SU752758A1 - Square pulse shaper - Google Patents

Description

The invention relates to rectangular pulse generators and may fail in devices of pulsed technology to form voltage amplitude-stable voltage pulses with a steep leading edge. According to the main author. St. No. 445128 is known a TF coaxial pulse shaper, an avalanche transistor relaxation generator, and a sequential pulsed voltage stabilizer, connected in series to the discharge circuit of the storage capacitor of the relaxer 1. The disadvantage of this device is the dependence of the amplitude of the pulses on the load resistance, which decreases with its increase. This leads to the fact that this device does not allow to receive, plastic infrared pulses on a high-resistance high-amplitude load, and for some of its value it is not working at all. The purpose of the invention is to increase the amplitude of the pulses and their duration at a given capacitance of the storage capacitor. To achieve this goal, an additional transistor is connected in series to a rectangular pulse shaper containing a relaxation generator on an avalanche transistor and a series pulsed voltage regulator, and an emitter of the avalanche transistor is connected to the base of the additional capacitor the diode is connected to the common bus and the collector is connected via a resistor to the base of the transistor of a single-stage serial stabilizer tension The drawing shows the principle of C & la shaper. The rectangular pulse driver contains an avalanche transistor 1, the collector of which is connected via a resistor 2 to the bus 3 of the first power source, the driver sets the capacitor 4, one plate of which is connected to the collector of the above transistor and the second through a diode 5 connected to its emitter, a resistor 6 connected by one the end to the bus 7 of the second power supply, and the other end to the diode 8, the capacitor 9, through which triggers arrive at the base of the avalanche transistor in the standby mode, the diode 1O and the single stage sequence flax stabilizer consisting of a transistor 11, a zener diode 12, a resistor 13 connected to the bus 14 of the third power source, and a resistor 15 serving as the load resistance. A protective diode 17 connected through a resistor 18 to the power supply 7 is connected to the base circuit of the additional transistor 16 B1. The collector of the transistor 16 is connected via a resistor 19 to the base of the transistor 11 of a single-stage series voltage regulator. Square pulse shaper can work both in self-oscillating and in standby modes. This is determined by choosing the position of the initial operating point on the current-voltage characteristic of avalanche transistor 1. In self-oscillating avalanche., Transistor 1 turns on every time as soon as the voltage is applied to the time of the master capacitor 4 charged from the first power source through resistor 2 and diode 5 It reaches the switching voltage of the transistor according to the common emitter circuit. With this charge, the time of the setting capacitor 4 of the stabilizer transistor 11, the torus is opened by the base current, flowing from the bus 14 of the third power supply through the resistor 13, the base-differential difference of the transistor 11 and the resistor 15. The additional transistor 16 is also saturated due to the flow of the base current from the second power source 7 through the resistor 18 and the base-emitter junction. The resistance of the resistor 19 is chosen much less than the resistance of the resistor 13, with the result that the load on the load 15 equals O. This is the main difference between the proposed device and the known one, since the voltage on the load 15 equals HO / tlR 8 where the source is 14 y - for example power supply: resistor resistance 13. 5d5 load resistance; As is, from the formula, when the voltage across the load tends to U j. In fact, a constant voltage is set at the load, equal to the breakdown voltage of the Zener diode 12UnpH, since the amplitude of the rectangular pulse in the circuit is equal to UqpU jj TO in this case the device is inoperable. The introduction of an additional key eliminates this drawback, since the transistor 16 shunts the load resistance, and therefore the voltage across it does not depend on its magnitude. The discharge time of the driver capacitor 4 is carried out through diode 10, transistor 11, resistor 15, avalanche transistor 1 and diode 17. The negative voltage generated on diode 17 transforms the transistor 16. This causes voltage to be applied to the zener diode 12. In this case, transistor 11 operates in active mode, and the voltage across the resistance of its load (the resistor 15 is equal to the voltage of the UHP breakdown of the Zener diode 12 Mjrayc the voltage drop across the emitter base junction Ug-cf of the transistor 11. Once the voltage on the collector of the transistor 11 becomes less than the voltage breakdown U |: ip of Zener diode 12, transistor 11 is turned off, and transistor 16 is turned on and enters saturation, as the unlocking current from source 7 flows through resistor 18 in its base circuit. At the same time, the drive capacitor 4 begins to charge again through resistor 2 and the diode 5 from the first SOTOhifflKa power supply, then the process proceeds as described above. The second power supply connected to the busbar 7 creates the conditions for switching on the avalanche transistor according to the common emitter circuit and for bringing the avalanche transistor closed. Standby mode is provided by the closing of the transistor 11 voltage greater than in auto-oscillation mode, from the second power source. Thus, the introduction of an additional transistor into the device significantly increases the efficiency of the circuit.

The amplitude of the pulse does not depend on the load, the device operation is improved by; high resistance due to which it is possible to obtain long pulses.

Claims (1)

Invention Formula Shaper of rectangular pulses according to ed. Ev, No. Distinguished by the fact that, in order to increase the amplitude of the pulses and their duration at a given capacitance | 1 of the storage capacitor, a pre-i transistor transistor was inserted into it, the emitter of the avalanche transistor connected to the base of the additional transistor and through a protective diode to the common bus, and the collector through a resistor is connected to the base of the transistor of a single stage serial voltage regulator. Sources of information received during the examination I. USSR Copyright Certificate No. 445128 Cl. H 03 K 3/335, 21.12.71.