SU515254A1 - Controlled pulse generator - Google Patents

Description

(54) CONTROLLED PULSE GENERATOR

one

The invention of ethnics to pulsed techie and can be used as an adjustable oscillator in automatic frequency tuning systems and as a master oscillator in control systems for CTOTHQ adjustable static transducers.

Known controlled img.chsov generators containing an integrator, v1; l; ek-B: SUBSTITUTED at the first operative amplifier with a capacitor in the feedback circuit, one input of which is connected to the control voltage source, and the output to the comparator input, made on the second operational amplifier with a resistor in feedback loop, the output of the third operational an amplifier through one resistor is connected to the second input of the integrator, and through the other - to the input of the inverter on the transistor,

The purpose of the invention is to increase the frequency stability and linearity of the control characteristic.

This is achieved by introducing a third operational amplification into the controlled generator.

A diode with a diode in the same feedback circuit, an output diode and a resistor in the second feedback circuit. The output of the third operational amplifier is connected to the third input of the integrator, and the input through a resistor to the source of control, 1 to 11: its voltage, ji is a chain containing a sequence. The diode diode is connected to a diode, which is switched on -: between R. de Hod:; p; opTOp: i П Tj-ja ncaOpo by the input of the third op); onn - on the amplifier.

The drawing shows ::; structured electrical cxe.xia ü rule of the ioh generator of impulses.

It consists of an integrator, made on the first operational stage, Lite.1e .1 with KOI; - Sensor 2 in the feedback circuit, source .-; Nick 3 of control voltage, torus, performed on BTOpON operationally; amplifier 4. with a resistor 5 in the feedback circuit t {resistor; 6 between integrator and comparator; an inverter made on a transistor 7 and a resistor 8, and a resistor 9 between a comparator and an inverter).

In addition, a third-party operational amplifier 10 with a diode 11 in the feedback circuit, an output diode 12 and a resistor 13 in the second feedback circuit, a circuit of successively connected diode 14 and a cut power supply stator 15J 16 and resistors 17-20. Managed generator imishov works as follows. Consider the operation of the generator with a positive control signal (). Let the voltage at the output of amplifier 4 be positive, then the transistor 7 is open, and the input of amplifier 10 through diode 14 and resistor 15 receives a negative signal, under which the output voltage of amplifier 10 takes a positive value and is limited by diode 11 in feedback. Positive signals from the source of control voltage 3 and from the comparator are received at the input of the integrator, therefore the output voltage at the output of amplifier 1 will change in the negative direction. Integration will occur until the output of the comparator becomes negative. As a result, the transistor 7 is closed and the amplifier 10 goes into linear mode with a gain factor, for example, Ni = 1. Negative signals from the comparator and from amplifier 1O and a positive signal from the control voltage source 3 are received at the integrator's input. 1, and then amplifier 1 begins to integrate in a positive direction until the comparator output voltage becomes positive again. As a result, the generator circuit goes to the initial state and the cycle will repeat, whereby the generator frequency will linearly depend on the control signal for acquiring the Formula. The controlled imi-M-C generator, containing the integrator performed on the operational amplifier with a capacitor in the feedback circuit, one input of which is connected to the source of the control voltage, and the output to the input of the comparator, made by the second one-dimensional amplifier with a resistor in the feedback circuit8, the output of the third operational preamplifier through a resistor to-one with the second input of the integrator, and through the other - to the input of the inverter transistor, wherein, 4TOs in order to increase stabil-. frequency and linearity of the control characteristic; a third operational amplifier with a diode in one feedback circuit is introduced into it; the output diode to the resistor in the second feedback circuit, the output of the third operational amplifier is connected to the third input of the integrator, to the input through a resistor to the control source. a voltage and a depochka containing a series-connected diode and a resistor, which is turned on by the code of the inverter at the transistor and the input of the third operational amplifier.