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xN930 M.2 Hardware User Guide
1VV0301078 Rev.6 – 2013-11-12

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Summary of Contents for Telit Wireless Solutions M.2 N930 Series

  • Page 1 xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12...
  • Page 2 xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 APPLICABILITY TABLE PRODUCT LN930 LN930-AP HN930 Reproduction forbidden without written authorization from Telit Communications S.p.A. - All Rights Reserved. Page 2 of 77...
  • Page 3 xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 SPECIFICATIONS SUBJECT TO CHANGE WITHOUT NOTICE Notice While reasonable efforts have been made to assure the accuracy of this document, Telit assumes no liability resulting from any inaccuracies or omissions in this document, or from use of the information obtained herein.
  • Page 4 xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 Usage and Disclosure Restrictions License Agreements The software described in this document is the property of Telit and its licensors. It is furnished by express license agreement only and may be used only in accordance with the terms of such an agreement.
  • Page 5: Table Of Contents

    xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 Contents Introduction ......................10 Scope .......................... 10 Purpose ........................10 Audience ........................10 Contact Information, Support ..................10 Document Organization ..................... 11 Text Conventions ......................11 Related Documents ....................11 M.2 Overview ......................13 SKUs - 2G/3G/LTE M.2 Modules ................
  • Page 6 xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 Configuration Pins ..................... 41 3.10 Reserved Pins ......................41 3.11 No Connect Pins ......................42 3.12 Antenna Interface ...................... 42 Development Tools ....................44 Carrier Board ......................44 4.1.1 FlashTool........................45 4.1.2 PhoneTool ........................
  • Page 7 xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 Electrical Parameters - Host Interface Signals ............57 Power Consumption ....................58 Other Information ....................60 EMI/EMC and Platform Noise ..................60 Platform Noise Mitigation - Adaptive Clocking ............60 Thermal Monitoring ....................60 Seamless Roaming / Wifi Offload ................
  • Page 8 xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 Figure 1 M.2 HSPA+ Block Diagram ........................ 18 Figure 3 M.2 LTE Module Block Diagram ......................19 Figure 4 M.2 LTE Module Block Diagram......................20 Figure 5 Detailed Interconnection of M.2 LTE Modem RF Engine ..............21 Figure 6 PCI Express M.2 Module Interface .....................
  • Page 9 xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 Table 1 M.2 Module - General Feature ......................14 Table 2. M.2 Module - RF Band Support ......................15 Table 3. M.2 Module - Data Services ....................... 17 Table 4 M.2 Host Interface Signals ........................22 Table 5 USB HS Interprocessor Communications Interface ................
  • Page 10: Introduction

    xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 Introduction This document is a technical specification for Telit’s next generation form factor M.2 module family. The next generation form factor M.2 module family is a natural transition from the PCI Express Mini Card and Half Mini Card to a smaller form factor size. The M.2 Card Type 3042 offers single sided component mounting, 75 pins (8 dedicated for key), in a compact size (30 mm x 42 mm).
  • Page 11: Document Organization

    xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 http://www.telit.com To register for product news and announcements or for product questions contact Telit Technical Support Center (TTSC). Our aim is to make this guide as helpful as possible. Keep us informed of your comments and suggestions for improvements.
  • Page 12 xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 Reproduction forbidden without written authorization from Telit Communications S.p.A. - All Rights Reserved. Page 12 of 77...
  • Page 13: Overview

    xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 M.2 Overview This section will provide an overview of the standard features of a M.2 Card, information on the various SKUs of 2G/3G/4G (LTE) M.2 modules along with a respective functional block diagram of each SKU.
  • Page 14 xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 Table 1 M.2 Module - General Feature Feature Description Additional Information M.2 module Mechanical M.2 Card Type 3042 30 mm x 42 mm Slot B Pin count: 75 (67 usable, 8 slot) Operating 3.3 V Typical Voltage...
  • Page 15 xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 Table 2. M.2 Module - RF Band Support RF Band UE Transmit UE Receive M.2 Module HN930 LN930-AP LN930 001 I 1920 MHz - 2110 MHz - 1980 MHz 2170 MHz 002 II 1850 MHz - 1930 MHz -...
  • Page 16 xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 012 XII 699 MHz - 729 MHz - 716 MHz 746 MHz 013 XIII 777 MHz - 746 MHz - 787 MHz 756 MHz 014 XIV 788 MHz - 758 MHz - 798 MHz 768 MHz 017 XVII...
  • Page 17: Module - Block Diagrams

    xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 028 XXVIII 703 MHz - 758 MHz - 748 MHz 803 MHz 029 XXIX 1850 MHz - 716 MHz - 1910 MHz 728 MHz 1710 MHz - 1755 MHz 001 I 1920 MHz - 2110 MHz - 1980 MHz...
  • Page 18 xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 Figure 1 M.2 HSPA+ Block Diagram Reproduction forbidden without written authorization from Telit Communications S.p.A. - All Rights Reserved. Page 18 of 77...
  • Page 19: Ln930-Ap Module

    xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 2.2.2 M.2 LN930-AP Module The M.2 APAC LTE module is another Intel design based on the XMM™7160 modem platform. The module has a targeted area of operation in the Asia Pacific rim and offers 3G and LTE datacard functionality, 2G Functionality is not supported.
  • Page 20: Ln930 Module

    xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 2.2.3 M.2 LN930 Module The M.2 LTE module is based on Intel’s XMM™7160 modem platform. The M.2 LTE module is a triple-mode (2G, 3G, and 4G) 3GPP release 9 modem providing datacard functionality.
  • Page 21: Host Interface Signals

    xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 SMARTi PMB5740 Diversity Switch & Diversity Filter Module Receiver B7 Div Filter VBAT RD_H1 RD_H1X RD_H3 B1/B4 Diversity RD_H3X Antenna VBAT RD_M1 B2/B25 RD_M1X RD_M2 SD2_1V8 RD_M2X RD_L1 B5/B26 RD_L1X RD_L2 B13/B17 RD_L2X RD_L4...
  • Page 22 xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 Figure 5 PCI Express M.2 Module Interface A complete description of all interface signals available at the host interface is listed in Table 4. Some features, such as GNSS and Antenna Tuning, are not available on every M.2 module. On those modules, the signals at the application interface are not connected on the M.2 module.
  • Page 23 xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 USB D– USB 2.0 HS DMINUS Signal V/2.9 V LED#1 Open Drain, active low signal used 3.3 V for add-in card to provide status Ground SLOT KEY SLOT KEY SLOT KEY SLOT KEY SLOT KEY SLOT KEY...
  • Page 24 xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 Ground I2C_SCL I2C Clock – GNSS Support 1.8 V Not connected internally on M.2 I2C_SDA I2C Data – GNSS Support 1.8 V Not connected internally on M.2 I2C_IRQ GNSS Interrupt Request – GNSS 1.8 V Support Ground...
  • Page 25 xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 Not connected internally on M.2 CONFIG_1 Configuration Status WWAN M.2 Connects to GND internally 3.3V WWAN Supply Pin 3.3 V Ground 3.3V WWAN Supply Pin 3.3 V Ground 3.3V WWAN Supply Pin 3.3 V CONFIG_2 Configuration Status WWAN M.2 Connects to GND...
  • Page 26: Module Interface Details

    xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 M.2 Module Interface Details This section provides details on the various interfaces available M.2 modules. 3.1 USB 2.0 High-Speed – IPC Interface The host processor, connected via a USB 2.0 High-speed interface, has access to the functions of the WWAN card.
  • Page 27: U)Sim Interface

    xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 3.2 (U)SIM Interface An external SIM Card socket is assumed to be mounted on the system board. The M.2 module will access the SIM card through its USIM interface. The USIM interface is compatible with the ISO 7816-3 IC Card standard on the issues required by the GSM 11.12 and GSM 11.18 standard.
  • Page 28 xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 GNSS General Features • Autonomous GPS / GLONASS • Assisted GPS Using SUPL 1.0/2.0 • MS Assisted positioning ( SET / NET Initiated ) • MS Based positioning ( SET / NET Initiated ) •...
  • Page 29 xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 Figure 6 GNSS Connections and Interface A description of the signals between the X-GOLD™ baseband and the CG1960 interface are defined in Table 7 Reproduction forbidden without written authorization from Telit Communications S.p.A. - All Rights Reserved. Page 29 of 77...
  • Page 30: System Control Interface

    xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 Table 7 X-GOLD™ Baseband to GNSS Interface Signals Signal Description VBAT Battery Supply 1.8V 1.8 V Supply provided from X-GOLD™ Baseband UART The data and control I/F between the X-GOLD™ baseband and the GNSS device is over a 4 wire UART interface which include CTS/RTS handshaking.
  • Page 31: Power On & Reset

    xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 3.4.1 Power On & Reset The host processor has two signals that can be used to power on and reset the modem. Powering off the modem is accomplished through an AT command. Table 9 Power-on &...
  • Page 32 xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 Enable, ON (3.3V): The radio transmitter is to be made capable of transmitting. Disable, OFF (low): The radio transmitter(s) is to be made incapable of transmitting. Standard TTL signaling levels shall be used making it compatible with 1.8 V and 3.3 V signaling.
  • Page 33: Led Interface - Status Indicator

    xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 Table 11 Host Radio Disable Interface (W_DISABLE#) Requirement Detailed Description Radio disable duration On reception of a HW or SW disable signal, the WWAN module will initiate within one second the mandatory cellular procedures (which are dependent on current state) for disconnecting from the cellular network.
  • Page 34: Wake On Wwan Signal

    xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 Figure 7 Typical LED Connection The indication protocol for the LED is shown in Table 13 . Table 13 LED State Indicator State Definition Characteristics WWAN The LED is emitting no The LED is emitting light Powered registered but in a stable non-flashing...
  • Page 35: Dynamic Power Reduction

    xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 Table 14 Wake on WWAN Signal Signal Name Detailed Description Direction Voltage (WWAN) Level WAKE_WWAN# Used by M.2 module to wake the O (OD) 3.0 V host. Active Low, Open Drain output 3.4.5 Dynamic Power Reduction With the arrival of Tablets and Ultrabook™...
  • Page 36 xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 Table 15 DPR#/ SAR Support Signal Signal Name Detailed Description Direction Voltage (WWAN) Level DPR# Dynamic Power reduction. 1.8 V Reproduction forbidden without written authorization from Telit Communications S.p.A. - All Rights Reserved. Page 36 of 77...
  • Page 37: Tunable Antenna Control Interface

    xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 3.5 Tunable Antenna Control Interface In notebook platforms, since the WWAN antennas are usually located on the top of the lid, there is a long RF mini-coax cable that can be up to 60 cm long between the antenna and WWAN module, it is preferred to use switches/tunable components directly on the antenna for antenna band switching/tuning to improve efficiency.
  • Page 38: In-Device Coexistence Interface

    xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 3.6 In-Device Coexistence Interface As more and more radios are added to PC Ultrabook™ and tablet platforms, the sources RF interference increases significantly as multiple radios will have overlapping transmissions and receptions. This problem will increase further as overlapping bands continue to be rolled out;...
  • Page 39 xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 NRT mechanisms are not sufficient to guarantee seamless co-running of LTE and connectivity systems (WLAN, BT, and GNSS). Inter-system Synchronization For the cases where co-running of LTE and connectivity systems cannot be achieved, a Real Time (RT) coexistence controller is implemented in the LTE Layer-1 subsystem.
  • Page 40: Power Supply Interface

    xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 COEX2 IDC_LteFrameSync - Synchronous signal 1.8 V indicating LTE frame start. Indicates LTE frame start to BT/WLAN device. Can be used by BT to synch up periodic activity with LTE timing 3.7 Power Supply Interface The M.2 modules require the host to provide the 3.3 V power source.
  • Page 41: Configuration Pins

    xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 3.9 Configuration Pins There are 4 configuration pins on the M.2 module. On the host side, the output CONFIGURATION signals that are tied to GND must be fitted with pull-up resistors. Table 19 M.2 Configuration Pins Signal Name Description...
  • Page 42: No Connect Pins

    xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 3.11 No Connect Pins The M.2 has several No Connect pins. The pins are not connected on the M.2 module. Table 21 No Connect Pins Pins Description 28, 29, 31, 35, 37, 38, 41, 43, 47, 49, 50, 52, 53, No Connect Pins 54, 55, 56, 58, 68 10, 11, 12, 13, 14, 15, 16, 17, 18, 19...
  • Page 43 xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 Figure 10 RF Antenna – Coaxial Connector Location Reproduction forbidden without written authorization from Telit Communications S.p.A. - All Rights Reserved. Page 43 of 77...
  • Page 44: Development Tools

    xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 Development Tools Intel Mobile Communications provides a carrier development board to facilitate system test and verification of the M.2 module. In addition, a set of comprehensive tools to enable rapid integration and customization of the M.2 software is provided. The hardware and software tools for M.2 development are summarized below.
  • Page 45: Flashtool

    xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 Figure 11 M.2 Carrier Board 4.1.1 FlashTool Intel Mobile Communications provides a utility program called FlashTool for downloading a binary image into the Flash memory of the M.2 module. The USB-HS port or USIF on the platform is used for connection to a PC via a USB cable for flashing.
  • Page 46: System Trace Tool

    xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 • RF power ramp • Security data IMEI • • Real Time Clock It also includes interfaces for: • AT Terminal for sending and receiving AT commands. • DWDIO interface for manual access to the production test dll DWDIO.dll. •...
  • Page 47: Noise Profiling Scan Tool

    xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 4.1.5 Noise Profiling Scan Tool M.2 modules are marketed for use on Tablet, Ultrabook, and Laptop devices. OEM vendors routinely offer multiple hardware configurations for the same base model, with different processor speed, drive type, or display type, etc. Each configuration has a different Radio Frequency emission profile with the possibility of introducing new interference sources to a modem module.
  • Page 48: Gnss Tools

    xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 4.1.6 GNSS Tools The main functionality provided by the GNSS tool is: • I/O settings for NMEA port • Signal quality monitoring • Time to First Fix measuring control • Compute Circular Error probability •...
  • Page 49: Windows Software Components

    xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 Windows Software Components Figure 12 illustrates the various software components in a Windows based system. Figure 12 Windows Software Architecture Reproduction forbidden without written authorization from Telit Communications S.p.A. - All Rights Reserved. Page 49 of 77...
  • Page 50: Mbim Toolkit

    xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 5.1 MBIM Toolkit The following is a summary of software tools provided. 5.1.1 Windows 7 MBIM driver ® In order to support both Windows ® 8 and Windows ® 7 (for corporate legacy applications), with a single modem architecture, IMC will provide a kernel level driver implementing the Mobile Broadband Interface Model.
  • Page 51: Modem Configuration On Linux Based Pc

    xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 Modem Configuration on Linux Based PC The following section describes the system architecture of Inter-Processor Communication on a M.2 module when connected to a Linux based Host OS (Android, Chrome, and Ubuntu). The description is only concerned with the HS-USB port which is the only available functional interprocessor communications (IPC) interface at run-time and takes into account only the AT control plane and IP packets data connection.
  • Page 52: Cmux Multiplexer

    xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 logical channels. Each logical channel corresponds to a dedicated Packet Data Network (PDN) connection. There is no TCP/IP stack on the modem side in the data path from IPC over PBM to C-PS handling IP address based routing.
  • Page 53: Usb 2.0 Hs Features

    xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 6.3 USB 2.0 HS Features The USB 2.0 HS stack is used for communication with a PC in device role. The USB 2.0 HS component supports the following features: • Modem connection for AT command interface (CDC-ACM) •...
  • Page 54: Default Configuration

    xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 6.4.3 Default Configuration The default configuration is 3 CDC-ACM channels for control and trace and 4 CDC– NCM channels for data connections. A specific configuration is set via the AT+XSIO command. The detailed usage of the default configuration is: •...
  • Page 55: Operating Environment

    xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 Operating Environment Table 23 Operating Environment Item Description Form Factor Card Type 3042 Operating Temperature The module full operating temperature in compliance with 3GPP specification shall be -10 °C to +55 °C. Extreme operating condition: +55 °C to +70 °C This is the surrounding air temperature of the module inside the Storage Temperature...
  • Page 56: Power Delivery Requirements

    xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 Power Delivery Requirements 8.1 Electrical Parameters – 3.3 V Power Supply The M.2 modules utilize a single regulated power rail of 3.3 V provided by the host platform. There is no other VDDIO like pin and the M.2 module is responsible for generating its own I/O voltage source using the 3.3 V power rail.
  • Page 57: Electrical Parameters - Host Interface Signals

    xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 8.2 Electrical Parameters - Host Interface Signals Table 26 Electrical Parameters – Host Interface Signals Signal Description Voltage DC Characteristics (V) Domain (VDD_IO Card_Power_ON_OFF Power On/Off M.2 -0.3 0/1.8 Module RESET# Reset M.2 -0.3 0/1.8...
  • Page 58: Power Consumption

    xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 8.3 Power Consumption This section lists the power consumption targets. Typical target values at Vsys = 3.3 V Table 27 LTE Power Consumption M.2 Power Consumption (*) Transmit Power LTE Use Case Band 10 dBm 23 dBm...
  • Page 59 xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 2UL, 1DL, PCL10 (*) GPRS 900 475 mW 2UL, 1DL, PCL5 (*) GPRS900 1482 mW Standby Power GSM Stand-by, DRX5, 16NB cells (£) 6.88 mW (*) Applicable to modules: LN930, LN930-AP, HN930 (£) Applicable to module: HN930 (XMM™...
  • Page 60: Other Information

    xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 Other Information 9.1 EMI/EMC and Platform Noise The M.2 Data Card has shielding and noise filtering in place to ensure that the WWAN module does not impact the operation of the host system. The M.2 Data Card must also be able to tolerate platform noise caused by high order clock harmonics from the host processor and associated support circuitry.
  • Page 61: Seamless Roaming / Wifi Offload

    xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 The M.2 Data Card includes a digital thermal sensor in order to monitor the temperature of the WWAN Card. The firmware will support the extraction of temperature information from the module and the configuration of auxiliary trip points. The configuration of the thermal trip points and receipt of thermal data is available through a WWAN power control API in order for the host to implement a power and thermal management framework for the system.
  • Page 62: Antenna Recommendations

    xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 9.7 Antenna Recommendations The following tables provide antenna guidance for the platform designer. Table 31 Antenna Recommendation Parameter Recommendation Impedance 50 ohm Antenna Shape Near Omni-directional in the Horizontal plane is preferred and Radiation Pattern Polarization...
  • Page 63 xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 Center Uplink (UL) Downlink Duplex Common Bandwidth of Bandwidth of Band Frequency UE Tx (DL) UE Rx Mode Name Main Antenna Diversity Antenna (MHz) (MHz) 018 XVIII 815 MHz to 860 MHz to Japan lower 850 MHz (18)
  • Page 64: Wwan Card Type 3042-S3-B

    xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 10 WWAN Card Type 3042-S3-B 10.1 Mechanical Dimensions The mechanical dimensions of WWAN Card Type 3042 are shown in Figure 14 . The WWAN card is 30 mm x 42 mm. The height is 1.5 mm from the top of the PCB to the top of the outside shield.
  • Page 65 xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 Figure 15 WWAN Card 3042 Key Details Reproduction forbidden without written authorization from Telit Communications S.p.A. - All Rights Reserved. Page 65 of 77...
  • Page 66: Land Pattern

    xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 10.2 Land Pattern Figure 16 illustrates a typical land pattern for a top-mount connector with the key removed. Figure 16 WWAN Card Type 3042 Top-Side Mounting Land Pattern Reproduction forbidden without written authorization from Telit Communications S.p.A. - All Rights Reserved. Page 66 of 77...
  • Page 67 xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 Figure 17 illustrates a typical mid-plane (in-line) land pattern with key removed. Figure 17 WWAN Card 3042 Mid-plane Land Pattern with Key Removed Reproduction forbidden without written authorization from Telit Communications S.p.A. - All Rights Reserved. Page 67 of 77...
  • Page 68: Antenna Connector Locations

    xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 10.3 Antenna Connector Locations Figure 18 illustrates the locations for the mina Rx/Tx antenna and the Diversity/GPS antenna. Antenna locations are still under review. Figure 18 Antenna Connector Location ANT1: Diversity/ GPS Antenna ANT4: Main Antenna Reproduction forbidden without written authorization from Telit Communications S.p.A.
  • Page 69: Safety Recommendations

    xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 11 Safety Recommendations READ CAREFULLY Be sure the use of this product is allowed in the country and in the environment required. The use of this product may be dangerous and has to be avoided in the following areas: •...
  • Page 70: Conformity Assessment Issues

    xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 12 Conformity assessment issues The following chapters are related to the M.2 module on the EVK carrier board. 12.1 1999/5/EC Directive The xN930 products portfolio has been evaluated against the essential requirements of the 1999/5/EC Directive.
  • Page 71 xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 Norwegian Telit Communications S.p.A. erklærer herved at utstyret 2G/3G module er i samsvar med de grunnleggende krav og øvrige relevante krav i direktiv 1999/5/EF. Niniejszym Telit Communications S.p.A. oświadcza, że 2G/3G module jest zgodny z Polish zasadniczymi wymogami oraz pozostałymi stosownymi postanowieniami Dyrektywy 1999/5/EC Portuguese Telit Communications S.p.A.
  • Page 72: Ce Rf Exposure Compliance

    xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 The conformity assessment procedure referred to in Article 10 and detailed in Annex IV of Directive 1999/5/EC has been followed with the involvement of the following Notified Body: Thus, the following marking is included in the product: The full declaration of conformity can be found on the following address: http://www.telit.com/ There is no restriction for the commercialization in all the countries of the European Union.
  • Page 73: R&Tte Regulation

    xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 12.3 R&TTE Regulation: In all cases assessment of the final product must be met against the Essential requirements of the R&TTE Directive Articles 3.1(a) and (b), safety and EMC respectively, as well as any relevant Article 3.3 requirements.
  • Page 74: Fcc/Ic Regulatory Notices

    xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 13 FCC/IC Regulatory notices 13.1 Modification statement Telit has not approved any changes or modifications to this device by the user. Any changes or modifications could void the user’s authority to operate the equipment. Telit n’approuve aucune modification apportée à...
  • Page 75: Radiation Exposure Statement

    xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 13.4 Radiation Exposure Statement This equipment complies with FCC radiation exposure limits set forth for an uncontrolled environment. This equipment should be installed and operated with minimum distance 20 cm between the radiator & your body. 13.5 End Product Labeling When the module is installed in the host device, the FCC ID label must be visible through a window on the final device or it must be visible when an access panel, door or cover is easily...
  • Page 76: Document History

    xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 14 Document History Revision Date Changes 2013-05-20 First issue 2013-07-09 • Update setting for Pin 21 on the host interface. This signal is not connected. • Updated pin names of pins 1, 21, 69, and 75 in Table 4 and Table 19 to simply reflect HW Configuration use.
  • Page 77 xN930 M.2 Hardware User Guide 1VV0301078 Rev.6 – 2013-11-12 Reproduction forbidden without written authorization from Telit Communications S.p.A. - All Rights Reserved. Page 77 of 77...

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