SU603146A1 - Pulse signal time scale converter - Google Patents

Description

(54) TIME AND TIME CONVERTER PULSE SIGNALS

The invention relates to radio engineering and can be used in blocks for converting and inputting information into electronic digital computers, in multifunctional oscilloscopes and spectrum analyzers.

A time-scale converter of pulse signals containing a sweep | cialoscope is known, the output of the electronic switch is connected to the vertical-deflection plates, and the first adder is connected to the horizontal-deflector plates, the first adder is connected to one of the inputs, and the other is a horizontal readout generator, the second adder, the output of which is connected to the potentialoscope modulator, to one of the inputs of the second adder via the backlight pulse generator p One of the outputs of the vertical sweep generator is connected, and the other through the backlight pulse generator and recording is one of the outputs of the write cycle pulse generator, while the output of the backlight pulse and recording pulse generator is connected to the collector of the potentialoscope, a trigger pulse generator, whose input is connected to the video amplifier input, and the outputs are connected to the input of the pulse generator of the write cycle, to the first and second delay blocks, the horizontal sweep generator and the first control unit, the output of which The second is connected to the horizontal readout generator, the second output connected to one of the inputs of the second control unit, and the other input receives a signal from the first delay unit, while the output of the second control unit is connected to the first input of the electronic switch, the read pulse driver, whose input connected to the pulse generator of the write cycle, and the output to the vertical sweep generator, while another output of the vertical sweep generator through the first and second connected in series th delay units is connected to another input of the first control unit 1.

However, in a known converter, when switching a video signal and vertical scanning, mixing occurs, one relative to the other when the character and, consequently, the value of the constant component of the converted signals changes. This shift does not remain constant over time and leads to a decrease in the accuracy of the scale-time conversion of signals, a decrease in the utilization rate of the target square of the nomentilescope and a decrease in the dynamic range of the converted signals.

The aim of the invention is to increase the accuracy of the translation and increase the dynamic range of the converted signals.

For this, in the time-scale converter of pulse signals between the output of the video amplifier and the second input of the electronic switch, the first control latching circuit is turned on, the control input of which is connected to one of the outputs of the pulse generator of the write cycle pulse through the first generator of the electronic switch A second control latching circuit is connected, the signal input of which is connected to the vertical sweep generator directly, and the corner (}) input is via the second gene head of impulses.

The drawing shows the structural electrical circuit of the proposed converter.

The scale of the no-time transducer of pulsed signals contains a potentialoscope 1, the output of the electronic switch 2 is connected to the vertical-deflecting plates, and the first adder 3 is connected to the horizontal-deflecting plates, the horizontal scanner 4 is connected to one of the inputs, and to the other, a horizontal scanning oscillator 5, a second adder 6, an output connected to the modulator of the potentialoscope 1, and to one of the inputs of the BTopoio adder 6 through the imaging unit 7 they are connected to the backlight one of the outputs of the generator 8 vertical., and the other through the driver 9 pulses of light and recording - one of the outputs of the generator 10 pulses of the write cycle, while the output of the driver 9 is connected to the collector of the potentialoscope 1, the driver 11 triggering pulses, the input of which is connected to the input of the video amplifier 12, and the outputs are connected to the input of the generator 10, to the first and second delay blocks 13 and 14, to the generator 4 and the first control unit 15, the output of which is connected to the generator 5, the second, the output connected to one of the of the second control unit 16, to another input of which a signal was sent from the first delay unit 13, the output of the second control unit 16 is connected to the first of the inputs of the electronic switch 2, the read pulse driver 17, the input of which is connected to the generator 10, and the output - to the generator 8, while the other output of the generator 8 is connected through a series-connected blocks 13 and 14 to another input of the control unit 5. Between the output of the video amplifier 12 and the second input of the electronic switch 2, the first control latch circuit is switched on 18 ns, wherein a control input through a first generator of control pulses 19 is connected to an output of the generator 10, and a third electronic switch connected to the second input 2 managed by the scheme

fixings 20, the signal input of which is connected to the generator 8 directly, and the abutting input through the second generator 21 of control pulses.

The converter works as follows.

The signal after amplification by the video amplifier 12 is fed to the input of the controlled fixation circuit 18 and then through the electronic switch 2 in the recording mode is fed to the vertical deflection plates of the potentialoscope 1. The pulses generated by the generator 19, which is triggered by the generator 10, control the operation of the fixation circuit 18 between convertible signals, thereby setting a certain fixed voltage level at the output. In the same record, the saw-tooth voltage produced by the generator 4 under the influence of pulses received from the former 11 is fed to the horizontally deflecting plates of the potentialoscope 1 through the adder 3. Simultaneously, the modulator and the collector of the potentialoscope 1 receive the backlight and recording pulses generated by the imaging unit 9. The imaging unit 11 is controlled by incoming pulses of the video signal. At the end of the cycle, the output of which is set by the generator 10, the converter is automatically transferred to the read mode, while the leading edge of the pulse of the generator 10 starts the driver 17, which controls the generator 8, the output pulses of which go through the driver 7 and the second adder 6 to the potentialoscope modulator 1. A vertical sawtooth voltage through a control latching circuit 20 is applied to a second open input of the electronic switch 2. The generator 21 is started by the generator 8 at a time s pauses between sawtooth voltages and generates pulses controlling skhem.oy fixing guides 20, thereby fixing the scan at a certain level. In addition, the generator 8 through two successively connected blocks 13, 14 of the delay and blocks 15 and 16 controls the electronic switch 2 and starts the generator 5. The reset of the block 15, as well as blocks 13, 14, is carried out by pulses generated by the driver 11.

Claims (1)

1. USSR author's certificate No. 455507 KL..N 04 N 5/30, 1973.