TagMaster Sdn Bhd TM800 RFIDS Tag Module User Manual Data Sheet
TagMaster Sdn Bhd RFIDS Tag Module Data Sheet
user manual
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| Document ID | 1644617 |
| Application ID | 155xLv1ZMVal9lmQG6gZAQ== |
| Document Description | user manual |
| Short Term Confidential | No |
| Permanent Confidential | No |
| Supercede | No |
| Document Type | User Manual |
| Display Format | Adobe Acrobat PDF - pdf |
| Filesize | 29.45kB (368074 bits) |
| Date Submitted | 2012-02-28 00:00:00 |
| Date Available | 2012-03-01 00:00:00 |
| Creation Date | 2012-02-27 19:53:32 |
| Producing Software | Microsoft® Word 2010 |
| Document Lastmod | 2012-02-27 19:53:32 |
| Document Title | Data Sheet |
| Document Creator | Microsoft® Word 2010 |
| Document Author: | Martin Harnevie, Chew Leong Ming |
Date: 27 February 2012 Revision 001 DRAFT User Manual TM800 series RFIDS tags Revision 001 DRAFT © 2011-2012 TagMaster S/B Page 1(8) Date: 27 February 2012 Revision 001 DRAFT Introduction 1.1 Applicable products This user manual is intended for the TM800 series active RFID tags in the RFIDS™ product family. Depending on their basic features, they belong to different tag platforms: TM801 – an ID tag with limited I/O and memory TM802 – an I/O tag with 256 kbit additional memory, several I/Os and real time clock TM803 – a sensor tag with 256 kbit additional memory, several I/Os, real time clock and a 3axes motion sensor All tags based on these platforms have the same radio circuit: TM800 – a tag radio module working in the 2.4 GHz ISM band. Figure 1 - Tag platforms of the TM800 series TID = Tag Identifier UDS = User defined string I/O = Input/Output interfaces RTC = Real Time Clock XM = Expanded Memory The characteristics of the TM800 tag radio module are described in section 2 of this document. The tag platforms are the basis for the characteristics of the various Tag products in the RFIDS™ family, but they vary in form-factors, sensors, user-interfaces, battery types and actuators. For instance the TM801-200 Samui is an ID tag in small form-factor with flanges and without any additional sensor, while the TM802-CLZ Edam has calendar function, LED indicator and a buzzer in a card shaped enclosure. Tag specific product information is given in section 3 of this document. 1.2 Introducing RFIDS™ Active RFID technology has the ability to cater for a broad range of needs in the areas of managing assets, environment and people. These may include: Ensuring assets are not damaged or stolen Knowing location and status of asset © 2011-2012 TagMaster S/B Page 2(8) Date: 27 February 2012 Revision 001 DRAFT Ensuring people and assets are where they are expected to be Ensuring people are authorised to be where they are Ensuring people are safe and secure Ensuring environment of people and assets is effective, comfortable and economical For these reasons, active RFID is not only expected to perform traditional RFID tasks, but can also be utilised as cost-effective wireless sensor networks and provide important functions as contributors to applications in the Internet of Things. For this reason, TagMaster has named its active RFID technology ‘RFIDS™’, which stands for ‘Radio Frequency Identification & Sensing’. TagMaster’s RFIDS™ product line is an active RFID technology designed to meet a broad scope of requirements. Apart from identification, this may include tracking of movements, status verification, data retrieval, positioning, security alert, sensing, data collection, sensor logging, sensor alerts and actuation of events. Such requirements often demand reliable operation in tough environments at a variety of ranges, typically 3 to 150 metres, and uncontrollable orientations. They may also include requirement tags to perform useful tasks autonomously and independent of a reader. To meet such broad scope of requirements, while maintaining very good cost-effectiveness and optimal power prudence in all cases, the RFIDS™ is scalable from an ID tag to advanced sensor and actuation tag. In all variants of RFIDS™, the radio module is the same. The design has built-in expandability with sensor and actuation interfaces, additional memory, security, user-interface, and high accuracy calendar functions. RFIDS™ makes use of TagMaster’s Fast RFID Air Protocol (FRAP), which can adjust its payload, i.e. the useful information transmitted from tag to reader and from reader to tag, according to type of tag and/or on a needs basis. For instance, a simple ID tag will indicate to the reader that it is a simple ID tag and only include in its payload what is absolutely needed at that particular point in time. This is important order to minimise duty cycle and thereby improve both anti-collision and battery life. An advanced sensor-tag, on the other hand, might at times require an extended payload to communicate sensor values, alerts, performed actuations and tag status. In the RFIDS™ system, the FRAP allow all types of RFIDS™ tags to co-exist and be read by the same readers without any confusion. The reader or application does not need to keep long lists of tags for sorting and filtering purposes. Instead, each tag will tell the reader what type of tag it is and what its payload contains. 1.3 Operating principles of RFIDS™ Information from the RFIDS™ tag is sent in ultra-short bursts, whose packets are merely 32 bytes long. Figure 2 – Information packets sent from tag Of the 32 bytes, 8 bytes contain security information and a checksum, 5 bytes contain the TID, 1 byte is a payload selector and 18 bytes contain the actual payload. © 2011-2012 TagMaster S/B Page 3(8) Date: 27 February 2012 Revision 001 DRAFT For tags that do not need to send anything more than their TIDs, the payload is often blank. However, often it will contain the status of the tag, for example the status flag and battery level. Information packets can be either: Time-triggered, i.e. a packet is sent every blink interval. Sensor triggered, i.e. a packet is sent when a sensor value or several sensor values are meeting certain criteria. Reader triggered, i.e. the tag listens for a reader and only sends a packet when it has found a reader sending a wake-up signal. This is called RTF mode (reader talks first). In addition, the RFID’s tags have a special streaming mode, which is used for reading out large amounts of data from the tag or writing data to the tag. This is used for instance when reading out a sensor log. The TM800 tag radio module 2.1 Introduction The TM800 tag radio module is used in the TM801, TM802 and TM803 tag platforms. 2.2 FCC Statement for the TM800 tag radio module The 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. The FCC ID for the TM800 tag radio module is: AUKTM800. 2.3 Technical data Type Value Note Frequency 2.400 – 2.480 GHz Modulation GFSK Data rate Up to 1 Mbps RF output power Max 1 mW (0 dBm) EIRP Power supply 2.3 – 3.6 VDC Antenna 0 dBi printed antenna Update interval 100 ms to 3600 sec Settable from reader Data rate 250 kbps – 1 Mbps Depends on tag mode Radio modes RTF, TTF, TTFA RTF – Listen to send TTF – Send only TTFA – Send and listen to ACK Read range Up to 150 metres Depends on tag enclosure and reader TID 40 bits Site Code 24 bits User defined string 18 byte R/W EPC memory 128 bit R/W Device status flags 8 bits Compliance FCC, CE, RoHS © 2011-2012 TagMaster S/B TM801 only. TM802 and TM803 have 54 bytes. Page 4(8) Date: 27 February 2012 Revision 001 DRAFT 2.4 Spectrum The default channels of the TM800 tag radio module are given by the following spectrum allocation chart. For comparison the radio frequencies of IEEE 802.11b/g (e.g. WLAN), IEEE 802.15.1 (e.g. Bluetooth) and IEEE 802.15.4 (e.g. ZigBee) are also shown. Figure 3 - Spectrum allocation in the 2.4 GHz ISM band By default, the TM800 radio module makes use of channels 23, 31, 48 and 56 which corresponds to 2.423 GHz, 2.431 GHz, 2.448 GHz and 2.456 GHz respectively. Specific tags 3.1 Supported specific tag types The following specific tags are supported by this document: Order number Product name Application focus TM801-200 Samui Asset identification & tracking TM802-CL0 Edam Personnel tracking with light indicator TM802-D000 JAS-Airgas Custom tag for the gas industry with 3 light indicators 3.2 TM801-200 Samui 3.2.1 Overview Type Value Part number TM801-200 Dimensions 40 × 29 × 13 mm Weight 25 g Battery CR2032 replaceable Device status flag Undefined © 2011-2012 TagMaster S/B Note Note Excluding flanges Can be set by the user Page 5(8) Date: 27 February 2012 Revision 001 DRAFT Figure 4 - TM801-200 Samui 3.2.2 Changing battery Battery is changed by unscrewing the four small screws on the top of the tag. Inside is a TM800 tag radio module cushioned with cell-foam. Carefully remove the module. On the back of the module is a battery holder with a CR2032 coin battery. It’s fixed to the holder with a spring brace. Push the brace away from the battery with a small screwdriver and the battery will pop out. 3.2.3 Use of device status flag The device status flag has no specified use in the Samui tag. 3.3 TM802-CL0 Edam 3.3.1 Overview Type Value Part number TM802-CL0 Dimensions 85 × 40 × 7 mm Weight 25 g Battery CR2032 replaceable Device status flag Used to control light indicator Note Excluding neckband See FRAP programming manual Figure 5 - TM802-CL0 Edam 3.3.2 Changing battery Use a small screwdriver or nail to push the lever to the left of the battery compartment inwards to the © 2011-2012 TagMaster S/B Page 6(8) Date: 27 February 2012 Revision 001 DRAFT battery. At the same time, use another screwdriver or nail to pull out the drawer. Remove the CR2032 battery and replace it with the positive electrode facing upwards. Push the drawer back until it snaps in place. 3.3.3 Use of device status flag The device status flag is used to control the light indicator in the Edam tag. 3.4 TM802-D000 3.4.1 Overview Type Value Part number TM802-D000 Dimensions 72 × 27 × 40 mm Weight 50 g Battery LTC battery non-replaceable Device status flag Used to control light indicators Note Tag compartment only. Does not include collar ring which might vary depending on the cylinder See FRAP programming manual and TM802-D000 appendix to FRAP programming manual Figure 6 - TM802-D000 3.4.2 Changing battery N/A 3.4.3 Use of device status flag Used to control light indicators © 2011-2012 TagMaster S/B Page 7(8) Date: 27 February 2012 Revision 001 DRAFT Related Documents Title TagMaster’s RFID Application Protocol (FRAP) for TM700 series RFIDS™ readers Issuer TagMaster S/B Revision Revision 31, 10 Nov 2011 Disclaimer The information furnished by TagMaster in this data sheet is believed to be accurate and reliable. However, no responsibility is assumed by TagMaster for its use. TagMaster reserves the right to change circuitry and specifications at any time without notification to the customer. No responsibility is accepted by TagMaster or any of its directors, employees, subsidiaries, affiliates or agents as to the accuracy or comprehensiveness of the information. TagMaster reserves the right to make changes to this information at its own discretion. © 2011-2012 TagMaster S/B Page 8(8)
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