Transimpedance amplifier with overload protection
First Claim
1. A transimpedance amplifier circuit, comprising:
- an amplifier having an input and an outputa first feedback impedance element connected between the input and the output of the amplifier;
a field-effect shunt resistor having one side of its conduction path connected to the input of the amplifier;
a decoupling capacitor connected at one side to another side of the conduction path of the transistor and connected at another side to a reference potential means, anda shunt transistor control means having an input connected to the output of the amplifier and having its output connected to the control electrode of the shunt transistor,wherein the improvement comprises;
a second feedback impedance element connected between the output of the amplifier and the common node of the shunt transistor and the capacitor.
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Accused Products
Abstract
The front end of an optical receiver circuit (10) is of the type having a field-effect device transimpedance amplifier (16,21) which receives at its input (14) the photocurrent of a photodiode (12). A field-effect device shunt impedance (26) to protect against amplifier overloading is connected between the input and ground through a decoupling capacitor (28). The shunt (26) is controlled by a controller (30), which has its input connected to the output (24) of the amplifier (16) and its output connected to the gate of the shunt (26). The controller (30) compares the output (24) of the amplifier (16) to a threshold reference voltage for determining whether to activate the shunt (26) and regulates the gate voltage of the shunt (26) by means of an AGC amplifier. A direct current feedback resistor (32) is connected between the output (24) of the amplifier (16) and the source of the shunt (26). This prevents the d.c. component of large photocurrents from significantly changing the input bias voltage level of the amplifier (16).
39 Citations
5 Claims
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1. A transimpedance amplifier circuit, comprising:
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an amplifier having an input and an output a first feedback impedance element connected between the input and the output of the amplifier; a field-effect shunt resistor having one side of its conduction path connected to the input of the amplifier; a decoupling capacitor connected at one side to another side of the conduction path of the transistor and connected at another side to a reference potential means, and a shunt transistor control means having an input connected to the output of the amplifier and having its output connected to the control electrode of the shunt transistor, wherein the improvement comprises; a second feedback impedance element connected between the output of the amplifier and the common node of the shunt transistor and the capacitor. - View Dependent Claims (2, 3, 4, 5)
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Specification