CN102131327A - Wireless energy-saving control device of lamplight - Google Patents

Wireless energy-saving control device of lamplight Download PDF

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Publication number
CN102131327A
CN102131327A CN2010100228683A CN201010022868A CN102131327A CN 102131327 A CN102131327 A CN 102131327A CN 2010100228683 A CN2010100228683 A CN 2010100228683A CN 201010022868 A CN201010022868 A CN 201010022868A CN 102131327 A CN102131327 A CN 102131327A
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China
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module
circuit
wireless
controller
input
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CN2010100228683A
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李军
王志毅
王飞
张向阳
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CONNELL ENERGY TECHNOLOGY (SHANGHAI) CO LTD
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CONNELL ENERGY TECHNOLOGY (SHANGHAI) CO LTD
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Priority to CN2010100228683A priority Critical patent/CN102131327A/en
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B20/00Energy efficient lighting technologies, e.g. halogen lamps or gas discharge lamps
    • Y02B20/40Control techniques providing energy savings, e.g. smart controller or presence detection

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Abstract

The invention relates to a device in the technical field of electrical lighting, in particular to a wireless energy-saving control device of lamplight, which is mainly applied to daily living environment, office building and all other environments with lamplight lighting. The device comprises a wireless lamp controller, a wireless illumination sensor, a lamp control system remote controller, a network system structure, and the like, wherein the wireless illumination sensor and the lamp control system remote controller are additionally arranged on the wall at one side of a building window with lamplight lighting, and the wireless lamp controller, an indoor lamp and a switch are arranged on the wall at the other side of the window. The device mainly solves the relevant technical problems on how to additionally arrange the wireless illumination sensor and the lamp control system remote controller, and the like. The invention has the advantages that the device is automatically closed when light is brighter, and when the light is darker, the control of a lamp is automatically started; meanwhile, control information is transmitted by adopting a wireless channel so as to prevent the switching of a toggle switch and be convenient for the engineering installation and the installation attraction; and the device has the advantages of energy saving, environment optimization, and the like.

Description

The lamp light wireless energy-saving control device
Technical field
The present invention relates to the device of electrical lighting technical field, especially a kind ofly be mainly used in daily living environment, office building, commercial building and other all have lamplit environment.
Background technology
In common impression, air-conditioning is a power consumption " rich and influential family ", but air-conditioning has seasonality, lighting---people need every day, according to statistics, the illumination energy consumption of office building has accounted for the building and has always used 1/5th of electric energy consumption, and the illumination energy consumption of commercial building accounts for the building and always uses more than 40% of electric energy consumption, near half.As seen, lighting is a power consumption " rich and influential family ".Under the present state of development of China, the management of lighting is more loose, often has under the fine situation of weather on daytime, and a large amount of buildings still adopt artificial light, cause the waste of the energy.
Summary of the invention
In order to overcome above-mentioned weak point, main purpose of the present invention aims to provide a kind of light Energy Saving Control that utilizes, and realizes utilizing the switch control reference point of the intensity of illumination as light fixture, when realizing that light is brighter, automatically close, when light is dark, turn on lights control automatically; Adopt the wireless channel control information transmission simultaneously, switch, make it to be convenient to project installation and lamp light wireless energy-saving control device attractive in appearance is installed to prevent toggle switch.
The technical problem to be solved in the present invention is: mainly solve and how to set up the installation question of wireless optical according to sensor and lighting control system remote controller, solve relevant technologies problems such as how adopting the wireless channel control information transmission.
The technical solution adopted for the present invention to solve the technical problems is: this device comprises: window, indoor lamp, derailing switch and network system etc., also comprise: wireless lamp controller, wireless optical are according to sensor, lighting control system remote controller and network system architecture, set up wireless optical according to sensor and lighting control system remote controller being provided with on the side wall of lamplit building window to install, on another side wall of window wireless lamp controller, indoor lamp and derailing switch are installed successively, described indoor lamp and derailing switch are electrically connected mutually by lead; Network system architecture mainly is made up of host computer, building remote controller, data centralization manager A, data centralization manager B, data centralization manager C, repeater A, repeater B, repeater C, socket, switch and thermostat, above-mentioned each parts are combined as holistic wireless energy-saving control device by being installed in the wireless lighting control system illumination sensor circuit in the instrument, wireless lighting control system controller circuitry and wireless lighting control system remote control circuitry etc., and this device includes at least:
One wireless lamp controller is mounted on the side ceiling, and is the separate type mounting structure between the wireless optical photograph sensor;
One derailing switch is mounted on the side ceiling;
One wireless optical is mounted on the opposite side ceiling according to sensor, and is the separate type mounting structure between the wireless lamp controller;
One lighting control system remote controller is mounted on the opposite side ceiling;
Above-mentioned wireless lamp controller, wireless optical are according to passing through the wireless channel control information transmission between sensor and lighting control system remote controller and the indoor lamp;
Parallel respectively two-way the interconnecting of port with each data centralization manager A, data centralization manager B and data centralization manager C of one host computer, building remote controller by the RS485 network;
One data centralization manager A is by two-way the interconnecting of port of RF433M radio communication and each room repeater A, repeater B and repeater C;
One repeater A is by two-way the interconnecting of port of RF2.4G radio communication and each socket, switch and thermostat.
Further, the wireless lamp controller of described lamp light wireless energy-saving control device and derailing switch or be mounted on the inside of indoor lamp.
Further, the wireless lighting control system illumination sensor circuit of described lamp light wireless energy-saving control device includes at least:
Programmable Logic Controller A module, illuminance testing circuit, DC power supply AC220V module, power transfer module, clock circuit, filter circuit, system's operation indicating circuit, 2.4G wireless communication module, RTC calendar circuit and JTAG scheduling download circuit module;
The parallel respectively output with power transfer module, clock circuit and filter circuit module of the input of one Programmable Logic Controller A module interconnects; The output of this Programmable Logic Controller A module input parallel respectively and system operation indicating circuit, 2.4G wireless communication module and RTC calendar circuit module interconnects;
The output of one direct current power supply AC220V module and the input of power transfer module interconnect;
The input of the output of one illuminance testing circuit and Programmable Logic Controller A module interconnects;
The input of one JTAG scheduling download circuit module and the output of Programmable Logic Controller A module interconnect.
Further, the wireless lighting control system controller circuitry of described lamp light wireless energy-saving control device includes at least:
Programmable Logic Controller A module, DC power supply AC220V module, power transfer module, clock circuit, filter circuit, system's operation indicating circuit, 2.4G wireless communication module, JTAG dispatch download circuit, 8 road lamp controller control circuits and 8 road lamp controller protective circuit modules;
The parallel respectively output with power transfer module, clock circuit and filter circuit module of the input of one Programmable Logic Controller A module interconnects; The parallel respectively input with system's operation indicating circuit and 8 road lamp controller control circuit module of the output of this Programmable Logic Controller A module interconnects;
The input of the output of one 8 road lamp controller control circuit module and 8 road lamp controller protective circuit modules interconnects;
The output of one direct current power supply AC220V module and the input of power transfer module interconnect;
The input of the output of one 2.4G wireless communication module and Programmable Logic Controller A module interconnects;
The input of one JTAG scheduling download circuit module and the output of Programmable Logic Controller A module interconnect.
Further, the wireless lighting control system remote control circuitry of described lamp light wireless energy-saving control device includes at least:
Programmable Logic Controller B module, keyboard input detection module, battery charging management module, the valgar ion battery of 3.7V, system switching machine module, power transfer module, clock circuit, filter circuit, RTC calendar circuit, JTAG scheduling download circuit, system's operation indicating circuit, 2.4G wireless communication module, keyboard guidance lighting module, usb interface module, 232 serial interface modules, buzzer module and system storage module;
The parallel respectively output with system switching machine module, power transfer module, clock circuit, filter circuit and RTC calendar circuit module of the input of one Programmable Logic Controller B module interconnects; The output of this Programmable Logic Controller B module input parallel respectively and system's operation indicating circuit, keyboard guidance lighting module, 2.4G wireless communication module, usb interface module, 232 serial interface modules, buzzer module and system storage module interconnects;
The output of one keyboard input detection module and the input of Programmable Logic Controller B module interconnect;
The input of the valgar ion battery module of the output of one battery charging management module and 3.7V interconnects;
The valgar ion battery module of one 3.7V output and the input of power transfer module interconnect;
The input of one JTAG scheduling download circuit module and the output of Programmable Logic Controller A module interconnect.
The invention has the beneficial effects as follows: the light Energy Saving Control realizes utilizing the switch control reference point of the intensity of illumination as light fixture, when realizing that light is brighter, close automatically, and when light is dark, the control of turn on lights automatically; Adopt the wireless channel control information transmission simultaneously, to prevent the toggle switch switching and to be convenient to project installation and to install attractive in appearance; Has energy savings and advantage such as optimize the environment.
Description of drawings
Accompanying drawing 1 is a system architecture schematic diagram of the present invention;
Accompanying drawing 2 is room unit configuration diagram of the present invention;
Accompanying drawing 3 is wireless lighting control system illumination sensor circuit principle block diagrams of the present invention;
Accompanying drawing 4 is wireless lighting control system controller circuitry principle block diagrams of the present invention;
Accompanying drawing 5 is wireless lighting control system remote control circuitry principle block diagrams of the present invention;
Accompanying drawing 6 is structural representations of the present invention;
Label declaration in the accompanying drawing:
The 1-window; 31-8 road lamp controller control circuit;
The wireless lamp controller of 2-; 32-8 road lamp controller protective circuit;
The 3-indoor lamp; 40-keyboard input detection module;
The 4-derailing switch; 41-battery charging management module;
The 5-wireless optical is according to sensor; 42-3.7V valgar ion battery;
6-lighting control system remote controller; 43-system switching machine module;
The 7-socket; 50-Programmable Logic Controller B;
The 8-switch; 51-keyboard guidance lighting module;
The 9-thermostat; The 52-USB interface module;
10-host computer, building remote controller; The 53-232 serial interface module;
101-data centralization manager A; 54-buzzer module;
102-data centralization manager B; 55-system storage module;
103-data centralization manager C; The 60-remote controller;
111-repeater A; 61-remote controller A;
112-repeater B; 62-remote controller B;
113-repeater C; 63-remote controller C;
20-illuminance testing circuit; 64-remote controller D;
21-AC220V;
The 22-power transfer module;
The 23-clock circuit;
The 24-filter circuit;
25-Programmable Logic Controller A;
26-system operation indicating circuit;
27-2.4G wireless communication module;
28-RTC calendar circuit;
29-JTAG dispatches download circuit;
Embodiment
The present invention is further described below in conjunction with drawings and Examples.
See also shown in the accompanying drawing 1,2,3,4,5,6, the present invention comprises: this device comprises: window 1, indoor lamp 3, derailing switch 4 and network system, also comprise: wireless lamp controller 2, wireless optical are according to sensor 5, lighting control system remote controller 6 and network system architecture etc., set up wireless optical according to sensor 5 and lighting control system remote controller 6 being provided with on the side wall of lamplit building window 1 to install, wireless lamp controller 2, indoor lamp 3 and derailing switch 4 are installed on another side wall of window 1 successively, and described indoor lamp 3 and derailing switch 4 are electrically connected mutually by lead; Network system architecture mainly is made up of host computer, building remote controller 10, data centralization manager A 101, data centralization manager B 102, data centralization manager C 103, repeater A 111, repeater B 112, repeater C 113, socket 7, switch 8 and thermostat 9 etc., above-mentioned each parts are combined as holistic wireless energy-saving control device by being installed in the wireless lighting control system illumination sensor circuit in the instrument, wireless lighting control system controller circuitry and wireless lighting control system remote control circuitry, and this device includes at least:
One wireless lamp controller 2 is mounted on the side ceiling, and is the separate type mounting structure between the wireless optical photograph sensor 5;
One derailing switch 4 is mounted on the side ceiling;
One wireless optical is mounted on the opposite side ceiling according to sensor 5, and is the separate type mounting structure between the wireless lamp controller 2;
One lighting control system remote controller 6 is mounted on the opposite side ceiling;
Above-mentioned wireless lamp controller 2, wireless optical are according to passing through the wireless channel control information transmission between sensor 5 and lighting control system remote controller 6 and the indoor lamp 3;
Parallel respectively two-way the interconnecting of port with each data centralization manager A 101, data centralization manager B 102 and data centralization manager C103 of one host computer, building remote controller 10 by the RS485 interface network;
One data centralization manager A 101 is by two-way the interconnecting of port of radio frequency 433M radio communication and each room repeater A 111, repeater B 112 and repeater C 113;
One repeater A 111 is by two-way the interconnecting of port of radio frequency 2.4G radio communication and each socket 7, switch 8 and thermostat 9.
Further, the wireless lamp controller 2 of described lamp light wireless energy-saving control device and derailing switch 4 or be mounted on the inside of indoor lamp 3.
Further, see also shown in the accompanying drawing 3, the wireless lighting control system illumination sensor circuit of described lamp light wireless energy-saving control device includes at least:
Programmable Logic Controller A 25 modules, illuminance testing circuit 20, DC power supply AC220V21 module, power transfer module 22, clock circuit 23, filter circuit 24, system's operation indicating circuit 26,2.4G wireless communication module 27, real-time timepiece chip RTC calendar circuit 28 and JTAG (Joint Test Action Group) JTAG scheduling download circuit 29 modules;
The parallel respectively output with power transfer module 22, clock circuit 23 and filter circuit 24 modules of the input of one Programmable Logic Controller A, 25 modules interconnects; The output of this Programmable Logic Controller A 25 modules inputs parallel respectively and system operation indicating circuit 26,2.4G wireless communication module 27 and real-time timepiece chip (Real-Time Clock) RTC calendar circuit 28 modules interconnect;
The output of one direct current power supply AC220V, 21 modules and the input of power transfer module 22 interconnect;
The input of the output of one illuminance testing circuit 20 and Programmable Logic Controller A 25 modules interconnects;
The input of one JTAG scheduling download circuit, 29 modules and the output of Programmable Logic Controller A 25 modules interconnect, and JTAG (Joint Test ActionGroup) JTAG dispatches download circuit 29, for having expanded the serial interface module of purposes.
Further, see also shown in the accompanying drawing 4, the wireless lighting control system controller circuitry of described lamp light wireless energy-saving control device includes at least:
Programmable Logic Controller A 25 modules, DC power supply AC220V 21 modules, power transfer module 22, clock circuit 23, filter circuit 24, system's operation indicating circuit 26,2.4G wireless communication module 27, JTAG scheduling download circuit 29,8 road lamp controller control circuits 31 and 8 road lamp controller protective circuits, 32 modules;
The parallel respectively output with power transfer module 22, clock circuit 23 and filter circuit 24 modules of the input of one Programmable Logic Controller A, 25 modules interconnects; The parallel respectively input with system's operation indicating circuit 26 and 8 road lamp controller control circuits, 31 modules of the output of this Programmable Logic Controller A 25 modules interconnects;
The input of the output of one 8 road lamp controller control circuit, 31 modules and 8 road lamp controller protective circuits, 32 modules interconnects;
The output of one direct current power supply AC220V, 21 modules and the input of power transfer module 22 interconnect;
The input of the output of one 2.4G wireless communication module 27 and Programmable Logic Controller A 25 modules interconnects;
The input of one JTAG scheduling download circuit, 29 modules and the output of Programmable Logic Controller A 25 modules interconnect.
Further, see also shown in the accompanying drawing 5, the wireless lighting control system remote control circuitry of described lamp light wireless energy-saving control device includes at least:
Programmable Logic Controller B 50 modules, keyboard input detection module 40, battery charging management module 41, the valgar ion battery 42 of 3.7V, system switching machine module 43, power transfer module 22, clock circuit 23, filter circuit 24, RTC calendar circuit 28, JTAG scheduling download circuit 29, system's operation indicating circuit 26,2.4G wireless communication module 27, keyboard guidance lighting module 51, usb interface module 52,232 serial interface modules 53, buzzer module 54 and system storage module 55;
The parallel respectively output with system switching machine module 43, power transfer module 22, clock circuit 23, filter circuit 24 and RTC calendar circuit 28 modules of the input of one Programmable Logic Controller B, 50 modules interconnects; The output of this Programmable Logic Controller B 50 modules input parallel respectively and system's operation indicating circuit 26, keyboard guidance lighting module 51,2.4G wireless communication module 27, usb interface module 52,232 serial interface modules 53, buzzer module 54 and system storage module 55 interconnects;
The output of one keyboard input detection module 40 and the input of Programmable Logic Controller B 50 modules interconnect;
The input of valgar ion battery 42 modules of the output of one battery charging management module 41 and 3.7V interconnects;
Valgar ion battery 42 modules of one 3.7V output and the input of power transfer module 22 interconnect;
The input of one JTAG scheduling download circuit, 29 modules and the output of Programmable Logic Controller A 25 modules interconnect.
This device wireless optical is measured the light intensity that enters window 1 from the external world according to sensor 5, separates with wireless lamp controller 2, and lighting control system remote controller 6 use wireless channel control information transmissions, to prevent the toggle switch switching and to be convenient to project installation and to install attractive in appearance.
Wireless optical is shone sensor 5 owing to need socket to go the reliable socket of electricity that 4 inside that can be installed on ceiling or indoor lamp 3 together of wireless lamp controller 2 and derailing switch are installed.Lighting control system remote controller 6 can be provided with the degree of decay of headlamp switch switching point and wireless optical photograph sensor 5.
Following embodiment does not limit content of the present invention.
As shown in Figure 1, host computer is by RS48 interface network or radio frequency (RadioFrequency) RF433M radio communication and each room repeater communication, and repeater then passes through the terminal communication of electricity consumptions such as 2.4G radio communication and socket, switch.
As shown in Figure 2, remote controller 60 communication modes use the close range wireless communication of CC2500 module, and remote controller A 61, the remote controller B 62 of Section Point, the remote controller C 63 of the 3rd node and the remote controller D 64 of the 4th node with first node carries out wireless telecommunications respectively; Be the pattern that the room unit remote controller adds each network node in the network unit: in a room unit, be a network element; Room unit remote controller wherein can with any one network node communication of inside, unit; Communication modes uses the close range wireless communication mode of CC2500 module.
The intensity of the outdoor illumination that is entered from window 1 according to sensor 5 sensings by wireless optical, when realizing that light is brighter, derailing switch 4 cuts out indoor lamp 3 automatically.Wireless optical is separated with wireless lamp controller 2 according to sensor 5, and lighting control system remote controller 6 use wireless channel control information transmissions, to prevent the toggle switch switching and to be convenient to project installation and to install attractive in appearance.

Claims (5)

1. lamp light wireless energy-saving control device, this device comprises: window (1), indoor lamp (3), derailing switch (4) and network system, it is characterized in that also comprising: wireless lamp controller (2), wireless optical is according to sensor (5), lighting control system remote controller (6) and network system architecture, on a side wall that is provided with lamplit building window (1), install and set up wireless optical according to sensor (5) and lighting control system remote controller (6), wireless lamp controller (2) is installed on another side wall of window (1) successively, indoor lamp (3) and derailing switch (4), described indoor lamp (3) and derailing switch (4) are electrically connected mutually by lead; Network system architecture mainly is made up of host computer, building remote controller (10), data centralization manager A (101), data centralization manager B (102), data centralization manager C (103), repeater A (111), repeater B (112), repeater C (113), socket (7), switch (8) and thermostat (9), above-mentioned each parts are combined as holistic wireless energy-saving control device by being installed in the wireless lighting control system illumination sensor circuit in the instrument, wireless lighting control system controller circuitry and wireless lighting control system remote control circuitry, and this device includes at least:
One wireless lamp controller (2) is mounted on the side ceiling, and is the separate type mounting structure between the wireless optical photograph sensor (5);
One derailing switch (4) is mounted on the side ceiling;
One wireless optical is mounted on the opposite side ceiling according to sensor (5), and is the separate type mounting structure between the wireless lamp controller (2);
One lighting control system remote controller (6) is mounted on the opposite side ceiling;
Above-mentioned wireless lamp controller (2), wireless optical are according to passing through the wireless channel control information transmission between sensor (5) and lighting control system remote controller (6) and the indoor lamp (3);
Parallel respectively two-way the interconnecting of port with each data centralization manager A (101), data centralization manager B (102) and data centralization manager C (103) of one host computer, building remote controller (10) by the RS485 network;
One data centralization manager A (101) is by two-way the interconnecting of port of RF433M radio communication and each room repeater A (111), repeater B (112) and repeater C (113);
One repeater A (111) is by two-way the interconnecting of port of RF2.4G radio communication and each socket (7), switch (8) and thermostat (9).
2. lamp light wireless energy-saving control device according to claim 1 is characterized in that: described wireless lamp controller (2) and derailing switch (4) or be mounted on the inside of indoor lamp (3).
3. lamp light wireless energy-saving control device according to claim 1 is characterized in that: described wireless lighting control system illumination sensor circuit includes at least:
Programmable Logic Controller A (25) module, illuminance testing circuit (20), DC power supply AC220V (21) module, power transfer module (22), clock circuit (23), filter circuit (24), system's operation indicating circuit (26), 2.4G wireless communication module (27), RTC calendar circuit (28) and JTAG scheduling download circuit (29) module;
The parallel respectively output with power transfer module (22), clock circuit (23) and filter circuit (24) module of the input of one Programmable Logic Controller A (25) module interconnects; The output of this Programmable Logic Controller A (25) module input parallel respectively and system operation indicating circuit (26), 2.4G wireless communication module (27) and RTC calendar circuit (28) module interconnects;
The output of one direct current power supply AC220V (21) module and the input of power transfer module (22) interconnect;
The input of the output of one illuminance testing circuit (20) and Programmable Logic Controller A (25) module interconnects;
The input of one JTAG scheduling download circuit (29) module and the output of Programmable Logic Controller A (25) module interconnect.
4. lamp light wireless energy-saving control device according to claim 1 is characterized in that: described wireless lighting control system controller circuitry includes at least:
Programmable Logic Controller A (25) module, DC power supply AC220V (21) module, power transfer module (22), clock circuit (23), filter circuit (24), system's operation indicating circuit (26), 2.4G wireless communication module (27), JTAG dispatch download circuit (29), 8 road lamp controller control circuits (31) and 8 road lamp controller protective circuit (32) modules;
The parallel respectively output with power transfer module (22), clock circuit (23) and filter circuit (24) module of the input of one Programmable Logic Controller A (25) module interconnects; The parallel respectively input with system's operation indicating circuit (26) and 8 road lamp controller control circuit (31) modules of the output of this Programmable Logic Controller A (25) module interconnects;
The input of the output of one 8 road lamp controller control circuit (31) module and 8 road lamp controller protective circuit (32) modules interconnects;
The output of one direct current power supply AC220V (21) module and the input of power transfer module (22) interconnect;
The input of the output of one 2.4G wireless communication module (27) and Programmable Logic Controller A (25) module interconnects;
The input of one JTAG scheduling download circuit (29) module and the output of Programmable Logic Controller A (25) module interconnect.
5. lamp light wireless energy-saving control device according to claim 1 is characterized in that: described wireless lighting control system remote control circuitry includes at least:
Programmable Logic Controller B (50) module, keyboard input detection module (40), battery charging management module (41), 3.7V valgar ion battery (42), system switching machine module (43), power transfer module (22), clock circuit (23), filter circuit (24), RTC calendar circuit (28), JTAG dispatches download circuit (29), system's operation indicating circuit (26), 2.4G wireless communication module (27), keyboard guidance lighting module (51), usb interface module (52), 232 serial interface modules (53), buzzer module (54) and system storage module (55);
The parallel respectively output with system switching machine module (43), power transfer module (22), clock circuit (23), filter circuit (24) and RTC calendar circuit (28) module of the input of one Programmable Logic Controller B (50) module interconnects; The output of this Programmable Logic Controller B (50) module input parallel respectively and system's operation indicating circuit (26), keyboard guidance lighting module (51), 2.4G wireless communication module (27), usb interface module (52), 232 serial interface modules (53), buzzer module (54) and system storage module (55) interconnects;
The output of one keyboard input detection module (40) and the input of Programmable Logic Controller B (50) module interconnect;
The input of the output of one battery charging management module (41) and the valgar ion battery of 3.7V (42) module interconnects;
The valgar ion battery of one 3.7V (42) module output and the input of power transfer module (22) interconnect;
The input of one JTAG scheduling download circuit (29) module and the output of Programmable Logic Controller A (25) module interconnect.
CN2010100228683A 2010-01-15 2010-01-15 Wireless energy-saving control device of lamplight Pending CN102131327A (en)

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Application publication date: 20110720