SU883922A1 - Power function generator - Google Patents

Description

(5) GENERATOR OF POWER FUNCTIONS

I

The invention relates to a pulse technique and can be used, for example, in signal conditioners.

A generator of power functions is known, containing two controllable keys, a synchronizer, and a saw generator. different voltage, comparing element, memory element 1.

The drawback of the device is ... limited range of operation, its low reliability.

The closest technical solution to the proposed is a power-law nets oscillator containing a photodiode optocoupler, the first output of which is connected via the first resistor and the second output through a capacitor to the common bus of the device, a power source, a control key the output of which is connected to the input bus of the device, cutting. stor t2.

The disadvantage of the device is limited functionality.

The purpose of the invention is to expand the functionality of the device.

Claims (2)

The goal is achieved by the fact that the generator of power functions contains a photodiode optocoupler, the first output of which is through the first resistor and the second output through a capacitor connected to the device common bus, power source, control key, the control input of which is connected to the input bus of the device resistors, a differential amplifier is introduced, the bias source is a photoresistor optocoupler and a sawtooth generator, the control input of which is connected to the control input of the control key, the output is to the first The output of the photoresistor optocoupler, the second output of which is connected via the second resistor 38 P () / 1 to the common bus of the device, and directly to the first input / output amplifier, the second input of which is connected to the second output Photodiode1 O of the optocoupler and the first output of the bias source, and the output - to the third pin of the photodiode optocoupler and to the third pin of the photo of the resistor optocoupler, the fourth pin of which is connected to the common bus of the device through the third resistor, and the fourth pin of the photodiode pptcddc coupler to the output of the power supply In this case, the controlled key is connected between the second output of the bias source and the sheathing bus of the T- device in a. The drawing shows the schepyp -la device diagram. The device contains a LED diode optocoupler 1, a resistor 2, a capacitor 3, a power source, a controlled switch 5, resistors 6 and 7, a differential amplifier 8, a photoresistor optocoupler 9, a sawtooth generator 10, a bias source 11. The device works as follows. 8, an initial impulse is missing at the input of the CES royce fuzz when it is -1 the control key 5 is closed and the sawtooth voltage generator 10 is locked. Therefore, the signal taken from the resistor 6 and coming to the inverting input of the differential amplifier 8 is zero. At the non-inverting input of amplifier 8 there is a signal equal to the voltage of source 11 of displacement. Therefore, there is an output signal at the input of the amplifier, due to which the emitters of optocouplers 1 and 9 are in the initial stage of generation of radiation. The initial current of the photodiode of the optocoupler 1 thus generated flows through the bias source 11 and the closed control switch 5i, so the voltage on the storage capacitor cannot increase and is equal to the bias source voltage 11. When an external rectangular impulse arrives at the input, the control key 5 opens and the capacitor 3 starts charging with the photodiode current. A positive feedback circuit consisting of an amplifier 8 and an optoon 1 emitter circuit will lead to an even greater increase in the photodiode current, and hence on the generator output voltage. However, the negative feedback circuit consisting of the amplifier 8. of the emitter circuits and the photoresistor of the optocoupler 9 inhibits the growth of the output voltage of the device. Therefore, the output voltage of the generator increases in time according to a power law, and its exponent is determined by the value of the resistor resistance 2. When the pulse is removed, the control key 5 closes, discharging through the capacitor 3, and the device returns to the initial state. The simplicity of the transition from one exponent to another favorably distinguishes the proposed generator from other devices of a similar purpose. The invention includes a power function generator containing a photodiode optocoupler, the first output of which is through the first resistor, and the second output through a capacitor connected to the common bus of the device, the power source, a control key, the control input of which is connected to the input bus of the device, resistors that differ that, in order to expand the functionality, a differential amplifier, a bias source, a photoresistor optocoupler, and a sawtooth voltage generator, whose control input is connected to the control input of the control key, the output to the first output of the photoresistor optocoupler, the second output of which is connected via a second resistor to the common bus of the device and directly to the first input of the differential amplifier, the second input of which is connected to the second output of the photodiode optocoupler and the first output of the bias source, and the output is to the third output of the photodiode optocoupler and the third output of the photoresistor optocoupler, the fourth output of which is connected via the third resistor to the common bus of the device, and the fourth output of the photo the diode optocoupler is connected to the output of the power supply, while the control key is connected between the B5883E226 eye output of the bias source and ob-1. USSR authorship bus device. , cl. GOb and 7/26, 1973 Sources of information, 2. USSR Autocompetition taken into account in the examination, cl. I03 K / 08, 1972.