SU136819A1 - Power meter - Google Patents

Description

The known power meters containing quadrants, which serve to obtain currents proportional to the squares of voltages, and the subtraction circuit of the obtained currents with magnetic power sensors, cannot provide high accuracy of measurement due to the instability of the current-voltage characteristic of magnetic chokes, especially with a sufficiently large output power.

In the proposed power meter, a chain of series-connected Zener diodes and resistors is used as quadrs, one ends of which are connected at the junction points of the Zener diodes among themselves, and the other ends are led out to a common point. The use of such quadrants has improved the accuracy of power measurements.

FIG. 1 shows a circuit of the proposed quad, consisting of n {from 1 to n) silicon Zener diodes and n resistances from Gd to, some ends of which are included at the junction points of the diodes with each other, in addition to the resistance Go, and the other ends of all resistances are brought to a common point .

With increasing voltage U,;. at the quadrant input from zero to the maximum, the current flowing through the resistance Go i and the load RH changes in proportion to it. Through the resistance l ,, / 2, Лз, etc., the current does not flow, since the diodes have a large internal resistance in the opposite direction. When an input voltage reaches a certain value, for example, L1, a diode (I) is punched, and the current begins to flow through resistance G, which causes a change in the total resistance of the quadrant. Breakdown of diode 2 will occur when the voltage f / 2, which will also cause a new change in the total resistance of the quad and its current-voltage characteristics.

FIG. Figure 2 shows the volt-ampere characteristic of the quadr during the sequential breakdown of the hSener diodes with increasing voltage at the input.

On the graph, the straight line 0-А shows the change in the value of the current flowing through the load resistance RH, and the broken line 0-Б-В-Г