SU1084956A1 - Amplifier with pulse power - Google Patents

Description

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OE The invention relates to radio engineering, in particular, to amplifying technology, and can be used to amplify deviation signals in display devices. A deflection amplifier is known that is used to control the electron beam of a cathode ray tube, which is a broadband DC amplifier with a total negative feedback due to inductive load in the output stage collector circuit and key elements. 11 However, this amplifier has a small bandwidth because large collector capacitances of the output transistors shunt the load circuit at high frequency. The closest technical solution to the proposed invention is a pulse-powered amplifier, which contains a preamplifier and a push-pull terminal amplifier with an inductive load, subsequently connected with a feedback resistor, with the connection point of the feedback resistor and load connected to the corresponding input preamplifier 2 However, the known device has a terminal push-pull amplifier, made according to the emitter follower circuit. In order to ensure high speed and efficiency of the device, it is necessary to send signals with an amplitude close to the supply voltage of high-voltage sources to the control input of the terminal push-pull amplifier. Thus, the power supply of the preamplifier should also be high-voltage. During the transient process, the preamplifier enters the key mode, with one of the transistors of the preamplifier, connected to one of the high voltage sources, being in the empty state and the other transistor being connected to another high voltage source. , in the cutoff state. Thus, the last transistor is applied to the double voltage of high-voltage power sources, which lowers the reliability of the amplifier with a smart power supply. The purpose of the invention is to increase the reliability of the pulse-powered amplifier. The goal is achieved by the fact that a pulse-powered power amplifier containing a preamplifier and a push-pull terminal amplifier with an inductive load, in series with which a feedback resistor is connected, the connection point of the feedback resistor and load connected to the corresponding preamplifier input, each arm of the terminal push-pull amplifier is made in the form of a series-connected transistor connected in accordance with a common base circuit, while the base is connected directly to a common one another transistor connected according to a common emitter circuit and a transistor connected according to a common collector circuit, the emitter of a transistor connected according to a common emitter circuit connected to the collector of a transistor connected to a common collector circuit, transistors connected according to a common transistor circuit base and common collector, have one structure, and the transistor connected according to the scheme with a common emitter, has a different structure. The drawing shows a circuit diagram of an amplifier with a pulsed power supply. A pulse-powered amplifier consists of a preamplifier 1, a terminal push-pull amplifier 2, an inductive load 3, a feedback resistor 4, and two pulse sources 5 and b of power supply. The terminal push-pull amplifier 2 contains an input amplifier stage at transistors 7 and 8, an intermediate amplifier stage at transistors 9, 10, and an output amplifier stage at transistors 11 and 12, Ishulny power sources 5 and 6 contain, respectively, sources 13 and 14 of low voltage, valves 15, 16, controllable keys 17, 18, and SOURCES 19, 20 high voltage. The device operates as follows. In a small signal mode (with relatively small differences and rise rates of the input signal) p the rate of change of the load current is sufficient to maintain proportionality between the input signal and the varying load current, transistors of the terminal push-pull amplifier 2 are powered voltage through the gates 15 and 16, in the mode of a large signal (with large differences and rise rates of the input signal, the rate of increase of the load current is insufficient, for example The feedback of the resistor is practically absent, and the input signal is not supplied to the input of the amplifier, but the entire input signal. Inductance 3 produces a voltage jump that goes to the control inputs of the keys 17 ,, 18 and tears off one of them For example, with a positive voltage jump, the key 17 opens, the supply voltage on the transistors 7, 9, 11 increases to the value determined by the source 19. This voltage through the saturated transistors 9 and 11 is applied to the load 3, which leads to a higher speed is set detecting the load current. At this time, transistors 10 and 11 are in cut-off mode and a total voltage of sources of high 19 and low 14 voltages is applied to them. Thus, transistors 8 and 10 are under reduced compared with the known device voltage. As load current 3 increases, proportionality between the output current and the input voltage of the device is achieved. The output voltage of the pulse-powered amplifier decreases, the key element 17 switches off the high-19 voltage source 19, the amplifier switches to operation from the low-voltage power supply sources 13 and 14. Similarly, the device operates when a negative jump occurs at load 3, and the key 17 is closed, and the key 18 is opened. To eliminate the effect on the output circuit of the preamplifier 1 high voltage voltage pulses arising in the final push-pull amplifier 21, the first stages of the terminal push-pull amplifier 2 are made according to the common transistor 7 and 8 base. by reducing the voltage on the input transistors of the terminal push pull amplifier.

Claims (1)

(54 I PULSE POWER AMPLIFIER, comprising a preamplifier and a terminal push-pull amplifier with inductive load, a feedback resistor connected in series, the connection point of the feedback resistor and the load connected to the corresponding input of the preamplifier, characterized in that, for the purpose of to increase its reliability, each arm of the terminal push-pull amplifier is made in the form of a series-connected transistor connected according to a scheme with a common base, while the base is connected and directly with a common bus, a transistor connected according to a common emitter circuit, and a transistor connected according to a common collector circuit, the emitter of a transistor connected according to a common emitter circuit connected to a collector of a transistor connected according to a common collector circuit, transistors, included in the circuit with a common base and a common collector! g the lecturer have one structure, and a transistor connected in the circuit with a common emitter has a different structure.