SU718892A1 - Pulse generator - Google Patents

Description

one

The invention relates to the field of pulse technology and is intended for use as a source of clock pulses with a stable infra-low repetition rate. In particular, such a generator can be used as a temporary time sensor. in software-temporary devices.

Pulse generators of low and infra-low frequencies are known with an integrator on an operational amplifier; however, in the low-frequency range they do not have a sufficiently high stability of the generated frequency due to the commensurability of the integrator input voltage and the bias voltage of zero amplifier

.

A pulse generator is also known that contains two cascade-connected operational amplifiers, the time specifying a capacitor and a resistor, and a resistive voltage divider 2.

It has achieved compensation for the bias voltage and leakage current of the driving capacitor due to equalizing the forward and reverse run times of the integrator, but it does not allow synchronization of oscillations from an external source of pulses, which eliminates the possibility of increasing the reliability of the device

by backing up generators. The duration of the first generated pulse in a known generator is unstable, this leads to a reduction in the accuracy of the device as a whole, when the generator and the generator repetition period are commensurate with the duration of the temporary installation of the program-time device. The aim of the invention is to expand

functionality and improvement of generator stability.

To achieve this goal, a pulse geerator containing two cascaded operational amplifiers,

time specifying a capacitor and a resistor connected to the inverting input of the first operational amplifier, a resistive divider of the voltage, the middle point of which is connected to the non-inverting

the input of the first operational amplifier, the first shoulder the timing resistor, and the second to the non-inverting input of the second operation amplifier; a two-way limiter is inserted between the output and the non-inverting input of the second op-amp and connected to the two reference signals, and two key. One of the keys is connected in parallel to the master capacitor, and the second is on

between the non-inverting input of the second operational amplifier and one of the outputs of the source of radiation, the first voltage divider and the voltage divider connected to the other output of the reference voltage.

The drawing shows a schematic diagram of a pulse generator.

The pulse generator contains reference amplifiers 1 and 2, time specifying capacitor 3, time specifying resistor 4, voltage divider on resistors 5, 6, limiter 7, synchronous switches 8, 9, sources 10, 11 of reference voltage.

The pulse generator works as follows.

In the initial state after turning on the power, the keys 8 and 9 are closed. At the same time, at the output of the operational amplifier 1, a potential equal to the voltage of the source at the output of the operational amplifier 2 is set, a potential equal to the negative voltage of the amplifier limited.

The formation of pulses starts from the moment the keys 8 and 9 are opened. After the keys are opened, the negative voltage at the output of the operational amplifier 2 is preserved due to the action of positive feedback through the limiter 7.

In the operational amplifier 1, the integration of the negative voltage from the output of the limiter 7 through the resistor 6 begins. The output voltage of the operational amplifier 1 decreases linearly. When the voltages on both inputs of the operational amplifier 2 are equal, i.e., when the output voltage of the operational amplifier 1 reaches the value of -t / on, the loop of the positive feedback of the operational amplifier 2 closes and its output voltage abruptly changes to positive limiting amplifier. In this case, the output of the limiter 7 turns out to be at the same time the voltage —UoTi, and the input voltage of the operational amplifier, coming through the resistor 6, changes sign. The output voltage of the op amp 1 begins to increase.

When the output amplifier reaches + f / on the output voltage, the device returns to its initial state, after which the feedback loop of the operational amplifier 2 re-closes and the polarity of the input voltage of the operational amplifier 1 changes and the process repeats.

At any time, the device can be reset, by briefly (for a time sufficient to discharge the capacitor 3 through the switch 8), by closing the switches 8 and 9.

In this case, the periodic closure of synchronous keys does not cause an imbalance of the generation half-periods, which provides compensation for the zero offset of the operational amplifier 1.

The application of the invention in digital machines, in particular, in software-time devices, provides for an increase in accuracy due to the elimination of coasting frequency, as well as an increase in reliability due to the use of several similar generators with mutual synchronization;

Claims (2)

1. USSR author's certificate number 366559, cl. H OZK 4/50, 1971. 2. US patent number 3564455, cl. 331-135, 08.08.68 (prototype).