JPH0733133B2 - In-vehicle device display part dimer circuit - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a dimmer circuit for duty-controlling the luminance of a vehicle-mounted device display unit by reading a luminance indicating voltage set by a volume with a microcomputer, and particularly, to It is intended to suppress the luminance fluctuation due to ripple by the hysteresis characteristic.

[Conventional technology]

Since the brightness of the interior of a car greatly changes depending on the environment outside the car, good contrast cannot be obtained unless the brightness of the indicator or display of the vehicle-mounted device is finely changed. In some countries, this type of dimming control is mandatory.

Some conventional dimmer circuits switch the brightness in two steps by turning the dimmer SW (switch) on and off, but this has the drawback that it cannot precisely respond to changes in ambient light from evening to night.

In order to improve this point, the present inventors have proposed a dimmer circuit capable of controlling brightness in multiple stages by a volume (variable resistor). FIG. 4 is a block diagram showing an example of this,
It is an example of application to a vehicle-mounted electronic tuning radio receiver. In the figure, 1 is an antenna, 2 is a high frequency stage (RF), 3 is a mixer (MIX), 4 is an intermediate frequency stage (IF), 5 is a detection circuit (DE).
T), 6 is a low frequency amplifier (AFAMP), 7 is a speaker, 8 is a receiving local (LO), 9 is a phase locked loop (PLL), 10
Is a low pass filter (LPF), 11 is a microcomputer (MPU), 12 is a key matrix, 13 is a display, 1
4 is an A / D converter, 15 is a variable resistor, and Vc is a regulated voltage of about 5V obtained from the battery voltage + B through the regulator.

In the radio receiver of this example, when the division ratio of PLL9 to MPU11 is set, the frequency of LO8 is determined by the closed loop composed of LO8, PLL9, and LPF10, and the tuning frequency of RF2 is determined. MPU
Reference numeral 11 changes the frequency division ratio of the PLL 9 by the input of the key matrix 12, and changes the display (frequency or channel display) of the display 13 at that time.

FIG. 5 shows a specific example in which the display 13 is a fluorescent display tube.
A is an anode of each segment, G is a grid, and H is a heater. The MPU 11 writes display data for each segment into the output register REG, and turns on the corresponding segment with 1 of the data (0 is off). FET is a driver transistor that drives the anode A. However, in this example, + B is not always applied to the grid G, but is applied only when 1 is written in the corresponding bit of the register REG. FET 'is the driver transistor. By doing so, the segment is lit only while + B is applied to both the anode A and the grid G.

In this case, the brightness is proportional to the duty t / T in the duty control method in which the time for applying + B to the grid G is continued and the lighting time t and the extinguishing time (T−t) are generated within the constant period T. Therefore, if t is changed according to the input voltage V, it is possible to perform extremely fine brightness control. FIG. 6 is a flowchart of this duty control. The dimmer SW is included in the key matrix 12 of FIG. 4, and when this SW is off, it activates the interval timer. The interval makes one program time, and the interval time (T) = lighting time (t) + extinguishing time (T-t).

[Problems to be solved by the invention]

Since the duty control described above is based on the input voltage V, if there is a ripple in the voltage Vc, it also affects the input voltage V and causes a slight luminance variation (flicker). According to the present invention, the conversion characteristic of the input voltage to the luminance is stepwise and has a hysteresis so that the luminance is not changed by the fluctuation of the input voltage such as a ripple.

[Means for solving problems]

The present invention, a variable resistor for dimmer control that divides the power supply voltage, an A / D converter that converts the input voltage from the variable resistor into a digital value, and a microcomputer that reads the output digital value of the converter, A display unit of a vehicle-mounted device that is display-controlled by the computer,
The computer duty-controls the brightness of the display unit based on the input voltage converted into a digital value, changes the brightness with respect to the input voltage stepwise, and imparts a hysteresis characteristic to the step change. It is a feature.

[Action]

FIG. 1 is a diagram for explaining the principle of the present invention, in which the horizontal axis represents the input voltage V and the vertical axis represents the luminance L. The input voltage V is continuously changed by the variable resistor 15 shown in FIG. 4, but the luminance L is changed stepwise. However, when the voltage rises, the characteristics shown by the solid line are followed, and when the voltage drops, the characteristics shown by the broken line are provided to provide hysteresis. For example, the voltage V is increased by one step brightness if exceeds the V ₂ from L ₁ to L _2, the L ₂ on the broken line characteristic from here to the voltage V becomes V ₁ hereinafter be reduced to V ₂ or less maintain. Further, since the to over V ₃ also exceeds the V ₂ remains at L _2, is the hysteresis width one step at and below the V ₂ eventually is formed, resulting luminance variation for ripple within this range Disappear.

〔Example〕

FIG. 2 is a flowchart showing an embodiment of the present invention. When the dimmer SW is turned on, the input voltage V is digitally converted through the A / D converter 14, and the present value and the previous value (stored in the memory). If there is no change,
If the voltage rises, the up data is set, and if the voltage falls, the down data is set. This has two types of tables (solid line and broken line) showing the conversion characteristics of the input voltage to the luminance as shown in FIG. You can put it out. Then, when the luminance data is obtained, the lighting time and the extinguishing time are calculated, and the processing of FIG. 6 is interrupted.

〔The invention's effect〕

As described above, according to the present invention, by manually operating the variable resistor for dimmer control, the brightness of the in-vehicle device display section can be switched in multiple stages according to the ambient brightness, and the brightness can be changed. Even if there is a ripple in the brightness specifying voltage set by the resistor, there is an advantage that the brightness fluctuation (flicker) can be prevented.

[Brief description of drawings]

FIG. 1 is a diagram for explaining the principle of the present invention, FIG. 2 is a flow chart showing an embodiment of the present invention, FIG. 3 is a conversion characteristic diagram of input voltage vs. luminance, and FIG. 4 is a vehicle-mounted receiver equipped with a dimmer circuit. FIG. 5 is a block diagram of the machine, FIG. 5 is a block diagram of the display, and FIG. 6 is a flowchart of duty control. In the figure, 11 is a microprocessor, 12 is a key matrix,
13 is a display, 14 is an A / D converter, and 15 is a variable resistor.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (56) References JP-A-62-241744 (JP, A) JP-A-62-134344 (JP, A) JP-A-62-134345 (JP, A) Actual development Sho-61- 59454 (JP, U) Actual opening 61-73447 (JP, U) Actual opening Sho 59-75217 (JP, U) Actual opening Sho 59-95218 (JP, U) Actual opening Sho 56-15600 (JP, U) Actually open 61-101049 (JP, U) Actually open 58-168937 (JP, U)

Claims (1)

[Claims] 1. A variable resistor for dimmer control for dividing a power supply voltage, an A / D converter for converting an input voltage from the variable resistor into a digital value, and a microcomputer for reading an output digital value of the converter. A display unit of a vehicle-mounted device that is display-controlled by the computer, the computer duty-controlling the brightness of the display unit based on the input voltage converted into a digital value,
A dimmer circuit for a vehicle-mounted device display section, characterized in that the luminance with respect to the input voltage is changed stepwise and the step change is given a hysteresis characteristic.