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| gps module tc6000gn - p1 datasheet v02 2 confidential information preliminary specification ? gns - gmbh 2011 v 0.2 2 , sep5 th 2012 1 1 introduction gns, developer and manufacturer of module solutions for 10 years, presents the new tc6000gn - p1 gps module , which provides a high performance and low power gps solution in a small form factor . tc6000gn - p1 integrates a complete gps receiver e nabling rf to nmea solutions that minimize the load on the host processor features gps all - in - one module gps tracking &navigation sensitivity - 16 2 dbm dedicated gps processing l ow load on host cpu standard nmea 0183 interface pps output l ow power co nsumption ( 70 mw at full operation) only one single power supply (1.8v) needed miniature 36 pin module ( 10x9.3x 2 .3 ) mm evaluation boards: o tc6000gn starter kit for testing on a pc o plug - in evaluation module ( tc6000gn - em1 or tc6000gn - em1 - s ) board for msp - exp 4 30f5438 , msp - expf5529 or stellaris lm3s9b96 evb applications navigation o i n - vehicle navigation equipment o dynamic navigation o portable (nomadic) devices o netbooks, tablet pcs and mobile phones timing o precision timing via gps location based applications o gps logger o gps tracker o security devices o camera equipment
gps module tc6000gn - p1 datasheet v02 2 confidential information preliminary specification ? gns - gmbh 2011 v 0.2 2 , sep5 th 2012 2 2 index 1 introduction -------------------------------- -------------------------------- ------------------------- 1 2 index -------------------------------- -------------------------------- -------------------------------- --- 2 3 detailed features -------------------------------- -------------------------------- ------------------- 3 3.1 gps features -------------------------------- -------------------------------- -------------------------------- ----------------- 3 4 typical application block diagram -------------------------------- ------------------------------ 3 5 system requirements -------------------------------- -------------------------------- --------------- 4 5.1 real time clock (rtc) -------------------------------- -------------------------------- -------------------------------- -------- 4 5.2 i/o levels -------------------------------- -------------------------------- -------------------------------- ---------------------- 4 6 gps core -------------------------------- -------------------------------- ------------------------------- 5 6.1 gps core description -------------------------------- -------------------------------- -------------------------------- --------- 5 6.2 gps characteristics -------------------------------- -------------------------------- -------------------------------- ---------- 5 6.3 gps power management features -------------------------------- -------------------------------- --------------------------- 7 6.4 gps almanac and ephemeris data -------------------------------- -------------------------------- --------------------------- 7 6.5 push to fix -------------------------------- -------------------------------- -------------------------------- -------------------- 7 6.6 pulse per second (pps) -------------------------------- -------------------------------- -------------------------------- ------ 8 6.7 fix available -------------------------------- -------------------------------- -------------------------------- ------------------ 8 6 .8 gps antenna -------------------------------- -------------------------------- -------------------------------- ------------------ 8 7 electrical specification -------------------------------- -------------------------------- --------- 10 7.1 absolute maximum ratings -------------------------------- -------------------------------- -------------------------------- 10 7.2 recommended operating conditions -------------------------------- -------------------------------- ---------------------- 10 7.3 gps input characteristics -------------------------------- -------------------------------- -------------------------------- --- 10 8 device pinout diagram -------------------------------- -------------------------------- ----------- 11 9 power management -------------------------------- -------------------------------- ---------------- 13 10 rtc connection -------------------------------- -------------------------------- ------------------- 13 11 hardware host interface -------------------------------- -------------------------------- ------ 14 11.1 gps uart interface details -------------------------------- -------------------------------- ----------------------------- 14 12 nmea data -------------------------------- -------------------------------- -------------------------- 14 13 physical dimen sions -------------------------------- -------------------------------- ------------- 15 14 recommended pad layout -------------------------------- -------------------------------- ------- 16 15 material information -------------------------------- -------------------------------- ----------- 16 15.1 shield material information -------------------------------- -------------------------------- ----------------------------- 16 16 recommended soldering reflow profile -------------------------------- ------------------- 17 17 tape information -------------------------------- -------------------------------- ----------------- 18 18 reel information -------------------------------- -------------------------------- ----------------- 19 19 ordering information -------------------------------- -------------------------------- ---------- 19 20 customer specific factory options -------------------------------- -------------------------- 20 21 environmental information -------------------------------- -------------------------------- --- 21 22 moisture sensitivity -------------------------------- -------------------------------- ------------ 21 23 d ocument revision history -------------------------------- -------------------------------- ---- 21 24 packaging -------------------------------- -------------------------------- -------------------------- 22 25 related documents -------------------------------- -------------------------------- -------------- 23 gps module tc6000gn - p1 datasheet v02 2 confidential information preliminary specification ? gns - gmbh 2011 v 0.2 2 , sep5 th 2012 3 3 detailed features 3.1 gps feat ures significantly improved ttff at low signal power levels provides the consumer with a compelling gps experience improved acquisition performance to process position fixes in deep indoor conditions reduced power consumption th r ough improvements to rf architecture, software techniques, receiver core, and rf noise figure partitioning improved tracking performance and minimized error in multi - path environments through increased if bandwidth and higher sampling rates in tracking channels standard nmea out put 1pps output gps fix indication output pin 4 typical application block diagram pnd / pda host processor mmi (keys, display) power management 1.8v tc60 00gn gps antenna rtc clock pushtofix gps_reset uart tx gps module tc6000gn - p1 datasheet v02 2 confidential information preliminary specification ? gns - gmbh 2011 v 0.2 2 , sep5 th 2012 4 5 system requirements tc6000gn - p1 includes a complete gps engine . - gps is fully processed without any host processing requiremen ts - standard nmea message output from the solution to the host - rtc clock (32.768khz) should be applied externally. 5.1 real time clock (rtc) tc6000gn - p1 requires a real time clock input that will provide time information for gps after an off - time. the clock si gnal of 32.768khz is not on - module and has to be fed at pin rtc_clk . additionally, the clock signal is needed for some other chip - internal purposes. see chapter rtc connection for more details 5.2 i/o levels tc6000gn - p1 core and i/o sections work at 1.8v no minal. absolute maximum ratings should not be exceeded should the tc6000gn - p1 be interfaced to a host with i/o at higher levels, level shifters should be used. no signals are allowed on the device i/os in the absence of vdd_io voltage because the most i/ os are not fail - safe. not f ail - safe means that the pins will draw undefined current from an external voltage applied to the pin, when no i/o power is supplied to the device. only exception is rtc_clk . gps module tc6000gn - p1 datasheet v02 2 confidential information preliminary specification ? gns - gmbh 2011 v 0.2 2 , sep5 th 2012 5 6 gps core 6.1 gps core description the tc6000gn - p1 gps cor e is a high performance, low power gps receiver with integrated rf frontend. due to high input sensitivity it can work directly with a passive antenna. the v ery short ttff (time to first fix) and i mproved acquisition performance at low signal power level s is achieved through an enhanced receiver core architecture . the improved rf architecture and software techniques r educe the average power consumption . m inimized error in multi - path environments is achieved through increased if bandwidth and higher sampli ng rates in tracking channels . tc6000gn - p1 supports apm (adapted power management) schemes to lower the average power of the gps core to below 27 mw . 6.2 gps characteristics parameter m in t yp m ax u nit note general f requency 1575.42 mhz gps l1 c/a code o utput data frequency 1/ 60 1 1 1/sec configurable navigation &tracking sensitivity - 162 - 16 3 dbm acquisition sensitivity - 146 - 147 dbm autonomous ttff hotstart 1 sec all svs @ - 130dbm ttff hotstart 10 sec all svs @ - 155dbm ttff a utonomous cold start 34 sec all svs @ - 130dbm ttff autonomous cold start 45 sec all svs @ - 142dbm number of channels tracking 16 number of acquisition channels 40 power consumption gps a ctive (acquisition ) 68 78.6 ma nmea frequency = 1/ sec gps active (tracking) 45 53.8 ma nmea frequency = 1/sec gps active (tracking) 15 ma nmea frequency=1/sec, - 130dbm, apm feature active gps shutdown 180 a gps_reset ? gnd gps deep sleep (rtc running) 80 a push_to_fix ? gnd gps module tc6000gn - p1 datasheet v02 2 confidential information preliminary specification ? gns - gmbh 2011 v 0.2 2 , sep5 th 2012 6 a ccuracy static position error cep68 - 2 - m normal open sky in field horizontal position accuracy using open sky roof - top antenna static position error cep95 - 3 - m normal op en sky in field horizontal position accuracy using open sky roof - top antenna static position error cep68 - - 2 m simulator feed , iono and tropo errors on at - 130 dbm power level static position error cep95 - - 3 m simulator feed , iono and tropo erro rs on at - 130 dbm power level dynamic position error cep68 - - 3 m simulator feed , iono and tropo errors on at - 130 dbm power level dynamic position error cep95 - - 4 m simulator feed , iono and tropo errors on at - 130 dbm power level velocity error cep68 - - 0.1 m/s simulator feed , iono and tropo errors on at - 130 dbm power level velocity error cep95 - - 0.7 m/s simulator feed , iono and tropo errors on at - 130 dbm power level accuracy for timepulse signal 1pps pulse duration - 1 - msec 1pps time jitter - - 100 nsec pulse rising edge deviation from expected pulse time, measured in a 300 seconds interval with full 3d fix , refer to http://processors.wiki.ti.com/in dex.php/c c4000_gps_for_mcu ti gps pps timing application note 1pps rise and fall time 10 nsec 10%..90% 1pps output impedance - 10k//20pf - tcxo t cxo output frequency - 26.000 - mhz 2.5 ppm tcxo output impedance - 1m//5pf - - itar limits operatio n altitude - 5,000 - 18, 288 m operation velocity - - 514 m/s operation acceleration - - - m/s 2 no limit set gps module tc6000gn - p1 datasheet v02 2 confidential information preliminary specification ? gns - gmbh 2011 v 0.2 2 , sep5 th 2012 7 6.3 gps power management features power management schemes implemented for any gps system requires an optimally tuned performance for both accurac y of the position fixes and the average power consumed for best user experience. tc6000gn - p1 architecture achieves both these aspects by providing flexibility and design choices for the system integration based on wide range of use cases and by leveraging on the proven silicon methodologies. also tc6000gn - p1 provide s position, velocity and time (pvt) measurements without any host loading. this , coupled with the optional built - in power management option , reduces the overall system power budget. power manag ement features apm feature provides overall gps system power consumption of 27 mw in tracking mode under open sky conditions can provide pvt solution without any load on the host , allowing a reduction in overall system power consumption . p osition update rates selectable by order option . max of 1 hz update rate. 6.4 gps almanac and ep hemeris data for quick re - acquisition of the gps after off - times, the gps engine should have access to almanac and ephemeris data. th is data is permanently stored inside tc6000 g n m odule . when the gps is powered - up again, the data will be used to allow a quick re - acquisition , as soon as a coarse time information is available. 6.5 push to fix the push to fix signal is used to initiate a gps fix session. the signal is defined as acti ve high when starting a gps fix session. the session can be a cold, warm or host start fix, depending upon the availablility and age of the assistance data. t1 (boot up) 4.5sec t2 = ttff system state gps_reset push_ to_fix t1 t2 reset boot up aquisition tracking sleep gps module tc6000gn - p1 datasheet v02 2 confidential information preliminary specification ? gns - gmbh 2011 v 0.2 2 , sep5 th 2012 8 6.6 puls e per second (pps) tc6000gn provide a so called pulse per second (pps) for timing purposes. after calculation of a 3d postion fix, the pps signal is accurately aligned to the gps seconds boundaries. the pulse generated is approximately 1 millisecond in dur ation and the repetition rate is 1 second. more information about the accuracy of the time pluse, please refer to http://processors.wiki.ti.com/inde x.php/cc4000_gps_for_mcu gps pps timing application note . 6.7 f ix a vailable the fix available signal is used to indicate the availability of gps postion information. this is typically used to drive an led buffer so that the state of the device can be easi ly indicated. the table below lists the various states. state indication initial boot up low push_to_fix low low push_to_fix on and aquisition toggling (900ms low and 100ms high) push_to_fix on and loss of fix toggling (900ms low and 100ms high) push _to_fix on and postion fix continuously high 6.8 gps antenna tc6000 gn contains all input circuitry needed to connect a passive gps antenna directly . depend ing o n the application patch - or chip antennas or combo antennas (combination of gps and bluetooth) c an be used. however, if there is a long wire between tc6000 gps rf input and antenna, there should be an lna (on the antenna side) to compensate for cable losses ("active" antenna). for active antenna configuration, the antenna supply dc must be blocked fr om the antenna signal line with a inductor l of 270 nh and a 100pf capacitor c as shown in the diagram below . t1 t2 t1 = 1ms t2 = 1sec gps module tc6000gn - p1 datasheet v02 2 confidential information preliminary specification ? gns - gmbh 2011 v 0.2 2 , sep5 th 2012 9 more information about connecting and implementing a gps antenna to an application pcb, please r efer to gps antenna conne ction design guide . tc6000g n active antenna a ntenna dc suply l c gps module tc6000gn - p1 datasheet v02 2 confidential information preliminary specification ? gns - gmbh 2011 v 0.2 2 , sep5 th 2012 10 7 electrical specification 7.1 absolute maximum ratings paramet e r value unit supply voltage range: v bat C 0.5 to 2.1 v supply voltage range: vdd_io C 0.5 to 2.1 v input voltage to analog pins 1 C 0.5 to 2.1 v input voltage to all other p ins C 0.5 to (vdd_i/o + 0.5) v operating ambient temperature range C 40 to +85 c storage temperature range C 40 to +8 5 c 7.2 recommended operating conditions parameter m in t yp m ax u nit n ote vdd 1.7 1.95 v power - supply voltage vdd_io 1.65 1.92 v i/o po wer - supply voltage high level output voltage v oh 0.8 * v dd v dd v iout = 4 ma 1,45 v dd v iout = 0.4 ma low level output voltage v ol 0 0.2*v dd v iout = 4 ma high - level input voltage v ih 0.65x vdd_io vdd_io v low - level input voltage v il 0 0.35x vdd_io v operating temperature - 4 0 85 c full specified performance maximum ripple on vdd 60 mvpp 0 mhz to 0.1 mhz 50 mvpp 0.1 mhz to 0.5 mhz 30 mvpp 0.5 mhz to 1.7 mhz 25 mvpp 1.7 mhz to 2.5 mhz 15 mvpp 2.5 mhz to 3.3 mhz 5 mvpp greater than 3.3 mhz 7.3 gps input characteristics parameter m in t yp m ax u nit n ote input impedance 62. 7 - j 3.2 m aximum input level 0 dbm be fore destruction input return loss - 10 db gps module tc6000gn - p1 datasheet v02 2 confidential information preliminary specification ? gns - gmbh 2011 v 0.2 2 , sep5 th 2012 11 8 d evice pinout diagram top view f vbat vdd_ io gps_uart_tx gps_uart_rx gps_reset rtc_clk e tcxo_clk gnd 2 gps_uart_cts gps_uart_rts nu10 on_the_fly_prg d db_1 db_2 gnd 1 nu7 nu8 nu9 c db_3 db_4 gnd 3 debug_reset_n nu11 nu6 b nu1 nu2 nu3 nu4 nu5 gps_pps a nu12 gps_ gnd 1 gps_rf gps_ gnd 2 fix_available push_to_fix 1 2 3 4 5 6 f e d c b a 1 2 3 4 5 6 gns tc6000 gn 0110 00000023 f e d c b a 1 2 3 4 5 6 gn gps module tc6000gn - p1 datasheet v02 2 confidential information preliminary specification ? gns - gmbh 2011 v 0.2 2 , sep5 th 2012 12 (1 ) i = input ; o = output ; i/o = bidirectional ; p = power pin ; ana = analog pin . no name type 1 description power - management signals 2f vdd_io p 1.8v i/o power supply voltage 1f vbat p 1.8v main power supply voltage 4c debug_reset_n i connect to gnd 3d gnd 1 p common ground 2e gnd 2 p common ground 3c gnd 3 p common ground clock signals 1e tcxo_clk o tcxo_clk signal output. this pin delivers the high stable tcxo frequency of 26.000 mhz for external components. although the output is buffered, do not load this pin below 20kohms // 10pf(tbd) . leave op en if not used. 6f rtc_clk i clock input: 32.768 khz. input for an external low frequency clock signal. a clock must be provided at this pin to operate the module. see chapter "rtc connection" gps signals 3a gps_rf ana gps rf input , direct connection of passive or active gps antenna 2a gps_gnd 1 p gps rf ground 4a gps_gnd 2 p gps rf ground 6b gps_pps o this output delivers a high - precision pulse - per - second signal that is synchronized to the gps time reference. the pulse precision is better than 1*10 - 7 seconds. although the output is buffered, do not load this pin below 10kohms // 47pf (tbd). leave open if not used . 6e on_the_fly_prg i this input determines operation after reset. internally pulled up for normal operation. pull low for re - programmin g firmware or reconfiguring the module. leave open in normal operation. 6a push_to_fix i input signal to switch between operation and deep sleep mode. internally pulled down. pull high (with less than 4.7kohm) during operation. pull low (or leave open) t o set the module to deep sleep. internal rtc continues to work in deep sleep. 5a fix_available o this pin indicates a fix position. leave open if not used. 5f gps_reset i main reset for the receiver . internally weak pulled down. pull high with less tha n 100kohm for operation. pull to gnd (or leave open) during power C up . not used pins do not connect 1a nu12 do not connect 1b nu 1 do not connect 2b nu 2 do not connect 3b nu 3 do not connect 4b nu 4 do not connect 5b nu 5 do not connect 5e nu 10 do not connect 4d nu 7 do not connect 5d nu 8 do not connect 6d nu 9 do not connect 5c nu11 do not connect 6c nu 6 do not connect uart 3f gps_uart_tx o main uart tx. 4f gps_uart_rx i main uart rx. 3e gps_uart_cts i main uart cts. cts not us ed. leave open 4e gps_uart_rts o main uart rts. not used . must be left open i2c 1d db_1 must be connected to db_2 2d db_2 must be connected to db_1 1c db_3 must be connected to db_4 2c db_4 must be connected to db_3 gps module tc6000gn - p1 datasheet v02 2 confidential information preliminary specification ? gns - gmbh 2011 v 0.2 2 , sep5 th 2012 13 9 p ower management for quick re - acquisition after power - on, the tc6000gn should stay tied to vcc during off - times to keep it's rtc clock running. the module is put in sleep mode, by holding the pus h_to_fix pin low. the pin may be controlled by the host control ler or by another power management circuitry, which might be also a simple electromechanical switch. a static low level on push_to_fix will keep the tc6000gn - p1 in a deep sleep with power cons umption belo w 1 00a. 10 rtc c onnection the rtc_clk is a free - running clock that needs to be supplied from an external clock source. it is connected to the rtc_clk pin on the tc6000gn - p1 , and is a digital square wave signal in the range of 0 v to 1.8 v (nominal). the s low clock frequency is 32.768 khz. rtc_clk has multiple functionalities : u sed to maintain gps time between sleep intervals for clock frequency detection at power - on reset, before tcxo_clk is available for power up sequencing. digital rtc requirements pa rameter m in t yp m ax u nit n ote input slow clock frequency 32 , 768 hz input slow clock accuracy 200 ppm initial temperature + aging input transition time 100 ns t r /t f : 10% to 90% frequency input duty cycle 20% 50% 80% v ih 0.65x vdd_io vdd_io v slow clock input voltage limits v il 0 0.35x vdd_io v slow clock input voltage limits load capacitance 10 pf capacitance on rtc_clk pin load resistance 1 m resistance on rtc_clk pin gps module tc6000gn - p1 datasheet v02 2 confidential information preliminary specification ? gns - gmbh 2011 v 0.2 2 , sep5 th 2012 14 11 hardware host interface tc6000gn - p1 is connected to host system by a uart interface . since tc6000gn - p1 is used only to deliver nmea to the host only a single data line from the module to the host is necessary. the interface is requires 1.8v i/o. the idle state of the lines is positive voltage. to interface a standard rs232 uart (e.g. a pc serial interface), please add an inverting level shifter. to interface processors that have a different interfacing voltage level, level shifters are required. 11.1 gps uart interface details t he uart interface is used to sen d nmea messages an d control data. the default baud rate is 9600, other baud rates can be selected by ordering option . the maximum baud rate deviation supported is 2%. gps uart default settings parameter value baud rate 9600 data length 8 bits sto p bit 1 p a rity none 12 nmea data the tc6000gn - p1 provides nmea ( national marine electronics association ) 0183 compatible data . the following table shows the available nmea sentences all active nmea sentences are sent at the selected rate nmea available sentences t ype content $gprmc recommended minimum navigation information $gpgga global positioning system fix data, time, p osition and fix related data for a gps receiver $gpgsv satellites in view $gpgll geographic position - latitude/longitude $gpgsa gps dop and active satellites $gpvtg track made good and ground speed gps module tc6000gn - p1 datasheet v02 2 confidential information preliminary specification ? gns - gmbh 2011 v 0.2 2 , sep5 th 2012 15 13 physical dim e nsions top view all units in mm 4.1 0.4 5 10 9.3 1.1 4.1 4.65 2 1.2 gps module tc6000gn - p1 datasheet v02 2 confidential information preliminary specification ? gns - gmbh 2011 v 0.2 2 , sep5 th 2012 16 14 recommended pad layout top view all units in mm 15 m aterial information c omplies to r o h s standard rohs documentations are available on request c ontact surface : gold over nickel 15.1 shield material information "german sil ver " , cuni18zn27 cu: 53.5..56.5% ni : 16.5..19.5% zn : 24..30% thickness :0.2mm 1.5 1.5 0.75 5 gps module tc6000gn - p1 datasheet v02 2 confidential information preliminary specification ? gns - gmbh 2011 v 0.2 2 , sep5 th 2012 17 16 recommended soldering reflow profile notes: 1. tc6000 gn - p1 should be soldered in upright soldering position. in case of he ad - over soldering, please prevent shielding / tc6000 gn - p1 module from falling down. 2. do never exceed maximum peak temperature 3. reflow cycles allowed : 1 time 4. do not solder with pb - sn or other solder containing lead (pb) 5. this device is not applic able for flow solder processing 6. this device is not applicable for solder iron process 100 200 300 t[sec] 100 200 t[c] 260 c max 250 c for 10 sec max 230c for 40 sec max 160c ? 190c 120 sec reflow solder gps module tc6000gn - p1 datasheet v02 2 confidential information preliminary specification ? gns - gmbh 2011 v 0.2 2 , sep5 th 2012 18 17 tape information gps module tc6000gn - p1 datasheet v02 2 confidential information preliminary specification ? gns - gmbh 2011 v 0.2 2 , sep5 th 2012 19 18 reel information no. of devices : 2000 pcs / reel 19 o rdering information o rdering information t ype p art# laser marki ng d escription tc6000gn - p1 _< options > 4037735104327 tc6000gn gns gps module tc6000gn - p1 datasheet v02 2 confidential information preliminary specification ? gns - gmbh 2011 v 0.2 2 , sep5 th 2012 20 20 customer specific factory options some features of tc6000gn - p1 are factory presets, that should be added to your order information . just replace gps module tc6000gn - p1 datasheet v02 2 confidential information preliminary specification ? gns - gmbh 2011 v 0.2 2 , sep5 th 2012 21 21 environmental information this product is free of environmental hazardous substan ces and complies to 2002/95/ec. (rohs directive). 22 moisture sensitivity shelf life unlimited storage conditions 30 c/85%rh moisture sensitivity level (msl) 1 possible prebake recommendations none 23 document revision history v0.1 nov 2 2010 p. skaliks initial v0.11 jan 28 201 1 p.skaliks internal objective - product name extension p1, gps features added, packing standard , solder profile , factory options v0.12 feb 22 2011 p.skaliks objective - gps features added, factory options , v0.13 apr 13,2011 p.skaliks reviewed april 13, flash options added v0.15 p.skaliks pin definitions reviewed and completed. cts pindefinitionchanged (not connected) .document status changed to preliminary v0.16 p.skaliks pin definitions reviewed and corrected. m odified ordering instructions to short form, laser marking update v0.1 8 nov 2 2011 p.skaliks general review v0.19 jan 3 2012 m.reiff related documents update v0.20 may 18 2012 m.reiff laser marking confirmed; opera ting temperature improved; rf in put im p endance corrected; navigation s ensitivity added ; additional information added for push_to_fix, pps_out and fix_available signal; v0 . 21 july 18 2012 w .koch baud rate corrected to 57600 baud, page 20 customer specific factory settings. v0.22 sep 5,2012 p.skaliks format in table factory option and explanation for apm on pg 20 gps module tc6000gn - p1 datasheet v02 2 confidential information preliminary specification ? gns - gmbh 2011 v 0.2 2 , sep5 th 2012 22 24 packaging 1 reel contents 2,000pcs gns part# 2 x 6550000003 1x 6550000011 dimensions dia: 330mm thickness:30.4mm gross weight 1 .195 kg with full contents net weigh t 0 . 246 kg 2 vacuum bag gns part# 6550000006 dimensions 400mm x 480mm gross weight 1.321 kg with full contents net weight 0.068 kg air pressure level <30mbar 3 moisture indicator gns part# 6550000008 dimensions 76mm x 51mm weight 0.001 k g 4 dry pack gns part# 6550000007 dimensions 145mm x 140mm weight 0.068 kg 5 box for reel gns part# 6550000012 dimensions 350 mm x 350mm x 47mm gross weight 1.5357 kg with full contents net weight 0.184 kg 6 outer box contents max 7 bo x for reel (14,000 pcs tc6000gn - p1 ) dimensions 400mm x 370mm x 360mm gross weight 11.6 kg with full contents net weight 0.85 kg gps module tc6000gn - p1 datasheet v02 2 confidential information preliminary specification ? gns - gmbh 2011 v 0.2 2 , sep5 th 2012 23 25 related documents t ype description available from tc6000gn - p1 design guide contains information about implemen tation of the module and antenna design www.forum.gns - gmbh.com tc6000gn_em1_usermanual hardware manual for the em1 evalboard for ti experimenter boards www.foru m.gns - gmbh.com tc6000gn_em1_s_usermanual hardware manual for the em1 evalboard for ti experimenter boards www.forum.gns - gmbh.com tc6000gn - p1_starterkit_user manual hardware manual for the gns starter kit www.forum.gns - gmbh.com cc4000 firmware update wiki that explains update of tc6000gn - em1 board on a msp430f5529 experimenter board http://processors.wiki.ti.co m/index.php/cc4000_firm ware_update msp430 software for tc6000gn wiki that explains the msp430 software and links to source code downloads http://processors.wiki.ti.co m/index.php/cc4000_mcu_ sw_description msp430 getting started guide wiki that explain s how to setup and run the msp430f5529 experimental board using the gns tc6000gn - em1 evaluation board http://processors.wiki.ti.co m/index.php/cc4000_gps_ msp - exp430f5529_getting_start ed_guide gps antenna connection design guide design guide to implement an gps antenna to an application pcb www.forum.gns - gmbh. com tc6000gn starterkit_testguide a guide for testing tc6000gn against other gps receivers www.forum.gns - gmbh.com gns gmbh 2011 the information in t his documentation do es not form any quo tation or contract . technical data are d ue to be changed wit hout notice . no liability will be accepted by the publ isher for any conseq uence of this docume nt ' s use . reproduction in whol e or in part is proh ibited without the p rior written consent of the copy right owner |
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