OP AMP CLOSED-LOOP GAIN MHZ DB Search Results

Contextual Info: ANALOG DEVICES □ 725 MHz Gain Bandwidth, Low Power Op Amp _AD849 1.1 Scope. This specification covers the detail requirements for a high speed, low power operational amplifier that is stable at closed loop gains of 25 or greater.

9618J

Abstract: 9618jn
Contextual Info: ANALOG DEVICES □ FEATURES Low Distortion, Precision, Wide Bandwidth Op Amp AD9618* PIN CONFIGURATION Usable Closed-Loop Gain Range: +5/-1 to ±100 Low Distortion: -6 3 dBc 2nd at 20 MHz Small Signal Bandwidth: 160 MHz (Av = +10) Large Signal Bandwidth: 150 MHz at 5 V p-p

Contextual Info: 175 MHz Gain Bandwidth, Low Power Op Amp _AD848 ANALOG DEVICES □ 1.1 Scope. This specification covers the detail requirements for a high speed, low power, operational amplifier that is stable at closed loop gains of S or greater.

9618jn

Contextual Info: BACK ► A N A LO G Low Distortion, Precision, D E V I C E S _ Wide Bandwidth Op Amp AD9618* FEATURES Usable Closed-Loop Gain Range: + 5 /-1 to ±100 Low Distortion: —63 dBc 2nd at 20 MHz Sm all Signal Bandwidth: 160 MHz (Av = +10) Large Signal Bandwidth: 150 MHz at 5 V p-p

Contextual Info: ANALOG DEVICES INC 3 3E D • QôlbûDO ANALOG ► DEVICES 0D E b 3S a 7 ■ ANA Low Distortion, Precision Wide Bandwidth Op Amp AD9618 FEATURES Usable Closed-Loop Gain Range: + 5 /-1 to ±100 Low Distortion: -6 3 dBe 2nd at 20 MHz Small Signal Bandwidth: 160 MHz (Av = +10)

0-15V

Abstract: AD848
Contextual Info: □ A N A LO G D E V IC E S I 175 MHz Gain Bandwidth, Low Power Op Amp AD848 1.1 Scope. This specification covers the detail requirements for a high speed, low power, operational amplifier that is stable at closed loop gains of 5 or greater. 1.2 Part Number.

AD849

Contextual Info: ANALOG DEVICES □ 725 MHz Gain Bandwidth, Low Power Op Amp AD849 1.1 Scope. This specification covers the detail requirements for a high speed, low power operational amplifier that is stable at closed loop gains of 25 or greater. 1.2 Part Number. The complete part number per Table 1 of this specification is as follows:

op amp lead-lag compensation

Abstract: LMH6624 AN-1604 AN1604
Contextual Info: National Semiconductor Application Note 1604 Shuqing Jing September 2007 Abstract Compared with the unity gain stable amplifier, the decompensated version has the following advantages: 1. An open-loop gain which extends to a higher frequency. 2. A higher frequency closed-loop bandwidth.

Wheatstone Bridge operational amplifier

Abstract: capacitive Wheatstone Bridge amplifier anisotropic magnetoresistive circuit Design LMV641MGX differential magnetoresistive sensor HMC1051Z Wheatstone Bridge amplifier LMV641 LMV641MA LMV641MAE
Contextual Info: LMV641 10 MHz, 12V, Low Power Amplifier General Description Features The LMV641 is a low power, wide bandwidth operational amplifier with an extended power supply voltage range of 2.7V to 12V. It features 10 MHz of gain bandwidth product with unity gain stability on a typical supply current of 138 A. Other key specifications are a PSRR of 105 dB, CMRR of 120 dB, VOS of

marking AB9A

Abstract: AMR sensor marking U2 5pin
Contextual Info: LMV641 10 MHz, 12V, Low Power Amplifier General Description Features The LMV641 is a low power, wide bandwidth operational amplifier with an extended power supply voltage range of 2.7V to 12V. It features 10 MHz of gain bandwidth product with unity gain stability on a typical supply current of 138 A. Other key specifications are a PSRR of 105 dB, CMRR of 120 dB, VOS of

SLOA020

Abstract: op amp lead-lag compensation SLVA058 TLV227X Mancini T1S34 Mancini* CFA Op amp cross reference TL03X TL07X
Contextual Info: Stability Analysis of VoltageĆFeedback Op Amps Including Compensation Techniques Application Report July 1999 Mixed Signal Products SLOA020 IMPORTANT NOTICE Texas Instruments and its subsidiaries TI reserve the right to make changes to their products or to discontinue

gsm signal amplifier

Abstract: slod006 op amp CLOSED-LOOP GAIN MHZ DB TLC2272 TLC320AD50 TLV1544 TLV1562 TLV1572 TLV2450 TLV2460
Contextual Info: Application Report SLOA035B – December 2001 Amplifiers and Bits: An Introduction to Selecting Amplifiers for Data Converters Bruce Carter, Patrick Rowland Jim Karki, Perry Miller High Performance Linear Products ABSTRACT This application report discusses various considerations that must be taken into account

op amp 725

Abstract: MT-034 AD847 AD849 MT-032 AD8051 AD848 op amp CLOSED-LOOP GAIN MHZ mt-033 op 725
Contextual Info: MT-033 TUTORIAL Voltage Feedback Op Amp Gain and Bandwidth INTRODUCTION This tutorial examines the common ways to specify op amp gain and bandwidth. It should be noted that this discussion applies to voltage feedback VFB op amps—current feedback (CFB)

uA709 application

Abstract: UA709 op power amplifier operational amplifier as summing amplifier OP AMP
Contextual Info: OPERATIONAL AMPLIFIER BASICS APPLICATION NOTE 31 POWER OPERATIONAL AMPLIFIER M I C R O T E C H N O L O G Y HTTP://WWW.APEXMICROTECH.COM 800 546-APEX (800) 546-2739 HISTORY The performance and shape of operational amplifiers has changed considerably since the vacuum tube units were produced by George

Granberg

Abstract: MAPM-030400-060C00 Granberg VSWR Protection MAPM-030400 AN4003 AD8361 AD8362 AN-20 MAPM
Contextual Info: Application Note AN4003 Closed Loop Control Maximizes MAPM-030400-010C00 and MAPM-030400-060C00 Module Performance Rev. 1 I. Introduction The MAPM-030400-010C00 and MAPM-030400-060C00 RF amplifier modules work together to form the basic building block of a 30 MHz to 400 MHz amplifier that can supply over 60 W of output power. With the addition

EL2002

Abstract: EL2044 EL2099 LH0002
Contextual Info: Introduction Q4 are almost equal to I1 or I2 ignoring the effects of R1 and R2 In real circuits R1 and R2 are used to prevent thermal runaway of the output stage Since Q3 and Q4 will sink or source many milliamps their Vbe’s will decrease as they heat up but the ‘‘bias’’ voltage across them

uA709 application

Contextual Info: O P E R A T IO N A L A M P L IF IE R B A S IC S APPLICATION NOTE 31 p o w e r o p e r a t io n a l a m p lif ie r » i n o t E c H N L o c ï H T T P : / / W W W . A P E X M I C R 0 T E C H . C0 M 800 546-APEX (800) 546-2739 HISTORY The performance and shape of operational amplifiers has changed

op amp lead-lag compensation

Abstract: op amp pa 66 gf LMP7707 LMP7708 LMP7709 MUA08
Contextual Info: LMP7707/LMP7708/LMP7709 Precision, CMOS Input, RRIO, Wide Supply Range Decompensated Amplifiers General Description Features The LMP7707/LMP7708/LMP7709 devices are single, dual, and quad low offset voltage, rail-to-rail input and output precision amplifiers which each have a CMOS input stage and a

Contextual Info: LMP7707/LMP7708/LMP7709 Precision, CMOS Input, RRIO, Wide Supply Range Decompensated Amplifiers General Description Features The LMP7707/LMP7708/LMP7709 devices are single, dual, and quad low offset voltage, rail-to-rail input and output precision amplifiers which each have a CMOS input stage and a

Contextual Info: a FEATURES Wide Bandwidth: 60 MHz at Gain of –1 Wide Bandwidth: 33 MHz at Gain of –10 Very High Output Slew Rate: Up to 2000 V/␮s 20 MHz Full Power Bandwidth, 20 V pk-pk, RL = 500 ⍀ Fast Settling: 100 ns to 0.1% 10 V Step Differential Gain Error: 0.03% at 4.4 MHz

ah4a

Abstract: pa 66 gf LMP7707 LMP7708 LMP7709 op amp lead-lag compensation
Contextual Info: LMP7707/LMP7708/LMP7709 Precision, CMOS Input, RRIO, Wide Supply Range Decompensated Amplifiers General Description Features The LMP7707/LMP7708/LMP7709 devices are single, dual, and quad low offset voltage, rail-to-rail input and output precision amplifiers which each have a CMOS input stage and a

2743002122

Abstract: AD844 AD844A AD844B AD844JR AD844S EIA-481A EL2020
Contextual Info: a FEATURES Wide Bandwidth: 60 MHz at Gain of –1 Wide Bandwidth: 33 MHz at Gain of –10 Very High Output Slew Rate: Up to 2000 V/␮s 20 MHz Full Power Bandwidth, 20 V pk-pk, RL = 500 ⍀ Fast Settling: 100 ns to 0.1% 10 V Step Differential Gain Error: 0.03% at 4.4 MHz

v80100

Contextual Info: a FEATURES Wide Bandwidth: 60 MHz at Gain of –1 Wide Bandwidth: 33 MHz at Gain of –10 Very High Output Slew Rate: Up to 2000 V/␮s 20 MHz Full Power Bandwidth, 20 V pk-pk, RL = 500 ⍀ Fast Settling: 100 ns to 0.1% 10 V Step Differential Gain Error: 0.03% at 4.4 MHz

2743002122

Abstract: SR305C104KAA CLC400 AD844A AD844 AD844B AD844JR AD844S EIA-481A EL2020
Contextual Info: a FEATURES Wide Bandwidth: 60 MHz at Gain of –1 Wide Bandwidth: 33 MHz at Gain of –10 Very High Output Slew Rate: Up to 2000 V/␮s 20 MHz Full Power Bandwidth, 20 V pk-pk, RL = 500 ⍀ Fast Settling: 100 ns to 0.1% 10 V Step Differential Gain Error: 0.03% at 4.4 MHz