KR101851131B1 - An apparatus and method for reverse power feeding - Google Patents

Abstract

The present invention relates to a reverse power feeding apparatus and a method thereof. In performing reverse power transmission from a customer premise (CP) to a distribution point (DP), it is possible to control power supply from the reverse power feeding apparatus of the CP to the DP and to easily perform the opening or changing of a network service through reverse power feeding. The reverse power feeding apparatus includes a power generating part and a remote control part.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a reverse power supply apparatus,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a reverse power supply apparatus and method thereof in a subscriber network and, more particularly, to a reverse power supply apparatus and a method thereof in performing reverse power transmission from a customer premise (CP) to a distribution point (DP) To an apparatus and method for controlling power supply from a reverse power supply to a distribution side.

In general, a distribution apparatus provided on a distribution side in an access network is located in a place where it is difficult to connect independent power sources such as ground, manhole, etc., And operates. The concept of this type of power supply is called Reverse Power Feeding (RPF).

Since the distributor is located in a place where it is difficult for the operator to carry out the work such as adjustment, repair and service of the apparatus from time to time in the field, it is necessary to make the work easier. For example, when a user applies for a new communication service or changes or terminates a communication service, the user often has to manually access the distribution apparatus located in the ground or a manhole to manually perform the service switching. For example, a twisted pair copper wire may be connected to a telephone line of a central office (CO) at a location where the distribution device is located to provide a telephone service to a subscriber, or the telephone line may be cut off, It is necessary to provide a data service to the subscribers by connecting them, or to restore the status of the subscriber to a manual operation in the field.

That is, in the past, when the service opening or change is required from the subscriber side, the worker has to go to a place where the distribution apparatus is provided, and the service opening, changing, Management costs such as personnel expenses are increased, and there is a problem that it takes time to open or change the service.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide an apparatus and method for controlling power supply in a subscriber network system, And propose the method. That is, according to the present invention, by controlling the remote power supply device on the subscriber side to automatically select the service from the remote side to the distribution side, the operator visits the location where the distribution device is installed, So that the time and cost of service conversion are reduced.

In addition, the present invention proposes an efficient mechanism for controlling power supply from a subscriber side to a distribution side in supplying power in a reverse direction in a subscriber network system.

Next, a brief description will be given of the prior arts that exist in the technical field of the present invention, and technical matters which the present invention intends to differentiate from the prior arts will be described.

First, U.S. Pat. No. 9319537 (Registered on April 19, 2016) is a technique for load balancing of reverse power supplies to estimate communication line power losses in a typical communication system.

The difficulty of supplying power between the existing CO and DP is that the local power supply for the DP is expensive to set up or impossible to install. Therefore, the PSE (Power Source Equipment) is configured in the customer premise equipment (CPE) And transmits the power in a form not disturbed by the data communication. The CPE includes Power over Ethernet (POE), and POE delivers power to the DP via a twisted pair. Theoretically, each CPE must deliver the same amount of power to the DP, but the power supply of the PD (Power Device) is not the same due to the difference in the length of the telephone lines between the DP and the CPE. In particular, a CPE with a long telephone line should provide more power than a short CPE. The prior art aims at configuring a power supply unit having a large number of interface ports in the DP to balance the power supply of the CPE.

However, since the present invention provides a technical configuration for controlling automatic selection of a service from a remote power supply device on a subscriber side to a distribution side remotely, a power supply unit having only a large number of interface ports is configured in the DP There is a clear difference in the technical features compared to the prior art, which only suggests a technology configuration that balances the CPE's power supply.

U.S. Patent No. 8897431 (Apr. 25, 2014) discloses a technique for supplying power to an outdoor broadband cabinet. In order to increase the efficiency of miniaturization and installation of a cabinet, Power is supplied from the power supply side.

The prior art converts the DC power into a DC power through a wire line in the subscriber equipment, and the transmitted power is regulated and supplied to the broadband equipment of the cabinet. In addition, when power is transmitted from the subscriber equipment, it may be adjusted to the type of power required by the broadband equipment and transmitted. Thus, the broadband equipment is supplied with the adjusted power by matching the power required by the cabinet's broadband equipment with the DC power actually supplied.

This prior art has some similarities with the configuration for controlling the power supply from the reverse power supply to the distribution device on the subscriber side of the present invention in that it supplies power from the subscriber equipment to the cabinet.

However, since the present invention provides a technical configuration for controlling automatic selection of a service from a remote power supply device on a subscriber side to a distribution side, only a technology configuration for supplying power from a subscriber equipment to a cabinet is proposed Unlike the prior art, it is obvious that the difference in technical features is that there is no need for the operator to visit the location where the distribution apparatus is installed when the service opening, modification and termination of the subscriber is requested.

US Patent No. 7672448 (Mar. 2, 2010) discloses a device for supplying electric power to a network device, which uses a conventional telephone line to connect a remote power supply at home to a residential gateway gateway to a power source.

In the prior art, since the home gateway is located in a network interface device (NID) outside the home, there is a power supply problem and there is an NID device which can not supply AC power. Therefore, And a method of supplying power to the home gateway by using a telephone line of the home network.

The prior art has some similarity with the configuration for controlling the power supply from the remote power supply unit at the customer's premises to the gateway at the outside of the home in that the power supply is controlled from the reverse power supply unit at the subscriber's side of the present invention to the distribution side.

However, since the present invention provides a technical configuration for remotely controlling a distribution side at a subscriber side in response to a subscriber's service opening, changing, and cancellation request, It is obvious that there is no technical difference in that the operator does not need to directly visit the location where the distribution apparatus is installed in the case where there is a request for service opening, modification and termination by the subscriber, unlike the prior art which only refers to the configuration for supplying power to the located gateway .

That is, most prior arts including the above-mentioned prior arts have a configuration in which a DC component of a Plain Old Telephone Service (POTS) signal and a reverse power provided from a subscriber side are prevented from colliding with each other, (POTS) and data service (VDSL), although the POTS is a configuration that allows communication to continue without receiving power from the subscriber equipment. The worker must directly visit the location where the distribution apparatus is installed and change the connection so that the service can be automatically selected from the remote power supply apparatus on the subscriber side remotely to the distribution side so that the operator can easily select the location where the distribution apparatus is installed There is no need to visit and work, and as a result, The configuration of the present invention to reduce costs is to clear the technical difference.

The present invention has been made to solve the above problems, and it is an object of the present invention to provide a reverse power supply apparatus capable of controlling power supply from a reverse power supply apparatus on a subscriber side to a distribution side when performing a reverse power supply in a subscriber network system, And to provide such a method.

In addition, the present invention provides a reverse power supply apparatus and a method therefor, which allow a reverse power transmission from a reverse power supply apparatus on a subscriber side to a distribution side, To provide another purpose.

It is still another object of the present invention to provide an inverse power supply apparatus and a method thereof for providing an efficient mechanism for controlling power supply from a subscriber side to a distribution side in supplying power in a reverse direction in a subscriber network system .

According to an aspect of the present invention, there is provided a reverse power supply apparatus including: a power generation unit for generating power required for reverse power supply at a subscriber side; And a remote control unit for performing remote control to the distribution side to supply the generated power in a reverse direction, wherein the remote control is performed through unidirectional communication from the remote control unit to the distribution side.

The remote control unit controls the reception control unit on the distribution side by the remote control by sending an analog signal of a specific frequency that has not been modulated to the distribution side to charge the power for driving the reception control unit on the distribution side And further comprising:

The remote control unit transmits the AM modulation tone to the command sequence of the switch existing on the distribution side after the power for driving the reception control unit on the distribution side is charged and controls the switch provided at the remote side, And controlling to selectively provide two or more communication services.

The unidirectional communication is characterized in that the remote controller modulates a signal having a predetermined bit width with on / off keying (On / Off Keying) and transmits the modulated signal.

The remote control unit may connect the modulator and the control unit to the CO-side telephone line to check whether there is a voltage from the CO or a CO voltage (for example, a CO voltage detection unit) on the telephone line, And then transmitting the tone of the unmodulated specific frequency to the distribution side to charge the power for driving the reception side control section of the distribution side.

Then, the remote control unit waits for the voltage from the CO side to be removed from the telephone line and causes the PSE (Power Sourcing Equipment) to start the power-up sequence. After completing the power-up sequence, So as to allow the user to perform the operation.

And the remote control further comprises: releasing the connection of the telephone line to the modulator after a predetermined voltage has been applied to the telephone line, connecting with a modem, and causing the distributor to start power-up and start the training sequence .

Further, the remote control unit may further perform monitoring for an off-hook event while the CO side is connected, and disconnecting the power when an off-hook event is detected.

Also, a method of supplying a reverse power according to an embodiment of the present invention includes: a power generation step of generating power required for a reverse power supply at a subscriber side; And a remote control step of performing remote control to the distribution side to supply the generated power in a reverse direction, wherein the remote control is performed through unidirectional communication from the remote control part to the distribution side.

In the remote control step, the analog signal of the unmodulated specific frequency is transmitted to the distribution side to charge the electric power for driving the reception control unit on the distribution side, so that the reception control unit on the distribution side is controlled by the remote control And < / RTI >

In the remote control step, after the power for driving the reception control unit on the distribution side is charged, the AM modulation tone for the command sequence of the switch existing on the distribution side is transmitted to control the remote switch, And controlling to selectively provide the other two or more communication services.

In the unidirectional communication, a signal having a predetermined bit width of a predetermined bit width is modulated by on / off keying in the remote control step and is transmitted.

The remote control step may include a step of connecting the modulator and the control unit to the CO-side telephone line to check whether there is a voltage from the CO on the telephone line or a means for detecting the CO voltage (for example, a CO voltage detection unit) And then transmitting the tone of the unmodulated specific frequency to the distribution side so as to charge the power for driving the reception side control section of the distribution side.

And the remote control step is to wait for the voltage from the CO side to be removed from the telephone line and cause the PSE to start the power-up sequence and to apply a predetermined voltage to the telephone line after completing the power-up sequence And further comprising:

And the remote control step further comprises: releasing the connection of the telephone line to the modulator after applying a predetermined voltage to the telephone line, connecting with a modem, and causing the distributor to start power-up and start the training sequence .

Further, the remote control step may further include monitoring the off-hook event while the CO side is connected, and disconnecting the power when the off-hook event is detected.

As described above, according to the reverse power supply apparatus and method of the present invention, it is possible to automatically change the network service provision mode at the distribution side through the reverse power supply performed at the subscriber side without directly connecting the power supply to the distribution apparatus Therefore, whenever the service change request is made by the subscriber, the operator does not need to enter the distribution apparatus for the purpose of simple service switching, or enter the ground, the manhole, etc. Therefore, the time required for opening, changing, So that it is possible to eliminate the risk factors of the operator and to prevent the accident from occurring.

In addition, since there is no need for the worker to work in the distribution apparatus, it is possible to reduce the management cost including the labor costs incurred by opening or changing the service.

1 is a conceptual diagram for explaining a reverse power supply process according to an embodiment of the present invention.
2 is a diagram schematically illustrating a configuration of a reverse power supply apparatus according to an embodiment of the present invention.
FIG. 3 is a detailed diagram illustrating a configuration of a subscriber-side reverse power supply apparatus of FIG. 2 according to an embodiment of the present invention.
4 is a flowchart illustrating an operation procedure of a reverse power supply method according to an embodiment of the present invention in detail.
5 is a flowchart illustrating a process for releasing a CO line connection performed by the remote controller according to an exemplary embodiment of the present invention.
6 is a flowchart illustrating a process of a reverse power supply for DP power supply according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a reverse power supply apparatus and a method thereof according to the present invention will be described in detail with reference to the accompanying drawings. The present invention may be embodied in many different forms and is not limited to the embodiments described herein. Like parts are designated with like reference numerals throughout the specification.

1 is a conceptual diagram for explaining a reverse power supply process according to an embodiment of the present invention.

1, the DP (distribution side) in the subscriber network system of the present invention includes an optical network unit (ONU / ONT) and a distribution point unit (DPU) , An optical line terminal (OLT) connected to the optical cable via the ONU / ONT is located in the upper stage of the DP (distribution side), and a CP (subscriber side) including the reverse power supply device connected to the telephone line through the DPU Located. Many devices including PC, TV, and telephone are connected to CP through LAN cable.

A reception control unit is connected between the distribution device and the CP. The reception control unit is connected to the OLT or the CO so as to selectively connect to the OLT through the DPU or to the CO through remote control of the reverse power supply unit provided in the CP .

The reception control unit is a component part that receives a remote control command and operates in accordance with the command, and is driven by the power and the signal supplied from the CP side reverse power supply unit.

The reverse power supply apparatus includes a remote control unit for remotely controlling a reception control unit of the distribution apparatus and a power generation unit for generating power to be supplied to the DP side, And supplies a control signal.

At this time, the remote control unit provided in the reverse power supply apparatus is configured to remotely control the reception control unit of the DP side embedded in the outside through a power source signal of a predetermined frequency (i.e., a voltage for operating and a signal for performing switching) An on-off keying signal of an analog wave form (for example, analog wave signal of the same type as Ascii code 4 bit) is transmitted from the remote control unit to the reception control unit through unidirectional communication, and the reception control unit performs the switching operation.

That is, the present invention provides a configuration in which a CP has a reverse power supply unit including a remote control unit and a power generation unit, DP includes a reception control unit and a DPU, and controls power transmission from a remote control unit to a reception control unit of the reverse power supply unit , When the user changes the network service subscription type (new application, change, revocation, etc.), the distribution controller connected to the same CO or xDSL channel as the telephone station located at the upper level of the DP through the operation control of the remote controller and the reception controller And one of them is selectively connected. For example, the remote control unit of the reverse power supply apparatus can easily change the network service provision mode by operating a switch provided in the reception control unit through a predetermined signal, and the power generation unit of the reverse power supply apparatus can operate the reception control unit So that the receiving control unit can operate using the reverse power transmission with the reverse power supply unit without a separate direct power connection.

Accordingly, the present invention is characterized in that, in an upper stage, between a DP connected with an OLT or a CO and a plurality of CPs, in performing reverse power transmission from the CP's reverse power supply to the DP, Or the communication service between the DP and the OLT can be automatically selected so that the operator does not have to enter the manhole in the ground or the ground for the simple service switching. Therefore, the working time can be greatly reduced, and the cost reduction effect. The operator's risk can be eliminated. In addition, the time required until the service can be opened can be greatly shortened.

The reverse power supply and switching control process to the DP side in the reverse power supply apparatus will be described in more detail with reference to FIG.

When the user changes the network service subscription type (new application, change, revocation, etc.), various equipment including PC, TV, telephone, and the like are connected to the CP's reverse power supply device.

And the remote control of the reverse power supply disconnects the connection between the reverse power supply and the various CPEs. That is, during the remote switching operation of the CO line, the connection to the in-house modem may not be established, and a command for controlling the switching of the communication service may be transmitted through the reception control section.

The reverse power supply then checks whether the CO voltage is present on a line (i.e. a telephone line) connected between the reception control of the DP and the remote control of the CP, or transmits a PD (Powered Device) detection signal to the line, And the DPU are not connected. That is, when there is no CO voltage on the line in the remote control unit of the CP, it is determined that the reception control unit of the DP is connected to the DPU, and the remote control unit of the CP determines whether the PD connected to the reception control unit of the DP exists If there is no response to the transmitted PD detection signal, it is determined that the DP reception control unit is connected to the CO.

Thereafter, the remote control unit of the reverse power supply apparatus sends an analog signal of a specific frequency not modulated to the DP so as to charge the power for driving the DP reception control unit. Subsequently, after a preset time, the AM (modulator) modulates the tone with the command sequence of the switch present on the DP side. That is, the reception control unit of the DP performs switchover based on the command sequence of the modulated switch through this step, so that the communication service requested by the user can be changed. At this time, the form in which power is transmitted from the remote control unit of the reverse power supply apparatus to the reception control unit of the DP may be a wave signal having a predetermined frequency. For example, a predetermined frequency of the power signal can be set in the form of a wave signal such as 138 kHz. The power signal is modulated in a predetermined form by a remote control unit of a reverse power supply unit if necessary, and the DP control unit receives the received power signal through a demodulator included in the reception control unit, .

After modulating the tone with the switch command sequence on the DP side, the remote control of the reverse power supply waits until it is confirmed that the voltage from the CO side has been removed from the line, and if it is confirmed that the CO voltage has been removed, To initiate a power-up sequence (this step is similar to PoE). If the off-hook is detected when performing the power-up sequence, it will stop the power-up sequence.

The remote control of the reverse power supply then disconnects the line to its internal circuitry and connects with the modem.

When the power-up sequence through the PSE is completed, the remote control of the reverse power supply transmits a predetermined voltage (for example, 58V) to the DP via the telephone line to start power-up at the DP side, Begin the sequence.

Finally, the remote control unit of the reverse power supply unit continuously monitors the off-hook event while the CO side is connected, and disconnects the power when the off-hook event is detected. This step is a requirement for safety.

On the other hand, in the operation of the DP reception control unit, the switch of the reception control unit in the initial state is in the pass mode (that is, the switch of the reception control unit in the initial state is connected to CO), and DP is disconnected from the telephone line .

Then, a predetermined frequency tone transmitted from the remote control unit of the CP is rectified, which is used to charge the local energy of the reception control unit, and power is supplied to the reception control unit. That is, the reception control section is brought into the alive state.

Subsequently, the AM signal provided from the remote control unit of the CP after a predetermined time is demodulated by the reception control unit and the error is checked. And the switch is switched to the CO disconnection state in accordance with the received command.

Finally, the reception control unit is switched to the disconnection state with the CO (i.e., switched to the DPU side), and then the reception control unit of the DP is kept connected to the telephone line without interfering with the xDSL signal transmission do.

At this time, the switch of the reception control unit is a non-spherical switch (or latching relay), and the state of the switch is not automatically changed to the pass-through mode even if there is a loss to the AC power of the remote control unit. That is, when the xDSL service is canceled, the remote controller of the CP transmits the frequency tone and the ascii code so that the switch of the DP reception control unit is connected to the CO (pass mode), and controls the switch of the reception control unit. In other words, when the service is released, the reception control unit performs connection to the CO line (DPU disconnection) based on the remote control of the remote control unit of the reverse power supply unit.

In this case, the remote control unit can transmit the switching command to the reception control unit to release the connection to the DPU and switch the connection to the CO line. It is also possible to perform such switching by one-touch control by placing a hardware switch in the reverse power supply device.

FIG. 2 is a schematic diagram of a configuration of a reverse power supply apparatus according to an embodiment of the present invention, and FIG. 3 is a detailed view illustrating a configuration of a reverse power supply apparatus on the subscriber side of FIG.

As shown in the figure, a subscriber network system to which the present invention is applied includes a subscriber (CP) 100, a distribution side (DP) 200, an OLT 300, and a CO 400. The CO 400 connected to the OLT 300 through the DPU 220 and the reception control unit 210 is located at an upper stage of the DP 200 and the CP 400 connected through the reception control unit 210 is connected to the CO (100). The reception control unit 210 is connected to the OLT 300 or the CO 400 and selectively controls the OLT 300 or the CO 400 through the DPU 220 according to the remote control of the reverse power supply unit 110 provided in the CP 100. [ Or may be connected to the CO 400.

The CP 100 includes a reverse power supply unit 110 for supplying a control signal for connection of reverse power and communication service to the reception control unit 210 of the DP 200, A modem 140 connected to a telephone or the like to perform voice and data conversion, and the like.

The reverse power supply unit 110 includes a power generation unit 120 that generates power to be supplied to the DP 200 and a remote control unit 130 that remotely controls the power generation unit and the reception control unit of the DP .

The power generation unit 120 performs a function of generating power required to supply the reverse power from the CP 100 to the DP 200 side.

The power generation unit 120 includes an AC input unit 121 to which AC power is applied, a power unit 122 that rectifies the AC power to convert the power to DC, and a power supply unit 122 that powers up the converted DC voltage from the power unit 122, And a PSE 123 for allowing injection on the line.

At this time, a CO voltage detecting unit 123a is provided in the PSE 123 to check whether a voltage from the CO 400 exists in the telephone line or to check whether or not the power line exists in the telephone line.

The remote control unit 130 includes a switch 131, a telephone line interface unit 132, a modulator 133 and a control unit 134. The remote control unit 130 includes a DP And performs remote control of the mobile terminal 200.

At this time, the remote control is performed through unidirectional communication to the DP 200. In the unidirectional communication, the remote controller 130 modulates a signal having a predetermined bit width with on / off keying and transmits the modulated signal.

The remote control unit 130 sends an analog signal of a specific frequency not modulated to the DP 200 side under the control of the control unit 134 to charge the power for driving the reception control unit 210 of the DP 200 So that the reception control unit 210 of the DP 200 side is controlled by the remote control.

The remote control unit 130 also receives the command sequence of the switch existing on the DP 200 side via the modulator 133 after the power for driving the reception control unit 210 on the DP 200 side is charged Modulates the AM AM tones and transmits them to the reception control unit 210 of the DP 200 side to control the switches provided at the remote side so that two or more different communication services can be selectively provided .

However, the present invention is not limited to this, and FM modulation (Frequency Modulation), ASK (Amplitude Shift Keying), FSK (Frequency Shift Keying), PSK (Phase Shift Keying), and the like can be applied.

The remote control unit 130 disconnects from the various premises equipment based on the control of the control unit 134 and connects the CO line to the CO line through the CO voltage detection unit 123a provided at the front of the PSE 123, And then transmits a tone of a specific frequency that has not been modulated to the DP 200 side based on the control of the control unit 134 to check whether there is a voltage from the DP 200 side The power for driving the reception control unit 210 is charged. That is, the reception control unit 210 of the DP 200 side is brought into an alive state.

Further, the remote control unit 130 waits for the voltage from the CO side to be removed from the telephone line and causes the PSE 123 of the power generation unit 120 to start the power-up sequence, and after completing the power-up sequence (For example, a voltage of 58 V) to the telephone line.

The remote control unit 130 switches the telephone line to be connected to the modem 140 connected to various equipments provided in the home and then applies a predetermined voltage to the telephone line so that the DP 200 side starts to power up, .

In addition, the remote control unit 130 may continuously monitor the off-hook event while the CO 300 is connected, and may further perform control to turn off the power when the off-hook event is detected.

The DP 200 is embedded in a ground outside the house or in a manhole, and includes a reception control unit 210, a DPU 220, and the like.

The reception control unit 210 is a component that controls according to a command from the remote control unit and is driven by power and signals supplied from the reverse power supply unit 110 on the CP 100 side.

The DP 100 is connected to the OLT 300 or the CO 400 at a higher level and the reverse power is supplied from the reverse power supply 110 of the CP 100 between the DP 100 and the CP 100, 200 and the OLT 300 or the communication service between the DP 200 and the CO 400 is automatically switched so that the user can change the network service subscription type.

Next, an embodiment of the reverse power supply method according to the present invention will be described in detail with reference to FIGS. 4 to 6. FIG. At this time, each step according to the method of the present invention may be changed in order by a person skilled in the art in the use environment or the field of the present invention.

FIG. 4 is a flowchart illustrating an operation of the reverse power supply method according to an exemplary embodiment of the present invention. FIG. 5 is a flowchart illustrating a process for disconnecting a CO line, FIG. 4 is a flow chart for explaining a process of a reverse power supply device to a power supply; FIG.

Referring to FIG. 4, a description will be made of a process of supplying reverse power to the reception control unit 210 of the DP 200 from the reverse power supply unit 110 of the CP 100. First, The reverse power supply device 110 of the CP 100 is driven (S10).

The remote control unit 130 of the reverse power supply unit 110 disconnects the connection between the reverse power supply unit 110 and the modem 140 of the CP at step S20. That is, the remote control unit 130 performs an operation of the switch 131 to perform one of the connection to the inside of the remote control unit 120 or the connection to the modem.

After releasing the connection between the reverse power supply unit 110 and the modem 140 through step S20, the remote control unit 130 controls the CO voltage detection unit 123a so that the CO voltage is applied to the reception control unit 210 of the DP 200 Or a PD detection signal is transmitted to the telephone line to confirm whether the reception control unit 210 of the DP 200 side and the DPU 220 are connected to each other (S30 ). That is, whether a connection between the reception controller 210 of the DP 200 and the DPU 220 is determined based on the presence or absence of a CO voltage present on the telephone line, or whether reception of the DP 200 is based on a response to the PD detection signal And determines the connection between the control unit 210 and the CO 400.

Thereafter, the remote control unit 130 transmits an analog signal of a specific frequency not modulated to the DP 200 to charge the power for driving the reception control unit 210 of the DP 200 (S40).

Then, the remote control unit 130 modulates the signal corresponding to the command sequence of the switch existing on the DP 200 side through the modulator 134 after a preset time (S50). That is, the remote control unit 130 modulates the control signal for the switch operation to the reception control unit 210 of the DP 200.

After performing the modulation of the control signal for the switch operation of the reception control unit 2210 on the DP 200 side through step S50, the remote control unit 130 waits until the voltage from the CO side is confirmed to be removed from the telephone line (Or may perform additional retries) (S60).

When it is confirmed that the CO voltage has been removed, the remote controller 130 disconnects the connection with the internal circuit through the telephone line interface unit 132 and performs connection to the modem 140 (S70).

Then, the remote control unit 130 controls the PSE 123 of the power generation unit 120 to start the power-up sequence (S80). Step S80 is similar to PoE and will stop performing a power-up sequence if off-hook is detected when performing a power-up sequence.

When the power-up sequence through the PSE 123 in step S80 is completed, the remote controller 130 transmits a predetermined voltage (for example, a voltage of 58 V) generated in accordance with the completion of the power-up sequence on the telephone line (S90).

Then, the remote control unit 130 starts power-up at the DP 200 side and starts a training sequence (S100).

Finally, the remote control unit 130 continuously monitors the off-hook event while the CO side is connected, and releases the connection state of the power source when the off-hook event is detected (S110). In this case, step S110 is a requirement for safety.

Although not shown, the operation of the reception controller 210 of the DP 200, which receives the reverse power based on the control of the remote controller 130 and performs switching switching, will be described below.

The switch provided in the reception control unit 210 in the initial state is in the pass mode and the DP 200 is disconnected from the telephone line.

When a predetermined frequency tone is transmitted from the remote control unit 130 of the CP 100, it is rectified to charge the local energy and power up the unit. That is, the reception control section 210 is brought into the alive state.

Then, after a predetermined time has elapsed, the AM signal provided from the remote control unit 130 of the CP 100 is demodulated and an error is checked. And switches the switch to the CO disconnected state based on the demodulated signal and then powers down the unit by removing a predetermined frequency tone.

Lastly, keep the connection to the telephone line line continuously without interfering with xDSL signal transmission.

At this time, the switch of the reception control unit 210 is a non-spherical switch (or latching relay), and even if there is a loss to the AC power of the remote control unit 130, the state of the switch is not automatically changed to the pass mode. That is, when the xDSL service is canceled, the remote control unit 130 of the CP 100 transmits the frequency tone and the ascii code so that the switch of the reception control unit 210 of the DP 200 is connected to the CO (pass mode) (210). In other words, when the service is released, the reception control unit 210 performs connection to the CO line (DPU disconnection) based on the remote control of the remote control unit of the reverse power supply unit.

5 is a flowchart illustrating a process for disconnection of a CO line performed by the remote control unit 130 of the CP 100. Referring to FIG.

The remote control unit 130 of the CP 100 provides a tone of high power for the energy control of the reception control unit 210 of the DP 200 side and provides a tone from the CO 400 to the DP 200, And provides a switching signal to trigger over.

At this time, the first task to be performed by the remote control unit 130 is to check whether a voltage exists on the CO line. If present, the switch to the CPE is released and the reverse power supply (RPF) start-up will start if the voltage is not present.

The remote control unit 130 releases the switch to the CPE when there is a voltage on the CO line at step S210 and allows the reception control unit 210 at the DP 200 side to allow energy harvesting, And transmits the AC signal for a predetermined time (for example, 6 seconds) so as to start the operation (S220).

Then, the remote controller 130 transmits a 4-byte command at intervals of 20 to 30 ms between each byte in order to prevent a buffer overrun to consume additional power and enter a low power mode for enabling power recovery (S230) . Of course, this does not limit the interval and the number of bytes, and may be modified and applied in some cases.

The remote control unit 130 may also be used for additional energy hubbing for a certain period of time (for example, 4 seconds) for extra charging that needs to be stored for switching the latching relay (non-spherical) And transmits the AC signal to the reception controller 210 (S240).

When the DP 200 / CO 400 switch of the reception control unit 210 is switched over via the remote control unit 130, the CPE relay is switched again (S250) by confirming that the CO voltage has been removed, , A normal reverse power supply procedure is performed.

6 is a flow chart for explaining the process of the reverse power supply device for DP power supply.

When power is supplied to the reverse power supply 110 of the CP 100, the operation sequence must be controlled to handle all possible start-up states.

In the startup state, the CO voltage is present and the CO line is connected (Case 1), the CO voltage is not present and the CO line is connected (Case 2), the CO voltage is not present and the DP line is connected (Case 3) . ≪ / RTI >

In Case 1, power is applied to the remote control unit 130 of the CP 100 (S301), and it is determined whether there is a CO voltage (S302). If there is a CO voltage, the remote control unit 130 disconnects the CO line (S303).

When the CO voltage is still detected (S304), the CO line connection is performed (S306) if the voltage is still present (S305). Next, the remote controller 130 enters the power recovery cycle (S307).

However, if it is determined in step S304 that there is no CO voltage, a MDSU (Metallic Detection Start Up) (a state check of a telephone line, i.e., a line check function (a telephone line open / short / (I.e., a function of checking whether the power injection is in any of the states)), and then performs step S308 of performing power injection start. If the PD is not detected or the wrong class is determined as a result of the determination in step S310, the CO line connection is performed and the reverse power supply procedure is restarted from the beginning (for example, For example, the number of restarts (e.g., 10 times) may be limited in order to prevent the process from repeating infinitely. If the PD is detected as a result of the determination in step S309 or the correct class (e.g., response to power supply for PD detection in step S308) is determined in step S310, a power feeding operation is performed And power is supplied to the DP (S311).

The scheduled route is for powering up the reverse power supply, detecting the CO voltage, disconnecting, verifying that the CO voltage has disappeared, initiating power injection, verifying the PD signature and class, and supplying the reverse power back to the DPU. If the PD detection is abnormal (S323) until the retry of the reverse power supply procedure of Fig. 6 is performed for a predetermined number of times (for example, 10 times (which may be changed depending on the usage environment)) The standby mode is set (S324).

Case 2, if the CO voltage does not exist in step S302, the MDSU (the state check of the telephone line, that is, the line check function (the telephone line is open / shorted / off hook / CO voltage (S312), and confirms the PD signature (S313). If it is determined in step S313 that the PD signature is not detected, the CO line disconnection is performed (S316). Thereafter, the MDSU power injection start power injection is started (S317), and it is determined whether the PD signature is confirmed (S318). If the PD signature is not detected, it is retried (S320), the CO line connection is performed (S321), and the error state is terminated (S322).

If it is determined that the PD class is OK (S319). If the PD class is not OK (S319), the CO line connection is performed (S321) (S322). If the PD class check result in step S319 is OK, the power feeding operation is performed and power is supplied to the DP (S315).

In the case 2, the predetermined sequence is for the power supply of the reverse power supply, detection of no CO voltage, start of power injection, detection of PD signature undetected, execution of CO line release confirmation, PD signature and class identification, and DP drive. If the PD detection is abnormal (S323) until the retry of the reverse power supply procedure of FIG. 6 is performed a predetermined number of times (for example, 10 times (which may change depending on the usage environment)) Mode (S324).

In case 3, if the CO voltage does not exist as a result of the determination in step S302, power injection is started (S312) and the PD signature is confirmed (S313). If it is determined in step S313 that the PD signature is detected, the PD class is confirmed (S314). If it is determined in step S314 that the PD class is OK, the power feeding operation is performed and power is supplied to the DP (S315). However, if it is determined in step S314 that the PD class is not OK, it is switched to an error state and power cycling is required.

If it is determined in step S313 that the PD signature is not detected, the CO line disconnection of step S316 is performed. In step S316 and subsequent steps S317, power injection is started, and it is determined in step S318 whether a PD signature is detected. If the PD signature is not detected, the process is retried in step S320, the CO line connection in step S321 is performed, and the process ends in step S322.

If the PD signature is detected as a result of the determination in step S318, the PD class is checked through step S319. If the result of the class check is not OK, the CO line connection in step S321 is performed and the error state of step S322 ends. If the result of class checking in step S319 is OK, power feeding operation is performed through step S315 and power is supplied to the DP.

In the case 3, the predetermined sequence is for the power supply of the reverse power supply, no detection of the CO voltage, start of power injection, PD signature and class identification, and DP drive. If the PD detection is abnormal (S323) until the retry of the reverse power supply procedure of Fig. 6 is performed for a predetermined number of times (for example, 10 times (which may be changed depending on the usage environment)) The standby mode is set (S324).

As described above, the present invention can significantly shorten the time required for opening, changing, and terminating the network service because the dispatcher is located every time a service change request is made on the subscriber side, and there is no need to enter the ground, , It is possible to prevent an operator from removing a risk factor and an accident.

In addition, it is possible to reduce the management cost including the labor cost caused by opening or changing the service.

It will be apparent to those skilled in the art that various modifications may be made to the invention without departing from the spirit and scope of the invention as defined in the following claims And changes may be made without departing from the spirit and scope of the invention.

100: Subscriber side 110: Reverse power supply
120: power generation unit 121: AC input unit
122: power supply unit 123: PSE
123a: CO voltage detection unit 130: remote control unit
131: switch 132: telephone line interface part
133: Modulator 134:
140: modem 200: distribution side
210: reception control unit 220: DPU
300: OLT 400: CO

Claims (16)

A power generating unit for generating power required for the reverse power supply at the subscriber side; And
And a remote control unit for performing remote control from the subscriber side to the distribution side to supply the generated power in the reverse direction,
Wherein the remote control is for remotely performing a reverse power supply through unidirectional communication from the remote controller to the distribution side. The method according to claim 1,
The remote control unit includes:
Further comprising causing an analog signal of a specific frequency not modulated to be transmitted to the distribution side to charge the electric power for driving the reception control section on the distribution side so that the reception control section on the distribution side is controlled by the remote control Reverse power supply. The method according to claim 1,
The remote control unit includes:
After the power for driving the reception control unit on the distribution side is charged, an AM modulation tone for the command sequence of the switch existing on the distribution side is transmitted to control the switch provided at the remote side so that two or more different communication services Wherein the control unit controls the power supply to be selectively provided. The method according to claim 1,
The one-
Wherein the remote controller modulates a signal having a predetermined bit width by on / off keying and transmits the modulated signal. The method according to claim 1,
The remote control unit includes:
The modulator and the control unit are connected to the CO side telephone line to check whether there is a voltage from the CO or a CO voltage on the telephone line or whether there is a power device in the telephone line, Tone to the distribution side so as to charge the power for driving the reception control unit on the distribution side. The method according to claim 1,
The remote control unit includes:
Waiting for the voltage from the CO side to be removed from the telephone line, causing the Power Sourcing Equipment (PSE) to start the power-up sequence, and then applying a predetermined voltage to the telephone line after completing the power-up sequence And the second power supply voltage. The method according to claim 1,
The remote control unit includes:
Further comprising: releasing the connection of the telephone line to the modulator after applying a predetermined voltage to the telephone line and connecting with a modem, and causing the distributor to start power-up and start the training sequence. . The method according to claim 1,
The remote control unit includes:
Continuing to monitor off-hook events while the CO side is connected, and disconnecting power when an off-hook event is detected. A power generation step of generating power required for reverse power supply at the subscriber side; And
And a remote control step of performing remote control from the subscriber side to the distribution side to supply the generated power in a reverse direction,
Wherein said remote control is to remotely perform reverse power supply through unidirectional communication from the remote control to the distribution side. The method of claim 9,
Wherein the remote control step comprises:
Further comprising causing an analog signal of a specific frequency not modulated to be transmitted to the distribution side to charge the electric power for driving the reception control section on the distribution side so that the reception control section on the distribution side is controlled by the remote control Lt; / RTI > The method of claim 9,
Wherein the remote control step comprises:
After the power for driving the reception control unit on the distribution side is charged, an AM modulation tone for the command sequence of the switch existing on the distribution side is transmitted to control the switch provided at the remote side so that two or more different communication services And selectively controlling the power supply to be provided. The method of claim 9,
The one-
And modulating a signal having a predetermined bit width with on / off keying in the remote control step, and transmitting the modulated signal. The method of claim 9,
Wherein the remote control step comprises:
The modulator and the control unit are connected to the CO side telephone line to check whether there is a voltage from the CO or a CO voltage on the telephone line or whether there is a power device in the telephone line, Tone to the distribution side so as to charge the power for driving the reception control unit on the distribution side. The method of claim 9,
Wherein the remote control step comprises:
Further comprising waiting for the voltage from the CO side to be removed from the telephone line to cause the PSE to start the power-up sequence and then applying a predetermined voltage to the telephone line after completing the power-up sequence Reverse power supply method. The method of claim 9,
Wherein the remote control step comprises:
Further comprising: releasing the connection of the telephone line to the modulator after applying a predetermined voltage to the telephone line and connecting with a modem, and causing the distributor to start power-up and start the training sequence . The method of claim 9,
Wherein the remote control step comprises:
Continuing to monitor off-hook events while the CO side is connected, and disconnecting power when an off-hook event is detected.

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