MPR-1710 -1- 6/19/2008 SENTINEL-SENSE MPR-1710 Installation & Operation Manual-041361
MPR-1710 -2- 6/19/2008 COPYRIGHT ACKNOWLEDGEMENTS The contents of this document are the property of Applied Wireless Identifications Group, Inc. (AWID) and are copyrighted. All rights reserved. Any reproduction, in whole or in part, is strictly prohibited. For additional copies of this document please contact: AWID 18300 Sutter Blvd Morgan Hill, CA 95037 http://www.AWID.
MPR-1710 -3- 6/19/2008 Table of Contents REVISION HISTORY .......................................................................................................4 1 INTRODUCTION.......................................................................................................5 1.1 2 SPECIFICATIONS ....................................................................................................6 2.1 2.2 2.3 3 Channel Frequency Table..............................................................
MPR-1710 -4- 6/19/2008 REVISION HISTORY Version No. 0.1 Revised By E.
MPR-1710 1 -5- 6/19/2008 INTRODUCTION AWID's Sentinel-Sense MPR-1710 is a Radio Frequency IDentification (RFID) reader module with RS-232 and USB I/O interface that works with most leading passive UHF passive tags. The reader module comes with a unique combination of long read range, small size (credit card) and low power consumption. Its primary applications are access control, asset management and tracking, and fleet management applications.
MPR-1710 2 -6- 6/19/2008 SPECIFICATIONS Input voltage Input current Protocol language Read range Output power Transmit frequency Receiver frequency Hopping channels Channel spacing Hopping sequence Operating temperature range Output data formats I/O Connector Dimension 2.1 +5.225 VDC to +5.775 VDC 1.5 A (5.5 V) typical ISO-18000-6 Type B/C, EPC Class 1 Gen 2 Depends on type & size of labels used +24 dBm max 902.75-927.25 MHz 902.75-927.
MPR-1710 2.3 -7- 6/19/2008 MEASURING READ DISTANCE Make sure you know the tag types. For certain readers and tags, user must also be mindful of the tag’s orientation and the reader’s antenna orientation, what mounting surface the tags are designed for and how the tags are supposed to be mounted. Any departure from its intended purpose will drastically affect the reader’s ability to energize the tag and its read range.
MPR-1710 3 -8- 6/19/2008 INSTALLATION & OPERATION GUIDELINES For ease of explanation, MPR reader in this section refers to an RFID device that consists of MPR-1710 and a high performance circular polarized antenna inside a splash proof, UV stabilized housing case. The module should be installed on a heat sink. Example of a heat sink could be an aluminum plate of size 8”x8”x0.1” exposed to convection air flow. The screws at the bottom of module shall be used for mounting the module on the heat sink. 3.
MPR-1710 4 -9- 6/19/2008 INSTALLATION PROCEDURE This section provides installation and operation information for MPR-1710 reader modules. 4.1 PARTS LIST Verify that all items listed below are present before starting the installation. o Sentinel-Sense MPR-1710 o Documentation and command demo program CD 4.2 Qty=1 Qty=1 PREPARATION FOR INSTALLATION Familiarize yourself with the connectors and pin out assignment of each I/O connectors. 4.2.
MPR-1710 5 5.1 - 10 - 6/19/2008 SOFTWARE PROGRAMMING AND SYSTEM OPERATION NOTES SYSTEM OPERATION 5.1.1 Running a Custom Software Application or the AWID Demo Program If AWID Demo Program is not used, it is expected user will launch a Custom Software Application developed using the MPR-1710 Protocol to issue commands to the MPR reader/module as specified. 5.1.
MPR-1710 - 11 - 6/19/2008 If you are using the AWID RFID demonstration software application which is .NET based with easy-to-follow GUI operations, simply select the COM port for which the device is configured then click “Connect” should get you started. 6 MPR SERIAL COMMUNICATION PROTOCOL See MPR-1710 Protocol Manual - 041377 Warning statements This device complies with part 15 of the FCC rules.
ANT-915CPS-A Rev.1.0 08/26/2006 Fig.1. Picture of the Circularly Polarized (RHCP) Patch Antenna 1. Specifications 1.1. Nominal frequency range from 900MHz to 930MHz 1.2. Max Gain = +5.70dBi Min Gain = + 4.80dBi 1.3. The average Gain is +5.25dBi. 1.4.
ANT-915CPS-A 1.5. Axial ratio at boresight direction is less than 1.0dB (less than measurement tolerance). 1.6.-3dB beam width, horizontal 63 degree; -3dB beam width, vertical 63 degree; 1.7. Front to back ratio 14dB; 1.8. Input impedance 50 Ohm 1.9. Connector: Reverse Polarity TNC 50 Ohm. 1.10. VSWR less than 1.12 over frequency range 900–930 MHz 1.11. VSWR degradation in proximity 12” (0.3m) to the flat metal surface VSWRmax=1.18 over frequency range 900–930 MHz 1.12. Maximum input power 5W. 1.13.
ANT-915CPS-A Fig.3. Normalized Logarithmic Directivity Eteta, θ=0o…±180o, Φ=0o .(Polar diagram) o -3dB Level Pattern Width 63 0 Normalized Directivity dB -3 Maximum Directivity +8.7 dB -6 -9 -12 -15 -18 -21 -24 -27 -30 -33 -36 -180 -160 -140 -120 -100 -80 -60 -40 -20 0 20 40 60 80 100 120 140 160 180 Teta degree Fig.4.
ANT-915CPS-A Fig.5. Antenna Mounting On the backside of the antenna, there are two mounting holes: Thread ¼”-20 – diameter - ¼”; threads per inch - 20. Depth – 3/8”. Distance between holes – L1=1.97” (50mm).
DASH NO.
Directivity: Gain: SIZE APPLIED WIRELESS ID A FSCM NO.
DASH NO. APPLICATION NEXT ASSY USED ON REVISIONS REV Pre D DESCRIPTION PRELIMINARY ISSUE Bandwidth correction DATE APPROVED 1-12-2005 3-5-2007 DL EH THIS DRAWING INCOMPLETE WITHOUT ECN’S None AWID PROPRIETARY INFORMATION ALL PAGES ARE ON ORIGINAL ISSUE (-) EXCEPT AS NOTED CONTRRACT NO: ISSUED PREP BY: V.
Revision Records: Enter all revision records by stating “Paragraph Numbers," revision “From” and “To”, “Revision Level” and “Time of Revision.” Rev D: 4.1.5 Changed “+/- 75 MHz” to “+/- 54 MHz”, document control# in footer corrected, March 5, 2007 SIZE APPLIED WIRELESS ID A FSCM NO.
1.0 Scope This specification describes the electrical, mechanical and environmental requirements for circular polarized UHF antenna, designed to work in conjunction with MPR-2010A or MPR-2010B series of UHF RFID readers. 2.0 Applicable Documents The following documents of the exact issue shown, form a part of this specification to the extent specified herein. In the event of conflict between this document and the documents referenced herein, the contents of this document shall prevail.
Note: remove cables and add SMA antenna Figure 1, Mechanical Dimensions 3.1.2 Weight This RFID module shall weigh less than 24 oz. (0.7 kg) 3.1.3 N/A Power Supply and Consumption 3.1.4 Multi-protocol operations Protocol agnostic. 3.2 Environmental Characteristics 3.2.1 General This RFID module is intended for use in a fixed and/or mobile environment. 3.2.2 Cooling Not required. 3.2.3 Temperature Change -35 ºC to +70 ºC SIZE APPLIED WIRELESS ID A FSCM NO.
3.2.4 Humidity The RFID module shall withstand the following humidity extremes: Minimum -0% RH Maximum -95% RH 3.2.5 Random Vibration -- TBD 3.2.6 Shock -- TBD 3.3 Electromagnetic Compatibility TBD 3.4 Reliability Requirement 3.4.1 Component Selection -- TBD 3.4.2 De-Rating -- AWID’s component de-rating guide. 3.4.3 MTBF TBD Ground, Sheltered Benign 4.0 Antenna Electrical Specification 4.1 Frequency Characteristics 4.1.1 Operating Frequency -4.1.2 Gain -- 5.08 dB typical, 5.59 dB maximum 4.
4.1.11 Radiation Pattern -- See Figure 2 Width ( W) W (0.72R) 0 0.15 0.25 0 0.5 Distance (R) 4.2 Interface with External Systems 4.2.1 Input Connector -- 0.75 R SMA (Reverse sex) 5.0 Marking Antenna shall be market with part number, hardware revision level and serial number. 6.0 Configuration Control SIZE APPLIED WIRELESS ID A FSCM NO.