| No. |
Part Name |
Description |
Manufacturer |
| 301 |
LTC4415IMSE#PBF |
Dual 4A Ideal Diodes with Adjustable Current Limit |
Linear Technology |
| 302 |
LTC4415IMSE#TRPBF |
Dual 4A Ideal Diodes with Adjustable Current Limit |
Linear Technology |
| 303 |
LTC4425 |
Linear SuperCap Charger with Current-Limited Ideal Diode and V/I Monitor |
Linear Technology |
| 304 |
LTC4425EDD#PBF |
Linear SuperCap Charger with Current-Limited Ideal Diode and V/I Monitor |
Linear Technology |
| 305 |
LTC4425EDD#TRPBF |
Linear SuperCap Charger with Current-Limited Ideal Diode and V/I Monitor |
Linear Technology |
| 306 |
LTC4425EMSE#PBF |
Linear SuperCap Charger with Current-Limited Ideal Diode and V/I Monitor |
Linear Technology |
| 307 |
LTC4425EMSE#TRPBF |
Linear SuperCap Charger with Current-Limited Ideal Diode and V/I Monitor |
Linear Technology |
| 308 |
LTC4425IDD#PBF |
Linear SuperCap Charger with Current-Limited Ideal Diode and V/I Monitor |
Linear Technology |
| 309 |
LTC4425IDD#TRPBF |
Linear SuperCap Charger with Current-Limited Ideal Diode and V/I Monitor |
Linear Technology |
| 310 |
LTC4425IMSE#PBF |
Linear SuperCap Charger with Current-Limited Ideal Diode and V/I Monitor |
Linear Technology |
| 311 |
LTC4425IMSE#TRPBF |
Linear SuperCap Charger with Current-Limited Ideal Diode and V/I Monitor |
Linear Technology |
| 312 |
LVR |
Wirewound Resistors, Precision Power, Low Value, Commercial, Military, MIL-PRF-49465 Type RLV, Ideal for All Types of Current Sensing Applications |
Vishay |
| 313 |
MCP18480 |
The MCP18480 is a –48V Hot Swap Controller with fully configurable features. This Hot Swap Controller have OVLO, UVLO protection features on top of Foldback Current Limiting and Circuit Breaker features. Although ideally suited optic |
Microchip |
| 314 |
MCP3001 |
The MCP3001 10-bit Analog-to-Digital Converter (ADC) combines high performance and low power consumption in a small package, making it ideal for embedded control applications. The MCP3001 features a successive approximation register (SAR) |
Microchip |
| 315 |
MCP3002 |
The MCP3002 10-bit Analog-to-Digital Converter (ADC) combines high performance and low power consumption in a small package, making it ideal for embedded control applications. The MCP3002 features a successive approximation register (SAR) |
Microchip |
| 316 |
MCP3004 |
The MCP3004 10-bit Analog-to-Digital Converter (ADC) combines high performance and low power consumption in a small package, making it ideal for embedded control applications. The MCP3004 features a successive approximation register (SAR) |
Microchip |
| 317 |
MCP3008 |
The MCP3008 10-bit Analog-to-Digital Converter (ADC) combines high performance and low power consumption in a small package, making it ideal for embedded control applications. The MCP3008 features a successive approximation register (SAR) |
Microchip |
| 318 |
MCP3201 |
The MCP3201 12-bit Analog-to-Digital Converter (ADC) combines high performance and low power consumption in a small package, making it ideal for embedded control applications. The MCP3201 features a successive approximation register (SAR) |
Microchip |
| 319 |
MCP3202 |
The MCP3202 12-bit Analog-to-Digital Converter (ADC) combines high performance and low power consumption in a small package, making it ideal for embedded control applications. The MCP3202 features a successive approximation register (SAR) |
Microchip |
| 320 |
MCP3204 |
The MCP3204 12-bit Analog-to-Digital Converter (ADC) combines high performance and low power consumption in a small package, making it ideal for embedded control applications. The MCP3204 features a successive approximation register (SAR) |
Microchip |
| 321 |
MCP3208 |
The MCP3208 12-bit Analog-to-Digital Converter (ADC) combines high performance and low power consumption in a small package, making it ideal for embedded control applications. The MCP3208 features a successive approximation register (SAR) |
Microchip |
| 322 |
MCP3301 |
The MCP3301 13-bit Analog to Digital Converter (ADC) features a full differential input and low power consumption in a small package that is ideal for battery powered systems and remote data acquisition applications. The industry-standard |
Microchip |
| 323 |
MCP3302 |
The MCP3302 13-bit Analog to Digital Converter (ADC) features full differential inputs and low power consumption in a small package that is ideal for battery powered systems and remote data acquisition applications. The industry-standard S |
Microchip |
| 324 |
MCP3304 |
The MCP3304 13-bit Analog to Digital Converter (ADC) features full differential inputs and low power consumption in a small package that is ideal for battery powered systems and remote data acquisition applications. The industry-standard S |
Microchip |
| 325 |
MJ2249 |
Medium-power NPN silicon transistor ideal for use as drivers, switches, amplifiers |
Motorola |
| 326 |
MJ2250 |
Medium-power NPN silicon transistor ideal for use as drivers, switches, amplifiers |
Motorola |
| 327 |
MJ3101 |
Medium-power NPN silicon transistor ideal for use as drivers, switches, amplifiers |
Motorola |
| 328 |
MM1549 |
NPN silicon RF power transistor designed for VHF/UHF amplifier applications, ideal for 225-400MHz communications equipment |
Motorola |
| 329 |
MM1550 |
NPN silicon RF power transistor designed for VHF/UHF amplifier applications, ideal for 225-400MHz communications equipment |
Motorola |
| 330 |
MM1551 |
NPN silicon RF power transistor designed for VHF/UHF amplifier applications, ideal for 225-400MHz communications equipment |
Motorola |
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