SU397924A1 - LINEAR DIODE CELL - Google Patents

Description

The invention relates to the field of analog computing and can be used in functional converters for reproducing various piecewise linear dependencies. Diode cells are known, containing two resistors, the connection of the sources of the reference and input voltages to the diodes, one of which is the output and the other is used to reduce the reverse current of the output diode. However, a change in the steepness of the current-voltage characteristics and a deterioration in the thermal stability of the circuit at the site when the output diode is in the current state, caused by a change in the resistance of the output diode as the current flows through it, reduces the accuracy of the cell. The aim of the invention is to create a diode cell with a constant steepness of the current-voltage characteristic and improvement of its thermal stability. This goal is achieved by compensating for the change in the resistance of the output diode using an additional diode, which is constantly in the closed state and connected in parallel to one of two series-connected resistors connected to an input voltage source with an output diode. The scheme of the described diode cell is given in the drawing. The cell contains a cut, sources /, 2, 3 and semiconductor diodes 4-6. Resistors I, 2, 3 are connected in series between the input and reference voltage sources. Parallel to the resistor 1, a diode 4 is turned on, which is in the closed state. The diode 5 through which the output current flows is connected to the connection point of resistors 2 n 3. The bottom 6 connects the same point with a polarity opposite to the polarity of diode 5, which serves to reduce the reverse current of diode 5. At small input voltages the output bottom 5 is closed, and the current at the output of the cell is almost zero. Then, and when the input voltage reaches a value equal to the predetermined fracture voltage of the cell, the voltage sign on the output diode 5 changes, and it opens. A further increase in the input voltage leads to an increase in the output current flowing through diode 5, which, in turn, leads to a decrease in its resistance. At the same time, due to an increase in the input voltage, an increase in

resistance of diode 4, which is constantly in the closed state. The values of resistors 1–3 were chosen so that the change in resistance of diode 5 K01 was affected by the change in resistance of diode 4, and in the current – voltage characteristic of the cell and its slope in the region when the output diode was open, (equal to the given value).

The subject of the invention is a linear diode cell containing two series-connected resistors, to a common point of which two diodes are connected, characterized in that, in order to maintain the steadiness of the current-voltage slope and increase thermal stability, it additionally contains a diode and a resistor connected in parallel and connected in series with one of the resistors.

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