English Product Manual RFID Reader UF70 Certum The product manual must be read prior to the initial start-up. Observe the safety instructions! Store for future use. This documentation is not subject to revisions.
Information This product manual corresponds with "Directive 1999/5/EC of the European Parliament and the Council on radio equipment and telecommunications transmission equipment and the mutual recognition of the conformity". This product manual is addressed to the operating company who must pass it on to the personnel responsible for installation, connection, use and repairs of the machine.
Information Archiving Store the product manual in the vicinity of the device! Always keep the product manual handy! Symbols and signal words The following symbols and signal words are used in this documentation. The combination of a pictograph and a signal word classifies the respective safety information. The symbol can vary depending on the type of danger.
Information Target group This product manual is addressed to personnel with the following areas of responsibility: Area of responsibility Competence Installation Specialized personnel Commissioning, operation and decommissioning Instructed personnel Troubleshooting Specialized personnel Definition according to DIN EN 60204-1: Instructed personnel Persons who have been instructed and, if required, trained by a specialist as to the tasks assigned to them, the possible risks of incorrect behavior and t
Contents 1 Identification . . . . . . . . . . . . . . . . . . . . . . . . . 7 1.1 Designated use 8 1.2 Incorrect use 8 2 Declaration of Conformity 3 General Instructions . . . . . . . . . . . . . . . . . . . 12 4 5 6 . . . . . . . . . . . . . . . 10 3.1 Liability and warranty 12 3.2 Objectives of the product manual 12 Safety Instructions . . . . . . . . . . . . . . . . . . . . 14 4.1 Area of application and symbols 14 4.1.1 Safety symbols – in compliance with 4844-2 15 4.1.
Contents 7 8 9 10 6.5.1 Positioning the antenna 34 6.5.2 Available antenna types 34 6.6 Power supply 34 6.7 Terminal connection 35 6.8 External input and output (optional) 36 6.9 Commissioning 36 6.9.1 Required operating conditions 36 6.9.2 Parameters of the serial interface 36 6.9.3 Parameters of the Ethernet interface 37 Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . 40 7.1 Operating personnel 40 7.2 Communication protocol ASC-I1 40 7.2.
Chapter 1 Identification 1 Identification This chapter gives you an overview of the following topics: Model ■ Designated use ■ Incorrect use RFID Reader UF70 Certum Serial number 00 – 0001 – UF70 Part number TUG-E1ML-4O00-F4-00E1 ETSI version, protection class IP40 TFG-E1ML-4O00-F4-00E1 FCC version, protection class IP40 TUG-E1ML-4O00-R4-00E1 ETSI version, protection class IP65 TFG-E1ML-4O00-R4-00E1 FCC version, protection class IP65 Manufacturer Brooks Automation (Germany) GmbH RFID Divis
Chapter 1 Identification 1.1 D e si gn at e d u se This product is exclusively developed for reading and writing of passive UHF transponders (e.g. EPC Class1 Gen2). Any other use of this device constitutes misuse and renders the user's authority to install and operate the device invalid. This product is designed to be mounted and operated in an industrial setting as a built-in-device only.
Chapter 1 Identification WARNING Risk of injury through incorrect modifications There are risks from unauthorized modifications to the machine. Only use original spare parts from the manufacturer. Do not make any changes, attachments or modifications to the device without the approval of Brooks Automation (Germany) GmbH. WARNING Risk of injury and malfunction of machine operation through incorrect use There are risks attached to using the device incorrectly.
Chapter 2 Declaration of Conformity 2 Declaration of Conformity Konformitätserklärung gemäß dem Gesetz über Funkanlagen und Telekommunikationsendeinrichtungen (FTEG) und der Richtlinie 1999/5/EG (R&TTE) Declaration of Conformity in accordance with the Radio and Telecommunications Terminal Equipment Act (FTEG) and Directive 1999/5/FC (R&TTE Directive) Hersteller / Verantwortliche Person Manufacturer / responsible person BROOKS Automation (Germany) GmbH / Herr Dittrich erklärt, dass das Produkt declares
Chapter 2 Declaration of Conformity Schutzanforderungen in Bezug auf die elektromagnetische Verträglichkeit (§ 3 (1) 2, Artikel 3 (1) b) Protection requirements concerning electromagnetic compatibility § 3(1)(2), (Article 3(1)(b)) angewendete harmonisierte Normen Harmonized standards applied EN 301 489-1 V1.8.1 EN 301 489-3 V1.4.
Chapter 3 General Instructions 3 General Instructions This chapter gives you an overview of the following topics: ■ Liability and warranty ■ Objectives of the product manual 3.1 Li ab i l i t y an d wa rr an t y The “General sales and delivery conditions” of Brooks Automation (Germany) GmbH always apply. The warranty period is 12 months beginning with the delivery of the device, which is verified by the invoice or other documents.
Chapter 3 General Instructions Objectives: ■ avoid accidents ■ increase the service life and reliability of the device ■ reduce costs due to production downtimes nbb Product Manual - RFID Reader UF70 Certum 13
Chapter 4 Safety Instructions 4 Safety Instructions This chapter gives you an overview of the following topics: ■ Area of application and symbols ■ Obligations ■ ESD instructions ■ Residual risks ■ Additional information 4.1 DANGER Ar ea o f a pp l i ca t i o n a n d s y m bo l s Danger to life, risk of injuries or damage to property Risks exist when disregarding the product manual and the safety instructions therein. Carefully read the product manual before initial commissioning.
Chapter 4 Safety Instructions 4.1.1 WARNING Safety symbols – in compliance with 4844-2 Risk of injuries when disregarding safety symbols Risks exist when disregarding warnings in the product manual. Please heed the warnings. Special safety symbols in accordance with DIN 4844-2 are used in the corresponding passages in the text of this product manual and require special attention depending on the combination of signal word and symbol. 4.1.
Chapter 4 Safety Instructions 4.1.
Chapter 4 Safety Instructions 4.2 O bligatio ns 4.2.1 Operating company’s obligations The safe condition and use of the device is a requirement for the safe operation of the device.
Chapter 4 Safety Instructions WARNING Risk of injuries due to insufficient personnel qualifications A risk exists for personnel and the proper operation due to insufficiently qualified personnel. Only trained personnel may operate the device. New operators must be instructed by the current operating personnel. The operating company must precisely regulate and monitor the personnel's areas of responsibility and competence.
Chapter 4 Safety Instructions DANGER Risks from electric current Electrical energy remains in lines, equipment and devices even when the device is switched off. Only allow qualified electricians to perform work on the electrical supply system. ATTENTION Disconnect the device from the power supply system if active parts of the device can be accessed by using tools. Access is only permitted for authorized personnel. Regularly check the electrical equipment of the device.
Chapter 4 Safety Instructions 4.5 Additional information ■ Read and understand all safety and product manuals prior to installing and operating the device. ■ This documentation was written for specifically trained personnel. Installation, operation and troubleshooting may only be carried out by specifically trained personnel. ■ Retain these instructions. Keep this documentation in a location that is accessible to all personnel involved with the installation, use and troubleshooting of the device.
Chapter 4 Safety Instructions Rules and regulations The provisions of the accident prevention regulations of the government safety organizations always apply to all work on the device.
Chapter 5 Product Specifications 5 Pr o d u c t S p e c i f i c a t i o n s This chapter gives you an overview of the following topics: ■ Function ■ Images ■ Description of the components ■ Technical data 5.1 Function The Brooks RFID UF70 Certum reader is a multiprotocol reader for reading passive transponders in the frequency range of 865 MHz to 868 MHz for Europe and 902 MHz - 928 MHz for the FCC.
Chapter 5 Product Specifications 5.2 Images 5.2.
Chapter 5 Product Specifications 5.2.
Chapter 5 Product Specifications 5.2.
Chapter 5 Product Specifications 5.3 Description of t h e c o m po n e n t s Components Power LED Description If the correct voltage is applied to the device, the Power LED is green and the device is operational. Reset button Pressing this button initiates a power-reset of the device. The reset button must be pressed for at least three seconds until all the LEDs of the foil keypad simultaneously start and the hardware reset is executed.
Chapter 5 Product Specifications Components RS232 interface Description Communications with the device can be made via the serial interface (9 pin sub-D socket). Baudrates of 1,200 Bd up to 57,600 Bd are possible. Ethernet interface Communications with the device can be made via the 10/100 BaseT interface.
Chapter 5 Product Specifications 5.4 Techni cal data Technical data Voltage 24 V DC ± 10% Power consumption approx. 0.8 A at 24 V Operating temperature -20 to 50 °C -4 °F to 122 °F Storage temperature -40 to 85 °C -40 °F to 185 °F Permissible humidity at 50 °C / 122 °F 25 – 85% Protection class IP 40 (optional IP 65) Housing material Passivated aluminum Weight approx.
Chapter 5 Product Specifications Device label The device label with the CE mark, part/serial number and MAC address is on the device housing.
Chapter 6 Installation 6 Installation This chapter gives you an overview of the following topics: ■ Safety instructions ■ Qualified installation personnel ■ Unpacking ■ Assembly of the device ■ Antenna installation ■ Power supply ■ Terminal connection ■ External input and output (optional) ■ Commissioning Refer to manual Follow the general safety instructions in the chapter Safety Instructions. 6.
Chapter 6 Installation CAUTION Never expose the device to extreme temperature fluctuations, since otherwise condensation develops in the device and causes damage. Do not install the device in the vicinity of voltage lines or other power lines with which they could collide (for example, drilling), which could result in serious injuries or even death.
Chapter 6 Installation ATTENTION When determining the installation site, keep in mind the length of the antenna wire and the read/write range of the antenna used. 6.2 Q uali fied install ati on per sonnel CAUTION The installation is to be carried out by specially trained personnel only. If you are uncertain about their qualification, contact the manufacturer. CAUTION Installing the device without special training can result in damage to the reader and/or connected devices. 6.
Chapter 6 Installation 6.4 ATTENTION Assembly of the device The mounting surface must be stable, non-flammable, dry and clean. If necessary, clean it before you install the device. The device must be installed so that air can freely circulate vertically through the heat sink, and the operating and environmental conditions specified under Technical data are met at all times.
Chapter 6 Installation 6.5 ATTENTION Antenna installation Consider the required read and write ranges when installing the antenna. The reader can only be used properly if the transponder is located within the individual reading/writing range of the respective antenna. If the transponder is very close to the antenna, the transponder may be detuned by the metal of the antenna and a reading/writing is not possible. We recommend keeping a minimum distance between transponder and antenna of about 10 mm. 6.5.
Chapter 6 Installation If the LED does not light up, please refer to chapter Error display with LED. Pin Signal 1 GND 2 +24 V DC 3 GND 6.7 Pins 1 and 3 are both grounded. Terminal co nnectio n The serial interface is a Sub-D socket (9-pin). A normal RS232 extension cable can be used.
Chapter 6 Installation 6.8 E xte r nal i np ut a nd o ut p ut (o pti o n al ) The following I/O versions are possible: A digital input and output can be connected to each antenna port. A 3 wire sensor or dry contact is possible as the input. The output can operate a LED without a series resistor or directly switch 5 V DC. 6.9 C ommissioning 6.9.
Chapter 6 Installation 6.9.3 Parameters of the Ethernet interface The Ethernet is connected via an Ethernet module. Tools are available that allow the Ethernet settings to be configured. By using Discovery Tools, all Ethernet devices located in the network can be found. The respective device can be configured via a web server and a web browser via a double click. If the TCP / IP address is known, the web server can also be directly opened in a browser also follows: http://xxx.xxx.xxx.
Chapter 6 Installation Configuration IMPORTANT The "Factory Default Settings" must not be set under any circumstances as they are not the factory settings of Brooks. Any other settings of the Ethernet device (exept the IP address) must not be changed. Otherwise a fault-free communication cannot be guaranteed by Brooks. Digi Device Discovery The tool displays all devices that have a Digi Connect ME. Devices that are not in the same subnet are also displayed.
Chapter 6 Installation Selection window Input window Product Manual - RFID Reader UF70 Certum 39
Chapter 7 Operation 7 O pera tio n This chapter gives you an overview of the following topics: ■ Operating personnel ■ Communication protocol ASC-I1 ■ Additional information 7.1 CAUTION Operating personnel The UF70 Certum reader should only be operated by specially trained personnel. If you have doubts about the required qualifications, contact the manufacturer. Operating the device without special training can result in damage to the reader and/or connected devices. 7.
Chapter 7 Operation 7.2.2 Package contents General remarks: Each package includes a package header (three characters), a message (two or more characters) and the end of the package (five characters). Package header Package header Message End of package The header includes the start character (one character) and the package length (two characters) 2 starting characters and 4 length bytes are sent in the extended ASCII protocol.
Chapter 7 Operation Message structure The message contains a command, a target and source address, the number of the antenna port (Head) and the actual information. The number of the antenna port is not required for all messages. Message Command Address Head Information Command ASCII characters (see section Commands of protocol) Address Target or source address; ASCII characters '0'...
Chapter 7 Operation ATTENTION When using the TCP/IP interface option, the checksum is not used (is not transmitted). 7.2.
Chapter 7 Operation Command Description UAZ Activate polling: Write data range masked UAB Activate polling: Erase block of all EPC transponders UAL Activate polling: Retrieving all EPC transponders UAK Activate polling: Killing all EPC transponders UAR Read transponder rate in the polling operation UAE Stop polling UCX Activate polling: NXP-UCODE-G2X Read Protect UCN Activate polling: NXP-UCODE-G2X Reset Read Protect UCC Activate polling: NXP-UCODE-G2X Change EAS UCE Activate polling:
Chapter 7 Operation Command Description E Error message H Heartbeat (request serial number) V or UVR Request software version UGT Read UTC time UPT Set UTC time Product Manual - RFID Reader UF70 Certum 45
Chapter 7 Operation Message items Access word 8 bytes The 4 byte access word is required to access the various memory areas of the EPC transponder. The LSB byte is transmitted first during the transmission. The data are interpreted in HEX format. That is, two ASCII characters in the message equal one byte of data in HEX format. Example: 0x01020304 ASCII string: "04030201" Bulk time 4 bytes 2 bytes time in milliseconds specifying how long to read.
Chapter 7 Operation DHCP 1 byte A network configuration that determines if the static network address is being used or if the DHCP server assigns the network address. "0" DHCP is not active, use static network address "1" DHCP is active; obtain network address from the DHCP server Direction 2 bytes When polling, the direction flag shows if a transponder enters or leaves the field. The display that a transponder leaves the field can be activated via parameter 0x29.
Chapter 7 Operation Ex flag 2 bytes The extension flag determines which information is included in the recognized EPC transponder. The Ex flag is set by parameter 0x76. The data are interpreted in HEX format. That is, two ASCII characters in the message equal one byte of data in HEX format.
Chapter 7 Operation Filter mask N* 2 bytes The filter bits required for the development of a filter are defined in HEX format in a filter mask. That is, two ASCII characters in the message equal one byte of data in HEX format. The LSB byte of the filter mask is transmitted first. Example: N=3 Number of mask bits: 18 Filter mask: "0x03FEFE" Transmission: "FEFE03" Filter number 2 bytes The filters defined for filtering are numbered consecutively from 0 to 31.
Chapter 7 Operation Mask N* 4 bytes The bit-oriented mask determines what data will actually be overwritten in the masked write. The mask has the same length as the data to be written and actual data is only written in the places where a 1 is located in the mask. The mask is passed in the same order and length as the masked data to be written.
Chapter 7 Operation On/Off 4 bytes The use of a defined filter can hereby be enabled or disabled. Values: "00" – Filter off "FF" – Filter on Output state 1 - 4 bytes Displays the current status of the outputs at the corresponding antenna port (Head ID). The information unit "Output state" includes the status of each output of an antenna port. In the case of querying the status of all outputs of the reader, the "Output State" contains the status of all 4 outputs (1 per head).
Chapter 7 Operation Payload 6 bytes If a transponder must be locked, the area of the transponder to be locked can be specified by the payload. The LSB byte is transmitted first during the transmission. Data (3 bytes) are in HEX format. That is, two ASCII characters in the message equal one byte of data in HEX format. The exact structure can be derived from the EPC Global standard chapter "Lock".
Chapter 7 Operation Response code 4 bytes This feature is not used for the single reader. This code is always "0000". Result 2 bytes The result flag delivers information on whether an action was completed successfully. The data are interpreted in HEX format. That is, two ASCII characters in the message equal one byte of data in HEX format.
Chapter 7 Operation Transponder error code 2 bytes The transponder itself also delivers an error code, which is also transmitted. The data are interpreted in HEX format. That is, two ASCII characters in the message equal one byte of data in HEX format. Values: "00" (0x00) >0x00 no errors occurred an error occurred UTC 8 bytes The Unix time code (UTC) describes the seconds that have passed since 1.1.1970 0:00:00. The Unix time code (UTC) is the same worldwide for a specific time.
Chapter 7 Operation X or URX - Read data area The X command starts the reading of a defined data range of the current EPC transponder. Several EPC transponders can be located in the reading area of the antenna when using this command.
Chapter 7 Operation Example: Read access password (many transponders) >> X0100000000000200000002 << x0020001 0106480000000000000000000000000200000000 0106010000000000000000000000000200000000 0106060000000000000000000000000200000000 0106270000000000000000000000000200000000 << x001 0106190000000000000000000000000200000000 0106500000000000000000000000000200000000 0106470000000000000000000000000200000000 0106170000000000000000000000000200000000 0106090000000000000000000000000200000000 0106100000000000000000000
Chapter 7 Operation URY – Read data area (defined EPC code) The URY command starts the reading of a defined data range of the current EPC transponders which have a defined EPC code. Several EPC transponders can be located in the reading area of the antenna when using this command.
Chapter 7 Operation M - EPC scanning The M command starts the scanning of the EPC transponder located in the activated antenna located in the read area.
Chapter 7 Operation 0106280000000000000000000000 0106030000000000000000000000 0106170000000000000000000000 0106190000000000000000000000 0106400000000000000000000000 0106050000000000000000000000 0106090000000000000000000000 0106010000000000000000000000 0106240000000000000000000000 0106460000000000000000000000 0106260000000000000000000000 0106180000000000000000000000 0106390000000000000000000000 0106060000000000000000000000 >> M01 << m0000A Result 0x0A, since no transponder is available >> URM01 << urm0000
Chapter 7 Operation URB – EPC Bulk reading The command URB starts a reading of EPC transponders over a predetermined period of time. The EPC of all detected transponders is reported after the completion of the time.
Chapter 7 Operation W – Write EPC code The W command starts the description of the EPC of a present EPC transponder. Only one EPC transponder should be located in the write area of the antenna when using this command.
Chapter 7 Operation UWW – Write data range of all EPC transponders The UWW command starts to overwrite the defined data range of all EPC transponders located in the field. Several EPC transponders can be located in the write area of the antenna when using this command.
Chapter 7 Operation 01060B0C090A0708050603040102 EPC: 02010403060508070A090C0B EPC: 02010403060508070A090C0B EPC: 02010403060508070A090C0B Example: Write EPC transponder access code >> UWW0100000000000200000002FFFFFFFF << uww00000010106BBCC99AA778855663344112200 Control reading: >> X01FFFFFFFF000200000002 << x00000010106BBCC99AA77885566334411220002FFFFFFFF Product Manual - RFID Reader UF70 Certum 63
Chapter 7 Operation UWZ – Write data range of all EPCtransponders (defined EPC code) The UWZ command starts to overwrite the defined data range of all EPC transponders located in the field that have a defined EPC code. Several EPC transponders can be located in the write area of the antenna when using this command.
Chapter 7 Operation Control reading: >> M01 << m0000001 01060B0C090A0708050603040102 EPC: 02010403060508070A090C0B >> M01 << m0000001 01060102030405060708090A0B0C 01060102030405060708090A0B0C 01060102030405060708090A0B0C EPC: 0C0B0A090807060504030201 EPC: 0C0B0A090807060504030201 EPC: 0C0B0A090807060504030201 >> UWZ01060102030405060708090A0B0C000000000102000000061122334 45566778899AABBCC << uwz000000101060102030405060708090A0B0C00 >> M01 << m0000001 0106BBCC99AA7788556633441122 01060102030405060708
Chapter 7 Operation UMW – Write data range of all EPC transponders The UMW command starts to overwrite the defined data range of all EPC transponders located in the field. Several EPC transponders can be located in the write area of the antenna when using this command.
Chapter 7 Operation UMZ – Write data range of all EPCtransponders (defined EPC code) The UMZ command starts to overwrite the defined data range of all EPC transponders located in the field that have a defined EPC code. Several EPC transponders can be located in the write area of the antenna when using this command.
Chapter 7 Operation UBW – Erase block of all EPC transponders The UBW command starts to delete (erase) the defined blocks of all EPC transponders located in the field. Several EPC transponders can be located in the write area of the antenna when using this command.
Chapter 7 Operation UBZ – Erase block of all EPC transponders (defined EPC code) The UBZ command starts to delete (erase) the defined data range of all EPC transponders located in the field that have a defined EPC code. Several EPC transponders can be located in the write area of the antenna when using this command.
Chapter 7 Operation ULW – Locking all The ULW command starts to lock the defined data range of all EPC transponders EPC transponders located in the field. Several EPC transponders can be located in the write area of the antenna when using this command.
Chapter 7 Operation ULZ – Locking all EPC transponders (defined EPC code) The ULZ command starts to lock all EPC transponders with the corresponding EPC code located in the field. Several EPC transponders can be located in the write area of the antenna when using this command.
Chapter 7 Operation UKW – Killing all EPC transponders The UKW command starts to kill the defined data range of all EPC transponders located in the field. Several EPC transponders can be located in the write area of the antenna when using this command. The "kill" command is only performed for a transponder if the kill password was previously written and matches! The transponder can no longer be addressed after a successful kill command.
Chapter 7 Operation UKZ – Killing all EPC transponders (defined EPC code) The UKZ command starts to kill all EPC transponders with the corresponding EPC code located in the field. Several EPC transponders can be located in the write area of the antenna when using this command. The kill command is only performed if the kill password was previously written! The transponder can no longer be addressed after a successful kill command.
Chapter 7 Operation IMPORTANT The respective transponder can no longer be addressed after a successfully conducted kill command. This command cannot be undone.
Chapter 7 Operation T and UAM – Enable read polling EPC The T or UAM command starts the polling of EPC transponders on the respective antenna port, as long as it is not ended or the device is not reset!! Transponder messages only appear if EPC transponders are actually moved in the field. The polling is briefly stopped for intermediate read requests and is continued after the action. If polling is activated via parameter "polling port" 0x28, polling is restarted automatically after reset.
Chapter 7 Operation << uam000010106BBCC99AA77885566334411225502 EPC transponder leaves the field: EPC: 2211443366558877AA99CCBB << uam0000101060102030405060708080809095C02 EPC transponder leaves the field: 090908080807060504030201 << uam0FF010106010203040506070808080909 EPC transponder enters the field: 090908080807060504030201 << uam0000101060102030405060708080809090500 EPC transponder leaves the field: 090908080807060504030201 Product Manual - RFID Reader UF70 Certum 76
Chapter 7 Operation UAA – Enable Read Polling Raw The UAA command starts the polling of EPC transponders on the respective antenna port, as long as it is not ended or the device is not reset! With each polling run all transponders are shown - which may result in a high data traffic. The polling is briefly stopped for intermediate read requests and is continued after the action. If polling is activated via parameter "polling port" 0x28, polling is restarted automatically after reset.
Chapter 7 Operation EPC transponder leaves the field: 090908080807060504030201 << uaa0FF010106010203040506070808080909 EPC transponder enters the field: 090908080807060504030201 << uaa0000101060102030405060708080809090500 EPC transponder leaves the field: 090908080807060504030201 Product Manual - RFID Reader UF70 Certum 78
Chapter 7 Operation UAX – Polling Read Data The UAX command starts the asynchronous read (polling) of a defined data range of EPC transponders at the respective antenna port. The polling read data is executed as long as it is not ended or a reset is executed. Transponder messages only appear if EPC transponders are actually moved in the field. The polling is briefly stopped for intermediate read requests and is continued after the action.
Chapter 7 Operation << uax0FF0101060102030405060708080809090006090908080708050603040102 << uax000010106BBCC99AA77885566334411224700 << uax0FF010106BBCC99AA77885566334411220006112233445566778899AABBC C << uax000010106BBCC99AA77885566334411222400 << uax0000101060102030405060708080809097100 >> UAE0 << uae000 Product Manual - RFID Reader UF70 Certum 80
Chapter 7 Operation UAW – Polling Write Data The UAW command starts the asynchronous writing (polling) of a defined data range of EPC transponders at the respective antenna port. The polling write data is executed as long as it is not ended or a reset is executed. Transponder messages only appear if EPC transponders are actually moved in the field. The polling is briefly stopped for intermediate read requests and is continued after the action.
Chapter 7 Operation << uaw0000101060B0C090A07080506030401024E00 >> UAE0 << uae000 Stop polling Control reading: >> M01 << m0000001 01060B0C090A0708050603040102 01060B0C090A0708050603040102 EPC: 02010403060508070A090C0B EPC: 02010403060508070A090C0B Product Manual - RFID Reader UF70 Certum 82
Chapter 7 Operation UAZ – Polling Write The UAZ command starts the asynchronous masked writing (polling) of a defined Masked Data data range of EPC transponders at the respective antenna port. The polling write masked data is executed as long as it is not ended or a reset is executed. Transponder messages only appear if EPC transponders are actually moved in the field. The polling is briefly stopped for intermediate read requests and is continued after the action.
Chapter 7 Operation << uaz0000101060B0C090A07080506030411224E00 >> UAE0 << uae000 Stop polling >> M01 << m000000101060B0C090A0708050603041122 EPC: 22110403060508070A090C0B Product Manual - RFID Reader UF70 Certum 84
Chapter 7 Operation UAB – Erase Block The UAB command starts the asynchronous erase block (polling) of a defined data range of EPC transponders at the respective antenna port. The polling erase block is executed as long as it is not ended or a reset is executed. Transponder messages only appear if EPC transponders are actually moved in the field. The polling is briefly stopped for intermediate read requests and is continued after the action.
Chapter 7 Operation UAL – Lock EPC The UAL command starts the asynchronous lock EPC (polling) of defined EPC transponders at the respective antenna port. The polling lock EPC is executed as long as it is not ended or a reset is executed. Transponder messages only appear if EPC transponders are actually moved in the field. The polling is briefly stopped for intermediate read requests and is continued after the action.
Chapter 7 Operation UAK – Kill EPC transponder The UAK command starts the asynchronous kill of EPC transponders (polling) at the respective antenna port. The polling kill EPC is executed as long as it is not ended or a reset is executed. Transponder messages only appear if EPC transponders are actually moved in the field. The polling is briefly stopped for intermediate read requests and is continued after the action.
Chapter 7 Operation << uak0FF0101060B0C090A070805060304112280 << uak0FF0101060B0C090A070805060304112280 << uak0FF0101060B0C090A070805060304112280 Kill password not set << uak0FF010106000005358004D9DDB233083002 Wrong Kill password IMPORTANT The respective transponder can no longer be addressed after a successfully conducted kill command. This command cannot be undone.
Chapter 7 Operation UAR – Polling transponder rate The UAR command provides the transponder rate of the activated polling action. A transponder list of a standard inventory is first established in the reader in all polling actions before the actual read/write action is executed. The transponder rate is formed via the inventory and specifies how many transponders are detected per second during the inventory.
Chapter 7 Operation << uam0FF010106050000000000000000000000 EPC: 000000000000000000000005 << uam0FF010106340000000000000000000000 EPC: 000000000000000000000034 << uam0FF010106180000000000000000000000 EPC: 000000000000000000000018 << uam0FF010106430000000000000000000000 EPC: 000000000000000000000043 << uam0FF010106109905358004D9DDB2330830 EPC: 300833B2DDD9048035059910 << uam0FF010106170000000000000000000000 EPC: 000000000000000000000017 << uam0FF010106420000000000000000000000 EPC: 000000000000
Chapter 7 Operation >> UAR01 << uar0006C00 >> UAR01 << uar0006C00 >> UAR01 << uar0006C00 << uam0FF010106230000000000000000000000 EPC: 000000000000000000000023 >> UAR01 << uar0007800 Product Manual - RFID Reader UF70 Certum 91
Chapter 7 Operation UAE – End polling The UAE command ends all asynchronous commands (polling) at all antenna ports. If the polling was started per polling port parameter, the parameter must also be reset to finally end this.
Chapter 7 Operation UCX – Activate polling NXPUCODE-G2X Read Protect The UCX command starts the asynchronous transponder function (polling operation) "ReadProtect" of all NXP-UCODE-G2X transponders in the field at the respective antenna port. The polling "ReadProtect" is executed as long as it is not ended or a reset is executed. Transponder messages only appear if NXP-UCODE-G2X transponders are actually moved in the field.
Chapter 7 Operation UCN – Activate polling NXPUCODE-G2X Reset Read Protect The UCN command starts the asynchronous transponder function (polling operation) "ResetReadProtect" of all NXP-UCODE-G2X transponders in the field at the respective antenna port. The polling "ResetReadProtect" is executed as long as it is not ended or a reset is executed. Transponder messages only appear if NXP-UCODE-G2X transponders are actually moved in the field.
Chapter 7 Operation UCC - Activate The UCC command starts the asynchronous transponder function (polling Polling NXP- operation) "Change EAS" of all NXP-UCODE-G2X transponders in the field at the UCODE-G2X respective antenna port. The polling "Change EAS" is executed as long as it is not Change EAS ended or a reset is executed. Transponder messages only appear if NXP-UCODE-G2X transponders are actually moved in the field.
Chapter 7 Operation UCE - Activate polling NXPUCODE-G2X EAS alarm The UCE command starts the asynchronous transponder function (polling operation) "EAS alarm" of all NXP-UCODE-G2X transponders in the field at the respective antenna port. The polling "EAS alarm" is executed as long as it is not ended or a reset is executed. Transponder messages only appear if NXP-UCODE-G2X transponders are actually moved in the field.
Chapter 7 Operation UFW – Set filter data By setting and activating so-called filters, it is possible to only let certain EPC transponders participate in the inventory. A total of 8 filters can be defined. The UFW command makes it possible to set the data for a filter.
Chapter 7 Operation UFR – Read filter data By setting and activating filters, it is possible to only let certain EPC transponders participate in the inventory. A total of 32 filters can be defined. The UFR command allows reading of data of a filter.
Chapter 7 Operation UFP – Set filter By setting and activating so-called filters, it is possible to only let certain EPC transponders participate in the inventory. A total of 32 filters can be defined. The use of a particular filter can be switched on and off by the UFP command.
Chapter 7 Operation UFG – Read filter data By setting and activating so-called filters, it is possible to only let certain EPC transponders participate in the inventory. A total of 32 filters can be defined. The status of a particular filter can be determined by the UFG command.
Chapter 7 Operation UGL – Read list of radio profiles The radio profiles located in the reader can be read with the UGL command. The profiles are numbered consecutively. The profile description itself is ASCII-coded and is always completed by a zero byte 0x00.
Chapter 7 Operation UGP – Read active The currently used radio profile can be read in the reader with the UGP command.
Chapter 7 Operation UPP – Set active The active radio profile of the reader can be set with the UPP command.
Chapter 7 Operation UNH – Hardware reset The UNH command performs a hardware reset of the whole UHF reader. Approximately 20 seconds pass after a confirmation until the reset is completed and the reader responds with a reset message. Host reader CMD Reader ID UNH 1 byte Reader host (confirmation) CMD Reader ID Result unh 1 byte 2 bytes Reader host (reset message) CMD Reader ID n 1 byte Example: >> UNH0 << unh000 ...up to 20 seconds pass...
Chapter 7 Operation UNR or N – Software reset The UNR or N command only triggers a restart of the software. After the software is reset, the device responds with a reset message.
Chapter 7 Operation UPE - Factory Reset/Factory Setting There are 3 options to completely or only partially reset the device to the default status. 1. Only reader-specific parameters (from parameter 100) are reset by the "UPE" command. Host reader CMD Reader ID UPE 1 byte Reader host CMD Reader ID upe 1 byte Example: >> UPE0 << upe000 2.
Chapter 7 Operation F – Parameter query The F command is used to query individual parameters of the device. The number of the parameter is transmitted in "Parameter No.". The response contains the parameter number and value. The parameter number and the value should be specified in HEX format: for example, parameter 11 0x0B. Host reader CMD Reader ID Parameter no. 1) F 1 byte 2 bytes Reader host CMD Reader ID Parameter no.
Chapter 7 Operation P – Set parameter The P command sets the individual parameter values of the device. The device sends a confirmation after successfully setting a parameter. The parameter number and the value should be specified in HEX format: e.g. parameter 11 0x0B. IMPORTANT After setting one or several parameters, a reset is to be carried out as some parameters affect hardware settings.
Chapter 7 Operation N - Reset IMPORTANT The N command performs a reset of the reader hardware. After the reset the Ethernet connection to the device has to be reestablished. After setting one or several parameters, a reset is to be carried out as some parameters affect hardware settings.
Chapter 7 Operation UGK – Determine For the typical reader parameters (parameter number 100 to max. 240), up to 8 active parameter parameter sets can be created and selected. After starting the reader, the default set parameter set will automatically become the active parameter set. Any changes to the reader parameters only affect the active parameter set. The active parameter set can be determined by the UGK command.
Chapter 7 Operation UPK – Define the For the typical reader parameters (parameter number 100 to max. 240), up to 8 active parameter parameter sets can be created and selected. After starting the reader, the default set parameter set will automatically become the active parameter set. Any changes to the reader parameters only affect the active parameter set. The active parameter set can be determined by the UPK command. Host reader CMD Reader ID Parameter set no.
Chapter 7 Operation >> UPK007 << upk000 >> F06A << f06A84 The transmission output of parameter set 7 has the value 0x84 Product Manual - RFID Reader UF70 Certum 112
Chapter 7 Operation UGD – Determine For the typical reader parameters (parameter number 100 to max. 240), up to 8 default parameter parameter sets can be created and selected. The default parameter set is the one set that is loaded when starting the reader and automatically becomes the active parameter set. The parameter set number (0 to 7) of the default parameter set can be determined with the UGD command. Reader host CMD Reader ID UGD 1 byte Host reader CMD Reader ID Parameter set no.
Chapter 7 Operation UPD – Define For the typical reader parameters (parameter number 100 to max. 240), up to 8 default parameter parameter sets can be created and selected. The default parameter set is the one set that is loaded when starting the reader and automatically becomes the active parameter set. The parameter set number (0 to 7) of the default parameter set can be defined with the UPD command.
Chapter 7 Operation Active parameter set 00 successfully set >> UPD008 << upd000 Active parameter set is stored as the default parameter set! >> UGK0 << ugk000 Active parameter set 00 >> UGD0 << ugd000 Default parameter set 00 Product Manual - RFID Reader UF70 Certum 115
Chapter 7 Operation B – Sensor status The B command is transmitted by the reader if the status of a sensor has changed. The message shows the current status of the sensor. The host must send or not send (Par Watch port Bit 6) a confirmation depending on the internal setting of the reader.
Chapter 7 Operation O – Set output The O command changes the status of the respective antenna port.
Chapter 7 Operation Q – Queries of the output status The current status of an output can be queried by using the Q command. The status of the outputs of a single antenna port or the entire device can be queried. For a single antenna port, the reader reports the status of the output. Use the Head ID 0 to query the status of all outputs of the reader. The status of each output is represented by 3 characters (status + flash rate).
Chapter 7 Operation << >> << >> << q021 Q03 q031 Q04 q041 Product Manual - RFID Reader UF70 Certum 119
Chapter 7 Operation E – Error message If an error occurs, the device sends an error message with a suitable error code. This message must be confirmed by the host (depending on device setting parameter). Host reader CMD Reader ID Error ID E 1 byte 1 byte Reader host CMD Reader ID e 1 byte For more information on error codes and the corresponding correcting actions, please refer to Error codes.
Chapter 7 Operation H – Heartbeat The H command can be used to query the serial number of the device. Host reader CMD Reader ID H 1 byte Reader host CMD Reader ID Serial number Response code h 1 byte 4 bytes 4 bytes The response code is not required for the individual device. This code is always "0000".
Chapter 7 Operation UVR or V – The V command queries the software version of the device. Query software version Host reader CMD Reader ID V 1 byte Reader host CMD Reader ID Software version uvr 1 byte 2*x Bytes v The x characters for the software version are illustrated by 2*x ASCII characters. Each of the x characters is shown in the HEX format, represented by 2 ASCII characters.
Chapter 7 Operation UGT – Read UTC The UGT command reads the time in UTC format. time Host reader CMD Reader ID UGT 1 byte Reader host CMD Reader ID UTC time ugt 1 byte 8 bytes Example: >> UGT0 << ugt01462A348 Reader time: 13.08.2008 22:37:08 >> UGT0 << ugt01F62A348 Reader time: 13.08.
Chapter 7 Operation UPT – Set UTC time The UPT command sets the time in UTC format. Host reader CMD Reader ID UTC time UPT 1 byte 8 bytes CMD Reader ID Result upt 1 byte 2 bytes Reader host Example: >> UPT05F65A348 << upt000 >> UGT0 << ugt06865A348 Reader time: 13.08.
Chapter 7 Operation Sensor triggered automatic reading The response can be set for each of the four inputs by parameters (26 to 29) Watch port. An automatic reading can also be automatically initiated on the respective antenna, in addition to sensor message "B". An EPC bulk reading "urb" is performed over a set time period as an automatic reading. The time frame can be set via parameter (33 and 34) Auto read Bulk time.
Chapter 7 Operation 7.2.4 Parameters No (dec.
Chapter 7 Operation No (dec.
Chapter 7 Operation No (dec.
Chapter 7 Operation No (dec.
Chapter 7 Operation Parameter 0 (0x00) Communications port If the highest value bit 0x80 is set, the device automatically detects the active communications port. A reset must be completed to change the communications port. The first message to the reader must then come via the new communications port.
Chapter 7 Operation Parameter 04 (0x04) MsgRepeat Delay Time If a confirmation is not sent by the host, the device waits this time span before it sends the message to the host again. The number of repetitions is defined in parameter 6 (MsgMaxRepeat). 10 .. 250 [0.1 s] Default: 0x32 (5 s) Parameter 06 (0x06) MsgMaxRepeat If a confirmation is not sent by the host, the device repeats the message according to the set value. Only then is an error message sent.
Chapter 7 Operation Parameter 20 (0x14) Sensor activity The device offers the option to disable the sensor inputs. 0x00000000 All 4 sensors are disabled 0x00000001 0x00011111 Sensor 1 is activated All 4 sensors are activated Default: 0x00001111 (0F) all sensors are activated Parameter 21 (0x15) Delay time for sensor 1 This parameter defines the delay time for sensor signal before the event message is sent. 1 .. 255 1/10 s Default: 0x01 (1 x 0.1 s = 0.
Chapter 7 Operation Parameter 26 (0x1A) Watch port for sensor 1 This parameter defines the response of the device when triggering the respective input.
Chapter 7 Operation Parameter 34 (0x22) Low-byte Auto Read Bulk Time An EPC bulk reading is completed in the sensor-triggered automatic reading. The duration of the bulk reading is specified in milliseconds. The low byte of the 2 byte time value is defined here. 0x1234 Lowbyte 0x34 Default: 0x00 (0x0100: 256 ms) Parameter 39 (0x27) Adjust I/O numbering Antennas and I/Os have the same numbering. This applies for inputs and outputs Sensor 1 therefore becomes sensor 4 and vice versa.
Chapter 7 Operation Parameter 41 (0x29) Show UHF Going When polling is activated by the EPC transponders (asynchronous reading), the detection as well as the removal of EPC transponders can be displayed. Value range: 0x00 to 0x03 Bit 0 (0x01): Bit 1 (0x02): In addition to detecting also display the removal of an EPC transponder During an inventory display the deviation of the RSSI value to the amount of the value of the configuration parameter (Par.
Chapter 7 Operation Parameter 98 (0x62) Error ‘Unexpected’ (read only) Internal parameter that can only be read. Setting the internal parameter causes error 9 (unexpected) to be output only once successively. Default: 0x01 (active) Parameter 99 (0x63) Factory Reset / Fine Version The reader can be placed in the default status via this parameter. Only value 0x00 is approved here! However, the parameter delivers the fine version of the software upon a query.
Chapter 7 Operation Parameter 102 (0x66) ETSI Channel List Antenna 2 This parameter specifies all ETSI channels of antenna port 2 to be used. The channel switching mode par 0x69 must thereby have a value of 1 so that the relevant list of the corresponding antenna port is used. The ETSI channel list of antenna port 1 can contain up to 16 entries. Value range: 0x00 to 0x0F 0x00 0x01 0x0F no channel ETSI channel 1 (865.1 MHz) ETSI channel 15 (867.
Chapter 7 Operation Parameter 105 (0x69) Channel Switching Mode This parameter defines if the global ETSI channel list is used or if each port has its own channel list. Value range: 0x00 to 0x01 0x00 0x01 Use global ETSI channel list Use the ETSI channel list of the respective antenna port Default: 0x00 Parameter 106 (0x6A) Transmission Output Antenna Port 1 This value defines the transmission output of antenna port 1. Value range: 0x00 (0 dBm) The port is disabled.
Chapter 7 Operation Parameter 110 (0x6E) Antenna cable port 1 attenuation This value defines the attenuation of the antenna cable at port 1. Value range: 0x00 to 0xFF (0 dB to 63.75 dB; increment 0.25 dB) Default: 0x00 (0 dB) Parameter 111 (0x6F) Antenna cable port 2 attenuation This value defines the attenuation of antenna cable at port 2. Value range: 0x00 to 0xFF (0 dB to 63.75 dB; increment 0.
Chapter 7 Operation Parameter 116 (0x74) Antenna gain port 3 This value defines the antenna gain of the antenna connected to port 3. Value range: -128 to 127 (-32 dB to 31.75 dB; increment 0.25 dB) Default: 0x14 (5 dB) Parameter 117 (0x75) Antenna gain port 4 This value defines the antenna gain of the antenna connected to port 4. Value range: -128 to 127 (-32 dB to 31.75 dB; increment 0.
Chapter 7 Operation Parameter 122 (0x7A) Communications standard The communications standard is selected by this parameter (as far as possible and enabled by the license). Value range: 0x00 to 0x07 0x00: 0x01: 0x02: 0x03: 0x04: 0x05: 0x06: 0x07: No communications standard Auto detect EN302208 EN302208_LBT FCC Own special settings China Thailand Default: 0x01 Parameter 123 (0x7B) ETSI Power Check Over All Allowed Channels With this parameter, the performance check is conducted via the set channels.
Chapter 7 Operation Parameter 127 (0x7F) Comm Standard Min Channel Wait Time Parameters for the communications standard "specific". Channel width in kHz Value range: 0 to 65,535 kHz Default: 0x0000 Parameter 128 (0x80) Comm Standard First Channel Parameters for the communications standard "specific". Number of the first channel Value range: 0 to 255 Default: 0x00 Parameter 129 (0x81) Comm Standard Last Channel Parameters for the communications standard "specific".
Chapter 7 Operation Parameter 133 (0x85) Tag Comm Query Sel Defines the transponders that participate in the query command. A detailed description of the parameter is located in the EPC global specification for the query command. Value range: 0x00 to 0x03 Default: 0x00 (true) Parameter 134 (0x86) Host Comm Antenna Independend Operation Antennas independent reading, i.e. for each transponder there is only one entry in the observed list, even if it was read at different antennas.
Chapter 7 Operation Parameter 138 (0x8A) RF Interface Multiplexing Antenna Port 2 Second list entry of the antenna port list! The multiplexing antenna port list specifies the order of the antenna ports for a multiple antenna inventory. The dwell time of the inventory corresponding with the list entry is defined later by the parameter "Interface Multiplexing Exposure Time 2".
Chapter 7 Operation Parameter 141 (0x8D) RF Interface Multiplexing Antenna Port 5 Fifth list entry of the antenna port list! The multiplexing antenna port list specifies the order of the antenna ports for a multiple antenna inventory. The dwell time of the inventory corresponding with the list entry is defined later by parameter "Interface Multiplexing Exposure Time 5".
Chapter 7 Operation Parameter 144 (0x90) RF Interface Multiplexing Antenna Port 8 Eighth list entry of the antenna port list! The multiplexing antenna port list specifies the order of the antenna ports for a multiple antenna inventory. The dwell time of the inventory corresponding with the list entry is defined later by parameter "Interface Multiplexing Exposure Time 8".
Chapter 7 Operation Parameter 149 (0x95) RF Interface Multipower Tag Access 1 Variation of the power at antenna port 1 in order e.g. to detect EPC transponders in the immediate antenna vicinity better. Value range: 0x00 (disabled) to 0xFF (enabled) Default: 0xFF Parameter 150 (0x96) RF Interface Multipower Tag Access 2 Variation of the power at antenna port 2 in order e.g. to detect EPC transponders in the immediate antenna vicinity better.
Chapter 7 Operation Parameter 155 (0x9B) RF Interface Max Allowed Antenna Output Power 3 The reader limits the power at antenna port 3 to the here defined maximum antenna output power. Value range: 0x00 (0 dBm (erp)) to 0xFF (63.75 dBm (erp)) Default: 0x84 (33 dBm (erp)) Parameter 156 (0x9C) RF Interface Max Allowed Antenna Output Power 4 The reader limits the power at antenna port 4 to the here defined maximum antenna output power. Value range: 0x00 (0 dBm (erp)) to 0xFF (63.
Chapter 7 Operation Parameter 161 (0xA1) Tag Comm Default Profile A communication profile includes transmission data rate, reception data rate and transponder response encoding (FM0, Miller 2, Miller 4, Miller 8) in meaningful and standard-conforming combinations. The list of supported profiles is available with the UGL command.
Chapter 7 Operation Parameter 165 (0xA5) RF Interface Multiplexing Exposure Time 4 Dwell time on the antenna port, which is defined as the first list entry of the multiplexing antenna port list (par. RF Interface Multiplexing Antenna Port 4). The dwell time indicates how long an inventory is performed on an antenna port (only for polling actions).
Chapter 7 Operation Parameter 169 (0xA9) RF Interface Multiplexing Exposure Time 8 Dwell time on the antenna port, which is defined as the first list entry of the multiplexing antenna port list (par. RF Interface Multiplexing Antenna Port 8). The dwell time indicates how long an inventory is performed on an antenna port (only for polling actions).
Chapter 7 Operation Parameter 173 (0xAD) Tag Comm Transmit Get EPCs Pre Select This parameter only affects the commands M, URM, URB, UAA and UAM. All other commands behave as if the parameter was zero. Parameter is zero: 1. The first antenna is chosen from the multiplex list. 2. All transponders within receiving range are reset by a Select. 3. An inventory is conducted until no further transponders can be found. 4.
Chapter 7 Operation Parameter 174 (0xAE) Tag Comm Transmit Select If No Filter Is On With a Select filter or Select command at the beginning of an inventory, the reader sets all transponders within the range of the antenna to a defined output state. The transponders will be detected in an additional inventory. If no Select filter is defined, a Select command can be displayed via this parameter. All transponders within antenna reach can be reset with this command.
Chapter 7 Operation Parameter 177 (0xB1) Tag Comm Disable Receiving NXP Read Protected Tags A transponder protected with "ReadProtect" of NXP does not transmit an EPC and a valid checksum during an inventory. The data content of EPC and checksum is zero. For the reader to be able to detect these transponders, it lets pass transponders with EPC and checksum zero. These transponders are no longer protected by a valid checksum.
Chapter 7 Operation Parameter 179 (0xB3) Host Comm Use Milliseconds As Time stamp In addition to the transponder data, a time stamp can also be transferred to the upper level after an iventory (see parameter 118). This parameter determines if this time stamp contains the time passed in ms since the start of the reader or the UTC time in s since 01.01.1970 0:00:00. If this parameter is activated, the time passed in ms since the start of the reader is transferred as a time stamp.
Chapter 8 Service and Troubleshooting 8 Service and Troubleshooting This chapter gives you an overview of the following topics: ■ General remarks ■ Qualified troubleshooting personnel ■ Safety instructions ■ Error codes ■ Error display with LED ■ Reader does not respond ■ Reset ■ Power cut ■ Software releases ■ Customer service 8.1 General remarks Head the safety chapter Follow the general safety instructions in the chapter Safety Instructions.
Chapter 8 Service and Troubleshooting 8.2 CAUTION Q uali fied tr oubleshoo ting personnel Error handling must only be carried out by specially trained personnel. If you are uncertain about the qualifications that are required, contact the manufacturer. CAUTION Error handling the device without the special skills required and unqualified interference with the device can result in personal injury and damage to the reader and/or connected devices. nbb 8.
Chapter 8 Service and Troubleshooting 8.
Chapter 8 Service and Troubleshooting Error ID Name Description Possible causes Correcting action 6 unknown unknown error not used no 7 unconfig the device is not configured wrong reader address was sent check syntax of message, check parameter F "Reader address" 8 check parity and/or checksum error wrong baud rate is set check baud rate of serial interface (COM port) transmision errors on serial communication check RS232 cable and connectors; check disrupting sources at RS232 double
Chapter 8 Service and Troubleshooting Error ID Name Description Possible causes Correcting action B no ackn the message which has to be confirmed has been sent the maximum number of times (rs232 maxrepeat), and has not been confirmed by the terminal within the defined time frame (see parameter 5) Host system does not acknowledge the message check availability of host system (terminal); check RS232 cables and connectors 1) because the device is still busy or because a message has not been confirm
Chapter 8 Service and Troubleshooting 8.7 Reset In the case of a malfunction, a hardware reset can be performed by switching the power supply off and on. After the reset, the reader performs a self-test. The self-test can take up to five seconds. In the first step of these self-tests, all LEDs light up. If the test was successful, all LEDs, except for the power LED, go out! 8.8 P ower cut After a power cut, the reader performs a reset with self-test (see Reset). 8.
Chapter 9 Dismantling and Storage 9 Dismantling and Storage This chapter gives you an overview of the following topics: ■ Dismantling ■ Storage 9.1 Dismantl ing Remove the power supply! Remove all cables! Loosen and remove the mounting screws! Remove the device from the installation area! 9.2 Storage Store the reader and its components in a clean and dry environment with the power supply disconnected. Make sure the contacts remain clean.
Chapter 10 Transport and Disposal 10 Transport and Disposal This chapter gives you an overview of the following topics: ■ Transport ■ Disposal 1 0 . 1 Tr an sp o r t For transportation purposes such as mailing, use a firm cardboard box. Use adequate padding material to protect the device on all sides. 10.2 Disposal The device and its components are made of various materials. Dispose of these materials separately, and observing the legal regulations of your country.
Index A Access word 46 Assembly 33 B B - Sensor status 116 Bulk time 46 C CMD 46 Commands 43 Commissioning 36 D Data words 46, 50 Declaration of Conformity 10 Direction 47 E E - Error message 120 EPC 47 EPC code 47 Ethernet settings 37 Ex flag 48 Extension 48 F F - Parameter query 107 Filter 49 Filter mask 49 Filter Number 49 Frame ID 49 H H - Heartbeat 121 Head ID 49 High byte 41 Humidity 30 I Installation dimensions 33 L Liability 12 Low byte 41 M M - EPC scanning 58 Malfunctions 34 Product Man
Index Mask 50 Memory address 50 Memory bank 50 O O - set output 117 On/Off 51 Output state 51 P P - Set parameter 108 Parameter 0, Communications Port 130 Parameter 01, Baud rate 130 Parameter 03, Parity 130 Parameter 04, MsgRepeat Delay Time 131 Parameter 06, MsgMaxRepeat 131 Parameter 07, First Byte of the Serial Number 131 Parameter 08, Second Byte of the Serial Number 131 Parameter 100, Global ETSI Channel List 136 Parameter 101, ETSI Channel List Antenna 1 136 Parameter 102, ETSI Channel List Antenna
Index Parameter Parameter Parameter Parameter Parameter Parameter Parameter Parameter Parameter Parameter Parameter Parameter Parameter Parameter Parameter Parameter Parameter Parameter Parameter Parameter Parameter Parameter Parameter Parameter Parameter Parameter Parameter Parameter Parameter Parameter Parameter Parameter Parameter Parameter Parameter Parameter Parameter Parameter Parameter Parameter Parameter Parameter Parameter Parameter Parameter Parameter Parameter Parameter Parameter 129, 130, 131,
Index Parameter 178, Host Comm A Sync Additional RSSI Data Delivery Delta 154 Parameter 179, Host Comm Use Milliseconds As Time stamp 155 Parameter 20, Sensor activity 132 Parameter 21, Delay time for sensor 1 132 Parameter 22, Delay time for sensor 2 132 Parameter 23, Delay time for sensor 3 132 Parameter 24, Delay time for sensor 4 132 Parameter 26, Watchport for sensor 1 133 Parameter 27, Watchport for sensor 2 133 Parameter 28, Watchport for sensor 3 133 Parameter 29, Watchport for sensor 4 133 Paramete
Index T T and UAM - Enable read polling EPC 75 Temperature 30 Transponder error code 54 U UAA - Enable Read Polling Raw 77 UAB - Erase Block 85 UAE - End polling 92 UAK - Kill EPC transponder 87 UAL - Lock EPC transponder 86 UAR - Polling Transponder-Rate 89 UAW - Polling Write Data 81 UAX - Polling Read Data 79 UAZ - Polling Write Masked Data 83 UBW - Erase block of all EPC transponders 68 UBZ - Erase block of all EPC transponders (defined EPC code) 69 UCC - Activate Polling NXP-UCODE-G2X Change EAS 95 UC
Index W W - Write EPC code 61 Warning symbols 15 X X or URX - Read data area 55 Product Manual - RFID Reader UF70 Certum 169