SU145801A1 - Device for finding the discrete value of the extremum function - Google Patents

Description

Devices are known for finding the discrete value of the extremum of a function represented by electrical incidence with a zero-body for comparing the function under study with a compensating voltage (see, for example. Proceedures in h 06669 "Materials of preliminary prototyping of a voltage converter in ... Elements, 1960, p. 27).

The disadvantage of these devices is low measurement accuracy due to leakage resistance. In addition, devices require special amplifiers with high input impedance. The proposed device is devoid of the specified disadvantage. The essence of the invention is that the device is supplied with a source of step compensating voltage.

In this case, the pulse generator plays the role of a zero-organ and is connected to a counter, the output of which is connected to a source of stepped compensating voltage.

The drawing shows a schematic of the proposed device.

The device consists of a source / step compensation voltage (ACCR), controlled by a binary counter (SISKN) 2, and a null organ (BUT) 3, which compares the voltage under investigation with a compensation one.

The device uses a generating null-organ having two states: generation and non-generation. The zero-organ geker-iver and transmits pulses to the input of the counter (SISKN), when the measured voltage exceeds the compensating voltage.

If the measured voltage is less than or equal to the compensating voltage, then the null organ is locked and does not generate pulses. The compensating voltage does not change. As

No. 145801-2 of the step-compensating voltage source (ISCI) uses a circuit consisting of a chain of calibrated resistances R, RI, 2R, 4R of current regulators C1, C2, C3, made in the form of emitter followers, and diode switches D1, D2, DZ ...

The source (CLAIM) is powered by a stable voltage U.

Stabilizers С /, С2, СЗ .... create equal in size and stable currents. Depending on the state of the meter triggers (SISKN), the key diode circuits D /, D2, DZ .... are either positive or negative potentials. When applying positive potential, the diodes D1a, D2a, DZa .. are locked, and the diodes D1b, D2b, DZb .... -open, and stable currents flow through the calibrated resistances.

When negative potentials are applied, diodes D1b, D2b, DZb ... are locked, and currents ne are fed into the chain of the indicated resistances. A voltage drop, proportional to the counter code (CR), is created on the resistance circuit of the R, R, 2R, 4R ... source (CIP).

The operation of the device as a whole is as follows.

Before the measurement is started, an impulse is applied to the input about the counter (SISKN), which sets the counter to the zero state. At the same time, from the outputs of the G /, T2, TZ ... counter triggers, negative potential is supplied to the key diode source circuits (DED). The compensating voltage at the output of the source (SCR) is zero. If, in this case, the measured voltage is greater than zero, then the nullorgan is excited and sends pulses to the input of the counter (SCUSK). Triggers of the counter (SUSKN) are triggered. The counter code is incremented. The compensating voltage also begins to increase in separate steps, and when it becomes equal to the measured voltage, the null organ stops generating pulses. As the test voltage decreases, the generation voltage does not occur and the highest signal value is stored in the meter.

The code characterizing the value of the extremum (the largest signal) is removed from the outputs of the counter triggers. The continuous value of the largest magnitude of the signal under study can be removed from the output of the source of the compensating voltage (CLI).

For reliable operation of the device, it is necessary that the frequency of the pulses generated by the null organ be higher than the frequency of the process under study.

A distinctive feature of the device is the possibility of obtaining a discrete (digital) representation of the result for automatic data input into a digital computer.

Subject invention

A device for finding the discrete value of the extremum of a function represented by an electric voltage with a zero-body for comparing the function under investigation with a compensating voltage, characterized in that, in order to improve the measurement accuracy, it used a source of step-equalizing voltage and the zero-body was made in the form of a pulse generator connected to a meter, the output of which is connected to a source of stepped compensating voltage.