![]() ![]() The device is based on a low-cost quad opamp Type LM324, which may be powered directly from the automobile battery.Ī comparison of the battery voltage and a reference voltage from each of the four opamp inputs generates the voltage readout. Because of its tiny size, it may be placed almost anywhere on the dashboard. The LED voltmeter discussed is generally used to track the charging and discharging of a vehicle battery. The above circuit can be also configured in the following manner: How it Works LEDs = 5mm, color as per individual preference.Circuit Diagram Parts List for the battery status monitor circuit If you want to make it respond in a "bar graph" mode, simply disconnect the cathodes of all the LEDs from the existing points and connected them all with the ground or the negative line. The shown battery indicator circuit is configured in the "dot" mode meaning only one LED glows at any instant indicating the relevant voltage level. Seal of all the presets after they are set. This should instantly shut OFF the white LED. Next apply the second higher voltage or increase the voltage to the next level which is to be monitored and adjust P2 such that the yellow LEDs just switches ON. Using a regulated variable power supply apply the first voltage to be monitored starting from the lowest value to the circuit.Īdjust P1 such that at the above level the white LED just lights up. Initially keep all the presets slider arm shifted toward the ground end so that the potential at the non inverting pins become zero. The preset should be adjusted in the following manner: The non-inverting pins of the oipamps are configured as the sensing inputs and are terminated with variable resistors or the presets. Here the inverting pins of all the four opamps are clamped to a fixed reference level determined by the value of the zener diode which is not critical and can be any value close to the suggested one in the parts list. In the proposed LED battery voltage monitor/indicator circuit all the four opamps have been used, although a few of them may be eliminated in case they are not required or depending on the specs of the individual users.Īs can be seen the circuit diagram, the configuration is simple yet the outcome too effective. This IC is much versatile than the other opamp counterparts due to its higher voltage tolerance level and due to the quad opamps in one package. The proposed battery voltage status monitor circuit using 4 LEDs makes use of comparators in the form of opamps from the IC LM324. should we be using comparator circuit ?Ģ. Circuit should be compact in nature as much as possible.ġ. I've to design a circuit which will detect and indicate the voltage o/p by colored LED lamps. the output from a transformer is 6V, 12V, 24V resp., depending on the supplied input. basically its a battery voltage detector cum indicator circuit.Ģ. I've a project, if you could help me out:ġ. Miscellaneous Easy Battery Monitor Circuits. ![]() ![]() 3) Using a LM3915 IC for the 10 Step Function.2) Modifying the above 4 status Battery Indicator with Flashing LEDs.Parts List for the battery status monitor circuit.The series of resistors connected at the inverting terminals of each op amp makes a voltage divider and exact comparing voltage is supplied to each op amp. Comparison is done between the two terminals of each op amp and accordingly output is shown. So 6 op amps are used to compare and display the appropriate level of voltage. Here for the development of the circuit, the 12V to 9V range is divided into 6 parts as 9V, 9.5V, 10V…11.5V. My point to say all these is that to monitor a 12V battery, it is sufficient to monitor the battery voltage from 12V to 9V range and a voltage below 9V should give a warning for LOW BATTERY VOLTAGE. Any inverter designed to use with a 12V battery should be comfortable to produce a constant AC output voltage during the fall of battery voltage from 12V to 9v approximately. So it is generally considered that if the output voltage of a 12V battery changes from 12V to 9V approximately, it is constant and after the voltage falls below 9V, it is considered to be discharged and need to be charged again. Practically, it is not possible and the output voltage of the battery decreases gradually as load connected to it draws current from it. Generally a 12V battery is expected to produce a 12V dc voltage all the time until it gets discharged. ![]()
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