Smartware USN3D201 Smartcard Reader User Manual USN1se USN2se USN3se

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Document Description	User manual USN1se_USN2se_USN3se.pdf
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USN1se, USN2se, USN3se - Datasheet V1R01c
ULTRASMART™ MULTIPLE DUAL INTERFACES FOR PRODUCTION
(USN1se, USN2se, USN3se)
Industrial equipment to personalize contact and contactless smart cards or modules.
Datasheet V1R01c
Date: December 2016
© 2016, Smartware
CONFIDENTIAL
USN1se, USN2se, USN3se - Datasheet V1R01c
Copyright
All rights of translation adaptation and reproduction by any mean reserved for all the countries.
Any reproduction or any complete or partial representation of the pages published in this work, made
without the written permission of SMARTWARE is illicit and constitutes an imitation, whatever mean is
used. Only reproductions strictly reserved for the private use of the purchaser and not intended to be
used collectively are authorized. So are the short quotations justified by the scientific or informative
nature of the work which they are extracted from (art L.122-4 L. 122-5 and L. 335-2 of the French
Code ruling on intellectual property).
© SMARTWARE, Les ULIS, France, 1999-2016
Disclaimers
Information in this document is subject to change without notice and does not represent a
commitment on the part of SMARTWARE.
CONFIDENTIAL
© 2016, Smartware
USN1se, USN2se, USN3se - Datasheet V1R01c
Contents
Overview .......................................................................................................... 5
Block diagram ................................................................................................. 6
Functional description .................................................................................... 7
3.1
Core interfaces ....................................................................................................................... 7
3.2
Contact interfaces .................................................................................................................. 7
3.2.1 ISO/IEC 7816-3/4 ..................................................................................................................... 7
3.2.2 SWP .........................................................................................................................................7
3.2.3 Hardware measurements ......................................................................................................... 8
3.3
Contactless interfaces ........................................................................................................... 9
Technical characteristics ............................................................................. 10
4.1
Mechanical layouts ............................................................................................................... 10
4.2
Front panels .......................................................................................................................... 12
4.3
Physical interfaces ............................................................................................................... 13
4.3.1 Connectors ............................................................................................................................. 13
4.3.2 Configuration and address switches ....................................................................................... 15
4.3.3 LEDS ...................................................................................................................................... 16
4.4
Electrical characteristics ..................................................................................................... 17
4.4.1 Power Supply ......................................................................................................................... 17
4.4.2 Contact interfaces................................................................................................................... 18
4.4.3 Contactless interfaces ............................................................................................................ 19
Regulatory ..................................................................................................... 20
Contact information ...................................................................................... 22
Revision history ............................................................................................. 22
© 2016, Smartware
CONFIDENTIAL
USN1se, USN2se, USN3se - Datasheet V1R01c
Abbreviations
ACT
APDU
BGT
BWT
CID
CLT
CRC
CWT
EGT
EOF
ESD
ETU
FDT
FSCI
FSDI
FWT
HCI
LLC
NAD
SHDLC
SFGT
SOF
SPU
SWP
WWT
Activation Protocol
Application Protocol Data Unit
Block Guard Time
Block Waiting Time
Card Identifier
ContactLess Tunnelling
Cyclic Redundancy Check
Character Waiting Time
Extra Guard Time
End Of Frame
Electrostatic Discharge
Elementary Time Unit
Frame Delay Time
Frame Size Card Integer
Frame Size Device Integer
Frame Waiting Time
Host Controller Interface
Logical Link Control
Node Address
Simplified High Level Data Link Control
Startup Frame Guard Time
Start Of Frame
Standard or Proprietary Use
Single Wire Protocol
Work Waiting Time
Glossary
12 V
3A: 12 Volt 3 Amp Direct Current (DC) power supply
Modulation index: Defined as the voltage ratio (Vmax - Vmin) / (Vmax + Vmin).
CONFIDENTIAL
© 2016, Smartware
USN1se, USN2se, USN3se - Datasheet V1R01c
OVERVIEW
USN1se, USN2se and USN3se are industrial solutions dedicated to
the personalization of contact and contactless smart cards and
memory cards. These assemblies fulfill any integration based on
Smartware industrial racks.
Core interface features
Hardware specification:
- 32 bit Freescale Coldfire® CPUs running at 240 MHz
- 64 MB of RAM / 8 MB of Flash memories
USN1se
Contact interfaces features
Supported protocols:
- ISO/IEC 7816-3/4
- SWP
- Synchronous memory
cards
- Proprietary protocols
Key programmable parameters:
- Contacts voltage
- Card clock frequency up to 20
MHz
- Communication protocol
parameters
Electrical tests:
- Continuity measurement
USN2se
Contactless interfaces features
Supported protocols:
ISO/IEC 14443-2/3/4
ISO/IEC 15693-2/3
MasterCard PayPass
Sony FeliCaTM
NXP MIFARETM and
MIFARE PlusTM
- Proprietary protocols
Key programmable parameters:
- RF output level
- Communication bit rate
up to 848 kbps
- Communication protocol
parameters
Other features
USN3se
In system firmware updates
Target applications
- Production environment
- Contact reader/encoder
- Contactless reader/encoder
Electrostatic
discharge sensitivity
The USN1se, USN2se and USN3se use
semiconductors that can be damaged by
electrostatic discharge (ESD). Observe precautions
for handling. Damage due to inappropriate handling
is not covered by the warranty.
Handling and connections should be done without
power supply. This product includes a hot surface.
A fire enclosure must be provided in the end
product.
© 2016, Smartware
CONFIDENTIAL
USN1se, USN2se, USN3se - Datasheet V1R01c
BLOCK DIAGRAM
INTERFACE A (USN1se, USN2se, USN3se)
Iogic :
- Interface Ied
DAC
Voltage Control
ST2003_X
Node Base
Serial port 1
SWt
FPID
progaming port
Contacts
Switchs
C1..C8
ST5000_X
DAC
Continuity Test
Ethernet 100 MNps
To J30 backplane
connector
ADC
Ethernet
100 MNps
Ethernet
Switch
(USN2e and
USN3e only)
CtU
CtLD
Flash
RAa
Node Offset
SI-BUS
Firmware
(Contact &
Contactless
Interface)
Contact Interface
Contactless Interface
RF aodulator
RF Amplifier
ST5001_X
Clocks
RF aodem
Iogic :
- Interface Ied
INTERFACE B (USN2se and USN3se only)
Idem Interface A
INTERFACE C (USN3se only)
Idem Interface A
Synoptic chart of one communication interface
CONFIDENTIAL
© 2016, Smartware
USN1se, USN2se, USN3se - Datasheet V1R01c
FUNCTIONAL DESCRIPTION
USN1se, USN2se and USN3se are Smartware assemblies that include respectively one, two and
three independent US-NANO modules.
Each US-NANO module provides a CPU core and a dual communication interfaces for contact and
contactless smart cards or smart objects.
3.1 CORE INTERFACES
An US-NANO module embeds the last generation of 32 bit Freescale ColdFire® CPU running at 240
MHz, with 64MB of RAM and 8MB of Flash.
MLOS proprietary multitasking operating system provides all resources to connect and use the core
interfaces such as the Ethernet and the Serial ports.
MLOS also manages additional user or system applications to drive all specific hardware resources
like the contact and contactless interfaces.
3.2 CONTACT INTERFACES
3.2.1 ISO/IEC 7816-3/4
CARD system application handles the standard ISO7816 smart card protocol. Its rich interface allows
to perform fast communication exchanges and to subtly configure all protocol parameters.
Non-exhaustive list of software features and configuration parameters:
• Smart cards voltage configuration with support of class A, B and C.
• Smart card clock frequency from 1 to 20 MHz.
• Communication bit rate (ETU).
• Automatic T=0 or T=1 protocol handling.
• Short and extended APDU exchanges.
• Protocol timing specific parameters such as EGT, WWT, BGT, CWT, BWT, etc.
• Character and block error management and recovery.
• Access to contact states for custom protocols.
3.2.2 SWP
SWP system application handles the ETSI standards (TS 102 613 and TS 102 622) to support
exchanges through the Single Wire Protocol.
Non-exhaustive list of software features and configuration parameters:
• Support LLC (ACT, SHDLC, CLT) and HCI layers.
• Supply voltage configuration with support of class B and C.
• Communication bit duration from 0.590us up to 10 us.
• Automatic CRC and Bit stuffing management.
© 2016, Smartware
CONFIDENTIAL
USN1se, USN2se, USN3se - Datasheet V1R01c
3.2.3 Hardware measurements
Each contact interface has specific resources to perform electrical measurements on the ISO7816
smart cards pads.
These measurements, called continuity tests, check the physical connection between the reader and
the smart card to either detect a defective connection of the head (cable or pins), or a defective smart
card internal bonding.
Through CARD system application interface, the continuity tests can:
• Check the connection from the reader’s contact interface to the smart card pads.
• Measure the serial resistor (due to cable, test head, or deficient contact pin) for each smart card
pad.
• Check the smart card clamp diodes between C1/2/3/4/6/7/8 and C5 and return their threshold
voltage values. With such measurement, the contact can be declared:
Open (i.e.: no bonding, damaged diode).
Short (i.e.: wrong bonding, shortcut, damaged diode…).
Good (bonding and diodes are in conformity).
To properly test one contact, all others contacts shall be in high impedance state, and C5 contact
must be driven by the reader (i.e. it should not be linked to the ground/earth).
Force
C5
ICC
C1
C5
C2
C6
C3
C7
C4
C8
Cx
Voltage measurement of the clamp diode for contact C3
CONFIDENTIAL
© 2016, Smartware
USN1se, USN2se, USN3se - Datasheet V1R01c
3.3 CONTACTLESS INTERFACES
CARD system application handles all supported contactless smart cards standards or specifications.
It includes:
• ISO/IEC 14443 levels 2, 3 and 4, with the support of both type A and type B cards.
• ISO/IEC 15693 levels 2 and 3.
• MasterCard PayPass
• Sony FeliCaTM
• NXP MIFARETM and MIFARE PlusTM
Non-exhaustive list of software features and configuration parameters:
• Adjustable carrier field strength
• Communication bit rate up to 848 kbps.
• Protocol timing specific parameters such as EGT, FWT, FDT, SFGT, etc.
• Protocol communication specific parameters such as NAD, CID, FSCI, FSDI, SOF, EOF, etc.
• ISO7816 short and extended APDU exchanges.
• Protocol specific error detection and recovery.
• Authentication mechanisms requiring cryptography and ciphered exchanges.
At last, contactless interfaces support both contactless smart cards with inductive coupling to an
antenna and contactless modules with a direct connection to the RF pads.
© 2016, Smartware
CONFIDENTIAL
USN1se, USN2se, USN3se - Datasheet V1R01c
TECHNICAL CHARACTERISTICS
4.1 MECHANICAL LAYOUTS
100.00
19.42
Ø2,70
CLA
5,50
10,00
CLB
SCA
5,55
CLC
SCB
SCC
2,50
13,50
3,57
13,50
1,50
2,50
13.08
5,50
1 2
InterIO
MSPC
SWC
PowerCom
5,00
1 2
LC
1 2
InterIO
MSPB
SWB
196,10
PowerCom
1 2
InterIO
MSPA
152,30
207,50
1 2
220.00
LB
SWA
1 2
LA
107,10
PowerCom
101,60
Ø3,20
L3
S5
A1
L5
40,00
50,90
SWCFG
L4
S4
J30
5,50
2,76
15,00
45,00
L1 L2
ST8000
DIN 41612 C/2
Mâle R/A 16 x 3
2.00
USN3se top side view
10
CONFIDENTIAL
© 2016, Smartware
USN1se, USN2se, USN3se - Datasheet V1R01c
GENERAL
Height
Length
Width (USN3se, USN2se)
Width (USN1se)
Weight
100 mm (3U)
220 mm
20.3 mm (4 TE)
17.6 mm (3.5 TE) or 20.3 mm (4 TE)
360 g (USN3se) – 330 g (USN2se) – 300 g (USN1se)
Components on bottom side are lower than 2 mm.
The fixing attachment holes and side strips are connected to the USN3se and MX3se-3I3P electrical
ground.
USN3se includes all US-NANO interfaces A, B and C.
USN2se includes US-NANO interfaces A and B
USN1se includes US-NANO interface A only.
© 2016, Smartware
CONFIDENTIAL
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USN1se, USN2se, USN3se - Datasheet V1R01c
4.2 FRONT PANELS
USN3se and USN2se
USN1se
USN1se
3U / 4TE
3U / 3.5TE
3U / 4TE
USN3se and USN2se have the same front panel. Nevertheless, USN2se has sealing caps on
interface 3.
12
CONFIDENTIAL
© 2016, Smartware
USN1se, USN2se, USN3se - Datasheet V1R01c
4.3 PHYSICAL INTERFACES
4.3.1 Connectors
NAME
SC1
SC2
SC3
CL1
CL2
CL3
J30
4.3.1.1
CONNECTOR TYPE
DESCRIPTION
RJ45
RJ45
RJ45
SMB
SMB
SMB
DIN41612
Contact interface from US-NANO A
Contact interface from US-NANO B
Contact interface from US-NANO C
Contactless interface from US-NANO A
Contactless interface from US-NANO B
Contactless interface from US-NANO C
Backplane interface
SC1, SC2 and SC3 description
SC1, SC2 and SC3 connectors provide signals of the contact interfaces. The following table describes
the pinout for all interfaces:
PIN
Shield
4.3.1.2
NAME
CC3
CC5
CC4
CC8
CC1
CC6
CC2
CC7
GND
TYPE
I/O
GND
I/O
I/O
I/O
I/O
I/O
GND
DESCRIPTION
C3 smart card contact (CLK)
C5 smart card contact (GND)
C4 smart card contact (RFU1)
C8 smart card contact (RFU2)
C1 smart card contact (VCC)
C6 smart card contact (SPU)
C2 smart card contact (RST)
C7 smart card contact (I/O)
Ground
CL1, CL2 and CL3 description
CL1, CL2 and CL3 connectors provide signals of the contactless interfaces. The following table
describes the pinout for all interfaces:
PIN
Center
Body
© 2016, Smartware
NAME
RF_ANT
GND
TYPE
GND
DESCRIPTION
RF output
Ground
CONFIDENTIAL
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USN1se, USN2se, USN3se - Datasheet V1R01c
4.3.1.3
J30 description
The DIN41612 connector provides power, node identifier, serial ports, Ethernet port, safe mode, and
LEDs.
PIN
A1, A4, B15, C15, B16, C16
A2, B2, C2, A3, B3, C3, A7, B7,
A8, B8, C8, A9, A10, B10, C10,
C11, A14, B14, C14
A15, A16
B1
C1
B4
C4
A5
B5
C5
A6
B6
C6
C7
B9
C9
A11
B11
A12
B12
C12
A13
B13
C13
NAME
Gnd
Ground
NC
Not connected
+Vaa
L1Tx
L1Rx
Node0
Node1
Node2
Node3
Node4
Node5
Node6
Node7
Safe_Mode
+3V3
LiLed
ETH_BP_3P
ETH_BP_3M
ETH_BP_1P
ETH_BP_2P
ETH_BP_0P
ETH_BP_1M
ETH_BP_2M
ETH_BP_0M
Main Power Supply (+12V)
Line 1 RS232 transmit (US-Nano A)
Line 1 RS232 receive (US-Nano A)
Node Base bit 0
Node Base bit 1
Node Base bit 2
Node Base bit 3
Node Base bit 4
Node Base bit 5
Node Base bit 6
Node Base bit 7
Active low Safe Mode 1
Internal +3.3V output
Active Low Link Led 2
Ethernet Pair 3 + 3
Ethernet Pair 3 - 3
Ethernet Pair 1 +
Ethernet Pair 2 + 3
Ethernet Pair 0 +
Ethernet Pair 1 Ethernet Pair 2 - 3
Ethernet Pair 0 -
Internal pull up resistor
Internal serial resistor for current limiting function
Termination only
14
DESCRIPTION
CONFIDENTIAL
© 2016, Smartware
USN1se, USN2se, USN3se - Datasheet V1R01c
4.3.2 Configuration and address switches
4.3.2.1
SWCFG
This micro switch defines specific configuration modes.
PIN
NAME
Node 7
Node 6
Mono Mode
Safe Mode
DESCRIPTION
Node Base (bit 7)
Node Base (bit 6)
ON : MLOS system in mono mode
OFF : Normal operation
ON : MLOS system in safe mode
OFF : Normal operation
The Safe Mode starts MLOS operating system normally. However, the system uses a default
MLOS.INI configuration file, and does not start any system and user applications.
The Mono Mode does not start MLOS operating system. It only allows to boot the CPU cores, and to
communicate through a Serial port to reload an MLOS operating system.
4.3.2.2
SWA, SWB and SWC
These micro switches set US-NANO A, B and C boards node offset respectively.
An US-NANO unique node value is made from the global node base value (from J30 and SWCFG),
and a specific offset (from SWX switch).
US-Nano Node (interface X) = Node base + Node offset (interface X)
PIN
NAME
Node offset b0
Node offset b1
Node offset b2
RFU
DESCRIPTION
Node offset bit 0
Node offset bit 1
Node offset bit 2
The default configurations of the node offsets are:
MODEL
USN3se, USN2se, USN1se
USN3se, USN2se
USN3se
© 2016, Smartware
INTERFACE
NODE OFFSET VALUE
CONFIDENTIAL
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USN1se, USN2se, USN3se - Datasheet V1R01c
4.3.3 LEDS
NAME
DESCRIPTION
SCX_Green
Contact interface power on status LED
SCX_Yellow
CPU status LED. Blink if CPU is running correctly
CLX_Green
Contactless interface power on status LED
L1, LA
L2, LB
L3, LC
L4
Safe Mode Status
• ON if Safe Mode is activated
Mono Mode Status
• ON if Mono Mode is activated
US-Nano A Ethernet link status
• ON if link is established
US-Nano B Ethernet link status
• ON if link is established
US-Nano C Ethernet link status
• ON if link is established
Backplane Ethernet link status
• ON if link is established
Backplane Ethernet speed
S4
• ON (100 Mbps)
• OFF (10 Mbps)
16
L5
Not used for models USN3se and MX3se-3I3P
S5
Not used for models USN3se and MX3se-3I3P
CONFIDENTIAL
© 2016, Smartware
USN1se, USN2se, USN3se - Datasheet V1R01c
4.4 ELECTRICAL CHARACTERISTICS
GENERAL
Operating environment
0 °C to 40 °C
4.4.1 Power Supply
An USN3se, USN2se or USN1se assembly shall be powered by a 12 Volt 3 Amp Direct Current (DC)
power supply.
POWER SUPPLY
Rating Voltage (12 V
ASSEMBLY
3A)
TYPICAL
12 V DC
Idle Current (Vaa = 12 V)
USN1se
USN2se
USN3se
280 mA
670 mA
950 mA
Maximum Current (Vaa = 12 V, RF
output short circuited)
USN1se
550 mA
USN2se
USN3se
1300 mA
1850 mA
© 2016, Smartware
CONFIDENTIAL
PRECISION
±1.2V
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USN1se, USN2se, USN3se - Datasheet V1R01c
4.4.2 Contact interfaces
4.4.2.1
Pin drivers
CONTACT DRIVING CAPABILITY
C1 (VCC)
C2 (RST)
C3 (CLK)
C4 (RFU1)
C5 (GND)
C6 (SPU)
C7 (I/O)
C8 (RFU2)
Vcc, HiZ
VOH, VOL, HiZ
VOH, VOL, Clock, HiZ
VOH, VOL, HiZ
Gnd, HiZ
VOH, VOL, SWIO, HiZ
VOH, VOL, Pull-up , HiZ
VOH, VOL, HiZ
CONTACT SIGNAL CAPABILITY
Min
Max
Resolution
Precision
Vcc
Icc limitation
ISO/SWP Mode
VOH
VOL
VIH
VIL
Current limitation
1.65 < Vcc < 1.95
2.30 < Vcc < 2.70
3.00 < Vcc < 3.60
4.50 < Vcc < 5.50
Clock
ISO Mode
C5 impedance to ground
1.65 V
5.50 V
10 mV
±20 mV
4.4.2.2
Vcc - 0.1 V
0V
0.8 x Vcc
200 mA
Vcc
0.1 V
0.55 V
±4 mA
±8 mA
±24 mA
±32 mA
1 MHz
20 MHz
50 mΩ
Hardware measurements
CONTINUITY TEST
Resistor measurement range
Resistor measurement precision
Conditions
R < 1 kΩ
R > 1 kΩ
Current to measure a clamp diodes
voltage
Diode threshold voltage range
Diode threshold voltage precision
Min
0Ω
470 kΩ internal pull-down
10 kΩ and 4.7 kΩ software selectable internal pull-ups connected to Vcc
CONFIDENTIAL
±100 Ω
±10 %
2,5 mA
0.1 V
18
Typical
Max
10 kΩ
3,2 mA
2.5 V
0.1 V
© 2016, Smartware
USN1se, USN2se, USN3se - Datasheet V1R01c
4.4.3 Contactless interfaces
CONTACTLESS DRIVING CAPABILITY
RF output
CONTACTLESS SIGNAL CAPABILITY
RF Offset
RF Signal peak to peak (R = ∞)
Modulated RF Signal
Min
20 Vpp
250 mW
(+24 dBm)
RF Output Impedance
Current limitation
Short circuit current (R = 0 Ω)
RMS
Recommended full power
short circuit max duration
RF Frequency
© 2016, Smartware
Typical
Precision
400 mV
2 Vpp
RF Signal power (R = 50 Ω)
Modulation Index
ISO14443 A / PayPass A /
Mifare
ISO14443 B / PayPass B
ISO15693
FeliCaTM
Max
± 2% ± 0.05
Vpp
50 Ω
±5Ω
150 mA
60 s
13.56
MHz
90 %
100 %
100 %
9.5 %
9.5 %
9.5 %
12.5 %
12.5 %
12.5 %
11 %
11 %
11 %
CONFIDENTIAL
± 7 kHz
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USN1se, USN2se, USN3se - Datasheet V1R01c
REGULATORY
USN1se, USN2se and USN3se models are CE, FCC modular approval, and RoHS compliant.
WARNING TO USERS
Warning 1: The USN1se, USN2se and USN3se models are considered as components that will be operated in combination with the final
equipment. Then, the final equipment (including power supply system) still needs to re-confirm that the whole system complies with the local
EMC directives.
Warning 2: The USN1se, USN2se and USN3se models are low power radiofrequency emitters, and then specific precaution should be
taken to restrict the human presence near the antennas.
We recommend that persons should be at least at 20 cm far from the emitting antennas. This information also has to be mentioned in the
end product.
Access should only be authorized to qualified personal.
If the product is not installed and used in accordance with the instruction manual, it may cause harmful interference to radio
communications.
Warning 3: To reduce the risk of fire or injury to persons, follow these instructions:
All maintenance and servicing of this device must be performed in a safe area away from hazardous locations. Disconnect all power before
servicing.
Use an earthed bracelet to avoid ESD damages.
Power supply must be SELV, no energy hazard.
Warning 4: To comply with directives, the backplane Ethernet cable length should be less than 3 meters.
Warning 5: This device has been designed to operate with the antenna(s) listed below. Antennas not included in this list are strictly
prohibited for use with this device
List of acceptable antenna(s):
T77x49x2
Warning 6: Use of shielded contact cable (with ferrite ref Würth 74271733) is mandatory to comply with standards.
Warning 7: To comply with directives, RF power may be set from power 0 to power 10.
Warning 8: In case of collocated transmitters, the maximum number of transmitters in a small place should be 48.
Warning 9: The product shall not be modified without written authorisation of Smartware. Changes or modifications not expressly approved
by the party responsible for compliance could void the user's authority to operate the equipment.
Warning 10: The end product’s sticker should mention that it “contains a FCCID: RPM-USN3D201 product.
20
CONFIDENTIAL
© 2016, Smartware
USN1se, USN2se, USN3se - Datasheet V1R01c
Warning 11:
WARNING TO USERS IN THE UNITED STATES
Federal Communication Commission Interference
Section 15.105 Information to the user
(a) For a Class A digital device or peripheral, the instructions furnished the user shall include the following or similar statement, placed in a
prominent location in the text of the manual:
Note: This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to part 15 of the FCC Rules.
These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial
environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the
instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to
cause harmful interference in which case the user will be required to correct the interference at his own expense.
This device (USN1se, USN2se and USN3se models) complies with Part 15 of the FCC Rules. Operation is subject to the following two
conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including
interference that may cause undesired operation.
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 Smartware.
Unauthorized modification may void the equipment authorization from the FCC and will void the Smartware warranty.
This device complies with FCC RF radiation exposure limits set forth for general population (uncontrolled exposure). This device must be
installed to provide a separation distance of at least 20cm from all persons and must not be collocated or operating in conjunction with any
other antenna or transmitter other than authorized in the present document.
© 2016, Smartware
CONFIDENTIAL
21
USN1se, USN2se, USN3se - Datasheet V1R01c
CONTACT INFORMATION
For more information, please send an email to: support@smartware.fr
For ordering information, please send an email to: sales@smartware.fr
22
REVISION HISTORY
VERSION
DATE
AUTHOR
CHANGES
V1R01c
V1R01b
December 2016
November 2016
DM
DM
Update Overview chapter
Add Regulatory section.
Editorial corrections
V1R01a
July 2016
SHM
Original version
CONFIDENTIAL
© 2016, Smartware

---

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