No. |
Part Name |
Description |
Manufacturer |
1 |
C3830 |
COMPACT BENCH-TOP TYPE REGULATED DC POWER SUPPLY |
Hamamatsu Corporation |
2 |
C3866 |
COMPACT BENCH-TOP TYPE |
Hamamatsu Corporation |
3 |
C4720 |
COMPACT BENCH.TOP TYPE REGULATED DC POWER SUPPLY |
Hamamatsu Corporation |
4 |
C6465 |
COMPACT BENCH-TOP TYPE |
Hamamatsu Corporation |
5 |
LM95245 |
Precision Remote Diode Digital Temperature Sensor with TruTherm BJT Beta Compensation (45nm) |
Texas Instruments |
6 |
LM96570 |
8-Channel, Low Jitter Ultrasound Transmit Beamformer with Programmable Duty-Cycle and High Resolutio |
Texas Instruments |
7 |
LM96570SQX/NOPB |
8-Channel, Low Jitter Ultrasound Transmit Beamformer with Programmable Duty-Cycle and High Resolutio 32-WQFN |
Texas Instruments |
8 |
PIC18F6527 |
Ideal for large low power (nanoWatt) and connectivity applications that benefit from the availability of four serial ports: double ... |
Microchip |
9 |
PIC18F6622 |
Ideal for large low power (nanoWatt) and connectivity applications that benefit from the availability of four serial ports: double ... |
Microchip |
10 |
PIC18F6627 |
Ideal for large, low power (nanoWatt) and connectivity applications that benefit from the availability of four serial ports: double ... |
Microchip |
11 |
PIC18F66J15 |
Ideal for large low power and connectivity applications that benefit from the availability of four serial ports: double synchronous ... |
Microchip |
12 |
PIC18F6722 |
Ideal for large low power (nanoWatt) and connectivity applications that benefit from the availability of four serial ports: double ... |
Microchip |
13 |
PIC18F67J10 |
Ideal for large low power and connectivity applications that benefit from the availability of four serial ports: double synchronous ... |
Microchip |
14 |
PIC18F8527 |
Ideal for large low power (nanoWatt) and connectivity applications that benefit from the availability of four serial ports: double ... |
Microchip |
15 |
PIC18F8622 |
Ideal for large low power (nanoWatt) and connectivity applications that benefit from the availability of four serial ports: double ... |
Microchip |
16 |
PIC18F8627 |
Ideal for large low power (nanoWatt) and connectivity applications that benefit from the availability of four serial ports: double ... |
Microchip |
17 |
PIC18F86J15 |
Ideal for large low power and connectivity applications that benefit from the availability of four serial ports: double synchronous ... |
Microchip |
18 |
PIC18F8720-E/PT |
Ideal for connectivity applications that benefit from the availability of the double asynchronous serial port, the flexible synchronous ... |
Microchip |
19 |
PIC18F8720-I/PT |
Ideal for connectivity applications that benefit from the availability of the double asynchronous serial port, the flexible synchronous ... |
Microchip |
20 |
PIC18F8720T-I/PT |
Ideal for connectivity applications that benefit from the availability of the double asynchronous serial port, the flexible synchronous ... |
Microchip |
21 |
PIC18F8722 |
Ideal for large low power (nanoWatt) and connectivity applications that benefit from the availability of four serial ports: double ... |
Microchip |
22 |
PIC18F87J10 |
Ideal for large low power and connectivity applications that benefit from the availability of four serial ports: double synchronous ... |
Microchip |
23 |
PIC18LF8720-I/PT |
Ideal for connectivity applications that benefit from the availability of the double asynchronous serial port, the flexible synchronous ... |
Microchip |
24 |
PIC18LF8720T-I/PT |
Ideal for connectivity applications that benefit from the availability of the double asynchronous serial port, the flexible synchronous ... |
Microchip |
25 |
TC4421 |
The TC4421/4422 are high current buffer/drivers capable of driving large MOSFETs and IGBTs. They are essentially immune to any form of upset except direct overvoltage or over-dissipation — they cannot be latched under any conditions |
Microchip |
26 |
TC4422 |
The TC4421/4422 are high current buffer/drivers capable of driving large MOSFETs and IGBTs. They are essentially immune to any form of upset except direct overvoltage or over-dissipation — they cannot be latched under any conditions |
Microchip |
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