SU561972A1 - Impulse Simulator - Google Patents

Description

one

The invention relates to analog computing and may be used when testing equipment for home protection.

Apparatus for simulating impulse noise are known, comprising the apparatus under study, the power source, the control pulse generator, the switch and the shunt device 1.

In such a device, the simulated interference is not localized and goes to the power source of the studied equipment, which distorts the evaluation of the noise immunity of the hardware. In addition, in view of the serial connection of the additional power source and the equipment under study, at the time of simulating the interference to the additional source of power, it is necessary to provide instantaneous power while setting the voltage of the iomekhi.

The closest technical solution to this invention is a device for simulating impulse noise, containing a filter, the inputs of which are connected to a source of threading voltage, and the outputs through isolating capacitors are connected to a load resistor and to an output of a storage device connected to an additional power supply source 2.

The disadvantages of such a device include the ability to simulate only exononendal pulse pulses and the lack of HJiaBHoii for adjusting the pulse duration, as a result of which the reliability of the estimate of the noise immunity of the test apparatus is reduced.

The aim of the invention is to generate pulses of interference of a rectangular shape with

smoothly adjusting the duration of the imiuls and, therefore, expanding the field of application of the device.

This is achieved by the fact that the proposed device additionally contains a generator

control pulses and a thyristor driver for immersions, three outputs of which are connected respectively to the accumulator outputs and the load resistor, and two control inputs are connected

to the generator of control pulses.

The drawing shows a diagram of the proposed device.

It contains a source of iitelnoe voltage 1, filter 2, the studied equipment

3, separation capacitors 4 are optional; its source is China, 5, accumulator 6, which depletes the accumulation of electrical energy, a load resistor 7, a thyristor driver 8 of the duration of impulses (piezoelectric pulses) and a generator 9 of control pulses, providing control of impulse output.

In the initial state, the capacitor 10 of the storage unit 6 is charged up to the voltage of the additional power source 5, the thyristors 11 and 12 of the driver 8, which includes resistor 13, are closed. To generate a simulated interference pulse, the pulse from the first output of the generator 9 is fed to the control electrode of the thyristor 12. The thyristor 12 opens, forming the leading edge of the pulse on the load resistor 7. The capacitor 10 of drive 6 begins to discharge through the open generator circuit 12. When a pulse arrives from the second output of the generator 9 to the control electrode of the thyristor 11, the latter opens to shunt the storage capacitor 10. The capacitor 10 is discharged by firing on the load resistor 7 at the rear edge of the pulse. The magnitude of the delay between the pulses from the outputs of the generator 9 is continuously adjustable and determines the duration of the pulse being formed. The resistance of the resistor 13 of the drive 6 is chosen such that the amount of current flowing through it is less than the holding current of the thyristors 11 and 12 in the open state, as a result of which the circuit returns to its original state.

When another pair of pulses arrives, the pulse generation cycle repeats. The repetition rate of the pulse shaping cycles is determined by the generator 9.

A device for simulating impulse noise makes it possible to test electronic equipment for noise immunity with increased reliability of estimating the noise immunity of the equipment under study by simulating square-wave interference with a smooth adjustment of the pulse duration.

Claims (2)

1. USSR author's certificate No. 260291, M. Kl.2 G 06G 7/48, 1968. 2.Samuytis, V.P., et al., Impulse noise simulator, Sat. “Interference in digital technology-71, Vilnius, 1971, pp. 237-239 (prototype). Iijl