Method and apparatus for controlling the carrier of an amplitude-modulated transmitter
First Claim
1. A method for controlling the carrier of an amplitude-modulated transmitter, herein a control signal dependent on the dynamic range of a useful low-frequency signal is derived from the useful low-frequency signal and is amplified by means of a switching amplifier and used for modulating a transmitter output stage, the mean carrier amplitude of the transmitter being controlled by a dynamic-range-dependent control signal, comprising:
- periodically sampling the amplitude of the useful signal and converting the sampled signal into digital amplitude values;
allocating each of the digital amplitude values a digital carrier-control value determined by a fixed carrier-control characteristic with a certain slope and adding said digital carrier-control value to the respective digital amplitude value to produce a sum; and
amplifying said sum as a dynamic-range-dependent digital control-signal value by means of a digital switching amplifier;
allocating a digital carrier-characteristic value to each of the digital amplitude values in accordance with the determination of the predetermined carrier-control characteristic;
determining the carrier control value as the difference between a fixed, digital carrier value and a dynamic-range-dependent digital carrier-reduction value;
comparing the carrier-characteristic value with a digital memory content;
using the carrier-characteristic value as a new memory content and as carrier-reduction value when the carrier-characteristic value is smaller than the respective memory content; and
maintaining the memory content constant for a fixed delay time, incrementing the memory content step by step after the delay time has elapsed, and using the memory content as the carrier-reduction value when the carrier-characteristic value is a greater than the respective memory content.
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Accused Products
Abstract
A method for controlling the carrier of an amplitude-modulated transmitter, wherein a saving in carrier power with simultaneous minimum dynamic distortions is achieved by digitizing the useful signal and digitally processing all control signals. The circuit for carrying out the method contains a digital computing circuit which calculates from the digital amplitude values of the useful signal a carrier-control value which controls the carrier level via a digital switching amplifier.
42 Citations
8 Claims
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1. A method for controlling the carrier of an amplitude-modulated transmitter, herein a control signal dependent on the dynamic range of a useful low-frequency signal is derived from the useful low-frequency signal and is amplified by means of a switching amplifier and used for modulating a transmitter output stage, the mean carrier amplitude of the transmitter being controlled by a dynamic-range-dependent control signal, comprising:
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periodically sampling the amplitude of the useful signal and converting the sampled signal into digital amplitude values; allocating each of the digital amplitude values a digital carrier-control value determined by a fixed carrier-control characteristic with a certain slope and adding said digital carrier-control value to the respective digital amplitude value to produce a sum; and amplifying said sum as a dynamic-range-dependent digital control-signal value by means of a digital switching amplifier; allocating a digital carrier-characteristic value to each of the digital amplitude values in accordance with the determination of the predetermined carrier-control characteristic; determining the carrier control value as the difference between a fixed, digital carrier value and a dynamic-range-dependent digital carrier-reduction value; comparing the carrier-characteristic value with a digital memory content; using the carrier-characteristic value as a new memory content and as carrier-reduction value when the carrier-characteristic value is smaller than the respective memory content; and maintaining the memory content constant for a fixed delay time, incrementing the memory content step by step after the delay time has elapsed, and using the memory content as the carrier-reduction value when the carrier-characteristic value is a greater than the respective memory content. - View Dependent Claims (2, 3, 4, 5)
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6. A circuit for carrying out a method for controlling the carrier of an amplitude-modulated transmitter, wherein a control signal dependent on the dynamic range of a useful low-frequency signal is derived from the useful low-frequency signal and is amplified by means of a switching amplifier and used for modulating a transmitter output stage, the mean carrier amplitude of the transmitter being controlled by a dynamic-range-dependent control signal, wherein said method includes the steps of periodically sampling the amplitude of the useful signal and converting the sampled signal into digital amplitude values, allocating each of the digital amplitude values a digital carrier-control value determined by a fixed carrier-control characteristic and adding said digital carrier-control value to the respective digital amplitude value to produce a sum, and amplifying the sum as a dynamic-range-dependent digital control-signal value by means of a digital switching amplifier, comprising:
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an input terminal for the useful signal; an analog/digital converter which is connected to the input terminal; a digital switching amplifier and a transmitter output stage which is connected to the output of the digital switching amplifier; a subtraction circuit disposed between an output of the analog/digital converter and an input of the digital switching amplifier; and a digital computing circuit for calculating the digital control-signal value; wherein a first input of the subtraction circuit and an input of the digital computing circuit are connected to the output of the analog/digital converter, a second input of the subtraction circuit is connected to an output of the digital computing circuit, and an output of the subtraction circuit is connected to an input of the digital switching amplifier; wherein the digital computing circuit comprises a characteristic-transformation circuit, a first comparator, a programmable counter, a second comparator, a time counter, a time comparator and an AND gate, wherein; an input of the characteristic-transformation circuit is connected to an output of the analog/digital converter and the carrier-characteristic-transformation circuit is passed to one input each of the first and of the second comparators; an output of the programmable counter is connected to another input of the first comparator; the carrier-reduction value is present at the output of the first comparator and is passed to a second input of the subtraction circuit and to another input of the second comparator; a first output of the second comparator supplies, with equality of the inputs thereto, an input value to a programming input of the programmable counter, a second output of the second comparator supplies, with equality of the inputs thereto, a reset pulse to a reset input of the time counter, and a third output of the second comparator supplies, with inequality of the inputs thereto, a counting pulse to a counting input of the time counter and, via an input of the AND gate, to a counting input of the programmable counter; and the time comparator compares the count of the time counter with the preset delay time and with equality of the inputs thereto sets a second input of the AND gate to a predetermined logic level. - View Dependent Claims (7, 8)
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Specification