OP1177ARMZ-R7 Analog Devices Inc, OP1177ARMZ-R7 Datasheet - Page 17

OP1177ARMZ-R7

Manufacturer Part Number

OP1177ARMZ-R7

Description

SINGLE, PRECISION LOW NOISE OP AMP

Manufacturer

Analog Devices Inc

Datasheet

1.OP2177ARZ.pdf (24 pages)

Specifications of OP1177ARMZ-R7

Design Resources

Versatile High Precision Programmable Current Sources Using DACs, Op Amps, and MOSFET Transistors (CN0151) How to Achieve High Precision Voltage Level Setting Using AD5541A/42A (CN0169)

Amplifier Type

General Purpose

Number Of Circuits

Slew Rate

0.7 V/µs

Gain Bandwidth Product

1.3MHz

Current - Input Bias

500pA

Voltage - Input Offset

15µV

Current - Supply

400µA

Current - Output / Channel

10mA

Voltage - Supply, Single/dual (±)

5 V ~ 36 V, ±2.5 V ~ 18 V

Operating Temperature

-40°C ~ 125°C

Mounting Type

Surface Mount

Package / Case

8-MSOP, Micro8™, 8-uMAX, 8-uSOP,

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Output Type

-3db Bandwidth

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

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Part Number:

OP1177ARMZ-R7

Manufacturer:

ADI/亚德诺

Quantity:

20 000

Company:

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Part Number:

OP1177ARMZ-R7

Current page: 17 of 24
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Caution: The snubber technique cannot recover the loss of

bandwidth induced by large capacitive loads.

STRAY INPUT CAPACITANCE COMPENSATION

The effective input capacitance in an operational amplifier

circuit (C

differential capacitance between the input terminals, the internal

common-mode capacitance of each input to ground, and the

external capacitance including parasitic capacitance. In the

circuit in Figure 59, the closed-loop gain increases as the signal

frequency increases.

The transfer function of the circuit is

indicating a zero at

Depending on the value of R1 and R2, the cutoff frequency of

the closed-loop gain can be well below the crossover frequency.

In this case, the phase margin (Φ

resulting in excessive ringing or even oscillation.

A simple way to overcome this problem is to insert a capacitor

in the feedback path, as shown in Figure 60.

The resulting pole can be positioned to adjust the phase margin.

Setting C

400mV

–

) consists of three components. These are the internal

R2R1C

= (R1/R2) C

(

Figure 58. Snubber Network Configuration

–

Figure 59. Stray Input Capacitance

C t

OP1177

)

achieves a phase margin of 90°.

(

V–

V+

OP1177

)

V–

V+

) can be severely degraded,

OUT

Rev. G | Page 17 of 24

REDUCING ELECTROMAGNETIC INTERFERENCE

A number of methods can be utilized to reduce the effects of

EMI on amplifier circuits.

In one method, stray signals on either input are coupled to the

opposite input of the amplifier. The result is that the signal is

rejected according to the CMRR of the amplifier.

This is usually achieved by inserting a capacitor between the inputs

of the amplifier, as shown in Figure 61. However, this method can

also cause instability, depending on the value of capacitance.

Placing a resistor in series with the capacitor (see Figure 62)

increases the dc loop gain and reduces the output error. Positioning

the breakpoint (introduced by R-C) below the secondary pole of

the operational amplifier improves the phase margin and,

therefore, stability.

R can be chosen independently of C for a specific phase margin

according to the formula

where:

a is the open-loop gain of the amplifier.

is the frequency at which the phase of a = Φ

–

Figure 60. Compensation Using Feedback Capacitor

Figure 62. Compensation Using Input R-C Network

(

)

−

C t

⎛ +

⎜

⎝

Figure 61. EMI Reduction

OP1177/OP2177/OP4177

OP1177

⎞

⎟

⎠

C f

V+

V–

V+

V–

V+

− 180°.

OUT

OP1177ARMZ-R7 Analog Devices Inc, OP1177ARMZ-R7 Datasheet - Page 17

OP1177ARMZ-R7

Specifications of OP1177ARMZ-R7

Available stocks

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