RU2796095C1 - Voltage switch with overcurrent protection - Google Patents

Abstract

FIELD: electronic engineering.

SUBSTANCE: invention is intended for switching DC and AC power circuits. Voltage switch with overcurrent protection additionally contains a microcontroller, a non-volatile data memory associated with it, a means for emitting coded signals, a means for receiving coded signals, an autonomous power source, a power source for internal circuits, and a short-term power interruption sensor.

EFFECT: expansion of functionality and scope, as well as simplification of implementation of protection against overcurrent and temperature, by giving the voltage switch the ability to separately control several loads, including remotely, as well as through the use of a microcontroller

11 cl, 1 dwg

Description

The invention relates to the field of electronic engineering and is intended for switching DC and AC power circuits.

Known voltage switch with load block protection against current overload (RF Patent No. 2240647 C1, H03K 17/08), containing a current sensor, a means of execution, a comparator and a reference voltage source.

The disadvantages of this device are limited functionality and scope. This device has both transient and steady state overcurrent protection, but the transient protection only works correctly when the switch is turned on, and when the switch is already turned on, the voltage reference is set to control the steady state current, so the protection can operate when even a small inrush current is superimposed on the main current consumed. In addition, there is no protection against overheating of power electronic components. It also does not provide for the possibility of separate control of several loads and, moreover, remotely.

The closest technical solution to the proposed device is a voltage switch with overcurrent protection (RF Patent No. 2321164 C1, H03K 17/08), containing a current sensor, a means of execution connected through a current sensor and a load unit with a source of switched voltage, a comparator, indicator, reference voltage source and temperature sensor.

The disadvantages of this device are also limited functionality and scope. It does not provide for the possibility of separate control of several loads and, moreover, remotely.

The technical result to which the invention is directed is to expand the functionality and scope, as well as to simplify the implementation of protection against overcurrent and temperature, by endowing the voltage switch with the ability to separately control several loads, including remotely, as well as through the use of a microcontroller.

The specified technical result is achieved by the fact that a microcontroller is additionally introduced into the voltage switch with protection against overcurrent, containing a current sensor, a means of execution connected through a current sensor and a load unit with a source of switched voltage, a comparator, an indicator, a reference voltage source and a temperature sensor. , the non-volatile data memory associated with it, a means for emitting coded signals, a means for receiving coded signals, an autonomous power source, a power source for internal circuits and a short-term power interruption sensor capable of recording the moment of power off and the moment of its renewal without interrupting the power of internal circuits, in addition, the execution means is made with at least one execution element for switching the corresponding number of loads of the load unit, and the means for emitting coded signals together with an autonomous power source is structurally made separately from the main module in the form of a remote control, with at least one control in the form buttons, moreover, the microcontroller is connected to the outputs of the means for receiving coded signals, the comparator, the sensor for a short-term power interruption and to the inputs of the execution organs of the execution facility, the reference voltage source and the indicator, in addition, the output of the current sensor, together with the output of the temperature sensor, is connected to the first input of the comparator, the second the input of which is connected to the output of the reference voltage source, and the input of the short-term power interruption sensor is connected to the power supply of internal circuits, which, in turn, is connected to the switched voltage source, while the microcontroller is configured to:

1) after pressing the button of the remote control at least once, as a result of which the corresponding number of bursts of coded signals are emitted, taking into account the code of bursts received by the means of receiving coded signals, their number, as well as the duration of the final burst, corresponding to the time of the final holding of the button remote control in the pressed position, write information about the code and the number of received packs in the non-volatile data memory, compare the received information with the already recorded one and, depending on the result of the comparison, write new information, erase the old one and change the state of the corresponding execution organs;

2) after at least a single short-term disconnection of the switched voltage source, for example, by a manual switch, taking into account the number of disconnections recorded by the short-term power interruption sensor, change the state of the relevant execution units, and, as for at least a double disconnection, then at the first when disconnected, switch all execution elements to the open state, and when the switched voltage source is finally turned on, set the state of execution elements taking into account the number of disconnections;

3) when the comparator is triggered by the output signal of the current sensor acting at the first input of the comparator, at the beginning of the transient process, replace the default minimum reference level at the second input of the comparator, which controls the measured current in the steady state, with the maximum reference level, which controls the measured current in transient, for a time sufficient for the comparator to react, and then re-set the minimum reference level;

4) after the comparator is triggered, switch the execution elements to the open state immediately if the signal at the first input of the comparator, determined by the output signal of the current sensor, exceeds the maximum reference level set at the second input of the comparator, or after a specified time interval, if this signal, determined by the output signal temperature sensor, or the output signal of the current sensor at the end of the transient, after exceeding the minimum reference level set at the second input of the comparator, will not return the comparator to its original state.

The duration of the final burst of coded signals arriving at the means of receiving coded signals, which corresponds to the time of the final holding of the remote control button in the pressed position, when writing or erasing information in the non-volatile data memory, must be more than the value selected from the range of 1 ... 7 seconds, and when managing the state of execution organs, it must be less than this value, but more, in turn, the selected value from the range of 0.1 ... 0.7 seconds of the permissible values of the remaining burst durations and intervals between them.

The microcontroller can be configured to turn on the indicator when power is applied to the voltage switch, turn it off when the remote control button is pressed, briefly turn on when the duration of the final packet of coded signals reaches a predetermined value, and finally turn on when the pressed button is released.

The duration of a short-term disconnection of the switched voltage source, for example, by a manual switch, as well as the duration of the intervals between disconnections in case of multiple short-term outages, are selected from the range of 0.1 ... 0.7 seconds.

A push-button switch connected to the microcontroller can additionally be introduced into the voltage switch, and the microcontroller, at the same time, should be made with the possibility, after at least a single press on the entered push-button switch, taking into account the number of presses, to change the state of the corresponding execution organs, choosing the duration clicks and intervals between clicks from the range of 0.1 ... 0.7 seconds.

The time sufficient for the comparator response, for which, when it is triggered, it is necessary to replace the default minimum reference level with the maximum reference level at the second input of the comparator, is selected from the range of 0.01 ... 0.1 milliseconds.

The duration of the specified time interval, after which the execution units switch to the open state after the signal at the first input of the comparator exceeds the minimum reference level set at the second input, is selected from the range of 0.001 ... 1 second, taking into account the expected duration of the transient process with possible load surges.

It is advisable to make the microcontroller with the ability, when switching the execution elements to the open state, after the comparator is triggered, to simultaneously switch the indicator to the flashing mode.

It is advisable to use an LED as an indicator.

The comparator, reference voltage source and non-volatile data memory are built-in components of the microcontroller.

It is advisable to make the means for receiving coded signals in the form of an IR receiver, and use a remote control with infrared radiation as a remote control.

The drawing shows a block diagram of a voltage switch with overcurrent protection.

The voltage switch contains a current sensor 1, a means of execution 2 connected through a current sensor 1, a load unit 3 and a manual switch 4 with a source of switched voltage 5, a comparator 6, an indicator 7, a reference voltage source 8, a temperature sensor 9, a microcontroller 10, connected to non-volatile data memory 11, a means of emitting coded signals 12, a means of receiving coded signals 13, an autonomous power supply 14, a power supply for internal circuits 15, a short-term power interruption sensor 16, capable of recording the moment of power outage and the moment of its renewal, without interrupting the power supply to internal circuits , and a push-button switch 17, in addition, the means of execution 2 is made with two bodies of execution 18 and 19 for switching two loads 20 and 21 of the load unit 3, and the means for emitting coded signals 12 together with an autonomous power supply 14 is structurally made separately from the main module in the form remote control 22 with three controls in the form of buttons 23, 24, 25, and the microcontroller 10 is connected to the outputs of the means for receiving coded signals 13, the comparator 6, the short-term power interruption sensor 16, the pushbutton switch 17 and with the inputs of the executive bodies 18 and 19 of the means version 2, a reference voltage source 8 and an indicator 7, in addition, the output of the current sensor 1 together with the output of the temperature sensor 9 is connected to the first input of the comparator 6, the second input of which is connected to the output of the reference voltage source 8, and the input of the short-term power interruption sensor 16 is connected to power supply for internal circuits 15, which, in turn, is connected to the switched voltage source 5 through current sensor 1 and manual switch 4.

Voltage switch with overcurrent protection operates as follows.

In the proposed voltage switch for controlling the bodies of execution 18 and 19, a remote control 22 is provided, which is advisable to choose from among those commercially available with infrared radiation while simultaneously performing the means for receiving coded signals 13 in the form of an IR receiver.

To implement such control of the execution bodies 18 and 19, the microcontroller 10 is made with the possibility, after at least a single press on one of the buttons 23 ... by means of receiving coded signals 13, their number, as well as the duration of the final burst, corresponding to the time of the final holding of the selected button 23 ... already recorded and, depending on the result of the comparison, write new information, erase the old one and change the state of the corresponding execution organs 18 and 19.

In this case, it should be taken into account that the complete information about the encoded signal code is guaranteed to be contained only in the first command word of the pack, and the command word can be different for even and odd pressing of the buttons 23 ... 25 of the remote control 22.

In the voltage switch shown in the drawing, double pressing the buttons 23 ... 25 of the remote control 22 is taken to control the performance body 18, and three times to control the performance body 19.

Given the above, after pressing the button 23 of the remote control 22 twice, two packets of coded signals are emitted, which are received by the means of receiving coded signals 13. In this case, the microcontroller 10 in the non-volatile data memory 11 records information about the code and the number of packets, which in this case equals two, after the final holding of the button 23 in the pressed position for more than 5 seconds.

In the same way, after pressing the button 24 of the remote control 22 three times, three packets of coded signals are emitted, which are received by the means of receiving coded signals 13. In this case, the microcontroller 10 in the non-volatile memory data 11 records information about the code and the number of packets, which in this case is equal to three, after the final holding of the button 24 in the pressed position for more than 5 seconds.

Similarly to the previous one, using the button 25 of the remote control 22, first, information about the code and the number of packs is recorded after pressing the specified button 25 twice with a final hold in the pressed position for more than 5 seconds, and then after pressing the same button 25 three times and also with a final hold in the pressed position for more than 5 seconds.

Now the performance organ 18 responds to pressing buttons 23 and 25 of the remote control 22 twice after the final hold in the pressed position for more than 0.5 seconds, but less than 5 seconds, and the performance organ 19 - to pressing the buttons 24 and 25 three times, also after the final hold in the pressed position for more than 0.5 seconds, but less than 5 seconds.

Recorded in the non-volatile data memory 11 information can be erased.

By double pressing the button 23 or 25 of the remote control 22 with the final holding of the selected button 23 or 25 in the pressed position for more than 5 seconds, two packets of coded signals are emitted, which are received by the means of receiving coded signals 13. In this case, the microcontroller 10 compares the received information with the recorded in the non-volatile data memory 11 and, with a positive result, erases in the non-volatile data memory 11 information about the number of clicks associated with the recorded code, after which the organ of execution 18 is no longer controlled by the button 23 or 25, respectively.

In the same way, the information in the non-volatile data memory 11 is erased when the button 24 or 25 of the remote control 22 is pressed three times, after which the performance organ 19 ceases to be controlled by the button 24 or 25, respectively.

In addition, it is also possible to use a single press of the buttons 23 ... 25 of the remote control 22 to control the state of the execution organs 18 and 19, as well as to erase the information recorded in the non-volatile data memory 11.

Thus, after a single press of the button 23 or 24 of the remote control 22 for more than 0.5 seconds, but less than 5 seconds, it changes its state to the opposite execution organ 18 or 19, respectively, and after a single press of the button 25 also to time more than 0.5 seconds, but less than 5 seconds, change their state to the opposite simultaneously, both execution organs 18 and 19.

In this case, a single press on any button 23 ... 25 of the remote control 22 for more than 5 seconds erases all previously recorded information in the non-volatile data memory 11.

In the proposed voltage switch, the non-volatile data memory 11 is capable of storing encoded information from multiple sources. For example, if there are four of them, then information from the fifth source is written in place of the first one, and so on in a circle.

The proposed voltage switch also has the ability to control execution units 18 and 19 using manual switch 4.

In the voltage switch shown in the drawing, a double or triple short-term shutdown of the switched voltage source 5 by a manual switch 4, with a shutdown duration and intervals between shutdowns of 0.1 ... , which changes the state of the executive body 18 or 19, respectively. Moreover, at the first shutdown, the execution bodies 18 and 19 switch to the open state, and when the switched voltage source 5 is finally turned on, they acquire a state in accordance with the number of shutdowns made.

In addition, after a single short-term shutdown of the switched voltage source 5 by the manual switch 4 for a period of 0.1 ... 0.7 seconds, the microcontroller 10 changes the states of both execution elements 18 and 19 to the opposite ones.

You can also control the state of the execution organs with the pushbutton switch 17. After pressing the pushbutton switch 17 twice or three times, with a duration of pressing and intervals between pressing 0.1 ... 0.7 seconds, the microcontroller 10 controls the standing of the execution organs 18 or 19, respectively, and after a single press of the button switch 17 for a period of 0.1...0.7 seconds, the microcontroller 10 changes the state of both execution organs 18 and 19 to the opposite ones.

The proposed voltage switch provides protection against exceeding the permissible values by the current measured by the current sensor 1 and the temperature measured by the temperature sensor 9, the outputs of which operate at the first input of the comparator 6. In this case, the protection for the measured current is two-level: by the value in the steady state and by the maximum value in the transient process. To control the current in the steady state, a minimum reference level is provided, acting on the second input of the comparator 6 by default. To control the maximum value of the current in the transient, a maximum reference level is provided, which is connected by the microcontroller 10 to the second input of the comparator 6 instead of the default minimum reference level.

Protection works as follows.

Switching the execution bodies 18 and/or 19 in the closed state causes a transient.

If the output signal of the current sensor 1, acting at the first input of the comparator 6, at the beginning of the transient process exceeds the minimum reference level set by default at the second input of the comparator 6, and the comparator 6 changes its state, then the microcontroller 10 will set the maximum reference level at the second input of the comparator 6 . If, at the same time, the output signal of the current sensor 1 exceeds the maximum reference level set at the second input of the comparator 6 and the comparator 6 changes its state, then the microcontroller 10 will switch the execution elements 18 and 19 to the open state while simultaneously switching the indicator 7 to a flashing mode, which is removed when trying to change the state of the executive bodies 18 and/or 19 and provided there is no overcurrent.

If the output signal of the current sensor 1, acting at the first input of the comparator 6, during the time required for the reaction of the comparator 6 does not exceed the maximum reference level set at the second input and the comparator 6 is in its initial state, then the microcontroller 10 will set the minimum value at the second output of the comparator 6 reference level. If, at the same time, the output signal of the current sensor 1, acting at the first input of the comparator 6, continues to exceed the minimum reference level set at the second input, and the comparator 6, having changed its state, does not go back to its original state, for example, within a specified time interval 0, 12 seconds, taken from the range of 0.001 ... 1 second of possible durations of transients, then the microcontroller 10 will switch the execution elements 18 and 19 to the open state while switching the indicator 7 to a flashing mode, which is removed when you try to change the state of the execution elements 18 and / or 19 and provided there is no overcurrent.

If, after exceeding the output signal of the temperature sensor 9, acting on the first input of the comparator 6, set on the second input of the minimum reference level, the comparator 6, changing its state, does not return to its original state, for example, within a time interval of 0.12 seconds, taken from the range of 0.001 …1 second of possible values, then the microcontroller 10 will switch execution elements 18 and 19 to the open state with simultaneous switching of indicator 7 to the blinking mode, which is removed when an attempt is made to change the state of execution elements 18 and/or 19 and provided that there is no temperature overload.

Thus, in the voltage switch under consideration, in comparison with the known one, by fairly simple means, wide functionality is implemented in the presence of two-level protection against current overload and protection against temperature overload of execution elements made on electronic components, due to the ability to separately control several loads, including remotely, as well as through the use of a microcontroller.

Ease of use, a convenient way to control multiple loads, as well as the possibility of using remote controls for commercially available electronic equipment with the direct use of their coding properties, make the voltage switch in question very attractive for mass production and mass use, especially in the domestic sector, for example, to control lamps , fans and other electrical appliances.

Claims (15)

1. A voltage switch with protection against overcurrent, containing a current sensor, a means of execution connected through a current sensor and a load unit with a source of switched voltage, a comparator, an indicator, a reference voltage source and a temperature sensor, characterized in that it additionally includes a microcontroller , the non-volatile data memory associated with it, a means for emitting coded signals, a means for receiving coded signals, an autonomous power source, a power source for internal circuits and a short-term power interruption sensor capable of recording the moment of power off and the moment of its renewal without interrupting the power of internal circuits, in addition, the execution means is made with at least one execution element for switching the corresponding number of loads of the load unit, and the means for emitting coded signals together with an autonomous power source is structurally made separately from the main module in the form of a remote control, with at least one control in the form buttons, moreover, the microcontroller is connected to the outputs of the means for receiving coded signals, the comparator, the sensor for a short-term power interruption and to the inputs of the execution organs of the execution facility, the reference voltage source and the indicator, in addition, the output of the current sensor, together with the output of the temperature sensor, is connected to the first input of the comparator, the second the input of which is connected to the output of the reference voltage source, and the input of the short-term power interruption sensor is connected to the power supply of internal circuits, which, in turn, is connected to the switched voltage source, while the microcontroller is configured to: 1) after pressing the button of the remote control at least once, as a result of which the corresponding number of bursts of coded signals are emitted, taking into account the code of bursts received by the means of receiving coded signals, their number, as well as the duration of the final burst, corresponding to the time of the final holding of the button remote control in the pressed position, write information about the code and the number of received packs in the non-volatile data memory, compare the received information with the already recorded one and, depending on the result of the comparison, write new information, erase the old one and change the state of the corresponding execution organs; 2) after at least a single short-term disconnection of the switched voltage source, for example, by a manual switch, taking into account the number of disconnections recorded by the short-term power interruption sensor, change the state of the relevant execution units, and, as for at least a double disconnection, then at the first when disconnected, switch all execution elements to the open state, and when the switched voltage source is finally turned on, set the state of execution elements taking into account the number of disconnections; 3) when the comparator is triggered by the output signal of the current sensor acting at the first input of the comparator, at the beginning of the transient process, replace the default minimum reference level at the second input of the comparator, which controls the measured current in the steady state, with the maximum reference level, which controls the measured current in transient, for a time sufficient for the comparator to react, and then re-set the minimum reference level; 4) after the comparator is triggered, switch the execution elements to the open state immediately if the signal at the first input of the comparator, determined by the output signal of the current sensor, exceeds the maximum reference level set at the second input of the comparator, or after a specified time interval, if this signal, determined by the output signal temperature sensor, or the output signal of the current sensor at the end of the transient, after exceeding the minimum reference level set at the second input of the comparator, will not return the comparator to its original state. 2. The voltage switch according to claim 1, characterized in that the duration of the final burst of coded signals arriving at the means of receiving coded signals, which corresponds to the time of the final holding of the remote control button in the pressed position, when writing or erasing information in the non-volatile data memory, should be greater than the value selected from the range of 1...7 seconds, and when controlling the state of execution organs, it must be less than this value, but more, in turn, the selected value from the range of 0.1...0.7 seconds of the permissible values of the remaining burst durations and spaces between them. 3. The voltage switch according to claim 1, characterized in that the microcontroller is configured to turn on the indicator when power is applied to the voltage switch, turn it off when the button of the remote control is pressed, turn on briefly when the duration of the final packet of coded signals reaches the set value, and finally turn on when releasing the pressed button. 4. The voltage switch according to claim 1, characterized in that the duration of a short-term shutdown of the switched voltage source, for example, by a manual switch, as well as the duration of the intervals between shutdowns during multiple short-term shutdowns, are selected from the range of 0.1 ... 0.7 seconds. 5. The voltage switch according to claim 1, characterized in that a push-button switch connected to the microcontroller is additionally introduced into it, and the microcontroller is configured to, after at least a single press on the entered push-button switch, taking into account the number of presses, change the state of the corresponding execution organs, while the duration of pressing and the intervals between pressings are selected from the range of 0.1 ... 0.7 seconds. 6. The voltage switch according to claim 1, characterized in that the time sufficient for the response of the comparator, for which, when it is triggered, it is necessary to replace the default minimum reference level on the second input of the comparator with the maximum reference level, is selected from the range 0.01 ... 0 .1 millisecond. 7. The voltage switch according to claim 1, characterized in that the duration of the specified time interval, after which the execution elements switch to the open state after the signal at the first input of the comparator exceeds the minimum reference level set at the second input, is selected from the range of 0.001 ... 1 second from taking into account the expected duration of the transient process with possible load surges. 8. The voltage switch according to claim 1, characterized in that the microcontroller is configured to switch the indicator to the flashing mode when the execution elements are switched to the open state, after the comparator is triggered. 9. Voltage switch according to claim 1, characterized in that an LED is used as an indicator. 10. The voltage switch according to claim 1, characterized in that the comparator, the reference voltage source and the non-volatile data memory are built-in components of the microcontroller. 11. The voltage switch according to claim 1, characterized in that the means for receiving coded signals is made in the form of an IR receiver, and a remote control with infrared radiation is used as a remote control.

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