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Battery Indicator Circuit For The Caravan(BF245B )

2016-05-11 02:13  
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This article briefly describes the Battery Indicator Circuit For The Caravan (BF245B). This principle is easy to understand, but also very practical. Depth understanding of circuit elements, can be more effective to grasp this principle. Do you know the circuit, for example, can understand and buy these components: BF245B , BAT85 , BC547B.

This i-TRIXXcircuit can prevent a whole lot of trouble for those of you who go on holiday in a caravan. It would be a significant damper on your holiday spirit when you are ready to leave the camping and discover that you have used your battery too much and that you are now unable to start the car. This annoyance can be avoided if you were warned early enough by an illuminatedLEDwhen the charge in the battery threatens to become too low.

A quiet, out of the way, in the countryside camping is what modern people look for to be able to unwind. However, we do not want to be completely deprived of all our creature comforts. We don’t cope very long without electric light or a TV! And in the absence of a mains power outlet the car battery has to function as energy source, with the risk that later on there will be too little left to start the engine. The little circuit presented here gives you an early warning when the battery voltage (and therefore its stored energy) threatens to become too low.

Figure:1 Caravan Battery Indicator Circuit Diagram

Figure 1 Caravan Battery Indicator Circuit Diagram

The setting of T1 and T2 determines whetherLEDD2 will light up when the battery voltage drops below a certain level. JunctionFETT3 is used as a current source in order to try to keep the current through theLEDas constant as possible. In this way the indicator remains lit even when the battery is in a state of very deep discharge (< 4 volt). TheLEDis a good low-current type that is still very bright at a very small current (1 to 2 mA). Voltage divider R1 and R2 has been calculated such that T1 will start to conduct when the voltage of the battery is greater than 12 V.

If you think this threshold is too high (or: if you think that you can still start your car with a lower battery voltage), then you can reduce the value of R2 or replace it with a 50-k preset (connected as an adjustable resistor). When T1 conducts, the base current to T2 is interrupted and the collector of T2 will become high through R4. In this state T3 does not conduct and theLEDis off. When the battery voltage drops below 12 V, T1 will block and T2 will start to conduct. R5 is now connected to ground via T2 which turns T3 into a current source of about 2 mA that drives theLED.

There is, of course, a transition region during which the current through theLEDslowly increases; after all, T1 and T2 do not switch with in?nite gain! In our prototype theLEDchanged from fully off to fully on at a voltage variation from 12 to 11 V. As a bonus, a partially illuminatedLEDgives a rough indication as to how much the voltage actually is. Diode D1 prevents the circuit from inadvertently giving up the ghost if the circuit is connected incorrectly to the battery (reverse polarity). In practice, because of variations in the specifications of the transistors, the threshold and the current level through theLEDcan be different.

Test the circuit thoroughly before using it. If you want a brighter indicator, you can increase the current through theLEDby replacing T3 with a BF245B or BF245C. When theLEDis off, the current through the circuit is barely 30 μA at a battery voltage of 14.4 V. With theLEDis on and at a battery voltage of about 10 V, the current consumption is about 2 mA. Even with an illuminatedLED, the circuit is not likely to be the cause of a flat battery. Even a good quality battery will have a self discharge rate which is many times greater than the maximum current consumption of this circuit!

 

 


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