Intel 7262WW WWAN Module Adapter Card User Manual Intel 7262M2WW UserGuide V1 2

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Intel Model 7260M2NA and 7262M2WW
User Guide
Revision 1.2, Feb 2015
Document Number: N/A
Revision History
Revision History
Revision Number
Description
Revision Date
1.0
Initial version of the document
17‐Dec‐2012
1.1
Revise to add model 7260M2NA
Nov 2014
1,2
Revise to add model 7262M2WW
Feb 2015
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Contents
Introduction ................................................................................ 9
Software Framework ............................................................. 12
2.1
Driver Installation................................................................... 12
2.1.1
General Considerations ........................................................ 12
2.1.2
Intel High Speed Modem Driver (ecm200) .................. 14
2.1.2.1 Client offset configuration. ................................................. 19
2.1.2.2 Static IP Address Configuration ........................................ 21
2.1.3
Comneon High Speed Modem Driver .............................. 25
2.1.4
Flash USB driver and FTDI Driver .................................... 28
2.1.5
Prolific Serial to USB Driver ................................................ 29
2.2
LTE debug UART configuration .......................................... 30
2.3
System Trace Box .................................................................. 33
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2.3.1
Setup and Configuration ...................................................... 33
2.3.1.1 Entering AT Commands ....................................................... 33
2.3.1.2 Board Configuration and required AT Commands ..... 34
2.3.2
Connecting the UE.................................................................. 35
2.4
AT Commands Examples ..................................................... 37
Test Cases ................................................................................. 42
3.1
Protocol Test (CMW500) ...................................................... 42
3.1.1
CWM 500 Firmware ............................................................... 42
3.1.2
Test Scenario ........................................................................... 44
3.1.3
AT Commands .......................................................................... 45
3.1.4
The Data Application Unit.................................................... 45
Regulatory Notice ................................................................... 50
Abbreviations / Terminology .............................................. 51
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Appendix A ................................................... Definitions/Explanations
....................................................................................................... 53
Figures
Figure 1. Location of the Prolific serial to USB driver,
the Flash USB driver and the FTDI diver within the
flash tool folder. ................................................................. 13
Figure 2. Use the already installed driver. ................... 15
Figure 3. Install the driver again. .................................... 16
Figure 4. The network modem and four COM ports
are now appearing at the device manager. ............ 16
Figure 5. Open the network connections dialog. Win
XP : Start:Settings:NetworkConnectios. A new
network device did pop up. It is not yet connected.
.................................................................................................. 17
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Figure 6. On Win7: Select “Start:Control
Panel:Network and Sharing Center” followed by
“Change adapter settings”. ............................................ 18
Figure 7. Open the properties dialog of the new
network device (right click)........................................... 18
Figure 8. Select the configuration dialog. ..................... 19
Figure 9. Set the client offset to 1 and press “OK”. . 20
Figure 10. Press “OK” to save these settings.
Otherwise these settings get lost. .............................. 20
Figure 11. Open the Internet Protocol TCP/IP
settings. ................................................................................. 23
Figure 12. Set the static Network IP and press OK. . 24
Figure 13. To close the properties dialog and save
the settings press “OK”. .................................................. 25
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Figure 14. Congratulations. Your ecm200 driver and
its IP connection are now properly configured. ..... 25
Figure 15. Use the already installed driver. ................. 26
Figure 16. Install the driver. .............................................. 27
Figure 17. Comneon suspend and six COM ports are
now appearing at the device manager. .................... 28
Figure 18. USIF1 Device Manager Prolific USB-toSerial COM Port .................................................................. 30
Figure 19. Putty configuration. ......................................... 32
Figure 20. CMW 500 .............................................................. 42
Tables
Table 1. Terminal Port Settings ........................................ 31
Table 2. AT Commands trace box support. ............. Error!
Bookmark not defined.
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Table 3. Terminal Port Settings ........................................ 38
Table 4. AT Commands to check ARM software
version ................................................................................... 38
Table 5. AT Commands to Register on the Network 38
Table 6. AT Commands for an Incoming Call .............. 38
Table 7. AT Commands for an Outgoing Call .............. 39
Table 8. AT Commands for SMS Management............ 39
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Introduction
This document provides a brief description of the NGFF Carrier
Board development kit. Including:
- Hardware interfaces with FIH board
- NGFF Carrier Board User Guide V2.0
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Software Framework
2.1
Driver Installation
2.1.1
General Considerations
The two different test and debug configurations always require a
Win PC where up to five different drivers must be installed
accurately.
This are:
1. the Intel High Speed Modem Driver (ecm200),
2. the Comneon High Speed Modem Driver,
3. the Prolific serial to USB driver (part of the flash tool
folder),
4. the Flash USB driver (part of the flash tool folder) and
5. the FTDI diver.
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Figure 1. Location of the Prolific serial to USB driver, the Flash
USB driver and the FTDI diver within the flash tool
folder.
Pls note that Win does not always complain if the drivers 4 to 5 are not installed. If one of these drivers is missing flashing problems are occurring.
The ARM software and LTE firmware releases are linked to
individual driver revision numbers that were used for release
testing. They were typically published together with the ARM
software and the LTE firmware here:
http://wiki.imu.imc.local/XG716_LTE_CV_Setup_versions
The latest drivers can be found here:
\\musdsara001.imu.imc.local\SW_builds\xmm6360\tools
Or if something is missing here:
\\musdsara001.imu.imc.local\SW_builds\xmm7060\Release\Tools
Which is similar to
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M:\Software\XMM7060_tools at IMC DRS
Flash Tool :
\\musdsara001.imu.imc.local\SW_builds\xmm6360\tools\flashtool
Socmondll :
\\musdsara001.imu.imc.local\SW_builds\xmm7060\Release\Tools\Socmondll\socmondll_100.150.001.dll
2.1.2
Intel High Speed Modem Driver (ecm200)
 Take the recommended driver, see Subsec. 2.1.1,
(folder e.g. WMC_ecm200_3.61.0) and follow the
instructions from the installation wizard.
 Enable the IP forwarding: run the
sriptenable_ip_forwarding.reg from:
\\musdsara001.imu.imc.local\SW_builds\xmm7060\Release\Tools\Intel_High_Speed_Modem
Hint: Copy the file to the local PC and then run it with root
privileges.
Now connect the cable to the USB‐HS connector.
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Win XP asks now it’s typical questions and gets the common
answers see below. Win 7 does not ask and loads the driver
automatically.
Figure 2. Use the already installed driver.
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Figure 3. Install the driver again.
Figure 4. The network modem and four COM ports are now
appearing at the device manager.
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 Now open the network manager and configure the
network settings of the modem.
Figure 5. Open the network connections dialog. Win XP :
Start:Settings:NetworkConnectios. A new network
device did pop up. It is not yet connected.
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Figure 6. On Win7: Select “Start:Control Panel:Network and
Sharing Center” followed by “Change adapter
settings”.
Figure 7. Open the properties dialog of the new network
device (right click).
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2.1.2.1
Client offset configuration.
This must be done before the IP settings. If the order is flipped the
IP settings get lost.
Figure 8. Select the configuration dialog.
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Figure 9. Set the client offset to 1 and press “OK”.
Figure 10. Press “OK” to save these settings. Otherwise these
settings get lost.
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2.1.2.2
Static IP Address Configuration
 The given example IP number at Figure 12 is for a
simplified test and debug setup, see Error! Reference
source not found., where the octave or java client
runs on the Win PC that also carries all necessary Win
drivers and is connected to the DUT. The ecm200
driver runs in a subnet that is only visible from this PC.
 The complete setup, see Error! Reference source not
found., consists of test PCs that were provided
together with recommended IP settings for the
ecm200 driver. The static route settings were set
typically IT system wide.
 In case two PCs were used to run the tests, a test PC
with the drivers and a desktop PC that carries the
Octave or the Java client a static route must be set at
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the desktop PC. The example below helps to find
proper static route settings:
test PC with static IP: 10.1.0.126
ecm200 client at test PC with IP: 172.16.126.1
(client offset set to 1)
run as root at the PC where the Octave is running
on.
route print #read out route settings
route add 172.16.126.0 mask 255.255.255.0
10.1.0.126
 test the configuration:
ping 172.16.126.1 #response from the ecm200 driver
ping 172.16.126.2 #response from the booted LTE‐IP
block (L1CC)
 Reopen the Network Connection Properties Dialog.
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Figure 11. Open the Internet Protocol TCP/IP settings.
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Figure 12. Set the static Network IP and press OK.
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Figure 13. To close the properties dialog and save the settings
press “OK”.
Figure 14. Congratulations. Your ecm200 driver and its IP
connection are now properly configured.
 If desired it is now also possible to rename the
network device from “Wireless Connection2” to
something more convenient e.g. ecm200 + IP address.
2.1.3
Comneon High Speed Modem Driver
 Take the recommended driver,
 \\musdsara001.imu.imc.local\SW_builds\x
mm6360\tools\usb_drivers
See also SMS02534274: ‐ Please use 3.46
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version and not WMC_comneon2_3.55.0, see Subsec.
2.1.1, (folder Comneon_High_Speed_Modem_Driver)
and follow the instructions from the installation
wizard.

Now connect the cable to the USB-HS connector.

Win XP asks now it’s typical questions again and gets the common answers, see below. Win 7 does not ask and loads the driver
automatically.
Figure 15. Use the already installed driver.
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Figure 16. Install the driver.
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Figure 17. Comneon suspend and six COM ports are now
appearing at the device manager.
 Congratulations, your driver installation has finished
successfully.
2.1.4
Flash USB driver and FTDI Driver
These drivers are mandatory to flash new ARM software and LTE
firmware images at the modem board. Take the recommended
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drivers, see Subsec. 2.1.1, (flash tool subfolder) and follow the
instructions from the installation wizards.
Note:
If this drivers are not installed correctly instabilities at
the flash process are occurring without substantial error
information from Win XP or Win 7.
2.1.5
Prolific Serial to USB Driver
The Prolific driver is mandatory to access all modem board UART
(USIF) ports. Take the recommended driver, see Subsec. 2.1.1,
(folder Prolific Driver) and follow the instructions from the
installation wizard.
Connect the USB cable to the desired USIF port and check that the
COM port appears correctly in the Win device manager.
(Win:Settings:Control Panel:System Properties:Hardware:Device
Manager. This is quite similar to find at Win XP and Win 7.)
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Figure 18. USIF1 Device Manager Prolific USB‐to‐Serial COM
Port
2.2
LTE debug UART configuration
After the preliminary setting, run any AT terminal application (e.g.
HyperTerminal) on your PC’s communication port, with the
following settings.
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Table 1. Terminal Port Settings
115200 bps
Data rate
Data Bits
Parity
Stop Bits
HW
Flow Control
 on UNIX xterm use this with uucp:
%docing station serial port, uucp
chown uucp /dev/ttyUSB0
cu -l /dev/ttyUSB0 -s 115200
 If putty http://www.putty.org is used this looks
like this:
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Figure 19. Putty configuration.
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2.3
System Trace Box
2.3.1
Setup and Configuration
2.3.1.1
Entering AT Commands
The AT commands mentioned below must be sent to the COM
port that corresponds to the
 Intel Mobile (USB3) COM port in case the ecm 200
driver is used or
 to the COM port that corresponds to the Comneon
High Speed Modem, see Error! Reference source not
found..
The COM port that corresponds to the USIF‐1 USB port, see Error!
Reference source not found. may also work.
The udp2AT server can be used to enter local AT commands from
remote locations, see Subsec. Error! Reference source not found..
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2.3.1.2
Board Configuration and required AT Commands
 Reset the board in a way that is booting from the flash
 Enable tracing using: at+xsystrace=0,"lte_l1_sw=4"
 Reset the board again in a way that is booting from
the flash
 Now the initialization at commands to switch to
Service Mode (that is the mode to use RCTTH) can be
sent if needed:
 ARM for Inc2.8: ‘at@ecal:’ ’at@ecal_init():’
 ARM for Inc3.0: ‘at@ephy:smon()’
 Note: Please check with the provider of the ARM
image which commands are valid for the actual
build!!!

The AT commands below are mandatory to enable tracing:
a. Enable tracing at all sources: at+trace=1;
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b. Route traces through UE's "OCT‐Block", which
creates the ISTP format: at+xsio=3;
c. Select the traces from specific sources, use
at+xystrace command. For example, to configure
the traces from specific to select ONLY the 3g_sw
traces: at+xsystrace=0,"3g_sw=1",,"oct=4"
d. make sure your SIM is not waiting for entering a
PIN: at+cpin? If it is, send the PIN at at+cpin=
e. make sure, the 3G protocol stack is sending traces:
at+cops=0; (this command triggers the phone to
(re‐)register to the network)
2.3.2
Connecting the UE
6. Connect the UE to the PC as described in section
Error! Reference source not found..
7. Find the com‐port in which UE is connected using
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7. Find the com‐port in which UE is connected using
comtest tool. Run the command comtest –l. It will list
the ports. Carefully evaluate the port for tracing and
port for control.
8. To check whether PC is connected to UE properly, try
connecting the control port with the terminal
emulator and send “AT” command, If the response is
OK, UE is connected successfully. This can be done via
AT Console in SystemTraceTool.
9. Send the below AT commands:
a. Enable tracing at all sources: at+trace=1;
b. Route traces through UE's "OCT‐Block", which
creates the ISTP format: at+xsio=3;
c. Select the traces from specific sources, use
at+xystrace command. For example, to configure
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the traces from specific to select ONLY the 3g_sw
traces: at+xsystrace=0,"3g_sw=1",,"oct=4"
d. make sure your SIM is not waiting for entering a
PIN: at+cpin? If it is, send the PIN at at+cpin=
e. make sure, the 3G protocol stack is sending traces:
at+cops=0; (this command triggers the phone to
(re‐)register to the network)
2.4
AT Commands Examples
After the preliminary setting, run any AT terminal application (e.g.
HyperTerminal) on your PC’s communication port, with the
following settings
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Table 3. Terminal Port Settings
Data rate
Data Bits
Parity
Stop Bits
Flow Control
115200 bps
HW
AT Command to check ARM Software version
Table 4. AT Commands to check ARM software version
Command sent by DTE
Response of DCE
Description
at+xgendata
The device will reply with the running ARM
software version
Register on the network (GSM/UMTS)
Table 5. AT Commands to Register on the Network
Command sent by DTE
Response of DCE
Description
AT+XRAT=1,2
select radio access technology: 1=GSM/UMTS Dual mode; 2=UMTS
OK
AT+COPS=0
Register the phone on the network
OK
AT+CREG?
Verify registration
+CREG: 0, 1
OK
AT+COPS?
+COPS: 0,0,"AT&T",0
Read operator name
Incoming Voice Call
Table 6. AT Commands for an Incoming Call
Command sent by DTE
DCE Response
Description
ATA
OK
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Outgoing Voice Call
Table 7. AT Commands for an Outgoing Call
Command sent by DTE
DCE Response
Description
AT
OK
AT+CLIP=1
Activation of Caller line ID
presentation
OK
ATD+862161019000;
Outgoing voice call
OK
Voice call is accept from network
ATH
Hang up
OK
SMS Management
Table 8. AT Commands for SMS Management
Command sent by DTE
DCE Response
AT+CMGF=1
OK
Description
Set the text mode as the format that will be used. To be set before of the first
operation
AT+CMGF=0
OK
Set the PDU mode as the format that will be used. To be set before of the first
operation
AT+CMGS=”0171112233”
CMGS: [,]
“This is the text”
if PDU mode (+CMGF=0):
CMGS: [,]
+CMGS=PDU is
given
OK
or
CMS ERROR: 
Test command
OK
AT+CMGS=?
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Test Cases
3.1
Protocol Test (CMW500)
Figure 20. CMW 500
In general it needs to be checked that CMW500 setup are
identically to the reference. The components to be checked are :
 The test scenario configurations (xml files) and
 The firmware versions for the tester hardware itself.
3.1.1
CWM 500 Firmware
The firmware version can be checked and maintained in the R&S
Version Manager. Basic information on software update and
installation with the R&S Version Manager is given in the "R&S
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CMW500 Protocol Testing" quick start guide (1202.3857.62). The
R&S Version Manager help provides more details on R&S Version
Manager functions and handling of software units. This document
assumes that all required software units can be installed by the
user.
The R&S Version Manager can be opened via the START menu:
Once opened there are two ways to verify similarity of firmware versions:
by hand via stepping through the license options or
by exporting the firmware (software status).
The picture shows the version manager with the stepping through each firmware license:
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The next picture shows the menu from which the status export can be called:
After this a pop‐up window appears with three possible choices. Only the top one has to be selected as
shown in the picture:
After this the location of the status export file needs to be chosen. Once done the file can be compared to
the reference file which is located under:
..\version\lab2\lab2_cfg.html
3.1.2
Test Scenario
The test scenario ml_002 EPS ‐ Bearer Setup is used for this setup
and is contained by the SW option KF500 with MLAPI Example
Scenarios.
The path to the configuration directory is following:
c:\Rohde‐
Schwarz\Scenarios\16.6_callSetup_1\APPL\MLAPI\LTE_SAMPLE_S
CN\1.0\ml_002\msg
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The directory “msg” is part of the CDK delivery and contains
several xml files. It has to be noted that the xml version of the xml
files needs to be compliant to the installed tester firmware.
Otherwise strange errors occur during test case execution!
http://www2.rohdeschwarz.com/en/products/test_and_measurement/m
obile_radio/CMW500-|-Demo-|-48-|-5420.html
3.1.3
AT Commands
Network attach in CallBox Mode, LTE band 7.
at+xact=6,2,1,107
at+cgdcont=1,"IP",”www.rohde-schwarz.com”
This gives OK if the SIM cart is inserted accurately.
at+cops=1,2,"00101",7
3.1.4
The Data Application Unit
Install the Data Application Unit
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The Data Application Unit (DAU) package has to be installed on
the CMW.
In case the DAU hardware is populated, the software (SW) should
already be installed as well. Check this in "SetupSW/HW‐
EquipmentInstalled software".
Before installation:
 Terminate the CMW BaseSW application – close the
window with ‘X’
 In the task manager kill the process
"ComponentEnvironmentServer_2.5.exe".
Installation:
 Install the DAU‐SW package
"SetupCMW_DAU_Support (Release)‐V1.0.15.22"
directly on the CMW.
 Reboot the CMW device.
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Activate DHCP in Data Application Control
After complete startup of the CMW BaseSW application, follow
the steps below to configure the DAU for DHCP:
Make sure your Router is connected to the "LAN DAU" ETH port at the back side of the CMW.
Open the SETUP menu on the right side.
Open the DAU configuration via menu:
Data Appl. Control  Go to config
Configure the DAU to use DHCP
As shown on the screenshot, choose last check mark
DHCPv4 from LAN (LAN DAU) for IPv4 Address Configuration
Close the CMW BaseSW (ALT + F4) and start it again afterwards by a DoubleClick on the desktop
link "CMW 1.0"
After the restart, check the "DHCP Status" in the same window. A green light indicates that the DAU
could acquire an IPv4 address via DHCP.
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Switching UPC from PPC (SUW) to DAU
In order to let the scenario use the UPC (=Uplane Control) on the
DAU (and not as per default on the PPC), two XML files have to
be replaced in the topology:

sequencer.xml,

pipe.xml
Copy these two files to C:\Rohde‐
Schwarz\Scenarios\16.6\APPL\MLAPI\rstopology\LTE\.
NOTE:
It is recommended to make a back‐up of the original files before.
Start the LTE scenario
Start the LTE scenario now.
During the Default EPS Bearer Setup the UE will get an IP address
which was acquired by the DAU before.
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Manual DNS settings
On the LTE host which connects to the internet, the DNS server has to be configured manually,
because the DAU does not yet support automatic DNS provisioning (ask your IT).
In case of a LTE notebook adapter, the DNS server will be configured on the IP properties pane:
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Regulatory Notice
Japanese Radio Law and Japanese Telecommunications Business Law Compliance.
This device is granted pursuant to the Japanese Radio Law (電波法)
and the Japanese Telecommunications Business Law (電気通信事業法)
This device should not be modified (otherwise the granted designation number will
become invalid)
Manual Information to the End User :
The OEM integrator has to be aware the end user manual shall include all required regulatory information/warning as show in this manual.
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Abbreviations / Terminology
A‐GPS
Assisted‐GPS (Global Positioning System)
AP
Application Processor
BB
Baseband
CMOS
Complementary Metal Oxide Semiconductor
CN
Comneon
DigRF v4
Digital RF interface v4 (rmainly used for 4G)
DigRF 3.09
Digital RF interface v3 for (mainly used for 2G/3G)
ETM
Embedded Trace Macrocell
ESD
Electrostatic discharge
fps
Frames Per Second
GPIO
General purpose input/output
GSM
Global System for Mobile Communications
USB‐HS
High Speed. USB2.0 (480MBit/sec)
JPEG
Joint Photographic Experts Group
JTAG
Joint Test Action Group
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LDO
Low dropout (regulator)
LED
Light‐emitting diode
MIPI
Mobile Industry Processor Interface
MMC(I)
Multimedia Card (Interface)
MPU
Microprocessor unit
PA
Power Amplifier
PCL
Port Control Logic
PMU
Power Management unit
PTI
Parallel Trace Interface
SD‐Card
Secure Digital Card
SMT pin header
Surface Mount Technology pin header
SPI
Serial Peripheral interface
S4G
SMARTi™ 4G
ST MIPI
System Trace MIPI
STT
System Trace Tool
SVB
System verification board
SW
Software
TAP
Test Access Port
TCU
Test Control Unit
USB
Universal Serial Bus
USIF
Universal Serial Interface
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Appendix A
Definitions/Explanations
Eval Board
special processor socket board for X‐GOLD™ 716 component verification
Lauterbach
Supplier of Debug and Trace environment for X‐GOLD™ 716 (e.g. JTAG, ETM7/11, ST MIPI)
Modem board
Main part of XMM™ 7160 platform hardware (see Error! Reference source not found.)
XMM™ 7160
Project name of Intel platform with key component X‐GOLD™ 716
RF‐ Engine
RF part of platform (RF‐transceiver, Power amplifiers, LNA, Filter bank, antenna switch etc.).
SMARTi™ 4G
Intel RF‐transceiver for 2G/3G/4G
Janus board
Board with SMARTi™ LU and SMARTi™ UE2
Carrier board
SMB needs a carrier board for operation
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Appendix B Regulatory Statements
USA FCC Radio Frequency Exposure
The FCC with its action in ET Docket 96-8 has adopted a safety standard for human exposure to radio
frequency (RF) electromagnetic energy emitted by FCC certified equipment. The wireless adapter meets the
Human Exposure limits found in OET Bulletin 65, supplement C, 2001, and ANSI/IEEE C95.1, 1992.
Proper operation of this radio according to the instructions found in this manual will result in exposure
substantially below the FCC’s recommended limits.
The following safety precautions should be observed:

Do not touch or move antenna while the unit is transmitting or receiving.

Do not hold any component containing the radio such that the antenna is very close or touching any exposed parts of
the body, especially the face or eyes, while transmitting.

Do not operate the radio or attempt to transmit data unless the antenna is connected; this behavior may cause damage
to the radio.

Use in specific environments:

The use of wireless adapters in hazardous locations is limited by the constraints posed by the safety
directors of such environments.

The use of electronic devices equipped with wireless adapters on airplanes is governed by rules for each
commercial airline operator.

The use of wireless adapters in hospitals is restricted to the limits set forth by each hospital.
Explosive Device Proximity Warning
Warning: Do not operate a portable transmitter (including this wireless adapter) near unshielded
blasting caps or in an explosive environment unless the transmitter has been modified to be
qualified for such use.
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Use On Aircraft Caution
Caution: Regulations of commercial airline operators and the FCC may prohibit airborne operation
of certain electronic devices equipped with radio-frequency wireless devices (wireless adapters)
including cellular devices because their signals could interfere with critical aircraft instruments.
The Wireless Adapter and Your Health
The wireless adapter, like other radio devices, emits radio frequency electromagnetic energy. The
level of energy emitted by the wireless adapter, however, is less than the electromagnetic energy
emitted by other wireless devices such as mobile phones. The wireless adapter operates within the
guidelines found in radio frequency safety standards and recommendations. These standards and
recommendations reflect the consensus of the scientific community and result from deliberations of
panels and committees of scientists who continually review and interpret the extensive research
literature. In some situations or environments, the use of the wireless adapter may be restricted by
the proprietor of the building or responsible representatives of the applicable organization.
Examples of such situations may include:

Using the wireless adapter on board airplanes, or

Using the wireless adapter in any other environment where the risk of interference with other devices or services is
perceived or identified as being harmful.
If you are uncertain of the policy that applies to the use of wireless adapters in a specific
organization or environment (an airport, for example), you are encouraged to ask for authorization
to use the adapter before you turn it on.
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REGULATORY INFORMATION
USA ‐ Federal Communications Commission (FCC)
No configuration controls are provided for Intel® wireless adapters allowing any change in the
frequency of operations outside the FCC grant of authorization for U.S. operation.

Intel® wireless adapters are intended for OEM integrators only.

If Intel® wireless adapters are to be co-located with any other transmitter additional testing and/or approval by the
FCC will be required.
This wireless adapter complies with Part 15 of the FCC Rules. Operation of the device is subject to
the following two conditions:

This device may not cause harmful interference.

This device must accept any interference that may cause undesired operation.
Class B Device Interference Statement
This wireless adapter 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 wireless adapter generates,
uses, and can radiate radio frequency energy. If the wireless adapter is not installed and used in
accordance with the instructions, the wireless adapter may cause harmful interference to radio
communications. There is no guarantee, however, that such interference will not occur in a
particular installation. If this wireless adapter does cause harmful interference to radio or television
reception (which can be determined by turning the equipment off and on), the user is encouraged to
try to correct the interference by taking one or more of the following measures:

Reorient or relocate the receiving antenna of the equipment experiencing the interference.

Increase the distance between the wireless adapter and the equipment experiencing the interference.

Connect the computer with the wireless adapter to an outlet on a circuit different from that to which the
equipment experiencing the interference is connected.
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
Consult the dealer or an experienced radio/TV technician for help.
NOTE: The adapter must be installed and used in strict accordance with the manufacturer's
instructions as described in the user documentation that comes with the product. Any other
installation or use will violate FCC Part 15 regulations.
Canada – Industry Canada (IC)
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.
Cet appareil se conforme aux normes Canada d'Industrie de RSS permis-exempt. L'utilisation est
assujetti aux deux conditions suivantes: (1) cet appareil ne peut pas causer d'interférences, et (2) cet
appareil doit accepter des interférences , y compris des interférences qui peuvent causer
desopérations non désirées de l'appareil.
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.
Selon les règlements de Canada d'Industrie, cet émetteur de radio peut seulement fonctionner en
utilisant une antenne du type et de gain maximum (ou moindre) que le gain approuvé pour
l'émetteur par Canada d'Industrie. Pour réduire lesinterférences radio potentielles avec les autres
utilisateurs, le type d'antenne et son gain devraient être choisis de façon à ce que la puissance
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isotrope rayonnée équivalente(P.I.R.E.) ne soit pas supérieure à celle qui est nécessaire pour une
communication réussie.
Safety Approval Considerations
This device has been safety approved as a component and is for use only in complete equipment
where the acceptability of the combination is determined by the appropriate safety agencies. When
installed, consideration must be given to the following:

It must be installed into a compliant host device meeting the requirement of UL/EN/IEC 60950-1 2nd edition
including the general provisions of enclosure design 1.6.2 and specifically paragraph 1.2.6.2 (Fire Enclosure).

The device shall be supplied by a SELV source when installed in the end-use equipment.

A heating test shall be considered in the end-use product for meeting the requirement of UL/EN/IEC 60950-1 2nd
edition.
INFORMATION FOR OEMs and HOST INTEGRATORS
The guidelines described within this document are provided to OEM integrators installing Intel®
wireless adapters in notebook and tablet PC host platforms. Adherence to these requirements is
necessary to meet the conditions of compliance with FCC rules, including RF exposure. When all
antenna type and placement guidelines described herein are fulfilled the Intel® wireless adapters
may be incorporated into notebook and tablet PC host platforms with no further restrictions. If any
of the guidelines described herein are not satisfied it may be necessary for the OEM or integrator to
perform additional testing and/or obtain additional approval. The OEM or integrator is responsible
to determine the required host regulatory testing and/or obtaining the required host approvals for
compliance.

Intel® wireless adapters are intended for OEMs and host integrators only.

The Intel® wireless adapter FCC Grant of Authorization describes any limited conditions of modular approval.

The Intel® wireless adapters must be operated only within countries that have been approved for operation.
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
Changes or modification to Intel® wireless adapters by OEMs, integrators or other third parties is not permitted. Any
changes or modification to Intel® wireless adapters by OEMs, integrators or other third parties will void
authorization to operate the adapter.
Simultaneous Transmission of Intel® Wireless Adapters with Other Integrated or Plug‐In
Transmitters
Based upon FCC Knowledge Database publication number 616217
https://apps.fcc.gov/oetcf/kdb/forms/FTSSearchResultPage.cfm?id=33240&switch=P, when there
are multiple transmitting devices installed in a host device, an RF exposure transmitting assessment
shall be performed to determine the necessary application and test requirements. OEM integrators
must identify all possible combinations of simultaneous transmission configurations for all
transmitters and antennas installed in the host system. This includes transmitters installed in the
host as mobile devices (>20 cm separation from user) and portable devices (<20 cm separation
from user). OEM integrators should consult the actual FCC KDB 616217 document for all details
in making this assessment to determine if any additional requirements for testing or FCC approval
is necessary.
5.1.1
Information To Be Supplied to the End User by the OEM or Integrator
The following regulatory and safety notices must be published in documentation supplied to the
end user of the product or system incorporating the Intel® wireless adapter, in compliance with
local regulations. Host system must be labeled with "Contains FCC ID: XXXXXXXX", FCC ID
displayed on label.
The Intel® wireless adapter must be installed and used in strict accordance with the manufacturer's
instructions as described in the user documentation that comes with the product. Intel Corporation
is not responsible for any radio or television interference caused by unauthorized modification of
the devices included with the wireless adapter kit or the substitution or attachment of connecting
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cables and equipment other than that specified by Intel Corporation. The correction of interference
caused by such unauthorized modification, substitution or attachment is the responsibility of the
user. Intel Corporation and authorized resellers or distributors are not liable for any damage or
violation of government regulations that may arise from the user failing to comply with these
guidelines.
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