SU907854A1 - Device for shaping frequency-manipulated signals - Google Patents

Description

(54) DEVICE FOR THE FORMATION OF FREQUENCY-MANIPULATED SIGNALS

one

The invention relates to a radio technology and can be used to obtain frequency-manipulated signals for discrete information transmission systems.

A device for generating frequency-manipulated signals is known, comprising a series-connected frequency modulator, an oscillator, a mixer, an intermediate frequency amplifier, a frequency discriminator, a comparison block, a low-pass filter and a control unit, the output of which is connected to the second input of the auto-oscillator and the reference oscillator, the output of which connected to the second input of the mixer 1.

However, the known device has a low accuracy in the formation of a frequency-manipulated signal.

The purpose of the invention is to improve the accuracy of the formation of the frequency-manipulated signal.

To achieve this goal, a device for generating frequency-manipulated signals comprising a series-connected frequency modulator, an auto-oscillator, a mixer, an intermediate frequency amplifier, a frequency discriminator, a comparison unit, a low-pass filter and a control unit, the output of which is connected to the second input of the auto-oscillator and reference

 a generator, the output of which is connected to the second input of the mixer, is a delay element and an additional low-pass filter, the input of which is connected to the input of the frequency modulator through the delay element, and the output of the additional low-pass filter is connected to the second input of the comp. niva block.

The drawing shows a structural electrical circuit of the proposed device.

A device for generating frequency-controlled signals contains a frequency modulator 1, an oscillator 2, a mixer 3, a reference oscillator 4, an intermediate frequency amplifier 5, a frequency discriminator 6, a comparison block 7, a low-pass filter 8, a control block 9, a delay element 10, an additional filter 11 low frequencies.

The device works as follows.

The output of the mixer 3, which converts the voltage of the auto-oscillator 2 into an intermediate frequency signal, is connected to serially connected intermediate frequency amplifier 5 (IF amplifier) and frequency discriminator 6. IF amplifier 5 and frequency discriminator b are needed to amplify the intermediate frequency signal with further conversion of the instantaneous frequency signal frequency discriminator (BH) b in the voltage. The output of the frequency discriminator b is connected to the first input of the comparing unit 7, the output of which is connected to the serially connected low-pass filter 8 and the control unit 9. The output of the control unit 9 is connected to the second input of the auto-oscillator 2. The input of the frequency modulator 1 is connected to the series-connected delay element 10 and an additional low-pass filter 11, the output of which is connected to the second input of the matching unit 7. The frequency modulator 1 is necessary to control the frequency of the auto-oscillator 2 in accordance with the law of the modulating signal. With the help of the delay element 10 and the additional low-pass filter 11, the time delay of the modulating signal and the output voltage of the RRB are aligned, as well as the laws of their change -. Comparative unit 7 generates a mismatch voltage for the laws of variation of the instantaneous frequency of the oscillator 2 and a modulating signal, which adjusts the law of variation of the instantaneous frequency of the oscillator 2 to the one specified by block 9 of the control. The modulating signal is fed to the frequency modulator 1 and with its help changes the frequency of the oscillator 2 according to the law of modulating voltage. The output signal of the auto-oscillator 2 is converted into an intermediate frequency signal using a mixer 3 and a reference oscillator 4, and then amplified by an intermediate frequency amplifier 5 and fed to frequency discriminator b, converts the law of variation of the instantaneous frequency of the intermediate frequency signal and voltage. The occurrence of transient processes in oscillatory circuits of UPCH 5 and BH b leads to the fact that the output voltage of the frequency last varies according to the law (BH b is performed on disconnected circuits)

ichd (x) ± ipchd 1-2e (coso1oh + + -J-sin A, x), (1)

where X -f-Wo.t is the dimensionless time; cs - generalized detuning; maximum output voltage BH; 6 - attenuation of BH circuits.

The sign “+ in the formula (1) corresponds to the transition of the frequency from lower to higher, and“ to the contrary - from higher to lower.

The output voltage of BF b is fed to a comparison unit, where it is compared with a modulating signal, a delay element 10 delayed by time and predistorted by an additional low-pass filter (LPF) 11. The output voltage of the additional low-pass filter 11 is determined by the expression (the filter contains a series-connected resistor R, inductance L and capacitance C, the signal is removed from the capacitance)

LtpH4 (t) ± -2- (cosJit + + -sin5it) I, (2)

where the level of 0.707, half

Transmission LPF; SI VI / LC -L, - resonant frequency

LPF; and rfc-maximum voltage

output low pass filter

The sign "-f in the formula (2) corresponds to a positive differential modulating signal, and" - - to a negative one.

With a certain choice of the parameters of the additional low-pass filter 11 of the voltage from its output and the BH b and the equality of Cpchd and - / lrnch. will be changed according to the same law, and, therefore, the output signal of the comparison unit 7 will contain only voltage; which is determined by the difference in the law of variation of the instantaneous frequency of the oscillator 2 from the modulating signal due to the nonlinearity of the control characteristic of the frequency modulator 1. This voltage - the error voltage through the low-pass filter 8 in the control circuit is applied to the control block 9, which has a tuning effect on the frequency of the oscillator 2 until the laws of variation of its instantaneous frequency and the modulating signal completely coincide.

Thus, the introduction of new blocks significantly increases the accuracy of the formation of the frequency-manipulated signal.

Claims (1)

Invention Formula A device for generating frequency-manipulated signals comprising a series-connected frequency modulator, an auto-oscillator, a mixer, an intermediate frequency amplifier, a frequency discriminator comparing the unit, a low-pass filter and a control unit, the output of which is connected to the second input of the auto-generator and a reference generator whose output is connected with the second input of the mixer, characterized in that, in order to increase the accuracy of shaping the frequency-manipulated signal, a delay element and an additional low-pass filter are introduced. the input of which through the delay element is connected to the input of the frequency modulator, and the output of the additional low-pass filter is connected to the second input of the comparing unit. Sources of information taken into account in the examination 1. Kaganov V. I. Automatic control systems in radio transmitters. M., “Holy, 1969, p. 117 (prototype).