The fingerprint algorithm extracts features from the acquired fingerprint image and represents the fingerprint information. The storage, comparison, and search of fingerprints are all done by operating fingerprint features.
Fingerprint processing includes two processes: fingerprint registration process and fingerprint matching process (in which fingerprint matching is divided into fingerprint comparison (1:1) and fingerprint search (1:N) two ways).
When the fingerprint is registered, two fingerprints are entered for each fingerprint, and the input image is processed twice. The synthesis module is stored in the module.
When the fingerprint is matched, the fingerprint sensor is used to input the fingerprint image to be verified and processed, and then it is compared with the fingerprint module in the module (if it is matched with a module specified in the module, it is called fingerprint comparison mode, ie, 1:1 mode. If matching with multiple modules is called fingerprint search, ie 1:N mode, the module gives the matching result (pass or fail)..
Low power consumption, low cost, small size, excellent performance, Professional optical technology, precise module manufacturing technics. Good image processing capabilities can successfully capture an image up to resolution 500 dpi Finger detection function.
Caution: If you connect it with 5V in any way. The Sensor will be shorted and damaged.
Finger Print Diagram Color:
RED —Arduino 3.3V
- Integrated image collecting and algorithm chip together, ALL-in-One.
- The fingerprint reader can conduct secondary development, can be embedded into a variety of end products.
- Low power consumption, low cost, small size, excellent performance.
- Resolution: 500dpi
- Fingerprint image entry time: <1.0 seconds
- Window area: 15.3×18.2MM
- Communication Interface: USB/UART
|Fingerprint image entry time||<1.0 seconds|
|Shipment Weight||0.03 kg|
|Shipment Dimensions||5 × 3 × 2 cm|
1 x Fingerprint Scanner Sensor JM-101
1 x Connecting Cable(6-pin).