PL229248B1 - Method and the system for remote control of the power controller-regulator - Google Patents

Abstract

The subject of the application is the method and the remote control system of the controller - power regulator. The system consists of a remote electromagnetic wave transmitter (RMTC) and a proper power regulator system. The signal from the transmitter is received in the controller by the receiver (RMTR), which is connected to the microprocessor control unit (CTRL), which performs decoding of the signal from the transmitter, identifying the selected controller function and controlling independent galvanically isolated semiconductor voltage sources (DR1, DR2. ..DRN-1, DRN. Each voltage source is connected on the input side with a microprocessor unit (CTRL). The source output in each channel is connected through a resistor with the electrodes of semiconductor bi-directional keys. The microprocessor unit (CTRL) is also connected to the zero detection block (ZCCD) of the network as a synchronization signal. The control and control unit (CTRL) is additionally connected to the acoustic converter (G). The device is powered directly from the power network through the built-in power supply module (PWR) connected with all the regulator blocks with the electromagnet noise LC filter (FLT). The main filter (FLTP) ensures meeting the conditions of electromagnetic compatibility. In addition, it is also possible to power the device from an external power source.

Description

The subject of the application is a method and a remote control system of a controller-power regulator, especially for lighting and home and industrial automation applications.

So far, it is known, for example, from the Polish patent description No. PL 188098 "A method of remote control, especially for the power regulator of electrical devices" consisting in controlling the power regulator through a logic circuit that receives a signal that determines the amount of power output from an infrared sensor, the amount of power being determined depending on the duration of the infrared sensor excitation. The electrical code resulting from the processing of the signal from the IR emitter is logically compared to the reference code and the positive result of the comparison is used to control the power regulator. The reference code used for the comparison is entered by the IR emitter after the logic has been sensitized to read the reference code via the touch sensor.

Known are, inter alia, control methods and systems for controlling electric energy receivers supplied from the power grid and power control, including lighting, with the use of semiconductor power elements described in the publications: PL 166 820 B1, PL 188 098 B1.

Known from the publication of the patent specification PL 166 820 B1, the method and system for remote control and power regulation of electrical devices, includes an infrared transmitter that controls the actual controller equipped with an infrared receiver connected to the block for counting the presses and time delays providing information to the control signal generation blocks and the phase shifter controlling the quantity. energy supplied to the electrical energy consumer. The system performs phase control with the use of an active power element in the form of a Triac of only one circuit with an electric energy receiver.

Known from the publication of the patent description PL 188 098 B1, the method and system of remote control and power regulation of electric devices is essentially a modification of the solution described in the patent opinion PL 166 820 B1, consisting in essence only of adding the function of storing a predefined code assigned in the infrared transmitter to the coding of the selected by the user of the device control button.

Also known from the publication of the patent description US 2007183444 A, also published as CA 2640756 A1 (WO 2007/092478 A3), a method and system for the provision and management of power grid infrastructure, in which electromagnetic keys play the role of power switching elements. The management of electromagnetic power keys is aimed at ensuring a constant flow of power in the event of a power failure and for diagnostic purposes.

It is known from the publication of the patent description EP 2456028 A2, a control and management system in electric energy distribution installations, enabling remote monitoring and control of electric energy distribution, especially in transformer stations, with the use of remote radio data transmission with the use of modems. Continuous monitoring of the current flow rate allows for the detection of interruptions in the power supply circuit caused, for example, by a damaged or blown fuse, which in turn triggers an alarm in the remote control panel. Therefore, this system is focused on diagnostics and monitoring of the infrastructure of power grids and the security elements embedded in them.

It is known from the publication of the patent description US 2011051325 A1, a system for generating, controlling and managing small private generators for supplying electricity to buildings and factories, by monitoring the source of external electricity, where in the event of a power outage in the external network, the proposed system ensures the switching of the power supply to an autonomous one local power generator.

It is also known from the publication of the patent description WO 2014191724 A, a system of continuous electricity supply to buildings with the use of local devices obtaining energy from so-called renewable energy sources, in the event of a power failure from an external source of electricity in the form of a standard AC electricity network.

The above-mentioned and other existing solutions of power regulators implement either a two-stage power control of the On / Off type, most often with the use of an electromechanical switch, or a multi-stage control with the use of power semiconductor elements and inductive coils or transformers. These solutions are characterized by power control for one energy circuit or for parallel connection of many receivers. Trials and solutions of channel diversion are usually implemented using transformer separation of actuator gates circuits of power semiconductor elements. Another feature of the mentioned solutions is the necessity for the user to contact a device connected to the power grid by touch, for example to activate a dedicated button or switch of the programming procedure and memorizing the control signal from the transmitter. None of the known existing solutions allows the user to independently, fully remotely, control the power of many independent current receivers, including lighting, in addition powered from various sources, i.e. directly from the power grid and through magnetic or electronic transformers that lower the alternating voltage of the network. to the voltages required by a given receiver, or supplied from a dedicated DC voltage source, with simultaneous full galvanic separation of the power circuits of individual channels of energy receivers. Some of the above-mentioned publications, especially foreign ones, describe devices for supervision, diagnostics, control and distribution of electricity in order to ensure the absence of interruptions in power supply by using additional alternative generators or converters of renewable energy carriers.

There are no known patent applications or patent claims, and even more so, commercially manufactured and offered products compatible with the solution as in the present application.

The method of remote control of the power regulator, according to the invention, is distinguished by the fact that a manual multi-button electromagnetic wave transmitter is a user interface, containing a number of functional buttons, including numeric buttons, where each button corresponds to a unique numerical identification code, which modulates the transmitted electromagnetic signal after pressing a specific button and The controller is configured by regulating the energy supplied to a given receiver. A standard push of a button, the controller identifies as referring to a single channel, while a group pressing of a button, in a distinctly different duration of a push, forces the application of the selected command or option to all channels supported in the device. The current channel of the regulator is selected by standard pressing the channel selection buttons corresponding to the number of the channel with the electricity receiver. Standard pressing of a dedicated button results in a gradual increase or decrease of the power supplied to the receiver up to full or zero control of the receiver's power depending on the current state of the receiver in the current channel. The effect of a "soft start" is then achieved. Double pressing this button as standard will force the immediate application of the maximum / zero power in the current channel, i.e. work in the On / Off mode. Group pressing of this button forces gradual increase / decrease of power for all supported channels. Manual quasi-flow control of the intensity of the luminous flux of the controlled light sources or the power of the receiver is achieved by momentarily or continuously holding down the dedicated buttons that always refer to the current channel selected by the user. Step adjustment of the power or light intensity with a specific constant quantum in the range 0: 100% is achieved by using other buttons dedicated to this function. The implementation of this function for the current channel is achieved by standard pressing one of the appropriate dedicated buttons, and for all channels simultaneously a group holding of one of these buttons is used. By standard pressing another dedicated button, the level is set to half the power for the current channel. Similarly, holding down this button in groups sets the 50% power level on all channels of the controller. In addition, by holding down one of the channel selection buttons, the required operating mode for each channel is set, as work in the quasi-smooth power control or binary mode On / Off, and subsequent group presses of these buttons force alternate configuration of the channel into a two-state mode On / Disable or quasi-smooth regulation of the power level supplied to the receiver. In addition, the user of the device is provided with additional utility functions, such as a test of the current channel, activated by a standard pressing of a separate dedicated button, after pressing which, the user is informed with sound pulses with the number of pulses corresponding to the current channel number of the controller, along with an additional single pulse increase of the power or light intensity - for light sources, the current channel for visual indication of the selected load on the current channel. By pressing this button in group, each channel of the controller is turned on for a moment. The previously set power / lighting settings for individual channels are saved in the controller to the internal non-volatile memory by pressing a dedicated memory button in a group, followed by a group press of one of the channel selection buttons, thus selecting one of the memory cells to which

The current power settings of the channels will be stored. Similarly, to read from the memory the previously saved configuration of power levels in the controller channels, a group press of the dedicated memory button is performed, followed by a standard press of one of the channel selection buttons to select one of the memory cells from which the previously saved settings will be read. power level in the channels and the power level settings of each channel are updated according to the previously memorized pattern read from the memory cell. In addition, a timer delayed power off function of the receivers is provided, activated by pressing another dedicated button on the remote controller and subsequent presses of the channel selection buttons to define a time after which all active receivers will gradually be turned off by the controller. Another time function available to the user, activated by pressing a dedicated button, sets a sequence of cyclical switching on and off of channels at preset time intervals. Setting the channels on / off times comes down to the following after pressing the dedicated activation button for this function, using the channel selection buttons to set the length of the channels' on / off time and the length of their off time. Cancellation of active time functions takes place successively by appropriate sequential pressing of the dedicated buttons for canceling time functions and the half power button for the current channel, as confirmation of the selection of the canceling operation. Additionally, the user is acoustically confirmed with an acoustic impulse signal of accepting the command to cancel the time functions. If it is necessary to install many power regulators and their simultaneous operation by the same handheld multi-button transmitter, it is necessary to assign each of the individual regulators a unique identification number - i.e. an address. This is done in the service mode, which is started automatically for a specified period of time after switching on the controller. During this time, the regulator waits for the user to press one of the numeric buttons in the transmitter for the required period of time. Detection of such a signal causes the controller to store the number of the pressed numeric key and accept this number as its own address identifier. During normal operation of the system with multiple controllers, the user, wanting to control a specific controller, first performs the addressing of the selected controller by appropriately pressing the numeric key associated with that controller. This results in executing further standard commands only by the addressed driver and ignoring these commands by other drivers. During the service mode, the user can also, by standard holding down any of the channel selection buttons 0 ... 9, set the required operating mode for each of the channels, as work in the quasi-smooth power control mode or two-state ON / OFF mode, and by pressing the P button in a group, restore factory default settings of the controller.

The system according to the invention consists of a multi-button handheld remote transmitter of the modulated electromagnetic wave RMTC, from which a signal is generated when any button is pressed, containing information about the currently pressed button and the time of pressing it. This signal is received by the RMTR receiver that demodulates it, which is connected to the computing control and control unit CTRL in the form of a microprocessor, decoding the signal from the receiver and identifying the selected driver function, and controlling each of the independent galvanically isolated semiconductor photovoltaic voltage sources DR1 connected with the microprocessor. , DR2 ... DRW-1, DRW - where N stands for any required number of control channels. Each photovoltaic cell is connected at the input side with a CTRL microprocessor. The positive pole of the cell output is connected through a current limiting resistor R with gates of interconnected power transistors forming two-way semiconductor keys, and the negative pole of the cell is connected to interconnected sources of transistor pairs in each channel of the regulator. The CTRL microprocessor unit is connected to the ZCCD power grid zero detection block, receiving a synchronization signal that marks the times where the AC power grid voltage is zero Volt. The device according to the invention is powered directly from the AC power network through the PWR power supply module built into the controller, connected to all regulator blocks and preceded by an LC filter for electromagnetic interference FLT and a FLTP filter connected to it to ensure electromagnetic compatibility, while the FLTP filter is only necessary in in the case of using at least one control channel, a quasi-smooth power control mode. It is also possible to power the controller from an external power source.

PL 229 248 B1

An advantageous feature of the invention is its simple structure, significant miniaturization, high reliability and functionality, as well as ensuring user safety through remote, non-contact, safe control of home or workshop automation devices or lighting, regardless of difficult access, unfavorable physico-chemical conditions such as moisture, dust or proximity to dangerous moving / rotating parts in the room.

The subject matter of the invention is shown in the embodiment in Fig. 1 showing a block diagram of the system. A schematic-block diagram of a power switching system for one channel is shown in Fig. 2. Fig. 3, on the other hand, shows a user interface in the form of a remote controller, where an exemplary graphical representation of the button control method referred to in the description is shown.

The method according to the invention in an exemplary embodiment consists in the fact that a manual multi-button electromagnetic wave transmitter being a user interface, containing a number of functional buttons, including numeric buttons, where each button corresponds to a unique unique numeric identification code modulating the transmitted electromagnetic signal after pressing a specific button - allows configuration and controlling the device and controlling the power supplied to a given receiver, which in the case of electric light sources results in the possibility of switching on, extinguishing or changing the light intensity. Normal pressing of a button, the controller identifies as referring to a single channel, while group pressing of a button, with a distinctly different duration of pressing, forces the application of the selected command or option to all channels supported in the device. The current channel is selected by normally pressing the 0 ... 9 numeric buttons corresponding to the channel number with the electric energy receiver of the regulator according to the invention, normal pressing the P button results in a gradual increase or decrease of the power supplied to the receiver - gradual brightening or dimming of the light source - until to full or zero control of the receiver's power depending on the current state of the receiver in the current channel - resulting in the effect of a "soft start" contributing to the extension of the lifetime of the receiver not exposed to sudden current surges, and two times normal pressing of the P button will force immediate application of the maximum or zero power in the current channel, and for the light source, immediate lighting with the full power of the luminous flux, i.e. work in the On / Off mode, while pressing the P button in a group means the user selects a gradual increase or decrease dimming - brightening or dimming in the case of light sources - all supported channels, while manual gradual control of the luminous flux intensity of the controlled light sources or the power of another receiver is possible by temporarily or continuously holding down the + buttons or always referring to the current channel selected by the user (energy receiver). ), however, it is also possible to step-by-step adjustment of the power or light intensity with a defined constant percentage in the range 0: 100% by using the buttons marked as H + and H-; correspondingly increasing or decreasing the target power level or lighting of the current channel by short presses of the buttons or all channels simultaneously, using a group holding of one of the H + and H- buttons, and if you need to set exactly half the power or light intensity, normal pressing of the H button sets this power level for the current channel, while holding down the H button in groups sets the 50% power level on all channels of the controller, it is also possible to set the operating mode of each channel as work with the possibility of quasi-smooth power control or only two-state operation, i.e. 0% or 100% power by holding the 0 ... 9 button with the channel number sufficiently long. Subsequent pressings of this kind result in an alternating configuration of the channel into a two-state On / Off mode or with a gradually regulated power level delivered to the receiver. In addition, advanced utility functions are available to the user, increasing the functionality of the device, and one of them is the test of the current channel, activated by pressing the TST button normally, after which the user is informed with an impulse short sound with the number of pulses corresponding to the number of the current channel of the controller, together with an additional single short impulse increase of the illuminance (power) of the current channel to indicate the visual load of the current channel, while the group pressing of the TST button causes a momentary activation of each of the controller channels, enabling e.g. a test of the efficiency of all controller channels or the location of a damaged receiver in the form of a lighting bulb. The device according to the invention, through the wireless user interface, also allows to save to the internal non-volatile memory, previously set power levels or lighting of individual channels with receivers.

PL 229 248 B1 by pressing the M button in groups, followed by a group press of one of the 0 ... 9 numeric buttons, thus selecting one of the memory cells to which the current settings of the receivers' power settings in the channels will be saved and the other way round - to read from the memory previously saved configuration of power levels in the device channels, press the M button again in a group, this time then normally press one of the numeric buttons 0 ... 9 thus selecting one of the memory cells from which the settings are saved power of the receivers in the channels will be read from the permanent memory and the set power level of each channel will be updated according to the previously stored pattern read from the memory cell. In addition, the method of controlling the device according to the invention provides time functions such as the function of temporary delayed power off of the receivers - activated by pressing the T button in a group, allowing for a set period of time with normal presses of the numeric buttons 0 ... 9 to define the time after which all active receivers (channels ), to which a power greater than 0% is supplied, will be gradually turned off, which will give the effect of their gradual extinction for light sources. Another time function available via the wireless user interface - activated by pressing the MM button in a group, allows you to program a sequence of cyclical switching on and off of predefined or user-selected channels at fixed time intervals, also set by the user, which can be used, for example, to imitate the presence of household members in the apartment or periodic additional heating of the room by heating devices, as well as many other applications, and the programming of the mode is reduced to the following after activation with the MM button, in a set maximum time, using the numeric buttons 0 ... 9_ to set the length of the channel activation time and the total time of their total exclusions. Canceling, i.e. deleting the active delay time functions for switching off the channels and imitating the presence of household members, is carried out by pressing in turn the MM and H buttons, which is additionally confirmed by the user with an acoustic impulse signal confirming that the system accepts the request to cancel the time functions. If it is necessary to install many power regulators and their simultaneous operation by the same manual multi-button transmitter, it is necessary to assign (program) each of the individual regulators a unique identification number, i.e. an address. This is done in the service mode, which is started automatically after turning on the controller for a specified period of time. During this time, the regulator waits for the user to press numeric buttons 0 ... 9 in the transmitter for the required period. Detection of such a signal causes the controller to store the number of the pressed numeric key 0 ... 9 and accept this number as its own address identifier. During the normal operation of the system with many regulators, the user, wanting to control a specific controller, first performs the addressing of the selected controller by appropriately pressing the numeric keys 0 ... 9 associated with that controller. This results in executing further standard commands only by the addressed driver and ignoring these commands by other drivers.

The system according to the invention, in an exemplary embodiment, consists of a multi-button modulated electromagnetic wave transmitter RMTC, from which the signal generated on pressing any button, containing information about the currently pressed button and the time of pressing it, is received by the RMTR receiver which is connected to the demodulating signal of the transmission signal. with a computational control and control unit CTRL in the form of a microprocessor, which is a microprocessor unit that simultaneously receives a synchronization signal through connection with the ZCCD power grid zero detection block, which determines the moments in which the AC power grid voltage is equal to zero Volt, decodes the signal from the receiver RMTR and identification of the selected driver function, and in accordance with the controller control method - independent control of each of the independent galvanically isolated semiconductor photovoltaic connected with the microprocessor of the DR1, DR2 ... DRN-1, DRN voltage sources - where N stands for any required number of control channels, in which each photovoltaic cell is connected from the input side to the CTRL microprocessor and the GND system ground, the positive pole of the cell's output is connected via current-limiting resistor R with gates interconnected in pairs of power transistors, forming two-way semiconductor keys, and the negative pole of the cell is connected to interconnected sources of pairs of transistors in PWK1, PWK2 ... PWKN-1, PWKN blocks, simultaneously realizing, together with photovoltaic cells, mutual electrical separation of high-voltage channels, with the entire device according to the invention powered either from an external DC power source or directly from the power grid

PL 229 248 B1 of alternating current through the PWR power supply module built into the controller, connected to all the regulator blocks and preceded by a connected LC filter for electromagnetic interference FLT and a FLTP filter to ensure electromagnetic compatibility, while the FLTP filter is necessary only when using at least one control channel, quasi-smooth power control mode, while in the case of using the On / Off type binary control in all channels, the use of the FLTP filter is redundant due to the fact that no significant commutation electromagnetic interference is generated.

Claims (2)

A method of controlling a remote power regulator, according to the invention, characterized in that a manual multi-button electromagnetic wave transmitter is a user interface, containing a number of functional buttons, including numeric buttons, where each button corresponds to a unique numerical identification code, which modulates the transmitted electromagnetic signal after pressing a specific button and the device controller is configured by regulating the energy delivered to a given receiver, the standard pressing of the button, the controller identifies as referring to a single channel, while the group pressing of the button, with a distinctly different duration of pressing, forces the application of the selected command or option to all supported in channel device, in particular, the selection of the current channel is carried out by standard pressing the channel selection buttons corresponding to the channel number of the regulator with the electricity receiver, standard pr pressing the dedicated main button results in a gradual increase / decrease of the supplied power up to full / zero control of the receiver's power depending on the current state of the receiver in the current channel, double pressing the standard main button will force immediate maximum / zero power in the current channel, i.e. work in the On mode / Off, while pressing this button in groups forces a gradual increase / decrease of the power for all supported channels, manual quasi-smooth control of the luminous flux intensity of the controlled light sources or the power of the receiver is obtained by temporarily or continuously holding down the dedicated buttons marked with an increase and decrease pictogram, respectively, always to the current channel selected by the user, while step adjustment of the power or light intensity with a specific constant percentage is obtained by using other dedicated for this function step increase and decrease buttons, where the implementation of this function for the current channel is obtained by standard pressing one of the appropriate dedicated buttons of step increase and decrease, respectively, and for all channels simultaneously a group holding of one of these buttons is used, additionally by means of a standard pressing of another dedicated the button marked with a balance pictogram, the level equal to half the power for the current channel is set and, similarly, by holding this balance button in a group, the level of 50% power is set on all channels of the controller, what is more, the user of the device is provided with additional utility functions, such as the test of the current channel, activated by a standard pressing of a separate a dedicated test button, when pressed, the user is informed with sound pulses with the number of pulses corresponding to the current channel number of the controller together with an additional single pulse owl power intensity increase - in the case of light sources - brightness increase - of the current channel to visually indicate the selected load of the current channel, as well as by pressing this balance button in groups, each of the controller channels is temporarily turned on, moreover, the previously set power / lighting settings are saved in the device individual channels to internal non-volatile memory, through dec8 Pressing the dedicated memory button repeatedly, followed by a group press of one of the channel selection buttons, thus selecting one of the memory cells to which the current channel power settings will be saved and similarly to read from the memory previously saved level configuration power in the controller channels, a group press of the dedicated memory button is performed, followed by a standard press of one of the channel selection buttons to select one of the memory cells, from which the previously saved power settings in the channels will be read, and the current power level settings for each of the channels updates according to the previously stored pattern read from the memory cell, the function of temporary delayed power off of the receivers is available, activated by pressing another dedicated delay button of the remote controller and the subsequent presses of the channel selection buttons to determine the frequency asu, after which all active receivers will be gradually turned off by the controller, one more time function available to the user, activated by pressing a dedicated button of the guard function, a sequence of cyclical turning on and off of channels at set preset intervals is established, and the setting of turn-on times on / off channels is reduced to the following, after pressing the dedicated button of the guard function, activation of this function, using the channel selection buttons to set the length of the channel activation time and the length of their deactivation time, while the canceling of the active time functions takes place successively by appropriate sequential pressing of the dedicated function cancellation buttons time and balance button, half power for the current channel as confirmation of the selection of the canceling operation, which is additionally acoustically confirmed to the user by an acoustic pulse signal of the acceptance of the cancel command However, if it is necessary to install many power regulators and operate them simultaneously by the same multi-button handheld transmitter, it is necessary to assign each of the individual regulators a unique identification number, i.e. an address, which is carried out in the service mode, which is activated automatically for a specified period of time after the controller is switched on, at which time the controller waits for a group pressing in the transmitter for the required period by the user of one of the numeric buttons of the channel selection, and the detection of such a signal causes the controller to remember the number of the pressed numeric key and accept this number as its own address identifier, during the normal operation of the system with many regulators, the user, wishing to control a specific controller, first addresses the selected controller by pressing the appropriate numeric key associated with that controller channel selection, which results in the performance of further standard commands only by the addressed controller and these commands are ignored by other controllers, additionally, during the service mode, the user can set the required operating mode for each channel by holding one of the channel selection buttons as a quas- smooth power control or binary operation On / Off, and by group pressing the main button, restore the default factory settings of the controller. The remote control system of the controller-power regulator according to the invention, characterized in that a signal is generated from a multi-button handheld remote transmitter of a modulated electromagnetic wave, from which, when any button is pressed, a signal is generated, containing information about the currently pressed button and the time of pressing it, and the signal is received by a receiver that demodulates it, which is connected to a computational control and control unit in the form of a microprocessor, decoding the signal from the receiver and identifying the selected driver function, and controlling each of the independent galvanically isolated semiconductor photovoltaic voltage sources connected to the microprocessor with the number corresponding to the required number of control channels where each photovoltaic cell is connected at the input side to a microprocessor, the positive pole of the cell output is connected through a current-limiting resistor with gates interconnected in pa power transistors that make up two-way semiconductor keys and the negative pole of the cell is connected to interconnected sources of pairs Of transistors in each channel of the regulator, while the microprocessor unit is connected to the zero-detection block of the power grid, receiving a synchronization signal that determines the time when the voltage of the AC power grid is equal to zero, moreover, the device according to the invention is powered directly from the power grid. alternating through the power supply module built into the controller connected with all the regulator blocks and preceded by the LC filter for electromagnetic interference and the main filter connected to it to ensure electromagnetic compatibility, the main filter is necessary when using at least one control channel, quasi-smooth control mode power and, in addition, it is also possible to power the controller from an external DC power source.