KR20050012310A - Apparatus and method for suppling power by the automation through Ethernet - Google Patents

Abstract

PURPOSE: An automatic power supply device through Ethernet and a method thereof are provided to monitor an existing network terminal device and a line state by using a CPLD(Complex Programmable Logic Device), thereby automatically supplying power to a necessary terminal through Ethernet. CONSTITUTION: A PD sensor(320) decides whether a terminal device capable of operating with a power supply through Ethernet is connected, by sensing a line state, and decides whether to supply power to the connected terminal device. A power supply(330) supplies the power to the terminal device through an Ethernet line according to decided results of the PD sensor(320). A switch unit(340) is relayed to supply the power. A controller(310) receives output values from the PD sensor(320) and the power supplier(330), and controls the PD sensor(320), the power supplier(330), and the switch unit(340) according to the received output values.

Description

Apparatus and method for suppling power by the automation through Ethernet}

The present invention relates to an apparatus and method for automatically supplying power to an Ethernet access terminal, and in particular, to provide power supply via Ethernet to a terminal requiring automatic power supply by detecting an existing network termination device and line state using CPLD. The present invention relates to an automatic power supply through Ethernet and a method thereof.

Power over Ethernet (PoE) is a state-of-the-art technology that sends current to network equipment over existing Ethernet cables, reducing the burden of installing a separate power supply for each handset, raising expectations for significant cost savings.

By having an infrastructure that spans power and Ethernet networking, enterprises are expected to realize benefits such as cost savings, ease of movement, and minimizing network disruptions due to high power utilization.

1 is a block diagram of a conventional network interface (a) and a power supply device (b) via Ethernet.

As shown in (a) of FIG. 1, a conventional network interface includes a SWITCH / HUB 100, a PHY which is a device that performs a physical protocol of the network termination device 110, and a transformer for signal transmission and isolation between the line ends ( T1, T2), RJ45 which is a connector for physical connection, and Bob Smith circuit 120 connected to ground through a resistor (R) and a capacitor (C) to transmit and receive signals.

Meanwhile, as shown in (b) of FIG. 2, power supply through Ethernet is a PHY, a device that performs a protocol of the SWITCH / HUB 200, the network termination device 220, and a transformer for signal transmission and isolation between the line ends. (T3, T4) and RJ45, which is a connector for physical connection, and SWITCH / HUB has a power supply unit 210 to supply power to the network termination unit via Ethernet, and the terminal unit is required for the terminal unit. It is composed of a terminal power supply 230 for converting the power.

The signal transmission between the SWITCH / HUB and the DTE is converted into an analog signal by a PHY performing a physical layer protocol, and a signal is connected by a line through a transformer.

Power supply through Ethernet supplies power to terminal devices such as Ethernet phones, wireless APs, and web cameras, each of which consumes little current, from SWITCH / HUB to operate them.

When the SWITCH / HUB capable of supplying power and the network termination device having the existing network interface are connected and operated in the conventional technical configuration as described above, the resistance in the terminal device is caused by an overcurrent flow by the supply voltage supplied from the SWITCH / HUB. There is a problem that causes breakage.

In addition, when the power of the terminal device is to be supplied from SWITCH / HUB, a power supply line must be manually installed for each of the terminal devices, and thus there is a problem in time and economy and a lot of labor of the installer is required.

The present invention has been proposed to solve the above-described conventional problems, the automatic power supply via Ethernet for monitoring the existing network termination device and the line state and supplying power through the Ethernet to the terminal device needing automatic power supply automatically It is an object of the present invention to provide a supply apparatus and a method thereof.

1 is a configuration diagram of a power supply apparatus through a conventional network interface and Ethernet.

2 is a block diagram of an automatic power supply apparatus through the present inventors Ethernet.

3 is a block diagram of a PD detection unit that is a component of an automatic power supply apparatus through an Ethernet of the present invention.

4 is a configuration diagram of a power supply unit that is a component of an automatic power supply apparatus through an Ethernet of the present invention.

5 is a flow chart of a method of automatic power supply via the present inventors Ethernet.

The constituent means of the automatic power supply device through the Ethernet of the present invention proposed to solve the above technical problem,

A PD detector for detecting a line state and determining whether a terminal device capable of operating by power supply through Ethernet is connected, and determining whether to supply power to the connected terminal device;

A power supply unit supplying power to a terminal device through an Ethernet line according to a result determined by the PD detection unit;

A switch unit which is relayed for line detection at the PD detector and power supply at the power supply unit;

And a controller using a CPLD that receives the output values from the PD detector and the power supply and controls the PD detector, the power supply, and the switch according to their values.

On the other hand, the PD detection unit,

A reference voltage generator comprising a resistor for generating a reference voltage capable of distinguishing between an upper limit value and a lower limit current of the current flowing through the signal resistance of the terminal device;

A line current detector comprising a resistor for detecting a current flowing in the line and converting the current into a voltage;

A comparator unit configured to compare voltages of the reference voltage generator and the line current detector to output comparison information;

And a transistor for opening and closing both ends of the line by a control signal of a controller using a CPLD receiving the output value of the comparator.

The power supply unit,

A line current sensing unit comprising a transistor and a resistor for sensing a current flowing through the line by a power supply;

A reference voltage generator comprising a resistor for generating a reference voltage capable of distinguishing between an upper limit value and a lower limit current of a current flowing in a line of the terminal device;

And a comparator unit for comparing the voltages of the line current detector and the reference voltage generator to output comparison information.

The control unit using the CPLD,

When it is determined that the terminal device is connected by the value output from the comparator unit of the PD sensing unit, a control signal is sent to a transistor in the PD sensing unit to determine whether to supply power by measuring the capacitor capacity of the terminal unit. .

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an operation and a preferred embodiment of an automatic power supply apparatus via Ethernet of the present invention will be described with reference to the drawings.

2 is a configuration diagram of an automatic power supply apparatus through an Ethernet of the present invention, Figure 3 is a configuration diagram of a PD sensing unit that is a component of the automatic power supply apparatus through an Ethernet of the present invention, Figure 4 is an automatic power supply through an Ethernet of the present invention It is a block diagram of the power supply part which is a component part of an apparatus.

In order to select a terminal device to be automatically powered through Ethernet, the PD detector 320 detects a state of a line. The operation and embodiment thereof are as follows.

In order to check whether the terminal device is connected to the Ethernet line, a voltage (VCC) for detecting the terminal device is supplied to the line. At this time, the switch state of the switch unit 340 is the state shown in FIG. 2 (this state is defined as an " OFF " state hereinafter).

Meanwhile, in FIG. 2, diodes D1 and D2 are required to protect the reverse voltage, and thermistor PT1 is configured to protect the overcurrent.

A reference voltage 1 and a reference voltage 2 for setting an upper limit and a lower limit of a current flowing through a signal resistance (25 Kohm, not shown) of a terminal device having a structure capable of operating by being supplied with power through Ethernet are set.

The reference voltage setting as described above is made by the reference voltage generator 321, and the reference voltage 1 and the reference voltage 2 are determined by the resistance (resistance determined by the designer) in the reference voltage generator 321. These reference voltage values operate as input signals to the '+' terminals of respective comparators in the comparator section.

Meanwhile, the line current detector 322 detects a current flowing in the Ethernet line and converts the current into a voltage. That is, a voltage is formed in the resistance of the line current sensing unit by the current flowing through the resistance in the line current sensing unit.

The voltage generated by the current flowing through the resistor operates as an input signal of the '-' terminal of each comparator of the comparator 323.

Each comparator of the comparator unit 323 receives an output 1 and an output 2, respectively, by inputting the voltage in the reference voltage generator 321 and the voltage converted in the line current detector 322.

The comparator outputs "1" when the voltage at the '-' end of the comparator, which is the input terminal of the voltage converted by the line current sensing unit, is greater than the voltage at the + terminal, which is the input terminal of the reference voltages 1 and 2, and vice versa. If the converted voltage is smaller than the reference voltage, the output of the comparator is " 0 ".

Therefore, the output value of the comparator according to the input voltage of the comparator is as follows.

When the voltage ('-' terminal voltage) converted by the line current detector 322 is greater than both the reference voltage 1 and the reference voltage 2, the output 1 and the output 2 of the comparator both have a value of "1". The line connected to the terminal device may be shorted or the existing network termination device is connected.

When the voltage converted by the line current sensing unit (voltage at the '-' stage) is less than both the reference voltage 1 and the reference voltage 2, the output 1 and the output 2 of the comparator both have a value of "0". Connected lines can be considered open or network terminators not connected.

When the converted voltage (voltage at the '-' stage) of the line current sensing unit is smaller than the reference voltage 1 and larger than the reference voltage 2, the output 1 of the comparator has a "0", and the output 2 of the comparator has a "1". In this case, it can be seen that the terminal device is connected to the Ethernet line.

On the other hand, in theory, when the voltage (the voltage at the '-' stage) converted by the line current sensing unit 322 is greater than the reference voltage 1 and less than the reference voltage 2, the output 1 of the comparator has "1" and the output of the comparator 2 may have "0" but in practice this does not happen because reference voltage 1 is greater than reference voltage 2.

The values of output 1 and output 2 of each comparator of the comparator 323 as described above are transmitted to the control unit using CPLD.

The controller 310 using the CPLD determines that the line is in an open state when the output 1 is "0 (Low)" and the output 2 is "0 (Low)", and the output 1 is "1 (High)" and outputs the output. In the case of 2 degrees "1" (High), it is determined that the existing network termination device that the line is shorted or has a small resistance value (Bob Smith circuit) and continue to monitor the line status to detect the network termination device.

On the other hand, the control unit 310 using the CPLD is a terminal device having a structure that can operate with a power source via Ethernet when the output 1 of the comparator is "0 (Low)" and the output 2 is "1 (High)" It is determined that it is connected.

When the control unit 310 using the CPLD determines that the terminal device is connected as described above, the control signal 1 is sent to the transistor Q1 in the PD detection unit 320 to determine whether to supply power to the terminal device. Q1 is set to "ON" (short circuit) to discharge all the capacitors of the terminal device.

When the capacitors of the terminal device are all discharged, the control unit 310 using the CPLD sends a control signal to the transistor Q1 again to turn the transistor "OFF". Then, the capacitor of the terminal device is charged again.

The controller 310 using the CPLD turns the transistor Q1 "OFF", and then the output 1 of the comparator PD comparator 320 is "0 (Low)" and the output 2 is "1 (High)". The counter is counted by a counter (not shown) to calculate the time (delay time).

The controller 310 using the CPLD compares the calculated time (delay time) with a preset reference time, and when the calculated time is smaller than the reference time (when the capacitor capacity of the terminal device is smaller than the reference capacity), the switch 310 switches. Is turned on (in the direction of the arrow in the switch section in FIG. 2) to supply power to the terminal device, and when the calculated time is greater than the reference time (when the capacitor capacity of the terminal device is greater than the reserve capacity) Check that the output of the comparator outputs 1 and 2 are both "0 (Low)" without checking the supply (checking the opening of the line) and confirming that the terminal device is connected again. Then, the PD detector detects the line again.

According to IEEE802.3, the capacity of the capacitor to be supplied here is 100 nF or less and the capacity not to be supplied is 10 uF or more. Therefore, the reference capacitance may be regarded as 100 nF, which is a capacitor capacity that enables power supply, and the reference time may refer to a time during which 100 nF is charged.

The switch is relayed in the direction of the arrow of FIG. 2 by a control signal of the control unit 310 using the CPLD, and is “ON”. In this state, the control unit using the CPLD compares the power supply unit 330 while supplying power to the terminal device. Checking the output value from the base 333, it is determined whether to continue to supply power or whether to stop the power supply and detect the line of the terminal device again.

The reference voltage generator 332 of the power supply unit 330 sets a reference voltage 3 and a reference voltage 4 for distinguishing an upper limit value and a lower limit value of a current that may flow to a terminal device that currently supplies power.

The reference voltage generator 332 is composed of a resistor, and serves as an input signal to the '-' input terminals of the comparators of the comparator 333 of the power supply 330 by voltage distribution.

On the other hand, the line current detector 331 is composed of resistors and transistors (Q2, Q3) and detects the current flowing through the line by using this to generate a voltage applied to the resistance, the generated voltage is a comparator 333 Each acts as the input signal of the '+' stage of the comparator.

The voltage of the reference voltage generator 332 and the voltage generated by the line current detector 331 act as an input signal of each comparator of the comparator 333 to generate an output 3 and an output 4, respectively. Transfer to the controller 310.

When the output value of each comparator of the comparator 333 input from the control unit 310 using the CPLD is output 3 is "1 (High)" and output 4 is "0 (Low)", the normal terminal device It is connected and monitors the line status while supplying power.

On the other hand, when the output value of each comparator of the comparator 333 input from the control unit 310 using the CPLD is an output 3 irrespective of the value of the output 3, if the output 4 is "1 (High)", the controller state that the line state is an overcurrent state. In response to the determination, the power supply of the terminal device that has been supplied with power is stopped (the switch is turned off again by the control signal of the control unit using the CPLD).

Then, it is confirmed that the output values (output 1 and output 2) of each comparator of the comparator 323 of the PD detector 320 are both "0 (Low)" (confirm the line opening), and the terminal device is connected again. After confirming, the PD detector detects the line.

On the other hand, when the output values (output 3 and output 4) of the comparator of the comparator 333 of the power supply 330 are both "0 (Low)", it is determined that the terminal device is disconnected during the operation to detect the PD. The unit 320 prepares for detecting the terminal device.

As described above, the operation and embodiment of the automatic power supply device through the Ethernet as described above, the reference voltage distinguishing the upper and lower limits of the current flowing through the signal resistance of the terminal device and the voltage detected by detecting the current flowing in the Ethernet line comparator In comparison with, the rated power may be supplied to the terminal device according to the control of the control unit using the CPLD according to the output value of the comparator.

The following describes in detail the configuration means and the preferred embodiment of another automatic power supply method via the present invention Ethernet.

The constituent means of the automatic power supply method via Ethernet is

Detecting a state of a line by the PD detector to determine whether the terminal device has a structure capable of operating with power supplied through Ethernet;

As a result of the determination in step 1, if the terminal device is not structured to receive power through Ethernet, the terminal continues to detect the state of the line again, and if the structure is capable of supplying power through Ethernet, the terminal device detects the capacity of the capacitor. Step 2;

In step 2, if the capacity of the capacitor of the terminal device is detected, if the reference capacity is greater than or equal to the terminal device without supplying power, the terminal device is connected again. And a three step of supplying power to the terminal device.

On the other hand, the determination of the first step is characterized in that the control unit using the CPLD to determine the value output by comparing the voltage of the reference voltage generator of the PD detection unit and the voltage of the line current detection unit in the comparator unit,

In the step 2, the sensing of the capacitor capacity of the terminal device may include: shorting the transistors in the PD sensing unit until all of the capacitors of the terminal device discharge by the control signal of the controller using the CPLD; When the capacitors of the terminal device are all discharged, opening the transistor again by a control signal of a controller using a CPLD; The control unit using the CPLD is characterized in that it comprises a process of comparing the reference time and the delay time,

During the process of supplying power in step 3, if the value output from the comparator of the power supply unit is determined by the controller using the CPLD, and the current flowing through the terminal device is determined to be an overcurrent state, the power supply is stopped and the line is opened. After checking, it is characterized by detecting whether the terminal device is connected again.

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to FIG. 5, which shows a flow chart of a method for automatically supplying power over Ethernet.

In order to determine whether the terminal device can receive power through Ethernet, the PD detector detects the Ethernet line first.

In order to detect an Ethernet line, the switch is turned off and a low voltage (5V) is supplied to detect a terminal device to be supplied with power (S10).

When the low voltage is supplied to the Ethernet line, the PD detector outputs the reference voltage set by the reference voltage generator that distinguishes the upper and lower limits of the current flowing through the signal resistance of the terminal device. Detects and converts the converted voltage into the input voltages of the comparators of the comparator unit, and outputs the output 1 and the output 2 to the control unit using the CPLD.

The control unit using the CPLD determines whether to supply power to the terminal device according to the value output from the comparator unit of the PD sensing unit. When the output value of the comparator is output 1 is "0" and output 2 is "1", It determines that the device is connected to the Ethernet and controls the transistor of the PD detection unit to determine whether to supply power to the terminal device (S20).

On the other hand, the control unit using the CPLD indicates that the terminal device is not connected to the Ethernet (opened) or the line is shorted except that the output value of the comparator of the PD detection unit is output 1 is "0" and output 2 is "1". In operation S20, the terminal device determines whether the terminal device is connected to the Ethernet.

In order to determine whether to supply power to the terminal device determined to be connected to the Ethernet, the control unit using the CPLD sends a control signal to the transistor of the PD sensing unit while operating a counter to turn ON (short) so that the capacitor of the terminal device is turned on. All are discharged (S30).

When all the capacitors are discharged, the control unit using the CPLD sends a control signal to the transistor again to "OFF" to charge the capacitor of the terminal device, and after the OFF state, the output value of the comparator of the PD detection unit is set to '1'. The counter is counted by counting the counter until the time when 0 'and output 2 becomes' 1' (S30 to S60).

Then, the controller using the CPLD compares the reference time already set and the time (delay time) calculated by the counter, and receives a control signal from the controller using the CPLD when the calculated time (delay time) is smaller than the reference time. The switch is turned "ON" to supply power to the terminal device (S70).

When the calculated time (delay time) is greater than the reference time, the output value of the comparator of the PD detection unit confirms that both output 1 and output 2 are '0' (confirms the opening of the line) and then checks that the terminal device is connected again. Detect the terminal device.

Since the calculated time is less than the reference time, the switch is turned "ON" by the control of the control unit using the CPLD to determine whether the terminal device is in a normal state in which power may be continuously supplied from the power supply unit.

Line current sensing the current flowing through the Ethernet voltage and the reference voltage 3 and reference voltage set in the reference voltage generator of the power supply to distinguish between the upper and lower limits of the current that can flow to the terminal device as the switch is turned "ON". Using the output voltage of the sensing unit as an input signal, the comparator of the power supply unit outputs the output 3 and the output 4 to the control unit using the CPLD.

When output 3 and output 4 have a value of output 3 of '1' and output 4 of '0', a control unit using CPLD determines that a normal terminal device is connected and continuously supplies power to the line. If the values of the output 3 and the output 4, the output 4 is '1' irrespective of the output 3, the control unit using the CPLD determines that the line state is an overcurrent state and stops the power supply (using the CPLD). The switch is relayed by the control signal of the control unit and turned off.) The comparator value of the PD detection unit confirms that the output 1 and the output 2 are both "0" (check the opening of the line), and then the terminal device is connected again. It makes the line detect the PD detector (S80 ~ S90).

On the other hand, when the output values (output 3 and output 4) of the comparator of the comparator of the power supply are both "0 (Low)", it is determined that the terminal device is disconnected during operation, and thus the PD device detects the terminal device. Be prepared to detect.

The present invention, which is an automatic power supply apparatus and method through Ethernet having the above-described configuration means, functions, and embodiments, automatically supplies power to a terminal apparatus having a structure capable of operating by power supply via Ethernet in SWITCH / HUB. It is effective.

In addition, the reference voltage that distinguishes the upper and lower limits of the current flowing through the signal resistance of the terminal device and the current flowing through the Ethernet line are sensed, and the converted voltage is compared by the comparator and rated according to the control of the control unit using the CPLD according to the output value of the comparator. By supplying the power to the terminal device, it is possible to prevent the fire caused by burning of the parts of the Ethernet network termination device, to cope with international standardization of the automatic power supply device, and to realize the automatic power supply device at a low price.

Claims (8)

A PD detector for detecting a line state and determining whether a terminal device capable of operating by power supply through Ethernet is connected, and determining whether to supply power to the connected terminal device; A power supply unit supplying power to a terminal device through an Ethernet line according to a result determined by the PD detection unit; A switch unit which is relayed for line detection at the PD detector and power supply at the power supply unit; And a controller using a CPLD that receives the output values from the PD detector and the power supply and controls the PD detector, the power supply, and the switch according to their values. The method according to claim 1, wherein the PD detection unit, A reference voltage generator comprising a resistor for generating a reference voltage capable of distinguishing between an upper limit value and a lower limit current of the current flowing through the signal resistance of the terminal device; A line current detector comprising a resistor for detecting a current flowing in the line and converting the current into a voltage; A comparator unit configured to compare voltages of the reference voltage generator and the line current detector to output comparison information; And a transistor for opening and closing both ends of the line by a control signal of a control unit using a CPLD receiving the output value of the comparator unit. The method according to claim 1, wherein the power supply unit, A line current sensing unit comprising a transistor and a resistor for sensing a current flowing through the line by a power supply; A reference voltage generator comprising a resistor for generating a reference voltage capable of distinguishing between an upper limit value and a lower limit current of a current flowing in a line of the terminal device; Comparing unit for comparing the voltage of the line current detection unit and the reference voltage generator outputs the comparison information; Automatic power supply over Ethernet characterized in that it comprises a. The method of claim 1, wherein the control unit using the CPLD, When it is determined that the terminal device is connected by the value output from the comparator of the PD detector, a control signal is sent to a transistor in the PD detector to determine whether to supply power by measuring the capacitance of the capacitor of the terminal device. Automatic power supply over Ethernet. Detecting a state of a line by the PD detector to determine whether the terminal device has a structure capable of operating with power supplied through Ethernet; As a result of the determination in step 1, if the terminal device is not structured to receive power through Ethernet, the terminal continues to detect the state of the line again, and if the structure is supplied to power through Ethernet, the capacity of the capacitor of the terminal device is detected. Step 2; In step 2, if the capacity of the capacitor of the terminal device is detected, if the reference capacity is greater than or equal to the terminal device without supplying power, the terminal device is connected again. If 3, the step of supplying power to the terminal device; Automatic power supply method through the Ethernet comprising a. The method according to claim 5, The determination of the step 1 is the automatic power supply method through the Ethernet characterized in that the control unit using the CPLD to determine the value output by comparing the voltage of the reference voltage generator of the PD detection unit and the voltage of the line current detection unit in the comparator unit. . The method according to claim 5, In the step 2, the sensing of the capacitor capacity of the terminal device may include: shorting the transistors in the PD sensing unit until all of the capacitors of the terminal device discharge by the control signal of the controller using the CPLD; When the capacitors of the terminal device are all discharged, opening the transistor again by a control signal of a controller using a CPLD; The control method using the CPLD, the automatic power supply method through the Ethernet, characterized in that made including the process of comparing the delay time. The method according to claim 5, During the process of supplying power in step 3, if the value output from the comparator of the power supply unit is determined by the controller using the CPLD, and the current flowing through the terminal device is determined to be an overcurrent state, the power supply is stopped and the line is opened. Automatic power supply method through the Ethernet, characterized in that after detecting again whether the terminal device is connected.