CN215268791U - Solar LED light string mobile phone APP controller circuit with indicator lamp - Google Patents

Abstract

The utility model discloses a solar energy LED lamp cluster cell-phone APP controller circuit of tape light, including solar energy supply circuit, power management circuit, infrared receiving circuit and LED control circuit, solar energy supply circuit and power management circuit are connected, and power management circuit is connected with energy storage equipment, infrared receiving circuit and LED control circuit respectively, and infrared receiving circuit and LED control circuit are connected, and solar energy supply circuit still is connected with the solar energy pilot lamp. The user utilizes the cell-phone and LED lamp cluster to establish wireless communication, just can start the bright mode of going out, the bright mode of control LED lamp cluster and the timing mode of setting LED lamp cluster of LED lamp cluster at cell-phone APP end, realizes lamp cluster colour transform, need not to establish the controller in addition, and the user operation is got up more conveniently. The power end and the solar end of the LED lamp string are both connected with indicator lamps, so that whether the LED lamp string works normally or not is prompted to a user.

Description

Solar LED light string mobile phone APP controller circuit with indicator lamp

Technical Field

The utility model relates to a lamp cluster control field especially relates to solar energy LED lamp cluster cell-phone APP controller circuit of tape light.

Background

The lamp string is formed by connecting a plurality of low-voltage light sources in series through a wire and is used for decoration in the lamp industry and the like. The light source in the lamp string is originally a miniature bulb, and is replaced by a light-emitting diode, and the light-emitting diode as the light source has the characteristics of energy conservation and long service life. However, the existing light string is usually directly pressed by a press switch, and the switch is inconvenient. In addition, the existing lamp string is directly supplied by mains supply, so that the LED lamp string is easily damaged when the voltage of the mains supply fluctuates, and no indicator lamp is used for prompting the working state of the LED lamp string.

The above disadvantages need to be improved.

Disclosure of Invention

In order to overcome the not enough of current technique, the utility model provides a solar energy LED lamp cluster cell-phone APP controller circuit of tape light.

The utility model discloses technical scheme as follows:

solar energy LED lamp cluster cell-phone APP controller circuit of tape light, solar energy supply circuit, power management circuit and LED control circuit, solar energy supply circuit with power management circuit connects, power management circuit respectively with energy storage equipment with LED control circuit connects, LED control circuit passes through the bluetooth and is connected with the cell-phone, LED control circuit solar energy supply circuit still is connected with the solar energy pilot lamp.

According to the above technical scheme the utility model discloses, its characterized in that, solar energy power supply circuit includes first triode, second resistance and third resistance, and the positive pole of solar energy power is connected the one end of second resistance, the other end of second resistance is connected the base of first triode, the collecting electrode of first triode with LED control circuit is connected, the projecting pole of first triode ground connection; the other end of the second resistor is also connected with one end of the third resistor, and the other end of the third resistor is connected with the negative electrode of the solar power supply.

According to above-mentioned scheme the utility model discloses, its characterized in that, first emitting diode's positive pole through the fourth resistance with power management circuit's output is connected, first emitting diode's negative pole with the collecting electrode of first triode is connected.

According to the above technical scheme the utility model discloses, its characterized in that, power management circuit includes second chip, first inductance and third electric capacity, and solar power source's positive pole is connected with rechargeable battery's positive pole through first zener diode, rechargeable battery's positive pole is connected with one end of first inductance and one end of third electric capacity respectively through switch, the other end of first inductance with the input of second chip is connected, the GND end ground connection of second chip, the other end of third electric capacity is connected the negative pole of rechargeable battery; and the output end of the second chip is connected with the LED control circuit.

According to above-mentioned scheme the utility model discloses, a serial communication port, power management circuit still is connected with power indicator.

Furthermore, the anode of the second light emitting diode is connected with the output end of the power management circuit through a fifth resistor, and the cathode of the second light emitting diode is connected with the cathode of the rechargeable battery.

According to the above scheme the utility model discloses, a serial communication port, LED control circuit includes first chip and first electric capacity, power management circuit's output is connected respectively the one end of first electric capacity with the first pin of first chip, the other end of first electric capacity with rechargeable battery's negative pole is all connected to the eighth pin of first chip, the second pin of first chip is connected infrared receiving circuit's output, the third pin of first chip is connected solar energy supply circuit, the ground connection behind the mode change over switch is connected to the fourth pin of first chip, the fifth pin of first chip with the positive and negative lamp cluster of connection of sixth pin parallel connection of first chip.

Furthermore, a fifth pin of the first chip is respectively connected with an anode of a fourth LED lamp string and a cathode of a fifth LED lamp string, and the cathode of the fourth LED lamp string and the anode of the fifth LED lamp string are both connected with a sixth pin of the first chip.

According to above scheme the utility model discloses, a serial communication port, power management circuit still is connected with infrared receiving circuit, infrared receiving circuit with LED control circuit connects.

Furthermore, the infrared receiving circuit comprises an infrared chip, a first resistor and a second capacitor, the output end of the power management circuit is respectively connected with one end of the second capacitor and one end of the first resistor, the other end of the second capacitor is connected with the first pin of the infrared chip, the other end of the first resistor is connected with the second pin of the infrared chip, and the third pin of the infrared chip is connected with the LED control circuit.

According to the above scheme the utility model discloses, its beneficial effect lies in, the user utilizes the cell-phone to pass through bluetooth and LED lamp cluster and establishes wireless communication, just can start the bright mode of going out, control LED lamp cluster and set up the timing mode of LED lamp cluster at cell-phone APP end, realizes lamp cluster colour transform, need not to establish the controller in addition, and it is more convenient that the user operation gets up. The power end and the solar end of the LED lamp string are both connected with indicator lamps, so that whether the LED lamp string works normally or not is prompted to a user, the problem that the lamp string does not work is found conveniently, and the lamp string is maintained conveniently.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a block diagram of the circuit structure of the present invention;

fig. 2 is a schematic circuit diagram of the present invention.

In the figures, the various reference numbers:

1. the solar energy power supply circuit 2, the power management circuit 3, the infrared receiving circuit 4 and the LED control circuit.

Detailed Description

The invention is further described with reference to the following figures and embodiments:

as shown in fig. 1-2, solar energy LED lamp cluster cell-phone APP controller circuit of tape light includes solar energy supply circuit 1, power management circuit 2, infrared receiving circuit 3 and LED control circuit 4, solar energy supply circuit 1 is connected with power management circuit 2, power management circuit 2 respectively with energy storage equipment, infrared receiving circuit 3 and LED control circuit 4, infrared receiving circuit 3 is connected with LED control circuit 4, solar energy supply circuit 1 still is connected with the solar energy pilot lamp. The utility model discloses in, download APP at the cell-phone end, establish wireless communication through bluetooth and LED lamp cluster, just can start the bright mode of going out, control LED lamp cluster and the timing mode who sets up the LED lamp cluster of LED lamp cluster at cell-phone APP end, realize lamp cluster colour transform, need not to establish in addition the controller, it is more convenient that user operation gets up.

The solar power supply circuit 1 comprises a first triode Q1, a second resistor R2 and a third resistor R3, wherein the anode of a solar power supply SOL is connected with one end of the second resistor R2, the other end of the second resistor R2 is connected with the base electrode of a first triode Q1, the collector electrode of the first triode Q1 is connected with the LED control circuit 4, and the emitter electrode of the first triode Q1 is grounded; the other end of the second resistor R2 is further connected to one end of a third resistor R3, and the other end of the third resistor R3 is connected to the negative electrode of the solar power source SOL.

Solar energy supply circuit 1 still is connected with solar energy pilot lamp, and is specific: the anode of the first light emitting diode is connected with the output end of the power management circuit 2 through a fourth resistor R4, and the cathode of the first light emitting diode is connected with the collector of the first triode Q1. When sunlight irradiates on the solar power supply, the solar indicator light is turned on to prompt a user that the electric power of the LED lamp string comes from solar energy.

The solar power supply circuit 1 is connected with the power management circuit 2, specifically, the power management circuit 2 comprises a second chip U2, a first inductor L1 and a third capacitor C3, the solar power supply circuit 1 is connected with the anode of a rechargeable battery through a first voltage-stabilizing diode D1, the anode of the rechargeable battery is respectively connected with one end of a first inductor L1 and one end of a third capacitor C3 through a power switch K1, the other end of the first inductor L1 is connected with the input end of the second chip U2, the GND end of the second chip U2 is grounded, and the other end of the third capacitor C3 is connected with the cathode of the rechargeable battery; the output end of the second chip U2 is connected to the infrared receiving circuit 3 and the LED control circuit 4, respectively. The solar power supply circuit 1 can supply power to the LED light string and also charge the energy storage device (rechargeable battery) through the power management circuit.

Power management circuit 2 still is connected with power indicator, and is specific: the anode of the second light-emitting diode is connected with the output end of the second chip U2 through a fifth resistor R5, and the cathode of the second light-emitting diode is connected with the cathode of the rechargeable battery. After the whole LED lamp string is electrified, the power indicator lamp is turned on to prompt a user that the LED lamp string can work normally.

The LED control circuit 4 includes a first chip U1 and a first capacitor C1, an output end of a second chip U2 is connected to one end of the first capacitor C1 and a first pin 1 of the first chip U1, respectively, the other end of the first capacitor C1 and an eighth pin 8 of the first chip U1 are both connected to a negative electrode of the rechargeable battery, a second pin 2 of the first chip U1 is connected to a third pin 3 of the infrared chip IR1 of the infrared receiving circuit 3, a third pin 3 of the first chip 1 is connected to a collector of a first triode Q1 of the solar power supply circuit 1, a fourth pin 4 of the first chip U1 is connected to the ground after being connected to a mode switching switch KEY1, and the mode switching switch KEY1 can switch a lighting mode of the LED light string.

The fifth pin 5 of the first chip U1 and the sixth pin 6 of the first chip U1 are connected in parallel to the positive and negative lamp string. Specifically, the method comprises the following steps: the fifth pin 5 of the first chip U1 is connected to the positive electrode of the fourth LED light string and the negative electrode of the fifth LED light string, respectively, and the negative electrode of the fourth LED light string and the positive electrode of the fifth LED light string are connected to the sixth pin 6 of the first chip U1.

The power management circuit 2 is also connected with the infrared receiving circuit 2, and the infrared receiving circuit 3 is connected with the LED control circuit 4. Specifically, the method comprises the following steps: the infrared receiving circuit 3 comprises an infrared chip IR1, a first resistor R1 and a second capacitor C2, an output end of a second chip U2 of the power management circuit is respectively connected with one end of the second capacitor C2 and one end of the first resistor R1, the other end of the second capacitor C2 is connected with a first pin 1 of the infrared chip IR1, the other end of the first resistor R1 is connected with a second pin 2 of the infrared chip IR1, and a third pin 3 of the infrared chip IR1 is connected with the second pin 2 of the first chip U1 of the LED control circuit 4. The utility model discloses a bright of LED lamp cluster goes out, the change of lamp cluster mode still can use infrared equipment (for example infrared remote controller, infrared cell-phone etc.) control, and is specific, the signal that the remote controller sent is received to infrared receiving circuit 3, gives LED control circuit's first chip U1 with signal transmission, controls bright lamp mode, the positive and negative of lamp cluster of LED lamp cluster and the bright of lamp cluster and goes out behind the first chip U1 received signal.

In this embodiment, the solar LED light string mobile phone APP controller circuit with the indicator lamp provides two power supply modes, one is that when there is illumination, the solar power supply circuit 1 supplies power for the light string, and can charge the rechargeable battery. And in the other mode, when no light is irradiated, the rechargeable battery supplies power for the lamp string.

It will be understood that modifications and variations can be made by persons skilled in the art in light of the above teachings and all such modifications and variations are considered to be within the scope of the invention as defined by the following claims.

The above exemplary description of the present invention is made in conjunction with the accompanying drawings, and it is obvious that the present invention is not limited by the above manner, and various improvements made by the method concept and technical solution of the present invention or by directly applying the concept and technical solution of the present invention to other occasions without improvement are all within the protection scope of the present invention.

Claims (10)

1. Solar energy LED lamp cluster cell-phone APP controller circuit of tape light, its characterized in that, solar energy supply circuit, power management circuit and LED control circuit, solar energy supply circuit with power management circuit connects, power management circuit respectively with energy storage equipment with LED control circuit connects, LED control circuit passes through the bluetooth and is connected with the cell-phone, solar energy supply circuit still is connected with the solar energy pilot lamp.

2. The APP controller circuit of the solar LED string light mobile phone with the indicator lamp as claimed in claim 1, wherein the solar power supply circuit comprises a first triode, a second resistor and a third resistor, a positive electrode of a solar power supply is connected to one end of the second resistor, the other end of the second resistor is connected to a base electrode of the first triode, a collector electrode of the first triode is connected to the LED control circuit, and an emitter electrode of the first triode is grounded; the other end of the second resistor is also connected with one end of the third resistor, and the other end of the third resistor is connected with the negative electrode of the solar power supply.

3. The APP controller circuit of claim 2, wherein an anode of the first LED is connected to an output terminal of the power management circuit via a fourth resistor, and a cathode of the first LED is connected to a collector of the first triode.

4. The APP controller circuit of the solar LED string light mobile phone with the indicator light as claimed in claim 1, wherein the power management circuit comprises a second chip, a first inductor and a third capacitor, an anode of a solar power supply is connected to an anode of a rechargeable battery through a first voltage stabilizing diode, the anode of the rechargeable battery is connected to one end of the first inductor and one end of the third capacitor through a power switch, the other end of the first inductor is connected to an input end of the second chip, a GND end of the second chip is grounded, and the other end of the third capacitor is connected to a cathode of the rechargeable battery; and the output end of the second chip is connected with the LED control circuit.

5. The APP controller circuit of the solar LED string light mobile phone with the indicator lamp as claimed in claim 4, wherein the power management circuit is further connected with a power indicator lamp.

6. The APP controller circuit of claim 5, wherein an anode of a second LED is connected to the output terminal of the power management circuit via a fifth resistor, and a cathode of the second LED is connected to a cathode of the rechargeable battery.

7. The APP controller circuit of the solar LED light string mobile phone with the indicator light as claimed in claim 1, wherein the APP controller circuit comprises a first chip and a first capacitor, the output end of the power management circuit is respectively connected with one end of the first capacitor and a first pin of the first chip, the other end of the first capacitor and an eighth pin 8 of the first chip are both connected with a negative electrode of a rechargeable battery, a third pin of the first chip is connected with the solar power supply circuit, a fourth pin of the first chip is connected with a mode switch and then grounded, and a fifth pin of the first chip and a sixth pin of the first chip are connected with a positive and negative light string in parallel.

8. The APP controller circuit of the solar LED light string mobile phone with the indicator light as claimed in claim 7, wherein a fifth pin of the first chip is connected to an anode of a fourth LED light string and a cathode of a fifth LED light string respectively, and the cathode of the fourth LED light string and the anode of the fifth LED light string are both connected to a sixth pin of the first chip.

9. The APP controller circuit of the solar LED string light mobile phone with the indicator lamp as claimed in claim 1, wherein the power management circuit is further connected with an infrared receiving circuit, and the infrared receiving circuit is connected with the LED control circuit.

10. The APP controller circuit of claim 9, wherein the infrared receiving circuit comprises an infrared chip, a first resistor and a second capacitor, an output terminal of the power management circuit is connected to one end of the second capacitor and one end of the first resistor respectively, the other end of the second capacitor is connected to a first pin of the infrared chip, the other end of the first resistor is connected to a second pin of the infrared chip, and a third pin of the infrared chip is connected to the LED control circuit.

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