KR19990070581A - Over discharge prevention device and method of power control system - Google Patents

Abstract

The present invention provides an output voltage sensing unit for dividing the operating power supplied from the battery by a predetermined integer multiple times and outputting it as a comparison voltage, a reference voltage sensing unit for outputting the operating power supplied from the battery as a reference voltage by depressing a predetermined voltage, and comparing voltage. And a comparison control unit for comparing the reference voltage and the reference voltage and outputting a switch control signal according to a warning result requiring display of the current battery capacity according to the comparison result or a request for releasing a power failure state of the operator, and switching operation by a switch control signal. A switch that opens or shorts the operating power supply path of the battery, and a common board that checks and displays the current battery capacity according to a warning signal, constitutes an over-discharge prevention device of the power control system to determine a predetermined constant of the operating power supplied from the battery. It divides by double and outputs by comparison voltage, and it supplies from battery Overvoltage of the power control system to cut off the operation power supply from the battery by controlling the switch by outputting the switch control signal according to the comparison result by comparing the comparison voltage with the reference voltage by reducing the operating power to a predetermined voltage. Prevention devices and methods have been implemented.

Description

Over discharge prevention device and method of power control system

The present invention relates to a power supply control system, and more particularly to an over-discharge prevention device for preventing over-discharge due to long discharge of the battery.

FLC-C is an optical subscriber transmission device, which is a step before installing an optical cable to each home, and places a curve in a place where a large number of optical subscribers exist, and transmits light to the exchange and each curve, Each subscriber is a device designed to transmit using two existing telephone lines. The claim value designed to transmit the signal output from the exchange is called the host digital terminal (hereinafter referred to as HDT), and the optical subscriber station device on each curve side is referred to as an optical network unit in this system. Network Unit (hereinafter referred to as ONU) The HDT simply transfers STM-4C to the ONU unit using ATM cells provided in existing network (DS1, DS1E) and asynchronous transfer (ATM) switching networks. In other words, the dual ONU is a station apparatus against the HDT, and inputs an ATM cell outputted from the HDT and outputs it to an existing subscriber network again or again. In other words, the ONU is typically composed of a power part and a transmission part, and the transmission part communicates with the power part and the HDT and subscriber side. And a power supply part, and the power supply part supplies a power required according to the operation of the transmission part.

FIG. 1 is a block diagram illustrating input of a part related to a power supply part and a power supply to each terminal panel among the above-described ONU configuration. First, a rectifier unit (hereinafter referred to as RECU) # 1 and # 2 (110 and 112) are supplied with an externally supplied AC power supply (shown as 220V in FIG. For example, it converts to -48V). At this time, the RECU # 1, # 2 (110, 112) is composed of two devices for the reliability of the device is configured to operate in another device even if one device fails. That is, it is redundant, and switches 138 and 140 have been added for the redundancy. The switches 138 and 140 operate in different states. For example, when operating power is supplied by the RECU # 1 110, the switch 138 is turned on and the switch 140 is turned off. The main switch 142 is a switch which operates by switching whether or not the RECU # 1 110 or the RECU # 2 112 is supplied with operating power. The main switch 142 switches the operating power supplied from the RECU # 1 110 or the RECU # 2 112. Supply or cut off the main body. The power control unit (hereinafter referred to as PCU) 114 is a part for controlling power input to the ONU. In addition, the system includes three disconnect switches PDU #A, PDU #B, and PDU #C, as shown in FIG. 1, in a power distribution unit (hereinafter referred to as PDU) 114. When the switch is opened, the telephone channel unit (FRU / Tel) 130 and the fluorescent lamp 132 do not operate. When the PDU #B is opened, the video channel unit (hereinafter referred to as VCU) board 134 is It is configured to not work. In addition, the battery 118 is discharged by the cutoff switch PDU #C during a power failure including when the two rectifiers RECU # 1 and # 2 (110 and 112) are not operated, and the discharged power is the cutoff switch PDU. The common panel 128, the telephone channel unit 130, and the fluorescent lamp 132 are configured to be driven by #A. However, as the power input to the VCU # 1 to # 8 134 is configured to be cut off by the switch 120 which is turned off in case of power failure, video transmission is cut off. Therefore, the two rectifiers RECU # 1, # 2 (110, 112) is configured to be used only in the telephone during the power outage, including the case that both do not operate. The conventional scheme is configured to supply power to the common unit 128, the telephone channel unit 130, and the fluorescent lamp 132 for eight hours in the battery 118 during a power failure.

However, in the conventional case, when the operating power is not applied through the normal path, power is supplied due to the discharge of the battery 118, but there is no particular limitation for 8 hours. Of course, the above is the same even if the device is not operating. In other words, as the battery 118 continues to discharge, the voltage drops and the telephone channel unit 130 is connected to the battery 118 by PDU #A and PDU #C even though the telephone channel unit 130 is not operated. As long as it remains, discharge continues. Therefore, if you want to solve the problem (A / S) after the power failure time has passed after 8 hours due to various reasons, the fluorescent lamp 132 does not operate normally due to the discharge of the battery 118. There is a possibility of difficulty in the S phase. In addition, if the discharge state of the battery 118 is left unattended, there is a possibility that the battery is over discharged. If the battery 118 is damaged by the over discharge and the external power is applied again, the battery 118 is charged. There is a possibility that an unrepairable state may also occur.

Accordingly, an object of the present invention for solving the above problems is to provide an over-discharge prevention device and method for blocking the over-discharge of the battery by using a voltage level falling with the start of the battery discharge.

Another object of the present invention is to provide an apparatus and method for preventing an overdischarge by blocking an output terminal of a battery when the battery continues to be discharged for a predetermined time.

Still another object of the present invention is to provide an apparatus and method for automatically discharging a battery by blocking a power supply by automatically operating a breaker switch if there is a possibility of over-discharge, and then manually discharging the battery later.

One aspect of the present invention for achieving the above object is an output voltage sensing unit for dividing the operating power supplied from the battery by a predetermined integer multiple times and outputs it as a comparison voltage, the operating power supplied from the battery to a predetermined voltage reduced to a reference voltage An output reference voltage detector and a comparison signal and the reference voltage, and output a switch control signal according to a comparison result or an operator's request to release the power failure according to a comparison result. Over-discharge of the power control system with a comparison control unit, a switch for switching by the switch control signal to open or short the operating power supply path of the battery, and a common panel for checking and displaying the current battery capacity by the warning signal. Implement prevention device.

Another aspect of the present invention for achieving the above object is to divide the operating power supplied from the battery by a predetermined integer multiple times and output as a comparison voltage, the operating power supplied from the battery is reduced to a predetermined voltage and output as a reference voltage to the comparison The over-discharge prevention method of the power control system which compares a voltage and the said reference voltage, outputs a switch control signal according to a comparison result, and controls a switch and cuts off operation power supply from the battery.

Another aspect of the present invention for achieving the above object is to divide the operating power supplied from the battery by a predetermined integer multiple times to output a comparison voltage, the operating power supplied from the battery is reduced to a predetermined voltage and output as a reference voltage The over-discharge prevention method of the power supply control system which compares a comparison voltage and the reference voltage, outputs a warning signal according to a comparison result, and checks and displays the current battery capacity by the warning signal.

1 is a view showing the configuration of an over-discharge prevention device of a conventional power supply control system.

2 is a block diagram illustrating an overdischarge prevention device of a power control system according to an exemplary embodiment of the present invention.

3 is a view showing a specific configuration of the over-discharge prevention device of the power supply control system according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used for the same components, even if displayed on different drawings. In describing the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

Normally, when the voltage drop is excessive and the voltage level output from the battery falls below a certain voltage level, battery operation is interrupted. When the voltage of the battery drops due to the continuous discharge, the battery does not recover even when the battery is subsequently supplied. Will reach a complete discharge (over-discharge) state. Therefore, as disclosed in the above object, in the present invention, the voltage output from the battery starts to drop from the time when the battery starts to be discharged. That is, in consideration of the characteristics of the battery in advance, the comparator reference voltage input unit sets a constant voltage as the reference voltage, and when the battery output voltage is discharged and reaches the predetermined voltage, the power line discharged from the battery to the channel half is automatically cut off. It prevents further discharge.

Hereinafter, the configuration of an over-discharge prevention device of a power supply control system according to an embodiment of the present invention with reference to the drawings shown in FIG.

The comparator 210 compares the level of the voltage provided from the battery 118 via the power line 212 with a reference voltage, and warns through the signal line 218 when the voltage provided from the battery 118 reaches the reference voltage level. Output the signal. When the voltage of the battery 118 drops to a lower voltage level than the reference voltage, a switch control signal for interrupting the discharge of the battery 118 is output to the signal line 216. The switch PDU # C has three inputs: one input (shown as a in the figure), one output (shown as b in the figure) and one control stage (shown as c in the figure). It has a terminal. The a is applied to the operating power supplied from the battery 118 via the power line 214, the b is connected to the ONU body portion 136 is applied to the switch from the comparator 210 via the signal line 216 to c The a and b are shorted or opened by the control signal. Although not shown in the drawing, the common panel 128 includes a control unit for controlling the overall operation of the ONU. According to the present invention, the control unit receives a warning signal from the comparator 210 via the signal line 218. Control is performed to display the remaining battery level indicating that the battery 118 has been discharged to a certain level. In this case, a display window for displaying the remaining battery level is also provided in the common panel 128, although not shown in the drawing like the controller. This is because when the voltage of the battery falls below a certain voltage, this state is directly input to the common board 128, and the input is input to the host digital terminal (HDT) so that the state of the ONU can be immediately checked in the HDT. Therefore, the operator can check the above-mentioned inputs from each ONU to identify the ONUs in the most urgent state among the ONUs, and use them to prioritize A / S.

Referring to the comparison unit 210 of the configuration of the over-discharge prevention device of the power supply control system according to an embodiment of the present invention in more detail as shown in Figure 3, it will be described with reference to FIG.

The output voltage detector 310 divides the operating power applied from the battery 118 by a predetermined integer multiple times through the power line 212 and outputs a comparison voltage. The reference voltage detector 312 may reduce the operating power applied from the battery 118 via the power line 212 to output a predetermined reference voltage. The comparison controller 314 outputs a warning signal to the ONU main body 136 via the signal line 218 or a switch control signal to the switch PDU # C via the signal line 216 according to the comparison result between the reference voltage and the reference voltage. do. On the other hand, when a power failure state request applied by an operator is applied, a switch control signal for shorting the switch PDU # C is output such that the dynamic power output from the battery 118 is supplied to the ONU main body 136 again. . It is implemented to prevent battery damage by manually returning the switch when the power failure is released.

Hereinafter, a detailed operation according to an exemplary embodiment of the present invention will be described with reference to the above-described configuration. First, the added function of the present invention is the fact that the comparison unit is placed at the front end of the battery according to the prior art. The description of the FLC-C technology simplifies the description of the conventional technology when describing the prior art, and thus, further description is avoided.

The operating power supplied from the battery 118 via the power line 212 is applied to the output voltage detector 310 and the reference voltage detector 312, and the output voltage detector 310 selects the applied operating power. The voltage is divided by an integer multiple and a specific voltage among the voltages divided by the integer multiple is output as a comparison voltage. In addition, the reference voltage detector 312 reduces the applied operating power to a predetermined value and outputs the reduced voltage as a reference voltage. The above operation will be described by applying an example as follows. The voltage supplied when the battery is fully charged is + 48V, the voltage supplied when the battery is over discharged is + 38V, and the output voltage detector 310 divides the applied operating power by 1/2 times to output the comparison voltage. Suppose In this case, the reference voltage detector 312 will be described in the case of outputting the applied operating power down to a predetermined voltage. The predetermined voltage down by the reference voltage detector 312 should be appropriately set by the operator. Looking at an appropriate value through the above assumption, if the supply voltage of the battery is + 38V corresponding to an over-discharge state, the voltage is supplied. Since the constant voltage must be cut off, the constant voltage is set to + 19V divided by half of + 38V. If the predetermined voltage is set to + 19V, the output voltage detecting unit 310 will output a + 19V comparison voltage at the moment when the operating power supplied from the battery 118 drops to + 38V, and the reference voltage detecting unit ( 312) It will also output a reference voltage of + 19V. As described above, the comparison control unit 314 generates a switch control signal to block a path for supplying operation power from the battery 118 to the ONU body unit 136 when the comparison voltage and the reference voltage coincide with each other. The PDU # C is opened by the switch control signal to block the supply path of the operating power as described above.

As in the above example, the output voltage detector 310 inputs the operating power provided from the battery 118 to the comparison control unit 314 by ½ times, and the reference voltage output unit 312 is the battery 118. The operating power output from the controller is turned down by a predetermined voltage to be a reference voltage and supplied to the comparison controller 314. The comparison control unit 314 compares the voltage input from the output voltage detection unit 310 with the voltage output from the reference voltage output unit 312 and outputs a warning signal to the ONU body unit 136 when a constant voltage is reached. On the other hand, when the potential of the output operation power supply of the battery 118 falls below and enters the dangerous potential, the PDU # C can be cut off immediately. In this case, the PDU # C may protect all of the batteries 118 by cutting off all power supplied from the batteries 118.

In this case, the power failure state is later released or, if necessary, immediately by using a manual method to block the discharge line is output from the battery input to the ONU main body 136.

Normally, if there is a power outage, it will start out regionally. In this case, several ONUs in the area would be outage at the same time. Fortunately, if the power failure is released in a short period of time, there will be no big problem, but if the power failure is not released for a long time, overdischarge may occur in the backup battery installed in the ONU, which may cause fatal damage to the battery. During long power outages, battery operating time may vary depending on the state of each ONU, and in some cases, an overall uncontrollable state of the battery may occur. In addition, if the user wants to A / S as the power outage passes for a certain time, the auxiliary fluorescent lamp for the A / S may not be properly operated, which may cause difficulties in the A / S later. Therefore, as described above, the present invention checks the state of the battery before the battery is discharged for a predetermined time and damages the battery. When the battery is over discharged, the battery backup line power line is automatically cut off to prevent further discharge. It is possible to prevent the damage is to provide an effect on the operation of the operator.

Claims (4)

An apparatus for preventing overdischarge of a battery in a power supply control system, An output voltage sensing unit for dividing the operating power supplied from the battery by a predetermined integer multiple times and outputting the comparison voltage as a comparison voltage; A reference voltage detector for outputting the operating power supplied from the battery as a reference voltage by depressing a predetermined voltage; A comparison control unit for comparing the comparison voltage with the reference voltage and outputting a switch control signal according to a warning result requesting display of the current battery capacity and a comparison result or a power failure state request of an operator according to a comparison result; A switch for switching by the switch control signal to open or short the operating power supply path of the battery; And a common board for checking and displaying a current battery capacity according to the warning signal. In the method of preventing over-discharge of the battery in the power control system, The operating power supplied from the battery is divided by a predetermined integer multiple times to be output as a comparison voltage, and the operating power supplied from the battery is reduced to a predetermined voltage and output as a reference voltage to compare the comparison voltage with the reference voltage according to a comparison result. And outputting a switch control signal to control the switch to cut off the operation power supply from the battery. The method of claim 2, wherein the comparison voltage is compared with the reference voltage, and a warning signal is output according to a comparison result to check and display a current battery capacity according to the warning signal. . 4. The method of claim 3, wherein a switch control signal is output in response to an operator's request to release the power failure state to resume operation of supply of operating power from the battery.