Feig Electronic LRM2000-2 RFID System User Manual M90401 1e ID B

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OBID i-scan
®
INSTALLATION
ID ISC.ANT310310-A
HF Antenna
final
public (B)
2010-05-26
M90401-1e-ID-B.doc
OBID i-scan®
Installation
ID ISC.ANT310/310-A
Note
© Copyright 2009-2010 by
FEIG ELECTRONIC GmbH
Lange Strasse 4
D-35781 Weilburg
Tel.: +49 6471 3109-0
http://www.feig.de
With the edition of this document, all previous editions become void. Indications made in this manual may be
changed without previous notice.
Copying of this document, and giving it to others and the use or communication of the contents thereof are
forbidden without express authority. Offenders are liable to the payment of damages. All rights are reserved
in the event of the grant of a patent or the registration of a utility model or design.
Composition of the information in this document has been done to the best of our knowledge. FEIG
ELECTRONIC GmbH does not guarantee the correctness and completeness of the details given in this
manual and may not be held liable for damages ensuing from incorrect or incomplete information. Since,
despite all our efforts, errors may not be completely avoided, we are always grateful for your useful tips.
The instructions given in this manual are based on advantageous boundary conditions. FEIG ELECTRONIC
GmbH does not give any guarantee promise for perfect function in cross environments and does not give
any guaranty for the functionality of the complete system which incorporates the subject of this document.
FEIG ELECTRONIC call explicit attention that devices which are subject of this document are not designed
with components and testing methods for a level of reliability suitable for use in or in connection with surgical
implants or as critical components in any life support systems whose failure to perform can reasonably be
expected to cause significant injury to a human. To avoid damage, injury, or death, the user or application
designer must take reasonably prudent steps to protect against system failures.
FEIG ELECTRONIC GmbH assumes no responsibility for the use of any information contained in this document and makes no representation that they free of patent infringement. FEIG ELECTRONIC GmbH does
not convey any license under its patent rights nor the rights of others.
OBID® and OBID i-scan® are registered trademarks of FEIG ELECTRONIC GmbH.
All cited brand names, product names, or trademarks belong to their respective holders.
FEIG ELECTRONIC GmbH
Page 2 of 22
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OBID i-scan®
Installation
ID ISC.ANT310310-A
Safety Instructions / Warning - Read before start-up !
Features of the antenna ID ISC.ANT310/310
Installation and Wiring
Start-up
4.1
Project Notes .................................................................................................................7
4.2
Configuring the Reader in accordance with national RF regulations ......................9
4.3
The influence of the transmitting power on the reading range...............................10
4.4
The influence of metal on the reading range ............................................................11
4.5
The influence of the noise level on the antenna’s working range ..........................12
4.6
How to measure the voltage standing wave ratio (VSWR) ......................................13
4.7
Antenna tuning ............................................................................................................14
Course of the antenna’s magnetic lines of electric flux
18
Technical data
19
6.1
Approval .......................................................................................................................20
6.1.1
Europe (CE) ..............................................................................................................20
6.1.2
USA (FCC) and Canada (IC) ....................................................................................21
System delivery contents
FEIG ELECTRONIC GmbH
22
Page 3 of 22
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ENGLISH
Contents
OBID i-scan®
Installation
ID ISC.ANT310/310-A
Safety Instructions / Warning - Read before start-up !
•
The device may only be used for the intended purpose designed by for the manufacturer.
•
The operation manual should be conveniently kept available at all times for each user.
•
Unauthorized changes and the use of spare parts and additional devices which have not been
sold or recommended by the manufacturer may cause fire, electric shocks or injuries. Such
unauthorized measures shall exclude any liability by the manufacturer.
•
The liability-prescriptions of the manufacturer in the issue valid at the time of purchase are valid
for the device. The manufacturer shall not be held legally responsible for inaccuracies, errors,
or omissions in the manual or automatically set parameters for a device or for an incorrect
application of a device.
•
Repairs may only be executed by the manufacturer.
•
Installation, operation, and maintenance procedures should only be carried out by qualified
personnel.
•
Use of the device and its installation must be in accordance with national legal requirements
and local electrical codes .
•
When working on devices the valid safety regulations must be observed.
•
Please observe that some parts of the device may heat severely.
•
Special advice for carriers of cardiac pacemakers:
Although this device doesn't exceed the valid limits for electromagnetic fields you should keep
a minimum distance of 25 cm between the device and your cardiac pacemaker and not stay in
an immediate proximity of the device respective the antenna for some time.
•
Do not use harsh chemicals, cleaning solvents or strong detergents to clean the antenna. Wipe
it with a soft cloth slightly dampened in a mild soap-and-water solution.
CAUTION! When working on an opened device, the Antenna-Tuner and the Antenna
conductor carry voltages up to 1000V.
FEIG ELECTRONIC GmbH
Page 4 of 22
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OBID i-scan®
Installation
ID ISC.ANT310310-A
Features of the antenna ID ISC.ANT310/310
The Antenna ID ISC.ANT310/310 is a single-loop antenna with manual tuning board.
In combination with various reader of the Company FEIG ELECTRONIC GmbH, the antenna is
suitable for many Long- and Mid-Range applications with reading performance. At a transmitting
power of 8 W and a transponder in ISO Card size, a reading range of 60-70 cm is possible.
Furthermore, it can be used with other readers having a transmitter frequency of 13.56 MHz and
an output impedance of 50 Ω.
The preferred orientation of a transponder is parallel to the antenna’s surface. The right position to
obtain a maximum range would be above the centre of the antenna’s plane.
Due to its robust design, in conjunction with the protection class IP65, it is for almost all
applications.
Typical application are book and video libraries, document tracking, Label programming, logistic
application at conveyors and sorting systems, access control, people identification and collection of
data in the office or in the Industry.
FEIG ELECTRONIC GmbH
Page 5 of 22
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ENGLISH
The antenna has been factory calibrated for the most applications. After having been installed in
other surroundings, the antenna may be re-tuned for a optimal performance with the help of jumpers.
OBID i-scan®
Installation
ID ISC.ANT310/310-A
Installation and Wiring
The antenna has been especially designed for installation with holding devices made of nonconductive materials (e.g. plastic or wood). It is suitable for both indoor as well as outdoor use. In
order to facilitate the mounting, there are four drill holes (d=5,6 mm) with a spacing of 243 mm at
the inside of the antenna. For attachment, we recommend a wood screw size 5 mm (like DIN 96)
or machine screw (like DIN 7985) with a pen head of minimum ∅ 10 mm till maximum ∅ 12 mm.
The maximum tightening torque of the free turning screws are 2 Nm.
Please keep a minimum distance of 5 cm to all metal parts! Even a distance lower than 30 cm
to metal parts will lead to a reduction of the reading range. See chapter 4.7 Antenna tuning
Figure 1: Installation drawing ID ISC.ANT310/310
Antenna opening
(Cover)
All measurements in mm.
For antenna tuning open the housing by removing the four screws at the cover. The maximum
tightening torque for the cover screws is 0,7 Nm – 0,9 Nm.
FEIG ELECTRONIC GmbH
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OBID i-scan®
4.1
Installation
ID ISC.ANT310310-A
Start-up
Project Notes
ENGLISH
The antenna is connected directly to the reader with the help of the connecting cable and the SMAplug.
Figure 2: Wiring diagram – reader and antenna
ID ISC.ANT310/310-A
Reader
detection area
The antenna ID ISC.ANT310/310 permit the detection of the transponder inside the detection area.
The preferred orientation of a transponder is parallel to the antenna’s surface. The right position to
obtain a maximum range would be above the centre of the antenna’s plane. Exactly on the antenna wire the read range drops to zero.
In order to suppress possible interference’s, in the frequency area of 20-100MHz, the reader ID
ISC.LR2000 and ID ISC.MR200 is equipped with two respectively one torrid cores. One of these
torrid cores must be integrated into the antenna connection cable. For this purpose, the coaxial
cable has to be pulled through the core 4 times and has to be located as close as possible to the
core. The maximum distance between reader and torrid core should be 10 cm.
Figure 3: Assembly of the torrid core at the coaxial cable
For industrial environments, to suppress interference’s in the frequency area of 1-10MHz, we recommend to insert the device ID ISC.ANT.PS-B in the mode transformer between reader and antenna.
Figure 4: Wiring diagram - reader with transformer and antenna
ID ISC.ANT310/310
Reader
ID ISC.ANT.PS-B
Note: . The maximum tightening torque for the SMA connector is 0,45 Nm.
FEIG ELECTRONIC GmbH
Page 7 of 22
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OBID i-scan®
Installation
ID ISC.ANT310/310-A
Please also observe the following recommendations:
•
Up to a distance of 50 cm, the antenna cable should always be lead away from the antenna
vertically and installed permanently.
•
In order to obtain an optimum reading range, the antenna connection cable should not be
shortened or extended. If an extension is absolutely necessary, please use a 50 Ω cable with a
length of λ
(half the wavelength at 13,56 MHz, RG58=7,20 m). However, this may lead to a
minor sensitivity reduction (approx. 2 cm reading range / extension).
•
Please keep a minimum distance of 30 cm between the antenna cable and all parallel, power
cables.
After the installation has been completed, an operational check can be performed with the help of
the reader and a smart label. With a transmitting power of 4W and a label size of 75 mm x 46 mm
(ISO-card size) the reading range in the centre of the antenna should be approx. 50 cm – 60 cm.
Otherwise, the following points should be reviewed:
•
Is the antenna installed near metal?
•
What is the difference between Umax-Umin of the Noise Level? The difference of the Noise
Level should be less than 20 mV (see ISO Start, Test & Measurement).
•
Is the matching of the antenna of the impedance to the impedance of 50 Ω okay?
•
Can be checked with the help of an SWR – Meter. See Chapter 4.6 How to measure the
voltage standing wave ratio (VSWR).
•
Do the reader signal a “RF-Warning”? See reader command “[0x6E] Reader Diagnostic”
•
The distance from tag to tag should be greater than 8 cm. If the tag to tag distance is reduced,
losses at the read range can be expected. This applies in particular to distances under 5 cm.
•
If multiple gates are operated at the same time at a distance of less than 8 m, the Readers
must by synchronized. Otherwise, losses at the read range can be expected
See Application Note: “Synchronizing RFID Long Range Readers using the Reader Synchronization Interface” (N11200-3e-ID-B.pdf).
FEIG ELECTRONIC GmbH
Page 8 of 22
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OBID i-scan®
4.2
Installation
ID ISC.ANT310310-A
Configuring the Reader in accordance with national RF regulations
The ID ISC.ANT310/310 antenna with the reader ID ISC.LR2000, ID ISC.MR200 and
ID.ISC.MR101, when used as intended, complies with the basic requirements of Article 3 and the
other relevant clauses of the R&TTE Directive 1999/5/EG of March 99. This means that operation
in the 29 EU countries and the EFTA countries (EU countries plus Switzerland, Norway and
Iceland) is possible with a maximum field strength of 42 dBµA/m at 10 m distance (RF Output
power = 4W).
RF approval in accordance with EN 300 330 is still possible in all 46 CEPT countries.
The CEPT countries are:
Albania (ALB), Andorra (AND), Austria (AUT), Azerbaijan (AZE), Belarus (BLR), Belgium (BEL),
Bulgaria (BUL), Bosnia and Herzegovina (BIH), Croatia (HRV), Cyprus (CYP), Czech Republic
(CZE), Denmark (DNK), Estonia (EST), Finland (FIN), France (F), Germany (D), Greece (GRC),
Hungary (HNG), Iceland (ISL), Ireland (IRL), Italy (I), Latvia (LVA), Liechtenstein (LIE), Lithuania
(LTU), Luxembourg (LUX), Malta (MLT), Former Yugoslav Republic of Macedonia (MKD), Moldova
(MDA), Monaco (MCO), Netherlands (HOL), Norway (NOR), Poland (POL), Portugal (POR),
Romania (ROU), Russian Federation (RUS), San Marino (SMR), Slovak Republic (SVK), Slovenia
(SVN), Spain (E), Sweden (S), Switzerland (SUI), Turkey (TUR), Ukraine (UKR), United Kingdom
(G), Vatican City (CVA) and Yugoslavia.
The following restrictions are in effect (as of: October 2009):
1. Outside the EFTA countries RF approval must in all cases be applied for. The existing
measuring protocols in accordance with EN 300 330 are generally sufficient.
To use the antenna ID ISC.ANT3100/310at a RF output power of 8W a radio license according
ERC/REC 70-03 Annex 9 Vol. F1 is necessary (operating with a maximum field strength of 60
dBµA/m at 10 m)! The following restrictions are in effect (as of October 2009):
1. For EU and EFTA countries an additional notification is required in each country.
2. Outside the EFTA countries RF approval must in all cases be applied for. The existing
measuring protocols in accordance with EN 300 330 are generally sufficient.
When placing the antennas in service, the systems integrator must ensure that the prescribed
mounting instructions are followed, the necessary Reader settings are made and permissible limits
according to the national regulations are not exceeded.
FEIG ELECTRONIC GmbH
Page 9 of 22
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ENGLISH
Configuration of the RFID Readers and the maximum transmitting power of the antennas are
affected mainly by the country-specific RF regulations. For the entire EU the limits are set forth in
the R&TTE Directive and EN 300 330. In North America this is regulated by FCC Part 15 (USA)
and by the RSS-210 (Canada).
OBID i-scan®
4.3
Installation
ID ISC.ANT310/310-A
The influence of the transmitting power on the reading range
The antenna’s working range is dependent on the antenna itself, the reader, the transponder and
the adjusted transmitting power of the reader. Due to the fact that the transponder gets its energy
from the magnetic field produced by the antenna and that the field intensity decreases at higher
distances, the radiated transmitting power has strong influence on the range.
Figure 5: Reading range of the antenna ID ISC.ANT310/310 in dependence on the RF power
Read range of two typical transponder, size 46 x 75 mm2, over the centre of the antenna, parallel
orientation to the antenna.
A transmitting power of more than 8 W could, in dependence on the ambient temperature, heat up
the antenna and may even destroy it.
FEIG ELECTRONIC GmbH
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OBID i-scan®
4.4
Installation
ID ISC.ANT310310-A
The influence of metal on the reading range
The change of inductivity may often be compensated with the help of the (re-)tuning electronics.
Figure 6 illustrates the influence of a metal plate on the antenna with (upper line) and without retuning (lower line).
Figure 6: Reading range* in dependence on the distance to metal
Read range of a typical transponder, size 46 x 75 mm2, over the centre of the antenna, parallel
orientation to the antenna.
If metal parts cannot be avoided close to the antenna, please observe the following:
•
The minimum distance between metal and antenna is 5 cm. A distance up to 30 cm will lead to
a considerable reduction in the reading range. At a distance of 50 cm to metal parts, there will
be almost no influence to be measured.
•
Metal parts must not form closed loops or electric circuits. These have to be electrically separated at one point.
•
Metal parts in close vicinity to the antenna have to be grounded in star configuration with a
good HF-connection.
FEIG ELECTRONIC GmbH
Page 11 of 22
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ENGLISH
A magnetic field cannot penetrate metal or other magnetically conductive materials. The course of
the lines of electric flux and the inductivity of the antenna is changed and has therefore a considerable influence on the reading range. Furthermore, the field is weakened by the mutual inductance
response the eddy current within the metal.
OBID i-scan®
4.5
Installation
ID ISC.ANT310/310-A
The influence of the noise level on the antenna’s working range
Interferences have to be largely avoided, so that the smart label may be read by the receiver even
at low signal levels. The amplitude of the interference levels can be found out at reader
ID ISC.LR200 with the help of the noise levels. Critical are not the absolute measured values, but
rather the difference between Umax-Umin.
This has been simulated at 4W and represented graphically in the following figure.
Figure 7: Reading range in dependence on the noise levels
Read range of two typical transponder, size 46 x 75 mm2, over the centre of the antenna, parallel
orientation to the antenna.
The difference of the noise levels (Umax - Umin) should be less than 20 mV.
Possible reasons for excessive noise levels:
•
Bad (HF-)connections between reader and antenna.
•
Improper cable layout between antenna and reader
•
Badly tuned antenna
•
Interfering signals of other electronic appliances or transmitting stations.
•
Interfering signals on the reader’s power supply line.
•
Interfering signals coming from other cables close to the cables leading to and away from the
reader.
•
Metal parts close to the antenna
FEIG ELECTRONIC GmbH
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OBID i-scan®
4.6
Installation
ID ISC.ANT310310-A
How to measure the voltage standing wave ratio (VSWR)
If an antenna has been tuned, the question is: how good is the adjustment between reader and
antenna? In this case, the VSWR –meter is a very useful tool. This device measures the ratio between supplied and reflected energy. A VSWR of up to 1.3 :1 is considered to be sufficient. Very
often, a wattmeter is integrated into these devices.
ENGLISH
Figure 8: Inserting a VSWR meter into the antenna cable
Reader
ID ISC.LR2000
Antenna
ID ISC.ANT310/310
SWR / Power Meter
The cable between the Reader and the SWR meter should either be very short (< 20 cm) or 7.20
m (RG 58=Lambda/2) long. If the VSWR is greater than 1.3:1 after tuning, use the Jumper J1-J3
on the board of the antenna to perform a slight adjustment.
Furthermore the VSWR meter can be used at any time to check the tuning of the antennas. If
changes in local conditions result in detuning of the antennas, this can be verified whenever
desired.
In addition to the losses indicated by the SWR due to mismatching between the cable and the
antenna, it happens that the Reader drives different output currents depending on the antenna
impedance, resulting in power variance. This means that at 50 Ω a current of approx. 0.3 A flows.
No current flows when an output is open, and when there is a short circuit the current is limited to
approx. 1.0 A. Matching the antenna also has a slight effect on the noise levels.
FEIG ELECTRONIC GmbH
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OBID i-scan®
4.7
Installation
ID ISC.ANT310/310-A
Antenna tuning
The antenna has been factory-tuned on a wood block at an impedance of 50 Ω. If it is installed in a
defined distance to metal or other magnetically conductive materials, no adjustment or readjustment will be necessary.
After installation in different ambience conditions, the antenna may be re-tuned for a limited sector
with the help of jumpers. For this purpose you will either need an SWR – meter or a measuring
device (antenna/impedance analyser) in order to determine the impedance at 13,56 MHz.
Before tuning, all antennas and antenna cables must be fixed in place. The antenna should be
connected to the reader directly. A additional necessary power splitter or transformer should be
looped in after the tuning procedure.
Figure 9: The antenna’s impedance in dependence on the frequency
(measured at the SMA Connector)
FEIG ELECTRONIC GmbH
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OBID i-scan®
Installation
ID ISC.ANT310310-A
ENGLISH
Figure 10 The antenna’s impedance in dependence on the frequency
(measured direct at the antenna matching board)
Figure 10 show the diagram of the impedance and phase in dependence of the frequency of the
antenna ID ISC.ANT310/310. If the antenna had been tuned well, the (serial-) resonance point
should be at the minimum of the impedance curve at 13.56MHz, 50 Ω. and a phase angle of 0°.
If metal is brought close to the antenna, the impedance curve shifts to the right and slightly downwards. This means that the closer the metal part comes, the impedance value will decrease and
then increase more and more. During this process, the antenna will once again pass the value of
50 Ω. However, this operating point does not lead to optimal reading ranges. The optimal operating
point always lies on the series resonance, which in this case equals the minimum value on the impedance curve.
FEIG ELECTRONIC GmbH
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OBID i-scan®
Installation
ID ISC.ANT310/310-A
Figure 11 Top few tuning board with default Jumper positions
The following table has been made up in order to facilitate the process of tuning or re-tuning.
The jumper positions may be used as a first start or reference values, only. In any case, the impedance or VSWR must be double checked, afterwards. And a matching of the optimised working
point / jumper configuration is necessary.
Table 1: Jumper position
Distance to metal
(plate)
Jumper closed at Pin No
J1
J2
J3
2,5 cm
5-6,7-8,9-10,11-12
5-6,7-8,9-10,11-12
3-4,9-10,13-14,15-16,17-18
5 cm
3-4,5-6,9-10,11-12
3-4,5-6,9-10,11-12
9-10,15-16, 17-18
7,5 cm
5-6,9-10,11-12
5-6,9-10,11-12
3-4,7-8,9-10,11-12,13-14,17-18
10 cm
3-4,7-8,11-12
3-4,7-8,11-12
1-2,3-4,7-8,11-12,13-14,17-18
15 cm
3-4,7-8,11-12
3-4,7-8,11-12
11-12,13-14,17-18
20 cm
3-4,7-8,11-12
3-4,7-8,11-12
3-4,7-8,9-10,13-14,17-18
25 cm
3-4,7-8,11-12
3-4,7-8,11-12
7-8,9-10,13-14,17-18
30 cm
3-4,7-8,11-12
3-4,7-8,11-12
1-2,3-4,5-6,9-10,13-14,17-18
35 cm
3-4,7-8,11-12
3-4,7-8,11-12
1-2,3-4,5-6,9-10,13-14,17-18
40 cm
3-4,7-8,11-12
3-4,7-8,11-12
1-2,3-4,5-6,9-10,13-14,17-18
Without metal
(plate)
3-4,7-8,11-12
3-4,7-8,11-12
1-2,3-4,5-6,9-10,13-14,17-18
The default configuration are the jumper position in the row “without metal (plate)”!
FEIG ELECTRONIC GmbH
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OBID i-scan®
Installation
ID ISC.ANT310310-A
In order to re-adjust the antenna on 50 Ω and phase angle 0°, the jumper terminals J1, J2 and J3
may be used for re-tuning. See chapter 4.6 How to measure the voltage standing wave ratio
(VSWR).
Z = 50 +/- 3 Ω and phase angle Phi = 0° +/- 3° or R = 50 +/- 3 Ω and X = 0 +/- 5 Ω
or VSWR <= 1:1.3
Please proceed as follows:
1. Adjust jumper terminals J1, J2 and J3 according Table 1
2. Adjust capacities by using terminal J3 at the optimal value lying close to 50 Ω (minimum value
VSWR).
3. Adjust capacities by using terminal J1 and J2 at the optimal value lying close to 50 Ω (minimum
value VSWR).
1. Repeat step no. 2. and 3. till a impedance of 50 Ω ± 1 Ω and phase angle 0°± 3° is reached
(minimum value VSWR <=1:1.3)
Setting the capacity at the terminals J1, J2, J3 at the best matching point close to 50 Ω and phase
angle 0° must be done by insert or remove the jumper. Thereby, the value at the analyser or
VSWR meter before and after the change has to be compare.
As first step, the small capacities should be changed. If this change get an improvement or if the
jumper is inserted already with the next larger value has to be continued
If the closing of Pin 1-2 improve the matching, the next step would be to close Pin 3-4 and open
Pin 1-2. This is because the capacitor at Pin 3-4 has approximately twice the value of the capacitor
at Pin 1-2.
The jumper configuration at terminal J1 and J2 should be put equal. Big capacities at terminal J1
and small values at J2 lead to asymmetry in the antenna. This can lead to performance losses
and/or damage of the components in the antenna
Note: Voltages as high as 1000V may be present on the antenna wire or on various components of the tuning boards. Before starting your work first disconnect the antenna from the
Reader. When tuning the antenna make sure no components inside the housing are
touched.
FEIG ELECTRONIC GmbH
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ENGLISH
The purpose of the tuning process is to tune the antenna, again, as close as possible to
50 Ω. maintain the following tolerances:
OBID i-scan®
Installation
ID ISC.ANT310/310-A
Course of the antenna’s magnetic lines of electric flux
Figure 1 shows the field alignment of a simple single loop antenna. This is the most simple and
®
most frequently used antenna type in the sector of OBID i-scan. Its size depends highly on the
reading range requirements and the place of application as well as the national limiting values.
Figure 1: course of the magnetic lines of electric flux of a single loop antenna
Label
The working range of an antenna depends very much on the position and alignment of the
transponder. A single loop antenna has the highest range in the centre of the antenna and if the
transponder is aligned parallel to the antennas surface.
The transponder is powered only when sufficient field lines flow through him. Therefore, the activation of the transponder in the direction perpendicular to the antenna surface, within the antenna
area, is not possible.
FEIG ELECTRONIC GmbH
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OBID i-scan®
Installation
ID ISC.ANT310310-A
Technical data
• Housing
Plastic ABS-ASA
• Dimensions ( W x H x L )
318 mm x 338 mm x 30 mm ± 1 mm
• Weight
approx. 0,7 kg
• Protection class
IP 65
• Colour
White
Electrical data
• Maximum transmitting power
8W
• Admissible transmitting power
– EU (according REC 70-03
Annex. 9F1)**
– EU (according EN 300 330)
– U.S. (according FCC Part 15)
8.0 W
4.0 W
4.0 W
• Operating frequency
13.56 MHz
• Working range
– 1 W (ID ISC.MR101)
– 1.8 W (ID ISC.MR200)
–4W
–8W
Typical 43 cm *
Typical 50 cm *
Typical 60 cm *
Typical 70 cm *
• Antenna connection
1 x SMA plug (50 Ω)
• Antenna connection cable
RG58, 50 Ω, approx. length of 3,56 m
Ambience conditions
• Temperature range
– operation
– storage
• Vibration
FEIG ELECTRONIC GmbH
–25°C to +55°C
–25°C to +60°C
EN60068-2-6
10 Hz to 150 Hz : 0,15 mm / 20m/s2 (~ 2 g)
Page 19 of 22
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ENGLISH
Mechanical data
OBID i-scan®
• Shock
Installation
EN60068-2-27
Acceleration
ID ISC.ANT310/310-A
: 20m/s2 (~ 30 g)
Applicable standards
• EMV
EN 300 683
• Safety
EN 60950
*Size Transponder coil 46 x 75 mm2,, over the centre of the antenna, sensitivity / minimum operating field Hmin=70mA/m rms, parallel orientation to the antenna,. transmitting power 4 /8 W.
**In connection with the reader ID ISC.LRM2000 and according the regulations EN 300 330 and
ERC Recommendation 70-03 Annex 9 Vol. F1. See Chapter Fehler! Verweisquelle konnte nicht
gefunden werden.
6.1
6.1.1
Approval
Europe (CE)
When properly used this radio equipment conforms to the essential requirements of Article 3 and
the other relevant provisions of the R&TTE Directive 1999/5/EC of March 99.
Equipment Classification according to ETSI EN 300 330 and ETSI EN 301 489: Class 2
The technical data of the ID ISC.LRM2000 Reader built into the ID ISC.ANT1690/600-A antenna can be found in the Installation Manual which is included with the device.
FEIG ELECTRONIC GmbH
Page 20 of 22
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OBID i-scan®
ID ISC.ANT310310-A
USA (FCC) and Canada (IC)
Product name:
ID ISC.ANT310/310
Antenna name:
ID ISC.ANT310/310-A
Reader name:
ID ISC.LRM2000-A
FCC ID:
IC:
PJMLRM2000-2
6633A-LRM20002
Notice for USA and
Canada
This device complies with Part 15 of the FCC Rules and with
RSS-210 of Industry Canada.
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.
Unauthorized modifications may void the authority granted under
Federal communications Commission Rules permitting the operation
of this device.
This equipment has been tested and found to comply 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.
Cet appareil numérique de la classe A est conforme à la norme NMB003 du Canada.
Further information and technical data of the ID ISC.LRM2000 Reader can be found in the
Installation Manual of the reader.
FEIG ELECTRONIC GmbH
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ENGLISH
6.1.2
Installation
OBID i-scan®
Installation
ID ISC.ANT310/310-A
Page 22 of 22
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System delivery contents
•
HF antenna ID ISC.ANT310310-A
•
Qty: 6 Jumper
•
Installation manual
FEIG ELECTRONIC GmbH
OBID i-scan
®
INSTALLATION
ID ISC.ANT1690/600
Type A and B Crystal Gate
English
Draft
public (B)
2010-05-26
M91200-1e-ID-B.doc
OBID i-scan®
Installation
ID ISC.ANT1690/600-A/-B
Note
© Copyright 2010 by
FEIG ELECTRONIC GmbH
Lange Strasse 4
D-35781 Weilburg
Tel.: +49 6471 3109-0
http://www.feig.de
With the edition of this document, all previous editions become void. Indications made in this manual may be
changed without previous notice.
Copying of this document, and giving it to others and the use or communication of the contents thereof are
forbidden without express authority. Offenders are liable to the payment of damages. All rights are reserved
in the event of the grant of a patent or the registration of a utility model or design.
Composition of the information in this document has been done to the best of our knowledge. FEIG
ELECTRONIC GmbH does not guarantee the correctness and completeness of the details given in this
manual and may not be held liable for damages ensuing from incorrect or incomplete information. Since,
despite all our efforts, errors may not be completely avoided, we are always grateful for your useful tips.
The instructions given in this manual are based on advantageous boundary conditions. FEIG ELECTRONIC
GmbH does not give any guarantee promise for perfect function in cross environments and does not give
any guaranty for the functionality of the complete system which incorporates the subject of this document.
FEIG ELECTRONIC call explicit attention that devices which are subject of this document are not designed
with components and testing methods for a level of reliability suitable for use in or in connection with surgical
implants or as critical components in any life support systems whose failure to perform can reasonably be
expected to cause significant injury to a human. To avoid damage, injury, or death, the user or application
designer must take reasonably prudent steps to protect against system failures.
FEIG ELECTRONIC GmbH assumes no responsibility for the use of any information contained in this document and makes no representation that they free of patent infringement. FEIG ELECTRONIC GmbH does
not convey any license under its patent rights nor the rights of others.
OBID® and OBID i-scan® are registered trademarks of FEIG ELECTRONIC GmbH.
I-CODE® is a registered trademark of Philips Electronics N.V.
Tag-itTM is a registered trademark of Texas Instruments Incorporated.
FEIG ELECTRONIC GmbH
Page 2 of 41
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OBID i-scan®
Installation
ID ISC.ANT1690/600-A/-B
Contents
Safety Instructions / Warning - Read before Start-Up !
Maintenance
Performance Features of the ID ISC.ANT1690/600 Antennas
3.1
Available Antenna Types ..............................................................................................7
Installation and Wiring
4.1
Mounting Preparation ..................................................................................................9
4.2
Installing the antenna .................................................................................................10
4.2.1
Dimensions of antenna .............................................................................................10
4.2.2
Drilling the Mounting Holes .......................................................................................11
4.2.3
Installing the Antenna Base and Antenna Body .......................................................13
Typical Antenna Configuration (Gate Antenna with two Antennas)
14
5.1
Project Notes ...............................................................................................................14
5.2
Gate Configuration and Setup using Antennas Type –A and -B ............................16
5.2.1
Required Components ..............................................................................................16
5.2.2
Configuration of a Gate Antenna with Multiplexer ....................................................17
5.2.3
Setting the Multiplexer ..............................................................................................19
5.2.4
Setting the Antenna Tuner ........................................................................................20
5.2.5
Reader Configuration................................................................................................21
5.2.6
Tuning the Gate Antenna with Multiplexer ................................................................24
5.3
Testing the Gate Antenna ...........................................................................................25
5.3.1
Checking the Noise Level .........................................................................................25
5.3.2
Reading a Serial Number .........................................................................................27
5.3.3
Testing the performance ...........................................................................................27
5.4
Setting the Alarm Kit ...................................................................................................29
5.4.1
Reader Setting for Indicator ......................................................................................30
5.4.2
Programming a Transponder with the AFI Byte ........................................................31
FEIG ELECTRONIC GmbH
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Installation
ID ISC.ANT1690/600-A/-B
5.5
Activating the Automatic Mode ..................................................................................33
5.6
Configure the reader in accordance with national RF regulations .........................34
Technical Data
36
6.1
Antenna ID ISC.ANT1690/600 - Type A and Type B..................................................36
6.2
Approvals .....................................................................................................................39
6.2.1
Europe (CE) ..............................................................................................................39
6.2.2
USA (FCC) and Canada (IC) ....................................................................................40
6.2.3
USA and Canada (UL) ..............................................................................................41
FEIG ELECTRONIC GmbH
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OBID i-scan®
Installation
ID ISC.ANT1690/600-A/-B
Safety Instructions / Warning - Read before Start-Up !
•
The device may only be used for the intended purpose designed by for the manufacturer.
•
The operation manual should be conveniently kept available at all times for each user.
•
Unauthorized changes and the use of spare parts and additional devices which have not been
sold or recommended by the manufacturer may cause fire, electric shocks or injuries. Such
unauthorized measures shall exclude any liability by the manufacturer.
•
The liability-prescriptions of the manufacturer in the issue valid at the time of purchase are valid
for the device. The manufacturer shall not be held legally responsible for inaccuracies, errors,
or omissions in the manual or automatically set parameters for a device or for an incorrect
application of a device.
•
Repairs may only be executed by the manufacturer.
•
Installation, operation, and maintenance procedures should only be carried out by qualified
personnel.
•
Use of the device and its installation must be in accordance with national legal requirements
and local electrical codes .
•
When working on devices the valid safety regulations must be observed.
•
Please observe that some parts of the device may heat severely.
•
Before touching the device, the power supply must always be interrupted. Make sure that the
device is without voltage by measuring. The fading of an operation control (LED) is no indicator
for an interrupted power supply or the device being out of voltage!
•
For installation and dismantling you should wear suitable safety gloves, because parts of antenna housing could be sharp-edged.
CAUTION! The Antenna-Tuner and the Antenna conductor carry voltages up to
1000V.
Special advice for wearers of cardiac pacemakers:
•
Although this device doesn't exceed the valid limits for electromagnetic fields you should
keep a minimum distance of 25 cm between the device and your cardiac pacemaker and
not stay in an immediate proximity of the reader’s antennas for any length of time.
FEIG ELECTRONIC GmbH
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OBID i-scan®
Installation
ID ISC.ANT1690/600-A/-B
Maintenance
The antenna ID ISC.ANT1690/600 is a design product with high quality surfaces, and should always be handled with caution. The antenna was designed to work reliably and flawlessly for years
without special maintenance.
Attention! The surfaces should be cleaned with a clean, soft cloth dampened in a
dishwashing liquid – water solution. The use of alcohol, spirit, thinners, glass cleaners or other harsh cleaning liquids is prohibited and will damage the acrylic plate.
To improve the durability and the appearance, please follow the instructions below:
•
Keep the antenna clean and take caret the antenna is not scratched. Also regularly apply specific
antistatic products for Acrylic Surfaces.
•
Regularly remove dust and other impurities with a soft cloth and a solution of water with a little
dishwashing liquid.
•
Keep the antenna dry. All kinds of moisture should be avoided during operation and storage.
Precipitation, humidity and liquids contain minerals that will corrode electronic circuits and damaging transparent plastic parts.
•
Protect the antenna from high temperatures. Mount the antenna away from heaters and other
heat sources. Operation under direct sunlight can cause extreme high temperatures and a fading cause of the surface.
•
Avoid storing or operating the antenna at dirty or wet locations. The surfaces or electronic
components may be-damaging.
•
Handle the device with care. Shocks may break internal circuit boards.
•
Do not try to open the antenna during operation or outside maintenance periods. Nonprofessional management can result in damage to the device.
If any device not working properly, please contact the appropriate representative.
FEIG ELECTRONIC GmbH
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Installation
ID ISC.ANT1690/600-A/-B
Performance Features of the ID ISC.ANT1690/600 Antennas
The ID ISC.ANT1690/600-A antenna is a version with integrated Dynamic Antenna Tuning Board
ID ISC.DAT , Long Range Reader ID ISC.LRM2000-A, 4-times Multiplexer Module
ID ISC.ANT.MUX M4, additional signal light and buzzer.
The ID ISC.ANT1690/600 Type B antenna is a version with integrated Dynamic Antenna Tuning
Board ID ISC.DAT and signal light mounted, only.
Up to
two antennas with reader and multiplexer as a single gate,
three to four antennas with reader and multiplexer as a double gate or triple gate
up to 8 antennas as multiple gate with up to 7 aisle at the use of the 8-times Multiplexer
ID ISC.ANT-MUX M8.
can be operated.
Depending on the antenna configuration, one, two or all three read orientations of the Smart Tags
and various aisle widths (gate widths) are possible.
The ID ISC.ANT1690/600-A/B is a „figure-of-eight“ antenna with tuner and has been optimized as
transmitting and receiving antennas for the ID ISC.LR2000 Reader. It is however also possible to
operate them with other readers at a transmission frequency of 13.56 MHz and an output
impedance of 50 Ω. The read ranges indicated in this document and the tuning procedures may
vary.
The antennas comprise the electrical antenna conductor, the housing, the ID ISC.DAT Dynamic
Antenna Tuner and the connection cables. The antennas are tuned to the factory default to an
impedance of 50 Ω in a magnetically neutral environment at a distance of 95 cm. When installing in
different ambient conditions the antenna can be retuned using the “DATuningTool“ PC software.
After tuning, the antennas will retain their settings as long as the ambient conditions remain
unchanged.
The antennas can be used for detecting both product and persons. It is for indoors use, only.
3.1
Available Antenna Types
The following products are currently available:
Antenna Type
Description
ID ISC.ANT1690/600-A
Antenna with Reader, Multiplexer , dynamic tuning board, signal light
and buzzer
Crystal Gate
ID ISC.ANT1690/600-B
Antenna with dynamic tuning board ID ISC.DAT and signal light
Crystal Gate
Table 1: Available Antenna Types and Accessoires
FEIG ELECTRONIC GmbH
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Installation
ID ISC.ANT1690/600-A/-B
Installation and Wiring
Notes:
Before installing the antennas please read 5.1 Project Notes . The spacing of the antennas
in a gate depends on the antenna configuration.
If multiple antennas or gates are connected to different readers, a minimum clearance of
8 m must be kept between the antennas or gates. For shorter distances (1 m – 8 m) the
readers must be synchronized. Below a distance of 1.5 m the antennas must also be
shielded from each other. Otherwise the read range will be significantly reduced. The
antennas must have a minimum distance of 20 cm to all larger metal parts! At a distance of
less than 50 cm between the antenna and metal parts the read range will be significantly
reduced.
FEIG ELECTRONIC GmbH
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OBID i-scan®
4.1
Installation
ID ISC.ANT1690/600-A/-B
Mounting Preparation
For the assembly of the antenna it must be unpacked, carefully. This is done as described in the
following steps:
1. Place the packed antenna on the floor with the top side facing up. Carefully open the box and
then remove the antenna.
Fig. 1: Packed Antenna
2. Afterwards, the antenna has to be placed carefully on the floor again. Now, the two fastening
screws (hexagon socket width AF 2,5) have to remove of the antenna base cover. By moving
the cover upwards, carefully, remove the cover from the antenna base. Fig. 2
Step 1
Step 2
Fig. 2: Opening the antenna base
FEIG ELECTRONIC GmbH
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4.2
Installation
ID ISC.ANT1690/600-A/-B
Installing the antenna
4.2.1 Dimensions of antenna
The overall dimensions of the antenna are shown in Fig. 3
Fig. 3: Antenna outside dimensions
All dimensions are in mm with general tolerance according to ISO 2768 m (mean).
FEIG ELECTRONIC GmbH
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Installation
ID ISC.ANT1690/600-A/-B
4.2.2 Drilling the Mounting Holes
If the position of the antennas has been marked or determined, the mounting holes and the holes
for the cable entry, can be marked and drilled. The dimensions are shown in Fig. 4:
Fig. 4: Floor plate dimensions
All dimensions are in mm with general tolerance to ISO 2768 m (middle).
The size and type of the anchors depends considerably on the strength of the base or floor. The
anchors should be capable of withstanding a permissible load of at least 5 kN per anchor for all
load directions (e.g. for concrete floor Hilti HVA anchors with HAS-(E) M8 threaded rod or Hilti HISN M8 (5/16”) threaded inserts). The size of the mounting holes in the antenna is 10 mm (.39”). The
length of the anchors or bolts should be selected such so they jut out at least 40 mm (1.6”) and
maximum of 55 mm (2.2”) of the floor.
Please follow the mounting instructions of the anchor manufacturer!
A cable opening is provided for the necessary connection cable (see Fig. 4). The cable opening is
dimensioned such as up to 10 cables having a diameter of 6 mm can be passed through the
opening.
FEIG ELECTRONIC GmbH
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ID ISC.ANT1690/600-A/-B
Alternatively the cables can be routed at the sides of the antenna bas like shown in Fig. 5
Fig. 5 Cable routing at the antenna sides
FEIG ELECTRONIC GmbH
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Installation
ID ISC.ANT1690/600-A/-B
4.2.3 Installing the Antenna Base and Antenna Body
The antenna will be mounted on the floor. The antenna conductors in the middle of the antenna
body have to have the same direction (Fig. 6). Afterwards, the antenna has to be aligned the
antenna vertically, by using the adjusting screws (Fig. 7).
Fig. 6 Conductors shape have to have same direction
Adjusting screws (hexagon socket width AF 4)
Fig. 7: Attaching and aligning the antenna
FEIG ELECTRONIC GmbH
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Installation
ID ISC.ANT1690/600-A/-B
Typical Antenna Configuration (Gate Antenna with two Antennas)
The standard configuration of a gate with three-dimensional tag orientation consists of one
ID ISC.ANT1690/600-A with reader and multiplexer and one ID ISC.ANT1690/600-B. If a tag
moves, at horizontal line, through the gate, it can be read at least once. This ensures high reliability
of the antenna system.
5.1
Project Notes
The antenna configuration as described allows detection of a tag moving at a horizontal line,
through the reading area of the gate. The tag orientation is non-critical. The tags are detected
along a horizontal axis of motion in certain regions within the antennas. The area of detection
depends on the tag orientation.
The size of the three-dimensional reading area of the antennas is shown in the sketch below.
GD
20 cm
Fig. 8: Capture area and tag orientation
Notes:
Note that the entire reading area of the antenna gate is larger than the three-dimensional
area shown in the drawing. This means there are tag orientations in which the tag can be
detected outside the reading area.
If multiple gates are arranged with short distances between each other, these will mutually
interfere with each other. In this case, the readers for the individual gates have to be
synchronized.
FEIG ELECTRONIC GmbH
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Installation
ID ISC.ANT1690/600-A/-B
To achieve three-dimensional reading of the tag in the reading area drawn above, the following
conditions must be fulfilled:
The gate distance (GD) depends on the antenna configuration (see Table 2: Design notes).
The tags should be at least ISO card size (46 mm x 75 mm).
The activation field strength of the tags should be less than or equal to 75 mA/m.
The distance from tag to tag should be greater than 10 cm. If the tag to tag distance is reduced,
the gate distance GD must be reduced correspondingly. This applies in particular to distances
under 5 cm.
The maximum number of tags (serial number or data) depends on the traverse speed with
which the tags are brought through the capture area of the gate (see Table 2: Design notes).
The number of tags may be increased in the gate distance GD is correspondingly reduced and
the maximum speed adjusted accordingly.
The antenna should be at least 50 cm away from metal parts.
There should be no interference of the Reader from other electrical devices in the environment.
The Noise Level difference should be less than 30 mV.
The ID ISC.LR2000 reader should be set to an RF power of 8 watts.
When using ISO 15693 transponders, the Readers should be set as described in 5.2.5 Reader
Configuration with Multiplexer.
If multiple gates are operated at the same time at a distance of less than 8 m, the Readers
must by synchronized. See Application Note Synchronizing RFID Long Range Readers using
the digital in-/outputs (N11200-1e-ID-B.pdf).
Gate with antenna
Type A and Type B
≤ 100 cm
Gate distance GD
Number of tags at a speed of
1 m/s
Read serial number
16
Read data
Table 2: Design notes
A minimum distance of 65cm between the two gate antennas is required.
FEIG ELECTRONIC GmbH
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5.2
Installation
ID ISC.ANT1690/600-A/-B
Gate Configuration and Setup using Antennas Type –A and -B
5.2.1 Required Components
To set up the gate you need the following components:
Qty. 1 ID ISC.ANT1690/600-A Crystal Gate
Qty. 1 ID ISC. ANT1690/600-B Crystal Gate
Qty. 1 ID ISC.NET24V-B Power Supply Unit
Power cable, interface cable and connection cable for the DC power supplies (2-wire,
twisted)
Mounting materials (screws, anchors)
To calibrate the Reader you will need the software
ISOStart Version 8.02 or higher
and for tuning the antennas the service software
DATuningTool Version 1.00 or higher
on a personal computer running under Microsoft® Windows®. The service can be downloaded at
the Download Area of the Homepage www.feig.de.
FEIG ELECTRONIC GmbH
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Installation
ID ISC.ANT1690/600-A/-B
5.2.2 Configuration of a Gate Antenna with Multiplexer
Connect the components as shown in Fig. 9. Almost, all cable should be mounted already.
Normally, the antenna cable from antenna Type B has to be connected to OUT2 at the multiplexer
and the cable of the signal light of antenna Type B has to be connected to GND and terminal 5 of
the terminal block at antenna Type A, only.
Alarm Light
Buzzer
2 Tuning boards of the
antenna ID ISC.ANT1690/600
Long Range Reader
ID ISC.LRM2000-A
X9, Pin1+3
0,85m+7,20m
Torrid core
0,50m
X3
0,85m
X1
X1
GND
+24VDC
IN1
Multiplexer OUT
OUT
ID ISC.ANT.MUX.M4
X2
DC Power
Supply 24V
Fig. 9: Connecting the components for a gate consisting of two antennas, reader and multiplexer
FEIG ELECTRONIC GmbH
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Installation
ID ISC.ANT1690/600-A/-B
The coax cables have fixed lengths and may not be shortened and therefore need to be tied into
small loops (see Fig. 10 Tying the cables). Tie all cables as far away from the antenna conductor
as possible. The cables must never be allowed to contact the antenna conductor.
Fig. 10:Tying the cables
FEIG ELECTRONIC GmbH
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ID ISC.ANT1690/600-A/-B
5.2.3 Setting the Multiplexer
The jumpers JP11-JP14 should be set (factory setting) as shown. More on setting the ID
ISC.ANT.MUX.M4 Multiplexer can be found in the corresponding installation manual (M90700-xdeID-B).
Fig. 11: Jumper positions
FEIG ELECTRONIC GmbH
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ID ISC.ANT1690/600-A/-B
5.2.4 Setting the Antenna Tuner
The jumpers JP1-JP26 of the Dynamic Antenna Tuning board should be set (factory setting) as
follows:
Table 3: Jumper settings for Antenna Tuner
Function
Jumper
Position
1Ω Q resistor
JP1
open
2Ω Q resistor
JP2
closed
Antenna switch
JP3
closed
Capacitor C1
JP 11,12,13,14
open
Capacitor C2
JP 21,22,23,24
JP 25,26
Open
closed
Verify these settings. More on setting the ID ISC.DAT antenna tuner can be found in the
corresponding installation manual (M40401-xde-ID-B).
FEIG ELECTRONIC GmbH
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Installation
ID ISC.ANT1690/600-A/-B
5.2.5 Reader Configuration
To tune the antennas, open the ISOStart software and read out the current configuration of the
Reader:
Step
Action
Note
Start ISOStart Software
Select „Detect“
Select „Keep Configuration
unchanged and exit Wizard“
and click on „Exit“
Note:
This has to be done at each
start of ISO-Start program
otherwise the configuration
of the reader will be changed
by the wizard.
Select „Options => Program“
FEIG ELECTRONIC GmbH
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OBID i-scan®
Step
Installation
Action
ID ISC.ANT1690/600-A/-B
Note
Select „Expert Mode“ and
confirm with OK.
Afterwards set the operating power, Transponder Parameters and ISO Host Mode:
Step
Action
Note
Select “Configuration”
Air Interface:
“RF-POWER” (here 8W)
„Mulitplexer Enable“
„1 Input (Single Mode)“
„No of Output Channels „
(e.g. 2)
„Antenna Active Time“
100 x 5ms
Set by clicking on „Apply“.
FEIG ELECTRONIC GmbH
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OBID i-scan®
Step
Installation
Action
ID ISC.ANT1690/600-A/-B
Note
Transponder:
Configure the parameters as
following:
•
•
•
•
•
„Driver“ – here ISO 15693
„Anticollision“ – enable
„No of Timeslots“ –
1 timeslot
„Data Coding“ – 1 of 4
„AFI“ – Disabled
Note: National RF regulations may require different
settings. 5.6 Configure the reader in accordance with
national RF regulations
Set by clicking on „Apply“.
Operating Mode:
For antenna tuning the reader
has to be set to „Host Mode“.
Set by clicking on „Apply“.
FEIG ELECTRONIC GmbH
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ID ISC.ANT1690/600-A/-B
5.2.6 Tuning the Gate Antenna with Multiplexer
Before tuning the gate antenna, you must quit the ISOStart software. Then the gate can be tuned
as follows:
Step
Action
Note
Start “DATuningTool” software
Select “Detect Reader...”.
In the „Detect Reader“ window
select the interface (COM-Port
1, BusAdr. 0) and then click
on “Detect”.
Use „Settings“ to enter the
configuration:
Single Mode,
Number of Antennas 2
Click on “with Multiplexer“
Number of Tuning Iterations 3
Activate „Start Tuning“ and
wait until the tuning process is
finished.
The tuning status is displayed
after each tuning pass.
After successful tuning both
antennas are shown in green.
If this does not succeed on
the first try, start the process
again by clicking on „Start
Tuning“
After successful tuning, close the DATuningTool.
FEIG ELECTRONIC GmbH
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5.3
Installation
ID ISC.ANT1690/600-A/-B
Testing the Gate Antenna
After tuning the gate antenna, you can check for proper function using a reader, the ISOStart
service software and a Transponder. Here the Noise Level and performance of the gate are tested.
5.3.1 Checking the Noise Level
Step
Action
Note
Activate antenna 1 with
command: „Function Unit
Commands - Multiplexer“
Parameter:
„Channel Select“
„Cascade Level = 1“
„Output Channel of Input 1
= 1“
Confirm with “Send”
Activate “Test and
Measurement”
Select „Noise Level“ and
start by clicking on „Start“
Normal Noise Level values:
Average:
< 30mV
Difference (Max-Min):
< 20mV
Repeat Step 1 to 5 for
every further antenna
If the values are not proper, check the following:
•
Are all cables pulled tight and will contact well?
•
Are the ring cores installed in the antenna cable?
FEIG ELECTRONIC GmbH
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ID ISC.ANT1690/600-A/-B
•
Are the cables routed as specified?
•
Are other RFID systems installed closed by?
•
Are there large metal parts close to the antenna (distance < 1.0 m)?
•
Are there devices nearby which may emit noise interferences (larger machines or wireless
devices)?
•
Are there interferences from the mains?
To determine which devices may be disturbing the gate, briefly disconnect them from the mains.
FEIG ELECTRONIC GmbH
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ID ISC.ANT1690/600-A/-B
5.3.2 Reading a Serial Number
Step
Action
Note
Attach a tag to an antenna
Use adhesive tape, for example
Select „Test and
Measurement“
Select „ISO Inventory“
function and activate by
clicking on „Start“.
The serial number and tag
type will be shown in the
display.
5.3.3 Testing the performance
In this test the capture area of the gate antenna described in 5.1 Project Notes is checked. For
other tags or other configurations the indicated ranges and read areas may differ accordingly.
Fig. 12: Performance Test of the gate antenna
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ID ISC.ANT1690/600-A/-B
The test begins by checking the read range outside the gate (see Fig. points c and d), assuming
the configuration and locality permit it. Start the ISO Inventory command in the ISOStart program
as described in 5.3.2 Reading a Serial Number. If the tag is oriented parallel to the antenna at the
outside, a read range of 65 to 70 cm should be achieved.
The three tag orientations are checked inside the gate. This corresponds to the lines and
orientations efg. Now slowly move the tag in the vertical and parallel direction with respect to
the antenna along the line e from one side to the other. The tag should always be read.
Then repeat this along the line f in the vertical tag direction transverse to the antenna and on the
line g in the horizontal tag orientation. Here again the tag should always be read.
The tag should be read within the gate by moving in a horizontal line through the gate in all
three read orientations.
If one or more „holes“ are detected, check the noise values on the Reader (see 5.3.1 Checking the
Noise Level).
The following may result in faulty readings:
•
Antenna improperly installed (orientation, antenna distance, check cabling)
•
Metal near the antennas is detuning or interfering with them.
•
The antennas are not properly tuned.
•
Noise level too high (Vmax – Vmin ≥ 30 mV)
•
Transponder too insensitive, detuned or defective
•
Reader improperly configured (transmitting power, transponder type, modulation, transponder
parameters, etc.).
•
A cable is defect or has a weak contact.
•
Reader, multiplexer or antenna defect.
FEIG ELECTRONIC GmbH
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5.4
Installation
ID ISC.ANT1690/600-A/-B
Setting the Alarm Kit
The solution provided here presumes that all alarm indicator (buzzer) are wired in parallel and
switched through the relay X11 on the ID ISC.LRM2000-A reader. The pulse duration can be set
(CFG2 / REL1) between 100 ms and 6553.5 s by adjusting the Reader configuration. Relay X11
provides a changeover contact for low voltages.
The volume of the buzzer could be adjusted mechanically approx. 10-15 dB. (see Fig. 13)
Fig. 13 Volume adjusting
Notes:
The relay outputs are dimensioned for max. 24 V DC / 2 A.
The relay outputs are intended only for switching resistive loads. If an inductive load is used,
the relay contacts must be protected by an external protection circuit.
Reversing the polarity or overloading the outputs will destroy them.
See also Installation Manual M51001-2de-ID-B.pdf ID ISC.LRM2000-A/B
FEIG ELECTRONIC GmbH
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ID ISC.ANT1690/600-A/-B
5.4.1 Reader Setting for Indicator
The ISOStart software can be used to set the Reader configuration so that relay X11 opens or
closes when a Transponder is read.
Step
Action
Start ISOStart Software
Select “Configuration” and
click on “Read” to read the
complete configuration.
Note
Operating Mode
Select Buffered Read Mode.
Digital IO:
Output Idle Mode: OFF
Idle Flash Mode: 1Hz
Setting Time:
with „Setting Time“ set
time of relay for alarm duration.
(10 means 1 second)
(e.g. 10 x 100ms)
Assign Relay 1 to antenna
1+2. „True“ means that
Relay 1 will be active at a
read transponder.
Set by clicking on „Apply“.
Transponder
ISO 15693 –Selection Mask
„Enable AFI“-Enabled
Enter desired value in
“AFI 1” field.
(e.g. 01)
Set by clicking on „Apply“
FEIG ELECTRONIC GmbH
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ID ISC.ANT1690/600-A/-B
5.4.2 Programming a Transponder with the AFI Byte
If the Transponders will remain on the object when leaving the storage location, they must first be
cancelled. This is generally done by writing to a particular area of the Transponder.
The AFI byte (Application Family Identifier) is useful for this purpose, since it is contained in nearly
all Transponder models in the ISO15693 family. To cancel, simply write a different code to the
Transponder than for valid Transponders which trigger an alarm.
Step
Action:
Note:
Select „Commands“
Place the Transponder in the
antenna field (Antenna 1)
Select [0x01] Inventory
Mode: New Inventory
Requested
Read UID by clicking on
„Send“
The serial number, DSFID
and Transponder type are
displayed in a window.
Write down the serial number
of the Transponder
Select „[0x27] Write AFI“
ADR:
1: addressed
Serial Number:
Select TransponderUID
AFI:
Desired AFI Number (not
equal to 00)
Write AFI byte on to the
transponder by click on
„Send“
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ID ISC.ANT1690/600-A/-B
To verify, read AFI byte by
using the command
[0x2B] Get System
Information
FEIG ELECTRONIC GmbH
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5.5
Installation
ID ISC.ANT1690/600-A/-B
Activating the Automatic Mode
The gate must be used in one of the Automatic Modes (Buffered Read, Notification
or Scan Mode) to get a maximum performance. Otherwise the reading performance
will be significantly reduced.
For more information, see System Manual H60700-2e-ID-B.pdf ID ISC.LRM2000-A/B
In the automatic modes, the tags are read at maximum speed and the information is stored in the
ring buffer of the reader. Data set can be read by the host.
Due to the automatic alarm features at the automatic mode, the reader/gate can run without any
interface connection (Serial, Ethernet).
To activate „Buffered Read Mode“ proceed as follows:
Step
Action
Note
Select „Configuration“
Operation Mode:
„Mode“ - Buffered Read
Mode
„Data Selector“
-UID
-Antenna No
-Time
-Date
„Filter“
Set Transponder Valid
Time.
(e.g. 55 x 100ms)
Set clicking on „Apply“
Note:
The configuration of the Notification or Scan Mode are similar
To test the function of the Gate in the Buffered Read Mode, the BRM Window of ISOStart or the
BRMDemo program can be used.
FEIG ELECTRONIC GmbH
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5.6
Installation
ID ISC.ANT1690/600-A/-B
Configure the reader in accordance with national RF regulations
Configuration of the RFID readers and the maximum transmitting power of the antennas are
affected mainly by the country-specific RF regulations. For the entire EU the limits are set forth in
the R&TTE Directive and EN 300 330. In North America this is regulated by FCC Part 15 (USA)
and by the RSS-210 (Canada).
The ID ISC.ANT1690/600 antenna with the ID ISC.LRM2000 Reader, when used as intended,
complies with the basic requirements of Article 3 and the other relevant clauses of the R&TTE
Directive 1999/5/EG of March 1999. This means that operation in the 27 EU countries and the
EFTA countries (EU countries plus Switzerland, Norway and Iceland) is possible with a maximum
field strength of 42 dBµA/m at 10 m distance.
RF approval (at a maximum field strength of 42 dBµA/m at 10 m) for the ID ISC.ANT1690/600
antenna with ID ISC.LRM2000 Reader has been granted in accordance with FCC Part 15 for the
USA and the RSS-210 for Canada
RF approval in accordance with EN 300 330 is still possible in all 46 CEPT countries.
The CEPT countries are:
Albania (ALB), Andorra (AND), Austria (AUT), Azerbaijan (AZE), Belarus (BLR), Belgium (BEL),
Bulgaria (BUL), Bosnia and Herzegovina (BIH), Croatia (HRV), Cyprus (CYP), Czech Republic
(CZE), Denmark (DNK), Estonia (EST), Finland (FIN), France (F), Germany (D), Greece (GRC),
Hungary (HNG), Iceland (ISL), Ireland (IRL), Italy (I), Latvia (LVA), Liechtenstein (LIE), Lithuania
(LTU), Luxembourg (LUX), Malta (MLT), Former Yugoslav Republic of Macedonia (MKD), Moldova
(MDA), Monaco (MCO), Netherlands (HOL), Norway (NOR), Poland (POL), Portugal (POR),
Romania (ROU), Russian Federation (RUS), San Marino (SMR), Slovak Republic (SVK), Slovenia
(SVN), Spain (E), Sweden (S), Switzerland (SUI), Turkey (TUR), Ukraine (UKR), United Kingdom
(G), Vatican City (CVA) and Yugoslavia.
The following restrictions are in effect (as of: October 2009):
1. Outside the EFTA countries RF approval must in all cases be applied for. The existing
measuring protocols in accordance with EN 300 330 are generally sufficient.
When placing the antennas in service, the systems integrator must ensure that the prescribed
mounting instructions are followed, the necessary Reader settings are made and permissible limits
according to the national regulations are not exceeded.
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ID ISC.ANT1690/600-A/-B
The reader needs to be configured as follows depending on the installation location:
Parameter
USA / Canada / Europe
(42dBuA/m)
Air Interface
RF-Power:
maximum 8 W
RF Modulation:
15%
Transponder
RF Modulation / ISO-MODE /
MOD
RF Data coding ISO-MODE:
Timeslots ISO-MODE / NO-TS
ISO Option – BREAK:
FEIG ELECTRONIC GmbH
10%
Fast (1/4) or Normal (1/256)
1 or 16 Timeslots
Complete Timeslot length at
„NO TAG“
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Installation
ID ISC.ANT1690/600-A/-B
Technical Data
6.1
Antenna ID ISC.ANT1690/600 - Type A and Type B
Mechanical Data
• Housing
UV stabilized ABS and Acrylic
• Dimensions ( W x H x D )
600 x 1690 x 75 mm ± 3 mm
800 x 1800 x 150 mm ± 10 mm
– Antenna
– Packing
• Weight
– ID ISC.ANT1690/600-A
– ID ISC.ANT1690/600-B
Approx. 23 kg without / 28 kg with packing
Approx. 21 kg without / 26 kg with packing
• Enclosure rating
IP 43
• Color
Antenna frame: clear transparent
Antenna base: signal white RAL 9003
• Mounting
– No. of attaching points
– Recommended anchors
– Recommended minimum load
capacity of the floor fastener
∅ 10 mm
5000 N / anchor
• Maximum horizontal load on the top
250 N*
edge of the antenna
Electrical Data****
• Supply Voltage
24 V
± 15 %
Noise Ripple : max. 150 mV
• Power Consumption
max. 32 VA
• Operating Frequency
13,56 MHz
• Transmit Power
2W – 12 W
(250 mW Step - Software)
• Modulation
10% - 30% and 100%
(Software configurable)
• Maximum transmitting power per
8W
antenna
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• Permissible overall transmitting
power per antenna gate
– EU-territory (per EN 300 330) and
other CEPT nations
– USA (per. FCC Part 15)
ID ISC.ANT1690/600-A/-B
8.0 W
8.0 W
• Outputs
– 1 Optocoupler
– 1 Differential Output
– 1 Relay ( 1 x Changeover)
24 V
/ 30 mA
Reader Synchronisation
24 V
/ 2 A for Alarm Kit
• Inputs
– 1 Optocoupler
– 1 Differential Input
Max. 24 V
/ 20 mA
Reader Synchronisation
• Interfaces
RS232
RS484 / RS422
Ethernet (TCP/IP)
Compact Flash II
(WLAN)
• Protocol Modes
FEIG ISO HOST
BRM (Data Filtering and Data Buffering)
Scan Mode (RS 232/485/422)
Notification Mode (TCP/IP)
• Supported Transponders
ISO 15693, ISO 18000-3-A, (EM HF ISO
Chips, Fujitsu HF ISO Chips, KSW Sensor
Chips, Infineon my-d, NXP I-Code , STM ISO
Chips, TI Tag-it)
NXP I-Code 1, I-Code UID, I-Code EPC
• Ranges / pass-through width in gate
with multiplexer
– One tag orientation
– All tag orientations
approx. 115 cm**
approx. 100 cm***
• Antenna connection
1 x SMA plug (50 Ω)
• Antenna connector cable
- Type A
- Type B
RG58, 50 Ω, approx. 0,85 m long
RG58, 50 Ω, approx. 8,05 m long
FEIG ELECTRONIC GmbH
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ID ISC.ANT1690/600-A/-B
Ambient Conditions
• Temperature range
– Operating
– Storage
–25°C to +50°C
–25°C to +70°C
Applicable Standards
•
RF approval
– Europe
– USA
• EMC
EN 300 330
FCC Part 15
EN 301 489
• Safety
– Low Voltage Directive
– Human Exposure
UL 60950-1
EN 50364
* Persistent deformation after load release approx. 1 cm.
** Qty. 2 ID ISC.ANT1690/600-A/-B antennas, antenna spacing (antenna center), same flow
direction, Tag 46 mm x 75 mm ISO15693, sensitivity / minimum field strength Hmin=60 mA/m rms,
transmitting power 8 W, tag orientation parallel to antenna for horizontal movement through the
antenna. The detection performance also depending of the strength of the Transponder answer
signal!
*** Tag 46 mm x 75 mm ISO 15693, sensitivity / minimum field strength Hmin=60 mA/m rms,
transmitting power 8 W, aligned in all 3 dimensions for horizontal movement through the antenna.
The detection performance also depending of the strength of the Transponder answer signal!
FEIG ELECTRONIC GmbH
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6.2
Installation
ID ISC.ANT1690/600-A/-B
Approvals
As per Section 5.6
6.2.1
Europe (CE)
This RF equipment is in compliance with the essential requirements and other relevant provisions
of Directive 1999/5/EC dated March 99.
Equipment Classification according to ETSI EN 300 330 and ETSI EN 301 489: Class 2
The technical data of the ID ISC.LRM2000 Reader built into the ID ISC.ANT1690/600-A antenna can be found in the Installation Manual which is included with the device.
FEIG ELECTRONIC GmbH
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6.2.2
Installation
ID ISC.ANT1690/600-A/-B
USA (FCC) and Canada (IC)
Product name:
ID ISC.ANT1690/600
Antenna name:
ID ISC.ANT1690/600 Type A
Reader name:
ID ISC.LRM2000-A
FCC ID:
IC:
PJMLRM2000-2
6633A-LRM20002
Notice for USA and
Canada
This device complies with Part 15 of the FCC Rules and with
RSS-210 of Industry Canada.
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.
Unauthorized modifications may void the authority granted under
Federal communications Commission Rules permitting the operation
of this device.
This equipment has been tested and found to comply 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.
Cet appareil numérique de la classe A est conforme à la norme NMB003 du Canada.
Further information and technical data of the ID ISC.LRM2000 Reader built into the
ID ISC.ANT1690/600 antenna can be found in the Installation Manual which is included with
the device.
FEIG ELECTRONIC GmbH
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ID ISC.ANT1690/600-A/-B
6.2.3 USA and Canada (UL)
In preparation !
The following picture indicates the label position:
FEIG ELECTRONIC GmbH
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®
INSTALLATION
ID ISC.ANT1700/740-A /-B
Clear Gate and Solid Gate
English
draft
public (B)
2010-05-26
M91201-0e-ID-B.doc
OBID i-scan®
Installation
ID ISC.ANT1700/740-A /-B
Note
© Copyright 2010 by
FEIG ELECTRONIC GmbH
Lange Strasse 4
D-35781 Weilburg
Tel.: +49 6471 3109-0
http://www.feig.de
With the edition of this document, all previous editions become void. Indications made in this manual may be
changed without previous notice.
Copying of this document, and giving it to others and the use or communication of the contents thereof are
forbidden without express authority. Offenders are liable to the payment of damages. All rights are reserved
in the event of the grant of a patent or the registration of a utility model or design.
Composition of the information in this document has been done to the best of our knowledge. FEIG
ELECTRONIC GmbH does not guarantee the correctness and completeness of the details given in this
manual and may not be held liable for damages ensuing from incorrect or incomplete information. Since,
despite all our efforts, errors may not be completely avoided, we are always grateful for your useful tips.
The instructions given in this manual are based on advantageous boundary conditions. FEIG ELECTRONIC
GmbH does not give any guarantee promise for perfect function in cross environments and does not give
any guaranty for the functionality of the complete system which incorporates the subject of this document.
FEIG ELECTRONIC call explicit attention that devices which are subject of this document are not designed
with components and testing methods for a level of reliability suitable for use in or in connection with surgical
implants or as critical components in any life support systems whose failure to perform can reasonably be
expected to cause significant injury to a human. To avoid damage, injury, or death, the user or application
designer must take reasonably prudent steps to protect against system failures.
FEIG ELECTRONIC GmbH assumes no responsibility for the use of any information contained in this document and makes no representation that they free of patent infringement. FEIG ELECTRONIC GmbH does
not convey any license under its patent rights nor the rights of others.
OBID® and OBID i-scan® are registered trademarks of FEIG ELECTRONIC GmbH.
I-CODE® is a registered trademark of Philips Electronics N.V.
Tag-itTM is a registered trademark of Texas Instruments Incorporated.
FEIG ELECTRONIC GmbH
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Installation
ID ISC.ANT1700/740-A /-B
Contents
Safety Instructions / Warning - Read before Start-Up !
Maintenance
Performance Features of the ID ISC.ANT1700/740 Antennas
3.1
Fehler! Textmarke nicht definiert.
Available Antenna Types ..............................................................................................7
Installation and Wiring
4.1
Dimensions of antenna .................................................................................................8
4.2
Mounting preparation...................................................................................................9
4.3
Installing the antenna .................................................................................................10
4.3.1
Drilling the Mounting Holes .......................................................................................10
4.3.2
Installing the Antenna Base and Antenna Body .......................................................12
Typical Antenna Configuration (Gate Antenna with two Antennas)
13
5.1
Project Notes ...............................................................................................................13
5.2
Gate Configuration and Setup using Antennas Type -A and -B .............................15
5.2.1
Required Components ..............................................................................................15
5.2.2
Configuration of a Gate antenna with Multiplexer .....................................................16
5.2.3
Setting the Multiplexer ..............................................................................................18
5.2.4
Setting the Antenna Tuner ........................................................................................19
5.2.5
Reader Configuration with Multiplexer ......................................................................21
5.2.6
Tuning the Gate Antenna with Multiplexer ................................................................24
5.3
Testing the Gate Antenna ...........................................................................................25
5.3.1
Checking the Noise Level .........................................................................................25
5.3.2
Reading a Serial Number .........................................................................................27
5.3.3
Testing the performance ...........................................................................................27
5.4
Connecting and Setting the Alarm Kit (optional) .....................................................29
5.4.1
Reader Setting for Indicator ......................................................................................30
5.4.2
Programming a Transponder with the AFI Byte ........................................................31
FEIG ELECTRONIC GmbH
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ID ISC.ANT1700/740-A /-B
5.5
Activating the Automatic Mode ..................................................................................33
5.6
Configuring the Reader in accordance with national RF regulations ....................34
Technical Data
36
6.1
Antenna ID ISC.ANT1700/740 - Type A and Type B..................................................36
6.2
Approval .......................................................................................................................39
6.2.1
Europe (CE) ..............................................................................................................39
6.2.2
USA (FCC) and Canada (IC) ....................................................................................40
6.2.3
USA and Canada (UL) ......................................... Fehler! Textmarke nicht definiert.
FEIG ELECTRONIC GmbH
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OBID i-scan®
Installation
ID ISC.ANT1700/740-A /-B
Safety Instructions / Warning - Read before Start-Up !
•
The device may only be used for the intended purpose designed by for the manufacturer.
•
The operation manual should be conveniently kept available at all times for each user.
•
Unauthorized changes and the use of spare parts and additional devices which have not been
sold or recommended by the manufacturer may cause fire, electric shocks or injuries. Such
unauthorized measures shall exclude any liability by the manufacturer.
•
The liability-prescriptions of the manufacturer in the issue valid at the time of purchase are valid
for the device. The manufacturer shall not be held legally responsible for inaccuracies, errors,
or omissions in the manual or automatically set parameters for a device or for an incorrect
application of a device.
•
Repairs may only be executed by the manufacturer.
•
Installation, operation, and maintenance procedures should only be carried out by qualified
personnel.
•
Use of the device and its installation must be in accordance with national legal requirements
and local electrical codes .
•
When working on devices the valid safety regulations must be observed.
•
Please observe that some parts of the device may heat severely.
•
Before touching the device, the power supply must always be interrupted. Make sure that the
device is without voltage by measuring. The fading of an operation control (LED) is no indicator
for an interrupted power supply or the device being out of voltage!
•
For installation and dismantling you should wear suitable safety gloves, because parts of antenna housing could be sharp-edged.
CAUTION! The Antenna-Tuner and the Antenna conductor carry voltages up to
1000V.
Special advice for wearers of cardiac pacemakers:
•
Although this device doesn't exceed the valid limits for electromagnetic fields you should keep
a minimum distance of 25 cm between the device and your cardiac pacemaker and not stay in
an immediate proximity of the reader’s antennas for any length of time.
FEIG ELECTRONIC GmbH
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Installation
ID ISC.ANT1700/740-A /-B
Performance Features of the ID ISC.ANT1700/740 Antennas
The ID ISC.ANT1700/740-A antenna is a version with DynamicTuning Board ID ISC.DAT , Long
Range Reader ID ISC.LRM2000-A, 4- times Multiplexer Module ID ISC.ANT.MUX M4 and
additional signal light and buzzer already mounted.
The ID ISC.ANT1700/740-B antenna is a version with DynamicTuning Board ID ISC.DAT and
signal light mounted.
Up to
two antennas with reader and multiplexer as a single gate,
three to four antennas with reader and multiplexer as a double gate or triple gate
up to 8 antennas as multiple gate with up to 7 aisle at the use of the 8-times Multiplexer
ID ISC.ANT-MUX M8.
can be operated.
Depending on the antenna configuration, one, two or all three read orientations of the Smart Tags
and various antenna spacing (gate widths) are possible.
The ID ISC.ANT1700/740-A/B is a „figure-of-eight“ antenna with tuner and have been optimized as
transmitting and receiving antennas for the ID ISC.LRM2000 Reader. It is however also possible to
operate them with other Readers at a transmission frequency of 13.56 MHz and an output
impedance of 50 Ω. The read ranges indicated in this document and the tuning procedures may
however then vary.
The antennas comprise the electrical antenna conductor, the housing, the ID ISC.DAT Dynamic
Antenna Tuner and the connection cable. The antennas are factory tuned to an impedance of 50 Ω
in a magnetically neutral environment at a distance of 95 cm. When installing in different ambient
conditions the antenna can be retuned using the “DATuningTool“ PC software. After tuning the
antennas will retain their settings as long as the ambient conditions remain unchanged.
The antennas can be used for detecting both product and persons. It is suitable for installation
indoors or outdoors if weather-protected.
FEIG ELECTRONIC GmbH
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2.1
Installation
ID ISC.ANT1700/740-A /-B
Available Antenna Types
The following products are currently available:
Antenna Type
Description
Picture
ID ISC.
ANT1700/740-A
Clear Gate
Antenna with Reader, Multiplexer , dynamic tuning
board, signal light and buzzer
ID ISC.
ANT1700/740-B
Clear Gate
Antenna with dynamic tuning board ID ISC.DAT
and signal light
ID ISC.
Acrylic glass plate window for Clear antennas
ANT1700/740-AGP
ID ISC.
ANT1700/740-A
Solid Gate
Antenna with reader, multiplexer, dynamic tuning
board, signal light and buzzer
ID ISC.
ANT1700/740-B
Solid Gate
Antenna with dynamic tuning board ID ISC.DAT
and signal light
Table 1: Available Antenna Types and Accessoires
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3.1
Installation
ID ISC.ANT1700/740-A /-B
Installation and Wiring
Dimensions of antenna
The outside dimensions of the antenna are shown in Fig. 1
Fig. 1: Antenna outside dimensions
All dimensions are in mm with general tolerance to ISO 2768 m (mean).
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3.2
Installation
ID ISC.ANT1700/740-A /-B
Mounting preparation
For assembly the antenna must be carefully unpacked. This is done as described in the following
steps:
1. Place the packed antenna on the floor with the top side facing up. Carefully open the box and
then remove the antenna.
Fig. 2: Antenna in its packaging
2. After that the antenna has to be placed carefully again on the floor. Now you must remove the
two fastening screws (hexagon socket width A/F2,5) of the antenna cover at the antenna foot
and remove it upwards. Fig. 3
Step 1
Step 2
Fig. 3: Opening the antenna base
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3.3
Installation
ID ISC.ANT1700/740-A /-B
Installing the antenna
Notes:
Before installing the antennas please read 4.1 Project Notes . The spacing of the antennas
in a gate depends on the antenna configuration.
If multiple antennas or gates are connected to different Readers, a minimum separation of
8 m must be kept between the antennas or gates. For shorter distances (1 m – 8 m) the
Readers must be synchronized. Below a distance of 1.5 m the antennas must also be
shielded from each other. Otherwise the Reader range will be significantly reduced. The
antennas must have a minimum distance of 20 cm from all larger metal parts! At a distance
of less than 50 cm between the antenna and metal parts the Reader range will be
significantly reduced.
3.3.1 Drilling the Mounting Holes
If the position of the antennas has been marked or determined a hole template, can be used to
mark and drill the mounting holes and the holes for the cable entry. The dimensions are shown in
Fig. 4:
Fig. 4: Floor plate dimensions
All dimensions are in mm with general tolerance to ISO 2768 m (middle).
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The size and type of the screw anchors depends considerably on the strength of the base or floor.
The anchors should be capable of withstanding a permissible load of at least 5 kN per anchor for
all load directions (e.g. for concrete floor Hilti HVA anchors with HAS-(E) M8 threaded rod or Hilti
HIS-N M8 (5/16”) threaded inserts). The size of the mounting holes in the antenna is 10 mm (.39”).
The length of the anchors or bolts should be selected such that they extend at least 50 mm (2.0”)
and a maximum of 65 mm (2.6”) from the floor.
Please follow the mounting instructions of the anchor manufacturer!
Two cable openings are provided for the necessary connection cable (see Fig. 4). The cable
openings are dimensioned such that up to 10 cables having a diameter of 6 mm can be passed
through each opening.
We recommend routing the antenna cables through the cable opening on the Multiplexer side. All
other cables such as the supply voltage and synchronisation cable should be routed through the
cable opening on the Reader side.
Alternatively the cables can be routed at the sides of the antenna bas like shown in Fig. 5
Fig. 5 Cable routing at the antenna sides
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Installation
ID ISC.ANT1700/740-A /-B
3.3.2 Installing the Antenna Base and Antenna Body
The antenna will be screwed on the floor. The transverse antenna conductors in the middle of the
antenna body have to face the same direction at all antennas.(Fig. 6) Use the adjusting screws
(Fig. 7) to align the antenna vertically.
Fig. 6 Transverse conductors facing same direction
Adjusting screws (hexagon socket width A/F5)
Fig. 7: Attaching and aligning the antenna
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Installation
ID ISC.ANT1700/740-A /-B
Typical Antenna Configuration (Gate Antenna with two Antennas)
The standard configuration of a gate with three-dimensional tag orientation consists of one antenna
ID ISC.ANT1700/740 Type A with reader and multiplexer and one antenna ID ISC.ANT1700740
Type B. If a tag moves, at horizontal line, through the gate, it can be read at least once. This
ensures high reliability of the antenna system.
4.1
Project Notes
The antenna configuration as described allows detection of a tag moving horizontally through the
capture area of the gate. The tag orientation is non-critical. The tags are detected along a
horizontal axis of motion in certain regions within the antennas. The area of detection depends on
the tag orientation.
The size of the three-dimensional capture area of the antennas is shown in the sketch below.
20
cm
GD
Fig. 8: Capture area and tag orientation
Notes:
Note that the entire capture area of the antenna is larger than the three-dimensional area
shown in the drawing. This means there are tag orientations in which the tag can be
detected outside the capture area.
If multiple gates are arranged with short distances between each other, these will mutually
interfere with each other. The Readers for the respective gates must then be synchronized.
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ID ISC.ANT1700/740-A /-B
To achieve three-dimensional capture of the tag in the capture area drawn above, the following
conditions must be met:
The gate distance GD depends on the antenna configuration (see Table 2: Design notes).
The tags should be at least ISO card size (46 mm x 75 mm).
The activation field strength of the tags should be less than or equal to 75 mA/m.
The distance from tag to tag should be greater than 10 cm. If the tag to tag distance is reduced,
the gate distance GD must be reduced correspondingly. This applies in particular to distances
under 5 cm.
The maximum number of tags (serial number or data) depends on the traverse speed with
which the tags are brought through the capture area of the gate (see Table 2: Design notes).
The number of tags may be increased in the gate distance GD is correspondingly reduced and
the maximum speed adjusted accordingly.
The antenna should be at least 50 cm from metal parts.
There should be no interference of the Reader from other electrical devices in the environment.
The Noise Level difference should be less than 30 mV.
The ID ISC.LRM2000 Reader should be set to an RF power of 8 watts.
When using ISO 15693 transponders, the Readers should be set as described in 4.2.5 Reader
Configuration with Multiplexer.
If multiple gates are operated at the same time at a distance of less than 8 m, the Readers
must by synchronized. See Application Note Synchronizing RFID Long Range Readers using
the digital in-/outputs (N11200-1e-ID-B.pdf).
Gate with antenna
Type A and Type B
≤ 105 cm
Gate distance GD
Number of tags at a speed of
1 m/s
Read serial number
16
Read data
Table 2: Design notes
A minimum distance of 65cm between the two gate antennas is required.
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4.2
Installation
ID ISC.ANT1700/740-A /-B
Gate Configuration and Setup using Antennas Type -A and -B
4.2.1 Required Components
To construct the gate you need the following components:
Qty. 1 ID ISC.ANT1700/740-A Clear or Solid Gate
Qty. 1 ID ISC. ANT1700/740-B Clear or Solid Gate
Qty. 1 ID ISC.NET24V-B Power Supply Unit
Power cable, interface cable and connection cable for the DC power supplies (2-wire,
twisted)
Mounting materials (screws, anchors)
Optional:
Qty. 2 ID ISC.ANT1700/740-AGP Acrylic glass plate windows for Clear antenna.
To calibrate the Reader you will need the software
ISOStart Version 8.02 or higher
and for tuning the antennas the service software
DATuningTool Version 1.00 or higher
on a personal computer running under Microsoft® Windows®. The service can be downloaded at
the Download Area of the Homepage www.feig.de.
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4.2.2 Configuration of a Gate antenna with Multiplexer
Connect the components as shown in Fig. 9. Almost, all cable should be mounted already.
Normally, the antenna cable from antenna Type B has to be connected to OUT2 at the multiplexer
and the cable of the signal light of antenna Type B has to be connected to GND and terminal 5 of
the terminal block at antenna Type A, only.
Alarm Light
Buzzer
2 Tuning boards of the
antenna ID ISC.ANT1700/740
Long Range Reader
ID ISC.LRM2000-A
X9, Pin1+3
Torrid core
3,62m
1,35m +
3,62m
3,62m
X3
X1
X1
GND
X2
IN1
Multiplexer
OUT1
OUT2
ID ISC.ANT.MUX.M4
+24VDC
DC PowerSupply 24V
Fig. 9: Connecting the components for a gate consisting of two antennas, reader and Multiplexer
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ID ISC.ANT1700/740-A /-B
The coax cables have fixed lengths and may not be shortened and therefore need to be tied into
small loops (see Fig. 10 Tying the cables). Tie all cables as far away from the antenna conductor
as possible. The cables must never be allowed to contact the copper tube.
Fig. 10:Tying the cables
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Installation
ID ISC.ANT1700/740-A /-B
4.2.3 Setting the Multiplexer
Set the jumpers JP11-JP14shown. More on setting the ID ISC.ANT.MUX.M4 Multiplexer can be
found in the corresponding installation manual (M90700-xde-ID-B).
Fig. 11: Jumper positions
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Installation
ID ISC.ANT1700/740-A /-B
4.2.4 Setting the Antenna Tuner
To check the settings of the antenna tuner the antenna has to be opened. For that, remove the
two fastening screws (hexagon socket width A/F2,5) at the antenna base cover and move it
upwards. Fig. 12
Step 1
Step 2
Fig. 12: Opening of the antenna base
The ID ISC.ANT1700/740 antennas are factory set as follows:
Table 3: Jumper settings for Antenna Tuner
Function
Jumper
Position
1Ω Q resistor
JP1
open
2Ω Q resistor
JP2
closed
Antenna switch
JP3
closed
Capacitor C1
JP 11,12,13,14
open
Capacitor C2
JP 21,22
JP 23,24,25,26
Open
closed
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ID ISC.ANT1700/740-A /-B
Verify these settings. More on setting the ID ISC.DAT antenna tuner can be found in the
corresponding installation manual (M40401-xde-ID-B).
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Installation
ID ISC.ANT1700/740-A /-B
4.2.5 Reader Configuration with Multiplexer
To tune the antennas, open the ISOStart software and read out the current configuration of the
Reader:
Step
Action
Note
Start ISOStart Software
Select „Detect“
Select „Keep Configuration
unchanged and exit Wizard“
and click on „Exit“
This has to be done at each
start of ISO-Start program
otherwise the configuration
of the reader will be
changed.
Select „Options => Program“
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Step
Installation
Action
ID ISC.ANT1700/740-A /-B
Note
Select „Expert Mode“ and
confirm with OK.
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ID ISC.ANT1700/740-A /-B
Then set the operating power, Transponder Parameters and ISO Host Mode:
Step
Action
Note
Select “Configuration”
Air Interface:
“RF-POWER” (here 8W)
„Mulitplexer Enable“
„1 Input (Single Mode)“
„No of Output Channels „
(e.g. 2)
„Antenna Active Time“
100 x 5ms
Set by clicking on „Apply“.
Transponder:
Configure the parameters as
follows:
•
•
•
•
•
„Driver“ – here ISO 15693
„Anticollision“ – enable
„No of Timeslots“ –
1 timeslot
„Data Coding“ – 1 of 4
„AFI“ – Disabled
Note: National RF regulations may require different
settings. 4.6 Configuring the Reader in accordance with
national RF regulations
Set by clicking on „Apply“.
Operating Mode:
For antenna tuning the reader
must be set to „Host Mode“.
Set by clicking on „Apply“.
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ID ISC.ANT1700/740-A /-B
4.2.6 Tuning the Gate Antenna with Multiplexer
Before tuning the gate antenna, you must quit the ISOStart software. Then the gate can be tuned
as follows:
Step
Action
Note
Start “DATuningTool” software
Select “Detect Reader...”.
In the „Detect Reader“ window
select the interface (COM-Port
1, BusAdr. 0) and then click
on “Detect”.
Use „Settings“ to enter the
configuration:
Single Mode,
Number of Antennas 2
Click on “with Multiplexer“
Number of Tuning Iterations 3
Activate „Start Tuning“ and
wait until the tuning process is
finished.
...
...
The tuning status is displayed
after each tuning pass.
After successful tuning both
antennas are shown in green.
If this does not succeed on
the first try, start the process
again by clicking on „Start
Tuning“
After successful tuning, close the DATuningTool.
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4.3
Installation
ID ISC.ANT1700/740-A /-B
Testing the Gate Antenna
After tuning the gate antenna, you can check for proper function using a Reader, the ISOStart
service software and a Transponder. Here the Noise Level and performance of the gate are tested.
4.3.1 Checking the Noise Level
Step
Action
Note
Select „Function Unit
Command“ „Multiplexer“
„Channel Select“ activate
antenna 1.
„Cascade Level = 1“
„Output Channel of Input 1
= 1“
Set by clicking on “Send”
Activate “Test and
Measurement”
Select „Noise Level“ and
start by clicking on „Start“
Normal Noise Level values
at antenna 1:
Average:
< 50mV
Difference (Max-Min):
< 30mV
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Step
Installation
Action
ID ISC.ANT1700/740-A /-B
Note
Select „Function Unit
Command“ „Multiplexer“
„Channel Select“ activate
antenna 2.
„Cascade Level = 1“
„Output Channel of Input 1
= 2“
Set by clicking on „Send“.
Repeat step 3 to 5 for
antenna 2.
If the values are not met, check the following:
•
Are all cables pulled tight and do they make good contact?
•
Were the ring cores installed in the antenna cable?
•
Were the cables routed as specified?
•
Are other RFID systems installed nearby?
•
Are there large metal parts near the antenna (distance < 1.0 m)?
•
Are there devices nearby which may emit noise interferences (larger machines or wireless
devices)?
•
Are there interferences from the mains?
To determine which devices may be disturbing the gate, briefly disconnect them from the mains.
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ID ISC.ANT1700/740-A /-B
4.3.2 Reading a Serial Number
Step
Action
Note
Attach a tag to an antenna
Use adhesive tape, for example
Select „Test and
Measurement“
Select „ISO Inventory“
function and activate by
clicking on „Start“.
The serial number and tag
type will be shown in the
display.
4.3.3 Testing the performance
In this test the capture area of the gate antenna described in 4.1 Project Notes is checked. For
other tags or other configurations the indicated ranges and read areas may differ accordingly.
Fig. 13: Performance Test of the gate antenna
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The test begins by checking the read range outside the gate (see Fig. points c and d), assuming
the configuration and locality permit it. Start the ISO Inventory command in the ISOStart program
as described in 4.3.2 Reading a Serial Number. If the tag is oriented parallel to the antenna
towards the outside, a read range of 65 to 75 cm should be achieved.
The three tag orientations are checked inside the gate. This corresponds to the lines and
orientations efg. Now slowly move the tag in the vertical and parallel direction with respect to
the antenna along the line e from one side to the other. The tag should always be read.
Then repeat this along the line f in the vertical tag direction transverse to the antenna and on the
line g in the horizontal tag orientation. Here again the tag should always be read.
The tag should be read within the gate when moving horizontally through the gate in all
three read orientations.
If one or more „holes“ are detected, check the noise values on the Reader (see 4.3.1 Checking the
Noise Level) .
The following may result in faulty readings:
•
Antenna improperly installed (orientation, antenna distance, check cabling)
•
Metal near the antennas is detuning or interfering with them.
•
The antennas are not properly tuned.
•
Noise level too high (Vmax – Vmin ≥ 30 mV)
•
Transponder too insensitive, detuned or defective
•
Reader improperly configured (transmitting power, transponder type, modulation, transponder
parameters, etc.).
•
A cable is defective or has a poor contact.
•
Reader, Power Splitter, Multiplexer or antenna defective.
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4.4
Installation
ID ISC.ANT1700/740-A /-B
Connecting and Setting the Alarm Kit (optional)
The solution provided here presumes that all alarm indicator (buzzer) are wired in parallel and
switched through the relay X11 on the ID ISC.LRM2000-A reader. The pulse duration can be set
(CFG2 / REL1) between 100 ms and 6553.5 s by adjusting the Reader configuration. Relay X11
provides a changeover contact for low voltages.
The volume of the buzzer could be adjusted mechanically approx. 10-15 dB. (see Fig. 14)
Fig. 14 Volume adjusting
Notes:
The relay outputs are dimensioned for max. 24 V DC / 2 A.
The relay outputs are intended only for switching resistive loads. If an inductive load is used,
the relay contacts must be protected by an external protection circuit.
Reversing the polarity or overloading the outputs will destroy them.
See also Installation Manual M51001-2de-ID-B.pdf ID ISC.LRM2000-A/B
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ID ISC.ANT1700/740-A /-B
4.4.1 Reader Setting for Indicator
The ISOStart software can be used to set the Reader configuration so that relay X11 opens or
closes when a Transponder is read.
Step
Action
Start ISOStart Software
Select “Configuration” and
click on “Read” to read the
complete configuration.
Note
Operating Mode
Select Buffered Read Mode.
Digital IO:
Output Idle Mode: OFF
Idle Flash Mode: 1Hz
Setting Time:
with „Setting Time“ set
time of relay for alarm duration.
(10 means 1 second)
(e.g. 10 x 100ms)
Assign Relay 1 to antenna
1+2. „True“ means that
Relay 1 will be active at a
read transponder.
Set by clicking on „Apply“.
Transponder
ISO 15693 –Selection Mask
„Enable AFI“-Enabled
Enter desired value in
“AFI 1” field.
(e.g. 01)
Set by clicking on „Apply“
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ID ISC.ANT1700/740-A /-B
4.4.2 Programming a Transponder with the AFI Byte
If the Transponders will remain on the object when leaving the storage location, they must first be
cancelled. This is generally done by writing to a particular area of the Transponder.
The AFI byte (Application Family Identifier) is useful for this purpose, since it is contained in nearly
all Transponder models in the ISO15693 family. To cancel, simply write a different code to the
Transponder than for valid Transponders which trigger an alarm.
Step
Action:
Note:
Select „Commands“
Place the Transponder in the
antenna field (Antenna 1)
Select [0x01] Inventory
Mode: New Inventory
Requested
Read UID by clicking on
„Send“
The serial number, DSFID
and Transponder type are
displayed in a window.
Write down the serial number
of the Transponder
Select „[0x27] Write AFI“
ADR:
1: addressed
Serial Number:
Select TransponderUID
AFI:
Desired AFI Number (not
equal to 00)
Write AFI byte on to the
transponder by click on
„Send“
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ID ISC.ANT1700/740-A /-B
To verify, read AFI byte by
using the command
[0x2B] Get System
Information
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4.5
Installation
ID ISC.ANT1700/740-A /-B
Activating the Automatic Mode
The gate must be used in one of the Automatic Modes (Buffered Read, Notification
or Scan Mode) to get a maximum performance.
Which Mode is useful in your application, has to be defined in advance.
Here we describe the activation of the Buffered Read Mode.
Here the tags are read at maximum speed and the information is stored in the Reader’s ring buffer.
This data sets can be read by the host.
To activate „Buffered Read Mode“ proceed as follows:
Step
Action
Note
Select „Configuration“
Operation Mode:
„Mode“ - Buffered Read
Mode
„Data Selector“
-UID
-Antenna No
-Time
-Date
„Filter“
Set Transponder Valid
Time.
(e.g. 55 x 100ms)
Set clicking on „Apply“
Note:
The test of the Buffered Read Mode can be done via ISOStart or the BRMDemo program.
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4.6
Installation
ID ISC.ANT1700/740-A /-B
Configuring the Reader in accordance with national RF regulations
Configuration of the RFID Readers and the maximum transmitting power of the antennas are
affected mainly by the country-specific RF regulations. For the entire EU the limits are set forth in
the R&TTE Directive and EN 300 330. In North America this is regulated by FCC Part 15 (USA)
and by the RSS-210 (Canada).
The ID ISC.ANT1700/740 antenna with the ID ISC.LRM2000 Reader, when used as intended,
complies with the basic requirements of Article 3 and the other relevant clauses of the R&TTE
Directive 1999/5/EG of March 1999. This means that operation in the 27 EU countries and the
EFTA countries (EU countries plus Switzerland, Norway and Iceland) is possible with a maximum
field strength of 42 dBµA/m at 10 m distance.
RF approval (at a maximum field strength of 42 dBµA/m at 10 m) for the ID ISC.ANT1700/740
antenna with ID ISC.LRM2000 Reader has been granted in accordance with FCC Part 15 for the
USA and the RSS-210 for Canada
RF approval in accordance with EN 300 330 is still possible in all 46 CEPT countries.
The CEPT countries are:
Albania (ALB), Andorra (AND), Austria (AUT), Azerbaijan (AZE), Belarus (BLR), Belgium (BEL),
Bulgaria (BUL), Bosnia and Herzegovina (BIH), Croatia (HRV), Cyprus (CYP), Czech Republic
(CZE), Denmark (DNK), Estonia (EST), Finland (FIN), France (F), Germany (D), Greece (GRC),
Hungary (HNG), Iceland (ISL), Ireland (IRL), Italy (I), Latvia (LVA), Liechtenstein (LIE), Lithuania
(LTU), Luxembourg (LUX), Malta (MLT), Former Yugoslav Republic of Macedonia (MKD), Moldova
(MDA), Monaco (MCO), Netherlands (HOL), Norway (NOR), Poland (POL), Portugal (POR),
Romania (ROU), Russian Federation (RUS), San Marino (SMR), Slovak Republic (SVK), Slovenia
(SVN), Spain (E), Sweden (S), Switzerland (SUI), Turkey (TUR), Ukraine (UKR), United Kingdom
(G), Vatican City (CVA) and Yugoslavia.
The following restrictions are in effect (as of: July 2006):
1. Outside the EFTA countries RF approval must in all cases be applied for. The existing
measuring protocols in accordance with EN 300 330 are generally sufficient.
When placing the antennas in service, the systems integrator must ensure that the prescribed
mounting instructions are followed, the necessary Reader settings are made and permissible limits
according to the national regulations are not exceeded.
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ID ISC.ANT1700/740-A /-B
The Reader needs to be configured as follows depending on the installation location:
Parameter
USA / Canada / Europe
(42dBuA/m)
Air Interface
RF-Power:
maximum 8 W
RF Modulation:
15%
Transponder Parameters
RF Modulation / ISO-MODE /
MOD
RF Data coding ISO-MODE:
Timeslots ISO-MODE / NO-TS
ISO Option – BREAK:
FEIG ELECTRONIC GmbH
10%
Fast (1/4) or Normal (1/256)
1 or 16 Timeslots
Complete Timeslot length at
„NO TAG“
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ID ISC.ANT1700/740-A /-B
Technical Data
5.1
Antenna ID ISC.ANT1700/740 Type A and B
Mechanical Data
• Housing
UV stabilized ABS
• Dimensions ( W x H x D )
741 x 1700 x 76 mm ± 3 mm
870 x 1800 x 180 mm ± 10 mm
– Antenna
– Packing
• Weight
– ID ISC.ANT1700/740-A C
– ID ISC.ANT1700/740-B Clear
– ID ISC.ANT1700/740-A Solid
– ID ISC.ANT1700/740-B Solid
Approx. 19,5 kg / 24,5 kg with packing
Approx. 18,0 kg / 23 kg with packing
Approx. 26,5 kg / 31,5 kg with packing
Approx. 25,0 kg / 30 kg with packing
• Enclosure rating
IP 43
• Color
Antenna frame: signal white RAL 9003
Antenna base: silver grey RAL 9022
• Mounting
– No. of attaching points
– Recommended anchors
– Recommended minimum load
capacity of the floor fastener
∅ 10 mm
5000 N / anchor
• Maximum horizontal load on the top
250 N*
edge of the antenna
Electrical Data****
• Supply Voltage
24 V
± 15 %
Noise Ripple : max. 150 mV
• Power Consumption
max. 32 VA
• Operating Frequency
13,56 MHz
• Transmit Power
2W – 12 W
(250 mW Step - Software)
• Modulation
10% - 30% and 100%
(Software configurable)
FEIG ELECTRONIC GmbH
Page 36 of 40
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OBID i-scan®
Installation
• Maximum transmitting power per
ID ISC.ANT1700/740-A /-B
8W
antenna
• Permissible overall transmitting
power per antenna gate
– EU-territory (per EN 300 330) and
other CEPT nations
– USA (per. FCC Part 15)
8.0 W
8.0 W
• Outputs
– 1 Optocoupler
– 1 Differential Output
– 1 Relay ( 1 x Changeover)
24 V
/ 30 mA
Reader Synchronisation
24 V
/ 2 A for Alarm Kit
• Inputs
– 1 Optocoupler
– 1 Differential Input
Max. 24 V
/ 20 mA
Reader Synchronisation
• Interfaces
RS232
RS484 / RS422
Ethernet (TCP/IP)
Compact Flash II
(WLAN)
• Protocol Modes
FEIG ISO HOST
BRM (Data Filtering and Data Buffering)
Scan Mode (RS 232/485/422)
Notification Mode (TCP/IP)
• Supported Transponders
ISO 15693, ISO 18000-3-A, (EM HF ISO
Chips, Fujitsu HF ISO Chips, KSW Sensor
Chips, Infineon my-d, NXP I-Code , STM ISO
Chips, TI Tag-it)
NXP I-code 1, I-Code UID, I-Code EPC
• Ranges / pass-through width in gate
with multiplexer
– One tag orientation
– All tag orientations
approx. 115 cm**
approx. 105 cm***
• Antenna connection
1 x SMA plug (50 Ω)
• Antenna connector cable
RG58, 50 Ω, approx. 2 m long
FEIG ELECTRONIC GmbH
Page 37 of 40
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OBID i-scan®
Installation
ID ISC.ANT1700/740-A /-B
Ambient Conditions
• Temperature range
– Operating
– Storage
–25°C to +50°C
–25°C to +70°C
Applicable Standards
•
RF approval
– Europe
– USA
• EMC
EN 300 330
FCC Part 15
EN 301 489
• Safety
– Low Voltage Directive
– Human Exposure
UL 60950-1
EN 50364
* Persistent deformation after load release approx. 1 cm.
** Qty. 2 ID ISC.ANT1700/740-A/-B antennas, antenna spacing (antenna center), same flow
direction, Tag 46 mm x 75 mm ISO15693, sensitivity / minimum field strength Hmin=75 mA/m rms,
transmitting power 8 W, tag orientation parallel to antenna for horizontal movement through the
antenna. The detection performance also depending of the strength of the Transponder answer
signal !
*** Tag 46 mm x 75 mm ISO 15693, sensitivity / minimum field strength Hmin=75 mA/m rms,
transmitting power 8 W, aligned in all 3 dimensions for horizontal movement through the antenna.
The detection performance also depending of the strength of the Transponder answer signal !
FEIG ELECTRONIC GmbH
Page 38 of 40
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OBID i-scan®
5.2
Installation
ID ISC.ANT1700/740-A /-B
Approval
As per Section 4.6 Configuring the Reader in accordance with national RF regulations
5.2.1
Europe (CE)
This RF equipment is in compliance with the essential requirements and other relevant provisions
of Directive 1999/5/EC dated March 99.
Equipment Classification according to ETSI EN 300 330 and ETSI EN 301 489: Class 2
The technical data of the ID ISC.LRM2000 Reader built into the ID ISC.ANT1700/740-A antenna can be found in the Installation Manual which is included with the device.
FEIG ELECTRONIC GmbH
Page 39 of 40
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OBID i-scan®
5.2.2
Installation
ID ISC.ANT1700/740-A /-B
USA (FCC) and Canada (IC)
Product name:
ID ISC.ANT1700/740
Antenna name:
ID ISC.ANT1700/740 Type A and Type B
Reader name:
ID ISC.LRM2000-A
FCC ID:
IC:
PJMLRM2000-2
6633A-LRM20002
Notice for USA and
Canada
This device complies with Part 15 of the FCC Rules and with
RSS-210 of Industry Canada.
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.
Unauthorized modifications may void the authority granted under
Federal communications Commission Rules permitting the operation
of this device.
This equipment has been tested and found to comply 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.
Cet appareil numérique de la classe A est conforme à la norme NMB003 du Canada.
Further information and technical data of the ID ISC.LRM2000 Reader built into the
ID ISC.ANT1700/740 antenna can be found in the Installation Manual which is included with
the device.
FEIG ELECTRONIC GmbH
Page 40 of 40
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