Tagmaster XTXX RFID reader User Manual Manual

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XT-1
Installation Manual
XT-1 Installation Manual
13-111 P01B, 2013-RO-0XX, 2014-01-28
Note: This equipment has FCCID: M39XTXX. It complies with the limits for a Class 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.
Caution: Changes or modifications not expressly approved by the party responsible for compliance could
void the user’s authority to operate the equipment.
Caution: To comply with Council Recommendation 1999/519/EC and FCC regulations, this reader must be
installed to provide a separation distance of at least 25 cm from all persons and must not be co-located or
operating in conjunction with any other antenna or transmitter.
Copyright
The copyright and ownership of this document belongs to TagMaster AB. The document may be
downloaded or copied provided that all copies contain the full information from the complete document. All
other copying requires a written approval from TagMaster AB.
Disclaimer
While effort has been taken to ensure the accuracy of the information in this document TagMaster AB
assumes no responsibility for any errors or omissions, or for damages resulting from the use of the
information contained herein. The information in this document is subject to change without notice.
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Content
1.1
1.2
1.3
Introduction
Overview........................................................................................................ 4
Tags .............................................................................................................. 4
Security ......................................................................................................... 4
2.1
2.2
Installation
Safety Instructions ......................................................................................... 4
Mounting Instruction ...................................................................................... 4
Interfaces
3.1
Cables ........................................................................................................... 6
3.2
Wires ............................................................................................................. 8
3.2.1 Terminal Connections .................................................................................... 8
3.2.2 Ethernet and USB .......................................................................................... 8
3.3
Power Supply ................................................................................................ 9
3.4
Wiegand/Magstripe ...................................................................................... 10
3.4.1 Wiegand Timing ........................................................................................... 11
3.4.2 Magstripe Timing ......................................................................................... 12
3.5
Ethernet ....................................................................................................... 13
3.6
RS232 ......................................................................................................... 14
3.7
RS485 ......................................................................................................... 15
3.8
USB ............................................................................................................. 17
3.9
Input ............................................................................................................ 18
3.10 Output.......................................................................................................... 19
3.11 Relay ........................................................................................................... 20
3.12 DIP Switches ............................................................................................... 21
3.12.1 DIP SW S101 .............................................................................................. 21
3.12.2 DIP SW S301 .............................................................................................. 21
3.13 LED and Buzzer........................................................................................... 22
4.1
4.2
4.3
Configuration
22
PC Tool ....................................................................................................... 22
Settings ....................................................................................................... 22
Reset to Factory Default .............................................................................. 22
TAGP
22
Trouble Shooting
23
Technical Specification
31
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1 Introduction
1.1
Overview
The XT-1 is an UHF RFID reader compliant with EPC Gen 2 (ISO 18000-6C). The reader is specifically
tailored for Automated Vehicle Identification (AVI) applications such as Parking, Gated Communities and
Condominiums. It has been designed for absolutely premium performance for read-range and
environmental specification while also giving a large number of interface options and having an innovative
implementation for TCP/IP connectivity and monitoring.
1.2
Tags
XT-1 supports any UHF tag compliant with the EPC Gen 2 standard. XT-1 also supports the
SecureMarkID® format developed by TagMaster to ensure that each tag has a truly unique identity difficult
to duplicate.
1.3
Security
The EPC Gen 2 standard was initially developed for low cost item management and has for that reason no
built in support for encryption like DES or AES. This differentiates the system from for instance many
proximity identification systems. To address this TagMaster has developed the SecureMarkID® format
using a specific algorithm and non-writeable parts of the tag to create a truly unique identity difficult to
duplicate. It is recommend to only use SecureMarkID® tags together with XT-1, but also to consider these
limitations in any application requiring high security.
As the development of a cryptographic framework for EPC Gen2 proceeds, TagMaster will offer future new
products to continue to make the most of available technology in an effort to offer the highest possible
security.
2 Installation
2.1
Safety Instructions
The following safety instruction should be observed during installation, normal use and service.
2.2
The installation and service should only be done by qualified personnel.
Shields of cables should be connected to safety ground.
The XT-1 must be disconnected from all voltage sources before any installation or service work.
Capacitors inside the XT-1 can hold their charge even if the equipment has been disconnected from
all voltage sources.
Do not modify any part of the product. Repair is to be performed by TagMaster only.
Where local regulations exist, these are to be followed. The safety information in this manual is a
supplement to local regulations. It is the responsibility of the local project manager to make certain
that local regulations are known and followed.
Mounting Instruction
The XT-1 can be mounted to a wall or a pole, see Figure 1. Mount the reader in a horizontal position with
the cable glands on the bottom side. Direct the reader so that the reading lobe covers the positions of the
tags. For optimal performance, tilt and rotate the reader into a position so that the front side of the reader is
parallel with the front side of the tag to be read. Align the reader so that the actual reading range is 60–70%
of the specified maximum.
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Figure 1 XT-1 mounted on a pole using UMK
The UMK (Universal Mounting Kit, Part No. 193600), see Figure 2, from TagMaster enables the reader to
be mounted in a wide variety of positions and angles. The kit contains all parts needed for mounting the
reader on a wall or on a pole. The UMK is suitable for outdoor use. See separate data sheet for more
details on installation.
Figure 2 UMK for wall and pole mounting of XT-1
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3 Interfaces
3.1
Cables
Connections to the XT-1 is primarily done using the central M20 cable gland, and secondarily by replacing
any of the 4 pcs of M16 blind stops with cable glands, see Figure 3. Shielded cables should be used for all
connections. Select cables suitable for the installation environment, considering indoor or outdoor
environment and use flexible cables with stranded wire. The reader chassis should be grounded.
Figure 3 Cable connections for XT-1 (Pos. 1 is M20 cable gland, Pos. 2 is M16 blind stops)
Instructions:
1. Select and use the M20 cable gland insert corresponding to the number of cables required. The
cable gland can be used with one cable (6-12 mm) or by using the supplied insert with two cables
(2-6 mm), see Figure 4.
2. Open XT-1 lid by removing the 8 screws on the front, and slide the lid open.
3. Feed the cable (or two cables) through the cable gland and through the chassis. All parts of the
cable gland except the nut shall be on the outside of the XT-1.
4. Connect the wires to relevant terminals and connections depending on interfaces being used. If
using RJ45 connectors for Ethernet these must be crimped inside the reader.
5. Connect the shielding of the power cable to the chassis grounding point using the grounding screw
(Figure 5, Pos. 1).
6. Screw the cable gland to tighten and ensure proper water and dust sealing.
As an alternative for grounding, a metallic cable gland (not included) can be used to connect to the reader
chassis to ground using the power cable shielding.
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Figure 4 The XT-1 M20 cable gland with insert for 2 cables
Never use the ventilating membrane (Figure 5, Pos. 2) on the back of the XT-1 for cable connections.
Figure 5 XT-1 overview (Pos. 1 is ground screw connection, Pos.2 is ventilating membrane)
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Wires
3.2.1 Terminal Connections
Wire connections (with the exception of Ethernet and USB, see §3.2.2) are added as singles wires to spring
cage terminal connectors, see Figure 6. These are easy-to-use terminals for single stranded wires.
Instructions:
1. Strip wire lead approximately 9 mm.
2. Push screwdriver down to release spring cage.
3. Insert wire into terminal.
4. Remove screwdriver which will clamp wire.
5. Gently pull installed wire to make sure connection is reliable.
Figure 6 Connection with easy-to-use spring cage terminal
Wire size
0.5mm2 - 1.5mm2 / AWG20 - AWG 16
Table 1 Wire connection overview
3.2.2 Ethernet and USB
Ethernet is connected using RJ45 connectors. To be able to fit this connector given the limited diameter of
M20 cable gland and the hole in the chassis, such RJ45 must be crimped to the wires inside the reader.
This is done with corresponding standard tool and RJ45. Pass the Ethernet cable through the cable gland
before crimping the connector on the cable.
USB is intended for service interface and therefore connected only when lid is open. Connection is done
using a standard USB type B cable.
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Power Supply
The XT-1 shall be powered by an isolated power supply suitable for outdoor use. The required voltage is 12
VDC to 24VDC. It is recommended to use a power supply of 24 VDC, 1 A minimum.
Figure 7 Power supply connection, overview and detail
The power input has built-in protection for an accidental connection of reversed polarity.
Connections
Supply voltage
DC+
High supply potential (See Figure 7 for details)
DCLow supply potential
12 VDC to 24 VDC
(Absolute minimum rating 10 VDC, absolute maximum rating 30 VDC)
Recommended / Max length
10m / 100m
Wire size
Recommended length 0.5mm2 / AWG 20
Max length 1.5mm2 / AWG 16
Table 2 Power connection overview
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Wiegand/Magstripe
The Wiegand interface is shared with Magstripe and outputs. This selection of interface is done via SW
configuration see §4. Furthermore is the details of the Wiegand output format configured using SW. The
interface has a separate isolation of 1500 VDC and varistor protection for over voltage.
The XT-1 has a built-in option (3xDIP) of 1kΩ pull-ups on the transmit side for D0/CLK, D1/DATA and
CL/LOAD. The DIP switches are also described in §3.12.
Figure 8 Wiegand connection, overview and detail
Connections
(Wiegand)
Connections
(Magstripe)
D0
D1
CL
GND
CLK
DATA
LOAD
GND
Wiegand 0 (See Figure 8 for details)
Wiegand 1
Card Load
Ground
Magstripe clock (See Figure 8 for details)
Magstripe data
Card load
Ground
Recommended / Max length
10m / 100m (depending on properties of receiving system)
Wire size
0.5mm2 / AWG 20
Voltage
30 V (Max)
Sink current
50 mA (Max)
Isolation
1500 VDC (Min)
Table 3 Wiegand connection overview
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3.4.1 Wiegand Timing
The following values apply when all outputs are pulled up to 5V with 1kΩ resistors.
Symbol
Parameter
Min
Typ
Max
Unit
tSU
CL to D# setup time
tF
Fall time (all signals)
125
ns
tR
Rise time (all signals)
µs
tPI
Pulse interval
ms
tPW
Pulse width
80
µs
tH
CL hold time after last D# change
µs
µs
Table 4 Wiegand interface timing
tSU
tPI
D0
D1
tPW
tH
tR
≈
tF
≈ ≈
CL
Figure 9 Wiegand timing diagram
Description on default output format to be added in later revision.
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3.4.2 Magstripe Timing
The following values apply when all outputs are pulled up to 5V with 1kΩ resistors.
Symbol
Parameter
Min
Typ
Max
Unit
tSU
LOAD to CLK setup time
tF
Fall time (all signals)
125
ns
tR
Rise time (all signals)
µs
tCL
Clock low
160
µs
tCH
Clock high
160
µs
tH
LOAD hold time after last CLK change
µs
µs
Table 5 Magstripe interface timing
≈
LOAD
tSU
tCL
tF
tH
≈
CLK
tR
tCH
tDH
≈
DATA
Figure 10 Magstripe timing diagram
Description on default output format to be added in later revision.
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Ethernet
The XT-1 has a built in 10Mbps/100Mbps Ethernet switch and dual ports. This makes it possible to connect
a number of readers in a system without the need for additional network equipment. The two ports A and B
are using RJ45 connectors and are fully equivalent.
Figure 11 Ethernet connection, overview and detail
The XT-1 supports auto crossover (Auto-MDIX) so that installation can be done using both patch and
crossover cables. The connectors have eight pins and the wire scheme is based on the T568A standard.
The interfaces have separate isolation of 1500 VDC.
The default IP address of the device is unique among XT-1 readers and can be found on the label on the
back of the XT-1. This makes it possible to create a stand-alone network without changing any reader
network settings. Detailed network settings are configured using SW, see §4. Each port has two LED
indicators for Link/Activity (Yellow/Flashing Yellow) and 10Mbps/100Mbps speed (Off/Green).
Connections
Port A (See Figure 11 for details)
Port B
Recommended / Max length
- / 100m
Wire size
CAT5e cable is required for the Ethernet connection
Table 6 Ethernet connection overview
Ethernet communication is normally done using TagMaster protocol TAGP available at port 9999. See
Manual 05-172 TAGP Protocol Specification for details.
Example:
The following is an example on how a connection using Ethernet, TCP/IP and TAGP can be tested
1. Download PUTTY-TE from TagMaster ftp-server ftp://partner:245ghz@ftp.tagmaster.com
2. Open a connection with PUTTY-TE using the IP address of the XT-1 and selecting TAGP
3. Write the following sequence to get a 2.5s beep from the reader:
User input
HELOTAGP/2.0
PUSHBEEP9C9
XT-1 response
RPLYHELO00
RPLYPUSH00
Table 7 Ethernet connection example
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RS232
The RS232 interface is used for host communication and supports ASCII output and TAGP. Detailed
settings are configured using SW, see §4. The interface has a separate isolation of 1500 VDC and varistor
protection for over voltage.
Figure 12 RS232 connection, overview and detail
Connections
TXD
RXD
GND
Transmitted data to host (See Figure 12 for details)
Received data from host
Ground
Recommended / Max length
- / 10m
Wire size
Specification according to EIA RS232C. Belden 9184 or Belden 9502 are
recommended.
Max Baud Rate
115.2 kb/s (default)
Table 8 RS232 connection overview
The default output of the RS232 interface is a one directional ASCII output of tag data. If SecureMarkID®
tags from TagMaster are being used (recommended) this identity is sent followed by CR+LF ('\r''\n'). If other
EPC tags are being used the default output is the EPC data followed by CR+LF ('\r''\n').
As an alternative can TAGP be selected as format if configured using SW.
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RS485
The RS485 interface is used for host communication and supports ASCII output and TAGP. It generally
supports longer transmission distances than RS232. Detailed settings are configured using SW, see §4.
The interface has a separate isolation of 1500 VDC and varistor protection for over voltage.
Figure 13 RS485 connection, overview and detail
The hardware supports 2- wire (2xDIP) and 4-wire communication, half duplex and full duplex as well as
multi-drop. When using RS485 communication, correct termination of the interface must always be
considered in order to handle transmission-line effects. The XT-1 has a built-in option (DIP) of 120Ω
termination on the receive side, and an option (2xDIP) of 600Ω bias on receive side. The options using DIP
switches are detailed in Figure 14 and also described in §3.12.
5V iso
620 Ω
SW#4
RX+
120 Ω
SW#3
RX-
RS485
driver
620 Ω
SW#1
SW#2
SW#5
TX+
TX-
Figure 14 RS485 DIP switch configuration options
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Connections
Recommended / Max length
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TX+
TXGND
RX+
RX -
Transmitted data to host (See Figure 13 for details)
Transmitted data to host
Ground
Received data from host
Received data from host
Wire size
- / 1000m
The cable for the RS485 interface must be a twisted pair cable and
conform to the EIA RS485 standard.
Max Baud Rate
115.2 kb/s (default)
Table 9 RS485 connection overview
The default output of the RS485 interface is a one directional ASCII output of tag data. If SecureMarkID®
tags from TagMaster are being used (recommended) this identity is sent followed by CR+LF ('\r''\n'). If other
EPC tags are being used the default output is the EPC data followed by CR+LF ('\r''\n').
As an alternative can TAGP be selected as format if configured using SW.
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USB
The XT-1 has one USB type B connector, and acts like a USB 2.0 Full-Speed (12 Mbps) device. This
interface is only intended for configuration and software download (service and maintenance). The interface
is connected using a standard cable to a USB port of a PC, and after installing specific TagMaster software
can maintenance be done, see §4.
Figure 15 USB connection, overview and detail
Connections
VBUS
DM
DP
GND
Recommended / Max length
1m / TBD
Wire size
+5VDC (See Figure 15 for details)
Data–
Data+
Ground
TBD
Table 10 USB connection overview
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Input
The XT-1 has 3 inputs available. The inputs are opto-coupled, have 1500VDC isolation and protection for
reversed polarity. They have an input impedance of 1kΩ and are activated by a current flow. The inputs are
intended for optional connection to detectors (inductive loop, IR or other type). The types are ‘Presence
detector input’, ‘Safety detector input’ and ‘Opening detector input’.
Figure 16 Input connections, overview and detail
Connections
IN1+
IN1IN2+
IN2IN3+
IN3-
Presence detector input+ (See Figure 16 for details)
Presence detector inputSafety detector input+
Safety detector inputOpening detector input+
Opening detector input-
High Voltage (active)
Min 3.0 V / Max 30 V
Low Voltage (inactive)
Min 0.0 V / Max 0.2 V
Input impedance
1 kΩ
Recommended / Max length
10m / 100m
Wire size
0.5mm2 / AWG 20
Table 11 Input connection overview
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Output
The XT-1 has 3 open-collector outputs shared with Wiegand/Magstripe available. These are currently
intended for future use and have no specific functionality assigned (other than Wiegand/Magstripe). The
interface has an isolation of 1500VDC.
Figure 17 Output connections, overview and detail
Connections
D0
D1
CL
GND
Output 0 (See Figure 17 for details)
Output 1
Output 2
Ground
Applied Voltage
Min 1.0 V / Max 30 V
Sink Current
Min 0.0 mA / Max 500 mA
Supply
Min 10 V / Max 30 V
Min 3 mA / Max 9 mA
Recommended / Max length
10m / 100m
Wire size
0.5mm2 / AWG 20
Table 12 Output connection overview
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Relay
The XT-1 has a non-latching relay available. It is typically connected to the logic controlling a barrier, gate
or other object when the reader is in stand-alone operation.
Figure 18 Relay connections, overview and detail
Connections
COM Common (See Figure 18 Figure 18 Relay connections, overview
and detailfor details)
NO
Normally Open
NC
Normally Closed
Switching current
Max 2A
Switch voltage
Max. 60VDC / 30VAC
Switching capacity:
Max. 60W / 62,5VA
Recommended / Max length
10m / 100m
Wire size
0.5mm2 / AWG 20
Table 13 Output connection overview
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DIP Switches
Two DIP switches (8 positions) are available for physical configuration of a few major parameters. All other
configurations are done using software. Default state for all switches is ‘Off’.
3.12.1 DIP SW S101
Figure 19 DIP SW S101, overview and detail
Position 1
Position 2
Firmware upgrade mode. Toggle to ‘On’ and cycle power before firmware upgrade using
USB. Return to ‘Off’ after upgrade complete.
Restore factory default settings. Toggle to ‘On’ and cycle power for complete reader reset.
Return to ‘Off’ after restore complete.
3.12.2 DIP SW S301
Figure 20 DIP SW S301, overview and detail
Position 1
Enable RS485 2-wire mode, TX+ <-> RX+ (always together with Position 2)
Position 2
Enable RS485 2- wire mode, TX- <-> RX- (always together with Position 2)
Position 3
Enable RS485 120Ω termination between RX+ and RX-
Position 4
Enable bias RS485 620 Ω RX+, up
Position 5
Enable bias RS485 620 Ω RX-, down
Position 6
Enable 1 kΩ pull-up D0/CLK
Position 7
Enable 1 kΩ pull-up D1/DATA
Position 8
Enable 1 kΩ pull-up CL/LOAD
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LED and Buzzer
The XT-1 is equipped with bright LEDs for external signalling. These can indicate red/green/yellow based
on software settings. Default signalling is green for ‘tag read’/’ tag accepted’ and red for ’tag not accepted’
The buzzer is default off, but can be enabled for indicating ‘tag read’/’tag accepted’.
Figure 21 LED, overview
4 Configuration
4.1
PC Tool
A PC tool is available for reader communication and firmware download.
4.2
Settings
The available settings can be found in the PC Tool. Generally these settings includes necessary
configuration for networking, interface output and reader behaviour.
4.3
Reset to Factory Default
To restore the reader back to the factory defaults state toggle the corresponding DIP switch (see §3.12) to
‘On’ and cycle the power. Wait for a few seconds, return the DIP switch to ‘Off’ and then cycle power again.
After a reset to factory defaults all software settings are reverted back to the original state. The IP-address
of the device is again the one printed on the label on the back of the reader.
TAGP
The protocol TAGP is available on Ethernet, RS232 and RS485 interfaces.
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6 Trouble Shooting
To facilitate trouble shooting, consider the following:
Make sure the XT-1 has correct supply voltage with sufficient current. There is a small green LED
on the electronic board, only visible when the lid of the reader is in open position. A flashing green
light of this LED indicates that power is connected and that the microcontroller is alive.
If using Ethernet communication, make sure that the network connection is ok. There are small
LEDs of the RJ45 socket, only visible when the lid of the reader is in open position. A yellow light
indicates ‘Link’ and flashing yellow light indicates ‘Activity’.
If the software settings might have been set to unclear state or the IP-address mixed up, a reset to
factory default operation is recommended, see §4.3.
Make sure that working and correctly formatted EPC Gen 2 tags are being used.
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7 Technical Specification
Operating frequencies
Read range
Dimensions
Weight
Protection
Operating temperature
Storage temperature
Relative humidity
Housing
Power supply
Power consumption
Output power
Input
Output
Relay
Interfaces
Certificates
Standards
LED indicator
Communications protocols
Encrypted air interface
EMC
Radio
Safety & health
Mechanical
Manuals and documentation
Part No.
Area 1: 865.6-867.6 MHz Europe,
Area 2: 902-928 MHz US, Americas
Up to 8 meters (20ft) with TagMaster UHF tags with
SecureMarkID®; Windshield ID-tag and Credit Card ID-tag
300x300x60 mm (11.8x11.8x2.4 in)
2.3 kg (5.1 lbs)
IP 66
-40°C to +60°C (-40°F to +140° F)
EN 60068-2-1 Ad, En 60068-2-2 Bd, EN 60068-2-14 Nb
-40°C to +85C°C (-40°F to +185°F)
93%RH @ 65C
EN 60068-2-30
Aluminium housing UL94 certified XENOY™ cover
12-24 VDC supply
10W (max 12W)
Area 1 2W (e.r.p.), Area 2 4W (e.i.r.p.)
3 isolated inputs
3 isolated outputs shared with Wiegand/Magstripe
1 relay output 60VDC, 2A
RS232, RS485, Wiegand/Magstripe, 2 pcs Ethernet and
USB service Interface
CE Certificate according to R&TTE-directive 1999/5/EC and FCC
RoHS Directive 2002/95/EC and 2011/65/EU
WEEE 2002/96/EC
EPC Gen 2 (ISO 18000-6C)
Res/Green/Yellow
TAGP and various OEM protocols
According to EPC Gen 2 (ISO 18000-6C)
EN 301489-1, EN 301489-3
EN 302 208-1, EN 302 208-2
FCC: CFR 47, Part 15 subpart C, FCC ID: M39XTXX
EN 60950-1, EN 60950-22 & 1999/519/EC
EN 60068-2-27 Ea, EN 60068-2-64 Fh
XT-1 Installation Manual, 13-111
TAGP Manual, 05-172
Area 1: 152500
Area 2: 152600
Page 31 of 32
XT-1 Installation Manual
13-111 P01B, 2013-RO-0XX, 2014-01-28
Technical Support
Phone: + 46 8 632 19 50
Fax: +46 8 750 53 62
E-mail: support@tagmaster.com
Office Address
TagMaster AB
SE-164 46 KISTA
SWEDEN
Phone: +46 8 632 19 50
Fax: +46 8 750 53 62
E-mail: sales@tagmaster.com
Web: www.tagmaster.com
Page 32 of 32

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