1. Field of the Invention
The present invention relates to a display device and an electronic machine having the display device. The display device has a backlight light source and a photo sensing unit capable of detecting the light intensity of ambient light and outputting a photocurrent corresponding to the light intensity of ambient light.
2. Description of Related Art
In recent years, display devices, such as those commonly applied in mobile navigation devices, cell phones, etc, have been capable of allowing the display brightness to be modified corresponding to the intensity of ambient light. For example, the system disclosed in the Japan Publication Patent No. 2001-522058, which disclosed a controller for controlling the display brightness of the display device, bases on the result of light intensity of ambient light detected by the photo sensing unit. By having this controller, the system can increase the display brightness of the display device at an outdoor place with bright sunlight, and decrease the display brightness of the display device at an indoor place, where the ambient light is weak.
In general, the display device has a photo sensing unit, which outputs a photocurrent based on the detection result on the light intensity of ambient light. Later, by means of a current-voltage transformer or an analog-digital transformer, the photocurrent is transformed into a voltage or digital pulse signal, being output to a controller controlling the operation status of the backlight light source. The controller then modulates the light intensity of the backlight light source of the display device based on the input voltage or digital pulse signal. A circuit used for the aforementioned light intensity detection is disclosed in the Japan Publication Patent No. 2008-522159.
However, the display device having the aforementioned circuit has the drawback that the detection of the light intensity of ambient light is affected by the light emitted by the backlight light source. Therefore, the objective of the present invention is to provide a display device capable of detecting the light intensity of ambient light with high accuracy and an electronic device having the display device.
To achieve the object, the display device of the present invention has a backlight light source and a photo sensing unit capable of detecting the light intensity of ambient light and outputting a photocurrent corresponding to the light intensity of ambient light. The display device comprises a voltage supply unit for providing a voltage, which makes the photo sensing unit output a certain amount of photocurrent, to the photo sensing unit; and a supply voltage control unit for controlling the voltage supply unit by the way of modulating the voltage supplied to the photo sensing unit based on the operation status of the backlight light source. The supply voltage control unit outputs a voltage of a first voltage to the photo sensing unit while the backlight light source is operating; and outputs a voltage of a second voltage, which is different from the first voltage, to the photo sensing unit while the backlight light source is not operating.
Therefore, by changing the voltage, which makes the photo sensing unit output a certain amount of photocurrent, it is possible for the display device of the present invention to detect the light intensity of ambient light with high accuracy
In one embodiment of the present invention, the voltage of the second voltage makes the photo sensing unit output a photocurrent with maximum value, while the voltage of the first voltage makes the photo sensing unit output a photocurrent with the value smaller than the maximum value.
As a result, the error Ierror, which existed in the photocurrent detection result can be decreased, and can even be removed completely.
In one embodiment of the present invention, the photo sensing unit is a low-temperature poly-silicon lateral-type PIN photodiode or an amorphous diode.
In one embodiment of the present invention, the display device is a transparent type or transflective type liquid crystal display having a backlight light source.
The display device according to one embodiment of the present invention can be applied in a laptop PC, a cell phone, a personal digital assistant, a mobile navigation device, a portable game station, and so on, which can detect the light intensity of ambient light.
The present invention can provide a display device and an electronic machine having the display device, wherein the display device is capable of detecting the light intensity of ambient light with high accuracy.
With reference to the figures of the present invention, the best mode of the present invention is disclosed hereinafter.
Although the electronic device 100 shown in
The display device 10 shown in
As shown in
In the present embodiment, the transformer 32 is not absolutely required, since if the photocurrent can be input to the backlight control unit 24 directly, then the transformer 32 can be omitted. Moreover, the backlight control unit 24 can control the light intensity of the light emitted by the backlight light source 20, in response to the input voltage, digital pulse signal or photocurrent. The voltage supply unit 34 outputs a voltage, which makes the photo sensing unit 30 output a certain amount of photocurrent, to the photo sensing unit 30. The supply voltage control unit 36 controls the voltage supply unit 34 by modulating the voltage supplied to the photo sensing unit 30, based on the operation status of the backlight light source 20.
In detail, the supply voltage control unit 36 outputs a first voltage to the photo sensing unit 30, while the backlight light source 20 is operating. The supply voltage control unit 36 outputs a second voltage, which is different from the first voltage, to the photo sensing unit 30, while the backlight light source 20 is not operating. In this manner, the supply voltage control unit 36 controls the voltage supply unit 34. Besides, with the signal provided by the backlight control unit 24, the supply voltage control unit 36 is informed with the operation status of the backlight light source 20.
As an explanatory example,
In the conventional display device, the photocurrent is always fixed at the maximum value regardless of the operation status of the backlight light source. Besides, a voltage V1 within the range between Vc and Va is output to the photo sensing unit. Moreover, as the voltage V1 is being output to the photo sensing unit, the LTPS photodiode outputs a photocurrent Ib1 if the backlight light source is operating, and outputs a photocurrent Ia if the backlight light source is not operating (Ib1>Ia).
The display device according to one embodiment of the present invention applies the supply voltage control unit 36, which modulates the value of the bias voltage output to the photo sensing unit within the range between a first voltage and a second voltage, corresponding to the operation status of the backlight light source. In detail, as the backlight light source is operating, the supply voltage control unit 36 outputs a voltage V2 outside the range between Vc and Va to the photo sensing unit. As shown in
a) displays the operation of the backlight light source 20, while
c) displays the bias voltage, which the voltage supply unit 34 outputs to the gate electrode T3 of the LTPS photodiode functioning as the photo sensing unit 30. The dash-line in the figure displays the bias voltage of a conventional display device, while the solid-line in the figure displays the bias voltage of the display device according to one embodiment of the present invention.
d) displays the photocurrent output by the photo sensing unit 30, i.e. the current flowing from the cathode T1 of the LTPS photodiode to the anode T2 of the LTPS photodiode. The dash-line in the figure displays the photocurrent of a conventional display device, while the solid-line in the figure displays the photocurrent of the display device according to one embodiment of the present invention.
That is, a voltage V1 (within the range between Vc and Va) is output to the photo sensing unit 30, which makes the photocurrent be fixed at a certain value regardless of the operation status of the backlight light source. At this time, the photo sensing unit 30 outputs a photocurrent Ib1, while the backlight light source is operating. Then, theoretically speaking, once the backlight light source switches from the “operating status” to the “non-operating status”, the photo sensing unit 30 should detect the light intensity ambient light only, having the voltage-current characteristic displayed by the curve 52 of
The display device according to one embodiment of the present invention applies the supply voltage control unit 36 to provide a bias voltage (within the range between the first voltage and the second voltage) to the photo current unit 30 based on the operation status of the backlight light source 20. In detail, as the backlight light source is operating, the supply voltage control unit 36 outputs a voltage V2 outside the range between Vc and Va to the photo sensing unit 30, which makes the photo sensing unit 30 output a maximum photocurrent Ib1. Therefore, the photo sensing unit 30 can output a photocurrent Ib2, which is smaller than the maximum photocurrent Ib1. Later, once the backlight light source switches into the “non-operating status”, the supply voltage control unit 36 controls the voltage supply unit 34 to change the bias voltage output to the photo sensing unit 30 from the voltage V2 into a voltage V1 within the range between Vc and Va. By doing this, once the backlight light source switches into the “non-operating status”, the photo sensing unit 30 can output the maximum photocurrent Ia immediately. However, in practical operation, it still takes a moment to switch the output current from Ib2 to Ia. Nevertheless, since the difference between the Ib2 and Ia is smaller than the difference between Ib1 and Ia, it will take a shorter period of time to complete the switching process in the display device according to one embodiment of the present invention. As a result, the error Ierror existing in the photocurrent detection result, which is obtained at the detection time slot Td, can be decreased, even be removed completely.
In this manner, the display device according to one embodiment of the present invention can detect the light intensity of ambient light with higher accuracy by the way of changing the voltage which makes the photo sensing unit output a certain amount of photocurrent.
It should be noticed that only the best mode of the present invention has been disclosed above, but the scope of the present invention in not thus limited to the best mode. The scope of the present invention can also be varied without deviating from the spirit of the present invention.
For example, even though a three terminal LTPS photodiode is used as the photo sensing current, a two terminal amorphous silicon diode (without any gate electrode) can also be used in the display device of the present invention. At this example, the voltage between the cathode and the anode of the amorphous silicon diode can be changed corresponding to the operation status of the backlight light source. Thus, the detection error caused by the backlight light source can be decreased, and even be removed completely.
Moreover, even though the voltage output to the photo sensing unit is changed in a two-step manner, the characteristic of the element of the photo sensing unit and the operation status, such as the type of the electronic machine having the display device or the number of the light source is more than one, the voltage output to the photo sensing unit can also be changed in a three-step manner or in more than three steps.
Number | Date | Country | Kind |
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2009-027195 | Feb 2009 | JP | national |