DE19831822C2 - Method for operating an LCD display device and LCD display device - Google Patents

Description

The invention relates to a method for operating an LCD Display device behind a cold cathode tube is lit, and an LCD display device with a Cold cathode tube.

Screens used in automotive technology are being used operated at very low temperatures. In the winter it can take 20 minutes for a vehicle parked outdoors or take longer to get a cold cathode tube to the back illumination of an LCD display device the full luminous light has achieved since the luminous efficacy of this type of tube is temperature dependent. Especially on bright winter days is the readability of such a display device unsatisfactory for a long time.

A method is known from the published patent application DE 43 26 415 A1 Known for driving a fluorescent lamp, in which a synchronous control of a current transformer and consequently egg ne reliable ignition of the fluorescent lamp and constant Current conditions in the fluorescent lamp can be achieved. The ambient temperature of the Fluorescent lamp measured. The temperature sensor is on the Voltage regulator led. This allows conclusions to be drawn about the Ignition of the fluorescent lamp can be pulled and a constant te luminance can be achieved.

It is an object of the invention to provide a method for operating ner LCD display device and an LCD display device to provide with a cold cathode tube that has a verb  Display can be changed at very low temperatures chen.

This goal is achieved with a procedure and an LCD display device achieved as described in the independent patent sayings are defined. Advantageous further training of the Er invention are specified in the subclaims.

By increasing the power supply to the cold cathode tube becomes their luminous efficacy at low ambient temperatures improved and the self-heating of the display device be accelerates.  

An increase in energy supply or lamp current by 50% for a period of five minutes at an initial lead Operating temperature of less than 0 ° C regularly increases no reduction in the life of the cold cathode tube. There the increased energy supply only falls below a be If the ambient temperature is correct, the cold cathode Always operate the tube gently.

The measurement of the ambient temperature or the operating temperature door does not have to be directly on the cold cathode tube, but can also be done at a more distant location if there is a relationship between the temperature at the installation location of the cold cathode tube and the measuring location is known. Yet it is advantageous to measure the temperature within the display Device to heat the cold cathode tube for optional regulation of the energy supply during the self-heating of the cold cathode tube nen.

The measure and / or period of increased energy intake for the cold cathode tube can affect the heating behavior of the on Site adapted to the display device for the vehicle type for which the display device is intended. So can, for example, a certain ambient temperature Cold cathode tubes each have a certain period of time for the increased energy supply can be assigned. For this purpose for certain ambient temperatures or temperature ranges certain time periods for the increased energy supply in egg stored in non-volatile memory.

Preferably after a defined period of time or the energy supply when a defined temperature is reached either continuously, gradually or abruptly on the Energy supply can be reduced in normal operation.  

A suitable area for increasing the energy supply is between 20% and 70% of the normalbe's energy supply urged.

The invention is particularly well suited for use in motor vehicles TFT and DSTN color displays.

Further advantages, features and possible applications of the Invention emerge from the description of a preferred Embodiment.

The figure shows an LCD display device with a coldka testicular tube.

An LCD display device 1 with a TFT color display has a microprocessor 11 , which is a con troller. This controls a cold cathode tube 13 via an adjustable current source 12 . The current I with which the cold cathode tube 13 is operated is measured by a measuring element 14 . A temperature sensor 15 measures the ambient temperature of the cold cathode tube within the housing of the display device 1 . The measured values of the measuring element 14 and the temperature sensor 15 are fed to the microprocessor 11 .

The temperature sensor 15 outputs a temperature of less than 0 ° C to the microprocessor 11 , it controls the current source 12 such that the cold cathode tube 13 is supplied with a current I of 9 mA instead of 6.5 mA. The measuring element 14 continuously determines the current intensity with which the cold cathode tube 13 is applied, so that a precise re regulation by the microprocessor 11 can take place.

If a temperature of 0 ° C is reached, the current overshoot is limited to approximately 25% above the normal operating current, i.e. approximately 7.8 mA. If the ambient temperature of around 20 ° C. is measured by the temperature sensor 15 , the cold cathode tube 13 is operated with the normal operating current of about 6.5 mA.

In order not to shorten the lifespan of the cold cathode tube 13 , the current excess is ended as a precaution after a defined period of time. In this embodiment, the cold cathode tube is after 20 minutes, independently from the previously reached operating temperature Be re from the microprocessor 11 of the nominal current for the normal operation of the Kaltkathodenröh set. 13

Claims (4)

1. A method for operating an LCD display device ( 1 ) which is backlit by a cold cathode tube ( 13 ), comprising the steps:

• 1. the ambient temperature of the cold cathode tube ( 13 ) is measured,
• 2. The operating current of the cold cathode tube ( 13 ) is increased by 20% to 70% compared to the operating current during normal operation if the ambient temperature falls below a limit.

2. The method according to claim 1, characterized in that the energy supply after a defined period of time or on reaching a defined temperature Energy supply is returned in normal operation. 3. The method according to any one of the preceding claims, characterized in that the duration of the increased energy supply is adapted to the heating behavior of the installation location of the LCD display device ( 1 ) in a particular type of vehicle for which the LCD display device is intended. 4. LCD display device with a cold cathode tube ( 13 ) for backlighting, which has a temperature sensor ( 15 ) for determining the operating temperature of the cold cathode tube ( 13 ) and a microprocessor ( 11 ), which falls below a defined ambient temperature, the power supply to the cold cathode tube ( 13 ) increased by 20% to 70% compared to a power supply in normal operation.