HL8548-G_1103969

Product Technical Specification PR EL IM IN AR Y AirPrime HL8548 and HL8548-G 4114663 1.0 October 16, 2013 Product Technical Specification Important Notice AR Safety and Hazards Y Due to the nature of wireless communications, transmission and reception of data can never be guaranteed. Data may be delayed, corrupted (i.e., have errors) or be totally lost. Although significant delays or losses of data are rare when wireless devices such as the Sierra Wireless modem are used in a normal manner with a well-constructed network, the Sierra Wireless modem should not be used in situations where failure to transmit or receive data could result in damage of any kind to the user or any other party, including but not limited to personal injury, death, or loss of property. Sierra Wireless accepts no responsibility for damages of any kind resulting from delays or errors in data transmitted or received using the Sierra Wireless modem, or for failure of the Sierra Wireless modem to transmit or receive such data. Note: IN Do not operate the Sierra Wireless modem in areas where cellular modems are not advised without proper device certifications. These areas include environments where cellular radio can interfere such as explosive atmospheres, medical equipment, or any other equipment which may be susceptible to any form of radio interference. The Sierra Wireless modem can transmit signals that could interfere with this equipment. Do not operate the Sierra Wireless modem in any aircraft, whether the aircraft is on the ground or in flight. In aircraft, the Sierra Wireless modem MUST BE POWERED OFF. When operating, the Sierra Wireless modem can transmit signals that could interfere with various onboard systems. Some airlines may permit the use of cellular phones while the aircraft is on the ground and the door is open. Sierra Wireless modems may be used at this time. IM The driver or operator of any vehicle should not operate the Sierra Wireless modem while in control of a vehicle. Doing so will detract from the driver or operator’s control and operation of that vehicle. In some states and provinces, operating such communications devices while in control of a vehicle is an offence. Limitations of Liability EL This manual is provided “as is”. Sierra Wireless makes no warranties of any kind, either expressed or implied, including any implied warranties of merchantability, fitness for a particular purpose, or noninfringement. The recipient of the manual shall endorse all risks arising from its use. PR The information in this manual is subject to change without notice and does not represent a commitment on the part of Sierra Wireless. SIERRA WIRELESS AND ITS AFFILIATES SPECIFICALLY DISCLAIM LIABILITY FOR ANY AND ALL DIRECT, INDIRECT, SPECIAL, GENERAL, INCIDENTAL, CONSEQUENTIAL, PUNITIVE OR EXEMPLARY DAMAGES INCLUDING, BUT NOT LIMITED TO, LOSS OF PROFITS OR REVENUE OR ANTICIPATED PROFITS OR REVENUE ARISING OUT OF THE USE OR INABILITY TO USE ANY SIERRA WIRELESS PRODUCT, EVEN IF SIERRA WIRELESS AND/OR ITS AFFILIATES HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES OR THEY ARE FORESEEABLE OR FOR CLAIMS BY ANY THIRD PARTY. Notwithstanding the foregoing, in no event shall Sierra Wireless and/or its affiliates aggregate liability arising under or in connection with the Sierra Wireless product, regardless of the number of events, occurrences, or claims giving rise to liability, be in excess of the price paid by the purchaser for the Sierra Wireless product. Customer understands that Sierra Wireless is not providing cellular or GPS (including A-GPS) services. These services are provided by a third party and should be purchased directly by the Customer. 4114663 Rev 1.0 October 16, 2013 2 Product Technical Specification SPECIFIC DISCLAIMERS OF LIABILITY: CUSTOMER RECOGNIZES AND ACKNOWLEDGES SIERRA WIRELESS IS NOT RESPONSIBLE FOR AND SHALL NOT BE HELD LIABLE FOR ANY DEFECT OR DEFICIENCY OF ANY KIND OF CELLULAR OR GPS (INCLUDING A-GPS) SERVICES. Patents This product may contain technology developed by or for Sierra Wireless Inc. Y ® This product includes technology licensed from QUALCOMM . AR This product is manufactured or sold by Sierra Wireless Inc. or its affiliates under one or more patents licensed from InterDigital Group and MMP Portfolio Licensing. Copyright © 2013 Sierra Wireless. All rights reserved. ® ® ® IN Trademarks ® ® Sierra Wireless , AirPrime , AirLink , AirVantage , WISMO and the Sierra Wireless and Open AT logos are registered trademarks of Sierra Wireless, Inc. or one of its subsidiaries. ® Watcher is a registered trademark of NETGEAR, Inc., used under license. ® ® Windows and Windows Vista are registered trademarks of Microsoft Corporation. ® ® IM Macintosh and Mac OS X are registered trademarks of Apple Inc., registered in the U.S. and other countries. ® QUALCOMM is a registered trademark of QUALCOMM Incorporated. Used under license. Other trademarks are the property of their respective owners. EL Contact Information PR Sales Desk: Post: Technical Support: RMA Support: Fax: Web: Phone: 1-604-232-1488 Hours: 8:00 AM to 5:00 PM Pacific Time Contact: http://www.sierrawireless.com/sales Sierra Wireless 13811 Wireless Way Richmond, BC Canada V6V 3A4 support@sierrawireless.com repairs@sierrawireless.com 1-604-231-1109 http://www.sierrawireless.com/ Consult our website for up-to-date product descriptions, documentation, application notes, firmware upgrades, troubleshooting tips, and press releases: www.sierrawireless.com 4114663 Rev 1.0 October 16, 2013 3 Product Technical Specification Document History Version Updates September 19, 2013 Creation October 16, 2013 Updated based on initial internal review PR EL IM IN AR Y 1.0 Date 4114663 Rev 1.0 October 16, 2013 4 Contents 1. INTRODUCTION .................................................................................................. 9 Common Flexible Form Factor (CF3) ................................................................................ 9 1.2. Physical Dimensions .......................................................................................................10 1.3. General Features .............................................................................................................10 1.4. GNSS Features ...............................................................................................................13 1.5. Architecture .....................................................................................................................13 1.6. Interfaces .........................................................................................................................14 1.7. Connection Interface .......................................................................................................14 1.8. ESD .................................................................................................................................15 1.9. Environmental & Certifications ........................................................................................15 1.9.1. Environmental Specifications ...................................................................................15 1.9.2. Regulatory ................................................................................................................16 1.9.3. RoHS Directive Compliant .......................................................................................17 1.9.4. Disposing of the Product ..........................................................................................17 1.9.5. References ...............................................................................................................17 IN AR Y 1.1. 2. PAD DEFINITION ............................................................................................... 18 IM 3. DETAILED INTERFACE SPECIFICATIONS ..................................................... 22 Power Supply ..................................................................................................................22 3.2. Power Consumption ........................................................................................................22 3.3. VGPIO .............................................................................................................................23 3.4. BAT_RTC ........................................................................................................................24 3.5. SIM Interface ...................................................................................................................24 EL 3.1. USB .................................................................................................................................25 3.7. Electrical Information for Digital I/O .................................................................................25 3.8. General Purpose Input/Output (GPIO) ............................................................................25 3.9. Main Serial Link (UART1) ................................................................................................26 3.10. POWER ON Signal (PWR_ON) ......................................................................................27 PR 3.6. 3.11. Reset Signal (RESET) .....................................................................................................27 3.12. ADC .................................................................................................................................28 3.13. PWM ................................................................................................................................28 3.14. Clock Interface.................................................................................................................28 3.15. PCM .................................................................................................................................28 3.16. I C Interface .....................................................................................................................30 3.17. HSIC ................................................................................................................................30 2 3.18. Debug Interfaces .............................................................................................................30 3.18.1. Debug Port ...............................................................................................................30 3.18.2. JTAG ........................................................................................................................30 4114663 Rev 1.0 October 16, 2013 5 Product Technical Specification 3.19. PPS (HL8548-G Only) .....................................................................................................31 3.20. EXT_LNA_GPS_EN (HL8548-G only) ............................................................................31 3.21. RF Interface .....................................................................................................................31 3.21.1. RF Connection .........................................................................................................31 3.21.2. RF Performances .....................................................................................................32 3.21.3. TX Burst Indicator (2G_TX_ON) ..............................................................................32 GNSS Interface ...............................................................................................................33 Y 3.22. 4. DESIGN GUIDELINES ....................................................................................... 34 Power-Up Sequence .......................................................................................................34 4.2. Module Switch-Off ...........................................................................................................34 4.3. Sleep Mode Management ...............................................................................................34 4.4. ESD Guidelines for SIM Card ..........................................................................................35 4.5. Radio Integration .............................................................................................................36 AR 4.1. 5. X-RAY EXPOSURE ............................................................................................ 37 6. FCC/IC LEGAL INFORMATION......................................................................... 38 Label ................................................................................................................................38 6.2. FCC Regulations .............................................................................................................38 6.3. RF Exposure Information.................................................................................................38 6.4. IC Regulations .................................................................................................................39 IN 6.1. PR EL IM 7. TERMS AND ABBREVIATIONS ........................................................................ 40 4114663 Rev 1.0 October 16, 2013 6 List of Figures AirPrime HL8548 and HL8548-G Architecture Overview (TBC) ..................................... 13 Figure 2. AirPrime HL8548 and HL8548-G Mechanical Overview ................................................. 14 Figure 3. PCM Timing Waveform (TBC)......................................................................................... 29 Figure 4. 2G_TX_ON State during TX Burst .................................................................................. 33 Figure 5. EMC and ESD Components Close to the SIM ................................................................ 35 Figure 6. Serial Resistors for Long SIM Bus Lines ......................................................................... 35 Figure 7. Antenna Connection ........................................................................................................ 36 Figure 8. GNSS Application with Active Antenna ........................................................................... 36 PR EL IM IN AR Y Figure 1. 4114663 Rev 1.0 October 16, 2013 7 List of Tables Supported Bands/Connectivity .......................................................................................... 9 Table 2. AirPrime HL8548 and HL8548-G Features ..................................................................... 10 Table 3. GNSS Capabilities ........................................................................................................... 13 Table 4. ESD Specifications .......................................................................................................... 15 Table 5. AirPrime HL8548 and HL8548-G Environmental Specifications ..................................... 15 Table 6. Regulation Compliance ................................................................................................... 16 Table 7. Pad Definition .................................................................................................................. 18 Table 8. Power Supply .................................................................................................................. 22 Table 9. Power Consumption ........................................................................................................ 22 Table 10. VGPIO Electrical Characteristics ..................................................................................... 23 Table 11. BAT_RTC Electrical Characteristics................................................................................ 24 Table 12. Electrical Characteristics of UIM1 ................................................................................... 24 Table 13. Digital I/O Electrical Characteristics ................................................................................ 25 Table 14. UART1 Pin Description ................................................................................................... 26 Table 15. PWR_ON Electrical Characteristics ................................................................................ 27 Table 16. RESET Electrical Characteristics .................................................................................... 27 Table 17. ADC Electrical Characteristics ........................................................................................ 28 Table 18. Digital Audio Interface Electrical Characteristics ............................................................. 29 Table 19. I C Pin Description .......................................................................................................... 30 Table 20. SW Trace Pin Description ............................................................................................... 30 Table 21. JTAG Pin Description ...................................................................................................... 30 Table 22. PPS Electrical Characteristics ......................................................................................... 31 Table 23. RF Connection................................................................................................................. 31 Table 24. RF Performance .............................................................................................................. 32 Table 25. Burst Indicator States ...................................................................................................... 32 Table 26. TX Burst Characteristics .................................................................................................. 32 Table 27. GNSS Interface Specifications ........................................................................................ 33 PR EL 2 IM IN AR Y Table 1. 4114663 Rev 1.0 October 16, 2013 8 1. Introduction This document is the Product Technical Specification for the AirPrime HL8548 and HL8548-G Embedded Modules. It defines the high level product features and illustrates the interfaces for these features. This document is intended to cover the hardware aspects of the product series, including electrical and mechanical. AR Y The AirPrime HL8548 and HL8548-G belong to the AirPrime HL Series from Essential Connectivity Module family. These are industrial grade Embedded Wireless Modules that provides voice and data connectivity on GPRS, EDGE, WCDMA, HSDPA and HSUPA networks (as listed in Table 1 Supported Bands/Connectivity). On top of this, the HL8548-G also provides GNSS functionality. These modules are designed for the industry and automotive markets and any market with similar quality and life-time support requirements. The HL8548 and HL8548-G support a large variety of interface like Digital Audio and Dual SIM Single Standby to provide customers with the highest level of flexibility in implementing high-end solutions. Table 1. Supported Bands/Connectivity Transmit band (Tx) Receive band (Rx) Maximum Output Power UMTS B1 1922 to1978 MHz 2112 to 2168 MHz 23 dBm (+/- 2dBm) Class 3bis UMTS B2 1852 to 1908 MHz 1932 to 1988 MHz 23 dBm (+/- 2dBm) Class 3bis UMTS B5 826 to 847 MHz 871 to 892 MHz 23 dBm (+/- 2dBm) Class 3bis UMTS B6 832 to 838 MHz 877 to 883 MHz 23 dBm (+/- 2dBm) Class 3bis UMTS B8 882 to 913 MHz 927 to 958 MHz 23 dBm (+/- 2dBm) Class 3bis GSM 850 824 to 849 MHz 869 to 894 MHz 2 Watts GSM, GPRS and EDGE E-GSM 900 880 to 915 MHz 925 to 960 MHz 2 Watts GSM, GPRS and EDGE DCS 1800 1710 to 1785 MHz 1805 to 1880 MHz 1 Watt GSM, GPRS and EDGE PCS 1900 1850 to 1910 MHz 1930 to 1990 MHz 1 Watt GSM, GPRS and EDGE GPS -- 1575.42 ± 20 MHz -- GLONASS -- 1597.5 to 1605.8 MHz -- EL IM IN RF Band 1.1. Common Flexible Form Factor (CF3) 3 The AirPrime HL8548 and HL8548-G are Common Flexible Form Factor (CF ) modules. 3 PR Common Flexible Form Factor (CF ) represents a family of WWAN modules that share the same mechanical dimensions (width and length with varying thicknesses) as well as a standardized footprint but can accommodate multiple radio technologies. The modules will have a “common” form factor across generations of products and for different radio technologies. All modules belonging to this family can be both solder-down as well as connectorized. 3 The CF form factor provides a solution to a set of problems faced commonly in the WWAN module space:       4114663 Accommodate any radio technology and band grouping Supports bit-pipe & value add Offers electrical and functional compatibility across generations and radio technologies Competitive size in 2G and leading edge in 4G Solderable as well as socketable Enables Configure to Order/Build to Order Rev 1.0 October 16, 2013 9 Product Technical Specification 1.2. Introduction Physical Dimensions Length: 23 mm  Width: 22 mm  Thickness: 2.5mm Note: Dimensions specified above are typical values. 1.3. General Features AR  Y The AirPrime HL8548 and HL8548-G modules are compact, robust, fully shielded modules with the following dimensions: The table below summarizes the AirPrime HL8548 and HL8548-G features. AirPrime HL8548 and HL8548-G Features Feature Physical Electrical Description  Small form factor (146-pin solderable LGA pad) – 23mm x 22mm x 2.5mm (nominal)  Complete body shielding  RF connection pads – RF primary and GNSS interface  Baseband signals connection Single or double supply voltage (VBATT and VBATT_PA) – 3.2V – 4.5V Quad-band GSM / GPRS / EDGE (850 MHz, 900 MHz, 1800 MHz, 1900 MHz) IM   Penta-band UMTS WCDMA FDD (850 MHz(B5/B6), 900MHz(B8), 1900 MHz(B2), 2100MHz(B1))  GPS (1575.42 MHz), GLONASS (1602MHz)  Digital interface (ONLY)  Supports Enhanced Full Rate (EFR), Full Rate (FR), Half Rate (HR), and both Narrow-Band and Wide-band Adaptive Multirate (AMR-NB and AMRWB) vocoders EL RF IN Table 2. PR Audio interface SIM interface 4114663  MO and MT calling  Echo cancellation and noise reduction  Emergency calls (112, 110, 911, etc.)  Incoming call notification  DTMF generation  Dual SIM Single Standby with fast network switching capability  1.8V/3V support  SIM extraction / hot plug detection  SIM/USIM support  Conforms with ETSI UICC Specifications.  Supports SIM application tool kit with proactive SIM commands Rev 1.0 October 16, 2013 10 Product Technical Specification Application interface Description  NDIS NIC interface support (Windows XP, Windows 7, Windows 8, Windows CE, Linux)  Multiple non-multiplexed USB channel support  Dial-up networking  USB selective suspend to maximize power savings  CMUX multiplexing over UART  AT command interface – 3GPP 27.007 standard, plus proprietary extended AT commands Y Feature Introduction Dual-mode UMTS (WCDMA) / HSDPA / HSUPA / EDGE / GPRS / GSM operation GSM/GPRS/EDGE Release 4 GERAN Feature Package 1 SAIC / DARP Phase 2 Latency Reduction Repeated FACCH and Repeated SACCH A-GPS support GPRS ROHC Enhanced Operator Name String (EONS) Enhanced Network Selection (ENS) WCDMA      3GPP WCDMA FDD Multimode Type II UE Protocol Stack   A-GPS support Configurable for data classes up to 384 kBit/s Inter-RAT Handover and Cell Reselection Supports two types of Compressed Mode Network Assisted Cell Change from UTRAN to GERAN and GERAN to UTRAN CSD (Circuit-switched data bearers) over WCDMA (transparent/non transparent up to 64 kBit/s; Support for Video Telephony) EL Protocol Stack CSD (Circuit-switched data bearers) IM  GPRS/EDGE – Class 33 (296 kbits downlink and 236.8 kbits uplink) AR           IN   HSDPA (High Speed Downlink Packet Access)    PR  SMS 4114663 Compliant with 3GPP Release 5 HSDPA Category 8 data rate – 7.2 Mbps (peak rate) IPv6 support HSUPA (High Speed Uplink Packet Access)     Compliant with 3GPP Release 6 HSUPA Category 6 data rate - 5.76 Mbps (peak rate) Robust Header Compression (RoHC) Fractional DPCH  SMS MO and MT  CS and PS support  SMS saving to SIM card or ME storage  SMS reading from SIM card or ME storage  SMS sorting  SMS concatenation  SMS Status Report  SMS replacement support  SMS storing rules (support of AT+CNMI, AT+CNMA) Rev 1.0 October 16, 2013 11 Product Technical Specification Description Supplementary Services  Call Barring  Call Forwarding  Call Hold  Caller ID  Call Waiting  Multi-party service  USSD  Automatic answer Y Feature Introduction Provides: GPS and GLONASS support  A-GPS features  NMEA support Note: AR Standalone GNSS functionality  GNSS specifications are preliminary targets that are subject to change without notice. Actual GNSS functionality is dependent on the firmware version, and on module configuration.  Multiple (up to 20) cellular packet data profiles  Sleep mode for minimum idle power draw  Automatic GPRS attach at power-up  GPRS detach  Mobile-originated PDP context activation / deactivation  Support QoS profile  Release 97 – Precedence Class, Reliability Class, Delay Class, Peak Throughput, Mean Throughput  Release 99 QoS negotiation – Background, Interactive, and Streaming IM IN GNSS*   Static and Dynamic IP address. The network may assign a fixed IP address or dynamically assign one using DHCP (Dynamic Host Configuration Protocol).  Supports PAP and CHAP authentication protocols EL Connectivity  PDP context type (IPv4, IPv6, IPv4v6). IP Packet Data Protocol context  RFC1144 TCP/IP header compression  Interaction with existing GSM services (MO/MT SMS voice calls) while:  GPRS is attached, or  In a GPRS data session (class B GPRS suspend / resume procedures) Operating temperature ranges (industrial grade): PR Environmental RTC Temperature Sensor * 4114663   Class A: -30°C to +70°C Class B: -40°C to +85°C Real Time Clock (RTC) with calendar and alarm  Temperature monitoring  Alarms Only available on the AirPrime HL8548-G. Rev 1.0 October 16, 2013 12 Product Technical Specification 1.4. Introduction GNSS Features The table below summarizes the AirPrime HL8528-G GNSS capabilities. GNSS Capabilities Description GPS L1 band (CDMA 1575.42 MHz) GLONASS L1 Band (FDMA 1602MHz) SBAS WAAS, EGNOS, MSAS, GAGAN, QZSS Channels 52 Antenna Passive or active antenna support Assistance data Server-generated Extended Ephemeris 1.5. AR Feature Y Table 3. Architecture Note: IN The figure below presents an overview of the AirPrime HL8548 and HL8548-G internal architecture and external interfaces. Dotted parts are only supported on the AirPrime HL8548-G. HL8548 and HL8548-G IM Memory (Flash + RAM) SAW Filters RX_GSM MCU DSP PMU RF PR EL 32K_CLKOUT SIM1 RESET_IN TP1 PWR_ON PWM 2G_TX_ON EXT_LNA_GPS_EN PPS Baseband Figure 1. 4114663 RX_WCDMA Dulpexer TX_GSM TX_WCDMA Antenna Switch PA RF TX_GSM LGA146 2G_TX_ON Analog Baseband LNA RF CTRL GNSS Peripherals 26MHz RF_3G TX_3G LGA146 VBATT GND VGPIO BAT_RTC GPIO x 12 ADC x2 UART1 (8pins) Debug (2pins) I²C JTAG 26M_CLKOUT RX_2G SAW Filter RF EXT_LNA_GPS_EN DATA PPS (TBD) MHz 32.768KHz AirPrime HL8548 and HL8548-G Architecture Overview (TBC) Rev 1.0 October 16, 2013 13 Product Technical Specification 1.6. Introduction Interfaces The AirPrime HL8548 and HL8548-G module provides the following interfaces and peripheral connectivity:  1 8-pins UART  1I C  1 HSIC  Active Low RESET  USB 2.0  1 Backup Battery Interface  2 System Clock Out  Active Low POWER ON  1 1.8V/3V SIM  1 Digital Audio  2 ADC  1 JTAG Interface  2 PWM  12 GPIOs with 4 multiplexes  2G TX Burst Indicator  GSM Antenna IN AR Y 2 IM In addition, the AirPrime HL8548-G module provides the following additional interfaces and peripheral connectivity:  GNSS Antenna  External GNSS LNA Enable/Disable  Pulse Per Second Connection Interface EL 1.7. PR The AirPrime HL8548 and HL8548-G module is an LGA form factor device. All electrical and mechanical connections are made through the 146 Land Grid Array (LGA) pads on the bottom side of the PCB. Figure 2. AirPrime HL8548 and HL8548-G Mechanical Overview The 146 pads have the following distribution:  66 inner signal pads, 1x0.5mm, pitch 0.8mm  1 reference test point (Ground), 1.0mm diameter  7 test point (JTAG), 0.8mm diameter, 1.20mm pitch 4114663 Rev 1.0 October 16, 2013 14 Product Technical Specification Introduction  64 inner ground pads, 1.0x1.0mm, pitch 1.825mm/1.475mm  4 inner corner ground pads, 1x1mm  4 outer corner ground pads, 1x0.9mm 1.8. ESD Note: Y Refer to the following table for ESD Specifications. Information specified in the following table is preliminary and subject to change. ESD Specifications AR Table 4. Category Connection Specification Operational RF ports IEC-61000-4-2 — Level (Electrostatic Discharge Immunity Test) Unless otherwise specified: Non-operational    Host connector interface Other host signals JESD22-C101C +/- 500V Charged Device Model ESD protection is highly recommended at the point where the USIM contacts are exposed, and for any other signals that would be subjected to ESD by the user. Environmental & Certifications 1.9.1. IM 1.9. JESD22-A115 +/- 200V Machine Model IN SIM connector Signals JESD22-A114 +/- 2kV Human Body Model Environmental Specifications The environmental specification for both operating and storage conditions are defined in the table below. AirPrime HL8548 and HL8548-G Environmental Specifications EL Table 5. Range Operating Class A -30°C to +70°C Operating Class B -40°C to +85°C Storage -40°C to +85°C PR Conditions Class A is defined as the operating temperature ranges that the device:  Shall exhibit normal function during and after environmental exposure.  Shall meet the minimum requirements of 3GPP or appropriate wireless standards. Class B is defined as the operating temperature ranges that the device:  Shall remain fully functional during and after environmental exposure  Shall exhibit the ability to establish a voice, SMS or DATA call (emergency call) at all times even when one or more environmental constraint exceeds the specified tolerance.  Unless otherwise stated, full performance should return to normal after the excessive constraint(s) have been removed. 4114663 Rev 1.0 October 16, 2013 15 Product Technical Specification 1.9.2. Introduction Regulatory The AirPrime HL8548 and HL8548-G are both compliant with the following regulations: R&TTE directive 1999/5EC  Japan JRF/JPA  FCC  IC Y  These compliances will be reflected on the AirPrime HL8548 and HL8548-G labels when applicable. Regulation Compliance AR Table 6. Current Version Title NAPRD.03 v5.18 or later Overview of PCS Type certification review board (PTCRB) Mobile Equipment Type Certification and IMEI control GCF-CC v3.51.1 or later GCF Conformance Certification Criteria TS 51.010-1 V10.0.0 (2012-03) 3rd Generation Partnership Project; Technical Specification Group GSM/EDGE Radio Access Network; Digital cellular telecommunications system (Phase 2+); Mobile Station (MS) conformance specification; Part 1: Conformance specification 3rd Generation Partnership Project; Technical Specification Group GSM/EDGE Radio Access Network; Mobile Station (MS) conformance specification; Part 2: Protocol Implementation Conformance Statement (PICS) proforma specification IM TS 51.010-2 V10.0.0 (2012-03) IN Document EN 301511 V9.0.2 (2003-03) Global System for Mobile Communications (GSM); Harmonized EN for Mobile Stations in the GSM 900 and GSM 1800 Bands Covering Essential Requirements Under Article 3.2 of the R&TTE Directive (1999/5/EC) EN 301489-1 V1.9.2 (2011-09) Electromagnetic compatibility and Radio spectrum Matters (ERM); ElectroMagnetic Compatibility (EMC) standard for radio equipment and services; Part 1: Common technical requirements Electromagnetic compatibility and Radio spectrum Matters (ERM); ElectroMagnetic Compatibility (EMC) standard for radio equipment and services; Part 3: Specific conditions for Short-Range Devices (SRD) operating on frequencies between 9 kHz and 40 GHz V1.3.1 (2005-11) Electromagnetic Compatibility and Radio Spectrum Matters (ERM); ElectroMagnetic Compatibility (EMC) Standard for Radio Equipment and Services; Part 7: Specific Conditions for Mobile and Portable Radio and Ancillary Equipment of Digital Cellular Radio Telecommunications Systems (GSM and DCS) EN 60950-1 NA IEC 60950-1:2005/A1:2009 EN 60950-1:2006/A11:2009/A1:2010/A12:2011/AC :2011 Information technology equipment – safety- and general requirements EN 300440-1 v1.6.1 (2012-08) Electromagnetic compatibility and Radio spectrum Matters (ERM); Short range devices; Radio equipment to be used in the 1 GHz to 40 GHz frequency range; Part 1: Technical characteristics and test methods EN 300440-2 V1.4.1 (2012-08) Electromagnetic compatibility and Radio spectrum Matters (ERM); Short range devices; Radio equipment to be used in the 1 GHz to 40 GHz frequency range; Part 2: Harmonized EN under article 3.2 of the R&TTE Directive FCC Part 15B NA Subpart B - Radio frequency devices subpart B – Unintentional Radiators EL V1.4.1 (2002-08) EN 301489-3 PR EN 301489-7 4114663 Rev 1.0 October 16, 2013 16 Product Technical Specification Introduction Current Version Title FCC Part 22H NA Cellular Radiotelephone Service; Subpart H: Cellular Radiotelephone Service FCC Part 24E NA Personal Communications Service; Subpart E: Broadband PCS. RSS-132 Issue 2:2005 Cellular telephones employing new technologies operating in the 824-849 MHz and 869-894 MHz bands. RSS-133 Issue 5:2009 2 GHz personal communications services AS/ACIF S042.1 2008 Requirements for connection to an air interface of a telecommunications network Part 1; General AS/ACIF S042.3 2005 Requirements for connection to an air interface of a Telecommunications Network - Part 3: GSM Customer Equipment AS/NZS 60950.1 2011 Safety of information technology equipment (IEC 60950-1, Ed.2.0: 2005, MOD) SRRC NA State Radio Regulation Center - China Type Approval AR RoHS Directive Compliant IN 1.9.3. Y Document 1.9.4. IM The AirPrime HL8548 and HL8548-G module is compliant with RoHS Directive 2011/65/EU which sets limits for the use of certain restricted hazardous substances. This directive states that “from 1st July 2006, new electrical and electronic equipment put on the market does not contain lead, mercury, cadmium, hexavalent chromium, polybrominated biphenyls (PBB) or polybrominated diphenyl ethers (PBDE)”. Disposing of the Product EL This electronic product is subject to the EU Directive 2012/19/EU for Waste Electrical and Electronic Equipment (WEEE). As such, this product must not be disposed of at a municipal waste collection point. Please refer to local regulations for directions on how to dispose of this product in an environmental friendly manner. References PR 1.9.5. [1] AirPrime HL Series Customer Process Guidelines Reference Number: 4114330 [2] AirPrime HL6 and HL8 Series AT Commands Interface Guide Reference Number: 4114680 4114663 Rev 1.0 October 16, 2013 17 2. Pad Definition Table 7. Pad Definition Recommendation for Unused Pins I/O 1.8V Left Open UART1 Ring indicator O 1.8V Left Open UART1_RTS UART1 Request to send I L 1.8V Connect to UART1_CTS 4 UART1_CTS UART1 Clear to send O L 1.8V Connect to UART1_RTS 5 UART1_TX UART1 Transmit data I 1.8V Mandatory connection 6 UART1_RX UART1 Receive data O 1.8V Mandatory connection 7 UART1_DTR UART1 Data terminal ready I L 1.8V Connect to UART1_DSR 8 UART1_DCD UART1 Data carrier detect/ O L 1.8V Left Open 9 UART1_DSR UART1 Data set ready O L 1.8V Connect to UART1_DTR 10 GPIO2 General purpose input/output I/O 1.8V Left Open 11 RESET_IN Input reset signal I 1.8V Left Open I/O 1 GPIO1 / I2C_CLK General purpose 2 input/output/I C Clock 2 UART1_RI 3 IM USB Data Negative (Low / Full Speed) EL 12 USB_D- USB_D+ PR 13 Active Low/ High AR Function IN Signal Name Y Power Supply Domain Pin # USB Data Negative (High Speed) USB Data Positive (Low / Full Speed) USB Data Positive (High Speed) L 3.3V I/O Left Open 0.38V 3.3V I/O Left Open 0.38V 14 HSIC_DATA High Speed InterChip Data I/O 1.2V Left Open 15 HSIC_STRB High Speed InterChip Strobe I/O 1.2V Left Open 16 USB_VBUS USB VBUS I 5V Left Open 17 NC Not Connected (Reserved for future use) Left Open 18 NC Not Connected (Reserved for future use) Left Open 4114663 Rev 1.0 October 16, 2013 18 Product Technical Specification Pad Definition Power Supply Domain Recommendation for Unused Pins Function 19 NC Not Connected (Reserved for future use) Left Open 20 NC Not Connected (Reserved for future use) Left Open 21 BAT_RTC Power supply for RTC backup I/O 1.8V Left Open 22 26M_CLKOUT 26MHz System Clock Output O 1.8V Left Open 23 32K_CLKOUT 32.768kHz System Clock Output O 24 ADC1 Analog to digital conversion I 25 ADC0 Analog to digital conversion I 26 UIM1_VCC 1.8V/3V SIM1 Power supply O 27 UIM1_CLK 1.8V/3V SIM1 Clock 28 UIM1_DATA 29 UIM1_RESET 30 NC 31 NC AR Y Signal Name 1.8V Left Open 1.2V Left Open (TBC) 1.2V Left Open (TBC) 1.8V/3V Mandatory connection IN I/O Active Low/ High Pin # O 1.8V/3V Mandatory connection 1.8V/3V SIM1 Data I/O 1.8V/3V Mandatory connection 1.8V/3V SIM1 Reset O 1.8V/3V Mandatory connection IM L Not Connected (Reserved for future use) Left Open Not Connected (Reserved for future use) Left Open Left Open NC Not Connected (Reserved for future use) 33 PCM_OUT PCM data out O 1.8V Left Open 34 PCM_IN PCM data in I 1.8V Left Open 35 PCM_SYNC PCM sync out I/O 1.8V Left Open 36 PCM_CLK PCM clock I/O 1.8V Left Open 0V 0V Mandatory connection PR EL 32 37 GND Ground 38 RF_GPS RF GNSS Input 39 GND Ground 0V 0V Mandatory connection 40 GPIO7 General purpose input/output I/O 1.8V Left Open 41 GPIO8 General purpose input/output I/O 1.8V Left Open 42 PPS GNSS Pulse Per Second O 1.8V Left Open 43 EXT_LNA_GPS _EN External GNSS LNA enable O 1.8V Left Open 4114663 Rev 1.0 Mandatory connection H October 16, 2013 19 Product Technical Specification Pad Definition Recommendation for Unused Pins I/O 1.8V Left Open GPIO voltage output O 1.8V Left Open GPIO6 General purpose input/output I/O 1.8V Left Open 47 TP1 Test Point 1 0 - Download Mode Open - Normal Mode I 1.8V Left Open 48 GND Ground 49 RF_MAIN RF GSM Input/output 50 GND Ground 51 DEBUG_RX Debug receive data I/O 52 GPIO10 General purpose input/output I/O 53 GPIO11 General purpose input/output I/O 1.8V Left Open 54 GPIO15 General purpose input/output I/O 1.8V Left Open 55 NC1 Reserved for future use Left Open 56 NC2 Reserved for future use Left Open 57 PWM1 58 PWM2 / GPIO12 Function I/O 44 DEBUG_TX Debug transmit data 45 VGPIO 46 Active Low/ High L AR Signal Name Y Power Supply Domain Pin # 0V Mandatory connection Mandatory connection Mandatory connection 1.8V Left Open 1.8V Left Open IM IN 0V O 1.8V Left Open Pulse Width Modulation/General purpose input/output I/O 1.8V Left Open EL Pulse Width Modulation 59 PWR_ON Active Low Power On control signal I L 60 2G_TX_ON 2G TX burst indicator O H 61 VBATT_PA Power supply 62 VBATT_PA 63 1.8V Mandatory connection Left Open I 3.2V (min) 3.7V (typ) 4.5V (max) Mandatory connection Power supply I 3.2V (min) 3.7V (typ) 4.5V (max) Mandatory connection VBATT Power supply I 3.2V (min) 3.7V (typ) 4.5V (max) Mandatory connection 64 GPIO3 / UIM1_DET General purpose input/output/UIM1 Detection I/O H 1.8V Left Open 65 GPIO4 General purpose input/output I/O H 1.8V Left Open PR 1.8V 4114663 Rev 1.0 October 16, 2013 20 Product Technical Specification Pad Definition Active Low/ High Power Supply Domain Recommendation for Unused Pins I/O 1.8V Left Open GND 0V Pin # Signal Name Function I/O 66 GPIO5 / I2C_SDA General purpose 2 input/output/I C Data 67-70 GND Ground 71 166 Note: 167234 GND Ground GND 0V 235 GND Ground GND 0V 236 JTAG_RESET JTAG RESET I 237 JTAG_TCK JTAG Test Clock I 238 JTAG_TDO JTAG Test Data Output O 239 JTAG_TMS JTAG Test Mode Select I 240 JTAG_TRST JTAG Test Reset I 241 JTAG_TDI JTAG Test Data Input I 1.8V Left Open 242 JTAG_RTCK JTAG Returned Test Clock O 1.8V Left Open 1.8V Left Open 1.8V Left Open 1.8V Left Open 1.8V Left Open 1.8V Left Open PR EL IM IN L AR L Y These pins are not available on the AirPrime HL8548 and HL8548-G modules. 4114663 Rev 1.0 October 16, 2013 21 3. Detailed Interface Specifications Note: If not specified, all electrical values are given for VBATT=3.7V and an operating temperature of 25°C. Power Supply AR 3.1. Y For standard applications, VBATT and VBATT_PA must be tied externally to the same power supply. For some specific applications, AirPrime HL8548 and HL8548-G module supports separate VBATT and VBATT_PA connection if requirements below are fulfilled. The AirPrime HL8548 and HL8548-G module is supplied through the VBATT signal with the following characteristics. Table 8. Power Supply Supply Minimum VBATT voltage (V) 3.2 1 Maximum 3.7 4.5 IN VBATT_PA voltage (V) Full Specification 1 Typical 3.2 1 3.7 4.5 This value has to be guaranteed during the burst Power Consumption IM 3.2. The following table lists the power consumption of the AirPrime HL8548 and HL8548-G at three different temperatures (-40°C, 25°C and 85°C). Power Consumption EL Table 9. -40°C 25°C Typ Typ +85°C Parameter Off mode PR Sleep mode - GSM DRX2 (registered to the network) Sleep mode - GSM DRX9 (registered to the network) Sleep mode - WCDMA DRX6 (registered to the network) 4114663 Typ 40 µA GSM900 TBD DCS1800 TBD GSM850 TBD PCS1900 TBD GSM900 TBD DCS1800 TBD GSM850 TBD PCS1900 TBD Band 1 TBD Band 2 TBD Band 5 / 6 TBD Band 8 TBD Rev 1.0 Max October 16, 2013 22 Product Technical Specification Detailed Interface Specifications -40°C 25°C Typ Typ +85°C Parameter TBD Band 2 TBD Band 5 / 6 TBD Band 8 TBD GNSS active mode (@GSM DRX5) TBD Band 2 TBD Band 5 / 6 TBD AR WCDMA in communication mode (Voice Call) TBD Band 1 Band 8 TBD Band 1 TBD Band 2 WCDMA in communication mode (HSDPA) TBD Band 5 / 6 TBD Band 8 TBD Band 1 GSM in communication mode GPRS (2 TX,3 RX) TBD Band 5 / 6 TBD Band 8 TBD GSM900 / GSM850 (PCL=5) 220 mA DCS / PCS (PCL=0) 160 mA GSM900 / GSM850 (PCL=5) 220 mA DCS / PCS (PCL=0) 160 mA GSM900 / GSM850 (PCL=5) 360 mA DCS / PCS (PCL=0) 240 mA GSM900 / GSM850 1.50 A 1.8A DCS / PCS 0.8 A 1.0 A IM GSM in communication mode TBD IN Band 2 WCDMA in communication mode (HSUPA) EL Current consumption during a burst Typ Y Sleep mode - WCDMA DRX9 (registered to the network) Band 1 Max 3.3. VGPIO The VGPIO output can be used to: Pull-up signals such as I/Os  Supply the digital transistors driving LEDs  Act as a voltage reference for the ADC interfaces, ADC0 and ADC1 PR  The VGPIO output is available when the AirPrime HL8548 AND HL8548-G module is switched ON. Table 10. VGPIO Electrical Characteristics Parameter Min Typ Max Remarks Voltage level (V) 1.7 1.8 1.9 Both active mode and sleep mode - 450 (TBC) Power Management support up to 500mA output. Current capability (mA) 4114663 - Rev 1.0 October 16, 2013 23 Product Technical Specification Detailed Interface Specifications Parameter Min Typ Max Remarks Rise Time(ms) - - 1.5 Start-Up time from 0V 3.4. BAT_RTC Y The AirPrime HL8548 and HL8548-G module provides an input/output to connect a Real Time Clock power supply. AR This pin is used as a back-up power supply for the internal Real Time Clock. The RTC is supported when VBATT is available but a back-up power supply is needed to save date and hour when VBATT is switched off. If VBATT is available, the back-up battery can be charged by the internal 1.8V power supply regulator. Table 11. BAT_RTC Electrical Characteristics Minimum Typical Maximum Unit Input voltage - 1.8 - V Input current consumption - 2.5 (TBC) - µA Output voltage Max charging current (@VBATT=3.7V) SIM Interface -5% 1.8 +5% V - 25 - mA IM 3.5. IN Parameter The AirPrime HL8548 and HL8548-G has one physical SIM interface, UIM1, which has optional support for dual SIM application with an external SIM switch. For further information, refer to document [2] AirPrime HL6 and HL8 Series AT Commands Interface Guide for software support. The UIM1 interface allows control of a 1.8V/3V SIM and is fully compliant with GSM 11.11 recommendations concerning SIM functions. EL The four signals used by this interface are as follows: UIM1_VCC: power supply  UIM1_CLK: clock  UIM1_DATA: I/O port  UIM1_RST: reset  UIM1_DET: SIM detection PR  Table 12. Electrical Characteristics of UIM1 Parameter Min Typ Max Remarks UIM1 Interface Voltage (V) (VCC,CLK,IO,RST) 2.7 3.0 3.15 1.65 1.80 1.95 The appropriate output voltage is auto detected and selected by software. UIM1 Detect 1.33 1.80 2.1 High active UIM1_VCC Current (mA) - - 10 Max output current in sleep mode = 3 mA UIM1_VCC Line Regulation (mV/V) - - 50 At Iout_Max UIM1_VCC Power-up Setting Time (us) from power down - 10 - 4114663 Rev 1.0 October 16, 2013 24 Product Technical Specification 3.6. Detailed Interface Specifications USB The AirPrime HL8548 and HL8548-G have one USB interface. (Other content TBC) Electrical Information for Digital I/O Y 3.7.  UART  PCM  GPIO  I²C  JTAG  RESET  PWM Digital I/O Electrical Characteristics IN Table 13. AR Table 13 Digital I/O Electrical Characteristics enumerates the electrical characteristics of the following digital interfaces: 1.8V Configuration Parameter Remarks Min - Max - 125 IM Input Current-High(µA) Typ (TBD) Input Current-Low(µA) - - 125 (TBD) DC Output Current-High (mA) - - 5 Pin driving a "1" with output set at "0" DC Output Current-Low (mA) -5 - - Pin driving a "0" with output set at "1" Input Voltage-High(V) 1.33 Input Voltage-Low(V) - EL 2.1 - 0.34 Output Voltage-High(V) 1.5 - 1.9 Output Voltage-Low(V) - - 0.2 3.8. General Purpose Input/Output (GPIO) PR The AirPrime HL8548 and HL8548-G modules provide 12 GPIOs, 4 of which have multiplexes. Pin Number Signal Name Multiplex I/O Power Supply Domain 1 GPIO1 I2C_CLK I/O 1.8V 10 GPIO2 I/O 1.8V 40 GPIO7 I/O 1.8V 41 GPIO8 I/O 1.8V 46 GPIO6 I/O 1.8V 52 GPIO10 I/O 1.8V 53 GPIO11 I/O 1.8V 54 GPIO15 I/O 1.8V 4114663 Rev 1.0 October 16, 2013 25 Product Technical Specification Detailed Interface Specifications Signal Name Multiplex I/O Power Supply Domain 58 GPIO12 PWM2 I/O 1.8V 64 GPIO3 UIM1_DET I/O 1.8V 65 GPIO4 I/O 1.8V 66 GPIO5 I/O 1.8V 3.9. I2C_SDA Y Pin Number Main Serial Link (UART1) AR The main serial link (UART1) is used for communication between the AirPrime HL8548 and HL8548-G module and a PC or host processor. It consists of a flexible 8-wire serial interface that complies with RS-232 interface. The supported baud rates of the UART1 are 300, 1200, 2400, 4800, 9600, 19200, 38400, 57600, 115200, 230400, 460800, 500000, 750000, 921600, 1843200, 3000000, 3250000 and 6000000 bit/s. The signals used by UART1 are as follows: TX data (UART1_TX)  RX data (UART1_RX)  Request To Send (UART1_RTS)  Clear To Send (UART1_CTS)  Data Terminal Ready (UART1_DTR)  Data Set Ready (UART1_DSR)  Data Carrier Detect (UART1_DCD)  Ring Indicator (UART1_RI) IM Note: IN  Signal names are according to PC view. UART1 pin description is summarized in the table below. UART1 Pin Description EL Table 14. I/O* Description UART1_DTR I (active low) Prevents the AirPrime HL8548 and HL8548-G from entering sleep mode, switches between data mode and command mode, and wakes the module up. UART1_DCD O Signal data connection in progress UART1_RX O Receive data UART1_RTS I Wakes the module up when KSLEEP=1 is used UART1_TX I Transmit data UART1_CTS O AirPrime HL8548 and HL8548-G is ready to receive AT commands UART1_RI O Signal incoming calls (voice and data), SMS, etc. UART1_DSR O Signal UART interface is ON PR Signal Name* * 4114663 According to PC view. Rev 1.0 October 16, 2013 26 Product Technical Specification Detailed Interface Specifications 3.10. POWER ON Signal (PWR_ON) A low level signal has to be provided to switch the AirPrime HL8548 and HL8548-G module ON. It is internally connected to the permanent 1.8V supply regulator inside the HL8548 and HL8548-G via a pull-up resistor. Once VBAT is supplied to the HL8548 and HL8548-G module, this 1.8V supply regulator will be enabled and so the PWR_ON signal is by default at high level. PWR_ON Electrical Characteristics Parameter Min Input Voltage-Low (V) Typical - Max 0.51 AR Table 15. Y The PWR_ON signal’s characteristics are listed in the table below. Input Voltage-High (V) 1.33 - 2.2 Power-up period (ms) from PWR_ON falling edge (TBD) - - As PWR_ON is internally pulled up with 200kΩ, a simple open collector or open drain transistor must be used for ignition. Note: IN VGPIO is an output from the module that can be used to check if the module is active.  When VGPIO = 0V, the module is OFF.  When VGPIO = 1.8V, the module is ON (it can be in idle, communication or sleep mode) PWR_ON cannot be used to power the module off. To power the module off, use AT command AT+CFUN=0. IM Note: 3.11. Reset Signal (RESET) EL To reset the module, a low level pulse must be sent on the RESET pin for 10ms. This action will immediately restart the AirPrime HL8548 and HL8548-G module. It is therefore useless to perform a new ignition sequence (PWR_ON) after. As RESET is internally pulled up, a simple open collector or open drain transistor can be used to control it. The RESET signal will reset the registers of the CPU and reset the RAM memory as well, with the PWR_ON signal at low level. As RESET is referenced to the VGPIO domain (internally to the module), it is impossible to reset before the module starts or to try to use RESET as a way to start the module. PR Note: Another more costly solution would be to use MOS transistor to switch the power supply off and restart the power up procedure using the PWR_ON input line. Table 16. RESET Electrical Characteristics Parameter Minimum Input Voltage-Low(V) Typical Maximum - 0.51 Input Voltage-High(V) 1.33 - 2.2 Power up Period (ms) from RESET falling edge (TBD) - - 4114663 Rev 1.0 October 16, 2013 27 Product Technical Specification Detailed Interface Specifications 3.12. ADC Two Analog to Digital Converter inputs, ADC0 and ADC1, are provided by the AirPrime HL8548 and HL8548-G module. These converters are 10-bit resolution ADCs ranging from 0 to 1.2V. Typically, the ADCx input can be used to monitor external temperature. This is very useful for monitoring the application temperature and can be used as an indicator to safely power the application OFF in case of overheating (for Li-Ion batteries). ADC Electrical Characteristics Min Typ ADC Resolution (bits) - 10 Input Voltage Range (V) 0 - Update rate per channel (kHz) - - Integral Nonlinearity (bits) - - Offset Error (bits) - - Gain 849 853 Input Resistance (MΩ) 1 - Input Capacitance (pF) - Remarks - 1.2 General purpose input 200 (TBC) ±2 LSB ±1 LSB 858 - 1 - IM 3.13. PWM Max IN Parameter AR Table 17. Y Both ADCs have the characteristics listed in the table below. The AirPrime HL8548 and HL8548-G modules provide two PWM signal. (Other content TBC) EL 3.14. Clock Interface The AirPrime HL8548 and HL8548-G modules support a clock interface. (Other content TBC) 3.15. PCM PR The Digital Audio (PCM) Interface allows connectivity with standard audio peripherals. It can be used, for example, to connect an external audio codec. The programmability of this interface allows addressing a large range of audio peripherals. The signals used by the Digital Audio Interface are as follows:  PCM_SYNC: The frame synchronization signal delivers an 8kHz frequency pulse that synchronizes the frame data in and the frame data out.  PCM_CLK: The frame bit clock signal controls data transfer with the audio peripheral.  PCM_OUT: The frame “data out” relies on the selected configuration mode.  PCM_IN: The frame “data in” relies on the selected configuration mode. 4114663 Rev 1.0 October 16, 2013 28 Product Technical Specification Detailed Interface Specifications  PCM master and slave  16 bits data word length  MSB or LSB first  Rising or falling sampling clock edge  Configurable PCM bit clock rate up to 1MHz  Long frame sync Y The PCM interface is a high speed full duplex interface that can be used to send and receive digital audio data to external audio ICs. The Digital Audio Interface also features the following: Table 18. Digital Audio Interface Electrical Characteristics Description Minimum Tsync_low + Tsync_high PCM-SYNC period Tsync_low PCM-SYNC low time Tsync_high PCM-SYNC high time TCLK-cycle PCM-CLK period TIN-setup PCM-IN setup time TIN-hold PCM-IN hold time TOUT-delay PCM-OUT delay time TSYNC-delay PCM-SYNC output delay Typical Maximum µs 124 µs 1 µs 1000 ns (TBD) ns (TBD) ns (TBD) ns (TBD) ns IM (TBD) Unit 125 IN Signal AR Refer to the following table for the electrical characteristics of the digital audio interface. PR EL The following figure shows the PCM timing waveform. Figure 3. 4114663 PCM Timing Waveform (TBC) Rev 1.0 October 16, 2013 29 Product Technical Specification Detailed Interface Specifications 3.16. I2C Interface 2 NMEA frames can be output from USB, UART1 or through a dedicated serial port (I C). I2C Pin Description Pin Number Signal Name Function 1 I2C_CLK I C Clock 66 I2C_SDA I C Data 2 2 I C pins are multiplexed with GPIO features. AR Note: 2 Y Table 19. 3.17. HSIC The AirPrime HL8548 and HL8548-G embedded modules provide a standard high-speed inter-chip (HSIC) interface as slave. IN (Other content TBC) 3.18. Debug Interfaces The AirPrime HL8548 and HL8548-G module provides 2 interfaces for a powerful debug system. IM 3.18.1. Debug Port The AirPrime HL8548 and HL8548-G provides a 2-wire debug port interface, providing real-time instruction and data trace of the Modem Core. SW Trace Pin Description EL Table 20. Pin Number Signal Name Function 44 DEBUG_TX Debug Transmit Data 51 DEBUG_RX Debug Receive Data It is strongly recommended to provide access through Test Points to this interface. PR Note: 3.18.2. JTAG The JTAG interface provides debug access to the core of the HL8548 and HL8548-G. These JTAG signals are accessible through solder-able test points. Table 21. JTAG Pin Description Pin Number Signal Name Function 47 TP1 Test Point 1 236 JTAG_RESET JTAG RESET 237 JTAG_TCK JTAG Test Clock 4114663 Rev 1.0 October 16, 2013 30 Product Technical Specification Detailed Interface Specifications Pin Number Signal Name Function 238 JTAG_TDO JTAG Test Data Output 239 JTAG_TMS JTAG Test Mode Select 240 JTAG_TRST JTAG Test Reset 241 JTAG_TDI JTAG Test Data Input 242 JTAG_RTCK JTAG Returned Test Clock It is recommended to provide access through Test Points to this interface the JTAG pins (for Failure Analysis debugging). Y Note: 3.19. PPS (HL8548-G Only) AR All signals listed in table above shall be outputs on the customer board to allow JTAG debugging. The PPS signal is an output pulse related to GNSS receiver time. Table 22. PPS Electrical Characteristics Min Typ Max Test Conditions IN Parameter Frequency 1Hz Pulse width TBD Synchronization to GNSS time This output is available only when GNSS is in tracking mode. IM Note: 1µs 3.20. EXT_LNA_GPS_EN (HL8548-G only) EL EXT_LNA_GPS_EN ON indicates whether the GNSS receiver is active and can be used to enable an external LNA (or active antenna), especially during GNSS low power mode. 3.21. RF Interface PR The GSM RF interface of the HL8548 and HL8548-G module allows the transmission of RF signals. This interface has a 50Ω nominal impedance. 3.21.1. RF Connection A 50Ω stripline can be used to connect to standard RF connectors such as SMA, UFL, etc. for antenna connection. Table 23. RF Connection RF Signal Impedance VSWR Rx (max) VSWR Tx (max) RF_MAIN 50Ω TBD TBD 4114663 Rev 1.0 October 16, 2013 31 Product Technical Specification Detailed Interface Specifications 3.21.2. RF Performances RF performances are compliant with the ETSI recommendation GSM 05.05. Table 24. RF Performance Typical Sensitivity (dBm) Maximum Sensitivity (dBm) GSM850/EGSM -109(TBC) -107(TBC) DCS/PCS -108(TBC) -106(TBC) UMTS B1 -106(TBC) -104(TBC) UMTS B2 -109(TBC) -104(TBC) UMTS B5/6 -109(TBC) -104(TBC) UMTS B8 -108(TBC) AR Y Frequency Band -104(TBC) 3.21.3. TX Burst Indicator (2G_TX_ON) IN The AirPrime HL8548 and HL8548-G module provides a signal, 2G_TX_ON, for TX Burst indication. The 2G_TX_ON is a 1.8V signal and its status signal depends on the module transmitter state. Refer to the following table for the status of the 2G_TX_ON signal depending on the embedded module’s state. Table 25. Burst Indicator States During TX burst No TX 2G_TX_ON IM Embedded Module State High Low EL During TX burst, there is a higher current drain from the VBATT_PA power supply which causes a voltage drop. This voltage drop from VBATT_PA is a good indication of a high current drain situation during TX burst. The blinking frequency is about 217Hz. The output logic high duration, Tduration, depends on the number of TX slots and is computed as follows: T duration = T advance + (0.577ms x number of TX slots) + T delay TX Burst Characteristics PR Table 26. Parameter Minimum Tadvance 30µs Tdelay 5µs 4114663 Rev 1.0 Typical Maximum October 16, 2013 32 Detailed Interface Specifications Figure 4. 2G_TX_ON State during TX Burst 3.22. GNSS Interface AR Y Product Technical Specification The AirPrime HL8548-G embeds an integrated and high-sensitivity Global Navigation Satellite System (GNSS) solution through pin 38, RF_GPS. IN Based on SiRFstarV™ from CSR, the HL8548-G combines GPS and GLONASS reception to improve navigation capabilities and position accuracy in obstructed view environments such as urban canyons. GNSS performances are improved by CW jammer and interference mitigation system and automated hardware blanking capabilities. IM In addition, it supports Downloaded Extended Ephemeris Assisted-GNSS, for enhanced time to acquire or reacquire a fix. The operation of GNSS is offloaded to a GNSS standalone solution to guaranty the modem resources availability for the best performances. The GNSS implementation supports GPS L1 signal (1575.42 ± 20 MHz) and GLONASS L1 FDMA signals for frequency -7 to 6 (1597.5 – 1605.8 MHz), with 50Ω connection on RF_GPS pad. GNSS Interface Specifications EL Table 27. Parameter Sensitivity Cold start -148dBm Hot start -158dBm Navigation -162dBm PR Horizontal Position Accuracy Standalone Time To First Fix (TTFF) 4114663 Value TBD Hot start TBD Warm start TBD Cold start TBD Rev 1.0 October 16, 2013 33 4. Design Guidelines 4.1. Power-Up Sequence Module Switch-Off AR 4.2. Y Apply a LOW level logic to the PWR_ON pin (pin 59); within approximately 25ms, the VGPIO will appear to be at 1.8V. Either a USB or UART1 interface could be used to send AT commands. AT command AT+CFUN=0 enables the user to properly switch the AirPrime HL8548 and HL8548-G module off. 4.3. IN If required, the module can be switched off by controlling the power supply. This can be used, for example, when the system freezes and no reset line is connected to the AirPrime HL8548 and HL8548-G module. In this case, the only way to get control over the module back is to switch off the power line. Sleep Mode Management (TBC) AT+KSLEEP=0: IM AT command AT+KSLEEP enables sleep mode configuration. The AirPrime HL8548 and HL8548-G is active when the DTR signal is active (low electrical level).  When DTR is deactivated (high electrical level), the AirPrime HL8548 and HL8548-G enters sleep mode after a while.  On DTR activation (low electrical level), the AirPrime HL8548 and HL8548-G wakes up. EL  AT+KSLEEP=1: The AirPrime HL8548 and HL8548-G determines when it enters sleep mode (when no more tasks are running).  “0x00” characters on the serial link wakes the AirPrime HL8548 and HL8548-G up. PR  AT+KSLEEP=2:  The AirPrime HL8548 and HL8548-G never enters sleep mode. In sleep mode, the module reduces its power consumption and remains waiting for the wake up signals either from the network (i.e. read paging block depending on the DRX value of the network) or the operating system (i.e. timers wake up, timers activated) or the host controller (i.e. character on serial link or DTR signal). 4114663 Rev 1.0 October 16, 2013 34 Product Technical Specification 4.4. Design Guidelines ESD Guidelines for SIM Card EMC and ESD Components Close to the SIM IM Figure 5. IN AR Y Decoupling capacitors must be added on UIM1_CLK, UIM1_RST, UIM1_VCC, UIM1_DATA and UIM_DET signals as close as possible to the SIM card connector to avoid EMC issues and to pass the SIM card type approvals, according to the drawings below. PR EL In the case of long SIM bus lines over 10cm, it is recommended to also use serial resistors to avoid electrical overshoots on SIM bus signals. Use 56Ω for the clock line and 10Ω for the reset and data lines. Figure 6. 4114663 Serial Resistors for Long SIM Bus Lines Rev 1.0 October 16, 2013 35 Product Technical Specification 4.5. Design Guidelines Radio Integration Y The AirPrime HL8548 and HL8548-G is equipped with external antennas. A 50Ω line matching circuit between the module, the customer’s board and the RF antennas is required, for GSM and GNSS feed path, as shown in the example below. TBD Figure 7. Antenna Connection TBD IN TBD HL8548 and HL8548-G AR 50Ω EL IM The AirPrime HL8548-G also embeds a GPS/GLONASS receiver inside the module. The figure below is an active antenna use case. GNSS Application with Active Antenna PR Figure 8. 4114663 Rev 1.0 October 16, 2013 36 5. X-Ray Exposure X-ray exposure results in an undesirable shift in programmed bit threshold voltage of the Flash memory. As a result, Sierra Wireless recommends avoiding any X-ray exposure during customer manufacturing process to ensure software integrity and long term reliability. Y In case X- ray inspection could not be eliminated from the customer manufacturing process, a variety of mitigation methods should be implemented to lower the risk of potential failure: Use of filter between source and module to minimize exposure to harmful soft X- ray  300µm Zn filter or 1mm Al filter are optimal  Zn and Al absorb soft X-ray to which silicon is particularly vulnerable, and transmit soft and medium energy X-rays required to obtain good imaging  Minimize X-Ray dose  should be less than 10 RADs  KV peak should be less than 50KV peak  tube current should be less than 20µA  Maximize distance between source and the module  Minimize the X-ray time  use the shortest exposure time possible  sampling only, not 100% inspection IN AR  PR EL IM Note that these mitigation guidelines are for information only as it’s NOT possible to provide accurate acceptable or unacceptable X- ray exposure criteria, e.g. maximum safe dose rate, maximum safe exposure time, etc. 4114663 Rev 1.0 October 16, 2013 37 6. FCC/IC Legal Information 6.1. Label 6.2. FCC Regulations AR Y The HL8548 and HL8548-G is labelled with its own FCC ID (TBD) on the shield side. When the module is installed in a customer’s product, the FCC ID label on the module will not be visible. To avoid this case, an exterior label must be stuck on the surface of the customer’s product to indicate the FCC ID of the enclosed module. This label can use wording such as the following: “Contains Transmitter module FCC ID: TBD” or “Contains FCC ID: TBD”. This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions: IN 1. This device may not cause harmful interference, and 2. this device must accept any interference received, including interference that may cause undesired operation. IM This device has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures: EL 1. Reorient or relocate the receiving antenna. 2. Increase the separation between the equipment and receiver. 3. Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. 4. Consult the dealer or an experienced radio/TV technician for help. PR Changes or modifications not expressly approved by the party responsible for compliance could void the user’s authority to operate the equipment. 6.3. RF Exposure Information This Modular Approval is limited to OEM installation for mobile and fixed applications only. The antenna installation and operating configurations of this transmitter, including any applicable sourcebased time-averaging duty factor, antenna gain and cable loss must satisfy MPE categorical Exclusion Requirements of §2.1091. The antenna(s) used for this transmitter must be installed to provide a separation distance of at least 20 cm from all persons, must not be collocated or operating in conjunction with any other antenna or transmitter, except in accordance with FCC multi-transmitter product procedures. 4114663 Rev 1.0 October 16, 2013 38 Product Technical Specification FCC/IC Legal Information The end user has no manual instructions to remove or install the device and a separate approval is required for all other operating configurations, including portable configurations with respect to 2.1093 and different antenna configurations. According to the MPE RF explore report, maximum antenna gain allowed for use with this device is TBDdBi for GSM850 and TBDdBi for PCS1900. IC Regulations AR 6.4. Y 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 re-moved. If not, a second label must be placed on the outside of the final device that contains the following text: ―Contains FCC ID: TBD IC Radiation Exposure Statement: This equipment complies with IC RSS-102 radiation exposure limits set forth for an uncontrolled environment. This equipment should be installed and operated with minimum distance 20cm between the radiator & your body. This device and its antenna(s) must not be co-located or operating in conjunction with any other antenna or transmitter. IN 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 necessary for successful communication. IM Labeling Requirements for the Host Device (from Section 3.2.1, RSS-Gen, Issue 3, December 2010): The host device shall be properly labeled to identify the module within the host device. The Industry Canada certification label of a module shall be clearly visible at all times when installed in the host device, otherwise the host device must be labeled to display the Industry Canada certification number of the module, preceded by the words – Contains transmitter module‖, or the word – Contains‖, or similar wording expressing the same meaning, as follows: Contains transmitter module IC: TBD. EL This device complies with Industry Canada license-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. PR This radio transmitter (identify the device by certification number, or model number if Category II) 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. 4114663 Rev 1.0 October 16, 2013 39 Definition ADC Analog to Digital Converter AGC Automatic Gain Control AT Attention (prefix for modem commands) CDMA Code Division Multiple Access CLK ClocK CODEC Coder DECoder CPU Central Processing Unit DAC Digital to Analog Converter DTR Data Terminal Ready EGNOS European Geostationary Navigation Overlay Service EMC ElectroMagnetic Compatibility EMI ElectroMagnetic Interference EN Enable ESD ElectroStatic Discharges ETSI European Telecommunications Standards Institute FDMA Frequency-division multiple access GAGAN GPS aided geo augmented navigation GLONASS GLObal NAvigation Satellite System GNSS GPIO GPRS GSM IN GrouND Global Navigation Satellite System General Purpose Input Output General Packet Radio Service Global System for Mobile communications High impedance (Z) EL Hi Z IM GND AR Abbreviation Y 7. Terms and Abbreviations Integrated Circuit IMEI International Mobile Equipment Identification I/O Input / Output LED Light Emitting Diode LNA Low Noise Amplifier MAX MAXimum MIN MINimum MSAS Multi-functional Satellite Augmentation System N/A Not Applicable PA Power Amplifier PC Personal Computer PCB Printed Circuit Board PCL Power Control Level PLL Phase Lock Loop PWM Pulse Width Modulation QZSS Quasi-Zenith Satellite System PR IC 4114663 Rev 1.0 October 16, 2013 40 Product Technical Specification Terms and Abbreviations Definition RF Radio Frequency RFI Radio Frequency Interference RMS Root Mean Square RST ReSeT RTC Real Time Clock RX Receive SCL Serial CLock SDA Serial DAta SIM Subscriber Identification Module SMD Surface Mounted Device/Design SPI Serial Peripheral Interface SW SoftWare PSRAM Pseudo Static RAM TBC To Be Confirmed TBD To Be Defined TP Test Point TX Transmit TYP TYPical UART Universal Asynchronous Receiver-Transmitter UICC Universal Integrated Circuit Card USB Universal Serial Bus VBATT VSWR AR IN User Identity Module Main Supply Voltage from Battery or DC adapter Voltage Standing Wave Ratio Wide Area Augmentation System PR EL WAAS IM UIM Y Abbreviation 4114663 Rev 1.0 October 16, 2013 41