RU2564137C1 - Device for limiting charge current of load capacitor - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: device for limiting charge current of load capacitor comprises direct current source, load capacitor, key, threshold element, comparator, reference voltage source, logic unit and control unit, as well as reactor and diode.

EFFECT: reduced current loads to the feeding direct-current source and load capacitor resulting to improved reliability of their operation.

3 dwg

Description

The invention relates to electrical engineering, in particular to devices for limiting the charging current of a capacitor, in particular for limiting the charging current of a capacitor connected to an inverter input.

A device is known for limiting the charging current of a capacitor (http://electrum-av.com/ru/, Novikov PA. A smooth charge of a capacitance: what to choose? Fig. 1).

A known device for limiting the charging current of a load capacitor consists of a resistor connected between the power source and the load capacitor, a relay with a make contact, connected in parallel with the resistor and a control system that enables the relay to operate when the voltage on the load capacitor increases to a predetermined level or after a certain time moment of inclusion.

The disadvantages of the device are due to the fact that the relay coil in the main mode of operation of the device remains connected to the network, which reduces the resource of its operation and increases the likelihood of failure.

A device is known for limiting the charging current of a load capacitor, which is closest in technical essence to the claimed device (http://electrum-av.com/ru/, Novikov P. A. Smooth charge of a capacitance: what to choose? Fig. 3 - prototype).

The device for limiting the charging current of the load capacitor consists of a key, the power terminals of which are connected between the first output of the power source and the first output of the load capacitor, and the second output of the power source is connected to the second output of the load capacitor directly, and a control unit whose output is connected to the control output of the key . When the power source is turned on, the control system generates control pulses in accordance with the specified algorithm, which causes a periodic key short circuit and a gradual charge of the load capacitor with a corresponding limitation of the charging current value.

A disadvantage of the known device for limiting the charging current of the load capacitor is due to the fact that it does not control pulsed values of the charge current in the intervals of the key conductivity. At the same time, when the charge capacitor charge process is combined with possible random changes in the voltage of the power source in the form of voltage surges, the charge current limitation will differ from the programmed one, and the amplitude of the current pulses at individual switching intervals can exceed the permissible value. In addition, random changes in the load at the output of the device are possible, including emergency modes with a short circuit, which will also cause the current to exceed the permissible value.

The basis of the claimed invention is tasked to eliminate this drawback, i.e. Introduce high-speed protection against an increase in the charge current above the permissible value, thereby increasing the reliability of the device In addition, the introduction of the function of protection against short circuit in the load contributes to the reliability of the device.

The problem is solved in that in a device for limiting the charging current of a load capacitor containing a DC voltage source, a key and a control unit, while the first output of the DC voltage source is connected to the first output of the key, and the second output of the DC voltage source is connected to the first the output terminal of the device for connecting the load capacitor, a threshold element, a comparator, a reference voltage source, a logic unit, a reactor and a diode are additionally introduced, while the input The horn element is connected to the first output of the key, the output of the threshold element and the second output of the control unit are connected to the first and second inputs of the comparator, respectively, the output of the reference voltage source is connected to the third input of the comparator, the output of the comparator and the output of the control unit are connected respectively to the first and second inputs of the logic unit , the output of the logic unit is connected to the control input of the key, the second output of which through the reactor is connected to the second output terminal for connecting the load capacitor, and between the second terminal of the switch and the second terminal of the DC voltage source, a diode is connected by a cathode to the second terminal of the switch.

In the claimed device for limiting the charging current of the load capacitor, the common essential features for him and for his prototype are:

- DC voltage source;

- key;

- Control block;

- the first terminal of the DC voltage source is connected to the first terminal of the switch, and the second terminal of the DC voltage source is connected to the first output terminal of the device for connecting the load capacitor.

A comparative analysis of the essential features of the claimed device for limiting the charging current of the load capacitor and its prototype shows that the first, in contrast to the prototype, has the following distinctive features:

- a threshold element is inserted into the device, connected by its input to the first output of the key;

- a comparator is introduced, the first and second inputs of which are connected to the output of the threshold element and the second output of the control unit;

- a reference voltage source has been introduced, the output of which is connected to the third input of the comparator;

- a logical unit is introduced, the first and second inputs of which are connected to the output of the comparator and the output of the control unit, respectively, and its output is connected to the control input of the key;

- a reactor is connected between the second key terminal and the second terminal for connecting a load capacitor;

- introduced a diode connected between the second terminal of the key and the second terminal of the DC voltage source by the cathode to the second terminal of the key.

Distinctive features of the proposed solution perform the following functional tasks to achieve the desired technical result.

Signs: “... a threshold element is inserted into the device, connected by its input to the first key output, ... a comparator is introduced, the first and second inputs of which are connected to the output of the threshold element and the second output of the control unit, ... a reference voltage source is inserted, the output of which is connected to the third input comparator, ... a logical unit has been introduced, the first and second inputs of which are connected to the output of the comparator and the output of the control unit, respectively, and its output is connected to the control input of the key ”- allow you to control the current of the key path m, measure the voltage drop across the key in the open state and generate, using a logic block, a signal to reduce the duration of the key conduction interval, if the specified voltage drop in the interval of the key’s open state is greater than some specified value determined by the reference voltage source setting.

Signs: “... a reactor is connected between the second terminal of the switch and the second terminal for connecting the load capacitor, ... a diode is connected between the second terminal of the switch and the second terminal of the DC voltage source by the cathode to the second terminal of the switch” - provide a series voltage increment on the load capacitor in the process of its charge with the limitation of the amplitude of the current pulse in the range of key conduction.

Based on the foregoing, we can conclude that the set of essential features of the claimed invention has a causal relationship with the achieved technical result, i.e. due to this combination of essential features of the invention, it became possible to solve the problem. These essential features that distinguish the claimed device for limiting the charging current of the load capacitor from the prototype, together with the features common to it and the prototype, ensure the achievement of the claimed technical result in all cases to which the scope of legal protection applies.

The invention is illustrated by drawings, where in FIG. 1 is a functional diagram of a device for limiting the charging current of a load capacitor; in FIG. 2 - waveforms of signals obtained during circuit simulation of the process of charging a capacitor:

2, a is a view of the control signal U _U (t) at the output of the control unit 3 (control voltage at the input of switch 2);

2, b is a graph of the voltage U _C (t) on the load capacitor (curve 1) and a graph of the charge current I ₃ (t) of the load capacitor (curve 2) when the device is turned on.

In FIG. 3 shows the results of circuit simulation of processes in the device under the following conditions:

3a - with a stepwise increase in the voltage of the power source in the time interval t ₁ -t ₂ after the completion of the capacitor charge: graph I ₃ (t) - current in the load circuit of the device, graph U _U (t) - control voltage at the control input of the switch;

3, b - with a stepwise decrease in the load resistance at the output of the device in the time interval t ₁ -t ₂ after the completion of the capacitor charge: graph I ₃ (t) - current in the load circuit of the device, graph U _U (t) - control voltage at the key input .

A device for limiting the charging current of a load capacitor from a DC voltage source 1 contains a key 2, a control unit 3, a threshold element 4, a comparator 5, a logic unit 6, a reference voltage source 7, a reactor 8, a diode 9, and terminals 10, 11 for connecting a capacitor and load, while the first output of the source is connected to the first output of the key 2 and to the input of the threshold element 4, the output of the threshold element 4 is connected to the first input of the comparator 5, the second input of the comparator 5 is connected to the second output of the control unit 3, the third input the omparator 5 is connected to the output of the reference voltage source 7, and the output of the comparator 5 is connected to the first input of the logical unit 6, the output of the control unit 3 is connected to the second input of the logical unit 6, the output of unit 6 is connected to the control input of the key 2, the second output of the key 2 through the reactor 8 is connected to terminal 10, and the second terminal of source 1 is connected to terminal 11, which are output terminals of the device to which the load capacitor is connected, while between the second terminal of key 2 and the second terminal of source 1, a diode 9 is connected by a cathode to the second key output.

A device for limiting the charging current of a capacitor operates as follows.

When you turn on the device, the control system 3 in accordance with the laid down algorithm generates pulses, which through the logic block 6 are supplied to the control input of the key 2 and cause its periodic inclusion and shutdown. In the interval of conductivity of the key 2, the charge current of the load capacitor flows from the source 1 through the public key 2 and the reactor 8, which causes an increase in the voltage on the load capacitor when the charge current pulse is limited by the inductance of the reactor 8. In the interval of the pause of the key 2, the energy of the reactor 8 is discharged through the load capacitor and diode 9. With each subsequent control pulse, the voltage on the load capacitor increases until its full charge is reached with a given maximum limit charge current pulse in the interval of conductivity of the key 2. This value of the current pulse is determined by the voltage of the power source under constant other conditions. When voltage spikes at the output of power supply 1, the current in the switching interval tends to increase, which leads to an increase in voltage drop on the open key 2. This increased voltage drop will trigger the threshold element 4, the output signal of which is compared on the comparator 5 with the reference signal from reference voltage source 7, the result of the comparison acts on the logic block 6, which accordingly corrects the control signal from the output of block 3 and, as a result, reduces for a long time the interval of conductivity of key 2, limiting the maximum value of the charge current in this interval to an acceptable level. Due to the action of the connection between the second output of the control system 3 and the second input of the comparator 5, this process is limited to the limits of the conduction interval of key 2.

The threshold value of the threshold element depends on the value of the voltage drop across the key when it is open, i.e. in the range of conductivity of the key, which can be determined using the catalog data on semiconductor devices. For example, for a modern 2P829V power field-effect transistor, the technical documentation indicates the channel resistance in the open state R _{SI OTK} = 0.15 Ohm. The maximum drain current of the transistor is limited by the value I _{C MAX} = 20 A. Therefore, if you want to limit the transistor current to an acceptable value, for example, I _DOP = 15 A, then the threshold level of the threshold element should be selected equal to

U _SRAB . = I _ADD R _{S. OTK.} = 15A · 0.15 Ohm = 2.25 V.

The procedure for setting the threshold can be reduced to the choice of a nonlinear link with the corresponding input-output characteristic, for example, a zener diode, or, for more precise tuning, the serial connection of the zener diode and diodes in the forward direction.

When the device is overloaded by the output current or during a short circuit in the load, the process proceeds similarly, i.e. the current on the switching interval tends to an increased value, which also leads to an increase in the voltage drop on the open key 2. Subsequent, at the same time, signal processing, similar to the above, leads to a decrease in the duration of the conductivity interval of switch 2, thereby limiting the maximum value of the load current on This interval is an acceptable level.

The process of measuring the current through switch 2 and the corresponding response of the system to the increased current are maintained even after the charge capacitor is over and switch 2 switches to the constantly open state. Thus, in addition to limiting the charge current of the load capacitor, the device also provides protection against overload currents, including short circuit mode.

Claims (1)

A device for limiting the charging current of a load capacitor containing a DC voltage source, a key and a control unit, wherein the first terminal of the DC voltage source is connected to the first terminal of the key, and the second terminal of the DC voltage source is connected to the first output terminal of the device for connecting the load capacitor characterized in that a threshold element, a comparator, a reference voltage source, a logic unit, a reactor and a diode are additionally introduced into the device, wherein the input is a threshold A new element is connected to the first key output, the output of the threshold element and the second output of the control unit are connected to the first and second inputs of the comparator, respectively, and the output of the reference voltage source is connected to the third input of the comparator, the output of the comparator and the output of the control unit are connected respectively to the first and second inputs of the logic unit, the output of the logical unit is connected to the control input of the key, the second output of which through the reactor is connected to the second output terminal for connecting the load capacitor, and m forward to the second terminal of the key and the second terminal of the DC voltage source is connected to the second diode cathode terminal key.

Images