KR20040000635A - Apparatus and method for compensating voltage - Google Patents

Abstract

PURPOSE: An apparatus and a method for correcting a voltage are provided to correct the sustain discharge voltage in the detected temperature by detecting the plasma display panel(PDP) temperature and the sustain discharge voltage. CONSTITUTION: An apparatus for correcting a voltage includes a voltage detecting unit(303), a temperature detector(304-1), a controller(305) and a voltage correcting unit. The voltage detecting unit(303) detects the sustain discharge voltage of a plasma display panel(PDP). The temperature detector(304-1) detects the temperature of the PDP. The controller(305) controls the sustain discharge voltage according to the detection signal of the voltage detecting unit(303) and the temperature detector(304-1). And, the voltage correcting unit corrects the sustain discharge voltage by the control voltage outputted from the control block(305).

Description

Apparatus and method for compensating voltage}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a plasma display panel (PDP) operating device and method, and more particularly, to detect a PDP temperature and a sustain discharge voltage, correct a sustain discharge voltage, and to optimize an optimal display screen for a PDP environment. A voltage compensating apparatus and method for maintaining characteristics.

1 is a block diagram showing the configuration of a conventional voltage correction device, the rectifier 100 converts the AC input voltage to a DC voltage. The transformer 101 converts the input voltage by the pulse width to the load voltage. The PWM control unit 102 adjusts the width of the primary switching pulse according to the secondary load amount of the transformer 101. The error voltage feedback unit 103 transmits the secondary load error of the transformer 101 to the PWM control unit 102.

FIG. 2 is a detailed view of the error voltage feedback unit in FIG. 1. Conventionally, Vcc, the sustain discharge voltage of the PDP, is set to a specific voltage in the production process through the variable resistor VR1 and is always fixed at a constant voltage. In view of the principle of operation, by transmitting the reference error amount of IC1 to the PWM control unit 102 through IC2, the pulse width of the transformer 101 is adjusted according to the load amount to maintain the Vcc voltage constant. Since the division voltages of R1 and R2 + VR1, the input bias of IC1 set to the 2.5V reference value, always maintain the 2.5V reference voltage, increasing the resistance of VR1 lowers Vcc, and decreasing the resistance of VR1 increases Vcc. Vcc is adjusted by VR1.

Conventionally, in the PDP manufacturing process, by setting and fixing the load voltage using VR, it is not possible to automatically adjust the voltage suitable for the temperature change of the panel according to the use environment of the PDP. A problem occurs. In addition, if the sustain discharge voltage is 160Vdc at room temperature (25 ℃), 170Vdc at low temperature (0 ℃) and 150Vdc at high temperature (40 ℃), it is suitable for the temperature change of PDP according to the surrounding environment, but it is necessary to supply the sustain discharge voltage. to be.

The technical problem to be achieved by the present invention is to provide a voltage correction device for detecting the PDP temperature and the sustain discharge voltage to correct the sustain discharge voltage at the detected temperature.

Another technical problem to be achieved by the present invention is to provide a voltage correction method for compensating the sustain discharge voltage at the detected temperature by comparing the sustain discharge voltage with the reference value at the detected temperature.

1 is a block diagram showing the configuration of a conventional voltage correction device.

FIG. 2 is a detailed view of the error voltage feedback unit in FIG. 1.

3 is a block diagram showing the configuration of a voltage correction device according to the present invention.

4A is a voltage detector of FIG. 3, FIG. 4B is a temperature detector of FIG. 3, and FIG. 4C is a detailed view of the error voltage feedback unit of FIG. 3.

5 is a flowchart showing the operation of the voltage correction method according to the present invention.

According to an aspect of the present invention, there is provided a voltage correction apparatus, comprising: a voltage display unit detecting a sustain discharge voltage of the PDP; A temperature detector detecting a temperature of the PDP; A controller for outputting a control voltage for controlling the sustain discharge voltage based on the detection signals of the voltage detector and the temperature detector; And a voltage corrector configured to correct the sustain discharge voltage by the control voltage output from the controller.

In the present invention, the control unit outputs a control voltage for lowering the sustain discharge voltage when the sustain discharge voltage at the detected temperature is equal to or greater than the reference value, and increases the sustain discharge voltage when the sustain discharge voltage at the detected temperature is below the reference value. It characterized in that for outputting a control voltage.

According to another aspect of the present invention, there is provided a method for correcting a voltage, the method comprising: (a) detecting a sustain discharge voltage at a current temperature of the PDP; And (b) comparing the sustain discharge voltage at the detected temperature with a reference value to correct the sustain discharge voltage with the reference value.

In the present invention, the step (b) performs a correction to lower the sustain discharge voltage when the sustain discharge voltage is above the reference value at the detected temperature, and increases the sustain discharge voltage when the sustain discharge voltage is below the reference value at the detected temperature. It is characterized by performing a correction.

Hereinafter, with reference to the accompanying drawings will be described in detail the present invention.

Figure 3 is a block diagram showing the configuration of the voltage correction device according to the present invention, a rectifier 300 for converting the input AC voltage to a DC voltage, transformer 301 for converting the input voltage by a pulse width to convert to a load voltage The PWM control unit 302 controls the primary pulse width according to the secondary load amount of the transformer 301, the voltage detector 303 for detecting the secondary sustain discharge voltage of the transformer 301, and the temperature of the PDP. The PDP module 304 including the temperature detector 304-1, the controller 305 for outputting a control voltage for adjusting the sustain discharge voltage based on the detected voltage and the detected temperature, and the secondary side sustain discharge of the transformer 301. It consists of an error voltage feedback part 306 which adjusts the error of a voltage by a control signal, and outputs it to the PWM control part 302.

4A is a voltage detector of FIG. 3, FIG. 4B is a temperature detector of FIG. 3, and FIG. 4C is a detailed view of the error voltage feedback unit of FIG. 3.

5 is a flowchart illustrating the operation of the voltage correction method according to the present invention. Determining whether the value is smaller than the reference value (501), increasing the PWM control signal (502), determining whether the control voltage (Vs control) is larger than the reference value (503), decreasing the PWM control signal ( 504, a step 505 of determining whether the control voltage (Vs control) coincides with the reference value.

Next, the present invention will be described in detail with reference to Figs.

The present invention is to automatically adjust the sustain discharge voltage suitable for the panel to the PDP set and the P according to the ambient temperature change, the time to reach the stable discharge characteristics of the PDP set by sufficiently applying the sustain discharge voltage at the initial power-on Quick start function to shorten the time, the low temperature low discharge characteristics of the PDP set installed in public places in the winter outdoor, the overdischarge caused by the set temperature rise in sufficient Aging state of the PDP set.

3 and 4, the rectifier 300 converts an AC input voltage into a DC voltage.

The transformer 301 converts the input voltage by the pulse width to the load voltage.

The PWM controller 302 adjusts the width of the primary switching pulse in accordance with the secondary load amount of the transformer 101. The sustain discharge voltage Vsustain, which is the secondary output voltage of the transformer 301, is converted according to the pulse width output from the PWM control unit 302.

The voltage detector 303 detects the sustain discharge voltage output from the transformer 301. A detailed view of the voltage detector 303 is shown in FIG. 4A. The detection voltage is expressed by Equation 1 by dividing the sustain discharge voltage Vsustain output from the transformer 301 by R2 and R1.

[Equation 1]

The temperature detector 304-1 detects a current temperature of the PDP module 304. 4B shows a detailed view of the temperature detector 304-1. Temperature detection is measured at RT1 (thermistor). When temperature rises, resistance value of RT1 decreases, and when temperature decreases, resistance value of RT1 increases. The detection temperature is expressed by Equation 2 by dividing the supply voltage Vdd by RT1 and R1.

[Equation 2]

According to the characteristics of the thermistor, the temperature of the PDP can be detected by converting it into a resistance table with respect to temperature.

The controller 305 outputs a control voltage Vs control for adjusting the sustain discharge voltage based on the voltage detected by the voltage detector 303 and the temperature detected by the temperature detector 304-1. If the sustain discharge voltage is 160 Vdc at room temperature (25 ° C.), 170 Vdc at low temperature (0 ° C.), and 150 Vdc at high temperature (40 ° C.), the controller 305 determines the optimum sustain discharge voltage at the current temperature with the detected temperature and voltage. The control voltage for adjusting the voltage is output to the error voltage feedback unit 306.

The error voltage feedback unit 306 adjusts the secondary sustain discharge voltage of the transformer 301 by the control voltage Vs control output from the control unit 305 and outputs it to the PWM control unit 302. A detailed view of the error voltage feedback unit 306 is shown in FIG. 4C. In view of the principle of operation, by transmitting the reference error amount of IC1 to the PWM control unit 302 through IC2, the pulse width of the transformer 301 is adjusted according to the load amount to adjust the sustain discharge voltage. Since the divided voltages of the input biases R1 and R3 of the IC1 set to the reference value of 2.5V always maintain the 2.5V reference voltage, when the control voltage (Vs control) input from the controller 305 is increased, the output voltage is output to the PWM controller 302. The sustain discharge voltage Vsustain falls, and when the control voltage Vs control input to the error voltage feedback unit 306 falls, the sustain discharge voltage Vsustain output to the PWM controller 302 increases.

Therefore, if the panel discharge voltage of the PDP set is optimal at 160Vdc at room temperature (25 ℃), 170Vdc at low temperature (0 ℃) and 150Vdc at high temperature (40 ℃), the temperature characteristics of the panel suitable for the temperature change of the set according to the surrounding environment An optimum display screen is provided by supplying a sustain discharge voltage suitable for the.

A voltage correction method according to the present invention will be described with reference to FIG. 5. As a flowchart, a temperature and sustain discharge voltage of a PDP set are detected (step 500). The sustain discharge voltage can be detected by dividing the sustain discharge voltage Vsustain output from the transformer 301 by R2 and R1 as shown in FIG. 4A. The temperature of the PDP set is measured at RT1 (thermistor) as shown in FIG. 4B and can be detected by dividing the supply voltage Vdd by RT1, R1.

The control voltage Vs control for adjusting the sustain discharge voltage at the detected temperature is obtained, and it is determined whether the control voltage Vs control is smaller than the reference value by comparing the control voltage Vs control with the reference value (step 501). . The reference sustain discharge voltage value according to temperature is stored in a memory (not shown) inside the controller 305. For example, an optimal state, that is, a sustain discharge voltage of 160 Vdc at room temperature (25 ° C.), 170 Vdc at low temperature (0 ° C.) and 150 Vdc at high temperature (40 ° C.) is stored in a memory inside the controller 305. Therefore, the control voltage Vs control for adjusting the sustain discharge voltage at the current temperature is compared with the reference value stored in the controller 305.

When the control voltage Vs control is smaller than the reference value, the PWM control signal is increased (step 502). When the control voltage Vs control is smaller than the reference value, the current sustain discharge voltage is higher than the sustain discharge voltage in an optimum state, and the PWM control signal is increased to lower the sustain discharge voltage. When the PWM control signal is increased, the transformer 301 further lowers and outputs the sustain discharge voltage by the increased PWM control signal.

If the control voltage Vs control is greater than the reference value, the PWM control signal is increased (step 503.504). When the control voltage Vs control is larger than the reference value, the current sustain discharge voltage is lower than the sustain discharge voltage in the optimum state, and the PWM control signal is decreased to increase the sustain discharge voltage. When the PWM control signal is decreased, the transformer 301 further increases and outputs the sustain discharge voltage by the reduced PWM control signal.

If the control voltage Vs control matches the reference value, the control voltage Vs control matches the reference value, and the control voltage is determined to be the optimal state. If not, the process returns to step 501 (step 505).

The present invention is not limited to the above-described embodiments and can be modified by those skilled in the art within the spirit of the invention.

As described above, according to the present invention, the PDP temperature and the sustain discharge voltage are detected to correct the sustain discharge voltage, thereby supplying a sustain discharge voltage suitable for the temperature change of the PDP according to the surrounding environment, thereby creating an effect of providing an optimal display screen. do.

Claims (4)

In a plasma display panel (PDP) display device, A voltage detector detecting a sustain discharge voltage of the PDP; A temperature detector detecting a temperature of the PDP; A controller for outputting a control voltage for controlling the sustain discharge voltage based on the detection signals of the voltage detector and the temperature detector; And And a voltage corrector configured to correct the sustain discharge voltage by the control voltage output from the controller. The method of claim 1, wherein the control unit Outputting a control voltage for lowering the sustain discharge voltage when the sustain discharge voltage at the detected temperature is equal to or higher than the reference value; and outputting a control voltage for raising the sustain discharge voltage when the sustain discharge voltage at the detected temperature is below the reference value. Characterized in that the voltage correction device. In the plasma display panel (PDP) display method, (a) detecting a sustain discharge voltage at a current temperature of the PDP; And (b) comparing the sustain discharge voltage at the detected temperature with a reference value and correcting the sustain discharge voltage with a reference value. The method of claim 3, wherein step (b) Performing a correction to bring down the sustain discharge voltage if the sustain discharge voltage is equal to or higher than the reference value at the detected temperature, and perform correction to raise the sustain discharge voltage if the sustain discharge voltage is lower than or equal to the reference value at the detected temperature. .