JP4406754B2 - Discharge lamp lighting device - Google Patents

Description

  The present invention relates to a discharge lamp lighting device, and more particularly to a discharge lamp lighting device that can improve color temperature characteristics during dimming.

  In recent years, high-intensity discharge lamps (abbreviated as HID) such as metal halide lamps have a rectangular shape that uses an inverter instead of a conventional lighting system that uses a phase-advancing ballast composed of a leakage transformer and a main capacitor. It is turned on by a lighting device that is reduced in size and weight by the wave lighting method.

  A rectangular wave lighting device using such an inverter is disclosed, for example, in Japanese Patent Laid-Open No. 5-36484, and as shown in FIG. 8, a rectifying element 102, a smoothing circuit 103 made of a smoothing capacitor, a current A step-down chopper circuit 104 for performing control, a full-bridge inverter 105, and a drive control circuit 106 for driving and controlling the step-down chopper circuit 104 by detecting an input voltage and an input current to the inverter 105. The discharge lamp 107 is connected to the output terminal of the inverter 105 via a starting circuit (not shown) so as to be lit. In FIG. 8, 101 is a commercial power source, and 108 is a drive circuit for the full-bridge inverter 105.

In the discharge lamp lighting device configured as described above, when dimming is performed by changing the lamp power, the duty ratio of the high-frequency pulse drive signal output from the drive control circuit 106 generally input to the step-down chopper circuit 104 is set. As shown in FIG. 9, the lamp power is changed by increasing / decreasing the amplitude of the lamp current from the full-bridge inverter 105. FIG. 9 shows an aspect in which the inverter drive frequency is 100 Hz and the lamp rated current i ₁ is used.
JP-A-5-36484

  By the way, in the conventional discharge lamp lighting device, when the lamp power is changed by simply increasing / decreasing the lamp current amplitude and dimming as described above, as the dimming rate is lowered by decreasing the lamp power. There is a problem that the color rendering property deteriorates due to a shift to a higher color temperature.

  The present invention has been made to solve the above-mentioned problems in conventional discharge lamp lighting devices, and can change the color temperature characteristics arbitrarily, and in particular, suppresses color temperature changes during dimming, thereby reducing color rendering properties. An object of the present invention is to provide a discharge lamp lighting device capable of improving deterioration.

In order to solve the above-mentioned problems, the invention according to claim 1 is directed to input current to a step-down chopper circuit to control current and to input the output of the step-down chopper circuit to a full-bridge type inverter and to the output terminal of the inverter. In a discharge lamp lighting device that is lit by connecting a discharge lamp, the output current of the step-down chopper circuit is changed in a time ratio of an output current value in a period corresponding to a half cycle operation period of the output of the inverter. And a control means for outputting such that the time ratio is repeated in synchronization with the half cycle operation, and the control means changes the time ratio in a period corresponding to the half cycle operation period. And controlling the output current of the step-down chopper circuit so that the maximum value appears at the end of the period corresponding to the half cycle operation period, The maximum value of serial current value, a rated current value of the discharge lamp and is characterized by being configured to control dimming changing the time ratio of the current value.

According to the second aspect of the present invention, direct current is input to the step-down chopper circuit, current control is performed, the output of the step-down chopper circuit is input to a full-bridge inverter, and a discharge lamp is connected to the output terminal of the inverter to light it. In the discharge lamp lighting device configured as described above, the output current of the step-down chopper circuit is changed in the time ratio of the output current value in the period corresponding to the half cycle operation period of the output of the inverter, and the time ratio thereof Is controlled so as to be repeated in synchronism with the half cycle operation, and the control means is a maximum value among current values obtained by changing a temporal ratio in a period corresponding to the half cycle operation period. Is controlled at an output current of the step-down chopper circuit so that it appears at the end of the period corresponding to the half-cycle operation period, and the maximum value of the current value is The current value exceeding the rated current of the lamp and is characterized by being configured to control dimming changing the time ratio of the current value.

In the discharge lamp lighting device configured as in the invention according to claim 1, the time ratio of the output current value in the period corresponding to the half cycle operation period of the output of the inverter is controlled to change. Therefore, in the corresponding period, there is a current value component higher than the average current value in that period. When a high current value component exists, a part of the plasma corresponding to the high current value is held in the discharge lamp during the discharge operation, and the change in color temperature can be suppressed. Therefore, even in the case where dimming is performed by changing the time ratio of the current value to change the average current value during the period, the change in the color temperature can be suppressed, and the current value can be changed without changing the average current value. When the time ratio is changed, the maximum current value changes, and the discharge lamp can be lit at the corresponding color temperature. In addition, since the maximum value of the current value with the time ratio changed is configured to appear at the end of the period corresponding to the half cycle operation period of the inverter, it is inverted from the maximum value when the inverter output is inverted. Therefore, when the inverter output is inverted to maintain lighting, stable re-ignition is performed, and more stable lighting can be performed. In addition, the maximum current value is set to the rated current value of the discharge lamp, and the dimming control is performed by changing the time ratio of the current value, so the dimming control is performed while suppressing the change in color temperature as much as possible. It can be performed.

In the discharge lamp lighting device configured as in the invention according to claim 2, as in the invention according to claim 1, the time of the output current value in the period corresponding to the half cycle operation period of the output of the inverter Therefore, in the corresponding period, there is a current value component higher than the average current value in that period. When a high current value component exists, a part of the plasma corresponding to the high current value is held in the discharge lamp during the discharge operation, and the change in color temperature can be suppressed. Therefore, even in the case where dimming is performed by changing the time ratio of the current value to change the average current value during the period, the change in the color temperature can be suppressed, and the current value can be changed without changing the average current value. When the time ratio is changed, the maximum current value changes, and the discharge lamp can be lit at the corresponding color temperature. Similarly, since the maximum value of the current value with the temporal ratio changed appears at the end of the period corresponding to the half-cycle operation period of the inverter, the maximum value is reversed when the inverter output is inverted. When the inverter output is inverted and the lighting is maintained, stable re-ignition is performed, and more stable lighting can be performed. In addition, since the maximum value of the current value is a current value that exceeds the rated current value of the discharge lamp, and the dimming control is performed by changing the time ratio of the current value, in the discharge lamp in operation, A part of the plasma corresponding to the higher current value component is held, and the light control can be performed while further suppressing the color temperature change.

  Next, the best mode for carrying out the present invention will be described.

  FIG. 1 is a schematic block diagram showing an embodiment of a discharge lamp lighting device according to the present invention. In FIG. 1, 1 is a rectifier circuit for converting a commercial power supply voltage (AC, 100V) to a DC voltage, 2 is an active filter circuit for power factor improvement, and 3 is current controlled to convert it into arbitrary voltage and current. Step-down chopper circuit 4 is a full-bridge inverter, 5 is a control unit comprising a CPU, a digital signal processor (DSP), etc., and detects the input voltage and input current of the inverter 4 or is set from the operation unit 6 Thus, a drive control signal for driving and controlling the step-down chopper circuit 3 is sent out, or a rectangular wave drive signal of a full bridge inverter is sent out. Reference numeral 6 denotes the above-described operation unit for inputting various factors when performing dimming and the like. Reference numeral 7 denotes a discharge lamp such as a metal halide lamp connected to the output terminal of the inverter 4 via a starting circuit (not shown). It is.

  The schematic lighting operation in the discharge lamp lighting device configured as described above will be described. The DC voltage boosted by the active filter circuit 2 is arbitrarily converted by the step-down chopper circuit 3 by converting the power supply voltage to DC by the rectifier circuit 1. After the current and voltage are converted, a rectangular wave output is performed by the inverter 4, and the discharge lamp 7 is turned on by this output.

  At this time, in the present embodiment, when the dimming operation is performed, the control unit 5 controls the step-down chopper circuit 3 as follows. That is, in synchronization with the timing of the rectangular wave drive signal for driving the inverter 4, the time ratio of the output current value is changed in the period corresponding to the half cycle of the drive signal, and the time ratio is changed. A drive control signal for driving the step-down chopper circuit 3 is output from the control unit 5 so that the current value of the ratio is repeatedly output from the step-down chopper circuit 3 every period corresponding to a half cycle.

For example, in a period T corresponding to a half cycle of the inverter 4 (T = 5 ms when the inverter operating frequency is 100 Hz), the maximum current value in that period is i ₁ corresponding to the rated current of the lamp, and the minimum current value is and i ₂ = i _1/4, when 50% of the dimming ratio, by inputting these values from the operating unit 6, as shown in FIG. 2, corresponding to the half cycle of the inverter 4 The step-down chopper circuit 3 is driven by a drive control signal from the control unit 5 so that the current value of i _{2 is} the current value of i _{2 in} the first 0 to 2 / 3T period and the current value of i ₁ is in the 2 / 3T to T period. Is controlled. In FIG. 2, for the sake of simplicity, the output current waveform through the inverter 4 is shown instead of the output current of the step-down chopper circuit 3.

   FIG. 3 shows measured values of the lamp current waveform when the above dimming control is performed using a 400 W metal halide lamp.

Thus, by leaving a part of the component of the rated current value (i ₁ ) at the time of dimming, a part of the plasma component at the time of rated lighting can be held in the operating discharge lamp even at the time of dimming. In general, when dimming is performed by reducing the lamp current by a factor, that is, by reducing the amplitude, the metal halide lamp tends to reduce the reddish component and increase the color temperature. When the dimming is performed, the rated current is allowed to flow during a part of the period, and a plasma component corresponding to the rated current is continuously held, whereby an increase in the color temperature can be suppressed.

Instead of changing the current value (amplitude) uniformly over the entire period corresponding to the half cycle period of the inverter 4 as in the prior art, the time of the current in the period T corresponding to the half cycle is changed as in the above embodiment. Ratio, i ₂ , and the period of time for changing the dimming rate and changing the dimming rate, and the color temperature measurement results when the conventional amplitude is changed and the dimming is performed. Compared with FIG. In FIG. 4, the measurement result of the present example is indicated by a solid line, and the measurement result of the conventional example is indicated by a dotted line.

  As can be seen from FIG. 4, in the present example, it can be seen that the change in the color temperature due to the light control is suppressed. In FIG. 4, the difference between this example and the conventional example is only a few percent with 25% dimming, but even if the numerical color temperature difference is this level, it is actually visually. When observed, the way of feeling appears as a considerable difference, and therefore, a sufficient difference in effect is obtained between the present example and the conventional example.

In the above embodiment, in the period T corresponding to the half cycle of the inverter, the period during which the maximum current value i ₁ (rated current), to apply for a period of 2 / 3T~T a termination of the period T The reason is that when the current applied to the discharge lamp by the inverter 4 is reversed, re-ignition of the discharge lamp is performed stably. When the current value at the end of the period T is large, re-ignition at the time of inversion of the applied current by the inverter is performed stably, and stable lighting is obtained.

In the above-described embodiment, the maximum value in the period T is the rated current value i _1. However, as shown in FIG. 5, the minimum value is smaller than i ₂ and the maximum value is the rated current value i _1. It is also possible to make the dimming light larger, and in this case, as the current value increases, the red component tends to increase in the metal halide lamp, so the color temperature when dimming is performed. Can be further suppressed.

  In the above embodiment, the maximum value in the period T is applied only at the end of the period T. However, as shown in FIG. The dimming operation can be performed by adjusting the current value in the intermediate period and / or the period during the period of time. Also in this case, since the maximum value is shifted to the maximum value when the applied current is inverted by the inverter, re-ignition is performed stably, and stable lighting is obtained.

  Further, as shown in FIG. 6B, the maximum value in the period T is applied in the middle part of the period T, and the dimming operation is performed by adjusting the current value and / or the period at the start and end of the period T. It can also be done. In this case as well, re-ignition is performed stably because the current value shifts from a small current value to a small current value when the inverter is inverted.

  Further, as shown in FIG. 6C as a modification of FIG. 6B, the maximum value in the period T is set at the center of the period T, and the current values at the start and end are changed in an inclined manner. It is also possible to perform dimming. In this case, since the current value gradually increases or decreases at the time of inversion, a stable lighting with less shock at the time of inversion can be obtained.

Further, as shown in FIG. 7, when the average current in the period T becomes the rated current value i ₁ , that is, without adjusting the light, the time ratio of the current value in the period T is naturally changed. However, the maximum value in the period T is equal to or greater than the rated current value, and the red component increases in the metal halide lamp due to the magnitude of the current value exceeding the rated current. By performing the rated lighting while changing the current value, it is possible to change the color temperature without changing the lamp structure during the rated lighting.

It is a circuit block diagram which shows the Example of the discharge lamp lighting device which concerns on this invention. In the Example shown in FIG. 1, it is a figure which shows an example of a lamp application current waveform in the case of performing light control by changing the time ratio of an electric current value. It is a figure which shows the measured value of the lamp current at the time of applying the lamp current shown in FIG. It is a figure which shows the change of the color temperature at the time of performing light control with the method shown in FIG. 2 in contrast with the change of the color temperature at the time of performing light control by the conventional amplitude change system. It is a figure which shows the other example of the lamp application current waveform at the time of light control. It is a figure which shows the further another example of the lamp application current waveform at the time of light control. It is a figure which shows the aspect which changes a color temperature characteristic by changing the time ratio of a lamp application current. It is a block block diagram which shows the structural example of the conventional discharge lamp lighting device. It is a lamp current waveform figure which shows the aspect which adjusts light by changing the conventional amplitude.

DESCRIPTION OF SYMBOLS 1 Rectification circuit 2 Active filter circuit 3 Step-down chopper circuit 4 Full bridge type inverter 5 Control part 6 Operation part 7 Discharge lamp

Claims (2)

In a discharge lamp lighting device in which direct current is input to a step-down chopper circuit, current control is performed, an output of the step-down chopper circuit is input to a full-bridge type inverter, and a discharge lamp is connected to the output terminal of the inverter so that the lamp is lit. The output current of the step-down chopper circuit is changed in the time ratio of the output current value in a period corresponding to the half cycle operation period of the output of the inverter, and the time ratio is synchronized with the half cycle operation. The control means for outputting is repeated, and the control means has a maximum value corresponding to the half cycle operation period among current values obtained by changing a temporal ratio in the period corresponding to the half cycle operation period. The output current of the step-down chopper circuit is controlled so that it appears at the end of the period to be used, and the maximum value of the current value is the rated current value of the discharge lamp. The discharge lamp lighting apparatus characterized by being configured to control dimming changing the time ratio of the current value. In a discharge lamp lighting device in which direct current is input to a step-down chopper circuit, current control is performed, an output of the step-down chopper circuit is input to a full-bridge type inverter, and a discharge lamp is connected to the output terminal of the inverter so that the lamp is lit. The output current of the step-down chopper circuit is changed in the time ratio of the output current value in a period corresponding to the half cycle operation period of the output of the inverter, and the time ratio is synchronized with the half cycle operation. The control means for outputting is repeated, and the control means has a maximum value corresponding to the half cycle operation period among current values obtained by changing a temporal ratio in the period corresponding to the half cycle operation period. And controlling the output current of the step-down chopper circuit so that it appears at the end of the period when the maximum current value exceeds the rated current value of the discharge lamp. And a current value, a discharge lamp lighting apparatus characterized by being configured to control dimming changing the time ratio of the current value.

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