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Summary of Contents for Kimaldi BioMax2
- Page 1 Installation and Programming Manual BioMax2 / BiomaxPlus KBio2-Online v. 2.11 Kimaldi Electronics, S.L. www.kimaldi.com Ctra. Rubí, 292-B Pol.Ind. Can Guitard Tel: 937 361 510 Fax: 937 361 511 08228 Terrassa (Barcelona) CIF B61802302 E-mail: kimaldi@kimaldi.com...
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Page 2: Table Of Contents
2. Description ......... . 5 2.1. BioMax2 electronics ........6 2.2. - Page 3 9.5.5. ClearCrashInfo ........51 9.6. Specific BioMax2/KBio2-Online instructions ....52 9.6.1.
- Page 4 Appendix A. Application Notes ......74 A.1. BioMax2-FP + Mag + Mifare ......74 A.1.1.
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Page 5: About This Manual
BioMax2/KBio2 electronics are designed as Online access and/or presence control terminals.. • BioMax2 is versatile enough to control up to two Clock&Data readers and two RS- 232 devices, whether RFID readers or FIM modules for biometric identification. It is also equipped with a 2x20-character alphanumeric display and a 4x4 numerical keypad. -
Page 6: Biomax2 Electronics
BioMax2 / KBio2-Online Installation and Programming Manual 2.1. BioMax2 electronics The BioMax2 electronics board has the following hardware resources: • RJ45 Ethernet connection (10/100-BaseT) • UART0: First port RS-232 (by default, for Host connection). • UART1: Second port RS-232 (by default, for biometric sensor connection). -
Page 7: Technical Specifications
BioMax2 / KBio2-Online Installation and Programming Manual 3. Technical Specifications 3.1. BioMax2 Size: OEM board: 134 mm x 106 mm x 25 mm Supply Voltage: 5 VDC. ± 10% Maximum consumption : 450 mA Ethernet Interface: 10/100 Base-T RS232 Interface: Baud Rate between 9600 and 57600;... -
Page 8: Addressing
1. Clock&Data Input: 1 port for Clock&Data reader, ABA-Track 2 encoding. 3.3. Addressing BioMax2 and KBio2-Online electronics have two jumpers (JMP1 and JMP2) to encode the ID Application in the KSP protocol. chapter 6.3.: “Routing and Localisation” for further details. -
Page 9: Installation
1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 WARNING !!!! BioMax2 electronics board requires +5 Vdc supply Take the necessary antistatic precautions when handling this product to avoid damaging the sensitive electronic devices. -
Page 10: Connection Details, Biomax2
BioMax2 / KBio2-Online Installation and Programming Manual 4.2. Connection details, BioMax2 J3 - Main Connector Pin 1 - Positive power supply pole Vcc) Pin 2 - Negative power supply pole (GND) (Pin no. 5, female SubD connector) Pin 3 - Not connected... - Page 11 JP1, JP2: Jumpers to select KSP Application_ID (see LEDs showing the electronics status: LD1 - 3V3 supply operating LD2 - Rx/Tx Instructions or Events between BioMax2 and the Host computer LD3 - Red - Ethernet Link Error LD4 - Green - Ethernet Activity (when blinking).
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Page 12: Mechanical Outline, Biomax2
BioMax2 / KBio2-Online Installation and Programming Manual Pin 5 - GND Pin 6 - 5VDC input/output (only for KiWi2, BioMaxPlus-DB). 4.3. Mechanical Outline, BioMax2 Measurements in mm. www.kimaldi.com Page 12 of 91... -
Page 13: Connector Signals, Kbio2-Online
BioMax2 / KBio2-Online Installation and Programming Manual 4.4. Connector signals, KBio2-Online J5: Opt. Bar. J10: Ethernet J7: KiWi2 J4: FIM LEDS J3: TTL-0 J2: Keypad 1 2 3 WARNING !!!! KBio2 electronics board requires +5 Vdc supply Take the necessary antistatic precautions when handling this product to avoid damaging the sensitive electronic devices. -
Page 14: Connection Details, Kbio2-Online
Pin 3 - UART_1 - Rx 232 signal to reader or FIM Module Pin 4 - Power supply negative pole (GND) J5: JST Connector to Kimaldi Optical Barrier Pin 1 - Anode (+) of the emitting LED Pin 2 - Cathode (-) of the emitting LED... -
Page 15: Mechanical Outline, Kbio2-Online
JP1, JP2: Jumpers to select KSP Application_ID (see LEDs showing the electronics status: LD1 - 3V3 supply operating LD2 - Rx/Tx Instructions or Events between BioMax2 and the Host computer LD3 - Red - Ethernet Link Error LD4 - Green - Ethernet Activity (when blinking). -
Page 16: Operation
Installation and Programming Manual 5. Operation Thanks to its IP connectivity, BioMax2 and KBio2-Online electronics make it possible to install a network of biometric sensors or different types of card readers, accompanied by the corresponding actuators or user interfaces. All the peripherals are Host-managed,... -
Page 17: Connection To A Configurable Rs-232 Reader
Subsection 5.3.2. 5.3.1. Optical Barrier BioMax2 and KBio2 terminals allow you to control an optical barrier to detect the presence of a finger on the biometric sensor. In addition to the normal operating conditions, the optical barrier manages two possible error situations: 1.- Permanent obstruction of the beam. -
Page 18: Fim Module
OPP06 optical sensor and the capacitive sensors that can be attached to the FIM5360 module (and later). If two FIM devices are connected to a single BioMax2 or KBio2-Online, the same detection mechanism can be used. -
Page 19: Setup And Operation
BioMax2 / KBio2-Online Installation and Programming Manual 5.3.3. Setup and operation Once configured, the BioMax2 or KBio2-Online electronics must be reset (use command ApplyCFG ), in order to start operation. Optical barrier The LED optical barrier will operate immediately, and it will be promptly generate a Pressing event as soon as the infra-red beam is blocked. -
Page 20: Connection To An Auxiliary Board, Bio-Ocx Protocol
Send to UART. time we contact the FIM module through - If two FIM modules are connected to BioMax2, both may activate the Auto-On mechanism. In such case, the key value that is reported by the auxiliary FIM is one count higher than the one of the main FIM (by default, values... -
Page 21: Others
Host. It has several communication channels, as described in chapter 6.: “Comunicación con el Host” All the aspects related to the operating and connectivity of BioMax2 and KBio2-Online chapter 8.: “BioMax2 / KBio2-Online electronics can be configured as explained in electronics configuration”... -
Page 22: Comunicación Con El Host
BioMax2 and KBio2-Online electronics allows for several communication channels with the Host. Establishing this communication is the first step towards correctly configuring the electronics. BioMax2 / KBio2-Online electronics is permanently listening to these channels and will return a response via the channel from which the command was received. -
Page 23: Ip Communications
Sockets. 6.2.1. Kimaldi Localisation Service It is possible to detect the BioMax2 / KBio2-Online electronics connected to your local area network using the Kimaldi Localisation Service: • IP configuration: once the unit is located from its MAC Address, it is possible to configure its IP parameters and restart the unit. -
Page 24: Bio-Ocx Protocol Via Udp
KSP-OCX or the equivalent .NET library) and to configure BioMax2 or KBio2-Online as clients. In order to do so, let us: • Define the IP-RemoteHost (the same that is used for UDP sockets). • Define the Host’s port to which BioMax2 / KBio2-Online will connect (TCP Port- RemoteHost). -
Page 25: Routing And Localisation
Online Electronics to spontaneously transmit Online frames through this channel. 6.3. Routing and Localisation BioMax2 / KBio2-Online electronics can be part of a local IP network, supporting several communication protocols. There are several routing modes for this reason. The different BioMax2 / KBio2-Online electronics addresses can be consulted in the configuration instructions (also see section 8.2... -
Page 26: Communication With Rs-232 Devices
BioMax2 / KBio2-Online Installation and Programming Manual 7. Communication with RS-232 devices BioMax2 and KBio2-Online electronics have two RS-232 ports that can be used for different purposes. As explained in chapter 6.1 , UART0 maintains the possibility of connection to the Host so that total compatibility between BioMax and BioMax2 is ensured. -
Page 27: Online Readers
Nevertheless, more sophisticated readers do exist. These are those that can generate an event with the identification code but that, at the same time, allow for two-way communications with the Host to be programmed. Within this type are the Kimaldi readers KRD13M and S42, which have programmable automatic modes capable of extracting a data sequence from a Mifare or SLE4442 card, respectively. -
Page 28: Gateway To Bio-Ocx Or Kplus2 Electronics
A variety of Kimaldi electronic boards do not provide for integrated IP communication, since they only have a serial port. BioMax2/KBio2-Online may act as a gateway to indirectly connect them to a LAN. Moreover, it is a convenient way to enhance funcionality of BioMax2/KBio2-Online. -
Page 29: Communication Via Ksp Udp
BioMax2 / KBio2-Online Installation and Programming Manual 7.3.4. Communication via KSP UDP When using protocol KSP-UDP (port 6000 on BioMax2/KBio2), everything explained in the previous section still applies: • Parameters CFG_Serial_Port_Host or CFG_Serial_Port_Reader must be properly configured ( according to the baud rate for Bio-OCX, according to the baud rate for KRD13Mv2). -
Page 30: Biomax2 / Kbio2-Online Electronics Configuration
• IP configuration: data required for machine operations in a local area network (Ethernet). BioMax2 / KBio2-Online electronics configuration is stored in EEPROM memory, which provides it with around 10,000 read/write cycles. This should be taken into account when managing the configuration parameters. - Page 31 FIM Boot-Up time Configure TTL_x ports as Wiegand Inputs Subsection 8.1.4. Reserved Host reply Time-Out, upon event generated by Subsection 5.5. BioMax2 / KBio2-Online, before switching to Offline Mode No-traffic Time-Out, before switching to Offline Subsection 5.5. Mode Display response Time-Out Subsection 8.1.6.
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Page 32: Serial Port Configuration (Uart0, Uart1, Uart2)
Table 3 Port_Aux a. OEM electronic boards are configured at 9600 baud by default. BioMax2 terminals (already assembled) are configured at the optimum speed for the FIM, typically 38400 baud ($8A). Depending on the function associated to the port and baud rate, the values to be assigned are detailed in the following table. -
Page 33: Table 3: Reader Configuration Codes
BioMax2 / KBio2-Online Installation and Programming Manual Table 3: Reader configuration codes Tipo de lector Detalles CFG_Serial_Port_XXX Communication with the $90: 9600 baud Only UART0 or Host, Bio-OCX protocol $91: 19200 baud alternatively UART2 $92: 38400 baud $88: 9600 baud... -
Page 34: Event Configuration
BioMax2 / KBio2-Online Installation and Programming Manual 8.1.2. Event configuration BioMax2 and KBio2-Online electronics are able to start communications to the Host when any event occurs in the machine (e.g. a key is pressed). The following parameters can be configured:... -
Page 35: Table 5: Event Channel Identifier
(typically after Reset) where there is no prior instruction and therefore we have to refer to CFG_EventCH to determine this output channel. Normalmente, la BioMax2/KBio2 responde siempre por el mismo canal de donde procede la instrucción. Sin embargo, existen situaciones (típicamente, después de Reset) donde no existe una instrucción previa y por tanto debemos referirnos a... -
Page 36: Optical Barrier Configuration
BioMax2 / KBio2-Online Installation and Programming Manual 8.1.3. Optical barrier configuration Table 6: Optical barrier configuration Description Def. Time-out between finger detection events CFG_OPT_T_ GUARD Watchdog for permanent blockage detection CFG_OPT_T_ WATCHDOG The optical barrier will generate a Key Pressing... - Page 37 - 0x04, 0x05: Main FIM connected to UART0, UART1 (respectively). - 0x00, 0xFF or other: Auto-On detection disabled. Default value: - 0x05: Main FIM connected to UART1 (typically, J7 connector on BioMax2). Parameter$1E : Auxiliary Reader. If a second biometric FIM module is connected and Auto-On Finger Detection must be enabled, we must configure this parameter.
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Page 38: Card Reading Port Configuration
: Buzzer on OK. Buzzer configuration for correct readings. We can enable the buzzer assembled on the BioMax2 / KBio2-Online (internal), or a set of external buzzer and green LED, so that they are enabled when a correct reading has occurred. - Page 39 : Buzzer on Fail. Buzzer configuration for incorrect readings. We can enable the buzzer assembled on the BioMax2 / KBio2-Online (internal), or a set of external buzzer and red LED, so that they are enabled when an incorrect reading has occurred.
- Page 40 : Multiread time-out. This defines the time required for determining that a card has left the field of a reader configured in multiread. When this time is up, Card Reading the BioMax2 / KBio2-Online electronics generates a event with a null Subsection 9.6.18.
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Page 41: Digital Output Timing
BioMax2 / KBio2-Online Installation and Programming Manual 8.1.5. Digital output timing Table 8: Digital output timing Description Def. Green LED timing upon correct reading CFG_TempGREEN_OK Red LED timing upon incorrect reading CFG_TempRED_Fail Buzzer timing upon correct reading CFG_TempBuzz_OK Buzzer timing upon incorrect reading... -
Page 42: Others
BioMax2 / KBio2-Online Installation and Programming Manual For all the parameters described in the table, the configuration value corresponds to the time in multiples of 10 ms that they are to remain enabled: - With a correct reading for which CFG_Reader_BuzOK is enabled, the internal buzzer (CFG_TempBuzz_OK) will be triggered. -
Page 43: Ip Configuration - Tcp And Udp Sockets
. The seven least significant bits are reserved for future use. - DHCP: If it is "TRUE", the server is responsible for assigning the IP address to the BioMax2 / KBio2-Online electronics. If it is "FALSE", the IP address will be permanent and we will set this ourselves. -
Page 44: Ephy Configuration
Installation and Programming Manual - TCP_TimeOut: This is a byte that encodes the time in seconds between transmission retries. In other words, after the transmission of a frame, the BioMax2 / KBio2-Online electronics will wait for Acknowledgement from the Host during TCP_TimeOut seconds. -
Page 45: Table 11: Ephy Configuration Values
BioMax2 / KBio2-Online Installation and Programming Manual Table 11: ePHY configuration values Ethernet negotiation CFG_ePHY Ethernet connection disabled Allows all cases (default value) Self-negotiation, 100 BaseT Self-negotiation, 10 BaseT Manual negotiation, 100 BaseT Manual negotiation, 10 BaseT + $10 Add to the vaules above, in order to exclude compatibility to Gigabit Ethernet. -
Page 46: Communications Protocol
• Frame format • Instructions (OpCode + Arguments) and events. Communications between the BioMax2 / KBio2-Online electronics and the Host can be via several communication channels and, in fact, the communications protocol will differ in each case. ActiveX... -
Page 47: Bio-Ocx Udp Frame Format
<ETB> is not included). Expressed by two ule 255 ( hexadecimal ASCII characters. 9.2. Bio-OCX UDP frame format If the BioMax2 / KBio2-Online electronics 5500 IP port is used, the frames should be in the following format: <OPC><NA><ARG><CRC> Where: [ 2 char ] This parameter indicates the meaning of the frame <OPC>:... -
Page 48: Ksp Udp Frame Format
This contains the information [Data] [Length] directly expressed in binary format. 9.3. KSP UDP frame format If the BioMax2 / KBio2-Online electronics 6000 IP port is used, the frames should be in the following format: <AppID><NodeID><KSP_Opc><Len><Lbl><OPC><ARG> Where: Subsection 6.3.2. -
Page 49: Ksp Tcp Frame Format
, as detailed in the following sections. [<OPC><ARG>] 9.4. KSP TCP frame format If the BioMax2 / KBio2-Online electronics 6600 IP port is used, the frames should be in the following format: <AppID><NodeID><KSP_Opc><Len><Lbl><OPC><ARG> That is, the frame is identical to KSP-UDP, but this time in ASCII-Hex format. -
Page 50: Reset
BioMax2 / KBio2-Online Installation and Programming Manual Function: Checks communications with one node. 9.5.2. Reset Instruction 0x01 0x0000 None Response 0x01 0x0000 None Function: Initialises one node. 9.5.3. Firmware Version Instruction 0x02 0x0000 None Response 0x02 0x0002 Identification code of the firmware version. -
Page 51: Getcrashinfo
0x0E 0x0000 or 0x0014 If 0 arguments, there is no available information. If 20 arguments: Bytes 1..20: information for Kimaldi Electronics. Function: It reads the information stored in the non-volatile memory after an exception has been generated. 9.5.5. ClearCrashInfo Instruction... -
Page 52: Specific Biomax2/Kbio2-Online Instructions
0x0002 Byte 1: configuration parameter number (see section 8.1) >Byte 2: parameter value Function: It reads the value of a configuration parameter stored in the non-volatile chapter 8.: “BioMax2 / KBio2-Online electronics configuration” memory. See 9.6.2. WriteCFG_Byte Instruction 0x0B 0x0002... -
Page 53: Readcfg_Ip
Byte 1: IP parameter number (see section 8.2) Byte 2. n : parameter value Function: It reads the value of an IP configuration parameter stored in the non-volatile chapter 8.: “BioMax2 / KBio2-Online electronics configuration” memory. See 9.6.4. WriteCFG_IP Instruction 0x0D >... -
Page 54: Factorycfg
0x0001 Byte 1: IP parameter number (see section 8.2) Function: It writes an IP configuration parameter, storing it in the non-volatile memory. chapter 8.: “BioMax2 / KBio2-Online electronics configuration” 9.6.5. FactoryCFG Instruction 0x08 0x0000 or 0x0001 Byte 1: 0x00: machine parameters 0x01: IP configuration >... -
Page 55: Applycfg
In general, if this event is enabled, it will be seen when the electronics is started even in the event of a restart due to an exception. In the latter case, information for the Kimaldi Electronic Technical Service will be obtained. -
Page 56: Activate Led/Beeper Time
If bit 5 of CFG_ECHO is enabled (see Subsection 8.1.2. ), the BioMax2 / KBio2-Online electronics can indicate the end of a timing. In this case, an event is generated indicating the number of the relay to have returned to standby status. -
Page 57: Switch Led/Beeper
BioMax2 / KBio2-Online Installation and Programming Manual 9.6.8. Switch Led/Beeper Instruction 0x31 0x0002 Byte 1: 0x00: Green LED 0x01: Red LED 0x02: external beeper 0x03: internal beeper Byte 2: 0x00: off. <>0x00: on Response 0x31 0x0000 None Function: This switches one of the LEDs or the beeper on or off. -
Page 58: Switch Relay
Subsection 8.1.2. If bit 5 of CFG_ECHO is enabled (see ), the BioMax2 / KBio2-Online electronics can notify the end of a timing. In this case, an event is generated indicating the number of the relay to have returned to standby status. -
Page 59: Clear Display
BioMax2 / KBio2-Online Installation and Programming Manual 9.6.11. Clear Display Instruction 0x10 0x0000 None Response 0x11 0x0000 None Function: Deletes the information from the Display 9.6.12. Write Display Instruction 0x11 0x0028 Bytes 1 to 20: Text on the first row... -
Page 60: Backlit Time
BioMax2 / KBio2-Online Installation and Programming Manual 9.6.13. Backlit Time Instruction 0x12 0x0001 Byte 1: enabling time 0x00 to 0xFE tenths of second Response 0x12 0x0000 None Function: It enables the display backlighting during the specified time. 9.6.14. Switch Backlit... -
Page 61: Write Display, Backlit
0x0000 None Function: It shows the specified text via the display in 2 rows of 20 characters. The timing of the backlighting and the buzzer assembled in the BioMax2 / KBio2-Online electronics are also specified. 9.6.16. Digital input status Instruction... -
Page 62: Multiread Filter Status
Bit 3: Status of DIN 3 Subsection 8.1.2. If bit 4 of the CFG_ECHO is enabled (see ), the BioMax2 / KBio2- Online electronics can notify of the change in the digital input status via an event with the same OpCode. -
Page 63: Card Reading
BioMax2 / KBio2-Online Installation and Programming Manual Function: It allows for the status of the card reader to be questioned to confirm whether there is a card in the field that it is being filtered in multiread mode. If there is no card in the reader field, it will return just one argument byte. -
Page 64: Send To Uart
Frame sent to the RS232 reader from the Host Response 0x51 0x0000 Function: Encapsulates a frame to be sent from the Host to the RS232 reader via the UART of the BioMax2 / KBio2-Online electronics. www.kimaldi.com Page 64 of 91... -
Page 65: Reception From Uart
Extra Data Frame that sends the RS232 reader to the Host Function: Encapsulates a frame to be sent to the Host from the RS232 reader via the UART of the BioMax2 / KBio2-Online electronics. 9.6.22. Optical Barrier Status Event 0x4B... -
Page 66: Disable Optical Barrier
BioMax2 / KBio2-Online Installation and Programming Manual Response 0x4A 0x0001 Status of the optical barrier Function: Enables the detection LED of the optical barrier This command can be used to allow for biometric identification simply by placing a finger on the sensor. -
Page 67: Encapsulate Gcr
“Biometric identification” for further details). 9.7. Error Codes BioMax2 / KBio2-Online electronics can also respond to any of the instructions it is sent with one of the following codes: • OpCode 0xFD: Frame Delay (resend later). • OpCode 0xFE: Frame Error (badly-composed frame or argument out of range). -
Page 68: Biometric Identification
BioMax2 / KBio2-Online Installation and Programming Manual 10. Biometric identification The BiomaxPlus communications protocol provides a set of high-level instructions to simply handle the biometric sensor. The following instructions will be used as arguments in the Encapsulate GCR command Subsection 9.6.25. -
Page 69: Capture Of Biometric Information
BioMax2 / KBio2-Online Installation and Programming Manual 10.2. Capture of biometric information 10.2.1. Capture of biometric information Instruction ‘713’ / ‘723’ Description ‘713’ Instruction code. Intermediate digit addresses Main FIM (‘1’) or auxiliary (‘2’). Optional argument specifies the number of templa- tes to scan (‘01’... -
Page 70: Sensor Database Management
BioMax2 / KBio2-Online Installation and Programming Manual 10.3. Sensor database management 10.3.1. Add user Instruction ‘564nnnnnnnnnn0000000000t’ - ExtraData: “hhh...hhh” Description ‘564’ Instruction code. ‘nnnnnnnnnn’ User identifier. ‘0000000000’ Reserved. ‘t’ Template destination. Possible values: ‘1’, ‘2’, ‘3’ - Send template to Main FIM (‘1’), to Auxiliary FIM (‘2’) or to both (‘3’). -
Page 71: Delete User
BioMax2 / KBio2-Online Installation and Programming Manual 10.3.3. Delete user Instruction ‘562nnnnnnnnnn’ Description ‘562’ Instruction code. ‘nnnnnnnnnn’ Identifier of the user to be deleted. Response ‘662rr’ Description ‘662’ Response code ‘rr’ Operation result. Possible values: 11 - Operation completed correctly. -
Page 72: User Identification
BioMax2 / KBio2-Online Installation and Programming Manual 10.4. User identification 10.4.1. Instant Matching Instruction ‘71700’ - ExtraData: “hhh...hhh” / ‘72700’ - ExtraData: “hhh...hhh” Description ‘717’ Instruction code. Intermediate digit addresses Main FIM (‘1’) or auxiliary (‘2’). ‘hhh...hhh’ Biometric information to use in the comparison. -
Page 73: 1:1 Identification
BioMax2 / KBio2-Online Installation and Programming Manual Function: it allows for a user whose biometric information is stored in the sensor’s database to be identified. That is, the user’s scanned fingerprint is compared against all (FP-ID) templates in the FIM module’s database. The matching template has an identifier that is returned to the Host. -
Page 74: Appendix A. Application Notes
Mifare, que codifica el número de socio en su bloque número 1. La electrónica BioMax2 controla un torno de doble sentido, de forma que el acceso al recinto se completa con un display, mientras que la salida debe realizarse presionando un pulsador. -
Page 75: Hardware Connections
BioMax2 / KBio2-Online Installation and Programming Manual A.1.1. Hardware connections La electrónica BioMax2 va integrada dentro de un torno, y usamos la cueva biométrica Kimaldi para integración del sensor biométrico. Conexionado (See chapter 4.: “Installation” • Fuente de alimentación de 5 Volt, 2 Amp, para todo el conjunto. -
Page 76: Configuration Of Krd13M Reader
BioMax2 / KBio2-Online Installation and Programming Manual Table 13: Ejemplo de configuración de lectores Número Nombre del Valor Detalles parám. parámetro KRD13M, a 9600 CFG_PuertoSerieHost baud FIM a 38400 baud CFG_PuertoSerieLector Activados lectores: CFG_Reader_ Enable - UART0: prefijo ‘$’ - TTL0: prefijo ‘*’... -
Page 77: 1:N Identification
BioMax2 / KBio2-Online Installation and Programming Manual Cada una de las instrucciones anteriores se mandarán al lector de la forma siguiente: Enviar a UART • Instrucción: • Argumento: Byte 1 = (es decir, transmisión a UART0) • Extra Data: - A través de Bio-OCX: ‘>>0A060001000100091B’... -
Page 78: 1:1 Identification
BioMax2 / KBio2-Online Installation and Programming Manual 7. A partir de la trama anterior, extraemos la huella, la convertimos a formato eNBSP e instruimos al Host para que haga una identificación 1:N. Obtendremos un User-ID, en función del cual decidimos activar un relé, sacar un mensaje por el Display, etc. -
Page 79: Biomax2-Fp Prox + Kbio Online Rs-232
En el siguiente capítulo, nos vamos a plantear la siguiente situación: • Un terminal BioMax2-FP Prox, con conectividad IP al Host. • Un terminal KBio Online, conectado al Host a través de la BioMax2. En esta aplicación, el punto de acceso requiere identificación biométrica con proximidad, tanto para entrar como para salir. -
Page 80: Hardware Connections
BioMax2 / KBio2-Online Installation and Programming Manual A.2.1. Hardware connections Asumimos en este caso que los terminales individuales están ya correctamente ensamblados en sus respectivas cajas. Para conectar los terminales a través de RS-232: • Fuente de alimentación de 5 Volt, 2 Amp, para todo el conjunto. -
Page 81: Communication Through Bio-Ocx Udp
Installation and Programming Manual A.2.3. Communication through Bio-OCX UDP A través del controlador Active-X, la comunicación con el terminal BioMax2 es inmediata. Por el contrario, para comunicarse con el terminal KBio es necesario componer la trama serie para transmitirla como “Extra Data” de la instrucción... -
Page 82: Communication Through Ksp Udp
7E000000040000000000000000000000000000000000000004B3 A.2.4. Communication through KSP UDP La electrónica BioMax2 ofrece una pasarela KSP a RS-232, de modo que el terminal KBio conectado a la UART0 se comporta, a nivel de funcionalidad, como un nodo KSP- UDP (no es visible, no obstante, a través del Kimaldi Localisation Service Para trabajar a través de KSP-UDP, solamente hace falta tener definida una dirección... -
Page 83: Wiegand Reception
HW and FW adjustments are required, as explained below. A.3.1. Hardware configuration In order to receive a Wiegand frame, we must use terminal block J1 on BioMax2. Please note that D1, D0 inputs overlap CLS and DAT respectively, formerly related to TTL_1. -
Page 84: Firmware Configuration
Parameter$0F is configured as stated below, the incoming data will be treated by BioMax2 just as if it were TTL_1. Implications will be seen further ahead. Port activation Parameter$0F As said, Wiegand Input will be enabled through... -
Page 85: Configuration Example
BioMax2 / KBio2-Online Installation and Programming Manual • Bit 33: last parity bit, “odd” type. Its value is such, that the 17 last bits together (bit 33 included) contain an odd number of ones ( ‘1’ Free format Card Reading event is issued, directly transferring all bits received through the Wiegand port, with no format processing at all. -
Page 86: Appendix B. Troubleshooting
- The Host to contact the BioMax2 / KBio2-Online electronics is displayed in the Remote Host.field - The Host contacts the BioMax2 / KBio2-Online electronics via its 5501 port in the case of Bio-OCX UDP and via its 6001 port in the case of UDP-KSP. - Page 87 - There is too much ambient light on the biometric sensor. This light stops the opti- cal barrier from working correctly and probably also stops the FingerVein sen- sor from making a correct identification. We advise you to protect the BioMax2 / KBio2-Online terminal against excessive light, especially sunlight.
- Page 88 6. BioMax2 / KBio2-Online electronics communicates very slowly There are three possible causes: - The display is not connected or does not respond correctly. In this case, BioMax2 / KBio2-Online electronics is waiting until the end of Display Time-out (CFG- Subsection 8.1.6.
- Page 89 - Try replacing the Ethernet cable, or check the Ethernet switch status. - If BioMax2 / KBio2-Online was connected at 100 Base-T and then we try a 10 Base-T connection (or viceversa), try with a hard reset of the electronics.
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Page 90: List Of Tables
List of Tables Table 1: BioMax2 / KBio2-Online parameter list ......30 Table 2: RS-232 port configuration ........32 Table 3: Reader configuration codes . - Page 91 BioMax2 / KBio2-Online Installation and Programming Manual This symbol indicates that Waste Electrical and Electronic Equipment (WEEE) should be disposed of separately to domestic waste. This measure is adopted to encourage reuse, recycling, and other ways of recovery, and to prevent possible damage to the environment and personal health.
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