AGFA d-lab.3 Digital Compact Lab
AGFA d-lab.3 Digital Compact Lab AGFA d-lab.3 Digital Compact Lab
Repair Printer Voltages + 5V Logic supply +6,5V Logic source voltage +9V Supply voltage Printer - 9V Supply voltage Printer + 15V Supply voltage Scanner - 15V Supply voltage Scanner +22,8V Lamp voltage Scanner +24V Supply voltage + 36V Power voltage supply Jumpers Normal condition For the service: Jumper plugged in: J1 22,8V_ON Not plugged in 22,8V lamp voltage switched on when the LOCK switch is connected to the lamp (independent of the Software) J2 24V_ON Not plugged in 24V power voltage switched on (independent of the Software) J3 36V_ON Not plugged in 36V power voltage switched on (independent of the Software) J4 LAS_ON Not plugged in Laser switched on (independent of the Software) LED Display On PO_GS01 at the top, from left to right D23 +24V_AOM Lights when AOM amplifier_supply in tolerance D22 +22,8V Lights when voltage in tolerance D21 C_LAS_ON Lights when Laser current ≥ 3A D20 L2 No function D19 L1 No function D29 +6,5V Lights when source voltage for 5V logic supply of the Printer in tolerance D28 +36VP Lights when power supply of the Printer in tolerance D27 +24VP Lights when power supply of the Printer in tolerance D26 +5V Lights when logic voltage in tolerance D25 -15V Lights when analogue voltage of the Scanner in tolerance D24 +15V Lights when analogue voltage of the Scanner in tolerance D18 -9V Lights when analogue voltage of the Printer in tolerance D17 +9V Lights when analogue voltage of the Printer in tolerance AGFA d-lab.3 2001-01-02 /PN 9009 6.3.47
Printer Repair Test Points MP1 +5 +5V logic supply derived from the +6,5V MP2 GND GND against +5V MP3 5VP +5V logic supply on potential of the laser power supply; tapped via the DC_DC converter from the above 5V MP4 PGND GND against +5VP MP5 PR Measuring value of the laser power to the A/D converter = 1/2 of the value of the laser power supply (measured against PGND) MP6 CR Measuring value of the laser current to the A/D converter = double value of the laser power supply (measured against PGND) Circuit Diagram dlabe138 6.3.48 2001-01-02 /PN 9009 AGFA d-lab.3
- Page 247 and 248: Printer Repair ST11 DC motor supply
- Page 249: Printer Repair ST29 Pin connector s
- Page 253 and 254: Printer Repair Paper Transport and
- Page 255 and 256: Printer Repair Behaviour upon Print
- Page 257 and 258: Printer Repair Sheet Rotation / She
- Page 259 and 260: Printer Repair Roller Exit, Part 1
- Page 261 and 262: Printer Repair Flowcharts, Lane Dis
- Page 263 and 264: Printer Repair Sheet Distribution -
- Page 265 and 266: Printer Repair Sheet Transfer to Pa
- Page 267 and 268: Printer Repair Functional Descripti
- Page 269 and 270: Printer Repair 4. Begin Off Line (B
- Page 271 and 272: Printer Repair The following modes
- Page 273 and 274: Printer Repair 17. Calculation The
- Page 275 and 276: Printer Repair PF_GS01 - Technical
- Page 277 and 278: Printer Repair Magazine Drive MD ML
- Page 279 and 280: Printer Repair − The paper transp
- Page 281 and 282: Printer Repair ML_GS02 / MR_GS02 an
- Page 283 and 284: Printer Repair Layout dlabr205 Volt
- Page 285 and 286: Printer Repair Transport Unit TU Fu
- Page 287 and 288: Printer Repair Voltages + 5V Logic
- Page 289 and 290: Printer Repair Laser Module Warning
- Page 291 and 292: Printer Repair Connection of the po
- Page 293 and 294: Printer Repair PE_GS01, Layout dlab
- Page 295 and 296: Printer Repair Circuit Diagram dlab
- Page 297: Printer Repair Laser Remote After t
- Page 301 and 302: Printer Repair LA_GS05 - Red Laser
- Page 303 and 304: Printer Repair Lane Distributor LD
- Page 305 and 306: Printer Repair LD_GS01 - Lane Distr
- Page 307 and 308: Printer Repair RD_GS01 - Back Print
- Page 309 and 310: Printer Repair Laser Module (LA) Th
- Page 311 and 312: Printer Repair Laser Sources Laser
- Page 313 and 314: Printer Repair There are 2 methods
- Page 315 and 316: Printer Repair − Enter new values
- Page 317: Printer Repair − Define the pixel
- Page 321 and 322: Printer Repair Mainboard Replacemen
- Page 323 and 324: Printer Repair − Determine the op
- Page 325 and 326: Printer Repair Download XILINKS (pr
- Page 327 and 328: Printer Repair Loading setup values
- Page 329 and 330: Printer Repair − Print a test pri
- Page 331 and 332: Printer Repair Hexagon socket screw
- Page 333 and 334: Printer Repair Replacing the Magazi
- Page 335 and 336: Printer Repair Replacing the Cutter
- Page 337 and 338: Printer Repair Replacing the Switch
- Page 339 and 340: Printer Repair Replacing the Motor
- Page 341 and 342: Printer Repair Replacing the Pressu
- Page 343 and 344: Printer Repair Sheet Bridge SB, rep
- Page 345 and 346: Printer Repair Replacing the Sync D
- Page 347 and 348: Printer Repair Transport Unit TU, r
Printer<br />
Repair<br />
Test Points<br />
MP1 +5 +5V logic supply derived from the +6,5V<br />
MP2 GND GND against +5V<br />
MP3 5VP +5V logic supply on potential of the laser power supply; tapped via the<br />
DC_DC converter from the above 5V<br />
MP4 PGND GND against +5VP<br />
MP5 PR Measuring value of the laser power to the A/D converter = 1/2 of the value<br />
of the laser power supply (measured against PGND)<br />
MP6 CR Measuring value of the laser current to the A/D converter = double value<br />
of the laser power supply (measured against PGND)<br />
Circuit Diagram<br />
dlabe138<br />
6.3.48 2001-01-02 /PN 9009 <strong>AGFA</strong> d-<strong>lab.3</strong>