SU752770A1 - Triangular pulse shaper - Google Patents

Description

control keys of the bit are removed from the inverse (and zero) output of the same trigger; in fig. Zy - the output voltage of the operational amplifier 5.

In the initial state, the capacitors of the feedback circuit are discharged to the initial level UQ, which is removed from the output of the operational amplifier 5. All triggers of the control unit are in the zero state. When the input signal is applied at time ti (Fig. 3A), the rectangular pulse is differentiated by circuit 7 to the input of the control unit, and from its output it goes to the input of the inverter 8 and to the single inputs of the trigger 9 and 10. Both triggers are set to one and The output of the circuit (Fig. 2, 13) is the signal that commutes the first charge key of the unit 3, and the signal from the single output of the trigger (Fig. 2, 18) closes the key 2 (Fig. 1). The zero output signal of the same trigger (16) opens the keys in the discharge circuit of the capacitors of the key block 3, and the capacitor is charged from the source of the reference voltage 1. In addition, the installation circuit is prepared for the next trigger (I). Since the law of variation of the input signal is known, the choice of the capacitor capacitance value and the variable resistor in the charge key circuit selects the charge time constant from the condition of providing the required amplitude and nonlinearity coefficients of the generated signal at the output of the operational amplifier.

At time point 2 (Fig. 3Sv), the pulse from the output of the inverter 8, passing through the cutting diode 13, sets the trigger 9 to the zero state, opens the key 2 and the charge key, and closes the key in the discharge circuit of the same capacitor from a block of 4 capacitors. The discharge time is controlled by a variable resistor in the discharge switch circuit.

At the moment of time, a positive pulse from the output of the differentiating circuit 7 is established in a single trigger state (9 and I), as a result of which the key 2 and two keys of the block 3, which are in the charge circuit of the respective capacitors of the block 4, are closed, and nna

the integrator time is increased by the required amount. The change in the constant integration will occur in a similar way until the last trigger of the control unit (Fig. 2, 12) is set to one. In this case, conditions are prepared for the impulse to pass at the moment of time tN + i through the AND circuit (Fig. 2, 17) for setting in the zero state of all the triggers of the control unit. The trigger 9 controls the operation of the key 2 and the keys in the bit chain of the block 3, as well as controls the outputs of the flip-flops 13-15 of the control unit.

By selecting the parameters of the feedback circuit elements and selecting the gain of the operational amplifier, the amplitude is constant and the voltage of the device is more linear.

The use of a block of capacitors 4, a key 2 and controls of the constant integration circuit, blocks 3 and 6 of the control expands the scope of application of operational amplifiers and allows to increase the stability of the generated pulses.

Claims (2)

1. Patent of the GDR No. 104887, cl. And OZK 4/56, 03/20/74. 2. US patent number 3365588, cl. 307-264, 01.23.68. AND 2 (Puz.3