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1 2 | CNN0401IG001 - HS 3002 Integration Guide | Users Manual | 979.61 KiB |
CNN0401IG001 HS 3002 Integration Guide Version: Draft 03 July, 2013 Warranty Information NOVATEL WIRELESS IS PROVIDING THE INFORMATION TO YOU "AS IS" AND "WITH ALL FAULTS." NOVATEL WIRELESS DOES NOT WARRANT, BY VIRTUE OF THIS DOCUMENT, OR BY ANY COURSE OF PERFORMANCE, COURSE OF DEALING, USAGE OF TRADE OR ANY COLLATERAL DOCUMENT HEREUNDER OR OTHERWISE, AND HEREBY EXPRESSLY DISCLAIMS, ANY REPRESENTATION OR WARRANTY OF ANY KIND WITH RESPECT TO THE INFORMATION, INCLUDING, WITHOUT LIMITATION, ANY REPRESENTATION OR WARRANTY OF DESIGN, PERFORMANCE, MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE OR NON INFRINGEMENT, OR ANY REPRESENTATION OR WARRANTY THAT THE INFORMATION IS APPLICABLE TO OR INTEROPERABLE WITH ANY SYSTEM, DATA, HARDWARE OR SOFTWARE OF ANY KIND. NOVATEL WIRELESS DISCLAIMS AND IN NO EVENT SHALL BE LIABLE FOR ANY LOSSES OR DAMAGES OF ANY KIND, WHETHER DIRECT, INCIDENTAL, CONSEQUENTIAL, PUNITIVE, SPECIAL OR EXEMPLARY, INCLUDING, WITHOUT LIMITATION, DAMAGES FOR LOSS OF BUSINESS PROFITS, BUSINESS INTERRUPTION, LOSS OF BUSINESS INFORMATION, LOSS OF GOODWILL, COVER, TORTIOUS CONDUCT OR OTHER PECUNIARY LOSS, ARISING OUT OF OR IN ANY WAY RELATED TO THE PROVISION, NON PROVISION, USE OR NON USE OF THE INFORMATION, EVEN IF YOU HAVE BEEN ADVISED OF THE POSSIBILITY OF SUCH LOSSES OR DAMAGES. INDIRECT,
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Legal Disclaimer This document and the information contained in this document (the Information) is provided to you by Novatel Wireless for informational purposes only. Novatel Wireless is providing the Information to you because Novatel Wireless believes that the information in this document would be helpful to you during the Integration of the module into your host platform. This Information is provided to you on the condition that you will be responsible for making your own assessments of the information and you are advised to verify all representations, statements and information obtained from this document before using them or relying upon them. Although Novatel Wireless believes that it has exercised reasonable care in providing the Information, Novatel Wireless does not warrant the accuracy of the Information and is not responsible for any damages arising from its use or reliance upon the Information. You further understand and agree that Novatel Wireless in no way represents, and you in no way rely on a belief, that Novatel Wireless is providing the information in accordance with any standard or service (routine, customary, or otherwise) related to the consulting, services, hardware, or software industries. Version Verification Please ensure you have the latest version of this document.
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Copyright Notice: Restricted Proprietary Information Copyright Novatel Wireless, Inc. (2013) The information contained in this document is the exclusive property of Novatel Wireless, Inc. All rights reserved. Unauthorized reproduction of this manual in any form without the expressed written approval of Novatel Wireless, Inc. is strictly prohibited. This manual may not, in whole or in part, be copied, reproduced, translated, or reduced to any electronic or magnetic storage medium without the written consent of a duly authorized officer of Novatel Wireless Inc. The information contained in this document is subject to change without notice and should not be construed as a commitment by Novatel Wireless Inc. unless such commitment is expressly given in a covering document. Novatel Wireless Inc. makes no warranties, either expressed or implied, regarding this document, its merchantability, or its fitness, for any particular purpose. Printed and produced in United States of America.
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Regulatory Compliance Regulatory Compliance This section summarizes the responsibilities and actions required of manufacturers and integrators who incorporate OEM versions of the Novatel Wireless M2M Enabler IIIG module into their products. In certain situations and applications, these products will require additional FCC, CE, GCF, PTCRB or other regulatory approvals prior to sale or operation. Appropriate instructions, documentation and labels are required for all products. For more information concerning regulatory requirements, please contact Novatel Wireless M2M. GCF/PTCRB APPROVAL (FORMERLY FTA) The Novatel Wireless M2M Enabler IIIG module is type approved in accordance with the requirements of and through the procedures set forth by the GSM industry association. The relevant conformance specification is 3GPP TS 51010-1. Any OEM changes in the SIM interface, antenna port, software or the physical makeup of the unit may require an incremental FTA to ensure continued compliance with the above-mentioned standard. For more information concerning type approval, please contact Novatel Wireless M2M. FCC CERTIFICATION Novatel Wireless certifies that the HS 3002 Radio Module (FCC ID: PKRNVWCNN0403) complies with the RF requirements applicable to broadband PCS equipment operating under the authority of 47 CFR Part 24, Subpart E and Part 22 Subpart H of the FCC Rules and Regulations. This certification is contingent upon installation, operation and use of the HS 3002 module and its host product in accordance with all instructions provided to both the OEM and end user. When installed and operated in a manner consistent with the instructions provided, the HS 3002 module meets the maximum permissible exposure (MPE) limits for general population / uncontrolled exposure at defined in Section 1.1310 of the FCC Rules and Regulations. The HS 3002 modem is designed for use in a variety of host units, "enabling" the host platform to perform wireless data communications. However, there are certain criteria relative to integrating the modem into a host platform such as a PC, laptop, hand held, monitor and control unit, etc. that must be considered to ensure continued compliance with FCC compliance requirements.
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Important Information for Canada/USA OEM Integrators This section provides guidance for using the HS 3002 in host devices through the FCC Permissive Change process. When utilizing the permissive change process, Novatel Wireless, the grantee, is responsible for all integrations and must be consulted on all regulatory matters involving the HS 3002. The HS 3002 module is granted with FCC/IC modular approval for mobile1 applications, and may be installed as a standalone2 transmitter in final products meeting the following conditions. If the following conditions are followed, it may be used in final products without additional FCC/IC certification. Otherwise, additional FCC/IC approvals must be obtained. l The transmitter antenna connected to the HS 3002 module must be installed to provide at least 20cm separation from the human body at all times. l The HS 3002 module and transmitter antenna must not be co-located with any other transmitter or antenna within a host device. l The transmitter antenna used with the HS 3002 module must not exceed the following levels:
l GSM850/WCDMA Band 5: the maximum gain is 6.9dBi.. l GSM1900/WCDMA Band 2: the maximum gain is 2.0dBi. l To comply with the aspects of KDB996369, strict adherence to the design parameters in the Section Antenna And RF Signal Trace must be observed. This Section provides PCB RF trace design guidelines for the coplanar microstrip between the HS 3002 RF compression pads and the SMA coaxial connector. l A label containing the FCC and Industry Canada IDs must be permanently affixed to the exterior of the host device into which the HS 3002 module is installed. The label may also be under a panel or battery pack if it is readily accessible and cannot be separated from the host device itself. The label must contain a statement similar to the following;
l This device contains FCC ID: PKRNVWCNN0403 l This equipment contains equipment certified under IC: 3229A-CNN0403 If the HS 3001 module is intended for use in a portable device, the OEM integrator is responsible to design the product to comply with RF exposure, and must work with Novatel Wireless (the grantee) to satisfy FCC/IC SAR requirements. Refer to FCC OET Bulletin 65 Supplement C for information about FCC RF exposure compliance requirements for mobile and portable devices. 3 The system user manuals and other documentation must clearly indicate operating conditions that must be observed to ensure compliance with FCC/IC RF exposure guidelines and also include appropriate caution and warning statements and information. 1Mobile Device Definition FCC defines as a transmitting antenna located at a distance 20cm from the user. 2Standalone is defined as a single transmitter transmitting as opposed to 2 or more transmitters transmitting simultaneously. 3Portable Device Definition FCC defines as a transmitting antenna located at a distance 20cm from the user.
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The host device containing the HS 3002 module may also require compliance to FCC Part 15 Subpart B Unintentional Radiators. Cette section fournit des directives pour l'utilisation du HS 3002 dans les dispositifs hte sous la FCC Processus de changement permissive. Lors de l'utilisation du processus de changement permissive, Novatel Wireless, le bnficiaire est responsable de toutes les intgrations et doit tre consult sur toutes les questions rglementaires impliquant le SH 3002. Le module HS 3002 est accorde avec approbation modulaire de la FCC / IC pour applications mobiles1, et peut tre install comme un metteur autonome2 dans les produits finaux rpondant aux conditions suivantes. Si les conditions suivantes sont respectes, il peut tre utilis dans les produits finaux, sans certification FCC / IC supplmentaire. Sinon, les approbations FCC / IC supplmentaires doivent tre obtenues. l L'antenne de l'metteur reli au module HS 3002 doit tre install pour fournir au moins 20 cm de sparation du corps humain tout moment. l Le module HS 3002 et lantenne de l'metteur ne doivent pas tre co-localis avec toute autre metteur ou antenne l'intrieur d'un dispositif hte. l L'antenne de l'metteur utilis avec le module HS 3002 ne doit pas dpasser les valeurs suivantes:
l GSM850/WCDMA Band 5: le gain maximum est 6.9dBi .. l GSM1900/WCDMA Band 2: le gain maximum est 2.0dBi. l Pour se conformer aux aspects de KDB996369, le strict respect des paramtres de conception dans la section antenne et piste du signal RF doivent tre respects. Cette section fournit des lignes directrices de conception de piste RF de PCB pour la micro piste coplanaires entre le tampons de compression RF du HS 3002 et le connecteur coaxial SMA. l Une tiquette contenant le numero didentification de la FCC et Industrie Canada doit tre appose de faon permanente l' extrieur du dispositif hte dans laquelle le moduleHS 3002 est install. L'tiquette peut tre aussi sous un panneau ou une batterie si elle est facilement accessible et ne peut pas tre spar du dispositif hte lui-mme. L'tiquette doit contenir une dclaration similaire la suivante;
l Cet appareil contient FCC ID: PKRNVWCNN0403 l Ce dispositif contient du matriel certifi sous IC: 3229A-CNN0403 Si lune de ces conditions n'est pas remplie, des informations supplmentaires devraient tre obtenues auprs de la FCC ou un laboratoire d'essai qualifi par la FCC. 1Dfinition de dispositif mobile la FCC dfinit comme une antenne d'mission situe une distance 20cm de l'utilisateur. 2Autonome est dfini comme un seul metteur transmettant au lieu de deux ou plusieurs metteurs mettant simultanment.
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Si le module HS 3002 est destin tre utilis dans un dispositif portable, l'intgrateur OEM est responsable de l'approbation pour satisfaire aux exigences SAR de la FCC / IC. Reportez-
vous au bulletin 65 OET supplement C de la FCC pour obtenir des informations sur les exigences de conformit sur les exposition RF de la FCC pour des dispositifs mobile et portable.1 Les manuels d'utilisation du systme et d'autres documents doivent indiquer clairement les conditions de fonctionnement qui doivent tre respectes pour assurer la conformit avec les lignes directrices de la FCC / IC et aussi inclure les mises en garde et avertissements appropries. Le dispositif hte contenant le module HS 3002 peut galement exiger le respect de la partie 15 de la FCC Sous-section B - rayonnement non intentionnel. Industry Canada This device complies with Industry Canada licence-exempt RSS standard(s). Operation is subject to the following two conditions: (1) this device may not cause interference, and (2) this device must accept any interference, including interference that may cause undesired operation of the device. This Class B digital apparatus complies with Canadian ICES-003. Cet appareil est conforme aux normes dIndustrie Canada exempts de license(s) RSS. Son fonctionnement est soumis aux deux conditions suivantes : (1) cet appareil ne doit pas provoquer dinterfrences, et (2) cet appareil doit accepter toute interfrence, y compris les interfrences pouvant provoquer un fonctionnement indsirable de lappareil. Cet appareil numrique de classe B est conforme la norme canadienne ICES-003. FCC NOTICE TO USERS Novatel Wireless M2M has not approved any changes or modifications to this device by the user. Any changes or modifications could void the users authority to operate the device. See 47 CFR Sec. 15.21. The device complies with part 15 of the FCC rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. See 47 CFR Sec. 15.19. 1Dfinition de dispositifportable la FCC dfinit comme une antenne d'mission situe une distance 20cm de l'utilisateur.
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This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the 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:
l Reorient or relocate the receiving antenna. l Increase the separation between the equipment and receiver. l Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. l Consult the dealer or an experienced radio/TV technician for help. If the FCCID of the module is not visible when installed in the host platform, then a permanently attached or marked label must be displayed on the host unit referring to the module. The label should contain wording such as:
Contains FCC ID: Mxxxxxxxx This device complies with Part 15 of the FCC Rules. Operation is subject to the fol-
lowing two conditions: (1) This device may not cause harmful interference, and (2) This device must accept any interference received, including interference that may cause undesired operation. CE MARKING - R&TTE DIRECTIVE The HS 3002 module have been tested and certified to comply with the requirements of the European Directive 1999/5/EC, the R&TTE Directive. The modules are certified directly against Article 3.2 of the directive for Radio transceiver aspect. The modules are not directly certified against Article 3.1a (Safety) and 3.1b (EMC), but are shown to be in compliance through testing on a typical integrated device utilizing the module. The module is marked with the CE marked and the notified body number of the reviewing organization as is shown below. It is the responsibility of the integrator to ensure that the device incorporating the HS 3002 module is in compliance with the requirements of Article 3.1a (Safety) and 3.1b (EMC), as well as ensuring that the integrated device remains in compliance with the requirements of Article 3.2 of the directive.
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REGULATORY REQUIREMENTS FOR OTHER COUNTRIES In most other countries there are similar rules and regulations that may need to be met for importing the HS 3002 module and for placing it on the market in the integrated device. Each country may require a different mark of approval as an acceptance requirement. For each of these cases the country should identified, and the appropriate steps should be taken to meet the requirements set forth in the intended market. ROHS COMPLIANCE As a part of Novatel Wireless M2Ms corporate policy of environmental protection, Novatel Wireless M2M takes every step to ensure that the HS 3002 modules are designed and manufactured to comply to the European Union Directive 2002/95/EC for the Restriction of Hazardous Substances (RoHS).
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Important Safety Information The following information applies to the devices described in this manual. Always observe all standard and accepted safety precautions and guidelines when handling any electrical device. l Save this manual: it contains important safety information and operating instructions. l Do not expose the HS 3001 product to open flames. l Ensure that liquids do not spill onto the devices. l Do not attempt to disassemble the product: Doing so will void the warranty. This product does not contain consumer-serviceable components. The HS 3002 module may not be used in an environment where radio frequency equipment is prohibited or restricted in its use. This includes aircrafts, airports, hospitals, and other sensitive electronic areas. Do not operate RF devices in an environment that may be susceptible to radio interference resulting in danger, specifically;
l Areas where prohibited by the law. l Follow any special rules and regulations and obey all signs and notices. Always turn off the host device when instructed to do so, or when you suspect that it may cause interference or danger. l Where explosive atmospheres may be present. l Do not operate your modem in any area where a potentially explosive atmosphere may exist. Sparks in such areas could cause an explosion or fire resulting in bodily injury or even death. Be aware of and comply with all signs and instructions. l Users are advised not to operate the modem while they are at a refueling point or service station. l Users are reminded to observe restrictions on the use of radio equipment in fuel depots (fuel storage and distribution areas), chemical plants or where blasting operations are in progress. l Areas with a potentially explosive atmosphere are often but not always clearly marked. l Potential locations can include gas stations, below deck on boats, chemical transfer or storage facilities, vehicles using liquefied petroleum gas (such as propane or butane), areas where the air contains chemicals or particles, such as grain, dust or metal powders, and any other area where you would normally be advised to turn off your vehicle engine. l Near Medical and life support equipment. l Do not operate your modem in any area where medical equipment, or life support equipment may be located, or near any equipment that may be susceptible to any form of radio interference. In such areas, the host communications device must be turned off. The modem may transmit signals that could interfere with this equipment. l On an aircraft, either on the ground or airborne. l In addition to FAA requirements, many airline regulations state that you must suspend wireless operations before boarding an airplane. Please ensure that the host device is turned off prior to boarding an aircraft in order to comply with these regulations. The modem can transmit signals that could interfere with various on-
board systems and controls.
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l While operating a vehicle l The driver or operator of any vehicle should not operate a wireless data device. Doing so will detract from the driver or operator's control and operation of that vehicle. In some countries, operating such communication devices while in control of a vehicle is an offense. Disclaimer The information and instructions contained within this publication comply with all FCC, GCF, PTCRB, R&TTE, IMEI and other applicable codes that are in effect at the time of publication. Novatel Wireless M2M disclaims all responsibility for any act or omissions, or for breach of law, code or regulation, including local or state codes, performed by a third party. Novatel Wireless M2M strongly recommends that all installations, hookups, transmissions, etc., be performed by persons who are experienced in the fields of radio frequency technologies. Novatel Wireless M2M acknowledges that the installation, setup and transmission guidelines contained within this publication are guidelines, and that each installation may have variables outside of the guidelines contained herein. Said variables must be taken into consideration when installing or using the product, and Novatel Wireless M2M shall not be responsible for installations or transmissions that fall outside of the parameters set forth in this publication. Novatel Wireless M2M shall not be liable for consequential or incidental damages, injury to any person or property, anticipated or lost profits, loss of time, or other losses incurred by Customer or any third party in connection with the installation of the Products or Customer's failure to comply with the information and instructions contained herein.
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Table of Contents 1 Introduction Product Overview Technical Specifications Reference Documents Typical Usage 2 Module Power Operating Power Typical Input Current 3 Interfaces Module Mounting To Host Board (Reference) Mounting Tab Soldering Guidelines Connection Options Main Interface (100 Pin) On The Modem On The Host PCB Remote USIM/SIM Interface (Optional) RF Connection Options RF Board-to-Board Connector Option On The Modem On The Host PCB I/O Connector Pin Assignments 4 Hardware Design Guidelines General Design Guidelines For Using HS 3002 Modules Advanced Tips For An RF Friendly Layout Ground Plane Thermal Relief
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1 2 3 5 5 6 7 7 8 9 14 15 15 15 16 16 16 16 16 16 16 20 21 21 21 22 Antenna And RF Signal Trace VBAT Input Audio Reference Design Audio Schematics Circuit Protection Control Connector Signal Descriptions And Functions Module Power (PINS 87, 89, 91, 93, 95, 97, 99) Modem Power-on And Recovery Techniques Power Switch Logic Detect (Pin 85) ON/OFF (PIN 37) Phone On - PHON (PIN 35) Voltage Reference - VRIO (PIN 77) USB (PINS 1, 3, 5, 7) General Purpose Input/Output Interface RTC Sleep Serial Interfaces And Handshake (Pins 11, 13, 15, 17, 19, 21, 23, 25) Digital Audio Interface (PINS 12, 14, 16, 18) Digital Audio Configuration Digital Audio Data Format 32 KHz Output (PIN 56) Analog-to-Digital Inputs (PIN 44 And 74) Handset Microphone Input (PINS 65, 67) Handset Microphone BIAS Output (PIN 63) Handset Speaker Output (PINS 71, 73) Headset Microphone Input (PIN 55) Headset Speaker Output Left And Right (PINS 57, 59) Headeset Detect (PIN 47) Universal Subscriber Identity Module (USIM/SIM) Carrier (PINS 76, 78, 80, 82, 84)
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24 26 27 28 29 30 30 30 30 31 32 33 33 34 34 35 36 36 37 37 37 38 38 38 38 39 39 39 USIM/SIM Integration For HS 3002 Using Remote USIM/SIM With HS 3002 (PINS 76, 78, 80, 82, 84) Remote USIM/SIM Component Information Remote USIM/SIM Schematic Example Circuit Protection 5 GSM/UMTS Modes Of Operation Enabling The Transmission Modes For GSM/UMTS Services Voice Communication Short Message Service (SMS) GPRS Data HSDPA 6 Software Interfaces AT Command Format Novatel Wireless M2M AT Commands Novatel Wireless M2M Packet API API Architecture 7 USB Driver Installation USB Driver Installation (Windows XP) USB Driver Installation (Windows 7) 8 Modem Setup General Setup Hyperterminal Configuration For The Module Initialization (AT Command Interface) Initial Response To The AT Command Sending An Initialization String To The Module Setup The Communication Mode For The Module Integrating The Module
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40 40 42 42 44 45 46 46 46 47 47 48 49 50 50 50 51 52 58 66 67 67 68 69 69 70 70 1 Introduction Product Overview Technical Specifications Reference Documents Typical Usage
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Product Overview The HS 3002 modem is a compact, wireless OEM module that utilizes the Universal Mobile Telecommunications System (UMTS) communications standard to provide two-way wireless capabilities. The HS 3002 module is a fully approved UMTS device, enabling application-
specific, two-way communication and control. The small size of the HS 3002 module allows it to be integrated easily into the application and packaging. Figure 1-1 HS 3002 Module
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Figure 1-2 HS 3002 Module Schematic Technical Specifications Housing l Size (L x W x H):
Application Interface 28.0 mm x 27.0 mm x 4.50 mm l USB:
l VBUS:
3.3V 5.0V l Weight:
5 grams Interfaces l Host Interface:
l Data input/output interface:
l Primary serial port:
l USB port:
Serial Interface 100 position 0.4 mm pitch connector (Molex P/N 55909-
1074) V.24 protocol, 1.8V levels, UART implementation, Hard-
ware flow control USB serial port and USB Debug (USB Debug is Novatel Wireless M2M Use only) l Mic Bias Out:
1.8V @ 1.5 mA max. l Audio Mic Inputs:
l Ear Audio Out:
l Headset Out L&R:
1.0 Vp-p 12%
1.11 1.40 VRMS into 32 (1.25 VRMS typical) 0.531 to 0.668 VRMS into 16
(0.595 VRMS Typical) Power l Electrical Power:
3.4 to 4.4 Vdc (vbat) Supply Vripple must be less than
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l Antenna Interface:
l Command protocol: Novatel Wireless M2M Packet l GPIO:
l Audio:
l Voice:
l Reference clock:
l ADC:
l Logic:
Outputs Up to 8 GPIO Analog and Digital audio Supports Handset and Head-
set audio interfaces B2B Spring contact API, AT Command set 32 kHz output reference clock
(accessible via 100-pin con-
nector) 2 ADC inputs l UART1 l PCM l Digital Audio l GPIO l PWON l Power Control l Peak currents and average power dissipation:
25 mV across all frequencies Refer to the Operating Power table in the Technical Spe-
cifications for peak currents and average power dissipation for various modes of operation. Radio Features l Frequency bands:
l Radio Mode:
l Chipset:
WCDMA B5 (850 MHz) +B2
(1900 MHz) (CNN0403) WCDMA B1 (2100MHz) + B8
(900 MHz) (CNN0402) GPRS/EDGE 850 & 1900
(CNN0403) GPRS/EDGE 900 and 1800
(CNN0402) Qualcomm QSC6270 l Handset earphone outputs (EARP, EARN pins) l Headset 32 stereo outputs (HSOL, HSOR pins) Audio Features Mechanical: Storage And Transportation l Transportation vibration, packaged:
l Drop, packaged:
ASTM D999 ASTM D775 method A, 10 drops Mechanical: Operational l Operational vibration Random IEC60068-2-64 / MIL-
STD-202G Method 214A 50-2000 Hz, 7.56 GRMS, 3 Axis, 8 Hours per axis l Headset Microphone biasing l Handset Microphone biasing l Headset Plug/Unplug detection l Handset microphone input (MICIN, MICIP pins) l Headset microphone input (HSMIC pin) Environmental l Compliant Operating Temperature l Operating Temperature
-20 C to 60 C l Storage Temperature -40 C to 85 C l Humidity l Emissions Up to 95% non condensing FCC 47 CFR Parts 2,15,22 & 24 Packet Data Transfer l Protocol l Short Message Services Text, MO/MT Regulatory l Agency approvals FCC Certification Industry Canada PTCRB CE GCF
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Reference Documents l CNN040xAT001 - HS 3002 AT Command Reference l CNN040xTG001 - HS 3002 Transition Guide l ENF0000SD001 - HDK Guide l CNN030xAN001- Using Digital Audio on the HS 3001/3002 Typical Usage The following applications can use the HS 3002 module for transmitting/receiving data/voice:
l Automated Meter Reading (AMR) l Point of Sale Applications l E-mail and Internet access l Automated Vehicle Location (AVL) l Machine to Machine communication (M2M) l Telematics l Telemetry l Wireless Security l Smart Phones l Telemedicine
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2 Module Power Operating Power
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Operating Power The HS3002 module requires an in/out voltage of 3.4V to 4.4V. The supply ripple must be less than 25mV across all frequencies. Typical Input Current Test Conditions:
Typical Results @ 3.7 V, 25 deg C, with 1000 F at connector input on VBAT and RF terminated into a 50 resistive load. Band B2 (1900 MHz) B5 (850 MHz) GSM850 GSM850 GSM1900 GSM1900
*4:1 VSWR HSPA HSPA GPRS EGPRS GPRS EGPRS Mode Avg
(mA) Peak
(mA) Notes WCDMA Radio Acccess Bearer channel of RMC12 Max Power 23 dBm WCDMA Radio Acccess Bearer channel of RMC12 Max Power 23 dBm 540 525 2000 1200 1300 900
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3 Interfaces Module Mounting to Host Board (Reference) Mounting Tab Soldering Guidelines Connection Options RF Connection Options I/O Connector Pin Assignments
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Figure 3-1 Front of Module (Board-to-Board RF Conn. Version) Figure 3-2 Pin 1 Reference, 100-Pin I/O Connector Module Mounting To Host Board (Reference) The module provides mounting tabs that must be soldered to a PCB. These tabs provide circuit grounding for the module. Do not add solder paste to mounting pads, RF connector, or shield pads. The only portion recommended for thermal relief is along the outer edge of each pad, where a soldering iron would be placed. The rest of the pad should be solid flood to the copper ground underneath the module. (See Figure 5) This is critical for helping heat dissipation.
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Figure 3-3 Host Board Layout
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Figure 3-4 Module Mounting
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Figure 3-5 Host Pads for Board-To-Board RF Connector
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Figure 3-6 Modem Mounting Pads
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Figure 3-7 Remote USIM/SIM holder NEEDNEWDWG Mounting Tab Soldering Guidelines Take care not to apply excessive solder during module mounting. Solder bridging to internal components can occur if an overly large iron tip is used and held against the vertical shield walls while solder is applied at the junction between iron and module. Coverage of the outer of the tab is sufficient for securing the module. Please see the diagram below:
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Figure 3-8 Module Tab Soldering The iron tip should not exceed the size of that shown below for the Metcal SSC-x36A series tip. Figure 3-9 Recommended Tip Size Connection Options Main Interface (100 Pin) On The Modem 100-Pin I/O Connector, Plug, SMT, Dual Row, and 0.4 mm Pitch l Novatel Wireless M2M Part Number = CON-1040-0100 l Molex Part Number = 55909-1074
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On The Host PCB 100-Pin I/O Connector, Socket, SMT, Dual Row, 0.4 mm Pitch (Mate to module) l Novatel Wireless M2M Part Number = CON-1040-0101 l Molex Part Number = 51338-1074 The mated height of the two connectors is 1.50 mm. Remote USIM/SIM Interface (Optional) The HS3002 has an internal (3FF) micro USIM holder on board the module. However, the integrator can choose to use a remote USIM interface which can be a Mini SIM. The integrator can use any compatible Mini SIM with the HS3002 For example;
Suyin P/N: 254021MA006S162ZL The choice of any remote Mini SIM must adhere to the guidelines defined in Section 6.3.22 of this integration guide. RF Connection Options RF Board-to-Board Connector Option On The Modem l Novatel Wireless M2M PN = CON-0009-0006 l Sunridge PN = MCE-15A-G01 On The Host PCB No connector required. I/O Connector Pin Assignments The following table shows the pin assignments for the input/output connector.
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Pin Function Description Notes 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 VBUS GND VBUS GND USB_DP LED_SINK USB_DM Reserved Reserved Reserved UART_RTS PCM_DIN UART_CTS PCM_CLK UART_RX PCM_SYNC UART_DTR USB Power Ground USB Power Ground USB Data (+) Current sink for LED USB Data (-) N/A N/A N/A UART1 RTS (input) Digital Audio I/F Data In UART1 CTS (output) Digital Audio Clock UART1 RX (output) Digital Audio Interface Sync Data Terminal Ready PCM_DOUT Digital Audio I/F Data Out UART_DCD Data Carrier Detect Reserved UART_TX Reserved N/A UART1 TX (input) N/A UART_RING Ring Indicate Reserved UART_DSR Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved PHON Reserved ON\OFF Reserved Reserved N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A
"Phone on" - momentary low to activate N/A Power Control Switch Input (Selectable Logic via Pin 85) N/A N/A
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Do Not Connect Do Not Connect Do Not Connect Do Not Connect Do Not Connect Do Not Connect Do Not Connect Do Not Connect Do Not Connect Do Not Connect Do Not Connect Do Not Connect Do Not Connect Do Not Connect Do Not Connect Do Not Connect Do Not Connect Do Not Connect Notes Do Not Connect Do Not Connect Do Not Connect Do Not Connect Do Not Connect Do Not Connect Do Not Connect Do Not Connect Do Not Connect Do Not Connect Do Not Connect Do Not Connect Pin Function Description 40 41 42 43 44 45 46 47 48 49 50 51 52 Reserved Reserved Reserved Reserved ADC2 Reserved Reserved HSDET Reserved Reserved Reserved Reserved Reserved N/A N/A N/A N/A Analog Input #2 N/A N/A Headset Detect N/A N/A N/A N/A N/A 53 MICBIAS Microphone Bias GND HSMIC+
Ground Headset Microphone (+) CLK32K_BUF Buffered 32.768 kHz clock output HSOL GPIO_4 HSOR GPIO_3 Reserved GPIO_2 63 MICBIAS 64 GPIO_1 65 MICIP 66 GPIO_7 67 MICIN GPIO_5 GND GPIO_6 EARP GPIO_8 EARN ADCIN1 GND 54 55 56 57 58 59 60 61 62 68 69 70 71 72 73 74 75 76 77 78 Headset Out Left (+) General Purpose IO Headset Out Right (+) General Purpose IO N/A General Purpose IO Microphone Bias General Purpose IO Microphone +
General Purpose IO Microphone -
General Purpose IO Ground General Purpose IO Earphone +
General Purpose IO Earphone -
ADC IN 1 (Analog input #1) Ground SIM_VDD SIM VDD supply voltage VRIO_MSME1.8 Reference Voltage (<5 mA) for external interfaces SIM_CLK SIM Clock
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Notes Do Not Connect Do Not Connect Do Not Connect Pin Function Description 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 Reserved SIM_RST Reserved SIM_IO Reserved SIM_DTC PSLOGIC GND VBAT GND VBAT GND VBAT GND VBAT GND VBAT GND VBAT GND VBAT 100 GND N/A SIM Reset N/A SIM IO Data N/A SIM Detect On/Off logic select Ground/Power Return/Shield Power Input Ground Power Input Ground Power Input Ground Power Input Ground Power Input Ground Power Input Ground Power Input Ground
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4 Hardware Design Guidelines General Design Guidelines for Using HS 3002 Modules Control Connector Signal Descriptions And Functions Circuit Protection Circuit Protection
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General Design Guidelines For Using HS 3002 Modules The following guidelines are provided in an effort to allow HS 3002 module users to successfully implement their PCB layout to obtain the best performance. This includes the lowest possible EMI emissions, maximum thermal conduction, mechanical integrity, and voice quality. The HS 3002 module is a very compact, high performance design, and very easy to interface into the final product. In order to realize its full potential, designers should pay close attention to the following:
l Ground structures l The routing of RF and Digital traces l The size of the power supply lines. Warning: These design tips are strictly guidelines and are not meant to be a complete list of items that guarantee actual performance. Each application is different and may require variation from these guidelines; however, you should try to utilize these sound engineering principles whenever possible. Advanced Tips For An RF Friendly Layout Ground Plane To ensure the lowest possible EMI emissions and maximum thermal conductivity, it is recommended that all metal tabs on the cellular module shield must be soldered down onto a continuous ground plane that runs under the entire module. Ample ground vias should be provided around the metal tabs to create a low impedance ground. It is recommended to minimize the number of I/O power traces and vias under the cellular module to allow for as much ground plane as possible. An example of a good ground structure and pad layout is shown below.
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Figure 4-1 Example of good ground plane Thermal Relief Because the ground plane acts as a large heat sink, it can affect the solderability of components. A common method to reduce this effect is to use thermal relief around the pad in question. However, great care must be taken when using thermal relief for high current or high frequency applications For example, a large thermal relief like the one shown in the following figureis satisfactory for general applications such as low current, low speed data lines, DC connections and audio frequency applications. However, such thermal relief structures should be avoided for applications where high current and/or high frequency is involved, such as those using the cellular Module. Depending on the frequency of operation, the long narrow thermal relief traces between the pad and the ground plane act like an RF choke. These RF chokes become higher impedance at harmonics of the fundamental frequency making it problematic for high frequency suppression. This can make it difficult to pass type approval testing.
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Figure 4-2 Example of a POOR RF Thermal Relief If thermal relief is necessary, it is recommended that you use short, fat traces similar to those shown in following figure. This will still provide a solderable connection, while providing a better RF connection. Making them shorter also allows for a more continuous ground plane due to less copper being removed from the area. It is also recommended to have ground vias around all thermal relief of critical ground pins such as the five cellular module shield tabs.
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Figure 4-3 Example of a GOOD RF Thermal Relief Antenna And RF Signal Trace The PCB trace that feeds the RF output port must be designed for a 50 Ohm characteristic impedance, coplanar, (or standard microstrip, given sufficient clearance),or routed into internal layers to keep the top layer continuous around and underneath the cellular module. Ample ground vias should be provided around the RF contacts, the RF trace, and launch pad. If possible, keep I/O and power traces away from the RF port. This includes traces running parallel or orthogonal to it. Thermal relief should not be used on the antenna output port ground pads. The designer must pay close attention to the size of the pad and thickness of the dielectric beneath the signal pad and trace. Most PCB manufacturers can adjust the trace width to maintain 50 Ohms impedance if the traces are identified and instructions are included on the FAB drawing. This service is provided at no or minimal additional cost. For minimum RF emissions due to the fundamental frequency of operation, the cellular module works best with an antenna load that has a VSWR of 1.5:1 or better. The antenna should not have gain at the harmonic frequencies, otherwise, the conducted harmonics could get amplified to a point where the product no longer passes type approval. However, for
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applications where antenna quality is less than ideal, it is recommended to have a low pass filter (Pi structure with N=3) in the RF path to the antenna. This is a secondary plan should there be a need to lower harmonic levels at frequencies above the PCS band. The pad structure may also be used to match the antenna load impedance, if required. If it is not needed, a capacitor of low reactance may be used to bridge the Pi structure. The RF cable going between the cellular module and the antenna is very lossy, therefore, the length of this cable should be kept as short a possible. The following design parameters are for the coplanar microstrip between the Module RF compression pads and the SMA coaxial connector. Note the use of a through-hole SMA connector will affect impedance. The connector body must allow at least as twice as much vertical clearance as the height to the microstrip reference layer. There should be ample clearance to all layers from the center pin. The coplanar waveguide microstrip details are shown below. The construction details and path adjustment for 50 is shown in the following diagram and table. Impedance Table
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Layer Impedance Requirement
() L1 50 Tolerance
5.0 5.0 Type Coplanar coated microstrip Upper Ref Lower Ref Finished Line Width (mil) Finished Spacing
(mil) Impedance Simulation
() L3 58.10 20 50.8 VBAT Input The HS 3002 VBAT input can have a relative high current draw that can fluctuate rapidly, especially when transmitting at max power and burst mode. The VBAT interface must be designed to provide the required instantaneous voltage and current with minimal voltage droop. This includes both sufficient bulk decoupling capacitance as well as adequate layout provisions. When laying out the connections to the cellular module interface connector, it is tempting to use traces of the same width as the connector pins. However, this is a very compact connector and traces of that width will not have sufficient copper. Similar to the discussion on thermal relief, the use of narrow traces to connect the VBAT pins to the source voltage can act like a high impedance and cause a significant voltage droop when higher currents are required as shown in following figure. Figure 4-4 Example of VBAT Voltage Droop
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If the VBAT drops too low, the cellular module will reset. To minimize the trace loss, it is suggested to use a larger trace that spans several pins as shown in following figure. Any concern about solderability can be mitigated by using solder mask with a cutout for the power supply pins (in the white outline). The layout should provide sufficient trace width over the entire trace from the cellular module all the way to the source of the Vbat voltage. Any transitions between layers for this trace should utilize multiple vias. Since even the best layout will have some impedance from the source to the cellular module, sufficient bulk decoupling capacitance is required at the Vbat input to the cellular module. It is suggested to use at least two 1000 uF, low ESR, tantalum capacitors located very close to the cellular interface connector Vbat pins. Any thermal relief used on these capacitors should comply with the information given above in order to provide the lowest impedance possible. The grounding of these capacitors is critical. Therefore, it should be a low impedance and should utilize multiple vias to the internal ground plane close to the capacitor as well. Audio Reference Design Figure 4-5 Example of GOOD VBAT layout The audio quality is dependent on the circuit design and layout. As an aid to obtaining good audio quality, a reference design has been included below.
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Audio Schematics Figure 4-6 Handset Speaker Schematic Figure 4-7 Handset Microphone Schematic
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Figure 4-8 Headset Schematic Circuit Protection Other than very low level ESD protection within the modules integrated circuits, the module does not have any protection against ESD events or other excursions that exceed the specified operating parameters. Generally, ESD protection (typically TVS/Transzorb devices) should be added to all signals that leave the host board. This includes VBAT/VCC. Series resistors (typically 47 ohm) can also be added in series with data lines to limit the peak current during a voltage excursion. Warning: It is the Integrators responsibility to protect the Enabler module from electrical disturbances and excursions, which exceed the specified operating parameters.
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Control Connector Signal Descriptions And Functions Module Power (PINS 87, 89, 91, 93, 95, 97, 99) The HS 3002 module uses a single voltage source of VCC=+3.4V to 4.4V. VBAT Parameter/Conditions Min Typ Max Units Main Battery Supply Voltage In Regulation Peak Current 4.4 Vdc mA Warning: The uplink burst will cause strong ripple on the voltage lines and should be effectively filtered. It is recommended that 1000 to 2000 F of capacitance be placed as close to the modem I/O connector as possible. It should be noted that the input voltage level should not drop below the minimum voltage rating under any circumstances, especially during the uplink burst period. Modem Power-on And Recovery Techniques The HS 3002 provides module integrators with improved modem power-on and recovery techniques, while maintaining backwards compatibility to Enabler IIIG integrations. The addition of an internal power switch and input power-on logic select pin (Pin 85), allows users the flexibility to maintain backwards compatibility or select different power-on options. This internal power switch also allows integrators the flexibility of not supplying an external power switch. Pin-37, previously a reset pin in the Enabler III module, has been replaced with a device power ON/OFF pin in the HS 3002. This pin controls the internal power switch. Pin-85 (PSLOGIC) allows users to select the default behavior of the ON/OFF control (Pin-37). Once power is applied via the internal power switch, Pin-35 (PHON) is used like a phone on/off switch. Power Switch Logic Detect (Pin 85) This is a hardware input pin to determine the functionality of the ON/OFF pin (Pin-37). If Pin-85 is tied to VBAT, Modem ON/OFF (Pin-37) defaults to high when the circuit is open, and the internal modem power switch will be ON.
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If Pin-85 is left open, Modem ON/OFF (Pin-37) defaults to low when the circuit is open and the modem will be off (requires ON/OFF (Pin 37) to be driven high to power on). Note: Externally connecting Pin-85 to ground is not recommended ON/OFF (PIN 37) Pin-37 is the ON/OFF control input for the modem's internal power switch. When it is high, the modem's internal power switch will be ON. When it is low, the modem internal power switch will be OFF which means the modem is OFF Note that Pin-35 PHON (Power On) is a signal input and is the normal method for turning the modem ON or OFF. However, Pin 35 cannot turn the modem on if Pin 37 is low, because the modem will not have power applied to it. Parameter Parameter/Conditions MIN TYP MAX UNIT VIL VIH IPU IIL Input Voltage Low or float TBD TBD TBD Input Voltage High Internal Pull-Up Resistor Current sink TBD TBD TBD TBD TBD TBD TBD TBD TBD mA Vdc Vdc A The modem has an internal power switch that supplies the modem operating power when ON.
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Figure 4-9 Internal Power Switch The modem may not completely shut down/reset even with a mechanical power switch or this circuit implemented if the modems I/O lines have another source of power that applies voltage to the modem. To alleviate this situation, make sure that the interface circuitry is set to tri-state or as an input. If this is not possible, additional hardware may be needed to shunt high impedance lines to ground during these situations. The un-switched power source must be capable of supporting the inrush current required by the bulk capacitance. The enable switch can be soft started via voltage ramp or modulation to reduce the peak current as needed. DO NOT USE a Modem Power Switch as a routine shutdown or reset. This technique for shutting down the modem does not properly deregister the modem from the network. The carrier may impose penalties if a fleet of equipment does not routinely follow a proper deregistration process. If integrators wish to use this method routinely, then a graceful detach from the network should be accomplished first. This can be done by sending AT$OFF. Phone On - PHON (PIN 35) This input signals the modem to start and is equivalent to a phone power button. A falling-edge on this Active-Low input will switch-ON the module or switch-OFF the module. This is a firmware controlled OFF function and will deregister the modem from the network before shutting the modem OFF. This input has a weak pull-up resistor internal to the module. If users want the modem to automatically come on when power is applied, they can tie this line low.
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If RTC Sleep is required, then the PHON line must be floated to allow the internal resistor to pull the line high. (The RTC sleep function is not available in the initial firmware release.) Controlling the PHON signal must only be performed by an open collector/open drain device. If controlling this signal from a microprocessors I/O pin, the PHON can be pulled low when the I/O is configured to be an output and floated high by reconfiguring the pin to be an input. Warning: The OFF Delay is controlled by the AT$OFFDLY command. A value of 0 disables the PHON line from turning the module off. 0 is the default value. To enable the module to switch-OFF via PHON you must set AT$OFFDLY to a value other than 0. The valid range is 100 to 1000 milliseconds. Parameter Parameter/Conditions MIN TYP MAX UNIT VIL VIH IPU IIL Input Voltage Low or float Input Voltage High Internal Pull-Up Resistor Current sink ON Pulse Duration OFF Pulse Duration Minimum is programmable (AT$OFFDLY) TBD TBD TBD TBD TBD TBD TBD TBD TBD TBD Vdc Vdc TBD TBD mA TBD TBD mA TBD TBD mS TBD TBD mS Boot time Time to boot from power on to command prompt TBD TBD TBD Sec Voltage Reference - VRIO (PIN 77) To be used as a voltage reference source ONLY. Do not connect current loads to this pin. This pin must be decoupled to ground with at least a 0.1 uF capacitor at the output. Noise induced on this pin will affect the performance of the baseband. VRIO should be used as the 1.8V reference voltage for voltage translation. USB (PINS 1, 3, 5, 7) 5V Tolerant Transceiver USB Parameter/Conditions Min Typ Max Units Input Voltage Output voltage Transceiver D+/- Leakage Current High (Driven) Low 4.4 2.8 0.0
-2 4.65 5.25 V 3.3 0.1 3.6 0.3 2 Vdc Vdc A
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General Purpose Input/Output Interface GPIO number Pin number GPIO 1 GPIO 2 GPIO 3 GPIO 4 GPIO 5 GPIO 6 GPIO 7 GPIO 8 64 62 60 58 68 70 66 72 Each general-purpose signal may be selected as inputs or outputs. The GPIOs can be used independently as a user-specified function. I/O Lines Parameter/Conditions Min Typ Max Units VIL VIH VOL VOH Input Voltage Low Input Voltage High Output Voltage Low 0 1.11 Output Voltage High 1.26 IOL / IOH Rated Output Current 0.60 Vdc 1.8 Vdc 0.45 Vdc Vdc mA 4 Factory Default Settings for I/O Pins, PU/PD Capability and Value of PU/PD Resistors. RTC Sleep In this mode, the modem is off except for its Real-Time-Clock. When put into this mode, the modem can wake itself up at a designated time/interval. Refer to the HS 3002 AT command manual for more details.
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Serial Interfaces And Handshake (Pins 11, 13, 15, 17, 19, 21, 23, 25) The pin naming for the HS 3002 is referenced from a DTE perspective.The DTE device should match their input pins to the Novatel Wireless M2M pin outs and vice-versa. The modem is considered as DCE. Additionally, there are AT commands that may need to be executed in order to ensure proper operation. The HS 3002 module is designed to be used like a DCE device. 9-pin D Con-
nector Pin Number Signal Signal Direction Novatel Wireless M2M Pin Number Novatel Wireless M2M AT Command 1 2 3 4 5 6 7 8 9 UART_DCD from DCE (output from the HS 3002) Receive Data
(RD) from DCE (output from the HS 3002) Transmit Data
(TD) from DTE (input to the HS 3002) UART_DTR Signal Ground UART_DSR from DTE (input to the HS 3002) from DCE (output from the HS 3002) Request To Send
(RTS) from DTE (input to the HS 3002) Clear To Send
(CTS) UART_RING from DCE (output from the HS 3002) from DCE (output from the HS 3002) 19 15 21 17 25 11 13 23 AT+IFC AT+IFC The key features of the UART in the modem mode are as follows:
l 16C750 compatibility l Baud rates: 300,600,1200,2400,4800,9600,19200,38400,57600,115200,230400 l Supported data format:
l Data bit: 8 bits l Parity bit: none l Stop bit: 1 bit l Hardware flow control RTS/CTS Default settings are:
l 8 data l 1 stop l no parity l 115200 Baud.
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RTS and CTS may be used for hardware handshaking. The serial interface is 1.8V logic. By default, hardware handshaking (AT+IFC) is enabled. The module will be expecting the RTS line to be low before it will transmit data. If the integrator does not wish to use flow control, please see below for minimal serial implementations:
For a minimal Serial implementation, use one of the following two configurations:
Configuration 1:
l Connect RxData (pin 15) and TxData (pin 21) to the COM port serial data lines. l RTS (pin 11) be pulled up through a 100K resistor if not used. l The user must set AT+IFC=0,0 to disable flow control to communicate with the modem. Configuration 2:
l Connect RxData (pin 15) and TxData (pin 21) to the COM port serial data lines. l Tie RTS (pin 11) to CTS (pin 13) and DTR (Pin 17) to DSR (pin 25) on the modem to loopback the flow control signals. l The user must set AT+IFC=0,0 to disable flow control to communicate with the modem. Notes:
Tying RTS (pin 11) to ground to spoof flow control will cause the modem to draw more current. It is not recommended to leave RTS (pin 11) unconnected. Digital Audio Interface (PINS 12, 14, 16, 18) This port is only available in Master mode and to be used for PCM digital audio. Below are the settings for configuring its operation and the interface specification:
Digital Audio Configuration The default settings for the digital audio are:
l Mode = Master l PCM_CLK = 2.048MHz l Word Size = 16 Bits l Sync Pulse = 8KHz l Frame mode = burst l Clock edge Sync = rising edge
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The following AT command is required to set the unit up in digital audio mode:
AT$voicepth=2 This configures the HS 3002 module to use digital audio instead of analog audio. Digital Audio Data Format The 16 bit word is sent MSB first. Data received is also MSB first. No other data manipulation is done within the module. Pin Name Pin Number Signal Direction Description PCM_DIN 12 PCM_DOUT 18 PCM_CLK PCM_SYNC 14 16 Input Output Input/Output Input/Output Serial Data Input Serial Data Output Serial Clock I/O Frame Synchronization I/O 32 KHz Output (PIN 56) A 32.768 kHz signal is available as an output from the module. This signal should only be used as an input to a high impedance device. Additional loads or capacitance on the line may cause performance issues with the module. If the line is not used, leave floating. Analog-to-Digital Inputs (PIN 44 And 74) The Monitoring ADC (MADC) consists of a successive approximation 12bit analogtodigital converter (ADC). Analog-To-Digital Input Parameter/Conditions Min Typ Max Units ADCBRES ADCREF VADC ADC Binary Resolution ADC Reference Voltage ADC Range Integral/Differential Non-Linearity Input Leakage Retuning Frequency Bits Vdc Vdc LSB mA MHz
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Handset Microphone Input (PINS 65, 67) Parameter Test Conditions Min Typ Max Units Notes Full scale input voltage voltage across either MIC 1P and MIC1N, MIC2P and MIC2N 0.89 1.00 1.12 Vrms 1dB level error Input impendence Difference input impedance Input impendence Single ended input impedance Input offset voltage Input capacitance At each pin of all inputs 20 10 16 8 5 24 12 5 5 k k mV pF Handset Microphone BIAS Output (PIN 63) Parameter Comments Min Typ Max Units MIC bias output voltage MIC bias output current MIC bias voltage accuracy MIC bias output voltage load regulation Minimum load
-3 1.8 1.5
+3 30 V mA
Handset Speaker Output (PINS 71, 73) Parameter Test Conditions Min Typ Max Units Notes f = 1.02 Hz, 0 dBm 1.11 f = 498 Hz, 0 dBm 38.5 Input = .999 dBm 1.03 DAC to EAROP/EARON full-
scale output EAROP/EARON output power, 4%
or less THD+N Output DC level, EAR1OP and EAR1ON with respect to VSS 1.25 48.8 1.05 1.40 61.3 1.07 Vrms 1 dB level error 22 to 20 kHz measurement BW mW V Headset Microphone Input (PIN 55) Parameter Test Conditions Min Typ Max Units Notes Full scale input voltage voltage across pin 55 and ground 0.89 1.00 1.12 Vrms 1dB level error Input impendence Single ended input impedance Input offset voltage Input capacitance At each pin of all inputs 8 5 10 12 5 5 k mV pF
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Headset Speaker Output Left And Right (PINS 57, 59) Parameter Test Conditions Min Typ Max Units Notes Both modes - HPH_LP and HPH_RN configured single ended, analog volume control = 0 dB f = 1.02 kHz, 0 dBm 0.531 0.595 0.668 Vrms DAC to HPH_LP and HPH_RN fullscale output Output DC level, HPH_LP and HRH_RN wih respect to VSS Output impedence Input = 0.999 dBm 1.03 1.05 Voice Mode - HPH_LP and / or HPH_RN configured single ended, analog volume control = 0 dB HPH_LP and HPH_RN output power, 4% or less THD+N f = 1.02 kHz, 0 dBm 17.6 22.1 1.07 0.5 27.9 V mW DAC to HPH_LP and HPH_RN output noise level Input = 0.999 dBm, Fs = 8 kHz or 16 kHz, A-weighted 106 Vrms Both modes - HPH_LP and HPH_RN configured differential (HPH_LP/HPH_RN), analog volume control = 0 dB DAC to HPH_LP and HPH_RN fullscale output DAC to HPH_LP/HPH_RN gain error relative to gain @ -3 dBFS Output DC level, HPH_P and HPH_N with respect to VSS Output impedence f = 1.02 kHz, 0 dBFS, 32 load 1.06 1.19 f = 1.02 kHz, -60 dBFS
-1.2 Input = .999 dBFs 1.03 1.05 1.34 1.2 1.07 1.0 Vrms dB V Voice Mode - HPH_LP and / or HPH_RN configured differential (HPH_LP/HPH_RN), analog volume control = 0 dB HPH_LP/HPH_RN output power, 4% or less THD+N f = 498 Hz, -3 dBFS, 32 17.6 22.1 27.9 mW DAC to HPH_LP/HPH_RN out-
put noise level Input = 0.999 dBFS, Fs = 8 kHz, A-
weighted 212 Vrms 22 to 20 kHz meas-
urement bandwidth Linearty spot check 22 to 20 kHz meas-
urement bandwidth 22 to 20 kHz meas-
urement bandwidth Headeset Detect (PIN 47) The headset detect signal is an active low signal. The signal is low when a headset is inserted. Universal Subscriber Identity Module (USIM/SIM) Carrier (PINS 76, 78, 80, 82, 84) The USIM/SIM, an integral part of any UMTS/GSM terminal device, is a smart card that is programmed with subscriber information:
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The user information consists of an International Mobile Subscriber Identity (IMSI) number, which is registered with the UMTS/GSM service provider, and has encryption data embedded in it. The USIM/SIM consists of a microprocessor and memory installed on a plastic card. Note: The USIM/SIM is not provided with the HS 3002 module. The USIM must be obtained from the UMTS/GSM service provider and must be provisioned by the operator for data and/or voice. Always take care to protect the USIM: the UMTS/GSM terminal will not operate without the USIM installed. The USIM/SIM provides the IMSI for authentication. To gain access to the UMTS/GSM network, the network must recognize the IMSI number, and the terminal must be able to properly decrypt the data sent by the network. The USIM also serves as a buffer for SMS messages, storing the message for transmission until a radio link is available, and buffering received messages until retrieved by the end user. USIM/SIM Integration For HS 3002 The HS 3002 module has a Micro USIM/SIM onboard the module as standard. However, a remote USIM/SIM can still be used if desired. Only the Remote USIM/SIM will be discussed in this integration guide as the onboard Micro USIM is already an integral part of the HS 3002 module. Using Remote USIM/SIM With HS 3002 (PINS 76, 78, 80, 82, 84) The HS 3002 module supports the use of 1.8 V and 3 V USIM cards. The module includes a hardware interface module dedicated to Universal Subscriber Identity Module (USIM/SIM). All baud-rates defined in ISO 7816-3 standard are supported for high-speed transmission. If the module is going to be integrated using a remote USIM/SIM, the following guidelines are provided:
l To utilize a remote USIM/SIM, the integrator must provide a suitable USIM/SIM connector. exceed 25.4 cm (10 inches). l The maximum distance from the module to the remote USIM/SIM connector must not l It is recommended to have Zero resistance between the USIM/SIM connector and the
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module. l External ESD Protection is Required;
l 15 kV Air Discharge;
l 8 kV Contact Discharge;
The transorb must have a low junction capacitance (typically < 10 pf) such as the following part:
l Novatel Wireless M2M PN: TRS-0000-5009 l Manufacturer: On Semi l Manufacturer PN: NSQA6V8AW5T2G Any compatible USIM/SIM carrier can be used in conjunction with the HS 3002 module. For example:
Suyin P/N: 254021MA006S162ZL Figure 4-10 Remote USIM/SIM Interface Pin Name Pin Number Signal Direction Description SIM_VDD SIM_CLK SIM_RST SIM_I/O SIM_DTC 76 78 80 82 84 O O O I/O I SIM VDD Card Reference Clock Card Reset Card I/O Data Card detect The HS 3002 module provides the regulated supply voltage for the USIM/SIM-card and the circuitry to detect the insertion or extraction of the USIM/SIM-card.
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The SIMDTC is disabled by default (see AT$SIMDTC in the HS 3002 AT Command Manual for settings). When enabled, the SIMDTC pin has an internal pull up to VCC and can be configured to detect a USIM/SIM insertion when the SIMDTC is either pulled to ground or left floating. It can be configured to detect either just a USIM/SIM removal or both removal and insertion. USIM/SIM detection is also dependent on the setting of the AT$AREG and AT+CFUN commands (see AT$SIMDTC in the HS 3002 AT Command Manual for more information). When the module detects a USIM/SIM removal, it will de-register from the network. When the module is configured to and detects a USIM/SIM insertion, it will re-register the module on the network. The USIM/SIM-card presence detection logic is active even when the system is in idle mode. USIM/SIM Parameter/Conditions Min Typ Max Units VDD VIH VIL VOH VOL II Iout PU PD Iz SIM VDD voltage High level input voltage Low level input voltage 1.65 2.7 1.15 1.8 1.95 V 2.85 2.95 V V 0.61 V High level output voltage, IO = 4 mA Vdd-0.45 Low level output voltage, IO = 1 mA Input leakage current Output current PU resistance PD resistance Leakage current 0.4 1 30 V V A mA k k A mS mS k 4 32 30 0.5 15 475 Card Detect Debouncing time (SIM-card insertion) Debouncing time (SIM-card extraction) Pull-up resistor (resistor + resistive switch) Remote USIM/SIM Component Information Remote USIM/SIM Schematic Example ESD protection is required for all USIM/SIM sockets. A Transient Voltage Suppressor (TVS) diode with low capacitance, typically less than 10pF, should be used. ESD protection is required for PTCRB and GCF approval and should be located as close to the connector as possible. Signal lines from the connector to the modem should be routed 'through' the pad of the diode, rather than a 'T' branch. Decoupling capacitance on SIM_VDD will be required, and should be placed as close to the USIM/SIM connector as possible. The value of the required
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capacitor will vary by design, and will typically be below 0.1uF. The USIM/SIM electrical tests will be conducted during the PTCRB and GCF approval process. Experimentation of the capacitance value may be required to pass these tests. Factors affecting the capacitance of the SIM_VDD line include: trace length, capacitance of the TVS diode, and physical placement of the capacitor. Figure 4-11 Remote SIM Schematic Example
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Circuit Protection Other than very low level ESD protection within the modules integrated circuits, the module does not have any protection against ESD events or other excursions that exceed the specified operating parameters. Only the USB port has onboard ESD/transient protection. We do not recommend using additional external transient protection for this port as it will cause too much capacitance on the lines. Generally, ESD protection (typically TVS/Transzorb devices) should be added to all signals that leave the host board. This includes VBAT/VCC. Series resistors (typically 47 ohms) can also be added in series with data lines to limit the peak current during a voltage excursion. It is the Integrators responsibility to protect the module from electrical disturbances and excursions, which exceed the specified operating parameters.
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5 GSM/UMTS Modes Of Operation Enabling The Transmission Modes For GSM/UMTS Services Voice Communication Short Message Service (SMS) GPRS Data HSDPA
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The GSM and UMTS supports many services and modes. The HS3002 modules supports the following GSM/UMTS services:
l Voice communication l Short Message Services (SMS) l Class B GPRS Functionality l Class 12 EDGE functionality l HSDPA functionality l UMTS data functionality Enabling The Transmission Modes For GSM/UMTS Services Each of the GSM/UMTS services has two modes that can be enabled separately:
Mobile-originated (MO): allows the making of a service request (such as, making a telephone call, making a data call and sending an SMS) Mobile-terminated (MT): allows receiving a service request (such as receiving a telephone call or an SMS) Note: Contact your local GSM/UMTS operator to ensure that the services and modes have been provisioned for the SIM Voice Communication The HS3002 module has GSM and UMTS voice capabilities, provided the necessary connections have been made for the speaker and microphone pins on the 100-pin I/O connector. The HS3002 AT Command Set Reference - GSM0308AT001 has the entire list of audio commands that can be used to control the voice functionality. Short Message Service (SMS) Short Message Services (SMS) is a feature-rich GSM & UMTS service. The HS3002 module can perform the following tasks:
l Sending and receiving binary messages of up to 160 characters (7-bit characters) l Sending and receiving text messages of up to 140 bytes (8-bit data) l Returning a delivery report to the network for a previously received message l Receiving a report from the network l Notifying the network when the module has sufficient memory capacity available to receive one or more SMS messages (after the module had previously rejected a message because its memory capacity was exceeded)
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GPRS Data The HS3002 module supports the following GPRS (modes of operation) that must be enabled by the operator:
l GPRS Packet Connectivity (MO and MT) with Both Dynamic and Static IP option l GPRS SMS (MO and MT): uses the IP (Dynamic or Static) set by the operator l Multiple APN Setting l Quality of Service Options l Multislot 10 Class of Service HSDPA TBA
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6 Software Interfaces AT Command Format Novatel Wireless M2M AT Commands Novatel Wireless M2M Packet API
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The application sends commands to the HS 3002 module via the 100-pin I/O signal connector. These commands use the Novatel Wireless M2M AT Command Set and/or Novatel Wireless M2Ms Packet API. The HS 3002 module operates in one of the following modes:
Command mode: Used for configuring the HS 3002 module, for interrogating the UMTS/GSM network, and for placing and receiving calls. It uses the AT command set via the serial port for communication. On-line mode: Used after data call has been established. Data is passed between the HS 3002 module and the controlling application without command interpretation. The only AT command that is interpreted in On-line mode is the +++ command. (The +++ command places the HS 3002 module in Command mode but does not terminate the data call.) IP Packet /API Mode: Used to read/write modem parameters, interrogate network information, and place and receive calls in real-time, multi-tasking mode. The Packet API mode is facilitated over a PPP connection and the packets can be constructed according to the information provided in the Novatel Wireless M2M GSM-GPRS Family API Reference GSM0308UG001. The AT command driver of the HS 3002 module never exits the Command state, that is, it never enters the On-line mode. Although the host interface may not be able to access the AT command interpreter, it is always running and is available via the API Mode over a PPP connection and/or via the RF interface. In the Command state, characters that are received from the Customer Premise Equipment
(CPE) are treated as AT commands by the HS 3002. In response to the commands received from the CPE, the HS 3002 module sends characters
(AT commands) to the CPE. Various events can also trigger the HS 3002 module to send characters (AT commands) to the CPE. AT Command Format The general format of the command line is: <prefix> <command> <CR>
<prefix>
<command> See AT Command Manual
<CR>
0x0D AT
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The prefix AT obtains synchronization, identifies the character parameters, and indicates that a command may be in the following characters. AT commands are not case sensitive: use either capital letters or lower-case letters for the AT command. Note: Some AT Command parameter values ARE case sensitive and are documented in the HS 3002 AT Command Set. Novatel Wireless M2M AT Commands For a full description of the AT commands, refer to the HS 3002 AT Command Set. Note: A command description that includes an *asterisk denotes that the UMTS/GSM service provider must enable supplementary services functionality before the command is available. Novatel Wireless M2M Packet API API Architecture For description and overview of the Novatel Wireless M2M UDP and TCP-based API architecture please refer to the GSM0308UG001 - Novatel Wireless M2M GSM-GPRS Family -
API Reference.
- 50 -
7 USB Driver Installation USB Driver Installation (Windows XP) USB Driver Installation (Windows 7)
- 51 -
USB Driver Installation (Windows XP) These instructions illustrate how to correctly install the USB drivers in Windows XP using the Novatel Wireless M2M Driver Setup Utility. 1. Run the Novatel Wireless M2M Driver Setup Utility by double-clicking the Novatel Wireless M2MDriverSetup executable file. The Novatel Wireless M2M Driver Setup Utility Extraction window opens. Figure 7-1 Novatel Wireless M2M Driver Setup Utility Extraction Once the contents have been extracted to memory, the Welcome Window opens.
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2. To install the drivers, select Install. Figure 7-2 Novatel Wireless M2M Driver Setup Utility Welcome The Novatel Wireless M2M Driver Setup Utility Window opens.
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Figure 7-3 Novatel Wireless M2M Driver Setup Utility Prepare System Window 3. Select Next to continue. The Novatel Wireless M2M Driver Setup Utility Installation Window opens while the system installs the drivers. 4. Disconnect any Novatel Wireless M2M devices. Previous drivers will be removed during this phase. During the installation, your computer's display may freeze and appear non-
responsive. If this occurs, allow the computer to continue working. After 2-3 minutes, the display and installer will resume normal behavior.
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Figure 7-4 Novatel Wireless M2M Driver Setup Utility Installation Window Figure 7-5 Novatel Wireless M2M Driver Setup Utility Driver Installation 5. When prompted to install the device driver, select Next.
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Figure 7-6 Novatel Wireless M2M Driver Setup Utility Driver Installation Progress You may see the following warning message:
Figure 7-7 Windows Security Window
- 56 -
6. Click Continue Anyway. When installation of the USB drivers is complete, the Completion window opens. Figure 7-8 Novatel Wireless M2M Driver Setup Utility Driver Install Completion Window 7. Click Finish. When the installation is complete, the list of attached devices will appear within the Attached Devices Window.
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Figure 7-9 Novatel Wireless M2M Driver Setup Utility Attached Devices Window USB Driver Installation (Windows 7) These instructions illustrate how to correctly install the USB drivers in Windows 7 using the Novatel Wireless M2M Driver Setup Utility. 1. Run the Novatel Wireless M2M Driver Setup Utility by double-clicking the Novatel Wireless M2MDriverSetup executable file. The Novatel Wireless M2M Driver Setup Utility Welcome window opens.
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Figure 7-10 Novatel Wireless M2M Driver Setup Utility Welcome Window Once the contents have been extracted to memory, the Driver Setup Window opens.
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Figure 7-11 Novatel Wireless M2M Driver Setup Utility Preparation Window 2. To install the drivers, click Install. The Novatel Wireless M2M Driver Setup Utility Prepare System Window opens.
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Figure 7-12 Novatel Wireless M2M Driver Setup Utility Installation Window 3. Select Next to continue. The Novatel Wireless M2M Driver Setup Utility Installation Window opens while the system installs the drivers. 4. Disconnect any Novatel Wireless M2M devices. Previous drivers will be removed during this phase. During the installation, your computer's display may freeze and appear non-
responsive. If this occurs, allow the computer to continue working. After 2-3 minutes, the display and installer will resume normal behavior.
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Figure 7-13 Novatel Wireless M2M Driver Setup Utility Driver Installation 5. When prompted to install the device driver, select Next. Figure 7-14 Windows Security Window 6. Select Install this driver software anyway.
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During the driver install phase, you may be prompted to continue or stop installation due to potential compatibility issues. Figure 7-15 Novatel Wireless M2M Driver Setup Utility Driver Install Completion Window When installation of the USB drivers is complete, the Completion window opens. If there are no errors, click Finish. If the status displays an issue, click Correct issues!
7. 8. 9. At the "OK to apply fix" prompt, click Yes.
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Figure 7-16 Novatel Wireless M2M Driver Setup Utility Attached Devices Window Figure 7-17 Novatel Wireless M2M Driver Setup Utility Apply Fix Window When the installation is complete, the list of Attached Devices appears within the Novatel Wireless M2M Driver Setup Utility Attached Devices window.
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Figure 7-18 Novatel Wireless M2M Driver Setup Utility Attached Devices Window
- 65 -
8 Modem Setup General Setup Hyperterminal Configuration for the Module Initialization (AT Command Interface) Sending an Initialization String to the Module Setup the Communication Mode for the Module Integrating The Module
- 66 -
General Setup The modem is controlled through the Modem RS232 port on the HDK board. Connect a 9-pin straight through serial cable from the Modem RS232 connector to the serial port on the controlling computer. Connect the power supply, connect antenna, and install USIM/SIM into modem. Hyperterminal Configuration For The Module The following provides an example for setting up a Windows HyperTerminal session that can be used to experiment with various configurations on the module for controlling computer:
1. Select the connection interface, Direct to Com 1 (or whatever port is the serial port). 2. Configure the COM port as displayed in Figure 21. Figure 8-1 Hyper Terminal Definition
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Figure 8-2 COM Port Settings Initialization (AT Command Interface) In the GSM and UMTS vocabulary, a call from GSM/UMTS mobile to the PSTN is called a
"mobile-originated call" or "outgoing call". A call from the fixed network to a GSM/UMTS mobile is called a "mobile-terminated call" or "incoming call."
In the following examples, Entry refers to the application. The following convention describes the direction of the data exchange:
l The data exchange from the customer application to the module is designated as: Entry l The data exchange from the module to the customer application is designated as:
Response Note: With the exception of the +++ command (Online Escape Sequence), all commands must be preceded by the AT attention code (or command prefix) and terminated by pressing the <CR> character. In the following examples, the <CR> and <CR><LF> are intentionally omitted for clarity and space.
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Initial Response To The AT Command After power is applied to the module, the module performs a power-up self-test. The self-test completes within one (1) second. When queried with the AT command, the module responds with one of the following result codes:
l OK signifies that the module is ready, that it correctly interprets the AT command, and that it has executed the command. l ERROR signifies that the module does not understand the command or that the command is invalid. AT Command Description Action Entry AT Response OK Command valid: module is ready The module must be in AT Command mode when any command is entered (with the exception of the online escape sequence). Commands entered when the module is in On-line mode are treated as data, and are transmitted as such to the receiving module. (i.e. If the module is in PPP or SLIP mode, AT commands cannot be entered.) Sending An Initialization String To The Module The following example provides the sample AT commands and responses for the following initialization tasks:
l Reset the module to the factory defaults l Disable character echo l Transmit Result Codes l Set the module to Verbose mode (to display result codes as words) l Set the DCD to match the state of remote modem l Ignore the DTR Entry Response OK Entry Response OK AT&FE0Q0V1&C1&d0 Initialization string Command is valid Auto answer on 1st ring Command is valid ATSO=1
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Setup The Communication Mode For The Module AT+CFUN=1 The following example sequence provides the AT command and response for setting the Enabler IIIG-BGA module for full phone functionality, automated operator selection, 9600 baud, non-transparent mode. Entry Response OK Entry Response OK Entry Response OK FULL phone functionality Command is valid Automatic operator selection Command is valid AT+CBST=7,0,1 9600 baud, non-transparent mode Command is valid AT+COPS=0 The module has been designed to minimize the amount of time required for integration and testing the application. By being fully certified by the appropriate bodies, the module provides seamless integration into the network. The integration issues for the application can be narrowed to the utilization of the AT commands and the use of the network functionality. Coverage and signal quality may be evaluated by using the RSSI commands. Additional network information can be determined by using AT commands. Integration of the Packet capabilities is more complicated than using AT command sequences to initiate the connection and begin transferring data. Integrating The Module Generally, all interfaces that are externally available to the end user need to be ESD-
conditioned and terminated in some way. Many of these interfaces should not be connected with power applied. At the highest level, this is done using some type of GSM/UMTS test equipment (such as Agilent 8960), a computer, and a serial interface tester. The GSM/UMTS test equipment must be able to simulate a GSM and UMTS call and measure the key parameters related to the module. Additionally, the serial interfaces and some minimal SIM functionality can be verified by sending AT commands to the HS3002 module. All of these conditions need to be verified at ambient as well as extreme conditions.
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As part of integration, each of the following interfaces must be verified: Information Information SIM Primary serial Interface Recommendations The maximum line length of the SIM interface is 25.4 cm (10 inches). The HS3002 module takes care of the signal conditioning As a minimum, an external application with a remote SIM will require a standard SIM carrier. Filter the SIM VCC signal with a 10 uF/10 V capacitor to help with the line length. The HS3002 module uses a 1.8V digital interface. The RS-232 signals must be level-shifted to get standard levels. These sig-
nals must be ESD-protected. Reset Interface Resets the HS3002 module when tied low. Audio/Microphone Interface Preliminary balancing on HS3002 module. Maximum length TBD Testing the following parameters below verifies the RF parameters that may be affected by such things as;
l RF path loss, l Power supply noise and l External interference. GSM Functionality Parameters to be Tested Frequency Error Transmitter Phase Error PA Ramp Modulation Spectrum RF Power Steps Timing Advance Receiver BER Based RX Tests (RXQUAL ,RXLEV) BER Based Sensitivity UMTS Functionality Parameters to be Tested Transmitter Receiver TBA TBA The above table also verifies GSM and UMTS functionality towards proper network communication. In addition, the table below provides functional tests that can be performed for design validation with the live network or GSM/UMTS test equipment. GSM/UMTS Functionality Network Function Parameters to be Tested Synchronization and registration
- 71 -
Call set-up and call termination (both MT and MO calls) SMS and/or Data calls
- 72 -
frequency | equipment class | purpose | ||
---|---|---|---|---|
1 | 2013-07-18 | JBP - Part 15 Class B Computing Device Peripheral | Original Equipment | |
2 | 2013-07-17 | 1852.4 ~ 1907.6 | PCB - PCS Licensed Transmitter |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 2 | Effective |
2013-07-18
|
||||
1 2 |
2013-07-17
|
|||||
1 2 | Applicant's complete, legal business name |
Inseego Corp.
|
||||
1 2 | FCC Registration Number (FRN) |
0003757176
|
||||
1 2 | Physical Address |
9605 Scranton Road
|
||||
1 2 |
San Diego, California 92121
|
|||||
1 2 |
United States
|
|||||
app s | TCB Information | |||||
1 2 | TCB Application Email Address |
V******@babt.com
|
||||
1 2 | TCB Scope |
A1: Low Power Transmitters below 1 GHz (except Spread Spectrum), Unintentional Radiators, EAS (Part 11) & Consumer ISM devices
|
||||
1 2 |
B1: Commercial mobile radio services equipment in the following 47 CFR Parts 20, 22 (cellular), 24,25 (below 3 GHz) & 27
|
|||||
app s | FCC ID | |||||
1 2 | Grantee Code |
PKR
|
||||
1 2 | Equipment Product Code |
NVWCNN0403
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 2 | Name |
R******** O********
|
||||
1 2 | Title |
Regulatory Engineering
|
||||
1 2 | Telephone Number |
858-8******** Extension:
|
||||
1 2 | Fax Number |
858-8********
|
||||
1 2 |
r******@inseego.com
|
|||||
app s | Technical Contact | |||||
n/a | ||||||
app s | Non Technical Contact | |||||
n/a | ||||||
app s | Confidentiality (long or short term) | |||||
1 2 | Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 2 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 2 | If so, specify the short-term confidentiality release date (MM/DD/YYYY format) | 01/14/2014 | ||||
if no date is supplied, the release date will be set to 45 calendar days past the date of grant. | ||||||
app s | Cognitive Radio & Software Defined Radio, Class, etc | |||||
1 2 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 2 | Equipment Class | JBP - Part 15 Class B Computing Device Peripheral | ||||
1 2 | PCB - PCS Licensed Transmitter | |||||
1 2 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | 2G/3G Wireless module | ||||
1 2 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
1 2 | Modular Equipment Type | Single Modular Approval | ||||
1 2 | Purpose / Application is for | Original Equipment | ||||
1 2 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | Yes | ||||
1 2 | Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization? | No | ||||
1 2 | Grant Comments | Single Modular Approval. Power listed is conducted. The maximum antenna gain including cable loss for compliance with radiated power limits, RF exposure requirements and the categorical exclusion requirements of 2.1091 is 6.93 dBi for 850MHz bands, 2.01 dBi and for 1900 MHz bands. The antenna(s)used for this transmitter must be installed to provide a separation distance of at least 20cm from all persons and must not be co-located or operated in conjunction with any antenna or transmitter not described under this FCC id, except in accordance with FCC multi-transmitter product procedures.This module can only be used with a host antenna circuit trace layout design in strict compliance with the OEM instructions provided. Compliance of this device in all final product configurations is the responsibility of the Grantee. Installation of this device into specific final products may require the submission of a Class II permissive change application containing data pertinent to RF Exposure, spurious emissions, ERP/EIRP, and host/module authentication, or new application if appropriate. | ||||
1 2 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 2 | If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded? | No | ||||
app s | Test Firm Name and Contact Information | |||||
1 2 | Firm Name |
A Test Lab Techno Corp.
|
||||
1 2 | Name |
J****** L****
|
||||
1 2 | Telephone Number |
886-3********
|
||||
1 2 | Fax Number |
886-3********
|
||||
1 2 |
J******@atl-lab.com.tw
|
|||||
Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 15B | |||||||||||||||||||||||||||||||||||||||
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
2 | 1 | 22H | 824.2 | 848.8 | 1.535 | 1 ppm | 243KGXW | ||||||||||||||||||||||||||||||||||
2 | 2 | 22H | 824.2 | 848.8 | 0.505 | 1 ppm | 248KG7W | ||||||||||||||||||||||||||||||||||
2 | 3 | 22H | 826.4 | 846.6 | 0.22 | 1 ppm | 4M20F9W | ||||||||||||||||||||||||||||||||||
2 | 4 | 24E | 1850.2 | 1909.8 | 0.824 | 1 ppm | 245KGXW | ||||||||||||||||||||||||||||||||||
2 | 5 | 24E | 1850.2 | 1909.8 | 0.466 | 1 ppm | 250KGXW | ||||||||||||||||||||||||||||||||||
2 | 6 | 24E | 1852.4 | 1907.6 | 0.203 | 1 ppm | 4M17F9W |
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC