CS243107B1 - The central power supply control circuit is energized - Google Patents

Abstract

The solution concerns the connection of the control circuit of the central power source and the current control circuit with the central power source, connected to the power distribution, to which the appliances are connected. The connection is particularly suitable for uninterruptible power supplies in direct parallel operation and an accumulator battery and for central sources in telecommunications facilities. The essence of the solution lies in the fact that a voltage regulator (2) is connected to the current control circuit (1) with its output, a control circuit (5) for the voltage setpoint is connected to the first input (3) of the voltage regulator (2), and an output (7) of the circuit (6) for selecting the maximum of the balanced values is connected to the second input (4) of the voltage regulator (2), the main input (9) of the circuit (6) for selecting the maximum of the balanced values is connected to the first voltage sensor (13) at the output of the central voltage source (11), and the supervisory inputs (10) of the circuit (6) for selecting the maximum of the balanced values are connected to the second voltage sensors (15) at the power inputs of the appliances (14).

Description

(54) Connection of the control circuit of the central power supply

Said refers to the connection of a control circuit of a central voltage supply and a control circuit of a current and with a central voltage supply connected to a voltage distribution to which appliances are connected.

The connection is particularly suitable for uninterrupted atte-space power supplies in direct parallel operation and accumulator battery and for central sources in telecommunication objects.

The principle consists in tons that the voltage regulator (2) is connected to the current control circuit (1), the voltage regulator (5) is connected to the first input (3) of the voltage regulator (2) and to the second input (4). ) the voltage regulator (2) is connected to the output (7) of the weighing circuit (6), the main input (9) of the weighing circuit (6) is connected to the first voltage sensor (13), at the central output the voltage sources (11), and the monitoring inputs (10) of the circuit (6) for selecting the maximum of the weighed values are connected and the second sensors (15) do not drink at the power inputs of the appliances (14).

BACKGROUND OF THE INVENTION 1. Field of the Invention The invention relates to the connection of a control circuit of a central voltage supply and a control circuit of a current and a central voltage supply connected to a voltage distribution to which consumers are connected.

The known circuitry of the central power supply circuit used to power remote appliances, regulating the voltage at the output of the central power supply according to the data of one voltage sensor sensing the magnitude of the voltage in the power distribution, most often seals at the central power supply output.

The main disadvantages of the solutions known so far are that the voltage at the appliances, which differ from the voltage at the output of the central source by voltage drops and is therefore dependent on the current consumption of the appliances connected in the distribution between the central source and individual consumers, of these appliances is not monitored on individual appliances by the central source voltage regulator. If the current consumption of the appliances decreases, they have the same voltage as at the output of the central source and if this voltage is higher than their maximum permissible voltage, there is a risk of damage.

On the other hand, if the voltage of the central source is kept lower so that no dangerous overvoltage can occur in the event of a drop in demand, the voltage at the most distant appliance may drop below the lower permissible limit.

Moreover, in the case of a central DC voltage source whose output is connected to a rechargeable battery, the voltage at the central source output is regulated according to the charging requirements or the battery conservation and the voltage on the appliances deviates uncontrollably from this voltage. immediate collection.

These disadvantages are eliminated by the circuit according to the invention which consists in that a voltage regulator is connected to the current control circuit, a voltage setpoint control circuit is connected to the first voltage regulator input and a selection circuit output is connected to the second voltage regulator input. of the weighing maximum, the main input of the weighing maximum selection circuit being connected to a first voltage sensor at the output of the central voltage source, and the monitoring input of the weighing maximum selection circuit being connected to second voltage sensors at the power inputs of the appliances.

The main advantages of the circuitry according to the invention are that the voltage at selected consumers or voltage distribution points is thereby monitored and the voltage of the central source output is controlled so that the voltage at each consumer or the distribution point monitored does not exceed a given maximum value. This makes it possible, for example, in the case of a central DC power supply with a connected accumulator battery, to increase the voltage at the output of the central power supply above the maximum permissible voltage of the consumers at full current consumption of the consumers and to charge the battery quickly.

In the event of a drop in the current consumption and thus a drop in the voltage distribution, the circuit according to the invention automatically reduces the voltage at the output of the central source so as not to exceed the maximum allowable size at the consumers.

An example of a circuit according to the invention is schematically shown in the attached drawing.

A voltage regulator 6 is connected to the current control circuit 2 by its output.

The voltage setpoint control circuit 6 is connected to the first input J of the voltage regulator 2 and the output 2 of the maximum weighted value circuit 6 is connected to the second input 6 of the voltage regulator 2, the output of which is the wiring signal output 8. The main input 6 of the maximum weighted value circuit 6 is coupled to a first voltage sensor 13 provided at the output of the central power supply 11, which is connected to the voltage distribution 12. The monitoring inputs 10 of the maximum weighted value selection circuit 6 are coupled to the second voltage sensors 15, which are provided at the power inputs of appliances 2a.

Consumers 14 are connected in parallel to a voltage distribution 12.

The described circuit works in such a way that the voltage regulator 6 regulates the voltage at the output of the central voltage source 11 according to the voltage setpoint applied to the first voltage regulator input 6 from the voltage setpoint control circuit 6 and output J of circuit 6 to select the maximum of the weighed values. This control is effected by means of a current control circuit to which the output variable of the voltage regulator 6 is supplied as a function of the output current of the central source. Tension. The main input 6 of the maximum weighing value circuit 6 is supplied with an indication of the actual voltage value at the output of the central voltage source 11 from the first voltage sensor 13. Supervisory inputs 10 of the weighing maximum circuit 6 are fed with the actual voltage values at consumers 18 from the second voltage sensors 15, but are compared with the value at the main input 6 of the weighing maximum circuit 6 with a greater weight. If the ratio of the voltage at the output of the central voltage source 11 and at all the consumers 14 is greater than the inverse of the weighing ratios of the main input weight circuit 6 for the maximum weighing value circuit 6 and the supervisory inputs 10 for the maximum weighted value circuit 6 selection of maximum weighed values data from the first voltage sensor 13.

Otherwise, when the ratio of the voltage at the output of the central voltage source 11 and some of the consumers 14 is less than the reciprocal of the ratio of the weights of the main input 6 of the maximum weighing value circuit 6 and the monitoring inputs 10 of the maximum weighing value circuit 6 of the maximum weighted value selection circuit 6 is the weighted value of the second voltage sensor 15 on this consumer Jg. Thus, the voltage regulator 2 regulates the voltage at the output of the central power supply 11 at the output of the central voltage source 12 according to the data of the first voltage sensor 13, and at a small voltage drop at the voltage distribution according to the data of one of the second voltage sensors 15.

The weights of the supervisory inputs 10 of the maximum weighted value selection circuit 6 are selected such that even at the highest set point entered by the voltage setpoint control circuit 6 and at the lowest voltage drop across the voltage distribution 12, the voltage at the loads 14 does not exceed the maximum allowable value. The function of the signaling output 8 of the wiring is to indicate a fault in the supervision of the voltage at one of the consumers Jg, for example, an interruption or short-circuit of the leads. The wiring signal output 8 can be coupled to the voltage setpoint control circuit 8, which in the event of a supervision failure, allows to reduce the voltage setpoint at the output of the central power supply. Tension.

The control circuit circuit according to the invention can be used for all sources from which the voltage is distributed over longer lines to a single appliance or to a plurality of appliances for which the supply voltage must not exceed a certain predetermined value. In particular, the circuitry according to the invention is suitable for use in uninterrupted direct current power sources in direct parallel operation with a rechargeable battery and in central sources in telecommunications objects.

Claims (1)

SUBJECT OF THE INVENTION Connection of the central voltage supply control circuit with the current control circuit and the central voltage supply connected to the voltage distribution to which the appliances are connected, characterized in that a voltage regulator (2) is connected to the current control circuit (1) to the first input ( 3) a voltage setpoint control circuit (5) is connected to the voltage regulator (2) and to the second input (4) of the voltage regulator (2) is connected the output (7) of the maximum weighted circuit (6), the main input (9) the weighing maximum circuit (6) is connected to a first voltage sensor (13) at the output of the central voltage supply (11), and the monitoring inputs (10) of the weighing maximum circuit (6) are connected to the second sensors (5). ) voltage at the power inputs of appliances (14). _drawing