Wi2Wi, Inc. Doc No. ALT-PDT-DOC Rev.1.61 Datasheet, GPS Module- W2SG0084i Dated: November 11, 2011 Product Datasheet ALT-PDT-DOC Revision 1.61 September 1, 2011 Copyright (c) 2011 Wi2Wi, Inc. 1 Wi2Wi, Inc. Doc No. ALT-PDT-DOC Rev.1.61 Datasheet, GPS Module- W2SG0084i Dated: November 11, 2011 1 2 3 Table of Contents General Description .............................................................................................................5 Features ................................................................................................................................5 2.1 Pin Definition .................................................................................................................. 6 2.2 Pin Configuration ............................................................................................................ 7 2.3 System Block Diagram .................................................................................................... 8 Specifications.......................................................................................................................8 3.1 Clock Frequency ............................................................................................................. 8 3.2 Interfaces ....................................................................................................................... 9 3.2.1 Host UART Interface ................................................................................................ 9 3.2.2 Wake Up Pin ........................................................................................................... 9 3.2.3 Time Mark ............................................................................................................... 9 3.3 4 5 6 7 WAAS with SBAS or Wide Area Differential GPS ..........................................................10 4.1 Differential GPS ............................................................................................................ 10 4.2 Wide Area DGPS or WAAS ........................................................................................... 11 4.3 How do we enable WAAS-SBAS on the W2SG0084i?..................................................... 13 NMEA Input Messages......................................................................................................14 One Socket Protocol (OSP) Messages (Formerly SiRF Binary I/O).................................15 6.1 OSP Output Messages .................................................................................................. 15 6.2 OSP Input Messages .................................................................................................... 16 Electrical/RF Characteristics: Operating ...........................................................................17 7.1 8 9 GPS Power On/Off........................................................................................................ 10 Performance ................................................................................................................. 18 7.1.1 Acquisition Time: ................................................................................................... 18 7.1.2 Position Accuracy (3-D NAV): ................................................................................. 18 7.2 Environmental Characteristics........................................................................................ 19 7.3 Antenna ....................................................................................................................... 19 Development Support ........................................................................................................19 Mechanical Information.....................................................................................................20 9.1 Mechanic al Specification: .............................................................................................. 20 9.2 Outline Drawing: ........................................................................................................... 20 9.3 Recommended Reflow Profile: ....................................................................................... 21 Copyright (c) 2011 Wi2Wi, Inc. 2 Wi2Wi, Inc. Doc No. ALT-PDT-DOC Rev.1.61 Datasheet, GPS Module- W2SG0084i Dated: November 11, 2011 10 Part Order Options .............................................................................................................22 11 Disclaimers ........................................................................................................................22 11.1 Data Sheet Status ......................................................................................................... 22 12 Certifications......................................................................................................................22 13 References..........................................................................................................................23 13.1 Specifications ............................................................................................................... 23 13.2 Trademarks, Patents and Licenses ................................................................................ 23 13.3 Other............................................................................................................................ 23 List of Figures: Figure 1: Pin Configuration (Bottom View) Figure 2: System Block Diagram Figure 3 Timing Diagram of initial application of power supply Figure 4 Traditional DGPS System Figure 5 SBAS Example System Figure 6: Package Outline Drawing Figure 7: Recommended Reflow Profile 7 8 9 10 13 20 21 List of Tables: Table 1: Pin Definition................................................................................................................ 6 Table 2: Absolute Maximum Ratings ......................................................................................... 8 Table 3: NMEA Input Messages............................................................................................... 14 Table 4: OSP Output Messages ................................................................................................ 15 Table 5: OSP Input Messages ................................................................................................... 16 Table 6: Operating Electrical Characteristics ........................................................................... 17 Table 7: Average Time to First Fix........................................................................................... 18 Table 8: Positional Accuracy .................................................................................................... 18 Table 9: Environmental Characteristics .................................................................................... 19 Table 10: Mechanical Characteristics ....................................................................................... 20 Copyright (c) 2011 Wi2Wi, Inc. 3 Wi2Wi, Inc. Doc No. ALT-PDT-DOC Rev.1.61 Datasheet, GPS Module- W2SG0084i Dated: November 11, 2011 Revision History Rev. 1.0 1.1 1.2 1.21 1.3 Revision Date June 12, 2010 June 23, 2010 June 29, 2010 Sept 30, 2010 Oct 10, 2010 Originator Will Lumpkins Will Lumpkins Will Lumpkins Will Lumpkins Will Lumpkins 1.4 1.45 1.6 Oct 20, 2010 Dec 2, 2010 Aug 29, 2011 Will Lumpkins Will Lumpkins WJL, SK, EK 1.61 Nov 11, 2011 WJL Changes Initial draft Added current source for 1.8V Output Added missing figures Added missing Block diagrams Added Wakeup, timing diagram, Receiver Sensitivity data Added SRESET Pin label & WAAS-SBAS Added SRESET description Added Ordering Options, Updated Pin List, SRESET, Time Mark Removed SRESET Copyright (c) 2011 Wi2Wi, Inc. 4 Wi2Wi, Inc. Doc No. ALT-PDT-DOC Rev.1.61 Datasheet, GPS Module- W2SG0084i Dated: November 11, 2011 1 General Description This specification provides a general guideline on the performance and the integration of the Wi2Wi, Inc. NAVSTAR L1C/A Band, 48 Channel GPS Receiver Module Solution. The solder-down module, W2SG0084i which is a drop in replacement for the W2SG0004, is targeted to assist companies to easily integrate GPS functionally into their products. This is accomplished by reducing their development times and cost by using a complete, small form factor, low power, ready to integrate GPS Receiver System Solution. The specification maximum and minimum limits presented herein are those guaranteed when the unit is integrated into the Wi2Wi, Inc. Development System. These limits are to serve as the representative performance characteristics of the when properly designed into a customer's product. Wi2Wi makes no warranty, implied or otherwise specified, with respect to the customer's design and the performance characteristics presented in this specification. 2 Features The W2SG0084i is a 48 Verification Channel Global Position System (GPS) receiver surface mount device (SMD) solution. Based upon the SiRFstar IVTM technology, the SMD features fast acquisition times, high receiver sensitivity and low power consumption in a small, compact form factor. The W2SG0084i is a flexible design that supports a broad range of applications where GPS functionality and location based services is required. Key features are as follows: GPS technology based upon by the CSR/SiRFTM SiRFStar IVTM Compact design for easy integration: 11.2mm x 12mm x 2.5mm Fast acquisition time and high sensitivity GPS Receiver High sensitivity navigation engine (PVT) tracks as low as -163dBm Ultra-low power consumption (Only 50 to 500A maintains hot start capability) Surface Mount Design (SMD) 50 Antenna Launch 48 verification channel GPS receiver Active Jammer Remover: o Removes in-band jammers up to 80 dB-Hz o Tracks up to 8 CW jammers Uses NAVSTAR GPS L1 C/A signal Single 3.3 VDC supply input UART Interface (4800 BAUD Default) Auto Start Option: Immediate tracking after power up (see part order options) Format Selectable Output Data: NMEA and OSPTM RoHS Compliant Copyright (c) 2011 Wi2Wi, Inc. 5 Wi2Wi, Inc. Doc No. ALT-PDT-DOC Rev.1.61 Datasheet, GPS Module- W2SG0084i Dated: November 11, 2011 2.1 Pin Definition The functional pin definition for the W2SG0084i is presented below in Table 1. Table 1: Pin Definition 1 2 GND 3V3_IN PWR PWR 3 TXFER I 4 FXFER I 5 6 7 Time Mark WAKEUP Reserved 8 GPS_ON/OFF 9 10 11 12 13 14 15 16 17 18 19 GND 3V3_IN 1V8_OUT GPS_RX GPS_TX GND GND GND GND ANT_IN GND PWR PWR O I O PWR PWR PWR PWR I PWR 20 3V3_ANT PWR O O NC I Ground 3.3V Power supply Time Aiding input, 1.8V; Leave unconnected if it is not used Frequency Aiding input, 1.8V; Leave unconnected if it is not used Time Mark output; Leave unconnected if it is not used GPS is ready for full power mode Reserved No Connect Power On enabled by a rising edge or by interrupt, Power Off through software command 1.8V level Ground 3.3V Power supply Regulator Output, 1.8V; Can source 10mA UART Receive input port, 1.8V (9600 BAUD) UART Transmit output port, 1.8V (9600 BAUD) Ground Ground Ground Ground Antenna RF input (50 ohm impedance) 10dB max Ground Active antenna bias input; Connect to 3.3V if using active antenna; Leave it unconnected if using passive antenna Copyright (c) 2011 Wi2Wi, Inc. 6 Wi2Wi, Inc. Doc No. ALT-PDT-DOC Rev.1.61 Datasheet, GPS Module- W2SG0084i Dated: November 11, 2011 2.2 Pin Configuration The W2SG0084i is a 20 pin SMD device with a board down antenna connection. The pin configuration is presented below in Figure 1. Figure 1: Pin Configuration (Bottom View) Copyright (c) 2011 Wi2Wi, Inc. 7 Wi2Wi, Inc. Doc No. ALT-PDT-DOC Rev.1.61 Datasheet, GPS Module- W2SG0084i Dated: November 11, 2011 2.3 System Block Diagram The System Block for the W2SG0084i is presented below in Figure 2. Figure 2: System Block Diagram The W2SG0084i provides an internal LNA, all required power regulation, and clocking. The TTL UART Interface is accessed via Pin 12 and 13. 3 Specifications 3.1 Clock Frequency The W2SG0084i features an internal clock and crystal and requires no external clock sources. Absolute Maximums Ratings The values presented below in Table 2 are those parameters beyond which permanent damage could result. These values do not imply functional operation and should be considered as stress ratings only. Table 2: Absolute Maximum Ratings Parameter Power Supply Input Voltage RF Input Case Temperature Lead Temperature (Soldering, 10sec) Operating Temperature Range Storage Temperature Range Symbol Rating Units VDD RFIN TCASE TMFG TA TS 5.5 10 V dBm C C C C 260 -40 to +85 -40 to +150 Copyright (c) 2011 Wi2Wi, Inc. 8 Wi2Wi, Inc. Doc No. ALT-PDT-DOC Rev.1.61 Datasheet, GPS Module- W2SG0084i Dated: November 11, 2011 3.2 Interfaces 3.2.1 Host UART Interface The TTL UART Interface (Pins 12, 13) has a bit rate range of 1.2kbps to 115.2 kbps, though defaulted at 4800 BAUD. Protocol options for the W2SG0084i are NMEA and SiRFBINARYTM (OSP). Default setting for the UART Interface is 4800 BAUD/NMEA Protocol. Initial Power-On sequence Figure 3: Timing Diagram of initial application of power supply 3.2.2 Wake Up Pin The Wake up pin functions as follows: A short pulse on the WAKEUP output line indicates to a host that the W2SG0084i is ready to accept an ON_OFF pulse to start normal operation. When the module is in standby or hibernate mode, the WAKEUP output goes low and when the module is in Full power mode the WAKEUP output goes high. 3.2.3 Time Mark The Time Mark pin [5] functions as follows: the Time Mark output provides a one pulse-persecond (1pps) signal to the customer's application processor. When the receiver provides a Copyright (c) 2011 Wi2Wi, Inc. 9 Wi2Wi, Inc. Doc No. ALT-PDT-DOC Rev.1.61 Datasheet, GPS Module- W2SG0084i Dated: November 11, 2011 valid navigation solution which consists of five satellite vehicles, the rising edge of each TMARK pulse is synchronized with the UTC one second epochs to within 1 microsecond. The receiver software produces a binary format data message containing the UTC time associated with each time mark pulse. The relationship between the UTC Time Mark Pulse Output message and the TMARK pulse is shown in Figure x. When the receiver's serial data communication port is set to 9600 bps, the UTC Time Mark Pulse Output message precedes the TMARK pulse by xxx milliseconds (typically). The TMARK pulse waveform is shown in Figure x. This signal is a positive logic, buffered CMOS level output pulse that transitions from a logic "low" condition to a logic "high" at a 1 Hz rate. The TMARK output pulse rise time is typically less than 2 nanoseconds and the pulse duration is typically 200 milliseconds. Patch Option: A patch exists that allows the Time Mark to output the 1 PPS with only four satellite vehicles instead of the default of five satellites. This patch can be downloaded from the Wi2Wi Extranet and implemented with the GPS patch manager that will run on Windows 7 tm and Linux operating systems. Please register at www.wi2iw.com . 3.3 GPS Power On/Off To enable GPS or to turn off GPS a positive pulse for two RTC ticks (62uS) after the Receiver has stabilized after a Fix. This can be verified with a message ID 18, called "OK to Send", that comes out when the receiver is receptive to commands. 4 WAAS with SBAS or Wide Area Differential GPS 4.1 Differential GPS Differential GPS (DGPS) is traditionally used with the fix of three to four satellites and the secondary fix from ground based GPS receiver based stations that retransmit the secondary fix via VHF/UHF and occasionally FM. DGPS can achieve positional accuracies of between 60 cm ~ 10 cm's. See Figure 4 Figure 4 Traditional DGPS System Copyright (c) 2011 Wi2Wi, Inc. 10 Wi2Wi, Inc. Doc No. ALT-PDT-DOC Rev.1.61 Datasheet, GPS Module- W2SG0084i Dated: November 11, 2011 DGPS requires at least two antennas, one for the NavStar L1 CA signal from the satellite and one antenna for the secondary fix from the VHF/UHF/FM transmitter. Also a secondary application processor is used to perform "Mixing" calculations between the two fixes. This increases the size and the expense of the system. 4.2 Wide Area DGPS or WAAS Wide Area DGPS or WAAS (Wide Area Augmentation System) uses the same concept but eliminates the need for the secondary RF signal. It accomplishes this by reusing the already orbiting satellites to re-broadcast other secondary fixes that have been established by ground based master stations in North America and Hawaii, to measure small variations in the GPS satellites' signals in the western Hemisphere. Measurements from the reference stations are routed to master stations, which queue the received Deviation Correction (DC) and send the correction messages to geostationary WAAS satellites in a timely manner (every 5 seconds or better). These master stations rebroadcast the secondary fix to the NavStar satellites which broadcast the secondary fix on unused channel space. This enables a GPS receiver to utilize the same antenna to reprocess both fixes internal to it also eliminating the need for a secondary application processor. WAAS enables a GPS receiver to provide positional accuracy to 300 cm ~ 200 cm. Of course a GPS receiver utilizing WAAS will need an expanded offering of GPS receiver channels to effective use this feature like the W2SG0084i which has 48 channels available for this function. Copyright (c) 2011 Wi2Wi, Inc. 11 Wi2Wi, Inc. Doc No. ALT-PDT-DOC Rev.1.61 Datasheet, GPS Module- W2SG0084i Dated: November 11, 2011 As noted this system was originally developed for the U.S. and Northern Hemisphere Geography. As GPS became ubiquitous in technology use throughout the world, similar systems called generically as Satellite-Based Augmentation System (SBAS). A SBAS is a system that supports wide-area or regional augmentation through the use of additional satellite-broadcast messages. Such systems are commonly composed of multiple ground stations, located at accurately-surveyed points. The ground stations take measurements of one or more of the GNSS satellites, the satellite signals, or other environmental factors which may impact the signal received by the users. Using these measurements, information messages are created and sent to one or more satellites for broadcast to the end users. While SBAS designs and implementations may vary widely, with SBAS being a general term referring to any such satellite-based augmentation system, under the International Civil Aviation Organization (ICAO) rules a SBAS must transmit a specific message format and frequency which matches the design of the United State's Wide Area Augmentation System. See Figure 5 Copyright (c) 2011 Wi2Wi, Inc. 12 Wi2Wi, Inc. Doc No. ALT-PDT-DOC Rev.1.61 Datasheet, GPS Module- W2SG0084i Dated: November 11, 2011 Figure 5 SBAS Example System Some examples of these are (GPS Aided GEO Augmented Navigation) GAGAN developed for the Indian Sub-Continent, European Geostationary Navigation Overlay Service (EGNOS) developed for the European Union, and the Japanese Multi-functional Satellite Augmentation System (MSAS), respectively. 4.3 How do we enable WAAS-SBAS on the W2SG0084i? WAAS-SBAS is enabled by issuing Message ID 133, (MID 133) is supported in One Socket Protocol (Formerly Sirf Binary Protocol mode), and then the accuracy improves to 300 cm ~ 100 cm with it enabled, depending on Open Sky Conditions (Multi-Path interference). With MID 133 not enabled, the accuracy is near 1500cm. Copyright (c) 2011 Wi2Wi, Inc. 13 Wi2Wi, Inc. Doc No. ALT-PDT-DOC Rev.1.61 Datasheet, GPS Module- W2SG0084i Dated: November 11, 2011 5 NMEA Input Messages The NMEA messages used to control the W2SG00084i modules are listed in Table 3. Messages 100 to 106 are OSP NMEA messages. The MSK NMEA string is as defined by the NMEA 0183 standard. See NMEA Reference Manual (CS-129435-MA-1) for further detail. Table 3: NMEA Input Messages Message Message ID SetSerialPort 100 NavigationInitialization 101 SetDGPSPort 102 Query/Rate Control 103 LLANavigationInitialization 104 Development Data On/Off 105 Select Datum 106 Extended Ephemeris Proprietary 1 107 Extended Ephemeris Proprietary 2 108 Extended Ephemeris Debug 110 MSK Receiver Interface MSK Description Set PORT A parameters and protocol Parameters required for start using X/Y/Z Set PORT B parameters for DGPS input Query standard NMEA message and/or set output rate Parameters required for start using Lat/Lon/Alt Development Data messages On/Off Selection of datum to be used for coordinate transformations Extended Ephemeris Proprietary message Extended Ephemeris Proprietary message Extended Ephemeris Debug Command message to a MSK radio-beacon receiver Copyright (c) 2011 Wi2Wi, Inc. 14 Wi2Wi, Inc. Doc No. ALT-PDT-DOC Rev.1.61 Datasheet, GPS Module- W2SG0084i Dated: November 11, 2011 6 One Socket Protocol (OSP) Messages (Formerly SiRF Binary I/O) 6.1 OSP Output Messages OSP Output Messages generated by the W2SG0084i are listed in Table 4. Please note that the support of individual commands is dependent upon the firmware loaded in the module. Hex 01 02 03 04 05 06 07 08 09 0A 0B 0C 0D 0E 0F 10 11 12 13 14 1B 1C 1D 1E 1F 29 2B 2D 2E 30 Decimal 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 27 28 29 30 31 41 43 45 46 48 30 31 32 34 37 38 E1 FF 48 49 50 52 55 56 225 255 Table 4: OSP Output Messages Name Description Reference Navigation Data Not Implemented Measured Navigation Data Position, velocity, and time True Tracker Data Not Implemented Measured Tracking Data Satellite and C/No information Raw Track Data Not supported by SiRFstarII SW Version Receiver software Clock Status Current clock status 50 BPS Subframe Data Standard ICD format Throughput Navigation complete data Error ID Error coding for message failure Command Acknowledgment Successful request Command NAcknowledgment Unsuccessful request Visible List Auto Output Almanac Data Response to poll Ephemeris Data Response to poll Test Mode 1 For use with SiRFtest (Test Mode 1) Differential Corrections Received from DGPS broadcast OkToSend CPU ON / OFF (TricklePower) Navigation Parameters Response to Poll Test Mode 2/3/4 Test Mode 2, 3, or 4 test data DGPS Status Differential GPS status information Nav. Lib. Measurement Data Measurement data Nav. Lib. DGPS Data Differential GPS data Nav. Lib. SV State Data Satellite state data Nav. Lib. Initialization Data Initialization data Geodetic Navigation Data Geodetic navigation information Queue Command Parameters Command parameters Raw DR Data Raw DR data from ADC Test Mode 3 Additional test data (Test Mode 3) Test Mode 4 for SiRFLoc v2.x only Additional test data (Test Mode 4) SiRFDRive-specific Class of Output The MID is partitioned into messages identified by Sub Messages IDs Test Mode 4 for SiRFLoc v2.x only Additional test data (Test Mode 4) SBAS Parameters SBAS operating parameters 1 PPS Time Message Time message for 1 PPS Test Mode 4 Track Data Extended Ephemeris Data Extended Ephemeris Mask and Integrity Information SiRF internal message Reserved Development Data Various status messages Copyright (c) 2011 Wi2Wi, Inc. 15 Wi2Wi, Inc. Doc No. ALT-PDT-DOC Rev.1.61 Datasheet, GPS Module- W2SG0084i Dated: November 11, 2011 6.2 OSP Input Messages OSP input commands for the W2SG0084i are listed in Table 5. Please note that the support of individual commands is dependent upon the firmware loaded in the module. Table 5: OSP Input Messages Name Advanced Power Management Initialize Data Source Switch to NMEA Protocol Set Almanac (upload) Handle Formatted Dump Data Poll Software Version DGPS Source Control Set Binary Serial Port Mode Control DOP Mask Control DGPS Mode Elevation Mask Power Mask Static Navigation Poll Clock Status Set DGPS Serial Port Poll Almanac Poll Ephemeris Flash Update Set Ephemeris (upload) Switch Operating Mode Set TricklePower Parameters Poll Navigation Parameters Description Power management scheme for SiRFLoc and SiRFXTrac Receiver initialization and associated parameters Enable NMEA messages, output rate and baud rate Sends an existing almanac file to the receiver Outputs formatted data Polls for the loaded software version DGPS correction source and beacon receiver information Baud rate, data bits, stop bits, and parity Navigation mode configuration DOP mask selection and parameters DGPS mode selection and timeout value Elevation tracking and navigation masks Power tracking and navigation masks Configuration for static operation Polls the clock status DGPS port baud rate, data bits, stop bits, and parity Polls for almanac data Polls for ephemeris data On the fly software update Sends an existing ephemeris to the receiver Test mode selection, SV ID, and period. Push to fix mode, duty cycle, and on time Polls for the current navigation parameters 165 166 167 168 Set UART Configuration Set Message Rate Set Low Power Acquisition Parameters Poll Command Parameters AA 170 Protocol selection, baud rate, data bits, stop bits, and parity SiRF Binary message output rate Low power configuration parameters Poll for parameters: 0x80: Receiver initialized & associated params 0x85: DGPS source and beacon receiver info 0x88: Navigation mode configuration 0x89: DOP mask selection and parameters 0x8A: DGPS mode selection and timeout values 0x8B: Elevation tracking and navigation masks 0x8C: Power tracking and navigation masks 0x8F: Static navigation configuration 0x97: Low power parameters SBAS configuration parameters AC B4-C7 172 180-199 Set SBAS Parameters SiRFDRive-specific Class of Input Messages The MID is partitioned into messages identified by Sub IDs. MID_UserInputBegin - MID_UserInputEndSDK user input messages only. B4 B6 E4 E8 180 182 228 232 Hex 35 80 81 82 83 84 85 86 88 89 8A 8B 8C 8F 90 91 92 93 94 95 96 97 98 Decimal 53 128 129 130 131 132 133 134 136 137 138 139 140 143 144 145 146 147 148 149 150 151 152 A5 A6 A7 A8 Marketing Software Configuration Set UART Configuration SiRF internal message Extended Ephemeris Proprietary Selection of the Marketing Software Configurations as defined in bits [3:2] of the GSC2xr chip configuration register Obsolete. Reserved Extended Ephemeris and Debug Flag Copyright (c) 2011 Wi2Wi, Inc. 16 Wi2Wi, Inc. Doc No. ALT-PDT-DOC Rev.1.61 Datasheet, GPS Module- W2SG0084i Dated: November 11, 2011 7 Electrical/RF Characteristics: Operating The Table 6 below presents the normal limits of operation for the W2SG0084i. Operation of the W2SG0084i beyond the limits of this table is not recommended and may result in permanent damage of the device. Unless otherwise specified, operating conditions are over TA = -40 C to +85 C. Typical is defined as TA = +25 C. 1 Table 6: Operating Electrical Characteristics Parameter Symbol Min Typ. Power Supply (3V3_IN) Power Supply Voltage VCC 3.25 3.3 I/O Supply Voltage VIO 1.62 1.8 Power Supply Ripple VRIP Peak Supply Current2 ICCP Power Supply Input Current3 ICC I/O Input Current IIO 1.5 Hibernate Current Ih 20 UART Interface (GPS_TX, GPS_RX) Input Pin Voltage VRX 1.8 Output Pin Voltage VTX 1.8 GPIO Interface GPIO Pin Voltage VGP IO 1.62 1.8 GPS Enable (GPS_ON/OFF) Input Pin Low Voltage VIL 0 Input Pin High Voltage VIH 1.35 1.8 RF Input Input Impedance RANT 50 Operating Frequency FOP R 1.575 Antenna Bias Voltage VANT 3.3 Antenna Bias Voltage Drop VANTD 200 RF Antenna Voltage VCCRF 3.0 3.3 RF Antenna Output Current ICCRF RF Characteristics Power In @1.5745 GHz P IN -157 -131 Noise Figure NF 2.5 Input Return Loss RLIN -10.0 Input VWR VWRIN TBD Reverse Isolation ISL TBD Stability (100 -10000 MHz) Receiver Sensitivity: *Signal Acquisition @ 31dBHz P AQC -148 *Signal Tracking P TKS -163 Max. Units 3.6 1.98 100 50 35 2.0 V V mV mA mA mA uA 3.6 V V 1.98 V 0.45 3.6 V V 5.4 22 GHz V mV V mA 10 dBm dB dB 1.8:1 dB - dBm dBm Notes: 1 All parameters are at TA = 25C, unless otherwise specified. 2 Defined as peak current drawn during initial acquisition operation of GPS Receiver. 3 Defined as current drawn during continuous operation at a 10Hz update rate. Copyright (c) 2011 Wi2Wi, Inc. 17 Wi2Wi, Inc. Doc No. ALT-PDT-DOC Rev.1.61 Datasheet, GPS Module- W2SG0084i Dated: November 11, 2011 7.1 Performance 7.1.1 Acquisition Time: The average Time to First Fix (TTFF) for the W2SG0084i when integrated with the W2SG0084i-DEV Development System is presented in Table 7 below: Table 7: Average Time to First Fix Parameter1 Symbol Min Typ. Hot Start - Typ. @ -140 dBm TTFFTYP 0.7 Hot Start - Low @ - 146 dBm TTFFLOW 1.0 Hot Start - Weak @ - 150 dBm TTFFWEAK 2.0 Cold Start @ -140 dBm TTFFCLD 35 Cold Start @ -140 dBm TTFFCLD 37 Cold Start @ -146 dBm TTFFCLD 38 Cold Start @ -150 dBm TTFFCLD 45 Notes: 1 Stationary receiver, unless otherwise specified. 2 All parameters are at TA = 25C, unless otherwise specified. Max. - Units s s s s s s s 7.1.2 Position Accuracy (3-D NAV): Table 8 below presents the Positional Accuracy for the W2SG0084i when integrated with the W2SG0084i-DEV Development System. Table 8: Positional Accuracy Parameter1 Typ. Horizontal Position Accuracy: CEP (50%)3 3 Horizontal Position Accuracy: 2dRMS (95%)3 5 3 Vertical Position Accuracy: CEP (50%) 3 Vertical Position Accuracy: 2dRMS (95%)3 5 Horizontal Velocity Accuracy: Deviation3 0.8 Vertical Velocity Accuracy: Deviation3 0.4 Notes: 1 Stationary receiver in the Open Sky at -130dBm, unless otherwise specified. 2 All parameters are at TA = 25C, unless otherwise specified. 3 WAAS SBAS must be enabled Units m m m m m/s m/s Copyright (c) 2011 Wi2Wi, Inc. 18 Wi2Wi, Inc. Doc No. ALT-PDT-DOC Rev.1.61 Datasheet, GPS Module- W2SG0084i Dated: November 11, 2011 7.2 Environmental Characteristics Table 9 establishes the environmental limits for operational use of the W2SG0084i. Table 9: Environmental Characteristics Parameter Storage Temperature Operating Temperature Humidity Altitude Acceleration Velocity 7.3 Symbol TSTR TOP R Min -40 -40 5 - Typ. +25 - Max. +150 +85 95 60,000/18,288 6.0 TBD Units C C %/Non-condensing ft/m g Antenna The W2SG0084i is designed for connection to either a passive or active antenna. The GPS module includes an internal LNA and is designed to work with the passive antenna, but provides the bias voltage supply for an active antenna to improve the receive sensitivity. If the design is to work with an Active Antenna; Pin 20 (3V3_ANT) is tied to 3.3VDC. 8 Development Support The W2SG0084i device is embedded with GPS software. This software is optimized to work in very weak signal environments to improve navigation availability and accuracy. To enable GPS performance testing, Wi2Wi provides a W2SG0084i GPS Evaluation board, along with the SiRFLive 2.2 software tools. The SiRFLive 2.2 is a PC tool that provides real-time monitoring of an attached GPS receiver's operation such as satellites being tracked, observed signal strength, and current position. Copyright (c) 2011 Wi2Wi, Inc. 19 Wi2Wi, Inc. Doc No. ALT-PDT-DOC Rev.1.61 Datasheet, GPS Module- W2SG0084i Dated: November 11, 2011 9 Mechanical Information 9.1 Mechanical Specification: The module is a Surface Mount Device (SMD). Table 10 presents the mechanical characteristics of the W2SG0084i. Table 10: Mechanical Characteristics Parameter Size Pad Pitch 9.2 Spec. 11.2 x 12 x 2.3 1.5 Tol. 0.1 0.05 Units mm mm Outline Drawing: The overall dimensions of the W2SG0084i are 11.2mm x 12mm x 2.3mm. The module includes a shield. The Mechanical Dimensions of the module are presented in Figure 6. Figure 6: Package Outline Drawing Copyright (c) 2011 Wi2Wi, Inc. 20 Wi2Wi, Inc. Doc No. ALT-PDT-DOC Rev.1.61 Datasheet, GPS Module- W2SG0084i Dated: November 11, 2011 9.3 Recommended Reflow Profile: Assembly Guidelines: 1. Follow solder paste manufacturers recommended profile a. All RoHS solder pastes contain the same basic chemistry; however, each manufacturer may have a recommended reflow profile that performs best for their product. 2. The profile illustrated in JESD-020 and below is for reference only. a. There is no one profile fits all scenario. 3. Profiles must be dialed in to the specific assembly type. 4. ENIG finishes are more susceptible to voids and air entrapment. a. Selecting a RoHS solder paste that is "ENIG" compatible is recommended. 5. Recommended finishes for LGA/BGA inclusive assemblies include HASL, OSP, Tin, & Silver. Figure 7: Recommended Reflow Profile Key features of the profile in Figure 7: Initial Ramp = 1 -2.50 C/Sec to 1750 C +/- 250 C equilibrium Equilibrium = 60 180 seconds Ramp to Maximum (Peak) temperature (2450 C) = 30 C/sec max. Time above liquidus temperature (2170 C): 45-90 seconds Copyright (c) 2011 Wi2Wi, Inc. 21 Wi2Wi, Inc. Doc No. ALT-PDT-DOC Rev.1.61 Datasheet, GPS Module- W2SG0084i Dated: November 11, 2011 10 Part Order Options Part Order Options Description Packing Method W2SG0084i-T 9600 baud rate* in Trays W2SG0084i-TR 9600 baud rate* On Tape W2SG0084i-1-T 4800 baud rate* in Trays W2SG0084i-1-TR 4800 baud rate* On Tape W2SG0084i-2-T Auto Start, 9600 baud rate* in Trays W2SG0084i-2-TR Auto Start, 9600 baud rate* On Tape W2SG0084i-3-T Reserved for Future Use in Trays W2SG0084i-3-TR Reserved for Future Use On Tape * All these options contain static navigation and SBAS, on. and Reel and Reel and Reel and Reel 11 Disclaimers Wi2Wi, Inc. PRODUCTS ARE NOT AUTHORISED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF THE MANAGING DIRECTOR OF Wi2Wi, Inc. The definitions used herein are: a) Life support devices or systems are devices which (1) are intended for surgical implant into the body, or (2) support or sustain life and whose failure to perform when properly used in accordance with the instructions for use provided in the labeling can reasonably be expected to result in a significant injury to the user. b) A critical component is any component of a life support device or system whose failure to perform can be reasonably expected to cause the failure of the life support device or system, or to affect its safety or effectiveness. Wi2Wi does not assume responsibility for use of any of the circuitry described, no circuit patent licenses are implied and Wi2Wi reserves the right at any time to change without notice said circuitry and specifications. 11.1 Data Sheet Status Wi2Wi, Inc. reserves the right to change the specification without prior notice in order to improve the design and supply the best possible product. Updated information, firmware and release notes will be made available on www.wi2wi.com. Please check with Wi2Wi Inc. for the most recent data before initiating or completing a design. 12 Certifications The W2SG0084i shall conform to the following standards when integrated to the W2SG0084i-DEV development system. EMC/Immunity United States: FCC Part 15(To be tested) Canada: ICES 033 (To be Tested) European Union: EN 55022, IEC 1004/CISPR 22 (To be Tested) Copyright (c) 2011 Wi2Wi, Inc. 22 Wi2Wi, Inc. Doc No. ALT-PDT-DOC Rev.1.61 Datasheet, GPS Module- W2SG0084i Dated: November 11, 2011 Japan: VCCI - V series (To be Tested) Taiwan: CNS 13438 (To be Tested) Korea: RRL No. 2005-82 (MIC) (To be Tested) Australia New Zealand - CISPR (To be Tested) Product Safety United States/Canada: UL/CSA 60950, UL 61010, UL 60065, CSA 601,CSA 61010,C22.2 No. 225(To be Tested) European Union: EN 60950, EN61010, IEC 60065, IEC 60601 (To be Tested) Japan: ARIB STD-T66 (To be Tested) Restriction of Hazardous Substances Directive (RoHS) 2002/95/EC (To be Tested) 13 References 13.1 Specifications System Specification, SirfStarIV GDS4e BGA, issue 3 NMEA 0183 Version 3.01, January 2002, Addendum NMEA 0183-HS Version 1.0 OSP Issue 8 FAA WAAS Specification FAA-E 2892b 13.2 Trademarks, Patents and Licenses Trademarks: SiRF, SiRF logo, SiRFstar, SiRF Powered, SnapLock, Foliage Lock, TricklePower, SingleSat, SiRFLoc, SiRFDRive, SnapStart, Push-to-Fix, SiRFNav, SiRFWare and WinSiRF are trademarks of CSR Inc. (SiRF Technology) 13.3 Other W2SG0084i-DEV Development Kit, GPS Module Copyright (c) 2011 Wi2Wi, Inc. 23 Mouser Electronics Authorized Distributor Click to View Pricing, Inventory, Delivery & Lifecycle Information: Wi2Wi: W2SG0084i-B-TR W2SG0084i-B-T