최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
DataON 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
Edison 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
Kafe 바로가기국가/구분 | United States(US) Patent 등록 |
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국제특허분류(IPC7판) |
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출원번호 | US-0255493 (2016-09-02) |
등록번호 | US-10154564 (2018-12-11) |
발명자 / 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 | 피인용 횟수 : 0 인용 특허 : 11 |
A lighting control system using an APP based software technology to operate on line free settings of various operating parameters for a lighting device including setting of manual override timer, setting of detection range of a motion sensor, setting of light-on duration activated by a motion sensor
A lighting control system using an APP based software technology to operate on line free settings of various operating parameters for a lighting device including setting of manual override timer, setting of detection range of a motion sensor, setting of light-on duration activated by a motion sensor, setting of light intensities for various illumination modes and setting of light color temperature. The technology enables a user to set an operating parameter within a maximum capacity of a designed circuitry on an on line computing basis according to his or her lifestyle by operating an application program designed and loaded in a mobile phone. The technology of the present invention is applicable to a single level security light, a two level security light or a multi-level/life style security light with optional lighting source being a LED load, an incandescent load or any other electrically energize-able light emitting materials.
1. An on line free setting method for setting an operating parameter of a lighting device, comprising: a user interface APP comprising at least one free setting algorithm preloaded in a mobile device to transform a user's setting decision into at least one operating variable of an operating paramete
1. An on line free setting method for setting an operating parameter of a lighting device, comprising: a user interface APP comprising at least one free setting algorithm preloaded in a mobile device to transform a user's setting decision into at least one operating variable of an operating parameter of the lighting device, wherein the user interface APP is operable on a touch screen panel of the mobile device;wherein when the user interface APP is activated and concluded with at least one setting decision, the user interface APP manages to transmit via the mobile device at least one wireless instruction signal carrying a message of the operating variable to the lighting device, wherein the operating variable is used for processing a value of the operating parameter of the lighting device; anda microcontroller of the lighting device, designed with a capacity to interpret the wireless instruction signal received by a wireless signal receiver of the lighting device and accordingly manages to output at least one control signal to control and set the value of at least one operating parameter of the lighting device;wherein the value of the operating parameter is stored in a memory of the microcontroller for repetitive performance, wherein the stored value of the operating parameter is replaceable by a processing of new operating variable selected by the user;wherein the operating parameter is used for controlling at least one of various lighting characteristics of the lighting device including timer settings, light intensity settings, color temperature settings or detection sensitivity settings when a photo sensor or a motion sensor is involved;wherein the free setting algorithm is a capacity scale simulation process implemented by a visual configuration of a free setting operator incorporated with a capacity scale simulator and an indicator of the capacity operating rate to facilitate the user's decision making process in setting a desired level of the operating parameter, wherein when the free setting operator is activated by the user to interact with the capacity scale simulator, the user's interface APP responsively manages to select or compute the value of the capacity operating rate according to the instantaneous state of interaction between the free setting operator and the capacity scale simulator with the indicator of the capacity operating rate simultaneously showing an instantaneous value of the capacity operating rate, wherein the capacity operating rate shown in the indicator can be an operating percentage, an operating chart or an actual operating value of the relevant operating parameter, wherein when a free setting motion of the free setting operator is ceased, the user interface APP manages to generate the operating variable corresponding to the selection of the capacity operating rate and accordingly operates to transmit a wireless instruction signal carrying a message of the operating variable to the lighting device. 2. The on line free setting method according to claim 1, wherein the capacity scale simulator is a virtual track, wherein the free setting algorithm is implemented by a visual configuration of the free setting operator coupled with the virtual track and the indicator of the capacity operating rate, wherein the virtual track is designed on the touch screen panel of the mobile device, wherein the free setting operator is slidable by the user's finger along the virtual track with the indicator of the capacity operating rate simultaneously showing an instantaneous value of the changing capacity operating rate while the sliding motion of the free setting operator is being conducted, wherein the value shown in the indicator of the capacity operating rate can be the operating percentage, the operating chart or the actual operating value of the operating parameter, wherein the full length of the virtual track represents a simulation of the value of the maximum operating capacity of the operating parameter, wherein the capacity operating rate is determined by a parking location of the free setting operator on the virtual track when the sliding motion stops. 3. The on line free setting method according to claim 2, wherein the operating variable of the operating parameter is the capacity operating rate to be wirelessly transmitted to the lighting device for controlling and setting a relevant operating parameter, wherein the capacity operating rate is determined by measuring a ratio of the length of the parking location on the virtual track from the starting point against the total length of the virtual track, wherein the ratio is further rounded off to the closest integer to become the operating variable for setting the operating parameter selected by the use. 4. The on line free setting method according to claim 2, wherein the operating variable is the value of the operating parameter selected by the user, wherein the full length of the virtual track is divide into N number of operating domains with each of the N number domain respectively representing a value of the capacity operating rate of the operating parameter, wherein the N number operating domains are aligned on the virtual track according to a sequence of increasing pattern of the N number operating domains, wherein each operating domain is assigned a location code to be used for picking a corresponding capacity operating rate in a data base stored in the user interface APP, wherein the data base comprises a full range of N sets of capacity operating rate corresponding to each of the operating domains configured on the virtual track for each operating parameter, wherein the parking location of the free setting operator on the virtual track represents a selection of the capacity operating rate chosen by the user to be used for setting the value of the operating parameter, wherein the user interface APP comprises at least one subroutine to process at least one capacity operating rate selected by the user into one operating parameter, wherein the operating parameter is wirelessly transmitted to the lighting device. 5. The on line free setting method according to claim 1, wherein the capacity scale simulator is a capacity free running subroutine and the free setting operator is a virtual button, wherein the free setting algorithm is implemented by a visual configuration of the virtual button, the capacity free running subroutine integrated with the virtual button and the indicator of the capacity operating rate, wherein the virtual button is designed on the touch screen panel of the mobile device, wherein when the virtual button is continuously touched by a user's finger, the user interface APP operates to activate the capacity free running subroutine to gradually increase the capacity operating rate from a minimum level to a maximum level and then from the maximum level to the minimum level to complete a full cycle of free running motion, wherein during a free running cycle period the instantaneous value of the changing capacity operating rate is simultaneously shown in the indicator of the capacity operating rate, wherein the value of capacity operating rate can be the operating percentage, the operating chart or the actual operating value of the operating parameter, wherein the moment at which the user's finger is removed from the virtual button, the capacity free running motion is instantly ceased with the capacity operating rate thereby being locked in at the instantaneous level of the last moment of the free running motion, wherein the time length of a half cycle period of the free running motion represents a simulation of the value of the maximum operating capacity of the operating parameter, wherein the capacity operating rate is determined by the time length the user's finger staying in touch screen panel with the virtual button compared with the time length of a half cycle period of the free running motion. 6. The on line free setting method according to claim 5, wherein the operating variable of the operating parameter is the capacity operating rate to be wirelessly transmitted to the lighting device for controlling and setting a relevant operating parameter, wherein the capacity operating rate is determined by measuring a ratio of the time length of the virtual button being continuously touched by the user's finger in each half cycle period against the time length of the half cycle period of the free running motion, wherein the ratio is further rounded off to the closest integer to become the operating variable for setting the operating parameter selected by the use. 7. The on line free setting method according to claim 5, wherein the operating variable is the value of the operating parameter selected by the user, wherein the time length of the half cycle period of the free running motion is divide into N number of operating time domains with each of the N number operating time domain respectively representing a value of the capacity operating rate for setting the operating parameter, wherein the N number operating time domains are aligned in the half cycle time period according to a sequence of increasing pattern of the N number operating time domains, wherein each operating time domain is assigned a location code to be used for picking a corresponding capacity operating rate in a data base stored in the user interface APP, wherein the data base comprises a full range of N sets of capacity operating rates corresponding to each of the operating time domains configured in the half cycle period of the free running motion for each operating parameter, wherein the time length during which the virtual button is continuously touched represents a selection of the capacity operating rate chosen by the user to be used for setting the value of the operating parameter, wherein the user interface APP comprises at least one subroutine to process at least one capacity operating rate selected by the user into one operating parameter, wherein the operating parameter is wirelessly transmitted to the lighting device. 8. The on line free setting method according to claim 1, wherein the mobile device is a mobile phone, a pad, a PDA, a notebook, a smart watch, a smart speaker or a remote controller featured with a capacity to download an APP from an Internet or a cloud server. 9. A LED security light, comprising: a light emitting unit comprising an LED load;a loading and power control unit;a photo sensor;a motion sensor;a power supply unit; andan external control unit, electrically coupled with the loading and power control unit;wherein the loading and power control unit comprises a controller and a switching circuitry, wherein the controller is electrically coupled with the photo sensor, the motion sensor and the switching circuitry;wherein the switching circuitry is electrically coupled between a power source of the power supply unit and the light emitting unit;wherein the switching circuitry comprises at least one unidirectional semiconductor switching device;wherein the controller outputs control signals to control the switching circuitry for delivering different average electric currents from the power supply unit to drive the LED load of the light emitting unit such that the light emitting unit respectively generates illuminations of different light intensities for performing different illumination modes activated by the photo sensor, the motion sensor and the external control unit;wherein at dusk when an ambient light detected by the photo sensor is lower than a first predetermined value, the loading and power control unit operates to turn on the light emitting unit to perform a low level illumination mode;wherein when a motion signal is detected by the motion sensor, the loading and power control unit operates to increase the average electric current delivered to the LED load of the light emitting unit to perform a high level illumination mode for a preset time period before being switched back to the low level illumination mode;wherein at dawn when the ambient light detected by the photo sensor is higher than a second predetermined value, the light emitting unit is switched off by the loading and power control unit;wherein the external control unit is a wireless receiver electrically coupled with the controller to receive and decode at least a wireless instruction signal into an operating variable interpretable to the controller, wherein the controller further comprises at least one subroutine for processing the operating variable and adjusting a relevant control signal for performing at least one operating parameter according to the operating variable received from the wireless receiver, wherein the operating variable represents a setting decision of capacity operating rate for each functional category of operating parameters of the LED security light set by a user through an APP preloaded in a mobile device, wherein the operating parameter is used for controlling at least one lighting characteristics of the LED security light including timer settings, light intensity settings, color temperature settings or detection sensitivity settings. 10. The LED security light according to claim 9, further comprising: a user interface APP comprising at least one free setting algorithm preloaded in the mobile device to transform the user's setting decision(s) into an operating variable(s), wherein the user interface APP is operable on a touch screen panel of the mobile device;wherein when the user interface APP is activated and concluded with at least one setting decision, the user interface APP manages to transmit via the mobile device at least one wireless instruction signal carrying a message of the operating variable(s) to the LED security light, wherein the operating variable(s) is used for processing or setting the operating parameter(s) of the LED security light. 11. The LED security light according to claim 10, wherein the free setting algorithm is a capacity scale simulation implemented by a visual configuration of a free setting operator incorporated with a capacitor scale simulator and an indicator of the capacity operating rate to facilitate the user's decision making process in setting a desired level of the operating parameter, wherein when the free setting operator is activated by the user to interact with the capacity scale simulator, the user interface APP responsively manages to gradually adjust the value of the capacity operating rate according to the instantaneous state of interaction between the free setting operator and the capacity scale simulator with the indicator of the capacity operating rate simultaneously showing an instantaneous state of the capacity operating rate, wherein the capacity operating rate shown in the indicator can be an operating percentage, an operating chart or an actual operating value of the relevant operating parameter, wherein when a free setting motion of the free setting operator is ceased with at least one setting decision, the user interface APP manages to generate the operating variable corresponding to a selection of the capacity operating rate and accordingly operates to transmit a wireless instruction signal carrying a message of the operating variable to the LED security light for setting the relevant operating parameter. 12. The LED security light according to claim 11, wherein the capacity scale simulator is a virtual track, wherein the free setting algorithm is implemented by a visual configuration of the free setting operator, the virtual track coupled with the free setting operator and the indicator of the capacity operating rate, wherein the free setting operator is slidable by the user's finger along the virtual track with the indicator of the capacity operating rate simultaneously showing instantaneous state of the changing capacity operating rate while the sliding motion of the free setting operator is being conducted, wherein the state shown in the indicator of the capacity operating rate can be the operating percentage, the operating chart or the actual operating value of the operating parameter, wherein the full length of the virtual track represents a simulation of the value of the maximum operating capacity of the operating parameter, wherein the capacity operating rate is determined by a parking location of the free setting operator on the virtual track when the sliding motion stops. 13. The LED security light according to claim 11, wherein the capacity scale simulator is a capacity free running subroutine and the free setting operator is a virtual button, wherein the free setting algorithm is implemented by a visual configuration of the virtual button, the capacity free running subroutine integrated with the virtual button and an indicator of the capacity operating rate, wherein the virtual button is designed on the touch screen panel of the mobile device, wherein when the virtual button is continuously touched by a user's finger, the user interface APP operates to activate the capacity free running subroutine to gradually increase the capacity operating rate from a minimum level to a maximum level and then from the maximum level to the minimum level to complete a full cycle of free running motion, wherein during a free running cycle period the instantaneous state of the changing capacity operating rate is simultaneously shown in the indicator of the capacity operating rate, wherein the state of the capacity operating rate can be the operating percentage, the operating chart or the actual operating value of the operating parameter, wherein the moment at which the user's finger is removed from the virtual button, the free running motion is instantly ceased with the capacity operating rate thereby being locked in at the instantaneous level of the last moment of the free running motion, wherein the time length of a half cycle period of the free running motion represents a simulation of the value of the maximum operating capacity of the operating parameter wherein the capacity operating rate is determined by the time length the user's finger staying in touch screen panel with the virtual button compared with the time length of a half cycle period of the free running motion. 14. The LED security light according to claim 9, wherein the wireless receiver is a Wi-Fi wireless receiver, a Blue Tooth wireless receiver, a Zig Bee wireless receiver or a RF wireless receiver. 15. The LED security light according to claim 9, wherein the operating parameter is for setting a timer for performing a manual override illumination mode, wherein the security light is controlled by the photo sensor and the timer for performing a general illumination mode with the motion sensor being temporarily disabled. 16. The LED security light according to claim 15, wherein the timer is a time length setting timer or a clock time setting timer. 17. The LED security light according to claim 9, wherein the operating parameter is for setting the preset time period for performing the high level illumination mode. 18. The LED security light according to claim 9, wherein the operating parameter is for setting the detection distance of the motion sensor. 19. The LED security light according to claim 9, wherein the operating parameter is for setting the light intensity of the low level illumination mode or the high level illumination mode. 20. The LED security light according to claim 9, wherein the operating parameter is for setting the color temperature of the low level illumination mode or the high level illumination mode. 21. A security light control device, comprising: a loading and power control unit;a photo sensor;a motion sensor;a power supply unit; andan external control unit;wherein the security light control device is electrically connectable to a light emitting unit configured with an LED load, wherein the loading and power control unit comprises a controller and a switching circuitry, wherein the controller is electrically coupled with the photo sensor, the motion sensor and the switching circuitry;wherein the switching circuitry is electrically connectable between a power source of the power supply unit and the light emitting unit;wherein the switching circuitry comprises at least one unidirectional semiconductor switching device;wherein the controller outputs control signals to control the switching circuitry for delivering different average electric currents from the power supply unit to the LED load of the light emitting unit such that the light emitting unit respectively generates illuminations of different light intensities for performing different illumination modes activated by the photo sensor, the motion sensor and the external control unit;wherein at dusk when an ambient light detected by the photo sensor is lower than a first predetermined value, the loading and power control unit operates to turn on the light emitting unit to perform a low level illumination mode;wherein when a motion signal is detected by the motion sensor, the loading and power control unit operates to increase the average electric current delivered to the LED load of the light emitting unit to perform a high level illumination mode for a preset time period before being switched back to the low level illumination mode;wherein at dawn when the ambient light detected by the photo sensor is higher than a second predetermined value, the light emitting unit is switched off by the loading and power control unit;wherein the external control unit is a wireless receiver electrically coupled with the controller to receive and decode wireless instruction into at least one operating variable of an operating parameter used to operate the security light control device, wherein the controller further comprises at least one subroutine for processing the operating variable received from the wireless receiver, wherein the operating variable is set by a user through an APP loaded in a mobile device, wherein the operating parameter is used for controlling at least one lighting characteristic of the security light control device. 22. The security light control device according to claim 21, wherein the wireless receiver is a Wi-Fi wireless receiver, a Blue Tooth wireless receiver, a Zig Bee wireless receiver or a RF wireless receiver. 23. The security light control device according to claim 21, wherein the operating parameter is for setting a timer for performing a manual override illumination mode, wherein the security light is controlled by the photo sensor and the timer for performing a general illumination mode with the motion sensor being temporarily disabled. 24. The security light control device according to claim 23, wherein the timer is a time length setting timer or a clock time setting timer. 25. The security light control device according to claim 21, wherein the operating parameter is for setting the preset time period for performing the high level illumination mode. 26. The security light control device according to claim 21, wherein the operating parameter is for setting the detection distance of the motion sensor. 27. The security light control device according to claim 21, wherein the operating parameter is for setting the light intensity of the low level illumination mode or the high level illumination mode. 28. The security light control device according to claim 21, wherein the operating parameter is for setting color temperature of the low level illumination mode or the high level illumination mode. 29. The security light control device according to claim 21, further comprising: a user interface APP comprising at least one free setting algorithm preloaded in the mobile device to transform the user's setting decision(s) into the operating variable(s), wherein the user interface APP is operable on a touch screen panel of the mobile device;wherein when the user interface APP is activated and concluded with at least one setting decision, the user interface APP manages to transmit via the mobile device at least one wireless instruction signal carrying a message of the operating variable to the security light control device, wherein the operating variable is used for processing or setting the operating parameter of the security light control device. 30. The security light control device according to claim 21, wherein the free setting algorithm is a capacity scale simulation implemented by a visual configuration of a free setting operator incorporated with a capacity scale simulator and an indicator of the capacity operating rate to facilitate the user's decision making process in setting a desired level of operating parameter, wherein when the free setting operator is activated by the user to interact with the capacity scale simulator, the user interface APP responsively manages to gradually adjust the value of the capacity operating rate according to the instantaneous state of interaction between the free setting operator and the capacity scale simulator with the indicator of the capacity operating rate simultaneously showing an instantaneous state of the capacity operating rate, wherein the capacity operating rate shown in the indicator can be an operating percentage, an operating chart or an actual operating value of the operating parameter, wherein when a free setting motion of the free setting operator is ceased, the user interface APP manages to generate the operating variable corresponding to a selection of the capacity operating rate and accordingly operates to transmit a wireless instruction signal carrying a message of the operating variable to the security light control device. 31. The security light control device according to claim 30, wherein the capacity scale simulator is a virtual track, wherein the free setting algorithm is implemented by the visual configuration of the free setting operator, the virtual track coupled with the free setting operator and the indicator of the capacity operating rate, wherein the free setting operator is slidable by the user's finger along the virtual track with the indicator of the capacity operating rate simultaneously showing instantaneous state of the changing capacity operating rate while the sliding motion of the free setting operator is being conducted, wherein the state shown in the indicator of the capacity operating rate can be the operating percentage, the operating chart or the actual operating value of the operating parameter, wherein the full length of the virtual track represents a simulation of the value of the maximum operating capacity of the operating parameter, wherein the capacity operating rate is determined by a parking location of the free setting operator on the virtual track when the sliding motion stops. 32. The security light control device according to claim 30, wherein the capacity scale simulator is a capacity free running subroutine and the free setting operator is a virtual button, wherein the free setting algorithm is implemented by the visual configuration of the virtual button, the capacity free running subroutine integrated with the virtual button and an indicator of the capacity operating rate, wherein the virtual button is designed on the touch screen panel of the mobile device, wherein when the virtual button is continuously touched by a user's finger, the user interface APP operates to activate the capacity free running subroutine to gradually increase the capacity operating rate from a minimum level to a maximum level and then from the maximum level to the minimum level to complete a full cycle of free running motion, wherein during a free running cycle period the instantaneous state of the changing capacity operating rate is simultaneously shown in the indicator of the capacity operating rate, wherein the state of capacity operating rate can be the operating percentage, the operating chart or the actual operating value of the operating parameter, wherein the moment at which the user's finger is removed from the virtual button, the free running motion is instantly ceased with the capacity operating rate thereby being locked in at the instantaneous level of the last moment of the free running motion, wherein the time length of a half cycle period of the free running motion represents a simulation of the value of the maximum operating capacity of the operating parameter, wherein the capacity operating rate is determined by the time length the user's finger staying in touch screen panel with the virtual button compared with the time length of a half cycle period of the free running motion. 33. The security light control device according to claim 21, wherein the controller is a microcontroller programmable for generating the control signal. 34. The security light control device according to claim 21, wherein the controller is an application specific integrated circuit (ASIC) customized for generating the control signal. 35. The security light control device according to claim 21, wherein the security light control device is detachably connected to a LED lighting load via a screw in or plug in configuration, wherein the security light control device is configured with a socket base and the LED lighting load is configured with a screw in head or a bi-pin twist in head for making electrical connection with each other. 36. A security light control device, comprising: a loading and power control unit;a photo sensor;a motion sensor;a power supply unit; andan external control unit;wherein the security light control device is electrically connectable to a light emitting unit configured with an LED load, wherein the loading and power control unit comprises a controller and a switching circuitry,wherein the controller is electrically coupled with the photo sensor, the motion sensor and the switching circuitry;wherein the switching circuitry is electrically connectable between a power source of the power supply unit and the light emitting unit;wherein the switching circuitry comprises at least one unidirectional semiconductor switching device;wherein the controller outputs control signals to control the switching circuitry for delivering different average electric currents from the power supply unit to the LED load of the light emitting unit such that the light emitting unit respectively generates illuminations of different light intensities for performing different illumination modes activated by the photo sensor, the motion sensor and the external control unit;wherein at dusk when an ambient light detected by the photo sensor is lower than a first predetermined value, the light emitting unit is switched on by the photo sensor while remaining in a turned off state;wherein when a motion signal is detected by the motion sensor, the loading and power control unit manages the switching circuitry to deliver an average electric power to the light emitting unit for performing a high level illumination mode for a preset time period before and then the light emitting unit is switched back to the turned off state;wherein at dawn when the ambient light detected by the photo sensor is higher than a second predetermined value, the light emitting unit is switched off by the photo sensor;wherein when an ambient light detected by the photo sensor is lower than a first predetermined value, the lighting load is activated by the photo sensor, wherein when the ambient light detected by the photo sensor is higher than a second predetermined value, the lighting load is deactivated by the photo sensor, wherein when a motion intrusion is detected by the motion sensor, the controller of the loading and power control unit outputs a control signal to control the conduction rate of the controllable semiconductor switching device to deliver an average electric power to the lighting load;wherein the external control unit is a wireless receiver electrically coupled with the controller to receive and decode wireless instruction(s) into at least one operating variable of an operating parameter used to operate the security light control device, wherein the controller further comprises at least one subroutine for processing and for setting the operating parameter according to the operating variable received from the wireless receiver, wherein the operating variable represents a setting decision made and operated by a user through an APP preloaded in a mobile device, wherein the operating parameter is used for controlling at least one lighting characteristic of the security light control device. 37. The security light control device according to claim 36, wherein the wireless receiver is a Wi-Fi wireless receiver, a Blue Tooth wireless receiver, a Zig Bee wireless receiver or a RF wireless receiver. 38. The security light control device according to claim 36, wherein the operating parameter is for setting a timer for performing a manual override illumination mode, wherein the security light is controlled by the photo sensor and the timer for performing a general illumination mode with the motion sensor being temporarily disabled. 39. The security light control device according to claim 38, wherein the timer is a time length setting timer or a clock time setting timer. 40. The security light control device according to claim 36, wherein the operating parameter is for setting the preset time period for performing the high level illumination mode. 41. The security light control device according to claim 36, wherein the operating parameter is for setting the detection distance of the motion sensor. 42. The security light control device according to claim 36, wherein the operating parameter is for setting the light intensity of the high level illumination mode. 43. The security light control device according to claim 36, wherein the operating parameter is for setting the color temperature of the high level illumination mode. 44. The security light control device according to claim 36, further comprising: a user interface APP comprising at least one free setting algorithm preloaded in the mobile device to transform the user's setting decision into the operating variable, wherein the user interface APP is operable on a touch screen panel of the mobile device;wherein when the user interface APP is activated and concluded with at least one setting decision, the user interface APP manages to transmit via the mobile device at least one wireless instruction signal carrying a message of the operating variable to the LED security light control device, wherein the operating variable is used for processing or setting the operating parameter of the security light control device. 45. The security light control device according to claim 44, wherein the free setting algorithm is a capacity scale simulation implemented by a visual configuration of a free setting operator incorporated with a capacity scale simulator and an indicator of the capacity operating rate to facilitate the user's decision making process in setting a desired level of operating parameter, wherein when the free setting operator is activated by the user to interact with the capacity scale simulator, the user interface APP responsively manages to gradually adjust the value of the capacity operating rate according to the instantaneous state of interaction between the free setting operator and the capacity scale simulator with the indicator of the capacity operating rate simultaneously showing an instantaneous state of the capacity operating rate, wherein the capacity operating rate shown in the indicator can be an operating percentage, an operating chart or an actual performance value of the operating parameter, wherein when a free setting motion of the free setting operator is ceased with at least one setting decision, the user interface APP responsively manages to generate the operating variable corresponding to a selection of the capacity operating rate and accordingly operates to transmit a wireless instruction signal carrying a message of the operating variable to the security light control device. 46. The security light control device according to claim 45, wherein the capacity scale simulator is a virtual track, wherein the free setting algorithm is implemented by the visual configuration of the free setting operator, the virtual track coupled with the free setting operator and the indicator of the capacity operating rate, wherein the free setting operator is slidable by the user's finger along the virtual track with the indicator of the capacity operating rate simultaneously showing instantaneous state of the changing capacity operating rate while the sliding motion of the free setting operator is being conducted, wherein the state shown in the indicator of the capacity operating rate can be the operating percentage, an operating chart or the actual operating value of the operating parameter, wherein the full length of the virtual track represents a simulation of the value of the maximum operating capacity of the operating parameter, wherein the capacity operating rate is determined by a parking location of the free setting operator on the virtual track when the sliding motion stops. 47. The security light control device according to claim 45, wherein the capacity scale simulator is a capacity free running subroutine and the free setting operator is a virtual button, wherein the free setting algorithm is implemented by the visual configuration of the virtual button, the capacity free running subroutine integrated with the virtual button and an indicator of the capacity operating rate, wherein the virtual button is designed on the touch screen panel of the mobile device, wherein when the virtual button is continuously touched by a user's finger, the user interface APP operates to activate the capacity free running subroutine to gradually increase the capacity operating rate from a minimum level to a maximum level and then from the maximum level to the minimum level to complete a full cycle of free running motion, wherein during a free running cycle period the instantaneous state of the changing capacity operating rate is simultaneously shown in the indicator of the capacity operating rate, wherein the state of capacity operating rate can be the operating percentage, an operating chart or the actual operating value of the operating parameter, wherein the moment at which the user's finger is removed from the virtual button, the free running motion is instantly ceased with the capacity operating rate thereby being locked in at the instantaneous level of the last moment of the free running motion, wherein the time length of a half cycle period of the free running motion represents a simulation of the value of the maximum operating capacity of the operating parameter, wherein the capacity operating rate is determined by the time length the user's finger staying in touch screen panel with the virtual button compared with the time length of a half cycle period of the free running motion. 48. The security light control device according to claim 36, wherein the controller is a microcontroller programmable for generating the control signal. 49. The security light control device according to claim 36, wherein the controller is an application specific integrated circuit (ASIC) customized for generating the control signal. 50. The security light control device according to claim 36, wherein the security light control device is detachably connected to a LED lighting load via a screw in or plug in configuration, wherein the security light control device is configured with a socket base and the LED lighting load is configured with a screw in head or a bi-pin twist in head for making electrical connection with each other. 51. The security light control device according to claim 36, wherein the security light control device is non-detachably connected to the LED load. 52. A LED security light control device, comprising: a loading and power control unit;a photo sensor;a power supply unit; andan external control unit, electrically coupled with the loading and power control unit;wherein the LED security light control device is connectable to a light emitting unit configured with an LED load, wherein the loading and power control unit comprises a controller and a switching circuitry, wherein the controller is electrically coupled with the photo sensor, the motion sensor and the switching circuitry; wherein the switching circuitry comprises at least one unidirectional semiconductor switching device, wherein the switching circuitry is electrically connectable between a power source and the lighting load, wherein the controller outputs a control signal to control the switching circuitry for delivering different average electric power(s) to drive the lighting load for generating different illumination modes according to control signal(s) received from the photo sensor and the external control unit;wherein when an ambient light detected by the photo sensor is lower than a first predetermined value, the lighting load is thereby turned on by the loading and power control unit to generate a first level illumination mode for a first predetermined duration, then the lighting load is switched to a second level illumination mode, wherein a light intensity of the first level illumination mode is higher than a light intensity of the second illumination mode; wherein when the ambient light detected by the photo sensor is higher than a second predetermined value, the lighting load is thereby turned off by the loading and power control unit;wherein the external control unit is a wireless receiver electrically coupled with the controller to receive and decode a wireless external control signal into operating variable, wherein the controller further comprises at least one subroutine for processing the operating variable, wherein the operating variable represents a setting decision made and operated by a user through an APP loaded in a mobile device, wherein the operating parameter is used for controlling at least one lighting characteristic of the LED security light control device. 53. The LED security light control device according to claim 52, wherein the wireless receiver is a Wi-Fi wireless receiver, a Blue Tooth wireless receiver, a Zig Bee wireless receiver or a RF wireless receiver. 54. The LED security light control device according to claim 52, wherein the operating parameter is for controlling the time length of the first predetermined duration for performing the first level illumination mode. 55. The LED security light control device according to claim 52, wherein the operating parameter is for setting the light intensity of at least the first level illumination mode or the second level illumination mode. 56. The LED security light control device according to claim 52, further comprising: a user interface APP comprising at least one free setting algorithm preloaded in the mobile device to transform the user's setting decision into the operating variable, wherein the user interface APP is operable on a touch screen panel of the mobile device;wherein when the user interface APP is activated and concluded with at least one setting decision, the user interface APP manages to transmit via the mobile device at least one wireless instruction signal carrying a message of the operating variable to the LED security light control device, wherein the operating variable is used for processing or setting operating parameter of the LED security light control device. 57. The LED security light control device according to claim 56, wherein the free setting algorithm is a capacity scale simulation implemented by a visual configuration of a free setting operator incorporated with a capacity scale simulator and an indicator of capacity operating rate to facilitate the user's decision making process in setting a desired level of the operating parameter, wherein when the free setting operator is activated by the user to interact with the capacity scale simulator, the user interface APP responsively manages to gradually adjust the value of the capacity operating rate according to the instantaneous state of interaction between the free setting operator and the capacity scale simulator with the indicator of the capacity operating rate simultaneously showing an instantaneous state of the capacity operating rate, wherein the capacity operating rate shown in the indicator can be an operating percentage, an operating chart or an actual operating value of the operating parameter, wherein when a free setting motion of the free setting operator is ceased, the user interface APP manages to generate the operating variable corresponding to a selection of the capacity operating rate and accordingly operates to transmit a wireless instruction signal carrying a message of the operating variable to the LED security light control device. 58. The LED security light control device according to claim 57, wherein the capacity scale simulator is a virtual track, wherein the free setting algorithm is implemented by the visual configuration of the free setting operator, the virtual track coupled with the free setting operator and the indicator of the capacity operating rate, wherein the free setting operator is slidable by the user's finger along the virtual track with the indicator of the capacity operating rate simultaneously showing instantaneous state of the changing capacity operating rate while the sliding motion of the free setting operator is being conducted, wherein the state shown in the indicator of the capacity operating rate can be the operating percentage, the operating chart or the actual operating value of the operating parameter, wherein the full length of the virtual track represents a simulation of the value of the maximum operating capacity of the operating parameter, wherein the capacity operating rate is determined by a parking location of the free setting operator on the virtual track when the sliding motion stops. 59. The LED security light control device according to claim 57, wherein the capacity scale simulator is a capacity free running subroutine and the free setting operator is a virtual button, wherein the free setting algorithm is implemented by the visual configuration of the virtual button, the capacity free running subroutine integrated with the virtual button and an indicator of the capacity operating rate, wherein the virtual button is designed on the touch screen panel of the mobile device, wherein when the virtual button is continuously touched by a user's finger, the user interface APP operates to activate the capacity free running subroutine to gradually increase the capacity operating rate from a minimum level to a maximum level and then from the maximum level to the minimum level to complete a full cycle of free running motion, wherein during a free running cycle period the instantaneous state of the changing capacity operating rate is simultaneously shown in the indicator of the capacity operating rate, wherein the state of capacity operating rate can be the operating percentage, the operating chart or the actual operating value of the operating parameter, wherein the moment at which the user's finger is removed from the virtual button, the free running motion is instantly ceased with the capacity operating rate thereby being locked in at the instantaneous level of the last moment of the free running motion, wherein the time length of a half cycle period of the free running motion represents a simulation of the value of the maximum operating capacity of the relevant operating parameter, wherein the capacity operating rate is determined by the time length the user's finger staying in touch screen panel with the virtual button compared with the time length of a half cycle period of the free running motion. 60. The LED security light control device according to claim 52, wherein the controller is a microcontroller programmable for generating the control signal. 61. The LED security light control device according to claim 52, wherein the controller is an application specific integrated circuit (ASIC) customized for generating the control signal. 62. The LED security light control device according to claim 52, wherein the security light control device is detachably connected to a LED lighting load via a screw in or plug in configuration, wherein the security light control device is configured with a socket base and the LED lighting load is configured with a screw in head or a bi-pin twist in head for making electrical connection with each other. 63. An on line free setting method for setting operating parameter of a ceiling fan with light kit, comprising: a user interface APP comprising at least one free setting algorithm preloaded in a mobile device to transform a user's setting decision into at least one operating variable of an operating parameter of the ceiling fan with light kit, wherein the user interface APP is operable on a touch screen panel of the mobile device;wherein when the user interface APP is activated and concluded with at least one setting decision, the user interface APP manages to transmit via the mobile device at least one wireless instruction signal carrying a message of the operating variable to the ceiling fan with light kit, wherein the operating variable is used for processing a value of the operating parameter of the ceiling fan with light kit; anda microcontroller of the lighting device, designed with a capacity to interpret the wireless instruction signal received by a wireless signal receiver of the lighting device and accordingly manages to output at least one control signal to control and set the value of at least one operating parameter of the ceiling fan with light kit;wherein the value of the operating parameter is stored in a memory of the microcontroller for repetitive performance, wherein the stored value of the operating parameter is replaceable by a processing of new operating variable selected by the user;wherein the operating parameter is used for controlling at least one of various lighting and electrical characteristics of the ceiling fan with light kit including timer settings, fan speed settings and fan rotation direction settings, light intensity settings and light color temperature settings;wherein the free setting algorithm is a capacity scale simulation implemented by a visual configuration of a free setting operator incorporated with a capacity scale simulator and an indicator of the capacity operating rate to facilitate the user's decision making process in setting a desired level of the operating parameter, wherein when the free setting operator is activated by the user to interact with the capacity scale simulator, the user interface APP responsively manages to gradually adjust the value of the capacity operating rate according to the instantaneous state of interaction between the free setting operator and the capacity scale simulator with the indicator of the capacity operating rate simultaneously showing an instantaneous state of the capacity operating rate, wherein the capacity operating rate shown in the indicator can be an operating percentage, an operating chart or an actual operating value of the relevant operating parameter, wherein when a free setting motion of the free setting operator is ceased, the user interface APP manages to generate the operating variable corresponding to the selection of the capacity operating rate and accordingly operates to transmit a wireless instruction signal carrying a message of the operating variable to the ceiling fan with light kit. 64. The on line free setting method according to claim 63, wherein the mobile device is a mobile phone, a pad, a PDA, a notebook, a smart watch, a smart speaker or a remote controller featured with a capacity to download an APP from an Internet or a cloud server. 65. The on line free setting method according to claim 63, wherein the ceiling fan is a DC motor fan and the light kit is a LED lighting device.
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