SU1051722A1 - Device for choosing continuous signal according to majority principle - Google Patents

Abstract

DEVICE OF SELECTION OF CONTINUOUS SIGNAL BY THE PRINCIPLE OF MOST, containing P diode bridges (where P 2 is an odd number), one diagonal of which is connected to the corresponding input busbars through the other balanced busbars characterized in that, in order to improve accuracy, 2 P diodes are inserted in it, which are pairwise connected in series, the outputs of each pair of diodes are connected in the conductive direction to the first diagonal of the corresponding etstvuyuschih diode bridges, and the total point of connection of each pair of diodes is connected to the input bus followed. $

Description

I Equation is related to airborne and automagical and can be used to build reheping systems. It is known a device for selecting a continuous signal, the principle of the majority, containing five single bridges (where P is the number of redundant devices and is not more than 2), 2 n balanced resistors and a DC voltage source, only diagonal diode bridges, unidirectional conduction through balanced resistors are connected to a common voltage source, and the diagonal sec on one side are connected to the reserved devices, and on the other side form a common output point. The disadvantage of the known device is that The output voltage from the input signals h depends on the increment caused by the presence of the setting current Q in the circuits of the failed backup devices (. These currents (m o) (H1 is the number of failed devices / branching between the serviceable (p-rn) devices , caused by the non-linear impedance n-1 of the diode bridges between t.A. and b.The voltage drop, which is constantly included in the component, into the conglomerate output voltage of the device, reducing its accuracy. The invention is an increase in accuracy. The goal is achieved by the fact that in a device for selecting a continuous signal according to the majority principle, there are P diode bridges (where (1 2 odd number), one diagonal through balanced resistors connected to the corresponding power source, and the other connected to one output to the corresponding input busbars and the other to the output bus, 2 diodes are inserted, which are connected in pairs consistently in series, the conclusions of each pair of diodes are connected in the conducting direction to the first diagonal of the corresponding diode bridges, The common connection point of the diodes of each pair is dinene with a subsequent input bus. The drawing shows the electrical circuit of the device.The device contains diode bridges balanced resistors 2, source 3 voltage, diodes} and T). 22 The proposed device also contains n diode bridges 1, diagonals having unidirectional conductivity (vol. 8 and 9), which through balanced resistors 2 are connected to the source 3 voltage. The second diagonals on the one hand are connected to the reserved devices, and on the other hand (v.7) they form a common input bus. In addition, the device contains 2tT diodes (4 and 5), combined in isolated pairs. The outputs of each pair of diodes are connected in a conducting state to the outputs of the diagonals of the corresponding diode bridges (so 8 and 9), and the common connection point of the diodes of each pair (Y.S.) is connected to the subsequent redundant bus in a ring pattern. The device works as follows. In good condition of all C of the instruments being repaired, the potentials of vol. 6 and 7 of the diagonals of the diode bridges, and so on, are equal to 1 and are equal to the current values of the input signals of the backed up instruments. In case of failure of the device (when O) the potential of .6, ia increases, therefore, the potential of t8 f-th and (i -1) -th diode bridges also tends to increase. . Consider the process of stabilization-potential v.8 in the 1-st bridge. Its initial potential (other moment of failure of the i -th device) is rigidly fixed by the current value (+1) of the reserved device through the open diode 5. At the same time, the excess current arrives at the output of the device through the diode of the same bridge connected by an anode to V8, and the cathode to V.7, and zamzhazhaetsya through an open diode 5 to (1 +1) redundant device, thereby stabilizing the potential of T. 8 at the level of the original good condition. Due to the stabilizing effect, the anode 5, the current passes to the output of the device, and, therefore, does not create an increment in the output averaged voltage. Diode 4 will be closed by the reverse voltage of the failed (th redundant device. At the same time, the failure of the device and the diode 4 in the (1. -1) diode bridge tends to change the potential of vol. 8, and therefore skip the excess current f (J (on the output of the device. But the potential of the TB in the (-1) diode bridge, in turn, is rigidly fixed by the current value of the (-1) th backup device through the bridge diode connected by an anode to V8., and the cathode to tb, short circuit excess current j jg to (i, -1) redundant device. Diode 5 will be locked by reverse voltage If the device fails (when A 1 0, the stabilization process is similar to the written one, but in this case stabilization takes place. 9. The error at the output of the device is determined by the expression chr p 15 - the voltage error level of the failed channel relative to the arithmetic mean value of the output voltage of the device-3) the direct resistance of an open diode; Rg is the nominal balance of the resistor at a given current of r When the condition R 5 1 r is met It should be noted that the known device is It is only effective when the diode bridges are supplied with the setting current Q from the additional high-voltage source, when the reduction of its voltage to the maximum value of the voltage of the input signals is at least 5-10 times. The proposed device does not require a low voltage high voltage source. For normal operation, a low-voltage source is sufficient, the voltage of which is commensurate with the maximum voltage of the input signals with a ratio of 1.2-1.5. This additional advantage of the proposed device allows the use of the same voltage sources as for powering integrated circuits, which in turn increases the reliability of the device, as well as reduces its cost and size.

Claims (1)

(54) (57) CONTINUOUS SIGNAL SELECTION DEVICE FOR THE PRINCIPLE OF 'MOST', containing P diode bridges (where And> 2 is an odd number), one diagonal of which is connected through balanced resistors to the corresponding buses of the power source, the other is connected by one output to the corresponding input '' buses, and others - to the output bus, characterized in that, in order to improve accuracy, 2 AND diodes are introduced into it, which are pairwise connected in series, the outputs of each pair of diodes are connected in the conducting direction to the first diagonals of corresponding diode bridges, and the common point of connection of the diodes of each pair is connected to the subsequent input bus.