SU851766A1 - Amplitude converter - Google Patents

Description

I

The invention relates to computing technology and can be used in the design of analog computing devices.

Known amplitude Converter containing a current generator, diodes, the first differential transistor amplifier, the base of the first transistor is grounded, and the base of the second transistor through the first j. the resistor is supplied with an input signal, and through the second resistor the base of the second transistor is connected to the output bus and the second differential amplifier to the base of the third transistor 5 of which the input signal is supplied, and the base of the fourth transistor is connected via the third resistor with output pin l.

The disadvantage of this amplitude

The converter is low-speed in the mode of converting signals of small amplitude.

The purpose of the invention is to improve the speed while maintaining the specified accuracy.

Claims (1)

The goal is achieved in that the amplitude converter, the current generator, the first differential amplifier, the base of the first transistor of which is connected to the common bus, and the base of the second transistor, is connected to the input bus through the first resistor, and the second differential the amplifier whose base of the third transistor is connected to the input bus, and the base of the fourth transistor is connected via a third resistor to the output bus, a voltage comparator is additionally introduced, the sixth, seventh, eighth and ninth transistors, the fourth and fifth resistors, while the inverting and non-inverting inputs of the comparator are connected respectively to the first reference voltage bus and the input signal bus, and the output of the comparator is connected to the base of the fifth transistor whose collector connected to the combined emitters of the transistors of the first differential amplifier, and the emitter is connected to the current generator and the emitter of the sixth transistor, the base of which is connected to the second voltage reference bus, and the collector with Connected to the combined emitters of the second differential amplifier, the base of the seventh transistor is connected to the collectors of the first, third and seventh transistors and the base of the eighth transistor, the emitter of the seventh transistor and the eighth transistor is connected to the collector of the ninth transistor and to the power supply, the base of nine transistors is connected to the collectors the second, fourth and eighth transistors, and its emitter is connected to the output bus, the base of the fourth transistor is connected via a fourth resistor to the common bus, and The base of the second transistor is connected via a fifth resistor to the third reference voltage bus. The drawing shows the principal electrical circuit of the amplitude converter, the Amplitude converter contains the current generator 1, the voltage comparator 2, the first differential | the amplifier 3 on the first transistor 4 and the second transistor 5, the second differential amplifier 6 on the third transistor 7 and the fourth transistor 8, the fifth transistor 9.d the sixth transistor 10. the seventh transistor II, the eighth i transistor 12, the ninth transistor 13, resistors 14-18. The operation of the amplitude converter is performed in the following manner. At the base of the transistor 10, a reference voltage is applied, n, and the AOGCh log O, when there is an input voltage, the comparator 2 compares it with the first reference voltage UQ ,, t if the input voltage is greater than Ujj, then the output of the comparator produces a logical unit, the transistor 9 closes and all the current generated by the current generator flows through the transistor 10. In this case, transistors 4 and 5 are de-energized, and transistors 7,8,11,12, 13 and resistors 16 and 17 form an differential amplifier in a non-inverting connection with a power factor, defined ratio R-ife R 1. If the input voltage is less than the reference voltage, then logical O is output at the comparator output, transistor 9 opens, and transistor 10 closes and all current produced by the current generator enters the emitters of the first differential amplifier. At the same time, transistors 7 and 8 are de-energized, and transistors 4,5,11,12,13 and resistors 14,15,18 form a differential amplifier in an inverting turn-on with a gain factor related to the offset of the coupling component U.- „SCR Due to the absence of diodes in the circuit, the speed of the amplitude converter is significantly increased. Amplitude converter comprising a current generator, a first differential amplifier, the base of the first transistor of which is connected to a common bus, and the base of the second transistor is connected to the input transistor through a first resistor and a second bus across the second resistor, and the base of the third transistor which is connected to the input of the bus, and the base of the fourth transistor is connected via a third resistor to the output bus, characterized in that, in order to improve speed, The voltage comparator, the fifth, sixth, seventh, eighth and ninth transistors are the fourth and fifth fifth resistors, while the inverter and non-inverting inputs of the comparator are connected to the first reference voltage bus and the input signal bus, and the comparator output is connected to the base n the transistor whose collector is connected to the combined emitters of the transistors of the first differential amplifier, and the emitter