Ingenico IUP250-RF Payment Terminal User Manual Integration Manual

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Date Submitted	2012-08-10 00:00:00
Date Available	2012-08-10 00:00:00
Creation Date	2012-08-07 17:53:58
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Document Lastmod	2012-08-07 17:53:58
Document Title	Integration Manual
Document Creator	Microsoft® Word 2010
Document Author:	FRWS

Intégration Guide
iUP 250 & iUR 250
Ingenico – 28-32 Boulevard de Grenelle - 75015 PARIS
Tél. 33(0)1 58 01 80 00 - Fax 33 (0)1 58 01 91 35
The scope of this document is to assist third party integrators when dealing with
Ingenico UNattended products (iUN) such as iUP250 and iUR250, both certified PCI
PTS 3.x, or others. It offers all information needed for a successful integration of
iUP250 and iUR250 products into unattended kiosk machines.
For any sales information please refer to your Ingenico contact into the region.
Updates table
Version
1.0
2.0
Date
17/11/2011
01/06/2012
Intégration Guide_iUP250&iUR250
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Nature of modifications
First version
Official version
2/83
Author
D.GEORGES
D.GEORGES
Visa
Copyright © 2012 Ingenico
All rights reserved
Table of contents
GENERAL .............................................................................................................6
1.1
Definition of acronyms .....................................................................................6
1.2 iUP250 & iUR250 payment solution presentation ..........................................7
1.2.1 Diagram of iUP250 & iUR250 connectivity and communications ..................8
1.2.2 Examples of integration ................................................................................9
1.2.3 Services ......................................................................................................10
1.3 Description of modules ..................................................................................11
1.3.1 iUP250 ........................................................................................................11
1.3.1.1 Technical Hardware characteristics ......................................................12
1.3.1.2 iUP250 output connectors description ..................................................14
1.3.1.3 SAM & µSD Installation ........................................................................22
1.3.1.4 Buzzer ...................................................................................................22
1.3.1.5 RGB backlight .......................................................................................23
1.3.1.6 Maintenance Button ..............................................................................23
1.3.1.7 Cable Protection ...................................................................................24
1.3.1.8 Antenna Installation ..............................................................................25
1.3.1.9 PINPad and Reader interconnectivity ...................................................26
1.3.2 iUR250 ........................................................................................................27
1.3.2.1 Technical Hardware Characteristics .....................................................28
1.3.2.2 iUR250 output connectors description ..................................................29
1.3.2.3 RGB Leds .............................................................................................31
1.3.2.4 iUR250 Optional Lever Lock .................................................................31
1.4
Professional installation Requirement .........................................................32
MAIN ACCESSORIES ........................................................................................33
2.1.1 Generality ...................................................................................................33
2.1.2 Optional PINPad-to-Reader USB cable ......................................................33
2.1.3 iUP250 Power supply .................................................................................33
2.1.4 Stand-by management cable ......................................................................33
2.1.5 Optional Pinshield .......................................................................................34
SOFTWARE ........................................................................................................37
3.1 iUP250 ..............................................................................................................37
3.1.1 Software Architecture .................................................................................38
3.1.2 Secure management of software ................................................................39
3.1.3 Operating system ........................................................................................40
3.1.4 TELIUM MANAGER ...................................................................................41
3.1.5 Software downloading ................................................................................43
3.1.6 Development station ...................................................................................45
3.2
iUR250 .............................................................................................................47
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3.2.1
3.2.2
3.2.3
Software architecture ..................................................................................48
Software security management ..................................................................48
Operating system........................................................................................49
TERMINAL MANAGEMENT SYSTEM ...............................................................50
4.1
Introduction .....................................................................................................50
4.2
Basic functions ...............................................................................................50
4.3
Advanced functions .......................................................................................50
4.4
Customers savings with Ingenico TMS solution .........................................50
INSTALLATION PROCEDURE IN KIOSKS .......................................................51
5.1
Security requirement ......................................................................................51
5.2
Kiosk mechanical requirements ....................................................................51
5.3
General installation recommendations .........................................................51
5.4 Kiosk suggested layouts for iUR250 IUP250 ................................................51
5.4.1 Vertical PINPad above the reader ..............................................................52
5.4.2 Leaned backward PINPad above vertical reader ........................................53
5.4.3 Leaned forward reader above leaned backward PINPad ...........................54
5.4.4 Optional pinshield layout considerations .....................................................55
5.5
Kiosk water ingress consideration ...............................................................55
5.6
Kiosk cooling consideration ..........................................................................55
5.7
Kiosk grounding consideration .....................................................................56
ASSEMBLY PROCEDURE FOR IUR250 CARD READER ................................57
6.1
Kiosk minimum volume for iUR 250 ..............................................................57
6.2
Kiosk preparation for iUR250 installation.....................................................58
6.3
Installing the Reader iUR250 .........................................................................59
6.4
Water evacuation consideration....................................................................60
6.5
Connecting the iUR250 to the kiosk ground ................................................61
ASSEMBLY PROCEDURE FOR IUP250 PINPAD .............................................62
7.1
Kiosk minimum volume for iUP250 ...............................................................62
7.2
Kiosk preparation for iUP250 new installation .............................................63
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7.3
Installing the iUP250 PINPad in new kiosk ...................................................64
7.4
Kiosk preparation for iUP250 installation as replacement of i9530 product
65
7.5
Installing the iUP250 PINPad as replacement of i9530 ................................66
7.6
Connecting the iUP250 to the kiosk ground.................................................67
7.7 Installing the optional pinshield ....................................................................68
7.7.1 Installing the standard pinshield..................................................................69
7.7.2 Installing the Lighting pinshield ...................................................................70
8 INFORMATIONS ON IUC150 OR IUC180 CONTACLESS UNATTENDED
MODULES .................................................................................................................71
8.1.1 Kiosk mechanical requirements ..................................................................71
MAINTENANCE ..................................................................................................72
9.1
Configuration ..................................................................................................72
9.2
Products Commisionning ..............................................................................72
9.3
Reactivation ....................................................................................................73
9.4
Operating life...................................................................................................73
10
CLEANING INSTRUCTIONS ...........................................................................74
11
DISASSEMBLING THE PRODUCTS ACCORDING TO WEEE DIRECTIVE ..75
11.1
iUP250 End-of–life disassembly instructions ...........................................75
11.2
IUR250 End-of–life disassembly instructions ...........................................77
12
STANDARDS ...................................................................................................79
12.1
Electrical consumptions .............................................................................79
12.2
Temperature and humidity ..........................................................................79
12.3
Environmental specification continued .....................................................80
12.4
EC standard compliance marking ..............................................................80
12.5
IC statements ...............................................................................................81
12.6
Environment (WEEE, Batteries and Packaging) .......................................83
12.7
Security of your terminal.............................................................................83
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1 GENERAL
1.1 DEFINITION OF ACRONYMS
EMC
EMV
EVA
GND
GPRS
GSM
LCD
LLT
MDB
PCI
PIN
PSTN
PTS
RAM
RS232
SMA
Electro Magnetic Compatibility
Europay, Mastercard, Visa
European Vending Association
Ground
General Packet Radio Service
Global System for Mobile communications
Liquid Crystal Display
Local Loading Tool
Multi Drop Bus
Payment Card Industry
Personal Identification Number
Public Switched Telephone Network
PIN Transaction Security
Random Access Memory
Recommended Standard 232. A standard for serial binary communications
Secure Access Module – the chips storing the electronic cash register in a
stored value scheme such as Moneo, Proton or VISA Cash.
SubMiniature version A
USB
Universal Serial Bus
SAM
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1.2 IUP250 & IUR250 PAYMENT SOLUTION
PRESENTATION
The iUN series is the new range of Ingenico UNattended (iUN) devices to offer
payment into any kiosk through any segments (petrol, transport, vending, parking,
etc.).
The two first modules offered for contact cards and PIN management are:
 A PINPad, the iUR250,
 An Hybrid Card Reader, the iUR250.
These compact devices are designed to fit everywhere, thanks to an easy
installation, respectful of EVA standard (iUP250) and IMB standard (iUR250). Usage
can be indoor or outdoor, resisting to harsh environment.
Both products, certified PCI PTS 3.x, must be installed together into an environment
that must comply with several rules described into this document to remain PCI PTS
3.X certified.
Remarks:
 Additional peripherals can be added to build a complete solution such as
printer or bar code reader. Ingenico does not provide these devices so far but
they can be connected to the iUP250 (through, USB, or RS232).
 Ingenico is also offering other iUN modules dedicated to contactless like
iUC150 or iUC180. The iUC150 is the preferred contactless peripheral for the
iUP250+iUR250 system.
The iUN series is the next generation of Ingenico leveraging of experience from
previous product ranges, i9500 series or CAD30 series, to renew your experience of
unattended payment.
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1.2.1 Diagram of iUP250 & iUR250 connectivity and
communications
Ethernet
1USB device
Power supply
12 – 30 V
MDB slave
4 USB host
3A
Keypad/display
iUR250
Main Power
supply
Card Reader
iUR250
(Option)
Serial port com0
GSM / GPRS
(Option)
Bluetooth
(Option)
MDB master
(Option)
Serial port com2
Serial port com0
USB device
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1.2.2 Examples of integration
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1.2.3 Services
Training
Support
After-Sales Service
Downloading server centre
Softwares / Licences
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


















Installation and exploitation
Softwares
OEMC/M²OS development ( days)
EMV Level 2 package (2 days)
Development workstation SDK
Hot-line support
Technical assistance
Fixed cost repair of iUN products
User licence
Installation and commissioning
User training
Hot-line support
Technical assistance
User licence for local loading tool, LLT
User licence for applications software
User licence for M²OS
Licence for software signature tool, SAT
Licence for "EMV Level 2 package "
Licence for TCP/IP
…
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Copyright © 2012 Ingenico
All rights reserved
1.3 DESCRIPTION OF MODULES
1.3.1 iUP250
Front view
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1.3.1.1 Technical Hardware characteristics
iUP250 technical characteristics:
Mass
700 g
Dimensions
132 x 123 x 46 mm (height x width x
depth)
Operating conditions
Operational temperature*
-20°C,+55°C
Functional temperature*
-20°C, +65°C
Max relative humidity
85% at 55°C, non-condensing
Maximum backward
leaning
30 degrees from vertical
Power Supply
12 – 30 V max
Platform
Telium2
Memory
16 Mb SDRAM and 128 Mb Flash
3A
Keys: 17 metallic keys
128 x 64 graphic display
RGB Backlight
Buzzer
RGB led internal status indicator
Functionality
1 Maintenance Button
µSD
2 SAM
1 SIM (optional)
1 Jack for external lighting
wake-up mechanism on RS232
connectors
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Ethernet
GSM/GPRS (optional)
Bluetooth (optional)
Link
4 USB host (1.2 A total max)
1 USB device
2x RS232 (1 optional)
MDB slave
MDB Master (optional)
* 55°C is a maximum using temperature for user safety (IEC 60950). The product is operational up to
65°C with no tampering issue.
Storage conditions
Storage temperature
-20°C,+65°C
Max relative humidity
85% at 55°C, non-condensing
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1.3.1.2 iUP250 output connectors description
COM0 link
MDB slave
MDB master
SIM
2 SAM
µSD
Pinshield light output
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USB Device
USB hosts
Ethernet
Bluetooth Antenna
GSM Antenna
LLT/Maintenance LED
LLT/Maintenance Button
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1.3.1.2.1 Ethernet
The IUP250 PINPad unit can be connected to Ethernet. The connector type is
shielded RJ45.
The Ethernet cable is standard and not provided.
The Ethernet cable must be shielded.
1.3.1.2.2 USB device
The IUP250 PINPad unit can be connected by type B USB.
1.3.1.2.3 USB host
The iUP250 PINPad unit can drive 4 USB accessories. The connector is standard
type A.
The power available is limited to 1.2A Max dispatched between the 4 USB.
1.3.1.2.4 Wake-up mechanism
iUP250 is design to save power thanks to a “stand-by mode”.
To wake-up iUP250, press green key or use Wake-up mechanism.
Pin 2 of COM0 link & COM2 link drive the wake-up mechanism.
Wake-up pin state
Hz (high impedance)
Stand-by authorized
Drive to “0”
Wake-up / Stand-by unauthorized
The Wake-up pin is drive to “0” by the one asking the wake-up.
It could be driven by iUR250, iUP250 or any devices designed to be compliant (Host
device…).²
Do not connect
DC PLUG
PINPad
iUP 250
HZ => Stand-by
« 0 » => Wake-up
Card Reader
iUR 250
USB
USB
COM0 & 2
COM0
1 - GND
2 - Wake-up
1 - GND
2 - Wake-up
HZ => Stand-by
« 0 » => Wake-up
Any devices design to be compliant.
HZ => Stand-by
« 0 » => Wake-up
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1.3.1.2.5 COM0 link
The iUP250 PINPad unit can be connected to serial port COM0. The connector type
is RJ11.
Pin N°
Function
GND
Wake-up
RXD
TXD
CTS
RTS
1.3.1.2.6 COM2 link (optional)
The iUP250 PINPad unit can be connected to serial port COM2 if the option is
available. The connector type is RJ11.
Pin N°
Function
GND
Wake-up
RXD
TXD
CTS
RTS
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1.3.1.2.7 MDB Slave
iUP250 PINPad unit can be connected by MDB slave. The connector type is
MDB 6 pins (Mini – Fit series 87827 (MOLEX)). iUP250 is powered on the MDB
connectors by power supply 12 to 30V DC (30V is a maximum).
Pin N°
Function
Vin
GND
NC
MDBS_RXD
MDBS_TXD
MDBS_COMMUN
A ferrite B & F ELECTRONICS CO.,
LTD. ref MD-05-265C or equivalent must be
added on the power cable.
1.3.1.2.8 MDB master (optional)
The iUP250 PINPad unit can be connected by MDB master if option available.
The connector type is MDB master 8 pins (Mini – Fit series 87827 (MOLEX)).
iUP250 does not support EXE power supply. A ferrite Würth ref 74271222 or
equivalent must be added with two turns on the cable.
Pin N°
Function
NC
NC
NC
NC
MDBM_RXD
ISO_GND
MDBM_TXD
ISO_GND
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1.3.1.2.9 Pinshield light output
This connector is used to plug the pinshield with optional lighting.
Pin N°
Function
5V
HZ
Light off
“0”
Light on
WARNING:
This DC Jack is only an
output power supply for the
Lighting pinshield.
Plugin a DC power could
damage the iUP250.
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1.3.1.2.10
Bluetooth (optional)
When the iUP250 is ordered with Bluetooth option, it must be connected to an
external Bluetooth antenna.
Ingenico can provide an antenna, or a standard one can be used. This standard
Antenna must have an impedance of 50 Ohm and a maximum gain of 0 dBi.
Ingenico recommended antennas:
Antenna
type
bipolar
manufacturer
EAD
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gain
FBTS35024SM-ST
0dBi
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impedance
50ohm
Minimum Ingenico
cable
Reference
length
192023282
Copyright © 2012 Ingenico
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GPRS (optional)
When the PINPad unit is provided with GPRS functionality (configuration upon
request), the external antenna is not provided with the unit.
Ingenico can provide an antenna, or a standard one can be used. This standard
Antenna must have an impedance of 50 Ohm and a maximum gain of 3.5 dBi.
The SIM used for GSM functionality must be assigned to SIM slot.
Ingenico recommended antennas:
Antenna
type
manufacturer
bipolar
AMPHENOL
90-00234
1.7dBi
50ohm
179900131
bipolar
HIRSHMANN
MCA 18 90
MP
2.1dBi
50ohm
2.5m
189968573
bipolar
Giga concept
GC300M011-2500
2.2dBi
50ohm
2.5m
189963487
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impedance
Minimum Ingenico
cable
Reference
length
Copyright © 2012 Ingenico
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1.3.1.3 SAM & µSD Installation
1.
2.
3.
4.
5.
6.
Disconnect the iUP250 from the main power supply.
Open the SAM door by removing the screw.
Insert the SAM cards in SAM slot 1 and /or slot 2
Insert µSD card in µSD slot
Insert SIM card in SIM slot.
Slide the SAM door and screw.
SAM slot 2
µSD card slot
SIM slot
SAM slot 1
For SAM/SIM cards, take care of cards
orientation and do not push in excess the cards.
After insertion, the cards position is 4 mm
out of the products as shown on picture.
Cut angle
orientation
(SAMs)
Cut angle
orientation
(SIM)
1.3.1.4 Buzzer
The buzzer is controlled by application. The frequency depends of software.
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1.3.1.5 RGB backlight
The iUP250 has a RGB backlight controlled by applications.
Red backlight is used to indicate the following priority information:
·
Red backlight on steady: product has been tampered (Key erased, irruption).
·
Red backlight flashing slowly: product is disabled (Keys erased, no irruption).
·
Red backlight flashing quickly: product is out of order (Commissioning
needed).
1.3.1.6 Maintenance Button
The iUP250 has a maintenance button on the back.
- To enter LLT mode, press the button at power up or at restart, until the red led
lights on.
- To enter Maintenance mode, press the button at power up or at restart, until the
red led starts blinking.
- To restart the product, press the button until the blue led lights on.
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1.3.1.7 Cable Protection
A cable sealing sleeve is provided with iUP250 to protect the top of product against
water runoff.
Connect the cables, and snap in the part on the rear cover to cover the cables.
This sleeve also holds the antenna tool for GPRS and BT options.
Cable sealing sleeve clipped on back cover
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1.3.1.8 Antenna Installation
A tool is provided to help screwing the external antenna.
1. Remove the antenna tool from the cable sleeve.
2. Insert the SMA antenna cable through the slot of the antenna tool.
3. Slide the antenna tool over the SMA Cable connector.
4. Screw the cable.
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1.3.1.9 PINPad and Reader interconnectivity
Connection between the iUP250 and iUR250 is done through USB.
Plug the USB cable on iUP250 and iUR250 with a standard USB cable (not provided)
or with low profile Ingenico USB cable (spare part reference 29129367)
Warning :
iUP250 & iUR250 have to be grounded to respect IEC 60950.
The grounding connections must respect the following scheme.
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1.3.2 iUR250
Front view
Rear view
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1.3.2.1 Technical Hardware Characteristics
iUR250 technical characteristics:
Mass
700g without cable
Dimensions
148 x 108 x 73 mm (depth x width x
height)
Operating conditions
Functional temperature
-20°C,+65°C
Max relative humidity
85% at 55°C, non-condensing
Fixing Tilt
iUR250 must be horizontally fixed or
can be leaned up to 45° to evacuate
water
Power Supply
USB 5V
Platform
Telium2
Card interface
EMV level 1 and ISO 7816 (read &
write) T=0, T=1 and synchronous
cards
500 mA
Magnetic stripe: ISO 1 /2 /3 (read
only)
Buzzer
Functionality
RGB led indicator
Level lock (optional)
USB device
Link
RS232 connection only for wake-up
mechanism
Storage conditions
Storage temperature
-20°C,+65°C
Max relative humidity
85% at 55°C, non-condensing
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1.3.2.2 iUR250 output connectors description
USB Device
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Wake-up
connectt
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1.3.2.2.1 USB device
iUR250 reader unit can be connected by type A USB.
1.3.2.2.2 Wake-up mechanism
iUR250 is design to save power thanks to a “stand-by mode”.
To wake-up iUR250, insert a card or use Wake-up mechanism.
Pin 2 of COM0 link drive the wake-up mechanism.
Wake-up pin state
Hz (high impedance)
Stand-by authorized
Drive to “0”
Wake-up / Stand-by unauthorized
The Wake-up pin is drive to “0” by the one asking the wake-up.
It could be driven by iUR250, iUP250 or any devices designed to be compliant (Host
device…).
Card Reader
iUR 250
PINPad
iUP 250
HZ => Stand-by
« 0 » => Wake-up
USB
USB
COM0 & 2
COM0
1 - GND
2 - Wake-up
1 - GND
2 - Wake-up
HZ => Stand-by
« 0 » => Wake-up
Any devices design to be compliant.
HZ => Stand-by
« 0 » => Wake-up
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1.3.2.2.3 COM0 link
The IUR250 serial port COM0 is only available for debug feature and to manage
wake-up mechanism. The connector type is RJ11.
Pin N°
Function
GND
Wake-up
RXD (Not for customer use)
TXD (Not for customer use)
CTS (Not for customer use)
RTS (Not for customer use)
1.3.2.3 RGB Leds
The iUR250 contains RGB leds controlled by applications.
Red led is used to indicate the following priority information:
·
Red led on steady: product has been tampered (Key erased, irruption).
·
Red led flashing slowly: product is disabled (Keys erased, no irruption).
·
Red led flashing quickly: product is out of order (Commissioning needed).
1.3.2.4 iUR250 Optional Lever Lock
The Lever lock is controlled by application.
It may be used to forbid the withdrawal of the card during chip access.
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1.4 PROFESSIONAL INSTALLATION REQUIREMENT
Ingenico only sells its products, to qualified partners and integrators. They are in
charge of professionally resell, integrate, and install these products inside complete
solution for end customers.
These end customers solution can be:
 Petrol station.
 Ticketing kiosk (Airline tickets, cinema, transport, etc.)
 Vending machine operator
 Parking kiosk (On / off street)
 Other
Thus, the general public cannot purchase Ingenico hardware or software.
Partners, resellers, and Integrators must have qualified electronics engineers to be
able to install or integrate our products. Furthermore, they must follow a specific
technical training conducted by Ingenico technical experts.
In addition installation must follow Ingenico recommendations, as describe in this
document, in order to respect:
 Local regulations for Electrical Safety and Radio emission levels
 Ferrite beam installation
Our field support & maintenance engineers are available for follow up and
commissioning of installation.
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2 MAIN ACCESSORIES
2.1.1 Generality
For a complete description of Ingenico Accessories, please refer to iUN accessories
catalog.
2.1.2 Optional PINPad-to-Reader USB cable
The interconnection between the iUR250 and iUP250 is done with a standard USB
cable.
An optional USB cable with short right-angle overmolded connectors can be
purchased as an accessory. This cable is designed to optimize the required volume
for iUR250 & iUP250 installation in the kiosk.
2.1.3 iUP250 Power supply
Ingenico power supply can be ordered under reference 192017549 (only for 0 to
40°C use)
Input: Main voltage supply ranging from 100V to 240V
Maximum current of 3A
Working frequency range between 47Hz and 63Hz
Output: Regulated DC voltage 12V
2.1.4 Stand-by management cable
Under definition, specification available on demand.
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2.1.5 Optional Pinshield
Designed specifically for the iUP250, optional privacy shield is compliant with
EPC343-08.
There are 2 optional privacy shields: standard (no light) and lighting.
Standard pinshield
Front view
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Lighting pinshield
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Global dimensions
3D design on demand
Dimensions of the pinshield
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3 SOFTWARE
3.1 IUP250
The system unit, equipped with Telium2® technology, is designed with a
structure supporting several applications without any mutual interference.
The operating system is a multi-task, real time, preemptive system.
The inputs and outputs are managed by interrupts.
This provides for simultaneous processing of peripherals, thus increasing
system unit performance.
It is downloadable to FLASH memory.
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3.1.1 Software Architecture
Power up
Bootstrap
Resident
loading
System
Operating system
SAM
Local loading
Key
pad
Display µSD
Me
mory
USB
Telium manager
UCMC
Application manager
UCM component
Local
diagno
stics
Remote
diagnostics
Downloading
Applications
Transaction
Flow
USB slave/
PSU 5V
Management
CB Appli
Appli 2
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The software architecture is divided into four levels:
 System
 Multi-application manager
 Universal Controller Module Component (UCMC)
 Independent applications
The system manages access to all the terminal’s peripherals. Access is achieved
through standard C primitives for all the input/output peripherals (keypad…) and
through specific primitives for the other peripherals (smart cards and magnetic stripe
cards). Further, the system takes charge of memory management. It allocates
memory space to the software applications and access control.
The multi-application manager is the entity, which calls the various applications
downloaded in the terminal in response to the various events that occur in the
terminal.
The UCMC component interfaces between the applications and the peripherals
(PINPad, Reader, Printer…). This makes the applications independent of the
peripherals.
It can also manage the « transaction flow ».
The applications are modeled around the demands made by the multi-application
manager. Each request or input point represents a processing operation to be
performed. Each application manages the execution of these processing operations
according to its specifications. This standardization based on input points simplifies
the implementation of the applications on terminals. The terminal provides natural
access to the modularity concepts and improves the maintainability and quality of the
applications.
3.1.2 Secure management of software
The terminal is designed to execute authentic software only and to do this in a ranked
context.
The terminal performs the following checks:
1. During a software download, the terminal checks :
 Its authenticity, by checking its signature with the RSA algorithm with a
2048 bit key.
2. Before running a software, the terminal checks :
 Its presence by looking for the software’s identity.
 Its integrity by checking checksums and CRCs.
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3.1.3 Operating system
Bootstrap
Bootstrap is resident.
The bootstrap very briefly takes control of the terminal after each power up to perform
the initialization and the self-test. Then, it automatically runs the operating system,
which in turn starts the applications manager.
Thus, the Bootstrap provides the following functionalities:
 Memory and checksum self-test
 Local download of the operating system if absent
 Operating system authenticity check and start-up.
Operating system characteristics
The operating system is downloaded (locally or remotely) into the memory. It is
upgradeable. After a few fractions of a second following a power-up, the operating
system takes control. It checks the presence, integrity and authenticity of the system
components and application software present in the terminal.
The maintenance sub-system takes control in the following cases:
 if no authentic application is present,
 or, if a manual action is made by the operator during power up,
 or, if it is activated by an application.
The maintenance sub-system ensures, among other things, the downloading of the
application software.
The operating system ensures the start of the multi-task core and then runs the
applications by making a set of services available to them:
 Multi-task management: Availability of a pre-emptive real-time environment,
based on interruptions, events and mailboxes. This management enables
simultaneous processing, which improves the terminal’s performance.
 Input/Output management: This is carried out under interruptions, generally in
buffered mode. Thus, the application developer enters a “conventional” C
context.
 System alarm management: Certain incidents (e.g. swipe card reading error)
detected by the operating system are recorded. They can be used later by the
maintenance sub-system during remote or local diagnostics.
 Application alarm management: A number of incidents detected by the
applications can be saved by the operating system at their request. This
recording is used later as in the case of system alarms.
 Application isolation management: The operating system provides the
mechanisms described in the section on software isolation and memory
protection.
Inter-application isolation is managed by the Memory Management Unit
(MMU).
 Application download management : The operating system offers the
downloading services described in the « Software download » section.
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3.1.4 TELIUM MANAGER
The main functions offered by the manager are the following:
 Application management
 Terminal initialization
 Terminal maintenance
 Card Recognition and routing to the applications
When the EMV DC module is present, it selects the applications:
 EMV applications (EMV level 2 compliant)
 Non-EMV applications
In France, it is compatible with the following environments
 Health system
 French banking system
 "Private applications"
Terminal initialization
Required operating conditions
To operate, the system unit has to be equipped with its system, the application
manager, the UCMC and at least one application.
If no application is initialized, the application manager displays a message requesting
initialization for an application (in maintenance mode).
If at least one application is initialized, the terminal is operational. The application
manager then waits for an event to poll the applications loaded in the terminal.
Initialisation of common parameters (in maintenance mode)
The application manager is used to initialize the common parameters:
Date, time, message display language, IP network configuration data, local loading or
remote diagnostics.
System unit maintenance (in maintenance mode)
The system unit has maintenance functions.
 Properties
 Local downloading
 Diagnostics
Properties
The properties function is used to obtain the following information:
 List of applications loaded in terminal, version number, checksum, etc. The
application manager gives this information for itself and for the operating
system.
 Application call time: remote collection, loading, etc.
 Total number of transactions in each application file contained in system unit.
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Download
The downloading function uses the information supplied on initialization of the
application manager.
The program update function is used to update the system unit by:
 Using a special local loading tool connected to the terminal,
 Using a remote loading tool,
 Using a USB key. The iUP250 must be in maintenance mode with a USB key
containing the software to load plugged in. Then, launch the download by
using the manager menu
Diagnostics
The diagnostics function is used for:
 Local diagnostics (in maintenance mode)
The operator can request the incidents or alarms stored in the terminal.
The storage function implements two sets of elements:
o Incident counters: Used for « repetitive » incidents, for which only the
number of occurrences is significant. For example, number of incorrect
swipe reads.
o Events: Exceptional in nature. The information content depends on the
type of incident. Generally, this comprises the date, time and
information relative to the incident itself. The events are stored in a
rotating file where the most recent events are kept.

Remote diagnostics
This function is used by the operator to trigger a call to a server to dump the
information stored in the terminal. The server thus enriches a database by
which it can efficiently monitor a terminal population, or propose services such
as preventive maintenance, operating statistics, etc.

Diagnostics by USB key
Diagnostic files are copied to a USB key if present at start-up.
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3.1.5 Software downloading
Downloading
The software can be downloaded:



Locally via the serial link (COM or USB).
Remotely, via the switched telephone network (PSTN) using an external
modem, Ethernet, GPRS, TCP/IP network.
By a USB key. The iUP250 must be in maintenance mode with a USB key
containing the software to load plugged in. Then, launch the download by
using the manager menu.
The techniques used:




Data compression,
Authenticity checking,
Memory allocation management,
TCP/IP,
best optimize the software downloading operations.
These features provide faster downloading time, enhanced security, an ease in
upgrading, and a larger number of software installed on the system unit.
Local Loading Tool (LLT)
The LLT is used for local software download.
The LLT is formed by:
 A PC running with Windows Seven, Vista Pro, XP, 2003 Server, 2000
Professional SP2
 A INGENICO loading software,
 A PC-terminal connecting cable
Local loading is performed:
 From a PC equipped with the Local Loading Tool (LLT) on the COM serial or
slave USB link
 By automatic switching to the local loader of the operating system.
Two connections are possible:
 By COM link:
Speed 115200 bits/s
 By slave USB link:
Speed 8 Mbits/s approx.
Selection of the software to be loaded is guided on the PC screen by an Explorer
type Windows system (Windows loader).
Loading time for a 1Mo application is 4s by USB port.
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Loading by USB key
With the USB key loading method, the software is loaded locally with no need for a
PC type tool.
The loading time is identical to that of the USB.
Terminal Management Server (TMS)
For a complete description of the TMS possibilities, refer to the "TMS" section.
Loading and management of memory space in system unit
Before a (down)load, the system ensures that the necessary memory space is
available.
The software (possibly compressed) are downloaded to flash.
If software is deleted, the system frees the space. If software is upgraded, the system
loads the new software, checks it, and deletes the old version.
The entire memory area is used and is usable. No area is reserved for upgrades.
On start-up of the terminal (power up or reset), the applications are decompressed and the code is
copied to RAM.
Improved software downloading
Includes the following characteristics:
Softwares are loaded by FTP TCP/IP and PPP for optimized loading.







Downloading performance in V32bis is around 14, 4 kbps on the original files.
Once the connection is set up with the V32bis modem, a 120 Kbytes
application is downloaded in around 1 minute.
Automatic dialling and access to downloading server by switched telephone
network (STN) - with an external modem - using a public PAD or private PAD
access.
Downloading can be performed in IP mode via Ethernet via a secure channel
(SSL).
Data is compressed in accordance with an algorithm derived from the LempelZiv method ensuring compression rates of the order of 40 %.
For downloading, only the improved application will be downloaded.
This management function is handled by the system unit itself and not by the
remote server, providing enhanced functional security in a multiple source
loading context.
Recovery management in the event of loss of communication. This service
resumes the downloading which has been interrupted at the exact location
where the interruption took place, so that only the missing portion is
downloaded when the communication is recovered.
The downloaded software is run in a secure context by authenticity check.
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Downloading Starting
The downloading can be requested:

Using the application manager on maintainer request. This is the case, in
particular, where a program upgrade is concerned or when a new software is
added in the terminal memory. In this case, the procedure is simplified to the
utmost.
The user triggers the call from the application manager by choosing the upgrade
function in the menus and using the dialogue keys. Connection to the server takes
place automatically.
For an upgrade, the user has nothing to enter.
To request a new software, the user is guided on the screen in making his choice.
The identity of the business is not requested. The identity stored in the system unit is
automatically transmitted to the server.

Using the application software on request by the center or merchant (Example:
in France, by « envelopes").
In this case, downloading takes place entirely automatically. The downloading
ticket informs the merchant.
Local loading procedure on iUP250:







Trigger the LLT software on the PC.
Switch off the iUP250.
Connect the PC to the COM or slave USB connector of the iUP250
Press the rear button.
Switch on the iUP250.
When the led near the button becomes fix red, release the button. “LLT” text is
now displayed on screen.
Trigger the LLT and follow the instructions given in the « LLT User’s guide v4
» to load the software.
The parameter definition files must be placed in the "HOST" directory.
3.1.6 Development station
Introduction
With this development station, it is possible to develop application software for the
entire range of iUN products.
The software is written in high level C language in a multi-application environment.
Ingenico provides the complete set of software and the equipment required for
development. This also includes the documentations. Training sessions can also be
proposed.
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Required Configuration
The development station executes on a Pentium PC running under Windows
2000/XP/Vista/Seven.
Development tools for ARM such as a cross-compiler are required. These comprise:
 A C compiler (GNU), an assembler and a link editor for ARM and Thumb,
 A development environment,
 A remote debugger.
Supply
The SDK 30 development station comprises:




The user license for the M²OS software which includes:
o The operating system,
o The application manager,
o The libraries
o The associated documentation in PDF format
The user license for the Software Authentication Tool (SAT) software,
The user license for the Local Loading Tool (LLT),
The card reader and the RSA cards used to sign the applications.
SDK + Add On Unattended
For iUP250 + iUR250: minimum configuration SDK 9.2 and Add-On
Unattended 3.1 are required
Associated services
 Training
Development of applications on iUN
Duration: 1 day
Location: R&D center.
 Pre-requisites for training:
A good understanding of the C language is required. Familiarity with firmware can
be useful.
 Technical support
Duration: 6 months after the training
This includes the hot line, and updates to the documentations and softwares
during this period.
 Software package
A set of software packages, used to simplify development of applications (EMV
level 2, contactless…) is available.
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3.2
IUR250
The reader has a software architecture enabling execution of schemes (an
authentic program which handles secret data and manages PIN code entry)
without interfering with the operating system program.
By the preemptive and multitask features of the real time system and the
interrupt method for input / output handling, simultaneous management of
all the peripherals is ensured, enhancing PINPad performance.
Data can be loaded in the internal flash memory of the processor.
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3.2.1 Software architecture

Start up
The system manages access to all the reader’s peripherals. Access is completed via special
BOOT

Reside
nt loader
SYSTEM

Host
Protocol
FLASH
Other
Secure
management
Crypto
ISO1-2 - 3
CAM
backlight
buzzer
Local
Loader
Operating system
Memory

ROM
Bootstrap
Maintenance
System
magnetic stripe…)
primitives for the peripherals (memory card,
SCHEMAS
Further, the system takes charge of memory management. It allocates memory
space to the software applications and controls access.
3.2.2 Software security management
iUR250 is designed so that only authenticated software can be run in a ranked
context.
iUR250 checks the authenticity of the software by checking its signature with the
RSA algorithm with 2048 bits key size.
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3.2.3 Operating system
Bootstrap
Bootstrap is resident.
The bootstrap very briefly takes control of the terminal following each powering up to
perform the initialization and the self-test. Then, it automatically runs the OS, which in
turn starts the applications manager.
Thus, the bootstrap provides the following functionalities:
 Local download if the OS is absent;
 OS authenticity check and start-up.
Operating system (OS) characteristics
The OS is downloaded (locally or remotely) into the memory. It is upgradeable. After
a few fractions of a second following powering up, it takes control. It checks the
presence, integrity and authenticity of the system components and application
present in the terminal.
The maintenance subsystem takes control in the following cases:
 if a manual action by the operator is made when powering up;
 Or if it is activated by application.
The maintenance subsystem ensures, among other things, the downloading of the
applications.
The OS ensures the start of the multitask core and then runs of the application by
making a set of services available to them:

Multi-task management: Availability of a pre-emptive real-time environment,
based on interruptions, events and mail boxes. This management enables
simultaneous processing, which improves the terminal's performance.

Input/output management: This is carried out under interruptions, generally in
buffered mode. Thus, the applications developer enters a "conventional" C
context.

System alarms management: Certain incidents detected by the OS are
recorded. They can be used later by the maintenance subsystem during
remote or local diagnostics.

Tamper proof Application / System management: the operating system offers
the devices described in the data security section.
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4 TERMINAL MANAGEMENT SYSTEM
4.1 INTRODUCTION
Ingenico developed its own Terminal Estate Management System called
IngEstate. It is a link between an organisation with an estate of payment
terminals and their merchants. It allows users to remotely manage payment
terminals, modify their software content and interact with merchants.
4.2 BASIC FUNCTIONS





The basic functions are:
be able to locally download software on a terminal using a direct cable link
(usually RS232);
be able to remotely download software on a particular terminal using modems
and IP connections;
be able to remotely download applications and configuration updates to a
large estate of terminals;
be able to upload terminal configurations and check software status;
Be able to inform merchants when terminals are out of use during
maintenance periods.
4.3 ADVANCED FUNCTIONS
The advanced functions are extremely various, with new ones being requested
frequently:
 draw statistics and reports about terminal configurations;
 optimise automatic call scheduling/download balancing for large estates of
terminals;
 be able to display written messages on the terminal, using the display or the
printer;
 be able to easily configure a complete terminal (i.e. several applications) and
to download it in one operation;
 be able to analyse the status of terminal software and do only delta downloads
(i.e. only the parts that are damaged or need updates);
 be able to download to either a Peripheral or a terminal when connected;
 Customise the system easily;
 Integrate with systems such as SAP easily;
 … and many others.
4.4 CUSTOMERS SAVINGS WITH INGENICO TMS
SOLUTION
The most obvious cost saving is not having to send a technician to service the
terminal at the merchant location. Many other costs savings are derived from the
ability to have a “clean” estate; better diagnostics and remote software repairs mean
less shipping of replacement terminals, less downtime, less mail and phone
communication costs, more efficient update campaigns, etc.
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5 INSTALLATION PROCEDURE IN KIOSKS
Note: It is required to use ESD-protective clothing while handling these devices.
5.1 SECURITY REQUIREMENT
The integration must be done to be compliant with PCI requirement.
Payment Card Industry – PIN Transaction Security (PTS) - Modular Derived Test
Requirements Version 3.1 October 2011
Positioning of IUP250 on the unattended device must be in such way as to make
keypad spying difficult (according to PCI PTS - Modular Derived Test Requirements
Version 3.1 October 2011).
If the unattended device doesn’t provide such protection, an Ingenico privacy shield
option can be provided.
iUP250 and iUR250 must be mounted on the unattended machine as indicated in the
installation guide to activate removal detector.
CAUTION
NEVER ask the customer to divulge their PIN Code. Customers should be advised to
ensure that they are not being overlooked when entering their PIN Code.
5.2 KIOSK MECHANICAL REQUIREMENTS
The kiosk panel can be metallic or plastic.
The kiosk panel can be coated with painting but grounding of iUN modules must be
insured.
The kiosk panel thickness must be between 2 mm and 5 mm.
5.3 GENERAL INSTALLATION RECOMMENDATIONS
Installation requirements:
 Ensure that you have enough free space for installation, operational and
maintenance needs.
 Be aware of the safety regulations.
 Carefully consider the general and local payment security requirements and
any impact they may have on the kiosk
 Carefully consider the ergonomic aspects and also the local acts or
recommendations concerning disabled and visually impaired people.
See environmental specification and especially in case of very cold or humid
weather, take steps to ensure that the internal temperature is at least -20 °C.
5.4 KIOSK SUGGESTED LAYOUTS FOR IUR250 IUP250
In order to save space, keep good ergonomics and relative protection from
environment, we recommend the following configurations.
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5.4.1 Vertical PINPad above the reader
This is the most common layout and simplest installation.
Minimum distance between reader and PINPad is 23 mm.
23 mm
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5.4.2 Leaned backward PINPad above vertical reader
This installation provides a good ergonomic integration.
Maximum leaning of the keypad is 30 degrees.
Minimum distance between reader and PINPad is 25mm for cable access.
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5.4.3 Leaned forward reader above leaned backward PINPad
The reader must be Horizontal or 45° max leaned in order to evacuate liquids by the
front.
Maximum backward leaning of the keypad is 30 degrees.
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5.4.4 Optional pinshield layout considerations
An optional pinshield can be installed. It is mandatory that the PINPad is installed
vertical directly on the front face of kiosk (not in recess).
5.5 KIOSK WATER INGRESS CONSIDERATION
Components inside the kiosk should take care of water ingress and water collection
to avoid pouring water on the product below.
5.6 KIOSK COOLING CONSIDERATION
In case of forced cooling, air intake from the card reader opening is forbidden as it
will fill the reader with dust. A large air intake must be provided in the kiosk.
It is also recommended to have the kiosk in overpressure to avoid dust.
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5.7 KIOSK GROUNDING CONSIDERATION
All parts of the kiosk should be connected to the ground using ground cables.
Connect to Ground
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6 ASSEMBLY PROCEDURE FOR IUR250 CARD READER
6.1 KIOSK MINIMUM VOLUME FOR IUR 250
The iUR250 requires a minimum volume inside the kiosk. It is detailed in the drawing
below.
3D design on demand.
The minimum volume is 108 mm width x 73 mm height x 146 mm deep.
Picture of iUR250 minimum volume
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6.2 KIOSK PREPARATION FOR IUR250 INSTALLATION
The iUR250 requires a cut out in the kiosk (dimensions in millimetres detailed in
the diagram below).
CAUTION:
The equivalent iUR250 hatched footprint surface on the kiosk must be flat and
clear of any holes and burrs.
Special attention is required for the area of anti-removal switches.
Fixing must be done by 4 M4 to M6 x12mm welded studs.
iUR250
footprint area
iUR250
Anti-removal
switches area
Cut-out drawing for iUR250.
3D design on demand.
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6.3 INSTALLING THE READER IUR250
iUR fixing requires M4-M6 hexagonal nuts.
Put the iUR over the studs.
Screw the 4 nuts with a 1.0-1.3 N.m torque.
It is recommended to use threadlocker fluid to prevent unscrewing with vibrations.
Picture showing the installation of the iUR250
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6.4 WATER EVACUATION CONSIDERATION
It is recommended to plug a flexible tube to the water evacuation pipe of the iUR250
to avoid water ingress inside the kiosk. The pipe is provided with the product and
has to be sticked to the evacuation hole.
Evacuation pipe
Picture showing evacuation pipe
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6.5 CONNECTING THE IUR250 TO THE KIOSK GROUND
The iUR250 should be connected to the ground of kiosk chassis using a copper braid
fastened with the provided grounding screw and washer.
Grounding screw
Grounding hole
Picture showing the grounding ground hole and screw of the iUR250
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7 ASSEMBLY PROCEDURE FOR IUP250 PINPAD
7.1 KIOSK MINIMUM VOLUME FOR IUP250
The iUP250 requires minimum volume in the kiosk.
It includes cables and pinshield mounting.
3D design on demand.
The minimum volume is 123mm width x 154 mm height x 52 mm depth
Picture showing the minimum volume for the iUR250
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7.2 KIOSK PREPARATION FOR IUP250 NEW
INSTALLATION
iUP250 uses EVA mounting standard with additional fixing studs. It requires a cut out
in the kiosk to the dimensions detailed in the diagram below (all dimensions are in
millimeters).
The drawing below shows the footprint of iUP250 product.
CAUTION:
It is important that the iUP250 footprint surface on the kiosk must be flat and cleared
of any holes and burrs.
Special attention is required for anti-removal switches area.
3D step files are also available upon request.
Fixing must be done by 6 M4x16mm welded studs.
Drawing of the cut-out for the iUP250 3D design on demand.
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7.3 INSTALLING THE IUP250 PINPAD IN NEW KIOSK
iUR requires standards hexagonal nuts for integration into a kiosk.
Screw the 6 nuts with a 1.0 N.m torque.
It is recommended to use threadlocker fluid to prevent unscrewing with vibrations.
Picture showing a new installation of the iUP250
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7.4 KIOSK PREPARATION FOR IUP250 INSTALLATION
AS REPLACEMENT OF I9530 PRODUCT
The installation of iUP250 as replacement of i9530 product requires an adapting
sheet metal part. This part is not provided by Ingenico.
It is required by security regulation that this part must be permanently mounted on
the kiosk (i.e by soldering) and cannot be removed from the kiosk.
Drawing showing the adapter part of the iUP250 in existing i9530 installation
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7.5 INSTALLING THE IUP250 PINPAD AS REPLACEMENT
OF I9530
iUP250 can be installed as follow.
Existing studs on the kiosk for i9530 product are used to guide the adapter part.
Adaptator part must be permanently fixed to the kiosk.
We recommend to weld or strongly glued it.
Standard nuts cannot be used on these studs as they will interfere with the iUR250
PINPad and may create a security issue.
Top studs need to be cut to 11 mm to avoid interference with the cable sleeve.
Picture showing the installation of the iUP250 in existing i9530 kiosk
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7.6 CONNECTING THE IUP250 TO THE KIOSK GROUND
To insure good connexion of iUP250 to the kiosk ground, it is recommended to install
one copper braid connecting the 2 grounding studs and connect this braid to the
chassis.
Ground studs to connect copper braid to ground.
Picture showing the grounding of the iUP250
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7.7 INSTALLING THE OPTIONAL PINSHIELD
The installation of the standard or light pinshield requires 6 additional holes diameter
5 mm in the kiosk.
A diameter 10 additional hole is required for the Lighting pinshield to pass the cable
through the kiosk.
Picture showing the cut-out and holes for the iUP250 pinshield
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7.7.1 Installing the standard pinshield
The standard pinshield is mounted on the kiosk using 6 screws M4 x 10.
4 wedges are provided to fill the gap between the keypad and the pinshield according
to the kiosk panel thickness. One has to be selected as follow:
Kiosk panel thickness
2 mm
3 mm
4 mm
5 mm
Wedge to use
Wedge thickness 2.5
Wedge thickness 3.5
Wedge thickness 4.5
Wedge thickness 5.5
Wedge
Picture showing installation of the iUP250 standard pinshield.
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7.7.2 Installing the Lighting pinshield
The Lighting pinshield will light the keypad thanks to 4 LEDs. It is connected to the
iUP250 by a cable plugged on the right side. The pinshield is installed on the kiosk
using 6 screws M4 x 10.
4 wedges are provided to fill the gap between the keypad and the pinshield according
to the kiosk panel thickness. One has to be selected as follow:
Kiosk panel thickness
2 mm
3 mm
4 mm
5 mm
Wedge to use
Wedge thickness 2.5
Wedge thickness 3.5
Wedge thickness 4.5
Wedge thickness 5.5
Wedge
Light module with cable
Picture showing installation of the iUP250 lighting pinshield.
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8 INFORMATIONS ON IUC150 OR IUC180 CONTACLESS
UNATTENDED MODULES
The iUC150 and iUC180 are Contactless solutions for unattended payment
applications (indoor and outdoor).
They can be installed and connected to iUP250 and iUR250 products.
See iUC Integration Guide for further information.
8.1.1 Kiosk mechanical requirements
The kiosk panel can be metallic or plastic.
The kiosk panel can be coated with painting but grounding of the IUC must be
insured. For the grounding connection both studs must be connected to get the best
ESD performance.
The kiosk panel thickness must be between 2 mm and 5 mm.
The iUC150 or iUC180 use EVA (European vending association) mounting standard.
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9 MAINTENANCE
9.1 CONFIGURATION
The iUP250 & iUR250 supplied to you has operational configuration loaded.
In factory, softwares are loaded in the iUP250 & iUR250, as well as parameter
definition files.
The parameter definition file of the UCMC component is used, in particular, to
determine the type of printer used (local/host) and the position of the host (COMx).
To change configuration, you must load a new parameter definition file (supplied by
Ingenico).
This operation can be performed using the LLT or a USB key (see § Loading by USB
key)
For more information concerning configuration, contact Ingenico Technical Support.
9.2 PRODUCTS COMMISIONNING
Please refer to ICO/ETU/11/1849/YM : Commissioning User's Guide.
To be able to perform the commissioning procedure the anti-removal must be
correctly mounted see chapter 6.2 for iUR250 and 7.2 for iUP250.
Anti-removal area
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9.3 REACTIVATION
iUR250 can be opened for maintenance (cleaning operation, extraction of jammed
object for example).
The reactivation process can be achieved with a tool terminal and two smart cards
with pin codes. (For more information, contact commercial department of Ingenico)
On the iUR250 if reactivation process fails, check that the application has been recharged and re-attempt.
If the red LED is lit, it may be a case of permanent tamper detection. Check in this
case that the product is correctly assembled and re-attempt.
If the problem persists, it may be a hardware problem (broken switch...). In this case,
a shipment repair is needed.
9.4 OPERATING LIFE
Minimum operating life of 5 years.

Keyboard
o 1.000.000 key strokes
o Keys markings ensure resistance to wear

Reader
o 500.000 card insertions
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10 CLEANING INSTRUCTIONS
The external front face of the PINPad and iUN reader should be carefully cleaned in
a regular basis.
The goal is to keep the display and the keyboard free of dirt and solvents.
First of all, unplug all the wires from the terminal during this operation.
Good rules for proper cleaning of the terminal are:






Use a soft cloth that is very slightly soaked with soapy water to clean the
outside of the terminal.
Do not clean the electrical connections.
Do not use in any case, solvents, detergents or abrasive products:
Those materials might damage the plastic or electrical contacts.
Avoid also the use of pressurized liquids.
Avoid exposing the terminal to the direct rays of the sun.
Do not put anything into the slot of the smart card reader
It is recommended to clean regularly the hybrid reader smart connector with dry
cleaning cards.
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11 DISASSEMBLING THE PRODUCTS ACCORDING TO
WEEE DIRECTIVE
11.1 IUP250 END-OF–LIFE DISASSEMBLY INSTRUCTIONS
This document is intended for treatment and recycling facilities. It provides the basic
instructions for the disassembly of Ingenico products to remove components and materials
requiring selective treatment, as defined by EU directive 2002/96/EC, Waste Electrical and
Electronic Equipment (WEEE).
Ce document est destiné aux installations de traitement et de recyclage. Il fournit les instructions de base pour le
démontage de produits Ingenico afin de retirer les composants et matériaux nécessitant un traitement sélectif, tel
que défini par la directive européenne 2002/96/CE, sur les Déchets d’Equipements Electriques et Electroniques
(DEEE).
1. MODELS AND DESCRIPTIONS
MODÈLES ET DESCRIPTIONS
Products covered by this disassembly instructions.
Produits concernés par ces instructions de démontage.
Product Name
Product description
Product mass (g)
Nom du produit
IUP250
Description du produit
Unattended payment PINPad
Masse du produit (g)
700g
2. COMPONENTS AND MATERIALS REQUIRING SELECTIVE TREATMENT
COMPOSANTS ET MATERIAUX NÉCESSITANT UN TRAITEMENT SÉLECTIF
The following components and materials, if present in the Ingenico product(s), have to be
removed and selectively treated.
Les composants et matériaux suivants, si présents dans le(s) produit(s) Ingenico, doivent être retirés et faire
l’objet d’un traitement sélectif.
Quantity included in
product(s)
Components and materials
ICO-ETU-11-1858-CL-V1
Composants et matériaux
Quantité contenue
dans le(s) produit(s)
Capacitors containing Polychlorinated biphenyls (PCB)
Condensateurs contenant du polychlorobiphényle (PCB)
Components containing Mercury, such as switches or backlighting lamps
Composants contenant du mercure, tels que les interrupteurs ou les lampes à rétroéclairage
Batteries
Piles et accumulateurs
Printed circuit boards greater than 10 cm²
Cartes de circuits imprimés de plus de 10 cm²
Toner cartridges
Cartouches de toner
Plastic containing brominated flame retardants
Matières plastiques contenant des retardateurs de flamme bromés
Asbestos waste and components which contain asbestos
Déchets d'amiante et composants contenant de l'amiante
Cathode ray tubes
Tubes cathodiques
Chlorofluorocarbons (CFC), Hydrochlorofluorocarbons (HCFC) or Hydrofluorocarbons
(HFC), Hydrocarbons (HC)
Chlorofluorocarbones (CFC), hydrochlorofluorocarbone (HCFC) ou hydrofluorocarbone (HFC),
hydrocarbures (HC)
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3max (2 + 1)
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Gas discharge lamps
Lampes à décharge
Liquid crystal displays (LCD) of a surface greater than 100 cm² and all those back-lighted with
gas discharge lamps
Écrans à cristaux liquides (LCD) d'une surface supérieure à 100 cm² et tous les écrans rétroéclairés par
des lampes à décharge
External electric cables
Câbles électriques extérieurs
Components containing refractory ceramic fibres
Composants contenant des fibres céramiques réfractaires
Components containing radioactive substances
Composants contenant des substances radioactives
Electrolyte capacitors measuring greater 2,5 cm in diameter or height
Condensateurs électrolytiques mesurant plus de 2,5 cm de diamètre ou de hauteur
3. PRODUCT DISASSEMBLY PROCESS
PROCESSUS DE DEMONTAGE DU PRODUIT
Basic steps to remove components and materials previously identified and requiring selective
treatment.
Etapes de base pour retirer les composants et matériaux précédemment identifiés et nécessitant un traitement
sélectif.
Step
Product disassembly process
Etape
Processus de démontage du produit
Remove the 4 screws on the rear cover
Oter les 4 vis du capot arrière
Remove the cover, remove the FPC
Oter le capot, ôter le FPC.
Remove the 4 screws on the extension card. Lift the card, disconnect the FPC below. Remove the extension card.
Oter les 4 vis sur la carte d’extension, Soulever la carte d’extension et déconnecter le FPC dessous. Oter la carte extension.
Remove the 6 nuts on the plastic spacer . Remove the plastic spacer, the rear metal plate, the plastic PCB holder
Oter les 6 écrous maintenant l’entretoise plastique. Oter l’entretoise plastique, puis la tôle arrière, puis le support plastique de
PCB
Remove the keypad card.
Oter la carte clavier
Remove the battery from the keypad printed circuit board
Oter la pile rechargeable de la carte clavier.
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11.2 IUR250 END-OF–LIFE DISASSEMBLY INSTRUCTIONS
This document is intended for treatment and recycling facilities. It provides the basic
instructions for the disassembly of Ingenico products to remove components and materials
requiring selective treatment, as defined by EU directive 2002/96/EC, Waste Electrical and
Electronic Equipment (WEEE).
Ce document est destiné aux installations de traitement et de recyclage. Il fournit les instructions de base pour le
démontage de produits Ingenico afin de retirer les composants et matériaux nécessitant un traitement sélectif, tel
que défini par la directive européenne 2002/96/CE, sur les Déchets d’Equipements Electriques et Electroniques
(DEEE).
4. MODELS AND DESCRIPTIONS
MODÈLES ET DESCRIPTIONS
Products covered by this disassembly instructions.
Produits concernés par ces instructions de démontage.
Product Name
Product description
Product mass (g)
Nom du produit
IUR250
Description du produit
unattended electronic payment reader
Masse du produit (g)
700g
5. COMPONENTS AND MATERIALS REQUIRING SELECTIVE TREATMENT
COMPOSANTS ET MATERIAUX NÉCESSITANT UN TRAITEMENT SÉLECTIF
The following components and materials, if present in the Ingenico product(s), have to be
removed and selectively treated.
Les composants et matériaux suivants, si présents dans le(s) produit(s) Ingenico, doivent être retirés et faire
l’objet d’un traitement sélectif.
Quantity included in
product(s)
Components and materials
Composants et matériaux
Quantité contenue
dans le(s) produit(s)
Capacitors containing Polychlorinated biphenyls (PCB)
Condensateurs contenant du polychlorobiphényle (PCB)
Components containing Mercury, such as switches or backlighting lamps
Composants contenant du mercure, tels que les interrupteurs ou les lampes à rétroéclairage
Batteries
Piles et accumulateurs
Printed circuit boards greater than 10 cm²
Cartes de circuits imprimés de plus de 10 cm²
Toner cartridges
Cartouches de toner
Plastic containing brominated flame retardants
Matières plastiques contenant des retardateurs de flamme bromés
Asbestos waste and components which contain asbestos
Déchets d'amiante et composants contenant de l'amiante
Cathode ray tubes
Tubes cathodiques
Chlorofluorocarbons (CFC), Hydrochlorofluorocarbons (HCFC) or Hydrofluorocarbons
(HFC), Hydrocarbons (HC)
Chlorofluorocarbones (CFC), hydrochlorofluorocarbone (HCFC) ou hydrofluorocarbone (HFC),
hydrocarbures (HC)
Gas discharge lamps
Lampes à décharge
Liquid crystal displays (LCD) of a surface greater than 100 cm² and all those back-lighted with
gas discharge lamps
Écrans à cristaux liquides (LCD) d'une surface supérieure à 100 cm² et tous les écrans rétro éclairés
par des lampes à décharge
External electric cables
Câbles électriques extérieurs
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Components containing refractory ceramic fibres
Composants contenant des fibres céramiques réfractaires
Components containing radioactive substances
Composants contenant des substances radioactives
Electrolyte capacitors measuring greater 2,5 cm in diameter or height
Condensateurs électrolytiques mesurant plus de 2,5 cm de diamètre ou de hauteur
6. PRODUCT DISASSEMBLY PROCESS
PROCESSUS DE DEMONTAGE DU PRODUIT
Basic steps to remove components and materials previously identified and requiring selective
treatment.
Etapes de base pour retirer les composants et matériaux précédemment identifiés et nécessitant un traitement
sélectif.
Step
Product disassembly process
Etape
Processus de démontage du produit
Remove the cover seal and cut the Anti-Removal FPC
Retirer le joint de la face avant et couper le flex anti-removal
Remove the 6 bezel screws and 4 upper cover screws
Retirer les 6 vis de la face avant et les 4 vis du capot supérieur
Remove castle of card and take off the Front Security FPC
Retirer l’ensemble château de carte et décoller le Flex Front Bezel
Unclip, and remove the dome support and the water collector
Déclipser et retirer le Support dôme et le réceptacle eau
Remove the battery from the main circuit board
Retirer la pile du circuit imprimé principal
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12 STANDARDS
12.1 ELECTRICAL CONSUMPTIONS

Average consumptions device waiting for host solicitation :
o iUP250 – PINPad < 100 mA
Value measured for Power supply 12V at 25°C
o iUR250 – Reader < 50 mA
Value measured for Power supply 12V at 25°C

Indicative consumption device when contact card transaction is performed :
Hypothesis: no radio (GPRS) reader iUR250 only connected to iUP250
o iUP250 + iUR250 < TBC
Value measured for Power supply 12V at 25°C

Maximum average external supply current:
o iUP250 – PINPad < 2 A
Value measured for Power supply 12V at 25°C
iUR250 – Reader < 0,5 A
Value measured for Power supply 12V at 25°C

Maximum consumption in stand-by mode (12 VDC input.):
o iUP250 – PINPad < 400µA
Value measured for Power supply 12V at 25°C
o iUR250 – Reader < 50µA
Value measured for Power supply 12V at 25°C
12.2 TEMPERATURE AND HUMIDITY

Operating & Storage conditions :
o Relative humidity: 5% to 85% non-condensing.
o External temperature range: -20 °C to 65 °C.
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12.3 ENVIRONMENTAL SPECIFICATION CONTINUED

Operating conditions :
o Front face shock resistance: IK10
o Vibrations resistance: 5-9Hz, 6.2mm; 9-200Hz, 1g; 200-500 Hz, 1.5g;
10ct/mn, 10 Cycles
o Bumps resistant: 6ms, 25g, 500 cycles each direction

Natural events:
o Water and dust resistant IP65 for iUP250 and IP34 for iUR250

Degradation iUP250 –iUR250 specification:
o Vandal resistant.
o Impact resistant IK10.
o Certified anti-tamper and attack resistant.

Drop iUP250 –iUR250 specification:
o Drop 1m on concrete surface all faces
12.4 EC STANDARD COMPLIANCE MARKING
EC standard compliance marking certifies that the product stipulated below:
iUR250
iUP250
Conforms to the following harmonized standards:
 IEC/EN 60950-1: Electrical safety of data processing equipment including
electrical office equipment. Issue dec. 2001
 EN 55022: Data processing equipment – Radiofrequency disturbance
characteristics - Limits and measurement methods. EN 55022 2006 + A1
(2007)
 EN 55024: Data processing equipment – Immunity characteristics - Limits and
measurement methods. Issue 1998 + A1- 2001 + A2 – 2003
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12.5
IC STATEMENTS
This class (B) digital apparatus complies with Canadian ICES-003.
Under Industry Canada regulations, this radio transmitter may only operate using an
antenna of a type and maximum (or lesser) gain approved for the transmitter by
Industry Canada. To reduce potential radio interference to other users, the antenna
type and its gain should be so chosen that the equivalent isotropically radiated power
(e.i.r.p.) is not more than that necessary for successful
communication."
Conformément à la réglementation d'Industrie Canada, le présent émetteur radio
peut fonctionner avec une antenne d'un type et d'un gain maximal (ou inférieur)
approuvé pour l'émetteur par Industrie Canada. Dans le but de réduire les risques de
brouillage radioélectrique à l'intention des autres utilisateurs, il faut choisir le type
d'antenne et son gain de sorte que la puissance isotrope rayonnée équivalente
(p.i.r.e.) ne dépasse pas l'intensité nécessaire à l'établissement d'une communication
satisfaisante.
"This device complies with Industry Canada licence-exempt RSS standard(s).
Operation is subject to the following two conditions: (1) this device may not cause
interference, and (2) this device must accept any interference, including interference
that may cause undesired operation of the device."
Le présent appareil est conforme aux CNR d'Industrie Canada applicables aux
appareils radio exempts de licence. L'exploitation est autorisée aux deux conditions
suivantes : (1) l'appareil ne
doit pas produire de brouillage, et (2) l'utilisateur de l'appareil doit accepter tout
brouillage radioélectrique subi, même si le brouillage est susceptible d'en
compromettre le fonctionnement.
This radio transmitter (IC: 2586D-IUP250) has been approved by Industry
Canada to operate with the antenna types listed below with the maximum permissible
gain and required antenna impedance for each antenna type indicated. Antenna
types not included in this list, having a gain greater than the maximum gain indicated
for that type, are strictly prohibited for use with this device.
Le présent émetteur radio (IC: 2586D-IUP250) a été approuvé par Industrie
Canada pour fonctionner avec les types d'antenne énumérés ci-dessous et
ayant un gain admissible maximal et l'impédance requise pour chaque type
d'antenne. Les types d'antenne non inclus dans cette liste, ou dont le gain est
supérieur au gain maximal indiqué, sont strictement interdits pour l'exploitation de
l'émetteur.
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FCC Statement
FCC standard compliance marking certifies that the product stipulated below:
iUR250
iUP250
 conforms to the following harmonized standards :
– part 15 subpart B of the FCC rules
This class (B) digital apparatus complies with Canadian ICES-003.
Information to users:
Changes or modifications not expressly approved by the party responsible for
compliance could void the user’s authority to operate the equipment.
NOTE: 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 instruction,
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 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 circuit different from that to which the
receiver is connected.
- Consult the dealer or an experienced radio/TV technician for help.
This device complies with FCC and IC radiation exposure limits set forth for
general population. This device must be installed to provide a separation
distance of at least 20cm from all persons and must not be co-located or
operating in conjunction with any other antenna or transmitter.
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12.6
ENVIRONMENT (WEEE, BATTERIES AND
PACKAGING)
This product is labeled in accordance with European Directives 2002/96/EC
concerning Waste Electrical and Electronic Equipment (WEEE) and 2006/66/EC
concerning Batteries and Accumulators. Those provisions are requiring producers
and manufacturers to become liable for take-back, treatment and recycling upon end
of life of equipment and batteries.
The associated symbol means that WEEE and waste batteries must not be
thrown away but collected separately and recycled.
Ingenico ensures that efficient collection and recycling schemes are set-up for
WEEE and batteries according to the local regulation of your country. Please contact
your retailers for more detailed information about the compliance solution in place for
disposing of your old product and used batteries.
Packaging waste must also be collected separately to assure a proper disposal and
recycling.
Please note that proper recycling of the electrical and electronic equipment and
waste batteries will ensure safety of human health and environment.
12.7 SECURITY OF YOUR TERMINAL
Upon receipt of your terminal you should check for signs of tampering of the
equipment. It is strongly advised that these checks are performed regularly after
receipt. You should check, for example: that the keypad is firmly in place; that there is
no evidence of unusual wires that have been connected to any ports on your terminal
or associated equipment, the chip card reader, or any other part of your terminal.
Such checks would provide warning of any unauthorised modifications to your
terminal, and other suspicious behaviour of individuals that have access to your
terminal. Your terminal detects any “tampered state”. In this state the terminal will
repeatedly flash the message” Alert Irruption!” and further use of the terminal will not
be possible. If you observer the “Alert Irruption!” message, you should contact the
terminal helpdesk immediately.
You are strongly advised to ensure that privileged access to your is only granted to
staff that have been independently verified as being trustworthy.
*296142
NEVER ask the customer to divulge their PIN Code. Customers should be advised to
ensure that they are not being overlooked when entering their PIN Code.
Intégration Guide_iUP250&iUR250
900009151 R11 000 01/1223
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Copyright © 2012 Ingenico
All rights reserved

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File Type                       : PDF
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MIME Type                       : application/pdf
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Page Count                      : 83
Language                        : fr-FR
Tagged PDF                      : Yes
Title                           : Integration Manual
Author                          : FRWS
Subject                         : I9400
Creator                         : Microsoft® Word 2010
Create Date                     : 2012:08:07 17:53:58+02:00
Modify Date                     : 2012:08:07 17:53:58+02:00
Producer                        : Microsoft® Word 2010

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