OPTICAL FINGERPRINT READER SENSOR MODULE

د.ا 45.00

Description:

Secure your project with biometrics – this all-in-one optical fingerprint sensor will make adding fingerprint detection and verification super simple. These modules are typically used in safes – there’s a high powered DSP chip that does the image rendering, calculation, feature-finding and searching. Connect to any microcontroller or system with TTL serial, and send packets of data to take photos, detect prints, hash and search. You can also enroll new fingers directly – up to 1000 finger prints can be stored in the onboard FLASH memory. There’s a green LED in the lens that lights up during a photo so you know its working.
We like this particular sensor because not only is it easy to use, it also comes with fairly straight-forward Windows software that makes testing the module simple – you can even enroll using the software and see an image of the fingerprint on your computer screen. But, of course, we wouldn’t leave you a datasheet and a “good luck!” – we wrote a full Arduino library so that you can get running in under 10 minutes. The library can enroll and search so its perfect for any project. We’ve also written a detailed tutorial on wiring and use. This is by far the best fingerprint sensor you can get.
Usage is very simple : as long as there are serial microcontroller , embedded modules can operate this , MSP430, 51, AVR, PIC, ARM, FPGA,Raspberry Pi, Arduino controller so you can operate this module . This module is controlled through the serial port , you can use the computer’s serial port to control this module.
Products from optical fingerprint sensor , high-speed DSP processors , high-performance fingerprint matching algorithms, such as large -capacity FLASH chip hardware and software composition. The fingerprint module is stable, functional, both fingerprint , a variety of functions fingerprint registration , fingerprint matching , fingerprint search.
Application: widely used fingerprint modules , fingerprint identification systems suitable for all from high-end to low-end . For example:
Security fingerprint door locks , safes, gun cases, and finance ;
Access control systems , industrial machines , POS machines, driver training , attendance and other identity areas ;
Private club management , management software , licensing, and so on.
Overview

Secure your project with biometrics – this all-in-one optical fingerprint sensor will make adding fingerprint detection and verification super simple. These modules are typically used in safes – there’s a high powered DSP chip that does the image rendering, calculation, feature-finding and searching. Connect to any microcontroller or system with TTL serial, and send packets of data to take photos, detect prints, hash and search. You can also enroll new fingers directly – up to 1000 finger prints can be stored in the onboard FLASH memory. There’s a green LED in the lens that lights up during a photo so you know its working.

We like this particular sensor because not only is it easy to use, it also comes with fairly straight-forward Windows software that makes testing the module simple – you can even enroll using the software and see an image of the fingerprint on your computer screen. But, of course, we wouldn’t leave you a datasheet and a “good luck!” – we wrote a full Arduino library so that you can get running in under 10 minutes. The library can enroll and search so its perfect for any project. We’ve also written a detailed tutorial on wiring and use. This is by far the best fingerprint sensor you can get.

Enrolling vs. Searching

There are basically two requirements for using the optical fingerprint sensor. First is you’ll need toenroll fingerprints – that means assigning ID #’s to each print so you can query them later. Once you’ve enrolled all your prints, you can easily ‘search’ the sensor, asking it to identify which ID (if any) is currently being photographed.
You can enroll using the windows software (easiest and neat because it shows you the photograph of the print) or with the Arduino sketch (good for when you don’t have a windows machine handy or for on-the-road enrolling).

Description

Features:

  • Supply voltage : DC 3.8 ~ 7.0V
  • Supply Current : Current : <65mA
  • Peak current : <95mA
  • Fingerprint image time : < 0.5 seconds
  • Window Size : 14.5 × 19.4 mm
  • Signature File : 256 bytes
  • Template files : 512 bytes
  • Storage capacity: 1,000
  • False Accept Rate (FAR): <0.001% ( security level 3 )
  • False Reject Rate (FRR): <1.0% ( security level 3 )
  • Search time: < 1.0 seconds ( 1:500 , the mean )
  • PC Interface : UART (TTL logic level )
  • Communication baud rate (UART): (9600 × N) bps where N = 1 ~ 12 ( default value N = 6, ie 57600bps)
  • Working environment : Temperature :-20C to +60 C
  • Relative Humidity : 40% RH to 85% RH ( non-condensing )
  • Storage environment : Temperature :-40C to +85 C
  • Relative humidity : <85% H ( non-condensing )
  • Dimensions (L × W × H): 54 × 20 × 20.5mm
  • Note: The example program provides Arduino , 51 ,STM32 and MEGA16 testing procedures , PC software (VC + + to write ) .

Documents:

SynoDemo Software