LMH6644-MIL Datasheet, PDF(22/28 Page) Texas Instruments – Low-Power, 130-MHz, 75-mA Rail-to-Rail Output Amplifier

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LMH6644-MIL Datasheet, PDF (22/28 Pages) Texas Instruments – Low-Power, 130-MHz, 75-mA Rail-to-Rail Output Amplifier

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LMH6644-MIL

SNOSD65 â JUNE 2017

9 Application and Implementation

www.ti.com

NOTE

Information in the following applications sections is not part of the TI component

specification, and TI does not warrant its accuracy or completeness. TIâs customers are

responsible for determining suitability of components for their purposes. Customers should

validate and test their design implementation to confirm system functionality.

9.1 Application Information

This device was designed to avoid output phase reversal. With input overdrive, the output is kept near supply rail

(or as closed to it as mandated by the closed loop gain setting and the input voltage). See Figure 56.

However, if the input voltage range of â0.5 V to 1 V from V+ is exceeded by more than a diode drop, the internal

ESD protection diodes will start to conduct. The current in the diodes should be kept at or below 10 mA.

Output overdrive recovery time is less than 100 ns as can be seen in Figure 57.

9.2 Typical Application

5pF

Vbias

Photodiode

Equivalent

Circuit

1k:

Rbias

100nF

2N3904

-1mAPP

VCC =

+5V

Photodiode

200pF

Ã100k:

510:

1.8k:

Vout

R11

D1 910

R10

1N4148 :

1k:

+5V

Figure 55. Single-Supply Photodiode I-V Converter

9.2.1 Design Requirements

The circuit shown in Figure 55 is used to amplify the current from a photodiode into a voltage output. In this

circuit, the emphasis is on achieving high bandwidth and the transimpedance gain setting is kept relatively low.

Because of its high-slew-rate limit and high speed, the LMH6644-MIL lends itself well to such an application. This

circuit achieves approximately 1 V/mA of transimpedance gain and capable of handling up to 1 mApp from the

photodiode. Q1, in a common base configuration, isolates the high capacitance of the photodiode (Cd) from the

op amp input in order to maximize speed. Input is AC coupled through C1 to ease biasing and allow single

supply operation. With 5-V single supply, the device input/output is shifted to near half supply using a voltage

divider from VCC. Note that Q1 collector does not have any voltage swing and the Miller effect is minimized. D1,

tied to Q1 base, is for temperature compensation of Q1âs bias point. Q1 collector current was set to be large

enough to handle the peak-to-peak photodiode excitation and not too large to shift the U1 output too far from

mid-supply.

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