CS243104B1 - Central source's voltage regulator connection for supply of remote consumers - Google Patents

Abstract

The solution concerns the spine engagement central power supply controller remote appliances that have regulation current circuit, circuit select low, circuit select the maximum and the central source will stop, connected to the distribution line will stretch to which appliances are connected. Involved especially suitable for uninterrupted sources DC voltage in direct parallel battery operation a for central sources in telecommunications objects. The essence of the solution lies in Se to the first input (3) of the selection circuit (2) minimum, jehdS output is connected to the first the input (6) of the main controller (5) stops, output connected to the control circuit O), the control circuit is connected (14) The setpoints voltage and the second input (4) the minimum selection circuit (2) is connected the output of the protective regulator (8) stops, with the second input T7) of the main controller (5) The voltage is connected to the first sensor (18) the voltage adjusted at the central output voltage source (16) to the first input (9) the protective regulator (8) stops the source 05) is connected and to the second input (10) of the protective regulator (8) the output is connected (12) a maximum selection circuit (11) of its own inputs are connected by «second sensors (20) voltages provided at the power inputs appliances 09).

Description

(54 | Connection of the voltage regulator of the central source for supplying remote appliances

The solution relates to the connection of a voltage regulator of a central source supplying remote appliances having a current control circuit, a minimum pick-up circuit, a maximum pick-up circuit and a central voltage supply connected to the voltage distribution to which the appliances are connected. The wiring is particularly suitable for uninterrupted DC power supplies in direct parallel operation with a rechargeable battery and for central power supplies in telecommunications objects.

The principle consists in that the first input (3) of the minimum selection circuit (2) is connected to the first input (6) of the main voltage regulator (5), the output is connected to the current control circuit (5), the control circuit is connected. (14) Voltage reference values and a second protective voltage regulator output (8) is connected to the second input (4) of the minimum selection circuit (2), while the second input T7 of the main voltage regulator (5) is connected to the first voltage sensor (18). at the output of the central power supply (16), the reference voltage supply 05) is connected to the first input (9) of the voltage regulator (8) and the second input (10) of the voltage regulator (8) is connected to the output (12) of the circuit (11) selection of maximum, its inputs are connected by second voltage sensors (20) provided on the power inputs of appliances 09).

BACKGROUND OF THE INVENTION The invention relates to a voltage controller of a central power supply for supplying remote appliances having a current control circuit, a minimum selection circuit, a maximum selection circuit, and a central voltage source connected to the voltage distribution to which the consumers are connected.

The hitherto known voltage control circuit for supplying remote appliances regulates the voltage at the output of the central voltage source according to the data of one voltage sensor sensing the magnitude of the voltage in the distribution system, most often closely at the output of the central voltage source.

The main drawbacks of the solutions known so far are that the voltages on the appliances, which differ from the voltage at the output of the central power supply by voltage drops and are therefore dependent on the current consumption of the appliances connected in the distribution between the central power supply and the individual appliances, These appliances are not monitored by the central source voltage regulator on individual appliances. If the current consumption of appliances decreases, they have the same voltage as the output of the central source and if this voltage is out of line with their maximum permissible voltage, there is a danger of their damage. On the other hand, if the voltage of the central power supply is kept at a lower level so that there is no decrease in the consumption to dangerous overvoltages, at full current consumption, the voltage at the most distant appliance may fall below the lower allowable limit.

In addition, in the case of a central DC power supply, the output of which is connected to a rechargeable battery, the voltage at the output of the central power supply is regulated according to charging requirements or battery conservation, and the voltage at the appliances deviates uncontrollably from this voltage. immediate collection.

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

The main advantages of the connection according to the invention are that the voltage at selected consumers or points of voltage distribution is monitored by the voltage regulator and the voltage at the output of the central source is controlled so that the voltage at each device or point of distribution does not exceed a given maximum value. This makes it possible, for example, in the case of a central DC voltage source and a connected accumulator battery, to increase the voltage at the output of the central source above the maximum permissible voltage of the consumers at full current consumption and to charge the battery rapidly. When the current consumption decreases and thus the voltage drop decreases, the regulator automatically reduces the voltage at the output of the central source so that the maximum permissible voltage at the consumers is not exceeded.

In the following, the invention is explained in more detail by way of example with reference to the drawing.

In the accompanying drawing, an exemplary circuit according to the invention is schematically illustrated.

The current control circuit g is connected to the output of the main voltage regulator g. The second input X of the main voltage regulator g is connected to the first voltage sensor 18 at the output of the central voltage gg. A minimum selection circuit 6 is connected to a first input 6 of the main voltage regulator g, a setpoint control circuit gg is connected to a first input g of the minimum selection circuit 2, and a second protective voltage regulator 8 is connected to the second input 6. The reference voltage source gg is connected to the first voltage control input g and the output 12 of the maximum selection circuit 11 is connected to the second input 10 of the voltage protection regulator 8, provided with a signal output 13 of the maximum selection circuit 11. The inputs of the maximum selection circuit 11 are coupled to the second voltage sensors 20 at the power inputs of the appliances 19. The appliances 19 are connected in parallel to a voltage gg that is connected to an oral voltage source 16.

The wiring described operates such that the main voltage regulator g regulates the voltage at the output of the central voltage source 16, measured by the voltage sensor 18, at a value given by the output of the minimum selection circuit 2. The output of the main voltage regulator g is fed to the control circuit i as a reference value of the output current of the central voltage source 16.

Under normal conditions, when the voltage at any of the consumers 19 has not exceeded the maximum allowable value given by the reference voltage source 15, there is at the output of the voltage minimum selection circuit 2 given by the voltage reference circuit 14. If the voltage at one of the consumers 19 exceeds the value given by the reference voltage source gg, the voltage protection regulator 8 decreases its output size below that of the voltage control circuit 14, at the output of the minimum selection circuit 2 and shows the setpoint given by the output. and the main voltage regulator g regulates the voltage at the output of the central voltage regulator 8, the main voltage regulator g decreases and maintains the voltage at the output of the central voltage source 16 so that at any of the consumers 19 the voltage does not exceed the permissible maximum value.

The return to normal mode, when the main voltage regulator g regulates the voltage at the output of the central voltage source 1.6 according to the output of the voltage control circuit gg, occurs when this value is less than the value of the output of the voltage regulator 8. This occurs when, as a result of increased consumption of appliances 19 and thus an increase in voltage drop gj, the voltage protection controller 8 has increased its output size, or when the voltage reference circuit 14 has reduced the reference value at its output. for example, when the battery charging is complete, when the supervision of the appliances 19 is signaled by the signal output 1g of the maximum selection circuit 11. The individual inputs of the maximum selection circuit 1.1 may have different gains from each other. The order of maximum selection and comparison with the reference value can be reversed, that is, each input can be individually compared to the reference value. Function of signal output gg of circuit gg. the selection of the maximum is to signal a fault in the supervision of the voltage on some appliance 19, for example, an interruption or short circuit of the leads.

The signal output 13 of the maximum selection circuit 11 may be connected by a 3 voltage setpoint control circuit 14, which in the event of a supervision failure, will reduce the voltage setpoint at the output of the central voltage source 16.

The connection of the voltage regulator 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, where it is necessary that the supply voltage does not exceed a certain predetermined value. In particular, the circuit 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 a non-sawn central power supply regulator for remote appliances having a current control circuit, minimum selection drain, maximum selection circuit and a central voltage supply connected to the voltage distribution to which the appliances are connected, characterized by the first input (3) a minimum selection circuit (2) whose output is connected to the first input (6) of the main voltage regulator (5), the output is connected to the current control circuit (1), the voltage reference value control circuit (14) is connected and the second input (4) the minimum voltage control circuit (2) is connected to the output of a voltage protection regulator (8), the second input (7) of the main voltage regulator (5) being connected to the first input (16) of the central voltage source (16); 9) a reference voltage source (15) is connected to the voltage regulator (8) and connected to the second input (10) of the voltage regulator (8) n output (12) of the maximum selection circuit (11) whose inputs are connected and second voltage sensors (20) on the power inputs of the appliances (19)