Real-time detection inductive card smart electronic lock system and control method thereof

Abstract

The invention discloses a real-time detection inductive card smart electronic lock system. The system consists of an induction card detection unit, an induction card processing unit, a data storage unit, a main control unit, a driving unlocking unit and an acousto-optic display unit. The induction card detection unit is in connection with the induction card processing unit, the induction card processing unit, the data storage unit, the driving unlocking unit and the acousto-optic display unit are all connected to the main control unit respectively, when the card is not swiped, the induction card detection unit is in a working state, the induction card processing unit and the main control unit are in a dormant state, the induction card detection unit can awake the induction card processingunit, and the induction card processing unit can awake the main control unit. Therefore, the whole system is in a standby state, only the induction card detection unit is in a work state, and other units are all in a dormant state, the inductive card response timeliness is ensured, and the standby power consumption of the system is effectively reduced.

Description

technical field [0001] The invention belongs to the field of electronic locks, in particular to an intelligent electronic lock system for real-time detection of induction cards and a control method thereof. Background technique [0002] At present, in the door lock industry, especially smart electronic locks, the smart electronic locks with the function of proximity cards generally detect the proximity cards at regular intervals, that is, when the smart electronic lock is in the standby state, it wakes up the proximity card scanning processing unit at regular intervals to detect the proximity card. This method has the following disadvantages: the interval between detecting the proximity card is long, the real-time performance is relatively poor, the power consumption is slightly low, and the user experience is relatively poor. The detection interval of the proximity card is short, the real-time performance is relatively good, the power consumption is high, and the user exper...

AI Technical Summary

Problems solved by technology

[0002] At present, in the door lock industry, especially smart electronic locks, the smart electronic locks with the function of proximity cards generally detect the proximity cards at regular intervals, that is, when the smart electronic lock is in the standby state, it wakes up the proximity card scanning processing unit to detect the proximity card at regular intervals. This method has the following disadvantages: long intervals for detecting proximity cards, poor real-time performance, low power consumption, and poor user experience

[0003] Moreover, most of the smart electronic locks are powered by batteries, and the effective working time of smart electronic locks is relatively short, and most of the time is in standby mode.

The effective working time of timing detection proximity card is also relatively short, most of the work of timing detection proximity card is invalid, wasting power in vain

Therefore, the mechanism of detecting the proximity card when the intelligent electronic lock with the proximity card function wastes most of the battery power, causing users to frequently replace the battery, and the user experience is poor

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