CCD Demodulator circuit
First Claim
1. In a data transmission system for sending digital data between a transmitter and a receiver over a transmission link by a modulated carrier signal in which predetermined phase differences and predetermined amplitude levels are established during successive modulation periods representative of preselected data combinations, a demodulator at the receiver for detecting said phase differences and said amplitude levels to restore the digital data to its original format which comprises:
- a carrier signal input for supplying said modulated carrier signal;
a reference signal input for supplying a reference frequency signal;
first switch means having an input connected to said carrier signal input and an output;
second switch means having an input connected to said reference signal input and an output;
a charge coupled circuit having first and second inputs respectively connected to the outputs of said first and second switch means, and an output;
said charge coupled circuit functioning to demodulate said modulated carrier signal;
timing means connected to and controlling said first and second switch means for providing, at the outputs of said first and second switch means, signals representing a predetermined combination of the carrier and reference signals to said charge coupled circuit at predetermined times; and
processing means connected to the output of said charge coupled circit for calculating the phase difference between said carrier signal and said reference signal.
3 Assignments
0 Petitions
Accused Products
Abstract
A semiconductor integrated circuit using charged coupled device (CCD) technology for performing demodulation of time-varying signals which have been phase or amplitude modulated. The CCD circuit performs a sampling of the time-varying signal at a suitable sampling frequency depending upon the frequency of the phase or amplitude modulation of the carrier. The CCD device converts the sample into an equivalent charge packet which is used to control the control electrode of a field effect transistor in an amplifier circuit. The magnitude of the sample is representative of the amplitude of the carrier so that the output of the field effect transistor represents a demodulated signal. The circuit is a broad spectrum device, operable with a signal frequency from the audio into the gigaHertz (GHz) frequency range.
98 Citations
3 Claims
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1. In a data transmission system for sending digital data between a transmitter and a receiver over a transmission link by a modulated carrier signal in which predetermined phase differences and predetermined amplitude levels are established during successive modulation periods representative of preselected data combinations, a demodulator at the receiver for detecting said phase differences and said amplitude levels to restore the digital data to its original format which comprises:
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a carrier signal input for supplying said modulated carrier signal; a reference signal input for supplying a reference frequency signal; first switch means having an input connected to said carrier signal input and an output; second switch means having an input connected to said reference signal input and an output; a charge coupled circuit having first and second inputs respectively connected to the outputs of said first and second switch means, and an output;
said charge coupled circuit functioning to demodulate said modulated carrier signal;timing means connected to and controlling said first and second switch means for providing, at the outputs of said first and second switch means, signals representing a predetermined combination of the carrier and reference signals to said charge coupled circuit at predetermined times; and processing means connected to the output of said charge coupled circit for calculating the phase difference between said carrier signal and said reference signal. - View Dependent Claims (2, 3)
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Specification