SU566253A1 - Function converter - Google Patents

Description

(54) FUNCTIONAL CONVERTER

rotating the inputs of the first opamp. The inverting inputs of the second operational amplifier are connected to two inputs of the converter, one of which is connected to the inverting input of a third operational amplifier, and the other to its non-inverting input.

The drawing is a diagram of the function of the Converter.

The functional converter contains operational amplifiers 1 and 2, which have the same gain factors for all inputs, switching diodes 3-6, 7 1O load resistors and operational amplifier 11, which have the same gain factors for all inputs.

The bus of the first input X is connected to one of the two inverting inputs of amplifier 1 and. to the inverting input of amplifier 2, and the second Gvhod% pg6 Y signal is connected to another inverting input of amplifier 1 and to the non-inverting input of amplifier 2. The output of amplifier 1 is through counter-switched on diode 3, and the output of amplifier 2 through consistently turned on diode 5 is connected, respectively, with the first and second inverting inputs of amplifier 11, the output of amplifier 1 through according to the switched on diode 4, and the output of amplifier 2 connected, respectively, with the first and second non-inverting input & amplifier 11, All four inputs of amplifier 11 through resistors 7-1O, respectively, are connected to the zero potential bus. The output of the Z amplifier 11 vl1h: output converter. Diodes 3, respectively, with resistors 7-1O, form four nonlinear voltage dividers: when the diode is open, all the voltage supplied to such a divider falls on the resistor, and when closed, the voltage on the resistor is zero.

The functional converter works as follows. In it, the operation of the ideal multiplication of two signals X n Y is replaced by the operation functional: the transformation veto

2 + Yf-fX-Yl,.

where 2 is the result of the functional conversion of signals X and Y i

C is a constant scale conversion factor; . I I is the sign of the module.

The transformation sign can be replaced | if the positions are inverted and non-inverting the inputs of amplifier 11 or if diodes 3-6 are turned on in the opposite direction.

The proposed functional converter greatly simplifies the implementation of multiplication multiplication, in particular, in analytical self-adjusting systems,

It has a greater zero output stability, and the conversion operation it performs allows it to more accurately withstand arithmetic relations as compared to the known simplifications.

multiply two operations.

Claims (1)

Invention Formula A functional converter containing operational amplifiers, the inputs of the first of which are connected to the ground potential through appropriate load resistors, and the output is the output of the converter, and switching diodes, characterized in that, in order to jure the converter, the outputs of the second and third operational amplifiers through the first and second pairs anti-parallel connected commutating diodes are connected to the inverting and non-inverting inputs of the first operational amplifier; the inverting inputs of the second operational amplifier are connected to two converter inputs, one of which is connected to the inverting input of the third operational amplifier, and the other to its non-inverting input. Sources of inrmatsni. Acceptance of the examination during the examination { . 1, US Patent No. 2900137, cl, 235-194, 1959, 2; Patent of England N 1007953, IL, O-4Q, 1962, 3, US Patent No. 3253135, cl. 235-194, 1966,