SU953711A1 - Pulse amplifier - Google Patents

Description

(54) PULSE AMPLIFIER

Claims (1)

This invention relates to a pulse tesennik. A pulse-shaping amplifier, a matched transistor, and a multiplication circuit consisting of N cells, each of which consists of a transistor, a capacitor, and a diode Ell, are known. The disadvantage of this former is its complexity. The closest in theory to the invention is a pulse amplifier composed of a cascade of amplification on a transistor with a collector load, in parallel of which is a switch of a series-connected diode and a capacitor and connected in parallel of a diode of a series-connected resistor, bounded by a capacitor, and a z o-emitter transition of the second transistor, the collector of which is connected through a resistor to the collector of the first transistor 123. Otherwise, a known amplifier does not provide sufficient amplitudes of the output signal and has a sufficient load od & yustyo. The aim of the invention is to increase the amplitude of the output signal and the load gauge & The goal is achieved by the fact that in a pulse amplifier containing an input transistor connected according to a common emitter circuit, the output transistor base of which is connected in parallel with an accumulator and a capacitor connected to a storage element consisting of a diode and a capacitor, the collector is connected to an output capacitor, and an emitter with a junction point of a diode and a capacitor of the said storage element, N additional storage elements are introduced, connected in parallel with the storage element according to The yarn, diode and additional transistor, the emitter of which is connected to the first output of the first storage element directly, and through the diode to the base of the additional transistor and the collector of the input transistor, and the collector of the additional transistor is connected to the second power supply of the first storage element. The principal electrical circuit of the amplifier is shown in the drawing. The amplifier contains an input transiotor 1, a resistor 2, an output transistor, 3, a resistor 4, a capacitor 5, an additional transistor 6, a diode 7, a storage element 8-12, each of the cohortor consists of a diode 13 to capacitor 14, the input signal is fed to the input bus 15, the output signal is removed from the output bus 16. The amplifier operates in a close manner. When signals are applied to its input, for example, rectangular pulses of polarity, transistor I opens, and through it and through diode 13 a capacitor 14 is charged from the source. nickname power. During the pause between pulses, transistor 1 is closed, and the capacitor capacitor of element 9 occurs from the charged capacitor 14 through the diode of element 9 and resistor 2. With the arrival of the following input pulses, transistor 1 opens again and the capacitors of subsequent elements 10-12 are charged. Thus (in a cut-off mode, each of the capacitors of elements 8-12 is charged to a constant voltage close to the voltage of the power source. During the input pulse, transistor 1 is open and transistor 3 is closed by reverse bias on its the base-emitter junction created by the direct voltage drop across the element 12 open at this time. In the pauses between the input pulses, transistor 1 is closed and transistor 3 is open due to the flow of part of the discharge current cops 8, 10 and 12 through its emitter-base resistor 4, capacitor 5, capacitors of elements 9 and 11, and resistor 2, as a result of which the voltage of series-connected power supply B and charged capacitors of elements 8, 10 and 12. As a result, high-amplitude high-amplitude pulses can be generated in the pauses between the input pulses.Condenser 5 serves to accelerate 1 the process of opening 1p of the anistor 3 and reduce, thereby, the front length of the upper pulses, If present and pulses of positive polarity at the input of the device, the transistor 6 is closed by an offset across its emitter-base junction created by a direct voltage drop across the diode 7 open at that time, through which the charging current of the capacitors of elements 8, 10 and 12 flows. With the input pulses, the transistor 6 opens, since, as its base-emitter junction}, a positive voltage difference is applied (the voltage across the capacitor of element 8 is slightly larger than that of the capacitor of element 9). Thus, in the pause between the pulses, the voltage across the transistors 3 and 6 is applied to the voltage of the series-connected power supply and charged capacitors of the corresponding Elements, and output antiphase pulses are generated on the load with an amplitude close to 4E. Due to the low resistance of the open transistor 6, the amplitude of the output pulses increases and the load capacity of the pulse amplifier increases. A possibility of obtaining output pulses with an increased amplitude; a pulse amplifier provides the possibility of obtaining an increased constant voltage close to the WE value on the series-connected power source E and charged capacitors 4 and 6. By changing the number of accumulative elements, the necessary increase in the amplitude of the pulses can be obtained or the required amount of increased DC voltage. When the number of accumulative elements is odd, load phase impulses are generated, and at an even number, output common-mode impulses. The pulse amplifier can also work with negative impulse output pulses, while the base of the transistor 1 must be supplied with a bias voltage, for example, connecting its base through resistor to the positive terminal of the power source E. Claims of the invention A pulse amplifier containing an input transistor connected in accordance with the circuit 59 with a common emitter The base, the base of which is connected in parallel with the resistor and the gas condenser connected to the heating element with a pyode and a capacitor, the coplector is connected with the output bus, and the emitter with the point of connection of the diode and capacitor of the accumulative element mentioned is that , with the increase in the amplitude of the output signal and the recovery of load capacity, into it. Introduced N additional storage elements and included in parallel to the storage element in the circuit. No voltage, diode, and additional Ttnrrl W-fc .-- 11 transistor, the emitter of which is connected to the first output of the storage element directly, and through the diode to the base of the additional transistor and the collector of the input transistor, and the collector of the additional transistor is connected to the second output storage element and power source. Sources of information taken into account in the examination 1, USSR Author's Certificate W 44513 8 / class. H 03 K 5/01, 29.05.72, 2, USSR Author's Certificate -, rioi-upvKiw certificate LitJUP № 411618 Cl. N OZ K 6 / O2, 06.l2.7l. I and