SU1628184A1 - Differential amplifier - Google Patents

Abstract

The invention relates to electrical engineering. The purpose of the invention is to reduce the current consumption. The differential amplifier contains transistors (T) 1, 2, and 3, current reflectors 4 and 5, and resistors 6, 7, and 8. Reflectors 4 and 5, connected in opposite, close the positive feedback circuit (POS). The input current of the reflector 5 is equal to twice the value of the current of its output, which is reflected unchanged by the reflector 4 and is divided into two equal collector currents T 1 and 2 of the differential pair, and the PIC coefficient is equal to one. Connecting the power terminals of the reflector 5 to the base T 3 makes it possible to adapt the current flowing through the differential amplifier to the load current, which is the resistor 6, and thus significantly reduce the current consumption of the amplifier. Resistor 8 is a current limiter. 1 il.

Description

The invention relates to electrical engineering and can be used in electronic circuits for various purposes.

The purpose of the invention is to reduce the current consumption,

The drawing shows a circuit diagram of a differential amplifier.

The amplifier contains the first 1, second 2, third 3 transistors, first 4 and second 5 current reflectors, first 6, second 7 and third 8 resistors.

Differential amplifier works as follows.

The current reflectors 4 and 5, switched in opposite, close the positive feedback circuit, and since the reflection coefficient of the second reflector 5 is equal to two, the positive factor

feedback is also equal to two, i.e. incrementing the current anywhere in the loop causes a double current increment in the loop, etc. Transistor 1 is included in the positive feedback loop (POS) loop. And transistor 2 is parallel to the loop. Such switching on of transistors 1 and 2 allows the PIC depth to be adjusted from 0 to the maximum value, i.e. to two. With equal voltage across the grooves of transistors 1 and 2, their collector currents are also equal, while the currents in the circuit, regardless of their value, which is determined by the load current (resistor 6) through the value of the gain factor of the flow of transistor 3 and the resistance of resistor 7, are distributed as follows way: the input current of the current reflector 5 is equal to twice the value of its output current, which is reflected without change

the current reflector 4 is divided into two equal collector currents of transistors 1 and 2 of the differential pair, and the PIC coefficient is one. If the voltage on the bases of transistors 1 and 2 are not equal, then the PIC depth is either greater or less than one depending on the polarity of the input voltage,

The PIC coefficient is adjusted by means of a negative feedback loop (OOS), which must be introduced into the amplifier, the PIC coefficient in the operating device can be only one, and the gain factor of such a differential amplifier is determined only by the OOS coefficient. Although there is a PIC loop in the scheme, the system as a whole is stable, since the depth of adjustment of the PIC coefficient remains constant and there is no operating point at which the OOS loop cannot maintain the PIC coefficient at the unit level.

When using real transistors with finite values of current gain factors (B), the value of the PIC coefficient may differ from two and depends on the temperature. This leads to the appearance of the bias voltage of the differential amplifier, which depends on the temperature, and the gain of the amplifier with an open-loop NFB does not depend on B transistors. Resistor 8 is a current limiter.

The connection of the power terminals of the second reflector 5 current with the base of the transistor 3

makes it possible to adapt the current flowing through the differential amplifier to the load current (resistor 6) and, thus, significantly reduce the current consumption of the amplifier.

Claims (1)

Invention Formula A differential amplifier containing first and second transistors having one structure, the bases of which are the corresponding inputs of a differential amplifier, emitters are connected to the output of a first current reflector, the power terminals of which are connected to the first power supply bus, to the second bus of which a third transistor having another structure, the collector of which is the output of a differential amplifier, the collector of the first transistor is connected to the input of the second current reflector, the output of which connected to the input of the first current reflector, characterized in that, in order to reduce the current consumption, the collector of the third transistor is connected to the first power supply bus through the inserted first resistor, the collector of the second transistor is connected to the second power supply bus, and through the inserted second resistor to the base The third transistor and the power supply terminal of the second current reflector, the output of which is connected to the input of the first current reflector through the inserted third resistor, while the current reflectance ratio of the second current reflector pa en the two.  ABOUT