TH75813B - LED lighting control circuit and how to control LED lighting - Google Patents

Abstract

DC60 (21/08/56) The LED open loop control circuit is assembled with one terminal on which the generator winding is located. A single-phase alternating current which is connected to an earthing terminal at its first end is connected at its second end; The second input terminal to which the LED element is connected to the ground terminal on its positive side. is connected on its negative pole side; the output terminal to which the load is connected to it; Grounding terminal, which the terminal is grounded. being connected to it; The first switch element is connected to one of the input terminals. it and with a second input connector at its second end; The first control circuit which controls the components of the first switch; The second switch element is connected to the output terminal at its first end and to One input terminal at its second end; and a second control circuit which controls the switch elements. Second, the LED on-loop control circuit is assembled by one input terminal on which the generator winding is located. A single-phase alternating current, which is connected to the grounding terminal at one end of it, is connected at its second end, the second input terminal to which the LED element, which is connected to the down terminal. on its anode side is connected on its negative pole side. The output terminal to which the load is connected to it. grounding terminal, which is the grounding terminal was connected to it The first switch element is connected to one of the input terminals. It and with the second input connector at its second end. A buzzing control circuit that controls the components of switch one The second switch element is connected to an outer terminal at its first end and to One input terminal at its second end. and a second control circuit which controls the second switch element.

Claims (3)

Disclaimer (all) which will not appear on the advertisement page: Amendment 09/28/2018 Disclaimer 1. LED lighting control circuit which includes: One input connector which the coil of A single-phase alternating water generator, which is connected to the terminal Landed at one end of it, was connected at its second end; The second input connector in which the LED element, which is connected to the earthed terminal on its positive side. Being connected on its negative side; The output connector to which the load is connected to it; An earth terminal to which the earthing terminal is connected to it; One switch element connected to one input terminal at one end of it and Second input terminal at its second end; One control circuit that controls the first switch element; A second switch element is connected to the output connector at its first end and to the connector. The first entry at the second end of it; And a second control circuit which controls the second switch element, where one control circuit Turn on the first switch element in the event that the output voltage at the one inlet terminal is output from the single-phase switching generator with the first polarity and the switch element is turned off. First, in case the output voltage has a second polarity. In which case the output voltage has a second polarity The second control circuit will then open the component. Of the second switch, when the battery charge voltage is connected between the output terminal and the terminal down Ground below the rated voltage On the other hand, when the battery charging voltage is equal Or higher than the rated voltage The second control circuit closes the element of the second Sitch. Where the first polarity is negative, the second polar state is positive, the first switch element is the first thyristor connected to the one input terminal at the terminal. Its negative power and to the second input at its positive electrode and ----------- EDIT 23/05/2016 1. LED lighting control circuit, which includes: One input terminal in which the coil of a single-phase alternating flap generator is connected to the down terminal. The ground at its first end is connected to its second end; The second input connector in which the LED element, which is connected to the earthed terminal on its positive side. Being connected on its negative side; The output connector to which the load is connected to it; An earth terminal to which the earthing terminal is connected to it; One switch element connected to one input terminal at one end of it and Second input terminal at its second end; One control circuit that controls the first switch element; A second switch element is connected to the output connector at its first end and to the connector. The first entry at the second end of it; And a second control circuit which controls the second switch element, where one control circuit Turn on the first switch element in the event that the output voltage at the one inlet terminal is output from the single-phase switching generator with the first polarity and the switch element is turned off. First, in case the output voltage has a second polarity. In which case the output voltage has a second polarity The second control circuit will then open the component. Of the second switch, when the battery charge voltage is connected between the output terminal and the terminal down Ground below the rated voltage On the other hand, when the battery charging voltage is equal Or higher than the rated voltage The second control circuit closes the element of the second Sitch. Where the first polarity is negative, the second polar state is positive, the first switch element is the first thyristor connected to the one input terminal at the terminal. Its negative electrode, and with the second input terminal at its positive electrode, and the second switch element is a second thyristor connected to the output terminal on the negative electrode. And with the one input terminal at its positive electrode, and where the control circuit one consists of: one voltage divider resistor connected to the second input terminal at the first end of the it; The second voltage divider resistor is connected to the second end of the first voltage divider resistor at The first end of it and with the earthing terminal at its second end; The diode that is connected to the second end of the resistor divides the voltage one at its positive electrode; The average capacitor is connected between the diode's negative electrode and the ground terminal; A oscillating circuit that generates and outputs an oscillating signal, which is a sawtooth wave or wave. Triangular shape; The average resistor is connected to the negative electrode of the diode at its end; And the comparator circuit, which receives the oscillating signal and the comparator voltage at the second end of the resistor. Averages and controls the first thyristor based on the results of the comparison between the oscillating signal and the Compare voltages 2. LED lighting control circuit according to claim 1 where the limiting resistor The current is connected in series with the LED element between the second input and the earth terminal. 3. LED lighting control circuit according to claim 1, in case the output voltage at One input terminal is output from the single-phase alternator at the first polarity. Control circuit at One turns on the first thyristor when the magnitude of the output voltage is equal to or greater than the target voltage. 4. LED lighting control circuit according to claim 3, where the comparator circuit is Turn off the first thyristor if the magnitude of the comparative voltage is less than the magnitude of the oscillating signal, and Turn on the first thyristor if the magnitude of the comparator voltage is equal to or greater than the magnitude of the oscillation signal. In the event that the output voltage has a negative polarity and the first thyristor is closed in the event that the output voltage has a positive polarity, 5. LED lighting control circuit according to claim 4. The first control circuit also includes a resistor connected between the output of the circuit compared to the gate of the first thyristor 6. The control circuit for opening the LED circuit according to claim 1, where The first control circuit consists of: one resistor connected to the second end of the input terminal at its first end: one diode connected to the second end of the first resistor. Its negative electrode; A second resistor that is connected to the positive electrode of one diode at its one end and With an earth terminal at its second end; The first capacitor is connected in parallel with the second resistor between its positive electrodes. The first diode with grounding terminal; The third resistor is connected to the positive electrode of the first diode at its one end; A scotch barrier diode connected to the second end of the third resistor at its positive electrode; The fourth resistor is connected to the negative electrode of the scotch barrier diode at the first end. Of it and with the earthing terminal at its second end; A second diode connected to the one input terminal on its negative electrode; The fifth resistor is connected to the positive electrode of the second diode at its first end; The first PNP bipolar transistor is connected to the second end of the fifth resistor on the Gather it, with the earthing terminal at its emitter, and with the negative electrode of the shield diode. Scottish at its base; The sixth resistor is connected to the gate of the first thyristor at its first end; The third diode is connected to the second end of the sixth resistor at its negative electrode; The second PNP bipolar transistor is connected to the positive electrode of the third diode. Gather it, with earthing terminal at its emitter and with the collector of the first PNP bipolar transistors at its base; And a second capacitor connected to the second input terminal at its first end and to the ground terminal. At its second end 7. The control circuit opens the LED circuit according to claim 6, where the resistor for limiting is limited. The current is connected in series with the LED element between the second input and the earth terminal. 8. LED power-on control circuit according to claim 6, where the second capacitor capacitance is 9. The control circuit of the opening of the LED circuit according to claim 1, where the second control circuit controls The second switch element, depending on the voltage, between the first input and the earthing terminal and Voltage between output terminal and ground terminal 1 0. LED lighting control circuit according to claim 8 where the battery is connected between Output terminal to ground terminal 1 1. The control circuit for opening the LED circuit according to claim 10, in the event that the output voltage has Positive polarity The second control circuit opens the second thyristor if the battery's charging voltage is connected. Between the output and earth terminals below the rated voltage and turn off the second thyristor if the voltage In charging equal to or higher than the rated voltage 1 2. LED circuit opening control circuit according to claim 1, where multiple LED elements are connected in series between the second input and ground terminal 1. 3. The LED lighting control method is implemented by the LED loop-on control circuit which consists of One input terminal on which the winding of a single-phase alternator. Which is connected with Earthing connector at its first end will be connected at its second end; The second input connector in which the LED element, which is connected to the grounding connector on its anode side, is connected on its negative side; The output connector to which the load is connected to it; An earth terminal to which the earthing terminal is connected to it; One switch element connected to one input connector at one end of it and to its connector. Second inward side at the second end of it; The first control circuit that controls the first switch element; The second switch element is connected to the output terminal at its first end and to the inward connector. One at the second end of it; And the second control circuit Which controls the second switch element In the event that the output voltage at one of the input terminals is output from the generator Single-phase alternating current has one polarity. The first control circuit turns on the first switch element when The magnitude of the output voltage is equal to or greater than the target voltage and in the event that the output voltage has a second polarity. One control circuit, it closes the components of The first switch In which case the output voltage has a second polarity The second control circuit will then open the component. Of the second switch, when the battery charge voltage is connected between the output terminal and the terminal down Ground below the rated voltage In another way When the charging voltage of the battery is Or higher than the rated voltage The second control circuit closes the second switch element. Where the first polarity is negative, the second polar state is positive, the first switch element is the first thyristor connected to the one input terminal at the terminal. Its negative electrode, and with the second input terminal at its positive electrode, and the second switch element is a thyristor connected to the second output terminal at the negative electrode. And with the input terminal one at its positive electrode, and where the control circuit one is assembled: one voltage divider resistor connected to the second input terminal at the first end. Of it; The second voltage divider resistor is connected to the second end of the first voltage divider resistor at The first end of it and with the earthing terminal at its second end; A diode that is connected to the second end of the resistor breaks the first voltage at its positive electrode; The average capacitor is connected between the diode's negative electrode and the ground terminal; An oscillating circuit that generates and outputs an oscillating signal, which is a sawtooth or serrated wave. Triangular shape; The average resistor is connected to the negative electrode of the diode at its end; And the comparator circuit, which receives the oscillating signal and the comparator voltage at the second end of the resistor. Averages and controls the first thyristor based on the results of the comparison between the oscillating signal and the Voltage comparison -------------------------------------------------- - 1. LED lighting control circuit which consists of One input terminal in which the coil of a single-phase alternating flap generator is connected to the down terminal. The soil at one end of it is connected to its second end. The second input connector in which the LED element, which is connected to the earthed terminal on its positive side. Is connected on its negative side. The output connector on which the load is connected to it. An earth terminal to which the earth terminal is connected to it. One switch element connected to one input terminal at one end of it and The second inlet connector at its second end. The first control circuit that controls the first switch element. The second switch element is connected to the output connector on the first end of it and to the connector. The first entry at its second end and the second control circuit that controls the second switch element. Where the first control circuit will Turn on the first switch element in case of push-out on the one input terminal being output. From a single-phase switching generator there is a first polarity and the first switch element is closed, in case of push-out, there is a second polarity.