Home

RFID Module Manual

1. E2 state change to LOW Bit0 LED1 red on Bit1 LED1 red off Bit2 LED1 green on Bit3 LED1 green off Bit4 LED2 red on Bit5 LED2 red off Bit6 LED2 green on Bit7 LED2 green off E1 change state to HIGH Sound number OxFF Null sound E1 change state to LOW Sound number OxFF Null sound E2 change state to HIGH Sound number OxFF Null sound E2 change state to LOW Sound number OxFF Null sound Time in 10ms increments an input state or a sate change must be present to detect it securely Options for open collector control in conjunction with A1 A2 O never switch 1 Switch at A1 2 Switch at A2 0x03 Default value JVA 0x03 Default value EasyLAN Transponderleser Time limit for presence state A1 Param 0x0C 12d must be 0 seconds Time limit for presence state A1 Param 0x0C 12d must be 0 seconds Time limit for presence state A2 Param 0x0C 12d must be 0 seconds 0x00 Default value JVA 0x00 Default value EasyLAN transponder reader Clearance bits for transponder 5000 pieces 27121 Eb 27 06 2012
2. contain valid sound Defined sounds incl FFh 255d are ff Definitionen f r feste sounds 20120627EB HB Transponderleser ID6 EN doc define ND A0 O define SND_4L 1 define SND_42 define SND INIT 3 define SND PROG d define SND PROG ER 5 define SND PROG OK D define ND LIGHT ON E define SNO_LIGHT_OFF E define SNDLPERMIT_ON a define SND PERMIT OFF 10 define SNO_LEARN_ON LL define SNO_LEARN_OFF 12 define SND_ZK 20 define SND_ZKL pira define SND_ZK2 S define SND_ZK3 23 define SND_ZK4 24 define SND_ZK5 25 define ND NULL 255 24 27 Eb 27 06 2012 Baudisch Transponderleser ID6 Version 1 0 As of 27 06 2012 E Baudisch 6 Configuration Parameter The configuration of the device is stored in its EEPROM and can be changed by the corresponding EasyLAN messages EEPROM address 00h 01h 02h 03h 04h 05h 06h 07h 08h 09h OAh Default value Description 0x00 Reserved for CPU 0x55 Load factory default If this value is programmed unequal to 0x55 the device will load the factory default values after reset 0x00 Not in use 0x41 Own bus address 0x40 Target address PC 0x1E Interval time state call in 10 seconds increments 0x Time to transponder clear call in 50ms increments 0x3C Default value EasyLAN transponder reader 0x08 Default value JVA 0x0C Time for minimal presence time in prison cell x 0 5 seconds If there is between the activation on state A1 and the f
3. several sounds depending on the software configuration The state of the inputs can be sent to the central unit 9 27 Eb 27 06 2012 Baudisch Transponderleser ID6 Version 1 0 As of 27 06 2012 Ml Baudisch Transponderleser ID6 RL Vandalism protected transponder reader with self Art Nr 36 0183 sufficient key switch function and optional data bus connector for a central configuration or function check Characteristics as ID6 JV E but addiotional features e Upper front panel consists of stainless steel V2A lower panel of anodized aluminum 2 digital inputs galvanic isolation by optocouplers Working from 12V to 24V DC Coating of the printed circuit board to avoid damages through high himidity Extended temperature range No speaker This ID6 can be used in conjunction with a mast housing as shown in the illustration Transponderschalter ID6 Steel Transponder reader with Baudisch EasyLAN data Art Nr 33 1197 interface for connection to a central unit for access control and time recording Mounting in ModularSteel System Power supply 24VDC 50mA 1 Open Collector Output 80V 15W max 250mA for electric lighting control 2 multicolor LED indicators red green yellow Acoustic function indicator available for all states if the device like alert sound generation Safe detection of the transponder in a range up to 10mm Internal storage for 5000 keys or groups General erasure of all author
4. the host There is no influence to the switch authority Function detection Two digit Hex declares the function of the transponder Check sum process For data safety during transfer 5 2 Teach in Mode The teach in mode allows to lock or unlock individual transponder chips in the authority list To do so the corresponding transponder must be in the detection range while the teach in mode is activated Teach in mode on off by configuration transponder P The tech in mode is activated and disabled by using any transponder chip with function 0x88 except chips for test mode activated When activating you will hear increasing tones if deactivated you will hear decreasing sounds While this mode is active the red LEDs will be illuminated alternately approx 1 Hz Transponder tech in erase The transponder will be activated in the active time period So the state of clearance is changed and the following new state is shown acoustically Tech in and erase will alternate each time the chip is present If the transponder is authorized a positive signal will sound if the chip is locked a negative signal will sound You can only use teach transponder chips with function detection 0x80 electrical lighting and 0x81 presence Time out The tech in mode stops automatically 60 seconds after activation or last teach in 20120627EB HB Transponderleser ID6 EN doc 22 27 Eb 27 06 2012 Baudisch Transponderleser ID6 Version 1 0 A
5. the top Bit 1 LED red at the top Bit 2 LED green at the bottom Bit 3 LED red at the bottom After starting the software reset the state is zero the LEDs are off This indication is subordinated to internal functions of the reader If there are other LED states set by a switch function the software will add them to the current state So the remote indication only works in stand by state in the transmitted combination 20120627EB HB Transponderleser ID6 EN doc 23 27 Eb 27 06 2012 Baudisch Transponderleser ID6 Version 1 0 As of 27 06 2012 Ml Baudisch 5 5 Input States The two inputs can be used for several purposes For example for indication of states door open closed locked etc The table below shows how to realize an optical and or acoustical indication depending on the inputs The current state can be sent to a computer system if there is a bus connection The state on signalizes the change from input active to inactive The state off shows a change from input inactive to active An input is active if there is an electrical voltage present and inactive if there is no voltage Reaction LED red 1 on LED red 1 off LED green 1 on LED green 1 off LED red 2 on LED red 2 off LED green 2 on LED green 2 off I If there are two complementary bits set e g red 1 on and red 1 off the current state will toggle The number of available sounds starts the acoustic reaction The range from 00h to 7Fh can
6. 232 data bus interface 20120627EB HB Transponderleser ID6 EN doc 14 27 Eb 27 06 2012 Baudisch Transponderleser ID6 Version 1 0 As of 27 06 2012 Ml Baudisch 4 Connection and Installation 4 1 Connectors A 2 EE ME ND Bus 24V 34V 4 1 1 20120627EB HB Transponderleser ID6 EN doc 15 27 Eb 27 06 2012 Baudisch Transponderleser ID6 Version 1 0 As of 27 06 2012 Ml Baudisch 4 1 2 ID6 RL Number Deserpion 1 Power supp zavoceoma 2 fewn s weon a Open Colector our ova max 250A mm mo 8 rant 6 renz m0 rien 4 2 Solder bridges The devices is in an operable when delivered If the relay contacts should be galvanic isolated to each other it is possible to configure by solder bridge Also there can be uses a 10kOhm resistor in the sabotage loop option which is used instead of the digital inputs E1 and E2 To detect the state of the sabotage switch is not supported by the software until now 20120627EB HB Transponderleser ID6 EN doc 16 27 Eb 27 06 2012 Baudisch Transponderleser ID6 Version 1 0 As of 27 06 2012 N Baudisch 4 2 1 ID6 V E ID6 V and ID6 Steel Solder g s Pin 8 is shared as a output of relay 1 and relay 2 that means connector 8 is connected to 10 J2 Sabotage loop resistance 0 Ohm 10kOhm default J3 J7 Sabotage is reported to controller Sabotage state extern default 4 2 2 ID6 RL Solder g s Pin 8 is shared as a output of rela
7. 2OutRelais EasyLAN module comes with 2 relay outputs 48V max Art Nr 36 0113 10A for DIN rail mounting Double relay module to transfer the relays state to the transponder reader ID6 Reduction of the amount of wires All transponder reader can be connected by 2 wire bus in any architecture additional wires for sabotage and supply necessary Useful for switching state remote indicator Two inputs for the connection of isolated switching contacts to remote control the light switching output as well as the speaker of the transponder reader ID6 Betriebsspannung 10 15VDC 1 5VA EasyLan Schaltmodul 2K Ce Remote monitoring of states and functions of up to 63 transponder reader ID6 per bus segment Configuration of the transponder reader ID6 in conjunction with the Windows Config Software WCS Connection of the transponder readers to a facility management system with Open Access DDL Remote control of all switching functions the LED indicators and the speaker of the transponder reader in conjunction with the Windows Remote Software WRS There is a RS232 wire length 2m and a kit for mounting the device on a DIN rail included in the delivery Windows Config Software WCS Configuration of the transponder reader in conjunction with a RS232 data bus interface Windows Remote Software WRS Remote control of all outputs the LED indicators and the speaker of the transponder reader ID6 in connection with the RS
8. Baudisch Baudisch Transponderleser ID6 Manual History Version Date Name Change Approval latest version Date Name Division Initial Signature checked 27062012 T Ebernardt DEW e checked E E E CT a ol ege Je 0000 ege IT o e Lo 20120627EB HB Transponderleser ID6 EN doc 1 27 Eb 27 06 2012 Baudisch Transponderleser ID6 2 1 2 2 2 3 3 1 3 2 3 3 3 4 4 1 4 1 1 4 1 2 4 2 4 2 1 4 2 2 4 3 4 4 4 4 1 4 4 2 4 4 3 4 4 4 4 4 5 4 4 6 4 4 7 dela 9 1 1 5 1 2 5 2 5 3 5 4 9 9 Version 1 0 As of 27 06 2012 Baudisch Table of Content Table of Conti teens bd dO Ed nnana 2 General Information enmaai ceca DI SI nnana nunan ne nnan 3 So A A 3 la O o A 3 Hardware V GLSIONS oe 4 FrOGUCLDE SC q nt AE 5 General Information 5 o e e O e eher 6 rn UE 8 Accessories Scars ee 11 Connection and Installation arara 15 Connectors o e ii ee a nn anene 15 ID6 JV E ID6 JV and IDO Steel arara rara 15 HESE eu 16 HOLEN eelst 16 IDG JV E ID6 JV and ID6 Steele een ae ae tene 17 DG agen desc arse EEE EINER EN ect 17 Front Panel Mounting type ID6 JV E and IDN 17 ESVE N Ko oe 19 BASIC PIINEIDIE nun OOO E e oo PE E PO UE 19 Selection Of Wires Rara aerea 19 R tsel 19 ar AA o A 19 Dic A 19 Bus Subscriber AGG CS SING resort nai 20 EMMA AAA EE 20 A een ee ee On RR 21 A E E a a ea 21 E LIONS ee a Free st cn PE
9. E E states cece Tree ceo E datas 21 RICK ee EE 22 Teachin WOO EE 22 Pacon Co LOGIC RPP PU UU ner O A 23 Remote Control of beis 23 e E ea 24 KEHLEN 25 20120627EB HB Transponderleser ID6 EN doc 2 27 Eb 27 06 2012 Baudisch Transponderleser ID6 Version 1 0 As of 27 06 2012 E Baudisch 2 General Information 2 1 Symbols Warning of dangerous electrical voltage This symbol points out important references which must be followed to avoid injuries as well as damages and malfunctions of the product A This symbol points out helpful references 2 2 Software History 1 2 RX Uart Function improved 24 03 2007 1 3 Add on e Reset of A1 and A2 by Transponder 55558 e Separate parameter for time slot S2 and continuous operation new parameter 9 both adjustable in 0 5 sec steps e Editing of the access list by EasyLAN bus e Telegram repeats to target address adjustable by parameter OxOB 24 04 2007 1 4 Calibration Byte in EEPROM changed from address 2 to 32 Not relevant for the usability 23 05 2007 1 5 New parameter 12 switching of the relays and the green LED after adjusted time in seconds to use the ID6 without bus connection 05 10 2007 1 6 Telegram extension C4 02 00 8x to identify the state of the 4 LEDs 05 12 2007 1 7 Switching to state presence 2 if parameter 12 is activated 11 04 2008 1 8 EMC test mode added porting to ICC V7 X EEPROM mapping adapted 25 04 2008 1 9 Digital inputs and r
10. Selective erase transponder Switches the teach in mode on or off and erases by activating the teach in mode the authority of the key with a specific number This is used to delete a lost transponder chip 55555 Configuration transponder Program Switches the teach in mode on or off There are no further functions 55556 Erase transponder Clears the memory by switching on or off the teach in mode and erases the authorities of all keys numbers 1 to 5000 55557 Formatting transponder Switches on or off the teach in mode and activates the authority of all keys 1 to 5000 55558 Reset Transponder Restarts the software of the reader and clears saved presence states A1 or AZ 55559 Test mode activated LEDs and relays toggle and sound plays depending on test mode configuration see parameters 20120627EB HB Transponderleser ID6 EN doc 21127 Eb 27 06 2012 Type Baudisch Transponderleser ID6 Version 1 0 As of 27 06 2012 E Baudisch 5 1 2 Data Content The following data fields are programmed to the transponder and will be sent to the reader Application ID Application use of the transponder access control Object ID Differentiation of the end user is made dependent to the order Key number 2 Byte adjustable from 1 to 65534 For the numbers 1 to 5000 there are can be authorities for direct switch functions Date code creation Day Month Year each with two digits for internal application or interpretation by
11. eaction masks EasyLAN bit masks extended status signal and transmit check added 20120627EB HB Transponderleser ID6 EN doc 3 27 Eb 27 06 2012 Baudisch Transponderleser ID6 07 05 2008 08 05 2008 Version 1 0 As of 27 06 2012 Ml Baudisch Reaction masks have priority to the internal LED switch off Test mode extended start by special transponder chip Bug fix Internal Pull ups for inputs hardware option 09 08 2010 2 4 EasyLAN bug fix TX handler added new EEPROM parameter for light switch in context with A1 and A2 New parameter to handle state presence 1 and presence 2 separately 06 09 2010 2 0 Bit7 of parameter 10 0x0A has now a function Both green LEDs illuminated if state presence 1 is activated 15 08 2011 2 6 Handling of data packet and timer message in case of receive of switch command at once 2 3 Hardware Versions Dae version pes SSOSOS S S 10 06 2010 Initial Version 03 06 2008 2 2 Bug fix Handling of red LED when transponder chip is in detection range 22 01 2009 23 09 2010 1 3 Improvement of the power supply several modules connected to one Door Module 20120627EB HB Transponderleser ID6 EN doc 4 27 Eb 27 06 2012 Baudisch Transponderleser ID6 Version 1 0 As of 27 06 2012 E Baudisch 3 Product Description 3 1 General Information The vandalism protected transponder reader with self sufficient key switch function and a optional data bus connector fo
12. ities selective adding or The shown front panel has to be deleting of keys or groups by configuration transponder ordered separately Individual erasure of lost transponders by configuration transponder and master program unit 33 1176 V4A front panel for Data bus interface for connection to central unit and ID6 Steel separate indicators 109 5 x 109 5 x 2mm Configuration with optional Windows software also in mounted state by data bus connection 20120627EB HB Transponderleser ID6 EN doc 10 27 Eb 27 06 2012 Baudisch Transponderleser ID6 3 4 Accessories Konfigurationskit ID6 JV Art Nr 36 0147X 20120627EB HB Transponderleser ID6 EN doc Version 1 0 As of 27 06 2012 E Baudisch The configuration kit IDG is used to program the transponder chips and consists of a PC software Windows 98 XP and a programming device Scope of delivery e Windows Software ID6 PROG with manual CD ROM e Programming device for connection to a PC RS232 COM1 COMA4 e Wall power supply e 5 transponder chips IC6 CP RD red configuration transponder Scope of operation Detection and display of the data content of all transponder chips if there is no labeling Programming of the functions of configuration transponders Each configuration transponder can be used for one of these functions Deleting of a defined chip number 1 to 5000 The number is programmed to the chip Activating deactivating of the teach in
13. loop impedance of 100 Ohm 4 4 4 Wiring Architecture lt is not necessary to connect EasyLAN in star or loop architecture it can be used any architecture The most common way to install EasyLAN is to use one power supply for all ID6 readers It is not allowed to install abus segment larger than the power supply range because EasyLAN has no galvanic isolation Installing the bus from floor to floor will lead to a connection of different ground potential and leakage currents or ground loops 4 4 5 Data Format The data format of the EasyLAN data bus is compatible to many asynchronous serial interfaces EasyLAN can be converted via level converter to RS232 or RS422 There are corresponding devices available providing galvanic isolation and function indicators e g EasyLAN PC Interface The data type is defined to 4800 Baud 8 Bit 2 Stop bit Parity even 20120627EB HB Transponderleser ID6 EN doc 19 27 Eb 27 06 2012 Baudisch Transponderleser ID6 Version 1 0 As of 27 06 2012 E Baudisch 4 4 6 Bus Subscriber Addressing The EasyLAN technology achieves an aim to give the possibility to send a message to a defined subscriber on the bus if necessary So each device needs it s address to use it in the telegrams One consequence is that the receiver confirms the reception Any EasyLAN telegram includes a target address and the address of the sender EasyLAN supporis up to 64 logical bus addresses shown in a data byte in the ra
14. lter ID6 Steel Transponderschalter ID6 Steel Vandal protected transponder reader Vandalismusgeschutztes module with Baudisch EasyLAN data Transponder Lesemodul mit bus terminal Baudisch EasyLAN Datenbusklemme zur Anbindung an zentrale Komponenten der Baudisch Zugangskontrolle oder Zeiterfassung 20120627EB HB Transponderleser ID6 EN doc 7 27 Eb 27 06 2012 Baudisch Transponderleser ID6 3 3 Details Transponderleser ID6 JV E Art Nr 36 0147E 20120627EB HB Transponderleser ID6 EN doc Version 1 0 As of 27 06 2012 Baudisch Vandalism protected transponder reader with self sufficient key switch function and optional data bus connector for a central configuration or function check Built in mounting in in wall pattress box diameter 61mm Depth measured from rear side of the mounting panel approx 42mm Mounting panel with stainless steel cover approx 80x80x6mm V2A safety screws Power supply 24VDC 50mA 1 Open Collector Output 80V 15W max 250mA for electric lighting control 2 multicolor LED indicators red green yellow Acoustic function indicator available for all states if the device like alert sound generation Safe detection of the transponder in a range up to 10mm Internal storage for 5000 keys or groups General erasure of all authorities selective adding or deleting of keys or groups by configuration transponder Individual erasure of lost transponders by co
15. mode of a transponder reader Deleting all of the 5000 authorities Activation of all of the 5000 authorities Reset of the Transponderlesers 11 27 Eb 27 06 2012 Baudisch Transponderleser ID6 Transponder Schlusselanhanger schwarz blau rot Art Nr 31 0503 31 0503R 31 0503B 20120627EB HB Transponderleser ID6 EN doc Version 1 0 As of 27 06 2012 E Baudisch Transponder keys for a contactless operation of the ID6 Programmed with a safe 64 bit number containing system ID customer ID and lock information Standard functional chain A1 A2 Light not active Color black Programmed serial Label with key number e Available colours o 31 0503 black grey o 31 0503R red grey o 31 0503B blue grey Each RFID product and it s number is listed in a safe data base in the factory So it s sure that each device is individual programmed When ordering you have to name one of these three functions e Standard use Triggering of a door release buzzer or access permision e Prison presence logic standard switching chain A1 A2 Light not active e Electrical lighting Switchs on the output as long as the transponder is present in the detection range Measures of the transponder chip Diameter 31mm max 40mm You can not order the transponder chips separately you always have to tell us a corresponding project 12127 Eb 27 06 2012 Baudisch Transponderleser ID6 Version 1 0 A
16. ness trip in conjunction with a data connection to a central unit 20120627EB HB Transponderleser ID6 EN doc 5721 Eb 27 06 2012 Baudisch Transponderleser ID6 Version 1 0 As of 27 06 2012 Ml Baudisch 3 2 Abridgment Name Description 36 0147E Transponder reader ID6 JV E Transponderleser ID6 JV E Basic version without sabotage Basis Version ohne Sabotageschutz protection with covering panel in mit Abdeckplatten aus eloxiertem anodized aluminum 36 0147 Transponder reader ID6 JV Transponderleser ID6 JV JVA version with sabotage contact JVA Version mit Sabotagekontakt und and V2A covering Shows status V2A Abdeckung Zeigt die Zustande presence 1 and 2 Anwesenheit 1 und 2 an 36 0185 Transponder reader ID6 EA Transponderleser ID6 EA Transponder reader with 2 digital Transponderleser mit 2 digitalen inputs instead of an sabotage switch V2A covering 2 relay outputs Eingangen anstelle Sabotageschalter V2A Abdeckung 2 Relais Ausgange Fa WERT Te E EE K SC 3 20120627EB HB Transponderleser ID6 EN doc 6 27 Eb 27 06 2012 Baudisch Transponderleser ID6 Version 1 0 As of 27 06 2012 Ml Baudisch Name Description 36 0183 Transponder reader ID6 RL Transponderleser ID6 RL Transponder reader for outdoor Transponderleser fur Anwendungen im operations 2 digital inputs V2A AuBenbereich 2 digitale Eingange covering 2 relay outputs 2 Relais Ausgange V2A Abdeckung 33 1197 Transponderscha
17. nfiguration transponder and master program unit Data bus interface for connection to central unit and separate indicators Configuration with optional Windows software also in mounted state by data bus connection 8 27 Eb 27 06 2012 Baudisch Transponderleser ID6 Transponderleser ID6 JV Art Nr 36 0147 Transponderleser ID6 EA Art Nr 36 0185 20120627EB HB Transponderleser ID6 EN doc Version 1 0 As of 27 06 2012 Ml Baudisch Vandalism protected transponder reader with self sufficient key switch function and optional data bus connector for a central configuration or function check Characteristics as ID6 JV E but addiotional features e Electrical sabotage protection acting if front panel is removed Upper front panel consists of stainless steel V2A lower panel of anodized aluminum Due to the V2A front panel and the sabotage protection this device fulfills a higher safety standard than the base version The software and configuration is the same as at ID6 JV E Vandalism protected transponder reader with self sufficient key switch function and optional data bus connector for a central configuration or function check Characteristics as ID6 JV E but addiotional features e Upper front panel consists of stainless steel V2A lower panel of anodized aluminum 2 digital inputs galvanic isolation by optocouplers Working from 12V to 24V DC The digital Inputs may generate
18. nge from 40h to 7Fh When assigning the addresses the subscribers with top priority have the lowest address It is important not to use an address several times 4 4 7 File Transfer Process Previous to send a data telegram by a device the device checks for a idle bus for itself The duration of this check depends on the own address and will be restarted if the bus was busy Afterwards a telegram like this will be sent DST SRC STW LEN DO Dn BCC CR The receiver sends an acknowledgement telegram that has to be received within 250ms DST SRC ACK A receiver must give a receipt for a telegram with a correct syntax independent if the data content and the control command will lead into an activity If there is no acknowledgement received the telegram is sent again Attention In the acknowledge telegram DST means the address of the subscriber the telegram was sent from SRC stands for the sender 20120627EB HB Transponderleser ID6 EN doc 20 27 Eb 27 06 2012 Baudisch Transponderleser ID6 Version 1 0 As of 27 06 2012 Baudisch 5 Software Logic 5 1 Transponder 5 1 1 Functions The device discerns 8 different types of transponders with a different mode of operation 0x20 1 to 65535 Transponder for normal access control without further local logic 0x80 1 to 5000 Toggles the electrical Light um on lt gt off 0x81 1 to 5000 Changes the presence state A AO gt Al gt A2 gt AO and so on 0x88 1 to 5000
19. ollowing transponder detection a larger time than adjusted with this parameter the presence state is cleared at the upcoming chip detection 0x Clearance of EasyLAN send telegrams Bit0 state message on power on Bit1 periodic state message after time Bit2 message of transponder data Bit3 clear message after transponder detection Bit4 state message after changing presence state Bit5 state message after changing input Bit6 state transmit check activated hardware state change generates a state message 0x0D Default value EasyLAN transponder reader 0x00 Default value JVA 0x06 Time for detection long term operation output A1 x 0 5 seconds If there is more time elapsed between activation of A1 and the removal of the chip presence 1 will be cleared when removing the chip 0x Clearance for options BitO play sound after reset Bit1 acoustical indication of light switch chip Bit2 acoustical indication of switch state AO A1 A2 Bit3 lock of switch state A2 if parameter OCh uneven 0 Bit4 field detection red LEDs on off Bit5 orientation light red on off effective after reset Bit6 not in use Bit7 Both green LEDs illuminated in state presence 1 0x11 Default value EasyLAN transponder reader OxOF Default value JVA reader 20120627EB HB Transponderleser ID6 EN doc 25 27 Eb 27 06 2012 Baudisch Transponderleser ID6 0x2 o N 1 1 PASSWORD 8 digit transponder password Transponder block code 20120627EB HB Trans
20. ponderleser ID6 EN doc Version 1 0 As of 27 06 2012 E Baudisch Amount of transmission repeais to target address in case of no received acknowledge 0x00 Do not wait for acknowledge OxFF Try endless This parameter defines the time after the presence state indicator will switch off Thereby both of the relays and the green LED get switched off There is no acoustical indication true for A1 and AZ alternatively there is a separate configuration possible See parameters 2Ch and 2Dh 0x00 Default value JVA 0x00 Default value EasyLAN transponder reader Calibration data for internal RC oscillator This address is read only It s only possible to program at factory but is not relevant for type ID6 Rail due to external oscillator EMC test mode BitO toggle green LEDs Bit1 play Sound Bit2 toggle Relay 1 Bit3 toggle Relay 2 Bit4 toggle LEDs alternately Bit5 toggle Relays alternately Bit6 not in use Bit7 load settings on power up Value O gt function off The events will be started after 10 correctly received transponder data approx 2 per second 26 27 Eb 27 06 2012 Baudisch Transponderleser ID6 Reaction of the LEDs on inputs 40h 2B1h OXxFF 20120627EB HB Transponderleser ID6 EN doc Version 1 0 As of 27 06 2012 Ml Baudisch E1 state change to HIGH bit mapping see below E1 state change to LOW bit mapping see below E2 state change to HIGH bit mapping see below
21. r central configuration or function control was developed to detect the presence of attendanis in a hall of a prison Compared to well established procedures based on PIN numbers terminals or mechanical keys the transponder technology opens up important advantages e The detection of a transponder is contactless so there is no wear e The reading operation is completed in a very short time and the key number is transmitted securely e The needs no electricity so you can carry it on your bunch of keys e Incase of loss or damage a transponder can get prohibited and replaced by another one In condition of delivery each transponder is programmed to an individual key number The transponder communicates by a weak magnetic field with a few centimeter of range with the reader If there is a transponder in the magnetic field there is automatically a transmission of the data to the reader The reader detects the number and starts directly with programmed switching functions or transmits the number together with it s own code to a central unit e Up to 3 states and visualization with integrated LEDs e Visualization of presence in the hall e Cancellation of a prison cell call e Preparation of an officer s alert type ID6 JV after activation 1 or timeout after activation 2 e Compelled power on of the cell electric lighting type ID6 JV e Access control and door release with online link e Time posting arriving leaving busi
22. s of 27 06 2012 E Baudisch 5 3 Presence Logic To control the presence state logic transponder chips must be programmed with the function detection 0x81 and a key number from 1 to 5000 e lf there is a locked transponder detected a negative tone is generated and there is no switch operation e Toreseithe states A1 and A2 you have to use the same chip as you used to set the states e lf there is an adjusted time out for state A1 e g 10 seconds the next transponder detection will reset the chain to AO e lf the reader is in state AO and the transponder is in range longer than the adjusted time e g 5 seconds the reader is set to AO when the chip is no longer present With this function it is possible to control the electrical lighting as long as the chip is in front of the reader e The indication of A1 is realized by the green LED with the Roman numeral 1 the indication of A2 with both LEDs e Incase A1 or A2 the output light is activated e The contact A1 is closed as long as the reader is in state A1 transponder detected once e The contact A2 is closed as long as the reader is in state A2 transponder detected twice 5 4 Remote Control of the LEDs From software version 1 6 the 4 LEDs can be controlled by bus to indicate states in buildings For example Alarm system activated not activated doors locked unlocked and so on A bit mask received by bus defines the states with the 4 LEDs Bit 0 LED green at
23. s of 27 06 2012 E Baudisch Transponder Schlusselanhanger Special functions for transponder reader ID6 rot Art Nr 31 0503S 31 0503P 31 0503C 31 0503F 31 0503Z The designated function must be communicated with each order e 31 0503S Erasing of a spezific key number 1 to 5000 e 31 0503P Configuration transponder switchs on and off the teach in mode of the ID6 e 31 0503C Locks all transponder chips of a system 1 bis 5000 e 31 0503F Unlocks all transponder chips 1 bis 5000 e 31 0503Z Resets the presence state of a transponder reader All items delivered as a key pendant in red grey Measures of the transponder chip Diameter 31mm max 40mm You can not order the transponder chips separately you always have to tell us a corresponding project Sektionalanzeige ID6 JDP Indication of the state of up to 32 transponder reader Art Nr 36 0177 ID6 in LED technology Labeling of numbers or names with inlays possible State A1 illuminated green State A2 flashing green slow Time alert flashing green fast Simple wiring of the transponder reader by 2 wire bus in any architecture On wall or in wall mounting Power supply 24V DC max 700mA EN C C Zeile ES Zelle 6 Ex Lee C EI Lee Zeile ts EI WD Zeile 16 20120627EB HB Transponderleser ID6 EN doc 13127 Eb 27 06 2012 Baudisch Transponderleser ID6 Version 1 0 As of 27 06 2012 Ml Baudisch ASB_
24. stems and devices in an easy and safe way The design allows the use of long unshielded wires to connect the devices Also it is resistant to electrical damages 4 4 1 Basic Principle The bus conductor is connected to positive voltage 12V in one device So it is on high potential when in stand by mode All bus subscribers are able to pull the bus conductor down to ground potential by a tough circuit to send data The bus conductor is connected to the micro controller highly resistive and EMC protected So the central processing unit is able to receive it s own transmitted data and it s able to compare it Also it s possible to interpret data from other bus subscribers 4 4 2 Selection of Wires The easiest way to use EasyLAN is in 2 wire technology In this case the wires are connected to ground and bus signal All bus subscribers need a separate power supply with galvanic isolation e g a wall wart Usually EasyLAN is used in 4 wire 2x2x0 62 technology The second pair of wires allows to bring the supply voltage e g 12VDC with the bus So it is possible to power devices with a small power consumption by the bus wire 4 4 3 Length of Wires The maximum length of wires depends on the used wires overall Using a common shielded communication cable 2x2x0 6 there is a possible length up to 2km High grade wires e g green Instabus cable are used for longer distances The EasyLAN bus allows a capacity of up to 100nF and a maximum
25. y 1 Relay contacts isolated to each other and relay 2 that means connector 8 is connected to 10 J6 Power supply of the inputs on Power supply of the inputs not connected connector 10 to the connector 4 3 Front Panel Mounting type ID6 V E and ID6 V When mounting the stainless steel front panel keep in mind to mount it straight and with no application of a force until it seats solidly on the aluminum panel Do not push the stainless steel panel up so the stud bolt will operate the switch securely Take care not to bend the switch when mounting the front panel Figure 1 The stud bolt of the front panel operates the sabotage switch the sabotage loop is closed 20120627EB HB Transponderleser ID6 EN doc 17 27 Eb 27 06 2012 Baudisch Transponderleser ID6 20120627EB HB Transponderleser ID6 EN doc 18 27 Version 1 0 As of 27 06 2012 Ml Baudisch Figure 2 The front panel is pushed slanted above and inserted The stud bold is pressed closed to the sabotage switch Take care not to bend it to avoid malfunctions Figure 3 The stud bolt is inserted correctly the sabotage switch is operated precise Figure 4 This picture shows a bent switch and will lead into malfunction Adjust it as shown in figure 1 Eb 27 06 2012 Baudisch Transponderleser ID6 Version 1 0 As of 27 06 2012 E Baudisch 4 4 EasyLAN data bus EasyLAN was developed by Baudisch Electronic GmbH to connect electronic sy

RFID Module Manual

Contents

Download Pdf Manuals

Related Search

Related Contents