LMH6642 Datasheet, PDF(18/33 Page) National Semiconductor (TI) – 3V, Low Power, 130MHz, 75mA Rail-to-Rail Output Amplifiers

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LMH6642 Datasheet, PDF (18/33 Pages) National Semiconductor (TI) – 3V, Low Power, 130MHz, 75mA Rail-to-Rail Output Amplifiers

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LMH6642, LMH6643, LMH6644

SNOS966P â MAY 2001 â REVISED MARCH 2013

VIN (1 V/DIV)

www.ti.com

VS=Â±5V, VIN=5VPP

AV=+5, RF=RL=2k

2 V/DIV

VOUT (2 V/DIV)

100 ns/DIV

Figure 61. Overload Recovery Waveform

INPUT AND OUTPUT TOPOLOGY

All input / output pins are protected against excessive voltages by ESD diodes connected to V+ and V-rails (see

Figure 62). These diodes start conducting when the input / output pin voltage approaches 1Vbe beyond V+ or V-

to protect against over voltage. These diodes are normally reverse biased. Further protection of the inputs is

provided by the two resistors (R in Figure 62), in conjunction with the string of anti-parallel diodes connected

between both bases of the input stage. The combination of these resistors and diodes reduces excessive

differential input voltages approaching 2Vbe. The most common situation when this occurs is when the device is

used as a comparator (or with little or no feedback) and the device inputs no longer follow each other. In such a

case, the diodes may conduct. As a consequence, input current increases and the differential input voltage is

clamped. It is important to make sure that the subsequent current flow through the device input pins does not

violate the Absolute Maximum Ratings of the device. To limit the current through this protection circuit, extra

series resistors can be placed. Together with the built-in series resistors of several hundred ohms, these external

resistors can limit the input current to a safe number (i.e. < 10mA). Be aware that these input series resistors

may impact the switching speed of the device and could slow down the device.

V+

IN+

V+

IN-

V-

Figure 62. Input Equivalent Circuit

SINGLE SUPPLY, LOW POWER PHOTODIODE AMPLIFIER

The circuit shown in Figure 63 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 LMH664X family lends itself well to such an application.

This circuit achieves approximately 1V/mA of transimpedance gain and capable of handling up to 1mApp 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 5V 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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Product Folder Links: LMH6642 LMH6643 LMH6644

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