Agrident AIR200 Proximity Reader User Manual AIR man e
AGRIDENT GmbH Proximity Reader AIR man e
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User Manual 1
Agrident GmbH, Steinklippenstr. 10, D-30890 Barsinghausen Phone +49 5105 520614 - Fax +49 5105 520616 AIR200 Reader Operation Manual V10/07/06 AIR200 - manual © Copyright 2006 by Agrident GmbH All rights reserved. No part of this publication may be reproduced, stored in a retrieval system, or transmitted, in any form or by any means, electronic, mechanical, photocopying, recording or otherwise, without prior written permission of Agrident GmbH. Agrident reserves the right to make changes to any and all parts of this documentation without obligation to notify any person or entity of such changes. July 2006 HRU/BUS Agrident GmbH Steinklippenstr. 10 30890 Barsinghausen Germany Phone +49 51 05 520614 Fax +49 51 05 520616 E-Mail: mail@agrident.com www.agrident.com 10.07.06 Page 2 of 19 AIR200 - manual Contents 1. Introduction.......................................................................................................... 4 2. Operating Mode................................................................................................... 4 2.1 Read Mode / Default Setting ........................................................................ 4 2.2 Request Mode .............................................................................................. 5 2.3 Description of Record................................................................................... 5 2.3.1 Data Transmission ................................................................................ 5 2.3.2 Frame configuration .............................................................................. 6 2.3.3 Stuffing Byte.......................................................................................... 6 2.3.4 Addresses ............................................................................................. 6 2.3.5 CRC ...................................................................................................... 6 2.4 Commands and Acknowledgements ............................................................ 7 2.5 ID Output...................................................................................................... 9 2.6 Output formats for the ID Field ................................................................... 10 2.6.1 ASCII Output (Default Setting) ............................................................ 10 2.6.2 Compact Coding Output...................................................................... 11 2.6.3 Transponder Byte Structure Output .................................................... 11 2.6.4 Raw Data Output................................................................................. 12 2.6.5 ID Type Field....................................................................................... 12 2.7 Optional Configurations.............................................................................. 13 2.7.1 2.8 3. Activation of the external antenna ....................................................... 14 Examples of ID -Messages ........................................................................ 15 2.8.1 ISO-FDX-B and HDX .......................................................................... 15 2.8.2 H 4002 and Compatibles..................................................................... 16 Trouble shooting................................................................................................ 17 10.07.06 Page 3 of 19 AIR200 - protocol 1. Introduction The reader module AIR200 for the PSION TEKLOGIX is a high quality component from AGRIDENT. Together with the programmable PSION TEKLOGIX -workabout PRO handheld computer you have a powerful mobile RF-ID-system which can easily adapt to your application. Please read this manual carefully before using the system for the first time. The following descriptions will help you using the full efficiency of the system. A description of the protocols will give you some information for embedding the reader into your own application on the PSION TEKLOGIX -workabout PRO to profit from all benefits and features the system offers to you. 2. Operating Mode The reader modules support two operating modes, selectable as per configuration. 2.1 Read Mode / Default Setting The AIR200 reader modules are set to the read mode (default mode) by the manufacturer of the equipment. The reader module starts a reading cycle as soon as the supply voltage is applied (controlled by the PSION´s application software; LOPEN TTY:G). When a transponder is detected, the acquired and processed transponder data are ASCII coded as an „ID output“ and transferred to the serial interface. The ID output is repeated for as long as the transponder is located within the acquisition range. The format of the ID output is described at chapter 5.3. The communication is unidirectional from the reader to the PSION-workabout, with no response required. It is not required that the entire record of the reader module be implemented into the application software, when limited to the read mode. The ID output may be received as a simple ASCII string and the frame may be cut off. AIR200 Psion Power ON Lopen TTY: G Reading f. activated Transponder grasped ID-OUTPUT 10.07.06 Page 4 of 19 AIR200 - protocol When receiving a command, the reading cycle is interrupted for processing of the command. Should the reader module be busy with an ID output, then the command will be neglected and must be repeated. 2.2 Request Mode While the AIR200 operates as a mere data sensor in the Read Mode under chapter 4.1, it will also allow bi-directional communication with the PSION-workabout in the Request Mode. The WIN CE software may control the reading function. The „Get_Single_ID“ command will start a reading cycle based on the programmed configuration. The ID output of a recognized transponder will be transferred once to the interface in the respective format. The reading function terminates after such recognition of a transponder and transmission of the ID output or after expiration of a preset timeout. Psion AIR200 Power ON Lopen TTY: G „Get Single ID“ Reading f. activated Transponder grasped „ID-OUTPUT The reading cycle is repeated when a new „Get_Single_ID“ command is transmitted. In this mode, the interface record is a bi-directional one. In this context, the PSION-workabout serves as a command transmitter and the reader module as a responding „partner“. The commands are confirmed by the receiver. A change to the configuration (see chapter 2.7) will allow adoption of the following characteristics to the required application: • Readable types of transponder, e.g. FDX only, will increase the reading speed. • Reading characteristics, e.g. lower repeat rate of the ID output, if a transponder continues to stay within the acquisition range. • Output format, e.g. binary output/Compact Coding reduces the space required for storing the IDs. 2.3 Description of Record The following description for record contains the complete information required for integration of the AIR200 into an application software. 2.3.1 Data Transmission Asynchronous semi-duplex transmission: 9600 baud, 1 start bit, 8 data bits, No Parity, 1 stop bit via TTL port of the PSION-workabout, TTL level negated. 10.07.06 Page 5 of 19 AIR200 - protocol 2.3.2 Frame configuration All messages are packed into frames, the frame is configured as follows: STX DestrAdr Source Adr Message CRC 8 ETX The messages may be commands from the PSION-workabout or replies or ID outputs from the reader module. For the following description of messages please note that they should be considered as a frame segment. 2.3.3 Stuffing Byte Data bytes may be differentiate from the control characters STX, ETX DLE (0x02, 0x03, 0x10) is possible, if required, by using an upstream DLE stuffing byte (0x10, Esc character). 2.3.4 Addresses Adr for PSION-workabout: Adr for reader module AIR200 Adr for broadcast: 2.3.5 const. 0x F0 const. 0x F3 const. ox FF CRC The check sum is computed automatically according to the CCITT-CRC-8 Polynom x8 + x4 + x3 + x2 + 1 thru all bytes of the frame up to (but excluding) the checksum itself. the stuffing character possibly used in front of the checksum must also be included in the checksum computation. For the transmission form the DHP 101/102 to the PSION-workabout there will always be a DLE added in front of the CRC. The following formula may be used to compute the checksum: /* CalcCRC8(): Computes the CCITT-CRC-8 of the indicated character, the starting value will be the indicated CRC value. The function must be called up, for every byte of the string, using the value of the preceding call as a starting value. The starting value of the first call is always 0x00. static char CalcCRC8 ( char CRC, char character ) unsigned char Count; for ( Count = 0; Count < 8; ++ Count ) if ( (CRC & 0x01) ^ (character & 0x01) != 0 ) CRC ^= 0x70; CRC >> = 1; CRC |= 0x80; else CRC >>= 1; CRC &= 0x7F; Zeichen >>= 1; return ( CRC ); 10.07.06 Page 6 of 19 AIR200 - protocol 2.4 Commands and Acknowledgements The following commands are supported by the reader module (to be transmitted in the „Message“ segment of a frame). Command Coding Get_Single_Id 0x22 Additional Data Set_Config Get_Config Reset_All Get_Version Get_SNR 0x28 0x29 0x18 0x09 0x0A cfg_new Function Start a reading cycle in the Requ_ Mode. Autom. shut- down after acquisition process Adopt new Configuration Show present Configuration Default-Configuration into EEPROM Show Reader and Software version Show Reader serial number Get_ Single_ID: Starts a reading cycle in the Request Mode. The reading cycle will be interrupted after acquisition of a transponder or after timeout. Response in the Read Mode is by means of a NACK. Byte position in the Value Message segment 0x22 Frame: STX FF Meaning Remarks Get_Single_ID Starts a reading cycle in Request_Mode F0 22 DLE** CRC 8 the ETX DLE**: if required Set_Config: Programs a configuration register using the new values as follows: Byte position in the Message segment Frame: STX FF Value Meaning Remarks 0x28 xx yy Set_Cfg Cfg_Adr Cfg Programming of new config. data Address of the config. register New content of the config. register F0 28 xx yy DLE** CRC 8 ETX Get_Config: Reads the content of a configuration register Byte position in the Value Message segment 0x29 Meaning Remarks Get_Cfg Cfg_Adr Show current configuration data on interface Address of the config. register Frame: STX 10.07.06 FF F0 29 32 DLE** CRC 8 ETX Page 7 of 19 AIR200 - protocol Reset_All: Recovers the Read Mode (Default) overwriting all configuration registers Byte position in the Value Message segment 0x18 Frame: STX FF Meaning Remarks Reset_All Set configuration data to de-fault values F0 18 DLE* CRC 8 ETX Get_ Version Show the Reader and Software Version Byte position in the Value Message segment 0x09 Frame: STX FF *DLE if required Meaning Remarks Get_Version Show version F0 09 DLE* CRC 8 ETX Get_ SNR: Show Reader serial number Byte position in the Value Message segment 0x0A Frame: STX FF Meaning Remarks Get_SNR Show serial number F0 0A DLE* CRC 8 ETX Acknowledgements the following acknowledgements are used by the Reader (transmitted in the „Message“ segment of a frame): Acknowledgements ACK Code 0x06 Arguments cmd NAK Frame Error 0x15 0x08 cmd Remarks last cmd was successfully performed couldn´t perform last cmd receive damaged frame ACK: Correctly received data and processed commands are acknowledged by means of an ACK Byte position in the Value Message segment 0x06 Meaning Remarks ACK 2 and greater Cmd Data Command was successfully performed Command to which this ACK relates additional data, if applicable Frame: STX F0 10.07.06 F3 06 Cmd Data 0 .. Data n DLE CRC 8 ETX Page 8 of 19 AIR200 - protocol Example: Content of the Data field: after the Get_Version command: DHP101V1.05“ after the Get_SNR command: 000023 (ASCII) (ASCII) NACK: No correct data received, unknown commands or „not able to process commands“ results in a NACK Byte position in the Value Message segment 0x15 Meaning Remarks NACK Command Error Unable to process command Command to which this NACK relates Error Code, e.g. 01=unknown command Frame: STX 2.5 F0 15 F3 Cmd 01 DLE CRC 8 ETX ID Output After recognition of a transponder, the related ID is transmitted according to the pre-set format as an Output ID. Message ID_Output Frame: STX F0 Code 0x23 F3 Arguments ID 23 ID 0 Remarks ID received follows in the frame ..... ID n DLE CRC 8 ETX Due to the different lengths (depending on type of transponder and on output format) an interlaced string is used as an ID output structure. This list contains the ID field with the transponder identification and the „type“ field with the transponder type. Construction of the ID output: Byte position in the Message segment 2+n 3+n 3+n+m Value Meaning Remarks 0x23 Ptr1 ID Field Ptr2 Type Field 0x00 ID Output Identification: This is an ID Output Length of the ID field incl. Ptr 1 Data of length „n Bytes“ Length of the Type Field incl. Ptr2 Data of length „m Bytes“ 0-Ptr as a termination mark Message (ID): 23 Ptr1 ID field 0 10.07.06 ID Field n ID Field Type Field Ptr2 Type Field 0 .. Type Field M 00 Page 9 of 19 AIR200 - protocol 2.6 Output formats for the ID Field The output format is defined by the configuration of the Cfg_Format“ Register by means of a „Set_Config“ command. The following formats are supported: Output Format Value of Cfg Format Fmt_ Deziso Fmt_ Bin ASCII (default) 0x01 Fmt_ Raw Data Com-pact Coding (binary) 0x03 Trans. Byte Struct. 0x02 Transp. „Raw Data“ 0x06 or 0x07 don´t care 2.6.1 Remarks ID field is ASCII coded for FDX-B and HDX ID and Country Code I.A.W. ISO 11784 for H 4002 data ID field is binary coded for FDX-B and DDX: ID and Country Code I.A.W. ISO 11784 for H 4002 data Data I.A.W. ISO are binary coded for FDX and HDX: Data (ID, Country Code, reserv. data field, Animalflag) + CRC + Trailer for H 4002 correspond to „Compact Coding“ Raw Data: binary coded for FDX-B: 128 bit raw data for HDX: 104 bit raw data (w/o header, prebits) for H 4002 64 bit raw data Bytes Bytes for for ISO 4002 16 10 13 16 HDX: 13 ASCII Output (Default Setting) The ID output comprised of ID and Country Code as per ISO is transferred in the ASCII format. Transponders with invalid CRC or parity bits are rejected. The reserved data field, CRC and Trailer are not transferred under this format. • FDX-B and HDX Transponders: 16 ASCII coded characters (16 Bytes), MSDigit first. Cty_ ASCII_Char_3 Cty_ASCII_Char_n: ID_ASCII_Char_n: ... Cty_ ASCII_Char_0 ID_ ASCII_Char_12 ... ID_ ASCII_Char_0 The number „n“ byte of the Country Code according to ISO ( consists of 4 digits 0-9) coded in ASCII. Number „n“ byte of the ID code (consists of 12 digits 0-9) coded in ASCII. • H 4002 transponders and compatibles: 10 ASCII coded characters (10 Bytes) MSDigit first. ASCII_Char_9 ASCII_Char_n: 10.07.06 ... ... ... ASCII_Char_0 Number „n“ byte of the ID code (consists of 10 digits 0-9) coded in ASCII. Page 10 of 19 AIR200 - protocol 2.6.2 Compact Coding Output The ID Output comprised of the ID and the Country Code is tranferred in the binary format. ID outputs with an invalid CRC or parity bit will be rejected. The reserved data field, CRC and Trailer are not transferred under this format. • FDX-B and HDX transponders: 16 BCD coded numbers (8 Bytes), MSDigit first Cty_BCD_3 : Cty_BCD_2 Cty_BCD_n: Cty_BCD_1 : Cty_BCD_0 ID_BCD_11 : ID_BCD_10 ... ID_BCD_1 : ID_BCD_0 The number „n“ half-byte of the Country Code according to ISO (consists of 4 digits 0-9) coded in BCD. Number „n“ half-byte of the ID code (consists of 12 digits 0-9) coded in BCD. ID_BCD_n: • H 4002 transponders and compatibles: 10 hex-coded numbers (5 Bytes), MSDigit first Hex_9 : Hex_8 ... ... ... Hex_1 : Hex_0 Hex_n: The number „n“ half-byte of the ID Code (consists of 10 hexa-digits 0-9) coded in BCD. 2.6.3 Transponder Byte Structure Output The useful data from ISO - FDX-B/HDX transponders (ID, Country Code, reserved data field, Animal Flag) are outputted in a bibary format according to the sequence of receipt, including the CRC and trailer.The LSBit of an output Byte is the Bit first received by the transponder. ID outputs with an invalid CRC according to ISO will be rejected. • FDX-B and HDX transponders: 13 Bytes ID_ Byte_0 .. ID_Byte_n: CRC_Byte_n: Trail_Byte_n: ID_ Byte_7 CRC_ Byte_0 CRC_ Byte_1 Trail_ Byte_0 .. Trail_ Byte_2 Number „n“ Byte of the Bit structure according to ISO (consists of 64 bit), binary coded with reserved data field. Number „n“ Byte of the CRC according to ISO (consists of two Byte), binary coded, Number „n“ Byte of the Trailer according to ISO (consists of 3 Byte), binary coded. • H 4002 transponder and compatibles: in conformance with the „Compact Coding“ format. 10.07.06 Page 11 of 19 AIR200 - protocol 2.6.4 Raw Data Output The complete set of raw data from a transponder are outputted in a binary format, in the sequence of receipt. The LSBit of an outputted Byte is the first bit received from the transponder. For ISO transponders, the useful data (ID, Countra Code, reserve data field, Animal Flag) CRC and Trailer are included. For FDX-B transponders, the header and control bits are included. ID Outputs with an invalid CRC according to ISO (or an incorrect parity bit for H 4002) are not rejected, which allows reading of transponders with a different structure. (for HDX only in case the header is identical). the absence of error check will also lead to an output of data received with bit errors. • FDX-B transponders, 16 Bytes: Useful data (starting with Byte 0), CRC and Trailer (with control bits Byte_0 ... ... ... each), Header, Byte_15 Byte_n: Number „n“ Byte of the ID Code • HDX- transponders, 13 Bytes: Useful data CRC and Trailer without Header (01111110) Byte_0 ... ... ... Byte_13 Byte_n_ Number „n“ Byte of the ID Code • H 4002 transponders and compatibles: 8 Bytes: with Header and Parity Bits Byte_0 ... ... ... Byte_7 Byte_n: Number „n“ Byte of the ID Code (Byte 0= Header) 2.6.5 ID Type Field The “type field“ designates the type of transponder. The „ID type“ field output takes place in the ASCII Mode with 2 ASCII characters, or else with a Byte (binary). Transponder Type HDX H 4002 Value 01 02 FDX-B 05 unknown no transponder 7F FF Remarks HDX transponder according to ISO applies also to compatibles (H 4001/3/4...no electrical difference) FDX-B transponders according to ISO non-decodable data no transponder within the active field If a „Get single ID“ is interrupted in the Request Mode due to timeout, then an empty „ID Output“ without ID Field is outputted, with ID Field Type „FF“. 10.07.06 Page 12 of 19 AIR200 - protocol 2.7 Optional Configurations This chapter describes the use of the configuration register. The configuration commands enable the purposeful configuring of the DHP 101/102 Reader Module according to the desired application. Register Cfg_Adr Cfg_ mode 0x31 Bit No. (0...7) of Register: Name 1: Mode-Requ Cfg_ Format 0x32 Meaning of the Bit when set to „1“ Operating Mode Def.Value 0x00 Request Mode: After switch-on wait for command (otherwise „Read Mode“) Format of the ID Output 0x01 0: Fmt_Deziso Cfg_Rf 0x33 Cfg_ Timeout 0x34 Cfg_ Delay time 0x35 Cfg_IO Function 0x37 Decoding of the trans-ponder data for FDX-B I.A.W. ISO 11784 (otherwise: output Trans-ponder Byte Structure) 1: Fmt_Bin Output is binary (otherwise ASCII) 2: Fmt_Raw_Data Output Raw Data w/o CRC or Parity Check (otherwise done only if check is OK) Configuration of the RF Interface 1: Rf_FDXB_on FDXB Reception activated (otherwise (FDXB and H4002 Reception off-line) 2: Rf_HDX_on HDX Reception activated (otherwise HDX Reception off-line) 3: Rf_H4002_on H4002 Reception activated (only if FDXB is active, otherwise offline Read function switch-off time for a „Get_Single_ID in the Request Mode if no ID was received until then: Time=Register Value x appr. 50 ms (Register Value 0x00also yields appr. 50 ms) Waiting Time for Repeat of ID Output already transmitted in the Read Mode: Time= Register Value x appr. 50 ms (Register Value 0x00 means no repeat of same ID) External Antenna 0: external antenna on External Antenna activated (otherwise external antenna deactivated) 0x0E 0x00 0x01 0x00 The Configuration Register Cfg_Mode defines the Read- or Request Mode. The Cfg_Format Configuration Register is used for setting the output format of the transponder ID. The Cfg_RF determines the type of transponder to be read. The Configuration Register Cfg_Timeout defines the switch-off time for a reading cycle in the Request Mode. By means of the Configuration Register Cfg_Delaytime, you may determine the repeat rate for the same ID Output. 10.07.06 Page 13 of 19 AIR200 - protocol The Cfg_IOFunction determines whether the external antenna is activated or not. The configuration data are stored in an EEPROM and are preserved also after power shut down. If a „Set_Conf“ command is applied to a non-defined register, the system will respond with a NACK message. Non-defined bits within a configuration register will be suppressed. 2.7.1 Activation of the external antenna In order to activate the external antenna, the 'Set_Config' request has to be used. The following command sequence has to be send to the AIR200: Request: STX 0x02 ADR: CFG: DST 0xFF SRC 0xF0 CMD 0x28 ADR 0x37 CFG 0x01 CRC 8 0x73 ETX 0x03 Address of the configuration register (in this example 0x37 => IOFunction) Configuration data to program into selected configuration register (in this example 0x01 => external antenna activated) Answer: STX 0x02 DST 0xF0 SRC 0x01 ACK 0x06 CMD 0x28 DLE 0x10 CRC 8 0x1C ETX 0x03 Save the current configuration by sending 'Save_Config' request: Request: STX 0x02 DST 0xFF SRC 0xF0 CMD 0x2A CRC 8 0xC9 ETX 0x03 DST 0xF0 SRC 0x01 ACK 0x06 CMD 0x2A DLE 0x10 Answer: STX 0x02 10.07.06 CRC 8 0x4B ETX 0x03 Page 14 of 19 AIR200 - protocol 2.8 Examples of ID -Messages 2.8.1 ISO-FDX-B and HDX a) ASCII Output Pos ReID mark Ascii ‘#’ Len1 11 9 10 11 12 13 14 15 16 17 18 19 ID 16 Byte DLE Len2 ‘0’ ‘9’ ‘8’ ‘0’ ‘0’ ‘0’ ‘0’ ‘0’ ‘0’ ‘0’ ‘0’ ‘9’ ‘9’ ‘7’ ‘0’ ‘8’ 10 20 21 22 Type NUL 03 ‘0’ ‘5’ 00 b) Compact Coding Output Pos Remark Bin ID Len1 23 09 ID 8 Byte 10 11 DLE Len2 09 80 00 00 00 09 97 08 10 02 12 Type 13 NUL 05 00 c) Transponder Byte Structure Output Pos ReID mark Bin 23 Len1 0E 13 Byte 7C 85 01 00 00 F5 00 80 8 Databytes + ID, Country, reserv. Data Animal flag 10 11 0F F0 CRC 12 13 14 81 C4 A2 Trailer 15 DLE 16 Len2 17 Type 18 NUL 10 02 05 00 d) Transponder Raw Data Output for FDX-B Transponder Pos ReID Len1 mark Bin 23 11 9 10 11 12 13 14 15 16 17 Raw Data incl. Header, Yield Data ,CRC, Trailer (+Controllbits) = 128 Bits 07 04 08 B 40 C 0F E 07 26 2 1A e) Transponder Raw Data Output for HDX Transponder corresponds to Transponder) Pos ReID mark Bin 23 10.07.06 Len1 0E 9 10 11 12 13 14 Raw Data incl. Header, Yield Data ,CRC, Trailer = 104 Bits 2F A7 0F 00 80 F5 8 Data Bytes + ID, Country, reserv. Data, Animal flag 00 80 A2 04 CRC 7E 00 01 Trailer or Stopbyte 80 18 DLE 19 Len2 20 21 Type NUL 10 02 05 00 (c) for this type of 15 DLE 16 Len2 17 Type 18 NUL 10 02 01 00 Page 15 of 19 AIR200 - protocol 2.8.2 H 4002 and Compatibles a) ASCII Output Pos ReID mark Ascii ‘#’ Len1 0B ‘0’ ‘4’ ‘6’ ‘0’ ID 10 Byte ‘2’ ‘0’ ‘9’ ID 5 Byte F1 39 10 11 12 DLE 13 Len2 14 Type ‘B’ ‘2’ ‘E’ 10 03 ‘0’ 15 ‘2’ 16 NUL 00 b) Compact Coding Output Pos Remark Hex ID Len1 23 06 DLE Len2 10 DLE 11 Type 12 NUL 04 60 10 02 10 02 00 Raw-ID incl. Header, Data, Trailer = 64 Bits 10 DLE 09 A8 c) Transponder Raw Data Output Pos Remark Bin 10.07.06 ID Len1 23 09 FF 81 34 80 82 D4 E9 3D 10 11 Len 02 12 DLE 13 Type 14 NUL 10 02 00 Page 16 of 19 AIR200 - protocol 3. FCC digital device limitations Radio and Television Interference This equipment has been tested and found to comply with the limits for a digital device, pursuant to Part 15 of the FCC rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference, in which case the user will be required to correct the interference at his own expense. This device complies with Part 15 of the FCC rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. In order to maintain compliance with FCC regulations, shielded cables must be used with this equipment. Operation with non-approved equipment or unshielded cables is likely to result in interference to radio and television reception. Caution! Changes or modifications not expressly approved by the manufacturer could void the user’s authority to operate this equipment. 4. CANADIAN RADIO EMISSIONS REQUIREMENTS This digital apparatus does not exceed the Class A limits for radio noise emissions from digital apparatus set out in the Radio Interference Regulations of the Canadian Department of Communications. Le present appareil numerique n'emet pas de bruits radioelectriques depassant les limites applicables aux appareils numeriques de la class A prescrites dans le Reglement sur le brouillage radioelectrique edicte par le ministere des Communications du Canada. Industry Canada: Operation is subject to the following two conditions: (1) this device may not cause interference, and (2) this device must accept any interference, including interference that may cause undesired operation of the device. This device has been designed to operate with the antennas listed below, and having a maximum gain of 1.8 dB. Antennas not included in this list or having a gain greater than 1.8 dB are strictly prohibited for use with this device. The required antenna impedance is 2.8 ohms. - Stick Antenna AEA080 - Stick Antenna AEA120 To reduce potential radio interference to other users, the antenna type and its gain should be so chosen that the equivalent isotropically radiated power (e.i.r.p.) is not more than that permitted for successful communication. 5. CE MARKING Hereby, Agrident BV declares that this equipment, if used according to the instructions, is in compliance with the essential requirements and other relevant provisions of the RTTE Directive 1999/5/EC. For use in all countries of the EU. 10.07.06 Page 17 of 19 AIR200 - protocol To obtain a copy, contact Agrident BV and request the “Declaration of Conformity” document for Multi-technology readers. Agrident BV mail@agrident.com In case of alteration of the product, not agreed to by us, this declaration will lose its validity. This symbol indicates proof of conformity to applicable European Economic Community Council directives and harmonized standards published in the official journal of the European Communities. 10.07.06 Page 18 of 19 AIR200 - protocol 6. Trouble shooting For any problem please contact us: Agrident GmbH Steinklippenstr. 10 30890 Barsinghausen Germany Telephone FAX e-mail 10.07.06 +49 5105 520614 +49 5105 520616 mail@agrident.com Page 19 of 19
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