CS209786B1 - Circuitry of frequency demodulator with coincidence detector and electronic retarding chain - Google Patents

Description

The invention relates to a frequency demodulator with a coincidence detector and an electronic string with a large width and linearity of the S-curve.

The hitherto used circuits utilize the coincidence principle of demodulation of frequency modulated signals to achieve a large width and the linearity of the S-curve uses a de-latching line connected in the phase shift branch. This circuit is characterized by a wide and linear S-curve of the demodulator, but its disadvantage is the necessity to use relatively long line sections (tens of meters) in the shift / delay / phase branch. The wiring takes up a lot of space, is relatively expensive and especially consuming in copper.

The above drawbacks are overcome by the object of the invention that the input of the frequency demodulator is connected to the first input of the coincidence detector and connected via the first separator block and the shaping circuit to an electronic delay string. This electronic delay string is formed by cascading the delay units and is connected via a second separation block to the second input of the coincidence detector, which is connected to the output. A frequency demodulator with a coincident detector and an electronic delay string operates such that the first input connected to the detector is also connected to the first decoupling block, which serves to change the amplitude and the DC level of the input signal to a size suitable for subsequent powering the forming circuit. The shaping circuit shapes the input signal into a rectangular waveform with the desired levels. The electronic delay string serves to delay the signal from the shaping circuit and itself consists of cascading the order of the delay units. The number of delay units is determined by the desired chain delay time. The second separation block provides the separation of the DC component and changes the voltage from the electronic delay chain to a size suitable for the second input of the coincidence detector.

2.09786 components of the conductor components, resistors and capacitors, while maintaining the advantageous characteristics of a day-time frequency demodulator with a delay line.

An advantage of the present invention is the use of an electronic circuit instead of a delay line. The progress achieved thereby is to save material, reduce the size and weight of the device, and allow monolytic integration of the demodulator while maintaining its large linearity and S-curve width. The invention can replace the previously used line demodulators with a line delay and can additionally be used in devices where the use of a frequency line demodulator with a delay line was not possible for the large dimensions of the delay line.

The attached drawing shows a block diagram of a frequency demodulator with a coincidence detector and an electronic delay string according to the invention, the input of which is connected to the first input A of the coincidence detector KD. This input is also coupled to the first decoupling block OBp for varying the amplitude and DC level of the input signal to a size suitable for the subsequent supply of the shaping circuit TO. The shaping circuit TO shapes the input signal into a rectangular waveform with the required levels. The electronic delay string EOR serves to delay the signal from the shaping circuit TO and consists itself of cascades * ¹ * of the ordering of the delay units OJ to OJ. The number of delay units is determined by the desired chain delay time. The second decoupling block OB1 provides for decoupling the DC component and changing the voltage from the electronic delay chain EOR to a size suitable for the second input of the coincidence detector KD.

The invention finds advantageous use in high-quality FM signal receivers, while providing the same The most possible applications are in hinge circuits and other analog wiring.

Claims (1)

OBJECT OF THE INVENTION The connection of the frequency demodulator with the coincidence detector and the electronic delay string is characterized in that the input of the frequency demodulator is connected to the first input (A) of the coincidence detector (KD) and connected via the first separation block (OB ^) and forming circuit (TO). to the electronic delay string (EOR), which is ^{formed by cascading the} delay units (OJ 0 to ^0J n), wherein the electronic delay string (EOR) is connected via a second separation block to the second input (B) of the coincidence detector (KD) connected to the output .