02016-BRF-001-A Datasheet, PDF(1/2 Page) M/A-COM Technology Solutions, Inc. – 1.25 Gbps Transimpedance Amplifier with AGC

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02016-BRF-001-A Datasheet, PDF (1/2 Pages) M/A-COM Technology Solutions, Inc. – 1.25 Gbps Transimpedance Amplifier with AGC

1.25 Gbps Transimpedance Amplifier with AGC

M02016

Low-power, super high-sensitivity 1.25 Gbps tran-

simpedance amplifier suitable for GEPON and GbE

applications

The M02016 is a transimpedance amplifier (TIA) with auto-

matic gain control (AGC) manufactured in a sub-micron,

CMOS process. The AGC allows more than 35 dB of dynamic

range, providing a low-cost solution for longer-reach 1.25

Gbps GEPON and GbE systems.

For optimum system performance, the M02016 die should be

mounted with a silicon or InGaAs PIN photodetector inside a

lensed TO-Can or other optical sub-assembly.

The M02016 reverse biases the PIN by approximately 1.8

volts to optimise performance. A replica of the average

photodiode current is available at the MON pad for align-

ment and 'LOSS of SIGNAL' monitoring.

Transimpedance Amplifier (TIA)

The TIA consists of a high gain single-ended CMOS amplifier

with a feedback resistor. The feedback creates a virtual

earth low impedance at the input, and virtually all of the

input current passes through the feedback resistor,

defining the voltage at the output. Advanced CMOS design

techniques are employed to maintain the stability of this

stage across all input conditions. Single-ended amplifiers

have inherently poor power supply noise rejection. For this

reason, an on-chip low dropout linear regulator has been

incorporated into the design to give excellent noise rejection

> KEY FEATURES

> Typical -29 dBm sensitivity,

+6 dBm saturation at 1.25

Gbps

> Typical differential transim-

pedance: 24kW

> Differential output

> Operates with +3.3V supply

> Monitor output

> AGC provides dynamic range

of more than 35 dB

up to several MHz. Higher frequency power supply noise is

removed by the external 470 pF decoupling capacitor

connected to PINK.

The circuit is designed for PIN photodiodes in the âgrounded

cathodeâ configuration with the anode connected to the

input of the TIA and the cathode connected to AC ground,

such as the provided PINK terminal. Reverse DC bias is

applied to reduce the photodiode capacitance. Avalanche

photodiodes can be connected externally to a higher

voltage.

Automatic Gain Control (AGC)

The M02016 has been designed to operate over the input

range of +6 dBm to â29 dBm @ 1.25 Gbps. This represents a

ratio of 1:3000, whereas the acceptable dynamic range of

the output is only 1:30 which implies a compression of 100:1

in the transimpedance. The design uses a MOS transistor

operating in the triode region as a âvoltage controlled

resistorâ to achieve the transimpedance variation.

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