JPWO2012137298A1 - Power control apparatus and power control method - Google Patents

Abstract

An object of the present invention is to supply power to a light source while avoiding shortage of power of an AC power source. A projector uses an LED light source that emits light and power of an AC voltage supplied from a commercial AC power source. A power supply unit that supplies power to the LED light source, a detection unit that detects an AC voltage supplied from a commercial AC power source, and the power supply unit that controls the power supply unit according to the AC voltage detected by the detection unit. And a controller that increases or decreases the power supplied to the light source.

Description

  The present invention relates to a power control device and a power control method, and more particularly to a power control device and a power control method for supplying power to a light source.

  Patent Document 1 describes a projector that supplies power to a light source. The projector described in Patent Document 1 includes a human sensor that detects the presence or absence of a visitor such as an exhibition hall, and a light source. The luminance of the light source decreases as the power supplied to the light source decreases.

  In the projector described in Patent Document 1, when the human sensor does not detect the presence of a visitor, the luminance of the light source is lowered than when the human sensor detects the visitor. Therefore, the power consumption of the light source when there is no person who appreciates the projector image is reduced.

JP 2010-197440 A

  In exhibition halls and the like, there is a possibility that equipment is connected to a commercial AC power supply for which the power of the AC power supply is not sufficiently secured. In such a situation, when the projector described in Patent Document 1 is used, when the human sensor provided in the projector detects a visitor, power is supplied to the light source and the power of the commercial AC power supply is insufficient. In some cases, all devices connected to the commercial AC power supply may not work.

  An object of the present invention is to provide a power control apparatus and a power control method capable of supplying power to a light source while avoiding a shortage of power of an AC power supply.

  The power control apparatus of the present invention includes a light source that emits light, a supply unit that supplies power of an AC voltage supplied from an AC power source to the light source, a detection unit that detects the AC voltage, and the detection unit detects Control means for controlling the supply means in accordance with the AC voltage, and increasing or decreasing the power supplied from the supply means to the light source.

  The power control method of the present invention is a power control method of a power control device having a light source that emits light, supplying power of an AC voltage supplied from an AC power source to the light source, detecting the AC voltage, The power supplied to the light source is increased or decreased according to the detected AC voltage.

  ADVANTAGE OF THE INVENTION According to this invention, it becomes possible to supply electric power to a light source, avoiding that the electric power of AC power supply is insufficient.

It is a block diagram which shows the projector in embodiment of this invention. It is a figure which shows the waveform of the alternating voltage supplied from commercial alternating current power supply. It is a figure which shows the example in which the amplitude of an alternating voltage becomes small by the power shortage of a commercial alternating current power supply. It is a figure which shows the example which the waveform of an alternating voltage is distorted by the power shortage of a commercial alternating current power supply. It is a flowchart which shows the power control method of a projector.

  Hereinafter, an embodiment of the present invention will be described with reference to the drawings.

  FIG. 1 is a block diagram illustrating a configuration example of a projector according to the present embodiment.

  The projector 10 is a power control device that supplies power to a light source. The projector 10 is connected to a commercial AC power supply 9 that supplies an alternating current (AC) voltage.

  The projector 10 includes a display unit 1, a power supply unit 2, a detection unit 3, and a control unit 4. The display unit 1 includes LED light sources 11 to 13 and a liquid crystal panel 14. The detection unit 3 includes a transformer 31 and a power supply monitoring unit 32. The control unit 4 includes a CPU (Central Processing Unit) 41, a memory 42, a distance sensor 43, and a warning LED (Light Emitting Diode) 44. The CPU 41 includes an A / D (Analog / Digital) conversion unit 411, a width measurement unit 412, and a power control unit 413.

  The power supply unit 2 can be generally referred to as supply means.

  The power supply unit 2 supplies the power of the AC voltage supplied from the commercial AC power supply 9 to the LED light sources 11 to 13 according to the control of the CPU 41. The electric power supply part 2 raises the electric power supplied to the LED light sources 11-13 in steps. Further, the power supply unit 2 gradually reduces the power supplied to the LED light sources 11 to 13.

  Each of the LED light sources 11 to 13 emits light when receiving power from the power supply unit 2. Each of the LED light sources 11 to 13 is a light source whose light amount can be set to any value within a range from 0% (percent) to 100%. The LED light sources 11 to 13 increase in light amount as the power supplied from the power supply unit 2 increases. The LED light sources 11 to 13 emit red (R: Red), green (G: Green), and blue (B: Blue) color lights to the liquid crystal panel 14, respectively.

  Liquid crystal panel 14 can generally be referred to as projection means.

  When the liquid crystal panel 14 receives video signals (image signals) of red, green, and blue colors, the liquid crystal panel 14 modulates the color light emitted from the LED light sources 11 to 13 for each color according to the video signal, and the modulated color light Is projected as an image. For example, the liquid crystal panel 14 modulates the color light emitted from the LED light sources 11 to 13 as a light modulation element according to the video signal, and a synthesis prism (not shown) synthesizes the color light modulated by the liquid crystal panel 14 and is not shown. The projection lens projects the combined light combined by the combining prism onto the screen as an image.

  Detection unit 3 can be generally referred to as detection means.

  The detection unit 3 detects the AC voltage supplied from the commercial AC power supply 9.

  FIG. 2 a shows a waveform of an AC voltage supplied from the commercial AC power supply 9 in a state where there is a margin in the amount of power supply. FIG. 2b shows an example in which the amplitude of the AC voltage is reduced due to insufficient power of the commercial AC power supply 9. FIG. 2 c shows an example in which the waveform of the AC voltage is distorted due to insufficient power of the commercial AC power supply 9. In FIGS. 2a to 2c, the vertical axis represents voltage, and the horizontal axis represents elapsed time.

  As shown in FIG. 2b, the amplitude y of the AC voltage supplied from the commercial AC power supply 9 in a severe power supply state tends to be smaller than the amplitude x shown in FIG. For this reason, the detection unit 3 detects the amplitude of the AC voltage supplied from the commercial AC power supply 9.

  Further, as shown in FIG. 2c, the waveform of the AC voltage supplied from the commercial AC power supply 9 in a severe power supply state is easily distorted. Therefore, the width b of the AC voltage supplied from the commercial AC power supply 9, that is, the excess period exceeding the predetermined level threshold is likely to be smaller than the width a of the AC voltage shown in FIG. For this reason, the detection part 3 detects the width | variety (distortion) of the alternating voltage supplied from the commercial alternating current power supply 9, ie, an excess period.

  The transformer 31 steps down the AC voltage supplied from the commercial AC power supply 9 and outputs the stepped-down AC voltage to the power supply unit 2 and the power supply monitoring unit 32.

  The power monitoring unit 32 detects the AC voltage output from the transformer 31. The power supply monitoring unit 32 detects the amplitude of the AC voltage and supplies an analog signal whose signal level changes according to the amplitude to the A / D conversion unit 411 as an amplitude signal. The power monitoring unit 32 outputs an amplitude signal having a larger signal level (amplitude) as the amplitude of the AC voltage is larger.

  In addition, the power supply monitoring unit 32 outputs a detection signal of H (High) level to the width measuring unit 412 only during an excess period in which the AC voltage output from the transformer 31 exceeds a predetermined level threshold, and in a period outside the excess period. An L (Low) level detection signal is output.

  The control unit 4 controls the power supply unit 2 according to the AC voltage detected by the detection unit 3 in a situation where the power supply unit 2 supplies power to the LED light sources 11 to 13, and the LED is supplied from the power supply unit 2 to the LED. The power supplied to the light sources 11 to 13 is adjusted.

  In the present embodiment, the control unit 4 is configured when the amplitude of the AC voltage detected by the detection unit 3 is smaller than a predetermined amplitude threshold when the power supply unit 2 supplies power to the LED light sources 11 to 13. Decreases the power supplied to the LED light sources 11-13. On the other hand, when the amplitude of the AC voltage exceeds a predetermined amplitude threshold, the control unit 4 increases the power supplied to the LED light sources 11 to 13.

  Moreover, the control part 4 measures the excess period when the alternating voltage detected by the detection part 3 exceeds a predetermined level threshold value in the situation in which the power supply part 2 supplies power to the LED light sources 11 to 13. And the control part 4 reduces the electric power currently supplied to LED light sources 11-13, when the excess period is shorter than a predetermined period threshold value, and when the excess period exceeds a predetermined period threshold value, LED light source 11 Increase the power supplied to ~ 13.

  CPU 41 can generally be referred to as adjustment means.

  The CPU 41 outputs a control signal for increasing or decreasing the power supplied to the LED light sources 11 to 13 to the power supply unit 2 using the signal output from the power supply monitoring unit 32.

  When the A / D conversion unit 411 receives the amplitude signal from the power supply monitoring unit 32, the A / D conversion unit 411 converts the amplitude signal into digital data. The A / D conversion unit 411 supplies digital data indicating a larger amplitude value to the power control unit 413 as amplitude information as the amplitude of the amplitude signal is larger.

  The width measuring unit 412 is a timer that measures the width of the AC voltage in order to detect distortion of the AC voltage output from the transformer 31. When the width measurement unit 412 receives a detection signal from the power supply monitoring unit 32, the width measurement unit 412 measures a period during which the detection signal is at the H level within the AC cycle of the AC voltage. That is, the width measuring unit 412 measures an excess period in which the AC voltage exceeds a predetermined level threshold as the AC voltage width. The width measurement unit 412 supplies width information indicating the measured excess period to the power control unit 413.

  The memory 42 is a work memory that holds a predetermined amplitude threshold and a predetermined period threshold for detecting power shortage of the commercial AC power supply 9. In the present embodiment, a value obtained by subtracting a predetermined margin value from the amplitude value indicated by the amplitude information before the power supply unit 2 supplies power to the LED light sources 11 to 13 is used as the predetermined amplitude threshold. Further, as the predetermined period threshold value, a value obtained by subtracting a specific margin value from the excess period measured before the power supply unit 2 supplies power to the LED light sources 11 to 13 is used.

  The distance sensor 43 is used to measure the size of the room where the projector 10 is installed. For example, the projector 10 is provided with a plurality of distance sensors 43 for specifying the size of the room. The distance sensor 43 measures the distance from the projector 10 to the wall of the room where the projector 10 is installed. The distance sensor 43 supplies distance information indicating the measured distance to the power control unit 413.

Power control unit 413 can generally be referred to as power control means.
The power control unit 413 controls the power supply unit 2 to control the LED when the amplitude of the AC voltage detected by the detection unit 3 is smaller than a predetermined amplitude threshold or when the excess period is shorter than the predetermined period threshold. The supply of power to the light sources 11 to 13 is stopped, and the warning LED 44 is turned on.

  In the present embodiment, the power control unit 413 receives amplitude information from the A / D conversion unit 411, width information from the width measurement unit 412, and distance information from the distance sensor 43.

  When power control unit 413 receives distance information from distance sensor 43, power control unit 413 varies the amount of power that is increased in stages (hereinafter referred to as “increase step width”) according to the distance indicated by the distance information. In the present embodiment, the power control unit 413 increases the increase step width as the distance indicated by the distance information increases.

  When the power control unit 413 receives amplitude information while the power supply unit 2 is supplying power to the LED light sources 11 to 13, does the amplitude value indicated by the amplitude information exceed a predetermined amplitude threshold value in the memory 42? Judge whether or not.

  Then, when the amplitude value indicated by the amplitude information exceeds a predetermined amplitude threshold, the power control unit 413 outputs an amplified signal indicating the increase step width determined according to the distance information to the power supply unit 2. When the amplified signal is received from the power control unit 413, the power supply unit 2 increases the power supplied to the LED light sources 11 to 13 by the increased step width indicated by the amplified signal.

  On the other hand, when the amplitude value indicated by the amplitude information is equal to or smaller than the predetermined amplitude threshold value, the power control unit 413 outputs a decrease signal indicating a decrease step width to the power supply unit 2 as the amount of power that decreases the power stepwise. . When receiving the decrease signal from the power control unit 413, the power supply unit 2 reduces the power supplied to the LED light sources 11 to 13 by the decrease step width indicated by the decrease signal.

  Further, when the power control unit 413 receives width information from the width measurement unit 412 in a state where the power supply unit 2 supplies power to the LED light sources 11 to 13, the excess period indicated by the width information is in the memory 42. It is determined whether or not a predetermined period threshold is exceeded.

  The power control unit 413 supplies the amplified signal to the power supply unit 2 when the excess period indicated by the width information exceeds a predetermined period threshold, and when the excess period indicated by the width information is equal to or less than the predetermined period threshold. Supplies a decrease signal to the power supply unit 2.

  In the present embodiment, when the power supply unit 2 supplies power, the power control unit 413 determines that the amplitude value indicated by the amplitude information is equal to or less than a predetermined amplitude threshold value, or the excess period indicated by the width information is predetermined. The decrease signal is supplied to the power supply unit 2 when it is equal to or less than the period threshold. On the other hand, the power control unit 413 supplies the amplified signal to the power supply unit 2 when the amplitude value indicated by the amplitude information exceeds a predetermined amplitude threshold and when the excess period indicated by the width information exceeds the predetermined period threshold. .

  The warning LED 44 can be generally called a warning light.

  The warning LED 44 is used to warn the user of an abnormal state of the projector 10. For example, the warning LED 44 is turned on when the LED light sources 11 to 13 are turned off due to insufficient power of the commercial AC power supply 9.

  The operation of the projector 10 will be described below.

  FIG. 3 is a flowchart showing a power control method of projector 10.

  When the projector 10 is connected to the commercial AC power supply 9, in the projector 10, the power supplied from the commercial AC power supply 9 is supplied only to the power supply monitoring unit 32, the CPU 41, and the memory 42. This state of the projector 10 is referred to as a standby state.

  In the standby state of the projector 10, the CPU 41 measures the amplitude and width (distortion) of the AC voltage detected by the power supply monitoring unit 32 in order to obtain the amplitude threshold and the period threshold (step S911).

  Specifically, in the standby state, the A / D conversion unit 411 receives from the power supply monitoring unit 32 an amplitude signal in which the amplitude of the amplitude signal changes in accordance with the amplitude of the AC voltage, and uses the amplitude signal as the amplitude value of the amplitude signal. Is converted into amplitude information. Then, the A / D conversion unit 411 obtains an amplitude threshold value by subtracting a predetermined margin value from the amplitude value indicated by the amplitude information, and records the amplitude threshold value in the memory 42 as the predetermined amplitude threshold value.

  Further, the width measuring unit 412 receives the detection signal from the power supply monitoring unit 32, measures an excess period in which the detection signal is at the H level, subtracts a specific margin value from the excess period, obtains a period threshold value, and determines the period. The threshold value is recorded in the memory 42 as a predetermined period threshold value. Note that the power consumption of the projector 10 in the standby state is generally 1 W (watts) or less. Therefore, the influence on the AC commercial power supply 9 is slight.

  Thereafter, when the power supply (Power) of the projector 10 is set to On, the power supply unit 2 is turned on. And the electric power supply part 2 supplies the electric power of a required minimum initial value to the LED light sources 11-13 (step S912).

  When the initial value power is supplied to the LED light sources 11 to 13, the A / D conversion unit 411 receives the amplitude signal from the power supply monitoring unit 32, and sends the amplitude information indicating the amplitude value of the amplitude signal to the power control unit 413. At the same time, the width measurement unit 412 receives the detection signal from the power supply monitoring unit 32, measures the excess period during which the detection signal is at the H level, and supplies the power control unit 413 with the width information indicating the excess period (step). S913).

  When receiving the amplitude information and the width information, the power control unit 413 determines whether the amplitude value indicated by the amplitude information is equal to or less than a predetermined amplitude threshold value in the memory 42, or the excess period indicated by the width information is a predetermined value in the memory 42. It is judged whether it is below the period threshold value (step S914).

  That is, power control unit 413 compares the amplitude and width (distortion) of the AC voltage in the standby state with the amplitude and width (distortion) of the AC voltage when projector 10 is in the On state, and determines the AC voltage in the On state. Is less than a certain value or whether the amount of change in the width of the AC voltage in the On state is more than a certain value.

  When the amplitude value indicated by the amplitude information is less than or equal to the predetermined amplitude threshold value in the memory 42, or when the excess period indicated by the width information is equal to or less than the predetermined period threshold value in the memory 42, the power control unit 413 It is confirmed whether the power supply unit 2 is supplying the initial value of power to the LED light sources 11 to 13 (step S918).

  When the power of the initial value is supplied to the LED light sources 11 to 13, the power control unit 413 stops the power supplied to the LED light sources 11 to 13, and then turns on the warning LED 44 (step S920). Then, the power control method of the projector 10 is finished. This is because if the power supplied from the commercial AC power supply 9 is further increased, all devices connected to the commercial AC power supply 9 may not operate.

  On the other hand, when power higher than the initial power is supplied to the LED light sources 11 to 13, the power control unit 413 controls the power supply unit 2 to determine the power supplied to the LED light sources 11 to 13. Is decreased by the decreasing step width (step S919).

  In step S914, when the amplitude value indicated by the amplitude information is equal to or less than the predetermined amplitude threshold value and when the excess period indicated by the width information is equal to or less than the predetermined period threshold value, the power control unit 413 causes the LED light source 11 to It is confirmed whether the electric power supply part 2 is supplying the electric power of the upper limit in the range which can supply the electric power to -13 to the LED light sources 11-13 (step S915).

  When the upper limit power is supplied to the LED light sources 11 to 13, the process returns to step S913. On the other hand, when power lower than the upper limit power is supplied to the LED light sources 11 to 13, the power control unit 413 increases the power supplied to the LED light sources 11 to 13 by a predetermined increase step width ( Step S916).

  Thereafter, the power control unit 413 checks whether or not the power supply of the projector 10 is set to Off (step S919). If the power supply of the projector 10 is not set to Off, the power control unit 413 returns to Step S913 and repeats a series of processing procedures from Steps S913 to S920 until the power supply of the projector 10 is set to Off. Further, when the power supply of the projector 10 is set to Off, the projector 10 ends the processing procedure of the power control method.

  In the projector 10 including the distance sensor 43, when the power control unit 413 receives distance information from the distance sensor 43, the increase step width is increased as the distance indicated by the distance information is increased. Therefore, it is possible to shorten the time required to increase the power supplied to the LED light sources 11 to 13 in stages.

  According to the present embodiment, in the projector 10 having the LED light sources 11 to 13 that emit light and the power supply unit 2 that supplies the power of the AC voltage supplied from the commercial AC power supply 9 to the LED light sources 11 to 13. The detection unit 3 detects the AC voltage supplied from the commercial AC power supply 9, and the control unit 4 controls the power supply unit 2 according to the AC voltage detected by the detection unit 3, and the power supply unit 2. The power supplied to the LED light sources 11 to 13 is increased or decreased.

  Generally, when the commercial AC voltage 9 becomes insufficient, the waveform of the AC voltage supplied from the commercial AC voltage 9 changes. For this reason, the projector 10 determines the power shortage of the commercial AC power supply 9 according to the waveform of the AC voltage supplied from the commercial AC power supply 9, and if the commercial AC power supply 9 is short of power, the LED light sources 11-13. Reduce the power supplied to the.

  For example, in a situation where the projector 10 is supplying an upper limit power within a range in which power can be supplied to the LED light sources 11 to 13, a device is newly connected to the commercial AC power supply 9, and the commercial AC power supply 9 However, it is possible that power will be insufficient. In this case, the projector 10 can detect the change in the waveform of the AC voltage supplied from the commercial AC power supply 9 and reduce the power supplied to the LED light sources 11 to 13. Therefore, it can be avoided that the operation of all the devices connected to the commercial AC power supply 9 is stopped due to power shortage of the commercial AC power supply 9.

  In addition, when the apparatus connected to the commercial AC power supply 9 is removed from the commercial AC power supply in a situation where the projector 10 supplies power lower than the upper limit value to the LED light sources 11 to 13, the commercial AC power supply 9 lacks power. It is also conceivable that this is resolved. In this case, the projector 10 can also detect the change in the waveform of the AC voltage supplied from the commercial AC power supply 9 and increase the power supplied to the LED light sources 11 to 13.

  Therefore, the projector 10 can supply power to the LED power supplies 11 to 13 within a range in which the commercial AC power supply 9 does not run out of power. For this reason, the projector 10 can supply electric power to the LED light sources 11 to 13 while avoiding the commercial AC power supply 9 becoming insufficient in electric power.

  Therefore, the projector 10 having the liquid crystal panel 14 that modulates the light emitted from the LED light sources 11 to 13 and projects the modulated light as an image affects other devices connected to the commercial AC power supply 9. The image can be projected onto the screen without giving.

  In the present embodiment, the control unit 4 increases the power supplied to the LED light sources 11 to 13 when the amplitude of the AC voltage detected by the detection unit 3 exceeds a predetermined amplitude threshold value. Moreover, the control part 4 reduces the electric power currently supplied to the LED light sources 11-13, when the amplitude of alternating voltage is smaller than a predetermined amplitude threshold value.

  In general, the more the power of the commercial AC power supply 9 is insufficient, the smaller the amplitude of the AC voltage supplied from the commercial AC power supply 9 is. For this reason, the projector 10 determines the power shortage of the commercial AC power supply 9 according to the magnitude of the amplitude of the AC voltage detected by the detection unit 3, and supplies the LED light sources 11 to 13 as the amplitude of the AC voltage is smaller. Reduce power.

  Moreover, in this embodiment, the control part 4 measures the excess period when the alternating voltage detected by the detection part 3 exceeds a predetermined level threshold value. Then, the control unit 4 increases the power supplied to the LED light sources 11 to 13 when the measured excess period exceeds a predetermined period threshold, and the LED light source when the excess period is shorter than the predetermined period threshold. The electric power supplied to 11-13 is decreased.

  Generally, the distortion of the AC voltage supplied from the commercial AC power supply 9 is likely to increase as the power shortage of the commercial AC power supply 9 increases. Also, the greater the AC voltage distortion, the shorter the excess period of the predetermined level threshold of the AC voltage. For this reason, the projector 10 measures an excess period in which the AC voltage exceeds a predetermined level threshold, and lowers the power supplied to the LED light sources 11 to 13 as the excess period is shorter.

  Therefore, the projector 10 determines the magnitude of the distortion of the AC voltage due to the power shortage of the commercial AC power supply 9 according to the length of the excess period, and supplies the LED light sources 11 to 13 as the distortion of the AC voltage increases. You can lower the power.

  Further, in the present embodiment, the control unit 4 is configured when the amplitude of the AC voltage detected by the detection unit 3 is smaller than a predetermined amplitude threshold or when the measured excess period is shorter than the predetermined period threshold. The electric power supplied to the LED light sources 11 to 13 is reduced.

  For this reason, the projector 10 detects both the change in the amplitude of the AC voltage and the distortion of the waveform of the AC voltage, and determines whether the power of the commercial AC power supply 9 is insufficient. Therefore, the projector 10 can detect the power shortage of the commercial AC power supply 9 with higher accuracy.

  Further, in the present embodiment, a warning LED 44 is provided to warn of an abnormal state of the power control device, and the power control unit 413 has a case where the amplitude of the AC voltage detected by the detection unit 3 is smaller than a predetermined amplitude threshold value. Alternatively, when the excess period is shorter than the predetermined period threshold, the power supply unit 2 is controlled to stop the supply of power to the LED light sources 11 to 13 and the warning LED 44 is turned on.

  For this reason, in a situation where the power of the commercial AC power supply 9 is insufficient, the projector 10 stops supplying power to the LED light sources 11 to 13, and thus avoids further worsening the power shortage of the commercial AC power supply 9. be able to. Therefore, the influence given to the apparatus connected to the commercial AC power supply 9 can be suppressed. Furthermore, since the projector 10 turns on the warning LED 44 when power supply to the LED light sources 11 to 13 is stopped, it is possible to warn the user of the projector 10 that the commercial AC power supply 9 is insufficient in power. For this reason, it becomes easy for the user to specify the cause of turning off the LED light sources 11 to 13.

  Moreover, in this embodiment, the electric power supply part 2 raises the electric power supplied to the LED light sources 11-13 in steps. The distance sensor 43 measures the distance from the projector 10 to the wall of the room where the projector 10 is installed. Then, the CPU 41 increases the amount of power to be increased stepwise as the distance measured by the distance sensor 43 is larger.

  For this reason, the projector 10 determines that the amount of power supplied from the commercial AC power supply 9 is large when the room in which the projector 10 is disposed is large, and increases the amount of power raised in stages. Therefore, the projector 10 can shorten the time required to increase the power supplied to the LED light sources 11 to 13 to the upper limit value in a situation where the commercial AC power supply 9 with a large amount of power supply is provided in a large room. .

  In the present embodiment, the example in which the present invention is applied to the projector 10 including the LED light sources 11 to 13 has been described. However, the present invention can also be applied to an illumination device such as a fluorescent lamp and a monitor device such as a display. It is.

  In the embodiment described above, the illustrated configuration is merely an example, and the present invention is not limited to the configuration.

DESCRIPTION OF SYMBOLS 10 Projector 1 Display part 11-13 LED light source 14 Liquid crystal panel 2 Electric power supply part 3 Detection part 31 Transformer 32 Power supply monitoring part 4 Control part 41 CPU
411 A / D conversion unit 412 Width measurement unit 413 Power control unit 42 Memory 43 Distance sensor 44 Warning LED

Claims (9)

A light source that emits light;
Supply means for supplying power of an alternating voltage supplied from an alternating current power source to the light source;
Detecting means for detecting the AC voltage;
And a control unit configured to control the supply unit according to the AC voltage detected by the detection unit to increase or decrease the power supplied from the supply unit to the light source. The power control apparatus according to claim 1,
The control means decreases the power supplied to the light source when the amplitude of the AC voltage detected by the detection means is smaller than a predetermined amplitude threshold, and the amplitude of the AC voltage becomes less than the predetermined amplitude threshold. A power control device that increases the power supplied to the light source when exceeding the power. The power control apparatus according to claim 1 or 2,
The control unit measures an excess period in which the AC voltage detected by the detection unit exceeds a predetermined level threshold, and reduces the power supplied to the light source when the excess period is shorter than the predetermined period threshold. And a power control device that increases the power supplied to the light source when the excess period exceeds the predetermined period threshold. The power control apparatus according to claim 3,
The control means includes
A warning light for warning an abnormal state of the power control device;
When the amplitude of the AC voltage detected by the detection means is smaller than a predetermined amplitude threshold value, or when the excess period is shorter than the predetermined period threshold value, the supply means is controlled to control the power to the light source. And a power control means for stopping the supply and turning on the warning light. In the electric power control apparatus according to any one of claims 1 to 4,
The supply means increases the power supplied to the light source in stages,
The control means includes
A distance sensor for measuring a distance from the power control device to a wall of a room in which the power control device is disposed;
Adjusting means for varying the amount of power to be raised stepwise according to the distance measured by the distance sensor. In the electric power control apparatus according to any one of claims 1 to 5,
The power control apparatus further includes a projecting unit that modulates light emitted from the light source in accordance with an image signal and projects the modulated light as an image. A power control method of a power control apparatus having a light source that emits light,
Supply the power of the AC voltage supplied from the AC power source to the light source,
Detecting the AC voltage;
A power control method for increasing or decreasing the power supplied to the light source according to the detected AC voltage. The power control method according to claim 7,
Increasing or decreasing the power supplied to the light source is
When the amplitude of the AC voltage is smaller than a predetermined amplitude threshold, the power supplied to the light source is decreased, and when the amplitude of the AC voltage exceeds the predetermined amplitude threshold, the power is supplied to the light source. An electric power control method including increasing the electric power. The power control method according to claim 7 or 8,
Increasing or decreasing the power supplied to the light source is
An excess period in which the AC voltage exceeds a predetermined level threshold is measured, and when the excess period is shorter than the predetermined period threshold, the power supplied to the light source is decreased, and the excess period is the predetermined period. A power control method comprising increasing power supplied to the light source when a threshold value is exceeded.

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