SU1478359A1 - Analog-to-digital converter for signal transmission system with frequency multiplexing - Google Patents

Abstract

The invention relates to radio engineering and communications. The purpose of the invention is to improve the accuracy of the conversion. The Converter contains a modulator 1, r-r 2 sinusoidal signals, a band-pass filter 3, amplitude-pulse converters 4 and 7, a resistor 5, an amplifier 6, a digital signal shaper 8 and r-r 9 pulses. Under the action of r-2, modulator 1 transfers the spectrum of the input signal with frequency division channels into the sideband spectrum. Filter 3 then selects a signal in the specified band. Next, the converter 4 produces the formation of pulses of type AIM-2, the shape of which depends on the placement of the input signal in the sideband. The resistor 5 is used as the discharge resistance of the converter 4. Next, the AIM-2 pulses are fed through the amplifier 6 to the converter 7, which generates wide pulses of amplitude-amplitude modulation of the second kind arriving at the output driver 8. 1 Il.

Description

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The invention relates to radio engineering and communication and can be used in multichannel signal transmission systems with frequency channel multiplexing.

The purpose of the invention is to improve accuracy.

The drawing shows an analog-to-digital converter circuit for frequency-division signal transmission systems.

The analog-to-digital converter contains a modulator 1, a generator of 2 sinusoidal signals, a band-pass filter 3, first and second amplitude-pulse converters 4 and 7, a resistor 5, an amplifier 6, a digital signal shaper 8, and a generator of 9 pulses.

An analog-to-digital converter for frequency division multiplexed signaling systems operates as follows.

The multi-channel signal of a frequency division multiplexed signaling system (FDC) enters modulator 1, in which, under the action of oscillator 2, the spectrum of the signal from the FFC is transferred to the sideband spectrum. Band-pass filter 3 selects a signal in a specified band. In the second amplitude-impulse converter 4, pulses of the type AIM-2 are produced, the shape of which substantially depends on the placement of the FRC signal in the sideband. A high-frequency resistor is used as the discharge resistance of the second amplitude-1-pulse impulse converter 4. Next, the pulses of the AIM-2 enter the amplifier 6 with a high input sop

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From its output to the first amplitude-pulse converter 7, which forms wide pulses of the second kind of amplitude-modulation modulated to the driver 8. Synchronization of the operation of the first and second pulse-amplitude modulators 4 and 7 and the former 8 is performed by signals with generator 9.

Claims (1)

Invention Formula An analog-to-digital converter for frequency division multiplexed signaling systems containing a serially connected modulator and a band-pass filter, a sinusoidal signal generator, the output of which is connected to the modulator control input, as well as serially connected first amplitude-pulse converter and a digital signal conditioner, the control input of which is connected to the first output of the pulse generator, the second output of which is connected to the control input of the first amplitude-pulse In order to improve the accuracy of the conversion, a second pulse-amplitude converter, a resistor and an amplifier are introduced, the output of the band-pass filter connected to the input of a second pulse-amplitude converter, the output of which is connected through an amplifier to the input of the first pulse-amplitude converter and the resistor is connected in parallel with the output of the second amplitude-pulse converter, the control input of which is connected to the third output of the pulse generator.