SU404175A1 - AMPLIFIER - Google Patents

Description

The invention relates to "automation and radio engineering and, in particular," amplifiers operating on inductive load.

Amplifiers covered by a negative feedback circuit are known, containing a preliminary cascade and an output cable made according to a push-pull circuit, the active elements of which are covered with diodes, powered from a source with a grounded midpoint and with inductive load.

However, the known amplifiers have an insufficiently HIGH speed.

The aim of the invention is to increase; speed booster.

For this, the connection point of the active element with the diode of each amplifier arm is additionally through a capacitor switch; to the midpoint of the power source and through the isolating diode to the corresponding terminal of the power source.

The drawing shows a diagram of the device.

The amplifier consists of a cascade of preamplifier 1 and output stage 2. Load 3 is connected to the output of cascade 2 and measuring resistor 4. Measuring resistor 4 is connected through feedback circuit 5 to the input of cascade 1. Cascade 2 is connected to power sources b and 7 through diodes 5 and R. 0-common points of the output stage 2 and diodes 5 and 9 are connected to the output of stage 2

through diodes 10 and // and with a common point of power supplies b and 7 ("earth") through capacitors 12 and 13.

The amplifier works as follows.

In the operating mode, the load current flowing through the circuit: the output of the cascade 2, the load 3, the measuring resistor 4, creates a voltage drop across the measuring resistor 4, KI the second through the feedback circuit 5 is transmitted to the input of the amplifier. This ensures the necessary law of change in current in the load 3, determined by the law of change of the input signal.

Let us assume that the load current has a positive polarity, i.e. it is created by the power source 6.

When a reset signal or a change in current polarity arrives at the input of cascade 1, negative polarity voltage will be set, since, due to the inability of the current in inductive load 3 to change, feedback signal to the input signal will cause the output stage to saturate. The energy stored in the load inductance will result in the appearance of e. d ..-. self-induction, which through diode 11 or the shoulder of the output stage 2 charges the capacitor 13 to a voltage higher than the power supply 7, while the diode is 9H;

An increase in the voltage across the capacitor 1L will increase the speed of the changed current in the load 3. Once the current in the load reaches a value at which the feedback signal 1 on the output of circuit 5 becomes equal to the input signal, the output stage 2 will exit Saturation and change the output voltage so that the load current is proportional to the input signal, t; That is, the amplifier will switch to stabilizing or testing a slowly varying current.

Due to the use of the energy stored in the inductance of load 3 to increase the voltage of the capacitor 13 and accelerate the process of switching or shedding the load current (it is POSSIBLE to significantly decrease the voltage of titanium sources, necessary to switch currents at a given speed, which Leads to a newer. ".DF amplifier. If the voltage of the sources of the nit-source remains unchanged, then the speed of switching or resetting the current increases severalfold. If the voltage on the capacitor 13

the diode 9 opens and the output stage draws current from the power source 7.

The amplifier works in a similar way when the load current changes from negative to positive to positive, while diodes 8 and 10 and capacitor 12 are involved.

Subject invention

Amplifier, enclosed by the value of Negative feedback, containing Preliminary, cascade and output kokad, you are: complete in a two-stroke scheme, the active element of each arm of which is enclosed by a diode, powered from a source C of a grounded average thin and inductive load, characterized by that, in order to increase the speed of the amplifier, the place of the connection of the active element with the diode of each arm is additionally connected through a capacitor to the average point of the power supply and through an isolator; diode - to the corresponding terminal of the source: power.