KR20090090759A - Apparatus and method for controlling cold start in network system - Google Patents

Abstract

An apparatus and a method for controlling cold start in a network system are provided to control cold start by using relay. If DC power of an AC/DC rectifier is inputted, an environment monitor(212) measures an internal temperature of a network system. The environment monitor compares the measured temperature with a threshold value. The environment monitor controls the first and second relays according to the comparison result. The first relay turns on the network system. If the first relay is turned on by the environment monitor, the second relay drives a heater for heating the inside of the network system. If the first relay is turned off by the environment monitor, the second relay stops driving of a heater for heating the inside of the network system.

Description

Cold start control device and method in a network system {APPARATUS AND METHOD FOR CONTROLLING COLD START IN NETWORK SYSTEM}

The present invention relates to a cold start control apparatus and method in a network system in a portable terminal, and more particularly, to a cold start apparatus and method for controlling the output of the rectifier.

The communication base station equipment, that is, the network system, is divided into an indoor type and an outdoor type according to its installation location. In the case of the outdoor type, there are differences according to the installation area conditions, but it is usually required to ensure the normal operation for -40 ℃ ~ 50 ℃.

Therefore, in order to operate the network system, the operating temperature of each part inside the system should be guaranteed to be -40 ° C. However, since most of the parts that guarantee only the minimum 0 ° C or more are separately provided with a heater or the like, After the temperature is heated to a temperature that satisfies the lowest temperature condition of each component, the system is turned on by turning on the operating power for the components.

As described above, after the components inside the system are heated up to the minimum temperature condition in the sub-zero condition, a series of processes that turn on the operation by supplying power to the system from the time when the temperature that satisfies the condition is cold It is called cold start.

1 is a block diagram for controlling a cold start in a network system according to the prior art.

Referring to FIG. 1, when the external commercial AC power is input from the AC power supply unit 100, the network system controls the input AC power by thermostats 112 and 114 in the system 110. . Here, the thermostat (112, 114) is a component used to maintain a constant temperature for a long time with a thermostat (or thermostat). The thermostat is an automatic switch placed in a heating device (e.g. electric stove, electric blanket) to open when the temperature rises and closes when the temperature decreases.The thermostat uses the degree of bimetal bending according to the temperature change. Open and close the switch.

For example, assuming that components inside the network system 110 guarantee only 0 ° C. or higher, the first thermostat 112 controls the AC / DC rectifier 102 input AC power and the second thermostat 114. When controlling the AC power input to the heater 116 of the inside of the network system 110, when the external commercial AC power input from the AC power supply unit 100 at a sub-zero temperature condition, the first thermostat 112 is OFF to turn off the input of the AC / DC rectifier 102 and the second thermostat 114 is turned on to supply power to the heater 116 to heat the inside of the network system 110. )do.

Then, when the temperature inside the system by the heater 116 is 0 ° C or more, the second thermostat 114 is off (off) and the first thermostat 112 is turned on to the AC / DC rectifier ( Input AC power at 102). The AC / DC rectifier 102 converts AC power to DC power for output to the network system, ie the network system is turned on.

However, since the thermostats 112 and 114 are mounted inside the network system 110 and the AC / DC rectifier 102 is separated from the network system 110, external power may pass through the network system. After that, if the temperature condition is satisfied, the network system exits from the network system and has a complicated wiring structure in which the network system is input again through the AC / DC rectifier 102. Therefore, the power supply wiring of the outdoor system is installed in a shielding state using a duct for waterproofing and safety, but there is a problem in that the installation cost increases in the above-described manner.

In addition, since the cold start characteristics of the entire system depend on the quality of the thermostat such as the thermostat, when there is an error in the part itself, the cold start of the system is impossible, and the AC / When an error driven by the DC rectifier occurs, damage may occur to network system components that operate by receiving the output of the AC / DC rectifier. In addition, since the thermostat such as the thermostat reacts only at a temperature set by the component manufacturer, it is inconvenient for the user to arbitrarily set the temperature.

 An object of the present invention is to provide a cold start control apparatus and method in a network system.

Another object of the present invention is to provide an apparatus and method for controlling a cold start using a relay.

It is still another object of the present invention to provide a cold start apparatus and method for controlling the output of a rectifier.

According to the first aspect of the present invention for achieving the above object, the apparatus for controlling the cold start in the network system, AC / outputting to the environmental monitor by converting the AC power to DC power when the external commercial AC power input When the DC rectifier and the DC power supply of the rectifier are input, the environmental monitor that measures the temperature inside the network system and compares it with a threshold value and controls two relays according to the comparison result, and is turned on by the control of the environmental monitor. A first relay for turning on the network system, and a heater for heating the inside of the network system when turned on by the control of the environmental monitor, and stopping driving of the heater when turned off. And a second relay.

According to a second aspect of the present invention for achieving the above object, a method for controlling a cold start in a network system, the process of measuring the temperature inside the network system and comparing it with a threshold value, and according to the comparison result It characterized in that it comprises a process of turning on (on) or off (off) two relays.

As described above, the present invention simplifies the power connection between the rectifier and the network system by controlling the DC power supply of the rectifier in the network system through environmental monitoring to turn on / off the power supply and the heater. It can reduce the installation cost and change the setting of environmental monitor according to the temperature condition requested by the user.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying 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.

Hereinafter, an apparatus and method for controlling a cold start of a network system by measuring a temperature through an environmental monitor and controlling a relay will be described.

2 is a block diagram for controlling a cold start in a network system according to an exemplary embodiment of the present invention.

Referring to FIG. 2, the system includes an AC power input unit 200, an AC / DC rectifier 202, and a network system 210. The network system 210 includes an environment monitor 212 and a first relay 214. ), A second relay 216, and a heater 218.

The AC power input unit 200 outputs external commercial AC power to the AC / DC rectifier 202 and the second relay 216.

The AC / DC rectifier 202 rectifies and converts the power input from the AC power input unit 200 into a DC power source and outputs the DC power to the first relay 214 and the environmental monitor 212.

The environmental monitor 212 is a temperature detection and control signal generation module to check the temperature inside the network system 210 so that the temperature inside the network system 210 is a safe operation condition of the internal components of the network system 210. When the temperature is lower than the temperature, the function of turning on the second relay 216 is controlled.

In addition, the environmental monitor 212 turns off the second relay 216 when the temperature inside the network system 210 is equal to or higher than a temperature of a safe operating condition of an internal component of the network system 210 and the first relay ( 214 controls the function of turning on.

The first relay 214 turns on the network system by outputting DC power input from the AC / DC rectifier 202 to the network system when the first relay 214 is turned on by the control of the environmental monitor 212. Turn on.

When the second relay 216 is turned on by the control of the environmental monitor 212, the second relay 216 outputs AC power input from the AC power input unit 200 to the heater 218 to heat the heater 218. To drive. In addition, when the second relay 216 is turned off under the control of the environmental monitor 212, the second relay 216 interrupts the AC power input of the AC power input unit 200 to stop driving of the heater.

The heater 218 is driven when the second relay 216 is turned on and stops driving when it is turned off.

3 is a flowchart illustrating a cold start control in a network system according to an exemplary embodiment of the present invention.

Referring to FIG. 3, in step 301, the network system measures the temperature inside the system through environmental monitoring, and proceeds to step 303 to check whether the temperature inside the system is above a threshold. Here, the threshold value is a temperature of a safe operation condition of the network system, and represents a temperature at which no damage occurs to components inside the system and may be set.

If the temperature in the network system is less than the threshold value, the network system turns on the second relay in step 309 and proceeds to step 311 to drive the heater in the network system. Thereafter, the network system returns to step 301 to perform the following steps again.

On the other hand, if the temperature inside the network system is greater than or equal to a threshold value, the network system turns on the first relay in step 305 and proceeds to step 307 to turn on the network system. The network system then terminates the algorithm according to the invention.

Meanwhile, in the detailed description of the present invention, specific embodiments have been described, but various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined not only by the scope of the following claims, but also by the equivalents of the claims.

1 is a block diagram for controlling a cold start in a network system according to the prior art;

2 is a block diagram for controlling a cold start in a network system according to an embodiment of the present invention; and

3 is a diagram illustrating a procedure for controlling a cold start in a network system according to an embodiment of the present invention.

Claims (10)

An apparatus for controlling cold start in a network system, For the AC / DC rectifier that converts the AC power to DC power and always outputs it to the environmental monitor when an external commercial AC power is input, when the DC power of the rectifier is input, the temperature inside the network system is measured and compared with a threshold value. Environmental monitoring to control two relays, A first relay for turning on the network system when the environmental monitor is turned on; And a second relay which drives a heater for heating the inside of the network system when turned on by the control of the environmental monitor and stops driving of the heater when turned off. The method of claim 1, An apparatus for controlling cold start in a network system, And a heater which is driven when the second relay is turned on and stops driving when turned off. The method of claim 1, The threshold is A device, characterized in that the temperature of the safe operating conditions of the network system, that is, the temperature without damage to the internal components of the system and can be set by the user. The environmental monitor, And control the function of turning off the second relay and turning on the first relay if the measured temperature is above a threshold. The environmental monitor, And control the function of turning off the first relay and turning on the second relay if the measured temperature is below a threshold. The method of claim 1, The environmental monitor, A device characterized in that it is driven at the DC power input regardless of temperature conditions. In a method for controlling cold start in a network system, Measuring the temperature inside the network system and comparing it with a threshold; And turning on or off two relays according to the comparison result. The method of claim 7, wherein The process of turning on or off the two relays according to the comparison result, If the measured temperature is greater than or equal to a threshold, turning on the first relay to turn on the network system. The method of claim 7, wherein The process of turning on or off the two relays according to the comparison result,  And driving the heater by turning on a second relay when the measured temperature is less than a threshold value. The method of claim 7, wherein The threshold is A device, characterized in that the temperature of the safe operating conditions of the network system, that is, the temperature without damage to the internal components of the system and can be set by the user.

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