LT1125_15 Datasheet, PDF(11/20 Page) Linear Technology – Dual/Quad Low Noise, High Speed Precision Op Amps

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LT1125_15 Datasheet, PDF (11/20 Pages) Linear Technology – Dual/Quad Low Noise, High Speed Precision Op Amps

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LT1124/LT1125

Applications Information

High Speed Operation

When the feedback around the op amp is resistive (RF),

a pole will be created with RF, the source resistance and

capacitance (RS, CS), and the amplifier input capacitance

(CIN â 2pF). In low closed loop gain configurations and with

RS and RF in the kilohm range, this pole can create excess

phase shift and even oscillation. A small capacitor (CF)

in parallel with RF eliminates this problem (see Figureâ¯2).

With RS (CS + CIN) = RFCF, the effect of the feedback pole

is completely removed.

CIN

OUTPUT

1124/25 F02

Figure 2. High Speed Operation

Unity Gain Buffer Applications

When RF â¤ 100â¦ and the input is driven with a fast, large

signal pulse (>1V), the output waveform will look as

shown in Figure 3.

During the fast feedthrough-like portion of the output, the

input protection diodes effectively short the output to the

input and a current, limited only by the output short circuit

protection, will be drawn by the signal generator. With

RF â¥500â¦, the output is capable of handling the current

requirements (IL â¤ 20mA at 10V) and the amplifier stays

in its active mode and a smooth transition will occur.

Noise Testing

Each individual amplifier is tested to 4.2nV/âHz voltage

noise; i.e., for the LT1124 two tests, for the LT1125 four

tests are performed. Noise testing for competing multiple

op amps, if done at all, may be sample tested or tested

using the circuit shown in Figure 4.

en OUT = â(enA)2 + (enB)2 + (enC)2 + (enD)2

If the LT1125 were tested this way, the noise limit would

be â4 â¢ (4.2nV/âHz)2 = 8.4nV/âHz. But is this an effective

screen? What if three of the four amplifiers are at a typical

2.7nV/âHz, and the fourth one was contaminated and has

6.9nV/âHz noise?

RMS Sum = â(2.7)2 + (2.7)2 + (2.7)2 + (6.9)2 = 8.33nV/âHz

This passes an 8.4nV/âHz spec, yet one of the ampli-

fiers is 64% over the LT1125 spec limit. Clearly, for

proper noise measurement, the op amps have to be tested

individually.

OUTPUT

4.5V/Âµs

1124/25 F03

Figure 3. Unity-Gain Buffer Applications

OUT

1124/25 F04

Figure 4. Competing Quad Op Amp Noise Test Method

For more information www.linear.com/LT1124

11245ff

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