LOG114 Datasheet, PDF(20/30 Page) Burr-Brown (TI) – Single-Supply, High-Speed, Precision LOGARITHMIC AMPLIFIER

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LOG114 Datasheet, PDF (20/30 Pages) Burr-Brown (TI) – Single-Supply, High-Speed, Precision LOGARITHMIC AMPLIFIER

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LOG114

SBOS301A â MAY 2004 â REVISED MARCH 2007

ERBIUM-DOPED FIBER OPTIC AMPLIFIER

(EDFA)

The LOG114 was designed for optical networking sys-

tems. Figure 13 shows a block diagram of the LOG114

in a typical EDFA application. This application uses two

log amps to measure the optical input and output power

of the amplifier. A difference amplifier subtracts the log

output signals of both log amps and applies an error

voltage to the proportional-integral-derivative (PID)

controller. The controller output adjusts a voltage-con-

trolled current source (VCCS), which then drives the pow-

er op amp and pump laser. The desired optical gain is

achieved when the error voltage at the PID is zero.

The log ratio function is the optical power gain of the

EDFA. This circuitry forms an automatic power level

control loop.

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An alternate design of the system shown in Figure 13

is possible because the LOG114 inherently takes the

log ratio. Therefore, one log amp can be eliminated by

connecting one of the photodiodes to the LOG114 I1

input, and the other to the I2 input. The differential

amplifier would then be eliminated.

The LOG114 is uniquely suited for most EDFA

applications because of its fast rise and fall times

(typically less than 1Âµs for a 100:1 current input step).

It also measures a very wide dynamic range of up to

eight decades.

Tap

Fiber

Pump Laser

Power

Op Amp

OPA569

VCCS

DAC

IREF1

RREF1

PID

VERROR

LOG114

Diff

VOUT1 VOUT2

REF

LOG114

RREF2

IREF2

Figure 13. Erbium-Doped Fiber Optic Amplifier (EDFA) block diagram.

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