16 23
16 23
MIKEY TO
TRISTAR
c
B
RCVR TO CODEC RCVR TEST
23j 17 HPHONE TO CODEC HPHONE TEST
ROOM=CODEC
C354
o .01UF
10%
6.3V
X5R
01005
ROOM=CODEC
C356
0 .01UF
10%
6. 3V
X5R
01005
A
HAC TO CODEC
TEST
ROOM=CODEC
C362
0 .01UF
10%
6.3V
X5R
01005
8 7 6 5 4 3
8 7 6 5 4 8
8 7 6 5 4 3 2 1
L67 AUDIO CODEC
D
POWER, MICBIAS DIGITAL SYSTEM I/O
c
B
KEEP THESE CAPS AT CODEC PINS
9 18 4 12 11 7 6 S 3 2
23
24 16 14 12 10 4 3 ppivfi
T
FT VIT NPiTN
23 15 12 PP1YH Yft liH Tif]7
ROOM=CODEC
RRIOO
ROOM=CODEC
XW4 3
SHORT-10L-0 . 1MM-SM
2
ff Ygr MriTU rnnn
C422
OUF
I20%
6.3V
CERM
0402
ROOM=CODEC
i C413
0 .1UF
20%
6.3V
X5R-CERM
01005
ROOM=CODEC
C414
1OUF
20%
6.3V
CERM-X5R
0402-2
ROOM-CODEC
i C412
- 1. OUF
— 20%
0z
X5R
6.3V
0201-1
_ ROOM=CODEC
C421
0 .1UF ± C420
10%
6.3V
CERM-X5R
0201
.1UF
10%
ROOM=CODECI0
TCB: C4 21 AT U2 1.L6
i C416
—1— 20
1&
NCÿ5.
NC>
2 .2 IK
> i%
1/32W
1 MF
2 01005
1 ROOM=CODEC I
1.OUF
20%
6.3V
X5R
0201-1
1
C238
- 4 .7UF
20%
6.3V
X5R-CERM1
402
ROOM=CODEC
23 PP F.YTMTP RTAR FTT.T
73 PP EffTMTfi PTftH PTTiT
23 ,-,PP CODEC TO MIC1 BIAS
,J6
L4
L3
K4
K3
H7
PGND MIC1 TO CODEC RET FILT G6
„ 8 PP QODEC TO MIC2 3 BIAS H6
23
PGND MIC2 3 TO CODEC RET FILT H5
0 .1UF
20%
3V
X5R-CERM
005
ROOM=CODEC
MIC1 BIAS
i—i
'—
O
i
MIC1 BIAS FILT
MIC2_BIAS.
MIC2 BIAS
o
AP TO CODEC SPI3 CLK B4
r—II i—I
< CO CQ J £
AP TO CODEC SPI3 MOSI B3
45 AP TO CODEC I2S MCLK A9
45 AP TO CODEC ASP I2S0 BCLK C10
6.3V
AP TO CODEC ASP I2S0 LRCLK Bll
CERM-X5R
0201
AP TO CODEC ASP I2S0 DOUT C9
ROOM=CODEC
CODEC TO AP ASP I2S0 DIN A8
45 AP TO CODEC VSP I2S4 BCLK E9
AP TO CODEC VSP I2S4 LRCLK E8
AP TO CODEC VSP I2S4 DOUT D10
CODEC TO AP VSP I2S4 DIN D11
4 5 AP TO CODEC XSP I2S2 BCLK B8
AP TO CODEC XSP I2S2 LRCLK B7
AP TO CODEC XSP I2S2 DOUT C7
CODEC TO AP XSP I2S2 DIN A7
AP TO CODEC SPI3 CS L B5
>
04
o >
>
•— 04
>
CTi voT
IN
MIC2_BIAS_FILT_IN
MIC2 BIAS FILT
MIC3_BIAS
MIC3_BIAS. FILT
MIC4_BIAS
MIC4_BIAS
U21
WLCSP
SYM 2 OF 3
FILT Q
< I
Pi
N
5
U
I
r-
ÿo
CM
•nT
CO
U
Q
Q
n n
04
o
o
CC
04
>
+VCP
FLYP
23
FLYC(
23
flyn(
FILT
GNDCP0
GNDCP1
-VCP FILT
SPEAKER_VQ
L10 23 PP CODEC VCPFILT-
FILT+-
FILT-
GNDA
— i pp rnnh'r VHP |-,|VP
G9 •mi:
H10
Jlÿ
H9
Kll
Bfi YflF
FT Yf
rnnnr yhp nrri
ft rnnpir vrppTTiTt
K10
LI1i pfiNn rnnur
KEEP THESE CAPS AT CODEC PINS
jnrp
PP ronF.r RPKR VP
Mil
C424 i
1OUF
20%
6.3V -
CERM-X5R
z
0402-2
ROOM=CODEC
ROOM=CODEC
C232
4 . 7UF
R-CERMl
02
7 16 14 12 10 4 3 myg gpPAM
ROOM=CODEC
XR14 5
1.00K
ÿ
5%
ÿ
1/32W
MF
01005
CODEC TO AP SPI3 MISO A4
CODEC TO AP INT L
G4r
CODEC TO PMU MIKEY INT L
— ÿ
CQDEC REgET L
i C233
*
AT CODEC PINS
E10
- 4 .7UF
20%
6.3V
X5R-CERM1
ro49ÿcodec
ROOM=CODEC
i C234
7UF
XW4 8
SHORT-IOL-O . 1MM-SM
iJT7L 2 _
ROOM=CODEC
6. 3V
X5R-CERM1
402
KEEP THIS CAP AT CODEC PINS
KEEP THIS CAP AT CODEC PINS
ÿ
ROOM=CODEC
C425
4 .7UF
20%
6 .3V
X5R-CERM1
402
1
C42 9i
—|—
T
20
ÿ5
4 .7UF
20%
3V
X5R-CERM1
1 a402
ri
ROOM=CODEC
ISTO
MUST BE NC
NC£r
NC>tr
NC>£r
NC>tr
NC-D6
NC
MCLK
WEAK INT PD
ASP_SCLK
ASP_LRCK
ASP
SDIN
ASP_SDOUT
ALL ASP PINS:WEAK INT PD
VSP_SCLK
VSP_LRCK/FSYNC
VSP
SDIN
VSP_SDOUT
ALL VSP PINS: WEAK INT PD
XSP_SCLK
XSP
LRCK/FSYNC
U21
WLCSP
SYM 3 OF
rH
< I
Pi
N
5UI
r-
»-4
CM
CO
(J
XSP_SDIN/DAC2B_MUTE
XSP_SDOUT
ALL XSP PINS: WEAK INT PD
CS*
CCLK
CDIN
CDOUT
WEAK
INT PD
GND
L67 WEAK INT PD 55 OK - 2 4 5 OK
INT
WAKE*
RESET
TSTO
A1
C5
B1
F9
D5
D7
E5
E6
E7
F5
F6
F7
F8
G7
H3
H4
J3
J4
D8
D9
B2
C3
TSTI
IC4
Cll
17 POND MIC1 TO CODEC RET
ROOM=CODEC
C218
4 .7UF
C26
56PF
5%
6.3V -
NP0-C0G z
01005
ROOM=CODEC
11 8 pfiNn mrp i to rnnnr RFiT
20%
6.3V
X5R-CERM1
402
C219
4 . 7UF
C27
56PF
5%
6.3V
NP0-C0G
01005
ROOM=CODEC
20%
6. 3V
X5R-CERM1
402
ROOM=CODEC
A
8 7 6 5 4 3 2 1
D
C
B
A
FRONT CAM FLEX B2B (FCAM, PROX, ALS, RECEIVER, ANC ERROR MIC)
FCAM:
CLK,
I2C, SHDN
PROX:
RX,
POWER,
RX EN
ALS: POWER,
I2C, INT
12 11
45 AP TO FCAM CLK
FL13
12 O-OHM-2 5%-2 5 OMA-O .5DCR
irrm 2
01005
ROOM=CG B2B
CHANGE FLl5 TO 155S0577 DUE TO I2C XTALK
RDAR: // 12877 87 4
FLl5
7 0 -OHM- 3 0 OMA
AP TO FCAM I2C SCL_ 1, _rrm_
CHANGE FLl2 TO 155S0577
RDAR: //I3055 997
01005-1
ROOM=CG B2B
FL12
7 0 -OHM- 3 0 OMA
AP TO FCAM SHUTDOWN rrm_
AP
BI FCAM I2C SPA
01005-1
ROOM=CG B2B
FLl4
70-OHM-30OMA
lPPPPul
01005-1
ROOM=CG B2B
CHANGE FLl4 TO 155S0577 DUE TO I2C XTALK
RDAR: //12877874
2 3
'HYP PTM Fill
FL45
12O-OHM-2 5 %-25OMA-O .5DCR
2 noon i
5 MA 01005
ROOM=CG_B2B
CI94 i
1.0UF -
20% —
PROX_RX SIGNAL MUST BE TREATED WITH CARE 6.3V
18 4 5_PROX TO_CUMULUS_RX
a
1CI98
- 56PF
— 5%
z~ 6.3V
NP0-C0G
01005
ROOM=CG B2B
1 CI92
—— D 56PF
<
—I— 5%
5%
3V
ÿ NP 0-C0G
005
ROOM=CG B2B
1&
T C202
—|— 5%
1S
56PF
5%
3V
NP 0-C0G
005
ROOM=CG_B2B
I
I
56PF
CI9 6
5%
6.3V
NP 0 — COG
01005
ROOM=CG B2B
C63 i
56PF -
X5R z 6.3V
0201-1
NP0-C0G
01005
2 5 ROOM=CG_B2B J__ ROOM-CG_B2B
0 .00
w-
MF 0%
01005 1/32W
ROOM=CG B2B
FL58
gyMt;n,jg to prqx rx en ivg_ L _rrm
12O-OHM-21OMA
01005
ROOM=CG B2B
i
C 62
- 56PF
5%
6.3V
NP 0 —COG
01005
ROOM=CG B2B
1
C201
- 56PF
~ 5%
6. 3V
0z
NP0-C0G
FL2
ROOM=CG_B2B
AP BI I2C1 SDA
* mm 2
120 — OHM— 2 1OMA
01005
ROOM=CG_B2B FL57
ALS TO AP INT L_ 1 _fTYYYÿ_
120-OHM—210MA
01005
ROOM=CG_B2B FL2 0
AP TO I2C1 SCL 1rmv
3 12 11 PHYf) flTifi
0 .25 MA
HAC 23 9 CODEC TO HAC N
23 9 CODEC TO HAC P
RECEIVER 23 9 CODEC TO RCVR P
23 9 CODEC TO RCVR N
_
i
12 0 -OHM— 2 1OMA
01005
FL4
120-OHM—25%-250MA-0 .5DCR
fYYYÿi 2
23 9
01005
ROOM=CG B2B
ROOM=CG_B2B
FL65
7 0—OHM- 3 0 OMA
01005-1
HAC TO CODEC TEST_
-21.4 DB SIGNAL OF HAC VPP
ROOM=CG_B2B
FL64
7 0 -OHM— 3 0 OMA
rrvru_
01005-1
01005
ROOM=CG_B2B
i
C211
- 56PF
C212
56PF
5%
6.3V
NP0-C0G
— 5%
« 6 . 3V
z NP0-C0G
01005
01005
ROOM=CG_B2BI
i C56
- 0 .1UF
— 20%
~ 6 . 3V
z X5R-CERM
01005
ROOM=CG_ B2BI
I
01005
ROOM=CG_B2B
R95
15.8K
1/32W
CI 9 9
56PF
5%
6.3V
NP0-C0G
PP3VQ
45 AP TO FCAM CLK CONN
AP TO FCAM SCL CONN
AP TO FCAM SHUTDOWN CONN
AP
PROX
BI FCAM SDA CONN
45 PROX TO CUMULUS RX CONN
CUMULUS TO PROX RX EN 1V8 CONN
i C210
- 56PF
— 5%
z0 6.3V
NP 0 -COG
01005
ROOM=CG_B2B
01005 23CODEC TO HAC CONN N
ROOM=CG_B2B
ROOM=CG_B2B
XR94
1OK
i%
1/32W
MF
01005
FL51
7 0-OHM- 3 0 OMA
ÿ_nrvr\i_
01005-1
ROOM=CG_B2B
23 9 RCVR TO CODEC RCVR TEST
-21.4 DB SIGNAL OF RCVR VPP
ROOM=CG_B2B
FL52
7 0-OHM- 3 0 OMA
_2L_rrmu_
01005-1
R3
1OK
1%
1/32W
MF
. 01005
' ROOM=CG.
ROOM=CG_
XR9
15.8K
i%
1/32W
MF
. 01005
23 CODEC TO HAC CONN P
2- CODEC TO RCVR CONN P
AP
27 CODEC TO RCVR CONN N
NOTE: CONN GENDER SWAPPED AT PROT02
THIS ON ONE MLB
--->
PROX
GROUND
BI I2CI SDA ftl,? CONN
ALS TO AP INT CONN
AP TO I2C1 SCL ALS CONN
PP3VQ
ALS
DZ18
12V-33PF
01005-1
ROOM=CG_B2B
1 DZ19
ÿ 12V-33PF
— 01005-1
ROOM=CG B2B
516S0986
RCPT
516S0987 PLUG
(FLEX)
J1 ROOM=CG_B2B
AA22L-S034VA1
F-ST-SM
1 DZ16
12V-33PF
— 01005*0.
ROOM=CG B2B
PCB: PLACE THESE AT
iDZ17
12V-33PF
— 01005-1
ROOM=CG B2B
MIPIGROUND
_ 90 FCAM TO AP MIP! CLK CONN N
_ 90 FCAM TO AP MIPI CLK CONN P
MIPIGROUND
_ 9 0 FCAM TO AP MIPI DATAO CONN N
MIPI GROUND
90 FCAM TO AP MIPI DATAO CONN P
- FFPYft-f rr<m TiCNN
-
FCAM ANALOG GROUND
ffiyh rrn mm
NOTE: MIC3 TO CODEC P
-Fnriin nir? i to rnnrr rft
23 PP CODEC TO MIC3 BIAS CONN
TiND TMifiH ft
NOTE: IRLI
J1 CONN
PGND
ROOM=CG_B2B
R4 51
11.5
i%
1/20W
201
IRLED DRAIN
SYM_VER_1
t
1
C200 1
56PF
5%
6.3V
NP0-C0G
01005
ROOM=CG B2B
1
C67
- 56PF
— 5%
6.3V
z?
C402
56PF
5%
6.3V
NP0-C0G
01005
ROOM=CG B2B
ROOM=CG_B2B
L35
90 -OHM- 5 OMA
1
TCM0605-1
SYM_VER-2 4
L39
90 -OHM- 5 OMA
1
TCM0605-1
SYM_VER-2 4
_TYTYC_
ROOM=CG B2B
9 0__F CAM_TQ_AP_MIPI_CLK_N
90 FCAM TO AP MIPI CLK P
9 0_FCAM_TQ_AP_MIPI_ DATA0_N
90 FCAM TO AP MIPI DATAO P
ROOM=CG_B2B
FT 4 4
CHANGE FL44 TO 0.45 MAX DCR (155S0577)
7 0—OHM—30OMA RDAR: //13068204
i/TTT\ am rm im am
01005-1
_
FL23
70-OHM— 300MA
_rrm
I
01005-1
ROOM=CG_B2B
C407 C410
T
56PF
0 .1UF
20%
6.3V
X5R-CERM
01005
!OOM=CG B2B
1
DZ1100
NP0-C0G
2 ROOM=CG_B2B
01005
_ ROOM=CG B2B
XW4 2
SHORT-10L-0.1MM-SM
ROOM=CG B2B
i
I
56PF
C253
5%
0
6.3V
z
NP0-C0G
01005
ROOM=CG_B2B
5% -
6.3V ,
NP0-C0G '
01005
ROOM=CG B2B.
6.8V-100PF
— 01005
C380
1.0UF
20%
6.3V
X5R
0201-1
i DZ1101
6 .8V-100PF
— 01005
2 ROOM=CG B2B
—
XW7
SM
ROOM=CG B2B
21 23
i 3 5
0 12 6 7
14 16
M1C3 19 CQPEC P 23
MIC3 TO CODEC N
FL48
12O-OHM-21OMA
_±rrrn_±_ PP CODEC TO MIC2 3 BIAS
01005
ROOM=CG B2B
CONFIRMED NO SIGNAL RAIL IN SENSOR FOR ALS FUNCTION,
REMOVING R133 AND R132, J1.30 IS GROUNDED AS WELL ON FLEX
RDAR: //12828034
NOTE: J1.30 IS GND ON POR BOARDS,
J1.30 IS ALS_INT FROM FF CAM FOR
SPECIAL CONFIG OF PROT02
(CONTROLLED VIA BOMOPTION)
ADD VARISTORS DZ1100 AND DZ1101 TO MIC3 LINES FOR RECEIVER MESH
RDAR:// 13120136
ROOM=CG_B2B
DMN3730UFB4
DFN1006H4-3
1 ÿ CUMULUS TO PROX TX EN BUFF 1
JR85
ÿ
1.00M
• 5%
- 1/32W
MF
? 01005 z ROOM=CG_B2B
C44
0 .1UF
20%
6.3V
X5R-CERM
01005
ROOM=CG_B2B
IRLED = 104-12 8MA
r
PHYI) PROn TRT1F1P
C256
4 .7UF
20%
6.3V SPECIAL Z
X5R
402
ROOM=CG_B2B
8 7 6 5 4 3
= 0.60 MM MAX
12 23
8 10
23
FCAM:
POWER AND
19 21 2
MIPI
MIC3
(ANC ERROR MIC)
LOCK-UP
ISSUE
FCAM ALS
INT
PROX: PWR, TX EN
D
c
B
ÿ
ÿ
15UFÿ
D
c
B
A
8 7 6 5 4 3 2 1
AMBER
PMU
(BUCK, LDO, VIBE DRIVER, 32K, CHARGER)
TO DO: GEERTJAN TO UPDATE VALUE
OF R70 WITH H6P (EXPECTED TO CHANGE)
R70
68 .IK
23 2 USB VBUS DETECT - ÿVV4ÿ
1/32W 01005
23 17 16 rpwn unn frot
24 23 22 1—
Q4 APN: 376S1131
Q4
CSD68815W15
BGA
ROOM=PMU
21 i4
„ io Pf yx-f MPiTN
MOVED C385 TO
RDAR: //12723825
C266
1.OUF
20%
6.3V
9 1 X5R
0201-1
ROOM=PMU
1
i
C260
1OUF
I20%
6. 3V
CERM
0402
ROOM=PMU
C261
1OUF
o
CO
r
r
t
—|— 2 C
o
IX)
ROOM=PMU
o
C357
1OUF
20%
6.3V
CERM
0402
ROOM=PMU
C263
1OUF
20%
6.3V
CERM
0402
ROOM=PMU
—I— 20%
? 6.3V 20%
z \? 6. 3V
CERM z CERM
0402 0402
ROOM=PMU
[ ROOM=PMU | RC
L19_VBOOST
FF YfT MPiTN
r
C264
1OUF
C398
1OUF
20%
6.3V
CERM
0402
ROOM=PMU
T
r
24 23 21 14 13 12 10
23 8
I
C358
1OUF
20%
6 .3V
CERM
0402
ROOM=PMU
C267
1OUF
20%
6 .3V
CERM
0402
ROOM=PMU
C268
1OUF
20%
6 .3V
CERM
0402
ROOM=PMU
C3096
56PF
5%
16V
NP0-C0G
01005
ROOM=PMU
r
t
r
PP VCC MAIN
PP
PMU TO VIBE
23 16 T RISTARTOPMUOVP_SW_EN_L
i-iFF Ml YfTiMTFiFi
C204 i C281
T
10UF
20%
6. 3V
CERM-X5R
0402-2
ROOM=PMU
C270
1OUF
20%
6 .3V
CERM
0402
ROOM=PMU
C271
1OUF
20%
6.3V
CERM
0402
ROOM=PMU
C411
1OUF
20%
6.3V
CERM
0402
ROOM=PMU
AP TO PMU VIBE PWM EN
ROOM=PMU
XW1
SHORT-IOL-O
1 2
<57>
1MM-SM
PCB : PLACE THIS
AT C276/C283 XW
——I—— i C399 iC405
1OUF -
20%
6.3V
CERM
0402
ROOM=PMU
1OUF
20%
6. 3V
CERM
0402
ROOM=PMU
t
ROOM=PMU
C276
18PF
5%
16V
CERM
01005
C417
1OUF
20%
6.3V
CERM
0402
ROOM=PMU
C272 1
1UF
10%
25V
X5R
402
ROOM=PMUT
r
- 10UF
20%
6.3V
CERM-X5R
0402-2
ROOM=PMUI
L8
2 .2UH-20% —1.7A— 20OMOHM
1
TFA2 01610G-PSE20161T2R2
OMIT_TABLE
NOTE: THIS SIGNAL (ACT HI)
WILL OPEN VBUS
2 3 2 2 BATTERY TO_PMU_SENSE
f-FF PNfT ¥ciiif
23 PMU ACT DIO
rnn
XW120
SHORT— 1OL— 0 .1MM-SM
1CPP VCC MAIN UVLO SENSE 1
XW120.2 ROUTE TO
23 21 12 4 pp 1w? cnPAM
C96
56PF
5%
16V
NP 0 -COG
01005
ROOM=PMU
Y2
i768K- 32
1
20PPM-12
20PF
2
2012-1
ROOM=PMU
5PF
45 AMBER VSS RTC
i C418
1OUF
20%
6.3V
CERM
0402
1OUF -
20%
6.3V
CERM
0402
ROOM=PMUT C250
ROOM=PMU
ROOM=PMU
U7.D2
C278
1UF
T
10%
6.3V
CERM
402
ROOM=PMU
i C343
- 1. OUF
— 20%
0
6 .3V
A
X5R
0201-1
ROOM=PMU
45 PMU TO XTAL OSC32
45 XTAL TO PMU OSC32
ROOM=PMU
C283
18PF
5%
16V
CERM
01005
C251
1OUF
20%
6.3V
CERM
0402
ROOM=PMU
C325
1OUF
20%
6.3V
CERM
0402
ROOM=PMU
F1
F2
E2
CI
J2
G2
.16
Bl6
F2Q
'21
A4
M12
N13
M6
M7
Ml4
M8
Ml0
11
N5
P5
M5
D1
El
G10
VBUS_OVP_OFF
00 300K INT PU TO VBUS
) VCENTER
VBUS
)IBAT
VBAT
ACT
DIO
) CHG_LX
) VCC_MAIN
VCC_MAIN_S
) VDD_BUCK1
VDD_BUCK0 01_2
j VDD_BUCK2
VDD_BUCK1_2
) VDD_BUCK3
)
VDD
BUCK4
) VDD_BUCK5
) VDD_BUCK00 1
)
VDD__BUCK02
3
VDD_LD06
VDD_LD02
VDD_LD01_3
VDD_LD04_7
VDD_LD05
VDD_LD08_9
VDD_LD010
VDD LDOll 13
VDD_VIB
VIB
VIB_PWM_EN
) 100K INT PD
XTAL1
XTAL2
VSS
RTC
U7
AMBER-PMC
FCCSP-0 . 8 4 MM
(1 OF
CO
D
H
<
H
D g
2
2
U
2
H
D G
2
O
QG
W
CO
H
>
G
<H
X
3)
NOTE:
G (250MA) VLD08
23
BUCKO LXO
23
BUCKO LX1
BUCKO LX2
BUCKO LX3
BUCK0_FB
BUCK1 LXO
BUCK1 LXl
2
UD
G
BUCK1_FB
BUCK2 LX
BUCK2 F
BUCK3_Lx(
BUCK3 FB
BUCK3_SWl(
BUCK3_SW2
BUCK3 SW3
VBUCK3 SW
BUCK4_LX
BUCK4_F
VBUCK4_SW
BUCK4_SW1
BUCK4_SW2
BUCK5_Lx(
BUCK5 FB
(50MA) VLDOl
{ 5 OMA) VLD02
(50MA) VLD03
(5 OMA) VLD04
(100 OMA) VLD05
(15 0 MA ) VLD06
O
Q
(250MA ) VLD07
(250MA)
(100MA)
(2 5 OMA)
( 5MA)
(250MA)
VPUMP
Ll0, L12 BOMOPTIONS
CONTROLLED ON PAGE1
VLD09
VLD09_FB
CAP:
VLDOl 0
VLDOl 1
VLDOl 2
VLDOl 3
VPUMP
SAME
POLARITY
L9
OMIT_TABLE
1.0UH-20%-2.5A-0.075OHM
ROOM=PMU
1
foPTPLl
TFA2 0161OG-SM
L10
OMIT_TABLE
1.0UH-20%-2 .5A-0 . 075OHM
ROOM=PMU
TFA2 0161OG-SM
LI1
OMIT_TABLE
1.0UH-20%-2 .5A-0 . 075OHM
ROOM=PMU
crrrLi
A8 23 PP_BUCK0_LX2 TFA20 161OG-SM
OMIT_TABLE L12
1.0UH-20%-2 .5A-0 . 075OHM
ROOM=PMU
/DfYYYi
TFA2 0161OG-SM
Rll
10 NOSTUFF
rAAAA-,
5%
MF
1/32W 01005
ROOM=PMU
PCB: Rll LOCAL FEEDBACK FOR TESTING
A3 PP_BUCK0__LX0
B3
4 5_BUCK0_FB ?
C3
A5 PP_BUCK0_LX1
SAME POLARITY
B5
C5.
OMIT TABLE
LI3
ROOM=PMU
A17 .23 PP_BUCK1_LX1
_B_
CI.
1.0UH-20%-2 . 5A-0.075OHM
* rcmn 2
TFA201610G-SM
A10 _ PP_BUCK0__LX3
OMIT_TABLE LI4
0 .47UH-20%-3.2A-0 .04 6OHP
BIO
CI.
TFA201610G-SM
ROOM=PMU
R115NOSTUFF
10
E4
-AA/Yÿ'
V V
9-
Vv
ft.r
A15 23 PP_BUCK1_LX0 5% " " MF
1/32W 01005
ROOM=PMU
_
PCB: THIS RESISTOR FOR LOCAL FEEDBACK
45 BUCK1 FB 4
F15
A1ÿ23PÿÿUCKÿÿ
Bl
c
G20
G2|
J15
Nl
N16
Ml5
Ml
Al 9
Blÿl
CI 9
p
2 3 PP BUCK3 LX
45 BUCK3 FB
21PP
mm h
ei8 45 BUCK4 FB
Ml8
Ml3
L20
J20
J2|
J16
N6
P13
PP1V2
PP1V2 OSCAR
23PP BUCK5 LX
45 BUCK5_FB
2 4 S 23
20 23
2.5V-3 . 3V, +/-77.5MV
1.2V-1.9V, +/-42.5MV
P6. 2.5V-3.3V, +/-75MV
P7
P14
P12
N7
P8
N9
N8
P9
P10
K16
Pll
SPEC REQUIRES 10NF,
30% DERATED.
VPUMP RUNS AT 4 .6V
P17 : 4 5
2.5V-3 . 6V, +/-75MV
2.5V-3 . 6V , +/-75MV
2.5V-3.6V, +/-75MV
2.5V-3.6V, +/-70MV
0.6V-1.4V, +/-25MV
2.5V-3.6V, +/-71.25MV
PMU VPUMP
C10
0 .1UF
20%
6.3V
X5R-CERM
01005
ROOM=PMU
OMIT_TABLE
1.0UH-20%
TFA201610G-SM
ROOM=PMU
R117
NOSTUFF 10
5%AAA/"
CI0 4
l.OUF
20%
6.3V
X5R
0201-1
ROOM=PMU
1/32W
T
"&-OT075UHH"
2
MF
01005
ROOM=PMU
45 bw<:;k2 fp
1 CI0 9
- 1.OUF
20%
6.3V
X5R
0201-1
ROOM=PMU
C290
15UF-
20% -
4 V
X5R
0402
ROOM=PMU
T
C292
15UF-
20%
4 V
X5R
0402
ROOM=PMU
C296
15UF-
20% -
4 V
X5R
0402
ROOM=PMU
IC128
15UF
20%
4 V
X5R
0402
ROOM=PMU
C303
15UF .
20%
4 V
X5R
0402
ROOM=PMU
T
T
T
C294
15UF
20%
4 V
X5R
0402
1 piyi m 23
1
CI35
15UF
20%
4 V
X5R
0402
ROOM=PMUTJ j ROOM=PMU
F
CI4 5
15UF-
20% -
4 V
X5R
0402
ROOM=PMU
CI8 1
15UF-
20% ~
4 V
X5R
0402
ROOM=PMU
C127
15UF
20%
4 V
X5R
0402
T
T
CI62
15UF
20%
4 V
X5R
0402
ROOM=PMU
C262
15UF
20%
4 V
X5R
0402
ROOM=PMU
15UF
20%
4 V
X5R
0402
ROOM=PMU
ROOM=PMUIC310
C301
r
— 15UF —
—i— 20% —T—
T X5R
0402
| ROOM=PMU |
C58
15UF
20%
4v
X5R
0402
ROOM=PMU
NOTE:
NOMffiPER1 SEG*.
I
T
7
z
C123
15UF
20%
4V
X5R
0402
ROOM=PMU
t
1
CI7 5
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— 20%
2z
X5R
4V
0402
ROOM=PMU
I1 C299 I1 C207 h CI6
- 1 - 4 A .7UF "7T1TT - 1 - 1.OUF1 nri"F- 1 - A "711C
20%
6. 3V
X5R-CERM1
402
ROOM=PMU
—— 20% —|— 2 U
4 . 7UF
t
20%
6.3V 6.
7 3V
z
X5R
z
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0201-1 402
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C18 9
15UF
20%
4 V
X5R
0402
ROOM=PMU
REMOVED LD09 CAPS
PER RDAR: //12552087
CHANGED LD08 CAP
PER RDAR://12525301
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0201-1
ROOM=PMCJ
OMIT_TABLE
ROOM=PMU
LI6
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I
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CHANGED
402
ROOM=PMCJ
LDOll CAP
PER RDAR: //12518153
—-
OMIT_TABLE
r
C293
15UF
20%
4 V
X5R
0402
ROOM=PMU
LI7
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TFA2 0161OG-SM
ROOM=PMU
XW2 0
SHORT-1OL-O .1MM-SM
ROOM=PMU
PP3V_
T— 20%
UPSIZ ING Ll8 TO 2016 PKG.
RDAR: / /12765100
OMIT_TABLE
ROOM=PMU
Ll8
1.0UH-20%-2 . 4 A— 0
1
OTTU
ÿ2
C443
15UF
4V
X5R
0402
ROOM=PMU
C308
•
15UF
ÿ
20%
4 V
X5R
0402
ROOM=PMU
T
PIFE2016 1T-SM
APN: 152S1801 (CYNTEC)
20%
XW3
4 V
SHORT-10L- 0 .1MM-SM
— ÿ57ÿ X5R
0402
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23 21
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23 24
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C316
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20%
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X5R
0402
ROOM=PMU
NOTE: PP1V0_SRAM STATIC AT 1.0V
075HM NO DVFM ON THIS RAIL PER SEG.
C140
15UF
ROOM=PMU
,qp
rppiwn
C 6 6
20%
4 V
X5R
0402
ROOM=PMU
5 23
C327
15UF
20%
4 V
X5R
0402
ROOM=PMU
14 16 17
NOTE: 6 TURNS OF PP2V5_RCAM_AF_COMP
WAS THE MAGIC NUMBER FOR N41.
PLACE AT
PMU AREA
w
a
o
CO
w a
o
w
an*Cn
THIS VALUE NEEDS TUNING LATER
Rl19 ro°m=pmu
X/wv'
7
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12 PP2V5 RCAM AF PP2V5 RCAM AF COMP
AMP,
1%
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SM
MF
01005
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ROOM=PMU
THIS XW LINK AT PMU AREA
TO DO: REVIEW ALL LDO ASSIGNMENTS
(CHECK VDD_LDO INPUT SOURCE,
CHECK CURRENT RATING FOR LDO OUT
23 SOC USB PHY (25 MA) VS *
LOAD REQUIREMENT AT DESTINATION, ETC)
14 TRISTAR VDH,
16 23
20
23
GYRO,
ACCEL,
6 23 NAND (? MA)
16
23
11
2.3
FFwn FROK TRTifi0
23
FF1YH Mffi
FFIYfl
17
WYliTO
23
CODEC VA (2.5 MA L19, 3MA L67)
WIFI_FLEX PAC (? MA) NOTE: 3V +/- 5% PER EUGENE
COMPASS
ACCESSORY POWER (? MA)
(? MA)
PROX/ALS VDD (PROX: 0.75/1.2 MA ALS: 0.175/0.25 MA [TYP/MAX])
REAR CAM AUTO FOCUS (120MA PEAK, PROBABLY CAP AT 80MA)
REAR/FRONT CAM AVDD
2 7 SOC 1V0 MIPI,
ll
23
i
C291 C419
0 .1UF 1. OUF
20%
20%
6
6.3V
.3V
X5R-CERM X5R
01005
0201-1
ROOM=PMU
ROOM=PMUT
PROX
LED
USB_DVDD,
(102 MA TYP)
23 ALWAYS ON 1V8 MA)
(? MA)
DP (71 MA TOTAL)
8 7 6 5 4 3
8 7 6 5 4 3 2 1
AMBER
PMU
(AMUX, GP10, BUTTONS, ADC, THERMISTORS, SYSTEM I/F, GND )
D
c
CI5 9 1
100PF
5%
6.3V
CERM
01005
FOREHEAD NTC
R108
10KOHM-1%-0.3 IMA
0201
FOREHEAD NTC P
FOREHEAD
100PF IS NEEDED FOR SAMPLING CAP IN ADC IN PMU
CI67 i
100PF -
5%
6.3V
CERM
01005
CAMERA NTC
R110
10KOHM-1%-0.3 IMA
0201
CAM NTC P
CAM NTC N
B 100PF IS NEEDED FOR SAMPLING CAP IN ADC IN PMU
C322 i
100PF -
5%
6.3V
CERM
01005
RADIO PA NTC
R90
10KOHM-1%-0 . 31MA
0201
PA NTC
P
PA NTC N
NTC N
AMUX VOLTAGE LIMIT IS APPROX . = VDD REF = PP VCC MAIN
BASEBAND
rH ,
• CO > 13 3 BUTTON TO AP HOLD KEY BUFF L
>
A21 AMUX__A0
1.8V > 13 3 BUTTON TO AP MENU KEY BUFF L B21 AMUX_A1
1.8V > 13 3 3 BUTTON TO AP RINGER A C21 AMUX_A2
1.8V > 3 3 BUTTON TO AP VOL UP L D20 AMUX_A3
r—1 CO>
> 8 3 BUTTON TO AP VOL DOWN L D21 AMUX_A4
19 14 ifQH TQ CHESTNUT PWR gN E20 AMUX_A5
3.33V >
23 13 TRISTAR TO PMU USB BRILSIMI JL.
E21 AMUX_A6
23 14 13 CHESTNUT TO PMU ADCIN7
G16 AMUX_A7
23 22 PMU TO TP AMUX AY G17 AMUX AY
BASEBAND
-->
24 RADIO TO PMU ADC SMPS1 MSMC 1V05 F18 AMUX_BU
24
G18 AMUX_ Bi
23 16 TRISTAR TO PMU MIKEYBUS TEST POS HI7 AMUX_B2
TRISTAR TO PMU MIKEYBUS TEST NEG Hi6 MUX_B3
45 PMU TO WLAN CLK32K_
> 23 16
> 24 13
--> 24
2
_
24
23 22
AP
TO PMU TEST CLKOUT
JY±JaMUX_B4
K13 KMUX_B5
J17
K14
K18
16 15 14 3 AP TO I2C0 SCL H18
16 15 14 3 AP_BI I2C0_SDA J18
14
,45 AP TO PMU DWI CLK
2 XW2R 45 AP TO PMU DWI CLK XW E13
14 ,45 AP TO PMU DWI DO
AMBER-PMC
XW4
XW9
F7>—-
XW6
<57>
XW11
<57>
XW8 1
XW33 1-67>4ÿ
XW14
2
XWl 5
PCB: MAKE XW28, XW29 ACCESSIBLE!
T 2 XW?. 9 45 AP TO PMU DWI DO XW E12
ACTIVE HIGH AP TO PMU RESET IN
ROOM=PMU
2 SHORT-IOL-O .1MM-SM i6 TRISTAR TO PMU HOST RESET
ROOM=PMU
SHORT- 10L-0.1MM-SM
-10L-0.1MM-SM
'-10L-0.1MM-SM
*°§mw- 10L-0.1MM-SM
ROOM=
-10L-0.1MM-SM
1
*°mm10L-0.1MM-SM
PLACE THESE XWS
AT PMU
NC -
N19
_ P19
, AP TO PMU SOCHOT1 P20
\\ V 2 RESET 1V8 L
19 16
AMUX_B6
AMUX_B7
AMUX
RESET
PI
k
PMU TO AP IRQ L N2CL
. 23 CAM TO PMU NTC P K5
23 FOREHEAD TO PMU NTC P K4
23 PA TO PMU NTC P N2
x 2ÿ4 5 PMU TCAL N4
23 H6P TO PMU NTC P P3
C265
100PF
5%
6.3V
CERM
01005
ROOM=PMU
ÿ
3
XR1 0 9
.92K
ÿ
0.1%
• 1/20W
MF
2 0201
ROOM=PMU
CALIBRATION
PCB: PLACE CLOSE TO PMU
N3
SCL
SDA
BY
DWI_CK
100-300K INT PD
DWIDI
100-TDOK INT PD
RESET
IN1
100-300K INT PD
RESET
IN2
100-300K INT PD
IN3
100-300?C INT PU TO
RESET*
NO INT PULL
IRQ*
NO INT PULL
TDEV1
TDEV2
TDEV3
TDEV4
TCAL
TBAT
U7
FCCSP-0 . 8 4 MM
(2 OF 3)
X
DS
<
A
ÿ
1
V
Oa
<
LDOl2
(J
H
2
co u.
w
u
Q
<
H
U
U
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IREF
VREF
VDD_REF
VDD_RT€
FIXED 2.5V, +/— 2%
BRICK_ID
ADC_IN7
ADC__REF
ACC
ID
ACC_DET
BUTTON!
100-30CK INT PD
BUTTON2
100-300K INT PD
B
100-300K r
BUTTON4
100-300K INT PU
KEEPACT
NO INT PULL
SHDN
100 300K INT PD
OUT
32K
GPIO
GPIO
GPIO
GPIO10
GPIOl1
GPIOl3
GPIOl4
GPIOl5
GPIOl6
R116
200K
— rAA/Vÿr—
1/20W 201
ROOM=PMU
C317
0.1UF
ROOM=PMU 1
10% CERM-X5R
6.3V 0201
C318
1.0UF
ROOM=PMU 1
20%
6.3V X5R
0201-1
C319
0 .1UF
R131
6.34K
PWV 1%
TRISTAR TO
PMU USB BRICKID
BB VBUS PET 24
MF
01005 1/32W
F4 4 5
I
CHESTNUT TO PMU ADCIN7 13 14
PMU IREF
F17 pp PMU VREF
C326 C323
A2
F16 pp PMU VDD REF
CERM-X5R
0 .01UF 1000PF
)
pp VCC MAIN
B2
10 12 14 21 23 24
0201
10%
10%
VSS BUCKO
El7 pp PMU VDD RTC
ROOM=PMU
6. 3V
6.3V
X5R
X5R-CERM
NOSTUFF
C2
01005
01005
P2 23
XR65
Al 4
isTRISTAR TO_PMU_ USB_BRICKID_R
ROOM=PMU
ROOM=PMU
22 OK
j
Bl4
PI
5% MF
1/32W
CI4
R156
01005
0.00
2
All
E75 TO PMU ACC DETECT 16 17 23
Bl1
-A/W-
1/32W
2R155
)VSS BUCK02
Cll
MF
A6
01005
0 .00
FOR TRISTAR2 (RDAR: //13183471)
0% MF
A7
P4 23 E 5 ACC R
R155 STUFFED
1/32W
BUTTON TO AP MENU KEY BUFF L
01005
R156, R65 NOSTUFFED
B6
13
VSS
B7
BUCKO12
G6 BUTTON TO AP HOLD KEY BUFF L 3 13
C6
F6 BUTTON TO AP RINGER A , o
m
CI
PMU TO Gil
VSS
A18
K15
AP_ T0_P MJ_ KEEPAC T
Bl8
)VSS_BUCK14
CI8
5R8 7
H20
4 5_PMU TO_WLAN CLK3 2K 13 24
ÿ
1.00M
5% TBD VALUE
H21 ) VSS_BUCK3 5
ADD RDAR:
N/C WITH
//12616150
1/32W
NOTE: N41 HAS 1M PD
PANICB=NO
MF
01005
BB TO PMU HOST WAKE 24
R112
Al VSSA_BUCK0
.1• 0 0K
PMU TO BB RST R L
PMU TO BB RST L
TRISTAR TO AP INT 3 16
-W7V
24
G14 VSSA_BUCK1
- ' %
Bl VSSA_BUCK2
WLAN TO PMU HOST WAKE 24
Hi5 VSSA_BUCK5
CODEC TO PMU MIKEY INT L 10
R113
_ PMU TO BT REG ON R
.0.00,
PMU TO BT RKG ON
U% -AAAÿr
24
HI
BT TO PMU HQgT WAKE 24 1/32W 01005
H2 ) VSS SW CHG
PMU TO WLAN REG ON R
R114
, 0 .00 _
NAVAJO TO PMU INT H 3 17
1 A A A 2 PMU TO WLAN REG ON 24
G7
ui VVV-TTT
OSCAR TO PMU HOST WAKE 3 20 1/32W 01005
G8
HI4 VSSA_BUCK3
AP 31 BATTERY SWT 3 22
G15 VSSA_BUCK4
PMU TO OSCAR CLK32K 20
G9
G12
-2-ÿnc
-ÿ<NC
16
G13
H4
U7
AMBER-PMC
FCCSP-0 .8 4 MM
(3 OF 3)
VSS
H7
H8
H9
H'l0
HI1
HI2
HI3
J4
J5
J6
J7
J8
J9
J10.
Jll
J12
J13
K12
K6
K7
K8
K9
K10
Kll
L21
M3
M4
M9
M21
N10
Nil
N12
N14
Nl8
N21
P15
P16
P21
A
100PF IS NEEDED FOR SAMPLING CAP IN ADC IN PMU
CI68 1
100PF
5%
6. 3V
CERM
01005
H6P NTC
R57
10KOHM-1%-0.31MA
0201
H6P NTC
P
H6P NTC N
100PF IS NEEDED FOR SAMPLING CAP IN ADC IN PMU
23 22 17 BATTERY TO PMU NTC
AMBER OTP Al (EVTl)
CHANGES/USEFUL INFO HIGHLIGHTE'ED
BELOW
GPIOS, BUTTONS, RESETS
GPIOl BUCK3_SW1 OUTPUT, DRIVE LOW, OPEN DRAIN
GPI02 BUCK3 INPUT WITH PULLDOWN
GP 103 BUCK3 OUTPUT LOW
GP 104 BUCK3 INPUT WITH PULLDOWN
GP 105 BUCK3 OUTPUT LOW
GP 106 BUCK3 INPUT WITH PULLS DISABLED (EXT PU)
GP 107 BUCK3 INPUT WITH PULLDOWN
GP 108 BUCK3 INPUT WITH PULLUP
GP109 BUCK3 OUTPUT LOW
GPIOl0 BUCK3 INPUT WITH PULLDOWN
GPIOl1 BUCK3 OUTPUT LOW+H12
GP1012 BUCK3 INPUT WITH PULLUP
GPIOl3 BUCK3 INPUT WILL PULLDOWN
GPIOl4 BUCK3 OUTPUT LOW
GPIOl5 VDD_MAIN OUTPUT LOW
GPIOl 6 BUCK3_SW1 INPUT WITH PULLDOWN
BUTTON2 WAKE FROM HIB AND STBY .
BUTTON4 PULLUP TO BUCK3
BUCKS,
LDOS, TIMING
BUCK3_SW3 AND BUCK4_SW2 DEFAULT OFF
BUCK5 DEFAULT ON IN ACTIVE.
BUCK2 DEFAULT 1.0V.
LD04 DEFAULT OFF IN ACTIVE, OFF IN HIB
LD09 DEFAULT 2.80V.
LD03_OFF__SLOT = 7 (MOVE LD03 OFF-SLOT TO -8)
LDOl3_OFF_SLOT = 2 (CHANGE LD013 OFF-SLOT TO -3)
CHANGE OFF-SLOT TIMERS FROM 2MS TO 3MS . (T3/T4)
- SLOT_TIMINGS T3 = 2 AND T4 = 2 ( 3MS FOR BOTH)
MOVE BUCK5 ON-SLOT TO SLOT 3 AND OFF-SLOT TO SLOT -4 .
RESET_IN1 ENABLED
RESET_IN3 ENABLED, ACTIVE LOW, PU ENABLED TO LD012
NOTE: HIB STATE IS NOT ENABLED FOR ANY GPIOS (OR TEMP_IRQ FOR GPI09),
NO INPUTS ARE SELECTED AS WAKEUP EVENTS
ALL PULLED UP INPUTS ARE SELECTED AS FALLED EDGE INPUTS,
ALL PULLED DOWN INPUTS ARE SELECTED AS RISING EDGE INPUTS
8 7 6 5 4 3
8 7 6 5 4 3 2 1
ÿ
CHESTNUT,
BACKLIGHT DRIVER, MESA BOOST
D
D403 DISPLAY PMU
( TICHESTNUT, 338S1172) D
C
24 23 21 14 13 12 10 pp YPri rift in
r
OMIT_TABLE
LI9
1.5UH-1.6A-0.130HM >-
MAKK2 016-SM
ROOM=CHESTNUT
DECIDED ON PANICB = NO
REMOVE R4 AND R13
RDAR://13127673
r
C47 i
4 .7UF -
20%
6.3V
X5R-CERM1
402
ROOM=CHESTNUT
- FF fiflfiriTNUT TiiÿP
18 LCM TO AP HIFA BSYNC BUFF
16 is 14 13 3 AP TO I2C0 SCL_
6 15 14 13 3 AP BI 12 C0 SPA
19 13 LCM TO CHESTNUT PWR EN C3
24 22 19 16 13 4 -
RESET 1V8 L_
D1
B2
A2
D3
D2
23 13 CHESTNUT TO PMU ADCIN7 El
VIN
sw
SYNC
NO
SCL
SDA
ROOM=CHESTNUT
U3
TPS 65 73 OAOP YFF
BGA CF1
INT PULL
T .CM EN
2 0 OK INT PD
RESET*
NO
INT PULL
ADCMUX Q20
<
CJ
CF2
LCMBST
> 1 -Mm
CPUMP
VNEG
VNEG (SUB)
HVLDOl
m cnj HVLD02
a a
2 2
HVLD03
CO CO
"
•—i
CO
Q
C4
E4
ÿ' P P CHF,$TNVT QP
2 3 PP CHESTNUT CN
i C441
- 1.0UF -
— 20%
0
6.3V
z
X5R
0201-1
ROOM="CHESTNUT
i C54
10UF
20%
10V
X5R-CERM
0402-1
ROOM=CHESTNUT
C69
10UF
20%
10V
X5R-CERM
0402-1
ROOMÿCHESTNUT
i C52
- 10UF
— 20%
« iov
z
_
X5R-CERM
0402-4
ROOM=CHESTNUT
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-
PFW7 TiCM
19 23
mm -
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T
8 19 23
C330
10UF
20%
10V
X5R-CERM
0402-1
ROOM=CHESTNUT
1
1
C329
22UF
20%
10V
X5R-CERM
0603-1
1
ROOM=CHESTNUT
c
SAGE NEG BOOST
TIMING INFO:
2 MS NOMIAL START UP DELAY FOR LCM POWER SEQUENCING
0 MS DELAY AT SHUTDOWN
ACTIVE DISCHARGE ZMS TO RAIL DOWN
D 4 0 3
BACKLIGHT DRIVER
APN : 353S3721
MOJAVE
B
4 13 12 1o ff vrr mm
C252
10UF
20%
6. 3V
CERM
0402
ROOM=BACKLIGHT
TT10UF
C297
20%
6 .3V
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0402
ROOM=BACKLIGHT]
L3
22UH-2 0%-0 .38A-0 .8760HM
tAPTTl 2 .
VLF302510T— SM
ROOM=BACKLIGHT
16 15 14 13 3 AP PI IgCO SPA
16 15 14 13 3 AP TO I 2C0 SCL
19 18 16 12 11 10 7 6 5 3 2 P 1V P
23 21
24 23 17 16 12 10 3 PP1V8 SDRAM
lififi ma t v ROOM=BACKLIGHT
A3
C3
Al
A2
CI
B1
ROOM=BACKLIGHT
U23
LM3534TMX--Al
SW BGA OVP
IN
SDA
SCL
VIO SPI
HWEN
NO INT PULL
D1
NSRO 62 0P2XXG
SOD— 92 3—HF
ILEDl
D3 PP LCM BL CAT1 19 23
ILED2
D2 PP LCM BL CAT? 19 23
SCK
B2 4 5 AP TO PMU DWI CLK 3 i3
SDI
C2 4 5 AP TO PMU DWI DO 3 13
GND
co
CO
TROOM=BACKLIGHT
i C213
56PF
— 5%
16V
z9 NPO-COG
01005
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I5%
16V
9
LCM DF.SENSE
i C214
56PF
2 NPO-COG
01005
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r
PP T.CM RT. A_
1 CI31
- 10UF
— 20%
- 25V
z X5R-CERM
0603
ROOM=BACKLIGHT
19
23
24 23 21 14 13 12 10
P Yÿ' TH
ROOM=MOJAVE
LI
1.OUH-O .4A-0 .530HM
VOLTAGE=5V
1 2 MOJAVE_SWB1
0402
12
17
PP3V0 SDRAM
BOOST EN A2
B2
A3
23 16
C2
APN: 353S3978
VENDOR: TI B
SW
VIN
EN_M
EN S
U10
LM3638
BGA
ROOM=MOJAVE
pd - 200K
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2 2
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C3
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z
X5R-CERM
0402-1
ROOM=MOJAVE
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C28
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X5R-CERM
0402-1
ROOM=MOJAVE
C2800
56PF
5%
25V
NPO-COG
201
ROOM=MOJAVE
ADDED RF SHUNT TO MOJAVE OUTPUT
RDAR://12876852
NOTE: STACKED TO MEET VOLTAGE REQ, LOOK INTO 18+V CAPS
A
8 7 6 5 4 3
8 7 6 5 4 3 2 1
SPEAKER AMP,
LED DRIVER
D
C
24 23 22 15 I2 pf RflH YPP
LI9
C333 1
1OUF -
PCB: PLACE C332, C333 AT L4 .1 20% —
6.3V 0
CERM
z
0402
ROOM=SPKR_AMP _
3 AP TO-SPKAMP RESET L
JR12 9
• 51OK
5%
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MF
01005
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SPEAKER AMP
XW3 5
SH0RT-L6-SM
— 67!>—ÿ
PCB : PLACE AT C335.1
i C348
- 22UF
— 20%
~ 10V
z
X5R-CERM
0603-1
ROOM=SPKR_AMP
C332
r
i C335
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20% —
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0402
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i C337
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— 20%
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X5R
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PCB PLACE C335, 337 AT VP INPUT
r
OMIT__TABLE tarttt
1 C385
- 1OUF
1.0UH-20%-3 .2A-0.065OHM
I
1OUF
20% —|—
6 .3V
CERM 3RM
z
04102
LOOM=SPKR_AMP \MP _L_
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— 20%
0z
X5R-CERM
10V
0402-1
0201
ROOM=SPKR_AMPI
i/TTTU' PP
TFA2 52 0 10-SM
ROOM=SPKR_AMP
ROOM=SPKR_AMP
M0VED C385 T0 L19_VB00ST
RDAR://12723825
16 14 13 3 AP BII2C0 SDA
14 13 3 AP TO 12C0 SQL
fiFTW fi
3 SPKAMP TQ AP INT jL
, AP TO.SPKAMP. BEE_GEES
(LEFT CONFIG)I,45 AP TO SPKAMP I2S2 MCLK
A2
B2
D5
D6
A7
A6
D7
C7
E7
10 3 45 AP TO CODEC XSP I2S2 BCLK
E6
10 3 AP TO CODEC XSP I2S2 LRCLK F6
10
10
, AP TO CODEC XSP I2S2 DOUT
F7
, CODEC TO AP XSP I2S2 DIN E5
I2C ADDRESS: 1000000X D
i C3337
- 1.OUF
— 20%
. 6.3V
* X5R
0201-1
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Trn
«-H «-• rH rH
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1— 1 rH ÿsr m
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VBST
lO
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w VA
VP
RDAR: //13015788
APN: 338S1202
U22
CS35L19B-XWZR-C0
WLCSP FILT+
) SW VER1
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SCL
INT*
MO
INT PULLS
LDO 1 1
'
FILT
1 1 X
—•—
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VSENSE+
ISENSE-
ADO
1M INT PD IREF+
MCLK
I'M TNT PD
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LM INT PD
T.RCK/FSYNC
1M INT PD
SDIN
1M INT PD
SDOUT
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GNDP
GNDA
CO
< ro m m ÿr in vo en ÿr
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i
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0201
ROOM=SPKR_AMP
10 12 23
V = 1.0V C= 1UF MIN
T C29
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23 SPKAMP TO SPEAKER OUT P
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XR35
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2 01005
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— — 20
20%
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X5R z X5R-CERM1
0201-1 402
RQOM=SPKR_AMP ROOM=SPKR ROC
AMP
AMP120%
6.3V
0
6.
SPKR
i C340
- 4 .7UF
REMOVING VMON AND
RDAR: //12839479
IMON FUNCTION
c
REMOVED : C309, R122,R124,R128, C3 67, R12 6, R127,XW3 9, XW40
CHANGE: CONNECT VSENSE PINS LOCALLY TO SPEAKER OUTPUT
C360 i
10% —
10V 0
X5R z
01005
ROOM=SPKR AMP
C363 i
10% —
10V 0
X5R z
01005
ROOM=SPKR AMP
FL9
12 0-OHM-2 5 %-lA
1
0402
ROOM=SPKR_AMP
OMIT TABLE
OMIT_TABLE
FL6
120-OHM-25%-lA
rrrrii HPft PiPIP TO iiPPiPftflfi PUT flONN P
0402
ROOM=SPKR_AMP ~ 7 0 0MA RMS @ 4.1W INTO 80HM
T
C500 i i C501
iu% 10% —|— —|—
ISENSE+
RESET*
100K INT PD
OUT +
ALIVE
•lO INT PULLS OUT-
1000PF-
1000PF-
1000PF-
0
ROOM=SPKR_AMP l_AMP | !
OMIT TABLE — !±- OMIT TABLE
1005 I \
1000PF
10%
10V
X5R
01005
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HPKhMP TO ifPPiPftflP PUT rnMN N
17 22 23
B
STROBE DRIVER
TI: APN 353S3899
(OPEL)
B
24 23 22 15 1:: PP fWT.YfT
T C386
1OUF
20%
6. 3V
CERM
0402
ROOM=STROBE
C387 i
1OUF -
20%
6 .3V
CERM
0402
ROOM=STROBE
OMIT_TABLE
L5
1.0UH-20%-2.5A-0.075OHM
JoTTYYl
pt,
TFA201610G-SM
ROOM=STROBE
7 AP TO LEDDRV EN
21 20 7 AP TO RCAM I2C SCL
21 20 7 AP BIRCAM I2C SDA
Tpn npw T-y
tA2_Bÿ
2i RCAM TO LEDDRV STROBE EN
D3
D2
E2
E3
NOTE: TORCH N/C NC/x
£2
24 BB TO LEDDRV GSM BLANK EM
Q
ROOM=STROBE
2
M
U17
LM35 64A1TMX
SW WLCSP OUT
sw
OUT
ENABLE
INT 200K
SCL
SDA
STROBE
PD AGND
INT 200K PD AGND
TORCH
INT 200K PD AGND
TX
INT 20(fi
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<
PD ÿGNÿ
2 2
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OUT
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LED1
LED2
LED2
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B3
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100PF -
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16V
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01005
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C396
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20%
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CERM-X5R
0402-2
ROOM=STROBE
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OPF.T.
C73
100PF
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NPO-COG '
01005
ROOM=STROBE
15
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FF HTfiFi HFTYFiF TP TiFif? 8 2 3
RCAM TO
STROBE NTC
A
XW4 9
FFNn nFFiTi 13
ROOM=STROBE
PCB: MAKE XWS THICK, PLACE UNDER U17
8 7 6 5 4 3
8 7 6 5 4 3 2 1
12C ADDRESS:
0011010X
14 12 PP3V0 SDRAM
D
C
TRISTAR
O
,TRISTAR TO
90 CODEC BI TRISTAR MIKEYBUS P
90 CODEC BI TRISTAR MIKEYBUS N
PLACEHOLDERS FOR
C38
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0201-1
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PMU MIKEYBUS TEST POS
R4 3
fAAAAr
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R44
0
vAA/V i'f
1/20W 201
ROOM=TRISTAR
INDUCTORS
23 13 TRISTAR TO PMU MIKEYBUS TEST NEG
C254
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20%
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X5R-CERM
01005
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S IGNAL_MODEL=EMPTY
XR8 3
10 0K
ÿ
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MF
9 01005
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ROOM=TRISTAR
XR8 4
• lo OK
' 5%
•
1/32W
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? 01005
ROOM=TRISTAR
SIGNAL MODEL=EMPTY
24 23 17 14 12 10 4 3 PP1V8 SDRAM
I
13 90 CODEC BI TRISTAR MIKEYBUS DIG P
2390 CODEC BI TRISTAR MIKEYBUS DIG N
BB DEBUG USB
ACCESSORY
SOC USB
UART
DEBUG UART
RX IS WRT SOC (BB TX) — >
TX IS WRT SOC (BB RX) <—
24 3
24 90 TRISTAR BI BB USB P
C39
0 .01UF
10%
6 . 3V
X5R
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ROOM=TRISTAR
C3
C4
A1
90 TRISTAR BI BB USB N BI
TRISTAR TO PMU USB BRICKID
90 AP BI TRISTAR USB0 P
90 AP BI TRISTAR USB0 N
AP TO TRISTAR ACC UART6 TXD
TRISTAR TO AP ACC UART6 RXD
C2
A3
B3
E2
El
AP TO TRISTAR DEBUG UART0 TXD F2
TRISTAR TO AP
DEBUG UART0 RXD
F1
BB TO AP UART 4 RXD D2
AP TO BB UART 4 TXD D1
TRISTAR TO AP JTAG SWCLK
TRISTAR BI AP
JTAG SWDIO
A5
B5
ro
ht
CO
>
I
Q
Q
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o
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cc
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USB0 DN
UART0__TX
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P_IN
ACC1
ACC2
DPI
DN1
DP2
DN2
CON DET L
UART0 RX POW GATE EN*
UART1_TX
UART1_RX
UART2_TX
UART2_RX
JTAG_CLK
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m
hA
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HOST_RESET
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> >
i Q Q
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KD
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SCL
INT
BYPASS
PP3VO ACC , 2 23 D
ACC
PWR
TRISTAR2 AO (APN: 343S0639)
TRISTAR2 AO' (APN: 998-5855, SCH SYMBOL TBC )
*TRISTAR2 A1 (APN: 343S0658, OFFICIAL NAME FOR TRISTAR 2 TEST CHIP (AO'
F6
C5
E5
E3
D6
E4
B6
D3
D4
C 6
E6
PP Fi7rl TO TRTfiTftfi ftm J " 23 C304
PP ÿ71 TO TRTfiTflR ftf-flP " 23
1UF —I—
TRISTAR BI E75 PAIR2 CONN N 17 22 23
A2
ROOM=TRISTAR
B4 90
B2 90 TRISTAR BI E75 PAIR1 CONN N 17 22 23
0402
A4 90 TRISTAR BI E75 PAIR2 CONN P 17 22 23
E75 TO PMU ACC
DETECT
10%
2 5V
ROOM=TRISTAR
PP22
13 17 23 P4MM
SM
PP5V0 USB PROT 12 17 23
PIN FOR HANDSHAKE
RESET 1V8 L 2 4 13 14 19 22
TRISTAR TO PMU OVP SW EN L
TRISTAR TO PMU HOST RESET 1:
12 23
AP BI I2C0 SDA 3 13 14 15
HOST RESET
AP TC I2C0 SCL 3 13 1A 15
TRISTAR TO AP
INT
, 3 13
ACTIVE HIGH
AMBER HAS 100K-300K INT PD
23 TRISTAR BYPASS C
1 C338
- 1.OUF
— 20%
7 6.3V
z
X5R
0201-1
ROOM=TRISTAR
EEPROM
THROTTLER
B
ONSEMI EEPROM
APN: 335S08 94
RDAR:/ / 13057149
PLACE XW1600.1 CLOSE TO
C1600.1.
XW1600
SHORT—1OL-O .1MM-SM
2 PP2V80 THROTTLER FB 2 23
ROOM=THROTTLER
18 16 14 12 11 10 7 6 5 3 2 P P1V 8
23 21 19
B
R1581
2 .2K
5%
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01005
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AP TO EEPROM I2C SCL_ CAT24C08C4£
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t
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SE
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2
2R15 9
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2 3 5 6 7 10 11 12 14 16 18 19
21 23
• 5%
• 1/32W
MF
2 01005
ROOM=E_SE
_ AP BI KF.PROM IPC SDA 3
2 3 12 PP VCC MAIN UVLO SENSE
R16001
165K
i%
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MF
01005 .
ROOM=THROTTLER
R16011
10 0K •
i% •
1/32W •
MF
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ROOM=THROTTLER
U160 IN NEG
PP2V8Q
1 CI60 0
- 4 .7UF
— 20%
6.3V
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THROTTLER
X5R
402
ROOM=THROTTLER
U1600
MAX9039BEBT+
UCSP
A2
APN
353S4103
ROOM=THROTTLER
U160 REF
12
THROTTLER
T
XR1605
> 10 0K
• 5%
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MF
o 01005
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ROOM=THROTTLER
XR1604
• 10K
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MF
o 01005
SOCHOTO
TO
Q1600
DMN2990UFA
DFN0806—VML0806—COMBO-N78
ROOM=THROTTLER
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A
U160 REF
R1602
J-.00K
—nAAA1
1%
1/32W
MF
01005
ROOM=THROTTLER
U160_IN_POS
R1603
, 10K
-vVW—
1%
1/32W
MF
01005
ROOM=THROTTLER
8 7 6 5 4 3
D
c
B
DOCKFLEX B2B
fPIYft fiRRftM
17 12 PP3V0 NAVAJO
NAVAJO:
VDD (1.8V)
VBOOST (18V)
BOOST EN
HPHONE:
HS3/ HS4,
HPDET,
HS3/HS4 REF,
( +EXTMIC )
HS3/HS4 CTRL
MENU BUTTON
MIC1
(PRIMARY MIC)
U1700
TPS22904
CSP
RQOM=MESA
9 HPHONE TO CODEC PET
MESA LOAD SWITCH
RDAR: //13084684
(USB VBUS, MENU BTN,
MIC1 (PRIMARY MIC) , SPEAKER, HP, HP
ACC
DET/ID/PWR,
EXTMIC,
E7 5 D
NAVAJO,
)
ANTENNA LAT SW CTRL,
FL32 oioos
OMIT_TABLE 12 0 — OHM— 2 '1 OMA ROOM=dock
23 PP1V8 MESA LOAD SVL OUT
FL33
nAP TO NAVAJO SPI2 MOSI CONN AP TO NAVAJO SP12 MOSI
1
CI7 9 9 70-OHM-30 OMA
DEFAULT 0 OHM
0 .1UF
ROOM=DOCK
FL63 oioos
20%
3V nTTTLB
OMIT TAB LE 12 O-OHM-2 1OMA ROOM=DOCK
X5R-CERM
mmm
01005-1
005
nAP TO NAVAJO SP12 CLK CONN AP TO NAVAJO SPI2 CLK
ROOM=MESA
DEFAULT 0 OHM
FL5 4
7 0-OHM-30 OMA
nTTTLB
>OM=DOCK
fTYTYj
FL50 01005
OMIT_TAffiLE 120-OHM-2 10MA ROOM=dock
PP 1 MFC,a
mnm
MESA TO BOOST EN
ROOM=DOCK
FL66
12O-OHM-21OMA
R107
nmm
01005
01005-1
ROOM=DOCK
CI8 4
56PF
5%
6.3V _
NP 0-COG
01005
ROOM=DOCK
z
C110 i
56PF
5%
25V
NP0-C0G-CERM
01005
ROOM=DOCK
ÿ
CI16 1
56PF
NAVAJO TO AP SPI2 MISO CONN NAVAJO TO AP SPI2 MISO
DEFAULT 0 OHM
FL59 01005
OMIT TAiLE 12O-OHM-21OMA ROom=dock
l/YYTYj
NAVAJO.TO PMU INT CONN H NAVAJO TO PMU INT H, 13
DEFAULT 0 OHM
1
CI0 3
56PF
5%
6 .3V
01005
1
C101
56PF
5%
3V
1005
1
C12 6
56PF
5%
6.3V
01005
5%
6.3V
NP0-C0G z
01005
ROOM=DOCK ROOM=DOCK ROOM=DOCK ROOM=DOCK
3 .3K
NAVAJO 56PF NAVAJO 56PF NAVAJO 56PF NAVAJO 56PF
YVW
1/32W
155S0755 FOR IMPROVED AUDIO BREAKTHROUGH IT1T 1
RDAR ://13201897 L ±J -L
FL1 & FL10 12 0 — OHM— 2 1OMA
CODEC TO HPHONE HS3
OMIT_TABLE
01005
01005
i C242
7z
5 6PF
5%
6. 3V
NP0-C0G
01005
ROOM=DOCK
PCB: PLACE AT J7 .GND PIN (PCB CAN CHOOSE)
ROOM-DOCK 1
XW13
CI0 5
CODEC TO HPHONE
FL10
HS3 CONN
12O-OHM-21OMA
CODEC TO HPHONE HS4 DEC TO HPHONE HS4 CONN
EXTMIC TO CODEC
EXTMIC TO CODEC N
OMIT TABLE
inmm
01005
ROOM=DOCK
C8
100PF
NP0-
01
ROOM=DOCK
1 C* S ROOM=DOCK
100PF
5%
ROOM=DOCK
01005
FL16
12 O-OHM-21OMA
5%
16V
NPO-COG
01005
STUFF C4
RDAR://12982794 THIS ONE ON MLB
--->
ROOM=DOCK
i
C4
220PF
10%
10V
X7R-CERM
01005
OOM=DOCK
R501
1.33K
l
1/32W
CODEC MBUS REF 3V
0-C0G
ROOM=DOCK
005
ROOM=DOCK
516S1032
PLUG
516S1031 RCPT
ROOM=DOCK
J7
USED ON
105847038102829
m-st-sm
Ī 1
-
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0 .1UF
20%
6.3V
X5R-CERM
01005
ROOM=DOCK
C374 i
6 .8V-100PF
01005
ROOM=DOCK
1
C 9 8
56PF
5%
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1005
ROOM=DOCK
FL19
8 O-OHM-25%-l00OMA
ROOM=DOCK
iTTT Li
0201 NOTE: 0.130HM DCR
REMOVE R135
RDAR: //12853395
FERR-33-OHM-0 .8A-0 . 09-OHM
R23
10 OK
2
0201
ROOM=DOCK
i%
1/32W
MF
01005
ROOM=DOCK
HPHONE TO CODEC HPHONE TEST 9 23
PPTVONAVANO 12 17 23
1/32W
MF
sPkqmp in kpf a k F.r nr.T rnm,
PP1 VH FDRAM DOPK mMM
nPP
NOTE: NAVAJO MISO
::PP2Vn NAVA.TO COKI1M
R101
10 OK
i%
rmmr to amm &
mnm
YD PnrT r'HMM AP TO HEADSET HS4 CTRL CONN
01005 FL17
12 0-OHM— 2 1OMA
\
R15/I 50
1/32W
MF
/ / 12806830
BOOST CONN
M]»
01005 U£H
01005
CODEC TO HPHONE HS4 REF
BO N \JO S P T/ MPS - wm] th nrncMr. r mn
, CONN
22 9 CODEC TO HPHONE HS3 REF
, AP TO HEADSET HS3 CTRL
ROOM=DOCK FL69 0100 5
1500HM-25%-200MA-0.7DCR
nmm
**
vmmrv 1
DZ 6 .8V-100PF
ROOM=DOCK
6 .8V-10 0
ROOM=DOCK
6. 8V
0100
ROOM
ROOM=DOCK
FERR— 33— OHM— 0 .8A-0.09-OHM
* mm i
TO PMU INT CONN H CODEC TO HPHONE HS3 CONN 17
0201
NOTE: RSVD ANTENNA
HPHONE TO CO PET CONN
o o-
NOTE: HS4 CONN
EC TO HPHONE HS4 REF CONN
AP TO NAVAJO SPI2 CLK CONN
NOTE: LAT_SW2
NOTE: LAT SW1
AP TO HEADSET HS3 CTRL CONN CODEC TO b a wc EJS3 REF CONN
AP TO HEADSET HS4 CTRL CON
NOTE: HS3 CTRL 90 TRISTAR BI E75 PAIR1 CONN N
01005
ROOM=DOCK
ROOM=DOCK
FL2302
120-OHM-21OMA ROOM=dock
ROOM=DOCK FL68 01005
,
15QOHM-25%-200MA-Q 1jmrru . 7DCR
rmm
AP TO HEADSET HS4 CTRL BATTERY TO PMU NTC ,, 90 TRISTAR BI E75 PAIR2 CONN N
22 23
FL5
12 O-OHM-21OMA
mmn
DZ 9 1
6 .8V-100PF
01005
ROOM=DOCK
DZ10
BUTTON TO AP MENU KEY CONN
6 .8V-100PF
01005
NOTE MIC1
ROOM=DOCK
NOTE MIC1 BIAS 90 TRISTAR BI E75 PAIR2 CONN
C2307
NOTE MIC1 RETURN
E75 TO PMU ACC DETECT CONN
PAC 2.65V
NOTE PP P.-', TO TRTFTAB APf'1 CONN
BUTTON TO AP MENU KEY L NOTE: SPK NOTE SPKR N
1
1
CI7 6
01005
ROOM=DOCK
50NA @ 2.5V
DZ15 1
56PF
PCB: PLACE THESE XW
5%
12V-33PF
6.3V 01005-1
NPO-COG
01005
ROOM=DOCK 2
NOSTUFF
LINKS AT DOCK CQNNECTO
TO TP TsTflR Al'fv CONN
56PF
5%
16V 7
NPO-COG z
01005
ROOM=DOCK
01005
TO
BB TO LAT SW2 CTL
ROOM=DQCK PP5V0 USB CONN BB TO LAT SW1 CTL
FL49
120-OHM-210MA
PP CODEC TO MIC1 BIAS PP CODEC TO MIC1 BIAS CONN
PGND MIC1 TO CODEC RET
ROOM=DOCK
C215
1.0UF
2
6.3V
X5R
0201-1
01005
RQOM=DOCK
PLACE UNDER CONN
XW2 5
SHORT- 10L-0.1MM-SM
C355 1
C35 9 XW4 5
56PF
5%
.3V
RDAR://I304922
CHANGE DZ14.13 TO >10V PARTS
OMIT_TABLE
DZ14
12V-33PF
01005-1
ROOM=DOCK
OMIT_TABLE
DZ13
PCB: PLACE NEAR J7
(DESENSE CAPS >
C7 0 1
56PF
5%
6
NPO-COG
010
RQOM=DOCK
C71
56PF
5%
6
NPO-COG
010
ROOM=DOCK
1 CI8 8
56PF
?3V
NPO-COG
01005
ROOM=DOCK
REMOVED CM CHOKES
RDAR://12894985
90 TRIS'.1 CONN_P
SHORT- 10L-0.1MM-SM
56PF
1005
5%
ROOM=DOCK
ROOM=DOCK
90 TRIS'.l CONN N
NPO-COG 6. 3V
1
67) 2 01005
NPO-COG PCB: PUT XW
C240
PCB: PLACE NEAR
01005
J7
ROOM=DOCK
ROOM=DOCK AT J7.33
(ESD + DESENSE!)
(ESD + DESENSE!)
27PF
MIC1 TO CODEC N
PCB: PLACE NEAR J7
1 C206
56PF
%
.3V
NPO-COG
01005
ROOM=DOCK
90 TRIS'2 CONN_N
HPHflMF
E7 5
9 23
NAVAJO:
VDD (3.0V)
SPI
HPHONE AUDIO
BATTERY NTC
ANTENNA:
LAT SW CTRL
DIFFPAIRSFPAIRS
D
c
B
A
ANTENNA :
PAC 2.65V
SPEAKER:
SPEAKER LEADS
VSENSE,
USB VBUS
23 22 17 15
MIC1 TO CODEC
NP0-
90 TRIS:2 CONN_P
0
ROOM
PP
LD014 2P65
RPKAMP TO .qPFAKFP OTTT
23 22 15 qpkamp rn M
HYfl Fin FfiPT
2 APN : 37 6S1130
9MOHM MAX AT -4.5V VGS
POWER TO TRISTAR AND PMU
RgVEfiSE GATS
5 .IK
1/20W
ROOM=DOCK
Q2
CSD68813W10
A2
_ M
c
BGA
ROOM=DOCK
I
NOTE: KEEP R58 AT 0201 FOR
POWER DISSIPATION IN CASE
OF -20V RVP EVENT
C3 68 1
0 .01UF
10%
25V
X5R-CERM
020
ROOM=DOCK
--PPSVn-rTRP COMIT
100PF
5%
16V
NPO-COG
01005
ROOM=DOCK
100PF
5%
z
16V 7
NPO-COG z
01005
ROQM=DOCK
USB CONN
SNUB
C 9 9
56PF
NP0-
0
ROOM=DOCK
CI02
56PF
5% 5%
16V
NPO-COG
01005
ROOM=DOCK
R130 i.ook 1/32w
WW2
01005
5% MF
FL60
ROOM=DOCKmrrrv
ROOM
FL53
10-OHM-7 5 OMA
01005-1
10-OHM-75 OMA
dock 2 1
01005-1
E7 5 DETECT
PP FP
pp FR
arr?
16 23
ACCESSORY:
DETECT,
ID, PWR
RY :
8 7 6 5 4 3
8 7 6 5 4 3 2 1
D403 r DRIVER ICS)
19
18 PP SAG.F. TO TOt
fifi vrPTi |
1 C381
1 C30 6
- o .iuf C315 1 C324
' i— o .1UF
IUF - IUF
—|— 10% — 1 — 10% — 1 — 10% —I1— 10% —r
16v 0 0
16V
z X5R-CERM
z
X5R-CERM
t
? z
r
16V X 16V
X6S-CERM
z
X6S-CERM
i 0201 1L 0201 i 0402 JL 0402 1
1 ROOM=SAGE 1 ROOM=SAGE 1 ROOM=SAGE ROOM=SAGE 1
D 23 19 14 PNW7 iWiFi mm
c
B
(TURN ON LATER THAN PP1V8_GRAPE)
(TURN OFF SAME TIME AS PP1V8_GRAPE)
23 14g£ SV1
f
RAP_E VDDH
ÿ
C369
10UF
20%
10V
X5R-CERM
0402-1
ROOM=CUMULUS
I
1
C370
- 4 .7UF -
— 20%
~ 6 .3V
z
X5R-CERM1
402
ROOM=CUMULUS
23 PP CUMULUS VDDCORE
2 3 PP CUMULUS VDDANA
iC371
- 4 .7UF
45 PROX TO CUMULUS RX li CUMULUS IN IS SENSITIVE
ROOM=CUMULUS
C79
1000PF
45 PROX TO CUMULUS RX FILT
10%
6.3V
X5R-CERM
01005
23 18
23 18
R2 6
22 .IK
AAA/ 2
23 18
1% v v v MF
23 18
1/32W 01005
23 18
ROOM=CUMULUS
23 18
CI3 0 i
23 li
27PF
5%
23 l:
16V
NP0-C0G
23 l:
01005
ROOM=CUMULUS PP 7 P2ÿ (ÿ~
ROOM=CUMULUS PP8P2ÿ0ÿ-
, AP TO TOUCH SPI1
TOUCH TO AP
TOTOUCH SPI1CLK
AP TO TOUCH_SPI1 MOSI
ROOM=CUMULUSI
R136
3 TOUCH TO AP SPI1 MISO
MF
01005
ROOM=CUMULUS
3 45 AP TO TOUCH CLK32K RESET L
(ALSO A RESET IE CLOCK STOPS)
WIRED UP BY DEFAULT
ON MLB -> 516S1061 PLUG
ON ELEX-> 516S1060 RCPT
T% -
1/32W
— 20%
z0 6 .3V
X5R-CERM1
402
ROOM=CUMULUS
SAGE TO CUMULUS IN<2> B9
SACK TO CUMULUS : N< : - B8
--
SAGE TO CUMULUS IN<6> A9
SAGE TO CUMULUS IN<7>
SAGE TO CUMULUS IN<-I>
SAGE TO CUMULUS 7N<
•
SAGE TO CUMULUS IN<3>
SAGE TO CUMULUS IN<5>
SAGE TO CUMULUS IN<9>
23 18 SAGE TO CUMULUS IN<0>
23 18 SAGE TO CUMULUS IN<I4>
23 ib SAGE TO CUMULUS IN<_0>
23 is SAGE TO CUMULUS IN<13>
23 is SAGE TO CUMULUS IN<11>
23 1 a SAGE TO CUMULUS IN<12>
45 PROX TO CUMULUS RX IN
TOUCH TO AP SPI1 MISO R
X
B7
"B6
A8
B5
B4
A7
B3
A6
A3
A5
A4
B2
~A2
El
E— &-
23
C6
13 ruin nifniiiiin vnuinn
XW51
SM 18 CUMULUS TO PROX TX EN 1V8 L E3
<57>
45 AP TO TOUCH CLK32K RESET L XW D
ROOM=CUMULUS AP TO TOUCH GRAPE RESET L D§-
CHANGED R51 TO XW LINK
RDAR: //12773579
TO BE USED AS TP
RDAR: //12611242
C4
CUMULUS
IN0_0
IN1__0
IN2_0
IN3_0
IN4_0
IN5__0
IN6_0
IN7_0
IN8_0
IN9_0
IN10_0
IN11_0
IN12_0
IN13_0
IN14_0
IN14 1
H
CS*
H INT
H
H
H
SCLK
SDI
SDO
JTAG_TCK
JTAG_TDI
Xs2 JTAG_TDO
JTAG TMS
BCFG_RTCK
CLK IN/RESET*
RSTOVR*
ROOM=TOUCH_B2B J4 REFRESHED TOUCH CONNECTOR FOR COMBO FOOTPRINT
504459-4210-AA21-P04 2VA1 RDAR: //129932 95
M-ST-SM-COMBO
47
43
6 44 n
TOUCH B2B
34 3S0638
g
» VDDIO
O >
° U12
CUMULUS—CI
WLBGA
CUMULUS CI SILICON
RDAR:// 1255 1355
GND
CI
XW3 6
SM
23 PPivP-rnM.TT.uc ynnT.no 1 n rS 2 m
ROOM=CUMULUS
13
ROOM=CUMULUS
u
Q
Q
Q
>
07I <\]
u\ o
VSTM_0
VSTM_1
VSTM_2
VSTM_3
VSTM_4
VSTM_5
VSTM_6
VSTM_7
VSTM_8
VSTM_9
VSTM_10
VSTM_11
VSTM_12
VSTM_13
VSTM_14
VSTM_15
VSTM_16
VSTM_17
VSTM_18
VSTM 19
GPIO_l/ CK
GPIO_2/SD
GP IO_3
GPIO_4
TM_ACS *
TM OVR
C372
1.0UF
20%
6.3V
X5R
0201-1
ROOM=CUMULUS
E9_
*E5
F7
E6
*E7
F8
G9.
~D6
D7
D8|
5%
1/32W
ROOM=CUMULUS
R86
2 2 OK
-AAA/2 MF ~1
R3301
4 • 7 o
ÿA/VVÿÿ
i%
1/32W
MF
01005
ROOM=SAGE
t
C331
IUF
10%
16V
X6S-CERM
0402
ROOM=SAGE
23PN5V7 SAGE AVDDN INT
i C3301
- 10UF
— 20%
~ 10V
z X5R-CERM
0402-1
ROOM=SAGE
R3301/C3301 RC FILTER FOR VNEG
RDAR: //12723814
I
CI4
9
10UF
20%
10V
X5R-CERM
0402-1
ROOM=SAGE
RIPPLE
01005 ~ 23 18
23 18
PP-IVP CPAPP 12 18 2 3
23 18
23 18
23 18
23 18
23 18
23 18
23 18
REMOVED Q6, R121, C366 DUE TO SAGE2 C06
23 18
RDAR: //12839057
23 18
23 18
23 18
23 18
23 18
K
23 18 PP
DZ 4
GDZT2R6 .2B
GDZ-0201
ROOM=SAGE
TO CLAMP THE
.NEGATIVE RAIL
22.PP
23 PP
SAGE LX cl
SAGE LY D1 L_X
F5
I2C_SCL
NC
G
I2C_SDA
NC
SAGE2 CO
APN: 343S0645 (CD3246C0, T6)
SAGE TO TOUCH VCPH
13 . 5V
CI7 0 C365
IPP SAGE VCPL F
0 .IUF • 0 .IUF
ÿ
10% 10%
T
23
3 .5V
CI63
16V
16V
X5R-CERM X5R-CERM
o .IUF
0201
0201
10% —
6.3V .
ROOM=SAGE
ROOM=SAGE
CERM-X5R z
0201
ROOM=SAGE
Tm
<NJI COI col vol IT)I
CMI (Ul
CI5 6
Q b b X\ < Ui U U
1
CI65
10UF
(JOT
20%
X
10V
X X E -E CI ch a.
X5R-CERM
QQ> a q q Q o u o
0 .IUF
- 20%
M
Q
. 6. 3V
ÿ
Q Q Q Q
0402-4
> > & Q
X5R-CERM
> > > >
ROOM=SAGE
u> >
01005
< < < < <
ROOM=SAGE
U15
SAGE2-C0 6
SNS. IN0
CSP
SNS_OUT0
SNS. IN1
SNS_OUT1
SNS. IN2
SNS_OUT2
SNS. IN3
SNS_OUT3
SNS. IN4
SNS_OUT4
SNS. IN5
SNS_OUT5
SNS. IN6
SNS_OUT 6
SNS. IN7
SNS_OUT7
SNS. IN8
SNS_OUT8
SNS. IN9
SNS_OUT9
SNS. IN10
SNS_OUT10
SNS. IN11
SNS_OUTll
C8
SNS. IN12
SNS_OUT12
SNS. IN13
SNS_OUTl3
A8
SNS IN14
SNS_OUTl4
DRV_IN0
DRV_OUT0
HI
DRV_IN1
DRV_OUTl
J1
DRV__IN2
DRV_OUT2
DRV__IN3
DRV_OUT3
DRV_IN4
DRV_OUT4
DRV_IN5
DRV_OUT5
DRV_IN6
DRV_OUT 6
DRV_IN7
DRV_OUT7
DRV_IN8
DRV_OUT8
L2
DRV_IN9
DRV_OUT9
L3
DRV_IN10
DRV_OUTl0
DRV_IN11
DRV_OUTll
DRV_IN12
DRV_OUT12
H3
DRV_IN13
DRV_OUT13
G3
DRV_IN14
DRV_OUT14
L4
DRV__IN15
DRV_OUT15
K4
DRV_IN16
DRV_OUTl6
J4
DRV_IN17
DRV_OUT17
DRV_IN18
DRV_OUTl8
G4
DRV_IN19
DRV_OUT19
VBIAS
BSYNC
K5 LCM TO AP HIFA B
yNC
A2
VCPH_REF/EN
GCM_TEST
F9
F2
VCPL_REF/EN
F7
GO -ÿ< NC
VBST_ OUTH
VCM_IN
VBST OUTL
23 18 14
5
SAGE_PANEL_IN IS SENSITIVE
KEEP THESE NETS FROM XTALK
TOUCH TO SAGE SENSE IN<4> E4
TOUCH TO SAGE SENSE IN<3> D4
TOUCH TO SAGE SENSE IN<5> C4
TOUCH TO SAGE SENSE IN<0> B4
TOUCH TO SAGE SENSE IN<12> A4
TOUCH TQ SAQE ggNgE? IN<7>
A6
TOUCH TO SAGE SENSE IN<10> B6
TOUCH TO SAGE SENSE IN<1> C 6
TOUCH TO SAGE SENSE IN<11> D6
TOUCH TO SAGE SENSE IN<2> E6
TOUCH TO SAGE SENSE IN<13> E8
TOUCH TO SAGE SENSE IN<14> D8
TOUCH TO_SAGE_SENSE_IN<8>
TOUCH TO SAGE SENSE IN<9> B8
TOUCH TO. SAGE_SENSE_IN<6>
CUMULUS TO SAGE VSTM OUT<2> 18 23
23 18 CUMULUS TO SAGE VSTM OUT<8> G1
CUMULUS TO SAGE VSTM OUT<5> 18 23
1 a CUMULUS TO SAGE VSTM OUT<6>
CUMULUS TO SAGE VSTM OUT<16> 18 23
CUMULUS TO SAGE VSTM OUT<18> 18
CUMULUS TO SAGE VSTM OUT<17> 18 23
CUMULUS TO SAGE VSTM QUT<11> T8 23
CUMULUS TO SAGE VSTM OUT<13> 18 23
CUMULUS TO SAGE VSTM OUT<7> 18 23
CUMULUS TO SAGE VSTM OUT<3> 18 23
"immuri to nrinri yrtm rmxx
ÿESÿARÿROlÿD OGE
""""sPEÿIAIÿÿÿANNOT
nrifi'ilTn TP IftHF YPN niTTXl flY SWAP
—[no:
23
23 .ÿCUMULUS TO SAGE VSTM OUT<12>
m
23 li
23 1i
23 1!
23 li
,« CUMULUS TO SAGE VSTM QUT<1> K1
CUMULUS TO SAGE VSTM OUT<7> LI
CUMULUS TO SAGE, VSTM OUTC :>> G2
CUMULUS TO SAGE VSTM OUT<14> H2
CUMULUS TO SAGE VSTM OUT<18> J2
23 1 « CUMULUS TO SAGS VSTM OUT<5> K2
"f9.
D5 CUMULUS TO SAGE VSTM QUT<1> l8 23
SPECIAL - CANNOT SWAP
_JAP
23 1a CUMULUS TO SAGE VSTM OUT<4> K3
_
F6_ CUMULUS TO SAGE VSTM OUT<4> 18 23
23 la CUMULUS TO SAGE VSTM OUT<19> J3
F5 CUMULUS TO SAGE VSTM OUT<8> 18 23
23
,Q CUMULUS TO SAGE VSTM OUT<13>
G7 CUMULUS TO SAGE VSTM OUT<19> 1£ 23
_ G4 CUMULUS TO SAGE VSTM OUT<12> 18 23
23 1 a CUMULUS TO SAGE VSTM OUT<16>
Eg CUMULUS TO SAGE VSTM QUT<0> i8 23
23 18 CUMULUS TO SAGE VSTM OUT<3>
G8 CUMULUS TO SAGE VSTM OUT<15> 18 23
23 , a CUMULUS TO SAGE VSTM OUT<2>
G6
G5
G1
CUMULUS TO SAGE VSTM OUT<14> 18 23
CUMULUS TO SAGE VSTM OUT<6> l8 23
RE
R
NOTE: LCM_TQ_AP_HIFA_BSYNC_BI1FF
D4 CUMULUS TO SAGE BOOST EN 18
F2
U12 iPio 3 8 <r!s PP 9 ROOM=CUMULUS
F3 CUMULUS TO SAGE
LUS TO PROX RX EN 1V8
XR7 9
10 OK
5%
1/32W
MF
01005
ROOM=CUMULUS
PP1V8 GRAPE 12 18 23
M-NSM
11
18 SAGE TO TOUCH VCPH REF
18 SAGE TO TOUCH VÿL REF
CI5 0 1
0 .0 IUF-
10% —
6.3V
X5R z
01005
ROOM=SAGE
_
m T J J 1Iv
EMOVED D2 (AT EVT2)
// 12839057
CI4 7
o .o IUF
10%
6. 3V
X5R
01005
ROOM=SAGE
23 18 a4 PP5V7 SAGE AVDDH
CI37
o .IUF
10%
6. 3V
CERM-X5R
0201
ROOM=SAGE
C321 1
0 .33UF-
ROOM=SAGE 20%
TANT 2
0402
23
i
23 li
23 li
C328 i
1000PFio%
—
25V
X7R-CERM z
0201
ROOM=SAGE
ip CUMULUS TO SAGE VSTM QUT<0>
CUMULUS TO SAGE VSTM OUT<ll> H4
CUMULUS TO_SAGE VSTM OUT<17 >
23 SAGE VBIAS D3
C349
1000PF
10%
2 5V
X7R-CERM
0201
ROOM=SAGE
23PP SAGE VBST OUTH B1
23PP SAGE VBST OUTL El
L Y
L21
10UH-0.32A-1.560HM
PSB12101T— SM
ROOM=SAGE
H (\J (ÿ1 T K) (O
Q Q Q Q Q Q
Z 2 Z 2 2 2
o o o o o o
<<<<<<
CO ÿT CO CO LO
CO tu [u CO h4
BOOST EN
D5 SAGE TO CUMULUS IN<3>
C5 SAGE TO CUMULUS IN<5>
B5 SAGE TO CUMULUS IN<0>
A5 SAGE TO CUMULUS IN<12>
A7 SAGE TO CUMULUS IN<7 >
B7 SAGE TO CUMULUS IN<10>
C7 SAGE TO CUMULUS IN<1>
D7 SAGE TO CUMULUS IN<11>
E7 SAGE TO CUMULUS IN<2>
E9 SAGE TO CUMULUS IN<13>
D9 SAGE TO CUMULUS IN<14 >
C9 SAGE TO CUMULUS IN<8>
B9 SAGE TO CUMULUS IN<9>
A9 SAGE TO CUMULUS IN<6>
PP1V8 2 3 5 6 1 10 11 12 14 16 19 21
23
CUMULUS_IN IS SENSITIVE
KEEP THESE NETS FROM XTALK
E5 SAGE TO CUMULUS IN<4> 18 23
18 23
18 23
18 23
18 23
18 23
18 23
18 23
18 23
18 23
18 23
18 23
18 23
18 23
18 23
G6 SAGE TO TOUCH VSTM OUT<8 >
H6 SAGE TO TOUCH VSTM OUT< 6>
J6 SAGE TO TOUCH VSTM OUT <12 >
K6 SAGE TO TOUCH VSTM OUT<1>
L6 SAGE TO TOUCH VSTM OUT<7 >
G7 SAGE TO TOUCH VSTM OUT <15>
H7 SAGE TO TOUCH VSTM OUT <14 >
J7 SAGE TO TOUCH VSTM OUT<18>
K7 SAGE TO TOUCH VSTM OUT<5>
L7 SAGE TO TOUCH VSTM OUT<9>
L8 SAGE TO TOUCH VSTM OUT<10>
K8 SAGE TO TOUCH VSTM OUT<4 >
J8 SAGE TO TOUCH VSTM OUT<19>
H8 SAGE TO TOUCH VSTM OUT <13>
G8 SAGE TO TOUCH VSTM OUT<16>
L9 SAGE TO TOUCH VSTM OUT<3>
K9 SAGE TO TOUCH VSTM OUT<2 >
J9 SAGE TO TOUCH VSTM OUT<0>
H9 SAGE TO TOUCH VSTM OUT <11>
G9 SAGE TO TOUCH VSTM OUT <17>
3 18 19
18 23
18 23
18 23
18 2 3
18 23
18 23
18 23
18 23
18 23
18 23
18 23
18 23
18 23
18 23
18 23
18 23
18 23
18 23
18 23
18 2 3
PP11
P4MM
CUMULUS TO SAGE GCM SEL 18
ROOM=SAGE
J5 TOUCH TO SAGE VCM IN 18
B2
CUMULUS TO SAqg BOOST EN 18
SM
ÿ
SM
" »p
PP18
P4MM-NSM
ROOM=SAGE
D
C
B
A
C5 2 3 18
C4 2 3 18
CO 2 3 18
C3 23 18
GS1 2 3 18
C2 2 3 18
CI 23 18
GS0 23 18
VGL 23 19 18
VGH 23 18
R10 23 18
R7 23 18
Rl 23 18
R5 23 18
R6 23 18
R8 23 18
R9 2 3 18
R4 23 18
R3 2 3 18 SAGE TO TOUCH VSTM OUT<3> 37
,, SAGE TO TOUCH VSTM OUT<2> 39
R2 2 3 18
TOUCH TO SAGE SENSE IN<5>
TOUCH TO SAGE SENSE IN<4> 3
TOUCH TO SAGE SENSE IN<0> 5
TOUCH TO SAGE SENSE IN<3> 7
TOUCH TO SAGE SENSE IN<11> 9
TOUCH TO SAGE SENSE IN<2> H
IQVCH JQ SftgE SENSE IN<1> 13
TOUCH TO SAGE SENSE IN<10>15
PP SAGE TO TOUCH VCPL 11
PP SAGE TO TOUCH VCPH 19
SAGE TO TOUCH VSTM OUT<10>21
SAGE TO TOUCH VSTM OUT<7> 23
, SAGE TO TOUCH VSTM OUT<l> 25
,R SAGE TO TOUCH VSTM OUT<5> 27
SAGE TO TOUCH VSTM OUT<6> 29
SAGE TO TOUCH VSTM OUT<8> 31
SAGE TO TOUCH VSTM OUT<9> 33
SAGE TO TOUCH VSTM OUT<4> 35
R0 :LEFT 18s SAGE TO TOUCH VSTM OUT<0> 41
JT
45
48
o
o
o
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o
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o-
o
a
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a-
a
a
o-
TOUCH TO SAGE SENSE IN<6>
TOUCH TO SAGE SENSE IN<13>
TOUCH TO SAGE SENSE
SAGE TO TOUCH VCPH REF
10 SAGE TO TOUCH VCPL REF
12 TOUCH TO SAGE VCM IN
IN<7>
14 TOUCH 10 SAGE SENSE IN<12>
16 TOUCH TO SAGE SENSE IN<9>
18 TOUCH TO SAGE SENSE IN<8>
20 TOUCH TO SAGE SENSE IN<14>
22
24
SAGE TO TOUCH VSTM OUT<17>
26
28
30
32
34
36
SAGE
SAGE
SAGE
SAGE
SAGE
SAGE
TO
TO
TO
TO
TO
TO
TOUCH VSTM OUT<16>
TOUCH VSTM OUT<15>
TOUCH VSTM OUT<14>
TOUCH VSTM OUT<13>
TOUCH VSTM OUT<12>
TOUCH VSTM QUT<11>
38 SAGE TO TOUCH VSTM OUT<0>
40
42
SAGE
SAGE
TO
TO
TOUCH VSTM OUT<18>
TOUCH VSTM OUT<19>
1
18 23 C6
18 23 GS3
18 2 3 C7
18 VGH_REF
18 VGL_REF
is
VCOM
18 23 GS2
18 23 C9
18 23 C8
18 23 GS4
18 23 R17
18 23 R16
18 23 R15
18 23 R14
18 23 R13
18 23 R12
18 23 Rl1
is 23 R0_RIGHT
18 23 Rl8
18 23 Rl9
REMOVED R4 7, R48, R49, R61, R62 ZERO OHMS
RDAR: //13109728
R3 61
10 0K •
5%
-
1/32W ÿ
MF
01005 2
ROOM=CUMULUS
i ÿ; LCM TO AP HIFA BSYNC BUFF
0603-LLP
TANT
2 5V
20%
1UF-10OHM
C320
n CUMULUS TO PROX TX EN BUFF 4
ROOM=SAGE
X
SOT 1115
<C
GND
C346
1000PF
10%
2 5V
X7R-CERM
0201
C364
1000PF
ROOM=SAGE±
I10
% -
25V Ī
X7R-CERMk A
11
020
ROOM=SAGE
8 7 6 5 4 3
ROOM=CUMULUS
ROOM=CUMULUS
:R2
10 OK
5%
1/32W
MF
01005
PP1V8 GRAPE
12 18 23
LCM TO AP HIFA BSYNC 3 18 19
CUMULUS TO PROX TX EN 1V8 L 2
8 7 6 5 4 3 2 1
D
LCM B2B
23 is PP SAGE TO TOUCH VCPL
REMOVED R89 ZERO OHM ( RDAR:/ / 13 0 9 9118 )
XI 4 5
E1C USING 516S1051 EXISTING B2B
SURROUNDING COMPONENTS MOVED TO SUPPORT 516S0995 (N41-ERA)
RDAR: / /13094309
---
THIS ONE ON MLB > 516S1051 PLUG
516S1050 RCPT
(FLEX)
T
T— 5%
C440
56PF
- 5%
, 6 .3V
- NP0-C0G
01005
ROOM=LCM_B2B
ÿ
C444
56PF
ÿ
5%
16V
NP 0 —COG
01005
ROOM=LCM B2B
C94
56PF
- 16V
z NP 0 -COG
01005
ROOM=LCM_B2B
r
ÿ
C439
0 . 1UF
ÿ
10%
6. 3V
CERM-X5R
0201
ROOM=LCM_B2B
C 9 3 ÿ
56PF — 1 —
5%
6. 3V
NP 0 -COG
01005
ROOM=LCM B2BI
R00M=LCM_B2B
FL61
70-OHM- 3 0 OMA
i/rm PN7Y7 aafifi ftYRRT" «
01005-1
0.450MOHM DCR
FL37
80-OHM-O .2A-0 .4-OHM
/YYYAr
0201-2
ROOM=LCM_B2B
0 . 400MOHM DCR
155S0824
T
FL27
80-OHM-O .2A-0 .4-OHM
_i/TTTX2_
0201-2
ROOM=LCM_B2B
0.400MOHM DCR
FL35
120-OHM-21OMA
01005
ROOM=LCM B2B
C350
4.7UF -
20% —
6. 3V
X5R
402
ROOM=LCM_B2E
SPECIAL Z
PP7Y7 l.rn TiTT 4 23
C351
4 .7UF
20%
6 .3V
X5R
402
ROOM=LCM_B2B
= 0.60 MM
LCM TO CHESTNUT PWR EN
TO DO: REMOVE R91 AFTER PROT02 .
CHESTNUT HAS 200K INT PD
NOSTUFF FOR PROTQ2
REMOVED R91 PD
RDAR://12828817
6 7 10 11 12
18 19 21 23
13 14
ON THIS PIN
LCM:
POWER
(1.8V
( +5
(-5
DVDD )
7V AVDD )
7V AVDD)
D
C
LCM:
2 — LANE MIPI
90 AP BI LCM MIPI DATAO P
90 AP BI LCM MIPIDATAO N
90 AP TO LCM MIPIDATA1 P
90 AP TO LCM MIPIDATA1 N
7 90 AP TO LCM MIPICLK P
•? 90 AP TO LCM MIPICLK N
L41
90 -OHM- 5 OMA
1
TCM0 605-1
SYM_VER-2 4
±_rrr~rÿ
ROOM=LCM_B2B
L44
90-OHM- 5 OMA
TCM0605-1
SYM_VER-2
XOLU
crm
ROOM— LCM_B2B
L42
90-OHM-50MA
TCM0 605-1
1 SYM_VER-2 4
"tua;
ROOM=LCM B2B
90 AP BI LCM MIPIDATAO CO JN P
BM15AP-0.8-22DP-0 .35V
ROOM=LCM_B2B M-ST-SM
24
90 AP BI LCM MIPIDATAO CONN N , PMSV7 T.rM AvnnN
:V: AP TO LCM MIPI DATA! CONN
„ PPSV7 T.rM avnnH rnMM
PP1VR
T.rM f ONM
LCM TO CHESTNUT PWR EN CONN
AP TO LCM RKSKT CONN 1.
9 0 AP TO LCM MIPIDATA1 CONN N
rO O
LCM TO AP PANIC L
LCM TO AP PIFA CONN
90 AP TO LCM MIPICLK CONN
90 AP TO LCM MIPI CLK CONN N
-o o
Tifin pti rflT
pp Tim mi f-ftTP
niNN
mm
DECIDED ON PANICB = NO
REMOVE R24 AND R14
RDAR://13127673
R1521
10 0K
i%
1/32W
MF
01005
ROOM=LCM B2B
C88
56PF
5%T
NP0 -COG
01005
ROOM=LCM_B2B
ROOM=LCM_B2B
R4 61
100K
5%
1/32W
MF
01005
C 90
56PF
ROOM=LCM_B2B
FL36
12 0-OHM- 21OMA
1 fYTYAi. AP TO LCM RESET L
01005
5% — |—
6.3V
NP 0—COG z\
01005
ROOM=LCM_B2B_l_
FL34
120—OHM—2 1OMA
_l/TYTYj_ LCM TO AP HIFA BSYNC 3 18
01005
ROOM=LCM_B2B
ROOM=LCM_B2B
FL62
15OOHM-2 5%-2 0 OMA-O .7DCR
PP1V8 2 3 5 6 7 10 11 12 14 16
18 19 21 23
ITTTAf RESET 1V8 L 2 4 13 14 16 22 24
LCM:
DIGITAL I/F
(PWR_EN, RESET
PIFA, BSYNC)
C
C295
56PF
5%
NOSTUFF
0100ÿ
6 .3V
2
NP0-C0G
01005
_L_ ROOM=LCH_B2B REMOVED LCM_TO_AP_PIFA ( RDAR ://12858364)
B
A
TROOM=LCM_B2B
CI7
56PF
— 5%
?
16V
z
NP0-C0G
01005
LCM DESENSE CONN
C243
56PF
5%
16V
NP0-C0G
01005
TROOM=LCM_B2B
CI8
56PF
5%
16V
NP0-C0G
01005
ROOM=LCM_B2B
JC19
T
56PF
0z
NP0-C0G
16V
01005
ROOM=LCM B2B
5%
PCB: ALL 56PF CAPS GO AT CONN
C258
56PF
5%
6.3V
NP0-C0G
01005
ROOM=LCM_B2B
LEAVING THE SHUNT CAP
FL24
240-OHM-0 .2A-0 .8-OHM
inonn 2 PP T.rM P.T. ANOHF ÿ
0201-2
ROOM=LCM_B2B
FL25
2 4 O-OHM-O .2A-0.8-OHM
1
0201-2
ROOM=LCM_B2B
FL26
rrm
2 4 0-OHM-°d°.12A-0 . 8-OHM
ROOM=LCM_B2B
it Tim nil rm
PP LCM BL CAT2
14
23
14 23
LCM:
BACKLIGHT
B
8 7 6 5 4 3
8 7 6 5 4 3 2 1
OSCAR
+ SENSORS
THESE PARTS INSIDE OF SHIELD
GYRO
OSCAR VDDIO =
D OSCAR CORE =
20 COMPASS TO OSCAR INT FL
ROOM=OSCAR
OSCAR MODULE
1.8V ALWAYS ON (NEED TO WAKE HO;
1.2V ALWAYS ON (NEED TO RUN IN S;
FL4 2
15 OOHM-2 5%-2 0 0MA- 0 .7DCR
_ d/TTTLL _
20 12 ppiyfj nnrftR
20
20
20
—2 OSC
C 92
1UFn
T & RUN PLL) 20% ]
RAM)
CERM '
0402
ROOM=OSCAR
TO DO: CHECK LEVEL SENSITIVITY OF ACCEL/GYRO INTS
01005
ROOM=OSCAR
FL40
20 OSCAR TO ACCEL SPI CS L
15 OOHM-2 5 % — 2 00MA- 0 .7DCR
mm
20 OSCAR TO GYRO SPI CS L
20 OSCAR TO COMPASS SPI C.S FL L i 20 ACCEL TO OSCAR INT1
01005
GYRO TO OSCAR INT2_
1
aRl 5 4
. 392K
i%
. 1/32W
MF
o 01005
13
21 15
GYRO TO OSCAR
INT1
ACCEL TO OSCAR INT2
COMPASS TO OSCAR INT
OSCAR TO COMPASS SPI CS L
07
1
ÿ
pp1"/v
F4
¥?
f7
~D6
eT
_ F3
~eT
""e5~
3 OSCAR BI AP TIME SYNC HOST INT F2
3 OSCAR TO PMU HOST WAKE_
7 AP BI RCAM I2C SPA_ B3
AP TO OSCAR RESET L F5
NOTE: REPLACED WITH CSP PACKAGE, BUT NEW
PACKAGE COMING FROM VENDOR FOR PROT02
(CONFORMAL
APN 337S4417
O1o
ROOM=OSCAR
C74
1UFn
vnnr.
n i em asaafi vnnm
CNJ
Q
r- cn
Q Q
U V O
a a H
Q Q Q
> > Q
>
U9
LPC18A1UR .
FCLGA
PO_l PO 12
SYM 1 OF 2
PO_2 PO 13
OMIT TABLE
f
COATED)
ffiyr mm 12
/ ÿ
20% A
4 V I
CERM
0402 rH
B2 AP TO RCAM I2C SCL
PO 11
7 15 21
C3
IMU
B5
C4
PO_3 PO 14
OSCAR TO IMU SPI MOSI
C5
PO 4 PO 15
OSCAR TO AP UART2 RXD 3
B6
PO_5 PO 16
AP TO OSCAR UART2 TXD 3
C6
PO_6 PO 17
OSCAR TO RADIO CONTEXT A 24
D4
PO_7 PO 18
OSCAR TO RADIO CONTEXT B 24
D5
O1CO PO 19
AP BI OSCAR SWDIO 1V8
C7
PO_9 PO 20
AP TO OSCAR SWDCLK 1V8 3
E2
PO_10 PO 21
45 PMU TO OSCAR CLK32K 13
B7
PO_22 NC
RESET*
E3
DBGEN
AP TO OSCAR DBGEN
V) V)
co co
> >
CM
O
IMU TO OSCAR SPI MISO /
ROOM=OSCAR
FXj 4 1
15 OOHM-2 5 % — 2 0 0MA— 0 .7DCR
_i/YYYY_ 2 OSCAR TO IMU SPI SCLK FL 2.
01005
ROOM=OSCAR FL5 5
7 0—OHM— 3 0 0MA
rmrrn IMU TO OSCAR SPI MISO FL 20
01005
ROOM=OSCAR
FL5 6
15 OOHM-2 5%-2 0 OMA-O .7DCR
omn 2 OSCAR TO IMU SPI MOSI FL 2.
01005
rnyn tmu
20
20
NO CAMERA VSYNC PIN
ST MICRO AP3GDL20HAB, APN 338S1192
T-r
I1
C345
0 .1UF
20% — 1 —
6 .3V 2
X5R-CERM
01005 'I
ROOM=GYRO I
C347
1.0UF
20%
6.3V
X5R
0201-1
ROOM=GYRO
CKPLUS_WAIVE=PWRTERM2GND
OSCAR TO GYRO SPI CS L 5
GYRO TO OSCAR INT2
20 GYRO TO OSCAR INT1
8
7
LO
VO|
RES/VDDg O>
VDD IO
CS
DRDY/
INT2
DEN
INT1
U8
AP 3GDL20HAB18TR
LGA
T PP1V8 OSCAR 12 20 23
C344 1
0 .1UF
20%
6.3V
—
X5R-CERM
01005
ROOM=GYRO
ROOM=GYRO
SCL/SPC
SDA/SDI/SDO
SDO/SAO
Q Q
2 2
O O
cn
cm
RES0
RES1
RES2
CAP
1
OSCAR TO
IMU SPI SCLK FL
OSCAR TO IMU SPI MOSI FL 2
IMU TO OSCAR
9
10~f I
jnl
14 GYRO PUMP
SPI MISO FL
11V CHARGE PUMP Cll
0 .01UF
10%
2 5V
X5R-CERM
0201
ROOM=GYRO
D
c
c
OSCAR MODULE GND BALLS
(THIS SYMBOL DOES
NOT EXIST ON OSCAR
CSP)
A2
A3
A4
U9
LPC18A1UR
FCLGA
OMIT_TABLE
SYM 2 OF 2
GND
GND
D8
GND GND El
GND GND E8
lA5~ GND GND
F1
A6
A7
BI
B8
CI
C8
D1
GND
GND
GND
GND
GND
~ F*8
~
G2
GND ~~G3
GND GND G4
GND GND G5
GND
GND
GND
GND
G6
G7
23 20 12 PPTT TNT
C334
l. OUF
20%
6.3V
X5R
0201-1
ROOM=ACCEL
ACCELEROMETER
ST MICRO AP2DHAB, APN 338S1191
C336
0 .01UF
10%
6.3V
X5R
01005
ROOM—ACCEL
OSCAR TO ACCEL SPI CS L 4 CS
T
#
H >
12
RES
11 RES
-±- 1 10 RES
CC
VDD VDD_IO
U18
AP2DHAB24TR
LGA
ROOM=ACCEL
SCL/SPC
SDA/SDI/SDO
SDO/SAO
PPI¥ OSCAR 12 20 23
1 C3345
- 0 .1UF
- 20%
0
6. 3V
z
X5R-CERM
01005
ROOM=ACCEL
OSCAR TO IMU SPI SCLK FL 20
OSCAR TO IMU SPI MOSI FL 20
3 IMU TO OSCAR SPI MISO FL 20
THIS PART OUTSIDE OF
SHIELD
ACCEL TO OSCAR INT1 6 INT1
ÿ ACCEL -TO_ OSCAR INT2 5
INT2
RES
RES
13
14
B
COMPASS
GND
G\\
±
B
COMPASS CSP: 338S1014
COMPASS INTERPOSER (FOOTPRINT ONLY) : 998-5120
COMPASS INTERPOSER MODULE: 639-4269
TO DO: VERIFY CONNECTIONS ON ACCEL (CS, SDO PINS)
23 20 12
FL38
150OHM-2 5%-2 0 OMA-O .7DCR
mrrrm
PP3V0 IMU 23 PPÿVO COMP 23 20
01005
ROOM=COMPASS
C298 1
1.0UF -
20% —
6.3V 0
X5R
0201-1
ROOM=COMPASS
'
OMIT_TABLE H
ROOM=CT)MPASS m
CAD0
CADI
VDD
•ÿTl
O
VID
Ul6
AK8963C
CSP-POP
SCL/SK
SDA/SI
ROOM=COMPASS
FL39
15 OOHM-2 5 % — 2 0 0MA— 0 .7DCR
PP1VE COMP urm 1 PP1V8 OSCAR j. 20 23
i C300
01005
—|— 20
A3
20%
3V
X5R-CERM
01005
>i
RC
J_
0 .1UF
ROOM=COMPASS
OSCAR TO
IMU SPI SCLK FL
A4 OSCAR TO IMU SPI MOSI FL
20
20
TST1
CSB*
3
A2 OSCAR TO COMPASS SPI CS FL L
20
RSV
SO
B4 IMU TO OSCAR SPI MISO FL 20
A
TRG
DRDY
A1 COMPASS TO OSCAR INT FL 2o
23 20 PP1V8 COMP
RST*
VSS
COMPASS
INTERPOSER
PART# QTY DESCRIPTION REFERENCE DESIGNATOR ( S ) CRITICAL BOM OPTION
639-4269 1 COMPASS INTERPOSER X152/X145 Ul6 CRITICAL COMPASS_ INTERPOSER
8 7 6 5 4 3
8 7 6 5 4 3 2 1
RCAM B2B (REAR CAMERA
CONNECTOR)
D
12 PP2.V5 RCAM AF COMP
L29
FERR—22 — OHM— 1A— 0 .065-OHM
ifrmÿ
0201
ROOM=RCAM B2B
C423
1.OUF
20% —
6.3V 0
X5R
*
0201-1
ROOM=RCAM_B2B
C391 i
1.OUF -
20% —
6. 3V 0
X5R
*
0201-1
ROOM=RCAM_B2B
C393
56PF
5%
6 .3V
NP0-C0G
01005
ROOM—RCAM_B2B
D
C
B
:0
RCAM:
POWER
(1.8V
(2 .8V
(1.2V
(2 .5V
DVDD )
AVDD )
VCC)
AF)
RCAM:
DIGITAL I/F
( I2C,CTRL, CLK)
14 12 11 10 7 6 5 3 2
23
C2511
ROOM-RCAM
4 .7UF
A 15
20%
C390
1.OUF
20%
6.3V
X5R
0201-1
ROOM=RCAM_B2B
3 AP TO RCAM VDDCORE EN
ADD
1 2V RCAM LOAD SWITCH
ROOM-RCAM B2B
U13
TPS22 92 4X
CSP
A2
>
B2 JVIN VOU
<
C2
]R16 9
>
51OK
' 5%
• 1/32W
MF
? 01005
Z ROOM=RCAM_B2B
EXTERNAL CAMERA
CAMERA LDO TO ADDRESS NOISE
RDAR: //13050498
Al
CAM EXT LDO EN B1
15 7 AP BI RCAM I2C SPA
20
U210
LP5907UVE-2 .85V
USMD
VIN
353S3 69 6
VEN
GND
NO INT PULLS
ON
GND
VOUT
U
LDO
A2
ROOM=RCAM_B2B
CHANGE FERRITE BEADS TO RCAM I2C
RDAR: //12922584
15 7 AP TO RCAM I2C SCL
CHANGE FL30 TO
RDAR: //13055997
AP TO RCAM SHUTDOWN
45 AP TO RCAM CLK
RCAM TO
155S0577
C82
56PF
5%
6.3V
NPO-COG
01005
ROOM—RCAM_B2B
LEDDRV STROBE_EN
i
1.0UF-
20%
6. 3V
X5R
0201-1
ROOM—RCAM_B2B
ROOM=RCAM_B2B
L2 8
FERR— 22—OHM—1A— 0 .065-OHM
frm_
0201
CHANGE FL43 TO 0.07 MAX DCR, 155S0576
RDAR://130682 04
room=rcam_B2B
FL43
10— OHM— 75 0MA
FFpyri rm T.nn tit
ROOM=RCAM_B 2 B
FL29
7 0-OHM-30 0MA
JTTTL
01005-1
C249 i
2 .2UF -
20% —
4V
X5R-CERM z
0201
ROOM=RCAM_B2B
FL31
70-OHM-300MA
iTTTTLi
01005-1
ROOM=RCAM_B2B
FL30
70-OHM-300MA
l/TTT\ÿ
01005-1
ROOM=RCAM_B2B
ROOM=RCAM_B2B
FL28
12O-OHM-210MA
_±rrrr\i
01005
ROOM—RCAM_B2B
FL22
12O-OHM-210MA
UTTTL
01005
ÿTTTT\ÿ
L30
FERR-2 2 -OHM-1A- 0 .065-OHM
01005-1
C403
2.2UF
20%
4 V
X5R-CERM
0201
ROOM=RCAM_B2B
C287
56PF
5%
6.3V
NPO-COG
01005
ROOM-RCAM B2B
* nom 2
0201
ROOM=RCAM_B2B
C286
56PF
5%
6.3V
NPO-COG
01005
ROOM-RCAM B2B
R1411
10 OK •
5% *
1/32W *
MF
01005 ?
ROOM—RCAM_B2 B
C392
56PF
5%
6.3V
NP0-C0G
01005
ROOM=RCAM_B2B
iC3 95
C84ÿT~
56PF -1-
5%
6.3V
NPO-COG
01005
ROOM—RCAM_B2B
C400
56PF -
5% —
6.3V 0
NPO-COG z
01005
ROOM-RCAM B2B
- 56PF
5%
6.3V
NPO-COG
01005
ROOM=RCAM_B2B
C404
56PF
5%
6.3V
NPO-COG
01005
ROOM-RCAM B2i
PCB: PLACE ALL 56PF CAPS AT
>XW31
SM
ROOMÿRCAM_B2B
12> EJ F DF'
---
THIS ONE ON MLB > 516S0940 PLUG
516S0939 RCPT
AP pi ftCftM 12C spa CQMN
AP TO RCAM I2C SCL CONN
AP TO RCAM SHUTDOWN CONN
45 ftp TQ RCAM
CLK COÿN
RCAM TO LEDDRV STROBE
J3
•laig
EN CONN
J3
BB35-PA
M-ST- SM
33 34
7 o
11
13
15
17
o-
o-
c>
12
14
ROOM=RCAM_ B2B
(USED ON FLEX)
90 RCAM TO AP MIPI DATA3 CONN P
90 RCAM TO AP MIPI DATA3 CONN N
90 RCAM TO AP MIPI DATA2 CONN P
90 RCAM TO AP MIPI DATA2 CONN N
16 90 RCAM TO AP MIPI CLK CONN P /
c>
a
18 90 RCAM TO AP MIPI CLK CONN N
20
22
35 36
90 RCAM TO AP MIPI DATA1 CONN P
90 RQAM TQ AP MIPI DAÿAl CONN N
90 RCAM TO AP MIPI DATAO CONN P
90 RCAM TO AP MIPI DATAO CONN K
L34
9?CM060sT ROOM=RCAM_B2B
1 SYM_VER-2 4
AA7AA A 90 RCAM TQ AP MIPI DATA3 P 7
9Q RCAM TQ AP DATAj N 7
L33
90-OHM-50MA
ROOM-RCAM B2B
TCM0605-1
1 SYM_VER-2 4
AAAJU~ \ 90 RCAM TO AP MIPI DATA2 P 7
90 RCAM TO AP MIPI DATA2 N 7
i/YYVLJ—/
L37
9?cSo60sT ROOM=RCAM_B2B
1 SYM_VER-2 4
AAA-kJ
rrm
L38
90-OHM- 5 0MA
TCM0605-1
1 SYr-l_VER-2 4
AAAAJ"
\
A
\_J_TYYY\J_A
90-OHM-5 0MA
TCM0 605 —1
1 S YM—VER-2 4
AAAAJ
rrvYo
ROOM—RCAM_B2 B
90 RCAM TO AP MIPI CLK P 7
90 RCAM TO AP MIPI CLK N 7
\ 90 RCAM TO AP MIPI DATA1 P 7
ROOM—RCAM_B2 B
90 RCAM TO AP MIPI DATA1 N 7
?Q pgftM TQ AP MTPJ DATftQ p
90 RCAM TO AP MIPI DATAO N
RCAM:
4 -LANE MIPI
C
B
8 7 6 5 4 3
8 7 6 5 4 3 2 1
BATT CONN, TPS, STANDOFFS/ SHIELDS/FIDUCIALS
D
24 23 22 15 12
BATTERY CONN
---
THIS ONE ON MLB > 516S1068 RCPT
516S1067 PLUG
22 AP BI gATTgRY QQNN
t
C23 i|
H JD - 1—
56PF
5%
16V
NP0-C0G
01005
ROOM=BATTERY
C25
56PF
5%
16V
NPO-COG
01005
ROOM=BATTERY
t
J6
RCPT-BATT-0 .80
F-ST-SM
11 ROOM=BATTERY
6
9
(USED ON BATTERY PCM)
22AP
gl PATTEPY gwi QQNN
XW121
ROOM=BATTERY/
r
2
COI
2
in
OJ
•
o
I
J
o
rH
I
H
CC
O
X
CO
C279 >1
FLU
120 — OHM— 2 1OMA
ROOM=BATTERY
5 6PF — L- 01005
5%
16V
NPO-COG
01005
ROOM=BATTERY
r r r
1
C 9
- 56PF
5% -
16V
NPO-COG
01005
ROOM=BATTERY
i C275
- 220PF
_
PCB : PLACE XW12 AT BATT CONN, PIN 7
BATTFRY TQ PMU SF.NSF, 12 23
10%
10V
X7R-CERM
01005
ROOM=BATTERY
i C22
- 56PF
5%
16V
NPO-COG
01005
ROOM=BATTERY
AP BI BATTERY SWI
pp ratt vrr 12 15 22 23 24
POWER TP TESTPOINTS
PP5V0 USB CONN
24 23 22 15 12 > PP BATT VCC
24 23 22 15 12 PP BATT VCC
f P1
TP-P6
fP2
A
VBUS
A
tp-poo
POWER GROUND (SUPERSIZE)
Tip 2 Op
TP-P6 POWER GROUND
TP 12
-A-) A VBAT (SUPERSIZE)
tp-p80
£P4
---
24 23 22 15 12 PP BATT VCC TXP 4 0
24 23 22 15 12 PP BATT VCC
TP 120
TP 4
IS NOW BATT_VCC
RDAR: //13068293
A VBAT (SECONDARY)
TP-P6
A VBAT ( BOTTOMSIDE FOR RF)
TP-P55
TP-P55
A VBAT ( BOTTOMSIDE FOR RF )
17 n BATTERY TO PMU NTC fP5 A BATTERY NTC
TP-P6
E7 5 USB/UART/ ID/POWER
D
TP? 1
3 17 16 90 TRISTAR BI E75 PAIR1 CONN P__1,
-) ÿ
TP-P55
90 TRISTAR BI E75 PAIR1 CONN N
90 TRISTAR BI E75 PAIR2 CONN P
90 TRISTAR BI E75 PAIR2 CONN N
PP E75 TO TRISTAR ACC1 CONN
PP E75 TO TRISTAR ACC2 CONN
TP 2 2
TP-P55
TP 2 3
TP-P55
TP24
—kzz) a
TP-P55
i—. A
TP26
TP-P6
TP27
'
- A
ACCESSORY ID AND POWER
TP-P6
SUPER TP
c
B
FIDUCTALS
T
FD1
FID
0P5SM1P0SQ-NSP
-
FD2
FID
0P5SM1P0SQ-NSP
-K3
FD3
FID
0P5SM1P0SQ-NSP
-D
FD4
FID
0P5SM1P0SQ-NSP
—-o
FD5
FID
OP 5SM1P0SQ-NSP
A)
FD6
FID
0P5SM1P0SQ-NSP
—A)
FD7
FID
0P5SM1P0SQ-NSP
-MD
'
SHIELDS
J-
SHI
SM
806-4227
SHLD-X14 5-EMI-UPPER-FRONT
i
- SH2
SM 806-4228
SHLD-X14 5-EMI-LOWER-FRONT
, 1
Li
SH3
SM
806-4229
SHLD-Xl 4 5-EMI-UPPER-BACK
1
SH4
SM 806-4230
SHLD-X14 5-EMI-LOWER-BACK
COWLING
SP1
SPRING-SUP! 1R-COWLING- 3ROUND—XI4 5
1
CLTP-SM
TP 6
PMU TO TP AMUX AY
23 PMU TO TP AMUX BY i -?
KZZ) A
TP — P6
TP 7.
RESET
24 19 16 14 RESET 1V8 L TP18 0 0 0
FORCE
DFU
ANALOG MUX A
OUTPUT
TP-P6
ANALOG MUX B OUTPUT
TP-P6
DFU
TP 9
1.
TP— P6
H6P &
FORCE DFU
HEADPHONE MIC
BB RESET
TJP32 A
TP-P6
E75 TO PMU ACC DETECT CONN T:P 10
TP — P 6
DUPLICATE TESTPOINTS FOR UAT MATCHING RF FIXTURE
RDAR: //13159278
23 22 17 PP E7 5 TO TRISTAR ACC1 CONN 1 TP2200
22 17 E75 TO PMU ACC DETECT CONN
MIC AUDIO
3 17 9 MIC1 TO CODEC P
TP 15
TP-P6
1
A
TP2202
TP-P6
A
POWER GROUND
FOR DIAGS
MIC1 POSITIVE
C
B
AC COUPLED SCREW HOLES + STANDOFFS
(ON NORTH END OF SINGLE_BRD, TO MITIGATE COMPASS RETURN CURRENTS)
17 9 CODEC TO HPHONE HS 3 REF
TP28
1
A
TP29
23f 17 o CODEC TO HPHONE HS 4 REF TP-P6
TP-P6
HEADPHONE MIC NEG
HEADPHONE MIC POS
2, 9 8 MIC2 TO CODEC P
23 n 9 MIC3 TO CODEC P
--A
TP-P6
1--A
TP 16
TP —P6
MIC2 POSITIVE
TP 1 7
!— ' MIC3 POSITIVE
A
TP-P6
A
SCREW HOLES STANDOFFS
PGND
1
C427
- 100PF
— 5%
16V
z9 NPO-COG
01005
SCREWÿHQLEl
1
C430
56PF
6V
NPO-COG
1005
I'5%
1
C432
- 27PF
—
I
5%
16V
z9
NPO-COG
01005
01005
PGND STANDQFF1
1 C433
100PF
5%
16V
NPO-COG
PGND
1
C434
100PF
I5%
16V
NPO-COG
01005
STANDQFF2
C435
56PF
5%
16V
NPO-COG
01005
1
C436
- 56PF
BS1
STDOFF-2 .70D1.4ID-0 .94H-SM
C437
27PF
5%
? 2 16 6V
NPO-COG
005
860-1608
BS2
STDOFF-2 .70D1.4ID-0 .94H-SM
C438
27PF
5%
16V
5%
16V
NPO-COG NPO-COG
01005I
860-1608
LCM BACKLIGHT
19 PP LCM bl can CONN
23 19 PP LCM BL CAT2 CONN
;3 19 PP LCM BL ANODE CONN
P18
TP-P6
TP19
A
TP-P6
TP2 0
—CZ3A
TP — P6
LCD BACKLIGHT SINKl
LCD BACKLIGHT SINK2
LCD BACKLIGHT SOURCE
DRIVE MIC WRT NEAREST GROUND TEST POINT
:3 17 15 SPKAMP TO SPEAKER OUT CONN P
TP3
A
TP-P6
23 17 15 SPKAMP TO SPEAKER OUT CONN N
TP11
TP-P6
SPKR
POSITIVE
SPKR NEGATIVE
ADDED PER
RDAR: //12611131
8 7 6 5 4 3
8 7 6 5 4 3 2 1
D
C
B
A
V0LTAGE=4 .55V CUMULUS_TO_SAGE_VSTM_OUT<0>
my
VOLTAGE=4 .55V CUMULUS._TO_.SAGE._VSTM_.OUT<1>
rnrv
VOLTAGE=4 .55V CUMULUS._TO_.SAGE._VSTM__OUT<2>
VOLTAGE=4 .55V CUMULUS._TO_.SAGE._VSTM__OUT<3>
VOLTAGE=4 .55V CUMULUS._TO_.SAGE._VSTM__OUT<4>
1 IN >-
VOLTAGE=4 .55V CUMULUS._TO_.SAGE._VSTM__OUT<5>
1 TN >~
18
VOLTAGE=4 .55V CUMULUS._TO_.SAGE._VSTM_.OUT<6>
18
VOLTAGE=4 .55V CUMULUS._TO_.SAGE._VSTM__OUT<7>
1 IN >—
VOLTAGE=4 .55V CUMULUS._TO_.SAGE._VSTM__OUT<8>
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VOLTAGE=4 .55V CUMULUS._TO_.SAGE._VSTM_.OUT< 9>
1IN >-
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VOLTAGE=4 .55V CUMULUS._TO_.SAGE._VSTM_.OUT<10>
VOLTAGE=4 .55V CUMULUS._TO_.SAGE._VSTM_.OUT<11>
1 o
VOLTAGE=4 .55V CUMULUS._TO_.SAGE._VSTM_.OUT<12 >
CH>-
VOLTAGE=4 .55V CUMULUS._TO_.SAGE._VSTM_.OUT<13>
mrv
VOLTAGE=4 .55V CUMULUS._TO_.SAGE._VSTM_.OUT<14 >
HB-
rnry
VOLTAGE=4 .55V CUMULUS._TO_.SAGE._VSTM_.OUT<15>
VOLTAGE=4 .55V
V0LTAGE=4 .55V
CUMULUS._TO_.SAGE._VSTM_.OUT<19>
TOUCH_TO_SAGE_SENSE_IN< 0>
rrrry
VOLTAGE=4 .55V TOUCH._TO_.SAGE.SENSE._IN< 1>
1 IN>-
VOLTAGE=4 .55V TOUCH._TO_.SAGE.SENSE._IN<2>
VOLTAGE=4 .55V
TOUCH._TO_.SAGE.SENSE._IN<3>
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TTTTV--
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VOLTAGE=4 .55V
TOUCH_TO_SAGE_SENSE_IN<5>
V0LTAGE=4 .55V TOUCH_TO_SAGE_SENSE_IN< 6>
VOLTAGE=4 .55V T0UCH_T0_SAGE_SENSE_IN<7 >
VOLTAGE=4 .55V
TOUCH_TO_SAGE_SENSE_IN<8>
VOLTAGE=4 .55V TOUCH_TO_SAGE_SENSE_IN< 9>
VOLTAGE=4 .55V TOUCH_TO_SAGE_SENSE_IN<l 0>
VOLTAGE=4 .55V TOUCH_TO_SAGE_SENSE_IN<l 1>
VOLTAGE=4 .55V
TOUCH_TO_SAGE_SENSE_IN<12>
VOLTAGE=4 .55V TOUCH_TO_SAGE_SENSE_IN<l 3>
VOLTAGE=4 .55V TOUCH_TO_SAGE_SENSE_IN<14 >
V0LTAGE=4 .55V
V0LTAGE=4 .55V
SAGE_TO_TOUCH_VSTM_OUT<Q>
SAGE_TQ_TOUCH_VSTM_OUT<1>
V0LTAGE=4 .55V SAGE_TQ_TQUCH_VSTM_0UT<2 >
V0LTAGE=4 .55V
SAGE_T0_T0UCH_VSTM_0UT<3>
V0LTAGE=4 .55V SAGE_T0_T0UCH_VSTM_0UT<4 >
V0LTAGE=4 .55V
V0LTAGE=4 .55V
V0LTAGE=4 .55V
SAGE_T0_T0UCH_VSTM_0UT<5>
SAGE_TO_TOUCH_VSTM_OUT< 6>
SAGE_TQ_T0UCH_VSTM_QUT<7>
VOLTAGE=4 .55V SAGE_TO_TOUCH_VSTM_OUT<8 >
VOLTAGE=4 .55V
SAGE_TO_TOUCH_VSTM_OUT< 9>
VOLTAGE=4 .55V SAGE_TO_TOUCH_VSTM_OUT<l 0>
VOLTAGE=4 .55V
VOLTAGE=4 .55V
SAGE_TO_TOUCH_VSTM_OUT<l1>
SAGE_TO_TOUCH_VSTM_OUT<12>
VOLTAGE=4 .55V SAGE_TO_TOUCH_VSTM_OUT<l 3>
VOLTAGE=4 .55V SAGE_TO_TOUCH_VSTM_OUT<l 4>
VOLTAGE=4 .55V SAGE_TO_TOUCH_VSTM_OUT<l 5>
VOLTAGE=4 .55V SAGE_TO_TOUCH_VSTM_OUT<l 6>
VOLTAGE=4 .55V SAGE_TO_TOUCH_VSTM_OUT<l 7>
VOLTAGE=4 .55V SAGE_TO_TOUCH_VSTM_OUT<l 8>
VOLTAGE=4 .55V SAGE_TO_TOUCH_VSTM_OUT<l 9>
11 9
11 9
22 17 9
ii
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Tn
IN
tr
my
TW
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Tn
Tn
in
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my
IN
Tn
Tn
Tn
n
in
my
TTTV
V0LTAGE=3 .8V CODEC TO RCVR P VOLTAGE=2 .5V BATTERY TO PMU.NTC
VOLTAGE=3 .8V CODEC TO RCVR N
VOLTAGE=3 .8V CODEC TO RCVR CONN P
VOLTAGE=3 .8V CODEC. TO RCVR CONN N
VOLTAGE=3 .8V CODEC TO HAC P
VOLTAGE=3 .8V CODEC TO HAC N
VOLTAGE=3 .8V CODEC TO HAC CONN P
VOLTAGE=3 .8V CODEC TO HAC_CONN_N
VOLTAGE=3 .114V CODEC TO HPHONE L
VOLTAGE=3 .114V CODEC TO HPHONE R
VOLTAGE=3 .114V CODEC TOHPHONEL CONN
VOLTAGE=3 .114V CODEC TO HPHONE R CONN
VOLTAGE=2 .7V CODEC TO HPHONE HS3
VOLTAGE=2 .7V CODEC TO HPHONE HS4
VOLTAGE=2 .7V CODEC TO HPHONE HS3 REF
VOLTAGE=2 .7V CODEC TO HPHONE HS 4 REF
VOLTAGE=2 .7V CODEC TO HPHONE HS3 CONN
VOLTAGE=2 .7V CODEC TO HPHONE HS4 CONN
VOLTAGE=2 .7V CODEC TO HPHONE HS3 REF CONN
VOLTAGE=2 .7V CODEC TO HPHONE HS4 REF CONN
VOLTAGE=4 .3V HPHONE TO CODEC DET
VOLTAGE=4 .3V HPHONE TO CODEC_DET CONN
VOLTAGE=2 .5V 90 CODEC BI TRISTAR MIKEYBUS L67 P
VOLTAGE=2 . 5V 90 CODEC BI TRISTAR MIKEYBUS Lc7 N
VOLTAGE=2 .5V
9Q CQDEC BI TRIgTAR MIKEYBUS P
VOLTAGE=2 .5V 90 CODEC BI TRISTAR MIKEYBUS N
VOLTAGE=2 .5V 90 CODEC BI TRISTAR MIKEYBUS DIG P
VOLTAGE=2 . 5V 90 CODEC BI TRISTAR MIKEYBUS DIG N
VOLTAGE=2 . 5V TRISTAR TO PMU MIKEYBUS TEST POS
VOLTAGE=2 . 5V TRISTAR TO PMU MIKEYBUS TEST NRG
VOLTAGE=l . 8V MIC1 TO CODEC L67 P
VOLTAGE=l . 8V MIC1 TO CODEC L67 N
VOLTAGE=l .8V MIC1 TO CODEC P
VOLTAGE=l .8V MIC1 TO CODEC N
VOLTAGE=l .8V MIC2 TO CODEC L67 P
VOLTAGE=l . 8V MIC2 TO CODEC L67 N
VOLTAGE=l .8V MIC2 TO CODEC P
VOLTAGE=l .8V MIC2 TO CODEC N
VOLTAGE=l . 8V MIC3 TO CODEC L67 P
VOLTAGE=l . 8V MIC3 TO CODEC L 67 N
VOLTAGE=l .8V MIC3 TO CODEC P
VOLTAGE=l . 8V MIC3 TO CODEC N
VOLTAGE=3 .8V RCVR TO CODEC RCVR TEST
VOLTAGE=3 . 8V RCVR TO CODEC RCVR TEST L67
VOLTAGE=3 .114V HPHONE TO CODEC HPHONE TEST
VOLTAGE=3 .114V HPHONE TO CODEC HPHONE TEST L67
VOLTAGE=3 .8V HAC TO CODEC TEST
VOLTAGE=3 .8V HAC TO CODEC TEST L67
VOLTAGE=4 .6V
45PMU VPUMP
VOLTAGE=4 .3V PMU ACT DIO
VOLTAGE=3 .6V TRISTAR TO PMU OVP SW EN L
VOLTAGE=3 .2V USB VBUS DETECT
VOLTAGE=5 .25V TRISTAR TO PMU USB BRICKID
VOLTAGE=5 .25V TRISTAR TO PMU USB BRICKID R
X
i ?
16
19 18 14
rTTTV
12 5 4
18
18
18
18
18
16 12
IN
Tn
Tn
Tn
nrv
rnrv
VOLTAGE=2 .5V
VOLTAGE=4 .2V
VOLTAGE=8V
VOLTAGE=8V
VOLTAGE=8V
VOLTAGE=8V
VOLTAGE=5 .25V
VOLTAGE=5 .25V
VOLTAGE=5 .25V
VOLTAGE=5 .25V
VOLTAGE=3 .OV
VOLTAGE=—5 .7V
VOLTAGE=-5 .7V
VOLTAGE=-5 .7V
VOLTAGE=2 .5V
VOLTAGE=l IV
VOLTAGE=XV
VOLTAGE=XV
VOLTAGE=XV
VOLTAGE=XV
VOLTAGE=l 8 .0V
VOLTAGE=18 . OV
VOLTAGE=l .0V
VOLTAGE=l .0V
BATTERY_NTC_CONN
BATTERY_TO_PMU_SENSE
SPKAMP_TO_SPEAKER_OUT_CONN_P
SPKAMP_TO_SPEAKER_OUT_CONN_N
SPKAMP_TO_SPEAKER_OUT_P
SPKAMP_TO_SPEAKER_OUT_N
90_TRISTAR_BI_E75_PAIR1_CONN__P
90_TRISTAR_BI_E75_PAIR1_CONN__N
90_TRISTAR_BI_E75_PAIR2_CONN__P
90_TRISTAR_BI_E7 5_PAIR2_CONN__N
TRISTAR_BYPASS
PN5V7_SAGE_AVDDN
PN5V7_SAGE_ AVDDN_INT
PN5V7_LCM_AVDDN
SAGE
GYRO
VBIAS
PUMP
SAGE._TO_.CUMULUS._IN<0>
SAGE._TO_.CUMULUS._IN<1>
SAGE._TO_.CUMULUS._IN<2>
SAGE._TO_.CUMULUS._IN<3>
VOLTAGE=XV SAGE._TO_.CUMULUS._IN<4 >
VOLTAGE=XV
VOLTAGE=XV
VOLTAGE=XV
VOLTAGE=XV
VOLTAGE=XV
VOLTAGE=XV
VOLTAGE=XV
SAGE._TO_.CUMULUS._IN<5>
SAGE._TO_.CUMULUS._IN<6>
SAGE._TO_.CUMULUS._IN<7>
SAGE._TO_.CUMULUS._IN<8>
SAGE._TO_.CUMULUS._IN<9>
SAGE._TO_.CUMULUS._IN<10>
SAGE._TO_.CUMULUS._IN<11>
VOLTAGE=XV SAGE._TO_.CUMULUS._IN< 12>
VOLTAGE=XV SAGE._TO_.CUMULUS._IN< 13>
VOLTAGE=XV SAGE. _TO_ .CUMULUS._IN<14 >
VOLTAGE=l .. OV
VOLTAGE=l .. IV
VOLTAGE=l .. IV
VOLTAGE=l .2V
VOLTAGE=l .,2V
VOLTAGE=l ..2V
VOLTAGE=l.,2V
VOLTAGE=l ..2V
VOLTAGE=l ..2V
VOLTAGE=l.,2V
VOLTAGE=4 . 3V
VOLTAGE=2 .. 8V
VOLTAGE=2 .. 85V
VOLTAGE=2 .. 8V
VOLTAGE=l . 8V
PP16V5_MESA
PP16V5 MESA DOCK
PP1V0
PP1V0 SOC
PP1V0__SRAM
PP1V1_CPU
PP1V1_GPU
PP1V2
PPIV2_ NAND_VDDI
PP1V2_ OSCAR
PP1V2_ OSCAR_VDDC
PP1V2_ RCAM_CONN
CONN
PP1V2__RCAM_ SWITCHOUT
PP1V2_ SDRAM
PP_VCC:_main_UVLO_.SENSE
PP2V8Ci_THROTTLER
PP2V85_CAM_ LDO_OUT
PP2V8Ci_THROTTLER__FB
PP 1V8_MESA_LOAD_SW_OUT
18 16 14 12 11 10
5 3 :
:i 19
18 1
XX
12
IN
20
X
Tn
VOLTAGE=4 .55V CUMULUS._TO_.SAGE._VSTM__OUT<16>
rm-
VOLTAGE=4 .55V CUMULUS._TO_.SAGE._VSTM_.OUT<17>
mrv-
VOLTAGE=4 .55V CUMULUS._TO_.SAGE._VSTM__OUT<18>
mrv-
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12
12
14
14
10
10
17 10
17
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Hen
VOLTAGE=l .8V
PP1V8
VOLTAGE'=1 • CO>
PP1V8 ALWAYS
VOLTAGE =1.8V PP1V8 COMP
VOLTAGE =1.8V PP1V8 CUMULUS VDDLDO
VOLTAGE = 1.8V PP1V8 FCAM CONN
VOLTAGE =1.8V PP1V8 GRAPE
VOLTAGE =1.8V PP1V8 LCM CONN
VOLTAGE =1.8V PP1V8 OSCAR
VOLTAGE =1.8V PP1V8 OSCAR VDDIO
VOLTAGE =1.8V PP1V8 PLL
VOLTAGE='1.8V
PP1V8 RCAM CONN
VOLTAGE =1.8V PP1V8 SDRAM
VOLTAGE =1.8V PP1V8 SDRAM DOCK CONN
VOLTAGE =1.8V PP1V8 VA Ll9 L67
VOLTAGE =1.8V PP1V8 XTAL
VOLTAGE==2 .5V
PP2V5 RCAM AF
VOLTAGE=ÿ2 .5V PP2V5 RCAM AF COMP
VOLTAGE= ÿ2 .5V PP2V5 RCAM AF CONN
VOLTAGE=2 .8V
VOLTAGE=2 .8V
VOLTAGE=3 .0V
VOLTAGE=3 .0V
VOLTAGE=3 .0V
PP2V85 FCAM CONN
PP2V85 RCAM CONN
PP3V0 ACC
PP3V0 ALS
PP3V0 COMP
VOLTAGE=3 .0V PP3V0 IMU
VOLTAGE=3 .0V
VOLTAGE=3 .0V
VOLTAGE=3 .0V
VOLTAGE=3 .0V
PP3V0 NAND
PP3V0 NAVAJO
PP3V0 NAVAJO CONN
PP3V0 PROX
VOLTAGE=3 .0V PP3V0 PROX ALS
VOLTAGE=3 .0V PP3V0 PROX IRLED
VOLTAGE=3 .0V
VOLTAGE=3 .3V
VOLTAGE=5 .0V
PP3V0 SDRAM
PP3V3 USB
PP5V0 USB CONN
VOT.TAOF.= 5 _ OV PP5V0 USB PROT
18 1
VOLTAGE=5 .IV PP5V1 GRAPE VDDH
19
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VOLTAGE=5 .7V
VOLTAGE=5 .7V
VOLTAGE=5 .7V PP5V7
VOLTAGE=6V
PP5V7 LCM AVDDH
PP5V7 LCM AVDDH CONN
SAGE AVDDH
PP6V0 LCM BOOST
VOLTAGE=4 .3V PP BATT VCC
VOLTAGE=4 .3V PP BATT \/CC Ll9 \ 7 ( P
VOLTAGE=4 .3V PP BUCKO LX0
VOLTAGE=4 .3V PP BUCKO LX1
VOLTAGE=4 .3V PP BUCKO LX2
VOLTAGE=4 .3V PP BUCKO LX3
VOLTAGE=4 .3V PP BUCK1 LX0
VOLTAGE=4 .3V PP BUCK1 LX1
VOLTAGE=4 .3V PP BUCK2 LX
VOLTAGE=4 .3V PP BUCK3 LX
VOLTAGE=4 .3V PP BUCK4 LX
VOLTAGE=4 .3V PP BUCK5 LX
VOLTAGE=- 6V PP CHESTNUT CN
VOLTAGE=6V PP CHESTNUT CP
VOLTAGE=6V PP CHESTNUT LXP
VOLTAGE=l .8V PP CODEC FILT+
VOLTAGE==2 .2V PP CODEC SPKR VO
VOLTAGE=2 .7V PP CODEC TO MIC1 BIAS
VOLTAGE=2 .7V PP CODEC TO MIC1 BIAS CONN
14
16
10
10
10
14
HTTy
22 19
"In
19 14
22 19
24
14
VOLTAGE=0 ,2V PP CODEC VHP FLYC
VOLTAGE=-2.5V PP CODEC VHP FLYN
HTV VOLTAGE=2 .5V PP CODEC VHP FLYP
13
13
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Tn
IN
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T
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VOLTAGE=l .6V PP CUMULUS VDDANA
VOLTAGE=l . 6V
VOLTAGE=4 .3V
VOLTAGE=4 .3V
VOLTAGE=4 .3V
VOLTAGE=4 .3V
VOLTAGE=2 .7V
VOLTAGE=2 .7V
VOLTAGE=2 .7V
VOLTAGE=2 .7V
VOLTAGE=8V
VOLTAGE=2 2V
VOLTAGE=2 2V
VOLTAGE=0 .2V
VOLTAGE=0 ,2V
PP._CUMULUS_VDDCORE
PP._E 75_T0_TRIS TAR_ACC1
PP._E7 5_TO_TRISTAR_ACC1.CONN
PP. _E7 5_TO_TRISTAR_ACC2
PP._E75_TO_TRISTAR_ACC2_.CONN
PP._EXTMIC_BIAS
PP. _EXTMIC_BIAS_FILT
PP..EXTMIC_BIAS_FILT_IN
PP._EX TMIC_BIAS_IN
PP._L19_VBOOST
PP. _LCM_BL_ANODE
PP. _LCM_BL_ANODE_CONN
PP._LCM_BL_CAT1
PP._LCM_ BL_CATl_CONN
VOLTAGE=0 ,2V PP. _LCM_BL_C AT 2
VOLTAGE=0 .2V
PP. _LCM_BL_CAT2_CONN
VOLTAGE=2 .65V PP. _LD014_2P 65
VOLTAGE==2 .5V
VOLTAGE==5V
VOLTAGE==5V
VOLTAGE==5V
VOLTAGE==5V
VOLTAGEÿ=2 .5V
VOLTAGE==2 .5V
VOLTAGEÿ=2 .5V
VOLTAGE==2 .5V
VOLTAGE==2 .5V
VOLTAGE==5V
VOLTAGE==5V
VOLTAGE==0. 4V
VOLTAGE== 0 .4V
VOLTAGE=3 .4V
VOLTAGE=3 . 4V
VOLTAGE=5 .25V
VOLTAGE=4 .,3V
VOLTAGE=2 .,5V
VOLTAGE=l . 2V
VOLTAGE=5 .25V
VOLTAGE=5 .7V
VOLTAGE=17V
VOLTAGE=l 3.5V
VOLTAGE=— 12V
VOLTAGE=18V
VOLTAGE=- 14V
VOLTAGE=- 12V
VOLTAGE=l .8V
VOLTAGE=lV
VOLTAGE=8V
VOLTAGE=5V
VOLTAGE=5V
VOLTAGE=4 .3V
VOLTAGE=4 .3V
VOLTAGE=2 2V
CHESTNUT_TO_PMU_ ADC IN7
E75_T0_PMU_ACC_DETECT
E75_T0_PMU_ACC_DETECT_R
PMU_T0_TP_AMUX_A Y
PMU_TO_ T P _ AMUX_BY
FOREHEAD_T0_PMU_NTC_P
CAM_T0_PMU_NTC_P
PA_T0_PMU_NTC_P
H6P_T0_PMU_ NTC_P
4 5_PMU_TCAL
PP_LED_BOOST_OUT
PP_LED_DRV_LX
PP_MIPI0D_VREG
PP_MIP11D_VREG
PP
PMU TO VIBE
PP__PMU__TO_VIBE_CONN
PP._PMU_.VCENTER
PP._PMU__VDD_REF
PP._PMU__VDD_RTC
PP__PMU__VREF
PP._PMU__VSW_ CHG
PP. _SAGE_LX
PP..SAGE._LY
PP..SAGE._TO_TOUCH_VCPH
PP..SAGE._TO_TOUCH_VCPL
PP..SAGE._VBST_OUTH
PP..SAGE._VBST_OUTL
PP..SAGE._VCPL_F
PP_SPKAMP_FILT
PP SPKAMP LDO FILT
PP SPKAMP SW
PP STRB DRIVER TO LED COOL
PP STRB DRIVER TO LED WARM
PP VCC
MAIN
PP VCC MAIN CODEC
PP WLED LX
11 10
VOLTAGE=2 .7V PP CODEC TO MIC2 3 BIAS
11
VOLTAGE=2 .7V PP CODEC TO MIC3 BIAS CONN
10
VOLTAGE=2 .5V PP CODEC VCPFILT-h
VOLTAGE=0V
GND
10
VOLTAGE=-2 .5V PP CODEC VCPFILT-
8 7 6 5 4 3
8 7 6 5 4 3 2 1
RADIO MLB HIERARCHICAL SYMBOL
AP /RADIO INTERFACE
D 35
23 22 15
56 23 21 14 13 12
56 23 17 16 14 12 10 4
12
PP PfiTT YfT
pp vrr NfUN
PP1V8 SDRAM
ÿjTTTI-
PP LD014 2P65
MAKE_BASE=TRUE
MAKE_BASE=TRUE
MAKE_BASE=TRUE
MAKE_BASE=TRUE
PP_BATT_VCC_CONN
PP_VCC_MAIN_WLAN
PP_WL_BT_VDDIO_AP
PP LD014 2V65
SUBDESIGN_SUFFIX=RF
1616
D
35
35 22 19 16 14 13 4
COI.IT I—
rnry
<OUTK
AP TO RADIO ON L MAKE_BASE=TRUE
BB TO AP RESET DET L MAKE_BASE=TRUE
PMU TO BB RST L MAKE_BASE=TRUE
AP TO BB RST L MAKE BASE=TRUE
RESET 1V8 L MAKE BASE=TRUE
RADIO_ ON _ L
RESET_DET_L
RESET_PMU_L
BB_RST_L
RF_RESET_L
BB_JTAG_TCK
BB_JTAG_TDI
BB_JTAG_TMS
BB_JTAG_TRST_L
BB JTAG TDO
MAKE_BASE=TRUE AP TO BB JTAG TCK
MAKE_BASE=TRUE AP TO BB JTAG TDI
C BI >
MAKE_BASE=TRUE AP TO BB JTAG TMS
MAKE_BASE=TRUE
AP TO BB JTAG TRST : < BT >
MAKE_BASE=TRUE BB TO AP JTAG TDO
/"77T\
3
45 PMU TO WLAN CLK32K MAKE_BASE=TRUE
CLK32K_AP
BB TO LEDDRV GSM BLANK MAKE BASE=TRUE
TX_GTR_THRESH
3 5 16
90 TRISTAR BI BB USB N MAKE_BASE=TRUE
90 TRISTAR BI BB USB P MAKE_BASE=TRUE
PMU TO BB VBUS DET MAKE_BASE=TRUE
9 0_BB_USB_D_N
9 0_BB_USB_D_P
BB_ USB _VBUS
RF BOARD
ID BOM OPTIONS
35 16 3
35 13
ÿoTTTl-
AP TO BB UART4 RTS L MAKE_BASE=TRUE
BB TO AP UART4 CTS L
MAKE_BASE=TRUE
AP TO BB UART4 TXD MAKE_BASE=TRUE
BB TO AP UART4 RXD MAKE_BASE=TRUE
BB TO PMU HOST WAKE
MAKE_BASE=TRUE
BB TO AP PP SYNC
MAKE_BASE=TRUE
45 AP TO BB I2S1 BCLK MAKE_BASE=TRUE
BB_UART_CTS_L
BB_UART_RTS_L
BB_UART_RXD
BB_UART_ TXD
HOST_WAKE_BB
PP_SYNC
BB_12 S__CLK RAD10_MLB
PART# QTY DESCRIPTION REFERENCE DESIGNATOR ( S ) CRITICAL BOM OPTION
118S0621 1 1.00M 1% 01005 R25_RF CRITICAL N51_ALL
118S0732 1 50K 1% 01005 R26_RF CRITICAL N51_ ALL
117S0159 1 4 7 OK 5% 01005 R25_RF CRITICAL N51_DTD
118S0626 1 100K 1% 01005 R26_RF CRITICAL N51_DTD
c
AP TO BB I2S1 DOUT MAKE BASE=TRUE
BB TO AP I2S1 DIN
MAKE_BASE=TRUE
BB I2S1 LRCLK
MAKE_BASE=TRUE
BB_I2S_RXD
BB_I2S_TXD
BB_12S_ WS
118S0626 1 100K 1% 01005 R25_RF CRITICAL N53_ALL
118S0726 1 162K 1% 01005 R26_RF CRITICAL N53_ALL
C
118S0626 1 100K 1% 01005 R25_RF CRITICAL N53_DTD
RADIO TO PMU ADC SMPS1 MSMC 1V05 MAKE_BASE=TRUE
ADC_SMPS1_MSMC_1V05
118S 0 62 3 1 267K 1% 01005 R26_RF CRITICAL N53_DTD
ÿoTjtI-
RADIO TO PMU ADC SMPS3 MSME 1V8 MAKE_BASE=TRUE
RADIO TO PMU ADC LDQfc RUIM 1V8
MAKE_BASE=TRUE
RADIO TO PMU ADC LVS1_MAKE_BASE=TRUE
ADC_SMPS3_MSME_lV8
ADC__LDO 6_RUIM_1V8
ADC_ LVS1
PMU TO WLAN REG ON MAKE BASE=TRUE
WLAN_REG_ON
AP TO WLAN UART3 TXD MAKE_BASE=TRUE
WLAN_UART_RXD
WLAN TO AP UART3 RXD MAKE BASE=TRUE
WLAN_UART_TXD
56 13
WLAN TO PMU HOST WAKE MAKE_BASE=TRUE
HOST_WAKE_WLAN
PMU TO BT REG ON
MAKE_BASE=TRUE
AP TO BT UART1 RTS L MAKE_BASE=TRUE
BT_REG_ON
BT_UART_CTS_L
BT TO AP UART1 CTS L MAKE_BASE=TRUE
BT_UART_RTS_L
AP TO BT UART1 TXD MAKE BASE=TRUE
BT TO AP UART1 RXD MAKE_BASE=TRUE
BT_UART_RXD
BTLUART_TXD
AP
TO BT
KE
•VBHTl— BT HOST WAKE MAKE BASE=TRUE
MAKE_BASE=TRUE
BT_WAKE
HOST_WAKE_BT
B
P TO BT 12 BCLK MAKE_BASE=TRUE
AP TO BT 12 S 3 DOUT MAKE BASE=TRUE
BT TO AP 12 S 3 DIN
MAKE_BASE=TRUE
AP TO BT I2S3 LRCLK
MAKE_BASE=TRUE
0 AP BI BB HSIC1 DATA MAKE BASE=TRUE
50 AP BI BB HSIC1 STB MAKE BASE=TRUE
AP TO BB HSIC1 RDY MAKE BASE=TRUE
BT_PCM__CLK
BT_ PCM _ IN
BT_PCM_ OUT
BT_PCM_SYNC
5 0_HSIC_BB_DATA
5 0_HSIC_BB_STROBE
AP_HSIC1_RDY
B
BB TO AP HSIC1 RDY MAKE BASE=TRUE
PBL_RUN_BB_HSIC 1_RDY
BB TO AP HSIC1 REMOTE WAKE MAKE BASE=TRUE
BB_HSICl_REMOTE_WAKE
AP TQ BB WAKE MODEM
MAKE BASE=TRUE
AP WAKE MODEM
35
35
35
:
:COUTI—
SdutI
50 AP BI WLAN HSIC2 DATA
MAKE_BASE=TRUE
50 AP BI WLAN HSIC2 STB MAKE_BASE=TRUE
AP TO WLAN HSIC2 RDY MAKE_BASE=TRUE
WLAN TO AP HSIC2 RDY
MAKE_BASE=TRUE
WLAN TO AP HSIC2 REMOTE WAKE MAKE_BASE=TRUE
5 0_HSIC_WLAN_DATA
5 0_HSIC_WLAN_STROBE
AP_HSIC3_RDY
WLAN_HSIC3_DEVICE_RDY
WLAN_HSIC3_RESUME
35 17
<outV
39 17
ÿTTJ-
BB TO LAT SW1 CTL MAKE_BASE=TRUE
BB TO LAT SW2 CTL MAKE_BASE=TRUE
<OUT> BB_TO_LAT_SW3_CTL
39 ÿoTTtI- bb tq antenna pac spi cs_
39 BB TQ ANTENNA PAC SPI SCLK
39 ÿoutV
MAKE_BASE=TRUE
MAKE
BASE=TRUE
BB TO ANTENNA PAC SPI MOSI MAKE BASE=TRUE
NOTE: ANTENNA_PAC_TO_BB_SP I_MISO DOES NOT COME TO SINGLE_BRD MLB
LAT_SW1_C TL
LAT_ SW2_CTL
BB_SPI_ TO_PAC _ C S
BB_SP I_TO_PAC_CLK
BB_ SPI_TO_PAC_DA TA_MOSI
PAC_TO_BB_SPI_DATA_MISO
39 2O
39 2O
BB TO AP IPC GPIO MAKE_BASE=TRUE
OSCAR TO RADIO CONTEXT A MAKE_BASE=TRUE
OSCAR TO RADIO CONTEXT B MAKE_BASE=TRUE
[RB_IPC_GPIO
OSCAR_ CONTEXT _ A
OSCAR_ CONTEXT _ B
A
8 7 6 5 4 3
8 7 6 5 4 3 2 1
D
D
C
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c
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A
8 7 6 5 4 3
8 7 6 5 4 3 2 1
D
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B
A
Title :
Design:
Date :
Basenet Report
single_brd
Feb 6 20:18:49 2013
Base nets and synonyms for
single_brd_lib.SINGLE_BRD ( 0single_brd_lib .single_brd (sch_l ) )
Base Signal
Synonyms
4 5_AMBER_VSS_RTC 4 5_AMBER_VSS_RTC -
4 5_AP_BI_NAND_ANC0_D 45_AP_BI_NAND_ANC0_DQS -
QS
4 5_ AP _ BI _ NAND _ ANC 1 _ D 4 5_ AP_BI_NAND_ANC 1_DQS -
QS
45_AP_PPN0_ZQ
45_AP_PPN1_ZQ
45_AP_T0_BB_I2S1_BCL
K
BB_ I2S_CLK -
24)
4 5_AP_TO_BT_12S3_ BCL 4 5_AP_TO_BT_12 S 3_BCLK -
K
BT_ PCM _ CLK -
24)
4 5_AP_ TO_ CODEC_ASP_I
2S0_BCLK
4 5_AP_T0_ .CODEC_12 S_M
CLK
4 5_AP_TO_ CODEC_I2S_M
CLK_R
4 5_AP_TO_ CODEC_VSP_I
2S4_BCLK
4 5_AP_TO_ CODEC XSP I
2S2_BCLK
45 AP TO FCAM CLK 4 5_AP_TO_FCAM_CLK -
4 5_AP_TO_FCAM_CLK_CO 4 5_AP_TO_FCAM_CLK_ CONN -
NN
4 5_AP_ TO_FCAM_CLK _ R 4 5_ AP_TO_FCAM_CLK_R -
4 5_AP_TO_NAND_ANC0_R 4 5_ AP_TO_NAND_ANC0_RE _ L -
E_L
4 5_AP_T0_NAND_ANC1_R
E_L
4 5_AP_TO_PMU_DWI_CLK
4 5_AP_TO_PMU_DWI_CLK
_XW
45 AP TO PMU DWI DO 4 5_AP_TO_PMU_DWI_DO -
4 5_AP_TO_PMU_DWI_DO_XW -
4 5_AP_TO_RCAM_CLK 4 5_AP_TO_RCAM_CLK -
4 5_AP_ TO_RCAM_CLK _ CO 45_AP_TO_RCAM_CLK_CONN -
NN
4 5_ AP _ T0_RCAM_CLK _ R 4 5_AP_TO_RCAM_CLK_R -
45_AP_T0_SPKAMP_I2S2
_MCLK
45_AP_TO_SPKAMP_I2S2
_MCLK_R
4 5_AP_T0_TOUCH_CLK32
K_RESET_L
4 5_AP_T0_TOUCH_CLK32
K_RESET_L_XW
4 5_BUCK0_FB
4 5_BUCKO_FB -
4 5_BUCK1_FB
4 5_BUCK1_FB -
45_BUCK2_FB
4 5_BUCK2_FB -
45_BUCK3_FB
45_BUCK4_FB
4 5_BUCK5_FB
4 5_DDR0_VREF_CA 4 5_DDR0_VREF_CA -
4 5_DDR0_VREF_DQ 4 5_DDR0_VREF_DQ -
4 5_DDR0_ZQ
4 5_DDR0_ZQ -
4 5_DDRl_VREF_ CA 4 5_DDR1_VREF_CA -
4 5_DDR1_VREF_DQ 4 5_DDRl_VREF_DQ -
45_DDR1_ZQ
4 5_NAND_PPN_ZQ
4 5_PMU_IREF
4 5_PMU_TCAL
4 5_PMU_T0_0SCAR_C LK3 4 5_PMU_TO_OSCAR_CLK32K -
2K
4 5_PMU_T0_WLAN_ CLK32 4 5_PMU_TO_WLAN_ CLK3 2K -
K
CLK32K_AP -
24)
45_PMU_TO_XTAL_OSC32
45_PMU_TO_XTAL_OSC32 -
4 5_PMU_VPUMP
4 5_PROX_T0_CUMULUS_R
X
4 5_PROX_T0_CUMULUS_R
X_CONN
4 5_PROX_T0_CUMULUS_R
X_FILT
4 5_PROX_T0_CUMULUS_R
X_IN
4 5_XTAL_2 4 M_GND 4 5_XTAL_2 4M_ GND -
45_XTAL_24M_I 45_XTAL_24M_I -
4 5_ XTAL _ 2 4M _ O 4 5_XTAL_ 24M_0 -
4 5_AP_TO_PMU_DWI_DO_
xw
@ single_brd_lib.SINGLE_BRD
@ single_brd_lib.SINGLE_BRD
@single_brd_lib.SINGLE_BRD
45_AP_PPN0_ZQ -
@single_brd_lib .SINGLE_BRD
4 5_AP_PPN1_ZQ -
0single_brd_lib.SINGLE_BRD
4 5_AP_T0_BB_I2S1_BCLK -
@ single_brd_lib.SINGLE_BRD
@single_brd_lib.RAD10_MLB (i616_page
@ single_brd_lib.SINGLE_BRD
@single_brd_lib .RADIO_ MLB (i616_page
4 5_ AP_TO_CODEC_ASP_12 S0_BCLK -
0single_brd_lib.SINGLE_BRD
45_AP_TO_CODEC_l2S_MCLK -
0single_brd_lib.SINGLE_BRD
45_AP_TO_CODEC_I2S_MCLK_R -
0single_brd_lib.SINGLE_BRD
45_AP_TO_CODEC_VSP_I2S4_BCLK -
0 single_brd_lib.SINGLE_BRD
4 5_AP_TO_CODEC_XSP_12 S2_BCLK -
0 single_brd_lib.SINGLE_BRD
@ single_brd_lib.SINGLE_BRD
0single_brd_lib.SINGLE_BRD
@single_brd_lib .SINGLE_BRD
0single_brd_lib.SINGLE_BRD
4 5_AP_TO_NAND_ANC1_RE_L -
0single_brd_lib .SINGLE_BRD
4 5_AP_TO_PMU_DWI_CLK -
0single_brd_lib.SINGLE_BRD
45_AP_TO_PMU_DWI_CLK_XW -
0 single_brd_lib.SINGLE_BRD
0 single_brd_lib.SINGLE_BRD
0 single_brd_lib.SINGLE_BRD
0single_brd_lib.SINGLE_BRD
0single_brd_lib .SINGLE_BRD
0single_brd_lib.SINGLE_BRD
45_AP_T0_SPKAMP_I2S2_MCLK -
0single_brd_lib.SINGLE_BRD
4 5_AP_TO_SPKAMP_I2S2_MCLK_R -
0single_brd_lib.SINGLE_BRD
4 5_AP_TO_TOUCH_CLK32K_RESET_L -
0 single_brd_lib.SINGLE_BRD
4 5_AP_TO_TOUCH_CLK3 2K_RESET_L_XW -
0single_brd_lib . S INGLE_BRD
0 single_brd_lib.SINGLE_BRD
0single_brd_lib.SINGLE_BRD
0single_brd_lib .SINGLE_BRD
45_BUCK3_FB -
0single_brd_lib.SINGLE_BRD
4 5_BUCK4_FB -
0single_brd_lib.SINGLE_BRD
4 5_BUCK5_FB -
0single_brd_lib.SINGLE_BRD
0single_brd_lib.SINGLE_BRD
0 single_brd_lib.SINGLE_BRD
0 sing1e_brd_lib.SINGLE_BRD
0single_brd_lib .SINGLE_BRD
0single_brd_lib.SINGLE_BRD
4 5_DDR1_ZQ -
0single_brd_lib.SINGLE_BRD
4 5_NAND_PPN_ZQ -
0single_brd_lib.SINGLE_BRD
4 5_PMU_IREF -
0single_brd_lib .SINGLE_BRD
4 5_PMU_TCAL -
0single_brd_lib.SINGLE_BRD
0single_brd_lib.SINGLE_BRD
0 sing1e_brd_lib.SINGLE_BRD
0single_brd_lib .RADIO_MLB (i616_page
0single_brd_lib.SINGLE_BRD
4 5_PMU_VPUMP -
0single_brd_lib.SINGLE_BRD
4 5_PROX_TO_CUMULUS_RX -
0single_brd_lib .SINGLE_BRD
4 5_PROX_TO_CUMULUS_RX_CONN
0single_brd_lib.SINGLE_BRD
4 5_PROX_TO_CUMULUS_RX_FILT
0single_brd_lib.SINGLE_BRD
4 5_PROX_TO_CUMULUS_RX_IN -
0single_brd_lib.SINGLE_BRD
0 sing1e_brd_lib.SINGLE_BRD
0single_brd_lib .SINGLE_BRD
Location ( [Zone] [dir] )
12A7
6A7 6B8 6C2
6B3
6B8
6B6
3C4
6B6
24C6
35B5 35C8
3C4
24B6
35B8 56B3
3D4
3D5
3D4
3C4
3C4
7B4
11D 6
7C6
10D3
10D3
10C3
39B4
10C3 15C6
1ID8
6A7 6B8 6C2
6B3
3C2
13B6
3C2
13B6
7C4
21B4
7C6
3C5
3C4
3C5
18B7
4A3
6B6
13B7 14B6
13B7 14B6
21A7
15C6
18B8
12D4
4Al 12C4
4A5
12B5
12B5
12B5
4A7
4A5
4D8
12C4
4D8
4D8
4A6 4D8
4A4
4D8
6B3
13C4
4D8
13B6 23C2
13B4 20C5
13B4 13C6 24D6
35C6 35C8 56C7
12A7
12A5 23B7
11C8 18C8
11C6
18C8
18B7
2C2
2C4
2C4
0single_brd_lib.SINGLE_BRD
4 5_XTAL_2 4M_0_R 4 5_XTAL_2 4M_0_R -
0single_brd_lib.SINGLE_BRD
4 5_XTAL_TO_PMU_OSC32 4 5_XTAL_TO_PMU_OSC32 -
0single_brd_lib.SINGLE_BRD
5 0_AP_BI_BB_HSIC1_DA 50_AP_BI_BB_HSIC1_DATA -
TA
0single_brd_lib.SINGLE_BRD
50_HSIC_BB_DATA -
0single_brd_lib.RADIO_MLB (i616_page
24)
5 0_AP_BI_BB_HSIC1_ST 50_ AP_BI _ BB_HSIC1_STB -
B
0single_brd_lib.S INGLE_BRD
50_ HSIC _ BB_STROBE -
0single_brd_lib.RADIO_MLB (i616_page
24)
5 0_AP_BI_WLAN_HSIC2. 50_AP_BI_WLAN_HSIC2_DATA -
DATA
0single_brd_lib.SINGLE_BRD
50_HSIC_WLAN_DATA -
0single_brd_lib.RADIO_MLB (i616_page
24)
5 0_AP_BI_WLAN_HSIC2_ 50_AP_BI_WLAN_HSIC2_STB -
STB
0single_brd_lib.S INGLE_BRD
50_ HSIC _ WLAN _ STROBE -
0single_brd_lib.RADIO_MLB (i616_page
24)
90_AP_BI. LCM_MIPI_DA 90_AP_BI_LCM_MIPI_DATA0_ CONN _N -
TAO_ CONN N 0single_brd_lib.S INGLE_BRD
90_AP_BI LCM_MIPI_ DA 90_AP_BI_LCM_MIPI_DATA 0_CONN_P -
TAO_ CONN P 0single_brd_lib.S INGLE_BRD
90_AP_BI LCM_MIPI_DA 90_AP_BI_LCM_MIPI_DATA0_N -
TA0_N
0single_brd_lib.SINGLE_BRD
90_AP_BI_LCM_MIPI_DA 90_AP_BI_LCM_MIPI_DATA0_P -
TA0_P
0single_brd_lib.S INGLE_BRD
90_AP_BI__TRISTAR_USB 90_AP_BI_TRISTAR_USB0_H6P_N -
0_H6P_N
0single_brd_lib.SINGLE_BRD
90_AP_BI_TRISTAR_USB 90_AP_BI_TRISTAR_USB0_H6P_P -
0_H6P_P
0single_brd_lib.SINGLE_BRD
90_AP_BI_TRISTAR_USB 90_AP_BI_TRISTAR_USB0_N -
0_N
0single_brd_lib.S INGLE_BRD
90_AP_BI .TRISTAR_ USB 90_AP_BI_TRISTAR_USB0_P -
0_P
0single_brd_lib.SINGLE_BRD
90_AP_TO LCM MIPI CL 90_AP__TO_LCM_MIPI_ CLK _ CONN _N -
K_ CONN _ N
0single_brd_lib.S INGLE_BRD
90_AP_TO_LCM_MIPI_CL 90_ AP_TO _ LCM_MIPI_CLK _ CONN_P -
K_CONN_P
0single_brd_lib.S INGLE_BRD
90_AP_TO_LCM_MIPI_CL 90_AP_TO_LCM_MIPI_CLK_N -
K_N
0single_brd_lib.SINGLE_BRD
90_AP_TO_LCM_MIPI_CL 90_AP_TO_LCM_MIPI_CLK_P -
K_P
0single_brd_lib.SINGLE_BRD
90_AP_TO_LCM_MIPI_DA 90_AP_TO_LCM_MIPI_DATA1_CONN_N -
TAl_CONN_N 0single_brd_lib.SINGLE_BRD
90_AP_T0_LCM_MIPI_DA 90_AP_TO_LCM_MIP I_DATAl_CONN_P -
TA1_CONN_P
0single_brd_lib.SINGLE_BRD
90_AP_TO_LCM_MIPI_DA 90_AP_TO_LCM_MIPI_DATA1_N -
TAl_N
0single_brd_lib.SINGLE_BRD
90_AP_TO_ LCM_MIPI_DA 90_AP_ TO _LCM_MIPI_DATAl_P -
TAl_P
0single_brd_lib.S INGLE_BRD
90_CODEC_BI_TRISTAR_ 90_ CODEC_BI_TRISTAR_MIKEYBUS_DIG_N
MIKEYBUS_DIG_N - 0 single_brd_lib.S INGLE_BRD
90_CODEC_BI_TRISTAR_ 90_ CODEC _ BI_TRISTAR_MIKEYBUS_DIG_P
MIKEYBUS_DIG_P - 0 single_brd_lib.S INGLE_BRD
90_CODEC_BI_TRISTAR_ 90_CODEC_BI_TRISTAR_MIKEYBUS_L67_N
MIKEYBUS_L67_N - 0single_brd_lib.SINGLE_BRD
90_CODEC_BI_TRISTAR_ 90_CODEC_BI_TRISTAR_MIKEYBUS_L67_P
MIKEYBUS_L67_P - 0single_brd_lib.SINGLE_BRD
90_CODEC_BI_TRISTAR_ 90_CODEC_BI_TRISTAR_MIKEYBUS_N -
MIKEYBUS_N 0single_brd_lib.SINGLE_BRD
90_CODEC_BI_TRISTAR_ 90_CODEC_BI_TRISTAR_MIKEYBUS_P -
MIKEYBUS_P
0single_brd_lib.SINGLE_BRD
90_FCAM_T0_AP_MIPI_C 90_FCAM_ TO_AP_MIP I_CLK_CONN_N -
LK_CONN_N
0single_brd_lib.SINGLE_BRD
90_FCAM_TO_AP_MIPI_ C 90_FCAM_TO_AP_ MIPI _ CLK_CONN_P -
LK_ CONN _P
0single_brd_lib.SINGLE_BRD
90_FCAM_TO_AP_MIPI_ C 90_ FCAM_TO_AP _ MIPI _ CLK_N -
LK_N
0single_brd_lib.S INGLE_ BRD
90_FCAM_TO_ AP_MIP I_C 90_ FCAM_TO_AP_MIPI_CLK_P -
LK_P
0single_brd_lib.SINGLE_BRD
90_FCAM_T0_A P_MIPI_D 90_FCAM_TO_AP_MIPI_DATA 0_CONN_N -
ATAO_CONN_N 0single_brd_lib.SINGLE_BRD
90_FCAM_TO_AP_MIPI_D 90_FCAM_TO_AP_MIPI_DATA 0_CONN_P -
ATA0_CONN_P 0single_brd_lib.SINGLE_BRD
90_FCAM_T0_AP_MIPI_D 90_FCAM_TO_AP_MIPI_DATA0_N -
ATA0_N
0single_brd_lib.SINGLE_BRD
90_FCAM_T0_AP_MIPI_D 90_FCAM_TO_AP_MIPI_DATA0_P -
ATAO_P
0single_brd_lib.SINGLE_BRD
90_RCAM_TO_AP_MIPI_C 90_RCAM_TO_AP_MIPI_CLK_CONN_N -
LK_ CONN_N
0single_brd_lib.SINGLE_BRD
90_RCAM_TO_AP_MIPI_C 90_ RCAM _TO_AP_MIPI_ CLK _ CONN _P -
LK_CONN_P
0single_brd_lib.S INGLE_BRD
90_RCAM_T0_A P_MIPI_C 90_ RCAM__TO_AP_MIPI_CLK_N -
LK_N
0single_brd_lib.SINGLE_BRD
90_RCAM_T0_A P_MIPI_C 90_ RCAM_TO_AP_MIPI_CLK_P -
LK_P
0single_brd_lib.SINGLE_BRD
90_RCAM_T0_A P_MIPI_D 90_RCAM_TO_AP_MIPI_DATA 0_CONN_N -
ATAO_CONN_N 0single_brd_lib.SINGLE_BRD
90_RCAM_TO_AP_MIPI_D 90_RCAM_TO_AP_MIPI_DATA 0_CONN_P -
ATAO_CONN_P 0single_brd_lib.SINGLE_BRD
90_RCAM_T0_AP_MIPI_D 90_RCAM_TO_AP_MIPI_DATA0_N -
ATA0_N
0single_brd_lib.S INGLE_BRD
90_RCAM_T0_AP_MIPI_D 90_RCAM_TO_AP_MIPI_DATA0_P -
ATAO_P
0single_brd_lib.S INGLE_BRD
90_RCAM_TO_ AP_MIPI_D 90_ RCAM _TO_AP_MIPI_DATAl_ CONN _N -
ATAl_CONN_N
0single_brd_lib.S INGLE_BRD
90_RCAM_TO_AP_MIPI_D 90_RCAM_TO_AP_MIPI_DATAl_CONN_P -
ATA1_ CONN _P
0single_brd_lib.S INGLE_BRD
90_RCAM_T0_A P_MIPI_D 90_ RCAM__TO_AP_MIPI_DATAl_N -
ATAl_ N
0single_brd_lib.SINGLE_BRD
90_RCAM_T0_A P_MIPI_D 90_ RCAM_TO_AP_MIPI_DATAl_P -
ATA1_P
0single_brd_lib.S INGLE_BRD
90_RCAM_T0_A P_MIPI_D 90_RCAM_TO_AP_MIPI_DATA2_CONN_N -
ATA2_CONN_N 0single_brd_lib.SINGLE_BRD
90_RCAM_T0_AP_MIPI_D 90_RCAM_TO_AP_MIPI_DATA2_CONN_P -
ATA2_CONN_P 0single_brd_lib.SINGLE_BRD
90_RCAM_T0_AP_MIPI_D 90_RCAM_TO_AP_MIPI_DATA2_N -
ATA2_N
0single_brd_lib.SINGLE_BRD
90_RCAM_T0_AP_MIPI_D 90_RCAM_TO_AP_MIP I_DATA2_P -
ATA2_P
0single_brd_lib.SINGLE_BRD
90_RCAM_TO_AP_MIPI_D 90_RCAM_TO_AP_MIPI_DATA3_CONN_N -
ATA3_ CONN _N
0single_brd_lib.SINGLE_BRD
90_RCAM_TO_AP_MIPI_D 90_ RCAM _TO_AP_MIPI_DATA3_CONN_P -
ATA 3_ CONN _P
0single_brd_lib.SINGLE_BRD
90_RCAM_T0_A P_MIPI_D 90_ RCAM__TO_AP_MIPI_DATA3_N -
ATA3_ N
0single_brd_lib.S INGLE_BRD
90_RCAM_TO_ AP _ MIPID 90_ RCAM_TO_AP_MIPI_DATA3_P -
2C2
12A7
2B6 24B6
35B1 35B6 35C8
2B6 24B6
35B1 35B6 35C8
2B6 24B6
35B6 35C8 56B6
2B6 24B6
35B6 35C8 56B6
19C6
19C6
7B8
7B8
2B4
2B4
2B2
2B2
19C6
19C6
7B8
7B8
19C6
19C6
7B8
7B8
19C7
19C7
16C4
16C4
19C7
19C7
19C7
19C7
16D5 23C7
16D5 23C7
9B4
9B4
23C7
23C7
9B1 16D6 23C7
9B1 16D6 23C7
11C4
11C4
7B5
7B5
11C4
11C4
7B5
7B5
21B3
21B3
11D1
11D1
11D1
11D1
7C8 2lB'l
7C8 2 1B1
21B3
21B3
7C8
7C8
21B3
21B3
2 1B1
2 1B1
7C8 2lB'l
7C8 2lB'l
21C3
21C3
7C8
7C8
21C3
21C3
2 1C1
2 1C1
7C8 2 1C1
7C8 2 1C1
38B3
38B3
ATA3_P
0single_brd_lib. SINGLE_BRD
90_TRISTAR_BI_BB_USB 90_TRISTAR_BI_BB__USB_N -
_N
0single_brd_lib.SINGLE_BRD
16C4 24C6
9 0_BB_USB_D_N - 35C3 35C8 38A5
0single_brd_lib.RADIO_MLB (i616_page
24)
90_TRISTAR_BI_BB_USB 9 0_TRISTAR_BI_BB_USB_P -
_P
0single_brd_lib.SINGLE_BRD
16D4 24C6
9 0_BB_ USB_D_P - 35C3 35C8 38A5
0single_brd_lib.RADIO_MLB (i616_page
24)
90_ TRISTAR_BI_E7 5_PA 90_TRISTAR_BI_E75_PAIR1_CONN_N - 16C2 17B1 22D3 23D5
IRl_ CONN _ N 0single_brd_lib.SINGLE_BRD
90_TRISTAR_BI_E75_PA 90_TRISTAR_BI_E75_PAIR1_CONN_P - 16C2 17B1 22D3 23D5
IRl_CONN_P
0single_brd_lib.SINGLE_BRD
90_TRISTAR_BI_E75_PA 90_TRISTAR_BI_E75_PAIR2_CONN_N -
IR2_CONN_N 0single_brd_lib. SINGLE_BRD
16C2 17B1 22C3 23D5
90_TRISTAR_B I_E7 5_PA 90_TRISTAR_BI_E75_PAIR2_CONN_P - 16C2 17B1 22D3 23D5
IR2_CONN_P
0single_brd_lib.SINGLE_BRD
ACCEL_T0_0SCAR_INT1 ACCEL_TO_OSCAR_INT 1 -
0single_brd_lib.SINGLE_BRD
20B3 20D7
ACCEL_TO_OSCAR_INT2 ACCEL_T0_0SCAR_INT2 - 20B3 20C7
0single_brd_lib.SINGLE_BRD
ALS TO AP INT CONN L ALS TO AP INT CONN L - 11C5
0single_brd_lib.SINGLE_BRD
ALS_TO_AP_ INT_L ALS_ TO _AP_INT_L - 3C5 11B7
0single_brd_lib.SINGLE_BRD
AP_ BI_BATTERY_SWI AP_BI _ BATTERY _ SWI - 3B5 13B4 22D5
0single_brd_lib.SINGLE_BRD
AP_BI_BATTERY_SWI_CO AP_BI_BATTERY_SWI_CONN -
NN
0single_brd_lib.SINGLE_BRD
22D7 22D8
AP_BI_EEPROM_l2C_SDA AP_BI_EEPR0M_I2C_SDA - 3C2 16A6
0single_brd_lib.SINGLE_BRD
AP_BI_FCAM_I2C_SDA AP_BI_FCAM_12C_SDA - 7C4 11C7
0single_brd_lib.SINGLE_BRD
AP_BI_FCAM_SDA_CONN AP_BI_FCAM_SDA_CONN - 1ID6
0single_brd_lib.SINGLE_BRD
AP_BI_I2C0_SDA AP_BI_I2C0_SDA - 3D1 13B6 14B7 14C6 15C6
0single_brd_lib.SINGLE_BRD
16C2
AP_BI_I2C1_SDA AP_BI_ I2C1_SDA - 3D1 11B8
0single_brd_lib.SINGLE_BRD
AP BI I2C1 SDA ALS C AP BI I2C1 SDA ALS CONN - 11C5
ONN
AP_ BI_NAND_ANC0_10< 0
0single_brd_lib.SINGLE_BRD
AP_B I_NAND_ANC0_10<0> - 6C5 6C8
> 0single_brd_lib. SINGLE_BRD
AP_BI_NAND_ANC0_10<1 AP_BI_NAND_ANC0_IO<1> - 6C5 6C8
> 0single_brd_lib.SINGLE_BRD
AP_BI_NAND_ANC0_10<2 AP_B I_NAND_ANC0_IO<2> - 6C5 6C8
> 0single_brd_lib.SINGLE_BRD
AP_BI_NAND_ANC0_10<3 AP_BI_NAND_ANCO_IO<3>
- 6C5 6C8
> 0single_brd_lib.SINGLE_BRD
AP_BI_NAND_ANCO_IO<4 AP_BI_NAND_ANCO_IO<4 > - 6C5 6C8
> 0single_brd_lib.SINGLE_BRD
AP_BI_NAND_ANC0_IO<5 AP_BI_NAND_ANC0_ IQ<5> - 6C5 6C8
> 0single_brd_lib.SINGLE_BRD
AP_BI_NAND_ANCO_IO<6 AP_BI_NAND_ ANC0_IO< 6> - 6B7 6C5 6C8
> 0single_brd_lib. SINGLE_BRD
AP_BI_NAND_ANC1_IO< 7 AP_BI_NAND_ANCO_IO<7> - 6C5 6C8
> 0single_brd_lib.SINGLE_BRD
AP_BI_NAND_ANC0_IO< 0 AP_ BI _ NAND _ ANC1 _ IO<0> - 6C5
> 0single_brd_lib.SINGLE_BRD
AP_BI_NAND_ANC1_I0<1 AP_BI_NAND_ANC1_I0<1> -
> 0single_brd_lib.SINGLE_BRD
AP_BI_NAND_ANC 1_ IO<2 AP_BI_NAND_ANCl_IO<2> - 6C5
> 0single_brd_lib.SINGLE_BRD
AP_BI_NAND_ANC1_IO<3 AP_BI_NAND_ANCl_IO<3> -
> 0single_brd_lib. SINGLE_BRD
AP_BI_NAND_ANC1_10< 4 AP_BI_NAND_ANCl_IO<4> - 6C5
> 0single_brd_lib.SINGLE_BRD
AP_BI_NAND_ANC1_10<5 AP_BI_NAND_ANCl_IO<5> r
> 0single_brd_lib.SINGLE_BRD
AP_BI_NAND_ANCl_IO<6 AP_BI_NAND_ANCl_IO<6> ÿ=-
> 0single_brd_lib.SINGLE_BRD
AP_BI_NAND_ANC1_10<7 AP_BI_NAND_ANCl_IO<7> - 6C5
> 0single_brd_lib.SINGLE_BRD
AP_BI_OSCAR_SWDIO_lV AP_BI_OSCAR_SWDIO_lV8 - 3C2 20C5
8 0single_brd_lib.SINGLE_BRD
AP_BI_RCAM_I2C_SDA AP_BI_RCAM_I2C_SDA - 7C4 15A6 20C7 21B7
0single_brd_lib.SINGLE_BRD
AP_BI_RCAM_I2C_SDA_C AP_BI_RCAM_l2C_SDA_CONN -
ONN
0single_brd_lib.SINGLE_BRD
6C5
6C5
6C5
6C5
21C4
AP_TO_BB_HS IC1_RDY AP_TO_BB_HSICl_RDY - 3C2 24B6
0single_brd_lib.SINGLE_BRD
AP_HSIC1_RDY - 35C1 35C8 39B2
0single_brd_lib.RADIO_MLB (i616_page
24)
AP_ TO _BB_12Sl_DOUT AP_ TO _BB_12 S1_ DOUT - 3C4 24C6
0single_brd_lib.SINGLE_BRD
BB_12 S_RXD - 35B5 35C8 39B4
0single_brd_lib.RADIO_MLB (i616_page
24)
AP_ TO _ BB _ 12S1_LRCLK AP_TO_BB_12 S1 _ LRCLK - 3C4 24C6
0single_brd_lib.SINGLE_BRD
BB_12 S_WS - 35B5 35C8 39B4
0single_brd_lib.RADIO_MLB (i616_page
24)
AP_T0_BB_JTAG_TCK AP_T0_BB_JTAG_TCK - 3B7 24D3
0single_brd_lib.SINGLE_BRD
BB_JTAG_TCK - 35B8 35C3 38B5
0single_brd_lib.RADIO_MLB (i616_page
24)
AP_TO_BB_JTAG_TDI AP_TO_BB_ JTAG _TDI-
0single_brd_lib.SINGLE_BRD
3C7 24D3
BB_JTAG_TDI - 35B8 35C3 38B5
0single_brd_1ib.RADIO_MLB (i616_page
24)
AP_TO_BB_JTAG_TMS AP_TO_ BB_JTAG _ TMS - 3B7 24D3
0single_ brd_lib.SINGLE_BRD
BB_JTAG_TMS - 35B8 35C3 38B5
0single_brd_lib.RADIO_MLB (i616_page
24)
AP_T0_BB_JTAG_T RST_L AP_TO_BB_JTAG_TRST_L -
0single_brd_lib.SINGLE_BRD
3D5 24D3
BB_JTAG_TRST_L - 35B8 35C3 38B5
0single_brd_lib.RADIO_MLB (i616_page
24)
AP_TO_BB_RST_L AP_TO_BB_RST_L - 3C8 24D6
0single_brd_lib.SINGLE_BRD
BB_RST_L - 35C1 35D8 37C8
0single_brd_lib.RADIO_MLB (i616_page
24)
AP_ TO _ BB _ UART4 _ RTS _ L AP _ TO _ BB _ UART4 _ RTS _ L -
3C5 24C6
0single_brd_lib.SINGLE_BRD
BB_UART_ CTS_L - 35C3 35C8 39C4
AP TO BB UART4 TXD
AP TO BB WAKE MODEM
AP_ TO _ BT _ 12 S3_DOUT
AP TO BT I2S3 LRCLK
AP TO BT UART1 RTS L
AP_ TO_BT _ UART1 TXD
AP TO BT WAKE
AP_TO_CODEC_ASP_I2SO
_ DOUT
AP_TO_ CODEC_ASP_12 S0
_LRCLK
AP_TO_ CODEC _ SPI3_CLK
AP_T0_CODEC_SPI3_CS_
L
AP_TO_CODEC_SPI3_MOS
I
AP_TO_CODEC_VSP_I2S4
_DOUT
AP_TO_CODEC_VSP_I2S4
_LRCLK
AP_TO_COD EC_X SP_12 S2
_DOUT
AP_TO_CODEC_XSP_I2S2
_LRCLK
AP_ TO _EEPROM_12C_SCL
AP_ TO _ FCAM _ 12C_SCL
AP_ TO _ FCAM _ SCL _ CONN
AP_T0_FCAM_SHUTDOWN
AP_TO_FCAM_SHUTDOWN_
CONN
AP_TO_HEADSET_HS 3_CT
RL
AP_TO_HEADSET_HS 3_CT
RL_CONN
AP_TO_HEADSET_HS4_CT
RL
AP_T0_HEADSET_HS 4_CT
RL_CONN
AP_TO_I 2C0_ SCL
AP_T0_I2C1_SCL
AP_TO_I 2C 1_SCL_ALS_C
ONN
AP_TO_LCM_RESET_CONN
_L
AP_TO_LCM_RESET_L
AP_TO_LEDDRV_EN
AP_TO_NAND_ANC 0_ALE
AP_TO_NAND_ANC0_CEN0
_L
AP_TO_NAND_ANC0_CLE
AP_T0_NAND_ANC0_WE_L
AP_T0_NAND_ANC 1_ALE
AP_T0_NAND_ANC 1_CEN0
_L
AP_TO_NAND_ANC 1_CLE
AP TO NAND ANC1 WE L
AP_TO_NAND_ANC_DQVRE
F
AP_TO_ NAVAJO _SPI2_CL
K
AP_ TO _ NAVAJO _ SPI2_CL
K_ CONN
AP_TO_NAVAJO_SPI2_CL
K_R
AP_T0_NAVAJ0_SP12_MO
SI
AP_TO_NAVAJO_SPI2_MO
SI_CONN
AP_TO_OSCAR_DBGEN
AP_T0_0SCAR_RESET_L
AP_TO_OSCAR_SWDCLK_l
V8
AP_TO_OSCAR_UART2_TX
D
AP_ TO _ PMU _ KEEPACT
AP_TO_PMU RESET IN
0single_brd_lib.RADIO_MLB (i616_page
24)
AP_TO_BB_UART 4_TXD -
0single_brd_lib.SINGLE_BRD
BB_UART_RXD -
0single_brd_lib.RADIO_MLB (i616_page
24)
AP_TO_BB_WAKE_MODEM -
0single_brd_lib.SINGLE_BRD
AP_WAKE_MODEM -
0single_brd_lib.RADIO_MLB (i616_page
24)
AP_TO_BT_12 S 3_DOUT -
0single_brd_lib. SINGLE_BRD
BT_PCM_IN -
0single_brd_lib.RADIO_MLB (i616_page
24)
AP_T0_BT_12 S3_LRCLK -
0single_brd_lib.SINGLE_BRD
BT_PCM_SYNC -
0single_brd_lib.RADIO_MLB (i616_page
24)
AP_TO_BT_UART1_RTS_L -
0single_brd_lib.SINGLE_BRD
BT_UART_ CTS _L -
0single_brd_lib.RAD10_MLB (i616_page
24)
AP_ TO _ BT _ UART1 _ TXD -
0single_brd_lib.SINGLE_BRD
BT_UART_RXD -
0single_brd_lib.RADIO_MLB ( i616_page
24)
AP_TO_BT_WAKE -
0single_brd_lib. SINGLE_BRD
BT_WAKE -
0single_brd_1ib.RADIO_MLB (i616_page
24)
AP_TO_CODEC_ASP_12 S0_DOUT -
0single_brd_lib.SINGLE_BRD
AP_TO_ CODEC _ASP_12 S 0_LRCLK -
0single_brd_lib.SINGLE_BRD
AP__TO_CODEC_SPI3_CLK -
0single_brd_lib.SINGLE_BRD
AP_TO_ CODEC_SPI3_CS_L -
0single_ brd _ 1ib.S INGLE_BRD
AP_TO_CODEC_SPI3_MOSI-
0single_brd_lib. STNGLE_BRD
AP_TO_CODEC_VSP_I2S4_DOUT -
0single_brd_lib.SINGLE_BRD
AP_TO_CODEC_VSP_I2S4_LRCLK -
0single_brd_lib.SINGLE_BRD
AP_TO_CODEC_XSP_12 S2_DOUT -
0single_brd_lib.SINGLE_BRD
AP_TO_CODEC_XSP_12 S2_LRCLK -
0single_brd_lib.SINGLE_BRD
AP_TO_EEPROM_I2C_ SCL -
0single_brd_lib.SINGLE_BRD
AP_TO_FCAM_l2C_SCL -
0single_brd_lib -
SINGLE_BRD
AP_ TO _ FCAM _ SCL _ CONN -
0single_brd_lib. SINGLE_BRD
AP_TO_FCAM_SHUTDOWN -
0single_brd_lib. SINGLE_BRD
AP_TO_FCAM_SHUTDOWN_CONN -
0single_brd_lib. SINGLE_BRD
AP_TO_HEADSET_HS3_CTRL -
0single_brd_lib.SINGLE_BRD
AP_TO_HEADSET_HS3_CTRL_CONN -
0single_brd_lib. SINGLE_BRD
AP_TO_HEADSET_HS4_CTRL -
0single_brd_lib.SINGLE_BRD
AP_TO_HEADSET_HS4_CTRL_CONN -
0single_brd_lib.SINGLE_BRD
AP_TO_ I2C0_SCL -
0single_brd_lib -
SINGLE_BRD
AP_TO_ I2C1 _ SCL -
0single_brd_lib.SINGLE_BRD
AP_TO_l2Cl_SCL_ALS_CONN -
0single_brd_lib. SINGLE_BRD
AP_TO_LCM_RESET_CONN_L -
0single_brd_lib. SINGLE_BRD
AP_T0_LCM_RESET_L -
0single_brd_lib.SINGLE_BRD
AP_TO_LEDDRV_EN -
0single_brd_lib.SINGLE_BRD
AP_TO_NAND_ANC0_ALE -
0single_brd_lib.SINGLE_BRD
AP_TO_NAND_ ANC 0_ CEN0_L -
0single_brd_lib.SINGLE_BRD
AP_TO_ NAND_ANC0_CLE -
0single_brd_lib. SINGLE_BRD
AP_ TO _ NAND _ ANC 0 _ WE _ L -
0single_brd_lib.SINGLE_BRD
AP_TO_NAND_ANCl_ALE -
0single_brd_lib.SINGLE_BRD
AP_TO_NAND_ANC1_CENO_L -
0single_brd_lib. SINGLE_BRD
AP_TO_NAND_ANCl_CLE -
0single_brd_lib. SINGLE_BRD
AP_TO_NAND_ANC 1_WE_L -
0single_brd_lib.SINGLE_BRD
AP_TO_NAND_ANC_DQVREF -
0single_brd_lib.SINGLE_BRD
AP_TO_ NAVAJO _ SPI2_CLK -
0single_brd_lib.SINGLE_BRD
AP_TO_ NAVAJO _ SPI2_CLK_CONN -
0single_brd_lib.S INGLE_BRD
AP_TO_ NAVAJO _ SPI2 _ CLK_R -
0single_brd_lib. SINGLE_BRD
AP_TO_NAVAJO_SPI2_MOSI-
0single_brd_lib.S INGLE_BRD
AP_TO_NAVAJO_SPI2_MOS I_CONN -
0single_brd_lib.SINGLE_BRD
AP_TO_OSCAR_DBGEN -
0single_brd_lib.SINGLE_BRD
AP_TO_OSCAR_RESET_L -
0single_brd_lib.SINGLE_BRD
AP_TO_OSCAR_SWDCLK_lV8 -
0single_brd_lib.SINGLE_BRD
AP_ TO _OSCAR_UART2_TXD -
0single_brd_lib.SINGLE_BRD
AP_ TO _ PMU _ KEEPACT -
0single_brd_lib.SINGLE_BRD
AP TO_PMU_RESET IN -
3C5
16C4 24C6
35C3 35C8 39C4
3C8 24B6
35D8
3C4
39B4
24B6
35B8 56B3
3C4 24B6
35B8 56B3
3C5 24B6
35B8 56B3
3C5 24B6
35B6 35B8 56C3
3C8 24B6
35B8 35D1 56C2
3D4
3D4
3B4
3B4
3B4
3C4
3C4
3C4
3C4
3C2
7C4
11D6
7C5
11D6
3C8
17C7
3C8
10C3
10D3
10C3
10C3
10C3
10C3
10C3
10C3 15C6
10C3 15C6
16A8
11D7
11D8
17C8
17B8
17C4 17C6
3D1 13B6 14B7 14C6 15C6
16C2
3D1 11B7
11C5
19C5
3C8
7C8
6B8
6C2
6B8
6B8
6B6
6C3
6B6
6B6
19C2
15A6
6C2
6C8
6C2
6C2
6C3
6C6
6C3
6C3
6B2 6B6 6B8 6C5
3B5
17D1
17C4 17D3
3B4
3B4
17D1
17C5 17D3
3C8 20C5
3C5 20C7
3C2 20C5
3C5 20C5
3C8
2B3
13B2
13B6
D
C
B
A
8 7 6 5 4 3 2 1
8 7 6 4 3 2 1
D
C
B
A
AP_TO_PMU_SOCHOTl
AP_TO_PMU_SOCHOTl_H6
P
AP_TO_PMU_TEST_CLKOU
T
AP
N
TO PMU VIBE PWM E
AP TO RADIO ON L
AP_TO_RCAM_l2C_SCL
AP_TO_RCAM_I2C_SCL_C
ONN
AP_TO_RCAM_SHUTDOWN
AP_TO_RCAM_SHUTDOWN_
CONN
AP_ TO _RCAM_ VDDCORE _E
N
AP TO SPKAMP BEE GEE
AP_ TO _ SPKAMP _ RESET _ L
AP_TO_ TOUCH _ GRAPE_RE
SET_L
AP_TO_TOUCH_SPI1_CLK
AP_TO_TOUCH_SPI1_CS_
L
AP__TO_TOUCH_SPIl_MOS
I
AP_TO_TRI STAR_ACC_UA
RT6_TXD
AP_TO_TRI STAR_DEBUG_
UARTO_TXD
AP TO WLAN HSIC2 RDY
AP
TO_WLAN UART3TXD
BATTERY_NTC_CONN
BATTERY_T0_PMU_NTC
BATTERY_TO_ PMU _ SENSE
BB_TO_ANTENNA_P AC_ S P
ICS
BB_TO_ANTENNA_PAC_SP
I_MOSI
BB_TO_ANTENNA_PAC_SP
ISCLK
BB TO AP
HSIC1 RDY
BB_TO_AP_HSICl_REMOT
E_WAKE
BB TO AP
BB TO AP
12 S1 DIN
IPC GPIO
BB_TO_AP_JTAG_TDO
BB TO AP
BB TO AP
BB TO_AP
BB TO AP
PP SYNC
RESET DET L
UART4CTS L
UART4 RXD
BB TO LAT SW1 CTL
BB TO LAT_SW2
CTL
@single_brd_lib .SINGLE_BRD
AP_TO_PMU_SOCHOT1 -
@single_brd_lib .SINGLE_BRD
AP_TO_PMU_SOCHOTl_H6P -
@single_brd_lib .SINGLE_BRD
AP_TO_PMU_TEST_CLKOUT -
@single_brd_lib .SINGLE_BRD
AP_TO_ PMU _VIBE_PWM_EN -
@single_brd_lib .SINGLE_BRD
AP_TO_RADIO_ON_L -
@single_brd_lib .SINGLE_BRD
RADIO_ ON _ L -
@single_brd_lib .RADIO_ MLB (i616_page
24)
AP_T0_RCAM_12C_SCL -
@single_brd_lib.SINGLE_BRD
AP_TO_RCAM_I2C_SCL_CONN -
0single_brd_lib .SINGLE_BRD
AP_TO_RCAM_S HUTDOWN -
0single_brd_lib .SINGLE_BRD
AP_TO_RCAM_SHUTDOWN_CONN -
0single_brd_lib.SINGLE_BRD
AP_TO_RCAM_VDDCORE_EN -
@ single_brd_lib.SINGLE_BRD
AP_TO_SPKAMP_BEE_ GEES -
@ single_brd_lib.SINGLE_BRD
AP_ TO _ SPKAMP _ RESET _ L -
0single_brd_lib.SINGLE_BRD
AP_TO_TOUCH_GRAPE_RESET_L -
0single_brd_lib.SINGLE_BRD
AP_TO_TOUCH_SPI1_CLK -
0single_brd_lib.SINGLE_BRD
AP_TO_TOUCH_SPI1_CS_L -
0single_brd_lib .SINGLE_BRD
AP_TO_TOUCH_SPIl_MOSI-
0 single_brd_lib.SINGLE_BRD
AP_TO_TRI STAR_ACC_UART6_TXD -
0single_brd_lib .SINGLE_BRD
AP_TO_TRISTAR_DEBUG_UARTO_TXD -
0 single_brd_lib.SINGLE_BRD
AP_TO_WLAN_HSIC2_RDY -
0 single_brd_lib.SINGLE_BRD
AP_ HSIC3_RDY -
0single_brd_lib .RADIO_ MLB (i616_page
24)
AP_TO_WLAN_UART3_TXD -
0single_brd_lib .SINGLE_BRD
WLAN_UART_RXD -
0single_brd_lib.RADIO_MLB (i616_page
24)
BATTERY_NTC_CONN -
0 single_brd_lib.SINGLE_BRD
BATTERY_TO_PMU_NTC -
0single_brd_lib .SINGLE_BRD
BATTERY_TO_ PMU _ SENSE -
0 single_brd_lib.SINGLE_BRD
BB_TO_ANTENNA_ PAC _SPI_CS -
0single_.brd_lib .SINGLE_BRD
BB_ SPI_T O _ PAC_C S -
0single_brd_lib .RADIO_ MLB (i616_page
24)
BB_TO_ANTENNA_PAC_SPI_MOSI -
0single_brd_lib.SINGLE_BRD
BB_SPI_TO_PAC_DATA_MOSI -
0single_brd_lib .RADIO_MLB (i616_page
24)
BB_TO_ANTENNA_PAC_SPI_SCLK -
0 single_brd_lib.SINGLE_BRD
BB_SPI_T0_PAC_C LK -
0 single_brd_lib.RAD10_MLB {i616_page
24)
BB_ TO _AP_HSIC1_RDY -
0single_brd_lib.SINGLE_BRD
PBL_ RUN _ BB _ HSIC1 _ RDY -
0single_.brd_lib.RADIO_MLB (i616_page
24)
BB_T0_AP_HSICl_REMOTE_WAKE -
0single_brd_lib.SINGLE_BRD
BB_HSICl_REMOTE_WAKE -
0single_brd_lib .RADIO_MLB (i616_page
24)
BB_TO_AP_12S1_DIN -
0single_brd_lib .SINGLE_BRD
BB_I2S_TXD -
0 single_brd_lib.RAD10_MLB (i616_page
24)
BB_TO_AP_ IPC_GPIO -
0single_brd_lib .SINGLE_BRD
BB_ IPC_GPIO -
0single_.brd_lib .RADIO_ MLB (i616_page
24)
BB_ TO_AP_JTAG_TDO -
0single_brd_lib.SINGLE_BRD
BB_JTAG_TDO -
0single_brd_lib.RADIO_MLB (i616_page
24)
BB_TO_AP_PP_SYNC -
0single_brd_lib.SINGLE_BRD
PP_SYNC -
0single_brd_lib .RADIO_MLB (i616_page
24 )
BB_T0_AP_RESET_DET_L -
0single_brd_lib.SINGLE_BRD
RESET_DET_L -
0single_brd_lib .RADIO_MLB (i616_page
24)
BB_ TO__AP_UART 4_CTS_L -
0single_.brd_lib.SINGLE_BRD
BB_UART_RTS_L -
0single_brd_lib.RADIO_MLB (i616_page
24)
BB_TO_AP_UART4_RXD -
0single_brd_lib .SINGLE_BRD
BB_UART_TXD -
0single_brd_lib.RADIO_MLB (i616_page
24)
BB_T0_LAT_S W1_C TL -
0 single_brd_lib.SINGLE_BRD
LAT_SW1_CTL -
0single_brd_lib .RADIO_MLB (i616_page
24)
BB_ TO_LAT _ SW2_CTL -
0single_.brd_lib.S INGLE_BRD
LAT SW2 CTL -
3B1 13B6
3B2
2B3
3C5
3C8
13C6
12B7
24D6
35D3 35D8 37C8
7C4
21C4
7C5 21B7
21B4
3C5 21C7
3D8
3C8
3C8
3B4
3B4
3B4
3B5
3C5
3C2
15A6 20DS 21B7
15C6
15C7
18B7
18B8
18B8
18B8
16C4
16C4
24B6
35C6 35C8 56B3
3C5 24C6
35C8
56B3
17C4 23D5
13A6 17C1 22C4 23D5
12C7 22C6 23D5
24A6
35B8 39C4
24A6
35B8 39C4
24A6
53C7
53C7
35B8 39C4 53C7
3C2
24B6
35C1 35D8
3C2
24B6
35C8 39B2
3C4
24C6
35B5 35C8
7C8
24A6
35A8 39B2
3C7
24D3
39B2
39B4
35B8 35C3 38B3
3C5 24C6
35C8
3C8
39B2
24D6
35C1 35D8
3C5 24C6
35C3 35C8
3C5
39B2
39C4
16C4 24C6
35C3 35C8
17B1 24A6
39C4
35B8 35C1 39C2
17B1 24A6
35B8 39C2
BB_T0_LEDDRV_G SM_BLA
NK
BB TO PMU
BOARD_ INFO
BOARD_INFO_M
BOARD
BT TO AP
INFO R
HOST WAKE
I2S3 DIN
BT TO AP UARTl CTS L
BT_ TO _ AP_UART1_RXD
BT TO PMU
HOST WAKE
BUTTON_TO_AP_HOLD_KE
Y_BUFF_L
BUTTON_TO_AP_HOLD_KE
Y_CONN_L
BUTTON_TO_AP_HOLD_KE
Y_L
BUTTON_TO_AP_MENU_KE
Y_BUFF_L
BUTTON_TO_AP_MENU_KE
Y_CONN_L
BUTTON_TO_AP_MENU_KE
Y_L
BUTTON_TO_AP_RINGER_
A
BUTTON_TO_AP_RINGER_
A_CONN
BUTTON_ TO _AP_ VOL _ DOW
N_ CONN _L
BUTTON_TO_AP_VOL_DOW
N_L
BUTTON_TO_AP_VOL_ UP_
CONN_ L
BUTTON_TO_AP_VOL_ UP_
L
CAM_EXT_LDO_EN
CAM_NTC_N
CAM_NTC_P
CAM_T0_PMU_NTC_P
0single_brd_lib.SINGLE_BRD
CHESTNUT_TO_ PMU _ ADCI CHESTNUT_TO_PMU_ ADCIN7 -
N7
CODEC_ MBUS _REF
CODEC_RESET_L
CODEC_TO_AP_ASP_I2SO
_DIN
CODEC_TO_AP_INT_L
CODEC_T0_AP_SP13_MIS
O
CODEC_TO_AP_VSP_12S 4
_DIN
CODEC_TO_AP_XSP_12S2
_DIN
CODEC_TO_ HAC _ CONN _N
CODEC_TO_ HAC _ CONN _P
CODEC_ TO _ HAC _ N
CODEC_TO_HAC_P
CODEC_TO_HPHONE_HS3
CODEC_TO_HPHONE_HS3_
CONN
CODEC_TO_HPHONE_HS3_
REF
CODEC_TO_HPHONE_HS 3_
REF_ CONN
CODEC_TO_ HPHONE_HS4
CODEC_TO_HPHONE_HS4_
CONN
CODEC_TO_HPHONE_HS4_
REF
CODEC_TO_HPHONE_HS4_
REF_CONN
CODEC_TO_HPHONE_L
CODEC_TO_HPHONE_L_CO
NN
CODEC_TO_HPHONE_R
CODEC_TO_HPHONE_R_CO
NN
CODEC_TO_MIC2_BIAS_ C
ONN
CODEC_ TO _ PMU _MIKEY_ICODEC_ TO _ PMU _MIKEY_ INT_L -
NT_L
CODEC_TO_RCVR_CONN_N
0single_brd_lib.RADIO_MLB (i616_page
24)
BB_TO_LEDDRV_GSM_BLANK -
0single_brd_lib.SINGLE_BRD
TX_GTR_THRESH -
0single_brd_lib.RADIO_MLB (i616_page
24)
BB_TO_PMU_HO ST_WAKE -
0single_brd_lib.S INGLE_BRD
HOST_WAKE_BB -
0single_brd_lib.RADIO_MLB (i616_page
24)
BOARD_INFO -
0single_brd_lib.SINGLE_BRD
BOARD_INFO_M -
0single_brd_lib.SINGLE_BRD
BOARD_INFO_R -
0single_brd_lib.SINGLE_BRD
BT_T0_AP_12S3_DIN -
0single_brd_lib.SINGLE_BRD
BT_PCM_OUT -
0single_brd_lib.RADIO_MLB (i616_page
24)
BT_ TO _AP_UART1_CTS_L -
0single_brd_lib.S INGLE_BRD
BT_UART_RTS_L -
0single_brd_lib.RADIO_MLB (i616_page
24)
BT_ TO _ AP _ UART1 _ RXD -
0single_brd_lib.S INGLE_BRD
BT_UART_TXD -
0single_brd_lib.RADIO_MLB (i616_page
24)
BT_TO_PMU_HOST_WAKE -
0single_brd_lib.S INGLE_BRD
HOST_WAKE_BT -
0single_brd_lib.RADIO_MLB (i616_page
24)
BUTTON_TO_AP_HOLD_KE Y_BUFF_L -
0single_brd_lib.S INGLE_BRD
BUTTON_TO_AP_HOLD_KEY_ CONN _L -
0single_.brd_lib.S INGLE_BRD
BUTTON_TO_AP_HOLD_KEY_ L -
0single_brd_lib.SINGLE_BRD
BUTTON_T0_AP_MENU_KEY_ BUFF_L -
0single_brd_lib.SINGLE_BRD
BUTTON_T0_A P_MENU_KEY_CONN_L -
0single_brd_lib.S INGLE_BRD
BUTTON_T0_AP_MENU_KEY_L -
0single_brd_lib.SINGLE_BRD
BUTTON_TO_AP_RINGER_A -
0single_brd_lib.SINGLE_BRD
BUTTON_TO_AP_RINGER_A_CONN -
0single_brd_lib.SINGLE_BRD
BUTTON_TO_AP_ VOL _DOWN_ CONN _L -
0single_brd_lib.S INGLE_BRD
BUTTON_TO_AP_ VOL _ DOWN _L -
0single_brd_lib.S INGLE_BRD
BUTTON_ TO _ AP _ VOL _ UP _ CONN _ L -
0single_brd_lib.SINGLE_BRD
BUTTON_ TO _ AP _ VOL _ UP _ L -
0single_brd_lib.SINGLE_BRD
CAM_EXT_LD0_EN -
0single_brd_lib.SINGLE_BRD
CAM_NTC_N -
0single_brd_lib.SINGLE_BRD
CAM_NTC_P -
0single_brd_lib.S INGLE_BRD
CAM_T0_PMU_NTC_P -
0 sing1e_brd_lib.SINGLE_BRD
CODEC_MBUS_REF -
0single_brd_lib.S INGLE_BRD
CODEC_RESET_D -
0single_brd_lib.S INGLE_BRD
CODEC_TO_AP_ASP_I2SO_DIN -
0single_brd_lib.SINGLE_BRD
CODEC_T0_A P_ INT_L -
0single_brd_lib.SINGLE_BRD
CODEC_TO_AP_SPI3_MISO -
0single_brd_lib.SINGLE_BRD
CODEC_TO_AP_VSP_I2S4_DIN -
0single_brd_lib.SINGLE_BRD
CODEC_TO_AP_XSP_12 S2_DIN -
0single_brd_lib.SINGLE_BRD
CODEC_TO_HAC_CONN_N -
0single_brd_lib.SINGLE_BRD
CODEC_TO_HAC_CONN_P -
0single_brd_lib.SINGLE_BRD
CODEC_TO_ HAC_N -
0single_brd_lib.S INGLE_BRD
CODEC_TO_HAC_P -
0single_brd_lib.SINGLE_BRD
CODEC_TO_HPHONE_HS3 -
0single_brd_lib.S INGLE_BRD
CODEC_TO_HPHONE_HS3_CONN -
0single_brd_lib.S INGLE_BRD
CODEC_TO_HPHONE_HS3_REF -
0single_brd_lib.SINGLE_BRD
CODEC_TO_HPHONE_HS3_REF_CONN -
0single_brd_lib.S INGLE_BRD
CODEC_TO_HPHONE_HS4 -
0single_brd_lib.SINGLE_BRD
CODEC_TO_HPHONE_HS4_ CONN -
0single_brd_lib.SINGLE_BRD
CODEC_TO_HPHONE_HS4_REF -
0single_brd_lib.S INGLE_BRD
CODEC_TO_HPHONE_HS4_REF_CONN -
0single_brd_lib.SINGLE_BRD
CODEC_TO_HPHONE_L -
0single_brd_lib.S INGLE_BRD
CODEC_TO_HPHONE_L_CONN -
0single_brd_lib.S INGLE_BRD
CODEC_T0_HPHONE_R -
0single_brd_lib.SINGLE_BRD
CODEC_TO_HPHONE_R_CONN -
0single_brd_lib.SINGLE_BRD
CODEC_TO_MIC2_BIAS_CONN -
0single_brd_lib.S INGLE_BRD
0single_brd_lib.SINGLE_BRD
CODEC_TO_ RCVR_CONN_N -
0single_brd_lib.S INGLE_BRD
15A6 24D6
35D8
39C2
13B4 24C6
35C1 35D8 39B2
3A6 3A6 3A6 3B8 3C8 3C8
3A6
3A6
3C4
35B8
3C5
35B8
3C5
35B6
3B8
3B8
24B6
56B3
24B6
56C3
24B6
13B4 24B6
35C8
35B8 56C3
56C3
3A2 3D8 13C4 13C6
8C5
3A4
8B7
3A2 3D8 13C4 13C6
17C5
3A4
17B8
3C8 8B7 13C4 13C6
8C5
8C5
3D8 8B7 13C6
8C5
3D8 8B7 13C6
7C8
13B7
13B7
21B7
13B6 23C2
13C2 13C6 14C6 23C2
9B3
10C3
3D4
3C8
3B4
3C4
3C4
f7D5
10C3
10C3
10C3
10C3
10C3 15C6
11A6 23D7
11A6 23D7
9C3
9C3
9C3
17C4
9B3
11A8 23D7
11A8 23D7
17C8 23D7
17C6 23D7
17C7 22B5 23D7
17C5 23C7
9B3
17C8 23D7
17C6 23C7
9B3 17C7 22B5 23D7
17C5 23C7
9C2
17C1 23D7
17C4 23D7
9C2
17C1 23D7
17C4 23D7
8C4
10C3 13B4
11A6 23D7
CODEC_TO_RCVR_CONN_P
CODEC_TO_RCVR_N
CODEC_TO_RCVR_P
COMPASS_TO_OSCAR_INT
COMPASS_ TO _OSCAR_INT
_FL
CUMULUS_T0_PROX_ RX_E
N_1V8
CUMULUS_T0_PROX_ RX_E
N_1V8_C0NN
CUMULUS_T0_PROX_TX_E
N_1V8_L
CUMULUS_T0_PROX_TX_E
N_BUFF
CUMULUS_TO_SAGE_BOOS
T_EN
CUMULUS_TO_SAGE_GCM_
SEL
CUMULUS_TO_SAGE_VSTM
_ OUT< 0 >
CUMULUS_ TO _ SAGE _ VSTM
_ OUT<1>
CUMULUS_TO_SAGE_ VSTM
_OUT<2>
CUMULUS_T0_SAGE_ VSTM
_OUT<3>
CUMULUS_TO_SAGE_VSTM
_OUT < 4 >
CUMULUS_TO_SAGE_VSTM
_OUT<5>
CUMULUS_TO_SAGE_VSTM
_OUT<6>
CUMULUS_TO_SAGE_VSTM
_OUT<7>
CUMULUS_ TO _ SAGE _VSTM
_OUT< 8 >
CUMULUS_TO_SAGE_VSTM
_OUT<9>
CUMULUS_TO_SAGE_ VSTM
_OUT<10 >
CUMULUS_TO_SAGE_ VSTM
_OUT<11>
CUMULUS_T0_SAGE_VSTM
_OUT <12 >
CUMULUS_TO_SAGE_VSTM
_OUT<13>
CUMULUS_TO_SAGE_VSTM
_OUT <14 > 1
CUMULUS_TOi_SAGE_ VSTM
_OUT <15>
CUMULUS_TO_SAGE_ VSTM
_OUT< 16>
CUMULUS_ TO_SAGE_VSTM
__OUT<17 >
CUMULUS_ TO _ SAGE_VSTM
__OUT<18>
CUMULUS_T0_SAGE_ VSTM
_OUT <19>
E7 5_TO_PMU_ACC_DETEC
T
E75_TO_PMU_ACC_DETEC
T_CONN
E7 5_T0_PMU_ACC_DETEC
T_R
EXTMIC_TO_CODEC_L67_
N
EXTMIC_TO_CODEC_L67_
P
EXTMIC_TO_ CODEC _ N
EX TMIC_TO_CODEC_P
FORCE_DFU
FOREHEAD_NTC_N
FOREHEAD_NTC_P
FOREHEAD_TO_PMU_NTC_
P
GYRO_PUMP
GYRO_ TO _OSCAR_ INT1
GYRO_TO_OSCAR_INT2
H6P_NTC_N
H6P_NTC_P
H6P_TO_PMU_NTC_P
HAC_TO_CODEC_TEST
HAC_TO_CODEC_TEST_L6
7
HPHONE_TO_CODEC_DET
HPHONE_TO_CODEC_DET_
CONN
HPHONE_TO_ CODEC _HPHO
NE_ TEST
HPHONE_ TO _ CODEC _ HPHO
NE_ TEST_L67
IMU_TO_OSCAR_SPI_MIS
O
IMU_TO_OSCAR_SPI_MIS
0_FL
LCM_DESENSE
LCM_DESENSE_CONN
LCM_TO_AP_HIFA_BSYNC
LCM_TO_AP_HIFA_BSYNC
_BUFF
LCM_TO_AP_HIFA_BSYNC
_CONN
LCM_TO_AP_PANIC_L
CODEC_T0_RCVR_CONN_P -
0single_brd_lib.SINGLE_BRD
CODEC_TO_RCVR_N -
0single_brd_lib.SINGLE_BRD
CODEC_TO_RCVR_P -
0single_brd_lib.SINGLE_BRD
COMPASS_TO_OSCAR_INT -
0single_brd_lib.SINGLE_BRD
COMPASS_ TO _ OSCAR _INT_FL -
0single_brd_lib.SINGLE_BRD
CUMULUS_ T0_PROX_RX_EN_1V8 -
0single_brd_lib.SINGLE_BRD
CUMULUS_ T0_PROX_RX_EN_lV8 _ CONN
0single_brd_lib. SINGLE_BRD
CUMULUS_T0_PROX_TX_EN_1V8_L -
0single_brd_lib.SINGLE_BRD
CUMULUS_T0_PROX_TX_EN_BUFF -
0single_brd_lib.SINGLE_BRD
CUMULUS_TO_SAGE_BOOST_EN -
0single_brd_lib.SINGLE_BRD
CUMULUS_TO_SAGE_GCM_SEL -
0single_brd_lib.SINGLE_BRD
CUMULUS_TO_SAGE_VSTM_ OUT<0> -
0single_brd_lib.SINGLE_BRD
CUMULUS_TO_SAGE_VSTM_OUT<1> -
0single_brd_lib.SINGLE_BRD
CUMULUS_ TO_SAGE_VSTM_OUT<2 > -
0single_brd_lib.SINGLE_BRD
CUMULUS_ TO_SAGE_VSTM_OUT <3> -
0single_brd_lib.SINGLE_BRD
CUMULUS_TO_SAGE_VSTM_OUT<4> -
0single_brd_lib.SINGLE_BRD
CUMULUS_TO_SAGE_VSTM_OUT<5> -
0 single_.brd_lib.SINGLE_BRD
CUMULUS_TO_SAGE_VSTM_OUT<6> -
0single_brd_lib.SINGLE_BRD
CUMULUS_TO_SAGE_VSTM_OUT<7> -
0single_brd_lib.SINGLE_BRD
CUMULUS_TO_SAGE_VSTM_ OUT<8> -
0single_brd_lib.SINGLE_BRD
CUMULUS_TO_SAGE_VSTM_ OUT<9> -
0single_brd_lib.SINGLE_BRD
CUMULUS_ TO_SAGE_VSTM_OUT <10> -
0single_brd_lib.SINGLE_BRD
CUMULUS_ TO_SAGE_VSTM _ OUT<11> -
0single_brd_lib.SINGLE_BRD
CUMULUS_TO_SAGE_VSTM_OUT<12> -
0single_brd_lib.SINGLE_BRD
CUMULUS_TO_SAGE_VSTM_OUT<13> -
0single_brd_lib.SINGLE_BRD
CUMULUS_TO_SAGE_VSTM_OUT<14 >
0single_brd_lib,SINGLE_BRD
CUMULUS_TO_SAGE_VSTM_OUT<15> -
CUMULUS_ TO _ SAGE_VSTM _ OUT<16> -
0single_brd_lib.SINGLE_BRD
CUMULUS_ TO _ SAGE_VSTM_OUT <17 >
0single_brd_lib. SINGLE_BRD
CUMULT7S_TO_SAGE_VSTM_OUT<18> -
0single_brd_lib.SINGLE_BRD
CUMULUS_ TO_SAGE_VSTM_OUT<l 9> -
0single_brd_lib.SINGLE_BRD
E75_TO_PMU_ACC_DETECT -
0single_brd_lib.SINGLE_BRD
E75_TO_PMU_ACC_DETECT_CONN -
0single_brd_lib. SINGLE_BRD
E75_TO_PMU_ACC_DETECT_R -
0single_brd_lib. SINGLE_BRD
EXTMIC_TO_CODEC_L67_N
-
0single_brd_lib.SINGLE_BRD
EXTMIC_TO_CODEC_L67_P —
0single_brd_lib.SINGLE_BRD
EXTMIC_TO_ CODEC _ N -
0single_brd_lib.SINGLE_ BRD
EXTMIC_TO_CODEC_P -
0single_ brd_lib.SINGLE_BRD
FORCE_DFU -
0single_brd_lib.SINGLE_BRD
FOREHEAD_NTC_N -
0single_brd_lib.SINGLE_BRD
FOREHEAD_NTC_P -
0single_.brd_lib.SINGLE_BRD
FOREHEAD_TO_PMU_NTC_P -
0single_brd_lib. SINGLE_BRD
GYRO_PUMP -
0single_brd_lib.SINGLE_BRD
GY RO_TO_OSCAR_INT1 -
0single_brd_lib.SINGLE_BRD
GYRO_TO_OSCAR_ INT2 -
0single_brd_lib.SINGLE_BRD
H6P_NTC_N -
0single_brd_lib. SINGLE_BRD
H6P_NTC_P -
0single_brd_lib.SINGLE_BRD
H6P_TO_PMU_NTC_P -
0single_brd_lib.SINGLE_BRD
HAC_TO_CODEC_TEST -
0single_brd_lib. SINGLE_BRD
HAC_T0_CODEC_TEST_L 67 -
0single_brd_lib.SINGLE_BRD
HPHONE_TO_CODEC_DET -
0single_brd_lib.SINGLE_BRD
HPHONE_TO_ CODEC _DET_ CONN -
0single_brd_lib.SINGLE_BRD
HPHONE_TO_CODEC_HPHONE_TEST -
0single_brd_lib.SINGLE_BRD
HPHONE_TO_CODEC_HPHONE_TEST_L67
0single_brd_lib. SINGLE_BRD
IMU_TO_OSCAR_SPI_MISO -
0single_brd_lib.SINGLE_BRD
IMU_TO_OSCAR_SPI_MISO_FL -
0single_brd_lib.SINGLE_BRD
LCM_DESENSE -
0single_brd_lib. SINGLE_BRD
LCM_DESENSE_CONN -
0single_brd_lib.SINGLE_BRD
LCM_TO_AP_HIFA_BSYNC -
0single_brd_lib.SINGLE_BRD
LCM_TO_AP_HIFA_BSYNC_BUFF -
0single_brd_lib.SINGLE_BRD
LCM_TO_AP_HIFA_ BSYNC _ CONN -
0single_brd_lib.SINGLE_BRD
LCM_ TO _ AP _ PANIC _ L -
0single_brd_lib.SINGLE_BRD
a
11A6 23D7
9C3
9C3
20C7
11A8 23D7
11A8 23D7
20A5 20D8
11C8 18B5
11C5
18A3 18B7
11B2 18A4
18B1 18B5
18B1 18B5
18B3 18B5 23D8
18C3 18C5 23D8
18B3 18C5 23D8
18B3 18C5 23D8
18C3 18C5 23D8
18C3 18C5 23D8
18B5 18C3 23D8
18C3 18C5 23D8
18C3 18C5 23D8
18C6 23D8
18C6 23D8
18B3 18C5 23D8
18B5 18C3 23D8
18C3 18C5 23D8
18B5 18C3 23D8
18B5 18C3 23D8
18B3 18C5 23C8
18B3 18C5 23C8
18C3 18C5 23C8
18B5 18C3 23C8
13C2 16C2 17A1 23C2
17B4 22B3 22C3
13C4 23C2
9C5
9C5
9C8
9C8
17C8
17C8
3B8 3C8 22B4
13C7
13C7
13B6 23C2
20C2 23C5
20C3 20C7
20C3 20D7
13A7
13A7
13B6 23C2
9A7
9B6 23B7
9B3
11A7 23B7
17D7 23C7
17C5 23C7
9A7
9B6 23B7
20D5
17C2 23B7
20A5 2 OBI 20C1 20D4
14B5
19B4
3C8
18A3 18B1 19C2
14C6 18A4
19C5
19C5
LCM_TO_AP_PIFA_CONN
LCM_TO_CHESTNUT_PWR_
EN
LCM_TO_CHESTNUT_PWR_
EN_CONN
MESA_TO_BOOST_EN
MESA_ TO _ BOOST _EN_ DOC
K_ CONN
MICl_TO_ CODEC_L67_N
MICl_TO_ CODEC_L67_P
MICl_TO_CODEC_N
MICl_TO_CODEC_P
MIC2_TO_CODEC_L67_N
MIC2 TO CODEC
MIC2_TO_CODEC_N
MIC2_TO_CODEC_P
L67 P
MIC3_TO_ CODEC_L67_N
MIC3_TO_ CODEC_L67_P
MIC3_TO_CODEC_N
MIC3_TO_CODEC_P
MOJAVE_SW
NAND_RDYBS YO
NAND_RDYBS Y1
NAND_ TO _PP_ TCKC
NAND_ TO _ PP _ TMSC
0single_brd_lib.SINGLE_BRD
NAVAJO_TO_AP_SPI2_MI NAVAJO_ TO_AP _ SPI2_MISO -
SO
NAVAJO_TO_AP_SP I2_MI
SO_CONN
NAVAJO_TO_PMU_INT_CO
NN_H
NAVAJO_TO_PMU_INT_H
OSCAR_BI_AP_TIME_SYN
C_HOST_INT
OSCAR_TO_ ACCEL _SP I_C
S_ L
OSCAR_TO_AP_ UART2_RX
D
OSCAR_TO_ COMPASS_SPI
_CS _ FL _ L
0single_brd_lib.S INGLE_BRD
OSCAR_TO_ COMPASS_SPI OSCAR_ TO_COMPASS_SP I_CS _ L -
_CS_L
OSCAR_TO_GYRO_SPI_CS
_L
OSCAR_TO_IMU_SPI_MOS
I
OSCAR_TO_IMU_SPI_MOS
I_FL
OSCAR_TO_IMU_SP I_SCL
K
OSCAR_TO_IMU_SPI_SCL
K_FL
OSCAR_TO_PMU_HOST_WA
KE
OSCAR_TO_RADIO_CONTE
XT_ A
OSCAR_TO_RADIO_CONTE
XT_B
P17V 0_MOJAVE_LDOIN
PA_ NTC _N
PA_NTC_P
PA_ TO _ PMU _ NTC _ P
PGND_CODEC_GNDCP
PGND_IRLED_DRAIN
PGND_IRLED_K
PGND_MICl_TO_CODEC_R
ET
PGND_MICl_TO_CODEC_R
ET_FILT
PGND_MIC2_ 3_TO_ CODEC
_RET
PGND_MIC2_ 3_TO_ CODEC
_RET_FILT
PGND_OPEL
PGND_RCAM_AF_RET
PGND_SCREW_HOLE1
PGND_STANDOFF1
PGND_STANDOFF2
PMU_ACT_DIO
PMU_TO_AP_IRQ_L
PMU TO BB RST L
LCM_TO_AP_PIFA_CONN -
0single_brd_lib. SINGLE_BRD
LCM_TO_CHESTNUT_PWR_EN -
0single_brd_lib. SINGLE_BRD
LCM_TO_CHESTNUT_PWR_EN_CONN -
0single_brd_lib.SINGLE_BRD
MESA_TO_BOOST_EN -
0single_brd_lib.SINGLE_BRD
MESA_TO_ BOOST _EN_ DOCK _CONN -
0single_brd_lib.SINGLE_BRD
MICl_TO_CODEC_L67_N -
0single_brd_lib.S INGLE_BRD
MICl_TO_CODEC_ L67 _ P -
0single_brd_lib. SINGLE_BRD
MICl_TO_CODEC_N -
0single_brd_lib.SINGLE_BRD
MICl_TO_CODEC_P -
0single_brd_lib.SINGLE_BRD
MIC2_TO_CODEC_L67_N -
0single_brd_lib.SINGLE_BRD
MIC2_TO_CODEC_L67_P -
0single_brd_lib.SINGLE_BRD
MIC2_ TO _CODEC_N -
0single_brd_lib.SINGLE_BRD
MIC2_TO_ CODEC _P -
0single_brd_lib.SINGLE_BRD
MIC3_TO_CODEC_L67_N -
0single_brd_lib.SINGLE_BRD
MIC3_TO_CODEC_ L67 _ P -
0single_brd_lib.SINGLE_BRD
MIC3_TO_CODEC_N -
0single_brd_lib.S INGLE_BRD
MIC3_TO_CODEC_P -
0single_brd_lib.SINGLE_BRD
MOJAVE_SW -
0single_brd_lib.SINGLE_BRD
NAND_RDYBS YO -
0single_brd_lib.SINGLE_BRD
NAND_RDYBSY1 -
0single_brd_lib.SINGLE_BRD
NAND_ TO _PP_ TCKC -
0single_brd_lib.SINGLE_BRD
NAND_ TO _ PP _ TMSC -
0single_brd_lib.SINGLE_BRD
NAVAJO_TO_AP_SPI2_MISO_CONN -
0single_brd_lib.SINGLE_BRD
NAVAJO_TO_PMU_INT_CONN_H -
0single_brd_lib.SINGLE_BRD
NAVAJO_TO_PMU_INT_H -
0single_brd_lib.SINGLE_BRD
OSCAR_BI_AP_TIME_SYNC_HOST_INT -
0single_brd_lib.SINGLE_BRD
OSCAR_TO_ACCEL_SPI_CS_L -
0single_brd_lib.SINGLE_BRD
OSCAR_TO_AP_UART2_RXD -
0single_brd_lib.SINGLE_BRD
OSCAR_ TO_COMPASS_SP I_CS_FL_L -
0single_brd_lib.S INGLE_BRD
OSCAR_TO_GYRO_SPI_CS_L -
0single_brd_lib. SINGLE_BRD
OSCAR_TO_IMU_SPI_MOSI -
0single_brd_lib.SINGLE_BRD
OSCAR_TO_IMU_SPI_MOSI_FL -
0single_brd_lib.SINGLE_BRD
OSCAR_TO_IMU_SP I_SCLK -
0single_brd_lib.SINGLE_BRD
OSCAR_ TO _ IMU_SPI_ SCLK _FL -
0single_brd_lib.SINGLE_BRD
OSCAR_TO_PMU_ HOST _ WAKE -
0single_brd_lib.SINGLE_BRD
OSCAR_ TO_RAD IO_CONTEXT_A -
0single_brd_lib.SINGLE_BRD
OSCAR_CONTEXT_A -
0single_brd_lib.RADIO_MLB ( i616_page
24)
OSCAR_TO_RADIO_CONTEXT_B -
0single_brd_lib. SINGLE_BRD
OSCAR_CONTEXT_B -
0single_brd_lib.RADIO_MLB (i616_page
24)
P17VO_MOJAVE_LDOIN -
0single_brd_lib.SINGLE_BRD
PA_ NTC _N -
0single_brd_lib.SINGLE_BRD
PA_NTC_P -
0single_brd_lib.SINGLE_BRD
PA_ TO _ PMU_NTC _ P -
0single_brd_lib.SINGLE_BRD
PGND_CODEC_GNDCP -
0single_brd_lib. SINGLE_BRD
PGND_IRLED_DRAIN -
0single_brd_lib. SINGLE_BRD
PGND_IRLED_K -
0single_brd_lib.SINGLE_BRD
PGND_MICl_TO_CODEC_RET -
0single_brd_lib.SINGLE_BRD
PGND_MICl_TO_CODEC_RET_FILT -
0single_brd_lib.SINGLE_BRD
PGND_MIC2_3_TO_CODEC_RET -
0single_brd_lib.SINGLE_BRD
PGND_MIC2_3_TO_CODEC_RET_FILT -
0single_brd_lib.SINGLE_BRD
PGND_OPEL -
0single_brd_lib.SINGLE_BRD
PGND_RCAM_AF_RET -
0single_brd_lib.SINGLE_BRD
PGND_SCREW_HOLEl -
0single_brd_lib. SINGLE_BRD
PGND_STANDOFF1 -
0single_brd_lib.SINGLE_BRD
PGND_STANDOFF2 -
0single_brd_lib.SINGLE_BRD
PMU_ACT_DIO -
0single_brd_lib. SINGLE_BRD
PMU_TO_AP_ IRQ _L -
0single_brd_lib.SINGLE_BRD
PMU_TO_BB_RST_L -
0single_brd_lib.S INGLE_BRD
RESET_PMU_L -
0single_brd_lib.RADIO_MLB (i616_page
19C5
13C6 14C6 19D2
19C5
14B3 17D7
17C5
9C5
9C5
9C7
9C7
9C5
9C5
23C7
23C7
17B8 23C7
17B8 22B3 23C7
23B7
23B7
8C2 9B7 23B7
8C2 9B7 22B3 23B7
9B5
9C5
9B7
9B7
14B3
6C3
6B3
6B4
6B4
3B4
17D3
23B7
23B7
11C2 23B7
11C2 22B3 23B7
17D1
17C5 17D3
3B4
3D5
20B3
3C5
20A5
20C6
13B4 17D1
20C7
20D7
20C5
20D8
20D3 20D7
20D5
20A5 2 OBI 20C1 20D4
20D5
2 OAS 2 OBI 2 OD1 20D4
3C5
20C5
35A8
13B4 20C7
24A6
20C5 24A6
35A8
14B2
13B7
13B7
13B6 23C2
10B5
11B4
11C4
10B8 17B8
10B7
8C2
10B7
39B4 56B3
39B2 56B3
10A8 11C4
15A4 15A4
12B1 21C4
22A7
22A6
22A6
12C6 23B7
3C8
13B6
13B3 24D6
35D3 35D8 37C8
D
C
B
8 7 6 5 4 3
8 7 6 5 4 3 2 1
D
C
B
A
PMU TO BB RST R L
PMU TO BB VBUS
PMU TO BT REG ON
DET
PMU_TO_BT_REG_ON_R
PMU_T0_TP_ AMUX_AY
PMU TO TP AMUX
PMU TO WLAN
BY
REG ON
PMU TO WLAN REG ON R
PN5V7_LCM_AVDDN
PN5V7_SAGE_AVDDN
PN5V7_SAGE_AVDDN_INT
PP1V0
PP1VO_SOC
PP1V0_SRAM
PP1V1_CPU
PP1VI_ GPU
PP1V2
PP 1V2_ NAND _ VDDI
PP1V2_ OSCAR
PP1V2_OSCAR_VDDC
PP 1V2_RCAM_CONN
PP 1V2_RCAM_SWITCHOUT
PP1V2_SDRAM
PP1V8
PP1V8_ ALWAYS
PPlV8_COMP
PP 1V8_CUMULUS_VDDLDO
PP1V8_FCAM_CONN
PP1V8_GRAPE
PP1V8_LCM_CONN
PP1V8_MESA_LOAD_SW_O
UT
PP1V8_OSCAR
PP 1V8_ OSCAR _ VDDIO
PP 1V8_PLL
PP 1V8_RCAM_CONN
PP1V8 SDRAM
PP1V8_ SDRAM _ DOCK _ CON
N
PP1V8_VA_L 19_L67
PP1V8_XTAL
PP2V5_RCAM_AF
PP2V5_RCAM_AF_COMP
PP2V5_RCAM_AF_CONN
PP2V80_THROTTLER
PP2V80_THROTTLER_FB
PP2V8 5_ CAM_LDO_OUT
PP 2V8 5_FCAM_CONN
PP 2V8 5_RCAM_CONN
PP3V0_ACC
PP3V0_ALS
PP 3VO_COMP
PP3V0_IMU
PP 3V0_NAND
PP3V0_ NAVAJO
PP3V0_ NAVAJO _CONN
PP3VO_PROX
24)
PMU_T0_BB_RST_R_L -
0single_brd_lib .SINGLE_BRD
PMU_TO_BB_VBUS_DET -
0single_brd_lib .SINGLE_BRD
BB_USB_VBUS -
0single_brd_lib.RAD10_MLB (i616_page
24)
PMU_TO_BT_ REG _ON -
@ single_brd_lib.SINGLE_BRD
BT_REG_ON -
@single_brd_lib .RADIO_ MLB (i616_page
24)
PMU_TO_BT_REG_ON_R -
0single_brd_lib.SINGLE_BRD
PMU_TO_TP_AMUX_AY -
0single_brd_lib.SINGLE_BRD
PMU_TO_TP_AMUX_BY -
0single_brd_lib .SINGLE_BRD
PMU_T0_WLAN_REG_ON -
0single_brd_lib .SINGLE_BRD
WLAN_REG_ON -
@ single_brd_lib . RADIO_MLB (i616_page
24)
PMU_TO_WLAN_ REG _ON_R -
0single_brd_lib.SINGLE_BRD
PN5V7_LCM_ AVDDN -
0single_brd_lib .SINGLE_BRD
PN5V7_SAGE_AVDDN -
0single_brd_lib.SINGLE_BRD
PN5V7_SAGE_AVDDN_INT -
0single_brd_lib .SINGLE_BRD
PP1V0 - 0single_brd_lib.SINGLE_BRD
PP1VO_SOC -
0single_brd_lib .SINGLE_BRD
PP1VO_SRAM -
0 single_brd_lib.SINGLE_BRD
PP1V1_CPU -
0single_brd_lib.SINGLE_BRD
PP1V1_GPU -
0 single_brd_lib.SINGLE_BRD
PP1V2 - 0single_brd_lib.SINGLE_BRD
PP1V2_ NAND _ VDDI -
0single_brd_lib.SINGLE_BRD
PP1V2_0SCAR -
0single_brd_lib.SINGLE_BRD
PP1V2_OSCAR_VDDC -
0single_brd_lib .SINGLE_BRD
PP1V2_RCAM_C0NN -
0single_brd_lib.SINGLE_BRD
PP1V2_RCAM_SWITCHOUT -
0 single_brd_lib.SINGLE_BRD
PP1V2_SDRAM -
0single_brd_lib .SINGLE_BRD
PP1V8 - 0single_brd_lib.SINGLE_BRD
PP1V8_ALWAYS -
0single_brd_lib.SINGLE_BRD
PP1V8_C0MP -
0single_brd_lib.SINGLE_BRD
PP1V8_CUMULUS_VDDLD0 -
0single_brd_lib.SINGLE_BRD
PP1V8_FCAM_C0NN -
0single_brd_lib.SINGLE_BRD
PP1V8_GRAPE -
0single_brd_lib .SINGLE_BRD
PP1V8_LCM_CONN -
0 single_brd_lib.SINGLE_BRD
PP1V8_MESA_LOAD_ SW _ OUT -
0 single_brd_lib.SINGLE_BRD
PP1V8_OSCAR -
0single_brd_lib.SINGLE_BRD
PP1V8_OSCAR_VDD IO -
0single_brd_lib .SINGLE_BRD
PP1V8_PLL -
0single_brd_lib.SINGLE_BRD
PP1V8_RCAM_CONN -
0single_brd_lib.SINGLE_BRD
PP1V8_SDRAM -
0single_brd_lib.SINGLE_BRD
PP_WL_BT_VDDIO_AP -
0single_brd_lib .RADIO_MLB (i616_page
24)
PP1V8_ SDRAM_ DOCK _CONN -
0single_brd_lib.SINGLE_BRD
PP1V 8_VA_L19_L 67 -
0single_brd_lib.SINGLE_BRD
PP1V8_XTAL -
0 single_.brd_lib.SINGLE_BRD
PP2V5_RCAM_AF -
0single_brd_lib.SINGLE_BRD
PP2V 5_RCAM_AF_COMP -
0single_brd_lib.SINGLE_BRD
PP2V 5_RCAM_AF_CONN -
0single_brd_lib .SINGLE_BRD
PP2V80_THROTTLER -
0 single_brd_lib.SINGLE_BRD
PP2V80_THROTTLER_FB -
0single_brd_lib.SINGLE_BRD
PP2V85_CAM_LDO_ OUT -
0single_brd_lib.SINGLE_BRD
PP2V8 5_FCAM_CONN -
0single_brd_lib.SINGLE_BRD
PP2V85_RCAM_CONN -
0single_.brd_lib.SINGLE_BRD
PP3V0_ACC -
0single_brd_lib.SINGLE_BRD
PP3V0_ALS -
0single_brd_lib .SINGLE_BRD
PP3VO_COMP -
0single_brd_lib .SINGLE_BRD
PP3V0_IMU -
0 single_brd_lib.SINGLE_BRD
PP3V0_NAND -
0 sing1e_brd_lib .SINGLE_BRD
PP3VO_NAVAJO -
0 single_brd_lib.SINGLE_BRD
PP 3V 0_NAVAJ0_C0NN -
0single_brd_lib .SINGLE_BRD
PP3VO_PROX -
0single_brd_lib.SINGLE_BRD
13B4
13B4 24C6
35C3 35C8
13B3 24B6
38A5
35B8 35C1 56C6
13B4
13C6 22C4
13B6 22C4
13B3 24C6
35C1 35C8
13B4
19C5 23D5
23C2
23C2
56C6
14C3 18D5 19D2 23D5
18D4 23D5
2C3 7C3 7D8 12A2 23B5
4D6
5C3
4D3
4D3
12C3 23B5
12C1 23B5
12D3 23B5
12C3 23B5
2C6 4A6 4B8 5D5 12B5 23B5
6D4
23B5
12B5 20D7
20D6 23B5
21B4 23B5
21C6 23B5
23B5
4A8 4C8 4D8 12B7 12D1
21C7
23B5
2B7 2C6 3A6 3D1 5A3 5B5
6C8 6D1 7C2 7C4 7D5 10C7
11C2 12B5 14B7 16B3 16B6
18D1 19C2
3B4
20A7
12A2 23D3
20B6 23D3
18B7 18D6 23D3
11C4 23D3
19D2 21C7 23D3
12B5 18A3 18B5 18D5 23D3
19C5 23D3
17D7 23A5
12B5 20B5 20C1 20C8 20D1
20D5 23D3
20D6 23D3
2C5 23D3
21B4 23D3
3A4 3C8 4B8 10C3 10C7
12D1 14B7 16D4 17D8 23D3
24D6
35C8
56C3
17C5 23D3
10C7 12A2 15D4 23D3
5A5 23D3
12A2 12B2 21D7 23D3
12B1 21D7
21C4
23C3
23C3
12A3 16B3 23B5
12A3 16B3 23B5
11D2 21B6 23B5
11C4 23C3
21B4 23C3
12A2 16D3 23C3
11C5 23C3
20B7 23C3
12A2 20B7
6D1 12A2 23C3
20C3 20D3 23C3
12A2 17D1 17D8 23C3
17C4 23C3
11C6 23C3
PP3V0_PROX_ALS PP3VO_PROX_ALS - 11B8 11C8 12A2 23C3
0single_brd_lib.SINGLE_BRD
PP3V0_PROX_IRLED PP3VO_PROX_IRLED - 11A2 12A2 23C3
0single_brd_lib.S INGLE_BRD
PP3V0_SDRAM PP3V0_SDRAM - 12A2 14B3 16D6 23C3
0single_brd_lib.SINGLE_BRD
PP3V3_USB PP3V3_USB - 2C3 12B2 23B3
0single_brd_lib.S INGLE_BRD
PP5V0_ USB _ CONN PP5V0_USB_CONN - 17A6 22D5 23B3
0single_brd_lib.SINGLE_BRD
PP5VO_USB_PROT PP5VO_USB_PROT - 12D8 16D1 17A8 23B3
0single_brd_lib.S INGLE_BRD
PP5V1_GRAPE_VDDH PP5Vl_GRAPE_VDDH - 14C3 18D7 23B3
0single_brd_lib.SINGLE_BRD
PP5V7_LCM_AVDDH PP5V7_LCM_AVDDH - 14C3 19D2 23B3
0single_brd_lib.SINGLE_BRD
PP5V7_LCM_AVDDH_CONN PP5V7_LCM_AVDDH_CONN -
0single_brd_lib.SINGLE_BRD
19C5 23B3
PP5V7_SAGE_AVDDH PP5V7_SAGE_AVDDH - 14C3 18B4 18D3 23B4
0single_brd_lib.SINGLE_BRD
PP 6VO_LCM_BOOST PP 6VO_LCM_BOOST - 14C4 23B4
0single_brd_lib.S INGLE_BRD
PP16V5_MESA PP16V5_MESA - 14B1 17D7 23C5
0single_brd_lib.S INGLE_BRD
PP16V 5_MESA_ DOCK _ CON PP16V5 _MESA_DOCK_ CONN -
N
0single_brd_lib.SINGLE_BRD
17C5 23C5
PP_ BATT _ VCC PP _ BATT _ VCC - 12C8 15B7 15D7 22C4 22D4
0single_brd_lib.SINGLE_BRD 22D4 22D5 22D5 22D8 23B4
24D6
PP_BATT_VCC_CONN - 35D1 35D8 36C8 44C6 45C6
0single_brd_lib.RADIO_MLB (i616_page
O/n
46C6
PP_BATT_VCC_L19_VP PP_BATT_VCC_L19_VP - 15D6 23B4
0single_brd_lib.S INGLE_BRD
PP_BUCK0_LX0 PP_BUCK0_LX0 - 12D5 23B4
0single_brd_lib.S INGLE_BRD
PP_BUCK0_LX1 PP_BUCK0_LX1 - 12D5 23B4
0single_brd_lib.S INGLE_BRD
PP_BUCK0_LX2 PP_BUCKO_LX2 - 12C5 23B4
0single_brd_lib.SINGLE_BRD
PP_BUCKO_LX3 PP_BUCKO_LX3 - 12C5 23B4
0single_brd_lib.S INGLE_BRD
PP_BUCK1_LX0 PP_BUCKl_ LXO - 12C5 23B4
0single_brd_lib.SINGLE_BRD
PP_ BUCK 1 _ LX1 PP _ BUCKl _ LXl - 12C5 23B4
0single_brd_lib.SINGLE_BRD
PP_BUCK2_LX PP_BUCK2_LX - 12C5 23B4
0single_brd_lib.S INGLE_BRD
PP_BUCK3_LX PP_BUCK3_LX - 12C5 23B4
0single_brd_lib.SINGLE_BRD
PP_BUCK4_LX PP_BUCK4__LX - 12B5 2 3A4
0single_brd_lib.SINGLE_BRD
PP_BUCK5_LX PP_BUCK5_LX - 12B5 23A4
0single_brd_lib.S INGLE_BRD
PP_ CHESTNUT _CN PP_ CHESTNUT _ CN - 14D4 2 3A4
0single_brd_lib.SINGLE_BRD
PP_CHESTNUT_ CP PP_ CHESTNUT _ CP - 14D4 2 3A4
0single_brd_lib.S INGLE_BRD
PP_ CHESTNUT _ LXP PP _ CHESTNUT _ LXP - 14D6 23A4
0single_brd_lib.SINGLE_BRD
PP_ CODEC _ FILT+ PP _ CODEC _ FILT+ - 10B5 23A4
0single_brd_lib.SINGLE_BRD
PP_CODEC_SPKR_VQ PP_CODEC_SPKR_VQ - 10B5 23A4
0single_brd_lib.SINGLE_BRD
PP_CODEC_TO_MICl_BIA PP_CODEC_TO_MICl_BIAS -
S
0single_brd_lib.S INGLE_BRD
PP_CODEC_TO_MICl_BIA PP_CODEC_TO_MICl_BIAS_CONN -
S_CONN
0single_brd_lib.SINGLE_BRD
47C6 48C6 49C6 50C8
10B7 17B8 23A4
17B6 23A4
PP CODEC TO MIC2 3 B PP CODEC TO MIC2 3 BIAS - 8C2 10B7 11B2 23A4
IAS
0single_brd_lib.SINGLE__BRD
PP_CODEC_TO_MIC3_BIA PP_ CODEC _TO_MIC 3_ BIAS _CONN -
S_CONN
0single_brd_lib.SINGLE_BRD
11C4 2 3A4
PP_CODEC_VCPFILT+ PP_CODEC_VCPFILT4- - 10C5 23A4
0single_brd_lib.SINGLE_BRD
PP_ CODEC_VCPFILT— PP_ CODEC _ VCPFILT- - 10B5 23A4
0single_brd_lib.S INGLE_BRD
PP_CODEC_VHP_FLYC PP_CODEC_VHP_FLYC - 10C5 23D2
0single_brd_lib.SINGLE_BRD
PP_CODEC_VHP_FLYN PP_CODEC_VHP_FLYN - 10C5 23D2
0single_brd_lib.SINGLE_BRD
PP_CODEC_VHP_FLYP PP_CODEC_VHP_FLYP - 10C5 23D2
0single_brd_lib.SINGLE_BRD
PP_CUMULUS_VDDANA PP_CUMULUS_ VDDANA - 18C7 23D2
0single_brd_lib.S INGLE_BRD
PP_CUMULUS_VDDCORE PP_CUMULUS_VDDCORE - 18C7 23D2
0single_brd_lib.SINGLE_BRD
PP_E7 5_TO_TRISTAR_AC PP_E75_ TO _TRISTAR_ACC1 - 16D2 17A1 23D2
CI
0single_brd_lib.SINGLE_BRD
PP_E7 5_TO_TRISTAR_AC PP_E75_ TO _TRISTAR_ACC1_ CONN -
Cl_ CONN
0single_brd_lib.S INGLE_BRD
PP_E75_TO_TRISTAR_AC PP_E75_ TO_TRISTAR_ACC2 -
C2
0single_brd_lib.SINGLE_BRD
PP_E75_TO_TRISTAR_AC PP_E75_TO_TRISTAR_ACC2_CONN -
C2_CONN
0single_brd_lib.SINGLE_BRD
17B4 22C3 22C3 23D2
16D2 17A1 23D2
17B4 22C3 23D2
PP_EXTMIC_BIAS PP_EXTMIC_BIAS - 10B7 23D2
0single_brd_lib.SINGLE_BRD
PP_EXTMIC_BIAS_FILT PP_EXTMIC_BIAS_FILT - 10B7 23D2
0single_brd_lib.S INGLE_BRD
PP_EXTMIC_BIAS_FILT_ PP_EXTMIC__BIAS_FILT_IN -
IN
0single_brd_lib.S INGLE_BRD
10B7 23D2
PP_EXTMIC_BIAS_IN PP_EXTMIC_BIAS_IN - 10B7 23D2
0single_brd_lib.S INGLE_BRD
PP_LI9_VBOOST PP_Ll9_ VBOOST - 15D6 23D2
0single_brd_lib.SINGLE_BRD
PP_LCM_BL_ ANODE PP_LCM_BL_ANODE - 14B5 19B2 23D2
0single_brd_lib.SINGLE_BRD
PP_ LCM _ BL _ ANODE _ CONN PP _ LCM _ BL _ AN0DE _ CONN -
0single_brd_lib.SINGLE_BRD
19C5 22A5 23D2
PP_LCM_BL_CAT1 PP_LCM_BL_CAT1 - 14B6 19A2 23C2
0single_brd_lib.SINGLE_BRD
PP_LCM_BL_CATl_CONN PP_LCM_BL_CATl_CONN - 19C5 22A5 23C2
0single_brd_lib.SINGLE_BRD
PP_LCM_BL_CAT2 PP_LCM_BL_CAT 2 - 14B6 19A2 23C2
0single_brd_lib.S INGLE_BRD
PP_LCM_BL_CAT2_CONN PP_LCM_BL_CAT2_CONN - 19C5 22A5 23C2
0single_brd_lib.SINGLE_BRD
PP_LD014_2P 6 5 PP_LD014_2P65 - 17A7 23C2 24D6
PP_LED_BOOST_OUT
0single_brd_lib.S INGLE_BRD
PP_LDOl4_2V65 - 35B8 36B1 43C8 50C8 51C6
0single_brd_lib.RADIO_MLB (i616_page
Z9 A 4 \)
PP_ LED_BOOST_OUT -
53D3
15B5 23C2
0single_brd_lib.SINGLE_BRD
PP_ LED _ DRV _ LX PP _ LED _ DRV _ LX - 15B5 23C2
0single_brd_lib.SINGLE_BRD
PP_MIP10D_VREG PP_MIPIOD_VREG - 7D6 23C2
0single_brd_lib.SINGLE_BRD
PP_MIPI1D_VREG PP_MIPI1D_VREG - 7D6 23B2
0single_brd_lib.SINGLE_BRD
PP_PMU_T0_VIBE PP_PMU_T0_VIBE - 8C7 12B7 23B2
0single_brd_lib.SINGLE_BRD
PP_PMU_TO_VIBE_ CONN PP_ PMU _TO_VIBE_ CONN - 8C6 23B2
0single_brd_lib.SINGLE_BRD
PP_ PMU _ VC ENTER PP_PMU_ VCENTER - 12D7 23B2
0single_brd_lib.SINGLE_BRD
PP_ PMU _ VDD _ REF PP _ PMU _ VDD _ REF - 13C4 23B2
0single_brd_lib.SINGLE_BRD
PP_PMU_VDD_RTC PP_PMU_VDD_RTC - 13C4 23B2
0 single_brd_lib.SINGLE_BRD
PP_PMU_VREF PP_PMU_VREF - 13C4 23B2
0single_brd_lib.SINGLE_BRD
PP_PMU_VSW_CHG PP_PMU_VSW_CHG - 12C7 23B2
0single_brd_lib.SINGLE_BRD
PP_SAGE_LX PP_SAGE_LX - 18B3 23B2
0single_brd_lib.SINGLE_BRD
PP_SAGE_LY PP_SAGE_LY - 18B3 23B2
0single_brd_lib.SINGLE_BRD
PP_ SAGE _ TO _ TOUCH _ VCP PP_SAGE_TO_T0UCH_VCPH -
H
0single_brd_lib.SINGLE_BRD
PP_SAGE_TO_ TOUCH _ VCP PP_SAGE_TO_TOUCH_VCPL -
L
0single_brd_lib.SINGLE_BRD
18A8 18D3 23B2
PP_ SAGE_VBST_OUTH PP _ SAGE _ VBST_OUTH - 18B3 23B2
0single_ brd _ lib.SINGLE_BRD
PP_SAGE__VBST_OUTL PP_SAGE_VBST_OUTL - 18B3 23B2
0 single_brd_lib.SINGLE_BRD
PP_SAGE_VCPL_F PP_SAGE_VCPL_F - 18D1 23B2
0single_brd_lib.SINGLE_BRD
PP_SPKAMP_FILT PP_SPKAMP_FILT - 15C5 23A2
0single_.brd_lib.SINGLE_BRD
PP_SPKAMP_LDO_FILT PP_SPKAMP_LDO_FILT - 15C5 23A2
0single_brd_lib.SINGLE_BRD
PP_SPKAMP_S W PP_SPKAMP_SW - 15C6 23A2
0single_brd_lib.SINGLE_BRD
18A8 18D5 19C7 23B2
PP_STRB_DRIVER_ TO _LE PP_STRB_DRIVER_ TO _LED_ COOL - 8B2 15A3 23A2
D_ COOL
0single_brd_lib.SINGLE_BRD
PP_ STRB _DRIVER_TO_LE PP_STRB_DRIVER_T0_LED_WARM - 8D7 15A3 23A2
D_WARM
0single_brd_lib.SINGLE_BRD
PP_ VCC _ MAIN PP _ VCC _ MAIN - 10D7 12A8 12B7 12C8 13C2
0single_ brd _ lib.SINGLE_BRD 14B4 14B8 14D6 21B7 2 3A2
24D6
PP_VCC_MAIN_WLAN - 35D8 56D6
0single_brd_lib.RADIO_MLB (i616_page
24)
PP_VCC_MAIN_C0DEC PP_VCC_MAIN_CODEC
—
10D7 23A2
0 single_brd_lib .SINGLE_BRD
PP_VCC_MAIN_UVLO_SEN PP_VCC_MAIN_UVLO_SENSE -
12C7 16B5 23B5
SE
0single_brd_lib.SINGLE_BRD
PP_WLEDj_LX PP_WLED_LX - 14B7 23A2
0single_brd_lib.SINGLE_BRD
RADIO_ T0 _PMU_ADC_LDO RAD10_TO_ PMU _ AD C_LDO6_RUIM_1V8 - 13C6 24C6
6_RUIM_1V8 0single_brd_lib.SINGLE_ BRD
ADC_LD06_RUIM_1V8 - 35A7 35B8
0slngle_brd_lib.RADIO_MLB(i616_page
24)
RADI0_T0_PMU_ADC_LVS RADIO_ TO _ PMU _ ADC _ LVS1 - 13C6 24C6
1 0single_brd_lib.SINGLE_BRD
ADC_LVS 1 -
0single_brd_lib.RADIO_MLB (i616_page
24)
RADI0_TO_PMU_ADC_SMP RADIO_TO_PMU_ADC_SMPS1_MSMC_1VO 5 -
S1_MSMC_1V05
0single_brd_lib.SINGLE_BRD
ADC_SMPS1_MSMC_1VO 5 -
35A7 35A8
13C6 24C6
35A7 35B8
0 single_brd_lib.RADIO_MLB (i616_page
24I
RADI0_TO_PMU_ADC_ SMP RADIO_TC_PMU_ADC_SMPS 3;_ MSME_1V8 - 13C6 240,6
S3_MSME_1V8
0single_brd_lib. SINGLE_BRD
ADC_SMPS3_MSME_1V8 - 35A7 35B8
0 single_ brd_lib.RADlo_MLB(i616_page
24)
RCAM_TO_LEDDRV_STROB RCAM_TO_ LEDDRV_STROBE_EN -
E_EN
0single_brd_lib.SINGLE_BRD
RCAM_TO_LEDDRV_STROB RCAM_TO_LEDDRV_STROBE_EN_CONN -
E_EN_CONN
0single_brd_lib.SINGLE_BRD
15A6 21A7
21B4
RCAM_TO_STROBE_NTC RCAM_TO_STROBE_NTC - 8D2 15A3
0single_brd_lib.SINGLE_BRD
RCAM_TO_STROBE_NTC_C RCAM_TO_STROBE_NTC_CONN -
ONN
0single_brd_lib.SINGLE_BRD
RCVR_T0_CODEC_RCVR_T RCVR_TO_CODEC_RCVR_TEST - 9A7 11A7 23B7
EST
0single_brd_lib.SINGLE_BRD
RCVR TO CODEC RCVR T RCVR TO CODEC RCVR TEST L67 - 9C5 23B7
EST_L67
0single_brd_lib.SINGLE_BRD
RESET_ 1V8_L RESET_1V8_ L - 2B7 4D8 13B6 14C6 16C2
8D3
0single_brd_lib.SINGLE_BRD 19B2 22B4 24D6
RF_RESET_L - 35C3 35D8
0single_ brd_lib.RADIO_MLB (i616_page
24)
REVERSE_GATE REVERSE_GATE - 17A7
0single_brd_lib.SINGLE_BRD
SAGE_TO_CUMULUS_IN<0 SAGE_TO_CUMULUS_IN<0> -
18C1 18C7 23C5
> 0single_brd_lib.SINGLE_BRD
SAGE_TO_CUMULUS_IN<1 SAGE_TO_CUMULUS_IN<l> -
18C1 18C7 23C5
> 0single_brd_lib.SINGLE_BRD
SAGE_T0_CUMULUS_IN<2 SAGE_TO_CUMULUS_IN<2> - 18C1 18C7 23C5
> 0single_brd_lib.SINGLE_BRD
SAGE_TO_CUMULUS_IN<3 SAGE_TO_CUMULUS_IN<3> -
> 0single_brd_lib.SINGLE_BRD
18C7 18D1 23C5
SAGE_TO_ CUMULUS _IN<4 SAGE_TO_CUMULUS_IN<4> - 18C7 18D1 23C5
> 0single_brd_lib.SINGLE_BRD
SAGE_TO_ CUMULUS _IN<5 SAGE_TO_CUMULUS_IN<5> -
> 0single_ brd _ lib.SINGLE_BRD
SAGE_TO_CUMULUS_ IN<6 SAGE_TO_CUMULUS_IN<6> -
> 0single_brd_lib. SINGLE_BRD
18C7 18D1 23C5
18C1 18C7 23C5
SAGE_TO_CUMULUS_IN<7 SAGE_TO_CUMULUS_IN<7> - 18C1 18C7 23C5
> 0single_brd_lib.SINGLE_BRD
SAGE_TO_CUMULUS_IN<8 SAGE_TO_CUMULUS_IN<8> -
> 0single_.brd_lib.SINGLE_BRD
SAGE_TO_CUMULUS_IN<9 SAGE_TO_CUMULUS_IN<9> -
> 0single_brd_lib.SINGLE_BRD
18C1 18C7 23C5
18C1 18C7 23C5
SAGE_TO_CUMULUS_IN<1 SAGE_TO_CUMULUS_IN<10> - 18C1 18C7 23C5
0> 0single_brd_lib.SINGLE_BRD
SAGE_TO_CUMULUS_IN<1 SAGE_TO_CUMULUS_IN<11> -
1> 0single_brd_lib.SINGLE_BRD
SAGE_TO_ CUMULUS _IN<1 SAGE_TO_CUMULUS_IN<12> -
2 > 0single_brd_lib.SINGLE_BRD
18C1 18C7 23C5
18B7 18C1 23C5
SAGE_TO_CUMULUS_IN<1 SAGE_TO_CUMULUS_IN<13> - 18C1 18C7 23C5
3> 0 single_.brd_lib.SINGLE_BRD
SAGE_TO_CUMULUS_ IN<1 SAGE_TO _ CUMULUS_IN<14 > - 18C1 18C7 23C5
4 > 0single_brd_lib.SINGLE_BRD
RICKID
0single_brd_lib. SINGLE_BRD
T RISTAR_ T0_PMU_USB_B TRISTAR_ TO _ PMU _ USB _ BRICKID _ R -
RICKID_ R 0single_brd_lib.S INGLE_BRD
SAGE_TO_TOUCH. _VC PH_R
EF
SAGE_TO_TOUCH_ JVCPL_R
EF
SAGE_TO_TOUCH. _VSTM_0
UT<0>
SAGE_TO_TOUCH_VCPH_REF -
0single_brd_lib.SINGLE_BRD
SAGE_TO_TOUCH_VCPL_REF -
0single_brd_lib.SINGLE_BRD
SAGE_TO_TOUCH_VSTM_OUT<0> -
0single_brd_lib.SINGLE_BRD
SAGE_TO_TOUCH_ _VSTM_0 SAGE_TO_TOUCH_VSTM_OUT<1> -
UT<1>
0single_brd_lib.SINGLE_BRD
SAGE_TO_TOUCH. _VSTM_ O SAGE_TO_ TOUCH _ VSTM _OUT<2 > -
UT<2>
0single_brd_lib.SINGLE_BRD
SAGE_TO_ TOUCH. _VSTM_0 SAGE_TO_TOUCH_VSTM_ OUT<3> -
UT<3>
0single_brd_lib. SINGLE_BRD
SAGE_TO_ TOUCH. _VSTM_0 SAGE_TO_TOUCH_VSTM_ OUT<4 > -
UT<4>
0single_brd_lib.SINGLE_BRD
SAGE_TO_TOUCH. _VSTM_0 SAGE_TO_TOUCH_VSTM_OUT<5> -
UT<5>
0single_brd_lib.SINGLE_BRD
SAGE_TO_TOUCH. _VSTM_0 SAGE_TO_TOUCH_VSTM_OUT<6> -
UT< 6>
0single_brd_lib.SINGLE_BRD
SAGE_TO_TOUCH_ _VSTM_0 SAGE_TO_TOUCH_VSTM_OUT<7> -
UT<7>
SAGE_TO_TOUCH. _VSTM_0
UT<8>
0single_brd_lib.SINGLE_BRD
SAGE_TO_TOUCH_VSTM_OUT<8> -
0single_brd_lib.SINGLE_BRD
SAGE_TO_TOUCH. _VSTM_ O SAGE_TO_ TOUCH _VSTM_ OUT<9> -
UT<9>
0single_brd_lib.SINGLE_BRD
SAGE_TO_TOUCH. _VSTM_ O SAGE_TO_ TOUCH _ VSTM _ OUT<10> -
UT<10 >
0single_brd_lib.SINGLE_BRD
SAGE_TO_ TOUCH. _VSTM_0 SAGE_TO_TOUCH_VSTM_ OUT<11> -
UT<11>
0single_brd_lib.SINGLE_BRD
SAGE_TO_ TOUCH. _VSTM_0 SAGE_TO_TOUCH_VSTM_ OUT<12> -
UT<12>
0single_brd_lib.SINGLE_BRD
SAGE_TO_TOUCH. _VSTM_0 SAGE_TO_TOUCH_VSTM_OUT<13> -
UT<13>
0single_brd_lib.SINGLE_BRD
SAGE_TO_TOUCH_ _VSTM_0 SAGE_TO_TOUCH_VSTM_OUT<14 > -
UT<14 >
0single_brd_lib.SINGLE_BRD
SAGE_TO_TOUCH_ _VSTM_0 SAGE_TO_TOUCH_VSTM_OUT<l5> -
UT<15>
SAGE_TO_TOUCH_ _VSTM_0
UT<16>
0single_brd_lib. SINGLE_BRD
SAGE_TO_TOUCH_VSTM_OUT<16> -
0single_brd_lib. SINGLE_BRD
SAGE_TO_TOUCH. _VSTM_O SAGE_TO_ TOUCH _ VSTM _ OUT<17 > -
UT<17 >
0single_brd_lib.SINGLE_BRD
SAGE_ TO _TOUCH. _VSTM_0 SAGE_TO_ TOUCH _ VSTM _ OUT<18 > -
UT<18 >
0single_brd_lib.SINGLE_BRD
SAGE_TO_ TOUCH. VSTM O SAGE_TO_TOUCH_VSTM_ OUT<19> -
UT<19>
0single_brd_lib. SINGLE_BRD
SAGE_VBIAS
SAGE_ VBIAS -
0single_brd_lib.SINGLE_BRD
SOCHOTO
SOCHOTO -
SPKAMP IREF
0single_brd_lib.SINGLE_BRD
SPKAMP_IREF -
0single_brd_lib.SINGLE_BRD
SPKAMP__TO_AP_INT_L SPKAMP_TO_AP_INT_L -
0single_brd_lib.SINGLE_BRD
SPKAMP_T0_SPEAKER_0U
T_CONN_N
SPKAMP_TO_SPEAKER_OUT_CONN_N -
0single_brd_lib.SINGLE_BRD
SPKAMP_TO_ SPEAKER _ OU SPKAMP_TO_SPEAKER_ OUT _ CONN _P -
T_CONN_P
0single_brd_lib.SINGLE_BRD
SPKAMP_TO_SPEAKER_ OU SPKAMP_TO_SPEAKER_ OUT _N -
T_N
0single_brd_lib. SINGLE_BRD
SPKAMP_ TO _ SPEAKER _ OU SPKAMP_ TO _ SPEAKER _ OUT _ P -
T_ P
0single_brd_lib.SINGLE_BRD
THROTTLER_OUT
THROTTLER_OUT -
0single_brd_lib
TOUCH_TO_AP_INT_L
-
SINGLE_BRD
TOUCH_T0_AP_INT_L -
0single_brd_lib.SINGLE_BRD
TOUCH_TO_AP_SPI1_MIS TOUCH_TO_AP_SPI1_MISO -
O
0single_brd_lib. SINGLE_BRD
TOUCH_TO_AP_SPI1_MIS TOUCH_TO_AP_SPIl_MISO_R -
0_R
TOUCH_TO_SAGE_SENSE_
1N<0>
0single_brd_lib.SINGLE_BRD
TOUCH_TO_SAGE_SENSE_IN<0> -
0single_brd_lib. SINGLE_BRD
TOUCH_TO_SAGE_SENSE_ TOUCH_TO_ SAGE_SENSE_IN<1> -
IN<1>
0single_brd_lib.SINGLE_BRD
TOUCH_TO_ SAGE_SENSE_ TOUCH_TO_ SAGE_SENSE_ IN<2> -
IN<2>
0single_brd_lib.SINGLE_BRD
TOUCH_TO_SAGE_SENSE_
IN<3>
TOUCH_TO_SAGE_SENSE_IN<3> -
0single_brd_lib. SINGLE_BRD
TOUCH_TO_SAGE_SENSE_ TOUCH_TO_SAGE_SENSE_IN<4> -
IN<4>
0single_brd_lib. SINGLE_BRD
TOUCH_TO_SAGE_SENSE_ TOUCH_TO_SAGE_SENSE_IN<5> -
IN<5>
0single_brd_lib.STNGLE_BRD
TOUCH_TO_SAGE_SENSE_ TOUCH_TO_SAGE_SENSE_IN<6> -
IN<6>
TOUCH_TO_SAGE_SENSE_
IN<7>
TOUCH_T0_SAGE_S ENSE_
IN<8>
0single_brd_lib.SINGLE_BRD
TOUCH_TO_ SAGE_SENSE_ IN<7> -
0single_brd_lib. SINGLE_BRD
TOUCH_TO_SAGE_SENSE_IN<8> -
0single_brd_lib. SINGLE_BRD
TOUCH_TO_ SAGE _SENSE_ TOUCH_ TO _ SAGE _ SENSE _IN<9> -
IN<9>
0single_brd_lib.SINGLE_BRD
TOUCH_TO_ SAGE _ SENSE_ TOUCH_TO_SAGE_ SENSE _IN<10> -
IN<10 >
0single_brd_lib.SINGLE_BRD
TOUCH_TO_ SAGE_SENSE_ TOUCH_ TO_SAGE_SENSE_IN<11> -
IN<11>
0single_brd_lib.S INGLE_BRD
TOUCH_TO_SAGE_SENSE_ TOUCH_TO_SAGE_SENSE_IN<12> -
IN<12>
0single_brd_lib. SINGLE_BRD
TOUCH_TO_SAGE_SENSE_ TOUCH_TO_SAGE_SENSE_IN<13> -
IN<13>
0single_brd_lib.SINGLE_BRD
TOUCH_TO_SAGE_SENSE_ TOUCH_TO_SAGE_SENSE_IN<14> -
IN<14 >
0single_brd_lib.SINGLE_BRD
TOUCH_TO_SAGE_VCM_IN TOUCH_TO_SAGE_VCM_IN -
0single_brd_lib. SINGLE_BRD
TRISTAR_BI_AP_JTAG_S TRISTAR_BI_AP_JTAG_SWDIO -
WD IO
0single_brd_lib.SINGLE_BRD
TRISTAR_ BYPASS TRISTAR_BYPASS -
0single_brd_lib.SINGLE_BRD
TRISTAR_TO_AP_ ACC_UA TRISTAR_TO_AP_ ACC _ UART6 _RXD -
RT6_RXD
0single_brd_lib.SINGLE_BRD
TRISTAR_ TO_AP_DEBUG_ TRISTAR_TO_AP_DEBUG_UART0_RXD -
UART0_RXD
0single_brd_lib.S INGLE_BRD
TRISTAR_TO_AP_INT TRISTAR_TO_AP_INT -
0single_brd_lib. SINGLE_BRD
TRISTAR_TO_AP_JTAG_S TRISTAR_TO_AP_JTAG_SWCLK -
WCLK
0single_brd_lib.SINGLE_BRD
T RISTAR_T0_PMU_HOST_ TRISTAR_TO_PMU_HOST_RESET -
RESET
TRISTAR_TO_PMU_MIKEY
BUS_TEST_NEG
TRISTAR_TO_PMU_MIKEY
BUS_TEST_POS
0single_brd_lib.SINGLE_BRD
TRISTAR_TO_PMU_MIKEYBUS_TEST_NEG
0single_brd_lib.SINGLE_BRD
TRISTAR_TO_PMU_MIKEYBUS_TEST_POS
0single_brd_lib. SINGLE_BRD
TRISTAR_TO_PMU_OVP_ S TRISTAR_TO_ PMU _OVP_ SW _EN_L -
W_EN_ L
0single_brd_lib.SINGLE_BRD
T RISTAR_TO_PMU_USB_B TRISTAR_TO_ PMU _ USB _ BRICKID -
18A7 18B4
18A7 18B4
18A7 18A8 18B1 23C8
18A8 18C1 23C8
18A8 18B1 23B8
18A8 18B1 23B8
18A8 18C1 23B8
18A8 18C1 23B8
18A8 18C1 23B8
18A8 18C1 23B8
18A8 18C1 23B8
18A8 18C1 23B8
18A8 18C1 23B8
18A7 18B1 23B8
18A7 18C1 23B8
18A7 18C1 23B8
18A7 18C1 23B8
18A7 18C1 23B8
18A7 18B1 23B8
18A7 18B1 23B8
18A7 18C1 23B8
18A7 18C1 23B8
18B3 2 3D 5
3C2 16A2
c
15C5
3D8
15C6
15C1 17A7 22A3 23D5
15C1 17A7 17C5 22A3 23D5
15C5 2 3D 5
15C5 2 3D 5
16A3
3C8
3B4
18B7
18B8
18B8
18A8 18C3 23C8
18A8 18C3 23C8
18A8 18C3 23C8
18A8 18D3 23C8
18A8 18D3 23C8
18A8 18D3 23C8
18A7 18C3 23C8
18A7 18C3 23C8
18A7 18C3 23C8
18A7 18C3 23C8
18A8 18C3 23C8
18A8 18C3 23C8
18A7 18C3 23C8
18A7 18C3 23C8
18A7 18C3 23C8
18A7 18B1
2B6
16C4
16C3 2 3D 5
3B5
3C5
3C5
2B6
16C4
16C4
13B4 16C2
16C4
13B6 16C1
13C6 16C6 23C7
13C6 16D6 23C7
12D7
16C1 23B7
13C2 16C4 23A7
13C4 13C6 23A7
D
B
8 7 6 5 4 3
8 7 6 4 3 2 1
ÿ
D
C
B
A
50_B8_TX_PAD_IN 50_B8_TX_PAD_IN 47C6
U12_GPIO_3 U12_GP IO_3 - 18B6
5 0_B8_ANT 50_B8_ANT - 47B2 50B7
5 0_XCVR_2G_LB_TX_MAT 50_XCVR_2G_LB_TX_MAT CH - 50C8
0single_brd_lib .RADIO_ MLB
CH
0single_brd_lib.RADIO_MLB
5 0_B8_ DPLX_ANT 50_B8_DPLX_ANT - 47B3
5 0_XCVR_B1_ TX 50 _ XCVR_Bl_TX - 40D2 42D6
0single_brd_lib.RADIO_ MLB 0single_brd_lib.RADIO_MLB
0single_brd_lib.SINGLE_BRD
-
0single_brd_lib.RADIO_MLB
U160_IN_NEG U160_IN_NEG - 16A4
5 0_B8_TX_SAW_OUT 50_B8_TX_SAW_OUT - 43C2 47B7
0 single_brd_lib .SINGLE_BRD
0single_brd_lib.RADIO_MLB
U160_IN_POS U160_IN_POS - 16A4
5 0_B13_ANT 50_B13_ANT - 48C1 50B7
0single_brd_lib .SINGLE_BRD
0single_brd_lib.RADIO_MLB
U160_REF U160_REF - 16A3 16A5
5 0_B13_DPLX_ANT 50_B13_DPLX_ANT - 48C3
@ single_brd_lib .S INGLE_BRD
0single_brd_lib.RADIO_MLB
USB_CONN_SNUB USB_ CONN _ SNUB - 17A6
5 0_Bl3_LPF_IN 50_Bl3_LPF_IN - 48C3
@ single_brd_lib .S INGLE_BRD
0single_brd_lib.RADIO_MLB
USB_ REXT USB _ REXT - 2B4
5 0_B13_TX_PAD_IN 50_Bl3_TX_PAD_IN - 48C6
0single_brd_lib .SINGLE_ BRD
0single_brd_lib.RADIO_MLB
USB_VBUS_DETECT USB_ VBUS _ DETECT - 2B3 12D8 23A7
5 0_B13_TX_SAW_OUT 50_ Bl3_TX_SAW_OUT - 43C2 48C7
0single_brd_lib .SINGLE_BRD
0single_brd_lib.RADIO_MLB
WLAN_TO_AP_HSIC2_RDY WLAN_TO_AP_HSIC2_RDY - 3C2 24B6
50_B17_ANT 50_B17_ANT - 48B2 50B7
0single_brd_lib.SINGLE_BRD
0single_brd_lib.RADIO_MLB
WLAN_HSIC3_DEVICE_RDY - 35C6 35C8 56B3
50_B17_DPLX_ANT 50_B17_DPLX_ANT - 48B3
0single_brd_lib .RADIO_MLB (i616_page
0single_brd_lib.RADIO_MLB
24)
5 0_B17_TX_PAD_IN 50_B17_TX_PAD_IN - 48C6
WLAN_TO_AP_HS IC2_REM WLAN_TO_AP_HSIC2_REMOTE_WAKE - 3C2 24B6
0single_brd_lib.RADIO_MLB
OTE_WAKE
0 single_brd_lib.SINGLE_BRD
5 0_B17_TX_SAW_OUT 50_B17_TX_SAW_OUT - 43C2 48B7
WLAN_HSIC3_RESUME - 35C6 35D8 56B3
0single_brd_lib.RADIO_MLB
0single_brd_lib .RADIO_MLB (i616_page
5 0_B20_ANT 50_B2 0_ANT -
Z7> A 4 \)
0single_brd_lib.RADIO_MLB
46C2 50B7
WLAN_TO_AP_UART3_RXD WLAN_TO_AP_UART 3_RXD - 3C5 24C6
5 0_B20_DPLX_ANT 50_B2 0_DPLX_ANT - 46C3
0 single_brd_lib.SINGLE_BRD
0single_brd_lib.RADIO_MLB
WLAN_UART_ TXD - 35C8 56B3
50_B20_TX_PAD_IN 50_B20_TX_PAD_IN - 46C6
0single_brd_lib .RADIO_ MLB (i616_page
0single_brd_lib.RADIO_ MLB
24)
5 0_B2 0_TX_SAW_OUT 50_B20_TX_SAW_OUT - 43C2 46C7
WLAN_TO_PMU_HOST_WAK WLAN_TO_PMU_HOST_WAKE - 13B4 24C6
0single_brd_lib.RADIO_MLB
E
0single_brd_lib.SINGLE_BRD
50_COUPLER_TERM 50_COUPLER_TERM - 50B2
HOST_WAKE_WLAN - 35C8 56B3
0single_brd_lib.RADIO_MLB
0single_brd_lib .RADIO_MLB (i616_page
5 0_DCS_RX 50_DCS_RX - 43B5 50B7
24)
0single_brd_lib.RADIO_MLB
5 0_DCS_RX_MATCH 50_DCS_RX_MATCH - 43B5
Base nets and synonyms for
0single_brd_lib.RADIO_MLB
single_brd_lib.RADIO. _MLB (0single_brd_lib.single_brd ( sch_.1) :page24_i6160 radio_mlb_l 50_DIVERSITY_SWITCH_ 50_DIVERS ITY_SWITCH_MATCH -
51C6
ib.radio_mlb ( sch_l) )
MATCH
0single_brd_lib.RADIO_MLB
Base Signal Synonyms Location ( [Zone] [dir] )
5 0_DRX_ANT 50_DRX_ANT - 50C4 51C7
0single_brd_lib.RADIO_MLB
2G_FEM_S0 2G_FEM_S0 - 39C2 50C3
5 0_GPS_ANT 50_GPS_ANT - 52B7
0 single_brd_lib.RADIO_MLB
0single_.brd_lib.RADIO_MLB
2G_FEM_S1 2G_FEM_S1 - 35C1 39C2 50C3
5 0_GPS_ANT_FEED 50_GPS_ANT_FEED - 52B5
0single_.brd_lib.RADIO_ MLB
0single_brd_lib.RADIO_ MLB
2G_FEM_S2 2G_FEM_S2 - 39C2 43C8 50C3
5 0_GPS_LNA_MATCH 50_ GP S_LNA_MATCH - 52B6
0single_brd_lib .RADIO_MLB
0single_brd_lib.RADIO_MLB
2G_FEM_S3 2G_FEM_S3 - 39C2 43C8 50C3
5 0_GPS_LNA_OUT 50_GP S_LNA_OUT - 51C5 52B3
0single_brd_lib.RADIO_MLB
0single_brd_lib.RADIO_MLB
2G_FEM_S4 2G_FEM_S4 - 35C3 39C2 50C3
50_HSIC_BB_DATA 50_AP_BI_BB_HSIC1_DATA - 2B6 24B6
0single_brd_lib.RADIO_MLB
0single_brd_lib.SINGLE_BRD
2G_FEM_S 5 2G_FEM_S5 - 39C2 50C3
50_HSIC_BB_DATA - 35B1 35B6 35C8 38B3
0 single_brd_lib .RADIO_MLB
0single_.brd_lib.RAD IO_MLB
2G_FEM_S6 2G_FEM_S 6 - 39C2 43C8 50C3
5 0_HSIC_BB_STROBE 50_AP_BI_BB_HSIC1_STB - 2B6 24B6
0 single_brd_lib.RADIO_MLB
0single_brd_lib.S INGLE_BRD
19P2M_CLK_EN 19P2M_CLK_EN - 37B2 38A5
50_HSIC_BB_STROBE - 35B1 35B6 35C8 38B3
0single_brd_lib .RADIO_MLB
0single_brd_lib.RAD IO_MLB
19P2M_MDM 19P2M_MDM - 35C6 37B2 38A5
5 0_ HSIC_CAL 50 _HSIC_CAL - 38B3
0single_brd_lib.RADIO_ MLB
0single_brd_lib.RAD IO_ MLB
19P2M_ WTR 19P2M_WTR - 37B2 40C5
5 0_HSIC_WLAN_DATA 50_AP_BI_WLAN_HSIC2_DATA - 2B6 24B6
0single_.brd_lib.RADIO_ MLB
0single_brd_lib.S INGLE_BRD
19P2M_WTR_IN 19P2M_WTR_ IN - 40C4
50_ HSIC_WLAN_DATA - 35B6 3 5C8 5 6B6
0single_brd_lib .RADIO_MLB
0single_brd_lib.RAD IO_MLB
19P2M_XTAL_IN 19P2M_XTAL_IN - 37B4
5 0_HSIC_WLAN_STROBE 50_AP_BI_WLAN_HSIC2_STB - 2B6 24B6
0single_brd_lib .RADIO_MLB
0single_brd_lib.SINGLE_BRD
19P2M_XTAL_OUT 19P2M_XTAL_OUT - 37B4
50_HSIC_WLAN_STROBE - 35B6 35C8 56B6
0single_brd_lib .RADIO_MLB
0single_brd_lib.RADIO_MLB
5 0_2G__HB_PA_IN 50_2G_HB_PA_IN - 50C6
5 0_LAT_5G_NOTCH 50_LAT_5G_NOTCH - 50B3
0 single_brd_lib.RADIO_MLB
0single_brd_lib.RAD IO_MLB
5 0_2G_LB_PA_IN 50_2G_LB_PA_IN - 50C6
5 0_LAT_ASM 50_LAT_ASM - 50B4
0 single_brd_lib .RADIO_MLB
0single_brd_lib.RADIO MLB
50_B1_B4_ANT 50_Bl_B4_ANT - 44C2 50B7
5 0_LAT_COUPLER_IN 50_LAT_COUPLER_IN -
0 single_brd_lib.RADIO_MLB
0single_brd_lib.RADIO_MLB
5 0B1 50B3
5 0_B1_B4_DPLX_ANT 50_Bl_B4_DPLX_ANT - 44C3
5 0_LAT_LPF 50_LAT_LPF - 50C3
0single_.brd_lib .RADIO_ MLB
0single_.brd_lib.RAD IO_MLB
5 0_B1_ TX_PAD_IN 50 _ B1_TX_PAD_IN - 44C6
5 0_LAT_TEST 50_LAT_T EST - 50C1 53B7
0single_.brd_lib .RADIO_ MLB
0single_brd_lib.RAD IO_ MLB
50_B1_TX_SAW_IN 50_B1_TX_SAW_IN - 42D4 43C8
5 0_NTCH_FILT_OUT 50_NTCH_FILT_OUT - 53D7
0single_brd_lib .RADIO_MLB
0single_brd_lib.RAD IO_MLB
50_B1_TX_SAW_OUT 50_B1_TX_SAW_OUT - 43C6 44C7
5 0_PCS_RX 50_PCS_RX - 43B5 50B7
0 single_.brd_lib .RADIO_MLB
0single_brd_lib.RAD IO_MLB
5 0_B2_ANT 50_B2_ANT - 45B2 50B7
50__PCS_RX_MATCH 50_PCS_RX_MATCH - 43B5
0single_brd_lib.RADIO_MLB
0single_brd_lib.RADIO_MLB
50 B2 B25 TX SAW IN 50 B2 B25 TX SAW IN - 42C4 43C8
5 0_PDET_IN 50_PDET_IN - 40C3
0 single_brd_lib .RADIO_MLB
0single_brd_lib.RAD IO_MLB
5 0_B2_DPLX_ANT 50_B2_DPLX_ANT - 45B3
5 0_PDET_PAD_IN 50_PDET_PAD_IN - 4 0C1 50B3
0 single_brd_lib .RADIO_MLB
0single_brd_lib.RADIO_MLB
5 0_B2_DUPLX_RX 50_B2_DUPLX_RX - 42B8 45B5
5 0_PDET_PAD_ OUT 50 _PDET_PAD_OUT - 40C2
0 single_brd_lib.RADIO_MLB
0single_brd_lib.RADIO_MLB
5 0_B2_RX_BALUN 50_B2_RX_BALUN - 42B7
5 0_UAT_ASM 50_ UAT _ASM - 50B4
0single_.brd_lib .RADIO_ MLB
0single_brd_lib.RADIO_ MLB
5 0_B2_ TX_PAD_IN 50_B2_TX_PAD_IN - 45C6
5 0_ UAT _ COAX _ DOWN 50 _ UAT_COAX_DOWN - 53C4
0single_brd_lib .RADIO_ MLB
0single_brd_lib.RADIO_MLB
5 0_B2_TX_SAW_OUT 50_B2_TX_SAW_OUT - 43C6 45B7
50_UAT_LPF 50_UAT_LPF - 50B3
0single_brd_lib .RADIO_MLB
0single_brd_lib.RADIO_MLB
5 0_B3_ANT 50_B3_ANT - 45C2 50C4
5 0_UAT_TEST 50_UAT_TE ST - 5 OBI 53C2
0single_brd_lib .RADIO_MLB
0single_brd_lib.RADIO_MLB
5 0_B3_B4_TX_SAW_IN 50_B 3_B 4_TX_S AW_IN - 42D4 43C8
50_UPPER_ANT_FEED 50_UPPER_ANT_FEED - 53D8
0single_brd_lib.RADIO_MLB
0single_brd_lib.RADIO_MLB
50_B3_DPLX_ANT 50_B3_DPLX_ANT - 45C3
5 0_UPPER_MCH_1 50_UPPER_MCH_1 - 5 3D 6
0 single_brd_lib .RADIO_MLB
0single_brd_lib.RADIO_MLB
5 0_B3_DUPLX_RX 50_B3_DUPLX_RX - 42B8 45B5
5 0_WLAN_A 50_WLAN_A - 56C1 56D2
0 single_brd_lib.RADIO_MLB
0single_brd_lib.RADIO_MLB
5 0_B3_RX_BALUN 50_B3_RX_BALUN - 42A7
5 0_WLAN_ANT_FD 50_WLAN_ANT_FD - 56D3
0 single_brd_lib.RADIO_MLB
0single_brd_lib.RADIO_MLB
5 0_B3_TX_PAD_IN 50_B3_TX_PAD_IN - 45C6
5 0_WLAN_ANT_MATCH 50_WLAN_ANT_MA TCH - 56D2
0single_.brd_lib .RADIO_ MLB
0single_brd_lib.RADIO_ MLB
5 0_B3_ TX_SAW_OUT 50_B3_TX_SAW_OUT - 43C6 45C7
5 0_WLAN_ANT_MAT CH_T 50_ WLAN_ANT_MA TCH_T - 56D2
0single_brd_lib .RADIO_ MLB
0single_brd_lib.RADIO_MLB
5 0_B4_TX_PAD_IN 50_B4_TX_PAD_IN - 44C6
5 0_WLAN_A_ANT 50_WLAN_A_ANT - 56C4
0single_brd_lib .RADIO_MLB
0single_brd_lib.RADIO_MLB
5 0_B4_TX_SAW_OUT 50_B4_TX_SAW_OUT - 43C6 44B7
5 0_WLAN_G 50_WLAN_G - 56C1 56D2
0single_brd__lib.RADIO_MLB
0single_brd_lib.RADIO_MLB
5 0_B5_ANT 50_B5_ANT - 47C2 50B7
5 0_WLAN_G_ANT 50_WLAN_G_ANT - 56C4
0single_brd_lib.RADIO_MLB
0single_brd_lib.RADIO_MLB
5 0_B5_DPLX_ANT 50_B5_DPLX_ANT - 47C3
5 0_XCVR_2G_HB_TX 50_XCVR_2 G_HB_TX - 40D2 50B8
0single_brd_lib .RADIO_MLB
0single_brd_lib.RADIO_MLB
5 0_B5_TX_PAD_IN 50_B5_TX_PAD_IN - 47C6
5 0_XCVR_2G_HB_TX_MAT 50_XCVR_2G_HB_TX_MATCH - 50B8
0 single_brd_lib .RADIO_MLB
CH
0single_brd_lib.RADIO_MLB
5 0_B5_TX_SAW_ OUT 50 _B5_TX_SAW_OUT - 43C2 47C7
5 0_XCVR_2G_LB_TX 50_XCVR_2G_LB_TX - 40D2 50C8
0 single_brd_lib .RADIO_MLB
0single_brd_lib.RADIO_MLB
50_XCVR_B2_B25_TX
50_XCVR_B3_B4_TX
50_XCVR_B5_B18_TX
50_XCVR_B8_TX
50_XCVR_B13_B17_B2 0.
TX
90_ BB _ USB _ D _ N
90_BB_USB_D_P
100 B1 B4 DUPLX RX N
100 B1 B4 DUPLX RX P
100_B5_B18_DUPLX_RX_
N
100_B5_B18_ DUPLX _RX_
P
100_B8_DUPLX_ RX _ N
100_ B8_DUPLX _ RX _ P
100_B13_DUPLX_RX_N
100_B13_DUPLX_RX_P
100_B17_DUPLX_RX_N
100 B17 DUPLX RX P
100 B20 DUPLX RX N
100 B20 DUPLX RX P
100_ DCS_PCS_RX_FILTE
R_N
100_ DCS_PCS_RX_FILTE
R_P
100_XCVR_B1_B 4_DRX_N
100_XCVR_B1_B 4_D RX_P
100_XCVR__B1_ B4_PRX_N
ioo_xcvr_b:i_b 4_prx_p io o_:
100_ X CVR_B 2_B 2 5_B3_D
RX_N
100_XCVR_B2_B2 5_B3_D
RX_P
10()_XCVR_ B2 _ B2b_PRX_
N
100_XCVR_B2_B2 5_PRX_
P
100_XCVR_B3_PRX_N
100_XCVR_B3_PRX_P
100_XCVR_B5_B18_B13_
317_DRX_N
100_XCVR_B5_B18_B13_
B17_DRX_P
100_XCVR_B5_B18_PRX_
N
100_XCVR_B5_B18_ P RX_
P
100_ X CVR_B8_B2 0_DRX_
N
100_XCVR_B8_B2 0_DRX_
P
100_XCVR_B8_PRX_N
100_XCVR_B8_PRX_P
100_XCVR_B13_B17_B20
_PRX_N
100_XCVR_B13_B17_B2 0
_PRX_P
100_XCVR_D CS_PCS_PRX
_ N
100_XCVR_D CS_PCS_PRX
_P
100_XCVR_GPS_RX_ N
100_XCVR_GPS_RX_P
ADC_LD06_RUIM_1V8
ADC
LVS1
ADC SMPS1 MSMC 1V05
ADC_ SMPS3 _ MSME_1V8
AP_HSIC1_RDY
AP
HSIC3 RDY
AP WAKE
MODEM
BB_ERROR_FLAG
5 0_XCVR_B2_B2 5_TX -
0single_brd_lib.RADIO_MLB
50_XCVR_B3_B4_TX -
0single_brd_lib.RADIO_MLB
50_XCVR_B5_B18_TX -
0single_brd_lib.RADIO_MLB
50_XCVR_B8_TX -
@single_brd_lib.RADIO_MLB
50_ XCVR _Bl3_B17_B2 0_TX -
@ single_brd_lib.RADIO_MLB
9 0_TRISTAR_BI_ BB_USB_N -
@single_brd_lib.SINGLE_BRD
9 0_BB_USB_D_N -
0single_brd_lib.RADIO_MLB
90_TRISTAR_BI_BB_USB_P -
0single_brd_lib.SINGLE_BRD
9 0_BB_USB_D_P -
0single_brd_lib.RADIO_MLB
100_B1_B4_DUPLX_RX_N -
0single_brd_lib.RADIO_MLB
100_B1_B4_DUPLX_RX_P -
0single_brd_lib.RADIO_MLB
100_B5_Bl8_DUPLX_RX_N -
@ single_brd_lib.RADIO_MLB
100_B5_Bl8_DUPLX_RX_P -
@ single_brd_lib.RADIO_MLB
100_B8_ DUPLX_RX_N -
@single_brd_lib.RADIO_MLB
100_B8_ DUPLX_RX_P -
0single_brd_lib.RADIO_MLB
100_B13_DUPLX_RX_N -
0single_brd_lib.RADIO_MLB
100_B13_DUPLX_RX_P -
0single_brd_lib.RADIO_MLB
10 0_B17_DUPLX_RX_N -
0single_brd_lib.RADIO_MLB
10 0_B17_DUPLX_RX_P -
0single_brd_lib.RADIO_MLB
10 0_B2 0_ DUPLX _RX_N -
Qsingle_brd_lib.RADIO_MLB
100_B2 0_DUPLX_RX_P -
@single_brd_lib.RADIO_MLB
100_DCS_ PCS_RX_FILTER_N -
0single_ brd_lib.RADIO_MLB
100_DCS_ PCS_RX_FILTER_P -
0single_brd_lib.RADIO_MLB
100_XCVR_B1_B4_DRX_N -
0single_brd_lib.RADIO_MLB
100_XCVR_B1_B4_DRX_P -
0 sing1e_brd_lib.RADI0_MLB
100_XCVR_B1_B4_PRX_N -
0single_brd_lib.RADIO_MLB
100_ XCVR_Bl_B4_PRX_P -
0single_brd_lib.RADIG_MLB
10 0_XCVR_B2_B25_B3_DRX_N -
@single_brd_lib.RADIO_MLB
10 0_XCVR_ B2 _B25_B3_DRX__P -
@single_brd_lib.RADIO_MLB
100_XCVR_B2_B2 5_PRX__N -
0single_.brd_lib.RADIO_MLB
100_XCVR_B2_B25_PRX_P -
0single_brd_lib.RADIO_MLB
100_XCVR_B3_PRX_N -
0single_brd_lib.RADIO_MLB
100_XCVR_B3_PRX_P -
0single_brd_lib.RADIO_MLB
100_XCVR_B5_B18_B13_B17_DRX_N -
0 single_brd_lib.RADIO_MLB
100_XCVR_B5_B18_B13_B17_DRX_P -
0single_brd_lib.RADIO_MLB
100_XCVR_B5_ Bl 8_PRX_N -
0single_brd_lib.RADIO_MLB
100_XCVR_ B5_Bl8_PRX_P »
0 single_brd_lib.RADIO_MLB
100_XCVR__B8_B20_DRX_ N -
0single_brd_lib.RADIO_MLB
100_XCVR_B8_B20_DRX_P -
0single_brd_lib.RADIO_MLB
100_XCVR_B8_PRX_N -
0single_brd_lib.RADIO_MLB
100_XCVR_B8_PRX_P -
0single_brd_lib.RADIO_MLB
100_XCVR_Bl3_Bl7_B20_PRX_N -
0single_brd_lib.RADIO_MLB
10 0_XCVR_B13_B17_B2 0_PRX_P -
0single_brd_lib.RADIO_MLB
10 0_XCVR_ DCS _PCS_PRX_N -
@ single_brd_lib.RADIO_MLB
100_XCVR_ DCS _PCS_PRX_P -
0single_brd_lib.RADIO_MLB
10 0_XCVR_GPS_RX_N -
0single_brd_lib.RADIO_MLB
10 0_XCVR_GPS_RX_P -
0single_brd_lib.RADIO_MLB
RADI0_T0_PMU_ADC_LD06_RUIM_1V8 -
0single_brd_lib.SINGLE_BRD
ADC_LD06_RUIM_1V8 -
0single_brd_lib.RADIO_MLB
RAD10_T0_PMU_ADC_LV S1 -
0single_brd_lib.SINGLE_BRD
ADC_LVS1 -
@ single_brd_lib.RADIO_MLB
RADIO_TO_PMU_ADC_SMPS1_MSMC_1V0 5
@ single_brd_lib.SINGLE_BRD
ADC_SMPS 1_MSMC_1V0 5 -
@ single_brd_lib.RADIO_MLB
RADIO_TO_PMU_ADC_SMPS3_MSME_1V8
0single_brd_lib.SINGLE_BRD
ADC_SMPS3_MSME_1V8 -
0single_brd_lib.RADIO_MLB
AP_T0_BB_HSIC 1_RDY -
0single_brd_lib.SINGLE_BRD
AP_HSIC1_RDY -
0single_brd_lib.RADIO_MLB
AP_TO_WLAN_HSIC2_RDY -
0single_brd_lib.SINGLE_BRD
AP_HSIC3_RDY -
0single_brd_lib.RADIO_MLB
AP_TO_BB_WAKE_MODEM -
@ single_brd_lib.SINGLE_BRD
AP_WAKE_MODEM -
@ single_brd_lib.RADIO_MLB
BB_ERROR_FLAG -
0single_ brd_lib.RADIO_MLB
40D2
42C6
40D2 4 2D 6
40D2
40D2
40D2
43C4
43C4
43C4
16C4 24C6
35C3 35C8 38A5
16D4 24C6
35C3 35C8 38A5
42B4
42C4
42B4
42B4
42A4
42A4
43C8
43C8
43C8
43C8
43B8
43B8
43B3
43B3
40C8
40C8
40C8
40C8
40C8
40C8
40C8
40D8
40C8
40C8
40C8
40C8
40D8
40D8
40C8
40C8
40D8
40D8
40D8
40D8
40C8
40C8
40B8
40B8
13C6
35A7
13C6
35A7
44B5
44B5
47B5
47B5
47B5
47B5
48B5
48B5
48B5
48B5
46B5
46B5
51C3
51C3
42C2
42B2
51B3
51B3
42B6
42B6
42B6
42A6
51B3
51B3
42B2
42B2
51B3
51B3
42A2
42A2
43C6
43C6
43B1
43B1
51C3
51C3
24C6
35B8
24C6
35A8
- 13C6 24C6
35A7 35B8
13C6 24C6
35A7 35B8
3C2 24B6
35C1 35C8 39B2
3C2 24B6
35C6 35C8 56B3
3C8 24B6
35D8
35D6
39B4
39B2
BB_HSICl_REMOTE_WAKE BB_TO_AP_HSICl_REMOTE_WAKE -
0single_brd_lib. SINGLE_BRD
3C2 24B6
BB_HSICl_REMOTE_WAKE - 35C8 39B2
0single_brd_lib.RADIO_MLB
BB_I2S_CLK 45 AP TO BB I2S1 BCLK - 3C4 24C6
0single_brd_lib. SINGLE_BRD
BB_12 S_CLK - 35B5 35C8 39B4
0single_brd_lib.RADIO_MLB
BB_12 S_RXD AP_TO_BB_12 S 1_ DOUT - 3C4 24C6
0single_brd_lib.SINGLE_BRD
BB_12 S_ RXD - 35B5 35C8 39B4
0single_brd_lib.RADIO_MLB
BB_I2S_TXD BB_TO_ AP_12 S 1_DIN - 3C4 24C6
0single_brd_lib. SINGLE_BRD
BB_12 S_TXD - 35B5 35C8 39B4
0single_brd_lib.RADIO_MLB
BB_I2S_WS AP_TO_BB_12 S 1_LRCLK - 3C4 24C6
0single_brd_lib.SINGLE_BRD
BB_12 S_WS - 35B5 35C8 39B4
0single_brd_lib.RADIO_MLB
BB_IPC_GPIO BB_TO_AP_IPC_GPIO - 7C8 24A6
0single_brd_lib.SINGLE_BRD
BB_IPC_GPIO - 35A8 39B2
0single_brd_lib.RADIO_MLB
BB_ JTAG _ RTCLK BB_JTAG_RTCLK - 35C3 38B3
0single_brd_lib.RADIO_MLB
BB_JTAG_TCK AP_TO_BB_JTAG_TCK - 3B7 24D3
0single_brd_lib.S INGLE_BRD
BB_JTAG_TCK - 35B8 35C3 38B5
0single_brd_lib.RADIO_MLB
BB_JTAG_TDI AP_T0_BB_JTAG_TDI- 3C7 24D3
0single_brd_lib. SINGLE_BRD
BB_JTAG_TDI- 35B8 35C3 38B5
0single_brd_lib.RADIO_MLB
BB_JTAG_TDO BB_T0_AP_JTAG_TDO - 3C7 24D3
0single_brd_lib.SINGLE_BRD
BB_JTAG_TDO - 35B8 35C3 38B3
0single_brd_lib.RADIO_MLB
BB_JTAG_TMS AP_TO_BB_JTAG_TMS - 3B7 24D3
0single_brd_lib.SINGLE_BRD
BB_JTAG_ TMS - 35B8 35C3 38B5
0single_brd_lib.RADIO_MLB
BB_JTAG_TRST_L AP_TO_BB_JTAG_TRST_L - 3D 5 24D3
0single_brd_lib.SINGLE_BRD
BB_JTAG_TRST_L - 35B8 35C3 38B5
0single_brd_lib.RADIO_MLB
BB_PDM BB_PDM - 0single_brd_lib .RADIO_MLB 39B2 49C7
BB_PDM_FILT BB_PDM_FILT - 49C6
@single_brd_lib.RADIO_MLB
BB_RST_L AP_TO_BB_RST_L - 3C8 24D6
0single_brd_lib. SINGLE_BRD
BB_RST_L - 35C1 35D8 37C8
0single_brd_lib .RADIO_MLB
BB_SPI_TO_PAC__CLK BB_TO_ANTENNA_PAC_SP I_SCLK - 24A6
0single_brd_lib.SINGLE_BRD
BB_ SPI_TO_PAC_ CLK - 35B8 39C4 53C7
0single_brd_lib.RADIO_MLB
BB_SPI_TO_ PAC__CLK _ FI BB _ SPI _ TO _ PAC _ CLK _ FILT -
LT
0single_brd_lib.RADIO_MLB
53C6
BB_ SPI _ TO _ PAC__cs BB_ TO _ ANTENNA _ PAC _ SPI _ CS - 24A6
0single_brd_lib.S INGLE_BRD
BB_SPI_TO_PAC_CS - 35B8 39C4 53C7
0single_brd_lib.RADIO_MLB
BB__SPI_T0_PAC__CS_FIL BB_SPI_TO_PAC_CS_FILT -
T
0single_brd_lib.RADIO_MLB
53C6
BB_SPI_T0_PAC__DATA_M BB_TO_ANTENNA_PAC_SPI_MOSI- 24A6
OSI
0single_brd_lib.SINGLE_BRD
BB SPI TO PAC DATA MOSI - 35B8 39C4 53C7
0single_brd_lib .RADIO_MLB
BB SPi TO PAC DATA M BB SPI TO PAC DATA MOSI FILT - 53C6
OSIJFILT
0single_brd_lib.RADI0_MLB
BB_UART_CTS_L AP_TO_BB_UART4_RTS_L - 3C5 24C6
0single_brd_lib.SINGLE_BRD
BB_UART_CTS_ L - 35C3 35C8 39C4
0single_brd_lib.RADIO_MLB
BB_UART_RTS_L BB_TO_ AP_UART 4_CTS _ L - 3C5 24C6
0single_brd_lib. SINGLE_BRD
BB_UART_RTS_L - 35C3 35C8 39C4
0single_brd_lib.RADIO_MLB
BB_UART_RXD AP_TO_BB_UART4_TXD - 3C5 16C4 24C6
0single_brd_lib.SINGLE_BRD
BB_UART_RXD - 35C3 35C8 39C4
0single_brd_lib.RADIO_MLB
BB_UART_TXD BB_TO_AP_UART4_RXD - 3C5 16C4 24C6
0single_brd_lib.SINGLE_BRD
BB_UART_TXD - 35C3 35C8 39C4
0single_brd_lib.RADIO_MLB
BB_USB_ VBUS PMU _ TO _BB_ VBUS _DET - 13B4 24C6
0single_brd_lib.SINGLE_BRD
BB_USB_ VBUS - 35C3 35C8 38A5
0single_brd_lib.RADIO_MLB
BOARD_ID BOARD_ ID - 37D4
0single_brd_lib.RADIO_MLB
BOOT_CONFIG_6 BOOT_CONFIG_6 - 35C2
0single_brd_lib.RADIO_MLB
BT_PCM_CLK 45_AP_TO_BT_l2S3_BCLK - 3C4 24B6
0single_brd_lib.SINGLE_BRD
BT_PCM_CLK - 35B8 56B3
0single_brd_lib.RADIO_MLB
BT_PCM_IN AP_TO_BT_12 S3_DOUT - 3C4 24B6
0single_brd_lib.SINGLE_BRD
BT_PCM_IN - 35B8 56B3
0single_brd_lib.RADIO_MLB
BT_ PCM _ OUT BT_TO_AP_12 S 3_DIN - 3C4 24B6
0single_brd_lib.SINGLE_BRD
BT_ PCM _ OUT - 35B8 56B3
0single_brd_lib.RADIO_MLB
BT_ PCM _ SYNC AP_TO _ BT_12 S 3_LRCLK - 3C4 24B6
0single_brd_lib. SINGLE_BRD
BT_PCM_SYNC - 35B8 56B3
0single_brd_lib.RADIO_MLB
BT_REG_ON PMU_T0_BT_REG_0N - 13B3 24B6
0single_brd_lib.SINGLE_BRD
BT_REG_ON - 35B8 35C1 56C6
0single_brd_lib.RADIO_MLB
BT_UART_CTS_L AP_TO_BT_UART 1_RTS_L - 3C5 24B6
0single_brd_lib. SINGLE_BRD
BT_UART_CTS_L - 35B8 56B3
0single_brd_lib.RADIO_MLB
BT_ UART _RTS_L BT_ TO _AP_ UART1_CTS _L - 3C5 24B6
0single_brd_lib.SINGLE_BRD
BT_UART_RTS_L - 35B8 56C3
0single_brd_lib.RADIO_MLB
BT_UART_RXD AP_ TO _ BT _ UART1 _ TXD - 3C5 24B6
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Title :
Design:
Cref Part Report
single_brd
Date: Feb 6 20:18:49 2013
BS1 PCB_STANDOFF single_brd[ 22A5 ]
BS2 PCB_STANDOFF single_brd[ 22A5 ]
CI CAP_01005 single_brd[ 2B7 ]
C1_RF SUPPR_TRANS IENT_ 2P 1_ radio_mlb [ 35A4 ] single_brd 24 ]
01005-1
C2 CAP_02 01 single_brd [2C6]
C2_RF CAP_02 01-1 radio_mlb [ 36B4 ] single_brd 24]
C3 CAP_0204 single_brd[ 6D3 ]
C3_RF CAP_0201-1 radio_mlb [ 36B4 ] single_brd 24]
C4 CAP_0 1005 single_brd ( 17C6 J
C4_RF CAP_02 01-1 radio_mlb [ 36B4 ] single_brd 24]
C5 CAP_0 1005 single_brd[ 17C6J
C5_RF CAP_02 01-1 radio_mlb [ 3 6A3 J single_brd 24]
C6 CAP_0 1005 single_brd [7C6]
C6_RF CAP_02 01-1 radio_mlb [ 36B3 ] single_brd 24]
C7 CAP_0 1005 single_brd [7C6 J
C7_RF CAP_02 01-1 radio_mlb [ 3 6A3 J single_brd 24]
C8 CAP_0 1005 single_brd[ 17C6]
C8_RF CAP_0 4 02 radio_mlb [ 36B3 ] single_brd 24 ]
C9 CAP_0 1005 single_brd[ 22D6 ]
C9_RF CAP_0 4 02 radio_mlb [ 36A3 ] single_brd 24 ]
C10 CAP_0 1005 single_brd f 12A5]
C10_RF CAP_0 4 02 radio_mlb [ 36B3 1 single_brd 24]
Cll CAP_0201 single_brd [20C1]
C11_RF CAP_0 4 02 radio_mlb [ 36A2 ] single_brd 24]
C12 CAP_0 1005 single_brd[ 17A6 ]
C12_RF CAP_0201-1 radio_mlb [ 36D2 ] single_brd 24]
C13 CAP_0 1005 single_brd[ 17A6]
C13_RF CAP_0 4 02 radio_mlb [ 36B2 J single_brd 24]
C14 CAP_0 4 02-1 single_brd[ 14A2 ]
C14_RF CAP_02 01-1 radio_mlb [ 38D8 ] single_brd 24]
C15_RF CAP_02 01-1 radio_mlb [ 38D8 ] single_brd 24]
C16 CAP_4 02 single_brd[ 12A3 ]
C16_RF CAP_0 2 01— 1 radio_mlb [ 38D8 ] single_brd 24 ]
CI7 CAP_0 1005 single_brd[ 19B4 ]
C17_RF CAP_0 2 01— 1 radio_mlb [ 38D8 ] single_brd 24 ]
C18 CAP_01005 single_brd[ 19A4 ]
C18_RF CAP_02 01-1 radio_mlb [ 38D7 ] single_brd 24]
C19 CAP_0 1005 single_brd f 19A4 ]
C19_RF CAP_02 01-1 radio_mlb [ 38D7 ] single_brd 24]
C20 CAP_0 1005 single_brd [2C5]
C20_RF CAP_0201-1 radio_mlb [ 38D7 ] single_brd 24]
C21 CAP_0 1005 single_brd[ 2C5 ]
C21_RF CAP_0201-1 radio_mlb [ 38D7 ] single_brd 24]
C22 CAP_0 1005 single_brd[22D6]
C22_RF CAP_02 01-1 radio_mlb [ 38D7 ] single_brd 24]
C23 CAP_0 1005 single_brd[ 22D8 ]
C23_RF CAP_02 01-1 radio_mlb [ 38D7 ] single_brd 24]
C24 CAP_4 02 single_brd[ 12A3 ]
C2 4_RF CAP_ 0201—1 radio_mlb [ 38D7 ] single_brd 24 ]
C25 CAP_0 1005 single_brd[ 22D7 ]
C2 5_RF CAP_0 2 01— 1 radio_mlb [ 38D7 ] single_brd 24 ]
C26 CAP_0 1005 single_brd[ 10B7]
C26_RF CAP_02 01-1 radio_mlb [ 38D7 ] single_brd 24]
C27 CAP_0 1005 single_brd f 10A7]
C27_RF CAP_0201-1 radio_mlb [ 38D6 ] single_brd 24]
C28 CAP_0 4 02-1 single_brd[ 14B1]
C28_RF CAP_0201-1 radio_mlb [ 38D6 ] single_brd 24]
C29 CAP_0201-1 single_brd[ 15C4 ]
C29_RF CAP_0201-1 radio_mlb [ 38D6 J single_brd 24]
C30 CAP_4 02 single_brd[ 5B5 ]
C30_RF CAP_0201-1 radio_mlb [ 38D6 J single_brd 24]
C31 CAP_02 01-1 single_brd[16B7 ]
C31_RF CAP_0 1005 radio_mlb [ 38B6 ] single_brd 24]
C32_RF CAP_02 01-1 radio_mlb [ 38D6 ] single_brd 24]
C33 CAP_01005 single_brd [2C6]
C3 3_RF CAP_0 2 01— 1 radio_mlb [ 38A6 ] single_brd 24 ]
C3 4_RF CAP_0 2 01— 1 radio_mlb [ 38D6 ] single_brd 24 ]
C35 CAP_0 1005 single_brd f 2C4 ]
C35_RF CAP_02 01-1 radio_mlb [ 38D5 ] single_brd 24]
C36 CAP_0 1005 single_brd [2C2 1
C3 6_RF CAP_0201-1 radio_mlb ( 38D5 ] single_brd 24]
C37 CAP_0 1005 single_brd [2C2]
C37_RF CAP_0 1005 radio_mlb [ 56C4 ] single_brd 24]
C38 CAP_0201-1 single_brd[ 16D5 ]
C38_RF CAP_0 1005 radio_mlb [ 53C5 ] single_brd 24]
C39 CAP_0 1005 single_brd[ 16D4 ]
C3 9_RF CAP_0 2 01 radio_mlb [ 4 6B3 ] single_brd 24]
C40 CAP_0204 single_brd[ 4B7 ]
C40 CAP_0 2 01 radio_mlb [ 42C3 ] single_brd 24]
C41 CAP_0 1005 single_brd[ 4D8 ]
C41_RF CAP_4 02 radio_mlb [ 4 9B3 ] single_brd 24]
C4 2_RF CAP_ 0 4 02 radio_mlb [ 36C8 ] single_brd 24 ]
C43 CAP_0 2 0 4 single_brd [4B8 ]
C43_RF CAP_0 4 02 radio_mlb [ 36C7 ] single_brd 24]
C44 CAP_0 1005 single_brd[ 11A4]
C44_RF CAP_0 4 02 radio_mlb [ 36C7 ] single_brd 24]
C45 CAP_0 1005 single_brd [8C3]
C45_RF CAP_0 1005 radio_mlb ( 36C7 ] single_brd 24]
C4 6_RF CAP_0 4 02 radio_mlb [ 36B6 ] single_brd 24]
C47 CAP_4 02 single_brd[ 14D5 ]
C47_RF CAP_0 4 02 radio_mlb [ 3 6B6 ] single__brd 24]
C48 CAP_0204 single_brd[ 4A8 ]
C48_RF CAP_0 4 02 radio_mlb [36B6 ] single_brd 24]
C49 CAP_0204 single_brd[ 4C7 ]
C4 9_RF CAP_0 4 02 radio_mlb [ 36B6 J single_brd 24]
C50 CAP_0 2 01 single_brd[ 6C4 ]
C5 0_RF CAP_0 1005 radio_mlb [ 36C5 ] single_brd 24 ]
C51 CAP_01005 single_brd[ 9B2 ]
C51_RF CAP_0 4 02 radio_mlb [ 36B5 ] single_brd 24 ]
C52 CAP_0 4 02-1 single_brd[ 14C4]
C52_RF CAP_0201-1 radio_mlb [ 36A4 ] single_brd 24]
C53 CAP_02 04 single_brd [4C8]
C53_RF CAP_0201-1 radio_mlb [ 36A4 ] single_brd 24]
C54 CAP_0 4 02-1 single_brd[ 14D4 ]
C5 4_RF CAP_0201-1 radio_mlb [ 36A4 ] single_brd 24]
C55 CAP_0 1005 single_brd[ 9B7 ]
C55_RF CAP_0 603 radio_mlb [ 36D2 ] single_brd 24]
C56 CAP_0 1005 single_brd[ 11B7]
C56_RF CAP_0 603 radio_mlb [ 36C2 ] single_brd 24]
C57 CAP_0 610 single_brd[ 4B8 ]
C57_RF CAP_0 603-3 radio_mlb [ 36C2 ] single_brd 24]
C58 CAP_0 4 02 single_brd[ 12C3]
C5 8_RF CAP_0 603-3 radio_mlb [ 36C2 ] single_brd 24 ]
C59 CAP_0 2 0 4 single_brd [4C7 ]
C5 9_RF CAP_0 60 3 radio_mlb [ 36B2 ] single_brd 24 ]
C60 CAP_02 04 single_brd [4A7 1
C60_RF CAP_0 1005 radio_mlb [ 36C2 1 single_brd 24]
C61 CAP_0 1005 single_brd f 9B7]
C128 CAP_04 02 single_brd [ 12D4 ]
C61_RF CAP_01005 radio_mlb[39B7 ] single_brd [ 24 ]
Cl2 7 CAP_04 02 single_brd[ 12C4]
C225 CAP_01005 single_brd [9B7]
Cl2 7_ RF CAP_01005 radio_mlb[37B4 ] single_.brd [24 ] C226 CAP_01005 single_brd [ 9C6]
C62 CAP_01005 single_brd[11C6]
C128_RF CAP_01005 radio_mlb [ 4 0C4 ] single_brd [ 24 ]
C62_RF CAP_01005 radio_mlb[39C6] single_brd [ 24 ]
Cl30 CAP_01005 single_brd [ 18C7 ]
C63 CAP_01005 single_brd[11C6]
Cl31 CAP_0 6 0 3 single_brd [ 14B5 ]
C63_RF CAP_SM radio_mlb[ 4 8C3 ] single_brd [ 24 ]
Cl33 CAP_0 610 single_brd [ 4C3 ]
C64 CAP_01005 single_brd[ 9B6 ]
Cl34 CAP_02 0 4 single_brd [ 5B2]
C64_RF CAP_01005 radio_mlb [50B7 ] single_brd [ 24 ]
Cl35 CAP_04 02 single_brd [ 12D3 ]
C65 CAP_01005 single_brd[ 9B6]
Cl 3 6 CAP_01005 single_brd [ 6C6]
C65_RF CAP_01005 radio_mlb [ 50C7 ] single_brd [ 24 ]
Cl 37 CAP_2 01 single_brd [ 18B4 ]
C66 CAP_04 02 single_brd[ 12C1]
Cl 38 CAP_01005 single_brd [ 9B2]
C66_RF CAP_04 02 radio_mlbf 50C7 ] single_brd [24 ]
Cl40 CAP_04 02 single_brd [ 12C2 ]
C67 CAP_01005 single_brd[ 11C3]
Cl4 1 CAP_0 610 single_brd [ 4D5]
C67_RF CAP_01005 radio_mlb [ 50C6] single_brd [24 ]
Cl4 2 CAP_01005 single_brd [ 4D1]
C68 CAP_0610 single_brd[4C3]
Cl4 3 CAP_01005 single_brd [ 9B2 ]
C68_RF CAP_0201-1 radio_mlb [38C8 ] single_brd [ 24 ]
Cl4 4 CAP_01005 single_brd [ 6C6 ]
C69 CAP_04 02-1 single_brd ( 14C4 ]
Cl44_RF CAP_01005 radio_mlb [49C6] single_brd[24 ]
C6 9_RF CAP_0201-1 radio_mlb[38A6] single_brd [ 24 ]
Cl4 5 CAP_04 02 single_brd [ 12D3]
C70 CAP_01005 single_brd[17B4 ]
Cl45_RF CAP_01005 radio_mlb [ 4 9C6] single_brd [ 24 ]
C70_RF CAP_0201-1 radio_mlb [38A6] single_brd [ 24 ]
C147 CAP_01005 single_brd [ 18B4 ]
C71 CAP_01005 single_brd[17B4 ]
Cl47_RF CAP_01005 radio_mlb [ 4 5B7] single_brd [ 24 ]
C71_RF CAP_0201—1 radio_mlb[ 38B6 ] single_brd [ 24 ]
Cl48_RF CAP_01005 radio_mlb [ 4 5C6] single_brd [ 24 ]
C72 CAP_4 P1_04 02 single_brd[ 4C3 ]
Cl4 9 CAP_04 02 — 1 single_brd [ 18D4 ]
C7 2_RF CAP_04 02 radio_mlb [ 4 1D7 ] single_brd [ 24 ]
Cl4 9_RF CAP_0201—1 radio_mlb [45C5] single_brd [ 2 4 ]
C73 CAP_01005 single_brd[ 15A4]
Cl50 CAP_01005 single_brd[18B4]
C7 3_RF CAP_01005 radio_mlb [ 4 1D6] single_brd [ 24 ]
Cl51 CAP_04 02 — 2 single_brd [ 4D3]
C74 CAP_4 P1_04 02 single_brd[20D5]
Cl 52 CAP_0 610 single_brd [ 4D3]
C74_RF CAP_01005 radio_mlb[41D6] single_brd [24 ]
Cl 52_RF CAP_02 01 radio_mlb [ 4 5B2 ] single_brd[24 ]
C75 CAP_04 02-2 single_brd[ 4D3 ]
Cl 53 CAP_02 0 4 single_brd [ 4D2 ]
C75_RF CAP_01005 radio_mlb [41C6] single_brd [24 ]
Cl 53_RF CAP_2 01 radio__mlb [ 4 5B2] single_brd[24 ]
C76_RF CAP_01005 radio_mlb [41C6] single_brd [ 24 ]
Cl 56 CAP_0402-1 single_brd [ 18D3]
C77_RF CAP_01005 radio_mlb [41C6] single_brd [ 24 ]
Cl 56_RF CAP_01005 radio_mlb [46C6] single_brd[24 ]
C78 CAP_02 04 single_brd ( 5B5]
Cl 58 CAP_4P1_0402 single_brd [ 4D2 ]
C78_RF CAP_01005 radio_mlb[ 4 1C6] single_brd [ 24 ]
C159 CAP_01005 single_brd [ 13C8 ]
C79 CAP_01005 single_brd[18C8]
Cl 60 CAP_0 610 single_brd [ 4D5 ]
C7 9_RF CAP_01005 radio_mlb [ 4 1B6] single_brd [ 24 ]
Cl 60_RF CAP_02 01 radio_mlb [ 4 6B2] single_brd [ 24 ]
C80 CAP_04 02-2 single_brd[ 4D3 ]
Cl61 CAP_4P1_0402 single_brd [ 4D1]
C80_RF CAP_01005 radio_mlb[ 4 1B6] single_brd [ 24 ]
Cl 62 CAP_04 02 single_brd [ 12D3 ]
C81 CAP_02 04 single_brd[ 5C3 ]
Cl 62_RF CAP_01005 radio_mlb [44C7] single_brd[24 ]
C8 1_RF CAP_01005 radio_mlb [ 4 1B6] single_brd [ 24 ]
Cl 63 CAP_2 01 single_brd [ 18D2 ]
C82 CAP_01005 single_brd[21A6]
Cl 63_RF CAP_01005 radio_mlb [44B7] single_brd[24 ]
C8 2_RF CAP_01005 radio_mlb [ 4 1A6] single_brd [ 24 ]
Cl 64_RF CAP_01005 radio_mlb [ 4 4C6] single_brd [ 24 ]
C83 CAP_4 P1_04 02 single_.brd [ 4C3 ]
Cl 65 CAP_01005 single_brd [ 18D2 ]
C83_RF CAP_01005 radio_mlb[41A6]single_.brd [24 ]
Cl 65_RF CAP_02 01-1 radio_mlb [44C5] single_brd[24 ]
C84 CAP_01005 single_.brd [ 2 1A5]
Cl 66 CAP_4 P1_04 02 single_brd [ 4C5]
C85 CAP_01005 single_brd[ 5A2 ]
Cl 67 CAP_01005 single_brd [ 13B8]
C85_RF CAP_01005 radio_mlb [41D5] single_brd [24 ]
C167_RF CAP_02 01 radio_mlb [44B2] single_brd [ 24 ]
C86 CAP_02 04 single_brd ( 5B5]
Cl 68 CAP_01005 single_brd [ 13A8]
C86_RF CAP_01005 radio_mlb[ 4 1D5] single_brd [ 24 ]
Cl 68_RF CAP_01005 radio_mlb [49B3] single_brd[24 ]
C87 CAP_4 P1_04 02 single_brd[ 4C3 ]
Cl 69 CAP_4P1_0402 single_brd [ 4C5 ]
C87_RF CAP_0201-1 radio_mlb[41C5] single_brd [ 24 J
C169_RF CAP_01005 radio_mlb 149C4J single_brd [ 24 ]
C88 CAP_01005 single_brd[19C3]
C170 CAP_0201 single_brd [ 18D2 ]
C88_RF CAP_04 02 radio_mlb[ 4 1D3] single_brd [ 24 ]
C170_RF CAP_02 01 radio_mlb [56B2] single_.brd [24 ]
C89 CAP_4 P1_04 02 single_brd[ 4C3 ]
Cl73 CAP_02 0 4 single_brd [ 4D2 ]
C8 9_RF CAP_01005 radio_mlb[ 4 1C1] single_brd [ 24 ]
Cl74 CAP_4 P1_04 02 single_brd{ 4C5 ]
C90 CAP_01005 single_brd[19C3]
Cl75 CAP_0 4 02 single_brd [12C4]
C90_RF CAP_01005 radio_mlb [ 4 1C1] single_brd [ 24 ]
Cl7 6 CAP_01005 single_brd [ 17B7 ]
C91 CAP_02 04 single_brd[ 5B3]
Cl77 CAP_0 610 single_brdI4D5 ]
C91_RF CAP_01005 radio_mlb[41C1] single_brd [24 ]
Cl77_RF CAP_0 100 5 radio_mlb [35A5] single_brd [ 24 ]
C92 CAP_4P1_0402 single_brd[20D6]
Cl80 CAP_0204 single_brd [ 6D4 ]
C92_RF CAP_01005 radio_mlb[41B1] single_brd [24 ]
C181 CAP_0 4 02 single_brd [ 12D3]
C93 CAP_01005 single_brd[ 19C3]
Cl82 CAP_04 02 — 1 single_bt?ffl[bD3J
C93 CAP_0201 radio_mlb [42B3 ] single_brd [24 ]
C182_RF CAP_01005 radio_mlb [40C4 ] single_brd [ 2 4 ]
C94 CAP_01005 single_brd[ 19D3]
Cl83 CAP_01005 radio_mlb [42B7] single_brd[24 ]
C95 CAP_02 04 single_brd[ 5B5 ]
Cl84 CAP_01005 single_brd [ 17D6]
C96 CAP_01005 single_brd[ 12B7]
Cl84 CAP_01005 radio_mlb [ 42A7 ] single_brd [ 24 ]
C9 6_RF CAP_01005 radio_mlb [53C6] single_brd [ 24 ]
Cl85 CAP_02 04 single_brd [ 6D3 ]
C97 CAP_4P1_0402 single_brd[ 4B3 ]
Cl85 CAP_01005 radio_mlb [ 42B7 ] single_brd [ 24 ]
C97_RF CAP_01005 radio_mlb [53C5] single_brd [ 24 ]
Cl8 6 CAP_01005 radio_mlb [ 42B7 ] single_brd [ 24 ]
C98 CAP_01005 single_brd[17D2 ]
Cl87 CAP_0402-1 single_brd [ 6D2]
C9S_RF CAP_01005 radio_mlb( 53C5] smqle_brd [24 )
Cl87 CAP_01005 radio_mlb [42B7 ] single_brd[24 ]
C99 CAP_01005 single_brd[17A5]
Cl88 CAP_01005 single_brd[H7B3]
C9 9_RF CAP_01005 radio_mlb [ 53D4 ] single_brd[2 4 ]
Cl88 CAP_01005 radio_mlb [ 42A7 ] single_brd [ 24 ]
C100 CAP_4 P1_04 02 sing1e_brd [ 4B3 ]
Cl8 9 CAP_04 02 sing1e_brd [12C3]
C101 CAP_01005 single_brd[17D3]
Cl8 9_RFI CAP_01005 radio_mlb [ 4 9C5] single_ibrd [24 ]
CI01_ RF CAP_2 01 ra®io_mlb [56D2] single_brd [ 24 ]
Cl 90 CAP_02 04 single_brd [ 7D7l
Cl02 CAP_01005 single_brd[ 17A5]
Cl 90_RF CAP_01005 radio_mlb [50C7] single_brd[24 ]
C102_RF CAP_4 02 radio_mlb [ 56B7 ] single_brd [ 24 ]
Cl91 CAP_01005 single_brd [ 7C5]
Cl03 CAP_01005 single_brd[ 17D3]
Cl 92 CAP_01005 single_brd [ 11D6]
Cl03_RF CAP_04 02-2 radio_mlb [ 56C5 ] single_brd [ 24 ]
Cl 93_RF CAP_01005 radio_mlb [45C6] single_brd[24 ]
Cl04 CAP_0201-1 single_brd[ 12A4 ]
Cl 94 CAP_0201-1 single_brd [ 11C6 J
Cl04_RF CAP_01005 radio_mlb[56C5] single_brd [ 24 ]
Cl 95_RF CAP_01005 radio_mlb [46C6] single_brd[24 ]
Cl05 CAP_01005 single_brd[ 17D3]
Cl 96 CAP_01005 single_brd [ 11C6 ]
C105_RF CAP_01005 radio_mlb[ 56C4 ] single_brd [ 24 ]
Cl 97 CAP_01005 single_brd [ 8B6]
Cl0 6 CAP_01005 single_brd[ 4A8 ]
Cl 98 CAP_01005 single_brd [ 1ID6 ]
C10 6_RF CAP_02 01 radio_mlb [ 56C2 ] single_brd [ 24 ]
Cl 99 CAP_01005 single_brd [ 1IB6 ]
Cl07 CAP_0 610 single_brd[ 4D3 ]
C200 CAP_01005 single_brd [ 11A4 ]
Cl07_RF RES_201 radio_mlb [56C2 ] single_brd [24 ]
C2 00_RF CAP_01005-1 radio_mlb [50C7] single_brd [ 2 4 ]
Cl08 CAP_01005 single_.brd [ 4A8 ]
C201 CAP_01005 single_brd [ 11C7 ]
Cl08_RF CAP_0 1005—1 radio_mlb [ 4 8C6 ] single_brd [ 24 ]
C2 0 1_RF CAP_01005 radio_mlb [50B7] single_brd [ 2 4 ]
Cl0 9 CAP_0201—1 single_brd[ 12A4]
C202 CAP_01005 single_brd [ 11D6]
Cl0 9_RF CAP_01005 radio_mlb[48B6] single_brd [24 ]
C202_RF CAP_01005 radio_mlb [ 50C8] single_brd [ 24 ]
C110 CAP_01005 single_brd[ 17D6]
C203_RF CAP_01005 radio_mlb [ 50C6] single_brd[24 ]
Cll0_RF CAP_01005 radio_mlb [ 4 8C6] single_brd [ 24 ]
C204 CAP_0 4 02-2 single_brd [ 12D7 ]
cm CAP_01005 single_brd[ 4A7 ]
C206 CAP_01005 single_brd [ 17B2 ]
Cll1_RF CAP_0201-1 radio_mlb [48C5] single_brd [ 24 ]
C207 CAP_02 01-1 single_brd [ 12A4 ]
Cl12 CAP_4P1_0402 single_brd ( 4B3 ]
C207_RF CAP_2 01 radio_mlb [50B3] single_brd [ 24 ]
Cl12_RF CAP_0201 radio_mlb [50B4 ] single_brd [ 24 ]
C208 CAP_01005 single_brd [ 8B4]
Cl13 CAP_01005 single_brd[ 4A7 ]
C2 08_RF CAP_01005 radio_mlb [44C6] single_brd[24 ]
Cl13_RF CAP_0201 radio_mlb[ 4 8B3] single_brd [ 24 ]
C209 CAP_0402-1 single_brd [ 6D2]
Cl 14 CAP_01005 single_brd[ 4A5 ]
C2 0 9_RF CAP_2 01 radio_mlb [44C5] single_brd[24 ]
Cl14_RF CAP_0201 radio_mlb [ 4 8B3] single_brd [ 24 ]
C210 CAP_01005 single_brd [ 1IB6 ]
Cl15 CAP_02 04 single_brd[ 5C2 ]
C2 10_RF CAP_01005 radio_mlb [ 4 5C6] single_brd [ 24 ]
Cll5_RF CAP_01005 radio_mlb [ 4 8B2 ] single_brd [ 24 ]
C211 CAP_01005 single_brd [ 11B7 ]
Cll6 CAP_01005 single_.brd [ 17D6]
C2 11_RF CAP_2 01 radio_mlb [45C5] single_brd [ 2 4 ]
Cll6_RF CAP_01005 radio_mlb [ 47C7 ] single_brd [ 24 ]
C212 CAP_01005 single_brd [ 1IB6 ]
Cl17 CAP_01005 single_brd[ 4A5 ]
C212_RF CAP_01005 radio_mlb [47C5] single_brd[24 ]
Cll7_ RF CAP_01005 radio_mlb[47B7] single_brd [24 ]
C213 CAP_01005 single_brd [14B5]
Cl18 CAP_01005 single_brd[ 4A4 ]
C213_RF CAP_2 01 radio_mlb [47C5] single_brd [ 2 4 ]
Cll8_RF CAP_01005 radio_mlb [47C6] single_brd [24 ]
C214 CAP_01005 single_brd [ 14A5]
Cl19 CAP_01005 single_brd[ 17D3]
C214_RF CAP_01005 radio_mlb [47C4 ] single_brd [ 2 4 ]
Cll9_RF CAP_0201-1 radio_mlb [47C5] single_brd [ 24 ]
C215 CAP_02 01-1 single_brd [ 17B7]
C120 CAP_01005 single_brd[ 4A4 ]
C2 15_RF CAP_01005 radio_mlb [47C4 ] single_brd[24 ]
Cl2 0_RF CAP_01005-1 radio_mlb[ 50C8 ] single_brd [ 24 ]
C216 CAP_02 01-1 single_brd [ 8C3 ]
C121 CAP_4 P1_04 02 single_brd[ 4B3 ]
C2 16_RF CAP_01005 radio_mlb [47C4 ] single_brd[24 ]
C12 1_RF CAP_01005 radio_mlb [ 4 8C2 ] single_brd [ 24 ]
C217_RF CAP_01005 radio_mlb [ 4 8C5 ] single_brd [ 24 ]
C122 CAP_4 P1_04 02 single_brd[ 4B3 ]
C218 CAP_4 02 single_brd [ 10B7 ]
C122_RF CAP_2 01 radio_mlb [ 4 7B2 ] single_brd [ 2 4 ]
C219 CAP_4 02 single_brd [ 10A7 ]
C123 CAP_04 02 single_brd[12C4 ]
C220 CAP_01005 single_brd [ 9C7 ]
Cl2 3_RF CAP_0201 radio_mlb [ 47B2 ] single_brd [ 24 ]
C221 CAP_01005 single_brd [ 9C7 ]
Cl2 4 CAP_4 P1_04 02 single_brd[ 4B3 ]
C222 CAP_01005 single_brd [ 9C7]
Cl2 4_RF CAP_02 01 radio_mlb [50B3] single_brd [24 ]
C223 CAP_01005 single_brd [ 9C7]
Cl2 6 CAP_01005 single_brd[ 17D3]
C224 CAP_01005 single_brd [ 9B7]
C22 6__RF CAP_01005 radio_mlb [ 50C5 ] single_brd[ 24 ]
C227 CAP_01005 single_brd[ 9C6 ]
C227__RF CAP_01005 radio_mlb [ 50C4 ] single_brd [ 24 ]
C228 CAP_01005 single_brd[ 9B6 ]
C228__RF CAP_01005 radio_mlb [ 50C4 ] single_brd [ 24 ]
C229 CAP_01005 single_brd[ 9C6 ]
C22 9__RF CAP_01005 radio_mlb [ 50C4 ] single_brd[ 24 ]
C230 CAP_01005 single_brd[ 9C6]
C2 30__RF CAP_01005 radio_mlb [ 50C4 ] single_brd [ 24 ]
C231 CAP_01005 single_brd[ 9B6 ]
C231__RF CAP_01005 radio_mlb [ 50C3 ] single_brd[ 24 ]
C232 CAP_4 02 single_brd [ 10C5]
C232__RF CAP_01005 radio_mlb [ 50C3 ] single_brd[ 24 ]
C233 CAP_4 02 single_brd [ 10C5]
C233__RF CAP_01005 radio_mlb [46C5] single_brd[24 ]
C234 CAP_4 02 single_brd [ 10B5]
C2 34__RF CAP_02 0 1 radio_mlb [ 4 6C5 ] single_brd[ 24 ]
C235 CAP_01005 single_brd[ 9C3 ]
C2 35__RF CAP_2 01 radio_mlb [48C5] single_brd[24 ]
C236 CAP_01005 single_brd[ 9C3 ]
C236__RF CAP_01005 radio_mlb [ 44C4 ] single_brd [ 24 ]
C237 CAP_02 01-1 single_brd[ 10B8 ]
C2 37__RF CAP_ 0 1005 radio_mlb [ 44C4 ] single_brd [24 ]
C238 CAP_4 02 single_brd[10B8]
C238__RF CAP_01005 radio_mlb [ 44C4 ] single_brd [ 24 ]
C2 3 9__RF CAP_01005 radio_mlb [ 4 6C4 ] single_brd[ 24 ]
C240 CAP_01005 single_brd[ 17B4 ]
C2 4 0__RF CAP_01005 radio_mlb [ 4 6C4 ] single_brd [24 ]
C241 CAP_01005 single_brd[8B4 ]
C242 CAP_01005 single_brd [ 17D6 ]
C242__RF CAP_01005 radio_mlb [ 50C6 ] single_brd [ 24 ]
C243 CAP_01005 single_brd [ 19B4 ]
C2 4 3__RF CAP_01005 radio_mlb [ 50C6 ] single_brd [ 24 ]
C244 CAP_01005 single_brd[ 8C3 ]
C2 4 4__RF CAP_01005 radio_mlb [ 4 1D1] single_brd[ 24 ]
C2 4 5__RF CAP_02 01 radio_mlb [ 4 3B4 ] single_brd[ 24 ]
C2 4 6__RF CAP_02 01 radio_mlb [ 4 3B4 ] single_brd [ 24 ]
C2 4 7__RF CAP_01005 radio_mlb [ 5 3D4 ] single_brd [ 24 ]
C2 4 8__RF CAP_ 0 1005 radio_mlb [ 40C2 ] single_brd[24 ]
C249 CAP_ 0201 single_brd[ 2 1B6 ]
C2 4 9__RF CAP_02 01 radio_mlb [ 4 4B3 ] single_brd[ 24 ]
C250 CAP_ 0 4 02 — 1 single_brd[ 12A7 ]
C250__RF CAP_2 01 radio_mlb [ 4 5B3 ] single_brd[24]
C251 CAP_0 4 02-1 single_brd[ 12A7]
C2 5 1__RF CAP_2 01 radio_mlb [ 4 5B3 ] single_brd[ 24 ]
C252 CAP_0402-1 single_brd [ 14B8]
C252__RF CAP_02 0 1 radio_mlb [ 4 7B3 ] single_brd[24]
C253 CAP_01005 single_brd[ 11B3 ]
C2 53__RF CAP_02 01 radio_rnlb [47B3] single_brd[ 2 4 ]
C254 CAP_01005 single_brd[ 16D5 ]
C2 54__RF CAP_01005-1 radio_mlb [48B3] single_brd[ 24 ]
C255__RF CAP_2 01 radio_mlb [ 51C7 ] single_brd [ 24 ]
C256 CAP_4 02 single_brd[ 11A3 ]
C2 5 6__RF CAP_01005 radio_mlb [47C6] single_brd[24 ]
C2 57__RF CAP_01005 radio_mlb [47B6] single_brd[ 2 4 ]
C258 CAP_01005 single_brd[ 19B3 ]
C2 58__RF CAP_01005 radio_mlb [44C6] single_brd[24 ]
C259 CAP_01005 single_brd[7C5]
C259__RF CAP_01005 radio_mlb [45B6] single_brd[ 24 ]
C260 CAP_0402-1 single_brd [ 12B8]
C261 CAP_04 02 — 1 single_brd[ 12B8]
C262 CAP_04 02 single_brd [ 12D3 ]
C263 CAP_0402-1 single_brd [ 12B8]
C264 CAP_0402-1 single_brd [ 12B8]
C265 CAP_01005 single_brd[ 13B6 ]
C266 CAP_0201-1 single_brd[ 12C8 ]
C267 CAP_0402-1 single_brd[ 12B8 ]
C268 CAP_0 4 02-1 single_brd[ 12B8 ]
C270 CAP_04 0 2 — 1 single_brd[ 12B7]
C271 CAP_0 4 02-1 single_brd[ 12B7]
C272 CAP_4 02 single_brd[ 12C7]
C274 CAP_01005 single_brd[ 7C4 ]
C275 CAP_01005 single_brd[ 2 2D 6 ]
C276 CAP_01005 single_brd [ 12A7 ]
C278 CAP_4 02 single_brd[ 12B7]
C279 CAP_01005 single_brd[22D6]
C280 CAP_01005 single_brd[7B5]
C280__RF IND_0201 radio_mlb [ 56C2 ] single_brd [ 24 ]
C281 CAP_0402-2 single_brd [ 12D7 ]
C281__RF IND_0201 radio_mlb [ 56B2 ] single_brd [ 24 ]
C282 CAP_4P1_0402 single_brd[ 4C5 ]
C282 CAP_02 01 radio_mlb [ 52B6 ] single_brd[ 24 ]
C283 CAP_01005 single_brd[ 12A7]
C2 83__RF CAP_02 01 radio_mlb [ 56C2 ] single_brd[ 24 ]
C284 CAP_01005 single_brd[ 7B4 ]
C285 CAP_0 610 single_brd[ 4C8 ]
C286 CAP_ 0 1005 single_brd[ 2 1B5 ]
C287 CAP_ 0 1005 single_brd[21B5]
C289 CAP_02 01-1 single_brd[ 8C6 ]
C290 CAP_04 02 single_brd [ 12D4 ]
C291 CAP_01005 single_brd [ 12A2 ]
C292 CAP_04 02 single_brd[ 12D4 ]
C293 CAP_04 02 single_brd [ 12D2 ]
C294 CAP_04 02 single_brd [ 12D3 ]
C295 CAP_01005 single_brd [ 19B3]
C296 CAP_04 02 single_brd [ 12D4 ]
C297 CAP_0402-1 single_brd[ 14B8 ]
C298 CAP_02 01-1 single_brd[ 20A7 ]
C299 CAP_4 02 single_brd[ 12A4 ]
C300 CAP_01005 single_brd[ 20A6 ]
C301 CAP_0 4 0 2 single_brd[ 12C4 ]
C302 CAP_ 0 610 single_brd[ 4B7 ]
C303 CAP_0 4 02 single_brd[ 12C4 ]
C304 CAP_0 4 02 single_brd[ 16D2 ]
C305 CAP_ 0 610 single_brd[ 5C2 ]
C306 CAP_02 0 1 single_brd[ 18D5]
C307 CAP_04 02 — 1 single_brd[ 6D2 ]
C308 CAP_0 4 02 single_brd [ 12D2 ]
C310 CAP_04 02 single_brd [ 12C3]
C311 CAP_01005 single_brd [ 8B6 ]
C313 CAP_01005 single_brd [ 8B6]
C314 CAP_01005 single_brd[ 8B6 ]
C315 CAP_04 02 single_brd[ 18D4 ]
C316 CAP_04 02 single_brd[ 12D1]
C317 CAP_2 01 single_brd[ 13C4 ]
C318 CAP_02 01-1 single_brd[ 13C4 ]
C319 CAP_2 01 single_brd[ 13C4 ]
C320 CAP_P_0603-LLP single_brd[ 18A4 ]
C321 CAP_P_0 4 02 single_brd[ 18B4 ]
C322 CAP_01005 single_brd[ 13B8 ]
C323 CAP_01005 single_brd[ 13C3 ]
C324 CAP_04 02 single_brd [ 18D4 ]
C325 CAP_0 4 02 — 1 single_brd[ 12A6]
C326 CAP_01005 single_brd [ 13C3]
8 7 6 5 4 3
8 7 6 5 4 3 2 1
D
C
B
A
C327 CAP_0 4 02 single_brd[ 12C1]
C328 CAP_02 01 single_brd[18B3]
C329 CAP_0 603-1 single_brd[ 14C3 ]
C330 CAP_0 4 02-1 single_brd[14C3]
C331 CAP_0 4 02 single_brd[18D4 ]
C332 CAP_0 4 02-1 single_brd[15C6]
C333 CAP_0 4 02-1 single_brd[15C7 ]
C334 CAP_0 2 01— 1 single_brd[ 2 0C3 ]
C335 CAP_0 4 02-1 single_brd[ 15D6]
C336 CAP_0 1005 single_brd[ 2 0C2 ]
C337 CAP_0201-1 single_brd[ 15D6]
C338 CAP_0201-1 single_brd f 16C3 ]
C339 CAP_2 01 single_brd[ 15D5 ]
C34 0 CAP_4 02 single_brd[ 15C4 ]
C341 CAP_0201-1 single_brd [15C4 ]
C342 CAP_0201 single_brd[ 15D6]
C343 CAP_02 01-1 single_brd[ 12B7]
C344 CAP_0 1005 single_brd [20D2 ]
C345 CAP_0 1005 single_brd[ 2 0D3]
C346 CAP_02 01 single_brd[18A3 ]
C347 CAP_02 01-1 single_brd[ 2 0D2 ]
C348 CAP_0 603-1 single_brd[15D7 ]
C349 CAP_0 2 01 single_brd[18B3]
C350 CAP_4 02 single_brd[19D2 ]
C351 CAP_4 02 single_brd[19D2 ]
C354 CAP_0 1005 single_brd[ 9A6 ]
C355 CAP_0 1005 single_brd[ 17B6]
C356 CAP_0 1005 single_brd[ 9A6 ]
C357 CAP_0 4 02-1 single_brd[ 12C8]
C358 CAP_0402-1 single_brd[ 12C8 ]
C359 CAP_0 1005 single_brd[17B6]
C360 CAP_0 1005 single_brd[15B3]
C362 CAP_0 1005 single_brd[ 9A6 ]
C363 CAP_0 1005 single_brd[ 15B3]
C364 CAP__02 01 single_brd[18A3 ]
C365 CAP_0 2 01 single_brd[18D2 ]
C368 CAP_0 2 01 single_brd[ 17A6]
C369 CAP_0 4 02-1 single_brd[18C7 ]
C370 CAP_4 02 sirigle_brd[18C7 ]
C371 CAP_4 02 single_brd[18C7]
C372 CAP_0201—1 sirigle_brd[ 18C6]
C374
C375
SUPPR_ TRANS IENT_2P1_
010 0 5
SUPPR_TRANSIENT_2P1_
01005
single_brd[ 17C3]
single_brd[ 17C3]
C376 CAP_02 01 single_brd[6D3]
C377 CAP_0 4 02 single_brd[ 6D3]
C378 CAP_0 4 02 single_brd[ 6D3 J
C379 CAP_0201-1 single_brd[ 5A5 J
C380 CAP_02 01-1 single_brd[11C3]
C381 CAP_02 01 single_brd[18D5 ]
C385 CAP_0 4 02-1 single_brd[15D6]
C386 CAP_0 4 02-1 single_brd[15B6 ]
C387 CAP_0 4 02-1 single_brd[15B6]
C389 CAP_02 01— 1 single_brd[ 2 1C6]
C390 CAP_0 201-1 sirtgle_brd [21C6]
C391 CAP_0 2 01— 1 single_brd[ 2 1D6]
C392 CAP_0 1005 single_brd[ 2 1C5]
C393 CAP_0 1005 single_brd[21D5]
C394 CAP_0 4 02-2 single_brd [15B4 ]
C395 CAP_0 1005 single_brd[ 2 1C5]
C396 CAP_0402-2 single_brd ( 15B4 ]
C397 CAP_0 1005 single_brd [8D3]
C398 CAP__0 4 02-1 single_brd [12B8 ]
C399 CAP_0 4 02-1 single_brd[ 12A8 J
C400 CAP_0 1005 single_brd[ 2 1A5]
C402 CAP_0 1005 single_brd[11C3]
C403 CAP_0 2 01 single_brd[21B5]
C404 CAP_01005 single_brd[21B5]
C405 CAP_0 4 02-1 single_brd[ 12A8]
C406 CAP_0 1005 single_brd[ 8D6 ]
C407 CAP_01005 sirigle_brd[11C3]
C408 CAP_01005 single_brd[15A4 ]
C409 CAP_0 1005 single_brd [8D6]
C410 CAP_0 1005 single_brd[ 11C3]
C411 CAP_0 4 02-1 single_brd[ 12B7]
C412 CAP_0201-1 single_brd[ 10C7]
C413 CAP_0 1005 single_brd [10C7 ]
C414 CAP_0402-2 single_brd[ 10C7 ]
C416 CAP_0 1005 single_brd[ 10C6]
C417 CAP_0 4 02-1 single_brd[ 12A7 J
C418 CAP_0 4 02-1 single_brd[ 12A7]
C419 CAP_02 01-1 single_brd[ 12A2]
C420 CAP_2 01 single_brd[10D6]
C421 CAP_2 01 single_brd[10D6]
C422 CAP_0 4 02-2 single_brd[10D7 ]
C423 CAP_0 2 01— 1 single_brd[21D6]
C424 CAP_0 4 02-2 single_brd[1OB5 ]
C425 CAP_4 02 sirtgle_brd[ 10C4]
C427 CAP_0 1005 single_brd [22A8 ]
C429 CAP_4 02 single_brd[ 10B4]
C430 CAP_0 1005 single_brd [22A8 ]
C432 CAP_0 1005 single_brd [22A7 ]
C433 CAP_0 1005 single_brd[22A6]
C434 CAP_0 1005 single_brd[22A6]
C435 CAP_0 1005 single_brd[22A6]
C436 CAP_01005 single_brd[ 22A6 ]
C437 CAP_0 1005 single_brd[ 22A6 J
C438 CAP_0 1005 single_brd[ 22A6 ]
C439 CAP_2 01 single_brd[19D3]
C440 CAP_01005 single_brd[19D4 ]
C441 CAP_0 2 01-1 single_brd[ 14C4 ]
C442 CAP_02 01— 1 single_brd[ 12A3 ]
C443 CAP_0 4 02 single_brd[ 12D2]
C444 CAP_01005 single_brd[19D3]
C500 CAP_0 1005 single_brd[ 15B2 ]
C501 CAP_0 1005 single_brd[15B2]
C999 CAP_0 4 02-1 single_brd[ 6D2 ]
C120 1_RF CAP_0 4 02 radio_mlb [ 4 9C5 ] single_brd [24]
C12 14_RF CAP_0 1005 radio_mlb [ 4 9C5 ] single_brd [24]
C12 15_RF CAP_0201-1 radio_mlb [ 4 9C4 ] single_brd [24]
CI600 CAP_4 02 single_brd[16B4 ]
C17 2 6_RF CAP_0 1005 radio_mlb [ 53D6 J single_brd [24]
C1799 CAP_0 1005 single_brd[ 17D7 J
C2260 CAP_0 1005 single_brd[ 9C7 J
C2290 CAP_01005 single_brd[ 9C7 ]
C2307 CAP_01005 single_brd[ 17B2]
C2511 CAP_4 02 single_brd[ 2 1B7]
C2800 CAP_2 01 single_brd[ 14B1]
C3096 CAP_0 1005 single_brd[ 12D7]
C3301 CAP_0 4 02-1 single_brd[ 18D4]
C3337 CAP_0201-1 single_brd f 15D6]
C3345 CAP_0 1005 single_brd[ 2 OCl ]
C5000 CAP_0 1005 single_brd[ 4B8 ]
D1 DIODE_SCHOT_2P_SOD-9 single_brd[ 14B6]
D3
DZ1
23-HF
DIODE_SCHOT_DFN1006-
o
£-
single_brd[ 8C6]
SUPPR_TRANSIENT_2P1_ single_brd[ 8B6 ]
01005-1
DZ2 SUPPR_TRANSIENT_2P1_ single_brd[ 8B6 ]
01005-1
DZ3 SUPPR_ TRANS IENT_2P1_ single_brd[ 8B6]
01005—1
DZ4 ZENER_ GDZ—0201 single_brd[ 18D3]
DZ7 SUPPR_ TRANSIENT_2P 1_ s ingle_brd[ 8B6]
01005-1
DZ 9 SUPPR_TRANSIENT_2P1_ single_brd[ 17B6]
01005
DZ10 SUPPR_TRANSIENT_2P1_ single_brd[ 17B6]
01005
DZ11 SUPPR_TRANSIENT_2P1_ single_brd[ 17C6]
01005
DZ 12 SUPPR_TRANSIENT_2P1_ s ingle_brd[ 17C6]
DZ13
01005
SUPPR_TRANSIENT_2P1_ s ingle_brd[17B5]
01005-1
DZ14 SUPPR_TRANS IENT_2P1_ single_brd[ 17B5]
01005—1
DZ15 SUPPR_TRANSIENT_2P1_ single_brd[ 17B6]
01005—1
DZ16 SUPPR_ TRANS IENT_2P1_ single_brd f 11B5]
DZ17
01005-1
SUPPR_TRANSIENT_2P1_ single_brdI11B5]
01005-1
DZ18 SUPPR_TRANSIENT_2P1_ single_brd ( 11B5]
DZ19
01005-1
SUPPR_TRANSIENT_2P1_ single_brd[11B5]
01005-1
DZ101 SUPPR_TRANSIENT_2P1_ single_brd[ 8C5 ]
01005-1
DZ1100 SUPPR_TRANSIENT_2P1_ s ingle_brd[ 11C3]
01005
DZ1101 SUPPR_ TRANS IENT_2P1_ single_brd[ 11B3]
010 0 5
FD1 FIDUCIAL_0P 5SM1POSQ- single_brd[22C8 ]
NSP
FD2 FIDUCIAL_0P 5SM1POSQ- s ingle_brd[22C8 ]
NSP
FD3 FIDUCIAL_0P5SM1P0SQ- single_brd 122B8]
NSP
FD4 FIDUCIAL_0P5SM1P0SQ- single_brd[ 22B8 ]
NSP
FD5 FIDUCIAL_0P5SM1P OSQ- single_brd[22B8 ]
NSP
FD6 FIDUCIAL_0P5SM1P0SQ- single_brd[22B8 ]
NSP
FD7 FIDUCIAL_0P5SM1P0SQ- single_brd[ 22B8 ]
NSP
FL1 FILTER_2P_0 1005 single_brd[ 17C7]
FL1_RF FILTER_2P_01005-1 radio_mlb[ 50C7 ] single_brd [ 24 ]
FL2 FILTER_2P_01005 single_.brd [ 11B7]
FL2_RF FILTER_SAW_LMTPFJGAE radio_mlb[43C3] single_brd [24 ]
5 0_LGA
FL3 FILTER_2P_01005 single_brd[ 8B6]
FL4 FILTER_2P_01005 single_brd[ 11B7 ]
FL4_RF FILTER_2P_01005-1 radio_mlb[39B7 ] single_brd [24 ]
FL5 FILTER_2P_01005 single_brd[ 17B7 ]
FL6 FILTER_2P_04 02 single_brd[15C2 ]
FL6_RF FILTER_SAW_2UNB2BAL_ radio_mlb[ 4 3B4 ] single_brd [ 24 ]
10P_LGA-1
FL7 FILTER_2P_01005 single_brd[ 8B6]
FL8 FILTER_2P_01005 single_brd[ 8B6]
FL9 FILTER_2P_04 02 single_brd[ 15C2]
FL9_RF FIL_COUPLER_ 6P_0 805 — radio_mlb[50B2 ] single_brd [ 2 4 ]
6SM
FL10 FILTER_2P_0 1005 slngle_brd[17£71
FLl0_RF FIL_COUPLER_6P1_080 5 radic_mlb[ 50C2] single_brd [24 ]
-6SM
FLU FILTER_2P_01005 s ingle_brd[ 22D6 ]
FLl2 FILTER_2P_01005-1 single_brd[ 11D7 ]
FLl3 FILTER_2P_01005 single_brd[11D7 ]
FLl4 FILTER_2P_01005-1 single_brd[ 11C7]
FLl5 FILTER_2P_01005-1 single_brd[11D7]
FLl6 FILTER_2P_01005 single_brd[ 17C6]
FLl7 FILTER_2P_01005 single_brd[ 17C6]
FLl9 FILTER_2P_0201 s ingle_brd[17D2 ]
FL20 FILTER_2P_0100 5 single_brd[11B7 ]
FL21 FILTER_2P_01005 single_brd[ 8D3]
FL22 FILTER_2P_01005 single_brd[21A6]
FL23 FILTER_2P_01005-1 single_brd[11C2]
FL24 FILTER_2P_0201-1 single_brd[19B3]
FL25 FILTER_2P_0201—1 single_brd[ 19A3]
FL26 FILTER_2P_0201-1 s ingle_brd[ 19A3]
FL27 FILTER_2P_0201-1 s ingle_brd[ 19D3]
FL28 FILTER_2P_01005 single_brd[21A6]
FL29 FILTER_2P_01005-1 single_brd[21B6]
FL30 FILTER_2P_01005-1 single_brd[21B6]
FL31 FILTER_2P_01005-1 single_brd[21B6]
FL32 FILTER_2P_01005 single_brd[ 17D2]
FL33 FILTER_2P_01005-1 single_brd[ 17D6]
FL34 FILTER_2P_01005 single_brd[19C3]
FL35 FILTER_2P_01005 single_brd[19D3]
FL36 FILTER_2P_0100 5 single_brd[19C3 ]
FL37 FILTER_2P_0201— 1 single_brd[19D3 ]
FL38 FILTER_2P_01005 single_brd [20B7 ]
FL39 FILTER_2P_01005 single_brd[20B5]
FL40 FILTER_2P_01005 single_brd[ 2 0D7 ]
FL41 FILTER_2P_01005 single_brd[ 2 0D4 ]
FL42 FILTER_2P_01005 single_.brd [ 2 0D7 ]
FL43 FILTER_2P_01005-1 single_brd[21B6]
FL44 FILTER_2P_01005-1 s ingle_brd[11D3]
FL45 FILTER_2P_01005 single_brd ( 11C7 ]
FL46 FILTER_2P_01005 single_brd[ 8B6]
FL47 FILTER_2P_01005 single_brd[8C3]
FL48 FILTER_2P_01005 single_brd[11B2]
FL49 FILTER_2P_0100 5 single_brd[ 17B7]
FL50 FILTER_2P_01005 single_brd[ 17D2]
FL51 FILTER_2P_01005-1 single_brd[11A7]
FL52 FILTER_2P_01005-1 single_brd[11A7]
FL53 FILTER_2P_01005-1 single_brd[17A3 ]
FL54 FILTER_2P_01005-1 single_brd[ 17D6]
FL55 FILTER_2P_01005 single_brd [20D4 ]
FL56 FILTER_2P_01005 single_brd[ 2 0D4 ]
FL57 FILTER_2P_01005 single_brd[11B7]
FL58 FILTER_2P_01005 s ingle_brd[ 11C7]
FL59 FILTER_2P_01005 single_brd[ 17D2]
FL60 FILTER_2P_01005-1 s ingle_brd[ 17A3]
FL61 FILTER_2P_01005-1 single_brd [ 19D3 ]
FL62 FILTER_2P_01005 single_brd [ 19B3 ]
FL63 FILTER_2P_01005 single_brd [ 17D2 ]
FL64 FILTER_2P_01005-1 single_brd [ 11A7 ]
FL65 FILTER_2P_01005-1 single_brd [ 11A7 ]
FL66 FILTER_2P_01005 single_brd [ 17D6]
FL67 FILTER_2P_0201 single_brd [ 5A5 ]
FL68 FILTER_2P_01005 sing1e_brd [ 17B7 ]
FL6 9 FILTER_2P_01005 single_brd [ 17C7 ]
FL74 FILTER_2P_01005-1 sing1e_brd [ 8C6]
FLl7 0 1_RF FILTER_3P5_LFEl88 32M radio_mlb [ 53D7 ] single_brd[24 ]
HC1D449
FL2302 FILTER_2P_01005 single_brd [ 17C2 ]
J1 CON_F 3 4 ST_D 6MT_SM_F- single_brd [ 11C5]
ST-SM
J1_RF CON_M5 4 ST_D 4MT_SM_M- radio_mlb [ 35D2 ] single_brd [ 24 ]
ST-SM
J2 CON_M18ST_D 4MT_SM_M- single_brd [ 8C4 ]
ST-SM
J2_RF CON_F1ST_COAX_S3MT_S radio_mlb [ 35B2 ] single_brd [ 24 ]
M_F-ST-SM
J3 CON_M32ST_D4MT_SM_M- single_brd [21C4 ]
ST-SM
J3_RF CON_F1ST_COAX_S 3MT_S radio_mlb [ 35B2 ] single_brd [ 24 ]
M_F— ST—SM
J4 CON_M42ST_D 6MT_SM_M- single_brd [ 18A7 ]
ST-SM-COMBO
J4_RF CON_F1ST_COAX_S3MT_S radio_mlb [53B8] single_brd [ 24 ]
M_F-ST-SM
J5 CON_M22ST_D4MT_SM_M- single_brd [ 19C5]
ST-SM
J5_RF CON_FlST_COAX_S3MT_S radio_mlb [53C3] single_brd [ 24 ]
M_F-ST-SM
J6 CON_F6ST_6MT_BATT_SM single_brd [ 22D7 ]
_F-ST-SM
J6_RF CON_F1ST_COAX_S3MT_S radio_mlb [ 53C3 ] single_brd [ 24 ]
M_F-ST-SM
J7 CON_M3 8ST_D 4MT_SM_M- single_brd [ 17C4 ]
ST-SM
J10_RF CON_F1ST_COAX_S3MT_S radio_mlb [ 56D4 ] single_brd [ 24 ]
M_F— ST—SM
J11_RF CON_F 6ST_6MT_SIMCARD radio_mlb [ 35A6] single_brd [ 24 ]
_SM3_F-ST-SM
LI IND_04 02 single_brd [ 14B3]
L1_RF IND_08 0 6 radio_mlb [36D3] single_brd [ 24 ]
L2_RF IND_0806 radio_mlb [ 36C3 ] single_brd [ 24 ]
L3 IND_P_VLF302510T-SM single_brd [14B7]
L3_RF IND_08 0 6 radio_mlb [36C3] single_brd[24 ]
L4 IND_TFA252 010-SM single_brd [ 15C6]
L4_RF IND_0806 radio_mlb [36D3 J single_brd [ 2 4 ]
L5 IND_P_TFA2 0161OG-SM single_brd [ 15B6]
L5_RF IND_P_2520-SM radio_mlb [ 36C3] single_brd [ 24 ]
L6 IND_0201 single_brd [ 17C2 ]
L6_RF IND_01005 radio_mlb [53C6] single_brd [ 24 ]
L7 IND_0201 sing1e_brd [ 17 C2 ]
L7_RF IND_01005 radio_mlb [47C6] single_brd [ 2 4 ]
L8 IND_P_TFA2 0161OG-PSE single_brd [ 12C7 ]
20161T2R2
L8__RF IND_03015 radio_mlb [ 53C4] single_brd[24 ]
L9 IND_P_TFA20161OG-SM single_brd [ 12D4]
L9_RF IND_06 0 3
LI0 IND_P_TFA20161OG-SM single_brd [ 12D4 ]
L10_RF IND_01005 radio_mlb [47B6] single_brd[24 ]
LI1 IND_P_TFA20161OG-SM single_brd [ 12D4 ]
LI1_RF IND_01005 radio_mlb [44C6] single_brd[24 ]
L12 IND_P_TFA20161OG-SM single_brd [ 12D4 ]
LI2_RF IND_01005 radio_mlb [44B6] single_brd[24 ]
LI3 IND_P_TFA20161OG-SM single_brd [ 12C4 ]
L13_RF IND_01005 radio_mlb [ 50C7 ] single_brd [ 24 ]
LI4 IND_P_TFA20161OG-SM sinqle_brd [ 12C4 ]
LI4_RF IND_01005 radio_mlb [ 45C7 ] single_brd [ 24 ]
LI5 IND_ P _ TFA2 0161OG-SM single_brd []12C4 ]
L15_RF IND_01005 radio_mlb [ 45B6] sinqle_brd [ 24 ]
L16 IND_P_ TFA2 01610G -SM single_brd [ 12D2 ]
Ll6_RF IND_01005 radio_mlb [46C7] single_brd [ 24 ]
Ll7 IND_P_TFA2 0161OG-SM single_brd [ 12D2 ]
Ll7_RF IND_01005 radio_mlb [46C6] single_brd [ 24 ]
Ll8 IND_P_PIFE20161T-SM single_brd [ 12C2]
L18_RF IND_01005 radio_mlb [48C6] single_brd[24 ]
Ll9 IND_P_TFA20161OG-SM single_brd [ 14D6]
Ll9_RF IND_01005 radio_mlb [48B6] single_brd[24 ]
L20 IND_0201 radio_mlb [52B6] single_brd[24 ]
L21 IND_PSB1210 IT—SM sing1e_brd [ 18B3]
L21_RF IND_P_MAKK2016-SM radio_mlb [ 4 9C4 ] single_brd [ 24 ]
L22_RF IND_0201 radio_mlb [ 4 8C2 ] single_brd [ 24 ]
L23_RF IND_0201 radio_mlb [ 50B3 ] single_brd [ 24 ]
L24 IND_0201 radio_mlb [50C3] single_brd [ 2 4 ]
L28 IND_0201 single_brd [21C6]
L29 IND_0201 single_brd [ 2ID6 ]
L30 IND_0201 single_brd [21C5]
L33 FILTER_4P_TCM0605-1 single_brd [21C2 ]
L33_RF CAP_02 01 radio_mlb [56D3] single_brd [ 2 4 ]
L34
FILTER_4P_TCM0605-1 single_brd [21C2]
L35 FILTER_4P_TCM0605-1 single_brd [ 11D2 ]
L36 FILTER_4P_TCM0605-1 single_brd [21B2]
L36 IND_020 IDS radio_mlb [42B7 ] single_brd [ 2 4 ]
L37 FILTER_4P_TCM0605-1 single_brd [ 2 1B2 ]
L37 IND_0201 radio_mlb [ 42B7 ] single_brd [ 24 ]
L38 FILTER_4P_TCM0605-1 single_brd [21B2 ]
L38 IND_020 IDS radio_mlb [42B6] single_brd[24 ]
L39 FILTER_4P_TCM0605-1 single_brd [ 11D2 ]
L39 IND_0201 radio_mlb [42B6] single_brd [ 24 ]
L41 FILTER_4P_TCMO 605-1 single_brd [ 19C7 ]
L42 FILTER_4P_TCMO 60 5— 1 single_brd [ 19C7 ]
L44 FILTER_4P_TCMO 605-1 single_brd [ 19C7 ]
L44 IND_0201 radio_mlb [42B3] single_brd [ 2 4 ]
L4 5 IND_0201 radio_mlb [42B3] single_brd [ 2 4 ]
L4 6 IND_0201 radio_mlb [42A3] single_brd [ 2 4 ]
L49 IND_0201 radio_mlb [42B3] single_brd [ 24 ]
L50 IND_0201 radio_mlb [42B3] single_brd[24 ]
L51 IND_0201 radio_mlb [42A3] single_brd [ 24 ]
L52 IND_0201 radio_mlb [ 4 2A3 ] single_brd [ 24 ]
L53_RF IND_0201 radio_mlb [ 4 3B2 ] single_brd [ 24 ]
L54_RF IND_0201 radio_mlb [43B2 ] single_brd[24 ]
L55_RF IND_0201 radio_mlb [43B2 ] single_brd[24 ]
L57_RF IND_0201 radio_mlb [ 50B1] single_brd [ 24 ]
L64_RF IND_0201 radio_mlb [ 4 3B5 ] single_brd [ 2 4 ]
L6 5_RF IND_0201 radio_mlb [43B5] single_brd [ 2 4 ]
L6 6_RF IND_01005 radio_mlb [ 53C6] single_brd [ 24 ]
L67_RF IND_01005 radio_mlb [53C6] single_brd [ 2 4 ]
L68_RF IND_01005 radio_mlb [ 53C6] single_brd [ 24 ]
L6 9_RF IND_01005 radio_mlb [53D3] single_brd [ 2 4 ]
L70_RF IND_0201 radio_mlb [44C3] single_brd [ 2 4 ]
L71_ RF IND_0201 radio_mlb [45C3] single_brd [ 24 ]
L72_RF IND_020 1 radio_mlb [45B3] single_brd[24 ]
L73_RF IND_020 1 radio_mlb [ 4 6C3 ] single_brd[24 ]
L74_RF IND_020 1 radio_mlb [47C3] single_brd[24 ]
L75_RF IND_020 1 radio_mlb [47B3] single_brd[24 ]
L77_RF IND_01005 radio_mlb [48B3] single_brd[24 ]
L78_RF IND_0201 radio_mlb [ 50B3 ] single_brd[24 ]
L79_RF IND_020 1 radio_mlb [ 51C7 ] single_brd[24 ]
Ll7 32_RF IND_ 03 015 radio_mlb [ 5 3D 6 ] single_brd[24 ]
PP1_RF PROBEPOINT. _SM radio_mlb [ 35D7 ] single_brd [ 24 ]
PP2 PROBEPOINT. _SM single_brd [ 6B8 ]
PP2_RF PROBEPOINT._SM radio_mlb [ 35D7 ] single_brd [24 ]
PP3 PROBEPOINT._SM single_brd [ 6A8 ]
PP3_RF PROBEPOINT._SM radio_mlb [ 35D7 ] single_brd [24 ]
PP4_RF PROBEPOINT._SM radio_mlb [ 35B6 ] single_brd [ 24 ]
PP5_RF PROBEPOINT._SM radio_mlb [ 35B6 ] single_brd ( 24 ]
PP6_RF PROBEPOINT._SM radio_mlb [ 35B6 ] single_brd[24]
PP7 PROBEPOINT. _SM single_brd [ 18B8 ]
PP7_RF PROBEPOINT. _SM radio_mlb [ 35B6 ] single_brd[24 ]
PP8 PROBEPOINT. _SM single_brd [ 18B8 ]
PP8_RF PROBEPOINT. _SM radio_mlb [ 35D6 ] single_brd[24 ]
PP9 PROBEPOINT. _SM single_brd [ 18B5 ]
PP9_RF PROBEPOINT. _SM radio_mlb [ 35D6 ] single_brd[24 ]
PP10 PROBEPOINT. _SM single_brd [ 6A8 ]
PP10_RF PROBEPOINT. _SM radio_mlb [ 35D6 ] single_brd[24 ]
PP11 PROBEPOINT. _SM single_brd [ 18B1]
PP11_RF PROBEPOINT. _SM radio_mlb [ 35C7 ] single_brd[24 ]
PP12_RF PROBEPOINT._SM radio_mlb [35D6] single_brd[ 24 ]
PP13 PROBEPOINT._SM single_brd [ 3D1 ]
PP13_RF PROBEPOINT._SM radio_mlb [35C6] single_brd[2 4 ]
PP14_RF PROBEPOINT._SM radio_mlb [35C7] single_brd[24 ]
PP15 PROBEPOINT._SM single_brd [ 3D1 ]
PP15_RF PROBEPOINT._SM radio_mlb [ 35C7 ] single_brd [ 24 ]
PP16_RF PROBEPOINT. _SM radio_mlb [ 35C6 ] single_brd[24 ]
PP17 PROBEPOINT. _SM single_brd [ 6B4 ]
PP17_RF PROBEPOINT. _SM radio_mlb [ 35C7 ] single_brd[24 ]
PP18 PROBEPOINT. _SM single_brd [ 18B1]
PP18_RF PROBEPOINT. _SM radio_ralb [ 35C7 ] single_brd[24 ]
PP19 PROBEPOINT. _SM single_brd [ 6B4 ]
PP19_RF PROBEPOINT. _SM radio_mlb [ 3 5C7 ] single_brd[24 ]
PP20_RF PROBEPOINT. _SM radio_mlb [ 35C7 ] single_brd[24 ]
PP21_RF PROBEPOINT. _SM radio_mlb [ 35C7 ] single_brd[24 ]
PP22 PROBEPOINT. _SM single_brd [ 16C2 ]
PP22_RF PROBEPOINT._SM radio_mlb [ 35C7 ] single_brd [24 ]
PP23 PROBEPOINT._SM single_brd [2C7 ]
PP24 PROBEPOINT._SM single_brd [2B7 ]
PP40_RF PROBEPOINT._SM radio_mlb [35B7] single_brd[24 ]
PP41_RF PROBEPOINT._SM radio_mlb [ 35B7 ] single_brd [ 24 ]
PP42_RF PROBEPOINT. _SM radio_mlb [ 35B7 ] single_brd [ 24 ]
PP43_RF PROBEPOINT. _SM radio_mlb [ 35B7 ] single_brd[24 ]
PP44_RF PROBEPOINT. _SM radio_mlb [ 35B7 ] single_brd[24 ]
PP45_RF PROBEPOINT. _SM radio_mlb [ 35B7 ] single_brd[24 ]
PP46_RF PROBEPOINT. _SM radio_rnlb [ 3 5B7 ] single_brd [ 24 ]
PP47_RF PROBEPOINT. _SM radio_mlb [ 35B7 ] single_brd[24 ]
Q1
Q2
Q4
TRA_MOSFET_ _NCHN__3P3_ single_brd [ 11B4 ]
DFN1006H4-:
TRA_MOSFET. _PCHN__4P5_ single_brd [ 17A6 ]
BGA
TRA_MOSFET_ _PCHN__9P2_ single_brd [ 12C8]
BGA
Q1600 TRA_MOSFET__NCHN__3Pl1 single_brd [ 16A3 ]
_DFN0 8 0 6-VMLO 8 0 6i-COM
BO-N78
Rl RES_01005 single_brd [ 2C6 ]
R1_RF RES_01005 radio_mlb [ 35C1] single_brd ( 24 ]
R2 RES_01005 single_brd [ 18A3 ]
R3 RES_01005 single_brd [ 11A6 ]
R3_RF RES_01005 radio_mlb [ 35A5 ] single_brd[24 ]
R4_RF RES_01005 radio_mlb [ 39C4 ] single_brd[24 ]
R5 RES_01005 single_brd [ 3C4 ]
R5_JRF RES_01005 radio_mlb [ 53C7 ] single_brd[24 ]
R6 RES_ 01005 single_brd [ 2B3 ]
R6_RF RES_ 01005 radio_mlb [ 38B6 ] single_brd[24 ]
R7 RES_ 01005 single_brd[2C3]
R7_RF RES_01005 radio_mlb [38A5] single_brd[ 24 ]
R8 RES_01005 single_brd [ 6B2 ]
R9 RES_01005 single_brd [ 11A6 ]
R9_RF RES_01005 radio_mlb [38B2] single_brd (24 ]
RIO RES_01005 single_brd [ 17C3]
Rl0_RF RES_01005 radio_mlb [38D1] single_brd ( 24 ]
Rl1 RES_01005 single_brd [ 12D4 ]
R12 RES_0100 5 single_brd [ 3A6 ]
Rl2 RES_0201 radio_mlb [ 52B5 ] single_brd[24 ]
Rl3_RF RES_201 rad±o_mlb [ 56D2 ] single_brd[24 ]
Rl4_RF RES_01005 radio_mlb [ 56A7 ] single_brd[24 ]
Rl5 RES_01005 single_brd [ 17C6 ]
Rl5_RF RES_01005 radio_mlb [ 56A7 ] single_brd[24 ]
Rl6 RES_ 01005 single_brd [ 3D4 ]
Rl6_RF RES_ 01005 radio_mlb [ 56C5 ] single_brd[24 ]
Rl7 RES_ 01005 single_brd [ 3D2 ]
Rl7_ RF RES_01005 radio_mlb [56C3] single_brd[2 4 ]
Rl8 RES_01005 single_brd [ 3D2 ]
Rl8_RF RES_01005 radio_mlb [56C3] single_brd[2 4 ]
Rl9 RES_01005 single_brd [ 3D2 ]
Rl9_RF RES_201 radio_mlb [41D3] single_brd (24 ]
R20 RES_01005 single_brd [ 3A3 ]
R20_RF RES_01005 radio_mlb [37C8] single_brd (24 ]
R21 RES_01005 single_brd [ 3D2 ]
R21_RF RES_01005 radio_mlb [ 37C8 ] single_brd [ 24 ]
R22 RES_01005 single_brd [ 3A3 ]
R22_RF RES_01005 radio_mlb [ 37B5 ] single_brd[24 ]
R23 RES_01005 single_brd [ 17C3]
R23 RES_01005 radio_mlb [ 37D4 ] single_brd[24 ]
R24 RES_ 01005 radio_mlb [ 37D4 ] single_brd[24 ]
R25_RF RES_01005 radio_mlb [ 37D3] single_brd [ 24 ]
R26 RES_ 01005 single_brd [ 18C7 ]
R26_RF RES_01005 radio_mlb [37D3] single_brd[ 24 ]
R27 RES_01005 single_brd [ 4A8 ]
R27_RF RES_01005 radio_mlb [40C4 ] single_brd[2 4 ]
R28 RES_01005 single_brd [4A8]
R28_RF RES_01005 radio_mlb [40C2 ] single_brd ( 24 ]
R29 RES_01005 single_brd [ 4A6 ]
R29_RF RES_01005 radio_mlb [ 4 0C2 ] single_brd[24 ]
R30 RES_01005 single_brd [ 4A6 ]
R30_RF RES_01005 radio_mlb [40C1] single_brd[24 ]
R31 RES_01005 single_brd [ 4A5 ]
R32 RES_01005 single_brd [ 4A5 ]
R33 RES_01005 single_brd [ 4A4 ]
R33_RF RES_01005 radio_mlb [ 4 9C7 ] single_brd[24 ]
R34 RES_ 01005 single_brd [ 4A4 ]
R34_RF RES_ 01005 radio_mlb [ 4 9C6 ] single_brd[24 ]
R35 RES_01005 single_brd [ 15C5 ]
R35_RF RES_01005 radio_mlb [ 50B2 ] single_brd[ 24 ]
R36 RES_01005 single_brd [ 18A4 ]
R37 RES_01005 single_brd[7C5]
8 7 6 5 4 3
8 7 6 5 4 3 2 1
D
C
B
A
R38 RES_0 1005 single_brd [7C5 ]
R39 RES_0 1005 single_brd [7C5 ]
R40 RES_0 1005 single_brd[ 7B5 ]
R41 RES_0 1005 single_brd [7C5 ]
R42 RES_0 1005 single_brd[ 7C5 ]
R43 RES_201 single_brd[16D5 ]
R43_RF RES_0 1005 radio_mlb [ 56A6 ] single_brd [ 24 ]
R4 4 RES_201 single_brd[16D5 ]
R4 4_RF RES_0 1005 radio_mlb [ 56A6 ] single_brd [ 24 ]
R45 RES_ 2 01 single_brd[11B4]
R4 6 RES_ 0 1005 single_brd[19C3]
R46 RES_0 1005 radio_mlb [42D 5 ] single_brd [24 ]
R47 RES_0 1005 radio_mlb [ 4 2D 5 1 single_brd [24 ]
R48 RES_0 1005 radio_mlb [ 42C5 ] single_brd [24 ]
R50 RES_0 1005 single_brd[ 17C6]
R51_RF RES_0 1005 radio_mlb [ 56A5 ] single_brd [24 ]
R52 RES_0 1005 single_brd [3C8]
R52_RF RES_0 1005 radio_mlb [ 56A5 ] single_brd [ 24 ]
R53_RF RES_201 radio_mlb [ 4 ID8 ] single__brd [ 24 ]
R55 RES_0 1005 single_brd[ 6B5 J
R55_RF RES_0 1005 radio_mlb [ 50B8 ] single_brd [ 24 ]
R57 THERMISTER_02 01 single_brd[13A8 ]
R58 RES_201 single_brd[ 17A7]
R65 RES_ 0 1005 single_brd[13C3]
R67 RES_0 1005 single_brd[ 2B7 ]
R70 RES_0 1005 single_brd[ 12D8 ]
R71 RES_0 1005 single_brd [2C3 ]
R72 RES_0 1005 single_brd [4D8 ]
R73 RES_0 1005 single_brd [4D8]
R78 RES_0 1005 single_brd[ 6C8 ]
R79 RES_0 1005 single_brd[ 18B5 ]
R82 RES_0 1005 single_brd[ 6C6 ]
R83 RES_0 1005 single_brd[ 16D5 ]
R84 RES_0 1005 single_brd[16C5 ]
R85 RES_0 1005 single_brd[11B3]
R86 RES_0 1005 single_brd[18C5 ]
R87 RES_0 1005 single_brd[13B3]
R90 THERMISTER_0201 single_brd[13B8 ]
R94 RES_0 1005 single_brd[11A7]
R95 RES_0 1005 single_brd[11A7]
R100 RES_0 1005 single_brd[10B8 ]
R102 RES_0 1005 single_brd[ 9B3 ]
R103 RES_0 1005 single_brd[ 9B31
R107 RES_0 1005 single_brd[ 17D7]
R108 THERMISTER_02 01 single_brd[ 13C8 ]
R109 RES_0201 single_brd[13B6]
R110 THERMISTER_02 01 single_brd ( 13B8 ]
R112 RES_0 1005 single_brd[ 13B3 ]
R113 RES_0 1005 single_brd[ 13B3 ]
R114 RES_0 1005 single_brd[ 13B3]
R115 RES_0 1005 single_brd[ 12C4]
R116 RES_201 single_brd[ 13D4]
R117 RES_0 1005 single_brd[ 12C4]
R119 RES_0 1005 single_brd[ 12B1]
R125 RES_0 1005 single_brd[11C7 ]
R129 RES_0 1005 single_brd[ 15C7 ]
R130 RES_ 0 1005 single_brd[ 17A3 ]
R131 RES_0 1005 single_brd[13C3]
R136 RES_0 1005 single_brd[ 18B7 ]
R137 RES_0 1005 single_brd[ 6C5 ]
R141 RES_0 1005 single_brd[21A5]
R143 RES_0 1005 single_brd[ 6C5 ]
R145 RES_0 1005 single_brd[ 10C3 ]
R152 RES_0 1005 single_brd[ 19C3 ]
R153 RES_0 1005 single_brd[ 6B8]
R154 RES_0 1005 single_brd [20C7 J
R155 RES_0 1005 single_brd[ 13C3]
R156 RES_0 1005 single_brd[ 13C3]
R157 RES_0 1005 single_brd[ 8D2 ]
R158 RES_0 1005 single_brd[16A8 ]
R159 RES_0 1005 single_brd[16A7 ]
R160 RES_ 0 1005 single_brd[ 6C2 ]
Rl61 RES_ 0 1005 single_brd[ 6C2 ]
R162 RES_0 1005 single_brd[ 3B8 ]
Rl63 RES_0 1005 single_brd [2B3 1
Rl64 RES_0 1005 single_brd [2B3 1
Rl6 9 RES_0 1005 single_brd [21C6]
R399 RES_0 1005 single_brd [3B4 ]
Rl600 RES_0 1005 single_brd[ 16A4 ]
Rl601 RES_0 1005 single_brd ( 16A4 ]
Rl602 RES_0 1005 single_brd[ 16A4 ]
Rl603 RES_0 1005 single_brd[ 16A4 ]
Rl604 RES_0 1005 single_brd[16B3]
Rl605 RES_0 1005 single_brd[16A3]
R3000 RES_0 1005 single_brd[ 3A6 ]
R3001 RES_0 1005 single_brd[ 3A6 ]
R3301 RES_0 1005 single_brd[18D4 ]
SHI SHLD_IP_ SM single_brd[ 22C7 ]
SH2 SHLD_IP_ SM single_brd[ 22C7 ]
SH3 SHLD_IP_ SM single_brd[ 22B7 ]
SH4 SHLD_ IP _ SM single_brd [22B7 ]
SP1 SPRING_ CLIP_1P_CLIP- single_brd[ 22C5 ]
SM
SP 1_RF SMT_PAD_SM-NSP radio_mlb [ 53D8 ] single_brd [24 ]
SP2 SMT_PAD_SM-NSP radio_mlb ( 52B7 ] single_brd [24 ]
SP3
SPRING_CLIP_1P_CLIP- radio_mlb [ 52B7 ] single_brd [24 J
SM
TP 1 TP_TP-P6 single_brd[ 22D4 ]
TP 1_RF TP_TP-P6 radio_mlb [ 53C3 J single_.brd [ 24 ]
TP2 TP_TP-P90 single_brd[ 22D4 ]
TP 3 TP_TP-P6 single_brd[ 22A2 ]
TP 4 TP_TP-P6 single_brd[ 22D4 ]
TP 5 TP_TP -P 6 single_brd [22C4 ]
TP 6 TP_TP-P 6 single_brd[ 22C4 ]
TP 7 TP_TP-P 6 single_brd[ 22C4 ]
TP 9 TP_TP-P 6 single_brd[ 22B4 ]
TP 10 TP_TP-P 6 single_brd [22C2 ]
TP 11 TP_TP-P 6 single_brd [22A2 ]
TP 12 TP_TP-P80 single_brd [22D4 ]
TP 15 TP_TP-P6 single_brd [22B2 ]
TP 16 TP_TP-P6 single_brd[22B2]
TP 17 TP_TP-P6 single_brd[22B2]
TP 18 TP_TP-P6 single_brd[ 22A4 ]
TP 19 TP_TP-P6 single_brd[ 22A4 ]
TP20 TP_TP-P6 single_brd[ 22A4 ]
TP21 TP_TP-P55 single_brd[ 22D2 ]
TP22 TP_TP-P55 single_brd[ 22D2 ]
TP23 TP_TP-P55 single_brd[ 22D2 ]
TP24 TP_TP-P55 single_brd[ 22C2 ]
TP26 TP_TP —P6 single_brd[ 22C2 ]
TP27 TP_TP-P 6 single_brd[ 22C2 ]
TP28 TP_TP-P 6 single_brd [22B4 ]
TP29 TP_TP-P 6 single_brd [22B4 ]
TP 32 TP_TP—P 6 single_brd[ 22C2 ]
TP 4 0 TP_TP-P55 single_brd [22C4 ]
TP 120 TP_TP-P55 single_brd[ 22D4 ]
TP200 TP_TP-P 6 single_brd[ 22D4 ]
TP2200 TP_TP-P6 single_brd[ 22C2 ]
TP2202 TP_TP-P 6 single_brd[22B2 ]
TP8000 TP_TP-P 6 single_brd[22B4 ]
Ul H6P_FCMSP single_brd[ 2C5 ]
Ul H6P_FCMSP single_brd[ 3D3 3D7]
Ul H6P_FCMSP single_brd [4D2 4D5 4D7]
Ul H6P_FCMSP single_brd[ 5D2 5D4 5D8 5D7]
Ul H6P_FCMSP single_brd[ 6C7 ]
Ul H6P_FCMSP single_brd [7C3 7C7]
U1_RF MODEM_MDM9615M_l_BGA radio_mlb[ 38B4 38D2 38D4 38C7] single_brd [ 24
Ul_RF MODEM_MDM9 615M_1_BGA radio_mlb[ 39C3 39D7] single_brd [24 ]
U2 CBTL 1610_WLCSP 3 6_WLC single_brd[ 16D4 ]
U2_RF
U2_RF
U3
U3_RF
U3_RF
U4
U5
U5_RF
U6
U6_RF
U7
U7
U7_RF
U8
U8_RF
U9
U9_RF
U10
U11_RF
Ul2
Ul2_RF
Ul3
Ul4_RF
Ul5
Ul6
U16_RF
Ul7
Ul8
U20
U21
U21
U22
U23
U23_RF
U25
U26
U58_RF
U207_RF
U210
Ul317_RF
Ul600
U1700
U2000_RF
XW1
XW1 RF
XW2_ RF
XW3
XW3_RF
XW4
XW4_RF
XW5
XW6
XW6_RF
XW7
XW8
XW8_RF
XW9
XW 9_RF
XW10
XW10_RF
XW11
XW11_RF
XW12
XW12_RF
XW13
XW13_RF
XW14
XW14_RF
XW15
SP
PM8 0 18_WLNSP10 5_BGA
PM8 0 18_WLNSP10 5_BGA
TPS657 30_CHESTNUT_BG
A
WTR160 5_SM
WTR160 5_SM
FLASH_XGX8_60LGA_LGA
-12X17
7 4AUP2G34 0 4_SOTl115
SUPPR_TPD4E101_S0N4
CAT24C08_WLCSP4_WLCS
P
FLASH_ MX25U1635E _ WLC radio_mlb[ 3 9A7 ] single_brd [ 24 ]
SP
AMBER_PMC_FCCSP-0 .84 single_brd[ 12D6]
MM
AMBER_PMC_FCCSP-0 .84 single_brd[ 13C2 13C5]
MM
RF1112_WLCSP
AP3GDL20HAB18_LGA
MOD WIFI BT IMPERIAL
_LGA60_LGA
OSCARl_FCLGA
MOD_HFQSMXXFA_LGA
LM3638_BGA
MAX7 710 0_WLP
CUMULUS_BGA 6 3_WLBGA
FIL_HMD80 9J_ SM
TPS22 924_CSP
AMP_TQM6M6314_LGA
SAGE2_1_CSP
AK8 9 63C_CSP-POP
MOD_HFQSWXXUA_LGA
LM35 64_WLCSP
AP2DHAB24_LGA
AMP_SK Y 657 3 6_LGA
CS42L67_WLCSP
CS4 2L67_WLCSP
CS35L19B_WLCSP
LM3534_BGA
AMP_AFEM7 92503_LGA
7 4LVClG34_SOT122 6
74LVClG34_SOTl226
AMP_DUP LEXER_ BAND5 8.
LGA30_LGA
radio_mlb [36C5 ] single_brd [ 24 ]
radio_mlb[37D3 37B7 37B4 37C7] single_brd [ 24 ]
single_brd[14D5 ]
radio_mlb [40D4 40B7 40D7 4 0C7 ] single_brd[2 4 ]
radio_mlb[ 4 1B3] single_brd [ 24 ]
single_brd[ 6C4 ]
single_brd[ 18A3]
radio_mlb[35A3] single_brd [24 ]
single_brd[ 16B8]
radio_mlb[53C5] single_brd [ 24 ]
single_brd [20D2 ]
radio_mlb[56C5] single_brd [ 24 ]
single_brd [20C6
radio_mlb [43C7] single_brd [ 24 ]
single_brd[ 14B3]
radio__mlb [ 4 9C5 ] single_brd [ 24 ]
single_brd[ 18C6
radio_mlb[ 56D2 ] single_brd [24 ]
single_brd [21C6
radio_mlb [44C5] single_brd [24 J
single_brd[ 18D3]
single_brd (20A6]
radio_mlb [ 51C5] single_brd [24 ]
single_brd[15B5]
single_brd[20B2 J
radio_mlb [ 52C4 ] single_brd [ 24 ]
single_brd[ 9C5 ]
single_brd[10D2
single_brd[15C6]
single_brd[14B7 ]
radio_mlb [ 4 5C5 ] single_brd [ 24]
single_brd[ 3A3 ]
single_brd[ 3A3 ]
20D6]
radio_mlb[47C5] single_brd [24 ]
1
10C6]
AMP_DUPLEXER_BAND20_ radio_mlb ( 4 6C5 ] single_brd [ 24 ]
LGA30_LGA
LREG_LP 5 90 7_USMD single_brd[ 2 1C7]
AMP_RF 37 63_LGA radio_mlb[ 4 8C5 ] single_brd [ 24 ]
COMPARATOR_MAX9039_U single_brd[ 16A4]
CSP
TPS2 2 904_CSP
single_brd[17D8]
AMP_SKY7 7 57 2_LGA radio_mlb[50C6 ] single_brd[ 2 4 ]
SHORT1OLP 1_WITH_ALTS single_brd[ 12A7 ]
_SHORT- 1OL-O .1MM-SM
SHORT1OLP 2 5_WITH_ALT radio_mlb [ 37B6 ] single_brd [24 ]
S_SHORT-1OL— 0.25MM-S
M
SHORTl OLP 2 5_ WITH_ALT radio_mlb [ 37B6] single_brd [ 24 ]
S_SHORT—1OL— 0.25MM-S
M
SHORTl OLP 1_WITH_ALTS single_brd[ 12C2 ]
_SHORT-10L-0 .1MM-SM
SHORTl 0LP2 5_WITH_ALT radio_mlb( 37B6 ] single_brd [ 24 ]
S_SHORT-1OL-O.25MM-S
M
SHORTl OLP 1_WITH_ALTS single_brd[ 13B6J
_SHORT- 1OL-O .1MM-SM
SHORTl 0LP25_WITH_ALT radio_mlb[37B6 ] single_brd [ 24 ]
S_SHORT-1OL-O.25MM-S
M
SHORTl OLP 1_WITH_ALTS single_brd[ 8C3]
_ SHORT-1OL-O .1MM-SM
_ SHORT— 1OL-O .1MM-SM
SHORTl 0LP1_WITH_ALTS single_brd[ 13B6]
SHORTl 0LP2 5_WITH_ALT radio_mlb[ 4 9B4 ] single_brd [ 24 ]
S_SHORT—10L-0.25MM-S
M
SHORT_SM single_brd[ 11C3]
SHORTl 0LP1_WITH_ALTS single_brd[ 13B6]
_SHORT-l OL-O .1MM-SM
SHORTl0LP25_WITH_ALT radio_mlb[ 4 9B4 ] single_brd [ 24 ]
S_SHORT-IOL-O.25MM-S
M
SHORTl OLP 1_WITH_ALTS single_brd[ 13B6]
_SHORT- 1OL-O .1MM-SM
SHORT_LAYER_9_SHORT- radio_mlb[ 5 6D6] single_brd[ 2 4 ]
L9-SM
SHORT_SM single_brd[ 12B1]
_ SHORT-1OL— 0 .1MM-SM
SHORTl 0LP1_WITH_ALTS radio_mlb[ 37A4 ] single_brd [ 24 ]
SHORTl OLP1_ WITH _ ALTS single_brd[ 13B6]
_SHORT— 10L-0.1MM-SM
SHORT_SHORT-Ol 005 radio_mlb( 56C7 ] single_brd [ 24 ]
SHORTl 0LP25_WITH_ALT single_brd[ 22D7 ]
S_SHORT-1OL-O.25MM-S
M
SHORTl OLP 1_WITH_ALTS radio_mlb[35A7 ] single_brd [ 24 ]
_SHORT- 1OL-O .1MM-SM
SHORT_SM
single_brd[ 17D4 J
SHORT1OLP 1_WITH_ALTS radio_mlb[35A7 ] single_brd [ 24 ]
_SHORT- 1OL-O .1MM-SM
SHORTl OLP 1_WITH_ALTS single_brd[13B6]
_ SHORT— 1OL-O .1MM-SM
SHORTl OLP 1_WITH_ALTS radio_mlb[ 3 5A7 ] single_brd[ 2 4 ]
_ SHORT-1OL-O .1MM-SM
_ SHORT— 1OL-O .1MM-SM
SHORTl OLP 1_ WITH_ALTS single_brd[ 13B6]
XW15_RF
XW16_RF
XW17_RF
XW18
XW2 0
XW20_RF
XW2 5
XW2 8
XW2 9
XW31
XW33
XW35
XW36
XW41
XW4 2
XW4 3
XW 4 4
XW4 5
XW4 7_RF
XW48
XW4 9
XW51
XW93
XW12 0
XW 1600
Y1
Y1_RF
Y2
SHORTl 0LP1_WITH_ALTS
_SHORT-l OL-O .1MM-SM
SHORTl0LP25_WITH_ALT
S_SHORT-1OL-O .25MM-S
M
SHORTl OLP1_WITH_ALTS
_SHORT-10L-0 .1MM-SM
SHORTl OLP1_WITH_ALTS
_SHORT-1OL— 0 .1MM-SM
SHORTl OLP1_WITH_ALTS
_SHORT-1OL— 0 .1MM-SM
L9— SM
SHORTl OLP1_WITH_ALTS
_SHORT-10L-0 .1MM-SM
SHORT_SM
SHORT_SM
SHORT_SM
SHORTl OLP 1_WITH_ALTS
_SHORT-l OL-O .1MM-SM
SHORT_LAYER_9_SHORT-
SHORT_LAYER_6_SHORT-
L6-SM
SHORT_SM
SHORTl OLP1_WITH_ALTS
_SHORT-1OL— 0 .1MM-SM
SHORTl OLP1_WITH_ALTS
_SHORT— 10L-0.1MM-SM
SHORTl OLP1_WITH_ALTS
_SHORT— 10L-0.1MM-SM
SHORTl0LP1_WITH_ALTS
_SHORT-10L-0 .1MM-SM
SHORTl 0LP1_WITH_ALTS
_SHORT-10L-0 .1MM-SM
SHORTl OLP2 5_WITH_ALT
S_SHORT-10L-0 .25MM-S
M
SHORTl OLP1_WITH_ALTS
_SHORT-10L-0 .1MM-SM
SHORT_SM
SHORT_SM
SHORT_ SM
SHORTl OLP1_WITH_ALTS
_SHORT— 10L-0.1MM-SM
SHORTl 0LP1_WITH_ALTS
_SHORT— 10L-0.1MM-SM
CRYSTAL_4PIN1_1.60X1
. 20MM-SM
CRYSTAL_4PIN2_2 .0X1.
6-SM
CRYSTAL_2012 -1
radio_mlb [ 35A7 ] single_brd [ 24 ]
radio_mlb [37A6] single_brd[24 ]
radio_mlb [ 36C5 ] single_brd [ 24 ]
single_brd [ 12D2 ]
single_brd [ 12D2 ]
radio_mlb [ 56D6] single_brd[24 ]
single_brd [ 17B7 ]
single_brd [ 13B6]
single_brd [ 13B6]
single_brd [ 2 1C4 J
single_brd [ 13B6 J
single_brd [ 15D6]
single_brd [ 18D5]
single_brd [ 8C3 ]
single_brd [ 11C3 ]
single_brd [ 10D7 ]
single_brd [2C1]
single_brd [ 17B6 J
radio_mlb [ 4 9C6] single_brd [ 24 ]
single_brd [ 10B5]
single_brd [ 15A5]
single_brd [ 18B7 ]
single_brd [ 3B2 ]
single_brd [ 12C6]
single_brd [ 16B4 ]
single_brd [2C2]
radio_mlb [37B4 ] single_brd [ 2 4 ]
si
D
C
B
8 7 6 5 4 3
8 7 6 5 4 3 2 1
XI 4 5 RADIO MLB SUBDESIGN EVT1C
D
D
PDF PAGE
CONTENTS
2 AP INTERFACE & DEBUG CONNECTORS
3 CELLULAR PMU: (1 OF 2)
4 CELLULAR PMU: (2 OF 2)
5 CELLULAR BASEBAND : (1 OF 2)
6 CELLULAR BASEBAND : (2 OF 2)
7 CELLULAR RF TRANSCEIVER: (1 OF 2)
8 CELLULAR RF TRANSCEIVER: (2 OF 2)
C
9 CELLULAR FRONT END : TX AND RX MATCHIN(
10 CELLULAR FRONT END : SAW :BANKS
BOARD ID BOM OPTIONS
PART# QTY DESCRIPTION REFERENCE DESIGNATOR ( S ) CRITICAL BOM OPTION
C
11 CELLULAR FRONT END : BAND 1/4 PAT
118S0621 1 1.00M 1% 01005 R25_RF Y N51_CFG_A
118S0732 1 5 OK 1% 01005 R26_RF Y N51_CFG_A
12 CELLULAR FRONT END : BAND 2/3 PAD
117S0159 1 4 7 OK 5% 01005 R25_RF Y N51_CFG_B
118S0626 1 100K 1% 01005 R26_RF Y N51_CFG_B
13 CELLULAR FRONT END : BAND 2 0 PAD
118S0626 1 100K 1% 01005 R25_RF Y N53_CFG_A
14 CELLULAR FRONT END : BAND 5/8 PAD
118S0726 1 162K 1% 01005 R26_RF Y N53_CFG_A
118S0626 1 100K 1% 01005 R25_RF Y N53_CFG_B
15 CELLULAR FRONT END : BAND 13/17 PAD
118S0623 1 267K 1% 01005 R26_RF Y N53_CFG_B
118S0659 1 255K 1% 01005 R25_RF Y N48_CFG_A
16 CELLULAR FRONT END : PA DCDC CONVERTER
118S0626 1 100K 1% 01005 R26_RF Y N48_CFG_A
17 CELLULAR FRONT END : 2G FEM
118S0689 1 147K 1% 01005 R25_RF Y N48_CFG_B
118S0626 1 100K 1% 01005 R26_RF Y N48_CFG_B
18 CELLULAR FRONT END : RX DIVERSITY
118S0626 1 100K 1% 01005 R25_RF Y N4 9_CFG_A
118SQ650 1 499K 1% 01005 R26_RF Y N4 9_CFG_A
19 CELLULAR FRONT END : GPS LNA
118S0732 1 50K 1% 01005 R25_RF Y N49_CFG_B
B
20 CELLULAR FRONT END : ANTENNA FEEDS
118S0621 1 1.00M 1% 01005 R26_RF Y N4 9_CFG_B
B
21 FRONT END ) LOGIC TABLE (1 OF 2)
22 FRONT END ) LOGIC TABLE (2 OF 2)
23 WIFI/BT : MODUTiF. AND FRONT END
A
SCH
BOM
BOARD
951-2446
939-0308
920-2148
PART# QTY DESCRIPTION REFERENCE DESIGNATOR ( S ) CRITICAL BOM OPTION
951-2446 1 X14 5_RAD10_MLB SCH Y
825-2029 1 EEE FOR 939-0308 EEEE_???? Y NA
8 7 6 5 4 3
8 7 6 5 4 3 2 1
INTERFACE &
DEBUG CONNECTORS
D
c
B
14 13 12
AP
IN
OUT
ii 3
, PP BATT VCC
PP VCC
fi TX
CONNECTIONS
= FROM AP
= TO AP
CONN
MAIN WLAN
GTR THRESH
4
ÿ BB RST L
6
9 RESET PET L
4 ? RADIO ON L
,RESET PMU L
6 2 HOST WAKE BB
6
23
RF RESET L
9 PBL RUN BB HSIC1 RDY
9 WLAN HSIC3 RESUME
s AP WAKE MODEM_
6 2 AP HSIC1 RDY
5
9 50 HSIC BB DATA
2 50 HSIC BB STROBE
6i BB_HS ICl_REMOTE_WAKE
6 2. BB HART TXD
6 9 BB UART RXD
6 9 BB UART RTS L
6 2
2
. BB UART CT$ L
BB USB VBUS
9 90 BB USB D P
9 90 BB USB D N
6 9 BB I2S CLK
6
9 BB 12. S WS
6 9 BB I2S TXD
6 9 BB I2S RXD
PP
?YNC
o "x PP WL BT VDDIO AP
23 2 CLK32KAP_
23 2.
WLAN
REG ON
99 WLAN UART TXD
99 WLAN UART RXD
99 HOST WAKE WLAN_
23 9 WLAN HSIC3 DEVICE RDY
3 2 AP HSIC3 RDY
23 9 50 HSIC WLAN DATA
3 9 50 HSIC WLAN STROBE
3 HOST WAKE BT
9 BT WAKE
9 BT UART TXD
2 BT UART RXD
23 BT UART RTS L
99 BT UART CTS L
3 9 BT REG ON
99 BT PCM CLK
99 BT PCM SYNC
: BT PCM OUT
23 BT PCM IN
9 LAT SW1 CTL
« LAT SW2 CTL
20
* BB SPI TO PAC CS _
20 BB SPI TO PAC DATA MOSI
*
20 « BB SPI TO PAC CLK_
20 6
PAC TO
20 is 17 io : P LP014 2 V 6 5
5 9 BB JTAG TCK
5 9 BB JTAG TPI
5
5
9 BB JTAG TMS
9 BB JTAG TRST L
BB JTAG TDO
2 ADC LVS1
.BB IPC GPIO
23 OSCAR CONTEXT A
23 OSCAR CONTEXT B
BB SPI DATA MISO
9 ADC SMPS1 MSMC 1V05
9 ADC SMPS3 MSME 1V8
9 ADC LD06 RUIM 1V8
IOU'
Iout;
Iout;
TiTl
Iout;
"<HD
TnI
|QLT
Iout;
lOU'
|OU'
— IOUT>
TnI
To"
To"
—{TT>
Iout]
"TnI
Iout;
IN|
INl
To"
To"
TnI
INl
IOUT.
TnI
iOUT.
INl
INl
IN|
lou':>
im
1QIJT>
louC
To*
To"
UT.
fin
IOUT
-<HD
louT>
TnI
INl
~
IS
To*
IS
out;
IOUT>
Iout]
Iout>
iout;
TnI
lou:
-<Tn|
-<Tn)
-cm
-CUD
ICUT>
|OUT>
Iout;
|QUT>
IOU'1
Iout;
<ZD
<CSJ
PROBE POINTS
PP1 RF
P4MM
SM
l BB_ERROR FLAG
PP2 RF
P3MM
CM
1 SLEEP_CLK_32K
:ppi
4 5
PP3
RF
P4MM
SM 1 PMIC_SSBI
©—
PP17 RF
P4MM-T7SM
SM
1 19P2M MDM
:pp1
PP11_ RF
P4MM
SM 1 CLK32K AP
0_
PP14_RF
P4MM
f1 1 AP_HSIC3_RDY
0—
PP15__RF
P4MM
SM '
1 WLAN_HSIC3_DEVICE_RDY
© —
PP18_RF
P4MM
SM
1 WLAN_HS IC3_RESUME
© —
PP19 RF
P4MM-T7SM
SM
1 WTR_SSBI_TX_GPS
:pp]
SM
PP]
1 WTR_SSBI_ PRX_DRX
PP21 RF
P4MR
1 WTR_RX_ON
©—
PP22 RF
P4MM
1 WTR_RF_ON
©—
PP4 0 RF
P4MM
SM
1 WLAN_COEX_TXD
"PPl
4 5
4 5
2 23
2 23
2 23
2 23
PP4 1 RF
P4MM
SM
1 LTE_COEX_TXD
:ppi
6 23
PP4 2
RF
P4MM-TTSM
SM
1 50_HSIC_BB_STROBE
:ppi
6 7
6 7
PP4 3_RF
P4MM-NSM
SM
1 50_HSIC_BB_DATA
•ppj 2 5
PP4 4_RF
P4MM
SM
1 50_HSIC_WLAN_STROBE
•pp]
2 23
PP4 5_RF
P4MM
SM 1 5 0_HSIC_WLAN_DATA
'pp] 2 23
PP4 6_RF
P4MM
SM
1 BT_UART_TXD
:pp: 2 23
PP4 7_RF
P4MM
SM
1 BT_UART_RXD
:pp: 2 23
23
PP8 RF
P4MM=NSM
SM
1 SIMCRD_RST_CONN
PI )- 2 6
PP 9
RF
P4MM=NSM
SM
1 SIMCRD_CLK_CONN
PI I- 2 6
PPl0_RF
P4MM
PP)
PPl2_RF
P4MM
1 SP I_DATA_MOSI
1 SP I_CLK
PP)-
PPl3_RF
P4 MM
SM
1 SPI_CS_L
PP]
PPl 6__RF
P4MM
SM
1 SPI_DATA_MISO
PP4_RF
P4MM
5M
1 BB_12S_CLK
pp]
2 6
PP5_RF
P4MM
1 BB_12 S_WS
PP]
2 6
PP6_RF
P4MM
SM
1 BB_12 S_RXD
pp] 2 6
PP7_RF
P4MM
SM
1 BB_I2S_TXD
pp] 2 6
SIM CARD
CONNECTOR
.OUT I
CCUTI—
LOUT
TTTTÿ-
DEBUG RST L
RESET PMU L
RADIO ON L
m
vniin
90 BB USB D N
90 BB USB D P
RF RESET L
BB JTAG TCK
BB JTAG TMS
BB JTAG TDO
BB JTAG TDI
BB JTAG TRST L
BB JTAG RTCLK
PS HOLD PMIC
BB UAR' 'XD
BB UART RXD
BB UART RTS L
BB UART CTS L
GPIO DEBUG LED
GPIO 51
2G FEM S4
J
|
ii
GP1051/BOO
GPI053/BOO
BOOT
DEBUG CONNECTOR
r CONFIG_3
r _CONFIG_l
t
OPTIONS
BOOT_DEFAULT_OPTION
NOSTUFF
J1_RF
AXE 65 4 124
M-ST-SM
56 55
o
t
Tt
Tt
vr
t
O O-
o o
o o-
o o
o o
o o
o a
o o-
o o-
o o-
T1 —O O-
31 o o
3 o o-
37o a
"31 o o-
3i o o-
Tf o o
t: o o-
"4 o
-o o-
TT"0 O-
o a
o o-
F o o-
o o
58
BOOT_CONFIG
SW REGISTER
VALUE
1
"3
ÿ5
1
"9
11
13
15
17
19
11
13
5
7
NC
NC
NC
PP BATT VCC CONN
6 5 4 3 2 1 0
11 12 13 16
PP SMPS3 MSME 1V8
BT WAKE
47 48 49 50 51 52 53 54 55
0X00 X 0 0 0 0 0 0 0 X
BOOT_NAND_OPTION 0X01 X 1 0 0 0 0 0 1 X
BOOT_HS IC_OPTION 0X02 X 1 0 0 0 0 1 0 X
BOOT_USB_OPTION
0X03 X 1 0 0 0 0 1 1 X
ENABLE SAHARA PROTOC DL 0X08 X 1 0 0 1 0 X X X
PP LD06 RUIM 1V8
WLAN REG ON
PMIC_RESOUT_L
-C TNI
-Iout;
-cTm
19
AP HSIC1 RDY
o 57 R1 RF
1
1 A R0 2 LAT SWl CTL
—AA/V--
0%
1/32W
MF
01005
"31
13
BT REG ON
HOST WAKE BB
35 NC
37
RESET DET L
39
11
3
15
SIMCRD CLK CONN
SIMCRD IOCONN
SIM TRAY_DETECT
BB_RST L
IN
IN
IOUT'
17
SIMCRD RST CONN
[OTT
2 6
19
7T
PBL RUN BB HSIC1 RDY
2 6
31GPIO5 4 / BOOT_CONFIG_0
in"
2G FEM SI
33 GPIO4 8 / BOOT_CONFIG_6 BOOT CONFIG_6
pnr
GPIO/BOOT_CONFIG CONFIGURATION
NOSTUFF
J2_RF
MM4 82 9-2 7 02
F-ST-SM
TTO" STUF
O
1
J3_RF
MM4 829-2702
f-st-sm
50 HSIC BB DATA 2 5
50 HSIC BB STROBE 2 5
6 17
2 6
D
c
B
PP LD06 RUIM 1V8
A
XW12_RF
SHORT-1OL-O .1MM-SM
PP SMPS1 MSMC 1V05 1 J~~1 2 ADC_SMPS 1_MSMC_1V05
PP SMPS3 MSME
1V8
ff t nnfi Rf7TM 1vn
3
PP LVS1
XW13_RF
SHORT— 1OL-O .1MM-SM
1 2__ADC_SMPS3_MSME_1V8
XW14_RF
SHORT-1OL-O .1MM-SM
ÿ__ADC_LDQ6_RUIM_1V8
XW15_RF
SHORT-1OL-O .1MM-SM
1 2__ADC_LVS1
SIMCRD RST CONN
SIMCRD CLK CONN
RST
CLK
VCC
J11_RF
S IM-CARD-N48
F-ST-SM
GND
CO <Ti o i—1 CO LO
rH rH rH
I/O
DETECT
SWP
7
12
R3_RF
15.0 OK
i%
1/32W
MF
,01005
SIMCRD IO CONN
iSIM TRAY
1 CI7 7_RF
100PF
5%
6.3V
CERM
01005
DETECT
2 6
I
I
PP LD06 RUIM 1V8
1 C1_RF Cl_]
-U 12V-33PF
2
01005-1 ni nn
SIM CARD ESD PROTECTION
6 2 SIMCRD IO CONN
6 2 SIMCRD RST CONN
U5_RF
TPD4E10 1DPWR
SON4
SIM TRAY DETECT
2 6
SIMCRD CLK CONN
8 7 6 5 4 3
8 7 6 5 4 3 2 1
PMU (1 OF 2)
PP
LVS1
2 5
PP VREG
INTERNAL USE ONLY
D
L1_RF
2 .2UH-2 0%-l.2A-0 .15QHM
1 C12_RF
- 1.OUF
20%
6.3V
X5R
0201-1
rrrr\ÿ PP SMPSl MSMC 1V05
0806
1-loUTÿ 2 5
D
1 C55_RF
- 22UF
— 20%
6.3V
9z
X5R-CERM2
0603
L4_RF
2 .2UH-20%-l.2A-0 .150HM
SI GND 3 4
mvii
PP SMPS2 RF1 1V3
0806
I1
C5 6_:
— i— RF
22UF 99TTP
20%
6. 3V
X5R-CERM2
0603
i-IoutV 5 8
c
17
16 15 14 13 12 11 2 Yr.n ngNN
r
C42_RF
10UF
20%
6.3V
CERM
0402
1 C43_RF
- 10UF -
— 20%
9
6.3V
ÿ
CERM
0402
T
C44_RF
10UF -
20%
6. 3V
CERM
0402
T
C 4 5_RF
56PF
5%
16V
NPO-COG
01005
3 si_gnd
C46_RF
4 .7UF
20%
10V
X5R-CERM
0402
4 3 S?_GNO
4 3
C4 7_RF
4 .7UF
20%
10V
X5R-CERM
0402
XW17_RF
SHORT-1OL-O .1MM-SM
, — '-61ÿ-
NOSTUFF
T
1 C4 8_RF 1 C 4 9_RF
- 4 .7UF - 4 .7UF
— 20%
—
10V
20%
z9 9 10V
X5R-CERM
z
0402
a
X5R-CERM
0402
4 H
B
8 3
PP SMPS4 RF2 2V05
PP SMPS3 MSME 1V8
PP SMPS5 DSP 1V05
REF BYP
1 C50_RF
- 0 .1UF
0 IV
X5R-CERM
01005
REF GND
1 C 5 1_RF
- 4 .7UF
— 20%
10V
9z
X5R-CERM
0402
28
34
104
95
98
89
8
78
REF_BYP
REF GND
VDD
SI
VDD_S2
VDD
VDD
S4
S3
) VDD S5
VDD_XO
VDD_L2_L3
VDD_L4
U2_RF
PM8018-0
BGA
VREG
(SYM 5 OF 5)
VDD_L5_L6_L13_L14
VDD_L7
VDD_L8
VDD_L9
VDD_L10_L11
VDD
LI2
VOUT_LVS1
VREG_RFCLK
VSW_Sl(
VREG_S1
VSW_S2(
VREG_S2
_S3( vsw.
VSW_S5_2
VREG_S 3
VSW_S4(
VREG
S4
VSW_S 5(
VREG
S5
VREG_XO
VREG_L2
VREG_L3
VREG_L4
VREG
L5
VREG_L6
VREG_L13
VREG_L14
VREG_L7
VREG_L8
VREG_L9
VREG_L10
VREG_L11
VREG
L12
53.
13
48
100
12
10
82
88
2 0|
31
32.
11
17
23
29
63
54
77
65.
55
43
PP VSW
PP VSW
PP VSW
SI
S2
S3
PP VSW S 4
PP VSW S5 rr
C2__RF
1.OUF
20%
6.3V
X5R
0201-1
1C52__RF
1.OUF
20%
6. 3V
X5R
0201-1
C3__RF
1.OUF
20%
6.3V
X5R
0201-1
C53_RF
1.OUF
20%
6. 3V
X5R
0201-1
— I — i rRF
L2_RF
2 .2UH-2 0%-l .2A-0 .150HM
0806
rr
L3_RF
2 .2UH-2 0%-l .2A-0 .15QHM
ifYYYYÿ
0806
rr
L5 RF
2 .2UH-20%-2 F34A-0.1130HM
2520-SM
S2 GND 3 4
PP SMPS3 MSME 1V8
2 3 5 6
C57_RF
22UF
T
20%
6.3V
X5R-CERM
0603-3
S3 GND
PP SMPS4 RF2 2V05
C58_RF
22UF
20%
6.3V
X5R-CERM
0603-3
S4 GND 3 4
PP SMPS5 DSP 1V05
C59_RF
22UF
20%
6. 3V
X5R-CERM2
0603
S 5 GND 3 4
PP LDOl
PP LD02 XO HS 1V8
PP LD03 AMUX 1V8
PP LD04 VDDA 3V3
PP LD05 GPS LNA 2V5
PP LD06 RUIM 1V8
PP LDOl3 VDDPX 2V95
PP LDOl4 2V65
I1 — I C5_RF
— i1.OUF
r C7_ RF C 9_RF CI1__RF
PP LD07 DAC 1V8
PP LD08 VDDPX 1V2
PP LD09 PLL 1V05
PP LDOl0 ADSP 1V05
PP LDOl1 MDSP FW 1V05
PP LDOl2 MDSP SW 1V05
T I1 C4_
f1 C6_RF
1.OUF - 1.OUF — I — C8_
RF
C10__RF CI3__RF
1OUF 1OUF 1OUF
20%
20%
T
20%
20%
20%
6. 3V
6.3V
6.3V
6.3V
6.3V
2 X5R
X5R
CERM
CERM
CERM
0201-1
0201-1
0402
0402
0402
C5 4_RF
1. OUF
20%
6 .3V
X5R
0201-1
— 20%
6.3V
9
* X5R
0201-1
1. OUF
20%
6.3V
X5R
0201-1
1OUF
20%
6.3V
CERM
0402
1OUF
20%
6.3V
CERM
0402
3 4 1 C 6 0_RF
- 0 .1UF
20%
4 V
X5R
01005
NOSTUFF
C
HOUT>
INTERNAL USE ONLY
HS2>
HQUT>
*-T)TTTV
HOUT>
HOUT1
HGUT)
[otT
t-fSTTTV
MOIJT>
t-T77Tÿ
19
2 5
2 10 17 18 20
B
A
8 7 6 5 4 3
8
7 6 5 4
3 2 1
PMU (2
OF 2)
D
- (
BOARD_ID
i-
REVISION
PP LD03 AMUX 1V8
0 .IV UNUSED
0 .3V UNUSED
0 .5V UNUSED
1R23_RF
143K
i%
1/32W
MF
01005
BOARD
ID
PA
ID
1
R25_RF
102K
i%
1/32W
MF
01005
NOSTUFF
PA_ID > 1
PA ID < 1
00V FOR MAV7
00V FOR MAV8
c
rrrry
BB RST L
PS HOLD
R21 RF
1.0"0K
-AAA/—
5%
1/32W
MF
01005
R20_RF
2°.°ÿ 2 PS HOLD PMIC 47
H"n>
5%
1/32W
MF
01005
RADIO ON L
RESET PMU
L
NC
NC
6 9.
16
62
74
PS HOLD
KPD_PWR*
PM_RESIN_N
OPT_l
OPT 2
U2_RF
PM8018-0
BGA
CONTROL
(SYM 1 OF 5)
LED DRV N
PON_RESET*
PM_USR_INT_N
PM MDM
INT N
86 NC
PMIC RESOUT L
PM USR
IRQ L
H PM MDM IRQ I.
-foTT>
ÿITOTS
0 .7V PROTOl
0 .9V PROT02
1.IV
EVT1
1.3V E1C
1.5V EVT2
1.7V DVT/PVT
XR2 4_RF
392K
i%
1/32W
MF
o 01005
1
R26_RF
15.8K
i%
1/32W
MF
01005
NOSTUFF
85
CODTK VDDPX BIAS 6 6
VREF
DAC BIAS
NC
NC
67
72
80
MPP_01
MPP_02
MPP_03
MPP_04
MPP_05
MPP 0 6
U2_RF
PM8018-0
BGA
MPP MISC
(SYM 4 OF 5)
PA THERMISTOR REMOVED TO MATCH N41, AP SECTION
NEEDS ITS OWN THERMISTOR PLACED NEAR THE PA'S.
GPIO.
GPIO.
GPIO.
GPIO.
GPIO.
GPIO.
01
02
0 3
0 4
0 5
06
33
NC
38
NC
50
NC
60
NC
71
NC
49
NC
PMIC SSBI
68
SSBI
PON_TRIG
BAT
ID
41
35
GND NEEDS TO BE CLEARED UNDER THIS CRYSTAL
TO MINIMIZE THERMAL DRIFT
Y1_RF
19.200MHZ
B
VCOIN
PM8018-0
BGA
INPUT PWR
(SYM 3 OF 5)
NC 57 U2_RF
GND_Sl(
GND
S2
GND — S3(
GND_S4(
GND
GND
S5
91
103
96
30
36
93
99
94
39
51
61
56
46
T
T
3Sl_GND
3 S2 GND
: S3 GND
3 S4 GND
3 S5 GND
XW1__RF
SHORT — 10L— 0 . 25MM-SM
— —
NOSTUFF
XW2_RF
SHORT — 10L — 0 . 25MM-SM
-
NOSTUFF
XW3_RF
SHORT- 10L-0 . 2 5MM-SM
-
NOSTUFF
XW4_RF
SHORT- 10L-0 . 2 5MM-SM
3_
-
--1
NOSTUFF _L_
XW16__RF
SHORT- 10L-0 . 25MM-SM
-1-67>-2
NOSTUFF
i
PP
LD?? AMUX 1V?
11
R22_RF
100K
i%
1/32W
MF
01005
2 . 0X1. 6-SM
3
19P2M XTAL
IN
19P2M XTAL OUT
O THERM Y1
1 C127_RF
1000PF
10%
6.3V
X5R-CERM
01005
I
NC 15
45
27
10
22
XTAL_19M_IN
U2_RF
PM8018-0
CLOCKS
(SYM 2 OF 5)
XTAL 19M OUT XO_OUT_AO
XTAL_32K_IN
XTAL_32K_OUT
GND1
GND0
XO_THERM
XOADC
GND
XO OUT
XO OUT
DO
A1
XO OUT D0_EN
SLEEP CLK
RSVD
19 19P2M WTR
25 19P2M MDM
37 NC
19P2M CLK EN
26 SLEEP CLK 32K
7
foUT>
ÿTjTJT> 2 5
rrm
{2ÿ 2 5
52
40
XO
GN1
A
XW10_RF
SHORT-10L- 0 .1MM-SM
8 7 6 5 4 3
8 7 6 5 4 3 2 1
BASEBAND (1 OF 2)
pp
MSM|
- 1— ÿ
1VHS
CI5_RF
1.OUF-
r r t
—
20% U%
—
? 2 6 3V X5R
? 2
0201-1
CI8_RF
1. OUF-
20%
6.3V
X5R
C20_RF
1.OUF-
20%
6.3V
X5R
0201-1
1
C23_Rf| 1 C2 6_RF
1.OUF-1-
20%
6.3V
X5R
OUF
0201-A 1 20%
6. 3V
X5R
0201-1
A21
AA1
U1 RF
MDM9615M
BGA
(6 OF 6)
GND
Ml4_
Ml5
D
PP
LD09 PLL 1V05
4
1
PP SMPS3 MSME
C14_RF
1.OUF -
— 20%
« 6 . 3V
2 X5R
0201-1
I I 1 C16_l
, 6.3V
ÿ
1V8
I
X5R
0201-1
3 6 5
1 C17_RF
- 1. OUF
— 20%
0
6 .3V
2 X5R
0201-1
r
0201-1I
CI
I
. 9_RF I 1 C21_RF 1 1
.OUF—L- 1.OUF—I—
1
20%
6.3V
X5R
0201-1
PP
20%
6.3V
X5R
0201-1
4 I 1 C22_
SMPS3 MSME
t
C22_RF
1 C2 4__RF
1. OUF
— 20%
0 6.3V 2 X5R
0201-1
1V8
—fc
— I — 1.OUF i or
20% D% —|— 2 C
C25_RF
1.OUF
RF
-i-
—
1.OF
20%OUF-
6 .3V 6.
20%
0 3V
X5R
2 X5R
0201-1 0201-1
r
1ÿ)5
1
C2 7__RF
1.OUF
20%
6. 3V
X5R
0201-1
010 ADSP
C30_RF
1.OUF
20%
6.3V
X5R
0201-1
PP LD012 MDSP SW 1V05
±
C28_RF C2 9_RF
1.OUF
T-
1. OUF
20%
20% 2 C
6. 3V 6-
X5R
2 3V
X5R
0201- 0201-1
\
C32_RF
1.OUF
20%
6.3V
X5R
0201-1
nnriP rw
C34_RF
I1 C35__
1.OUF )UF — L- RF
1.Oil OUF
20%
6. 3V
X5R
0201-1
20%
6. 3V
X5R
0201-1
1
C3 6__RF
1. OUF
20%
6.3V
X5R
0201-1
B2
B7
Bl4
Bl5
C19
_
F6
F7
F10
F15
F19
G2
G6
G10
Gil
G15
GND
Ml7
N14
P10
Pll
RIO
NC
NC
NC
NC
D2]c
E19c
D2
0c
D1SL
EBI2_NAND_CS*
EBI2_0E*
EBI2_WE*
EBI2 BUSY*
U1_RF
MDM9615M
BGA
(2 OF 6)
EBI1 EBI2
EBI1 CAL
C21 EBI1 CAL
EBI2_AD_ 0 J20 NC
EBI2_AD_ 1 J19 NC
EBI2_AD_ 2 G19 NC
EBI2_AD_ 3 H20 NC
1
Rl0_RF
240 2
i%
1/32W
MF
01005
1
D
G16
G17
G20
H6
T13
T14
NC
NC
C2
0c
E2
0c
EBI2_CLE*
EBI2_ALE*
EBI2_AD_
EBI2_AD_
EBI2_AD_
4 J21 NC
5 HI9 NC
6 H21 NC
EBI2 AD 7 E21 NC
c 3
2
PP SMPS1 MSMC 1V05
P SMPSl MSMC 1V05
I1 C 68_ RF
—
' — 1.OUF
J20%
6. 3V
X5R
0201-1
F9
F12
F13
F14
G9
G12
H9
12
J8
J9
U1_RF
MDM9615M
BGA
(5 OF 6)
PWR
VDD
VDD
DDR
ADSP
PP SMPS3 MSME
1V8
PP. LDO10 ADSP1V05
i
_H10
GND
HI1 VI 9
HI5
HI6
J6
J7
J10
Jll
Ji4
J15
K6
ÿ K7
K10
Kl1
Kl4
GND_ANA
Fll
T6
Til
U9
W7
c
•12
J13
K8
K9
K12
13
L8
L9
12
L13
M8
M9
VDD
CORE
VDD MDSP
FW
PP LD011 MDSP FW 1V05
PP LD012 MDSP SW 1V05
3 5
3 5
K20
L2
L6
L7
LI0
Ul3
Wl3
LI1 —
LI5
M6
M7
Ml0
Ml2
/
B
A
PP
LD09 PLL 1V05
PP SMPS3 MSME 1V8
rnrv
PP LD013 VDDPX
2V95
Ml3
N8
N9
12
N13
P 9
12
R9
Rl2
T8
T 9
CI7
CI8
17
F17
G7
G8
G'l3
G14
H7
H8
H13
H14
P7
P8
P13
P14
R7
R8
Rl3
14
A14
A19
F21
Ml
M21
VDD
VDD
ff21 VDD_P2
MEM
PI
VDD MDSP
SW
VDD_QFUSE_PRG
VDD_USB_1P8
VDD_USB_3P3
VDD_HVPAD_BIAS
VDD_PLLl(
VDD_PLL2
VDD_A2
VDD_A2
GND
GND
VDD_A1
VDD_A1
VDD
GND
P3
VDD_P4
VDD_P 5
VDD_P 6
VDD_P7
Bl-
E12
El
PP LD04 VDDA 3V3
PP
LVS1
El6 VDDPX BIAS
K17
LIl
W12
U6
U7
AA11
L
AA18
W9
AA7
AA15
PÿLDOÿPLIÿW05
PP_LD03_AMUX
-P|ÿsDÿÿ0ACÿrVÿ
1V8
3 5
3 4
R6_RF
4 7 OK
5%
1/32W
MF
, 01005
2 1
PP LD02 XO HS 1V8
1 C31_RF
0 .1UF
20%
4 V
X5R
01005
NOSTUFF
PP SMPS2 RF1 1V3
T
X5R
T
0201-1
1 C7 0__RF
- 1.OUF
1 C71_RF
- 1. OUF
— 20%
0
6.3V
2 X5R
0201-1
C3 3__RF
1q. OUF
X5R
0201-1
4 2
4 <OUT
2'BI
19P2M_MDM
19P2M CLK
PMIC SSBI
EN
90 BB USB D P
90 BB USB D N
PP SMPS3 MSME 1V8 RREFEXT
A2 pp iiiinfi mim ivfi
A3 pp wTi mw ivn
_A7PÿLD0ÿVDDP)ÿrV2
AUpp Wcp NcjNr 1vn
C 6 9_RF
1.OUF
20%
6.3V
X5R
0201-1
IN
< TN |
2 3
PMIC RESOUT L
f
DEBUG RST L
f
. SLEEP CLK 32K AA19
BB JTAG TCK
BB JTAG TDI
BB JTAG TMS
BB JTAG TRST L
i
R7_RF
200
i%
1/32W
MF
01005
ID IS NC
Y2
Y4c
Y3 TCK
AA2 TDI
W4 TMS
AA 4ÿ TRST*
W20
NC
Y 19
NC
V2 0
U21
Y21
Cll
Ell
A12
C12
B12
HP HHP YPllP
cio
RESIN*
SRST *
SLEEP_CLK
MODE__0
M0DE_1
CXO
CXO__EN
SSBI_PMIC
USB_HS_DP
USB_HS_DM
USB_HS_REXT
USB_HS_ID
USB_HS_SY SCLK
USB. HSVBUS
U1_RF
MDM9615M
BGA
(1 OF 6)
DIGITAL
RESOUT
TDO
RTCK
HSIC_CAL
HSIC_DATA
HSIC STB
DNC
DNC
SDC 1_CMD
SDC1_CLK
SDC1_DATA0
SDC1_DATA1
SDC 1_DATA2
SDC1_DATA3
U20
AA3
Y2
A8
CI
B8
E8
C8
B9
A9
E9
C9
BIO
A1Q
Kl9
L21
LI9
L20
N20
N21
NC
BBJTAG TDO
BB_JTAG_RTCLK
50 HSIC CAL
50_HSIC_BB_DATA
50 HSIC BB STROBE
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
HO:JT>
fotr
R9_RF
240 ! ?
-A/Vv-
1%
1/32W
MF
01005
B
8 7 6 5 4 3
8 7 6 5 4 3 2 1
BASEBAND (2 OF 2)
D
D
U1_RF
MDM9615M
BGA
(4 OF 6)
c
B
IN
Tn"
PRX
PRX
PRX
PRX
DRX
DRX
Q
N
P
0 N
BB IP
BB IN
DRX BB Q P
DRX BB O N
GP > Q BB IP
GPS
BB IN
GPS BB O P
CPS BR Q N
NC
NC
NC
NC
FL4_RF
7 0—OHM- 3 0 OMA
ITTX\_
01005-1
U8
W
YF
KKX
Y10
aaTTT
KK5
W17
wttt
W15
wnr
W10
UTTT
BBRX
BBRX
IP CHO
IM CHO
BBRX_QP_CHO
BBRX_QM_CH0
BBRX
BBRX
IP CHI
IM CHI
BBRX_QP_CH1
BBRX_QM_CH1
BBRX_IP_CH2
BBRX__IM_CH2
BBRX_QP_CH2
BBRX_QM_CH2
GNSS_BB_IP
GNSS_BB_IM
wil
GNSS_BB_QP
uil
GNSS_BB_QM
PP.fiPT NOR
ANALOG
iM
W5 VREF DAC BIAS
DACO VREF
± 1 C62_RF
Y13
T
0 .1UF
20%
6.3V
X5R-CERM
NC 01005
TX_DAC 1_QP
""
EA13 NC
TX_DAC 1_QM
TX_DAC0_IP
TX_DAC0_IM
TX_DAC0_QP
TX_DAC0_QM
TX_DACO_IREF
TX__DAC1_IP
TX
1 C61_RF
0 .1UF
20%
6.3V
X5R-CERM
01005
DAC1 IM
DNC
Y6_
AA6_
75
AA5
Y14
AA14
HI7
"jl7
V21
"W21
Y12
Y16
Yl7
AA12
AA16
AA17
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
TX BB I P
TX BB I N
TX_BB_Q_P
TX_BB_Q_N
WTR BB TX DAC IREF
a 6
pp SMB-S-3 MSMF. LVfi
OUT
<OUT|—
LOUTI
*5T7TI-
&T?I-
"COUTIieÿoLrrv
cbuTi—
<6uti-
1/32W
01005
SIM TRAY
SIMCRD
DETECT
RST CONN
Be
GPIO_0
A$
GP IO_l
"A
~ b!
c
SIMCRD CLK CONN
GP IO_2
SIMCRD IO CONN
GP IO_3
BB SPI TO PAC CLK
GPIO_4
BB SPI TO PAC CS
B
GP IO_5
PAC TO BB SPI DATA MISO B
GP IO_6
BB SPI TO PAC JATA MPSI A .
GP IO_7
SPI CLK
Aid
GP IO_8
CS
—
GP IO_9
SP DATA MISO
El
,GPIO_10
SPI DATA MOSI
ei;
.GPIO_l1
BB UART RTS L
CI
GPIO_12
BB ART CIS
ci:
GPIO_l3
BB UART RXD
Ell
,GPIO__l4
BB UART TXD
A1
GPIO_l5
NC ci; GP IO_l6
OSCAR CONTEXT A
Bid
GPIO_l7
AP WAKE MODEM BIS
GPIO_l8
GPIO DEBUG LED
Cld
GP IO_l9
BB I2S CLK
A1
GPIO_20
BB I2S WS B2:
GP IO_21
BB I2S RXD
B2C
GP 10_22
BB I°° z. o TXD A2(
NC
NC
B1
P2:
R2:
NC
_GP IO_26
GP IO_7C
P2C
NC .GPIO_27
GPIO_71
R2C
NC
_GP IO_28
GPIO_7
T2
RESERVED FOR FAMILY ID _GP IO_29
GP IO_7
T2:
RESERVED FOR FAMILY ID
_GP IO_30
GP IO__7
Uÿ
_GP
GSM_PA_LB_EN IO_31 GRFC_0, PA_ON GP IO_7
Vÿ
GSM_PA_HB_EN _GPIO_32 GRFC_1,PA_ON GP IO_7
PA ON B2 B3_ v:
_GPIO_33 GRFC_2,PA_ON GPIO_7'
PA ON BIB4 u: _GP IO_34 GRFC_3,PA_ON GPIO_7 6
NC t: _GP IO_35 GRFC_4/ PA_ON GPIO_7S
PA ON B5 B8 t:
_GP IO_36 GRFC_5,PA_ON GPI0_ 8C
PA ON B20 Tf _GP IO_37 GRFC_6, PA_ON GPI0_81
PA ON B13 B17
Ri_GP IO_38 GRFC_7,PA_ON GPIO_8
PA BS
DRX ASM VI
WTR RX ON
WTR RF ON
PA R0
R •
t:
r:
_P$
p
GP 10_2 3
GP IO_24
_GP IO_25
.GPIO_39
_GP IO_40
_GP IO_41 GRFC_10 GP IO_ 8 5
_GP IO_42
.GP IO_43
U1_RF
MDM9615M
BGA
(3 OF 6)
GP I(§&FC_1 4GP io_4
GRFC_15gpio_4
GRFC_18, SWqpjq_4
GRFC_19, SW(3pjo_4
GRFC_2Oqp jo_4
GRFC_21gpio_4
GRFC_22gpio_5
GRFC_23qpxo. 5:
GRFC_24,SWGPi0. 5:
GRFC_25/SWGPIO_5:
GRFC_26, SWGPI0_5
GRFC_2 7, SWGPI0 51
GRFC_28,SWGPIO_5e
GRFC_29, SWGPIO_5
GRFC_30, SWGPIO 5
GRFC_3 Igp IO, 5 ÿ
GRFC_3ÿ3p io_6C
GRFC_33cp io._6
GRFC_34sPIO_6ÿ
GRFC_35, S%pio__6j
GRFC_3ÿPIO_6<
GRFC_37GPIO_6
GRFC_3q3pIO_6e
GRFC_3%pi0_6
GPIO_6S
GP IO_6S
GRFC_8,PA_ON GPIO_ 82
GRFC_9,SW GPIO_ 8 4
GRFC_11 GPIO_8 6
GRFC_13 GPio_ 87
P3
Rl
N5
N3
P2
M2
N1
—
K1
K5
K3
~K2
J2
T5
Tl
H5
G5
HI
H2
F3
Fl
G3
V3
W3
W2
W1
Y1
F2
E2
E3
Dl
El
D2
"5*3
CI
B1
C2
C3
PA Rl
DRX ASM V2
LAT_SW3_CTL
2G FEM S 6
LAT SW1 CTL BOOT CONFIG
TX GTR THRESH BOOT_CONFIG_
NC, ELNA CONTROL
N2 GP IO _5 1
BOOT CONFIG 3
M3 2G FEM S 5 BOOT CONFIG
L3 2G_FEM. S 4 BOOT CONFIG 1 OUT
-foTTTÿ
M5
L5
2G FEM SI
2G FEM SO
BOOT CONFIG 0
[out!
- NC
H3
NC
NC
DRX
ASM V3
2Q FEM §2
FEM
LAT SW2
DCDC
EN
S3
DCDC MODE
CTL
DRX ASM V4
BB PDM
LTE COEX
LTE COEX
RXD
TXD
BB HSIC1 REMOTE. WAKE
BB IPC GPIO
WTR
SSBI PRX DRX
WTR SSBI TX GPS
BB ERROR
FLAG
WTR GP DATA0 GPH
WTR GP DATA1 GPH
NC, WTR GP DATA2
WFANTX BLANK
NC
OSCAR CONTEXT B
PBL RUN BB HSIC1 RDY
AP
PM MDM
HSIC1 RDY
IRQ L
RESET DET L
PS HOLD
PP
SYNC
HOST WAKE BB
PM USR
IRQ L
BOOT_CONFIG_-4ÿu"
—IQUT>
—-160TV
Tow
—IUUT>
— ÿOUT>
out:
HOUII
OUT
OUT
HOJT>
- I|
7TT
>UT
11 12
18
17
18
10 17
10 17
16
16
18
16
13 14 15
c
B
Vi
SPI DATA HQSI
SPI CLK
U6 RF
SERIAL-SPI-2MX8-1.8V
WLCSP
MX25U1635EBAI — 10G
CS *
WP */ SI02
SI/SIO0
SCLK
NC/ S 103
G
4D
SO/SIOl
r
T
B3
C3
A4
Fl
F4
SPI CS L
SPI DATA MISO
NC
NC
NC
ÿQliT>
A
CO
W
!
J
8 7 6 5 4 3
8 7 6 5 4 3 2 1
RF TRANSCEIVER (1 OF 4)
D
10
10
IN
Tn
10 Q_XCVR_B13_B17_B2 0_PRX_P
100 XCVR Bl3 B17 B20 PRX N
100 XCVR B8 PRX N
100_XCVR_B8_ PRX P
100 XCVR B5 Bl8 PRX P
100 XCVR B5 Bl8 PRX N
100 XCVR B2 B25 PRX P
100 XCVR B2 B25 PRX N
100 XCVR_B3 PRX P
100 XCVR B3 PRX N
100 XCVR DCS PCS PRX N
100 XCVR DCS PCS PRX P
100 XCVR Bl B4 PRX P
100 XCVR Bl B4 PRX N
PRX TRANSCEIVER RF AND
78
61
3T"
48
4"3
36
30
23
17
8
16
7
15
U3_RF
WTR1605
SM
SYM 3 OF 5
PRX
PRX_LB1_INP PRX_ BB IP
PRX LB1 INM PRX_ BB IM
PRX_LB2_INP
PRX__BB_QP
PRX LB2 INM PRX_ BB QM
PRX_LB3_INP
PRX LB3 INM
PRX MB1 INP
PRX MBl INM
PRX MB2
PRX MB2
PRX MB3
PRX MB3
INP
INM
INP
INM
PRX HB INP
PRX HB
INM
IQ PORTS
DNC
C TRANSCEIVER RF AND IQ E
84
"92
91
T2"
86
NC
PRX BB IP
PRX BB IN
PRX BB Q
PRX BB Q
P
N
IOUT>
HOUT)
HQUT>
--jOUT>
R27_RF
4 .75K
—wvi%
1/32W
MF
01005
TRANSCEIVER PHASE CONTROL, TX RF & IQ PORTS
TX_BB I_P 130
TX BB IN 138
rntv-
rrrv
rm
rrrrv
HTTV
TX BB O P 131
TX_BB_Q_N 139
WTR BB TX DAC IREF
WTR GP DATA0 GPH 105
WTR GP DATA1 GPH
WTR
WTR_GP_DATA2, NC
RBIAS
WTR
NC
NC
NC
VTUNE
I21
"88"
114
96
90
60
79
WTR RX ON 45
WTR RF ON 100
WTR
WTR
SSBI TX GPS
SSBI PRX_DRX
109
89
80
TX_BB_
TX_BB_
IP
IM
TX_BB_QP
TX_BB_QM
DAC_REF
GP_DATA0
GP_DATA1
GP_DATA2
DNC
DNC
DNC
RBIAS
VTUNE_PRX
RX__ON
RF_ON
SSBI_TX_GNSS
SSBI_PRX_DRX
U3_RF
WTR1605
SM
SYM 2 OF 5
TX
TX_LB1
TX_LB2
TX_LB3
TX__LB4
TX_MB1
TX_MB2
TX_MB3
TX MB4
PDET
TX_HB
DNC
IN
140 5 0_XCVR_B13_B17 B2 0 TX
132 50 XCVR 2G LB TX
141 50 XCVR B8 TX
133 50 XCVR B5 B18 TX
126 50 XCVR B2 B25 TX
119 50 XCVR 2G HB TX
112 50 XCVR B3 B4 TX
95 50_XCVR_ Bl TX
103
NC
93 NC
101 50 PDET IN
C2 4 8_RF
-fouiV
ÿJ5T7TV
-jrrÿ
HQUT>
-rrrv
ÿJ5THV
10
56PF
R2 9_RF
2 50 PDET PAD OUT , 47
A
5%
16V
NP0-C0G
01005
DC-BLOCK
FOR SELF
NEEDED
CAL
~ ~ —-LA/W
5%
1/32W
MF
1--- — 01005 50 PDET PAD IN
R28_ RF R30 RF
130
i%
1/32W
1/32W
MF
01005
01005
rrm 17
D
c
18
18
18
18
10 0 XCVR B8_B20_DRX_P
100 XCVR B8B20 _DRX_N
100 XCVR B5 Bl 8 B13 B17 DRX P
100 XCVR B5 Bl 8 B13 B17 DRX N
14
13
U3__RF
WTR1605
SM
SYM 1 OF 5
DRX__GPS
DRX LB1 INP DRX_ BB IP
DRX LB1 INM DRX_ BB IM
DRX LB2 INP DRX__BB_QP
DRX LB2 INM DRX__BB_QM
63 DRX BB IP
72 DRX BB IN
50 DRX BB 9
57 DRX BB Q
p
N
L
r
L
rL
r
19P2M WTR
C12 8_RF
100PF
1II 2 19P2M WTR
F
5%
16V
NP0-C0G
134
120
01005
CI82.
10PF
GND
XO. IN
RF
CERM
01005
NOSTUFF
7 DB ATTENUATOR
C
18
18
100 XCVR B2 B25 B3 DRX P
100 XCVR B2 B25 B3 DRX N
12
DRX MB
DRX MB
INP
INM
18
18
IN
100 XCVR Bl B4 DRX P
100 XCVR Bl B4_DRX N
11
DRX HB INP
DRX HB INM
18|
181
IN
100 XCVR GPS RX P
100 XCVR GPS RX N
10
18
GNSS INP GNSS._BB_IP
GNSS INM GNSS._BB_IM
56
CP? PP I P
62 GPS BB_IN
--fOLr!>
GNSS._BB_QP
GNSS. _BB_QM
70 GPS BB 0 P
71 GPS BB O N
GND
TRANSCEIVER GROUND
CONNECTIONS
B
U3_RF
WTR1605
SM
B
46
77
77
~68
~
22
77
~
2~o"
~
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
SYM 5 OF 5
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
125
124
123_
Tl0_
T02
"99
"129
"94
7l5
A
75
*38"
41
"58"
~
59
~
~
73
77
~
81
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
111.
122
T07
To 6
T35
12T
104_
*113
19
"32
4~9
35
GND
142
GND
GND
8 7 6 5 4 3
8 7 6 5 4 3 2 1
RF TRANSCEIVER (2 OF 2)
RFl 1V3 RF1 1V3 RF2 2V05
D
C
PP .Wfrfi RF1 1Yil
R53_RF
L±yvyv- 1
1/20W
MF
201
STAR ROUTING
PP SMPS2 RFl 1V3 FILT f .
T
±
T
C72_RF
10UF
20%
6.3V
CERM
0402
STAR ROUTING
I_
STAR
ROUTING
ALIAS >-ÿ
r P RFl 1V3 PRX PLL PP SMPS2 RF
1 C73_RF
- 0 .1UF
— 20%
. 6. 3V
z
X5R-CERM
01005
PLACE NEAR U3 . 66
PP RFl 1V3 SHDR
T
1 C74_RF
- 0 .1UF
—
~ 20%
6 .3V
z
PLL
X5R-CERM
01005
PLACE NEAR U3 .65
P RFl 1V3 PRX VCO
ALIAS >-ÿ
t
1 C75_RF
- 0 .1UF
— 20%
0
6.3V
ÿ
X5R-CERM
01005
U3.76
f
P RFl 1V3 SHDR VCO
A1.IAS >1
Mas lA.; V
1 C76_RF
0 .1UF
- 20%
. 6 .3V
z X5R-CERM
r
01005
PLACE NEAR U3.40
P RFl 1V3 TX DA
I 1 C7 7__RF
— I — 0 .1UF
X5R-CERM
01005
PLACE NEA
NOSTUFF
STAR ROUTING
3 FILT L~ 1
RFl 1V8
t
I I r
C85_RF |
0 .1UF
20%
6.3V
STAR ROUTING
r — i
I
1
— —
I
H ALIAS >1
H ALIAS >'
X5R-CERM
01005
PLACE NEAR U3.24 AND U3.31
C8 6_RF |
0 .1UF
20% |
STAR ROUTING
r "i
I
6.3V _ _
ALIAS VI
X5R-CERM
01005
PLACE NEAR U3 .37 AND U3.55
PP RFl 1V3 GPS
PP RFl 1V3 GPS
LNA s
DIG
pp m iyi ripp-vco
PP RFl 1V3 GPS PLL 8
6 s 3 2 PP_SMPS3_MSME_1V8 PP_RF1_1V8_DIG
I
1 C87 RF
1.0UF
20%
6. 3V
X5R
0201-1
PLACE NEAR U3.87
PP SMPS4 RF2 2V05 1
R19_
0"
1/20W
MF
201
STAR ROUTING
PP SMPS4 RF2 2V05 Fill
1 C88_RF
- 10UF
20%
6 .3V
CERM
0402
STAR ROUTING
HALIAS >1
PP RF2 2V05 DRX BB a
PP RF2
r
2V05 TX DA
Halias >' D
1 C2 4 4__RF
- 100PF
;v
2 NP0-C0G
01005
PLACE NEAR U3.111
PP RF2 2V05 PRX BB
Halias >-ÿ
I
PP RF2 2V05 TX BB
Halias >i
—
STAR u ROUTING
HALIAS >1
T
1 C8 9_RF
0 .1UF
- 20%
__J
HALIAS >1
HALIAS >1
PP_RF2_2V05_PRX VCO
0
6 .3V
ÿ
X5R-CERM
01005
PLACE NEAR U3. 67
PP_RF2_2V05_SHDR_VCO
T
1 C 9 0_RF
- 0 .1UF
PP
- 20%
z0 6.3V
X5R-CERM
01005
PLACE NEAR U3.51
RF2 2V05 TX VCO
T
1 C91_RF
- 0 .1UF
- 20%
z0 6 .3V
X5R-CERM
01005
PLACE NEAR U3.136
c
H AST AS >1
ALIAS >ÿ
f
P RFl 1V3 TX SYNTH
C78_RF
0 .1UF
20%
6.3V
X5R-CERM
01005
PLACE NEAR U3.98
P RFl 1V3 TX LO
T
C7 9_RF
0 .1UF
20%
6.3V
X5R-CERM
01005
PLACE NEAR U3.116
Halias >-i
HAT,IAS >-l
PP RF2 2V05 TX PLL
i
1 C92_RF
- 0 .1UF
PP RF2 2V05 XO
- 20%
6.3V
z9
FILT
X5R-CERM
01005
PLACE NEAR U3.127
B
STAR ROUTING
ALIAS VI
H ALIAS >
r
P RFl 1V3 TX UPCONVERTER
TRANSCEIVER POWER
CONNECTIONS
r
C 8 0_RF
100PF
5%
16V
NP0-C0G
01005
PLACE NEAR U3.117
C81_RF
0 .1UF
20%
6. 3V
X5R-CERM
01005
STAR ROUTING
i
"
Haisai; >-i
I
HALIAS >1
PLACE NEAR U3753 AND U3.26
r
1 C82_RF
- 0 .1UF
20%
6.3V
X5R-CERM
01005
PLACE NEAR U3.42
PP RFl 1V3 PRX FELOl 8
PP RFl 1V3 DRX FE
m Avi?
m mn
,PP RFl 1V3 PRX FELQ2
„ PP RFl 1V3 DRX LBLO
~PP RF 1 1V3 pRX FE
PP RFl 1V3 DRX_MBLO
„PP RF1_1V3 JAM DET
:!PP RF2 2V0 5 PRX BB
PP RF2 2V05 DRX BB
„ PP_RF2_2V05_PRX_VCO 67
PP RFl 1V3 PRX FEL02
ÿm s PP RFl 1V3 PRX VCO 76
STAR
ROUTING
H ALIAS >-l
PP RFl 1V3 DRX
LBLO
PP RFl 1V3 SHDR PLL
>3_
42
J?
26
25
85
83
44
PP RFl 1V3 PRX PLL 66
51
_PP RFl 1V3 SHDR VCO 40
65
LJ3__RF
WTR1605
SM
SRM 4 OF 5
PWR
VDD__RF1__P_FELO VDD_RF2_T_DA 111 HI PP RF2 2V05 TX DA
VDD__RF1__P_FELO VDD_RF1_T_DA HE 118 pp RFl 1V3 TX DA
VDD__RF 1__D_LBLO VDD_RF1_T_UPC 11" PP RFl 1VI TX UPCONVF.RTF.R
VDD__RF1__D_FE VDD RFl T LO 11E 116 pp RF1 1V3 TX LO
VDD__RF1._D_MBLO VDD RF2 T BR 108 PP RF2 2V05 TX BB
VDD__RF 1._JDET
VDD_RF2_T_VCO 136
VDD__RF2__P_BB
VDD_RF2_XO 127
VDD _RF2__D_BB
vnn RFl
98
V I—* Ls_I\I. -L_ TX _ O 9YN X l*J
VDD _RF2__P_VCO
VDD RF2 T PTiT,
97
VDD _RF1__P_VCO 24
VDD_RF1_G_LNA
VDD__RF1__P_PLL
VDD RFl G VCO 37
VDD__RF2__S_VCO
T 7T—x T—v T—\ *1— , *1 , t-st t
—*
55
VDD RFl G PTJ,
VDD _RF1__S_VCO
VDD RFl G BB 31
VDD__RF1__S_PLL
VDD_DIO
87
PP RF2 2VP 5 XO FILT
PP FF1 1YT TF fiYNTH
PP PPP PY(lrl in PliTi
PP RFl 1V3 GPS PLL
PÿRFÿTÿÿGPÿÿÿ,
pp m m pin
B
A
—I—
1 C8 3_RF
- 0 .1UF I
20%
6.3V I I
X5R-CERM
01005
PLACE NEAR U3.25 AND U3.28
H ALIAS >1
PP RFl 1V3 DRX
MBLO
HALIAS >-l
PP
RFl 1V3 JAM DET
8 7 6 5 4 3
8 7 6 5 4 3 2 1
TRANSCEIVER TX AND
RX MATCHING
TX
MATCHING NETWORKS
D 50 XCVR B1 TX
R4 6_RF
- 0.00
-A/W1
o%
1/32W
MF
01005
50 B1 TX SAW IN ÿTOTTTV 10
D
R47_RF
ÿ ÿ ÿ
50_XCVR_B3_B4_TX]
2
-VVVÿ
0%
1/32W
MF
01005
50 B3 B4 TX SAW IN
R4 8
50_XCVR_B2_B25_TX1 0 .U"0
RF
50_B2_B2 5_TX_SAW
IN
10
0%
1/32W
MF
01005
c
c
RX MATCHING NETWORKS
B
12
50 B2 DUPLX RX
50 B3 DUPLX RX
C18 5_RF
0 .6PF
I 2
+/-0.05PF
16V
CERM
01005
L3 6_RF
8.7NH-5%-0 .29A
0201DS
CI8 6_RF
27PF
50 B2 RX BALUN 1
1 C183_RF
- 1.1PF
— +/-0 .1PF
~ 16V
z NP0-C0G
01005
5%
16V
NP0-C0G
01005
CI87__RF
0 .7PF
+/-0.05PF
16V
NPO-COG
01005
L37_RF
5 .6NH-3%— 0 .35A
0201
100 XCVR B2 B25 PRX N
L38_RF
6 . 8NH-5%-0 .5A
0201DS
100 XCVR B2 B25 PRX P
100 XCVR B3 PRX N
L39_RF
5 .6NH— 3%— 0 .35A
0201
ÿJoTTS
HOUT>
HOUT>
ii
d>
ii
14
14
100 B1 B4 DUPLX RX P
10 0_B1_B4_DUP LX_RX_N
100 B5 Bl8 DUPLX RX N
100 B5 Bl8 DUPLX RX P
C4 0__RF
10PF
2 10 0_ XCVR_B1_B4 _ PRX _ N
5%
25V
CER
0201
L44_RF
3 .3NH+/-0 .1NH-0.45A
0201
C 9 3_RF
10PF
1 2 10 0_XCVR_ Bl _ B4 _ PRX _ P
5
2 5V
CER
0201
L49_RF
10NH-3%-25OMA
L45_RF
22NH-150MA
0201
rrrr\_
0201
10 0_XCVR_B5_B18_PRX_N
L50_RF
10NH-3%-25OMA
_TTTY\_ 2 100_XCVR_B5_B18_P RX_P
0201
L51_RF
10NH-3%-25OMA
B
CI8 8__RF
27PF
50 B3 RX BALUN 1
100 XCVR B3 PRX P
14
100 B8 DUPLX RX P
T
rrm_ 10 0_XCVR_B8_PRX_P
0201
A
1 C18 4_RF
- 1.2PF
+/-0 .1PF
16V
NPO-COG
01005
5%
16V
NPO-COG
01005
1 4
100 B8 DUPLX RX N
L4 6_RF
18NH+/-3%-0 .2A-0 .80HM
0201
L52_RF
10NH-3%-250MA
mrrL 2
0201
100_XCVR_B 8_PRX_N
8 7 6 5 4 3
8 7 6 5 4 3 2 1
SAW
BANKS
D
D
20 18 17 3 2
HB TX SAW BANK +
B13/B17/B20 DP6T SWITCH AND MATCHING LB TX SAW BANK
2G_FEM_S 6
2G_FEM_S3
2G FEM S2
PP LD014 2V65
voI r-
CO
rTTTV
ITTTV
ITTTV
50 XCVR B5 B18 TX
o 0 XCVR B8 TX
50 XCVR
B13 B17 B20 TX
FL2_RF
LMTPFJGA-E5 0
LGA
B5/ 18/ BC10_TX_IN B5/ 18/BC10_TX_OUT
B8_TX_IN
B13/17/20_TX_IN
GND
B8_TX_OUT
B13_TX_OUT
Bl7_TX_OUT
B20_TX_OUT
115 0_B5__TX_SAW_OUT
10 50_B8_TX_SAW_OUT HOU'll
9 50_B13_TX_SAW_OUT ÿfoTTTÿ
3 50_B17_TX_SAW_OUT
7 50_B2 0_TX_SAW_OUT
HOUT>
14
14
15
15
13
c
50 B1 TX SAW IN
B1TXIN
VDD VI V2 V3
U9_RF
HFQSMXXFA
LGA
BAND1TXOUT
14 5 0_B1_TX_SAW_OUT
c
50 B2 B25 TX SAW IN
50 B3 B4 TX SAW IN
B25 TXIN
B3/4_TXIN
B25TXOUT
B3TXOUT
BAND4TXOUT
11 5 0_B2_TX_SAW_OUT
12 50_B3_TX_SAW_OUT
13 5 0_B4_TX_SAW_OUT
12
11
IN
IN
100 B13 DUPLX RX N 15
100 Bl3 DUPLX RX P 16
100 Bl7 DUPLX RX P 17
100 Bl7 DUPLX RX N 18
B13_RXIN
B13_RXIN
B17_RXIN
B17_RXIN
B13_17_20_RXOUT0
Bl3 17 20 RXOUT1
1 100_ XCVR Bl3. B17 B20. PRX N
I 1>
100 B20 DUPLX RX P
10Q B20 DUPLX RX
N
19
20
B20_RXIN
B20 RXIN
GND
THRM
PAD
«—i CM CO
CM CM CM
2 100 XCVR Bl3 Bl7 B20 PRX P |0i:T>
DCS/PCS 2 — IN—1 RX FILTER L54 RF
B
BAND S 6 S3 S2
B3 TX HIGH X X
B4 TX LOW X X
B13 RX X HIGH HIGH
Bl7 RX X HIGH LOW
" B20 RX X LOW HIGH
.7 PT
L64_RF
2 .4NH+/-0 .1NH-0.50A
5Q_PCS_RX 2 5 0__PCS_RX_MATCH
0201
L65_RF
2 .0NH+/-0 . 1NH—0 .6A
50 _DCS_RX 1TTTTT
50 DCS RX MATC
0201
T
J
C2 4 5_RF
I 1
0 .6PF 3P —1—
+/-0.05PF
25V
CERM
0201
C2 4 6_RF
1.2PF
+/-0 . 1PF
25V
C0G-CERM
0201
FL6 RF
SAWFD 1G84BU0F57
FILTER
LGA-1
UNBAL PORT 1960MHZ BAL PORT 1842.5MHZ/1960MHZ 6 100__DCS__PCS__RX_FILTER_P
UNBAL PORT 1842. 5MHZ BAL PORT 1842.5MHZ/ 1960MHZ 9 100__DCS__PCS__RX_FILTER_N
- GND-m
cm CO r* CO o
1. 1NH+/— 0 .1NH
rmrc 100_XCVR_DCS_PCS_PRX_P
0201
L53_ RF
4 .3NH-3%-0 .35A
0201
L55 RF
1. lNH+/ÿ0 .1NH
rrm :
0201
100_XCVR_DCS_PCS_PRX_N
HOUT>
B
A
8 7 6 5 4 3
8 7 6 5
4 3 2 1
BAND
1/4 PAT
D
D
PA_ON_B1_B 4
3 12 Hen
PP PA
PP BATT VCC
CONN
C164_RF
0 .1UF—
20% —
6.3V
X5R-CERM
01005
C2 0 8__RF
1000PF-
10%
6.3V
X5R-CERM
01005
CI65__RF
1.OUF -
20%
6. 3V
X5R
0201-1
1 C2 0 9__F
- 27PF
— 5%
0 25V
ÿ
NPO-COG
201
NOSTUFF
C236_ RF
56PF
5%
16V
NPO-COG
01005
C237_RF
56PF —
5% —
16V
NPO-COG
01005
PA BS
PA R1
C2 3 8__ RF
56PF
5%
16V
NPO-COG
01005
6 12 14 15
6 12 13 14 15
c
50 Bl TX SAM OUT
C162_RF
1.2PF
+/-0.1PF
16V
NP0-C0G
01005
NOSTUFF
LI1_ RF
2 .2NH+/-0 .1NH-200MA
ipnnn 2
01005
LI2_RF
3 .0NH+/-0 .1NH-200MA
50 B4ÿTX SAW OUT rrrr\z.
01005
C163_RF
0 .7PF
+/-0 . 05PF
16V
NPO-COG
01005
C2 5 8_RF
1.2PF
+/-0.1PF
16V
NPO-COG
01005
NOSTUFF
50_B1_TX_PAD_IN 28
5 0_B4_TX_PAD_IN 2 6
8
RFIN_B1
RFIN_B4
RX_P_B1_B 4
RX
N Bl B4
OS
CM
H
H
O
U
C >
>
CM
•T
CO
CO
I
2
in
CsJ
CO
CO
o
ro
u
Q
O
2>
L70_RF
U14_RF£
0 .8NH-+/-0 .1NH-0.8MA
TQM6M63 14
CPL IN
50 Bl
LGA
20i
ANT Bl B4 16
C2 4 9_RF
0 . 5PF
+/-0.05PF
GND
THRM PAD
25V
COG-CERM
0201
i—i !—1 <—1 <—1 i— i <—i CM CM CM CO CO CO CO CO CO co CO CO NOSTUFF
'sT "T <vT
CM CO m vo r- o CM CO •5T m CO os f-H CO r- tH CM CO *ÿr m r- CO OS o r—1 CM
ÿ4 DPLX ANT rrrru 50 B1ÿB4 ANT
0201
C167_RF
0 .3PF
+/-0.05PF
25V
COG-CERM
0201
NOSTUFF
17
C
100 Bl B4 DUPLX RX N
100 Bl B4 DUPLX RX P
[out;
B
B
BAND PA POWER MODE PA_BS PA_ON_B1_B4 PA_
R1
A
POWER DOWN X 0 0 0
STANDBY X X 0 X
B4 HPM 0 1 0
B4 LPM 0 1 1
Bl HPM 1 1 0
Bl LPM 1 1 1
8 7 6 5 4 3
8 7 6 5 4 3 2 1
BAND
2/3 PAD
D
D
c
rrrrv
5 0 B3 JTX SAW OUT
C193_RF
4 .OPF
+/-0.1PF
16V
NPO-COG
01005
LI4_RF
6 .8NH— 3%-14 OMA
01005
>- " r" — - - 1
1 C14 7 RF
L 0 .5PF
+/-0.05PF
16V
NPO-COG
01005
17 16 15 1
LI5_RF
3 .9NH+/-0 .1NH-180MA
mm
01005
PP_PA
PP BATT VCC
C259_RF
1. OPF
+/-0.1PF
16V
NPO-COG
01005
NOSTUFF
CONN
0:
6 . 3V
X5R-CERM
01005
6 .3V
X5R-CERM
01005
5 0_B3_TX_PAD_IN 2 6
50_B2_TX_PAD_IN 2 8
13
14
I 11
X
10
C14 9_RF
1.°UF -
X5R
0201-1
1 C211__F.F
- 27PF
— 5%
? z
25V
NPO-COG
201
NOSTUFF
1 C14 8_RF
- 0 .1UF— 1 C210_RF
- 1000PF-
<j\
•vT
CM
CM
CM
H o co cr
H U>
< Cx-
CQ Q
m>
O
cm
CQ.
PA ON
PA BS
PA_R1
B2 B3
m 6
~
6 11 13 14 15
«r>
CM
U23_|f
AFEM-7 92503
LGA
50 iy DPLX ANT 3 .6NH+/-0 .1NH-400MA
rrrrm 50 B3 ÿANT
c
-f0UTÿ ÿ 1 CI52__RF
- 0 .7PF
— +/-0.05PF
, 25V
z COG-CERM
0201
L72_RF
3 .5NH+/-0 .1NH-0 . 45A
imm 50 DPLX ANT
50 B2 ÿANT
17
HOUT>
0201
L71_RF
RFIN_B3
CPL_IN
NC
RFIN_B2
CPL OUT 20
NC
0201
RX_B3
GND
ANT_B3 16
1 C250_RF
- 1. OPF
RX_B2
ANT B2 8
+/-0.1PF
2 5V
COG
GND
GND THRIVI PAD
201
CO LO CD r- CM LO CO 0ÿ CM CO r- rH CM CO FT LO ko r- CO 03 o iH CM
i—1 i—1 H *
—1
*— 1 CM CM CM CM CO CO CO CO CO ro co CO CO
50 B2 DUPLX RX
50 B3 DUPLX RX
C25 1_RF
1.OPF
+/-0. 1PF
2 5V
COG
201
1 C15 3_RF
- 1.3PF
— +/-0.1PF
z0 COG-CERM
25V
201
B
B
BAND PA POWER MODE PA ON B2 B3 PA Rl
POWER DOWN X 0 0 0
A
STANDBY X X 0 X
B3 HPM 0 1 0
B3 LPM 0 1 1
B2 HPM 1 1 0
B2 LPM 1 1 1
8 7 6 5 4 3
8 7 6 5 4 3 2 1
BAND
20 PAD
D
D
PP_PA BULK
BYPASSING SHARED WITH Bl/4 PAT
PP PA PA ON B20
2 1 1
rrrrv PP batt vcc conn
c
C 195_RF
3 . OPF
5 0 B2 0ÿTX SAW OUT 1 I 2
+/-0.1PF
16V
NP0 -COG
01005
L16_RF
8 .2NH-3%— 140MA
01005
L17_RF
C15 6_RF
0 .1UF -
— 20%
0
6. 3V
ÿ
X5R-CERM
01005
5 0_B2 0_TX_PAD_IN 2 6
8 .2NH— 3%-14 OMA
01005
C2 3 3_RF
1000PF
10%
6.3V
X5R-CERM
01005
28
-±r 12
13
11
10
RF_IN_B20
GND
RX_P_B20
RX_N_B20
GND
GND
C2 3 4_F
0 .1UF
10%
16V
X5R-CERf-
0201
LO
(NJ <M
O
U
>
o
co
CJ
>
cm
CQ
U2 0 7_RF
SKY77496
LGA
C2 3 9_RF
56PF -
5%
16V
NP0-C0G
01005
<N
"3 ao
CPL
CPL
IN
C2 4 0_RF
56PF
5% 16V
NP0-C0G
01005
20 NC
NC
PA_R1
6 11 12 14 1!
50 B20 DPLX ANT
C 3 9_RF
2 .OPF
+/-0.1PF
2 5V
C0G-CERM
0201
L73_RF
5 . 6NH-3%-0 .35A
rrm
0201
50 B2Q ANT
ANT_B2 0 16
GND 8
1 C16 0_RF
- 3 .6PF
— +/-0.05PF
GND
THRM PAD
. 2 5V
ÿ
COG-CERM
'— *— — I— 0201
1 1—1 i < 1 1 CM CM CM CM CO CO co CO CO CO CO CO CO NOSTUFF
-vT
—
rH 00 VO r- CTl T LO r- 00 1— 1 CM en r- i—l CM 0") LO i£> r- CO CT\ o t—l CM
-
17
C
B
B
100 B20 DUPLX RX P
ÿIdVJTÿ io
100 B20 DUPLX RX N
foTTT>
BAND PA POWER MODE PA ON B20 PA R1
A POWER DOWN LPM 0 0
STANDBY X 0 X
B20 HPM 1 0
B20 LPM 1 1
8 7 6 5 4 3
8 7 6 5 4 3 2 1
BAND
5/8 PAD
D
D
ll
2 ÿ
IN
PP
PA
PP BATT VCC CONN
PA ON
PA BS
B5 B8
C118__RF
0 . 1UF—
20% —
6. 3V
X5R-CERM
01005
C212__RF
1000PF-
10%
6.3V
X5R-CERM
01005
CI19__RF
1. OUF -
20%
6.3V
X5R
0201-1
L
C213_RF
- 27PF
- 5%
ÿ>
25V
- NPO-COG
201
NOSTUFF
R1
C214_RF
56PF —
5% —
16V
NPO-COG
01005
C2 15_RF
56PF —
5% —
16V
NPO-COG
01005
C216_RF
56PF
5%
16V
NPO-COG
01005
c
10 50_B5_iTX_SAW_ OUT
C116__RF
1.2PF
+/-0.1PF
16V
NPO-COG
01005
NOSTUFF
L7_RF
2 .7NH+/-0 .1NH-200MA
CM
01005
C256_RF
0 .7PF
+/-0.05PF
16V
NPO-COG
01005
50 B5 TX PAD IN 26
5 0_B8_TX_PAD_IN 28
RFIN__B5
RFIN_B8
H
H
<
>
ÿr
cs]
co
*1
in
2
I
CM
cn
CQ
U58_R.i>
SKY77493
LGA
o
CO
£
QO
CPL_IN
CPL
20 NC
NC
L74 RF
6.2NH-U.3 OA
50. B5 DPLX ANT _A/TTTLi
0201
50 B5gANT
C
Ll0_RF
2 .2NH+/-0 .1NH-200MA
50 B8.TX SAW OUT rrm_L
C117_RF
1.2PF
+/-0 .1PF
16V
NPO-COG
01005
NOSTUFF
01005
1 C25 7_RF
- 0 .7PF
— +/ — 0 .05PF
2 NPO-COG
01005
13
14
11
10
RX__P_B5
RX_N_B5
RX_P_B8
RX N B8
GND
co m co r- C"> CM m CO ON
r—I CM
CM
CM
CO
CM
r-
CM
CO
CM
CO
cn
cn
CO
m
co
THRM PAD
vo
co co
r-
co
co
CO
o
ANT_B5
ANT
B8
CM
•sT
16
8
1 C252_RF
- 4 .8PF
+/-0.1PF
25V
COG-CERM
0201
1 C122__RF
- 27PF
25V
NPO-COG
201
NOSTUFF
100 B8. DUPLX_RX N
50 B8 JDPLX ANT
L75_RF
4 .3NH-3%-0 .35A
_a/TTT1a_
0201
50 B8ÿANT
100 B8 DUPLX RX P -foTTTS
100 B5 Bl8 DUPLX R
100 B5 Bl8 DUPLX R
=-hoTTÿ
C253_RF
1.9PF
+/-0 . 1PF
25V
COG
0201
C12 3_RF
27PF
5%
25V
NPO-COG
0201
NOSTUFF
B
B
BAND PA POWER MODE PA_BS PA_ON_B5_B8 PA_
R1
POWER DOWN X 0 0 0
A
STANDBY X X 0 X
B5 HPM 0 1 0
B5 LPM 0 1 1
B8 HPM 1 1 0
B8 LPM 1 1 1
8 7 6 5 4 3
8 7 6 5 4 3 2 1
BAND
13/17 PAD
D
D
16 14 13 12 11
PP_PA
ÿ ÿ PP_BATT_VCC_CONN
PA_ON_B13 BX-_
—- ~ <TTT1
PA BS
ii ly
c
50_B13_TX_SAW OUT
50 B17 TX SAW OUT
LI8_RF
5.lNH-3%-0 . 16A
01005
LI9_RF
6 .2NH-3%-140MA
_a/TTT\j_
01005
CI0 8_RF
1.5PF
+/-0.1PF
16V
NPO-COG
01005-1
1 C10 9_RF
- 2 . OPF
+/-0 . 1PF
2 16V
NPO-
0100 COG
5
C110_RF
0 . 1UF—
20% —
6. 3V
X5R-CERM
01005
C217_RF
1000PF-
10%
6.3V
X5R-CERM
01005
50 Bl3 TX PAD IN 26
50_B17_TX_PAD_IN 2 8
13
14
11
10
RFIN_B13
RFIN_B17
RX_P_B13
RX_N_B13
RX_P_B17
RX_N_B17
C111_RF
1.OUF —
20% —
6 . 3V
X5R
0201-1
GND
1 C235_RF
- 27PF
— 5%
0
25V
ÿ
NP 0 -COG
201
NOSTUFF
m
CM
CM CO in NO ON CM m CO ON
iH
H
H
>
CNJ
CM
(J
O
>
O
CO
ON
CM
r- co
i—i CQ
CO
' —I
2
U1317_JRF
RF3763
LGA
CM
CO
CM
r-
CM
1— I
CO
CM
CO
CO
CO
CM
t*
QO
>
-sT
co
PA Rl
THRM PAD
m
CO
NO
CO
r- co
CO
CO
ON
CO
CPL_IN
CPL
ANT_B13
ANT
o
ÿr
ÿr
B17
CM
•CT
20
16
8
1
C63_RF
5 .1PF
50
B13#DPLX ANT 50 Blk. LPF_IN
C113_RF
2 .2PF
+/-0.05PF
2 5V
C0G-CERM
0201
NOSTUFF
+/-0.25PF
2 5V
CERM
SM
C114_RF
27PF
5%
2 5V
NPO-COG
0201
NOSTUFF
C 12 1_RF
1.6PF
+/-0.1PF
16V
NPO-COG
01005
L22_RF
6.2NH-0 .3 OA
jJTTTll 50 Bl3 ANT c
0201
100_B17_DUPLX_RX_N
100 Bl7 DUPLX RX P
100 Bl3 DUPLX RX N
100 Bl3 DUPLX RX P
ANT
1 C254_RF
- 2 .2PF
— +/-0.1PF
. 16V
NP0-C0G
01005-1
L77_RF
6 .8NH-3%-140MA
_iiTTT\A_
01005
50 nil ANI
C115_RF
56PF
5%
16V
NPO-COG
01005
NOSTUFF
17
B
B
BAND PA POWER MODE PA ON Bl3 Bl7 PA Rl
POWER DOWN X 0 0 0
A
STANDBY X X 0 X
Bl7 HPM 0 1 0
Bl7 LPM 0 1 1
Bl3 HPM 1 1 0
Bl3 LPM 1 1 1
8 7 6 5 4 3
8 7 6 5 4 3 2 1
DC/DC CONVERTER
D
D
12 11 3 2
PP BATT VCC CONN
XW4 7_
SHORT-1OL-O
1 <57> RF
, 2 5MM-SM
2
PP BATT VCC PA DCDC
c
C18 9_RF
56PF —
V
NP0-C0G
X5R
101 005
01005
T S
C1214_
0 .01UF
10%
3V
Rl
C1201.
10UF
20%
0402
RF
1 C1215_RF
- 1. OUF
z9
„.3V
X5R
0201-1
C16 9_RF
0 .01UF
10%
6.3V
X5R
01005
c
PLACE NEAR U1.H3
PLACE NEAR U11.A2
1€l DCDC PGND
CM
CQ
U
DCDC PGND 16
BB PDM
R33_RF
, 300 o
5%
1/32W
MF
01005
ÿ82= PDM_FILT
CI4 4_RF
6800PF
10%
6.3V
X5R
01005
R34_RF
, 300 „
1A/V\r
5%
1/32W
MF
01005
1 C14 5_RF
- 4700PF
— 10%
z0 X5R
6.3V
01005
DCDC_ ADJ
A2
DCDC EN B1
DCDC MODE CI
REFTN
rH
<
CM
2 2
H
H
U11_RF
PN MAX7 7 100
WLP
MODE
Q Q
2 2
O O
< cu
OUT
LX
XW6_RF
SHORT—10L—0 . 25MM-
DCDC PGND 1
L21_RF
_
2UH-20%-l.5A-0 .160HM
B3
nrnr out OTT\ÿ
MAKK2016-SM
1 C41 RF
4 .7UF
20%
6. 3V
X5R
PP
C16 8_RF
1000PF
10%
6.3V
X5R-CERM
01005
PA
OUT>
11 12 13 1A 15 17
NOSTUFF
XW8_RF
SHORT—10L-0.25MM-SM
-i-<57>-ÿ -
NOSTUFF 1
DC
PLACE C41 CLOSE TO L21
B
B
A
8 7 6 5 4 3
8 7 6 5 4 3 2 1
2G FEM
D
D
10 3 2
20 18
PP
PP
LD014 2V65
PA
FL1_RF
7 0— OHM— 3 0 OMA
13 n mm. rtftv PP BATT VCC CONN 2 PP_BATT VCC_2 G_FEM
01005-1
C202__RF
56PF
5%
16V
NP0-C0G
01005
C65_RF
0 .1UF
20%
6.3V
X5R-CERM
01005
C66
10UF IF
20%
6 . 3V
CERM
0402
_RF I 1 CI90__RF
_L_
0 .1UF-
- 20%
—
9z
6.3V
X5R-CERM
01005
1 C2 4 2__RF
- 0 .01UF
- 10%
0 6.3V 2 X5R
01005
C67__RF
0 .1UF-
20%
6.3V
X5R-CERM
01005
C2 4 3_RF
0 .01UF
10%
6.3V
X5R
01005
C2 0 3__ RF
56PF
5%
16V
NPO-COG
01005
2G
2G
2G
2G
2G
FEM S6
FEM S5
FEM S4
FEM S3
FEM S2
2G FEM SI
2G
FEM SO
-CTFT1
6 10
6
2 6
6 10
6 10
2 6
6
c
B
CI2 0__RF
2 .2PF
50 XCVR 2G LB TX 1
50 XCVR 2G HB
+/-0.1PF
16V
NPO-COG
01005-1
R5 5_RF
*
o.oo,
ÿI21aa/v—
0%
1/32W
MF
01005
50 XCVR_2G
!_LB_TX_MATCH 1
1 +/-0
C2 0 0__RF
2 .4PF
2
1PF
16V
NPO-COG
01005-1
LI3_RF
10NH-3%-14OMA
01005
C2 0 1_RF
56PF
1-
~T~ HB TX MATCH l
C64_RF
1.5PF
+/ — 0 . 1PF
16V
NPO-COG
01005
NOSTUFF
5%
16V
NPO-COG
01005
n
14
14
12
10
10
13
15
15
50 2G LB _PA_IN 32
50 2G. HB _PA IN 36
50 B1 B4 ANT 25
50 B8 ANT 24
50_B5 ANT 23
22
50 B2 ANT 21
50 DCS RX 11
5 0_PCS__RX 10
50_B20_ANT 9
50_B17_ANT
50_B13_ANT
LB RFIN
HB_RFIN
TRX1
TRX2
TRX3
TRX4
TRX5
TRX6
TRX7
TRX8
TRX9
TRX10
CN]
«—I
ON
CNJ
H
H
*£
CQ
>
5
U
u
>
GND
£M
s
CO
Q
Q
>
in
Tj-nl
vd in ÿ ro cnj rH o
CO co co c/> CO CO CO
U2 0 0 0_RF
SKY77572
LGA
THRM_PAD
C2 2 6__RF
56PF -
5% —
16V
NPO-COG
01005
VD CO O CO CO o rH CO m r- o rH CNJ co m CD r- CO CF> o
r— 1 rH rH CN CNJ CNJ ro CO CO CO co CO •3* ÿr ÿr m
T1
T2
ANT1
ANT2
C22 7_RF
56PF —
5% —
16V
NPO-COG
01005
2
13 50_DRX__ANT
19 50_B3 ANT
C22 8_ RF 1 C229_
56PF
5%
16V
NP0--C0G
(51005
- 56PF
— 5%
-t 16v
z
18
12
15 50 LAT ASM
17 50 UAT ASM
NPO-COG
01005
1 C230_ R
T
±
56PFf!v
"
NPO-COG
01005
C2 3 1_R
56PF-
5%
16V
NPO-COG
01005
C232_ RF
56PF
5%
16V
NPO-COG
01005
L24_RF
.0NH+/-0 .1NH-0.75A
1mm
0201
CI12 RF
2 7PF
e%3V
NP8lCOG
NOSTUjFFp ÿ
10NH-3%=
OMA
imnruL—
0201
NOSTUFF
T
FIL-COUPLER+LPF-BROADBAf
LDJ218 32M22HC0 3 3
0805-6SM
FL10_RF
50 LAT LPF
IN
1 CI2 4 RF
27PF —
COUPLE OUT
GND
6%3V
<NJ m
NP8lc°G
NOSTUFF
I 50 LAT 5G NOTCH
50
7 ÿoTjtV 50 PDET PAD IN
L78_RF
2.4NH+/-0 . 1NH-0.50A
1 C207_RF
- 0 .4PF
— 4-/-0.05PF
25V
92 COG1
1CO
'
TUFF
mm. 5 0_UAT_LPF
0201
50 LAT COUPLER IN
MAIN OUT
TERMINATE
FL9_RF
FIL-COUPLER+LPF-BROADBAI
LDJ218 32M22HB0 4 2
0805-6SM
IN
COUPLE OUT
On]
ID
MAIN OUT
TERMINATE
_
D
D
LAT COUPLER I
4 50 COUPLER TERM
R35_RF
49.9
i%
1/32W
MF |
,01005 -±r
50 LAT TEST
20
50 UAT TEST
L57_RF
15NH-250MA
0201
NOSTUFF
20
c
B
A
SEE PGS 21-22 FOR 2G FEM LOGIC TABLE
8 7 6 5 4 3
8 7 6 5 4 3 2 1
DIVERSITY
D
D
20 17 10 3 2 pp prion ?Yfn
100PF BYPASS INCLUDED IN MODULE DRX ASM VI
DRX ASM V2
DRX__ASM__V3
DRX__ASM_ V4
in
r- CO
ro
Q > > >
>
c
L7 9_RF
2 .8NH+/-0 .1NH-0 .50A
U16_RF
HFQSWXXUA
LGA
c
IIN>
50 DRX ANT_ 1 rrm_L 50 DIVERSITY SWITCH MATCH
0201
ANT
GPS/GNSS_ OUT _ P
GPS/ GNSS_OUT_N
12 100 XCVR GPS RX N
13 100_XCVR_GP S_RX_P
ÿiout>
1 C255_RF
- 1. OPF
— +/-0 .1PF
0
* 25V
COG
201
TTnV
50_GPS LNA OUT 10
GPS/GNSSIN
BAND1/ 4_OUT_P
BAND1/ 4_OUT_N
B5/18/13/17_OUT_P
B5/18/13/17_OUT_N
15 100 XCVR B1 B4 DRX P
16
19
20
100 XCVR Bl B4 DRX N
100 XCVR B5 Bl8 B13 B17 DRX P
100 XCVR B5 Bl8 B13 B17 DRX N
B8/ 2 0_OUT_P
B8/ 20_OUT_N
B25/3_OUT_P
B25/3_OUT_N
21
22
11
21
100 XCVR _B8. B20 _DRX. P
100 XCVR B8 B20 DRX N
100_XCVR_B2_B25_B3_DRX_P
100_XCVR_B2_B25_B3_DRX_N
foTTTÿ
loir
GND
THRM
PAD
(N
r-
c\j
CO
CM
B
B
BAND DRX_ASM_V4 DRX_ASM_V3 DRX_ASM__V2 DRX_ASM_VI
B1/B4 LOW LOW LOW LOW
B2/25 LOW HIGH LOW LOW
B3 HIGH LOW LOW LOW
B5/6/18 LOW LOW HIGH LOW
A
B8 LOW LOW LOW HIGH
B13/17 LOW HIGH HIGH HIGH
B20 LOW HIGH HIGH LOW
OFF LOW LOW HIGH HIGH
SWITCH IS TERMINATED IN ALL OTHER POSSIBLE: STATES
8 7 6 5 4 3
8 7 6 5 4 3 2 1
GPS
D
D
C
P P PHOS HPS T.NA ?VS
BYPASSING INCLUDED IN MODULE
c
GPS
FEED
SP2_RF
1.6X1.21MM
SM-NSP
1 50 GPS ANT
SPRING-OVERPASS-GND-NORTH-X145
C2 82_RF
2 .7PF
+/-0.1PF
25V
COG-CERM
0201
50 GPS LNA MATCH
L20_RF
6.2NH-0 .3 OA
0201
NOSTUFF
R12_RF
, 0.00_
"AAAr
1%
1/20W
MF
0201
50 GPS ANT FEED_§_RFIN
vcc
U20_RF
SKY 65736
LGA
RFOUT
4 50_GPS_LNA_OUT
GND
THRM PAD
CM ro ln <y\ O H CM CI
H 1 H t— I i—1
13
SP 3_RF
1
CLIP-SM
B
B
A
8 7 6 5 4 3
8 7 6 5 4 3 2 1
ANTENNA FEEDS
D
D
c
UATl FEED
SP 1_RF
1. 6X1.21MM
SM-NSP
1
50 UPPER ANT FEED
6 2
FL17 0 1_RF
FLTR-GPS-0603
LFE18 8 32MHC1D4 4 9
INJ
IN
NC
NC
Y
PAC TO BB SPI DATA MISO
XR5
: 19K~
'
RF
1J32W
MF
201005
6 2
3
BB SPI TO
LI732_RF
2 .4NH+/-0 .2NH-0 .57A-0 .07OHM
50 NTCH
f
F'ILT OUT 1 _fYYY\_ 2 50 UPPER MCH 1
±
PAC CS
1 C17 2 6_RF
0 .8PF
+/-0 . 05PF
16V
COG-CERM
01005
BB SPI TO PAC DATA MOSI
03015
L6_RF
5 .6NH-3%-140MA
01005
PAC TO BB SPI DATA MISO FILT
L66_RF
5 .6NH-3%-140MA
__a/TYTYjl_ BB SPI TO PAC CS FILT
01005
L67_RF
5 .6NH-3%-140MA
__a/TTT\j__
01005
BB SPI TO PAC DATA
MOSI FILT
8
MISO
RFl
CS
MOSI
SCLK
ON
Q
Q
>
U7
PP LD014 PAC
RF
RF1112
WLCSP
GND
/-s
RF2
1::
2V65
10
12
13
14
1 C247
- 56PF
A
— 5% -
~
16V
2 NPO-COG
01005
NC
NC
NC
NC
1 C9 9_RF
0 .01UF
10%
6.3V
X5R
01005
50 UAT COAX DOWN
L69_RF
5.6NH— 3%-14 OMA
rrm_L
PP LD0142V65
~
> -
I y 3 10 17 18
01005
TP1_ÿ.F
TP-P6
L8_RF
5 .6NH+/-0 .2NH-470MA
03015
UATl COAX
J6_RF
MM5829-270 0
F-ST-SM
o
T
J5_RF
MM582 9-27 0 0
F-ST-SM
c\
o
T
50 UAT TEST 17
c
6 2
BB SPI TO
PAC CLK
L68_RF
5 .6NH-3%-140MA
__a/TTT\ÿ_
01005
BB_SPI_"'0_PAC_CLK_ ?ILT
C\i T "H
T
1 C 9 6_RF
- 56PF -
— 5%
0
16V
2 NP0-C0G
01005
1 C 97_RF
- 56PF -
— 5%
0
16V
2 NP0-C0G
01005
1 C 9 8_RF
- 56PF -
— 5%
2 NPO-COG
01005
1 C3 8__RF
- 56PF
— 5%
9
16V
2 NPO-COG
01005
B
B
LAT
J4_RF
MM582 9-27 0 0
F-ST-SM
O
50 LAT TEST 17
o-j
ro
A
8 7 6 5 4 3
8 7 6 |1 5 1 4 1 3 1 2 1
2G FEM LOGIC TABLE (1 OF 2)
BAND S 6 S5 S 4 S3 S2 SI SO TX/PRX PATH DRX PATH
LB TX, IDLE, LAT HIGH HIGH HIGH LOW LOW HIGH HIGH LAT UAT
D
LB TX, IDLE, UAT HIGH HIGH HIGH LOW LOW LOW HIGH UAT LAT
LB TX, LAT, HPM HIGH HIGH HIGH LOW HIGH HIGH HIGH LAT UAT
LB TX, UAT, HPM HIGH HIGH HIGH LOW HIGH LOW HIGH UAT LAT
LB TX, LAT, LPM HIGH HIGH HIGH LOW HIGH HIGH LOW LAT UAT
LB TX, UAT, LPM HIGH HIGH HIGH LOW HIGH LOW LOW UAT LAT
LB TX, Z, LAT, HIGH HPM HIGH HIGH LOW LOW HIGH HIGH HIGH LAT UAT
LB TX, Z, UAT, HIGH HPM HIGH HIGH LOW LOW HIGH LOW HIGH UAT LAT
LB TX, Z, LAT, HIGH LPM HIGH HIGH LOW LOW HIGH HIGH LOW LAT UAT
LB TX, Z, UAT, HIGH LPM HIGH HIGH LOW LOW HIGH LOW LOW UAT LAT
HB TX, IDLE, LAT HIGH HIGH HIGH HIGH LOW HIGH HIGH LAT UAT
HB TX, IDLE, UAT HIGH HIGH HIGH HIGH LOW LOW HIGH UAT LAT
C
HB TX, LAT, HPM HIGH HIGH HIGH HIGH HIGH HIGH HIGH LAT UAT
HB TX, UAT, HPM HIGH HIGH HIGH HIGH HIGH LOW HIGH UAT LAT
HB TX, LAT, LPM HIGH HIGH HIGH HIGH HIGH HIGH LOW LAT UAT
HB TX, UAT, LPM HIGH HIGH HIGH HIGH HIGH LOW LOW UAT LAT
HB TX, HIGH Z, LAT, HPM HIGH HIGH LOW HIGH HIGH HIGH HIGH LAT UAT
HB TX, Z, UAT, HIGH HPM HIGH HIGH LOW HIGH HIGH LOW HIGH UAT LAT
HB TX, HIGH Z, LAT, LPM HIGH HIGH LOW HIGH HIGH HIGH LOW LAT UAT
HB TX, Z, UAT, HIGH LPM HIGH HIGH LOW HIGH HIGH LOW LOW UAT LAT
GSM850 RX, LAT HIGH LOW HIGH HIGH LOW HIGH HIGH LAT UAT
GSM850 RX, UAT HIGH LOW HIGH HIGH LOW LOW HIGH UAT LAT
B
GSM900 RX, LAT HIGH LOW HIGH HIGH HIGH HIGH HIGH LAT UAT
GSM900 RX, UAT HIGH LOW HIGH HIGH HIGH LOW HIGH UAT LAT
GSM1900 RX, LAT LOW HIGH LOW HIGH HIGH HIGH HIGH LAT UAT
GSM1900 RX, UAT LOW HIGH LOW HIGH HIGH LOW HIGH UAT LAT
GSM1800 RX, LAT HIGH LOW LOW HIGH HIGH HIGH HIGH LAT UAT
GSM1800 RX, UAT HIGH LOW LOW HIGH HIGH LOW HIGH UAT LAT
TERMINATED, UAT HIGH LOW HIGH LOW HIGH HIGH HIGH UAT LAT
TERMINATED, LAT HIGH LOW HIGH LOW HIGH LOW HIGH LAT UAT
LAT
UAT
LOWER ANTENNA
UPPER ANTENNA
A
8 7 6 5 4 3
8 | 7 | 6 | 5 1 4 1 3 1 2 1
2G FEM LOGIC TABLE -- DEV2 (2 OF 2)
BAND S 6 S5 S 4 S3 S2 SI so TX/PRX PATH DRX PATH
D
C
B
B1/BC6, LAT LOW LOW LOW LOW HIGH HIGH HIGH LAT UAT
B1/BC6, UAT LOW LOW LOW LOW HIGH LOW HIGH UAT LAT
B2/B25/BC1, LAT LOW HIGH LOW LOW HIGH HIGH HIGH LAT UAT
B2/B25/BC1, UAT LOW HIGH LOW LOW HIGH LOW HIGH UAT LAT
B3, LAT HIGH LOW LOW LOW HIGH HIGH HIGH LAT UAT
B3, UAT HIGH LOW LOW LOW HIGH LOW HIGH UAT LAT
B4/BC15, LAT LOW LOW LOW LOW HIGH HIGH HIGH LAT UAT
B4/BC15, UAT LOW LOW LOW LOW HIGH LOW HIGH UAT LAT
B5/B6/B18/BC0/BC10, LAT LOW LOW HIGH LOW HIGH HIGH HIGH LAT UAT
B5/B6/B18/BC0/BC10, UAT LOW LOW HIGH LOW HIGH LOW HIGH UAT LAT
B8, LAT LOW LOW LOW HIGH HIGH HIGH HIGH LAT UAT
B8, UAT LOW LOW LOW HIGH HIGH LOW HIGH UAT LAT
B13, LAT LOW HIGH HIGH HIGH HIGH HIGH HIGH LAT UAT
B13, UAT LOW HIGH HIGH HIGH HIGH LOW HIGH UAT LAT
B17, LAT LOW HIGH HIGH HIGH LOW HIGH HIGH LAT UAT
B17, UAT LOW HIGH HIGH HIGH LOW LOW HIGH UAT LAT
B20, LAT LOW HIGH HIGH LOW HIGH HIGH HIGH LAT UAT
B20, UAT LOW HIGH HIGH LOW HIGH LOW HIGH UAT LAT
OFF LOW LOW HIGH HIGH X X X X X
STANDBY LOW LOW LOW LOW LOW LOW LOW X X
LAT - LOWER ANTENNA
UAT = UPPER ANTENNA
OFF - LOWEST POWER STATE WI
STANDBY = ADDED TO SUPPORT
THOUT
EXIST
REMOVING LD014 2V65 POWER
ING SW ARCHITECTURE. NOT TO BE USED AS A LOW POWER STATE .
D
C
B
A
8 7 6 5 4 3
8 7 6 5 4 3 2 1
I
WLAN/BT
D
XW2 0_RF
SHORT-L9-SM
l JTUL 2
D
PP VCC MAIN WLAN
CI0 3
10UF
20%
6 .3V
CERM
0402
t
rR_l
T—
5% Ols
R16 RF
C10 4_RF
27PF
PP BATT VCC WLAN
t j££ mm matt ua
± 1 C10 5_RF C37_RF
T-
27PF
5%
- 0 . 01UF
10%
6.3V
X5R
01005
ÿ
- 16V
*
NP0-COG
0100 5
5%
16V
NPO-COG
01005
R17_RF
i °-00 ?
0%
1/32W
MF
01005
pp wti
rt ynnm ftr
C10 6__RF
18PF
50 WLAN G
23
C
32K
INTERFACE TO AP
XW11_ RF
SHORT-O 1005
rrry CLK32K AP WLAN CLK32K
±1
C10 2_RF
4 .7UF
20%
6.3V
X5R-CERM1
402
MiftN niirn nin
1/32W
01005
GPIO 6
mrv
WLAN REG ON 51
BT REG ON 50
30
50 HSIC WLAN DATA 24
L9_RF
2 .5UH-30%-0 .7A-0 .240HM
—
23 JTAG SEL 52
_rrm_i
0603
50 HSIC WLAN STROBE 25
NC
NC
36
31
17
18
23 WLAN COEX F-lXD 20
23 3DIP DATA 1 19
23 SDIO DATA 2 21
23 2 WLAN COEX TXD 22
NC
NC
45
14
IE
NC
WIFISW CTRL i£
VDDIO
CLK32K__AP
GPIO_6
VIN 1P2LDO
WL_REG_ON
BT_REG_ON
JTAG__SEL
SR_VLX
WLAN__HS IC__DATA
WLAN_HSIC_STROBE
SDIO_CLK
SDIO__CMD
SDIO__DATAO
SDIO__DATAl
SDIO_DATA2
SDIO_DATA3
RF__SW_CTRL_3
RF_SW_CTRL_7
RF_SW_CTRL_8
RF SW CTRL 9
1P8V
i
ÿ
co I to I r-
CM CM TT I TT
U U
U U
>l >l
H H
H H
< <
CQ CQ
(_)
(_>
U U
>l >l
Cu
Cu
cc
H H
H H
< <
CQ CQ
> >
U8_RF
LBEE5CMWXC-566
LGA
2G_ANT
5G_ANT
HOST_WAKE__BT
BT WAKE
BT_UART_RXD
BT_UART_TXD
BT_UART_RT S*
BT_UART_CTS*
BT_PCM__CLK
BT_PCM_SYNC
BT_PCM_OUT
BT_PCM_IN
GP IO__0
GP IO_l
GP IO_2
GP IO_3
GP IO_4
GP IO_5
GP IO_l2
GP IO_9
GP IO_l0
GP IO_l1
GP IO_l5
ANT
54 50 WLAN A ANT
41 HOST_WAKE_BT
49 BT WAKE
39 BT UART RXD
40 BT UART TXD
37 BT UART RTS L
38 BTUART CTSL
32 BT PCM CLK
35 BT PCM SYNC
33 BT PCM OUT
34 BT PCM IN
10 HOST WAKE WLAN
AP
HSIC3 RDY
11 WLAN HSIC3 RESUME
WLAN TX
WEAN
BLANK
UART RKP
12 WLAN UART TXD
13 WLAN HSIC3 DEVICE RDY
8 OSCAR CONTEXT A
NC
OSCAR CONTEXT B
NC
iCUT>
ÿjO UT>
< i I
HOUT>
TFT
ÿ{OTD
"TW
1
R18_RF
100K
5%
1/32W
MF
01005
2%
2 5V
COH-CERM
0201
C28 3_RF
0 .2PF
+/-0.05PF
25V
COG-CERM
0201
NOSTUFF
C170_RF
0 .2PF
+/-0.05PF
25V
COG-CERM
0201
C10 7_RF
0
-AAAA-
5%
1/20W
MF
201
C2 8 0_RF
6 . 8NH— 3%-0 . 3A
0201
50 WLAN A
23
C2 8 1__RF
2 .3NH+/-0 .1NH-0.50A-0 .20HM
0201
c
B
GND
THRML_PAD
07 VD CM *3" CO ID r- CO <j> o
CM CM in in m m m m CD
VOUT_3P3
29
NC
B
R14_RF
» 1OK
* 5%
• 1/32W
MF
2 01005
NOSTUFF
R15__RF
1OK
5%
1/32W
MF
, 01005
1 R4 3_RF
1OK
5%
1/32W
MF
01005
SDIO DATA 2
JTAG SEL
SDIO DATA 1
R4 4_RF
1OK
5%
1/32W
MF
> 01005
23
23
23
6 2 LTE COEX TXD
LTE COEX
RXD
R51_RF
0 .00
ÿAA/V-
0%
1/32W
MF
01005
R52_RF
0 .00
0%
1/32W
MF
01005
1
UAT2
J10_RF
MM582 9 — 2 7 0 0
L33_RF
F-ST-SM
8 .2PF
WLAN COEX RXD 23
50 WLAN ANT FD 50 WLAN ANIL MATCH T
CM 07
1 C101_RF
- 0 .2PF
— +/-0 .1PF
25V
z9
COG-CERM
WLAN COEX TXD 2 23
/-0 .1PF
25V
CER
0201
201
NOSTUFF
50 WLAN G
R13_RF
0
1 2 5 0 WLAN ANT MATCH
5%
1/20W
MF
201
50 WLAN A 1
U12 RF
2 .4 -5"GHZ
HMD8 0 9J
SM
2 .4G-INPUT COMMON
5G-INPUT
GND
CM
CD
A
PULL-UP ON GPI06, SDIO_DATA_2 &
PULL-DOWN ON SDIO_DATA_l REQUIRED FOR HSIC BOOTSTRAPPING
8 7 6 5 4 3