TWM417479U - LED street lamp circuit with remote condition monitoring function - Google Patents

Description

M417479 V. New description: [New technical field] This creation is an LED street light, especially an LED street light circuit with remote road monitoring function. - [Prior Art] . On the general road, in order to provide a good sight for the passers-by at night, the public building will set up street lights on the road. Moreover, since the LED lights have the advantage of low power consumption, it is foreseeable Rear lights will use a large number of LED lights to save power. Please refer to FIG. 2, which is a circuit diagram of an LED street lamp of the Republic of China Patent Publication No. 200951347, which mainly includes an exchange power supply unit 80, a 1_ 〇 lamp 81, a power line data communication unit 82 and an image. Picker 83. The input end of the parent switch power unit 80 is electrically connected to a mains AC source (AC丨N)' and the parent switch power unit 8 is electrically connected to the lamp. 81.电力 The power line data communication unit 82 is coupled to the mains AC power source (AC IN); the image operation n 83 is mounted on a street lamp to take a picture: the image (four) device 83 has an image data output terminal 83. And electrically connected: the power line data communication unit 82; therefore, a remote host can receive the image data captured by the image capture device 83 through the mains AC power, the (AC IN) power line, and the power line data communication unit 82. However, when the active switch 8〇〇 inside the switching power supply unit 80 performs 3 M417479 high-frequency switching, the Sherlock + 士-& bamboo will generate a south-frequency noise in the power line of the commercial AC power supply (AC IN). Because the image data of the power line data communication unit 82 is interfered by the high frequency miscellaneous & the remote host cannot receive the clear image. [New content] Therefore, the creation The main function of Hb's LED street light circuit power supply power line transmission of noise interference. The purpose is to provide a remote road condition monitoring 'I hope to reduce the image data in the AC mains spear main' generated by the father's replacement power unit The high frequency band system has the advantage of having a mains AC power. The LED street light circuit of the remote road condition monitoring function used in this creation includes a switch-type power supply unit, and its input terminal is electrically connected to the source 'its output terminal'. DC power supply; source; - with a filter unit, electrically connected to the number of power lines... communication with the switching power supply unit 71 Power line data communication:: Yuan wave single _ - image operation device, which includes and the power line data communication unit. 3 Out and the electrical connection refers to the setting of the original creation, because the communication unit with the rejection unit is The high-frequency noise generated by the switching power supply unit in the power line color source unit arrives at the mains exchange; the ==4 M417479 after the noise component of the band rejection band has been filtered by the rejection filter unit, and is rejected. The frequency band covers the working frequency band of the power line data communication unit, so that the higher quality image β θ obtained by the high (four) signal during the transmission of the power line can be reduced. [Embodiment] Please refer to FIG. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT A preferred embodiment of the present invention includes a switched power supply unit (7), a lamp 20, a power line data communication unit 3'', a band rejecting wave unit, and an image capture unit 50. The input end of the power supply unit 1〇 is electrically connected to a mains AC power supply (AC IN>, and the mains AC power supply (Ac | n) is converted into a DC power supply by the output terminal (ν 〇 输出 output; where the exchange The power supply unit 1〇 can be a forward power supply circuit (F. ah dp. Sui Ci_.t), a flyback power supply circuit (Flyback P〇wer Cj "cuit", a step-down power supply circuit (Β_Circuit), etc. In an embodiment, the switching power supply unit 1 is a forward power supply, and the path is as shown in FIG. 1. The forward power supply circuit includes a full-wave rectification rate factor fork controller 12 and a transformer ( τ·|), an active switch 13, a pulse width modulation controller 14 and an optical coupler 15β ▲ the transformer (d) has a primary side and a secondary side; the power factor is positively controlled 12 is connected to the output of the full-wave rectifier ???" and the changer (between the side of the dynasty; the active switch 13 is connected in series to the human side of the variable (4) (η) and has a - control terminal, The pulse width modulation controller W includes a voltage feedback terminal (VFB) and a driving output terminal (〇υτ), and the driving wheel output terminal 5 M417479 (〇UT) is electrically connected to the control terminal of the active switch 13; The coupler 15 is connected between the voltage feedback terminal (VFB) of the pulse width modulation controller 14 and the voltage wheel output terminal (Vout) of the current forward power supply circuit; The output terminal (OUT) is electrically connected to the control terminal of the active switch 13. The optocoupler 15 can react the DC voltage (Vout) that is currently rotated by the forward power supply circuit to the pulse width modulation controller 14'. The pulse width modulation controller 14 receives the voltage according to the voltage feedback terminal (VFB). The pulse waveform corresponding to the output of the drive output (OUT) is adjusted correspondingly to control the on-time of the active switch 13 to stabilize the output voltage of the forward power supply circuit. The led lamp 20 is electrically connected to the output end of the switching power supply unit 1A, and is received by receiving the DC power output from the switching power supply unit 10. The power line data communication unit 30 is coupled to the mains AC (AC IN) as a medium for external communication. The power line data communication unit 30 includes an analog front end transceiver unit 31, a and a digital communication interface 33. The analog front-end transceiver unit 31 receives a working power from the output end of the switching power supply unit 10 through a DC-DC converter % and: the analog front-end transceiver unit 31 is lightly connected to the commercial AC power source _ IN); The unit & also comes from the DC converter 34 which is described separately: The power supply 'and the digital processing unit 32 is electrically connected to the analog front end transceiver sputum 31, and the digital processing single Lei Yao La J through the electric isolator 35 is electrically connected to the pulse modulation controller 14; # m Inductive communication interface 33 is electrically connected to 6 Hai digits processing 32, this embodiment is serial, such as RS-232, USB interface. The digital communication " face is M417479. The band rejection unit 40 is electrically connected between the analog front end transceiver unit 31 of the power line data communication unit 30 and the wheel of the switching power supply unit 1〇. The image capturing device 50 is mounted on a lamp post of a street lamp to capture the road condition in the vicinity of the street lamp, and includes an image data output end 51 and a power supply end (Vcc) 'the image data wheel end 51 and The power terminal (Vcc) is electrically connected to the digital communication interface 33 of the power line data communication unit 30;

The image data captured by the image capturing device 50 is rotated by the image data output terminal 51 to the power line data communication unit 30'. The power line data communication unit 3 processes the image data and adjusts it to feed the commercial power source with a working frequency band. (AC IN) and external transmission; the digital communication interface 33 can directly provide the working power of the image processor 50 through the Ethernet power supply technology (P〇wer 0ver Ethernet, p〇E) without the need for additional DC conversion. The setting of the device simplifies the circuit complexity and reduces the cost. Therefore, a remote host can receive the image captured by the image capture device 5 from the power line data communication unit 30 to achieve an immediate road condition monitoring effect. When the pulse width modulation controller 14 outputs a pulse wave signal to the active switch U, high frequency noise is generated at the input end of the switching power supply unit 1G due to the power line data communication unit 30 and the switching power supply unit 1 It is recognized that there is a beta-band rejection filter single & 4〇' the band rejection filter unit 4〇 with a rejection frequency ° ten is the cover power line data communication unit (10) for transmitting image data, or even reject The frequency band and the working frequency band are designed to be identical, and the switching power supply unit 1 is produced. The generated co-frequency noise is rejected by the band rejection filtering unit, so that the power line data communication unit is "electrically charged" (AC IN). The power source transmitted by the power line is like the high frequency noise of the parent switching power supply unit ^ 〇 7 M417479. The dimming circuit board can be further disposed between the parent switching power supply unit 10 and the LED lamp 20. 60, and has a dimming control terminal (D|MM), the dimming control terminal (DIMM) is electrically connected to the digital communication interface 33 of the power line data communication unit 3; therefore, the remote host can emit a dimming signal, The dimming signal is via the mains exchange The source (AC IN) power line and the power line data communication unit 30 are input to the dimming circuit board 6〇, and the dimming circuit board 60 outputs a corresponding size operating current according to the dimming signal received by the dimming control terminal (DIMM). The LED lamp 20 is used to drive the LED lamp 2 to emit light of the same brightness. The LED street lamp of the present invention may further comprise a solar cell unit 70 including a solar panel 71, a battery 72 and a charge controller. 73. The solar panel 71 can perform a photoelectric conversion effect to absorb solar energy and convert it into a DC power source for output. The charging controller 73 is electrically connected to the solar panel 71 'the output of the battery 72 and the switching power supply unit. The terminal (v〇ut) is used to detect the state of charge of the battery 72 and store the state of charge of the battery 72; if the battery 72 is below a predetermined amount of power, the charge controller 73 can The DC power output from the board 71 is adjusted and used as the battery 72 for charging, or when the |_ED lamp 20 is activated, the DC power output from the battery 72 is used as the lighting effect of the LED lamp 20. The charging controller 73 includes a data transmission interface 730 (which is a serial port, such as rS_232, a USB interface), and is connected to the digital communication interface 33 of the power line data communication unit 3, so that the remote host communicates through the city. The power supply (AC丨N) is electrically connected to the electric power line data communication unit of the solar battery unit 70. According to the analysis, each street lamp solar battery unit A 7 data is used to determine the power number. The battery unit 70 is damaged. The pool unit 70 performs maintenance. The above-mentioned creative system _ ~ wood is used by the power line data communication unit 30 as the image capture device 50 and the remote host person m to assign the shirt image data communication. The high-frequency noise generated by the switching between the unit 1 and the power line data communication unit 30 with the active switch 13 inside the single-switched power supply unit is fed back to the switched power supply 1G. The input terminal transmits the high-frequency noise in the operating band by the band rejection unit 40, so that the power line data communication list & The power line transmits (4) the remote main material 1 is disturbed by the high frequency signal' to ensure the integrity of the data data of the remote host. In addition, the creative system transmits data through existing power lines, so there is no need to build additional wired network systems or wireless network routes, thus reducing costs. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a detailed circuit diagram of a preferred embodiment of the present invention. Figure 2: Circuit diagram of a known LED street light circuit. [Main component symbol description] M417479 10 Switching power supply unit 11 Full-wave rectifier 12 Power factor correction controller 13 Active switch 14 Pulse width modulation controller 15 Photocoupler 20 LED lamp 30 Power line data communication unit 31 Analog front-end transceiver unit 32 Digital Processing Unit 33 Digital Communication Interface 34 DC Converter 35 Electrical Isolator 40 with Filter Filter Unit 50 Image Picker 51 Image Data Output Terminal 60 Dimming Circuit Board 70 Solar Cell Unit 71 Solar Panel 72 Battery 73 Charge Controller 730 1 Data transmission interface 80 Switching type power supply unit 800 | Active switch 81 LED light 82 Power line data communication unit 83 Image capture unit 830 image data output

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Claims (1)

Sixth, the scope of application for patents: LED street light circuit, its package 1 · A remote road condition monitoring function contains: - Switched power supply unit, its turn-in end is electrically connected to a mains AC ", its output output - DC An LED lamp is electrically connected to an output end of the switching power supply unit; a power line data communication unit is coupled to the mains alternating current band rejection filtering unit and electrically connected to the power line data communication unit and the switching power supply unit Between the input terminals, the rejection band system covers the power band data communication list 'the working band of the band element of the band rejection filter unit; and the shirt image extractor includes an image data output terminal and is electrically connected to the power line data communication unit . 2. The LED street lamp circuit having the remote road condition monitoring function as described in claim 1 further includes a dimming circuit board electrically connected between the output end of the switching power supply unit and the LED lamp And the dimming circuit board has a dimming control end, the dimming control end is electrically connected to the power line data communication unit; the dimming circuit board outputs an operating current according to the dimming k number received by the dimming control end to drive The ED lamp illuminates. 3 _ The LED street lamp circuit with remote road condition monitoring function according to claim 1 or 2, further comprising a solar battery unit, comprising: a solar panel, absorbing too much light energy and converting it into direct current After the power is output; a battery; and 11 M417479 ▲ charging controller is electrically connected between the solar panel, the battery and the wheel-out terminal of the two-way power supply unit, for detecting the state of charge of the battery, And storing the state of charge of the battery; the charge controller includes a data transmission interface and is connected to the power line data communication unit. 4. For example, please refer to the LED street light circuit with remote road condition monitoring function π as described in the patent scope@乐d item. The power line data communication unit includes: an analog front-end transceiver unit, which is lightly connected to the commercial AC power supply; The processing unit is electrically connected to the analog front-end transceiver unit, and is electrically connected to the switching power supply unit through the electrical isolator; and the digital communication interface is electrically connected to the digital processing unit and the image data of the image processing device. The output end, the 兮*帝-士丨, the data transmission interface of the charging controller and the dimming control of the dimming circuit board ^^^^^^^, the digital communication interface and the work of the image recliner power supply. ', 5 · As claimed in the patent scope 4 n %, +. The LED street light circuit with remote road monitoring capability, the switching type - power supply 7L early is the flyback power supply, the forward power circuit Or step-down power supply circuit. 6. The LED street lamp circuit with remote road condition energy as described in claim 4, wherein the switching control circuit comprises: 'power early-for forward power supply one full-wave rectifier; The dust filter has a primary side and a secondary side; a power factor correction controller is connected to the A; the Wang wave rectifier is between the one and the second side of the variable; the first active switch is connected in series Transforming g end; Shi Baoyi's primary side has a control 12-pulse I modulation controller, the person is out, the drive 3 has a voltage feedback terminal and a drive input:: the terminal is electrically connected to the control terminal of the active switch And the reverse shore 弋6弋雷4 is connected to the voltage feedback terminal of the pulse width modulation controller to reflect the DC power output of the forward power circuit. Please refer to the four-part patent (4) (4) LED street light circuit of the condition of the monitoring month b, 哕锢μμ & _ ^ .. ~ the end transceiver unit and digital processing unit ^ over-DC converter from the switching power supply unit Receiving-Working Power 8· As disclosed in the patent application 帛4, there is a remote road monitoring device, which provides an image capturing source through Power Over Ethernet (PoE). .孬% of work VII. Schema: (such as the next page) 13