SU1304041A1 - Function generator - Google Patents

Abstract

The invention relates to analog computing and can be used in analog computing devices and signal generators to convert a triangular wave voltage to a sinusoidal voltage. The aim of the invention is to improve the accuracy of the conversion due to the optimal balancing of the current-voltage characteristics of the first field-effect transistor. The functional converter includes a first field-effect transistor 1, a first mixing resistor 2, a first switching diode 3, a second bias resistor 5, a second switching diode 6, the first 8 and second 9 balanced resistors, an operational amplifier 10, a second field-effect transistor 11, and feedback resistor 12 . To obtain the best stability, the feedback resistor 12 must be chosen equal to the sum of the resistances of the balanced resistors 8 and 9, and the first 1 and second 11 field-effect transistors should be performed on a single chip, which ensures the best identity of their characteristics and the same temperature conditions. 1 il. I it t oo about 4 about 4

Description

11304

The invention relates to analog computing and can be used in analog computing devices and signal generators to convert a triangular wave voltage to a sinusoidal voltage.

The purpose of the invention is to increase the conversion accuracy due to the optimal balancing of the volt-ampere-O to achieve the most complete characteristics of the first field-effect transistor.

The drawing shows a structural diagram of a functional converter.

The functional converter contains the first field effect transistor 1, the first mixing resistor 2, the first switching diode 3, the information

input 4 of the converter, the second resis- tor of the resistances of the balanced bias resistor 5, the second switching point 8 and 9, and the first 1 and second 11

The temperature instability of the output signal level is transformed by reciprocal compensation of temperature changes in the resistance of 15 research channels of the first 1 and second i1 field-effect transistors. In this case, to obtain the best QO stability, the resistance of the feedback resistor 12 must be chosen equal to

diode 6, zero potential bus 7, first 8 and second 9 balanced resistors, operational amplifier 10, second field effect transistor 1 and feedback resistor 12.

Functional Converter works as follows.

The information input 4 of the converter is supplied with a triangular voltage. The switching diodes 3 and 6 and the bias resistors 2 and 5 provide the necessary switching of the gate circuit of the first field-effect transistor 1 when the polarity of the input signal changes. The inverting input of the operational amplifier 10 in a linear reconfiguration converter, containing a first field-effect transistor, 30 having a gate through a parallel-connected first bias resistor and a first switching diode connected to the information input of the converter, and through a parallel-connected 35 biasing resistor and a second switching diode to the bus zero potential, the drain of the first field-effect transistor through the first balanced resistor is connected to the information

The press has the same potential as the non-inverting one, i.e. in this case, it has zero potential. Through the input of the converter, and the source to the balanced resistors 8 and 9, the first output of the second balanced feedback is negative feedback of the resistor, the inverting input of the opera- tion reduces the harmonic coefficient of the sinus amplifier through the common current resistor The connection is connected to the drain of the auto channel of the first field-effect transistor 5 of the ry field-effect transistor, connected 1, if there is a triangular voltage converter on the information input source and gate to the output of limit 4. Waveform conversion is carried out by a non-former connected to the output of an operational amplifier connected by a non-inverting input to the bus.

linear dependence of the resistance of the zero potential of the capacitor, which distinguishes the first field-effect transistor 1 u and in order to increase from the voltage on its gate. Output or conversion accuracy due to the signal of the converter has a minimum-optimal balancing of the volt- harmonic coefficient in the case when the resistances of the balanced resistors 8 and 9 are equal to the channel resistance of the first field-effect transistor 1 at zero bias on the gate-current ei O characteristics of the first field-effect transistor, the second. balanced resistor is connected to the inverting input of the operational amplifier.

Re, At the output of the operational amplifier 10, a sinusoidal voltage is formed, and a current of the same magnitude as that of the first field-effect transistor flows through the negative feedback circuit containing the series-connected feedback resistor 12 and the channel of the second field-effect transistor 11 1 than

the temperature instability of the output signal level of the converter due to the mutual compensation of temperature changes in the resistance of the research institutes of the first 1 and second i1 field-effect transistors. In this case, to obtain the best stability, QO-resistance of the feedback resistor 12 must be chosen equal to sum 25

Claims (1)

field-effect transistors must be performed on a single chip, which ensures the best identity of their characteristics and the same temperature conditions. Invention Formula A functional converter containing a first field-effect transistor, 30 a gate of which is connected in parallel by a first bias resistor and a first switching diode to the information input of a converter, and through a parallel-connected 35 bias resistor and a second switching diode to a zero potential bus, the drain of the first field-effect transistor through the first balanced resistor is connected to the information  the inverter input and the source to the first output of the second balanced resistor, the inverting input of the operational amplifier is connected to the drain of the zero potential through the reverse connection resistor connected to the drain of the second 5-wire field-effect transistor; u and with the fact that, in order to increase the conversion accuracy due to the optimal balancing of the volt- ampere characteristics of the first field-effect transistor, the second. output of the second balanced resistor is connected to the inverting input of the operational amplifier.