SU373862A1 - PULSE FORMER - Google Patents

Description

one

This invention relates to the field of radio electronics. A pulse shaper on tunnel diodes and transistors is known with a recovery time determined by the recovery time of a transistor switch, comprising two single vibrators, a transistor switch, a switch on the trunk of diodes and a trigger.

In order to expand the tolerances on the parameters of the elements and the input signal, in the proposed device, the outputs of one-shot are connected to the trigger inputs, the output of which is connected to the key input on a pair of tunnel diodes, the second input of which is connected to the key output on the transistor, and the key outputs on a pair of tunnel diodes are connected with inputs of one-shot, and the input signal circuit is connected through a resistor to the key collector on the transistor, the base of which is connected through another resistor to the collector and through two diodes and a resistor with outputs of one-shot.

The drawing shows the electronic circuit of the device.

The device contains two one-shot, built on tunnel diodes 1, 2, transistors 3, 4, diodes 5, 6, 7, 8, capacitors 9, 10, resistors // - 18; the circuit of the electronic key built on the transistor 19; electronic key circuit built on tunnel diodes 20, 21; potential trigger on the tunnel diode "22 and the transistor 23.

A pulse of positive polarity applied to the input creates in the circuit consisting of resistors 24, 25, tunnel diodes 20, 21 a current that switches one of the tunnel diodes to a high voltage state. The tunnel diode 22 is in the low voltage state, therefore the tunnel diode 20 is switched to the high voltage state. Switching the diode 20 to the high voltage state leads to the opening of the transistor 26, which in turn leads to the switching state high voltage tunnel diode 1. Transistor 3 opens, the collector-emitter circuit of transistor 3, diode 6, resistor 13 generates a current, diode 5 closes, capacitor 9 discharges, maintaining a tunnel diode / in a high voltage state. A positive pulse from the collector of the transistor 3 through the diode 27 passes to the output of the circuit. The same pulse from the output opens the transistor 19,

stopping the current in the tunnel diodes 20 and 21,

which leads to the switching of the tunnel

the diode 21 to the low voltage state and

locking the transistor 26.

In addition to opening the transistor 19, a pulse from the collector of transistor 3 switches the tunnel diode 22 to a high voltage state. At the end of the capacitor 9 discharge, the tunnel diode 1 is not switched off — into a low voltage state, the pulse formation is terminated, transistors 3–a 19 are locked, and the voltage level of the circuit is set at the output of the circuit. The capacitor 9 charge starts. The device can generate the next pulse immediately after opening the transistor 19. The starting pulse creates a current in the Tunnel Diode Circuits 20 and 21, which causes the diode 21 to switch to a high voltage state. The switching of this particular diode occurs because the control input of a series pair of tunnel diodes through resistors 25 and 29 from the tunnel diode 22, which is in a high voltage state, is supplied with a voltage level of 0.4-0.6 V. Switching the diode 27 to the high voltage state causes the opening of the transistor 5 and the switching of the tunnel diode 2 to the high voltage state. Switching the diode 21 to the high voltage state does not lead to the opening of the transistor 26, since the diode 21 and the reversing diode 31 are made of the same material (germanium). A one-shot on diode 2 and transistor 4 generates a pulse. This pulse through the diode 32 passes to the output of the circuit, opens the transistor 19 and, therefore, blocks the input of the circuit. This pulse also opens the transistor 23, which leads to the switching of the tunnel diode 22 to the low voltage state. For proper operation of a serial pair of tunnel diodes 20 and 21, it is necessary that the input pulse can switch only one tunnel diode to a high voltage state. To expand the range of values of the input pulses, the base of the transistor 19 is connected via a resistor 53 to its collector. Exceeding the voltage at the common connection point of resistors 24 and 25 leads to an increase in the collector current of transistor 19, to an additional voltage drop across resistor 24 and, consequently, to voltage stabilization. Thus, the one-shot in the proposed device work alternately. In order to obtain a device recovery time of zero, it is necessary that the duration of the impulse generated by each one-shot exceeds the recovery time of this one-shot. The device allows alternate generation of pulses of various durations. This requires the fulfillment of the condition. ti; where TI, ITI - the duration of the generated pulses, respectively, of the first and second one-shot. In order to obtain zero recovery time in this case, the condition BI C where Tv and Tvr is the recovery time of the first and second one-shot, respectively. The subject of the invention is a pulse shaper on tunnel diodes and transistors with a recovery time determined by the recovery time of a transistor switch, containing two single vibrators, a switch on transistors, a switch on a pair of tunnel diodes, and a trigger, characterized in that, in order to extend the tolerances on the parameters of the elements and the signal, the outputs of one-shot are connected to the trigger inputs, the output of which is connected to the key input on a pair of tunnel diodes, the second input of which is connected to the output of the key on the transistor, and you The turns of the aforementioned key on a pair of tunnel diodes are connected to the inputs of the said single vibrators, the input signal circuit being connected via a resistor to the collector of the said key on the transistor, the base of which is connected via another resistor to the said collector and through two diodes and a single vibrator outputs.