PART |
Description |
Maker |
ACE358 |
The ACE358 consists of two independent high gain, internally frequency compensated operational amplifier. It can be operated from a Single power supply and also split power supplies.
|
ACE Technology Co., LTD.
|
MC1747CP2 MC1747 MC1747CL MC1747C MC1747P2 MC1747C |
Internally Compensated, High Performance Operational Amplifiers Dual Operational Amplifiers
|
MOTOROLA[Motorola, Inc]
|
5532 5532A_BPA 5532_BPA 5532A/BPA |
Internally Compensated dual low noise Operational amplifier
|
NXP PHILIPS[Philips Semiconductors]
|
SA5532NG SE5532AD8G |
Internally Compensated Dual Low Noise Operational Amplifier DUAL OP-AMP, 5000 uV OFFSET-MAX, 10 MHz BAND WIDTH, PDIP8 Internally Compensated Dual Low Noise Operational Amplifier DUAL OP-AMP, 3000 uV OFFSET-MAX, 10 MHz BAND WIDTH, PDSO8
|
ON Semiconductor
|
LF347_D LF351D ON0290 LF353D LF353N LF347BN LF347N |
Quad Operational Amplifier, Internally Compensated, JFET Input FAMILY OF JFET OPERATIONAL AMPLIFIERS From old datasheet system OP-AMP, 13000 uV OFFSET-MAX, 4 MHz BAND WIDTH, PDSO8
|
Motorola, Inc ONSEMI[ON Semiconductor] http:// MOTOROLA INC
|
AGB3309 AGB3309S24Q1 AGB3309_REV_1.0 |
50?/a> High Linearity Low Noise Internally Biased Wideband Gain Block 50 High Linearity Low Noise Internally Biased Wideband Gain Block 50蟹 High Linearity Low Noise Internally Biased Wideband Gain Block 50з High Linearity Low Noise Internally Biased Wideband Gain Block From old datasheet system
|
ANADIGICS[ANADIGICS, Inc]
|
DKIL-0231-1012 DKIL-0231-1505 DKIL-0231-2003 DKIL- |
Compensated High Current Choke, 1-phase
|
Schurter Inc.
|
DKIH-3352-12D8 DKIH-3352-25D3 DKIH-3352-16D5 DKIH- |
Compensated High Current Choke, 3-phase
|
Schurter Inc.
|
DKLL-0346-0330 DKLL-0346-0510 DKLL-0346-0804 DKLL- |
Compensated High Inductance Choke, 3-phase
|
Schurter Inc.
|
TX7-503-SQ-ST3 |
High precision analogue compensated STRATUM III SMD TCXO
|
QUARTZCOM the communica...
|
1N4575 1N4766A 1N4767 1N4768A 1N4576 1N4767A 1N457 |
Low-level temperature-compensated zener reference diode. Max voltage 0.048 V. Low-level temperature-compensated zener reference diode. Max voltage 0.070 V. Low-level temperature-compensated zener reference diode. Max voltage 0.014 V. Low-level temperature-compensated zener reference diode. Max voltage 0.024 V. Low-level temperature-compensated zener reference diode. Max voltage 0.028 V. Low-level temperature-compensated zener reference diode. Max voltage 0.099 V. Low-level temperature-compensated zener reference diode. Max voltage 0.002 V. Low-level temperature-compensated zener reference diode. Max voltage 0.005 V. Low-level temperature-compensated zener reference diode. Max voltage 0.003 V.
|
Motorola
|