为达到节能减排目的,提高摩托车发动机的燃油利用率,增强摩托车的防盗能力,设计了一种由数字点火器、远程数据收发模块与被动无钥门禁模块等组成的智能型摩托车控制器。对摩托车最佳点火时间、最佳点火提前角与发动机转速精确匹配方法进行研究,通过数字点火器来对点火提前角进行精确控制,达到发动机最大功率与最小油耗的最佳配比,有效地降低摩托车油耗,减少氮氧化物排量。采用被动无钥门禁模块来对摩托车使用者的身份进行校验,利用GPS技术对摩托车进行远程定位,通过中文名称搜索算法获得当前中文位置,多种位置查询方法使用户对摩托车的监控与管理更加灵活。测试结果表明,摩托车的定位精度高,监控效果稳定,实时性强,防盗装置有效。 In order to achieve the purpose of energy conservation and emission reduction, improve the fuel efficiency of motorcycles and enhance the anti-theft capability of motorcycles, a smart motorcycle control system consisting of digital igniter, remote data transceiver module and passive keyless entry module is designed Device. The best ignition timing of the motorcycle, the best ignition advance angle and the exact matching of the engine speed are studied. The digital ignition is used to precisely control the ignition advance angle to achieve the best ratio between the maximum power and the minimum fuel consumption of the engine, effectively Reduce motorcycle fuel consumption, reduce nitrogen oxide emissions. Passive keyless entry module to verify the identity of motorcycle users, the use of GPS technology to remotely locate the motorcycle, the Chinese name search algorithm to obtain the current Chinese location, a variety of location query method allows users to monitor the motorcycle More flexible with management. Test results show that the motorcycle positioning accuracy, monitoring and stability, real-time, anti-theft device effective.