SU843169A1 - High-pass filter - Google Patents

Description

The invention relates to radio engineering and can be used in 'radio transmitting and receiving devices. *

A device for automatic tuning of the circuit, comprising series-connected adjustable circuit, amplitude detector, first low-pass filter, phase detector and second low-pass filter, the output of which is connected to the control input of the adjustable circuit, and to the other input of the phase detector and to the control, input of the adjustable circuit connected ^ modulating frequency generator. The operation of this device is based on the modulation parameter reactance circuit device and determining a reaction to the modulating signal via _m phase-th detector Γι '].

However, in this device, when the frequency of the input signal changes over a wide range, the bandwidth of the tuned circuit varies greatly.

The purpose of the invention is the stabilization of the bandwidth of a custom circuit with a wide range of its adjustment.

This goal is achieved by the fact that in the known device for automatic tuning of the circuit, containing a series-connected adjustable circuit, an amplitude detector, a first low-pass filter, a phase detector and a second low-pass filter, the output of which is connected to the control input of the adjustable circuit, and to another phase input the detector and a modulating frequency generator is connected to the control input of the adjustable circuit, additionally introduced between the output of the adjustable circuit and the adjustment input and its quality factor, an additional phase detector, a third low-pass filter, a synchronous detector, a fourth low-pass filter and a setpoint circuit are connected in series, the second inputs of the second phase detector and synchronous detector _{5 are} connected respectively to the input of the adjustable filter and to the output of the generator modulating frequency.

The drawing shows a diagram of the proposed device. · 10

The device for automatic tuning of the circuit contains a tunable circuit I. Amplitude detector 2, first low-pass filter 3, phase detector 4, second · low-pass filter 5 · 15 one, modulating frequency generator 6 ·. You, additional phase detector 7, third filter 8 low pass, synchronous detector 9y fourth filter 10 low pass, setpoint circuit 11. 20

The device operates as follows.

When a high-frequency signal is supplied, for example, cos (l) t, to the input of a tunable circuit 1, and an eosilt modulating signal 25 to its control input from a modulating frequency generator 6, a signal modulated according to a complex law is obtained at the circuit output due to parametric modulation. 30 In the process of tuning, the signal passing through the amplitude detector 2, the first low-pass filter 3, the phase detector 4 and the second low-pass filter 5 tunes tunable ³⁵ circuit 1. to the desired frequency of the input signal s. Moreover, from the output of the phase * detector 7, generating a signal dependent on the phase difference at the input of the second tunable output circuit 1 ⁴⁰ le pos- filtering in the third filter 8 lowpass prepared chastotoyR voltage proportional to the detuning of a custom circuit 1 in the process of parametric modulation ⁴⁵ but inverse proportional to its bandwidth. The amplitude of this voltage is measured by a synchronous detector 9, then the signal passes through the fourth low-pass filter 10 and acts on the setpoint circuit 11, which subtracts some threshold voltage from the voltage applied to its input.

If the difference is positive, which indicates a decrease against the nominal bandwidth of the adjustable loop, a signal is generated that reduces its quality factor. If the difference is negative, the effect on the quality factor of the adjustable circuit is the opposite.

Thus, the use of the proposed device allows you to create a widely tunable electoral system using modern methods of drastically improving the quality factor, for example Q-multipliers, while maintaining a constant bandwidth regardless of the tuning frequency.

Claims (1)

The invention relates to radio engineering and can be used in radio transmitting and receiving devices. i. A device is known for automatically adjusting a circuit, comprising a series-connected tuning circuit, an amplitude detector, a first low-pass filter, a phase detector and a second low-pass filter, the output of which is connected to a control input of a tunable circuit, and to another input of a phase detector and to the manager. the input of the tuned circuit is connected to the generator of the modulating frequency. The operation of this device is based on the modulus of the reactive parameter of the loop and the determination of the response of the device to the modulating signal using the LlJ phase detector. However, in this device, when the input signal frequency changes over wide limits, the wave rg varies greatly. bandwidth customizable contour. The purpose of the invention is to stabilize the bandwidth of the tunable circuit at a wide range of its restructuring. This goal is achieved in that a known device for automatic loop tuning comprising a tunable loop in series, an amplitude detector, a first low pass filter, a phase detector and a second low Frequency filter, the output of which is connected to the control input of the tunable loop, and another input the phase detector and the control input of the tuned circuit are connected to the generator of the modulating frequency, additionally introduced between the output of the tunable loop and the control input Rovkov its Q series-connected additional phase detector filtrnizhnih third frequency, a synchronous detector, a fourth low-pass filter and the setting circuit, wherein vtoryevhody second phase detector and the synchronous detector are connected respectively to the input to the tunable filter and you go moduliruk Tsey oscillator frequency. On what (the same is the scheme of the proposed device. The device for automatic jia loop contains tunable loop I, amplitude detector 2, first low pass filter 3, phase jTeKTOp A, atoroy-fsh1tr 5 lower frequencies, generator 6 modulated often. additional phase detector 7 third low pass, synchronous detector 9i fourth low pass filter 1, setting circuit P. The device works as follows .. When applying a high frequency signal, for example cos cos t to the input of tunable circuit 1 and modulating eosSZt signal on its control input from oscillator 6 modulirukmtsey frequency at the output of the circuit due to parametric modulation signal is obtained, for about modulirovashshy complicated law. In the process of tuning, the signal that passed through the amplitude detector 2, the first low-pass filter 3, the phase detector 4 and the second low-pass filter 5 adjusts the tunable circuit 1. to the required frequency of the input signal s. At the output of the phase detector 7, I generate a signal, it hangs From the phase difference at the input and output of tuned circuit 1, after filtering in the third filter, 8 lower frequencies receive a voltage with a frequency L proportional to the detuning of tunable loop 1 in the process of parametric modulation and is proportional to its bandwidth. The amplitude of this voltage is measured by a synchronous detector 9, then the signal passes through the fourth low-pass filter 10 and affects the setting circuit 11, which subtracts some threshold voltage from the voltage supplied: to its input. If the difference is positive, indicating a decrease against the nominal bandwidth of the tuned loop, a signal is produced that reduces its quality factor. If the difference is negative, the effect on the quality factor of the tuned circuit is opposite. Thus, the use of the proposed device allows creating a selectively tunable selective system using modern methods of sharp quality factor, for example, Q - multiplication, while maintaining the bandwidth constant regardless of the tuning frequency. . Apparatus of the Invention A device for automatically adjusting a circuit, comprising a series-connected tunable profile, an amplitude detector first; a low-pass filter, a phase detector and a second low-pass filter, the output of which is connected to the control {input of the tunable circuit; the other side of the phase detector and the control input of the tuned circuit are connected to the other input of the phase modulator; so that, in order to stabilize the bandwidth of the tuned circuit with a wide range of its restructuring, it is up to. An additional input of the tuned circuit and an input for adjusting its quality factor were connected in series with an additional phase child, a third low-pass filter, a synchronous detector, a fourth low-pass filter, and a setpoint circuit, and the second inputs of the second phase detector and the synchronous detector are connected respectively to the input of filter and to the generator output modulated frequency. : Sources of information, / prii tiae into account when. examination 1. Kaganov V.I. Automatic control systems in radio transmitters. M.,. St. Bart, 1969, p. 166, fig. 6, 11 Sprotiotype).