Iridium Satellite 9603N Short Burst Data Transceiver User Manual Developers guide
Iridium Satellite LLC Short Burst Data Transceiver Developers guide
Contents
Developers guide
Iridium 9603/9603N S B D T r a n s c e i v e r Devel oper’s Gui de REVISION 3.1 Iridium 9603 SBD Transceiver Product Developers Guide Revision 3.1 LEGAL DISCLAIMER AND CONDITIONS OF USE This document contains information for the Iridium 9603/9603N (“Product”) and is provided “as is.” The purpose of providing such information is to enable Value Added Resellers and Value Added Manufacturers (collectively, “Product Developer(s)”) to understand the Product and how to integrate it into a wireless solution. Reasonable effort has been made to make the information in this document reliable and consistent with specifications, test measurements and other information. However, Iridium Communications Inc. and its affiliated companies, directors, officers, employees, agents, trustees or consultants (“Iridium”) assume no responsibility for any typographical, technical, content or other inaccuracies in this document. Iridium reserves the right in its sole discretion and without notice to you to change Product specifications and materials and/or revise this document or withdraw it at any time. This document is provided in conjunction with the purchase of the Product and is therefore subject to the Product Sales Terms and Conditions set forth at http://www.Iridium.com/support/library/Legal Notices.aspx. The Product Developer assumes any and all risk of using the Product specifications and any other information provided. Your use of this document is governed by your Partner Agreement with Iridium. Please review your Partner Agreement and the Iridium Product Sales Terms and Conditions that govern your relationship with Iridium. This document is strictly Proprietary and Confidential to Iridium. Consistent with your Partner Agreement with Iridium, you may not this document (or any portion thereof) to others without express written permission from Iridium. Any violation of your Agreement's Proprietary and Confidentiality obligations shall result in remedies to the fullest extent available to Iridium at law or in equity. IRIDIUM MAKES NO REPRESENTATIONS, GUARANTEES, CONDITIONS OR WARRANTIES, EITHER EXPRESS OR IMPLIED, INCLUDING WITHOUT LIMITATION, ANY IMPLIED REPRESENTATIONS, GUARANTEES, CONDITIONS OR WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, NON-INFRINGEMENT, SATISFACTORY QUALITY, NON-INTERFERENCE, ACCURACY OF INFORMATIONAL CONTENT, OR ARISING FROM A COURSE OF DEALING, LAW, USAGE, OR TRADE PRACTICE, USE, OR RELATED TO THE PERFORMANCE OR NONPERFORMANCE OF ANY PRODUCTS AND/OR SERVICES ACCESSORIES, FACILITIES OR SATELLITE SERVICES OR INFORMATION EXCEPT AS EXPRESSLY STATED IN THIS DOCUMENT AND/OR THE PRODUCT AND/OR SATELLITE SERVICE DOCUMENTATION. ANY OTHER STANDARDS OF PERFORMANCE, GUARANTEES, CONDITIONS AND WARRANTIES ARE HEREBY EXPRESSLY EXCLUDED AND DISCLAIMED TO THE FULLEST EXTENT PERMITTED BY LAW. THIS DISCLAIMER AND EXCLUSION SHALL APPLY EVEN IF THE EXPRESS LIMITED WARRANTY CONTAINED IN SUCH DOCUMENTATION FAILS OF ITS ESSENTIAL PURPOSE. IN NO EVENT SHALL IRIDIUM BE LIABLE, REGARDLESS OF LEGAL THEORY, INCLUDING WITHOUT LIMITATION CONTRACT, EXPRESS OR IMPLIED WARRANTY, STRICT LIABILITY, GROSS NEGLIGENCE OR NEGLIGENCE, FOR ANY DAMAGES IN EXCESS OF THE PURCHASE PRICE OF THIS DOCUMENT, IF ANY. NOR SHALL IRIDIUM BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL OR CONSEQUENTIAL DAMAGES OF ANY KIND, OR LOSS OF REVENUE OR PROFITS, LOSS OF BUSINESS, LOSS OF PRIVACY, LOSS OF USE, LOSS OF TIME OR INCONVENIENCE, LOSS OF INFORMATION OR DATA, Proprietary & Confidential Information Distribution of guide restricted to product developers only • Information contained in this guide is subject to change without notice. Iridium 9603 SBD Transceiver Product Developers Guide Revision 3.1 SOFTWARE OR APPLICATIONS OR OTHER FINANCIAL LOSS CAUSED BY THE PRODUCT/SERVICE (INCLUDING HARDWARE, SOFTWARE AND/OR FIRMWARE) AND/OR THE IRIDIUM SATELLITE SERVICES, OR ARISING OUT OF OR IN CONNECTION WITH THE ABILITY OR INABILITY TO USE THE PRODUCT/SERVICE (INCLUDING HARDWARE, SOFTWARE AND/OR FIRMWARE) AND/OR THE IRIDIUM SATELLITE SERVICES TO THE FULLEST EXTENT THESE DAMAGES MAY BE DISCLAIMED BY LAW AND WHETHER ADVISED OF THE POSSIBILITIES OF SUCH DAMAGES. IRIDIUM IS NOT LIABLE FOR ANY CLAIM MADE BY A THIRD PARTY OR MADE BY YOU FOR A THIRD PARTY. Your use of the information contained in this Guide is restricted to the development activity authorized under the agreement(s) between you and Iridium, and is otherwise subject to all applicable terms and conditions of such agreement(s), including without limitation software license, warranty, conditions of use and confidentiality provisions. Export Compliance Information This Product is controlled by the export laws and regulations of the United States of America. The U.S. Government may restrict the export or re-export of this Product to certain individuals and/or destinations. Diversion contrary to U.S. law is prohibited. For further information, contact the U.S. Department of Commerce, Bureau of Industry and Security or visit www.bis.doc.gov. Proprietary & Confidential Information Distribution of guide restricted to product developers only • Information contained in this guide is subject to change without notice. Iridium 9603 SBD Transceiver Product Developers Guide Revision 3.1 Revision History Revision Date .9 1.0 2.0 3.0 3.1 05-09-12 06-04-12 08-06-12 08-22-14 08-26-14 Comment Iridium 9603 Initial Release Iridium Commercial Release Added Section 4.2.2 addressing antennae design guidance. Updated to include 9603N Updated FCC and IC regulatory statements based on guidance from BABT Proprietary & Confidential Information Distribution of guide restricted to product developers only • Information contained in this guide is subject to change without notice. Iridium 9603 SBD Transceiver Product Developers Guide Revision 3.1 Revision History ....................................................................................................................... 4 List of Abbreviations ................................................................................................................ 6 1 Product Overview ................................................................................................................. 7 1.1 1.2 1.3 1.4 1.5 1.6 1.7 1.8 1.9 1.10 Key Features ............................................................................................................................................................. 7 Transceiver Regulatory Certification.......................................................................................................................... 8 Software Revision...................................................................................................................................................... 9 Unauthorised Changes .............................................................................................................................................. 9 Radio Interference ..................................................................................................................................................... 9 RF Exposure ............................................................................................................................................................. 9 FCC Class B Digital Device Notice .......................................................................................................................... 10 Labelling Requirements for the Host device ............................................................................................................ 10 CAN ICES-3 (B) / NMB-3 (B) ................................................................................................................................... 10 R&TTE Statement ................................................................................................................................................... 11 2 Physical Specification ........................................................................................................ 12 2.1 2.2 2.3 2.3.1 2.3.2 2.4 Module Dimensions ................................................................................................................................................. 12 Mechanical Dimensions – Motherboard Mounting ................................................................................................... 14 Environmental ......................................................................................................................................................... 17 Environmental Specification .................................................................................................................................... 17 Environmental Tests Performed .............................................................................................................................. 17 Physical Interface Connectors ................................................................................................................................. 17 3 Electrical Interfaces ............................................................................................................ 18 3.1 3.1.1 3.1.2 3.2 3.2.1 3.2.2 3.3 3.4 3.5 User Connector ....................................................................................................................................................... 18 User Connector Type .............................................................................................................................................. 18 User Connector Pin Allocation ................................................................................................................................. 19 DC Power Interface ................................................................................................................................................. 20 Power On/Off Control .............................................................................................................................................. 22 Typical Power Usage Profile ................................................................................................................................... 22 Serial Data Interface ................................................................................................................................................ 23 Network Available Output ........................................................................................................................................ 23 DC Supply Indicator Output ..................................................................................................................................... 23 4 RF Interface ......................................................................................................................... 24 4.1 4.2 4.2.1 4.2.2 4.3 4.4 4.5 RF Connector .......................................................................................................................................................... 24 Antenna Implementation.......................................................................................................................................... 24 Antenna Characteristics .......................................................................................................................................... 24 Important Design Guidance for the 9603 ................................................................................................................. 24 RF Interface Specifications ...................................................................................................................................... 25 Radio C h a r a c t e r i s t i c s ........................................................................................................................................ 25 S-meter Performance .............................................................................................................................................. 25 5 AT Command Set Description............................................................................................ 25 Proprietary & Confidential Information Distribution of guide restricted to product developers only • Information contained in this guide is subject to change without notice. Iridium 9603 SBD Transceiver Product Developers Guide Revision 3.1 List of Abbreviations Abbreviation Description CE Conformité Européene CTS (V.24 signal) Clear To Send. This signal is used to control the flow of data to the Iridium 9603/9603N DC Direct Current DCD (V.24 signal) Data Carrier Detect DCE ESS Data Communications Equipment. In this Product, DCE refers to the Iridium 9603/9603N (V.24 signal) Data Set Ready. This signal, from the Iridium 9603/9603N, indicates readiness to accept communication over the data port Data Terminal Equipment. In this Product, DTE refers to the FA (V.24 signal) Data Terminal Ready. This signal, from the FA, requests the Iridium 9603/9603N to accept communication over the data port ETC SBD Subsystem (synonymous with GSS) ETC Earth Terminal Controller FA Field Application; the application controlling the Iridium 9603/9603N FCC Federal Communications Commission GND Ground GSS Gateway SBD Subsystem (synonymous with ESS) IC Industry Canada IMEI International Mobile Equipment Identity LBT L-Band Transceiver MO Mobile Originated MOMSN Mobile Originated Message Sequence Number MT Mobile Terminated MTMSN Mobile Terminated Message Sequence Number RHCP Right Hand Circular Polarization RI (V.24 signal) Ring Indicate. This signal, from the Iridium 9603/9603N, indicates that an MT message is present at the GSS RTS (V.24 signal) Request To Send. This signal is used to control the flow of data from the Iridium 9603/9603N. SBD Short Burst Data SMS Short Message Service TBA To Be Advised UART Universal Asynchronous Receiver Transmitter VAM Value Added Manufacturer VAR Value Added Reseller VSWR Voltage Standing Wave Ratio DSR DTE DTR Proprietary & Confidential Information Distribution of guide restricted to product developers only • Information contained in this guide is subject to change without notice. Iridium 9603 SBD Transceiver Product Developers Guide Revision 3.1 1 Product Overview The Iridium 9603/9603N Short Burst Data Only Transceiver (9603/9603N) is designed to be integrated into a wireless data application with other host system hardware and software to produce a full solution designed for a specific application or vertical market. Examples of these solutions include tracking a maritime vessel or automatic vehicle location. The 9603/9603N only supports Iridium’s Short Burst Data (SBD) capability. It does not support voice, circuit switched data, or short message service (SMS). The 9603/9603N is designed to meet the regulatory requirements for approval for FCC, Canada, and CE assuming an antenna with a gain of ~3 dBi and adequate shielding. This allows the 9603/9603N to be integrated into a variety of wireless data applications or retrofitted into existing SBD-only applications that utilize SBD with the current Iridium 9602, 9601, 9522A, 9522B or 9522 L-Band transceiver-based products. (Note that additional development work will be required). Such finished products, when integrated together, require regulatory and safety testing to be conducted by the integrator. The 9603/9603N is a single board transceiver provided as a ‘black box’ transceiver module with all device interfaces provided by a single multi-pin interface connector in addition to the antenna connector. The Product only provides the core transceiver. All other end user Field Application functions such as GPS, microprocessor based logic control, digital and analog inputs, digital and analog outputs, power supply and antenna must be provided by the solution developer. The device interface across the user connector consists of a serial-data interface, DC power input, network available output and a power on/off control line. The 9603/9603N does not incorporate nor require a Subscriber Identity Module (also known as a SIM Card) to be inserted into the Transceiver. The 9603/9603N is intended to be used as a transceiver module fitted within another host system. The 9603/9603N module is designed to comply with the standards for Radio Emissions Compliance, Electromagnetic Compatibility, and AC Safety in the United States, European Union and Canada, for host systems that provide safe connections to power supply and external antenna or cable distribution system. The 9603N is a second generation version of the 9603 and is identical in form and function to the 9603. This document applies to both the 9603 and 9603N as indicated by the term ‘9603/9603N’. Where the contents of this document apply specifically to either the 9603 or 9603N then this is indicated by the use of the terms ‘9603’ and ‘9603N’ respectively. The Iridium 9603/9603N is described within this document as “Iridium 9603/9603N”, “9603/9603N SBD Transceiver”, “Modem,” and “ISU.” All of these terms refer to the same product. 1.1 Key Features Single board transceiver Small form factor No SIM card Designed to be incorporated into an OEM solution Maximum mobile originated message size 340 bytes Maximum mobile terminated message size 270 bytes Automatic Notification to the Transceiver that a mobile terminated message is queued at the Gateway Global operating capability RoHS compliant Proprietary & Confidential Information Distribution of guide restricted to product developers only • Information contained in this guide is subject to change without notice. Iridium 9603 SBD Transceiver Product Developers Guide Revision 3.1 1.2 Transceiver Regulatory Certification The 9603/9603NSBD Transceiver is a regulatory approved daughter module transceiver that can be fitted within an enclosed host system. With appropriate external connections, the host system can be designed to meet full transceiver regulatory tests and sold as a Regulatory Certified product that meets CE, FCC and IC requirements. The 9603 has regulatory and technical certifications as shown in Table 1. The 9603N has regulatory and technical certifications as shown in Table 1a. Table 1: 9603 Regulatory and Technical Certifications. Regulatory Approvals Radio Tests EMC Tests CE ETSI EN 301 441 V1.1.1 (2000-05) ETSI EN 301 489-20 V1.2.1 (2002-11) ETSI EN 301 489-1 V1.8.1 (2008-04) EN61000-4-2 : 1995/A2 : 2001 Part 4.2 EN61000-4-3 : 2002 Part 4.3 EN61000-4-4 : 2004 EN61000-4-6 : 1996/A1 : 2001 Part 4.6 EN55022:2006 FCC FCC CFR47 parts 2, 15, and 25 Industry Canada Industry Canada RSS170 Issue 2, March, 2011 Electrical / Mechanical / Operational Safety Tests EN60950-1:2006 Part 1 Table 1a: 9603N Regulatory and Technical Certifications. Regulatory Approvals Radio Tests EMC Tests CE ETSI EN 301 441 V1.1.1 (2000-05) ETSI EN 301 489-20 V1.2.1 (2002-11) ETSI EN 301 489-1 V1.9.2 (2011) EN61000-4-2 : 2009 EN61000-4-3 : 2006 + A1: 2008 + A2: 2010 EN61000-4-4 : 2004 + A1: 2010 EN61000-4-6 : 2009 EN55022:2006 + A1: 2007 FCC FCC CFR47 parts 2 (2013), 15B (2013), and 25 (2013) Industry Canada Industry Canada RSS170 Issue 2, March, 2011 Industry Canada RSS-GEN Issue 3, December, 2010 Electrical / Mechanical / Operational Safety Tests EN60950-1:2006 + A11: 2009 + A1: 2010 + A12: 2011 Note: The OEM integrator is responsible for ensuring that their end-product complies with additional compliance requirements required with this module installed, such as digital device/unintentional emissions requirements and any additional potential RF Exposure requirements, such as portable use or co-location requirements. Proprietary & Confidential Information Distribution of guide restricted to product developers only • Information contained in this guide is subject to change without notice. Iridium 9603 SBD Transceiver Product Developers Guide Revision 3.1 1.3 Software Revision Product Developers should read this document in conjunction with the “Software Release Notes” relevant to the revision of the software that is loaded into their Iridium 9603/9603N SBD Transceiver. Product Developers should take into account in their software design that it is possible that a transceiver may have an earlier software release and may therefore have different capabilities to those listed in this document. Product Developers are advised to ensure that production procedures for finished goods confirm that the software used in the Product Developer application is designed for the Software Release loaded in the Iridium 9603/9603N SBD Transceiver. This can be read out of the module using the AT command interface. A software upgrade utility is provided with each SW release. The utility runs on a Windows compatible OS and will automatically upgrade the modem with the latest version. 1.4 Unauthorised Changes Iridium has not approved any changes or modifications to this device by the user. Any changes or modifications could void the user’s authority to operate the equipment. Iridium n’approuve aucune modification apportée à l’appareil par l’utilisateur, quelle qu’en soit la nature. Tout changement ou modification peuvent annuler le droit d’utilisation de l’appareil par l’utilisateur. 1.5 Radio Interference This device complies with Part 15 of the FCC Rules and 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. 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 (EIRP) is not more than that necessary for successful communication. Le présent appareil est conforme aux CNR d'Industrie Canada applicables aux appareils radio exempts de licence. L'exploitation est autorisée aux deux conditions suivantes : (1) l'appareil ne doit pas produire de brouillage, et (2) l'utilisateur de l'appareil doit accepter tout brouillage radioélectrique subi, même si le brouillage est susceptible d'en compromettre le fonctionnement. Conformément à la réglementation d'Industrie Canada, le présent émetteur radio peut fonctionner avec une antenne d'un type et d'un gain maximal (ou inférieur) approuvé pour l'émetteur par Industrie Canada. Dans le but de réduire les risques de brouillage radioélectrique à l'intention des autres utilisateurs, il faut choisir le type d'antenne et son gain de sorte que la puissance isotrope rayonnée équivalente (PIRE) ne dépasse pas l'intensité nécessaire à l'établissement d'une communication satisfaisante. 1.6 RF Exposure This equipment complies with FCC and IC radiation exposure limits set forth for an uncontrolled environment. The antenna should be installed and operated with minimum distance of 20 cm between the radiator and your body. Antenna gain must be below: 3.0 dBi. This transmitter must not be co-located or operating in conjunction with any other antenna or transmitter. Cet appareil est conforme aux limites d'exposition aux rayonnements de la IC pour un environnement non contrôlé. L'antenne doit être installé de façon à garder une distance minimale de 20 centimètres entre la source de rayonnements et votre corps. Gain de l'antenne doit être ci-dessous: 3.0 dBi. L'émetteur ne doit pas être colocalisé ni fonctionner conjointement avec à autre antenne ou autre émetteur. Proprietary & Confidential Information Distribution of guide restricted to product developers only • Information contained in this guide is subject to change without notice. Iridium 9603 SBD Transceiver Product Developers Guide Revision 3.1 1.7 FCC Class B Digital Device Notice 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: - Reorient or relocate the receiving antenna. - Increase the separation between the equipment and receiver. - Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. - Consult the dealer or an experienced radio/TV technician for help. 1.8 Labelling Requirements for the Host device The host device shall be properly labelled to identify the modules within the host device. The certification label of the module shall be clearly visible at all times when installed in the host device, otherwise the host device must be labelled to display the FCC ID and IC of the module, preceded by the words "Contains transmitter module", or the word "Contains", or similar wording expressing the same meaning, as follows: Contains FCC ID: Q639603N or Contains transmitter module FCC ID: Q639603N Contains IC: 4629A-9603N or Contains transmitter module IC: 4629A-9603N L'appareil hôte doit être étiqueté comme il faut pour permettre l'identification des modules qui s'y trouvent. L'étiquette de certification du module donné doit être posée sur l'appareil hôte à un endroit bien en vue en tout temps. En l'absence d'étiquette, l'appareil hôte doit porter une étiquette donnant le FCC ID et le IC du module, précédé des mots « Contient un module d'émission », du mot « Contient » ou d'une formulation similaire exprimant le même sens, comme suit: Contains FCC ID: Q639603N or Contains transmitter module FCC ID: Q639603N Contains IC: 4629A-9603N or Contains transmitter module IC: 4629A-9603N 1.9 CAN ICES-3 (B) / NMB-3 (B) This Class B digital apparatus complies with Canadian ICES-003. Cet appareil numérique de classe B est conforme à la norme canadienne ICES-003. Proprietary & Confidential Information Distribution of guide restricted to product developers only • Information contained in this guide is subject to change without notice. 10 Iridium 9603 SBD Transceiver Product Developers Guide Revision 3.1 1.10 R&TTE Statement Iridium Communications Inc. hereby declares that the 9603N is in compliance with the essential requirements and other relevant provisions of Directive1999/5/EC. A copy of the Declaration of Conformity is given below. Proprietary & Confidential Information Distribution of guide restricted to product developers only • Information contained in this guide is subject to change without notice. 11 Iridium 9603 SBD Transceiver Product Developers Guide Revision 3.1 2 Physical Specification For illustrative purposes a picture of the Iridium 9603 SBD Transceiver Module* is shown in Figure 1. Figure 1. Iridium 9603 SBD Transceiver Front and Back Views *Note: The appearance of the 9603N is identical to the 9603 with the exception of the part marking on the label. 2.1 Module Dimensions The overall dimensions of the Iridium 9603/9603N module and its weight are summarized in Table 2. These figures are approximate and are expected to change in the next revision. Table 2: Iridium 9603/9603N Mechanical Dimensions and Weight Parameter Length Width Depth Weight (approximate) Value 31.5 mm 29.6 mm 8.10 mm 11.4g These dimensions are subject to change for future revisions Additionally host system Product Developers should plan space for connection to the host system motherboard, including robust and electrically grounded connections to the antenna/cable distribution system. Proprietary & Confidential Information Distribution of guide restricted to product developers only • Information contained in this guide is subject to change without notice. 12 Iridium 9603 SBD Transceiver Product Developers Guide Revision 3.1 Figure 2. Dimensions of the 9603/9603N Transceiver Proprietary & Confidential Information Distribution of guide restricted to product developers only • Information contained in this guide is subject to change without notice. 13 Iridium 9603 SBD Transceiver Product Developers Guide Revision 3.1 2.2 Mechanical Dimensions – Motherboard Mounting The Iridium 9603/9603N SBD Transceiver must be fitted within an enclosed host system. With appropriate external connections, the host system motherboard and host system enclosure can be designed to meet full transceiver regulatory tests. The Iridium 9603/9603N SBD Transceiver is provided with two mounting holes on the opposite side from the system connector. The module should be assembled onto the motherboard of the host system, by pushing the module onto matching connectors on the motherboard and then securing the two mounting holes to the motherboard using screws. Figure 3. Motherboard mounting for the 9603/9603N Transceiver Proprietary & Confidential Information Distribution of guide restricted to product developers only • Information contained in this guide is subject to change without notice. 14 Iridium 9603 SBD Transceiver Product Developers Guide Revision 3.1 Figure 4. Connector and Mounting Detail for the Iridium 9603/9603N Transceiver Proprietary & Confidential Information Distribution of guide restricted to product developers only • Information contained in this guide is subject to change without notice. 15 Iridium 9603 SBD Transceiver Product Developers Guide Revision 3.1 Figure 5. Motherboard mounting suggestions for the 9603/9603N Transceiver 1. 2. 3. 4. 5. This example of a host system motherboard footprint is shown for illustrative purposes only. The host system may require a different PCB layout or mechanical arrangement. The 9603/9603N is designed to be incorporated within a host system. As such, the antenna or cable distribution system that feeds the host system should be terminated in a robust RF connector that is suitable for the end-application. Safety isolation requirements for external antennas or cable distribution systems should also be taken into consideration when designing the motherboard. A suitably safe design for the RF connections should be incorporated into the host system motherboard, ideally using a chassis-bonded ground connection to the antenna cable shield. The surface below the modem should be a conductive ground plane such that the modem bonds to the motherboard ground system thus reducing the possibility of radiated emissions. This also requires that the mounting screws be properly tightened to 10 cNm of torque. The modem is to be installed in a “service access only” area not accessible by untrained personnel. Warning- Although the modem dissipates very little power, its use in ambient temperatures in excess of 60 degrees C will make the caseworks considerably hot. Proprietary & Confidential Information Distribution of guide restricted to product developers only • Information contained in this guide is subject to change without notice. 16 Iridium 9603 SBD Transceiver Product Developers Guide Revision 3.1 2.3 2.3.1 Environmental Environmental Specification The environmental specifications of the final Iridium 9603/9603N Transceiver Module are summarized in Table 5 below. Table 5: Environmental Specifications Parameter Operating Temperature Range* Operating Humidity Range Storage Temperature Range Storage Humidity Range Value -30ºC to + 85ºC ≤ 75% RH -40ºC to + 85ºC ≤ 93% RH * Note: The operating temperature range of the 9603N extends down to -40ºC. 2.3.2 Environmental Tests Performed The 9603/9603N complies with the specifications listed in Table 6. Table 6: Environmental Tests Test Name Test Reference Test Description Thermal Shock EN60068-2-14:2009 Change of Temperature, -25°C to +70°C, 5 cycles of 1 hour each Humidity IEC60068-2-78:2002 Damp heat steady state 40 C 93% RH for 4 days Vibration IEC60068-2-64: 2008 0.96 m2/s3 from 5Hz to 20Hz 21Hz to 500Hz dropping 6dB per octave Vibration SAE J1455: 2012 Section 4.10 10-40Hz at 0.02g /Hz 40Hz to 500Hz dropping 6dB per octave Shock EN60068-2-27: 2009 10G peak shock over a period of 11ms, 3 shocks in 3 perpendicular orientations Shock SAE J1455: 2012 Section 4.11 Society of Automotive Engineers Drop 1m onto concrete in 3 perpendicular orientations (3 drops) 2.4 Physical Interface Connectors The Iridium 9603/9603N SBD Transceiver incorporates two connectors: A multiway user connector An RF antenna connector Proprietary & Confidential Information Distribution of guide restricted to product developers only • Information contained in this guide is subject to change without notice. 17 Iridium 9603 SBD Transceiver Product Developers Guide Revision 3.1 3 Electrical Interfaces The following subsections contain information for the electrical interfaces of the 9603/9603N SBD Transceiver for the non-RF connections. The RF interfaces are covered in section 4 4. 3.1 User Connector The user connector provides the following connections to the 9603/9603N module: DC power supply input Power on/off control Serial data interface Network available output Supply power indicator output 3.1.1 User Connector Type The connector on the 9603/9603N is a Samtec low-profile header connector, part number ST4-10-2.50-L-D-P-TR. Data sheets on these connectors can be found at: http://www.samtec.com A suitable motherboard female socket that matches this connector is the SAMTEC header part number SS4-10-3.00-L-D-K-TR. Proprietary & Confidential Information Distribution of guide restricted to product developers only • Information contained in this guide is subject to change without notice. 18 Iridium 9603 SBD Transceiver Product Developers Guide Revision 3.1 3.1.2 User Connector Pin Allocation The user connector is surface mount, 0.4mm centerline terminal strip. Individual pin assignments are shown in Table 7 and the limits for the digital signals are listed in Table 8. Multiple supply grounds are provided and all supply and supply grounds are required to be connected to the power supply in order to limit the current on any one pin. Multiple signal grounds are provided to reduce cross-talk. Table 7: User Connector Pin Allocation Pin No. EXT_PWR EXT_PWR EXT_GND EXT_GND Signal direction (WRT 9603/9603N) Input Input Input Input ON/OFF Input On/Off control input DF_S_TX DF_S_RX SIG_GND Input Output Input DF_ DCD Output 10 11 12 13 DF_ DSR DF_ CTS DF_RI DF_ RTS Output Output Output Input 14 DF_ DTR Input 15 16 17 18 SIG_GND Reserved Reserved SIG_GND Input Data port, serial data input Data port, serial data output Signal ground Data port, Data Carrier Detect Data port, Data Set Ready Data port, Clear-to-Send Data port, Ring Indicator Data port, Request-to-Send Data port, Data Terminal Ready Signal ground 19 NETWORK AVAILABLE Output 20 SUPPLY_OUT Output Signal Name Input Signal function Signal level Supply Supply Supply return Supply return +5 V +/- 0.2 V* +5 V +/- 0.2 V* 0V 0V Analog On: >=2.0V Off: <=0.5V 3.3V Digital 3.3V Digital 0V 3.3V Digital Signal ground Signals when the 9603/9603N can see an available satellite network Supply power indicator output 3.3V Digital 3.3V Digital 3.3V Digital 3.3V Digital 3.3V Digital 0V 0V 3.3V Digital Available = high Not available= low +3.3 V 5mA maximum * Note: This is the supply voltage range of the 9603; the 9603N has an extended supply voltage range of +5 V +/- 0.5 V Table 8: Limits for 3.3V Digital Signals Parameter Symbol Min Input High Voltage Input Low Voltage Output High Voltage Output Low Voltage Low Level Output Current High Level Output Current VIH VIL VOH VOL IOL IOH 2.0 -0.3 2.4 Typ Max Unit 5.5 0.8 mA mA 0.4 4.4 5.5 Proprietary & Confidential Information Distribution of guide restricted to product developers only • Information contained in this guide is subject to change without notice. 19 Iridium 9603 SBD Transceiver Product Developers Guide Revision 3.1 Figure 6 provides a reference for the pin designation. The pins are marked in the figure. Note that Pin 1 is marked on the connector. Pin 20 Pin 19 Pin 2 Pin 1 is marked on the connector Pin 1 Figure 6. 9603/9603N User Connector Pin Number Designation 3.2 DC Power Interface The DC power interface is comprised of the DC power inputs and a control signals as summarized in Table 7. The +5V Inputs and 0V supply returns are used to supply DC power to the 9603/9603N and ensure that enough current can be drawn across the connector without the 9603/9603N malfunctioning during transmit due to lack of current supply. Note that all power and ground pins should be connected externally. The DC power supply requirements for the 9603/9603N are summarized in Table 9 below. Note that these requirements apply to DC power measured at the 9603/9603N User connector input and not at the output of the power supply. Long power supply cables can cause a voltage drop sufficient to cause the voltage to be out of specification at the physical power supply input to the 9603/9603N. Proprietary & Confidential Information Distribution of guide restricted to product developers only • Information contained in this guide is subject to change without notice. 20 Iridium 9603 SBD Transceiver Product Developers Guide Revision 3.1 Table 9: DC Power Input Specifications Parameter Supply Input Voltage Range Supply Input Voltage Ripple 9603 Value 5.0V DC +/0.2V** < 40 mV pp 9603N Value 5.0V DC +/0.2V** < 40 mV pp Typical Power Consumption at +5.0 VDC 9603 Value 9603N Value 45mA 195mA 1.5 A 190mA 195mA 45mA 190 mA <= 1.0 W 34mA 156mA 1.3 A 145mA 156mA 39mA 158mA <= 0.8 W Idle Current (average*) Idle Current (peak) Transmit Current (peak) Transmit Current (average*) Receive Current (peak) Receive Current (average*) SBD message transfer - average current* SBD message transfer - average power* * Note: The average power consumption will vary depending on the view of the satellite constellation from the antenna. ** Note: Includes Tx Burst droop. This is the supply voltage range of the 9603; the 9603N has an extended supply voltage range of +5 V +/- 0.5 V The external power supply needs to guarantee the following: The supply voltage droop over for a 8.3ms burst of 1.5A current should not be more than 0.2 Volts . The power supply should limit the in-rush current to 4 Amps maximum The power source shall provide for over current protection in case of device malfunction. The supply noise should be less than the limits in the following profile: 100 mVpp from 0 to 50 kHz 5 mVpp at 1 MHz measured in 50 kHz bandwidth 10 mVpp at 1 MHz measured in 1MHz bandwidth 5 mVpp above 5 MHz measured in 1 MHz bandwidth. On the 9603N the supply droop should not be more than 0.5 volts. In rush limit refers to the impedance of the modem when it is unpowered is very low. When power is supplied from an unlimited supply the instantaneous current can exceed 4 Amps If the current exceeds this value damage can occur. This can be limited in several ways, included using a supply that cannot provide more than 4 Amps instantaneously; or providing some series inductance/resistance to the supply lead. Proprietary & Confidential Information Distribution of guide restricted to product developers only • Information contained in this guide is subject to change without notice. 21 Iridium 9603 SBD Transceiver Product Developers Guide Revision 3.1 3.2.1 Power On/Off Control An external on/off input is provided on a pin of the User connector. The 9603/9603N starts up when power is applied and the power on/off input is high. As long as the input voltage is applied, logic high on this line turns the transceiver on and a logic low turns it off. If this line is not required then it must be connected directly to the +5 V supply. Note that this on/off control is similar to the Iridium 9601 and 9602 products, but it is not the same as the 9522, 9522A or 9522B products. Prior to turning off the modem a “flush memory” (AT*F) command should be issued to ensure all memory write activity is completed. When a transceiver has been turned off, Product Developers should not reapply power on a unit until more than 2 seconds has elapsed after power has reached 0V. Additionally, if a unit does not respond to AT commands, power off the module, wait for 2 seconds and then power it back on. When a 9603/9603N is powered off the power on reset circuit requires 2 seconds for voltages to decay. If the 2 second wait time is not adhered to the reset circuit may not operate and the modem could be placed in a non-operational state. The state is not permanent and can be rectified by the above procedure. 3.2.2 Typical Power Usage Profile This section is designed to give the Product Developer some insight to the electrical power profile that the 9603/9603N uses. It does not describe every situation and permutation possible. It should be used as a starting point for the Product Developer to continue its own development design. The actual usage profile can vary for a number of reasons: 1) 2) 3) 4) View of the sky – if in poor visibility of the sky where a clear line of sight is not available between the transceiver and the satellite. The higher the antenna VSWR the higher the current consumed How often the 9603/9603N module is activated/deactivated by the Host Controller system Manufacturing variation from transceiver to transceiver. The host system designer should ensure their design covers for worst case power consumption scenarios. Proprietary & Confidential Information Distribution of guide restricted to product developers only • Information contained in this guide is subject to change without notice. 22 Iridium 9603 SBD Transceiver Product Developers Guide Revision 3.1 3.3 Serial Data Interface The data/fax serial interface is an RS-232 9-wire interface at 3.3V digital signal levels over which the 9603/9603N and FA transfer commands, responses, and SBD message data. With respect to this interface, the 9603/9603N behaves as a DCE (Data Communication Equipment), and the FA behaves as a DTE (Data Terminal Equipment). If RS-232 voltage levels are needed, the FA must include an LVTTL/RS-232 level-shifter. Autobaud is not supported. The baud rate can be set via the AT+IPR command. The default rate is 19200 bps. See the ISU AT Command Reference Specification for information on the data/fax interface. 3.4 Network Available Output This is a digital output that can be used by an application to know when the transceiver has visibility to the satellite network. This is useful in applications where the transceiver may move around terrain that reduces the amount of time that clear line of sight to the satellite constellation is available. The Product Developer can use this output to preserve battery life by reducing the number of attempted transmissions by including this logic output in the application decision logic. Network Available means only that the 9603/9603N can successfully receive the Ring Channel, or, put more simply, it can see an Iridium satellite. Network Available is not a guarantee that a message can be successfully sent. The Network Available state is evaluated every time the Ring Channel is received or missed. If the Ring Channel is visible, then that is typically every 4 seconds. If the Ring Channel is not currently visible, then the update period can be as long as 2 minutes, depending on how long the lack of satellite visibility existed. This is because the 9603/9603N attempts to conserve power by increasing the ring search interval while the satellites are not visible. Every time a ring search fails, the time to wait is increased and eventually limits at 120 seconds. If Network Available is currently off, the Field Application may still attempt an SBDI[X] session. This will force the 9603/9603N Transceiver to look for the Ring Channel immediately, and on finding it, to attempt to send the message. In this case Network Available will not come on immediately. The Network Available does not turn on while in a +SBDI session. It will however turn on 4 seconds later assuming that the Ring Channel is present. After the SBD session completes, the 9603/9603N performs a new Ring Channel search sequence, at the end of which Network Available gets turned on. That can take between 4 and 12 seconds. The wait time between search windows is reset to 4 seconds every time a search succeeds. Otherwise it continues to increase. So if the +SBDI attempt fails to find the ring channel, the search window does not reset to 4 seconds. Note that the behavior of +CIEV:1 is identical in to that of the Network Available output. 3.5 DC Supply Indicator Output A DC supply indicator signal is provided by the 9603/9603N which could be used directly for driving an LED to provide a visible indication that the Transceiver supply is on. Alternatively the output signal could be used in application logic to determine if the internal Transceiver power supply is on. Proprietary & Confidential Information Distribution of guide restricted to product developers only • Information contained in this guide is subject to change without notice. 23 Iridium 9603 SBD Transceiver Product Developers Guide Revision 3.1 4 RF Interface This section describes the physical characteristics of the RF connectors and specifications of the RF Interface. 4.1 RF Connector The 9603/9603N RF connector is a U.FL connector produced by Hirose. The part number is U.FL-R-SMT-1. This is a surface mount connector that is directly attached to the 9603/9603N module. The U.FL connector mates with a pigtail which can link to an antenna. Note: The 9603/9603N module has a different antenna connector than other Iridium transceivers. Note that for safety reasons, the RF connector on the 9603/9603N module should not be directly connected to an external antenna cable or cable distribution system. Paragraph 7.3 of EN60950-1:2006 safety standard requires that users are protected against high voltages that might appear on these cables. This can be achieved either by inserting a high-voltage isolating capacitor in series with the signal or by grounding the shield of the coaxial cable. The 9602 RF connector has limited voltage capacity; therefore, protection needs to be provided in the host application. Developers are encouraged to review the EN60950-1:2006 standard for additional details. 4.2 4.2.1 Antenna Implementation Antenna Characteristics The 9603/9603N should be connected to an Iridium-band antenna with the following antenna connector characteristics as described in Table 11. Table 11: Antenna Characteristics Parameter Impedance Gain (maximum) Polarization VSWR (in Iridium band) VSWR (out of band) 4.2.2 Value 50 Ohms nominal 3dBi RHCP 1.5:1 3:1 Important Design Guidance for the 9603 The 9603* requires a load, i.e. antenna plus cable, to present a VSWR of less than 3:1 over the frequency range of 1.2 GHz to 2.0 GHz at the 9603 RF connector. This is the out-of-band VSWR requirement. In the event a particular antenna design does not meet the out-of-band VSWR requirement, a combination of cable loss and passive attenuation, i.e. an attenuator, can be used to satisfy the out-of-band VSWR requirement provided the total attenuation, cable plus attenuator, between the 9603’s RF connector and antenna does not exceed 3 dB. A minimal amount of attenuation should be used to meet the out-of-band VSWR requirement for best performance as well as a lower VSWR in the Iridium band. *Note: The above design guidance applies only to the 9603 and not the 9603N Note: Existing certified antennas will require different RF connector types than those for the 9601, 9602, 9522, 9522A and 9522B Proprietary & Confidential Information Distribution of guide restricted to product developers only • Information contained in this guide is subject to change without notice. 24 Iridium 9603 SBD Transceiver Product Developers Guide Revision 3.1 4.3 RF Interface Specifications The RF interface requirements for the 9603/9603N are summarized in Table 12 below. Table 12: General RF Parameters Parameter Value Frequency Range 1616 MHz to 1626.5 MHz Duplexing Method TDD (Time Domain Duplex) Input/Output Impedance 50Ω Multiplexing Method TDMA/FDMA 4.4 Radio Characteristics Table 13 contains radio characteristics of the 9603/9603N SBD Transceiver. Table 13: Radio Characteristics Parameter Average Power during a transmit slot (max) Receiver sensitivity (Typical level at module connector) Max Cable loss permitted (Note 1) Link Margin – Downlink (Note 2) Link Margin – Uplink (Note 2) Value 1.5W -116dBm 2dB 13dB 7dB Note 1: Cable losses should be minimized. The total implementation loss for an antenna, connectors, cable, lightening arrestor and any other RF component between the transceiver and the antenna should not exceed 3dB. The total cable loss between the antenna and the modem includes losses in the motherboard. Implementation loss higher than this will affect the Iridium link performance and quality of service. Solutions with a loss higher than 3dB will not meet the requirements of Iridium Solution Certification. Note 2: Link Margins are given assuming a free-space propagation model. 4.5 S-meter Performance The numbers “reported over the AT command interface indicate the signal strength of the ring channel. Care should be taken when using the S-meter readings for comparisons between devices. Of particular note are the following: 1. 2. 3. 4. There is a 0.5 dB tolerance on calibrating the S-meter. Each bar represents a 2 dB increment Multiple ring channels can be present at the same time so units can lock to different signals. If the reading is near the decision threshold it would be easy to see a 1 bar difference 5 AT Command Set Description The 9603/9603N is configured and operated through the use of AT commands. See the “ISU AT Command Reference” for the full set of AT commands and responses. Note that versions 3.2 and earlier of the ISU AT Command Reference do not mention the 9603/9603N. Subsequent versions of the reference will do so. At the time of writing of this version of this document, all information contained in the ISU AT Command Reference for the 9602 applies equally to the 9603/9603N. For differences in AT command support between 9603/9603N software releases, see the relevant software release notes, which are made available to authorized Iridium VARs and VAMs on the Iridium Developer Extranet. It is the responsibility of Product Developers to check compatibility of applications software with the AT Commands on all 9603/9603Ns used for both development and commercial deployments. See also the “Iridium Short Burst Data Service Developers Guide” for information on how SBD operates on the Iridium system. Proprietary & Confidential Information Distribution of guide restricted to product developers only • Information contained in this guide is subject to change without notice. 25
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