SU556457A1 - Sine transducer - Google Patents

Description

one

The proposed functional converter is designed to obtain a sinusoidal signal from a triangular wave signal and can be used in analog computing devices and signal generators of several shapes.

A functional transducer 1 is known, in which the nonlinearity of the output characteristic of a field-effect transistor with a control pn-junction switch is used.

The closest technical solution to the invention is a sinus converter 2 comprising a transistor, the source of which is the output of the converter and is connected via the first feedback resistor to the zero potential bus, and the drain through the second feedback resistor to the input of the converter, voltage divider connected between the input of the converter and the zero potential bus, in parallel to which two oppositely connected switching diodes are connected, the common output of which is connected to the common output of resistors d zheii voltage divisor.

The disadvantage of these transducers is the temperature instability of the harmonic coefficient of the output siiusoidal sial.

The proposed converter, in order to improve accuracy, contains a current source

and the transistor, the base of which is connected to the common output of switching diodes, the collector is connected to the power supply source, and the emitter is connected to the gate of the field-effect transistor and the first current source output, the second output of which is connected to the zero potential, and the source is connected to the source. m power supply ex l enn. The drawing shows a diagram of a sinus

converter

The converter contains a field-effect transistor 1 with a control p-l junction, feedback resistors 2, 3 in the drain and source circuits, switching diodes 4, 5, divider

voltages from series included

resistors 6 and 7, transistor 8 and source

current 9, which includes a transistor

10 and resistors 11, 12 and 13.

Sine converter works as follows.

The input voltage of the converter is triangular. The switching diodes 4, 5 and resistors 6, 7 provide the necessary switchings of the gate value of the FET 1 when the polarity of the input signal is changed. Negative feedback is applied through resistors 2, 3, y. Decreasing the harmonic ratio of the output sinusoidal signal. Even

harmonics in the output signal. can be reduced

To a minimum, without changing the output level, by choosing the resistance of the resistor 2, or by shifting the zero level of the input signal.

With a rational choice of converter circuit elements, the ratio of their parameters, the minimum value of the output signal harmonics is obtained by adjusting the amplitude of the input signal and the resistance of resistor 2. Due to the switching on of transistor 8, the voltage across the gate of the field-effect transistor I becomes independent of the temperature variation of the voltage drop across the switching diodes 4, 5. As a result, the temperature stability of the harmonic coefficient of the output sinusoidal signal is increased. The current source 9 makes it possible to compensate for the change in the voltage drop across the diodes at any input voltage levels and allows the circuit to maintain its broadband.

Claims (2)

1.Peterson W. E. Fueld effect transistor converts triangles to sines. "Electronics, Aug. 31, 1970, p. 69-70. 2. Middlebrook R. D. Kicher I. Nonreactive filtering converts triangular waves to sines. “Electronics, March 8, 1969, p. 96 (prototype). Log in ABOUT one. -®: : j