SU425184A1 - FOUR-SQUADRED POSSIBLE-PERSONAL DEVELOPMENT - Google Patents

Description

one

This invention relates to analog computing.

P-1 is a functional functional transducer containing a thermoregulation unit consisting of a transistor and a bridge with a thermistor, the diagonal of the bridge through the amplifier being connected to the emitterio-base circuit of the transistor, characterized by the input ratio of the input resistance and the dependence of the conversion time on the temperature of the medium.

The purpose of the invention is to improve the accuracy of the device.

This is achieved by the fact that the device contains a resistor-heater and a voltage finisher connected in parallel, whereby the heater-resistor is thermally coupled to the transistor of one thermostatic unit, and the pre-output divider divider is thermally connected to the transistor of the other thermostatic unit and connected to sources input signals.

As a result, the constancy of the device’s input orbit is impoverished and the influence of the external environment on the accuracy of reproduction operations is reduced.

The drawing shows a diagram of the proposed device.

Two series-connected thermal control units consist respectively of

transistors 1 and 2 and lusters 3 and 4 with thermistors 5 and 6. The diagonal of bridges 3 and 4 through amplifiers 7 and 8 are connected to the emitter-base transitions of the corresponding transistors. The transistors are connected to the outputs of a current source 9 and a nanogram divider, consisting of resistors 10 and 11. Thermal resistor-heater 12 is thermally connected to transistor 1, and additional transistor 2 is connected to transistor 1.

a voltage divider of resistors 13n14. A resistor-heater and a down-loop divider of resistors are connected in parallel and connected to the input terminals 15, 16, and 17 of the device. Output voltage

The device is removed from terminals 18 and 19.

A thermoregulation unit, consisting of transistor 1, bridge 3 and amplifier 7, maintains a constant medium temperature. CONSTANTLY power PI, which is composed of the power dissipated by transistor 1 and power dissipated by resistor heater 12.

,

(one)

const,

lu

/ - day off

current throughput 9;

U - voltage on

trapsistor 1; L / BXi, BXj — device input voltages;

RIZ - resistance reznstora heater 12.

The other thermal control unit, comprising a transistor 2, a bridge 4, and an amplifier 8, maintains a constant power P2, consisting of the power dissipated by the transistor 2, and the power dissipated by the resistors 13 and 14 of the additional voltage divider.

ui

S

- const, (2)

P, IU, +

+

U-2 is the voltage across the transistor 2;

where z, Ki4 - resistors 13

and 14.

With equal resistors 10 and 11 and the following conditions are met:

, Rl2,

device output will be equal to

t / iUa

voltage differences and, taking into account

(1) n (2), defined by

G7, BX2

 -7R

Thus, the device performs the operations of four-quadrant multiplication and division of DC voltages, as well as non-multiplicative voltage of one frequency but the formula

g.g3

 -

cos tp,

IR

where f is the phase angle between the input voltages;

Lfgi, Ug, - effective values of input voltages

(Aww, and.

Thermistors 5 and 6 are matched with identical characteristics. In this case, if the above conditions are met, a change in the temperature of the medium causes identical changes in the values of the powers PI and PZ. Thus, the output voltage f / output will not depend on the fluctuations of the ambient temperature.

Subject invention

A four-quadrant multiplying-dividing device containing two thermoregulation units, connected in succession and consisting of a transistor and a bridge with a thermistor, the diagonal of each bridge is connected via an appropriate amplifier to the emitter-base transition of its transistor, as well as a current source whose outputs are connected to transistors and a divider voltage, characterized in that, in order to increase accuracy, it contains a resistor-heater and an additional voltage divider connected in parallel, and this heater resistor is thermally coupled

with a transistor of one thermal control unit, and an additional voltage divider is thermally connected with the transistor of another thermostatic unit and connected to the input sources.