SU729838A1 - Converter - Google Patents

Description

The invention relates to a pulse technique and can be used in the technique of magnetic recording and telemetry.

Known decoder series of pulses, converting pulses into binary code containing a source of linearly increasing voltage, which is reset to zero with each incoming pulse fl]

The conversion accuracy of this converter is not high enough.

The converter closest in technical essence to the proposed invention contains a storage capacitor connected to the input of the comparison element and to the output of the current generator, a switch, the input of which is connected to the output of the shaper, and a switch switching the inputs of the comparison element and the shaper. The converter comparison circuit is made on the current switch ·, consisting of two transistors, and when the frequency is converted to voltage, the circuit operates as a peak detector {2}.

However, such a converter has a relatively small region of operating frequencies when converted to an analog SKPI. 1.

The purpose of the invention is improving performance,

This is achieved by the fact that in the converter containing the storage capacitor connected to the first input of the comparison element, to the outputs of the current generator and the switch, the driver and the two-position switch, an analog storage device, an off unit and a delay element, the input of which is connected to the output, are additionally introduced the shaper, and the output is with the control input of the switch, the input of the shutdown unit is connected to the output of the shaper, and the output is with the current generator, the input of the analog storage device is connected n with a second input of the comparison element and the switch, and a control input - with the output of the in one of rely Nij switch input inverter connected to the input of the analog storage device and output the comparison element - to the input of generator, and a second state input connected to A converters ₅ with the input of the shaper, and the output of the comparison element with the input of the analog storage device.

The drawing shows a functional electrical diagram of the Converter. О The converter contains a storage capacitor C, a comparison element 1, a current generator 2, a shaper 3, a current generator shutdown unit 4, an analog storage device 5, ¹⁵ a delay element 6 and a switch 7.

The converter operates as follows.

When converting voltage to frequency, the switch is in the upper 20 position and the signal from the input of the converter enters through the switch to one of the inputs of the comparison element 1. The second input of the comparison element is connected to a storage capacitor; ^25th is charged from a current generator 2. At the instant when the voltage across the capacitor becomes equal to the input voltage, the comparison unit generates a pulse which through Tel SWITCH ³⁰ is input to the shaper 3. The output of pulse shaper via unit 4 turns off the current generator is supplied to the control input of the analog storage device 5, whereby the input voltage is memorized and triggers the delay element 6. The delay element produces a pulse which after closure memorization process com- ⁴⁰ opens Tatorey 7 and through it discharges storage capacitor. In this case, the comparison element returns to its original state, and the process repeats. The output signal is taken from the element ⁴⁵ za- Derzhko. When converting the frequency to voltage, the switch is turned to the lower position, and the signal from the input goes to driver 3. When working in this mode, the comparison element 1 works as a repeater, and the output voltage is equal to the voltage on the storage capacitor. When a pulse appears at the output of the shaper, the current generator 2 is turned off for the duration of the action of this pulse ⁵⁵ , the voltage on the capacitor stops growing, the storage device 5 remembers this voltage. The delay element generates a pulse, which opens the switch 7 and through it discharges the storage capacitor. The output signal is removed from the storage device. In this case, the output voltage of the converter is proportional to the time between the moment the switch 7 closes after the pulse ends at the output of the delay element and the current generator turns off when the next pulse arrives at the input of the converter, i.e. in proportion to the period of the incoming signal.

Claims (2)

(54) CONVERTER The invention relates to a pulse technique and can be used in magnetic recording and telemetry techniques. A series of pulses decoder converts pulses into a binary code containing a source of a naturally increasing voltage, which is reset to zero with each incoming pulse. The conversion accuracy of this converter is not high enough. The closest in technical essence to the proposed invention is a converter containing a storage capacitor connected to the input of the element comparing to the output of the current generator, a switch that is connected to the output of the driver, and a switch that switches the inputs of the element comparable to the generator. The converter comparison circuit is implemented on a current switch consisting of two transistors, and when converting frequency to voltage, the circuit operates as a peak detector 2}. However, such a converter has an OTHOCHTuibHO small operating frequency range when converted to analog. The purpose of the invention is to increase the speed. This is achieved in that the converter containing the storage capacitor connected to the first comparison input, the outputs of the current generator and the mutator, the driver and the two position switches, additionally introduces an analog storage device, an output unit and electrical Zadhermsro mount, the input of which is connected to the output of the formatter, and the output from the control input of the switch, the input block of the output connection of the connectors to the output of the imaging unit, and the output - to the current generator, the analog input A new memory device is connected to the second input of the element and a switch, and the input is connected to the output of the driver, in one of the switches the input of the converter is connected to the input of the analog storage device and the output of the comparison element is connected to the input of the converter, and in the second, the converter input is connected with the input of the imaging unit, and the output of the comparison element - with the input of the analog storage device. The drawing shows the functional circuit of the converter The converter contains a storage capacitor C, comparison element 1, current generator 2, formatter 3, current generator off unit 4, analog memory 5, delay element 6 and switch 7. The converter works as follows. When converting the voltage to the clock, the switch is in the upper position and the signal from the transducer input goes through the switch to one of the inputs of the reference element 1. The second input of the reference element is connected to an input capacitor which is charged by the current generator 2. At the moment when the voltage on the capacitor becomes equal to the input voltage, the comparison element expires a pulse, which through the switch enters the input of the forkshrovatel 3 C from the forcing device, the impulse through the off unit 4 turns off the current generator, enters the control input of the analog storage device, the input input is memorized w, and triggers delay element 6. The delay element gives an impulse, which, after the end of the memorization process, disconnects the switch 7 and through it discharges the storage capacitor. In this case, the comparison element returns to its original state, and the process is repeated. The output signal is taken from the delay element. When converting the frequency to voltage, the switch is shifted to the 1st position and the signal from the input goes to the shaper 3. When J is running in this mode, the reference element 1 works as a repeater, and the output voltage is equal to the voltage on the storage capacitor. When the pulse is left at the output of the driver, the current generator 2 is turned on for the duration of this pulse, the voltage on the capacitor stops growing, and the memory 5 remembers this voltage. The delay element generates a pulse, which opens the switch 7 and through it discharges the storage capacitor. The output signal is taken from the memory. At the same time, the output voltage of the converter is proportional to the time between the closing time of the switch 7 after the pulse stops at the output of the delay element and the current generator turns off at the moment the next pulse arrives at the converter L input, i.e. proportional to the period of the incoming signal. Claims of Invention A converter comprising a storage capacitor connected to the first input of the reference element to the outputs of the current generator and the switch, a driver and a switch for two positions, characterized in that, in order to improve speed, an analog storage device, a switch-off unit and an element are introduced in neixi delays, the input of which is connected to the output of the imager, and the output to the control input of the switch, the input of the switch-off unit is connected to the output of the formatter, and the output to the current generator, an input the storage device's log is connected to the second input of the comparison element and the switch, and the control input is connected to the driver output, in one of the switch positions the converter input is connected to the analog storage device input and the output of the element compares to the driver input, and in the second position the converter input is connected to the driver input, and the output of the comparison element - with the input of the analog storage device. Sources of information received during the examination 1. Japanese Application No. 51-35104, cl. N OZ K 9 / O6, 1976. 2. USSR author's certificate. No. 415799, cl. H 03 K 13/02, 31.O8..71 (prototype). 08h. 0 Sux. j