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Control method of slow-charging electronic lock
The control method of the slow charging electronic lock is based on an electronic lock control system, the electronic lock control system comprises an electronic lock, a slow charging interface and a battery management system, the electronic lock is arranged at the slow charging interface, and the control end of the electronic lock is connected with the electronic lock control signal output end of a vehicle-mounted charger. A state signal output end of the electronic lock is connected with an electronic lock state signal input end of the vehicle-mounted charger, and CAN signal interfaces of the vehicle-mounted charger and the battery management system are connected with the CAN bus. The control method comprises the steps that the electronic lock is locked, specifically, the vehicle-mounted charger detects the initial state of the electronic lock after receiving a charging starting instruction, if the initial state of the electronic lock is a locked state, the electronic lock is controlled to be unlocked, after unlocking of the electronic lock is completed, the vehicle-mounted charger controls the electronic lock to be locked, and if the electronic lock is in an unlocked state, the electronic lock is controlled to be locked; the electronic lock is unlocked, wherein after the vehicle-mounted charger receives the charging stopping instruction, the electronic lock is controlled to be unlocked. According to the design, the electronic lock can be intelligently controlled during charging.
一种慢充电子锁的控制方法,基于电子锁控制系统,包括:电子锁、慢充充电接口、电池管理系统,电子锁设置于慢充充电接口处,电子锁的控制端与车载充电机的电子锁控制信号输出端相连,电子锁的状态信号输出端与车载充电机的电子锁状态信号输入端相连,车载充电机、电池管理系统的CAN信号接口均与CAN总线相连。控制方法包括:电子锁锁止:车载充电机接收到开始充电指令后检测电子锁的初始状态,若电子锁初始状态为锁止状态则控制电子锁解锁,电子锁解锁完成后,车载充电机控制电子锁锁止,若电子锁处于解锁状态则控制电子锁锁止;电子锁解锁:车载充电机接收到停止充电指令后控制电子锁解锁。本设计可在充电时对电子锁进行智能控制。
Control method of slow-charging electronic lock
The control method of the slow charging electronic lock is based on an electronic lock control system, the electronic lock control system comprises an electronic lock, a slow charging interface and a battery management system, the electronic lock is arranged at the slow charging interface, and the control end of the electronic lock is connected with the electronic lock control signal output end of a vehicle-mounted charger. A state signal output end of the electronic lock is connected with an electronic lock state signal input end of the vehicle-mounted charger, and CAN signal interfaces of the vehicle-mounted charger and the battery management system are connected with the CAN bus. The control method comprises the steps that the electronic lock is locked, specifically, the vehicle-mounted charger detects the initial state of the electronic lock after receiving a charging starting instruction, if the initial state of the electronic lock is a locked state, the electronic lock is controlled to be unlocked, after unlocking of the electronic lock is completed, the vehicle-mounted charger controls the electronic lock to be locked, and if the electronic lock is in an unlocked state, the electronic lock is controlled to be locked; the electronic lock is unlocked, wherein after the vehicle-mounted charger receives the charging stopping instruction, the electronic lock is controlled to be unlocked. According to the design, the electronic lock can be intelligently controlled during charging.
一种慢充电子锁的控制方法,基于电子锁控制系统,包括:电子锁、慢充充电接口、电池管理系统,电子锁设置于慢充充电接口处,电子锁的控制端与车载充电机的电子锁控制信号输出端相连,电子锁的状态信号输出端与车载充电机的电子锁状态信号输入端相连,车载充电机、电池管理系统的CAN信号接口均与CAN总线相连。控制方法包括:电子锁锁止:车载充电机接收到开始充电指令后检测电子锁的初始状态,若电子锁初始状态为锁止状态则控制电子锁解锁,电子锁解锁完成后,车载充电机控制电子锁锁止,若电子锁处于解锁状态则控制电子锁锁止;电子锁解锁:车载充电机接收到停止充电指令后控制电子锁解锁。本设计可在充电时对电子锁进行智能控制。
Control method of slow-charging electronic lock
一种慢充电子锁的控制方法
XIAO JUN (author) / XU YUAN (author) / ZHAO JIANSHENG (author) / BIAN XIAOGUANG (author) / ZHOU HUAN (author) / WANG BIN (author) / CHENG YAO (author) / WANG JIEXING (author) / ZHAO YONG (author)
2022-12-09
Patent
Electronic Resource
Chinese
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