Comparison of Battery Electric Power Consumption in a Fingerprint System or a Motor Manual Lock System

PROtek : Jurnal Ilmiah Teknik Elektro Pub Date : 2023-01-07 DOI:10.33387/protk.v10i1.4285

S. Amalia, Rafika Andari, Jumadi Arif

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Abstract

Motorcycle security systems using fingerprint sensors are needed to avoid theft because of their high level of security compared to manual systems. This study underscores the importance of using this fingerprint sensor for motorcycle security. The formulation of the problem in this study is how much electricity is required in the motorcycle battery for this fingerprint security system. This system uses various components, such as the R503 fingerprint sensor, Arduino Uno, buzzer, 4-channel relay, ignition key, and motorcycle starter. Testing of this system is performed by inserting a finger in a wet, oily, dusty, or normal condition, and the result is that this sensor is capable of detecting the entire condition of the finger. Attempts to start a motorcycle with all ten fingers showed that the left index finger started faster under normal conditions, in 1.55 seconds compared to the manual method, which took 2.05 seconds longer. It also measures power consumption and calculates how long the battery can power this device. The result is that the battery can power this device for 180 hours without interruption

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指纹系统与电动手动锁系统的电池耗电量比较

与手动系统相比，使用指纹传感器的摩托车安全系统具有更高的安全性，因此需要使用指纹传感器来避免盗窃。这项研究强调了使用这种指纹传感器对摩托车安全的重要性。本文研究的问题的提法是这个指纹安防系统需要摩托车电池的电量是多少。该系统采用了R503指纹传感器、Arduino Uno、蜂鸣器、4通道继电器、点火钥匙、摩托车起动机等多种组件。通过将手指插入潮湿、油腻、多尘或正常的环境中，对该系统进行测试，结果是该传感器能够检测手指的整个状态。用十个手指发动摩托车的实验表明，在正常情况下，左手食指的启动速度更快，用时1.55秒，而用手发动的时间要长2.05秒。它还可以测量功耗，并计算电池可以为设备供电多长时间。其结果是，电池可以不间断地为该设备供电180小时

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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PROtek : Jurnal Ilmiah Teknik Elektro

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