Applied Wireless Identifications Group R32EA032 RFID READER User Manual Installation Operation Manual 041314
Applied Wireless Identifications Group Inc. RFID READER Installation Operation Manual 041314
USERS MANUAL
MPR-3014WF-QB - 1 - Doc# 041325
SENTINEL-SENSE MPR-3014
MPR-3014WF-QB
Installation & Operation Manual
MPR-3014WF-QB - 2 - Doc# 041325
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.com
The information contained herein has been carefully checked and is believed to be accurate,
no responsibility is assumed for inaccuracies. AWID reserves the right to make changes
without prior notice. This document is not covered by any warranty either expressed or
implied. Any comments, corrections or additions to the contents of this document should be
directed to AWID at the above address.
Copyright 2006 AWID, Printed in USA.
All other trademarks are the property of their respective owners.
FCC COMPLIANCE
This equipment has been tested and found to be in compliance with the limits for FCC Part 15,
Class A digital device. 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 instruction manual, may cause harmful interference with 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.
The users are prohibited from making any change or modification to this product, any
modification to this product shall void the user’s authority to operate under FCC Part 15
Subpart A Section 15.21 regulations.
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.
The antenna(s) used for this transmitter must not be co-located or operating in
conjunction with any other antenna or transmitter.
INDUSTRY C ANADA COMPLIANCE
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.
MPR-3014WF-QB - 3 - Doc# 041325
This device has been designed to operate with the antennas described below, and
having a maximum gain of 6 dBi. Antennas not as described or having a gain greater
than 6 dB are strictly prohibited for use with this device. The required antenna
impedance is 50 ohms.
1) AWID, model ANT-915CPD-A; 5.9 dBi circular polarized antenna (Patch).
2) Snyder Antenna Systems, Inc., model ANTUHF-PORT-X; 6.5 dBi Patch
Antenna (Sidewinder). Note: to compromise the 6.5 dBi antenna gain, part of
the included accessories are 8 ft, 16 ft or 24 ft cable to be applied between the
reader and antenna. The cable loss with 8 ft cable is 1.5 dB at 902 MHz.
To reduce potential radio interference to other users, the antenna type and its gain
should be so chosen that the equivalent isotropically radiated power (EIRP) is not more
than that required for successful communication.
C AUTION:
Reader should be positioned so that personnel in the area for prolonged periods may
safely remain at least 23 cm (9 in) in an uncontrolled environment from the reader’s surface.
Observe FCC OET Bulletin 56 “Hazards of radio frequency and electromagnetic fields” and
Bulletin 65 “Human exposure to radio frequency electromagnetic fields.”
MPR-3014WF-QB - 4 - Doc# 041325
Table of Content
1. INTRODUCTION.................................................................................................................. 5
1.1. S
PECIAL
F
EATURES
........................................................................................................... 5
1.2. M
ODEL
N
UMBER
A
SSIGNMENT
......................................................................................... 6
2. SPECIFICATIONS................................................................................................................ 7
2.1. C
HANNEL
F
REQUENCY
T
ABLE
.......................................................................................... 7
2.2. I
NPUT AND
O
UTPUT INTERFACES
&
C
ONNECTOR
P
IN
A
SSIGNMENT
.................................. 7
2.2.1. General Purpose Input/Output ................................................................................ 8
2.2.2. RS-232...................................................................................................................... 8
2.3. M
EASURING
R
EAD
D
ISTANCE
........................................................................................... 8
3. INSTALLATION PROCEDURE......................................................................................... 9
3.1.
PARTS LIST
........................................................................................................................ 9
3.2. P
REPARATION FOR
I
NSTALLATION
.................................................................................... 9
3.2.1. Bench Top Verification ............................................................................................ 9
3.2.2. Aiming of Antenna.................................................................................................... 9
3.3. I
NSTALLATION
S
TEPS
...................................................................................................... 10
4. NOTES ON SOFTWARE PROGRAMMING AND SYSTEM OPERATION ............. 11
4.1. SET
UP
AND
S
YSTEM
O
PERATION
.................................................................................. 11
4.1.1. Setting Up MPR-3014WF-QB................................................................................ 11
4.1.2. Running a Custom Software Application or the AWID Demo Program ............... 11
4.1.3. Operating Modes ................................................................................................... 11
4.2.
USERS NOTE
.................................................................................................................... 11
O
F
OR
S
YSTEM
I
NTEGRATORS AND
/
OR
S
OFTWARE
D
EVELOPERS
............................................ 11
O
F
OR
C
USTOM
S
YSTEM
USERS ............................................................................................ 11
O
F
OR
D
EMO
S
OFTWARE
USERS ............................................................................................ 12
5. MPR-3014WF PROTOCOL............................................................................................... 12
6. APPENDIX........................................................................................................................... 12
6.1. S
AMPLE
GPIO
A
PPLICATION
.......................................................................................... 12
....................................................................................................................................................................................................................
NOTE: READ AND USE THIS MANUAL.
FAILURE TO FOLLOW THE INSTALLATION (SET UP) GUIDE MAY RESULT IN
POOR PERFORMANCE OR EVEN CAUSE PERMANENT DAMAGE TO THE
READER, THUS VOIDS THE PRODUCT WARRANTY.
MPR-3014WF-QB - 5 - Doc# 041325
1. INTRODUCTION
AWID's Sentinel-Sense MPR-3014 WinCE bi-static reader MPR-3014WF-QB is a multi-
antenna Radio Frequency IDentification (RFID) reader with an on-board WinCE.
Reader Versions
MPR-3014WF-QB-NA (WinCE, Fixed, Quad-Ant, Mono-static & North America)
I/O Interface
One unique configuration for the MPR-3014WF-QB readers is the possibility of having
RS-232 interface and Ethernet interface simultaneously present at the reader data input
ports. To arbitrate possible data collision, MPR-3014 determines that local entry always
dominates. Therefore, when both Ethernet commands and serial commands are
present, serial command will dominate. This arbitration process is automatic and
transparent to the user.
MPR-3014WF-QB are long-range (12 to 25 feet, tag dependent) readers with general
purpose digital I/O (GP I/O – four (4) inputs four (4) outputs) that work with all leading
passive UHF passive tags. Each of these readers comes with a unique combination of
long read range, small size, and low power consumption. Its primary applications are
asset management & tracking, and fleet management applications.
The MPR-3014WF-QB-NA reader is delivered with the following components and accessories:
MPR reader – MPR-3014WF-QB-NA, firmware Ver. 6.XXN
Antenna – 4 EA ANT-915-CPD-A or ANTUHF-PORT-X
Cable – 8 EA RTC08/16/24 (coax cable – 8/16/24 feet, Reverse TNC)
In order to control the MPR-3014WF-QB readers you will need the following:
• PC running Windows
1
98 or higher, CD-ROM drive, Network connection
• Host software (AWID’s demo software or your own custom software).
• RFID Tags (EPC C1, ISO Type B, etc.)
1.1. SPECIAL FEATURES
• Multi-Protocol: EPC C1
2
Gen 1 & 2, ISO Type B, EPC V1.19 Rev.2
• Thin passive tags with long-range performance
• High performance circular polarized antenna
• TCP/IP and four each optically isolated GP I/O
• Splash proof design for indoor or outdoor applications
1
Though MPR-3014WF-QB can also be controlled from a non-Windows programming platform, AWID
demo and FW upgrade programs are applications to run in Windows.
2
Both 64- and 96-bit.
MPR-3014WF-QB - 6 - Doc# 041325
1.2. MODEL NUMBER ASSIGNMENT
Multi-Antenna Readers: MPR-3014WF-QB-YZ
MPR – Multiple-protocol RFID
QB – quad-bi-static
YZ – Two letter web address for country/regional code
EXAMPLES:
MPR-3014WF-QB-TW for WinCE, fixed, 4-bistatic ant, Taiwan
MPR-3014WF-QB-NA for WinCE, fixed, 4-bistatic ant, North America
MPR-3014WF-QB - 7 - Doc# 041325
2. SPECIFICATIONS
Common RF Specifications (North America Versions only)
Transmit frequency................................................. 902-928 MHz (ASK)
Receiver frequency................................................. 902-928 MHz (ASK)
Hopping channels................................................... 50 Channels
Channel spacing..................................................... 500 kHz or 200kHz
Hopping sequence.................................................. Pseudo random
Protocol language ……………………………………EPC C1 Gen 1 & 2, ISO Type B, EPC V1.19
Rev.2
Read range ............................................................ Depends on type & size of labels used
Output power .......................................................... 1 Watt into 6 dBi antenna
Antenna configuration ………………………………..1 to 4 antenna pairs
Stationary Reader (MPR-3014WF-QB-NA)
Operating temperature range ................................. -20° C to +65° C (-4° F to 149° F)
Color....................................................................... Black
Output data formats................................................ TCP/IP or Serial
GP I/O ....................................................................4-input, 4-output
Peripheral Interface ................................................ Ethernet, Serial, USB
Dimension............................................................... 11 x 7.4 x 2.75 inches (28 x 19 x 7 cm)
Weight .................................................................... 2,172 g (4.78 lb)
Input voltage ........................................................... 12 VDC
Input current ........................................................... 12VDC 3.3 amp
2.1. CHANNEL FREQUENCY TABLE
Frequency range: 902 ~ 928 MHz
Minimum number of frequency channels: 50
CH
902~928
MHz
CH
902~928
MHz
CH
902~928
MHz
CH
902~928
MHz
CH
902~928
MHz
0 902.75 MHz
10 907.75 MHz
20 912.75 MHz
30 917.75 MHz
40 922.75 MHz
1 903.25 MHz
11 908.25 MHz
21 913.25 MHz
31 918.25 MHz
41 923.25 MHz
2 903.75 MHz
12 908.75 MHz
22 913.75 MHz
32 918.75 MHz
42 923.75 MHz
3 904.25 MHz
13 909.25 MHz
23 914.25 MHz
33 919.25 MHz
43 924.25 MHz
4 904.75 MHz
14 909.75 MHz
24 914.75 MHz
34 919.75 MHz
44 924.75 MHz
5 905.25 MHz
15 910.25 MHz
25 915.25 MHz
35 920.25 MHz
45 925.25 MHz
6 905.75 MHz
16 910.75 MHz
26 915.75 MHz
36 920.75 MHz
46 925.75 MHz
7 906.25 MHz
17 911.25 MHz
27 916.25 MHz
37 921.25 MHz
47 926.25 MHz
8 906.75 MHz
18 911.75 MHz
28 916.75 MHz
38 921.75 MHz
48 926.75 MHz
9 907.25 MHz
19 912.25 MHz
29 917.25 MHz
39 922.25 MHz
49 927.25 MHz
2.2. INPUT AND OUTPUT INTERFACES & CONNECTOR PIN ASSIGNMENT
MPR-3014WF-QB - 8 - Doc# 041325
2.2.1. General Purpose Input/Output
Terminal block – MPR-3014WF-QB 4 inputs & 4 outputs (optically isolated)
Pin # Function description Pin # Function description
1 Output 1 6 Input Common
2 Output 2 7 Input 4
3 Output 3 8 Input 3
4 Output 4 9 Input 2
5 Output Common 10 Input 1
The four general-purpose inputs that use photo diodes are used to accept TTL input
commands. Each input requires 15 mA and 5V to activate. The four outputs are solid
state relays, with 0.03 uA off-state leakage current and the ability to sink 120 mA at a
breakdown voltage of 400V DC. All four outputs are protected with reverse clamping
diodes, and ready to drive inductive loads. The floating arrangement eliminates any
ground loop considerations.
2.2.2. RS-232
Pin# Function description Pin # Function description
1 DCD 5 GND
2 RXD 6 DSR
3 TXD 7 RTS
4 DTR 8 CTS
2.3. MEASURING READ DISTANCE
Make sure you know the tag types. For instance, EPC tags must be pre-programmed to
be read. In certain readers and tags, the 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.
When measuring the reader’s read range, make sure that the tag is properly oriented to
the reader antenna, and for optimum performance, be sure the operator’s finger is not
within three (3) inches of the tag’s antenna surface.
MPR-3014WF-QB - 9 - Doc# 041325
3. INSTALLATION PROCEDURE
This section provides installation and operation information for MPR-3014WF-QB readers.
3.1. PARTS LIST
Verify that all items listed below are present before starting the installation.
a. Sentinel-Sense MPR-3014WF-QB Qty=1
b. ANT-915-CPD-A Qty=1~4
c. RTC08/16/24 Qty=2~8
d. Documentation & Demo Program CD Qty=1
e. 827-06W – Reader mounting bracket (Optional)
f. PS12-3.3AR – 12 VDC wall plug power supply unit (Optional)
3.2. PREPARATION FOR INSTALLATION
3.2.1. Bench Top Verification
It is always a good idea to verify system operation before committing to a full-scale
installation. The following are the necessary steps to test reader’s operation in a static
environment.
• Connect reader to Network with a network cable at the TCP/IP port
• Connect the power jack from the wall plug power supply to reader
• Load the demo program CD onto (installation) PC and launch the demo program.
Try Connect after filling in the IP address of reader and then some commands.
3.2.2. Aiming of Antenna
Antenna Pattern for MPR-3014WF-QB
MPR-3014WF-QB comes with a set of (up to 4) antenna pairs each circular polarized to
ensure reading tag with random orientation. Most circular polarized antenna has a
horizontal to vertical differential of up to 3 dB, this will cause the antenna pattern to
deviate from a true circle. AWID’s antenna has a horizontal to vertical differential of
typically less than 0.5 dB, making the antenna pattern as near to a circle as possible.
MPR-3014WF-QB - 10 - Doc# 041325
0.15 00.25 0.5
0.75
R
0
Distance
(R)
Width( W)
W (0.72R)
Figure 1 MPR-3014WF Antenna Pattern
• Antenna pattern measurements represent both horizontal and vertical polarized
planes of the read area transmitted by the reader.
• In the drawing above, R = approximately 12 feet to 15 feet for MPR-3014WF-QB
antenna with Alien free space tags.
• Antenna pattern can be affected by RFI and other environmental conditions.
3.3. INSTALLATION STEPS
• Check to ensure that all connections are secure. Make sure all wires through the
cable clamps are anchored properly; avoid dangling wires that may become safety
hazard.
• Mount the Reader using the four threaded mounting holes to fasten the reader on
the desired mounting surface. Connect antenna(s) to reader with antenna cable(s).
• Mount or place antenna(s) at desired location(s). In cases where antenna aiming is
critical, please order antenna-mounting bracket (P/N 827-06W) from AWID. This
mounting bracket provides pan/tilt adjustment for the reader.
MPR-3014WF-QB - 11 - Doc# 041325
AWID PROPRIETARY
4. Notes on Software Programming and System Operation
4.1. SET UP AND SYSTEM OPERATION
4.1.1. Setting Up MPR-3014WF-QB
Power up with the 12-V power supply unit, connect to Network through the Ethernet port
with an RJ-45 cable.
4.1.2. 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 3014 Protocol and/or RFID Anywhere API to send
to reader the commands as specified.
4.1.3. Operating Modes
Typical operating modes for MPR-3014WF-QB can be grouped into the following modes:
Search Mode
This mode is used when operator or user is not certain which family of tags is placed on the
items to be tracked. Since most tags are deterministic in nature, the reader must cycle through
each and every protocol, issue a protocol specific inquiry, to hail and to wait for a response from
tags of that specific protocol. Therefore, if there are many different protocols, for an untrained
observer, the reader response will become sluggish.
Mixed Mode
This mode assumes the user is aware of the types of protocol in use, and furthermore, the
user made a determined effort to operate the reader in a mixed protocol mode. In this
mode, the user can decide how many and which specific protocols to be selected. Once
Mix Protocol Mode is selected, the reader will routinely cycle through each protocol, dwell
long enough for the reader to wait for a response and then move onto the next protocol. It
should be noted that in a mixed protocol mode, the tag must have sufficient time to
respond to the reader, and therefore, it can only be used on a conveyor belt arrangement,
with specific speed restrictions.
Single Protocol Mode
Single protocol is the normal mode of operation, where the protocol type is known and
many tags are expected to pass through the readers.
4.2. USERS NOTE
O FOR SYSTEM INTEGRATORS AND/OR SOFTWARE DEVELOPERS
System Integrators and/or Software developers should get familiar with RFID Anywhere
API and/or the MPR-3014 Protocol specifications for developing applications that control
MPR-3014WF-QB readers.
O FOR CUSTOM SYSTEM USERS
For custom system user, please refer to your host software user guide for information
regarding system and software operations
MPR-3014WF-QB - 12 - Doc# 041325
AWID PROPRIETARY
O FOR DEMO SOFTWARE USERS
If you are using the AWID demonstration software application which is .NET based with
easy-to-follow GUI operations, simply fill in the IP address of MPR-3014WF-QB installed
then click “Connect” should get you started.
5. MPR-3014WF Protocol
See MPR-3014WF Protocol – 041317
6. Appendix
6.1. SAMPLE GPIO APPLICATION
Shown in diagram below is an example of applying such external devices as stack
lights, photo eyes, etc. to GPIO ports.