No. |
Part Name |
Description |
Manufacturer |
1 |
2N3055H |
NPN silicon power transistor. 15Amp, 100V, 115Watt. These devices are designed for general purpose switching and amplifier applications. |
USHA India LTD |
2 |
MCP23016 |
16-bit I/O port expander with interrupt 3 hardware address pins allow user to use up to 8 of these devices on the same I2C/SMBus ... |
Microchip |
3 |
MCP23016 |
16-bit I/O port expander with interrupt 3 hardware address pins allow user to use up to 8 of these devices on the same I2C/SMBus ... |
Microchip |
4 |
MCP23016-I/ML |
16-bit I/O port expander with interrupt 3 hardware address pins allow user to use up to 8 of these devices on the same I2C/SMBus ... |
Microchip |
5 |
MCP23016-I/ML |
16-bit I/O port expander with interrupt 3 hardware address pins allow user to use up to 8 of these devices on the same I2C/SMBus ... |
Microchip |
6 |
MCP23016-I/SO |
16-bit I/O port expander with interrupt 3 hardware address pins allow user to use up to 8 of these devices on the same I2C/SMBus ... |
Microchip |
7 |
MCP23016-I/SO |
16-bit I/O port expander with interrupt 3 hardware address pins allow user to use up to 8 of these devices on the same I2C/SMBus ... |
Microchip |
8 |
MCP23016-I/SP |
16-bit I/O port expander with interrupt 3 hardware address pins allow user to use up to 8 of these devices on the same I2C/SMBus ... |
Microchip |
9 |
MCP23016-I/SP |
16-bit I/O port expander with interrupt 3 hardware address pins allow user to use up to 8 of these devices on the same I2C/SMBus ... |
Microchip |
10 |
MCP23016-I/SS |
16-bit I/O port expander with interrupt 3 hardware address pins allow user to use up to 8 of these devices on the same I2C/SMBus ... |
Microchip |
11 |
MCP23016-I/SS |
16-bit I/O port expander with interrupt 3 hardware address pins allow user to use up to 8 of these devices on the same I2C/SMBus ... |
Microchip |
12 |
MCP23016T-I/ML |
16-bit I/O port expander with interrupt 3 hardware address pins allow user to use up to 8 of these devices on the same I2C/SMBus ... |
Microchip |
13 |
MCP23016T-I/ML |
16-bit I/O port expander with interrupt 3 hardware address pins allow user to use up to 8 of these devices on the same I2C/SMBus ... |
Microchip |
14 |
MCP23016T-I/SO |
16-bit I/O port expander with interrupt 3 hardware address pins allow user to use up to 8 of these devices on the same I2C/SMBus ... |
Microchip |
15 |
MCP23016T-I/SO |
16-bit I/O port expander with interrupt 3 hardware address pins allow user to use up to 8 of these devices on the same I2C/SMBus ... |
Microchip |
16 |
MCP23016T-I/SS |
16-bit I/O port expander with interrupt 3 hardware address pins allow user to use up to 8 of these devices on the same I2C/SMBus ... |
Microchip |
17 |
MCP23016T-I/SS |
16-bit I/O port expander with interrupt 3 hardware address pins allow user to use up to 8 of these devices on the same I2C/SMBus ... |
Microchip |
18 |
MJ2267 |
Silicon PNP power transistor, these devices can be directly substituted for germanium types |
Motorola |
19 |
MJ2268 |
Silicon PNP power transistor, these devices can be directly substituted for germanium types |
Motorola |
20 |
PIC18F6390 |
LCD PIC18F Microcontroller with 8K bytes of Flash and 768 bytes of RAM. These devices are easily adapted for handheld meters, thermostats, ... |
Microchip |
21 |
PIC18F8390 |
LCD PIC18F Microcontroller with 8K bytes of Flash and 768 bytes of RAM. These devices are easily adapted for handheld meters, thermostats, ... |
Microchip |
22 |
TC1188 |
Delivering up to 120mA, the TC1188 and TC1189 are fixed output, low-dropout linear regulators that operate from a +2.5V to +6.0V input range. The 50�A supply current remains independent of load, making these devices ideal for battery-opera |
Microchip |
23 |
TC1189 |
Delivering up to 120mA, the TC1188 and TC1189 are fixed output, low-dropout linear regulators that operate from a +2.5V to +6.0V input range. The 50�A supply current remains independent of load, making these devices ideal for battery-opera |
Microchip |
24 |
TC125 |
The TC125/6 step-up (Boost) switching regulators furnish output currents to a maximum of 80 mA (VIN = 2V, VOUT = 3V) with typical efficiencies above 80%. These devices employ pulse frequency modulation (PFM) for minimum supply current at l |
Microchip |
25 |
TC126 |
The TC125/6 step-up (Boost) switching regulators furnish output currents to a maximum of 80 mA (VIN = 2V, VOUT = 3V) with typical efficiencies above 80%. These devices employ pulse frequency modulation (PFM) for minimum supply current at l |
Microchip |
26 |
TC1426 |
The TC1426/27/28 are a family of 1.2A dual high- speed drivers. CMOS fabrication is used for low power consumption and high efficiency. These devices are fabricated using an epitaxial layer to effectively short out the intrinsic parasitic |
Microchip |
27 |
TC1427 |
The TC1426/27/28 are a family of 1.2A dual high- speed drivers. CMOS fabrication is used for low power consumption and high efficiency. These devices are fabricated using an epitaxial layer to effectively short out the intrinsic parasitic |
Microchip |
28 |
TC1428 |
The TC1426/27/28 are a family of 1.2A dual high- speed drivers. CMOS fabrication is used for low power consumption and high efficiency. These devices are fabricated using an epitaxial layer to effectively short out the intrinsic parasitic |
Microchip |
29 |
TC4420 |
The TC4420/4429 are 6A (peak),single output MOSFET drivers. The TC4429 is an inverting driver (pin-compatible with the TC429), while the TC4420 is a non-inverting driver. These drivers are fabricated in CMOS for lower power, more efficient |
Microchip |
30 |
TC4429 |
The TC4420/4429 are 6A (peak),single output MOSFET drivers. The TC4429 is an inverting driver (pin-compatible with the TC429), while the TC4420 is a non-inverting driver. These drivers are fabricated in CMOS for lower power, more efficient |
Microchip |
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