SU473111A1 - Device for storing the amplitude value of a single pulse - Google Patents

Description

one

The invention relates to memory devices and can be used in measuring and computing equipment for storing and measuring the amplitude of a single electrical voltage pulse, as well as those values that can be converted to electrical voltage using appropriate sensors (radiation, pressure, etc.) .

Devices for storing the amplitude of a single pulse are known, comprising a transformer, capacitors, resistors and a semiconductor diode, the pn junction of which is a controlled capacitance. Under the action of a voltage pulse on a pn junction, its capacitance changes, resulting in an output signal. However, after the termination of the voltage pulse, the value of the p-junction capacitance returns to its original value, which was prior to the pulse, i.e. such a scheme does not allow to accurately remember the amplitude value of the pulse.

In order to preserve the capacitance change after the termination of the electric voltage pulse, i.e., improve the accuracy of storing the amplitude of the pulse, in the proposed device the semiconductor diode is made with a deep impurity in the pn junction, a switch is inserted into the device.

DC source and additional transformer. One output of the transformer primary winding is connected via the first constant voltage source to the middle point of the transformer secondary winding, and the other output to the capacitor, switch and through a parallel connected resistor and capacitor to one of the secondary leads of the transformer, the second output of which is connected through parallel the diode and the second constant voltage source are connected to the switch. FIG. 1 shows a diagram of a device for storing the amplitude value of a single electrical voltage pulse; in fig. 2 shows the dependence of the value of the pp junction capacitance on the reverse voltage and on the amplitude of the pulse; in fig. 3 shows the dependence of the output voltage after the end of the pulse on the amplitude of the pulse.

The device is a bridge circuit that is formed by the two halves of the secondary winding of a transformer 1, a semiconductor diode 2 with a deep impurity in the pp. a junction, as well as a linear capacitor 3 and a resistor 4, serving to balance the bridge. Transformer 5 serves to supply a measured voltage pulse to the diode. Switch 6 serves

for passing a direct current through the diode and then returning to the reverse voltage f /. The primary winding of the transformer 1 is supplied with alternating voltage. A reverse voltage f / is applied to the diode. The output voltage, bw, is removed from the diagonal of the bridge through separation capacitor 7.

Prior to the measurements, a direct current is passed through the diode, and then the reverse voltage f / is applied to the diode. After such a switch, the capacitance of the pn junction is equal to Sino. At this capacitance value, the bridge is balanced and the output voltage is zero. When a voltage pulse of a positive polarity with a VK amplitude is applied to the diode, the pn junction capacitance increases to C, and after the cessation of the pulse decreases to C. Moreover, C is less than Sno. The new value of capacitance C is also maintained for a long time. Before the new measurement, a direct current is passed through the diode, and then a reverse voltage is applied to the diode (memory is being erased). The difference Sn - C depends on the amplitude of the pulse (the latter must be less than the constant reverse voltage). The output voltage is a function of the difference Cn-C, i.e., the function of the amplitude of a single pulse Y ".

Subject invention

A device for storing the amplitude value of a single pulse, comprising

A transformer, capacitors, resistors and a semiconductor diode, characterized in that, in order to improve the accuracy of storing the amplitude of a pulse, the semiconductor diode is made with a deep impurity in

In addition, a switch, sources of direct voltage and an additional transformer are introduced into the device, one output of the primary winding of which is connected to the midpoint of the secondary winding of the transformer through the first source of constant voltage, and the other output to a capacitor, switch - and through a parallel connected resistor and a capacitor to one of the terminals of the secondary winding of the transformer, the second output of which is connected via a parallel-connected diode and the second constant voltage source ereklyuchatelem.

with i / l

Fig 2