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B100 EN Biometric Reader v. b3 USER’S MANUAL 1 Contents 1. DESCRIPTION 2 2. SPECIFICATIONS 3 3. MOUNTING 3 4. WIRING 3 5. CONNECTING BIOMETRIC READERS TO EWS CONTROLLER 4 4 5 5 5.1 CONNECTING BIOMETRIC READERS IN SAME RS485 LINE WITH THE EWS CONTROLLERS 5.2 CONNECTING BIOMETRIC READERS WHEN ALL THE CONTROLLERS HAVE TCP/IP COMMUNICATION 5.3 RS485 TUNING 6. CONNECTING BIOMETRIC READERS TO 3RD PARTY CONTROLLER 6.1 CONVERTERS PIN DESCRIPTION 7. ENROLLMENT 8. CONFIGURING THE BIOMETRIC READERS IN PROS SOFTWARE 8.1 ADDING BIOMETRIC READER 8.2 ENROLLING FINGERPRINTS FROM A READER 8.3 ENROLLING FINGERPRINTS FROM DESKTOP READER 8.4 DELETING FINGERPRINTS 8.5 UPLOADING THE FINGERPRINTS TO THE BIOMETRIC READERS 8.6 FIRMWARE UPDATE 8.7 SEND CONFIGURATION 8.8 ADVANCED SETTINGS 9. CONFIGURING THE BIOMETRIC READERS IN BIOMANAGER 6 6 6 7 7 8 9 10 10 11 11 11 9.8 CUSTOM WIEGAND 12 12 12 13 13 14 15 15 16 10. WIEGAND PROTOCOL DESCRIPTION 17 11. SAFETY PRECAUTIONS 18 9.1 ADD PORTAL 9.2 ADD READER 9.3 EDIT READER 9.4 DELETE READER 9.5 ADD USER 9.6 DELETING FINGERPRINTS 9.7 UPLOADING THE FINGERPRINTS TO THE BIOMETRIC READERS 1. DESCRIPTION B100 is a Wiegand biometric reader for access control applications. It offers storage up to 100 fingerprints and programmable Wiegand Output (8 to 128 bits). Configuration of the readers and fingerprint enrollment is done through PC Software. Connection between the biometric readers is RS485 and it is used for fingerprint transfer and configuration. When used with third party controllers, the connection between the Biometric readers and the PC is done through a converter (CNV200-RS485 to USB or CNV1000-RS485 to TCP/IP). Only one converter is needed per system (one converter for 1, 2, 3...30, 31 Biometric readers) The tamper switch output can trigger the alarm system, if an attempt is made to open or remove the unit from the wall. The sensor incorporates dedicated sensing hardware to facilitate the detection of “spoofing” attacks based on fake fingers. This data is embedded into the image data stream, and is processed on the processor. The system is capable of detecting and defeating well-known fake finger mechanisms, such as molded “gummy” fingers. The coating on the surface of the TouchChip sensor provides protection from scratching and abrasion due to normal contact with fingertips and any incidental contact with fingernails. 2 2. SPECIFICATIONS Fingerprint capacity Technology Authentication Fingerprints per user Interface Protocol programming Cable distance Fingerprint Sensor Type 1:1000 identification time Fingerprint enrolment Green and Red LED Orange LED Buzzer ON/OFF Backlight ON/OFF Tamper Consumption IP Rating Power supply Operating Temperature Dimensions (mm) Storage/Operating Humidity up to 100 fingerprints Biometry Finger 1-10 fingerprints Wiegand 8 to 128 bits; Default: Wiegand 26bit By PROS CS software (EWS system) and BIOMANAGER CS (all access control systems) 50m Swipe Capacitive 970 msec, including feature extraction time On the reader or from the USB desktop reader Externally Controlled Idle mode Yes Yes Yes 100mA 65 9-14V DC -20°C to +50°C 92 x 51 x 25 (metal); 92 x 51 x 27 (ABS) 5% to 93% RH without condensation 3. MOUNTING 1. 2. 3. 4. MC-MINI 30mm Ø6.0(3NoS) Cable 5mm 1 (M3 x 6mm) 3 (3 x 30mm) If the biometric reader is installed and used outdoor, the reader MUST be fitted with the MC-MINI metal cover available in our accessories in order to protect the sensor from direct rainfall. The operating temperature of the product is between -20ºC - + 50ºC. If the reader is installed in an environment where the temperature can drop below -10ºC or/and if the sensor could only be exposed to direct sunlight, it is strongly recommended to install the reader inside a third party sealed wall mount box (fitted with additional heater if very low temperature) to keep a constant sensor level performance. XPR™ cannot guarantee the functionality of the product if measures and advice before are not followed. It is also strongly recommended to use double technology biometric readers when use outdoor to offer first higher security but also the possibility to use different readers depending on users. 4. WIRING Red Black Pink Violet Blue Gray Green Orange Yellow White 12V DC GND A RS485 B Tamp LGLRD1 WIEGAND D0 12V DC 9-14V DC GND ground A RS485 A B RS485 B LR- Red LED - LG- Green LED - D1 Data 1 D0 Data 0 Tamper Tamper Switch(NO) Tamper Tamper Switch(NO) 3 5. CONNECTING BIOMETRIC READERS TO EWS CONTROLLER - The Biometric readers can be connected to virtually any controller that conforms to Wiegand format standards (standard Wiegand 26bit or self-defined Wiegand). - The lines D0 and D1 are the Wiegand lines and the Wiegand Number is sent through them. - The RS485 line (A, B) is used for fingerprint transfer and reader settings. - The Biometric readers must be powered from the controller. - If you use different power supply for the biometric reader, connect the GND from the both devices to ensure correct transfer of the wiegand signal - When you have connected the reader and powered on, the LED should flash in orange light + 2 beeps. This lets you know it's on and ready for use. - Fingerprint enrollment is done from the PC Software. Connection between the Biometric readers and the PC must be established. A A ZD2 Earth L7 NO3 COM NC3 NO4 COM NC4 J1 NO1 COM NC1 NO2 COM NC2 RE4 RE3 RE2 Door 2 Door 1 RE1 ICN2 Free Out 1 Free Out 2 A A LD9 LD8 R35 A D3 L2 C28 IC7 D1 D0 12V out GND LD13 A C29 C27 Free Led 2 IC8 L6 ZD1 R1 R13 R2 FUSE1 LD6 R33 IC3 R16 C6 C1 C32 R45 C18 R25 RoHS R34 R38 IC5 R53 R15 R24R49 18 R 22 D2 C16 LD15 R C12 L5 Free R47 Led 1A LD20 C43 R19 L8 ZD4 R3 R14 R4 ZD3 L9 ICN1 C13 R20 R36 RX3 RX4 U5 R48 D5 D10 R37 D1 D0 12V out GND C33 Free R55 Led 2 LD16 GND A U4 LD14 Free R46 Led A1 TCP/IP R9 IC6 ZD5 ZD6 A A GND Door Sensor2 R10 Door Sensor1 L11 L10 C34 C3 Exit Button2 L3 C15 C44 Ser No: 11-04-16-013 Mac: 00-04-A3-16-90-D R11 C2 GND C45 X1 X3 C5 R17 3 3 6 1 1 1 0 1 3 1 Exit Button1 U1 LD21 PB1 gnd PB2 DS1 gnd DS2 R50 R54 IC1 C42 IC11 R21 IN1 IN2 IN2 12V IN1 + - + - 50m. max L4 C41 BAT 12Vdc Out R7 Free In 1 IC15 + IC12 Free In 1 IC2 In 2 + Free Free In 2TAS1 R6 R23 R28 System OK IC1 FUSE2 Rb6 LD23 Busy Tx Rx R62 LD22 A LD18 LD19 R5 C4 A LD17 LD5 R32 A A D13 C40 H1 Earth screw Fuse A B gnd led1 led2 gnd 12V D0 D1 led1 led2 gnd 12V D0 D1 gnd12V pink A violet B green LGorange LRblack GND red +12V white D0 yellow D1 5.1 CONNECTING BIOMETRIC READERS IN SAME RS485 LINE WITH THE EWS CONTROLLERS Jumper for RS485 termination TCP/IP gnd 1 km max / 32 Units (EWS + Biometric Readers) Stub max. 5m 50 ohm gnd RS485 50 ohm The Biometric readers are connected through RS485 bus. The same RS485 bus that the EWS controllers are connected to. Maximum units in one network (EWS + Biometric readers) is 32. If there are more than 32 units in one network, please utilize RS 485 HUB to connect. The RS485 Line should be configured in the form of a daisy chain, NOT in a form of a star. If star must be used in some points, keep the stubs from the RS485 backbone as short as possible. Maximum length of the stub is dependant of the installation (total number of devices in RS485 line (total cable length, termination, cable type...) so recommendation is to keep stubs shorter than 5 meters, keeping in mind that this can be possible reason for errors in communication with PC software The cable must be twisted and shielded with a min. 0.2 mm2 cross section. Connect the ground (0V) of each unit in the RS 485 Line using a third wire in the same cable. The shield of the communication cable between two devices must be connected to the EARTH from ONE side of the RS 485 Line. Use the side that has earth connection to the building’s grounding network. 4 5.2 CONNECTING BIOMETRIC READERS WHEN ALL THE CONTROLLERS HAVE TCP/IP COMMUNICATION TCP/IP Switch 50m max. 50m max. 50m max. When all the controllers are connected via TCP/IP, then the RS485 network becomes local (from Reader 1 to the Controller then to the Reader 2). Connect the readers directly to the Rs485 terminals in each controller. If the distance Reader-Controller is high (50meters) and if the communication with the reader can not be established, then terminate the RS485 network by closing the jumper in the EWS Controller or as described in chapter 5.1. NOTE: This is recommended configuration when you have multiple biometric readers in the same network. In this configuration, NO TERMINATION resistors are required. When all the controllers have TCP/IP communication the biometric readers are easily wired. When the controllers have RS485 communication, it is difficult to maintain the daisy chain of the RS485 network. Wiring the biometric readers in that formation is a challenge. See the schematic diagram bellow. RS485 RS485 5.3 RS485 TUNING Jumper for RS485 termination TCP/IP gnd 1 km max / 32 Units (EWS + Biometric Readers) Stub max. 5m 50 ohm gnd RS485 50 ohm RS485 Termina on resistors: - Terminate both ends of the line with 120 Ohm resistor. If end of line is EWS, use built in resistor (120 ohm) by closing the jumper. - If the communica on is not established and stable, use the external resistors provided in the hardware kit. When using CAT 5 compa ble cable, in most of the cases, termina on made with 50 Ohm external resistor or combina on of 50 Ohm external and termina on resistor from the EWS (120 Ohm) should be the solu on. 5 6. CONNECTING BIOMETRIC READERS TO THIRD PARTY CONTROLLERS 3rd party controller - + D0 D1 3rd party controller - + D0 D1 - + D0 D1 - + D0 D1 B100PROX-USB RS485 A A RS485 B B USB Desktop Reader CNV200 optional CNV1000 BIOMANAGER CS Software Connect the lines D0, D1, Gnd and +12V to the third party controller. Connect the RS485 Line (A, B) to the converter. Connect the converter in the PC. Fingerprint enrollment is done from the PC Software. Connection between the Biometric readers and the PC must be established. The Biometric readers communicate with each other with a RS485 and with the PC Software through a Converter. The RS485 Line should be configured in the form of a daisy chain, NOT in a form of a star. Keep the stubs from the RS485 backbone as short as possible (not more than 5 meters) Only one converter per installation is needed, not per reader. 6.1 CONVERTERS PIN DESCRIPTION PIN 1 CNV200 Converter RS485 to USB Requires installation as USB serial device (refer to CNV200 Manual). CNV1000 Converter RS485 to TCP/IP Does not require installation. IP address set through Internet Browser Biometric Reader Converter RS 485 A PIN 1 (RS 485 +) RS 485 B PIN 2 (RS 485 -) 7. ENROLLMENT Follow the below instructions for correct finger swiping Starting from the first finger joint, place the selected finger on the swipe sensor and move it evenly towards oneself in one steady movement. Result: For a valid swipe: Tricolour Status LED turns green + OK Beep(short + long beep) For an invalid or misread swipe: Tricolour Status LED turns red + Error Beep ( 3 short beeps) 6 8. CONFIGURING THE BIOMETRIC READERS IN PROS CS SOFTWARE 8.1 ADDING BIOMETRIC READER 1. Expand the Door item to view the readers 2. Right click on the reader and select properties (8.1) 3. In the Basic tab, for “Type” of the Reader select “B100”. (8.2) 4. After selecting the type, a third tab will appear “Biometric”. Go to that tab and put the serial number of the Biometric Reader. (8.3) Important Note: The serial number of the reader can be found on a sticker inside the reader, on the packaging box and it can be search from the software (right click on the portal/search devices/readers). (8.4 & 8.5) To check if the reader is On Line, right click on the reader and select “Check version”. In the Event Window a message should appear “Device ON Line, Type: B100” (8.6) BIOPAD-M B100 8.1 8.5 8.3 8.2 8.4 8.6 7 8.2 ENROLLING FINGERPRINTS FROM A READER 1. Open the Users Window and create a new user. Click on “New User”, put a name and ID(card number). (8.7) 2. Go to the “Biometric” Tab 3. Select the reader(with left click) from which the enrollment will be done. (8.8) 4. Right click on the fingertip and select enroll. (8.9) 5. In the next 25 sec. swipe the finger on the selected reader min. 5 times and the finger tip will turn red. (8.10) x5 In these 25 sec. the reader will continuously blink in orange. 6. Repeat point 4&5 for each finger that should be enrolled. 7. Click on “Save New” and the fingerprint will be sent automatically to all Biometric Readers where that user has access, i.e. to all the readers according to the Access Level assign to that user. Example: If the user has “Unlimited” Access level then the fingerprints will be sent to all readers, if the user has Access level only for Reader1 and Reader 3 then the fingerprints will be sent only to those two readers. Note: To check if all the fingerprints are sent to the reader, right click on the reader and select “Memory Status”. (8.11) In the event window a line will appear indicating the number of fingerprints stored in the reader. (8.12) Note: If more fingerprints are added for one user, all fingerprints will send the same Wiegand Code to the controller, the one written in the field User ID(card Number). 8.9 8.8 8.7 8.10 8.11 8.12 8 8.3 ENROLLING FINGERPRINTS FROM DESKTOP READER Plug the Swipe Desktop Reader in the PC. If the device is not installed automatically use the drivers located on the CD provided with the Biometric reader. It is installed in the same way as a USB Device. When the desktop reader has been installed it will automatically appear in the Software. (8.13) 1. Open the Users Window and create a new user. Click on “New User”, put a name and ID(card number). (8.7) 2. Go to the “Biometric” Tab 3. Select the USB Swipe desktop Reader (with left click).(8.8) 4. Right click on the fingertip and select enroll. (8.9) x5 5. In the next 25 sec. swipe the finger on the selected reader min. 5 times and the finger tip will turn red. (8.10) In these 25 sec. the reader will continuously blink in orange. 6. Repeat point 4&5 for each finger that should be enrolled. 7. Click on “Save New” and the fingerprint will be sent automatically to all Biometric Readers where that user has access, i.e. to all the readers according to the Access Level assign to that user. Example: If the user has “Unlimited” Access level then the fingerprints will be sent to all readers, if the user has Access level only for Reader1 and Reader 3 then the fingerprints will be sent only to those two readers. Note: To check if all the fingerprints are sent to the reader, right click on the reader and select “Memory Status”. (8.11) In the event window a line will appear indicating the number of fingerprints stored in the reader. (8.12) Note: If more fingerprints are added for one user, all fingerprints will send the same Wiegand Code to the controller, the one written in the field User ID(card Number).). 8.9 8.13 8.7 8.10 8.11 8.12 9 8.4 DELETING FINGERPRINTS In General, the fingerprints are stored in the Biometric reader and in the Software. Deleting can be done only in the readers or from both places. Deleting one user from the biometric reader Select the User Click on “Delete User”. The User together with its fingerprints will be deleted from both the software and the fingerprint readers. (8.14) Deleting all users from the biometric reader Right click on the reader and select “Delete all users from reader” (8.15) Delete one or more fingerprints Select the User and open the “Biometric” tab Go to the fingertip that needs to be deleted, right click and select ”Delete” for one finger or “Delete All” for all fingers of the User. Click “Save Changes”. With this procedure the User's fingerprints are deleted from the software and from the reader. (8.16) 8.15 8.14 8.16 8.5 UPLOADING THE FINGERPRINTS TO THE BIOMETRIC READERS Right click on the biometric reader Select “Upload all users to reader” While receiving the fingerprints the reader will blink in orange. Note: Use this feature when you change or add a reader, if pending tasks are deleted in the software or if there are doubts that fingerprints in the reader memory are not synchronized with the software database. In normal usage, the fingerprints are sent automatically and this feature is not used. 8.17 8.12 10 8.6 FIRMWARE UPDATE Right-click on the reader and select Firmware update menu (8.18) On the Firmware update window, click on the Browse button (8.19). The default location of the firmware files installed with PROS CS is in the folder "Firmware". Select the firmware file with a "xhc" extension. Click on the Upload button Important: Wait for the update end message. Do not turn off the reader, the software or any communication device in between during the entire process. 8.18 8.19 8.7 SEND CONFIGURATION · Right-click on the reader and select the Send configuration menu · See the events panel to check the configuration flow Note: The biometric reader gets its settings automatically. This function is used if the reader was off line while making the changes. 8.8 ADVANCED SETTINGS Send This ID for: Unknown Finger sends the desired Wiegand when an unknown finger is applied. Backlight: Backlight of the device (ON or OFF) Buzzer: Buzzer of the device (ON or OFF) Finger Acceptance Flexibility: Accepted tolerance. The recommended value is “Automatic Secure”. 8.12 11 9. CONFIGURING THE BIOMETRIC READERS IN BIOMANAGER BIOMANAGER CS is software for fingerprint management of XPR Biometric readers, when used with third party access controllers. Main functions: - Fingerprint Enrollment It can be done by ANY Biometric reader in the network or by Desktop (USB) Biometric reader. - Fingerprint Transfer Finger templates can be sent to any Reader in the Network. Different Users can be sent to different Biometric readers. - PIN Codes management and transfer PIN Code length configuration (1 to 8 digits) and PIN Code transfer. - Wiegand Output Configuration The Wiegand output of the Biometric reader can be customized bitwise. 9.1 ADD PORTAL 9.1 9.2 Right-click on “Portal” and select “Add Portal”. If the converter used for the Biometric Readers is RS485 to TCP/IP converter, then create Portal by adding the IP Address of the converter.(9.1) If the converter used for the Biometric Readers is RS485 to USB converter, then create Portal by adding the COM port of the converter.(9.2) 9.2 ADD READER Right-click on the portal connected to the reader and select Add reader Fill the Reader form Click on Save and the reader icon appears under the selected portal Right-click on reader and select Check Version 8.12 12 If reader is online, new line is added on top of the event table If reader is not online, following line is added on top of the event table If reader is online, right click on reader and select Upload configuration Check at event table if configuration was successful 9.3 EDIT READER Right-click on the reader and select Properties Check at event table if configuration was successful Edit reader properties and click Save button 9.4 DELETE READER Right-click on the reader and select Delete reader 8.12 13 9.5 ADD USER 1. Open the Users Window and create a new user. Click on “New User”, put a name and ID(card number). (8.7) 2. Select the reader(with left click) from which the enrollment will be done. (8.8) 3. Right click on the fingertip and select enroll. (8.9) 4. In the next 25 sec. swipe the finger on the selected reader min. 5 times and the finger tip will turn red. (8.10) x5 In these 25 sec. the reader will continuously blink in orange. 5. Repeat point 4&5 for each finger that should be enrolled. 6. Click on “Save New” and the fingerprint will be sent automatically to all Biometric Readers where that user has access, i.e. to all the readers according to the Access Level assign to that user. Example: If the user has “Unlimited” Access level then the fingerprints will be sent to all readers, if the user has Access level only for Reader1 and Reader 3 then the fingerprints will be sent only to those two readers. Note: To check if all the fingerprints are sent to the reader, right click on the reader and select “Memory Status”. (8.11) In the event window a line will appear indicating the number of fingerprints stored in the reader. (8.12) Note: If more fingerprints are added for one user, all fingerprints will send the same Wiegand Code to the controller, the one written in the field User ID(card Number). 8.8 8.9 8.7 8.10 8.11 8.12 8.12 14 9.6 DELETING FINGERPRINTS In General, the fingerprints are stored in the Biometric reader and in the Software. Deleting can be done only in the readers or from both places. Deleting one user from the biometric reader Select the User Click on “Delete User”. The User together with its fingerprints will be deleted from both the software and the fingerprint readers. (8.14) Deleting all users from the biometric reader Right click on the reader and select “Delete all users from reader” (8.15) Delete one or more fingerprints Select the User and open the “Biometric” tab Go to the fingertip that needs to be deleted, right click and select ”Delete” for one finger or “Delete All” for all fingers of the User. Click “Save Changes”. With this procedure the User's fingerprints are deleted from the software and from the reader. (8.16) 8.14 8.15 8.16 9.7 UPLOADING THE FINGERPRINTS TO THE BIOMETRIC READERS Right click on the biometric reader Select “Upload all users to reader” While receiving the fingerprints the reader will blink in orange. Note: Use this feature when you change or add a reader, if pending tasks are deleted in the software or if there are doubts that fingerprints in the reader memory are not synchronized with the software database. In normal usage, the fingerprints are sent automatically and this feature is not used. 8.17 8.12 15 9.8 CUSTOM WIEGAND BIOMANAGER CS has defined Wiegand 26, 30, 34, 40 bit as standard options and other 3 Wiegand settings as user definable. To setup custom Wiegand format Select Wiegand menu from Settings At Wiegand setup window select one from customs Wiegand Set Wiegand parameter Click on Save button Note: Wiegand settings are out of scope for common end user. Please ask your installer to set the parameters and do not change it later. For more information please refer to BIOMANAGER CS User Manual 8.12 16 10. WIEGAND PROTOCOL DESCRIPTION The data is sent over the lines DATA 0 for the logic “0” and DATA 1 for the logic “1”. Both lines use inverted logic, meaning that a pulse low on DATA 0 indicates a “0” and a pulse low on DATA 1 indicates a “1”.When the lines are high, no data is being sent. Only 1 of the 2 lines ( DATA 0 / DATA 1 ) can pulse at the same time. Example: data 0010.... 0 0 0 1 5V D0 0V 1 ms 100 us D1 5V 0V Data bit 0 = approximately 100 us (microseconds) Data bit 1 = approximately 100 us (microseconds) Time between two data bits: approximately 1 ms (millisecond). Both data lines (D0 and D1) are high. Description for the 26 bits Wiegand format Each data block consists of a first parity bit P1, a fixed 8 bits header, 16 bits of user code and a 2nd parity bit P2. Such a data block is shown bellow: Parity bit (bit 1) + 8 bits header + 16 bits user code = 2 bytes + P1 XXXXXXXX XXXXYYYY YYYYYYYY Example: 170 31527 1 10101010 01111011 00100111 Parity bit (bit 26) P2 0 Note: Parity bits are calculated as follows: P1 = even parity calculated over the bits 2 to 13 (X) P2 = odd parity calculated over the bits 14 to 25 (Y) E A A A A A A A A B B B B B B B B B B B B B B B B O Even Parity Bit Site Code Odd Parity Bit User Code 8.12 17 11. SAFETY PRECAUTIONS Do not install the device in a place subject to direct sun light without protective cover. Do not install the device and cabling close to a source of strong electro-magnetic fields like radio-transmitting antenna. Do not place the device near or above heating equipments. If cleaning, do not spray or splash water or other cleaning liquids but wipe it out with smooth cloth or towel. Do not let children touch the device without supervision. Note that if the sensor is cleaned by detergent, benzene or thinner, the surface will be damaged and the fingerprint can't be entered. 8.12 18 8.12 19 This product herewith complies with requirements of EMC directive 2014/30/EU. In addition it complies with RoHS2 directive EN50581:2012 8.12 20 ">
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