SU525970A1 - Relay square converter - Google Patents

Description

The invention relates to computing devices and can be used in enhancement machines.

One of the known quadrants of the pulse-type time contains a reversing modulator, a magneto-transistor multivibrator, an operational amplifier. This device has low noise immunity. L

The closest technical solution to the proposed device is a quadratic switching transducer containing serially connected input integrator, relay element, key amplifier and output amplifier. Feedback scaling resistor 2 is connected between the output of the relay element and the input of the input integrator.

This device also has a relatively low noise immunity, due to the possibility of passing the interfering signal simultaneously with the useful one without significant attenuation.

In order to increase the noise immunity, an additional integrator, a DC voltage driver and a limiting unit, the output of which is connected to the key amplifier output, are added to the proposed quadratic relay converter, the output of the additional integrator is connected to the control input of the DC voltage driver and the relay element output.

The drawing shows a functional diagram of the proposed quadratic relay converter.

The device contains an input integrator relay element 2, a scaling feedback resistor 3, an additional NLF integrator 4, a key amplifier 5, a constant voltage driver 6, a limiting unit 7, an output amplifier 8.

The device works as follows.

Claims (2)

The series-connected input integrator 1 and the relay element 2, covered by feedback through the mass-stabilizing resistor 3, form a self-oscillating link. The output voltage of the relay element 2 is a pulse of opposite polarity, constant in amplitude. The switching of the relay element occurs when the voltage at its input is equal to the response norm. In the absence of an input signal, the duration of the negative and polar impulses of the output voltage of the relay element 2 is the same. The average value of this output voltage over a period is zero. If there is an input useful signal, the rate of change of the output voltage of input integrator 1 in the interval of coincidence of the characters of the input signal voltage and the output of the relay element 2 will be determined by the sum of the input signal and feedback currents, and the interval of the mismatch of these voltages, the signal at the output of the input integrator 1 will be determined by the difference of the currents of the input signal and feedback. As a result, the average value over the period of the output voltage of the relay element 2 is set proportional to the input signal. The additional integrator 4 allows the DC component of the output voltage of the relay element 2 to be selected, which is fed to the input of the DC voltage generator 6. The limiting unit 7 limits the amplitude of the output to the voltage of the key amplifier 5 at a level proportional to the input signal of the device. When the pulse duration at the output of key amplifier 5 changes and at the same time limiting their amplitude at a level proportional to the input voltage of the converter, a voltage equal to the square of the input signal arrives at the input of the output amplifier 8. The low input impedance of the DC voltage driver 6 with respect to the interference signals, achieved by including an additional integrator 4, made it possible to reduce the level of the parasitic signal at the input of the output amplifier 8, which increased the noise immunity of the device. Claims of the invention A relay quadratic converter containing a series-connected input integrator, a relay element, a key amplifier and an output amplifier, between the output of the relay element and the input of the input integrator, includes a feedback scaling resistor, which also in order to improve noise immunity, an additional integrator, a DC voltage driver and a limiting unit, whose output is connected to the output of a key amplifier, are introduced into it; The operator, the input of the additional integrator, is connected to the control input of the constant voltage driver and the output of the relay element. Sources of information taken into account during the examination: 1. USSR author's certificate No. 4537О2 MKI G On (7/16 of 08.06.73. 2.V. B. Smolov Analog Computing Systems, above. High School, 1972, pp. 338-344, fig. 28 (prototype). %