No. |
Part Name |
Description |
Manufacturer |
1 |
2028-771196-000 |
Synchronous rectification with inhibit, 0.7 A, 1.7 MHz adjustable, step-down switching regulator |
ST Microelectronics |
2 |
24C64 |
Supervisory Circuit swith I2C Serial CMOS E2PROM / Precision Reset Controller and Watchdog Timer |
Catalyst Semiconductor |
3 |
2961 |
HIGH-CURRENT HALF-BRIDGE PRINTHEAD/MOTOR DRIVER.WITH INTERNAL CURRENT SENSING AND CONTROL |
Allegro MicroSystems |
4 |
2N4117 |
Ultra-high input impedance N-channel JFET |
Linear Systems |
5 |
2N4117A |
Ultra High Input Impedance N-Channel JFET Amplifier |
Linear Systems |
6 |
2N4118 |
ULTRA-HIGH INPUT IMPEDANCE N-CHANNEL JFET |
Linear Systems |
7 |
2N4118A |
Ultra High Input Impedance N-Channel JFET Amplifier |
Linear Systems |
8 |
2N4119 |
ULTRA-HIGH INPUT IMPEDANCE N-CHANNEL JFET |
Linear Systems |
9 |
2N4119A |
Ultra High Input Impedance N-Channel JFET Amplifier |
Linear Systems |
10 |
2SK16H |
Silicon N-CHANNEL Junction Type FET Transistor, High Input Impedance Amplifier |
Hitachi Semiconductor |
11 |
2SK246 |
Field Effect Transistor Silicon N Channel Junction Type For Constant Current, Impedance Converter and DC-AC High Input Impedance Amplifier Circuit Applications |
TOSHIBA |
12 |
2SK30 |
N CHANNEL JUNCTION TYPE (LOW NOISE PRE-AMPLIFIER/ TONE CONTROL AMPLIFIER AND DC-AC HIGH INPUT IMPEDANCE AMPLIFIER CIRCUIT APPLICATIONS) |
TOSHIBA |
13 |
2SK30ATM |
Field Effect Transistor Silicon N Channel Junction Type Low Noise Pre-Amplifier, Tone Control Amplifier and DC-AC High Input Impedance Amplifier Circuit Applications |
TOSHIBA |
14 |
37C669 |
PC 98/99 COMPLIANT SUPER I/O FLOPPY DISK CONTROLLER WITH INFRARED SUPPORT |
SMSC Corporation |
15 |
37M602 |
ENHANCED SUPER I/O CONTROLLER WITH INFRARED SUPPORT |
SMSC Corporation |
16 |
3N187 |
MOS Field-Effect Transistor N-Channel Depletion Type with integrated gate-protection circuit, up to 300MHz |
RCA Solid State |
17 |
3SK20H |
Silicon N-CHANNEL MOS Type FET Transistor, High Input Impedance Pre-Amplifier |
Hitachi Semiconductor |
18 |
40693 |
Silicon Triacs designed for use with IC zero-voltage switches as triggering circuits |
RCA Solid State |
19 |
40694 |
Silicon Triacs designed for use with IC zero-voltage switches as triggering circuits |
RCA Solid State |
20 |
40695 |
Silicon Triacs designed for use with IC zero-voltage switches as triggering circuits |
RCA Solid State |
21 |
40696 |
Silicon Triacs designed for use with IC zero-voltage switches as triggering circuits |
RCA Solid State |
22 |
40697 |
Silicon Triacs designed for use with IC zero-voltage switches as triggering circuits |
RCA Solid State |
23 |
40698 |
Silicon Triacs designed for use with IC zero-voltage switches as triggering circuits |
RCA Solid State |
24 |
40699 |
Silicon Triacs designed for use with IC zero-voltage switches as triggering circuits |
RCA Solid State |
25 |
40700 |
Silicon Triacs designed for use with IC zero-voltage switches as triggering circuits |
RCA Solid State |
26 |
40701 |
Silicon Triacs designed for use with IC zero-voltage switches as triggering circuits |
RCA Solid State |
27 |
40702 |
Silicon Triacs designed for use with IC zero-voltage switches as triggering circuits |
RCA Solid State |
28 |
40703 |
Silicon Triacs designed for use with IC zero-voltage switches as triggering circuits |
RCA Solid State |
29 |
40704 |
Silicon Triacs designed for use with IC zero-voltage switches as triggering circuits |
RCA Solid State |
30 |
40705 |
Silicon Triacs designed for use with IC zero-voltage switches as triggering circuits |
RCA Solid State |
| | | |