SU547777A1 - Extremum pointer - Google Patents

Description

The invention relates to electronic engineering and can be used to generate pulsed signals, the temporal position of which corresponds to the moments of passage of a sinusoidal signal of extrinsic values.

A pointer of the extremum of a sinusoidal signal is known, which contains reversible pulse counters, direct and reverse counting keys, and a reference generator, which is part of the phase meter. It is characterized by the complexity of the circuit.

An extremum pointer is known that contains a DC amplifier whose input is connected to a parallel-connected discharge switch and a storage capacitor, one plate of which is connected to a constant voltage source through a limiting resistor and charging switch, and a control unit connected to the control inputs keys.

In this extremum indicator, the output pulse is generated at the time of changing the sign of the derivative of the input signal. Followed

The fact that in the range of infra-low frequencies (fractions of a hertz) the rate of change of the signal during the transition of the S1 with the extreme signal sousoidal signal is very small, the moment of locking the key. The DI diode is not stable over time. This causes the low accuracy of the known device when used in the ultra-low frequency range.

The purpose of the invention is to increase the accuracy of work in the range of infra-low frequencies.

Claims (1)

This is achieved by the fact that the extremum pointer contains a comparator, a resistor voltage divider and an analog storage unit, the input of which is connected to the output of a DC amplifier and one of the comparator inputs, and the output of the analog storage unit is connected to another comparator input through a resistor divider, the input of the control unit is connected to the input source, and its pulse output is connected to the control input of the analog storage unit. FIG. 1 shows a diagram of the proposed device; in fig. 2 - voltage diagrams at various points of the device. The extremum indicator contains a storage capacitor 1, a charging switch 2 and a discharge switch 3, a DC amplifier 4, an analog storage unit 5, a comparator 6, a resistor voltage divider 7 on resistors 8, 9, a control unit 10 that includes a comparator 11 waiting multivibrator 12, inverter 13, diodes 14, 15, and 16 and limiting resistor 17. The extremum indicator works as follows. When a sinusoidal signal of an infra-low frequency arrives at the input of the device (see Fig. 2, a, where UQ is a constant component contained in the input signal), rectangular pulses are formed at the output of comparator 11 (Fig. 2). A positive pulse, passing through diode 16, opens key 2, and passing through diode 15 and inverter 13, closes key 3. During the duration of the positive pulse, capacitor 1 is linearly charged (Fig. 2, c). With the falling edge of a positive impulse, it starts up with a standby multivibrator 12, the output pulse T (Fig. 2, d) of which translates the recording unit 5 into recording mode. In addition, this pulse, passing through the diode 14 and the inverter 13, keeps the key 3 closed and the key 2 is open under the action of a negative pulse from the output of the comparator 11 (Fig. 2, b). As a result, the maximum value of the voltage on the capacitor 1 is recorded, which remains constant during the duration of the pulse. After the end of the pulse t from the output of the inverter 13, a positive pulse arrives at the control input of the switch 3, as a result of which the capacitor 1 is discharged and remains in this state until the next positive pulse arrives from the output of the comparator 11 (Fig. 2c). A constant voltage from the output of the storage unit through a resistor voltage divider 7 with a division factor of 0.5 is fed to the input of the comparator 6. (Fig. 2, c). At the next cycle, the linearly growing voltage from the output of the amplifier 4 arrives at the other input of the comparator 6. At the time when the voltages are equal at the inputs of the comparator, a positive voltage differential is formed at its output (Fig. 2e), which in time corresponds to the passage input signal through the maximum. Further, the processes are repeated. Thus, starting from the second period of the input signal, a positive voltage drop is generated at the output of the comparator, indicating the moment of the extremum of the input sinusoidal signal. In the case of a slow change in the constant component UQ, as a rule, present in the infra-low frequency signal, the temporal position of the positive output differential relative to the extremum moment does not shift, since the information in the storage device is updated during each period of the input signal. It should also be pointed out that the position: the positive differential with respect to the moment of the extremum can be changed by changing the ratio of the resistors 8 and 9 of the resistor divider. This circumstance allows you to quickly and easily configure the proposed device. Economic efficiency, due to the use of the proposal, is expressed in increasing the accuracy of work in the range of infra-low frequencies. The invention The extremum indicator containing a dc amplifier, a current, to the input of which is connected a parallel-connected bit switch and a storage capacitor, one plate of which is connected to a constant voltage source through a limiting resistor and charge switch key inputs, characterized in that, in order to improve accuracy in the range of infra-low frequencies, it contains a comparator, a resistor voltage divider and an analog storage unit, the input of which is connected to the output of the DC amplifier and one of the inputs of the comparator, and the output of the analog storage unit is connected via a resistor voltage divider to another input of the comparator, the input of the control unit is connected to the input source, and its pulse output is connected to the control input analog storage unit.