Arrangement for eliminating offset errors in a power control circuit of a pulsed transmitter final amplifier
First Claim
1. An arrangement for eliminating offset errror in a power control circuit for a pulsed transmitter final amplifier comprising:
- a differential amplifier having a first input, a second input and an output,said differential amplifier first input being electrically connected to receive a level control signal, said level control signal being provided substantially during transmitter pulses to allow determination of a power output level of said transmitter final amplifier,said differential amplifier second input being electrically connected to receive a power output signal, andsaid differential amplifier output being electrically connected to a power control input on said transmitter final amplifier;
a memory circuit to allow storage of a magnitude representing an electrical signal;
a correction circuit electrically connected to measure a signal from said differential amplifier output during pauses between transmitter pulses and store a magnitude representing said differential amplfiier output signal in said memory circuit; and
said correction circuit further electrically connected to generate a correction voltage controlled by said stored magnitude during at least one transmitter pulse, wherein said correction voltage is electrically connected to compensate for an offset voltage in the control circuit and produce said differential amplifier output signal despite the absence of said level control signal and said power output signal.
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Accused Products
Abstract
A high frequency power amplifier amplifies periodic signals in the form of HF bursts. The power output of the amplifier is adjusted by a control loop which produces a control signal in response to a comparison made between a set-point value (BV) and the actual power output (Put) of the amplifier and applies the signal to the power amplifier. The control loop includes a differential amplifier. A correction circuit measures the output voltage of the differential amplifier over a time period (t1 to t2) prior to each HF burst and stores in a memory (C) a magnitude proportional to this output voltage. During the following HF burst, this magnitude is used to introduce into the control loop a correction magnitude (Ukorr) for correction of offset voltages (Uoff) occurring in the control loop.
16 Citations
3 Claims
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1. An arrangement for eliminating offset errror in a power control circuit for a pulsed transmitter final amplifier comprising:
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a differential amplifier having a first input, a second input and an output, said differential amplifier first input being electrically connected to receive a level control signal, said level control signal being provided substantially during transmitter pulses to allow determination of a power output level of said transmitter final amplifier, said differential amplifier second input being electrically connected to receive a power output signal, and said differential amplifier output being electrically connected to a power control input on said transmitter final amplifier; a memory circuit to allow storage of a magnitude representing an electrical signal; a correction circuit electrically connected to measure a signal from said differential amplifier output during pauses between transmitter pulses and store a magnitude representing said differential amplfiier output signal in said memory circuit; and said correction circuit further electrically connected to generate a correction voltage controlled by said stored magnitude during at least one transmitter pulse, wherein said correction voltage is electrically connected to compensate for an offset voltage in the control circuit and produce said differential amplifier output signal despite the absence of said level control signal and said power output signal. - View Dependent Claims (2, 3)
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Specification