No. |
Part Name |
Description |
Manufacturer |
301 |
MC33178D |
HIGH OUTPUT CURRENT LOW POWER, LOW NOISE OPERATIONAL AMPLIFIERS |
Motorola |
302 |
MC33178P |
HIGH OUTPUT CURRENT LOW POWER, LOW NOISE OPERATIONAL AMPLIFIERS |
Motorola |
303 |
MC33179D |
HIGH OUTPUT CURRENT LOW POWER, LOW NOISE OPERATIONAL AMPLIFIERS |
Motorola |
304 |
MC33179P |
HIGH OUTPUT CURRENT LOW POWER, LOW NOISE OPERATIONAL AMPLIFIERS |
Motorola |
305 |
MCK100-6 |
400V Vdrm 0.8A Sensitive Gate Silicon Controlled Rectifier, 1.7@1AV Peak On-State Voltage, 500V/μs Rise of Off-State Voltage |
SemiWell Semiconductor |
306 |
MCK100-8 |
600V Vdrm 0.8A Sensitive Gate Silicon Controlled Rectifier, 1.7@1AV Peak On-State Voltage, 500V/μs Rise of Off-State Voltage |
SemiWell Semiconductor |
307 |
MCP1525 |
MCP1525 is a low power, high precision voltage reference. It provides a precise output voltage of 2.5V which is then compared to other voltages in the system.This voltage reference is normally used in the 3V to 5V systems, where there may |
Microchip |
308 |
MCP1525-I/P |
MCP1525 is a low power, high precision voltage reference. It provides a precise output voltage of 2.5V which is then compared to ... |
Microchip |
309 |
MCP1525-I/TO |
MCP1525 is a low power, high precision voltage reference. It provides a precise output voltage of 2.5V which is then compared to ... |
Microchip |
310 |
MCP1525T-I/TT |
MCP1525 is a low power, high precision voltage reference. It provides a precise output voltage of 2.5V which is then compared to ... |
Microchip |
311 |
MCP1541 |
MCP1541 is a low power, high precision voltage reference. It provides a precise output voltage of 4.096V which is then compared to other voltages in the system.This voltage reference is normally used in the 3V to 5V systems, where there ma |
Microchip |
312 |
MCP1541-I/TO |
MCP1541 is a low power, high precision voltage reference. It provides a precise output voltage of 4.096V which is then compared to ... |
Microchip |
313 |
MCP1541T-I/TT |
MCP1541 is a low power, high precision voltage reference. It provides a precise output voltage of 4.096V which is then compared to ... |
Microchip |
314 |
MCR100-6 |
400V Vdrm 0.8A Sensitive Gate Silicon Controlled Rectifier, 1.7@1AV Peak On-State Voltage, 500V/μs Rise of Off-State Voltage |
SemiWell Semiconductor |
315 |
MCR100-8 |
600V Vdrm 0.8A Sensitive Gate Silicon Controlled Rectifier, 1.7@1AV Peak On-State Voltage, 500V/μs Rise of Off-State Voltage |
SemiWell Semiconductor |
316 |
NE5532 |
Internally-compensated dual low noise operational amplifier |
Philips |
317 |
NE5532A |
Internally-compensated dual low noise operational amplifier |
Philips |
318 |
NE5532A |
Dual Low-Noise Operational Amplifier |
Texas Instruments |
319 |
NE5532AD |
Dual Low-Noise Operational Amplifier |
Texas Instruments |
320 |
NE5532AD8 |
Internally-compensated dual low noise operational amplifier |
Philips |
321 |
NE5532ADE4 |
Dual Low-Noise Operational Amplifier 8-SOIC 0 to 70 |
Texas Instruments |
322 |
NE5532ADR |
Dual Low-Noise Operational Amplifier |
Texas Instruments |
323 |
NE5532ADRE4 |
Dual Low-Noise Operational Amplifier 8-SOIC 0 to 70 |
Texas Instruments |
324 |
NE5532ADRG4 |
Dual Low-Noise Operational Amplifier 8-SOIC 0 to 70 |
Texas Instruments |
325 |
NE5532AF |
Internally-compensated dual low noise operational amplifier |
Philips |
326 |
NE5532AFE |
Internally-compensated dual low noise operational amplifier |
Philips |
327 |
NE5532AI |
DUAL LOW-NOISE OPERATIONAL AMPLIFIERS |
Texas Instruments |
328 |
NE5532AIP |
Dual Low-Noise Operational Amplifier |
Texas Instruments |
329 |
NE5532AN |
Internally-compensated dual low noise operational amplifier |
Philips |
330 |
NE5532AP |
Dual Low-Noise Operational Amplifier |
Texas Instruments |
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