CN114513882A - Intelligent lighting device management system and method thereof - Google Patents

Abstract

An intelligent lighting device management system includes a lighting device and an electronic device. The lighting device comprises a memory, a controller, a power supply, a signal detector, a wireless communicator and a light source. The power supply drives the light source. The signal detector detects the working data of the light source. The controller stores the working data in the memory. The electronic device receives the working data transmitted by the controller through the wireless communicator, and calculates and displays one or more of the working power, the working voltage, the working current, the power consumption, the working temperature and the working time of the light source through the application program according to the working data.

Description

Intelligent lighting device management system and method thereof

Technical Field

The present invention relates to a lighting device management system, and more particularly, to an intelligent lighting device management system. The invention also relates to a management method of the intelligent lighting device management system.

Background

Existing lighting management systems may be programmed through the use of application programs and perform some basic management functions. However, the conventional lighting device management system cannot acquire the operating state of each lighting device in real time, and cannot acquire the real-time power utilization condition of each lighting device. Thus, there are still a number of drawbacks to the existing lighting device management systems that are to be improved upon.

Disclosure of Invention

According to an embodiment of the present invention, an intelligent lighting device management system is provided, which includes a lighting device and an electronic device. The lighting device comprises a memory, a controller, a power supply, a signal detector, a wireless communicator and a light source. The power supply drives the light source. The signal detector detects the working data of the light source. The controller stores the working data in the memory. The electronic device receives the working data transmitted by the controller through the wireless communicator, and calculates and displays one or more of the working power, the working voltage, the working current, the power consumption, the working temperature and the working time of the light source through the application program according to the working data.

In one embodiment, the signal detector converts the working power, the working voltage and the working current of the light source into a first frequency, a second frequency and a third frequency respectively as a part of the working data.

In an embodiment, the control chip of the signal detector converts the working power, the working voltage, and the working current of the light source into the first frequency, the second frequency, and the third frequency according to the first frequency adjustment coefficient, the second frequency adjustment coefficient, the third frequency adjustment coefficient, and the crystal frequency of the control chip.

In one embodiment, the signal detector further comprises a temperature detector, wherein the temperature detector detects the working temperature of the light source as part of the working data.

In one embodiment, the signal detector further comprises a timer, and the timer detects the working time of the light source as a part of the working data.

According to an embodiment of the present invention, a method for managing a lighting device is further provided, which includes the following steps: driving a light source of the lighting device through a power supply of the lighting device; detecting working data of the light source by a signal detector of the lighting device; storing the working data in a memory of the lighting device via a controller of the lighting device; receiving, by the electronic device, the operating data transmitted by the wireless communicator of the lighting device; and calculating and displaying one or more of the working power, the working voltage, the working current, the power consumption, the working temperature and the working time of the light source through the application program according to the working data through the electronic device.

In one embodiment, the step of detecting the operation data of the light source by the signal detector of the lighting device further comprises the following steps: the working power, the working voltage and the working current of the light source are respectively converted into a first frequency, a second frequency and a third frequency through the signal detector to be used as part of working data.

In an embodiment, the step of converting the working power, the working voltage, and the working current of the light source into the first frequency, the second frequency, and the third frequency respectively through the signal detector as a part of the working data further comprises the steps of: converting the working power of the light source into a first frequency through a control chip of the signal detector according to a first frequency adjusting coefficient and a crystal oscillator frequency of the control chip; converting the working voltage of the light source into a second frequency by a control chip of the signal detector according to a second frequency adjusting coefficient of the control chip and the crystal oscillator frequency; and converting the working current of the light source into a third frequency by a control chip of the signal detector according to a third frequency adjusting coefficient and the crystal oscillator frequency of the control chip.

In one embodiment, the step of detecting the operation data of the light source by the signal detector of the lighting device further comprises: the working temperature of the light source is detected by a temperature detector of the signal detector as a part of the working data.

In one embodiment, the step of detecting the operation data of the light source by the signal detector of the lighting device further comprises: the working time of the light source is detected by the timer of the signal detector as a part of the working data.

As mentioned above, the intelligent lighting device management system and method according to the embodiments of the present invention may have one or more of the following advantages:

(1) in an embodiment of the present invention, the controller of each lighting device of the intelligent lighting device management system can detect the real-time working data of the light source through the signal detector and the special operation mechanism, and then transmit the working data to the electronic device through the wireless communicator, so that the electronic device can calculate and display the working state of the light source of the lighting device through the application program, and periodically provide the power consumption status of each lighting device, so that the user can conveniently manage all lighting devices of the intelligent lighting device management system through the application program of the electronic device and the wireless communication (such as bluetooth, etc.).

(2) In an embodiment of the present invention, the controller of each lighting device of the intelligent lighting device management system can detect the operating time of each lighting device through the signal detector and the special operation mechanism. The electronic device can calculate and display the remaining service life of each lighting device according to the working time of the lighting device through an application program and wireless communication (such as Bluetooth and the like), and generates a warning signal to remind a user when the remaining service life of the lighting device is lower than a preset threshold value, so that the user can replace the lighting device in time, and the lighting system can always maintain normal operation.

(3) In an embodiment of the invention, the application program of the electronic device can calculate the working state of the light source of the lighting device and generate a warning signal to remind a user when any working state is abnormal, so that the user can take necessary measures in time to ensure that the lighting system can always maintain normal operation.

(4) In an embodiment of the invention, the application program of the electronic device can calculate the operating state of the light source of the lighting device and analyze the reason for the rapid attenuation of the light source of the lighting device through the data. Therefore, the user can take necessary improvement measures in time to prolong the service life of the lighting device.

(5) In an embodiment of the invention, a user can turn on or off each lighting device of the intelligent lighting device management system or dim each lighting device of the intelligent lighting device management system through an application program of the electronic device and wireless communication (such as bluetooth, etc.), so that the user can conveniently operate all lighting devices of the intelligent lighting device management system through the application program of the electronic device.

Drawings

Fig. 1 is a schematic diagram of an intelligent lighting device management system according to an embodiment of the present invention;

fig. 2 is a block diagram of a lighting device of the intelligent lighting device management system according to an embodiment of the present invention;

fig. 3 is a circuit diagram of a signal detector of a lighting device of the intelligent lighting device management system according to an embodiment of the present invention;

fig. 4 is a flowchart of a lighting device management method according to an embodiment of the invention.

Description of reference numerals:

1-an intelligent lighting device management system; 11-a lighting device; 111-memory, 112-controller, 113-power supply; 114-a signal detector; 115-a wireless communicator; 116-a light source; 12-an electronic device; a Cp-control chip; tr-timer; rt-temperature detector; r1 — first resistance; r2 — second resistance; rm-milliohm resistance; r-current limiting resistor; a U-output port; v1, V2-voltage values; vref-reference voltage; S41-S45-step flow.

The detailed features and advantages of the present invention are described in detail in the following embodiments, which are sufficient for anyone skilled in the art to understand the technical content of the present invention and to implement the present invention, and the related objects and advantages can be easily understood by anyone skilled in the art according to the disclosure, the claims and the drawings of the present specification.

Detailed Description

Embodiments of the intelligent lighting device management system and method thereof according to the present invention will be described below with reference to the accompanying drawings, wherein the components may be exaggerated or reduced in size or in scale for clarity and convenience in the drawing description. In the following description and/or claims, when an element is referred to as being "connected" or "coupled" to another element, it can be directly connected or coupled to the other element or intervening elements may be present; when an element is referred to as being "directly connected" or "directly coupled" to another element, there are no intervening elements present, and other words used to describe the relationship between the elements or layers should be interpreted in the same manner. For ease of understanding, like components in the following embodiments are illustrated with like reference numerals.

Please refer to fig. 1 and fig. 2, which are schematic diagrams of an intelligent lighting device management system and a block diagram of a lighting device of the intelligent lighting device management system according to an embodiment of the present invention. As shown, the intelligent lighting device management system 1 includes a plurality of lighting devices 11 and an electronic device 12. In one embodiment, the electronic device 12 may be a smart phone, a tablet computer, a notebook computer, or other similar device.

The lighting device 11 includes a memory 111, a controller 112, a power supply 113, a signal detector 114, a wireless communicator 115, and a light source 116. The controller 112 is connected to the memory 111, the wireless communicator 115, the power supply 113 and the signal detector 114. The power supply 113 is connected to the signal detector 114. The signal detector 114 is connected to a light source 116.

The power supply 113 is connected to an external power source (e.g., a commercial power) to drive the light source 116, so that the light source 116 emits light. In one embodiment, the light source 116 may be a Light Emitting Diode (LED) lamp, a light bulb, a fluorescent lamp, or other similar components, and the power supply 113 may be a light source driver corresponding to the light source 116.

The signal detector 114 detects the operation data of the light source 113. In one embodiment, the signal detector 114 may be a sensor or various circuits with sensing functions.

The controller 112 stores the operation data in the memory 111. In one embodiment, the controller 112 may be a Microcontroller (MCU), a Central Processing Unit (CPU), an application specific integrated circuit chip (ASIC), or other similar components. In one embodiment, the memory 111 may be an Electrically Erasable Programmable Read Only Memory (EEPROM), a Flash memory (Flash memory) or the like.

The electronic device 12 receives the operation data transmitted from the controller 112 through the wireless communicator 115, and calculates and displays the operation state of the light source 116, such as one or more of the operation power, the operation voltage, the operation current, the power consumption, the operation temperature, and the operation time, through the application program according to the operation data. In this embodiment, the wireless communicator 115 may be a Bluetooth (Bluetooth) communication chip (circuit). In another embodiment, the wireless communicator 115 may be a Wi-Fi communication chip (circuit) or other similar component.

The electronic device 12 can calculate and display the operating status (including one or more of operating power, operating voltage, operating current, power consumption, operating temperature, and operating time) of the light source 116 of each lighting device 11 through the application program, and periodically provide the power consumption status of each lighting device 11, so that the user can conveniently manage all the lighting devices 11 of the intelligent lighting device management system 1 through the application program of the electronic device 12.

In addition, the application program of the electronic device 12 can calculate the operating states of the light sources 116 of the lighting devices 11, and generate an alarm signal to remind the user when any one of the operating states is abnormal. The electronic device 12 can calculate and display the remaining service life of each lighting device 11 according to the working time of the lighting device 11 through the application program, and generate a warning signal to remind the user when the remaining service life of the lighting device 11 is lower than a preset threshold. Therefore, the user can take necessary measures in time, so that the lighting system can always keep normal operation.

On the other hand, the user may also control each lighting device 11 of the intelligent lighting device management system 1 through the application program of the electronic device 12. For example, the user may turn on or off each lighting device 11 of the smart lighting device management system 1 or dim each lighting device 11 through the application of the electronic device 12. Therefore, the user can conveniently operate all the lighting devices 11 of the intelligent lighting device management system 1 through the application program of the electronic device 12.

Therefore, the user can also operate all the lighting devices 11 of the intelligent lighting device management system 1 or perform various statistical analyses through the electronic device 12 and the bluetooth communication protocol.

Please refer to fig. 3, which is a circuit diagram of a signal detector of a lighting device of an intelligent lighting device management system according to an embodiment of the present invention. This embodiment exemplifies one of the circuit configurations of the signal detector 114. As shown, the signal detector 114 includes a control chip Cp, a timer Tr, a temperature detector Rt, a first resistor R1, a second resistor R2, a milliohm resistor Rm, and a plurality of current limiting resistors R. The control chip Cp samples the operating voltage and the operating current of the light source 116, and converts the sampled voltages into corresponding voltage values V1 and V2, and reads the reference voltage Vref. Wherein V1 can be represented by the following formula (1):

V1＝Vw×R1/(R1+R2)…………………………(1)

wherein Vw is the operating voltage of the light source 116.

V2 can be represented by the following formula (2):

V2＝Iw×Rm……………………………………(2)

the control chip Cp converts the operating voltage of the light source 116 into a second frequency Fv according to the second frequency adjustment coefficient K2 and the crystal frequency FOSC of the control chip Cp, as a part of the operating data, as shown in the following formula (3):

Fv＝K2×V1×FOSC/Vref……………………(3)

wherein Fv is the second frequency. The second frequency adjustment coefficient K2 is an adjustment coefficient of the control chip Cp corresponding to the voltage conversion into frequency, which can be obtained from specification data provided by the manufacturer of the control chip Cp.

The control chip Cp converts the working current of the light source 116 into a third frequency Iv according to the third frequency adjustment coefficient K3 and the crystal frequency FOSC of the control chip Cp, as a part of the working data, as shown in the following formula (4):

Fi＝K3×V2×FOSC/Vref……………………(4)

the third frequency adjustment coefficient K3 is an adjustment coefficient of the control chip Cp corresponding to the conversion of current into frequency, and can be obtained from specification data provided by the manufacturer of the control chip Cp.

The control chip Cp converts the working power of the light source 116 into a first frequency Fp according to the first frequency adjustment coefficient K1 and the crystal frequency FOSC of the control chip Cp, as a part of the working data, as shown in the following equation (5):

Fp＝K1×V1×V2×FOSC/(Vref×Vref)……(5)

the first frequency adjustment coefficient K1 is an adjustment coefficient of the control chip Cp corresponding to the conversion of current into power, and can be obtained from specification data provided by the manufacturer of the control chip Cp. In addition, in the embodiment, the control chip Cp further corrects the calculation result through the crystal frequency FOSC to make it more accurate. Similarly, the crystal frequency FOSC can also be obtained from the specification data provided by the manufacturer of the control chip Cp, which can be used to further adjust the conversion calculation, so that the calculation result can be more accurate.

The signal detector 114 is not easily measured accurately due to the mV or uV level of the operating voltage of the light source 116. However, through the aforementioned special operation mechanism for integrating the frequency adjustment coefficient and the crystal frequency of the control chip Cp, the control chip Cp can obtain a more accurate calculation result as the working data. Therefore, the electronic device 12 can calculate the operating voltage of the light source 116 more accurately through the application program. For the same reason, the electronic device 12 can more accurately calculate the operating current and the operating power of the light source 116 through the application program. The temperature detector Rt detects the operating temperature of the light source 116 (or other components) as part of the operating data. In one embodiment, the temperature detector Rt may be a thermistor, thermocouple, or other similar component.

The timer Tr detects the operation time of the light source 116 as a part of the operation data. Then, the control chip Cp can output the working data to the controller 112 through the output port U. The controller 112 stores the working data in the memory 111 and transmits the working data to the electronic device 12 through the wireless communicator 115. In one embodiment, the output port U may be a Universal Asynchronous Receiver Transmitter (UART) port or other similar interface.

As mentioned above, the electronic device 12 can calculate and display the remaining service life of each lighting device 11 according to the working time of each lighting device 11 through the application program, and generate a warning signal to remind the user when the remaining service life of any lighting device 11 is lower than the preset threshold. In one embodiment, the timer Tr may be a Real Time Clock (RTC) or other similar components.

The user can also calculate the operating state of the light source 116 of each lighting device 11, such as the operating power, the operating voltage, the operating current, and the operating time, through the application program of the electronic device 12, and then calculate and display the power consumption of the lighting device 11. In this way, the user can know the power consumption of each lighting apparatus 11, and take necessary measures when the power consumption of any one lighting apparatus 11 is abnormal.

Therefore, the user can also calculate the operating status of the light source 116 of each lighting device 11 through the application program of the electronic device 12, and analyze the reason for the rapid attenuation of the light source 116 of the lighting device 11 through the above data. Therefore, the user can adjust the operation parameters or other data of the lighting device 11 according to the above reasons, so as to improve the service life of the lighting device 11.

Of course, the present embodiment is only used for illustrating and not limiting the scope of the invention, and equivalent modifications or changes made by the intelligent lighting device management system 1 according to the present embodiment should be still included in the scope of the invention.

It is worth mentioning that the existing lighting device management system can control the lighting device by application program and perform some basic management functions. However, the conventional lighting device management system cannot acquire the operating state of each lighting device in real time, and cannot acquire the real-time power utilization condition of each lighting device. On the contrary, according to the embodiment of the present invention, the controller of each lighting device of the intelligent lighting device management system can detect the real-time working data of the light source through the signal detector and the special operation mechanism, and then transmit the working data to the electronic device through the wireless communicator, so that the electronic device can calculate and display the working state of the light source of the lighting device through the application program, and periodically provide the power consumption status of each lighting device, so that the user can conveniently manage all lighting devices of the intelligent lighting device management system through the application program of the electronic device and the wireless communication (such as bluetooth, etc.).

In addition, according to the embodiment of the present invention, the controller of each lighting device of the intelligent lighting device management system can detect the operating time of each lighting device through the signal detector and the special operation mechanism. The electronic device can calculate and display the remaining service life of each lighting device according to the working time of the lighting device through an application program and wireless communication (such as bluetooth and the like), and generates a warning signal to remind a user when the remaining service life of the lighting device is lower than a preset threshold value, so that the user can replace the lighting device in time, and the lighting system can always keep normal operation.

In addition, according to the embodiment of the invention, the application program of the electronic device can calculate the working state of the light source of the lighting device and generate the warning signal to remind the user when any working state is abnormal, so that the user can take necessary measures in time, and the lighting system can always maintain normal operation.

In addition, according to the embodiment of the invention, the application program of the electronic device can calculate the working state of the light source of the lighting device and analyze the reason for the rapid attenuation of the light source of the lighting device through the data. Therefore, the user can take necessary improvement measures in time to prolong the service life of the lighting device.

Furthermore, according to the embodiment of the present invention, the user can turn on or off each lighting device of the intelligent lighting device management system or dim each lighting device of the intelligent lighting device management system through the application program of the electronic device and the wireless communication (such as bluetooth, etc.), so that the user can conveniently operate all lighting devices of the intelligent lighting device management system through the application program of the electronic device. From the above, the intelligent lighting device management system according to the embodiment of the invention can indeed achieve excellent technical effects.

Please refer to fig. 4, which is a flowchart illustrating a method for managing a lighting device according to an embodiment of the present invention. As shown in the figure, the lighting device management method of the intelligent lighting device management system 1 of the present embodiment includes the following steps:

step S41: the light source of the lighting device is driven by the power supply of the lighting device.

Step S42: the signal detector of the lighting device detects the working data of the light source.

Step S43: the working data is stored in a memory of the lighting device via a controller of the lighting device.

Step S44: the electronic device receives the working data transmitted by the wireless communicator of the lighting device.

Step S45: and calculating and displaying one or more of the working power, the working voltage, the working current, the power consumption, the working temperature and the working time of the light source through the application program according to the working data through the electronic device.

Of course, the present embodiment is only for illustrating and not limiting the scope of the invention, and equivalent modifications or changes made according to the lighting device management method of the present embodiment should be still included in the scope of the invention.

Although the steps of the methods described herein are shown and described in a particular order, the order of operation of each method may be changed, some steps may be performed in the reverse order, or some steps may be performed concurrently with other steps. In another embodiment, the different steps may be performed in an intermittent and/or alternating manner.

In summary, according to the embodiments of the present invention, the controller of each lighting device of the intelligent lighting device management system can detect the real-time working data of the light source through the signal detector and the special operation mechanism, and then transmit the working data to the electronic device through the wireless communicator, so that the electronic device can calculate and display the working state of the light source of the lighting device through the application program, and periodically provide the power consumption status of each lighting device, so that the user can conveniently manage all lighting devices of the intelligent lighting device management system through the application program of the electronic device and the wireless communication (such as bluetooth, etc.).

In addition, according to the embodiment of the present invention, the controller of each lighting device of the intelligent lighting device management system can detect the operating time of each lighting device through the signal detector and the special operation mechanism. The electronic device can calculate and display the remaining service life of each lighting device according to the working time of the lighting device through an application program and wireless communication (such as bluetooth and the like), and generates a warning signal to remind a user when the remaining service life of the lighting device is lower than a preset threshold value, so that the user can replace the lighting device in time, and the lighting system can always keep normal operation.

In addition, according to the embodiment of the invention, the application program of the electronic device can calculate the working state of the light source of the lighting device and generate the warning signal to remind the user when any working state is abnormal, so that the user can take necessary measures in time, and the lighting system can always maintain normal operation.

In addition, according to the embodiment of the invention, the application program of the electronic device can calculate the working state of the light source of the lighting device and analyze the reason for the rapid attenuation of the light source of the lighting device through the data. Therefore, the user can take necessary improvement measures in time to prolong the service life of the lighting device.

Furthermore, according to the embodiments of the present invention, the user can turn on or off each lighting device of the intelligent lighting device management system or dim each lighting device of the intelligent lighting device management system through the application program of the electronic device and the wireless communication (such as bluetooth, etc.), so that the user can conveniently operate all lighting devices of the intelligent lighting device management system through the application program of the electronic device.

It should be noted that, although the above embodiments have been described herein, the invention is not limited thereto. Therefore, based on the innovative concepts of the present invention, the technical solutions of the present invention can be directly or indirectly applied to other related technical fields by making changes and modifications to the embodiments described herein, or by using equivalent structures or equivalent processes performed in the content of the present specification and the attached drawings, which are included in the scope of the present patent.

Claims (10)

1. An intelligent lighting device management system, comprising:

the lighting device comprises a memory, a controller, a power supply, a signal detector, a wireless communicator and a light source, wherein the power supply drives the light source, the signal detector detects working data of the light source, and the controller stores the working data in the memory; and

and the electronic device receives the working data transmitted by the controller through the wireless communicator, and calculates and displays one or more of working power, working voltage, working current, power consumption, working temperature and working time of the light source through an application program according to the working data.

2. The intelligent lighting device management system of claim 1, wherein the signal detector converts the operating power, the operating voltage, and the operating current of the light source into a first frequency, a second frequency, and a third frequency, respectively, as part of the operating data.

3. The intelligent lighting device management system according to claim 2, wherein a control chip of the signal detector converts the operating power, the operating voltage, and the operating current of the light source into the first frequency, the second frequency, and the third frequency according to a first frequency adjustment coefficient, a second frequency adjustment coefficient, a third frequency adjustment coefficient, and a crystal frequency of the control chip, respectively.

4. The intelligent lighting device management system of claim 1, wherein the signal detector further comprises a temperature detector, the temperature detector detecting the operating temperature of the light source as part of the operating data.

5. The intelligent lighting device management system of claim 1, wherein the signal detector further comprises a timer, the timer detecting the operating time of the light source as part of the operating data.

6. A method for managing a lighting device, comprising:

driving a light source of a lighting device through a power supply of the lighting device;

detecting a working data of the light source by a signal detector of the lighting device;

storing the working data in a memory of the lighting device through a controller of the lighting device;

receiving, by an electronic device, the working data transmitted from a wireless communicator of the lighting device; and

and calculating and displaying one or more of a working power, a working voltage, a working current, a power consumption, a working temperature and a working time of the light source through an application program according to the working data by the electronic device.

7. The method as claimed in claim 6, wherein the step of detecting the operation data of the light source by the signal detector of the lighting device further comprises:

the working power, the working voltage and the working current of the light source are converted into a first frequency, a second frequency and a third frequency respectively through the signal detector to be used as a part of the working data.

8. The method as claimed in claim 7, wherein the step of converting the operating power, the operating voltage, and the operating current of the light source into the first frequency, the second frequency, and the third frequency, respectively, as part of the operating data via the signal detector further comprises:

converting the working power of the light source into a first frequency by a control chip of the signal detector according to a first frequency adjustment coefficient and a crystal oscillator frequency of the control chip;

converting the working voltage of the light source into a second frequency by the control chip of the signal detector according to a second frequency adjustment coefficient of the control chip and the crystal oscillator frequency; and

the control chip of the signal detector converts the working current of the light source into a third frequency according to a third frequency adjusting coefficient of the control chip and the crystal oscillator frequency.

9. The method as claimed in claim 6, wherein the step of detecting the operation data of the light source by the signal detector of the lighting device further comprises:

the working temperature of the light source is detected by a temperature detector of the signal detector as a part of the working data.

10. The method as claimed in claim 6, wherein the step of detecting the operation data of the light source by the signal detector of the lighting device further comprises:

the working time of the light source is detected by a timer of the signal detector as a part of the working data.

Images