TH74931B - Vehicle LED Lighting Circuits, Vehicle LED Lighting Lighting and Vehicle Control Methods for Vehicle LED Lighting - Google Patents

Abstract

The lighting circuit using LED lamps in vehicles will consist of a switchgear that is It is possible to come into contact with water which alternates between the first state in which the reference node is electrically connected to the face. first contact to the second state in which the reference node is electrically connected to the second contact; One LED lamp which is composed of one or more LED elements and is connected to a reference node at its first end and with a second contact at its second end; A second LED which will be assembled with at least one second LED element and will be connected to the front. Second touch at its first end and with grounded wire at its second end. where the grounded cable is grounded; a third resistor that is connected to the second contact at its first end and to the grounded wire at its second end; and the bypass circuit, which has an bypass switch element that is connected to a contact that two at its first end and with a grounded wire at its second end and controls the switch element. Bypass the first potential difference between the reference node and the second contact and the second potential difference. Between the second contact and the grounded wire

Claims (9)

Disclaimer (all) which will not appear on the advertisement page: Edit 04/03/2020 No disclaimer. ------------------------------ ------ 19/06/2018 ------ (OCR) Page 1 of a number of 6 pages. Claims 1. A lighting circuit that uses a vehicle LED lamp that controls the illumination of an LED installed in a vehicle. This includes: one resistor connected to the power line at its first end, and to the reference node at its second end where voltage from the power source is being fed to the power line. ; A second resistor connected to the power cable at one end of it and to the first contact at Its second end Where the second resistor will have a resistance lower than the resistance of the first resistor; A switching device that is possible to come into contact with water which is switched between the first condition to which the node is referenced. Is electrically connected to the first contact to the second state in which the reference node is electrically connected to Second contact; One LED bulb, which is made up of at least one LED element. Element and is connected to the reference node at its first end and with the second touch at its second end; A second LED bulb, which is made up of at least one second LED element. Element and is connected to the second contact at its first end and to the grounded wire at its second end, where the grounded wire is grounded; A third resistor which is connected to the second contact at its first end and to the grounded wire at The second end of it; And a bypass circuit in which an bypass switch element is connected to the second contact at the first end. Of it and with a wire grounded at its second end and controls the bypass switch element accordingly. The first potential difference between the reference node and the second contact and the second potential difference between the second contact. With grounded wires Where, if the switching device is wet with water, there will be a leakage current between the first contact and the The second and the second contacts of the 6 pages, even if there is a leakage current through the switching device. But as long as the switching device has been Switching to a second state, the first and second ends of the first LED are given the same potential. And there will be no electric current flowing through the first LED lamp. 2. Lighting circuit using the LED lamp in the vehicle according to claim 1 where the circuit bypass Will activate the bypass switch element if the first potential difference between the reference node and The second contact is equal to or greater than the first predetermined reference voltage and potential difference. The second between the second contact and the grounded wire is equal to or greater than the second reference voltage at Preset and will deactivate the bypass switch element if the first potential difference is less. The first or second reference voltage is less than the second reference voltage 3. A lighting circuit using an LED lamp in a vehicle according to claim 2, where the voltage First reference Will be the potential difference between the reference node and the second contact when the first LED is powering. Illumination in the first state and the second reference voltage Will be the potential difference between the second contact and the grounded wire when the second LED lamp stops working in the first state. 4. The lighting circuit using the LED in the vehicle according to claim 1, where the element Bypass switch Will be a thristor connected to a second contact at its positive electrode and to a grounded wire at Its negative electrode 5. A lighting circuit that uses the LED lamp in a vehicle in accordance with claim 4, where the circuit also avoids. Has a section: a fourth resistor which is connected to the reference node at its first end; A PNP bipolar transistor, which is connected to the second end of the fourth resistor at its emitter. And with the positive electrode of the thyristor at its base; Page 3 of a number 6, the fifth resistor which is attached to the base of the PNP bipolar transistor at its first end and With emitter of a PNP bipolar transistor at its second end; And a zener diode which is connected to the collector of a PNP bipolar transistor at the negative electrode of It and with the thyristor gate circuit at its positive electrode 6. A lighting circuit that uses the LED lamp in the vehicle in accordance with claim 5, where the circuit is also bypassed. It has a section: the sixth resistor, which is to be connected between the base of the PNP bipolar transistor and the thyristor's positive electrode. That if the device is hacked The switch is switched to the first state, the second LED will be switched on and the first LED will be switched on, and if the switching device is switched to the second state, the second LED will be switched on. Is switched on while the first and second ends of the first LED lamp are assigned the same potential and the first LED lamp is deactivated. Vehicles according to claim 1, where the voltage From the power supply it is regulated to a constant 9. The lighting circuit using the LED lamp in the vehicle according to claim 8, where the resistance Of the first resistor and the second resistor It is determined at the value that the driving current is fed from the power line to the second LED in the first state and the driving current fed from the power line to the second LED in that second state. Is equal to 1 0. Lighting circuit using LED lamps in vehicles according to claim 1, where the lighting circuit Bright LED bulbs in vehicles will be mounted on a motorcycle, the first LED bulb and / or the second LED bulb on the front 4 of the number 6 will be one of the headlights, turn signals, Tail lights, position lights and running lights. Illumination according to meter and switching device It is a motorcycle management switch which controls the illumination of the first LED lamp, where the switchgear is switched between the first and second conditions, operated by the user 1. 1. A lighting circuit that uses an LED lamp in a vehicle according to claim 1, where one end of the first LED lamp is connected to the positive electrode side of the first LED element, the second end of the bulb. The first LED is connected to the negative electrode side of the first LED element, the first end of the second LED element is connected to the positive electrode side of the second LED element and the second end of the LED element. The second will be connected to the negative electrode side of the second LED element 1. 2.Vehicle LED lamp-based lighting device that controls the vehicle-mounted LED lamp illumination, which consists of: one resistor connected to the power cable at the end of the vehicle. One of it, and with the reference node at its second end, through which voltage from the power source is fed to the power line; A second resistor connected to the power cable at one end of it and to the first contact at Its second end Where the second resistor will have a resistance lower than the resistance of the first resistor; A switching device that is possible to come into contact with water which is switched between the first condition to which the node is referenced. Is electrically connected to the first contact to the second state in which the reference node is electrically connected to Second contact; One LED bulb, which is made up of at least one LED element. Element and is connected to the reference node at its first end and with the second touch at its second end; Page 5 of a number 6, a second LED bulb, which is made up of at least one second LED element. Element and will be connected to the second contact at its first end and to the grounded wire at its second end, where the grounded wire is grounded; A third resistor which is connected to the second contact at its first end and to the grounded wire at The second end of it; A bypass circuit in which an bypass switch element is connected to the second contact at the first end. Of it and with a wire grounded at its second end and controls the bypass switch element accordingly. The first potential difference between the reference node and the second contact and the second potential difference between the second contact. With grounded wires; And a power transmission circuit which supplies voltage from a constant supply to the power lines. Where, if the switching device is wet with water, there will be a leakage current between the first contact and the The second contact, and where even if there is a leakage current through the switchgear But as long as the switching device has been Switching to a second state, the first and second ends of the first LED are given the same potential. And there will be no electric current through the first LED lamp. 1 3. How to control the LED lighting circuit in the vehicle LED lighting circuit is assembled with one resistor. Which is connected to the power supply line at The first end of it and with the reference node at its second end Where the voltage from the power source will be Feed to the power supply line; A second resistor connected to the power cable at its first end and to The first contact at its second end, the second resistor whose resistance is lower than the resistance. Of the first resistor; A switching device that is possible to come into contact with water which is switched during the harsh conditions. One to which the reference node is electrically connected to the first contact, and the second to which the reference node is connected. Electrically with the second contact; The first LED lamp which will be composed of at least one LED element and will be connected to the reference node at one end of it and to the second contact. The second end of it; A second LED bulb, which is made up of at least one second LED element. Element and is connected to the second contact at the first end of it and to the grounded wire at the end at page 6 of the number 6, front two of it, where the grounded wires are grounded; The third resistor which is connected to the second contact at the end On one of it, and with a wire grounded at the second end of it; And the bypass circuit, which has a switching element The bypass is connected with a second contact at its first end and with a grounded wire at its second end. It and controls the bypass switch element according to the first potential difference between the reference node and the contact at Second and the second potential difference between the second contact and the grounded wire. The methods include: switching of the switching device to a state where the second LED is activated and the first LED is switched on and the switching device is switched on. To a second state in which the second LED lamp will be activated. While the first and second ends of the first LED lamp are set to the same potential and the first LED lamp is off. Where, if the switching device is wet with water, there will be a leakage current between the first contact and the The second contact, and where even if there is a leakage current through the switchgear But as long as the switching device has been Switching to a second state, the first and second ends of the first LED are given the same potential. And there will be no electric current through the first LED bulb. ------------ 1. A vehicle LED lighting circuit that controls the illumination of a mounted LED lamp. Set in vehicle This includes: one resistor connected to the power line at its first end, and to the reference node at its second end where voltage from the power source is fed to the supply line. power; A second resistor connected to the power cable at one end of it and to the first contact at Its second end Where the second resistor will have a resistance lower than the resistance of the first resistor; A switching device that is possible to come into contact with water which is switched between the first condition to which the node is referenced. Is electrically connected to the first contact to the second state in which the reference node is electrically connected to the face Second touch; One LED light, made up of at least one LED element. Assembled and will be connected to the reference node at its first end and with the second touch at its second end; A second LED lamp, made up of at least one second LED element. Assembled and being connected to the second contact at its first end and to the grounded wire at its second end, where the grounded wire is grounded; A third resistor which is connected to the second contact at its first end and to the grounded wire at The second end of it; And a bypass circuit in which an bypass switch element is connected to the second contact at the first end. Of it and with a wire grounded at its second end and controls the bypass switch element accordingly. The first potential difference between the reference node and the second contact and the second potential difference between the second contact. With grounded wires 2. Lighting circuit using LED lamps in vehicles in accordance with claim 1, whereby the circuit circumvent Will activate the bypass switch element if the first potential difference between the reference node and The second contact is equal to or greater than the first predetermined reference voltage and potential difference. The second between the second contact and the grounded wire is equal to or greater than the second reference voltage at Predefined and will deactivate the bypass switch element if the first voltage difference is less than the ref. Based on the first or the second voltage is less than the second reference voltage. 3. A lighting circuit that uses an LED lamp in a vehicle according to claim 2, where the reference voltage is based on one, is the potential difference between the reference node and the second contact when the first led lamp is down. Illumination in the first state and the second reference voltage It will be the potential difference between the second contact and the grounded wire when the second LED stops working in the first state. 4. Lighting circuit using LED lamps in vehicles in accordance with claim 1, where the element Bypass switch It will be a thyristor connected to a second contact at its positive electrode and to a wire grounded at its terminal. Its minus electricity 5. A lighting circuit that uses LED lamps in vehicles in accordance with claim 4, whereby the circuit also avoids. Has a section: a fourth resistor which is connected to the reference node at its first end; A PNP bipolar transistor, which is connected to the second end of the fourth resistor at its emitter. And with the positive electrode of the thyristor at its base; The fifth resistor which is connected to the base of the PNP bipolar transistor at its first end and With emitter of a PNP bipolar transistor at its second end; And a zener diode which is connected to the collector of a PNP bipolar transistor at the negative electrode of It and with the thyristor gate circuit at its positive electrode 6. The lighting circuit using the LED lamp in the vehicle is carried out in accordance with claim 5, while the circuit bypass also It has a section: the sixth resistor which will be connected between the base of the PNP bipolar transistor and the thyristor's positive electrode. 7. Lighting circuit using LED bulbs in vehicles in accordance with claim 1, where, if the device is interrupted The switch is switched to the first state, the second LED will be switched on and the first LED will be switched on, and if the switching device is switched to the second state, the second LED will be switched on. Are switched on while the first and second ends of the first LED are set to the same potential and the first LED will be deactivated. 8. Lighting circuit using LED lamps in vehicles in accordance with claim 1 where the voltage value From the power supply to be controlled to a constant 9. Lighting circuit in which LED lamps are used in vehicles in accordance with claim 8, where resistance Of the first resistor and the second resistor It is determined at the value that the driving current is fed from the power line to the second LED in the first state and the driving current fed from the power line to the second LED in that second state. Will be equal to 1 0. Lighting circuit using LED bulbs in vehicles in accordance with claim 1, where, if the device is chopped When the switch is soaked with water, there is a leakage current between the first and second contact. 1 1. Lighting circuit using LED lamps in vehicles according to claim 10, where, although there is Leakage current through the switching device But as long as the switching device has been switched to the second state. It will cause the first and second ends of the first LED lamp to be set to the same potential, and no electric current will flow through the first LED. Holds the right 1 where the light cycle Bright LED bulbs in vehicles will be mounted on the motorcycle, the first LED bulb and / or the second LED bulb will be one of the headlights, turn signals, taillights, position lights. And lights Illumination according to meter and switching device It is a motorcycle management switch that controls the first LED lamp illumination, where the switchgear is switched between the first and second conditions, operated by a user. 1 3. The lighting circuit using the LED lamp in Vehicles according to claim 1, where one end of the first LED bulb is connected to the positive electrode side of the first LED element, the second end of the first LED lamp is connected to the electrode side. The minus of the first LED element, the first end of the second LED element is connected to the positive electrode side of the second LED element and the second end of the second LED element is connected to the negative side of the second LED element. Second LED element 1 4. Lighting device that uses a vehicle LED lamp that controls the lamp illumination. A light that is mounted on a vehicle LED which consists of: one resistor connected to the power cable at one end of it and to the reference node at its second end where the voltage from the source The power supply is fed to the power supply line; A second resistor connected to the power cable at one end of it and to the first contact at Its second end Where the second resistor will have a resistance lower than the resistance of the first resistor; A switching device that is possible to come into contact with water which is switched between the first condition to which the node is referenced. Is electrically connected to the first contact to the second state in which the reference node is electrically connected to the face Second touch; One LED light, made up of at least one LED element. Assembled and will be connected to the reference node at its first end and with the second touch at its second end; A second LED lamp, made up of at least one second LED element. Assembled and will be connected to the second contact at its first end, with the grounded wire at its second end, where the grounded wire will be grounded; A third resistor which is connected to the second contact at its first end and to the grounded wire at The second end of it; A bypass circuit in which an bypass switch element is connected to the second contact at the first end. Of it and with a wire grounded at its second end and controls the bypass switch element accordingly. The first potential difference between the reference node and the second contact and the second potential difference between the second contact. With grounded wires; And a power transmission circuit which supplies the voltage from a constant power supply to the power supply line 1 5. Method for controlling the lighting circuit using LED lamps in vehicles where the lighting circuit using LED lamps in The vehicle is equipped with one resistor that is connected to the power supply wire. The first end of it and with the reference node at its second end Where the voltage from the power source will be Feed to the power line; a second resistor connected to the power line at the first end of it and to the front Touch the one at its second end, the second resistor whose resistance is lower than the resistance of the First resistor; a switching device possible to come into contact with water which is switched during the first condition in which The reference node is electrically connected to the first contact to the second state to which the reference node is electrically connected. With the second contact; One LED lamp which will be composed of at least one LED element. One element and is connected to the reference node at its first end and with the second touch at its second end; A second LED lamp, made up of at least one second LED element. Assembled and will be connected to the shining contact at its first end and to the grounded wire at its second end, where the grounded wire will be grounded; The third resistor which is connected to the second contact at the end One of it, and with a wire grounded at the second end of it; And the bypass circuit, which has a deviation switch element The sheer is connected to a second contact at its first end and with a grounded wire at its second end. And controls the bypass switch element according to the first potential difference between the reference node and the second contact. And the second potential difference between the second contact and the grounded wire. The methods include: switching of the switching device to a state where the second LED is activated and the first LED is switched on and the switching device is switched on. To a second state in which the second LED lamp will be activated. While the first and second ends of the first LED lamp are assigned the same potential and the first LED will be off.