Tagsys LSA1ANT 16 Book Library Stack Antenna LSA-1 User Manual Library L100 Reader

Tagsys S.A. 16 Book Library Stack Antenna LSA-1 Library L100 Reader

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Users Manual

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Document ID318541
Application IDI/EjG6DQlpLFlkTT/xJu8g==
Document DescriptionUsers Manual
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Document TypeUser Manual
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Date Submitted2003-04-16 00:00:00
Date Available2003-04-16 00:00:00
Creation Date2003-04-10 10:07:11
Producing SoftwareAcrobat Distiller 5.0 (Windows)
Document Lastmod2003-04-10 12:20:24
Document TitleLibrary L100 Reader
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Document Author: Mike MILLER

Library L100 Reader
User's Guide
Revision 3.1b
TAGSYS
April 2003
Library L100 Reader User's Guide
Publishing Information
Disclaimer and Limitation of Liability
All information herein is either public information or is the property of and owned solely by TAGSYS who shall have and
keep the sole right to file patent applications or any other kind of intellectual property protection in connection with such
information.
Nothing herein shall be construed as implying or granting to you any rights, by license, grant or otherwise, under any
intellectual and/or industrial property rights of or concerning any of TAGSYS’ information.
This document can be used for informational, non-commercial, internal and personal use only provided that:
the copyright notice below, the confidentiality and proprietary legend and this full warning notice appear in all copies.
this document shall not be posted on any network computer or broadcast in any media and no modification of any
part of this document shall be made.
Use for any other purpose is expressly prohibited and may result in severe civil and criminal liabilities.
The information contained in this document is provided “AS IS” without any warranty of any kind. Unless otherwise
expressly agreed in writing, TAGSYS makes no warranty as to the value or accuracy of information contained herein.
The document could include technical inaccuracies or typographical errors. Changes are periodically added to the
information herein. Furthermore, TAGSYS reserves the right to make any change or improvement in the specifications
data, information, and the like described herein, at any time.
Therefore TAGSYS assumes no liability and is not responsible for customer applications or product or software that
include TAGSYS products.
TAGSYS HEREBY DISCLAIMS ALL WARRANTIES AND CONDITIONS WITH REGARD TO THE INFORMATION
CONTAINED HEREIN, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY, FITNESS FOR A
PARTICULAR PURPOSE, TITLE AND NON-INFRINGEMENT. IN NO EVENT SHALL TAGSYS BE LIABLE, WHETHER
IN CONTRACT, TORT OR OTHERWISE, FOR ANY INDIRECT, SPECIAL OR CONSEQUENTIAL DAMAGES OR ANY
DAMAGES WHATSOEVER INCLUDING BUT NOT LIMITED TO DAMAGES RESULTING FROM LOSS OF USE,
DATA, PROFITS, REVENUES, OR CUSTOMERS, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
PERFORMANCE OF INFORMATION CONTAINED IN THIS DOCUMENT.
TAGSYS does not and shall not warrant that this product/system/equipment will be resistant to all possible attacks, and
shall not incur, and disclaims, any liability in this respect. Even if each product is compliant with current security
standards in force on the date of their design, security mechanisms' resistance necessarily evolves according to the
state-of-the-art in security and notably under the emergence of new attacks. Under no circumstances shall TAGSYS be
held liable for any third party actions, and in particular in case of any successful attack against systems or equipment
incorporating TAGSYS products.
TAGSYS disclaims any liability with respect to security for direct, indirect, incidental or consequential damages that result
from any use of its products. It is further stressed that independent testing and verification by the person using the
product is particularly encouraged, especially in any application in which defective, incorrect, or insecure functioning
could result in damage to persons or property, denial of service, or loss of privacy.
© Copyright TAGSYS 2000-2003
MS-DOS© and Windows© are registered trademarks of Microsoft Corporation.
Printed in France.
TAGSYS – 180 Chemin de St Lambert, 13821 LA PENNE SUR HUVEAUNE, France.
Tel: +33 (0) 4.91.27.57.00 / Fax: +33 (0) 4.91.27.57.01
Document Reference: 10242A0
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Read This First
Read This First
Welcome to the TAGSYS RFID System. This User's Guide is designed to help you get up and
running quickly using this high-quality Radio Frequency Identification (RFID) system. It describes
all you need to know about how to install and use the TAGSYS system and its associated
applications.
This document describes how to:
•
install the Library L100 Reader,
•
select the best-adapted configuration for your application,
•
troubleshoot any eventual problems.
This guide is designed for all TAGSYS partners and for TAGSYS Expert Network customers
implementing a low-cost and high-performance RFID solution.
This document does not require any previous knowledge of Radio Frequency Identification (RFID)
technology.
Conventions
Symbol
Meaning
CAUTION: A note that advises users that a specific action could result in the loss of data or
damage the hardware.
WARNING: A note that advises users that a specific action may result in physical harm.
A note that provides additional information that helps the user perform a task or obtain the
best performance from the product.
Abbreviations and Acronyms
AFI
Application Family Identifier
AON
All Or None
API
Application Programming Interface
ASK
Amplitude Shift Keying
CPU
Central Processing Unit
CRC
Cyclic Redundancy Check
DLL
Dynamic-Link Library
DPU
Digital Processing Unit
DSFID
Data Storage Format Identifier
DSP
Digital Signal Processor
EAS
Electronic Article Surveillance
ETX
End of Text
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Library L100 Reader User's Guide
HPI
Host Port Interface
I/O
Input/Output
IFD
Interface Device
ILS
Integrated Library System
LED
Light Emitting Diode
LSb
Least Significant Bit
LSB
Least Significant Byte
MSb
Most Significant Bit
MSB
Most Significant Byte
OS
Operating System
PC
Personal Computer
PCB
Printed Circuit Board
RAM
Random Access Memory
RF
Radio Frequency
RFID
Radio Frequency IDentification
RFU
Reserved for Future Use
RPU
Radio Processing Unit
RTC
Real Time Clock
SAM
Security Access Module
STX
Start of Text
TTF
Tag Talks First
TTL
Transistor-Transistor Logic
TTY
TeleTYpe
UID
Unique Identifier
Glossary
Anti-Collision Tag capability making it readable while other tags are present in the RF field.
Antenna An aerial that receives and/or transmits radio frequency signals. Aerials are
manufactured in a variety of forms, shapes and sizes.
Baud A unit of measure of data transmission speed representing the number of signal changes per
second.
BNC Connector Cylindrical metal connector with a copper core that is located at the tip of a
coaxial cable, and is used to connect cables together. It attaches by pushing and twisting the outer
cylinder on to two locking pins.
Reader See Reader.
Data Storage Format Identifier Identifies the structure of the data stored in the smart label.
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Read This First
Digital Signal Processor This part of the Radio Processing Unit (RPU) performs real-time smart
label decoding and manages the Medio L200 configuration.
Dynamic-Link Library Executable routines that are stored as separate files with DLL extensions
and executed only when needed by the program.
Host Port Interface Interface used to access the DSP memory.
IEC Connector Three-pin connector used on sockets that carry mains electricity to the computer.
All PCs use a male IEC connector and mains lead with a female IEC connector.
Interrogation Pulse A signal transmitted by the reader to activate the smart label’s transponder.
Monitoring Port Parallel Port granting access to the HPI. It communicates directly with the Radio
Processing Unit
Multi-Read See Anti-Collision
Nibble Half a byte (4 bits)
Packaged Reader A reader in its casing.
Phase Shift Difference of phase between the 13.56 MHz field emitted by two antennas. This
feature is dedicated to rotating field applications and three-dimensional volume smart label
detection.
Protocol A set of rules governing a particular function, such as the flow of data/information in a
communication system (communication between a smart label and a reader or a reader and a PC
or host computer).
Quiet Protection Mask Reserved for the C270 (I-Code™). This mask records the timeslots that
may contain a selected chip in quiet mode.
Radio Frequency Identification System (RFID) An automatic identification and data capture
system comprising one or more readers and one or more smart labels in which data transfer is
achieved by means of suitable modulated inductive or radiating electromagnetic carriers.
Radio Processing Unit This unit controls the main features of the Medio L200, such as the RF
channels, the multiplexer and the smart label decoding.
Reader Electronic system for the communication between smart labels and host computers.
Reader Talks First Chip protocol for exchanges between the reader and the chip, whereby the
chip waits for a command from the reader to which it responds.
RS-232 Electronic Industries Association (EIA) standard for serial interfaces between computers
and peripherals which defines the function, the electrical characteristics and the timing of signals.
RS-485 Electronic Industries Association (EIA) standard for multipoint, differential data
transmission. It allows multiple nodes to communicate bi-directionally over 1 or 2 twisted pairs.
Smart Label Small, flexible tag from the 13.56 MHz TAGSYS product line. A smart label is made
of a chip connected to an etched antenna.
Tag See Smart Label.
Tag Talks First Chip protocol for exchanges between the reader and the chip, whereby the tag
sends information continuously, without waiting for a specific command from the reader.
Transceiver A combined transmitter and receiver.
Transponder A combined receiver/transmitter that automatically transmits a signal when a ‘trigger’
is received by it. The trigger is often a pulse, called an interrogation pulse.
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Library L100 Reader User's Guide
If you need assistance
Please contact your nearest TAGSYS sales representative or the TAGSYS welcome desk at:
Telephone:
Fax:
E-Mail:
+33 (0) 4 91 27 57 00
+33 (0) 4 91 27 57 01
info@tagsys.net
Contact for Comments
We welcome your feedback to help us provide high quality documentation.
For technical comments, please contact our welcome desk:
Telephone:
Fax:
E-Mail:
+33 (0) 4 91 27 57 00
+33 (0) 4 91 27 57 01
info@tagsys.net
Please remember to quote the Document Reference Number 10242A0, your job title and your
company.
Quality Issues
TAGSYS implements stringent quality controls at all stages of its manufacturing process. However,
should you find a defect with this product, please notify your customer service representative using
the dedicated Product Return Form.
Telephone:
Fax:
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+33 (0) 4 91 27 57 36
+33 (0) 4 91 27 57 02
Revision 3.1b
April 2003
Read This First
Table of Contents
Publishing Information
Disclaimer and Limitation of Liability
Read This First
Conventions
Abbreviations and Acronyms
Glossary
If you need assistance
Contact for Comments
Quality Issues
For Your Safety
1.1
1.2
1.3
General Use
Care and Maintenance
Important Safety Information
1.3.1
1.3.2
Operating Environment
Electronic Devices
10
Certification
11
2.1
2.2
Occupational Health and Safety Notices
Regulatory Notices
11
11
2.2.1
2.2.2
2.2.3
11
12
13
In Europe (CE and RTTE Directives)
In USA (FCC Directive)
In Canada
Overview
14
3.1
3.2
Key Features
General Description
14
14
3.2.1
3.2.2
3.2.3
3.2.4
3.2.5
3.2.6
3.2.7
15
15
15
15
16
16
16
RF Channels
Synchronization Input/Output
I/O Port Connector
Init Button
Serial Connector
Monitoring Port (Parallel Port)
Antennas
Architecture
17
4.1
4.2
4.3
17
18
18
Data Processing Unit
Radio Processing Unit
RF Channels and the Multiplexer Architecture
Embedded Application
20
Antennas
21
Installation
23
7.1
7.2
7.3
7.4
General Installation
Mechanical Aspects
Cabling Requirements
Operating Modes
23
23
23
24
7.4.1
7.4.2
24
25
Test/Setup Mode
Main Operating Mode
Multiplexing Configuration
27
8.1
8.2
27
27
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Windows™ DLLs
STX-E Protocol
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Library L100 Reader User's Guide
8.3
8.4
8.5
Scanning (Reading)
3-D Rotating Field Applications
Pattern Examples
27
28
28
8.5.1
8.5.2
8.5.3
28
29
29
Enabling one Antenna after Another
Enabling both Antennas Simultaneously
Enabling each Antenna separately and then both at once
I/O Ports
30
9.1
9.2
General Purpose I/Os
Internal Connections
30
30
9.2.1
9.2.2
9.2.3
30
31
31
9.3
9.4
Input Configuration
Output Configuration
VOUT Characteristics
Input Configurations
Output Configurations
31
32
10 Calibration
34
11 Debugging
35
11.1
Debugging Tools
35
12 Technical Specifications
12.1
12.2
12.3
36
Technical Specifications
36
Serial Port Pin Assignment
36
37
13 Electrical Characteristics
13.1
13.2
13.3
13.4
13.5
13.6
38
Absolute Maximum Ratings
Standards Compliance
Power Supply DC Characteristics
Communication Link DC Characteristics and Timing
Antenna Electrical and Timing Characteristics
I/O Electrical and Timing Characteristics
14 Warranty Conditions
14.1
14.2
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38
38
39
40
41
42
43
Warranty
Warranty Exclusions
43
43
14.2.1 General Provisions
14.2.2 How to Return Defective Products
44
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For Your Safety
1 For Your Safety
1.1
General Use
The Library L100 Reader is designed to be rugged and reliable and to provide years of trouble-free
service. Please observe the following general tips:
Take care not to scratch the device. Keep the device clean. When working with the device,
use only TAGSYS-approved accessories.
This device is not waterproof and should not be exposed to rain or moisture. Under extreme
conditions, water may enter the circuitry.
Take care not to drop the device or subject it to any strong impact.
Protect the device from extreme temperatures. For example, do not leave the device in
front of a window on a hot day, and keep it away from heaters and other heat sources.
Do not store or use the device in any location that is extremely dusty, damp, or wet.
Use a soft, damp cloth to clean the device. If the surface of the device becomes soiled,
clean it with a soft cloth moistened with a diluted window-cleaning solution.
1.2
Care and Maintenance
This device is a product of superior design and should be handled with care. The suggestions
below will further increase the lifetime of this device.
Keep the device and all parts and accessories out of the reach of small children.
Keep the device dry. Precipitation, humidity and liquids contain minerals that will corrode
electronic circuits.
Do not use or store the device in dusty, dirty areas. Its moving parts can be damaged.
Do not store in hot areas. High temperatures can shorten the life of electronic devices,
damage batteries and warp or melt certain plastics.
Do not store in cold areas. When the device warms up (to its normal temperature), moisture
can form inside the device, which may damage electronic circuit boards.
Do not attempt to open the device. Non-professional handling of the device may damage it.
Handle the device with care. Shocks may break internal circuit boards.
Do not clean the device with harsh chemicals, cleaning solvents or strong detergents.
Gently wipe the device with a soft cloth slightly dampened in a mild soap-and-water
solution.
Do not paint the device. Paint may clog the device’s moving parts and prevent proper
operation. Paint with metallic contents may limit device performance.
1.3
Important Safety Information
1.3.1 Operating Environment
Follow all special regulations that are applicable in any area and always switch off the device
whenever its use is prohibited, or when it may cause interference or danger.
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Library L100 Reader User's Guide
When connecting the device or any accessory to another device, read its user’s guide for detailed
safety instructions. Do not connect incompatible products.
As with all RF equipment, users are advised that the equipment should only be used in its normal
operating position.
1.3.2 Electronic Devices
Most modern electronic equipment is shielded from radio-frequency (RF) signals. However, other
electronic equipment may not be shielded against the RF signals from your device.
Medical Devices
Operation of radio transmitting equipment, including RFID devices, may interfere with the
functionality of inadequately protected medical devices. Consult a physician or the manufacturer of
the medical device to determine if they are adequately shielded from external RF energy or if you
have any questions.
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Certification
2 Certification
2.1
Occupational Health and Safety Notices
TAGSYS Products have been designed not to exceed the limits given in the European Standard
EN 50364 “Limitation of human exposure to electromagnetic fields from devices used in Electronic
Article Surveillance (EAS), Radio Frequency Identification (RFID) and similar applications” in
conjunction with the European Standard EN 50357 describing how to evaluate the exposure level.
It is the responsibility of the TAGSYS Partner to install the Library L100 Reader as described in
TAGSYS Documentation and with the appropriate antennas.
Modification of any TAGSYS Library System is prohibited without the written consent of TAGSYS.
Unauthorized modifications may void the conformity of the equipment to safety standards and will
void the TAGSYS warranty.
An RF fields survey has been carried out on all the Library System components, in accordance
with AS/NZS 2771.1: Radio Frequency Radiation, Part 1. According to this standard the maximum
allowable RF exposure levels (non-occupational) at 3 kHz to 300 GHz are 200 µW/cm2.
2.2
Regulatory Notices
An RFID system typically composed of an RF emission device such as the Library L100 Reader is
subject to national regulations that may differ by country.
One important item to consider is the maximum permissible magnetic field intensity at a distance of
10 meters from the antenna that must not exceed 42 dBµA/m in Europe and 38 dBµA/m in US.
The Library L100 Reader meets these limits.
It is the responsibility of the TAGSYS Partner to install the Library L100 Reader as described
in this User’s Guide or in TAGSYS Documentation.
2.2.1 In Europe (CE and RTTE Directives)
The Library L100 Reader complies (CE Declaration of Conformity granted) with the European EMC
directive.
The Library L100 Reader complies with the requirements of the Telecommunication Terminal
Equipment Act (FTEG) and the RTTE Directive 1995/5/EC.
It is the responsibility of the TAGSYS Reseller to install the Library L100 Reader as described in
this Reference guide or TAGSYS Documentation.
Any modification of the Library L100 Reader is prohibited without the written consent of TAGSYS.
Unauthorized modifications may void the conformity of the equipment to CE and RTTE Directives
and will void the TAGSYS warranty.
If a Library L100 Reader is further integrated in a different product, it is the responsibility of
the manufacturer of this complementary product to obtain the required approvals for this
product.
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Library L100 Reader User's Guide
2.2.2 In USA (FCC Directive)
The Library L100 Reader has been designed to comply with Part 15 of the FCC Rules.
Furthermore typical configurations based on a Medio S002 have been successfully tested with Part
15 of the FCC rules (FCC ID Numbers are listed on all system-mounted TAGSYS Antennas).
Library L100 Reader
WARNING TO USERS IN THE UNITED STATES
FEDERAL COMMUNCIATIONS COMMISSION (FCC) RADIO
INTERFERENCE STATEMENT 47 CFR Section 15.105(b)
This equipment has been tested and found to comply with the limits for a Class B digital device,
pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection
against harmful interference in a residential installation. This equipment generates, uses and can
radiate radio frequency energy and if not installed and used in accordance with the instructions
may cause harmful interference to radio communications. However, there is no guarantee that
interference will not occur in a particular installation. If this equipment does cause harmful
interference to radio or television reception, which can be determined by turning the equipment off
and on, the user is encouraged to try to correct the interference by one or more of the following
measures:
▪
Reorient or relocate the receiving antenna.
▪
Increase the separation between the equipment and receiver.
▪
Connect the equipment into an outlet on a circuit different to that to which the receiver is
connected.
▪
Consult the dealer or an experienced radio/TV technician for help.
NO UNAUTHORIZED MODIFICATIONS
47 CFR Section 15.21
CAUTION: This equipment may not be modified, altered, or changed in any way without signed
written permission from TAGSYS SA. Unauthorized modification may void the equipment
authorization from the FCC and will void the TAGSYS warranty.
ANTENNA REQUIREMENT
47 CFR Section 15.203
CAUTION: This equipment must be professionally installed. The installer shall be responsible for
ensuring that the proper antenna is employed so that the limits in this part are not exceeded. Nonprofessional installation or installation of the equipment with an improper antenna may void the
equipment authorization from the FCC and will void the TAGSYS warranty.
Operation is subject to the following two conditions: (1) The system devices may not cause harmful
interference, and (2) The library system devices must accept any interference received, including
interference that may cause undesired operation.
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Certification
2.2.3 In Canada
Cet appareil numérique de la classe B respecte toutes les exigences du Règlement sur le matériel
brouilleur du Canada.
This Class B digital apparatus meets all requirements of the Canadian Interference-Causing
Equipment Regulations.
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Library L100 Reader User's Guide
3 Overview
The TAGSYS Library L100 (L-L100) smart label packaged reader is intended for Original
Equipment Manufacturer (OEM) applications.
The L-L100 reader incorporates hardware, software and other components that manage the Radio
Frequency (RF) interface as well as the external connections for power, data exchange and
various communication protocols.
The TAGSYS L-L100 reader is specifically designed for use in a library environment and therefore
is easily integrated into Integrated Library System (ILS) applications.
Customized software, such as STXE Protocol application or the Teletype (TTY) menu application,
can be easily downloaded.
3.1
Key Features
•
13.56 MHz RF multi-channel packaged reader
•
Multiple tag compatibility (TAGSYS and ISO15693 smart labels)
•
Standard software applications
•
High RF output power, with software configuration
•
Software-configurable multiplex operating mode
•
Two dedicated processing units, namely a microcontroller for the customer application and
a Digital Signal Processor (DSP) unit for real-time signal processing
•
Serial communication with an embedded end-user application
•
Multi-purpose configurable industrial I/O ports
•
Parallel port monitoring
3.2
General Description
Figure 1: L-L100 Packaged Reader
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Overview
3.2.1 RF Channels
The L-L100 Reader can drive up to two antennas with each channel able to drive up to four watts.
LEDs indicate which RF field (channel) is transmitting (green).
CAUTION: The antenna MUST be connected to the reader before the unit is turned on.
3.2.2 Synchronization Input/Output
When configured for input, this BNC connector makes it possible to use an external 27.12-MHz
clock to generate the RF field, instead of the internal clock generator.
When configured as output, this connector can drive other L-L100 readers and provide the
27.12-MHz clock.
The Sync LED indicates the clock mode:
•
Red: The internal clock generator is enabled and an external clock signal cannot be input.
•
Green: The internal clock generator is disabled. A 27.12-MHz clock signal must be
connected to the Sync In/Out connector.
By default, the internal clock mode is applied and the Sync In/Out connector is configured as an
output. If the external clock mode is required, contact your TAGSYS sales representative.
3.2.3 I/O Port Connector
The L-L100 reader provides four Input/Output (I/O) ports. Each I/O can be independently
configured as an input or output by the application software.
When configured as outputs, I/Os are open drain (250 mA). A pull-up supply must be connected to
the I/O port reference input (VIN). The pull-up supply voltage range is between 5V and 28V.
When configured as inputs, the I/O input signal range is between 0V and 28V.
I/O port LEDs indicate whether the I/O is configured for input (green) or output (red).
Please refer to Section 9, "I/O Ports" for more information.
Industrial I/O ports can only be accessed via the Data Processing Unit (DPU).
3.2.4 Init Button
The Init button aborts the embedded application stored in the Data Processing Unit memory. The
L-L100 Reader is then ready to be downloaded with a new application.
The L-L100 Reader must be switched off and then back on before an embedded application
takes effect.
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Library L100 Reader User's Guide
3.2.5 Serial Connector
The serial connector is used to communicate with an external environment. User commands and
data exchanges are transmitted through this port which can be set to RS-232, RS-485 or RS-422
mode by the software. Different baud rates can be defined for each mode.
The Default Mode is defined by the application software which is downloaded in the L-L100
Reader.
Tx (Transmit data) and Rx (Receive Data) LEDs indicate the activity of the serial port.
The RS-232 cable is a null modem cable.
Please refer to Embedded Application chapter for further information about Application
Software.
3.2.6 Monitoring Port (Parallel Port)
The monitoring port communicates directly with the Radio Processing Unit (RPU). When the
parallel cable is plugged in, the Data Processing Unit (DPU) is automatically deselected. The
parallel port can be used as a monitoring tool or as a means to upgrade the L-L100 Reader
firmware via the L200 Explorer.
The parallel cable uses pin-to-pin DB25 connectors. A shielded cable must be used to
prevent disruptions when antennas have a high output power.
Please refer to L-L100 Reader Architecture chapter for further information about the RPU
and DPU. Please refer to “L-L100 Reader Firmware Reference” for further information about
L-L100 Reader Firmware.
3.2.7 Antennas
The L-L100 Reader is primarily designed for use with Aero-LI, L-SA1 and L-SA2 antennas.
Nonetheless, it is also operational with other TAGSYS antennas, provided that the power applied
to the antenna does not exceed antenna specifications. For more information, refer to Section 6,
"Antennas".
L-L100 Reader performance has been characterized for a 3-meter long antenna cable.
Optimized operation is not guaranteed with a cable longer than three meters.
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Architecture
4 Architecture
The L-L100 Reader consists of two main blocks:
1.
Data Processing Unit (DPU).
2.
Radio Processing Unit (RPU),
Figure 2: L-L100 Architecture
L-L100 Reader
Radio Processing Unit
Radio Frequency
Channel
Data Processing Unit
DSP
Unit
External I/O,
Interrupts,
Trigger
I/O
Interface
Channel
HPI
Interface
GemCore
OS
Serial
Interface
Tags
4.1
Data Processing Unit
The Data Processing Unit (DPU) primarily consists of the GemCore operating system. This unit
provides all GemCore functions (RTC, backup memory, SAM module…) and features four
configurable industrial I/O ports.
Figure 3: Data Processing Unit
External
RAM
RTC Chip
April 2003
Flash Code
Memory
Backed up
Memory
HPI
Interface
GemCore
MicroController
Radio
Processing
Unit
Serial
Interface
Revision 3.1b
Extension
port
(internal)
Keyboard &
LCD port
(internal))
I/O
Interface
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Library L100 Reader User's Guide
4.2
Radio Processing Unit
The Radio Processing Unit (RPU) controls the main features of the L-L100 Reader, such as the RF
channels, the multiplexer and chip decoding.
Figure 4: L-L100 Architecture
RF Channels
DSP Boot Flash
Analog Switch
Multi-Purpose
D/A Converter
Fast A/D
Converter
DSP
Unit
General-Purpose
A/D Conveter
HPI Interface
DSP I/O Ports
The RPU is managed by a Digital Signal Processor (DSP) which performs real-time chip decoding
and manages the reader configuration.
The RPU behaves as a slave as it waits for a host command, executes it and transmits the result.
This command exchange is performed using a specific protocol (HPI protocol) and a specific
interface (HPI interface). This protocol is based on the DSP dual-access memory. The host sends
commands to the DSP by writing to the DSP memory. It then reads the reply in the same memory.
The L-L100 Reader firmware is stored in DSP Flash memory. This firmware is TAGSYS property.
Please refer to “L-L100 Reader Firmware Reference “ for further information about L-L100 Reader
Firmware.
Two RF channels are available but only one can be read at a given time. The DSP controls an
analog switch and connects the RF channel to be read to the Analog/Digital Converter.
4.3
RF Channels and the Multiplexer Architecture
The antenna multiplexer and the RF channels belong to the RPU.
Two RF channels are available. These channels can be enabled independently
Each channel output power can be adjusted up to 4W. The same output level is applied to all the
enabled antennas.
Available phase shift values between antenna 1 and antenna 2 are 0°, 90° 180° and 270°.
On-Off Keying (OOK) and Amplitude Shift Keying (ASK) are available for reader-to-smart label
communication and are managed independently for each RF channel.
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Architecture
Figure 5: L-L100 Antenna Multiplex
Enable
Antenna 1
Antenna 1
∆ϕ = 0°,
90°, 180°
or 270°
Antenna 2
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Enable
Antenna 2
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Library L100 Reader User's Guide
5 Embedded Application
The embedded software application is based on the GemCore operating system which is stored in
the Flash memory of the Data Processing Unit.
Different applications can be downloaded into the L-L100 Reader, but only one can be stored at a
single time.
Depending on the software application downloaded into the GemCore Flash memory, it may be
possible to access all or part of the L-L100 Reader functions.
The STXE standard protocol application is delivered with the L-L100 Reader:
STXE Protocol is the TAGSYS standard protocol. It is compatible with most of TAGSYS
range reader products. We advise to use STXE protocol in order to address all TAGSYS
reader functions.
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Antennas
6 Antennas
TAGSYS L-L100 readers are optimized for use with TAGSYS antennas.
The antennas are factory-calibrated to an impedance of 50 Ohms which offers optimal
performances when the antenna is mounted on a desktop surface.
Due to their specific design, these antennas can be safely used in proximity to other TAGSYS
RFID products. They will also work, if properly installed, in metallic-type environments. In this case,
performance may be reduced.
TAGSYS antennas are provided with rubber feet to operate in a standard desktop configuration.
However, a mounting kit is also supplied for installation underneath a table or desk.
Antennas are delivered with a standard plastic cover. This cover can be replaced by another made
of a non-metallic and non-conductive material. This cover should be as thin as possible as not to
impact the performance of the stack programming function. In addition, we strongly recommend
placing the antenna directly on the desk.
It may be necessary to retune the antenna once installed if the environment is highly metallic or if
the antenna is installed underneath a table or desk (and depending on the material of which the
desk/table is manufactured).
When installing a dual-antenna arrangement, a proximity effect may be created when using Aero LI
antennas. L-SA1 and L-SA2 are specifically designed to reduce this effect.
Table 1: Antenna Characteristics
Parameter
Dimensions
Single Ferrite
Characteristics
L-PS1
Aero LI
L-SA2
L-SA1
255 x 216 x 20 mm.
10 x 8½ x ¾ in.
288 x 263 x 17 mm.
11⅓ x 10⅓ x ⅔ in.
440 x 370 x 18 mm.
17⅓ x 14½ x ⅔ in.
650 x 440 x 18 mm.
25 ⅔ x 17⅓ x ⅔ in
Yes
Yes
Yes
Yes
Single-loop
Single-loop
Single-loop
Double-loop
Housing
Weight
2.0 kg.
2.0 kg.
2.5 kg.
Operating
Temperature
0 °C to +55 °C
Storage
Temperature
-25 °C to +60 °C
Maximum
Output Power 1
Plastic ABS UL 94-V0
0.25 W
8W
5 kg.
3W
Operating
Frequency
13.56 MHz
Impedance
50±5 Ω and 0 ± 5°
Antenna
Connection
Not applicable
BNC 50 Ω
Antenna
Connection cable
Not applicable
RG-58, 50 Ω
FCC-compliant antennas are available (maximum output power of 1 W).
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Library L100 Reader User's Guide
Table 2: Minimum Single-Antenna Station Performance
Single-Antenna Stations
Dual-Antenna Stations
Parameter
L-PS1
Aero LI
L-SA2
Aero LI1
L-SA1
Reading
3 ½ in. (89 mm.)
6 in. (152 mm.)
7 in. (178 mm.)
6 in. (152 mm.)
6 ½ in. (165 mm.)
4 in. (102 mm.)
4½ in. (114 mm.)
Writing
3 in. (76 mm.)
4½ in. (114 mm.) 5 ½ in. (140 mm.)
Minimum reading/writing distance for stacks: 4 in. (102 mm.)
Multiplexed with L-L100 reader.
Performance given for single tag operation and measured on any point above the RF loop. In the middle of the loop, the
performance may be greater. This does not include the L-PS1 where performance has been measured with tag centered
on the station.
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Installation
7 Installation
7.1
General Installation
Read/antenna/ILS layout and maximum cable distances, to be specified.
7.2
Mechanical Aspects
The L-L100 Reader is delivered with four rubber pads screwed on the bottom of the package for
installation on a table or desk.
A mounting plate available with the L-L100 Reader can be used to mount the unit in various
positions. When mounted vertically, the BNC connectors must be facing upwards and
perpendicular to the floor.
When installing the L-L100 Reader on the mounting plate, remove the rubber pads from the L-L100
Reader and fasten the unit directly to the mounting plate.
CAUTION: The screws must be always attached to the bottom of the L-L100 Reader even if
the rubber pads and mounting plate are not used.
Figure 6: Authorized Installation Positions
BNC Connectors on Top
CAUTION: For continuous protection against risk of fire, use only T 2.5A – 250V rated fuses.
7.3
Cabling Requirements
All L-L100 Reader cables must be shielded. Shielding effectiveness of the material used should be
of Good performance (60dB min.), especially in the frequency range of 10 to 60 MHz. The addition
of ferrite clamps near the input/output will increase common mode rejection. TAGSYS antenna
products are delivered with good performance shielded coaxial cables with ferrite beads already
mounted to increase shielding effectiveness at low frequencies.
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Library L100 Reader User's Guide
7.4
Operating Modes
The L-L100 Reader can be setup in one of two operating modes:
•
Test/Setup mode used to test and develop your application,
•
Main Operating mode for running your application.
CAUTION: The antenna MUST be connected to the reader unit before the reader is turned on.
7.4.1 Test/Setup Mode
The RPU host is connected to the L-L100 Reader by a parallel interface linking it to the monitoring
host, which is a computer. The L200 Explorer software is designed to set-up the L-L100 Reader
and to execute chip commands in a Windows environment.
This operating mode is useful to learn all L-L100 Reader basic functions and to rapidly start using
the packaged reader in a specific RFID application.
The L200 Explorer software is also a powerful and easy-to-use tool to define the best RFID set-up
for a custom application.
For additional information about the L200 Explorer software, refer to the L200 Explorer User’s
Guide.
Figure 7: Test/Setup Mode
L-L100 Reader
Radio Processing Unit
Radio Frequency
Channel 1
Data Processing Unit
DSP
Unit
I/O
Interface
External I/Os
Channel 2
HPI
Interface
Tags
GemCore
OS
Serial
Interface
L200 Explorer
(Parallel Port)
CAUTION: The antenna MUST be connected to the reader unit before the reader is turned on.
In this mode, the L-L100 Reader is directly connected to the host PC via the DB25 parallel port
connector. Reader commands are only accessed using the L200 Explorer software.
1.
Connect the antennas to the required inputs, according to application specifications.
2.
Connect the L-L100 Reader monitoring port to the PC using the shielded parallel cable.
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Installation
3.
Connect the L-L100 Reader to the AC supply.
4.
Start the L200 Explorer software application.
You can now configure the RPU of your L-L100 Reader as desired and start using most L-L100
Reader functions.
Test/Setup Mode is only available when using L200 Explorer Software. In this mode, certain
Data Processing Unit functions cannot be accessed.
7.4.2
Main Operating Mode
In Main Operating mode, the Data Processing Unit (DPU) is the RPU Host. The DPU can access
the DSP memory via the HPI interface.
When the L-L100 Reader Main Operating Mode is used, the DPU is the interface between the RPU
and the environment. In that case, the DPU can exchange data with a host system through the
embedded serial port interface.
When the Main operating mode is used, the host system is not connected to the RPU. In
other words, when the host system requires a command which must be executed by the RPU,
the GemCore OS receives this request and sends the corresponding command to the RPU.
The Main Operating mode is also designed for using the L-L100 Reader as a standalone device,
without a host.
Once the RFID system has been completely defined and it is ready for an industrial application, the
L-L100 Reader can be interfaced to specific network systems and various communication
protocols. This interface is implemented using custom DPU Application Software.
The command set and communication protocol between the DPU and the RPU are
completely defined by the DSP Firmware. It therefore cannot be customized.
On the other hand, the command set and the communication protocol between the DPU and
the L-L100 Reader Host are defined by the DPU application software. Developing new DPU
application software makes it possible to interface the L-L100 Reader with new environments
and to communicate using new protocols.
Figure 8: Main Operating Mode
L-L100 Reader
Radio Processing Unit
Radio Frequency
Channel 1
Data Processing Unit
DSP
Unit
I/O
Interface
Channel 2
HPI
Interface
GemCore
OS
Tags
April 2003
External I/Os
Serial
Interface
STX-E Protocol
(Serial Port)
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Library L100 Reader User's Guide
CAUTION: The antenna MUST be connected to the reader unit before the reader is turned on.
When your application is fully developed and ready for use, configure the Main Operating mode:
1.
Connect the antennas to the required inputs, according to application specifications.
2.
Connect the L-L100 Reader serial port to the PC or to the terminal using a serial cable.
3.
Connect the pull-up supply and I/O ports if required.
4.
Make sure that the monitoring port is not connected to the parallel cable.
5.
Connect the L-L100 Reader to the AC supply.
The Application software stored in Data Processing Unit is now running and the application is
ready for use.
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Multiplexing Configuration
8 Multiplexing Configuration
The L-L100 Reader is designed with two transmit channels but with only one receive channel. This
means that each antenna can transmit an RF field used to read tags, but tag contents can only be
read by one antenna at a single time.
Tag reading performance can be enhanced by using the L-L100 Reader to perform read
operations on both antennas one after the other.
In addition, a phase shift can be applied between Antenna 1 and Antenna 2 for 3-D rotating field
applications.
These parameters are selected in Multiplexing mode which allows the user to completely define a
system based on its multiplexing configuration.
In particular, the following parameters are defined by the multiplexing mode:
•
the transmitting antennas,
•
the phase shift between the antennas,
•
which antenna is read, and for how long.
8.1
Windows™ DLLs
The Library Windows™ DLLs automatically manage multiple-antenna applications for the L-L100
Reader.
The DLLs take advantage of multi-channel readers (L-L100 Library) for both reading and writing
using several specific functions. For more information, refer to the Library Windows™ DLL
Programming Guide.
8.2
STX-E Protocol
The STX-E Protocol can be used to develop dedicated application programs. For more information,
refer to the MedioSTX DLL Programming Guide.
Multiplexing information is organized into patterns. A sequence contains between one and eight
patterns that are applied one after the other in a loop. The L-L100 Reader can only store a single
sequence.
Figure 9: Sequence of Patterns in a Loop
Pattern 1
Pattern 2
Pattern 3
...Pattern n
If n patterns are defined
The multiplexing mode enables the user to implement several combinations on the basis of this
physical configuration. The following paragraphs provide implementation examples and show how
to choose the pattern.
8.3
Scanning (Reading)
The scanning parameters define which antenna is read (receives tag information), when it is read
and for how long.
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For each pattern, the transmitting antennas will be read a set number of times. The number of
scans defines the global number of antenna read operations to be performed on each pattern. The
order in which antennas are read is always: Antenna 1 (if selected) and then Antenna 2 (if
selected).
The number of scans is common to all patterns, regardless of the number of antennas selected in
the pattern.
Each pattern is executed for the same length of time regardless of the number of antennas
selected in the pattern.
The duration of each scan period is defined as follows:
•
For Reader Talks First (RTF) smart labels, the scanning duration gives the number of Read
commands sent to the tags during a single scan period. (Minimum Recommended Scan
Duration is 20 Read commands)
For RTF tags, L-L100 Reader must send a Read command to tag for it to be read.
•
For Tag Talks First (TTF) smart labels, the scanning duration gives the time during which
the reading process is activated on one antenna during a single scan period. (Minimum
Recommended Scan Duration is 100 ms.)
When a TTF tag is detected, the read operation will be completed even if the scan duration
period has expired. In other words, the actual scan duration may be longer when a TTF tag is
processed at the end of the scan period.
For more information about Scan Number and Scan Duration parameters, refer to the example
given in Section 8.5.3, "Enabling each Antenna separately and then both at once".
8.4
3-D Rotating Field Applications
Phase shifts can be used to detect tags in a 3-D rotating field application. Phase shifts of 0°, 90°,
180° or 270° are available.
In this case, both antennas must be enabled (transmitting) simultaneously in order for the two
phases to create a 3-dimensional RF field.
8.5
Pattern Examples
8.5.1 Enabling one Antenna after Another
This is the most common example of a tag-reading pattern and requires the use of two patterns.
The first one enables only Antenna 1, while the second enables only Antenna 2.
In Pattern 1, Antenna 1 is enabled and then the detected tags are read. Afterwards in Pattern 2,
Antenna 1 is disabled, Antenna 2 is enabled and then the detected tags are read.
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Channel
Pattern 1
Enabled
Disabled
Pattern 2
Disabled
Enabled
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Multiplexing Configuration
The advantage of this configuration is that the two antennas are not enabled at the same time,
reducing interference.
8.5.2 Enabling both Antennas Simultaneously
This configuration is implemented with only one pattern which enables Antennas 1 and 2 at the
same time. This configuration is best used for detecting smart labels in 3-dimensional rotating field
applications. For more information, refer to Section 8.4, "3-D Rotating Field Applications".
In this case, a phase shift should be applied to one of the antennas in order to create a 3-D RF
field.
Both Antennas 1 and 2 are enabled and the tags detected by Antenna 1 are read and then the
tags detected by Antenna 2 are read. (Only one channel can be read at a single time.)
Channel
Pattern 1
Enabled
-Enabled
8.5.3 Enabling each Antenna separately and then both at once
Depending on the application requirements, in this configuration each antenna can be enabled
separately and then both at once.
In order to implement this configuration, three patterns are necessary. The first one enables only
Antenna 1, the second enables only Antenna 2 and the third enables both Antennas 1 and 2.
Channel
Pattern 1
Enabled
Disabled
Pattern 2
Disabled
Enabled
Pattern 3
Enabled
-Enabled
In this example, the scanning parameters must be carefully selected. As both the Scan Number
and Scan Duration parameters are the same for all three patterns, if the Scan Number is set to 1,
Antenna 2 in Pattern 3 will not be read.
If the Scan Duration is set to 100 ms. and the Scan Number is set to 2, the tags detected by
Antenna 1 will be read twice (for 100 ms each time) in Pattern 1, then the tags detected by
Antenna 2 will be read twice (for 100 ms each time) in Pattern 2. In Pattern 3, the tags detected by
Antenna 1 will be read once for 100 ms. and then the tags detected by Antenna 2 will be read once
for 100 ms.
In the event that the Scan Number parameter is set to 3, the tags detected by Antennas 1 and 2
are read three times in Patterns 1 and 2, respectively. In Pattern 3, the tags detected by Antenna 1
are read once, then the tags detected by Antenna 2 are read once, and then the tags detected by
Antenna 1 are read a second time.
Each pattern will be executed for the same amount of time regardless of the number of
antennas selected in the pattern.
This duration is equal to the Scan Number x Scan Duration.
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Library L100 Reader User's Guide
9 I/O Ports
The L-L100 Reader features four I/O ports. All four I/O ports can be configured independently as a
general purpose input or output.
Depending on the Application software downloaded in the DPU, the I/O port may command a
relay, trigger specific commands (Windowing…) or read input signals.
The I/O Port is controlled by the DPU with commands using STX protocol. This means that
I/Os are not controlled by the RPU which uses DLLs.
9.1
General Purpose I/Os
Each I/O can be configured independently as an input or output.
When an I/O is configured as input, it can be used to connect sensors or industrial logic commands
to execute a specific task. For instance, the L-L100 Reader can execute a smart label Read
command according to the logical level of the input command.
When the I/O is configured as output, it can command a relay or any other transducer.
•
Input:
•
Output: Open drain, 250 mA (maximum).
9.2
Industrial logic (0V to 28V) TTL-compatible.
Internal Connections
This paragraph describes I/O electronic schematics when the configuration is set to input or output.
It also gives the characteristics of the VOUT supply which is available on the I/O port.
9.2.1 Input Configuration
Figure 10: I/O Configured as Input
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I/O Ports
9.2.2 Output Configuration
Figure 11: I/O Configured as Output
9.2.3 VOUT Characteristics
Figure 12: VOUT Characteristics
VOUT:
•
Output DC 28V.
•
Output current max: 100 mA
9.3
Input Configurations
When an I/O port is configured as an input, the external logic signal must be connected directly to
the input (0V-24V) of the requested I/O port. If the output of the external logic signal is an opencollector output, the VIN signal must be connected to a supply (VOUT or external supply) or to the
ground to pull up/down the I/O port. In this case, all the grounds must be connected together
(external logic, external supply and L-L100 Reader ground supply). The following examples show
how to connect a signal (from a sensor, a push-button, etc…) to the L-L100 Reader.
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Library L100 Reader User's Guide
Figure 13: Connecting a “Totem-Pole” Sensor
Figure 14: Connecting an “Open-Collector” Sensor (N Type)
Figure 15: Connecting an “Open-Collector” Sensor (P Type)
9.4
Output Configurations
When an I/O port is configured as an output, the VIN signal must be connected to a supply to pull
up the I/O port when it is not activated. Setting the I/O port pulls down its output to the GND. VOUT
supply may be used to supply VIN signal and the external load. The following examples show how
to connect a load ( a relay, a light, etc.) to the L-L100 Reader using the internal supply (VOUT) or an
external supply.
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I/O Ports
Figure 16: Connecting a load using the internal supply (VOUT)
Using an external supply
Figure 17: Connecting a load using an external supply
When the I/O port is set, the relay is activated. When the I/O port is reset, the relay is not activated.
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Library L100 Reader User's Guide
10 Calibration
The L-L100 Reader features an innovative technology based on Digital Signal Processing (DSP) to
optimize long-distance reading and writing performances.
In particular, the L-L100 Reader is very efficient even in industrial and noisy environments.
Environmental conditions can vary significantly according to the application-specific factors such as
antenna size, output power, machines close to the L-L100 Reader, etc. Such parameters can
create noise around the RFID system.
In order to optimize the performance of your RFID system, it is possible to calibrate the L-L100
Reader. The calibration consists of selecting the best trigger threshold used to capture and decode
a smart label signal. The trigger threshold value corresponds to the sensitivity of the L-L100
Reader making it possible to differentiate a smart label signal from a noise signal.
If the trigger threshold value is too low, the L-L100 Reader may start decoding a signal which
actually is a noise signal. In this case, the decoding efficiency of the L-L100 Reader may decrease.
If the trigger threshold value is too high, the L-L100 Reader will not decode a low-magnitude smart
label signal (because it treats it as an ambient noise signal). In this case, reading distance
performance may decrease.
Ultimately, a compromise must be selected to find the best trigger threshold value.
The L200 Explorer application defines the optimized trigger threshold value. Please refer to the
L200 Explorer User’s Guide for further information.
Default trigger threshold values stored in the L-L100 Reader upon delivery depend on the smart
label type. These trigger values are optimized for Aero-LI, L-SA1 and L-SA2 antennas at middlerange power.
The calibration process is only available for C210, C220 and C240 tag types.
CAUTION: C210 and C240 decoding algorithms have been modified to improve L-L100
Reader performances. It is possible that trigger values optimized for L-L100 Reader
Firmware releases previous to version 3.0 must be changed when using version 3.0 or more
recent.
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Debugging
11 Debugging
11.1 Debugging Tools
The L-L100 Reader features debugging tools to optimize your RFID system installation and
communication with the tags.
Debugging tools can only be accessed with the L200 Explorer Software and consist of:
•
A real-time oscilloscope to display the antenna signals received by the L-L100 Reader,
•
A real-time frequency analyzer to display the frequency information of the Antennas signal,
•
Some statistic information about the quality of your RFID System environment
Please refer to “Medio L200 Explorer User’s Guide” for further information about debugging
tools.
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Library L100 Reader User's Guide
12 Technical Specifications
12.1 Technical Specifications
Table 3: Technical Specifications
Parameter
Value
Size (L x W x H)
310 x 260 x 80 mm. (12.2 x 10.2 x 3.1 in.)
Weight
4.5 kg. (10 lbs.)
Power Supply
85 to 265 V AC / 50/60 Hz
Chip compatibility
TAGSYS C220 (Firmware upgrade required for
other chips)
Communication Speed
Serial: Up to 38.4 Kbps
Parallel: Up to 200 Kbps
Communication Interface
Serial: RS-232, RS-485 and RS-422
Parallel: Bi-directional and Enhanced
RF Output Power
Up to 4 W with multiplex capability and balanced
0° / 90° / 180° operation
Power Consumption
Up to 40 W
Operating temperature
0°C / +55°C (+32°F / +131°F)
Storage temperature
-20°C / +70°C (-4°F / 158°F)
Mechanical Interface
Rubber pads (Desktop) or metal mounting plate
(with screws for vertical installation)
Conformity
CE, UL
EN 300-330, ETS 300-683 European Radio
FCC Part 15 (for typical configurations)
Reading/Writing Distance
Up to 120 cm (47¼ inches) in a gated antenna
configuration
Antenna Compatibility
50-Ohm antenna
Application Software
512 KB of Flash memory
Inputs/Outputs
4 I/O ports independently configurable
12.2
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Technical Specifications
12.3 Serial Port Pin Assignment
Figure 18: RS-232 Serial Link Connector Diagram
Connector
Description
Connector
Description
NC
TRx+ RS485/ Rx+ RS422
Rx RS232 / TRx- RS485 / Rx- RS422
NC
Tx RS232 / TRx- RS485 / Tx- RS422
NC
NC
TRx+ RS485/ Tx+ RS422
NC
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Library L100 Reader User's Guide
13 Electrical Characteristics
This chapter provides information about AC and DC electrical characteristics for all pins. It also
gives timing characteristics for the different interfaces.
13.1 Absolute Maximum Ratings
Parameter
Ambient Operating Temperature
Value
0°C to +55°C
Storage Temperature
-20°C to +70°C
Supply Voltage (VCC pin) with respect to GND
6V
Shutdown Voltage (SHDW pin)
6V
Total Power Dissipation
0.8 W
Total Power Dissipation on Antenna (ANT pin)
0.2 W
DC Current Allowed on VCC Pin
200 mA
Peak Current Allowed on VCC Pin
400 mA
Input Voltage on IOx, Signal Detection and TX_TTL pins
5V
Output Current Sunk by IOx, Signal Detection and TX_TTL pins
20 mA
Output Current Sourced by IOx, Signal Detection and TX_TTL pins
20 mA
Input Voltage Range on RX_RS232 pin
±25 V
ESD Protection on RX_RS232 and TX_RS232 pins
±15 kV
13.2 Standards Compliance
The L-L100 Reader is compliant with the following standards:
CE
ARIB T60 (Japanese Radio Standard Compliance)
ETSI 300-330 (European Radio Compliance)
The L-L100 Reader is also compliant with FCC part 15 regulations.
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Electrical Characteristics
13.3 Power Supply DC Characteristics
Parameters
Conditions
Min. Typ. Max. Unit
VCC Power Input Voltage
VCC Power On Input Peak
Current
300
VCC Power On Input Peak
Current Recovery Time
mA
10
VCC Input Current (No I/Os
connected*)
Comments
ms
Input Voltage = 4V
185
mA
Input Voltage = 5V
140
mA
Input Voltage = 6V
115
mA
Input Voltage = 4V
25
mA
Input Voltage = 5V
20
mA
Input Voltage = 6V
18
mA
All peripherals powered
RF On
All peripherals powered
RF Off
Input Voltage = 4V
14
mA Sleep Mode (firmware)
Input Voltage = 5V
12
mA
Input Voltage = 6V
10
mA
Input Voltage = 4V
340
µA
Input Voltage = 5V
420
µA
Input Voltage = 6V
500
µA
Shutdown State (Pin)
(*) : The power requirements of a connected I/O increase the reader total consumption.
Figure 19: Input Current vs. Temperature
(VCC Pin at 5 V – RF On - No I/O Connected)
Input Current (mA)
150
100
50
-10
10
20
30
40
50
60
Temperature (°C)
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Library L100 Reader User's Guide
13.4 Communication Link DC Characteristics and Timing
Parameters
Conditions
Min.
RX_TTL Input Voltage Low
RX_TTL Input Voltage High
RX_TTL Input Current
Typ.
Max.
Unit
µA
TX_TTL Output Voltage Low
0.6
TX_TTL Output Voltage High
4.3
TX_TTL Output Current
20
µA
TX_TTL Output Capacitance
50
pF
+25
RX_RS232 Input Voltage Range
-25
RX_RS232 Input Threshold Low
25°C
RX_RS232 Input Threshold High
25°C
0.8
RX_RS232 Input Resistance
TX_RS232 Output Voltage Swing
Loaded with 3 kW to
GND
TX_RS232 Output Resistance
1.5
2.4
1.8
2.4
kΩ
±5
±5.4
300
1000
kΩ
TX_RS232 Short-circuit Current
ESD Protection on both pins
RX - TX error on baud rate
±60
40/45
mA
IEC 1000-4-2 AirGap Discharge
±15
kV
IEC 1000-4-2
Contact Discharge
±8
kV
Human body model
±15
kV
4800 Bps
+0.16
9600 Bps
-1.36
19200 Bps
+1.73
38400 Bps
+1.73
7.5
ms
TX Inter-character time
Revision 3.1b
Sunk or sourced
1.8
RX_RS232 Input Hysteresis
Comments
April 2003
Electrical Characteristics
13.5 Antenna Electrical and Timing Characteristics
Parameters
Conditions
Min.
Typ.
ANT output power
ANT output impedance
Max.
Unit
Comments
(50, 0)
(Ω, °)
RFOn time to RFOff
End of reception on RX
to ANT.
RF field turns on
1.3
1.4
ms
RFOff time to RFOn
End of reception on RX
to ANT.
RF field turns off
4.2
50
µs
At 13.56 MHz
Figure 20 : Output Power vs. Temperature
(VCC Pin at 5 V – RF On - No I/O Connected)
300
Output Power (mW)
250
200
150
100
50
-10
10
20
30
40
50
60
Temperature (°C)
Figure 21: Antenna RF Switch Time
RX_RS232
tRFon
ANT
Output
tRFoff
ANT
Output
April 2003
Revision 3.1b
41/45
Library L100 Reader User's Guide
13.6 I/O Electrical and Timing Characteristics
Parameters
Conditions
Min.
Typ.
Max.
Unit
0.8
I/Ox input voltage low
I/Ox input voltage high
I/Ox input current
µA
I/Ox output voltage low
I/Ox output voltage high
I/Ox output current
mA
I/Ox output capacitance
pF
tCV (time to change value)
End of reception on
RX to I/Ox level
changed
35
40
µs
tGV (time to get value)
End of reception on
RX to I/Ox level
read
33
38
µs
tFR (time to fall or rise)
Fall/rise time
10
25
ns
Comments
Sunk or
sourced
Figure 22: I/O DC Characteristics and Timing
RX_RS232
tCV
IOx
Output
tFR
tGV
IOx
Input
42/45
Revision 3.1b
April 2003
Warranty Conditions
14 Warranty Conditions
14.1 Warranty
TAGSYS warrants that this Product shall comply with the functional specifications set forth herein
for a period of one year from the date of delivery to the Buyer.
This warranty is valid for the original Buyer of the Product and is not assignable or transferable to
any other party.
TAGSYS cannot be responsible in any way for, and disclaims any liability in connection with the
operation or performance of:
any product in which the Product is incorporated;
any equipment not supplied by TAGSYS which is attached to or used in connection with the
Product; or
the Product with any equipment
This warranty does only cover the Product to the exclusion of any such other equipment.
Optimal operation and performance of the Product are obtained by using TAGSYS’ readers, by
applying TAGSYS installation guidelines and by having your installation reviewed by a TAGSYS’
technical consultant.
TAGSYS warranty does not cover the installation, maintenance or service of the Product and is
strictly limited to the replacement of Products considered as defective by TAGSYS and returned
according to the return procedure defined below; in such case, TAGSYS will, at TAGSYS’ option,
either replace every defective Product by one new Product or refund the purchase price paid by
Buyer to TAGSYS for the defective Product.
14.2 Warranty Exclusions
Defects or damages resulting from storage of the Product under conditions which do not
comply with TAGSYS specifications or normal usage
Defects or damages resulting from use of the Product in abnormal conditions (abnormal
conditions being defined as any conditions exceeding the ones stated in the product
specifications).
Defects or damages from misuse, accident or neglect.
Defects from improper testing, operation, maintenance or installation.
Defects from alteration, modification except modifications or adjustments specifically described
in this Product reference guide, adjustment or repair, or any attempt to do any of the foregoing,
by anyone other than TAGSYS.
Any action on Product that prevents TAGSYS from performing an inspection and test of the
Product in case of a warranty claim.
Tampering with or abuse of the Product.
Any use or incorporation by the Buyer or a third party of TAGSYS' Product into life saving or life
support devices or systems, or any related products, TAGSYS expressly excludes any liability
for such use.
April 2003
Revision 3.1b
43/45
Library L100 Reader User's Guide
14.2.1 General Provisions
This warranty sets forth the full extent of TAGSYS responsibility regarding the Product.
In any event, TAGSYS warranty is strictly limited to (at TAGSYS’ sole option) the replacement or
refund of the Products purchase price to TAGSYS, of Products considered as defective by
TAGSYS.
The remedy provided above is in lieu and to the exclusion of all other remedies, obligations or
liabilities on the part of TAGSYS for damages, whether in contract, tort or otherwise, and including
but not limited to, damages for any defects in the Products or for any injury, damage, or loss
resulting from such defects or from any work done in connection therewith or for consequential
loss, whether based upon lost goodwill, lost resale profits, impairment of other goods or arising
from claims by third parties or otherwise.
TAGSYS disclaims any explicit warranty not provided herein and any implied warranty, guaranty or
representation as to performance, quality and absence of hidden defects, and any remedy for
breach of contract, which but for this provision, might arise by implication, operation of law, custom
of trade or course of dealing, including implied warranties of merchantability and fitness for a
particular purpose.
14.2.2 How to Return Defective Products
The Buyer shall notify TAGSYS of the defects within 15 working days after the defects are
discovered.
Defective Products must be returned to TAGSYS after assignment by a TAGSYS Quality
Department representative of an RMA (Return Material Authorization) number. No Products shall
be returned without their proof of purchase and without the acceptance number relating to the
return procedure.
All Products shall be returned with a report from the Buyer stating the complete details of the
alleged defect.
Call +33 4 91 27 57 36 for return authorization and shipping address.
If returned Products prove to be non-defective, a charge will be applied to cover TAGSYS’ analysis
cost and shipping costs.
If the warranty does not apply for returned Products (due to age, or application of a warranty
exclusion clause), a quote for replacement will be issued, and no replacement will be granted until
a valid purchase order is received. If no purchase order is received within 30 days after the date of
TAGSYS quote, TAGSYS will return the products and charge the analysis cost and shipping costs.
All replaced Products shall become the property of TAGSYS.
The Product Return Form is included on the following page. This form should accompany any
product you need to return to TAGSYS for analysis in the event of a problem.
44/45
Revision 3.1b
April 2003
Warranty Conditions
TAGSYS Product Return Form
Customer Profile:
Company:……………………………………………
Address:…………………………………...…...……
……………………………………………………….
City & State:……………...……………………….
Zip Code:……………………………………………
Country:……………………………………………..
Contact Name:………………………………………
Contact e-mail:
………………………………………
Contact Phone:……………………………………
Contact Fax:………………………………………..
Order identification:
Product Name:……………………………………..
Order Number (OEF):.……………………………
Invoice Number:……………………………...……
Return Quantity: …………………………………
Reason for return:
…………………………….………………………………………………………………………………………
…………………………….………………………………………………………………………………………
…………………………….………………………………………………………………………………………
…………………………….………………………………………………………………………………………
…………………………….………………………………………………………………………………………
…………………………….………………………………………………………………………………………
…………………………….………………………………………………………………………………………
To inform TAGSYS of this return, please email it to:
valerie.guenegan@tagsys.net and to catherine.thouvenin@tagsys.net
Address to ship the product with this document attached:
TAGSYS
180, chemin de Saint Lambert
13821 la Penne sur Huveaune
FRANCE
To inform TAGSYS of this return, please also fax it to your Customer Service Representative
+33 (0) 4 91 27 57 01
Return Procedure:
The product returned will go through stringent quality controls.
A final analysis report will be sent to you as soon as possible.
Please contact the quality representative for further details
+33 (0) 4 91 27 57 36
April 2003
Revision 3.1b
45/45

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