CS273124B1 - Connection of computing frequency-modulated demodulator with high slope - Google Patents

Abstract

The connection can be used with frequency demodulation of signals independently on the size of their carrier frequency. The connection solves the problem of linear demodulation in such a way that it removes the present disadvantage of the computing FM demodulator, i.e. low steepness of conversion with high carrier frequencies. The merit of the connection lies in the fact that the input of the linear converter current - voltage and at the simultaneously controlled current source, which is controlled via the integration amplifier by the voltage from the output of the converter current - voltage, are connected with the output of the linear converter frequency - current.<IMAGE>

Description

(57) The wiring can be used in frequency demodulation of signals independently of the size of their carrier frequency. The wiring solves the problem of linear demodulation by eliminating the existing disadvantage of the counting FM demodulator, namely the low slope of the transmission at higher carrier frequencies. The essence of the connection is that the output of the linear converter frequency - current is connected to the converter input current - voltage and simultaneously controlled current source controlled via the integration amplifier voltage from the output converter current - voltage.

CD

273 124 (11). (13) Bl (51) Int. CL ⁵ H 03 D 3/04

CS 273124 Bl

The invention relates to a high steep counting FM demodulator.

Hitherto known and used connections of FM modulators are quite complex, especially in the case of requirements for minimal distortion of the demodulated signal. For the requirement of minimal distortion, counting FM demodulators are used, which in the prior art have a low slope and are unsuitable at higher carrier frequencies.

The disadvantage of the low steepness is eliminated by the circuit according to the invention, which is characterized in that the input terminal is connected to the frequency-current converter input, its output being connected both to the working input of the controlled current source and to the current-voltage converter input. it is connected to the output terminal and at the same time via the integrated amplifier to the control input of the controlled current source.

The advantage of the circuit is that the FM demodulator thus created is linear, operates on virtually any carrier frequency, adjusts itself when the carrier frequency changes, and does not require any adjustment at appropriate design. For example, in two standard TV receivers, the detector itself retune when switching from one standard to another. The wiring is suitable for implementation in hybrid or integrated form, since it does not need any inductance for the function.

The attached drawing shows a block diagram of an FM counting demodulator according to the invention.

In the connection of the counting FM demodulator, the input 2 of the frequency-current converter is connected to the input terminal X, its output being connected both to the working input 41 of the controlled power source 4 and to the input of the current-voltage converter 3 whose output is connected to the output terminal. And at the same time via the integration amplifier X to the control input 42 of the controlled current source 4.

The frequency-modulated signal applied to the linear converter input χ frequency current produces two current components at its output, a constant value component corresponding to the frequency of the carrier of the frequency modulated signal and a variable value component corresponding to the instantaneous frequency stroke of the frequency modulated signal. The constant current component is from the output of the converter χ frequency - current is discharged by the controlled current source 4 and at the input of the converter 3 current - voltage comes only the current component with a variable value. After passing the current-voltage converter χ, the demodulated voltage of the frequency-modulated signal arrives at the output terminal. The current of the controlled current source 4 is adjusted, automatically, by the voltage drawn from the output current-voltage converter X and via the integrating amplifier χ supplied to the control input 42 of the controlled current source 4 so that the output terminal χ has a DC voltage corresponding to the center converter χ current - voltage.

The wiring of the FM counting demodulator according to the invention is suitable for use in RF technology, for example, for speed variation of turntables, tape recorders, and the like, in radio technology, for example in FM receivers and in television equipment, for example in television receivers.

Claims (1)

SUBJECT OF THE INVENTION Connection of high steep counting FM demodulator, characterized in that the input terminal (1) is connected to the frequency-current converter input (2), while its output is connected both to the working input (41) of the controlled current source (4) and to the converter current input (3), the output of which is connected to the output terminal (6) CS 273124 B1 2 and simultaneously via an integrating amplifier (5) to the control input (42) of the controlled current source (4).