A SURVEY OF SEMICONDUCTOR DEVICES
A SURVEY OF SEMICONDUCTOR DEVICES A SURVEY OF SEMICONDUCTOR DEVICES
10 Sales ($Billion) 100 DRAM Technology driver NVM (flash) SRAM 1 1990 1995 2000 Year 2005 2010 Market size (arbitrary unit) Bipolar All semiconductor DRAM/CPU Nonvolatile memory 1950 1970 1990 2010 Year Floating-gate or SONOS type of MOSFETs will be dominant 34/39 K. Ng
MAJOR DEVICE & CIRCUIT MILESTONES VACUUM TUBES (1904) BIPOLAR TRANSISTOR (1947) (1958) INTEG. CIRCUIT MOSFET (1960) (1963) CMOS (1968) DRAM (1971) MICROPRO JFET (1952) MESFET (1966) FAMOS (1967) MODFET (1980) (1826) RESISTOR (1938) SCHOTTKY BARRIER (1949) p-n JUNCTION (1951) LED (1956) SCR (1958) TUNNEL DIODE (1962) LASER (1963) GUNN DIODE (1965) IMPATT DIODE (1970) CCD (1974) RESONANT-TUNNELING DIODE 35/39 K. Ng
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- Page 3 and 4: BASIC ELECTRONIC COMPONENTS L -----
- Page 5 and 6: HOW VACUUM TUBES WORK HEATER I ELEC
- Page 7 and 8: HIGH POWER DISSIPATION LOW RELIABIL
- Page 9 and 10: WHY IS SEMICONDUCTOR USEFUL? SOLID
- Page 11 and 12: Examples: Some are device variation
- Page 13 and 14: “All it Takes is Concentration”
- Page 15 and 16: American Heritage WHAT IS DIODE?
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- Page 33: WHY Si (OVER OTHER SEMICONDUCTORS)?
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- Page 39: CONCLUDING REMARKS • Identified ~
10<br />
Sales ($Billion) 100<br />
DRAM<br />
Technology driver<br />
NVM (flash)<br />
SRAM<br />
1<br />
1990 1995 2000<br />
Year<br />
2005 2010<br />
Market size (arbitrary unit)<br />
Bipolar<br />
All semiconductor<br />
DRAM/CPU<br />
Nonvolatile memory<br />
1950 1970 1990 2010<br />
Year<br />
Floating-gate or SONOS type of MOSFETs will be dominant<br />
34/39 K. Ng
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