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LT1056CMH Linear Technology IC OP-AMP, MBCY, Operational Amplifier
LT1077CIH Linear Technology IC OP-AMP, MBCY, Operational Amplifier
LM118AMH Linear Technology IC OP-AMP, MBCY, Operational Amplifier
LT1055CMH Linear Technology IC OP-AMP, MBCY, Operational Amplifier
LT1077CMH Linear Technology IC OP-AMP, MBCY, Operational Amplifier
LT1222MH Linear Technology IC OP-AMP, MBCY, Operational Amplifier

op amp 725 Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
op amp 725

Abstract: op 725
Text: Style TAB PCB Solder .157 (4.00) O.P .110 .094 (2.80) (2.40) .416 (10.6) P.T AMP , Microswitches Subminiature Pin Plunger Pin Plunger P.T O.P .297 (7.55) .094 .079 , Solder .063 (1.60) .374 (9.50) .354 (9.00) Product Facts AMP * Refer to Pages L10 , Force Force 5 SPDT .110 (2.80) .285 ( 7.25 ) 150g Pre Travel 0.6 m/m [.024] 20g , ) .374 (9.50) .285 ( 7.25 ) .353 (9.00) .788 (20.0) Product Facts n Available in tab, PCB


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02827

Abstract: H03 6 lead TLC264 TLC262IJG TLC262ID TLC262 TLC261IP TLC261IJG TLC261ID TLC261
Text: Single-Supply Operation • Designed for Performance Similar to Popular BIFET Op Amps • Common-Mode Input , alternative to the popular BIFET op amps. The negative supply rail is included in both input and output , traditional metal-gate CMOS op amps, these devices utilize the Texas Instruments silicon-gate LinCMOSâ , ) TLC264 D. J. OR N DUAL-IN-LINE PACKAGE [TOP VIEW) AMP AMP #2 {OUT IN -IN + V< { Vcc-t C IN + C IN - C OUT £ 1 Ul4 Doutai 2 13 Din- > amp #4 3 12 □ lM+ J 4 11 uvec- 5 10 Din+ "i 6 9 Hin- > amp


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PDF TLC261, TLC262, TLC264 18-Pin) 14-Pin) 02827 H03 6 lead TLC262IJG TLC262ID TLC262 TLC261IP TLC261IJG TLC261ID TLC261
D2827

Abstract: TLC262 op amp 725 TLC264 TLC262IP TLC262IJG TLC262ID TLC261IP TLC261IJG TLC261ID
Text: Single-Supply Operation • Designed for Performance Similar to Popular BIFET Op Amps • Common-Mode Input , alternative to the popular BIFET op amps. The negative supply rail is included in both input and output , traditional metal-gate CMOS op amps, these devices utilize the Texas Instruments silicon-gate LinCMOSâ , ) tlc264 d. j. or n dual-in-line package itop view) amp #1< amp # 2< c out q 1 ul4 3 out : iN-c 2 13 , } ) amp #4 amp #3 symbol nonin verting input in+ inverting input in- symbol (each amplifier) tlc262


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PDF TLC261, TLC262, TLC264 D2827, 18-Pin) 114-Pin) D2827 TLC262 op amp 725 TLC262IP TLC262IJG TLC262ID TLC261IP TLC261IJG TLC261ID
1478600-2

Abstract: microswitches 1478603-6
Text: ) .795 (20.2) O.P .134 (3.40) Product Facts n .187 Switch Position AMP SPDT SPNC , ) O.P .110 .094 (2.80) (2.40) .416 (10.6) P.T AMP .063 (1.60) Switch Operating , (4.00) O.P .374 .401 (9.50) (10.2) .094 (2.40) .098 (2.50) .373 (9.50) .286 ( 7.25 , AMP Switch Operating Position Force 5 SPDT .063 (1.60) .374 (9.50) .285 ( 7.25 , Performance Information Amp Rating Insulation Resistance Contact Resistance Dielectric Between


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D2827

Abstract: 1609C TLC261 TLC262
Text: Performance Similar to Popular BIFET Op Amps Common-Mode input Voltage Includes the Negative Rail Slew Rate . , (TOP VIEW) AMP # 1< IN-C 2 I. IN+C 3 vcc-t C 4 IN + f o u r d 1 KJ14 3 O U T 'l 13 D i n - > a m p #4 < 12 D in + J 11 D v o c ' 1 0 ìi in + ì 9 U lN - > AMP #3 8 : o u tJ a E < "n o +5 C , are designed to provide a true single-supply alternative to the popular BIFET op amps. The negative , op amps, these devices utilize the Texas Instruments siiicon-gate LiriCMOSTM princess giving them


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PDF 0Tbl724 TLC261, TLC262, TLC264 D2827, TLC261 T-79-09 14-Pin| D2827 1609C TLC262
ad504mh

Abstract: AD504JH ad504lh AD504KH AD504SH AD504 741 opamp JYs transistor pin diagram of op-amp ic 741 AD504L
Text: with nulled offset voltage for: a. AD504 op amp . b. 725 typ op amp . Note that as a result of nulling l.+mV of offset, the AD504 induces 3OX less offset drift (only O.OSnV/'C) than the 725 type op amp with , flexibility not possible with an internally compensated op amp . This feature allows bandwidth to be optimized , connected directly to pin 7 of the op amp . This is true for both nulling schemes. Vos UNNULLED 1UJP , voltage. Nulling — The gain of a 741 op amp varies considerably with nulling (see Figure 4). 1


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PDF AD504 AD504M) A0504L, AD504 AD504J, 300kHz, 20/iV) ad504mh AD504JH ad504lh AD504KH AD504SH 741 opamp JYs transistor pin diagram of op-amp ic 741 AD504L
2001 - MIC910

Abstract: MIC912 MIC912BM5
Text: MIC912 200MHz Low-Power SOT23-5 Op Amp General Description Features The MIC912 is a , performance all bypassing capacitors should be located as close to the op amp as possible and all capacitors , stage of the op amp . The power dissipated in the device is a function of supply voltage, output , applications where the load capacitance reduces the speed of the op amp to an unacceptable level, the effect , . Feedback Resistor Selection Conventional op amp gain configurations and resistor selection apply, the


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PDF MIC912 200MHz OT23-5 MIC912 200MHz. M9999-100507 MIC910 MIC912BM5
2000 - Not Available

Abstract: No abstract text available
Text: Supply Current per Op Amp September 24, 2014 µA + 7.25 0.05 Maximum Output Voltage Swing , MIC915 Dual 135MHz Low-Power Op Amp General Description Features The MIC915 is a , very low, 2.4mA supply current per op amp . • • • • • Supply voltage range is from  , 2.4mA supply current per op amp 10-pin MSOP package 270V/µs slew rate Drives any capacitive load , Short-Circuit Output Current IGND Min. Typ. 2.4 Supply Current per Op Amp Max. Units dB


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PDF MIC915 135MHz MIC915 135MHz
1996 - TE 225

Abstract: No abstract text available
Text: Power Monolithic Op Amp AD848/AD849 CONNECTION DIAGRAMS Plastic (N), Small Outline (R) and Cerdip (Q , that the op amp supply ± 2 V to the output in order to achieve a ± 1 V swing at the line. Input , appear as capacitive loads. Since the AD848 and AD849 are stable into any capacitive load, the op amp , a FEATURES 725 MHz Gain Bandwidth ­ AD849 175 MHz Gain Bandwidth ­ AD848 4.8 mA Supply Current 300 , ' junction isolated complementary bipolar (CB) process. This process enables these op amps to achieve their


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PDF AD849 AD848 AD848 AD849 AD848/AD849 AD848/49 10-Bit TE 225
1996 - AD848

Abstract: AD840 AD841 AD847 AD849 EIA-481A
Text: a High Speed, Low Power Monolithic Op Amp AD848/AD849 NULL 1 AD848/49 6 OUTPUT +IN , , the op amp will not oscillate if the cable is not terminated; however pulse integrity will be , , although it requires that the op amp supply ± 2 V to the output in order to achieve a ± 1 V swing at the , op amps to achieve their high speed while only requiring 4.8 mA of current from the power supplies. The AD848 and AD849 are members of Analog Devices' family of high speed op amps. This family includes


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PDF AD848/AD849 AD848/49 AD848 AD849 AD849 AD840 AD841 AD847 EIA-481A
2000 - MIC916

Abstract: MIC916BQS MIC916YQS
Text: MIC916 Micrel, Inc. MIC916 Triple 135MHz Low-Power Op Amp General Description Features , product of 135MHz with a very low, 2.4mA supply current per op amp . Supply voltage range is from ±2.5V , bandwidth product 2.4mA supply current per op amp QSOP-16 package 270V/µs slew rate drives any , ) Positive Supply Input ( Op Amp A) 3 INA+ Noninverting Input A 4 INB­ Inverting Input B , + Noninverting Input C 9 V+(C) Positive Supply Input ( Op Amp C) 10 OUTC Output C 11 V­(C


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PDF MIC916 135MHz MIC916 135MHz M9999-042205 MIC916BQS MIC916YQS
2001 - 662k

Abstract: .662K AN9607 HC5509 HC5509A1R3060 HC5517 ic 725 op amp
Text: input of the SLIC's internal op amp . This signal is amplified by the ratio KZ0/KRF then feed into the , ) will cause the op amp feedback to be open at DC currents, bring the op amp to an output rail. A , Table 1. The tip and ring amplifiers are voltage feedback op amps that are connected to generate a , NA 900 20k 90k 360k 60k 600 20k 22nF 2.2µF 360k 72.5k 725 20k 22nF , 72.5k 725 40k 22nF 2.2µF 360k 90k 900 40k 22nF 2.2µF 4 Application Note


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PDF HC5509 AN9607 662k .662K HC5509A1R3060 HC5517 ic 725 op amp
1999 - 662k

Abstract: .662K AN9607 15nf HC5509 HC5509A1R3060 HC5517
Text: -IN input of the SLIC's internal op amp . This signal is amplified by the ratio KZ0/KRF then feed , + 2.15µF, K = 100) will cause the op amp feedback to be open at DC currents, bring the op amp to an , feedback op amps that are connected to generate a differential output (e.g. if tip sources 20mA then ring , 725 20k 22nF 2.2µF 4-3 Application Note 9607 TABLE 1. (Continued) LOAD IMPEDANCE , 600 40k 22nF 2.2µF 360k 72.5k 725 40k 22nF 2.2µF 360k 90k 900 40k 22nF


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PDF HC5509 AN9607 662k .662K 15nf HC5509A1R3060 HC5517
2000 - Not Available

Abstract: No abstract text available
Text: V V – 7.25 negative, RL = 2kΩ 135 MHz V/µs f = 1MHz, between op amp A and B or , MIC916 Micrel, Inc. MIC916 Triple 135MHz Low-Power Op Amp General Description Features , product of 135MHz with a very low, 2.4mA supply current per op amp . Supply voltage range is from  , gain bandwidth product 2.4mA supply current per op amp QSOP-16 package 270V/µs slew rate drives , INA– Inverting Input A 2 V+(A) Positive Supply Input ( Op Amp A) 3 INA


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PDF MIC916 135MHz MIC916 135MHz M9999-042205
2000 - ic 725 op amp

Abstract: No abstract text available
Text: +6.8 +7.4 V V ­ 7.25 negative, RL = 2k 135 MHz V/µs f = 1MHz, between op amp A , MIC916 Micrel MIC916 Triple 135MHz Low-Power Op Amp Final Information General , gain-bandwidth product of 135MHz with a very low, 2.4mA supply current per op amp . Supply voltage range is from , bandwidth product 2.4mA supply current per op amp QSOP-16 package 270V/µs slew rate drives any , 2 V+(A) Positive Supply Input ( Op Amp A) 3 INA+ Noninverting Input A 4 INB


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PDF MIC916 135MHz MIC916 135MHz QSOP-16 ic 725 op amp
2000 - ic 725 op amp

Abstract: op amp CLOSED-LOOP GAIN MHZ MIC916 MIC916BQS INA116
Text: +6.8 +7.4 V V ­ 7.25 negative, RL = 2k 135 MHz V/µs f = 1MHz, between op amp A , MIC916 Micrel MIC916 Triple 135MHz Low-Power Op Amp General Description Features , product of 135MHz with a very low, 2.4mA supply current per op amp . Supply voltage range is from ±2.5V , bandwidth product 2.4mA supply current per op amp QSOP-16 package 270V/µs slew rate drives any , 2 V+(A) Positive Supply Input ( Op Amp A) 3 INA+ Noninverting Input A 4 INB


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PDF MIC916 135MHz MIC916 135MHz QSOP-16 ic 725 op amp op amp CLOSED-LOOP GAIN MHZ MIC916BQS INA116
2000 - MIC913

Abstract: MIC914 MIC914BM5 A24 SOT23
Text: MIC914 160MHz Low-Power SOT23-5 Op Amp General Description Features The MIC914 is a , performance all bypassing capacitors should be located as close to the op amp as possible and all capacitors , the speed of the op amp to an unacceptable level, the effect of the load capacitance can be reduced , is dissipated in the output stage of the op amp . The power dissipated in the device is a function , of 260°C/W. Feedback Resistor Selection Conventional op amp gain configurations and resistor


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PDF MIC914 160MHz OT23-5 MIC914 160MHz. OT-23-5 M9999-101807 MIC913 MIC914BM5 A24 SOT23
2000 - MIC913BM5

Abstract: sot23-5 CA MIC913
Text: MIC913 350MHz Low-Power SOT23-5 Op Amp General Description Features The MIC913 is a , performance all bypassing capacitors should be located as close to the op amp as possible and all capacitors , the speed of the op amp to an unacceptable level, the effect of the load capacitance can be reduced , is dissipated in the output stage of the op amp . The power dissipated in the device is a function , of 260°C/W. Feedback Resistor Selection Conventional op amp gain configurations and resistor


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PDF MIC913 350MHz OT23-5 MIC913 OT-23-5 M9999-101707 MIC913BM5 sot23-5 CA
2000 - Not Available

Abstract: No abstract text available
Text: MIC914 160MHz Low-Power SOT23-5 Op Amp General Description Features The MIC914 is a , capacitors should be located as close to the op amp as possible and all capacitors should be low ESL , Margin vs. Load”). In applications where the load capacitance reduces the speed of the op amp to an , stage of the op amp . The power dissipated in the device is a function of supply voltage, output , Selection Conventional op amp gain configurations and resistor selection apply, the MIC913 is NOT a


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PDF MIC914 160MHz OT23-5 MIC914 160MHz. OT-23-5 M9999-101807
592p

Abstract: SD5000 quad Topaz 512 HTC0300 AN-294 AD845 AD781 AD7672 AD684 AD585
Text: AD845 op amp from Analog Devices and an SD5000 quad DMOS switch from Topaz. - SWITCH OPEN DURING TRACK , , placing C1 across the output and the input inverting terminal of the op amp and holding the output voltage , leakage, the op amp inverting terminal bias current and the combined leakage of switches: SW2, SW3 and SW4. It is important that a high quality capacitor is used such as polystyrene. A JFET input op amp such , to have equal switching transients at both inputs of the op amp and to rely on a good common mode


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PDF AN-294 AD7672 12-Bit 10kii AD845 592p SD5000 quad Topaz 512 HTC0300 AD845 AD781 AD684 AD585
2000 - Not Available

Abstract: No abstract text available
Text: MIC913 350MHz Low-Power SOT23-5 Op Amp General Description Features The MIC913 is a , capacitors should be located as close to the op amp as possible and all capacitors should be low ESL , Margin vs. Load”). In applications where the load capacitance reduces the speed of the op amp to an , stage of the op amp . The power dissipated in the device is a function of supply voltage, output , Selection Conventional op amp gain configurations and resistor selection apply, the MIC913 is NOT a


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PDF MIC913 350MHz OT23-5 MIC913 OT-23-5 M9999-101707
AD848

Abstract: No abstract text available
Text: a High Speed, Low Power Monolithic Op Amp AD848/AD849 NULL 1 AD848/49 6 OUTPUT +IN , capacitive load, the op amp will not oscillate if the cable is not terminated; however pulse integrity will , result in a “cleaner” signal, although it requires that the op amp supply ± 2 V to the output in , process enables these op amps to achieve their high speed while only requiring 4.8 mA of current from the power supplies. T he AD 848 and AD 849 are members of Analog D evices’ family of high speed op


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PDF AD848/AD849 AD848/49 100pF 1000pF AD848
2001 - Not Available

Abstract: No abstract text available
Text: MIC910 135MHz, Low-Power SOT-23-5 Op Amp General Description Features The MIC910 is a , capacitors should be located as close to the op amp as possible and all capacitors should be low equivalent , reduces the speed of the op amp to an unacceptable level, the effect of the load capacitance can be , Resistor Selection Conventional op amp gain configurations and resistor selection apply; the MIC910 is , output stage of the op amp . The power dissipated in the device is a function of supply voltage, output


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PDF MIC910 135MHz, OT-23-5 MIC910 135MHz
2001 - Not Available

Abstract: No abstract text available
Text: MIC912 200MHz Low-Power SOT23-5 Op Amp General Description Features The MIC912 is a , the op amp as possible and all capacitors should be low ESL (equivalent series inductance), ESR , , the additional power is dissipated in the output stage of the op amp . The power dissipated in the , the speed of the op amp to an unacceptable level, the effect of the load capacitance can be reduced , Conventional op amp gain configurations and resistor selection apply, the MIC912 is NOT a current feedback


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PDF MIC912 200MHz OT23-5 MIC912 200MHz. M9999-100507
2001 - Not Available

Abstract: No abstract text available
Text: MIC918 Micrel MIC918 51MHz Low-Power SOT-23-5/SC-70 Op Amp Final Information General , as close to the op amp as possible and all capacitors should be low ESL (equivalent series , speed of the op amp to an unacceptable level, the effect of the load capacitance can be reduced by , op amp gain configurations and resistor selection apply, the MIC918 is NOT a current feedback device , output stage of the op amp . The power dissipated in the device is a function of supply voltage, output


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PDF MIC918 51MHz OT-23-5/SC-70 MIC918 51MHz. OT-23-5 SC-70
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