SU415598A1 - - Google Patents

Description

one

The invention relates to the field of electrical measuring equipment.

The known functional frequency converter for pulse-to-direct current, which contains linear integrators connected in parallel to a common current meter, each of which is formed by an integrating circuit, a linearizing transistor and a charge normalizer, does not allow conversion according to any law, which is characterized by a positive decreasing derivative, and to ensure that the output signal is independent of the change in the voltage value of the power source.

The proposed device differs from those known in that each integrator, except the last one, is equipped with a zener diode with a ballast resistor and a silicon diode, which is connected between the connection point of the linearizing transistor with the integrating circuit and the connection point of the first terminals of the Zener diode and the ballast resistor, the second terminals of which are connected to potential and zero source of food.

Such an embodiment of the device allows the conversion to be performed according to any law, which is characterized by a descending and decreasing derivative, and to ensure that the output signal is independent of the variation in the amount of discharge of the power source.

Pa drawing and block diagram of the device described.

The device consists of potential 1, zero 2 and signal 3 power supply sources, integrators, each of which is formed by a normalizer of electric charge 4, a linearizing transistor 5, a capacitor 6, an integrating circuit resistor 7, and also (this applies to all integrators except the next ) a silicon diode 8, a ballast resistor 9 and a zener diode 10, and a measuring device 11.

The device works as follows.

The input pulses with a measured frequency follow / are fed to the inputs of the integrators and start their electric charge normalizers 4. Standardized electric charges from each normalizer are fed to the emitter base of the linearizing transistors 5 and jump to their collector prices for integrated circuits made on the resistor 7 and the capacitors 6. The frequency of the electric charges is linearly converted at each integrator into direct current flowing through the resistor 7 to the measuring device 11, and in proportion voltage to it on the integrating circuit. The steepness of the current increase and the pressure on the pulse frequency fx for each integrator are chosen based on the given transformation law. With frequency /. The output current through the measuring device 11 and its change is determined by the total action of all the integrators. When increasing the frequency fx to the value fi corresponding to the first inflection point on the conversion curve, the voltage on the integral circuit, the circuit reaches the voltage value of the breakdown voltage of the Zener diode 10 of the first integrator and the silicon diode 8 of the first integrator opens; A further increase in the current from this integrator in the measuring device ceases and the value of the current (i) is maintained at the achieved level. A further change in the current through the measuring device with increasing frequency / X fi is provided by all the other integrators, except the first, which leads to a decrease in the circular change in the current through the measuring device from the pulse frequency in the region. As the frequency fx increases to the value of fz corresponding to the second inflection point on the conversion curve, the current in the meter from the second integrator increases.

As a result, further measurement of the current through the meter is provided by all integrators except the first and second.

With a further increase in the frequency fx to the value of fa, D, fi ,,, fm-i, the buildup of currents through the measuring device from the third integrator at fx / 3 and so on up to (t - 1) - 20 integrators is sequentially replicated.

When the change in current flowing through the measuring instrument is steep, it is determined only by the last integrator, the output current of which varies linearly throughout the entire dianzone frequency conversion followed by pulses from O to / max. Thus, a piecewise linear approximation of the specified pulse frequency occurs. fx to direct current / by changing the slope of the approximation curve, and

The integrator zener diodes can have the same reference voltage as well as different voltages, leading to increased functional conversion capabilities.

Subject invention

Pulse-to-current functional frequency converter containing parallel linear integrators connected in parallel to a common current meter, each of which is formed by integrating an IM circuit, linearizing transistor and charge normalizer, differing

By the fact that, in order to carry out the transformation according to any law that is characterized by a positive decreasing derivative, and to ensure that the output signal is independent of the change in the voltage value of the power supply, each integrator, except the last, is equipped with a zener diode with a ballast resistor and a silicon diode that is connected between the point of connection is linearized by 1, its trapsistor with and integrated

the contour and point of connection of the first terminals of the Zener diode and the ballast resistor, the second terminals of which are connected to the potential and zero buses of the power supply.

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