SU1067602A1 - Adjustable generator with external synchronization - Google Patents

Abstract

A PERFORMABLE SYNCHRONIZABLE GENERATOR, containing a ring-connected voltage controlled oscillator, a frequency divider, a pulse-phase detector, the other input of which is a clock signal input, a key and a low-pass filter, and that, in order to increase the signal-to-noise ratio when the frequency tuning was briefly stopped, it included in series the frequency tuning sensor of the synchronizing signal and the delay line, the output of which is connected to the control input of the key. p o) oe

Description

The invention relates to electronics and can be used in the design of high-quality electronically controlled measurement generators. Synchronized generators are known in which pulse phase-locked loop (IFAP) devices are used, which are made in a ring pattern and contain a voltage controlled oscillator (VCO). a frequency divider, a pulse phase detector, and a filter, and a sync pulse l is applied to the second input of the pulse phase detector. The inclusion of a frequency divider makes it possible to extend the range of the frequency in which synchronization is performed. However, in this device, due to the imperfection of their constituent elements, in particular, a pulse-phase detector, a filter and a frequency divider, an IFAPH device, ensuring accurate tracking of the VCO for the synchronization frequency, sounds for the noise and modulation parameters of the VCO, in particular background noise, parasitic frequency deviation. Distortions can be reduced by increasing the filter order, but this causes a decrease in the stability of the device. Closest to the invention is a tunable synchronized oscillator, containing a ring-coupled oscillator, a voltage controlled oscillator, a frequency divider, a pulse phase detector, the other input of which is a synchronization signal, a key and a low-pass filter .2, A disadvantage of the known tunable synchronized oscillator is the small signal-to-noise ratio with a brief termination of the frequency tuning. The purpose of the invention is to increase the signal-to-noise ratio when a short term frequency tuning is stopped. The goal is achieved in that a tunable clock generator containing a ring-connected VCO, a frequency divider, a pulse-phase detector, the other input of which is an ELECTRONIC clock signal, a key and a low-pass filter, is connected in series with a clock frequency tuning sensor and delay line , the output of which is connected to the control input of the key .. The drawing shows a block diagram of a tunable synchronized generator. The tunable synchronized generator contains a NCO 1, a divider 2 frequencies, a pulse-phase detector 3, a key 4 and a low-pass filter 5, a delay line 6, a synchronization signal frequency sensor 7, an input 8 of the clock signal. The sensor frequency can be performed in various ways. Its specific implementation depends on the signal parameter or the design of the receiver tuning organ. This can be a button or a comparator, if the varicap is used as the source tuning element of the signal, while the control voltage from the receiver varicap is fed to one input of the comparator through the circuit with a large time constant, and to the second input is the same voltage circuit with a small time constant. In this case, the output of the frequency tuning sensor will be either one or zero, depending on whether the voltage changes on a varicap, i.e. whether the frequency of the synchronization signals or not. The adjustment element can also be made in the form of a variable capacitor, or in the form of a ferrovarometer. Tunable synchronized generator operates as follows. When the frequency of the measured receiver is tuned, the frequency of the clock signal at input 8 changes, from the frequency adjusting sensor 7, while the key 4 receives the corresponding signal, for example, unit, the key 4 is closed. Therefore, the VCO is tuned to the synchronization frequency. When stopping frequency tuning, t.e. during the measurement cycle of the parameters of the predator from the frequency tuning sensor 7, through the delay line 6, which delays the signal for the transient establishment time, a corresponding signal is sent to the key 4, the key 4 is disconnected, and at the output of the VCO the voltage corresponds to the voltage of the end of the synchronization cycle. At the end of the measurement process, the receiver frequency tuning (synchronization) begins, therefore, key 4 closes, the phase-locked loop process is resumed, which ensures the necessary synchronization accuracy of the VCO.

The time during which key 4 is open is determined by the monitoring time of the receiver parameters, which takes fractions of a second, so in the main device, the key 4 is closed and softens only when the tuning is stopped, while the frequency of the VCO remains unchanged, and by turning off the divider frequencies and other sources of interference modulation

characteristics of the generator are improved, while when the key is opened, the frequency of the VCO changes slightly.

Thus, the proposed tunable synchronization generator, if used in a measuring generator, can improve the signal-to-noise ratio when the frequency tuning is briefly stopped while the signal-to-noise ratio is 60 lB.

Claims (1)

TUNABLE SYNCHRONIZED GENERATOR, comprising a voltage-controlled oscillator, a frequency divider, a pulse-phase detector, the other input of which is an input of a synchronizing signal, a key and a low-pass filter, about. The reason is that, in order to increase the signal-to-noise ratio when the frequency tuning is stopped for a short time, it includes a frequency tuning sensor for the synchronizing signal and a delay line, the output of which is connected to the control input of the key. _with <g ω