SU296237A1 - FORMER OF A SERIES OF PULSES - Google Patents

Description

The invention relates to radio electronics and can be used in computing and measurement technology.

Known formers of a series of pulses on avalanche transistors and N-transistors, containing a relaxation generator.

A disadvantage of the known devices is that they do not ensure the stability of the number of pulses in a series and the formation of a trigger pulse with a stable duration and correct shape.

In order to ensure the start of the shaper with a short pulse and a linear relationship between the number of pulses in the serics and the amplitude of the triggering imiuls in the proposed device, three diodes are sequentially connected to the emitter of the avalanche transistor, while the ground capacitor is connected between the first diode and the second diode the source of the triggering pulse is turned on by the diode, and a resistor is connected between the emitter of the avalanche transistor and the power supply.

The drawing shows a schematic diagram of the proposed device.

discharge resistor 5, resistor 6, diodes 7, 8, and 9, and a storage capacitor W.

Avalanche transistor, resistors 2, 3 and 5 and capacitor 4 form the usual circuit of a relaxation generator on an avalanche transistor. New elements are resistor 6, dan 7, 8 9 and capacitor 10.

Using a resistor 6, a current is passed through three diodes connected in series to keep these diodes in a conducting state, and the potential of the emitter of the avalanche transistor is negative and equal to the sum of the voltage drops across the three diodes.

A negative voltage across the emitter keeps the transistor in the locked state. Through the resistor 3, the avalanche transistor collector is connected to the minus of the power source, the voltage of which exceeds the voltage of the surge voltage of the MIND collector junction. The base resistor 2 is chosen such that the voltage drop across it from the avalanche breakdown current collector - base is less than the voltage drop across the emitter diodes. This ensures the closed state of the avalanche transistor in its original state. At the same time, capacitor 4 is charged up to a voltage close to C / m, and capacitor 10 is up to a voltage equal to p8 and 9. P1 is similar to the circuit condition, since the emitter junction is closed. When a polar-field polarity is applied to the input of the triggering polarity, the co-capacitor 10 is quickly charged through the open diode 8. If the duration of the triggering pulse is slightly longer than the charge time of the capacitor, the latter is charged to a voltage close to the pulse amplitude. Since diode 8 is pre-biased in the forward direction, the minimum amplitude of the pulse can be small, the income is up to tens of mV, which ensures high linearity between the voltage across the capacitor and the amplitude of the pulse. After charging the capacitor W, the voltage on it becomes positive, the diodes 8 and 9 are closed, and the emitter junction of the avalanche transistor is opened. The operating point falls on the negative resistance section, which causes the regenerative process of discharge of capacitor 4 through the laviptate transistor and resistor 5 to capacitor 10. During each of these discharges, the voltage at the last decreases by At / - one step. This happens until the voltage on the capacitor 10, decreasing according to a stepwise law, reaches the initial level at which the emitter junction locks and the regenerative process stops. The number of steps is proportional to the voltage on the capacitor 10, and hence to the amplitude of the trigger pulses. For each trigger pulse, the circuit produces a series of output pulses that can be removed from the discharge resistor 5. Object of the invention A series pulse generator on an avalanche transistor containing a relaxation generator consisting of a charging resistor and a capacitor connected to the avalanche transistor collector, as well as from a discharge resistor and a resistor in the base circuit of the transistor, characterized in that, in order to start the driver, a short pulse and to ensure a linear relationship between the number of pulses in the servo Three amplitudes are connected to the emitter of the avalanche transistor; the earthing capacitor is connected between the first emitter diode and the second diode, and a resistor is connected between the second and third diode and the avalanche transistor emitter and power source.