CN106385748A - Novel light-controlled energy saving lamp device - Google Patents
Novel light-controlled energy saving lamp device Download PDFInfo
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- CN106385748A CN106385748A CN201610814872.0A CN201610814872A CN106385748A CN 106385748 A CN106385748 A CN 106385748A CN 201610814872 A CN201610814872 A CN 201610814872A CN 106385748 A CN106385748 A CN 106385748A
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B47/00—Circuit arrangements for operating light sources in general, i.e. where the type of light source is not relevant
- H05B47/10—Controlling the light source
- H05B47/105—Controlling the light source in response to determined parameters
- H05B47/11—Controlling the light source in response to determined parameters by determining the brightness or colour temperature of ambient light
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- Y—GENERAL 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
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B20/00—Energy efficient lighting technologies, e.g. halogen lamps or gas discharge lamps
- Y02B20/40—Control techniques providing energy savings, e.g. smart controller or presence detection
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- Circuit Arrangement For Electric Light Sources In General (AREA)
Abstract
The invention discloses a novel light-controlled energy saving lamp device which comprises a lamp box, a lamp cover, a lamp tube, a power switch and a button, and three photoresistors are arranged on a lamp box shell; a first photoresistor, a second photoresistor and a third photoresistor are horizontally arranged on the lamp box shell, the lamp cover is below the lamp box, the lamp tube is below the lamp cover, the power switch, the button and indicator lamps are arranged on a wall, wherein the button comprises three tap positions including high tap position, middle tap position and low tap position, the indicator lamps comprises a high tap position indicator lamp, a middle tap position indicator lamp and low tap position indicator lamp, and a control circuit is arranged in the lamp box through a circuit board. According to the invention, the device comprises advantages of simple structure, convenient use and high intelligent level.
Description
Technical field
The invention belongs to field of intelligent control technology is and in particular to a kind of novel light-operated energy-saving lamp device.
Background technology
With the high speed development of economic society, intelligence degree more and more higher, bring many facilities for our life;
Lamp machine, as one of conventional ligthing paraphernalia, plays certain effect, present city in daily life, study, work
Energy-conservation torch lamp on face has energy-conservation, light-operated function to a certain extent, but also there are many deficiencies in use
Place;Thus it is possible to a kind of Based Intelligent Control of no design, the torch lamp device of energy-conservation, it appears more and more important.
Content of the invention
For above-mentioned situation, for overcoming the shortcoming of prior art, it is an object of the invention to provide a kind of novel light-operated section
Can lamp device, can effectively solve the problems, such as torch lamp in the intellectuality of light-operated aspect, sensitivity and energy-conservation.
The present invention solves above-mentioned technical problem and adopts the following technical scheme that, a kind of novel light-operated energy-saving lamp device, its feature
It is, including lamp box, lampshade, fluorescent tube, power switch and button, three photo resistance to be distributed with described lamp box shell:First
Photo resistance, the second photo resistance and the 3rd photo resistance, on the horizontally arranged shell in lamp box of three photo resistance, below lamp box
Lampshade, lampshade is presented herein below fluorescent tube, power switch, button and indicator lamp are arranged on wall, wherein button be divided into high tap position, in
Gear and three gears of low-grade location, indicator lamp includes high-grade indicator lamp, middle-grade indicator lamp and keeps out indicator lamp, in the internal warp of lamp box
Circuit board is provided with control circuit.
Present configuration novel and unique, advantages of simple, safe and reliable, easy to operate, intelligence degree is high, can be according to week
The degree of darkness in collarette border is intelligentized realize torch lamp brightness, can also manually implemented lamp brightness, accuracy is high.
Brief description
Fig. 1 is the structural representation of the present invention;
Fig. 2 is the enforcement module map of the present invention;
Fig. 3 is the photoelectric detective circuit figure of the present invention;
Fig. 4 is the anti-jamming circuit figure of the present invention;
Fig. 5 is the key circuit figure of the present invention;
Fig. 6 is the inverter circuit figure of the present invention;
Fig. 7 is the indicator light circuit figure of the present invention;
Fig. 8 is triggers circuit figure of the present invention;
Fig. 9 is the power circuit diagram of the present invention;
Figure 10 is the reset circuit figure of the present invention;
Figure 11 is the crystal oscillating circuit figure of the present invention.
Drawing explanation:1st, lamp box, the 101, first photo resistance, the 102, second photo resistance, the 103, the 3rd photo resistance,
2nd, lampshade, 3, fluorescent tube, 4, power switch, 5, button, 501, high tap position button, 502, middle gear button, 503, low-grade location button,
6th, indicator lamp, 601, high-grade indicator lamp, 602, middle-grade indicator lamp, 603, low-grade indicator lamp.
Specific embodiment
Describe the particular content of the present invention in conjunction with accompanying drawing in detail.A kind of novel light-operated energy-saving lamp device, including lamp box 1, lamp
Cover 2, fluorescent tube 3, power switch 4 and button 5, are distributed with three photo resistance on described lamp box 1 shell:First photo resistance
101st, the second photo resistance 102 and the 3rd photo resistance 103, on the horizontally arranged shell in lamp box 1 of three photo resistance, lamp box 1
Lampshade 2 is presented herein below, lampshade 2 is presented herein below fluorescent tube 3, power switch 4, button 5 and indicator lamp 6 are arranged on wall, wherein 5 points of button
For high tap position button 501, middle gear button 502 and 503 3 gears of low-grade location button, indicator lamp 6 includes high-grade indicator lamp
601st, middle-grade indicator lamp 602 and keep out indicator lamp 603, is provided with control circuit through circuit board inside lamp box 1.
Described control circuit includes photoelectric detective circuit IC1, anti-jamming circuit IC2, key circuit IC3, phase inverter electricity
Road IC4, indicator light circuit IC5, triggers circuit IC6, power circuit IC7, reset circuit IC8, crystal oscillating circuit IC9 and monolithic are dynamo-electric
Road IC10, single-chip microcomputer IC10 meet signal delay circuit IC2, reset circuit IC8, crystal oscillating circuit IC9, key circuit IC3, anti-respectively
Phase device IC circuit 4, indicator light circuit IC5 and triggers circuit IC8, anti-jamming circuit IC2 is connected with photoelectric detective circuit IC1, instead
Phase device IC circuit 4 is connected with triggers circuit IC8, and triggers circuit IC8 is connected with power circuit and luminous tube.
Described photoelectric detective circuit IC1 includes three photoelectric sensor circuits:First photoelectric detective circuit includes photosensitive
Resistance(LDR1), dual operational amplifier(U1:A), dual operational amplifier(U1:A)8 pin respectively one end of connecting resistance R1, resistance
One end of R2, another termination dual operational amplifier of resistance R1(U1:A)3 pin, one end of photo resistance LDR1, resistance R2's
The other end connects dual operational amplifier respectively(U1:A)2 pin, one end of resistance R3, the other end of resistance R3, photo resistance LDR1
The other end, dual operational amplifier(U1:A)4 pin earths, dual operational amplifier(U1:A)1 pin connect through node A anti-dry
Disturb circuit;Second photoelectric detective circuit includes photo resistance(LDR2), dual operational amplifier(U1:B), dual operational amplifier(U1:
B)8 pin respectively one end of connecting resistance R4, one end of resistance R5, another termination dual operational amplifier of resistance R4(U1:B)5
Pin, one end of photo resistance LDR2, the other end of resistance R5 connects dual operational amplifier respectively(U1:B)6 pin, the one of resistance R6
End, the other end of resistance R6, the other end of photo resistance LDR2, dual operational amplifier(U1:B)4 pin earths, double computings
Amplifier(U1:B)7 pin connect anti-jamming circuit through node B;3rd photoelectric detective circuit includes photo resistance(LDR3), double fortune
Calculate amplifier(U1:C), dual operational amplifier(U1:C)8 pin respectively one end of connecting resistance R7, one end of resistance R8, resistance R7
Another termination dual operational amplifier(U1:C)3 pin, one end of photo resistance LDR3, the other end of resistance R8 connects double fortune respectively
Calculate amplifier(U1:C)2 pin, one end of resistance R9, the other end of resistance R9, the other end of photo resistance LDR3, double computing are put
Big device(U1:C)4 pin earths, dual operational amplifier(U1:C)1 pin connect anti-jamming circuit through node B.
Described anti-jamming circuit IC2 includes three anti-jamming circuits:First anti-jamming circuit includes four-operational amplifier
(U2:A)With peripheral Resistor-Capacitor Unit, four-operational amplifier(U2:A)4 pin connect power supply, four-operational amplifier(U2:A)3 pin connect
One end of resistance R10, one end of resistance R13, another termination power of resistance R10, four-operational amplifier(U2:A)2 pin respectively
One end of connecting resistance R11, one end of electric capacity C1, four-operational amplifier(U2:A)11 pin ground connection, the other end of electric capacity C1 is respectively
Connect with one end of the other end, the other end of resistance R12 and resistance R14 of resistance R13, another termination four computing of resistance R14
Amplifier(U2:A)1 pin and single-chip microcomputer P1.0 end, the other end of resistance R11, the other end of resistance R12 connect double fortune through point A
Calculate amplifier(U1:A)1 pin;Second anti-jamming circuit includes four-operational amplifier(U2:B)With peripheral Resistor-Capacitor Unit, four computings
Amplifier(U2:B)4 pin connect power supply, four-operational amplifier(U2:B)One end of 5 pin connecting resistance R15, one end of resistance R18,
Another termination power of resistance R15, four-operational amplifier(U2:B)6 pin respectively one end of connecting resistance R16, the one of electric capacity C2
End, four-operational amplifier(U2:B)11 pin ground connection, the other end of electric capacity C2 respectively with the other end of resistance R17, resistance R18
The other end is connected with one end of resistance R19, another termination four-operational amplifier of resistance R19(U2:B)7 pin and single-chip microcomputer
P1.1 end, the other end of resistance R16, the other end of resistance R17 connect dual operational amplifier through point B(U1:B)7 pin;3rd is anti-dry
Disturb circuit and include four-operational amplifier(U2:C)With peripheral Resistor-Capacitor Unit, four-operational amplifier(U2:C)4 pin connect power supply, four fortune
Calculate amplifier(U2:C)One end of 10 pin connecting resistance R20, one end of resistance R23, another termination power of resistance R20, four fortune
Calculate amplifier(U2:C)9 pin respectively one end of connecting resistance R21, one end of electric capacity C3, four-operational amplifier(U2:C)11 pin
Ground connection, the other end of electric capacity C3 is connected with one end of the other end, the other end of resistance R23 and resistance R24 of resistance R22 respectively,
Another termination four-operational amplifier of resistance R24(U2:C)8 pin and single-chip microcomputer P1.2 end, the other end of resistance R21, resistance
The other end of R22 connects dual operational amplifier through point C(U1:C)1 pin.
One end of electric capacity C4 of described key circuit IC3, one end of resistance R25, one end of reset key SAW1 simultaneously couple
The P0.5 end of single-chip microcomputer, another termination power of resistance R25, the other end of electric capacity C4, the other end of reset key SAW1 simultaneously couple
Ground;One end of electric capacity C5, one end of resistance R26, one end parallel connection of reset key SAW2 connect the P0.6 end of single-chip microcomputer, resistance R26's
Another termination power, the other end of electric capacity C5, the other end earth of reset key SAW2;One end of electric capacity C6, resistance R27
One end, one end parallel connection of reset key SAW3 connect the P0.7 end of single-chip microcomputer, another termination power of resistance R27, and electric capacity C6's is another
End, the other end earth of reset key SAW3.
Described inverter circuit IC4 includes 3 phase inverters(U4:A、U4:B、U4:C), 3 phase inverters(U4:A、U4:B、
U4:C)1 pin, 3 pin, 5 pin connect the P0.0 end of single-chip microcomputer, P0.1 end, P0.2 end, phase inverter respectively(U4:A、U4:B、U4:C)'s
2 pin, 4 pin, 6 pin are connected with subordinate circuit through node D, E, F respectively.
The forward end of the light emitting diode D1 in described indicator light circuit IC5 connects a grade inverter circuit through node D, sends out
One end of the reverse terminating resistor R28 of optical diode D1, the other end ground connection of resistance R28;The forward end warp of light emitting diode D2
Node E connects a grade inverter circuit, one end of the reverse terminating resistor R29 of light emitting diode D2, another termination of resistance R29
Ground;The forward end of light emitting diode D3 connects a grade inverter circuit, the reverse terminating resistor R30 of light emitting diode D3 through node F
One end, resistance R30 the other end ground connection.
Described triggers circuit IC6 comprises 3 circuit:First triggers circuit includes photoelectrical coupler(U5:A), controllable silicon
(U6:A)And resistance, photoelectrical coupler(U5:A)1 pin connecting resistance R31 one end, another termination power of resistance R31, photoelectricity
Coupler(U5:A)2 pin connecting resistance R33 one end, the other end of resistance R33 is connected with higher level's circuit through node D, light thermocouple
Clutch(U5:A)6 pin connecting resistance R32 one end, another termination controllable silicon of resistance R32(U6:A)3 pin and through node M with
Subordinate's circuit connects, photoelectrical coupler(U5:A)4 pin connect controllable silicon(U6:A)1 pin, controllable silicon(U6:A)2 pin through node
N is connected with subordinate circuit;Second triggers circuit includes photoelectrical coupler(U5:B), controllable silicon(U6:B)And resistance, photoelectric coupling
Device(U5:B)1 pin connecting resistance R35 one end, another termination power of resistance R35, photoelectrical coupler(U5:B)2 pin connect electricity
One end of resistance R34, the other end of resistance R34 is connected with higher level's circuit through node P, photoelectrical coupler(U5:B)6 pin connecting resistances
One end of R36, another termination controllable silicon of resistance R36(U6:B)3 pin and be connected with subordinate circuit through node N, photoelectric coupling
Device(U5:B)4 pin connect controllable silicon(U6:B)1 pin, controllable silicon(U6:B)2 pin be connected with subordinate circuit through node Q;3rd
Triggers circuit includes photoelectrical coupler(U5:C), controllable silicon(U6:C)And resistance, photoelectrical coupler(U5:C)1 pin connecting resistance
One end of R38, another termination power of resistance R38, photoelectrical coupler(U5:C)2 pin connecting resistance R37 one end, resistance R37
The other end be connected with higher level's circuit through node F, photoelectrical coupler(U5:C)6 pin connecting resistance R39 one end, resistance R39's
Another termination controllable silicon(U6:C)3 pin and be connected with subordinate circuit through node R, photoelectrical coupler(U5:C)4 pin connect controlled
Silicon(U6:C)1 pin, controllable silicon(U6:C)2 pin be connected with subordinate circuit through node S.
Described power circuit IC7 includes three terminal regulator(U7), mutual inductor(TR1), three terminal regulator(U7)3 pin
Connect one end, one end of electric capacity C8 and the power supply of electric capacity C7, three terminal regulator(U7)1 pin connect one end of electric capacity C9, two poles respectively
The backward end of pipe D4, the backward end of diode D5, three terminal regulator(U7)2 pin, the other end of electric capacity C7, electric capacity C8 another
End, the other end earth of electric capacity C9, the forward end of diode D4, the forward end of diode D5 and mutual inductor(TR1)Even
Connect, mutual inductor(TR1)Centre tap ground connection, mutual inductor(TR1)Output end(U、V)Connect a grade circuit, fluorescent tube and
220V power supply.
One end of resistance R40, one end of resistance R41, one end of electric capacity C10 couple electricity in described reset circuit IC8
Source, one end of another termination reset key SAW4 of resistance R40, the other end of reset key SAW4, the other end of resistance R41, electric capacity
The other end of C10 is all logical with the RST termination of single-chip microcomputer.
One end earth of one end of electric capacity C11, electric capacity C12 in described crystal oscillating circuit IC9, electric capacity C11's is another
One end of end and crystal oscillator X1 connects the XTAL2 end of single-chip microcomputer, and the other end of the other end of electric capacity C12 and crystal oscillator X1 connects single-chip microcomputer
XTAL1 end.
3 photo resistance susceptibilitys in photoelectric detective circuit used in the present invention are different, and the first photo resistance is to relatively
Dark light has higher sensitivity, and the second photo resistance light high to darkness has higher sensitivity, the 3rd photo resistance
To very dark light, there is higher sensitivity, when ambient lighting is dark around, the second photo resistance, the resistance of the 3rd photo resistance
Value is very big so that the second photoelectric detective circuit, the 3rd photoelectric detective circuit disconnect;The resistance of the first photo resistance reduces rapidly,
Lead to the first photoelectric detective circuit to be started working, optical signal is converted into voltage signal, after A/D conversion, enter anti-interference electricity
Road, signal is further magnified in this circuit arrangement, and exaggerated data signal is finally received by single-chip microcomputer, and single-chip microcomputer enters to signal
Row analysis, process, then send instruction, now low-grade location indicator lamp is bright, according to indicator lamp, people can judge that brightness opened by lamp
Gear;After phase inverter, action potential inverts the signal that single-chip microcomputer sends(It is originally high potential, through anti-phase
It is changed into electronegative potential after device, is originally electronegative potential, be changed into high potential after phase inverter), enter into tactile through the signal of phase inverter
Power Generation Road, realizes the unlatching of trigger, now, torch lamp sends light by changing silicon controlled opening angle;Around
When ambient lighting darkness is high, the resistance of the 3rd photo resistance is not very greatly so that the 3rd photoelectric detective circuit works;First photosensitive electricity
Resistance, the resistance of the second photo resistance reduce rapidly, lead to the first photoelectric detective circuit, the second photoelectric detective circuit to be started working,
Optical signal is converted into voltage signal, enters anti-jamming circuit, signal is put in this circuit arrangement further after A/D conversion
Greatly, exaggerated data signal is finally received by single-chip microcomputer, and single-chip microcomputer is analyzed to signal, processes, and then sends instruction, this
When middle-grade indicator lamp bright, people can according to indicator lamp judge lamp open brightness gear;The signal that single-chip microcomputer sends is through anti-
After phase device, action potential inverts(It is originally high potential, after phase inverter, is changed into electronegative potential, be originally electronegative potential, warp
It is changed into high potential after crossing phase inverter), enter into triggers circuit through the signal of phase inverter, by changing silicon controlled opening angle
To realize the unlatching of trigger, now, torch lamp sends stronger light;When ambient lighting darkness is very high around, the first light
Quick resistance, the second photo resistance, the resistance of the 3rd photo resistance reduce rapidly, lead to the first photoelectric detective circuit, the second photoelectricity
Testing circuit, the 3rd photoelectric detective circuit are started working, and optical signal is converted into voltage signal, enter anti-after A/D conversion
Interference circuit, signal is further magnified in this circuit arrangement, and exaggerated data signal is finally received by single-chip microcomputer, single-chip microcomputer pair
Signal is analyzed, processes, and then sends instruction, and now high-grade indicator lamp is bright, according to indicator lamp, people can judge that lamp is opened
The gear of brightness;After phase inverter, action potential inverts the signal that single-chip microcomputer sends(It is originally high potential, pass through
It is changed into electronegative potential after phase inverter, is originally electronegative potential, be changed into high potential after phase inverter), enter through the signal of phase inverter
To triggers circuit, realize the unlatching of trigger by changing silicon controlled opening angle, now, torch lamp sends very strong light
Bright;
Power circuit by the step-down of 220V electric power incoming line, voltage stabilizing, rectification, for whole system normal work;Crystal oscillating circuit makes monolithic
Machine produces vibration, orders about single-chip microcomputer itself with this and starts working, and under the ordering about of same crystal oscillator, can be good at keeping whole
The uniformity of system work and coordinative coherence;Reset circuit can be in system cisco unity malfunction so that system be opened again
Open, recover original service behaviour;In addition, the button being arranged on wall, can be convenient for people to adjust the bright of torch lamp manually
Degree;
The operation principle of the present invention is:After switching on power, photo resistance perceives the light intensity in surrounding environment, the first photosensitive electricity
Resistance, the second photo resistance, the 3rd photo resistance carry out corresponding action according to respective luminous sensitivity(Reach the resistance of sensitivity
Value diminishes so that corresponding photoelectric detective circuit is opened), signal is sent to single-chip microcomputer through analog to digital conversion, amplification, data signal
In, single-chip microcomputer sends corresponding instruction, and phase inverter carries out the reversion of current potential, and the current potential that signal passes through to carry in triggers circuit is high
The low triggering to realize triggers circuit to open the silicon controlled angle of flow, under the trigger action of triggers circuit, switches on power
System, can make torch lamp realize the unlatching brightness of respective notch;Even if ambient light do not reach high tap position open when it is also possible to
Manually button, realizes the regulation of torch lamp brightness, the life that better meets people with this, the requirement of study aspect.
Photo resistance in the present invention has very strong antijamming capability and very high sensitivity.Four computings in the present invention
Model LM325 of amplifier, model AT89C51 of described motor, three terminal regulator model 7808, photoelectrical coupler
Model MOC3034, phase inverter model 74LS08.
The present invention realize major function be:One is the darkness size according to ambient light, and real-time control torch lamp is opened
The height of brightness, farthest saves electric energy;Two is to present invention employs signal delay circuit, when heating gear is frequently become
It is ensured that system normally works when changing, improve the ability of the anti-induction electromotive force that neutralization produces because of frequent changes gear;Three
It is that the button that the present invention adds can be realized adjusting the size of torch lamp brightness manually, the need of different user can be better met
Ask.
The invention has the advantages that:1st, the crystal oscillator of present invention employing, reset, trigger etc. all can continue, surely
Fixed work and service life is more long;2nd, the AT89 series monolithic adopting, control accuracy is high, sensitivity is high, easy to operate.
The general principle of the present invention, principal character and advantage have been shown and described above, without departing from the present invention spirit and
On the premise of scope, the present invention also has various changes and modifications, and these changes and improvements both fall within claimed invention
Scope.
Claims (10)
1. a kind of novel light-operated energy-saving lamp device is it is characterised in that including lamp box, lampshade, fluorescent tube, power switch and button, described
Lamp box shell on three photo resistance are distributed with:First photo resistance, the second photo resistance and the 3rd photo resistance, three light
Quick resistance level is arranged on lamp box shell, and lamp box is presented herein below lampshade, and lampshade is presented herein below fluorescent tube, power switch, button and instruction
Lamp is arranged on wall, and wherein button is divided into high tap position, middle gear and three gears of low-grade location, and indicator lamp includes high-grade instruction
Lamp, middle-grade indicator lamp and keep out indicator lamp, are provided with control circuit through circuit board inside lamp box.
2. a kind of novel light-operated energy-saving lamp device according to claim 1 is it is characterised in that described control circuit includes
Photoelectric detective circuit IC1, anti-jamming circuit IC2, key circuit IC3, inverter circuit IC4, indicator light circuit IC5, triggering electricity
Road IC6, power circuit IC7, reset circuit IC8, crystal oscillating circuit IC9 and single chip circuit IC10, single-chip microcomputer IC10 connects letter respectively
Number delay circuit IC2, reset circuit IC8, crystal oscillating circuit IC9, key circuit IC3, inverter circuit IC4, indicator light circuit IC5
With triggers circuit IC8, anti-jamming circuit IC2 is connected with photoelectric detective circuit IC1, and inverter circuit IC4 is with triggers circuit IC8 even
Connect, triggers circuit IC8 is connected with power circuit and luminous tube.
3. a kind of novel light-operated energy-saving lamp device according to claim 2 is it is characterised in that described photoelectric detective circuit
IC1 includes three photoelectric sensor circuits:First photoelectric detective circuit includes photo resistance LDR1 and dual operational amplifier U1:A,
Dual operational amplifier U1:8 pin of A one end of connecting resistance R1, one end of resistance R2 respectively, the double computing of another termination of resistance R1 is put
Big device U1:3 pin of A, one end of photo resistance LDR1, the other end of resistance R2 meets dual operational amplifier U1 respectively:2 pin of A, electricity
One end of resistance R3, the other end of resistance R3, the other end of photo resistance LDR1, dual operational amplifier U1:The 4 pin earths of A,
Dual operational amplifier U1:1 pin of A connects anti-jamming circuit through node A;Second photoelectric detective circuit includes photo resistance LDR2 and double
Operational amplifier U1:B, dual operational amplifier U1:8 pin of B one end of connecting resistance R4, one end of resistance R5 respectively, resistance R4's
Another termination dual operational amplifier U1:5 pin of B, one end of photo resistance LDR2, the other end of resistance R5 connects double computings respectively and puts
Big device U1:6 pin of B, one end of resistance R6, the other end of resistance R6, the other end of photo resistance LDR2, dual operational amplifier
U1:The 4 pin earths of B, dual operational amplifier U1:7 pin of B connect anti-jamming circuit through node B;3rd photoelectric detective circuit bag
Include photo resistance LDR3 and dual operational amplifier U1:C, dual operational amplifier U1:8 pin of C one end of connecting resistance R7, resistance respectively
One end of R8, another termination dual operational amplifier U1 of resistance R7:3 pin of C, one end of photo resistance LDR3, resistance R8's is another
One end meets dual operational amplifier U1 respectively:2 pin of C, one end of resistance R9, the other end of resistance R9, photo resistance LDR3 another
One end, dual operational amplifier U1:The 4 pin earths of C, dual operational amplifier U1:1 pin of C connects anti-jamming circuit through node B.
4. a kind of novel light-operated energy-saving lamp device according to claim 2 is it is characterised in that described anti-jamming circuit
IC2 includes three anti-jamming circuits:First anti-jamming circuit includes four-operational amplifier U2:A and peripheral Resistor-Capacitor Unit, four computings
Amplifier U2:4 pin of A meet power supply, four-operational amplifier U2:One end of 3 pin connecting resistance R10 of A, one end of resistance R13, resistance
Another termination power of R10, four-operational amplifier U2:2 pin of A one end of connecting resistance R11, one end of electric capacity C1 respectively, four fortune
Calculate amplifier U2:The 11 pin ground connection of A, the other end of electric capacity C1 respectively with the other end of resistance R13, the other end of resistance R12 and
One end of resistance R14 is connected, another termination four-operational amplifier U2 of resistance R14:1 pin of A and the P1.0 end of single-chip microcomputer, resistance
The other end of R11, the other end of resistance R12 meet dual operational amplifier U1 through point A:1 pin of A;Second anti-jamming circuit includes four
Operational amplifier U2:B and peripheral Resistor-Capacitor Unit, four-operational amplifier U2:4 pin of B meet power supply, four-operational amplifier U2:The 5 of B
One end of pin connecting resistance R15, one end of resistance R18, another termination power of resistance R15, four-operational amplifier U2:6 pin of B divide
One end of other connecting resistance R16, one end of electric capacity C2, four-operational amplifier U2:The 11 pin ground connection of B, the other end of electric capacity C2 is respectively
Connect with one end of the other end, the other end of resistance R18 and resistance R19 of resistance R17, another termination four computing of resistance R19
Amplifier U2:7 pin of B and the P1.1 end of single-chip microcomputer, the other end of resistance R16, the other end of resistance R17 connect double computings through point B
Amplifier U1:7 pin of B;3rd anti-jamming circuit includes four-operational amplifier U2:C and peripheral Resistor-Capacitor Unit, four-operational amplifier
U2:4 pin of C meet power supply, four-operational amplifier U2:One end of 10 pin connecting resistance R20 of C, one end of resistance R23, resistance R20's
Another termination power, four-operational amplifier U2:9 pin of C one end of connecting resistance R21, one end of electric capacity C3 respectively, four operation amplifiers
Device U2:The 11 pin ground connection of C, the other end of electric capacity C3 respectively with the other end of resistance R22, the other end of resistance R23 and resistance R24
One end connect, another termination four-operational amplifier U2 of resistance R24:8 pin of C and the P1.2 end of single-chip microcomputer, resistance R21's is another
One end, the other end of resistance R22 meet dual operational amplifier U1 through point C:1 pin of C.
5. a kind of novel light-operated energy-saving lamp device according to claim 2 is it is characterised in that described key circuit IC3
One end of electric capacity C4, one end of resistance R25, one end parallel connection of reset key SAW1 connect the P0.5 end of single-chip microcomputer, resistance R25's is another
One termination power, the other end of electric capacity C4, the other end earth of reset key SAW1;One end of electric capacity C5, the one of resistance R26
End, one end parallel connection of reset key SAW2 connect the P0.6 end of single-chip microcomputer, another termination power of resistance R26, the other end of electric capacity C5,
The other end earth of reset key SAW2;One end of electric capacity C6, one end of resistance R27, one end of reset key SAW3 simultaneously couple
The P0.7 end of single-chip microcomputer, another termination power of resistance R27, the other end of electric capacity C6, the other end of reset key SAW3 simultaneously couple
Ground.
6. a kind of novel light-operated energy-saving lamp device according to claim 2 is it is characterised in that described inverter circuit
IC4 includes 3 phase inverter U4:A、U4:B and U4:C, 3 phase inverter U4:A、U4:B and U4:1 pin of C, 3 pin, the order respectively of 5 pin
The P0.0 end of piece machine, P0.1 end, P0.2 end, phase inverter U4:A、U4:B and U4:2 pin of C, 4 pin, 6 pin are respectively through node D, E, F
It is connected with subordinate circuit, the forward end of the light emitting diode D1 in described indicator light circuit IC5 connects a grade phase inverter through node D
Circuit, one end of the reverse terminating resistor R28 of light emitting diode D1, the other end ground connection of resistance R28;Light emitting diode D2 is just
Connect a grade inverter circuit, one end of the reverse terminating resistor R29 of light emitting diode D2 to end through node E, resistance R29's is another
End ground connection;The forward end of light emitting diode D3 connects a grade inverter circuit, the reverse terminating resistor of light emitting diode D3 through node F
One end of R30, the other end ground connection of resistance R30.
7. a kind of novel light-operated energy-saving lamp device according to claim 2 is it is characterised in that described triggers circuit IC6
Comprise 3 circuit:First triggers circuit includes photoelectrical coupler U5:A, controllable silicon U6:A and resistance, photoelectrical coupler U5:The 1 of A
One end of pin connecting resistance R31, another termination power of resistance R31, photoelectrical coupler U5:One end of the 2 pin connecting resistance R33 of A, electricity
The other end of resistance R33 is connected with higher level's circuit through node D, photoelectrical coupler U5:One end of the 6 pin connecting resistance R32 of A, resistance R32
Another termination controllable silicon U6:3 pin of A and being connected with subordinate circuit through node M, photoelectrical coupler U5:4 pin of A connect controllable silicon
U6:1 pin of A, controllable silicon U6:2 pin of A are connected with subordinate circuit through node N;Second triggers circuit includes photoelectrical coupler U5:
B, controllable silicon U6:B and resistance, photoelectrical coupler U5:One end of the 1 pin connecting resistance R35 of B, another termination power of resistance R35,
Photoelectrical coupler U5:One end of the 2 pin connecting resistance R34 of B, the other end of resistance R34 is connected with higher level's circuit through node P, photoelectricity
Coupler U5:One end of the 6 pin connecting resistance R36 of B, another termination controllable silicon U6 of resistance R36:3 pin of B and through node N with
Level circuit connects, photoelectrical coupler U5:4 pin of B meet controllable silicon U6:1 pin of B, controllable silicon U6:2 pin of B are through node Q and subordinate
Circuit connects;3rd triggers circuit includes photoelectrical coupler U5:C, controllable silicon U6:C and resistance, photoelectrical coupler U5:1 pin of C
One end of connecting resistance R38, another termination power of resistance R38, photoelectrical coupler U5:One end of the 2 pin connecting resistance R37 of C, resistance
The other end of R37 is connected with higher level's circuit through node F, photoelectrical coupler U5:One end of the 6 pin connecting resistance R39 of C, resistance R39's
Another termination controllable silicon U6:3 pin of C and being connected with subordinate circuit through node R, photoelectrical coupler U5:4 pin of C meet controllable silicon U6:
1 pin of C, controllable silicon U6:2 pin of C are connected with subordinate circuit through node S.
8. a kind of novel light-operated energy-saving lamp device according to claim 2 is it is characterised in that described power circuit IC7
Including three terminal regulator U7 and mutual inductor TR1,3 pin of three terminal regulator U7 connect one end of electric capacity C7, one end of electric capacity C8 and
Power supply, 1 pin of three terminal regulator U7 connects one end of electric capacity C9, the backward end of diode D4, the backward end of diode D5 respectively, and three
2 pin of end voltage-stablizer U7, the other end of electric capacity C7, the other end of electric capacity C8, the other end earth of electric capacity C9, diode D4
Forward end, the forward end of diode D5 be connected with mutual inductor TR1, the centre tap of mutual inductor TR1 ground connection, mutual inductor
Output end U, V of TR1 connects a grade circuit, fluorescent tube and 220V power supply.
9. a kind of novel light-operated energy-saving lamp device according to claim 2 is it is characterised in that described reset circuit IC8
One end of middle resistance R40, one end of resistance R41, one end of electric capacity C10 joining power, another termination reset key of resistance R40
One end of SAW4, the other end of reset key SAW4, the other end of resistance R41, the RST all with single-chip microcomputer for the other end of electric capacity C10
Termination is logical.
10. a kind of novel light-operated energy-saving lamp device according to claim 2 is it is characterised in that described crystal oscillating circuit IC9
One end of middle electric capacity C11, one end earth of electric capacity C12, one end of the other end of electric capacity C11 and crystal oscillator X1 connects single-chip microcomputer
XTAL2 end, the other end of the other end of electric capacity C12 and crystal oscillator X1 connects the XTAL1 end of single-chip microcomputer.
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CN111148310A (en) * | 2018-10-17 | 2020-05-12 | 赵文兴 | Brightness control structure of LED lamp |
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CN203492231U (en) * | 2013-09-16 | 2014-03-19 | 成都昊地科技有限责任公司 | A brightness automatic control circuit for a LED table lamp |
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CN103195733A (en) * | 2013-04-23 | 2013-07-10 | 河南科技学院 | Energy-saving electric fan with functions of intelligent gear shifting and automatic natural wind control |
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Application publication date: 20170208 |