SU419909A1 - DIGITAL ANALOG MULTIPLE - Google Patents

Description

one

The invention relates to computing and can be used in devices that produce a voltage proportional to the product of analog and discrete values.

The principles of obtaining a voltage proportional to the product of analog and discrete values are known, using a code-to-voltage converter (VCP) connected to a voltage source whose value is proportional to a given analog value. Such devices contain a smooth potentiometer (analog value sensor), which takes both positive and negative values. The smooth potentiometer is grounded at the midpoint, and the ends of the potentiometer winding are connected to the terminals of the positive and negative polarity sources. The current pickup is mechanically connected to the analog value input roller. A discrete magnitude sensor is a trigger register, to which a code to voltage converter (DC) is connected via a key device control circuit. In the reference voltage circuit, the VCP is cascaded to a smooth potentiometer via a decoupling direct current amplifier (DCA).

Such

The devices have the following disadvantages.

a) In order to ensure that both positive and negative analog values are transmitted through the PKN, complex key devices must be used in the PKN. At the same time, in order to ensure the speed of the VCP, it is necessary to further complicate the indicated key devices by introducing, for example, blocking generators to increase the frequency of the control device for the key device.

b) To ensure the accuracy of the transfer, an approximate value occurs between the current collector of the potentiometer and the code converter to introduce a decoupling direct current amplifier (CTD) into the circuit.

The proposed device differs from the known ones in that a constant displacement source, an additional code-to-voltage converter and a reverse code sensor connected to the secondary

a code-to-voltage converter, the output of which is connected to another input of a summing amplifier, to the third input of which a source of a constant bias is connected, and the output of the code-to-voltage converter

connected to the input of a linear potentiometer.

Such a construction of the device allows to improve the dynamic properties and simplify the design.

The block diagram of the device is shown in the drawing, where the following symbols are taken: 1 - code-to-voltage converter; 2 - direct code sensor; 3 - return code sensor; 4 - additional code to voltage converter; 5 — source of constant displacement; 6 - linear potentiometer; 7 - summing amplifier.

The device works as follows.

A code whose magnitude is proportional to a discrete multiplier is fed to the sensor 2 of the forward code and the sensor 3 of the return code. From the output of the sensor of the direct code, the signal is fed to the input of the converter 1 of the code to voltage, from the output of the sensor of the return code, the input of the additional converter 4 of the code to voltage. The voltage from the output of the converter code to the voltage is applied to the input of the linear potentiometer 6, to which the second factor is mechanically applied. The output signal of the linear potentiometer 6 is fed to the input of summing amplifier 7. The voltage from the output of the additional converter 4 code to voltage is fed to the input of summing amplifier 7, the other input of which is supplied with a compensating signal equal to the maximum signal taken from the code to voltage converter ( 1 or 4). At the output of summing amplifier 7, a signal is generated that is proportional to the product of a discrete value code by an amount proportional to the displacement of the linear potentiometer 6.

Subject invention

A digital-to-analog multiplier containing a linear potentiometer, a summing amplifier, one of the inputs of which is connected to the output of a linear potentiometer, a direct code sensor connected to a code-to-voltage converter, characterized in that, in order to improve the dynamic properties of the device and simplify its design , a constant bias source, an additional code-to-voltage converter, and a reverse code sensor connected to an additional code-to-voltage converter, the output of which is connected, are entered into it. n to the other input of the summing amplifier, to the third input of which is connected a source of DC bias, and an output transducer code voltage connected to an input of a linear potentiometer.