MIC923YC5 TR Micrel Inc, MIC923YC5 TR Datasheet - Page 10

Op Amp, 1500V/us, 410MHz GBW, 2.mA, SC70 ( )

MIC923YC5 TR

Manufacturer Part Number

MIC923YC5 TR

Description

Op Amp, 1500V/us, 410MHz GBW, 2.mA, SC70 ( )

Manufacturer

Micrel Inc

Series

Teeny™r

Datasheet

1.MIC923YC5_TR.pdf (11 pages)

Specifications of MIC923YC5 TR

Amplifier Type

General Purpose

Number Of Circuits

Slew Rate

2200 V/µs

Gain Bandwidth Product

410MHz

Current - Input Bias

1.7µA

Voltage - Input Offset

400µV

Current - Supply

2.5mA

Current - Output / Channel

84mA

Voltage - Supply, Single/dual (±)

±2.5 V ~ 9 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

SC-70-5, SC-88A, SOT-323-5, SOT-353, 5-TSSOP

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Output Type

-3db Bandwidth

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

MIC923YC5TR
MIC923YC5TR

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MIC923

Applications Information

The MIC923 is a high-speed, voltage-feedback operational

ampliﬁer featuring very low supply current and excellent

stability. This device is unity gain stable, capable of driving

high capacitance loads.

Driving High Capacitance

The MIC923 is stable when driving high capacitance, making

it ideal for driving long coaxial cables or other high-capaci-

tance loads. Most high-speed op amps are only able to drive

limited capacitance.

Feedback Resistor Selection

Conventional op amp gain conﬁgurations and resistor selec-

tion apply, the MIC923 is NOT a current feedback device.

Also, for minimum peaking, the feedback resistor should have

low parasitic capacitance, usually 470Ω is ideal. To use the

part as a follower, the output should be connected to input

via a short wire.

Layout Considerations

All high speed devices require careful PCB layout. The follow-

ing guidelines should be observed: Capacitance, par-ticularly

on the two inputs pins will degrade performance; avoid large

copper traces to the inputs. Keep the output signal away from

the inputs and use a ground plane.

It is important to ensure adequate supply bypassing capaci-

tors are located close to the device.

MIC923

Note: increasing load capacitance does reduce

the speed of the device. In applications where

the load capacitance reduces the speed of the

op amp to an unacceptable level, the effect of

the load capacitance can be reduced by add-

ing a small resistor (<100Ω) in series with the

output.

Power Supply Bypassing

Regular supply bypassing techniques are recommended.

A 10µF capacitor in parallel with a 0.1µF capacitor on both

the positive and negative supplies are ideal. For best perfor-

mance all bypassing capacitors should be located as close

to the op amp as possible and all capacitors should be low

ESL (equivalent series inductance), ESR (equivalent series

resis-tance). Surface-mount ceramic capacitors are ideal.

Thermal Considerations

The SC70-5 package, like all small packages, have a high

thermal resistance. It is important to ensure the IC does not

exceed the maximum operating junction (die) temperature of

85°C. The part can be operated up to the absolute maximum

temperature rating of 125°C, but between 85°C and 125°C

performance will degrade, in par-ticular CMRR will reduce.

An MIC923 with no load, dissipates power equal to the qui-

escent supply current × supply voltage

When a load is added, the additional power is dissipated in

the output stage of the op amp. The power dissipated in the

device is a function of supply voltage, output voltage and

output current.

Ensure the total power dissipated in the device is no greater

than the thermal capacity of the package. The SC70-5 pack-

age has a thermal resistance of 450°C/W.

Total Power Dissipation = P

Max. Allowable Power Dissipation =

D(no load)

D(output stage)

= (V

V+

– V

V+

V–

– V

OUT

D(no load)

OUT

+ P

J(max)

D(output stage)

450ºC/W

Micrel, Inc.

May 2006

– T

A(max)

MIC923YC5 TR Micrel Inc, MIC923YC5 TR Datasheet - Page 10

MIC923YC5 TR

Specifications of MIC923YC5 TR

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