WO2015032047A1 - 一种反向供电方法、反向供电设备及系统 - Google Patents
一种反向供电方法、反向供电设备及系统 Download PDFInfo
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- WO2015032047A1 WO2015032047A1 PCT/CN2013/082973 CN2013082973W WO2015032047A1 WO 2015032047 A1 WO2015032047 A1 WO 2015032047A1 CN 2013082973 W CN2013082973 W CN 2013082973W WO 2015032047 A1 WO2015032047 A1 WO 2015032047A1
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- WIPO (PCT)
- Prior art keywords
- power supply
- module
- line
- switch
- reverse power
- Prior art date
Links
- 238000000034 method Methods 0.000 title claims description 22
- 238000012360 testing method Methods 0.000 claims abstract description 51
- 238000001514 detection method Methods 0.000 claims description 8
- 230000006855 networking Effects 0.000 claims description 4
- 230000001568 sexual effect Effects 0.000 claims 1
- 230000005540 biological transmission Effects 0.000 description 4
- 238000010586 diagram Methods 0.000 description 4
- 238000005516 engineering process Methods 0.000 description 3
- 239000000835 fiber Substances 0.000 description 2
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 230000001960 triggered effect Effects 0.000 description 1
Classifications
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M19/00—Current supply arrangements for telephone systems
- H04M19/08—Current supply arrangements for telephone systems with current supply sources at the substations
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B10/00—Transmission systems employing electromagnetic waves other than radio-waves, e.g. infrared, visible or ultraviolet light, or employing corpuscular radiation, e.g. quantum communication
- H04B10/07—Arrangements for monitoring or testing transmission systems; Arrangements for fault measurement of transmission systems
- H04B10/075—Arrangements for monitoring or testing transmission systems; Arrangements for fault measurement of transmission systems using an in-service signal
- H04B10/077—Arrangements for monitoring or testing transmission systems; Arrangements for fault measurement of transmission systems using an in-service signal using a supervisory or additional signal
- H04B10/0775—Performance monitoring and measurement of transmission parameters
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B10/00—Transmission systems employing electromagnetic waves other than radio-waves, e.g. infrared, visible or ultraviolet light, or employing corpuscular radiation, e.g. quantum communication
- H04B10/80—Optical aspects relating to the use of optical transmission for specific applications, not provided for in groups H04B10/03 - H04B10/70, e.g. optical power feeding or optical transmission through water
- H04B10/806—Arrangements for feeding power
- H04B10/807—Optical power feeding, i.e. transmitting power using an optical signal
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B3/00—Line transmission systems
- H04B3/02—Details
- H04B3/44—Arrangements for feeding power to a repeater along the transmission line
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L12/00—Data switching networks
- H04L12/02—Details
- H04L12/10—Current supply arrangements
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L25/00—Baseband systems
- H04L25/02—Details ; arrangements for supplying electrical power along data transmission lines
- H04L25/0264—Arrangements for coupling to transmission lines
- H04L25/028—Arrangements specific to the transmitter end
- H04L25/0282—Provision for current-mode coupling
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M19/00—Current supply arrangements for telephone systems
- H04M19/02—Current supply arrangements for telephone systems providing ringing current or supervisory tones, e.g. dialling tone or busy tone
- H04M19/04—Current supply arrangements for telephone systems providing ringing current or supervisory tones, e.g. dialling tone or busy tone the ringing-current being generated at the substations
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M3/00—Automatic or semi-automatic exchanges
- H04M3/22—Arrangements for supervision, monitoring or testing
- H04M3/26—Arrangements for supervision, monitoring or testing with means for applying test signals or for measuring
- H04M3/28—Automatic routine testing ; Fault testing; Installation testing; Test methods, test equipment or test arrangements therefor
- H04M3/30—Automatic routine testing ; Fault testing; Installation testing; Test methods, test equipment or test arrangements therefor for subscriber's lines, for the local loop
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M3/00—Automatic or semi-automatic exchanges
- H04M3/08—Indicating faults in circuits or apparatus
Definitions
- the present invention relates to the field of communications technologies, and in particular, to a reverse power supply method and a reverse power supply apparatus and system for implementing the same.
- Reverse power supply technology uses a relative way to name the technology.
- the current flows from the switch to the network terminal for forward power supply.
- the network terminal supplies power to the switch.
- the power supply from the terminal to the switch is called reverse power.
- FTTdp fiber to the distribution point
- One of the solutions is to supply power to the FTTdp from the power supply equipment (PSE) of the user's home. Because the traditional home internal twisted pair wiring is connected in series, if at some point.
- the voltage is not only transmitted to the FTTdp, but also transmitted to other line interface points in the home.
- the other interface points are generally terminal devices such as a telephone, if the voltage is transmitted without the user's knowledge. In the past, some terminal devices such as telephones may be burned out.
- the embodiments of the present invention provide a reverse power supply system reverse power supply method, a reverse power supply device, and a system to solve the above problems.
- a reverse power supply device is characterized in that it is applied to light to wiring
- a scenario for providing reverse power to a distribution device in a point networking environment including a line, a power supply module, a switch, a line test module, and a system control module, wherein the line is used to connect the reverse power supply device and the wiring device
- One end of the switch is connected to the line, one end is connected to the system control module, one end is connected to the power supply module, one end of the power supply module is connected to the switch, and one end of the line test module is connected to the line.
- the reverse power supply device includes a power supply module for supplying power to the wiring device through the line; a switch for controlling whether the power supply module supplies power; and a line test module
- the switch When the switch is turned on, the power supply module is not powered, and the user terminal is connected to the line; and the system control module is configured to send an alarm when the line test module confirms that the user terminal exists on the line. After the user cuts off the user terminal, the switch is controlled to be closed, and the power supply module supplies power.
- system system module is further configured to: when the line test module confirms that the line does not exist in the line, control the switch to be closed, the power supply module powered by.
- the reverse power supply device further includes a ring flow test module, configured to send, when the line test module confirms that the user terminal does not exist on the line, Ringing signal.
- system control module is further configured to: when the ringing flow signal sent by the ringing current testing module is not responded, control the switch to be closed, the power supply module powered by.
- system module is further configured to: when the ringing current signal sent by the ringing current testing module is responded, the user cuts off the user After the terminal, the switch is controlled to be closed, and the power supply module supplies power.
- the reverse power supply device further includes a remote switch control module, configured to control the wiring device to take power from the line.
- a reverse power supply method of a reverse power supply system includes a reverse power supply device, and a wiring device, wherein the reverse power supply device is electrically connected to the wiring device through a line
- the method includes the reverse power supply device confirming that a user terminal exists on the line, the reverse power supply device sends an alarm signal, and the reverse power supply device does not provide power.
- the method further includes the reverse power supply device confirming that there is no user terminal on the line, and the reverse power supply device supplies power to the line.
- the reverse power supply device confirms that there is no user terminal on the line, and the reverse power supply device supplies power to the line, and the device sends a ringing tone to the line. a signal; the ringing signal sent by the reverse power supply device is not responded, and the reverse power supply device supplies power.
- the method further includes: the ringing current signal sent by the reverse power supply device is responded, the reverse power supply device is not powered, and the user cuts off the user terminal.
- the reverse power supply device supplies power.
- the third aspect includes a reverse power supply device and a wiring device, wherein the reverse power supply device and the wiring device are connected by a line, and the reverse power supply device includes a first switch, a power supply module, a system control module, and a remote switch.
- the wiring device includes a second switch, a power take-off module, a service module, and a switch power-on control circuit
- the system includes a power supply module, configured to provide power resources to the wiring device through the line; a switch for controlling whether the power supply module supplies power; a line test module, configured to: when the switch is turned on, when the power supply module is not powered, testing a user terminal connected to the line; and a system control module, configured to: When the line test module confirms that the user terminal exists on the line, an alarm signal is sent, after the user cuts off the user terminal, the switch is controlled to be closed, and the power supply module supplies power; the second switch is used to control the taking The electrical module takes power from the line; the service module is configured to implement a service function of the wiring device; the switch power-on control circuit is configured to control closing or opening of the second switch; The electrical control circuit is controlled by the remote switch control module of the reverse power supply device.
- the reverse power supply device supplies power resources to the line, by detecting whether there is a user terminal on the line, once a user terminal is detected, an alarm signal is generated, until the user terminal on the line is eliminated, and the power supply is normally performed.
- FIG. 1 is a schematic diagram of a reverse power supply line in an FTTdp networking
- 2 is a schematic flowchart of a reverse power supply method according to an embodiment of the present invention
- FIG. 3 is a schematic diagram of a reverse power supply device module according to an embodiment of the present invention
- FIG. 4 is a schematic diagram of a reverse power supply system according to an embodiment of the present invention.
- FIG. 1 is a specific application scenario diagram of an embodiment of the present invention.
- panel interfaces three in the figure are taken as examples, and are respectively labeled as interface 1, interface 2;
- interface 3 in any one of the panel interfaces, connected to a reverse power supply device (connecting interface 1 in Fig. 1), and powering the wiring device through the line, where the wiring device can be FTTdp (Fiber To The Distribution Point, Fiber-to-distribution point equipment, also known as line junction boxes, where the lines are twisted.
- FTTdp Fiber To The Distribution Point
- Fiber-to-distribution point equipment also known as line junction boxes, where the lines are twisted.
- An embodiment of the present invention provides a reverse power supply method, as shown in FIG. 2:
- S220 The reverse power supply device starts the line test module to determine whether the user terminal device exists on the line.
- the switch of the wiring device and the power supply device is turned on, so that the power supply system is in a non-power supply state.
- the reverse power supply device determines whether there is a user terminal device on the line, where the user terminal device may be a telephone,
- the lines in the line can be connected by twisted pair.
- the judgment here can be whether the capacitance on the test line reaches a critical value. If the capacitance on the line exceeds the critical value through testing, it is considered that there is a possibility that the user exists on the line.
- the terminal device where the capacitance threshold can be referred to as greater than l uF (microfarad), that is, if the capacitance value on the test line is greater than luF, it is presumed that the user terminal device exists on the line.
- l uF microfarad
- the judgment method here can also determine whether the resistance on the line reaches a critical value. If it is found through the test that the resistance on the line exceeds the critical value, it is considered that there is a possibility that the user terminal device exists on the line, where the resistance is The threshold can be referenced to be greater than 300 ohms, i.e., if the resistance value on the test line is greater than 300 ohms, the user terminal device is presumed to be present on the line.
- the reverse power supply device sends a ringing stream signal through the ringing stream sending module, and sends a ringing time to detect whether the user terminal picks up the phone.
- the reverse power supply device sends a ringing tone signal to the line, where the ringing stream signal may be a ringing tone of the phone, and the frequency may be 25 Hz. After being sent for a period of time, the period of time may be greater than 1 second, and the detecting may be performed.
- the user terminal device is off-hook
- the user terminal device here may be a telephone
- the off-hook situation here may be that the user answers the phone behavior at home.
- the reverse power supply device sends an alarm signal by means of the indicator light, and the power supply device cannot be powered.
- the alarm signal is used to prompt the user to cut off the user terminal.
- the reverse power supply device An alarm signal is sent, the alarm signal here can be turned on by the indicator light, or the alarm can be triggered by other means. At this time, the reverse power supply device does not supply power to the wiring device, and after receiving the alarm signal, the user cuts off the user terminal, Supply power to the wiring device normally to the power supply device.
- the reverse power supply device finds that the user terminal does not go off-hook, the reverse power supply device controls the switch of the wiring device to be closed by the remote switch control module, and the reverse power supply device controls the local switch to close and supply power to the wiring device.
- the reverse power supply device sends the ringing signal for a period of time
- the period of time may be a reasonable period of time after the user hears the ringing tone of the phone, and finally does not pick up the phone, the reverse The power supply device supplies power to the wiring device.
- the reverse power supply device finds that the user terminal is off-hook, the reverse power supply device sends an alarm signal, where the alarm signal prompts the user to cut off the telephone, and the power supply cannot be supplied to the wiring device before being cut off.
- the reverse power supply device sends the ringing signal and the user terminal picks up the phone, the reverse power supply device sends an alarm signal.
- the alarm signal can be sent through the indicator light, and other methods can be used.
- the reverse power supply device does not supply power to the wiring device.
- the reverse power supply device supplies power resources to the line, by detecting whether there is a user terminal on the line, once a user terminal is detected, an alarm signal is generated, until the user terminal on the line is eliminated, and the power supply is normally performed. The user terminal is prevented from being destroyed.
- the embodiment of the present invention further provides a reverse power supply device.
- the reverse power supply device 300 includes a line 310, a remote switch control module 320, a line test module 330, a ringing stream transmission and detection module 340, and system control.
- Module 350 power supply module 360, switch S2 370, wherein the power supply module 360-terminal is connected to the switch S2 370, the remote switch control module 320-terminal is connected to the line 310, one end is connected to the system control module 350, and the line test module 330-terminal is connected to the line 310, one end and the system
- the control module 350 is connected, and the ringing transmission and detection module 340 is connected to the line 310, and one end is connected to the system control module 350, and includes:
- Line 310 the user connects the various modules inside the reverse power supply device 300.
- the remote switch control module 320 is used to control the switch of the wiring device.
- the line test module 330 is configured to test whether there is a user terminal on the line 310, and can test whether the capacitance value or the resistance value reaches a critical value. If the threshold value is reached, the user terminal is estimated to exist on the line, and the system is notified at this time. Module 350 issues an alert signal.
- the critical value here can be: If it is the test capacitance value, you can refer to 1 micro method; if it is the test resistance value, you can refer to 300 ohms.
- the bell stream sending and detecting module 340 is configured to: when the line test module 330 speculates that there is no user terminal on the line 310, send a ringing tone signal to the line 310, and detect whether the terminal on the line 310 is in use; After the time, if the user answers the ringing signal, it is considered that there is a user terminal on the line. At this time, the system control module 350 issues an alarm signal, and the reverse power supply device cannot provide power to the line 310; if after a reasonable period of time If no user answers the ringing current signal in the ringing stream, it is considered that there is no user terminal on the line.
- the reverse power supply device can turn off the switch S2 370 through the system control module 350 and control the matching through the remote switch control module 320.
- the switch of the line device is closed, so that the power supply module 360 can provide power resources to the wiring device, wherein A reasonable time here can be the time when the user hears the ringing of the phone and usually answers the call; the ringing signal here can be 25 Hz.
- the system control module 350 is configured to: when the line test module confirms that the user terminal exists on the line, issue an alarm signal; and may be used when the ring flow sending and detecting module 340 considers that the user terminal does not exist on the line, Control switch S2 370 is closed such that power supply module 360 provides power resources on line 310.
- the power supply module 360 is configured to provide a reverse voltage and current to the line 310.
- Switch S2 370 is used to control whether power is supplied to line 110.
- the reverse power supply device supplies power resources to the line, by detecting whether there is a user terminal on the line, once a user terminal is detected, an alarm signal is generated, until the user terminal on the line is eliminated, and the power supply is normally performed. Avoid user terminal being destroyed.
- the embodiment of the present invention further provides a reverse power supply system.
- the reverse power supply system includes a Distribution Point Unit (DPU) and a Power Supply Equipment (PSE).
- the DPU and the PSE are connected by a twisted pair.
- the DPU includes a line 310, a switch S1 510, a service module 520, a power take-off module 530, and a switch power-on control circuit 540.
- One end of the service module is connected to the line 310, and one end of the power take-off module is connected.
- the switch power-on control circuit 540 is connected to the switch S1 510, and one end is connected to the line 310 for controlling the opening or closing of the switch S1.
- the switch power-on control circuit 540 is subjected to the reverse power supply device 300.
- Control of the remote switch control module 320; the PSE includes a line 310, a remote switch control module 320, a line test module 330, a ringing stream transmission and detection module 340, a system control module 350, The power supply module 360 and the switch S2 370, wherein the power supply module 360 is connected to the switch S2 370, the remote switch control module 320 is connected to the line 310, and one end is connected to the system control module 350.
- the line test module 330 is connected to the line 310. One end is connected to the system control module 350.
- the ringing transmission and detection module 340 is connected to the line 310, and one end is connected to the system control module 350.
- the following is a specific application scenario to further illustrate the reverse power supply system, including:
- Step one the DPU has no power supply, and the switch S1 is in an open state.
- Step 2 After the PSE is powered on, the switch S2 370 is in an open state.
- Step 3 The PSE starts the line test module 330 to determine whether there is a user terminal, such as a telephone, on the line 310.
- Step 4 If it is found through the test that the user terminal exists, the PSE sends an alarm signal through the system control module 350, and does not supply power to the DPU until the user cuts off the user terminal phone, the system control module 350 controls the switch S2 to close, and notifies the remote switch.
- the control module 320 closes the switch S1 520, the reverse power supply device 300 is normally powered, the DPU can normally take power, and the service module 520 operates normally.
- Step 5 If it is found through the test that the user terminal does not exist, the PSE restarts the ringing stream sending module 340 to send a ringing stream signal. After transmitting for a period of time, detecting whether the ringing stream signal has a user response, that is, whether the user answers the call, if there is Then, it is considered that there is a user terminal on the line 310, and the alarm is performed according to the method in the fourth step, and the DPU is not powered.
- Step 6 If no user answers the telephone, the PSE controls the DPU switch S1 to be closed by the remote switch control module 320, the PSE control switch S2 is turned off, the PSE is normally powered, the DPU is normally powered, and the service module 520 is normal.
- the reverse power supply device supplies power resources to the line, by detecting whether there is a user terminal on the line, once a user terminal is detected, an alarm signal is generated, until the user terminal on the line is eliminated, and the power supply is normally performed. The user terminal is prevented from being destroyed.
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- Computer Networks & Wireless Communication (AREA)
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Abstract
一种反向供电设备(300),包括供电模块(360),用于通过线路(310)向配线设备提供电力资源;开关(370),用于控制供电模块(360)是否供电;线路测试模块(330),用于当开关(370)开启、供电模块(360)不供电时,测试线路(310)上是否连接用户终端;系统控制模块(350),用于当线路测试模块(330)确认线路(310)上存在用户终端时,发出告警信号,用户切断用户终端后,控制开关(370)闭合,供电模块(360)供电。该反向供电设备可以避免用户终端被毁坏。
Description
一种反向供电方法、 反向供电设备及系统 技术领域
本发明涉及通信技术领域, 尤其涉及一种反向供电方法、 以及实 现该方法的反向供电设备及系统。
背景技术
反向供电技术釆用的是一种相对的方式来命名的技术,我们通常 地称由交换机给网络终端供电,电流从交换机流向网络终端为正向供 电, 那么通过网络终端向交换机进行供电, 电流从终端流向交换机这 种供电方式则称之为反向供电。 现有技术中, 在光纤到配线点 ( Fiber To The Distribution Point, 简称 FTTdp )组网环境中 , 由于在配线点 DP点本地取电困难, 给配 线点 DP供电成为主要的技术难点。 其中一种解决方法是需要从用户 家里的反向供电设备 ( Power Supply Equipment, 简称 PSE )向 FTTdp 供电, 由于传统家庭内部双绞线走线方式是串接在一块儿的, 如果在 某个点接入反向供电, 该电压不仅仅传输到 FTTdp,也会传输到家庭 内部的其他线路接口点, 其他接口点传统上一般是接话机等终端设 备,如果这个电压在用户不知情的条件下传输过去可能会导致一些电 话机等终端设备被烧掉。
发明内容
有鉴于此, 本发明实施例提供了一种反向供电系统反向供电方 法、 反向供电设备及系统, 以解决上述问题。
第一方面, 一种反向供电设备, 其特征在于, 应用于光线到配线
点组网环境中为配线设备提供反向供电的场景,包括线路、供电模块、 开关、 线路测试模块、 系统控制模块, 所述线路用于连接所述反向供 电设备和所述配线设备, 所述开关一端连接所述线路, 一端连接所述 系统控制模块, 一端连接所述供电模块, 所述供电模块一端连接在所 述开关上, 所述线路测试模块一端连接在所述线路上, 一端与所述系 统控制模块连接, 所述反向供电设备包括供电模块, 用于通过所述线 路向所述配线设备供电; 开关, 用于控制所述供电模块是否供电; 线 路测试模块, 用于当所述开关开启, 所述供电模块不供电时, 测试所 述线路上连接用户终端; 系统控制模块, 用于当所述线路测试模块确 认所述线路上存在所述用户终端时, 发出告警信号, 用户切断所述用 户终端后, 控制所述开关闭合, 所述供电模块供电。
在第一方面的第一种可能的实现方式中,所述系统系统模块还用 于当所述线路测试模块确认所述线路不存在所述用户终端时,控制所 述开关闭合, 所述供电模块供电。
在第一方面的第二种可能的实现方式中,所述反向供电设备还包 括铃流测试模块,用于当所述线路测试模块确认线路上不存在所述用 户终端时, 向线路上发送铃流信号。
在第一方面的第三种可能的实现方式中,所述系统控制模块还用 于当所述铃流测试模块发送的所述铃流信号没有得到响应,控制所述 开关闭合, 所述供电模块供电。
在第一方面的第四种可能的实现方式中,所述系统模块还用于当 所述铃流测试模块发送的所述铃流信号得到响应,用户切断所述用户
终端后, 控制所述开关闭合, 所述供电模块供电。
在第一方面的第五种可能的实现方式中,所述反向供电设备还包 括远程开关控制模块, 用于控制所述配线设备从所述线路上取电。
第二方面,一种反向供电系统的反向供电方法, 所述反向供电系 统包括反向供电设备、 和配线设备, 所述反向供电设备通过线路与所 述配线设备电性连接,所述方法包括所述反向供电设备确认所述线路 上存在用户终端, 所述反向供电设备发出告警信号, 所述反向供电设 备不供电。
在第二方面的第一种可能的实现方式中,所述方法还包括所述反 向供电设备确认所述线路上不存在用户终端,所述反向供电设备向线 路上供电。
在第二方面的第二种可能的实现方式中,所述反向供电设备确认 所述线路上不存在用户终端,所述反向供电设备向线路上供电包括所 设备向所述线路发出铃流信号;所述反向供电设备发出的所述铃流信 号没有得到响应, 所述反向供电设备供电。
在第二方面的第三种可能的实现方式中,所述方法还包括所述反 向供电设备发出的所述铃流信号得到响应, 所述反向供电设备不供 电, 用户切断所述用户终端, 所述反向供电设备供电。
第三方面, 包括反向供电设备和配线设备, 所述反向供电设备和 所述配线设备通过线路连接, 所述反向供电设备包括第一开关、供电 模块、 系统控制模块、 远程开关控制模块、 线路检测模块和铃流检测
模块, 所述配线设备包括第二开关、 取电模块、 业务模块和开关上电 控制电路, 所述系统包括供电模块, 用于通过所述线路向所述配线设 备提供电力资源; 第一开关, 用于控制所述供电模块是否供电; 线路 测试模块, 用于当所述开关开启, 所述供电模块不供电时, 测试所述 线路上连接用户终端; 系统控制模块, 用于当所述线路测试模块确认 所述线路上存在所述用户终端时,发出告警信号, 用户切断所述用户 终端后, 控制所述开关闭合, 所述供电模块供电; 所述第二开关用于 控制所述取电模块从所述线路上取电;所述业务模块用于实现所述配 线设备的业务功能;所述开关上电控制电路用于控制所述第二开关的 闭合或者开启;所述开关上电控制电路受所述反向供电设备的所述远 程开关控制模块控制。 通过以上技术方案,反向供电设备向线路上提供电力资源时, 通 过检测线路上是否存在用户终端,一旦检测到有用户终端存在, 即产 生告警信号, 直到消除线路上的用户终端才正常供电。
附图说明
为了更清楚地说明本发明的实施例或现有技术中的技术方案,下 面将对描述背景技术和实施例时所使用的附图作简单的介绍。显而易 见地, 下面附图中描述的仅仅是本发明的一部分实施例,对于本领域 普通技术人员来讲, 在不付出创造性劳动的前提下,还可以根据这些 附图和描述得到其他的附图或实施例,而本发明旨在涵盖所有这些衍 生的附图或实施例。
图 1是 FTTdp组网中反向供电线路示意图;
图 2是本发明实施例反向供电方法流程示意图; 图 3是本发明实施例反向供电设备模块示意图;
图 4是本发明实施例反向供电系统示意图。
具体实施方式
为了使本发明的目的、技术方案及优点更加清楚明白, 以下结合 附图及实施例, 对本发明进行进一步详细说明。 应当理解, 此处所描 述的具体实施例仅仅用以解释本发明, 并不用于限定本发明。 显然, 所描述的实施例仅仅是本发明一部门实施例, 而不是全部的实施例。 基于本发明中的实施例,本领域普通技术人员在没有做出创造性劳动 前提下所获得的所有其他实施例, 都属于本发明保护的范围。
图 1是本发明实施例具体应用场景图, 如图 1所示, 在一个家庭 内部走线环境下, 存在多个面板接口 (图中以 3个作为示例), 分别 标记为接口 1、 接口 2和接口 3 , 在其中任意一个面板接口, 连接一 个反向供电设备 (图 1中为连接接口 1 ) , 通过线路为配线设备供电, 这里的配线设备可以是 FTTdp ( Fiber To The Distribution Point , 光纤 到配线点)设备, 也可以称作线路交接箱, 这里的线路釆用双绞线。
本发明一实施例提供了一种反向供电方法, 如图 2所示:
S220,反向供电设备启动线路测试模块判断线路上是否存在用户 终端设备。
其中, 在反向供电设备启动线路测试模块之前, 开启配线设备和 供电设备的开关,使供电系统处于不供电状态。反向供电设备判断线 路上是否存在用户终端设备, 这里的用户终端设备可以是电话机, 这
里的线路可以通过双绞线连接,这里的判断方式可以是通过测试线路 上的电容是否达到一临界值, 如果通过测试发现, 线路上的电容超过 了临界值, 那么认为线路上很可能存在用户终端设备, 这里的电容临 界值可以参考为大于 l uF (微法), 即如果测试线路上的电容值大于 luF时, 推测线路上存在用户终端设备。
可选地 ,这里的判断方式也可以通过测试线路上的电阻是否达到 一临界值, 如果通过测试发现, 线路上的电阻超过了临界值, 那么认 为线路上很可能存在用户终端设备,这里的电阻临界值可以参考为大 于 300欧姆, 即如果测试线路上的电阻值大于 300欧姆时,推测线路 上存在用户终端设备。 S230,如果推测线路上没有存在用户终端设备, 反向供电设备通过铃流发送模块发送铃流信号,发送一段时间,检测 是否有用户终端摘机。
其中,如果测试线路上的电容值小于 luF时,推测线路上没有存 在用户终端设备。 可选地, 反向供电设备向线路上发送铃流信号, 这 里的铃流信号可以是电话铃声, 频率可以是 25HZ,发送一段时间后, 这里的一段时间, 可以是大于 1秒的时间,检测用户终端设备是否存 在被摘机情况, 这里的用户终端设备可以是电话机, 这里的摘机情况 可以是用户在家中接听电话行为。
S240,如果推测线路上存在用户终端设备,反向供电设备通过指 示灯方式发出告警信号, 并且不能给配线设备供电, 这里的告警信号 用于提示用户切断用户终端。
其中, 如果测试线路上的电容值大于 luF, 那么反向供电设备就
发出告警信号, 这里的告警信号可以开启指示灯的方式, 也可以釆用 其他方式告警, 此时, 反向供电设备不给向配线设备供电, 用户接收 到告警信号后, 切断用户终端, 反向供电设备正常给配线设备供电。
S250 ,如果反向供电设备发现用户终端没有摘机,反向供电设备 则通过远程开关控制模块控制配线设备的开关闭合,反向供电设备控 制本地开关闭合, 给配线设备供电。
其中, 如果反向供电设备发送铃流信号一段时间后, 这里的一段 时间, 可以是一般情况下, 用户在听到电话铃声后, 去接听电话的合 理时间段, 最终没有摘机行为, 反向供电设备向配线设备供电。
S260 ,如果反向供电设备发现用户终端摘机, 则反向供电设备通 过发出告警信号, 这里的告警信号为提示用户切断该电话机, 切断之 前, 不能给配线设备供电。
在本步骤中,如果反向供电设备发送铃流信号后,用户终端摘机, 则反向供电设备发出告警信号, 这里的告警信号可以通过指示灯发 出, 还可以釆用其他方式, 此时, 反向供电设备不给配线设备供电。
通过以上技术方案,反向供电设备向线路上提供电力资源时, 通 过检测线路上是否存在用户终端, 一旦检测到有用户终端存在, 即产 生告警信号, 直到消除线路上的用户终端才正常供电, 避免了用户终 端被毁坏。
本发明实施例还提供了一种反向供电设备, 如图 3所示,反向供 电设备 300包含线路 310、远程开关控制模块 320、线路测试模块 330、 铃流发送和检测模块 340、 系统控制模块 350、 供电模块 360、 开关
S2 370 , 其中, 供电模块 360—端与开关 S2 370连接, 远程开关控制 模块 320—端与线路 310连接, 一端与系统控制模块 350连接, 线路 测试模块 330—端与线路 310连接, 一端与系统控制模块 350连接, 铃流发送和检测模块 340—端与线路 310连接,一端与系统控制模块 350连接, 包括:
线路 310 , 用户连接反向供电设备 300内部的各个模块。
远程开关控制模块 320 , 用于控制配线设备的开关。
线路测试模块 330 , 用于测试线路 310上是否存在用户终端, 可 以通过测试电容值或电阻值是否达到一临界值 , 如果达到所述临界 值, 则推测线路上存在用户终端, 此时通知系统控制模块 350发出告 警信号。
其中, 这里的临界值可以是: 如果是测试电容值, 可以参考 1微 法; 如果是测试电阻值, 可以参考 300欧姆。
铃流发送和检测模块 340 ,用于当线路测试模块 330推测线路 310 上不存在用户终端时, 向线路 310上发送铃流信号, 并检测线路 310 上终端是否有正在使用中; 如果经过一段合理时间后, 有用户应答所 述铃流信号, 则认为线路上存在用户终端, 此时, 系统控制模块 350 发出告警信号, 并且反向供电设备不能向线路 310上提供电力; 如果 经过一段合理时间后, 没有用户应答所述铃流这里的铃流信号, 则认 为线路上不存在用户终端, 此时, 反向供电设备可以通过系统控制模 块 350关闭开关 S2 370 ,并通过远程开关控制模块 320控制配线设备 的开关闭合,使得供电模块 360可以向配线设备提供电力资源,其中,
这里的一段合理时间, 可以是用户听到电话铃声, 通常接听电话的时 间; 这里的铃流信号可以是 25HZ。
系统控制模块 350, 用于当所述线路测试模块确认所述线路上存 在所述用户终端时,发出告警信号; 还可以用于当铃流发送和检测模 块 340认为线路上不存在用户终端时, 控制开关 S2 370闭合, 使得 供电模块 360向线路 310上提供电力资源。
供电模块 360 , 用于向线路 310提供反向电压和电流。
开关 S2 370, 用于控制是否向线路 110上供电。
通过以上技术方案,反向供电设备向线路上提供电力资源时, 通 过检测线路上是否存在用户终端, 一旦检测到有用户终端存在, 即产 生告警信号, 直到消除线路上的用户终端才正常供电, 避免用户终端 被毁坏。
本发明实施例还提供了一种反向供电系统, 如图 4所示,反向供 电系统包括配线设备 ( Distribution Point Unit, 简称 DPU )和反向供 电设备 ( Power Supply Equipment, 简称 PSE ), DPU和 PSE通过双 绞线相连, DPU包括线路 310、 开关 S1 510、 业务模块 520、 取电模 块 530、开关上电控制电路 540, 其中, 业务模块一端连接在线路 310 上,取电模块一端连接在线路 310上, 开关上电控制电路 540—端与 开关 S1 510相连, 一端与线路 310相连, 用于控制开关 S1的开启或 者闭合, 同时, 开关上电控制电路 540受到反向供电设备 300的远程 开关控制模块 320的控制; PSE包括线路 310、远程开关控制模块 320、 线路测试模块 330、 铃流发送和检测模块 340、 系统控制模块 350、
供电模块 360、 开关 S2 370, 其中, 供电模块 360—端与开关 S2 370 连接, 远程开关控制模块 320—端与线路 310连接,一端与系统控制 模块 350连接, 线路测试模块 330—端与线路 310连接, 一端与系统 控制模块 350连接, 铃流发送和检测模块 340—端与线路 310连接, 一端与系统控制模块 350连接,下面结合具体的应用场景来进一步说 明反向供电系统, 包括:
步骤一, DPU无供电, 开关 S1处于打开状态。
步骤二, PSE上电后, 开关 S2 370处于打开状态。
步骤三, PSE启动线路测试模块 330来判断线路 310上是否存在 用户终端, 如电话机。
步骤四, 如果通过测试, 发现存在用户终端, PSE通过系统控制 模块 350发出告警信号, 并且不给 DPU供电, 直到用户切断了用户 终端电话机, 系统控制模块 350控制开关 S2闭合, 并且通知远程开 关控制模块 320闭合开关 S1 520,反向供电设备 300正常供电, DPU 可以正常取电, 业务模块 520正常工作。
步骤五, 如果通过测试, 发现不存在用户终端, PSE再启动铃流 发送模块 340发送铃流信号, 发送一段时间后,检测该铃流信号是否 有用户响应, 即是否有用户接听电话, 如果有, 则认为线路 310上存 在用户终端, 按照步骤四的方式告警, 并且不给 DPU供电。
步骤六, 如果没有用户接听电话机, PSE通过远程开关控制模块 320来控制 DPU的开关 S1关闭, PSE控制开关 S2关闭, PSE正常 供电工作, DPU正常取电, 业务模块 520正常。
通过以上技术方案,反向供电设备向线路上提供电力资源时, 通 过检测线路上是否存在用户终端,一旦检测到有用户终端存在, 即产 生告警信号, 直到消除线路上的用户终端才正常供电, 避免了用户终 端被毁坏。
虽然以上对本发明的描述是参考其具体实施方式来进行的, 但 是, 这些描述不应当被认为是对本发明的限制。任何不背离本发明精 神和范围的修改和变换都属于由附带权利要求所定义的本发明的范 围之内。
Claims
1、 一种反向供电设备, 其特征在于, 应用于光线到配线点组网 环境中为配线设备提供反向供电的场景, 包括线路、供电模块、开关、 线路测试模块、 系统控制模块, 所述线路用于连接所述反向供电设备 和所述配线设备, 所述开关一端连接所述线路, 一端连接所述系统控 制模块, 一端连接所述供电模块, 所述供电模块一端连接在所述开关 上, 所述线路测试模块一端连接在所述线路上, 一端与所述系统控制 模块连接, 所述反向供电设备包括:
供电模块, 用于通过所述线路向所述配线设备供电;
开关, 用于控制所述供电模块是否供电;
线路测试模块, 用于当所述开关开启, 所述供电模块不供电时, 测试所述线路上连接用户终端;
系统控制模块,用于当所述线路测试模块确认所述线路上存在所 述用户终端时, 发出告警信号, 用户切断所述用户终端后, 控制所述 开关闭合, 所述供电模块供电。
2、 如权利要求 1所述的反向供电设备, 其特征在于, 所述系统 控制模块还用于当所述线路测试模块确认所述线路不存在所述用户 终端时, 控制所述开关闭合, 所述供电模块供电。
3、 如权利要求 1所述的反向供电设备, 其特征在于, 所述反向 供电设备还包括:
铃流测试模块,用于当所述线路测试模块确认线路上不存在所述 用户终端时, 向线路上发送铃流信号。
4、 如权利要求 3所述的反向供电设备, 其特征在于, 所述系统 控制模块还用于当所述铃流测试模块发送的所述铃流信号没有得到 响应, 控制所述开关闭合, 所述供电模块供电。
5、 如权利要求 3所述的反向供电设备, 其特征在于, 所述系统 模块还用于当所述铃流测试模块发送的所述铃流信号得到响应,用户 切断所述用户终端后, 控制所述开关闭合, 所述供电模块供电。
6、 如权利要求 1所述的反向供电设备, 其特征在于, 所述反向 供电设备还包括:
远程开关控制模块, 用于控制所述配线设备从所述线路上取电。
7、 一种反向供电系统的反向供电方法, 其特征在于, 所述反向 供电系统包括反向供电设备、 和配线设备, 所述反向供电设备通过线 路与所述配线设备电性连接, 所述方法包括:
所述反向供电设备确认所述线路上存在用户终端,所述反向供电 设备发出告警信号, 所述反向供电设备不供电。
8、 如权利要求 7所述的方法, 其特征在于, 所述方法还包括: 电设备向线路上供电。
9、 如权利要求 8所述的方法, 其特征在于, 所述反向供电设备 确认所述线路上不存在用户终端,所述反向供电设备向线路上供电包 括: 向供电设备向所述线路发出铃流信号;
所述反向供电设备发出的所述铃流信号没有得到响应,所述反向 供电设备供电。
10、 如权利要求 9所述的方法, 其特征在于, 所述方法还包括: 所述反向供电设备发出的所述铃流信号得到响应,所述反向供电 设备不供电, 用户切断所述用户终端, 所述反向供电设备供电。
11、 一种反向供电系统, 其特征在于, 包括反向供电设备和配线 设备, 所述反向供电设备和所述配线设备通过线路连接, 所述反向供 电设备包括第一开关、供电模块、 系统控制模块、远程开关控制模块、 线路检测模块和铃流检测模块, 所述配线设备包括第二开关、取电模 块、 业务模块和开关上电控制电路, 所述系统包括:
供电模块, 用于通过所述线路向所述配线设备提供电力资源; 第一开关, 用于控制所述供电模块是否供电;
线路测试模块, 用于当所述开关开启, 所述供电模块不供电时, 测试所述线路上连接用户终端;
系统控制模块,用于当所述线路测试模块确认所述线路上存在所 述用户终端时, 发出告警信号, 用户切断所述用户终端后, 控制所述 开关闭合, 所述供电模块供电;
所述第二开关用于控制所述取电模块从所述线路上取电; 所述业务模块用于实现所述配线设备的业务功能;
所述开关上电控制电路用于控制所述第二开关的闭合或者开启; 所述开关上电控制电路受所述反向供电设备的所述远程开关控 制模块控制。
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EP13892787.6A EP3029881B1 (en) | 2013-09-05 | 2013-09-05 | Reverse power supply method, reverse power supply device and system |
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WO2016096583A2 (en) * | 2014-12-18 | 2016-06-23 | Thomson Licensing | Method for powering a distribution point unit, distribution point unit, program storage medium and computer program |
CN106161039B (zh) * | 2015-04-20 | 2020-05-19 | 中兴通讯股份有限公司 | 反向供电处理方法及装置 |
EP3099005B1 (en) * | 2015-05-26 | 2019-12-25 | Alcatel Lucent | Provisioning of new broadband communication services using reverse power feeding |
CN106301546B (zh) * | 2015-06-09 | 2019-07-02 | 中兴通讯股份有限公司 | 反向供电线路检测处理方法及装置 |
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CN106707045A (zh) * | 2015-11-13 | 2017-05-24 | 中兴通讯股份有限公司 | 一种反向供电线路噪声定位方法和装置 |
CN106027822B (zh) * | 2016-05-12 | 2018-12-18 | 烽火通信科技股份有限公司 | 数据、反向馈电和语音共存于一对电话线的系统及方法 |
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CN104205724B (zh) | 2017-06-20 |
EP3029881A1 (en) | 2016-06-08 |
EP3029881A4 (en) | 2016-08-03 |
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