Instrument and display lighting
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Instrument and display lighting
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So that the main instrument unit gauges, lamps and displays will be easy to read in both daylight and at night, as well as to achieve optimum bulb life, the main instrument unit's control module regulates the lighting intensity of the display according to the brightness in the compartment and the rheostat setting selected by the driver.
The rheostat is connected to the SID unit, on which the light sensor is also fitted.
The SID unit continuously sends information on the following light intensity values to the bus:
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Rheostat value, unit %.
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Rheostat value Night Panel (this value is not used by the main instrument unit).
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Light intensity in the compartment unit Lux.
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Display lighting, unit %.
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The main instrument unit uses the rheostat value to control the following instrument lighting:
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Coolant temperature gauge
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With the main lighting turned off and fuse 15 for the daylight driving lights removed, the SID unit sends out Rheostat value 0% on the bus.
Diagnosis
The function has its own diagnostics in the sending system.
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Compartment light intensity
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When the light intensity in the compartment exceeds a certain level, the SID unit sends out RHEOSTAT VALUE 0% on the bus.
To increase bulb life, the main instrument unit's control module then turns off the following instrument lighting:
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Coolant temperature gauge
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For better visibility, the brightness of the indicator and warning lamps is set to two different levels. Low brightness at night and high brightness during the day.
The SID unit sends information on compartment light intensity, unit Lux, to the bus and at a predetermined level the main instrument unit's control module changes the brightness of the following lamps.
Common to all these lamps is that they are supplied with +15 current from the main instrument unit and grounded through its control module.
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Fuel level warning lamp
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LH direction indicators
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RH direction indicators
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The brightness of the following lamps is changed between day and night in a similar way but they are all supplied with current from the component in question and grounded through the main instrument unit.
Diagnosis
The function has no diagnostics.
The SID unit calculates a suitable value for the odometer display lighting based on the rheostat value and the value of the light intensity in the compartment, which is obtained from the light sensor.
When it is dark, the lighting is controlled by the rheostat value and when the light in the compartment increases, it is controlled by the value of the light intensity in the compartment. This ensures that the odometer display will be easy to read in all lighting conditions.
SID sends the calculated value to the bus as a Display lighting value, unit %.
The main instrument unit control module uses the value to control the odometer display lighting.
Diagnosis
The function has its own diagnostics in the sending system.
