SU1095373A1 - Pulse voltage converter - Google Patents

Abstract

PULSE VOLTAGE CONVERTER containing diode-tranistor. A regenerative amplifier, in the collector circuit of which a first winding of a pulse transformer is connected, to the second winding of which a first diode 6-capacitor converter is connected, which through a control voltage source is connected to the first output of the third winding of a pulse transformer, parallel to the second one of which is connected to the first diode, the second the output of the third winding through the second diode is connected to the input of the device, characterized in that, in order to increase the conversion accuracy, a resistive divider is inserted into it , one arm of which is connected to a nonlinear resistance element, an adjustable integrator, a fourth winding of a pulse transformer and a second diode-capacitive converter, while a resistive divider is connected to the first diode-capacitive converter, and the mid-point divider is connected to a control voltage source, adjustable integra -3 rator is connected between the second output of the third winding and the second diode, a second diode-capacitance converter is connected to the fourth winding of the pulse transformer, you the run of which is connected to the first load, and the second load is connected directly to the fourth winding.

Description

The invention relates to a pulse technique and can be used as a converter of a pulse voltage to a constant and a pulse frequency for solving problems of measuring and computing equipment where, in particular, a sufficiently high conversion accuracy, sensitivity to magnitude and selectivity to the duration of the input pulse signals, and the ability to work in linear mode in a wide dynamic range of input signals. Converters of a pulse voltage to a constant voltage and a pulse frequency are known, which contain diode-regenerative amplifiers, sources of reference voltages, diodes and pulse transformers 1. However, they are complex and do not have sufficiently good threshold characteristics and characteristics of conversion {low sensitivity , accuracy, dynamic range of input and output signals, insufficient selectivity to the input useful signal, ie, low noise immunity of the converter, etc.). The closest to the invention to the technical essence is a pulse voltage converter containing a diode-transistor regenerative amplifier, in the collector circuit of which a first winding of a pulse transformer is connected, to the second winding of which a first diode-capacitive converter is connected, which through a control voltage source connected to the first output of the third winding of the pulse transformer, in parallel to the terminals of which the first diode is connected, the second output of the third winding through the second The diode is connected to the input of the device 2. The disadvantage of this converter is the dependence of its output parameters and some characteristics, for example, the time constant, on the magnitude of the load, which is usually connected to the output of the diode-capacitor converter. The sensitivity and selectivity to the duration of the input pulse signals, as well as the stability of the threshold level and the interference protection of this converter, are also insufficient. This leads to a decrease in the dynamic range of the input and output signals of the device. The purpose of the invention is to increase the accuracy of the conversion, as well as improve the input and output characteristics by increasing the sensitivity to the useful trigger signal, the stability of the threshold level, and the widening of the dynamic range of the input and output signals. The goal is achieved by the fact that a pulse voltage converter containing a diode-transistor regenerative amplifier, in whose collector circuit a first winding of a pulse transformer is connected, to the second winding of which a first diode-capacitive converter is connected, which is connected to the first through a voltage source the output of the third winding of the pulse transformer, parallel to the terminals of which the first diode is turned on, the second output of the third winding is connected via the second diode to the input y devices, a resistive divider is inserted into it, one arm of which contains a nonlinear resistance element, an integrator regulator, a fourth winding of a pulse transformer and a second diode-capacitor converter, while the resistive divider is connected to the output of the first diode-capacitive converter, and the midpoint of the divider is connected to a source of control voltage, an adjustable integrator is connected between the second output of the third winding and the second diode, and the fourth winding of a pulse transformer connected On the second diode-capacitive converter, to the output of which the first load is connected, and the second load is connected directly to the fourth winding. The drawing shows a diagram of a pulse converter. The pulse voltage converter contains input 1 of the device, diode 2, adjustable integrator 3, diode 4, pulse transformer 5 with four windings, diode-regenerative amplifier b, diode-capacitive transducer; , converters 7 and 8, resistive divider 9, nonlinear element 10, control source 11 11, loads / loads 12 and 13. The pulse voltage converter works as follows. A pulse voltage and, for example, of negative polarity with a pulse duration t and a repetition rate f; If the relation where K is the gain factor, taking into account the transmission of a positive feedback circuit, the converter circuit is started, generating at the outputs of the amplifying element pulses of the corresponding polarity, constant amplitude and sensitivity. The frequency of start-ups of the diode-regenerative amplifier b before the entry into action (or in the event of an interruption) of the negative feedback circuit is equal to the frequency of the trigger pulses. With growth. the number of start-up pulses grows and the voltage at the output of the diode-capacitive converter 7. This voltage, together with the voltage from source 11-directing voltage, flows through diode 4 and integrator 3 in the form of voltage UJ to a switching nonlinear element - diode 2 When E - T-OM if the matching Oi is satisfied. and, (K-1) (E.), then the diode-regenerative amplifier b no longer starts, as the positive feedback circuit is again interrupted by diode 2. From this point on, the circuit begins to monitor the value of the input signal. The output voltage taken from the output of the second diode-capacitive converter 8 to the load 12, 13 as well as the average frequency of the amplifier starts linearly depends on the level of the input signal. The technical and economic efficiency of the converter consists in improving its thresholds Lx characteristics (increasing the sensitivity of the threshold level, noise immunity), as well as the conversion characteristics (increasing the accuracy, expanding the dynamic range on the input and output signals, 1, practically excluding the dependence on the resistance of the information consumer) compared to the prototype . At the same time, the simplicity of the circuit and constructive solutions, efficiency and reliability in operation are preserved. The device can be used as a converter for the value of a pulse voltage to a constant and a pulse frequency, a frequency divider, a pulse voltage meter, an indicator, in analog and digital integration devices, etc.

Claims (1)

A PULSED VOLTAGE CONVERTER containing a diode-transistor. Regenerative amplifier, in the collector circuit of which is included the first winding of a pulse transformer, the first converter is connected to the second winding of which is the nickname of the control with the first output of the pulse transformer, the diode-capacitive parallel. which through the voltage source is connected to the third winding is connected to the input and the increasing accuracy is introduced to it, the reno of which the first diode is turned on, the second output of the third winding through the second diode of the device, so that, in order to convert into a resistive divider, one shoulder which includes a nonlinear resistance element, an adjustable integrator, a fourth winding of a pulse transformer and a second diode-capacitive converter, while the resistive divider is connected to the output of the first diode-capacitive pre of the divider, and the mid-point of the divider is connected to the control voltage source, an adjustable integrator g is connected between the second output of the third winding and the second diode, the second diode-ζ capacitive converter is connected to the fourth winding of the pulse transformer, the first of which is connected to the output load, and the second load is connected directly to the fourth winding. ---- ^R SO SP 00 * 4>