DE29724425U1 - Device for intelligently controlling a backlight unit for a liquid crystal display in a notebook computer - Google Patents

Description

Device for intelligent control of a

Backlight unit for a liquid crystal display

in a notebook computer

The invention relates to a device for intelligently controlling a backlight unit for liquid crystal displays (LCD) in notebook computers, and more particularly to a device for reducing the power consumption of an LCD backlight unit so as to achieve automatic power saving.

Of all the components of a notebook computer, the LCD backlight unit is a component that generally has an extremely high power consumption. One way to reduce the power consumption of LCD backlight units is to control the output power of the same. One problem is that notebook computers do not have an automatic function to control the power consumption of LCD backlight units to "save" energy.

The invention solves the problem of providing a device for controlling an LCD backlight unit in notebook computers, with which the energy consumption of the LCD backlight unit can be reduced.

According to the invention, the object is achieved by a device for reducing the power consumption of an LCD backlight unit, with which the brightness of the LCD backlight unit is automatically attenuated by controlling the control circuit of the LCD backlight unit and thereby its output current based on the signal level at a battery operation signal terminal of a control unit in the notebook computer with a battery as a power supply, so that the power consumption of the LCD backlight unit is reduced and an automatic energy saving function is achieved.

become.

The invention is described in more detail using a preferred embodiment with reference to the drawing. The drawing shows

Figure 1 is a block diagram of an embodiment of the control device according to the invention.

Figure 1 shows an embodiment of the device according to the invention for intelligently controlling an LCD backlight unit in notebook computers with a battery as a power supply. When the notebook computer is in battery operation, a battery operation signal BATUSE# (BATUSE# means: battery in operation, i.e. the BATUSE# signal has an L level when the notebook computer is in battery operation, otherwise an �EEgr; level) is at an L level and controls the control circuit of the LCD backlight unit and thereby its output current O in such a way that the power consumption of the LCD backlight unit is reduced and automatic power saving is achieved by reducing the brightness of the LCD backlight unit. The device has a liquid crystal display (LCD) 1, a phase inverter 2, a variable resistor VRl, a bias resistor R and a field effect transistor (N-MOSFET) Ql.

The liquid crystal display 1 is connected to the phase inverter 2, the input terminal of the phase inverter 2 is connected to the common terminal (wiper terminal) of the two partial resistors of the variable resistor VRl forming a voltage divider, the separate terminal of the first partial resistor is connected to a voltage supply VCC and the separate terminal of the second partial resistor is connected to the first terminal of the bias resistor R, the second terminal of which is connected to ground. Furthermore, the bias resistor R is connected with its first terminal to the

Drain electrode D of N-MOSFET Ql whose source electrode S is connected to ground. Gate electrode G of N-MOSFET Ql is connected to BATUSE# signal terminal of the control circuit (not shown) in the notebook computer. When an AC-DC adapter (i.e., commercial power) is used as the power supply, the BATUSE# signal terminal is at &EEgr; level when the notebook computer is operating. When the battery is used as the power supply (i.e., the notebook computer is in battery mode), the BATUSE# signal terminal is at L level, so that the signal level of the signal at the BATUSE# signal terminal can be used to control the output current of the power supply and the power consumption of the LCD backlight unit is reduced and therefore the goal of energy saving can be achieved.

When the user operates the notebook computer with the AC-DC adapter as the main power source, the signal at the BATUSE# signal terminal is always at �EEgr; level (regardless of whether the LCD backlight unit 1 is receiving power or not), so the N-MOSFET Ql conducts and shorts the bias resistor R. As a result, the voltage VR decreases and the phase inverter 2 outputs a larger current, so that the LCD backlight is brighter.

When the user operates the notebook computer using the battery as a power source, the signal at the BATUSE# signal terminal is always at L level, so that the N-MOSFET Ql is off and the bias resistor R is not short-circuited. As a result, the voltage VR increases and the phase inverter 2 outputs a smaller current, so that the LCD backlight is darker.

In summary, the invention provides a device for intelligently controlling an LCD backlight unit in notebook computers, wherein depending on the signal level of the signal at the BATUSE# signal terminal of the control unit in the notebook computer with a battery as a power supply, the control circuit of the LCD

· f

^ a &lgr; m · ·

backlight unit and thereby its output current can be controlled such that when the notebook computer is in battery mode, the power consumption of the LCD backlight is reduced, thus achieving the goal of energy saving.

Claims (1)

An apparatus for controlling an LCD backlight unit of a notebook computer, wherein a battery operation signal (BATUSE#) of a control circuit in the notebook computer having a battery as a power source is used to control the control circuit for the LCD backlight unit such that its brightness is reduced when the notebook computer is in battery operation mode, with
a liquid crystal display ( 1 ),
a phase inverter ( 2 ) connected to the liquid crystal display,
a variable resistor (VR1) forming a voltage divider, the common terminal of the two partial resistors of the variable resistor (VR1) being connected to the input terminal of the phase inverter ( 2 ), the separate terminal of the first partial resistor being connected to a voltage source and the separate terminal of the second partial resistor being connected to the first terminal of a bias resistor (R) which is connected to ground at its second terminal, and
a field effect transistor (Q1), the drain electrode (D) of which is connected to the first terminal of the bias resistor (R), the source electrode (S) of the field effect transistor (Q1) is connected to ground and the gate electrode (G) of which is connected to a battery operation signal terminal of the control circuit in the notebook computer.