SU809475A1 - Sweep generator - Google Patents

Description

one

The invention relates to radio engineering and can be used in measurement technology.

A known oscillating frequency generator comprising a series-connected first trigger, a control voltage driver, a control generator, a matching amplifier, a first filter, a first frequency detector and a first threshold device, the output of which is connected to the first input of the first trigger, are connected in series to the second filter, the second a frequency detector and a second threshold device, a third filter connected in series, a third frequency detector and a third threshold device, as well as an analog key h, the output of which is connected to another input of the control voltage generator, while the input of the second filter is connected to the output of the matching amplifier, and the output of the second threshold device is connected to the second input of the first trigger

eleven.

However, such a generator does not provide regulation of the frequency sweep rate anywhere in the working range.

The purpose of the invention is to provide control of the swing speed.

The goal is achieved by the fact that the oscillator frequency generator

containing in series the first trigger, the control voltage driver, the controlled oscillator, the matching amplifier, the first filter, the first frequency detector

and the first threshold device, the output of which is connected to the first input of the first trigger, the second filter connected in series, the second frequency detector and the second threshold

a device connected in series to a third filter, a third frequency detector and a third threshold device, as well as an analog switch whose output is connected to another input of the control voltage driver, while the input of the second filter is connected to the output of the matching amplifier, and the output of the second threshold device is connected with the second entrance

Claims (1)

of the first trigger, a digital-to-analog converter is inputted, the output of which is connected to the input of an analog switch, between the outputs of all threshold devices and the control input of the analog switch are entered a series-connected reversible counter and a second trigger, between the output of the matching amplifier and the input of the third filter a controlled frequency divider is entered, the code output of the reversible counter is connected to the input of the digital-to-analog converter and to the control input of the controlled frequency divider, and the setting input The first and second triggers, as well as the reversible counter, are connected, and their connection point is the installation input of the sweep frequency generator. The drawing (e is given a structural electrical circuit of the proposed generator. The generator contains triggers 1 and a control voltage driver 3, a controlled generator 4., a matching amplifier 5, filters 6, 7 and 8, frequency detectors 9, 10 and 11, threshold devices 12, 13 and 14, analog key 15, digital-to-analog converter (D / A converter) 16, reversible counter 17 and control of frequency divider 18. The proposed generator works as follows. After supplying the voltages with the installation signal from the installation bus, trigger 1 is installed l the increasing voltage from the output forms the voltage of the generator corresponding to the increase in the output frequency of the controlled oscillator 4, trigger 2 - the closed position of the analog switch 15 and the reversible counter 17 the division ratio of the controlled divider 18, equal to 1 (2). the reversible counter 17 is set to Summing mode. The output frequency of the controlled generator 4 increases from its minimum value to a frequency corresponding to the transparency zone of the filter 8, at a speed determined by the ramp of the shaper 3, and the saw steepness depends on the voltage set in the driver 3 and on the output voltage of the DAC 16. When the frequency of the controlled oscillator 4 falls into the transparency zone of the filter 8, resonant oscillations occur in it, which after detection The detector 11 enters the threshold device 13. When the detected voltage detects a response level, the threshold device 13 generates a pulse signal that changes the code at the output of the reversible counter 17. The division ratio of the control .uvelichivaets divider 18, t.e.filt 8 together with the controllable divider 18 has a resonant hdvoennuyu h | Toth, which corresponds to the lower boundary of the subband of the second program from Menenius wobble speed. At the same time, flip-flop 2 is moved, opening the analog switch 15, and the voltage from the output of the D / A converter 16 changes the speed of the frequency swing, i.e. from the resonant frequency of the doubled resonant frequency of the filter 8, the frequency sweep rate changes. A further increase in the frequency leads to a further increase in the division ratio of the controlled divider 18 and to a further change in the output voltage of the DAC 16 until the entire reversible counter 17 is filled, those. All nporpaNMa does not end, and trigger 2 is reset by the signal from the output of the last bit of the reversing counter 17, closing the analog switch 15. Next, the frequency of the controlled oscillator 4 increases with the initial speed set in the shaper 3 to the value corresponding to the resonant frequency of the filter 6 adjusted to the upper limit of the swing range. And when a signal with a frequency coinciding with the transparency zone of filter 6 arrives from the controlled oscillator 4, resonance oscillations occur in it, which after detection by the frequency detector 10 enters the threshold device 12. When the detected voltage reaches the trigger level, the threshold device 12 produces a pulse signal which transfers the trigger 1 to another state, and the driver 3 begins to generate a linearly-falling voltage, and the frequency of the controlled oscillator 4 decreases. With the same signal from the threshold device 12, the reversible counter 17 is switched to the Subtraction mode. When the frequency of the controlled oscillator 4 coincides with the frequency corresponding to the upper boundary of the last subrange of the programmed changes (when reversed, the code of the reversible counter 17 does not change, i.e. the output voltage of the DAC 16 and the maximum division factor remain unchanged), the division ratio of the controlled divider 18 after the triggering of the threshold device 13 decreases and becomes equal to the previous maximum division factor, and the code of the reversible counter 17 sets the output voltage of the DAC 16, corresponding to vuyuschee wobble speed frequency subband in the last program, the output of the first discharge needs to trigger 2 in the conductive state gshalogovy key 15 and so on until all the content ends down counter 17 is not performed and the program entirely. Filter 7 is set to the lower limit of the swing range. With a decrease in the frequency of the controlled oscillation and the frequency of the controlled oscillator 4 to its resonance and the triggering of the threshold device 14, the trigger 1 is moved to its original position, and the oscillation cycle repeats. In the proposed generator, the speed of the swing is controlled. The claims of the oscillating frequency generator, containing the first trigger connected in series, the control voltage driver, the control oscillator, the matching amplifier, the first filter, the first frequency detector and the first threshold device, the output of which is connected to the first input of the first trigger, are successively connected to the second filter , the second frequency detector and the second threshold device, the third filter connected in series, the third frequency detector and the third threshold device, as well as the analogue A new switch, the output of which is connected to another input of the control voltage driver, while the input of the second filter is connected to the output of the matching amplifier, and the output of the second threshold device is connected to the second input of the first trigger, in order to to control the swing speed, a digital-to-noise converter is inserted into it, the output of which is connected to the input of the analog switch, between the outputs of all threshold devices and the control input of the reverse switch is entered in series a reversible counter and a second trigger, between the output of the matching amplifier and the input of the third filter, a controlled frequency divider is entered, the code output of the reversible counter is connected to the input of the D / A converter and to the control input of the controlled frequency divider, and the installation inputs of the first and second triggers, and the reversible counter is connected, and their connection point is the installation input of the sweep frequency generator. Sources of information taken into account in the examination 1. USSR author's certificate 573849, cl. H 03 H 23/00, 1976 (prototype). ,