BIOMAT TEHNIAL HARATERISTIS FINGERPRINT READER ONNETION BIOMAT02-06112101 EN Supply voltage : 12/24v D Max. consumption : 280 ma Temperature : -20 to +50 Tightness : IP54 omplete fingerprint reader (capacitive type) Autonomous fingerprint reader to WIEGAND or ELA terminals Available in code+print or TAG+print Metal case Embedded or surface installation Backlit keypad, for intensive use Proximity reader incorporated Memory of up to 300 users Up to 3 fingerprints per user Two 5 A output relays WIEGAND connection onnection to RS485-ELA bus Self protección 1 pushbutton input 1 door sensor input 2 LEDs available (red and green) Light and sound indicators Light indicators for reading right-and left-handed fingerprints Detection of forced door and maximum opening time Option of opening and controlling the alarm simultaneously option of connecting an external programmable timer. Relay 2 Relay 1 Green indicador Red Indicador Supply voltage 12/24 v D Lighting Pushbutton BP Door GT + - + - - + High position: N Normal keypad operation Factory setting: Position N M1 M2 M3 M4 N P Self protección A-P A Bus ELA B RS-485 DATA1 DATAØ WIEGAND Programming bridge Low position: P Allows access to the memory without having to key the master code PROGRAMMING OF MASTER ODE EMERGEY PROEDURE The source code is 000 on leaving the factory to program a NEW MASTER ODE, key in 000 and validate with P The yellow light comes on Key in 0 then 000 key in your new master code (1-8 digits) Validate with key A. Press P to exit programming mode. Example: 5823 Key in 0 then 000 Key in 5823 validate with A and P The yellow light goes off OPYING MEMORIES 1- Turn off the power 2- Put virgin memories in I4, I5 3- Reconnect the power 4- Enter programming mode 5- Press 4 444 (emits a long beep) A 6-I4 is a copy of I2. I5 is the copy of I3 READING A FINGERPRINT 1- Put the finger on the reader when the yellow pilot lights flicker 2- The print has been read when the yellow pilot lights stop flickering 3- If the red lights come on, the print is not being read well. Reposition the finger IF YOU LOSE OR FORGET YOUR MASTER ODE, THIS OPERATION ALLOWS YOU TO ENTER THE PROGRAM AND INPUT A NEW ONE: 1) Disconnect the power supply and wait 5 seconds, 2) Put the programming bridge in the low position P 3) Reconnect the power supply (BEEP, BEEP, BEEP), 4) Put the programming bridge in the high position N, the yellow light comes on, 5) Press key 0 then 000, 6) Key in the master code you want (1 to 8 digits), 7) Validate the operation with key A 8) Press key P to exit programming. ELETRO-LOK ONNETION DIRET URRENT Diode BY 251 Electro-lock ALTERNATE URRENT IMPORTANT!! Do not install 2 proximity readers less than 0.5 m apart. You can only read the same TAG a second time after 3 seconds. Varistor of correct voltage Electro-lock ~ ~
AUTOMOUS MODE -WIEGAND - If fingerprints have not been programmed, BIOMAT works as a reader or simple keypad. - When a correct identification is made (with or without print), the keypad code or TAG is sent via the Wiegand output and the corresponding relay is activated. - In integrated mode, when relay 1 is activated relay 2 goes to ON LOK MODE: In LOK mode, by connecting the contact of a clock to the BP terminals of the circuit. In other words, if this contact closes, the first 150 users will be cancelled... As soon as this contact is open again, everything returns to normal. INTEGRATED MODE: operates the door and the alarm at the same time. Installation: - Relay 1: door - Relay 2: alarm unit Operation: - To open, key in user 001 to 150 - To close, mark the el integrated code on the keypad, then present user 001 to 150 (30 seconds to do this) FORED DOOR MODE: If the door contact is opened and relay 1 is not active, an alert will be triggered by activating relay 2 Wire up a door detector at the GT input. MAXIMUM OPENING TIME: If the door stays open longer than the programmed time, relay 2 switches. Wire up a door detector at the GT input. The time is indicated in tenths of seconds. 003=30 s. Max. 2400 seconds WIEGAND FORMAT The entered codes are complemented with a 0 to the left, until 8 digits are completed and converted to hexadecimals. Example: 1234 code keypad at (000004D2H) is stored in the memory in Wiegand mode. In Wiegand mode, the 3 bytes with less weight are sent as hexadecimals. ELA MODE - To enter system programming mode, switch off the power supply before accessing via the P-N bridge (see Emergency Procedure ) - If no fingerprints have been programmed, BIOMAT functions as a reader or an ELA keypad. - During user programming, BIOMAT cannot communicate with the ELA unit and peripheral error will be shown. FORED DOOR MODE contact wired in the door input GT. The input ratio is executed in IN1. Program by putting parameter P to 1 on the PERIPHERALS menu of the unit. MAXIMUM OPENING TIME: If the door stays open longer than the programmed time, the entry list is executed in IN2 Wire up a door detector at input GT. The time is indicated in tenths of a second. 003=30 s. Max. 2400 seconds DEGRADED MODE - When a correct identifiction is made (with or withourt fingerprint), the keypad code or TAG is sent via the ELA output, but if the unit does not respond and degraded mode is programmed the corresponding relay will be activitated without an order from the unit, provided that the user in question is in the local memory of BIOMAT). The degraded mode is activated after 10 s of ininterrupted BUS. SAFETY BLOK After 5 wrong codes. The entry list is executed at IN5. The reader will also block for 5 minutes. Relay 1 can be activated with the NA pushbutton (wired at the BP pushbutton input) ELA FORMAT The keypad codes and TAGs are directly stored in hexadecimals. Example: 1234 keypad code => (1234FFFFH) is stored in the memory in ELA mode ATTENTION!: odes programmed in ELA mode will not work in AUTOMOUS-WIEGAND mode PROGRAMMING A PERIPHERAL The ID number cannot be programmed from the unit if ELA mode is not in use. The power supply should not be cut off. 1) Put the programming bridge in the low position (P). The yellow light flickers. 2) Put the programming bridge in position N, the yellow light stays on. 3) Program the operating parameters of the peripheral from the central unit. TE: You have a maximum of 4 minutes to do this. The yellow light goes out at the end of the process. TE: A peripheral will only work if it is programmed. If not, it could affect the installation. 2 yellow flashes => identification accepted More than 2 successive yellow flashes => identification rejected More than 2 delayed yellow flashes => communication error ONNETION TO BUS RS 485 ELA PERIPH N 30 A B Rt INSTALLATION Up to 30 peripherals 1 km max PERIPH N 1 Ensure that the most distant peripheral never receives voltage below 12 V. Some precautions are necessary: Either: Select a cable with the right cross-section or : Power the peripheral where it stands. A B ENTRAL UNIT Rt A B
PROGRAMMING INSTRUTIONS Before starting to program you have to define the operating mode: Wiegand (7-40) or ELA (7-41). XXXXXXXX : User code (1-8 digits) UUU user umber, (001-300) R=0 Does not activate relays R=1 Activate relay nº1 R=2 Activate relay nº2 R=3 Activate relays nº1 and 2 TTT : Time from 000 to 240 PROGRAM MASTER ODE : PROGRAM USER ODE : Specifying user, relay and code PROGRAM USER TAG : Specifying user, relay and code 0 000 XXXXXXXX A 0 UUU R XXXXXXXX A 6 UUU R A Present TAG PROGRAM TIME RELAY 1 : 1 TTT A (max. 240 s) (000 = start/stop) PROGRAM TIME RELAY 2 : 2 TTT A (max. 240 s) (000 = start/stop) PROGRAM MAXIMUM OPENING TIME : 3 TTT A (max. 2400 s) (000 = cancelled) PROGRAM USER FINGERPRINT (simple reading): 8 UUU A Present fingerprint once Emits as many beeps as the user has fingerprints PROGRAM USER FINGERPRINT (triple reading): The triple reading allows a more efficient reading of the fingerprint, reducing the number of rejected prints Emits as many beeps as the user has fingerprints 5 UUU A Present same print 3 times A user can have up 3 different fingerprints. It is sufficient to repeat the user fingerprint programming. OPERATING MODES : 7 MM A MM=11 clock mode / MM=10 cancel clock mode MM=21 integrated mode / MM=20 cancel integrated mode MM=31 forced door / MM=30 cancel forced door MM=41 ELA mode / MM=40 WIEGAND-26 mode MM=51 degraded ELA mode / MM=50 cancel degraded ELA mode PROGRAM INTEGRATED MODE : ERASE USER AND FINGERPRINTS : ERASE ALL USERS : ERASE INTEGRATED ODE : 0 888 XXXXXXXX A 9 UUU A 9 999 (emits a long beep) A 9 888 A TOTAL RESET (on leaving factory) : 9 943 (emits a long beep) A OPY MEMORIES : 4 444 (emits a long beep) A
DISASSEMBLY INSTRUTIONS ASSEMBLY INSTRUTIONS SURFAE INSTALLATION : 1- Mark the points using the metal case 2- Drill the 4 holes 3- Screw in the metal case 4- Assemble the back, front and frame of the reader 5- Introduce and screw in the reader to its metal case EMBEDDED INSTALLATION : 1- Mark the points with the help of the template 2- Drill the 2 holes 3- ut perimeter of back of reader 4- Go 3 cm into the wall 5- Assemble the back, front and reader frame 6- Put the reader on the wall and drill it in The keypad can be hidden by the cover This is advisable when users are identified by proximity TAGs The keypad is kept for programming purposes.
TEMPLATE
FINGERPRINT PROGRAMMING All the prints are not valid por the identification. The white cuts, wounds, points, skin too dry or lines (minucies) too fine, make difficult the reading orrect fingerprints Not recommended fingerprints To ensure good readings, the finger should be clean and dry. Keep the finger in a good position without moving it for sufficient time. orrect finger posiition Incorrect finger positions For a user with a good fingerprint, programming by single reading will be sufficient. Triple reading allows a more efficient reading of the fingerprint and reduces the level of rejects (in the case of injured or 'defective' fingers). Users have the option of programming up to 3 different fingerprints (through single or triple reading), but if an user does not have a fingerprint in good condition the programming of the same fingerprint can be repeated at a slightly inclined angled to improve identification. After programming the fingerprints, check the identification several times to ensure that no rejects occur. If the identification is still difficult, reprogram the fingerprint or use another finger. The fingerprint sensor should be kept clean and dry. To do this, use a fine and clean cloth dampened in alcohol or water. To dry the surface well, use a fine and clean cloth.