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Readme
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readme.md
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readme.md
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@ -17,14 +17,26 @@ The RFID doorlock consists of a few components that allow us to have a offline c
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Currently, we are using Cobot to manage our membership as well as RFID card numbers (checkin tokens in Cobot parlance).
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Currently, we are using Cobot to manage our membership as well as RFID card numbers (checkin tokens in Cobot parlance).
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The doorlock consists of a Tessel microcontroller powered by node.js (JavaScript). The doorlock has an attached USB adapter with an SD card to store the member's cards (in `json` format). A USB powered RFID card reader (125khz) is plugged into the other Tessel USB port. This reader behaves like a keyboard; when a card is scanned it sends a string of card numbers as keys with a newline character.
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### Tessel Microcontroller
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The doorlock consists of a Tessel microcontroller powered by node.js (JavaScript). The doorlock has an attached USB adapter with an SD card to store the member's cards (in `json` format).
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### USB RFID Reader
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A USB powered RFID card reader (125khz) is plugged into the other Tessel USB port. This reader behaves like a keyboard; when a card is scanned it sends a string of card numbers as keys with a newline character.
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The application listens for card scan events and when one if found, it looks the card number up in a local database (the above mentioned `json` file). If it finds a card, it opens the door, if not it shows an error message.
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The application listens for card scan events and when one if found, it looks the card number up in a local database (the above mentioned `json` file). If it finds a card, it opens the door, if not it shows an error message.
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### Door Latch
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To open the door, we use a relay (or optionally a TIP120 transistor) which powers a 12v door latch. If no power is sent to the door latch, it remains locked. When it gets a 12v current it opens and allows the member entry.
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To open the door, we use a relay (or optionally a TIP120 transistor) which powers a 12v door latch. If no power is sent to the door latch, it remains locked. When it gets a 12v current it opens and allows the member entry.
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### OLED Display
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Whether a success or failure, we should details on an attached OLED display as well as when the card list updates or other unexpected issues.
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Whether a success or failure, we should details on an attached OLED display as well as when the card list updates or other unexpected issues.
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### API Member RFID Card Sync
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When the device first turns on it connects to WiFi and then fetches all the member RFID cards from the Cobot checkin token API and then updates the `json` card file. It completely overwrites the existing list of cards. If there is a failure getting the cards, we keep the original card list as a fallback.
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When the device first turns on it connects to WiFi and then fetches all the member RFID cards from the Cobot checkin token API and then updates the `json` card file. It completely overwrites the existing list of cards. If there is a failure getting the cards, we keep the original card list as a fallback.
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Eventually, we can remove Cobot and swap it with our own service if we desire.
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Eventually, we can remove Cobot and swap it with our own service if we desire.
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