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| ? BGS2-E/bgs2-w version: 01.301 docid: bgs2_hid_v01.301 hardware interface description www.datasheet.co.kr datasheet pdf - http://www..net/
general note the use of the product including the software and documentation (the "prod- uct") is subject to the release note pr ovided together with product. in any event the provisions of the release note shall prevail. this document contains information on cint erion products. the specifications in this document are sub- ject to change at cinterion's discretion. cinterion wireless modules gmbh grants a non-exclusive right to use the product. the recipient shall not trans- fer, copy, modify, translate, rever se engineer, create derivative works; disas- semble or decompile the product or otherwise use the product except as specifically authorized. the product and this document are pr ovided on an "as is" basis only and may contain deficienci es or inadequacies. to the maximum extent permitted by applicable law, cint erion wireless modules gmbh disclaims all warranties and liabilities. the reci pient undertakes for an unlimited period of time to observe secrecy regarding any information and data provided to him in the context of the delivery of the product. this general note shall be gov- erned and construed according to german law. copyright transmittal, reproduction, dissemination and/or editing of this doc ument as well as utilization of its con- tents and communication thereof to others without ex press authorization are prohibited. offenders will be held liable for payment of damages. all rights created by pa tent grant or re gistration of a utility model or design patent are reserved. copyright ? 2011, cinterion wireless modules gmbh trademark notice microsoft and windows are either registered trademark s or trademarks of microsoft corporation in the united states and/or other countries. all other regi stered trademarks or trademarks mentioned in this doc- ument are property of their respective owners. bgs2_hid_v01.301 page 2 of 112 2011-04-07 confidential / released BGS2-E/bgs2-w hardware interface description 2 ? document name: BGS2-E/bgs2-w hardware interface description version: 01.301 date: 2011-04-07 docid: bgs2_hid_v01.301 status confidential / released www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description contents 112 bgs2_hid_v01.301 page 3 of 112 2011-04-07 confidential / released ? contents 0 document history ...................................................................................................... 9 1 introduction ............................................................................................................... 10 1.1 related documents ......................................................................................... 10 1.2 terms and abbreviations ................................................................................. 10 1.3 regulatory and type approval information ..................................................... 14 1.3.1 directives and standards.................................................................... 14 1.3.2 sar requirements specific to portable mobiles .................................. 17 1.3.3 safety precautions.............................................................................. 18 2 product concept ....................................................................................................... 19 2.1 key features at a glance ................................................................................ 19 2.2 BGS2-E/bgs2-w system overview................................................................ 21 2.3 circuit concept ................................................................................................ 22 3 application interface................................................................................................. 23 3.1 operating modes ............................................................................................. 24 3.2 power supply................................................................................................... 25 3.2.1 minimizing power losses ................................................................... 25 3.2.2 measuring the supply voltage (vbatt+) ........................................... 26 3.2.3 monitoring power supply by at command ........................................ 26 3.3 power up/power down scenarios ................................................................... 27 3.3.1 turn on BGS2-E/bgs2-w .................................................................. 27 3.3.1.1 switch on BGS2-E/bgs2-w using on signal.................... 27 3.3.1.2 suppressing unintentional pulses on on signal line ........ 29 3.3.1.3 turn on BGS2-E/bgs2-w using the rtc (alarm mode) ... 30 3.3.2 restart BGS2-E/bgs2-w ................................................................... 30 3.3.2.1 restart BGS2-E/bgs2-w via at+cfun command........... 30 3.3.2.2 restart BGS2-E/bgs2-w using emerg_rst.................. 31 3.3.3 signal states after startup .................................................................. 32 3.3.4 turn off BGS2-E/bgs2-w .................................................................. 34 3.3.4.1 switch off BGS2-E/bgs2-w using at command .............. 34 3.3.5 automatic shutdown ........................................................................... 36 3.3.5.1 thermal shutdown .............................................................. 36 3.3.5.2 undervoltage shutdown ...................................................... 37 3.3.5.3 overvoltage shutdown ........................................................ 37 3.4 automatic gprs multislot class change ........................................................ 38 3.5 power saving................................................................................................... 39 3.5.1 no power saving (at+cfun=1) ........................................................ 39 3.5.2 non-cyclic sleep mode (at+cfun=0)....................................... 39 3.5.3 cyclic sleep mode at+cfun=7 .................................................. 40 3.5.4 cyclic sleep mode at+cfun=9 .................................................. 40 3.5.5 timing of the cts signal in cyclic sleep modes.......................... 40 www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description contents 112 bgs2_hid_v01.301 page 4 of 112 2011-04-07 confidential / released ? 3.5.6 wake up BGS2-E/bgs2-w from sleep mode.................................. 42 3.5.6.1 wake-up via rts0 and rts1 (if at+cfun=0 or at+cfun=9)......................................... 43 3.6 summary of state transiti ons (except sleep mode) ..................................... 43 3.7 rtc backup..................................................................................................... 44 3.8 sim/usim interface.......................................................................................... 45 3.9 serial interface asc0 ...................................................................................... 47 3.10 serial interface asc1 ...................................................................................... 50 3.11 analog audio interface..................................................................................... 52 3.11.1 microphone inputs and supply ........................................................... 52 3.11.2 loudspeaker output ........................................................................... 54 3.12 gpio interface ................................................................................................. 55 3.13 i 2 c interface ..................................................................................................... 57 3.14 pwm interfaces ............................................................................................... 59 3.15 status led....................................................................................................... 59 3.16 behavior of the ring0 line (asc0 interface only).......................................... 60 3.17 power indication circuit ................................................................................... 61 4 antenna interface...................................................................................................... 63 4.1 antenna installation ......................................................................................... 64 4.2 rf line routing design................................................................................... 65 4.2.1 line arrangement examples............................................................... 65 4.2.1.1 embedded stripline ............................................................. 65 4.2.1.2 micro-stripline ..................................................................... 66 4.2.2 routing example................................................................................. 70 4.2.2.1 interface to rf connector................................................... 70 5 electrical, reliability and radio characteristics.................................................... 71 5.1 absolute maximum ratings ............................................................................. 71 5.2 operating temperatures.................................................................................. 72 5.3 reliability characteristics ................................................................................. 73 5.4 pad assignment and signal description......................................................... 74 5.5 power supply ratings...................................................................................... 82 5.6 electrical characteristics of the voiceband part .............................................. 83 5.6.1 setting audio parameters by at commands ..................................... 83 5.6.2 audio programming model ................................................................. 84 5.6.3 characteristics of audio modes .......................................................... 85 5.6.4 voiceband receive path..................................................................... 86 5.6.5 voiceband transmit path.................................................................... 87 5.7 antenna interface specification ....................................................................... 88 5.8 electrostatic discharge .................................................................................... 89 6 mechanics, mounting and packaging ..................................................................... 90 6.1 mechanical dimensions of BGS2-E/bgs2-w.................................................. 90 6.2 mounting BGS2-E/bgs2-w onto the application platform .............................. 92 6.2.1 smt pcb assembly ........................................................................... 92 6.2.1.1 land pattern and stencil ..................................................... 92 6.2.1.2 board level characterization.............................................. 94 www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description contents 112 bgs2_hid_v01.301 page 5 of 112 2011-04-07 confidential / released ? 6.2.2 moisture sensitivity level ................................................................... 94 6.2.3 soldering conditions and temperature .............................................. 95 6.2.3.1 reflow profile ...................................................................... 95 6.2.3.2 maximum temperature and duration .................................. 96 6.2.4 durability and mechanical handling.................................................... 97 6.2.4.1 storage conditions.............................................................. 97 6.2.4.2 processing life.................................................................... 98 6.2.4.3 baking ................................................................................. 98 6.2.4.4 electrostatic discharge........................................................ 98 6.3 packaging ........................................................................................................ 99 6.3.1 tape and reel .................................................................................... 99 6.3.1.1 orientation........................................................................... 99 6.3.1.2 barcode label ................................................................... 100 6.3.2 shipping materials ............................................................................ 101 6.3.2.1 moisture barrier bag ......................................................... 101 6.3.2.2 transportation box ............................................................ 103 6.3.3 trays ................................................................................................. 104 7 sample application................................................................................................. 105 7.1 blocking against rf on interface lines ......................................................... 107 8 reference approval ................................................................................................ 109 8.1 reference equipment for type approval....................................................... 109 8.2 compliance with fcc and ic rules and regulations ................................... 110 9 appendix.................................................................................................................. 111 9.1 list of parts and accessories......................................................................... 111 www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description ta b l e s 112 bgs2_hid_v01.301 page 6 of 112 2011-04-07 confidential / released ? tables table 1: directives ....................................................................................................... 14 table 2: standards of north american type approval .................................................. 14 table 3: standards of european type approval............................................................ 14 table 4: requirements of quality ................................................................................. 15 table 5: standards of the ministry of information industry of the people?s republic of china ............................................................................ 15 table 6: toxic or hazardous substances or elements with defined concentration limits 16 table 7: overview of operating modes ........................................................................ 24 table 8: signal states................................................................................................... 32 table 9: temperature dependent behavior.................................................................. 36 table 10: wake-up events in non-cyclic and cyclic sleep modes .................... 42 table 11: state transitions of BGS2-E/bgs2-w (except sleep mode) ....................... 43 table 12: signals of the sim interface (smt application interface) ............................... 45 table 13: dce-dte wiring of asc0 .............................................................................. 48 table 14: dce-dte wiring of asc1 .............................................................................. 50 table 15: gpio assignment........................................................................................... 55 table 16: power indication circuit .................................................................................. 61 table 17: return loss in the active band........................................................................ 63 table 18: absolute maximum ratings............................................................................. 71 table 19: board temperature ......................................................................................... 72 table 20: ambient temperature according to iec 60068-2 (w/o forced air circulation).. 72 table 21: ambient temperature with forced ai r circulation (air speed 0.9m/s) ............... 72 table 22: summary of reliability test conditions............................................................. 73 table 23: pad assignments............................................................................................ 75 table 24: electrical description of application interface ................................................. 76 table 25: power supply ratings...................................................................................... 82 table 26: audio parameters adjustable by at command .............................................. 83 table 27: voiceband characteristics (typical)................................................................. 85 table 28: voiceband receive path.................................................................................. 86 table 29: voiceband transmit path ................................................................................ 87 table 30: antenna interface specifications .................................................................... 88 table 31: measured electrostatic values........................................................................ 89 table 32: reflow temperature ratings ............................................................................ 95 table 33: storage conditions ......................................................................................... 97 table 34: emi measures on the application interface .................................................. 108 table 35: list of parts and accessories........................................................................ 111 table 36: molex sales contacts (subject to change) .................................................... 112 www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description figures 112 bgs2_hid_v01.301 page 7 of 112 2011-04-07 confidential / released ? figures figure 1: BGS2-E/bgs2-w system overview ............................................................... 21 figure 2: BGS2-E/bgs2-w block diagram ................................................................... 22 figure 3: power supply limits during transmit burst....................................................... 25 figure 4: position of reference points batt+and gnd ................................................ 26 figure 5: on circuit sample........................................................................................... 27 figure 6: on timing ....................................................................................................... 28 figure 7: sample circuit to suppress spikes or glitches on on signal line .................... 29 figure 8: emergency restart timing ............................................................................... 31 figure 9: switch off behavior......................................................................................... 35 figure 10: timing of cts signal (example for a 2.12 s paging cycle)............................. 41 figure 11: beginning of power saving if cfun=7 ........................................................... 41 figure 12: rtc supply variants....................................................................................... 44 figure 13: external sim card holder circuit ..................................................................... 45 figure 14: vdig controlled power supply domain........................................................... 47 figure 15: serial interface asc0..................................................................................... 48 figure 16: asc0 startup behavior ................................................................................... 49 figure 17: serial interface asc1..................................................................................... 50 figure 18: asc1 startup behavior ................................................................................... 51 figure 19: single ended microphone connection ............................................................ 53 figure 20: differential microphone connection................................................................ 53 figure 21: line input ....................................................................................................... 53 figure 22: differential loudspeaker connection ............................................................... 54 figure 23: line output connection ................................................................................... 54 figure 24: gpio startup behavior ................................................................................... 56 figure 25: i 2 c interface connected to vcc of application ............................................... 57 figure 26: i 2 c interface connected to v180 or v285....................................................... 57 figure 27: i 2 c startup behavior ....................................................................................... 58 figure 28: status signalling with led driver.................................................................... 59 figure 29: incoming voice call......................................................................................... 60 figure 30: incoming voice call......................................................................................... 60 figure 31: urc transmission .......................................................................................... 60 figure 32: power indication circuit .................................................................................. 62 figure 33: antenna pads (bottom view) .......................................................................... 64 figure 34: embedded stripline with 65m pr epreg (1080) and 710m core .................. 65 figure 35: micro-stripline on 1.0mm standard fr4 2-layer pcb - example 1 ................ 66 figure 36: micro-stripline on 1.0mm stand ard fr4 pcb - example 2............................ 67 figure 37: micro-stripline on 1.5mm stand ard fr4 pcb - example 1............................ 68 figure 38: micro-stripline on 1.5mm stand ard fr4 pcb - example 2............................ 69 figure 39: pouting to application?s rf connector - top view ........................................... 70 figure 40: numbering plan for connecting pads (bottom view)....................................... 74 figure 41: audio programming model ............................................................................. 84 figure 42: BGS2-E/bgs2-w? top and bottom view........................................................ 90 figure 43: dimensions of BGS2-E/bgs2-w (all dimensions in mm) .............................. 91 figure 44: land pattern (top view) .................................................................................. 92 figure 45: recommended design for 110 micron thick stencil (top view) ....................... 93 figure 46: recommended design for 150 micron thick stencil (top view) ....................... 93 figure 47: reflow profile ................................................................................................. 95 figure 48: carrier tape .................................................................................................... 99 figure 49: reel direction ................................................................................................. 99 figure 50: barcode label on tape reel ........................................................................... 100 www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description figures 112 bgs2_hid_v01.301 page 8 of 112 2011-04-07 confidential / released ? figure 51: moisture barrier bag (mbb) with imprint....................................................... 101 figure 52: moisture sensitivity label ............................................................................ 102 figure 53: humidity indicator card - hic ...................................................................... 103 figure 54: small quantity tray........................................................................................ 104 figure 55: tray to ship odd module amounts................................................................ 104 figure 56: trays with packaging materials.................................................................... 104 figure 57: schematic diagram of BGS2-E/bgs2-w sample application ...................... 106 figure 58: emi circuits................................................................................................... 107 figure 59: reference equipment for type approval ..................................................... 109 www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 0 document history 9 bgs2_hid_v01.301 page 9 of 112 2011-04-07 confidential / released ? 0 document history preceding document: "BGS2-E/bgs2-w hardware interface description" version 00.100b new document: "BGS2-E/bgs2-w hardware inte rface description" version 01.301 preceding document: "BGS2-E/bgs2-w hardware interface description" version 00.100a new document: "BGS2-E/bgs2-w hardware interface description" version 00.100b preceding document: "BGS2-E/bgs2-w hardware interface description" version 00.100 new document: "BGS2-E/bgs2-w hardware interface description" version 00.100a new document: "BGS2-E/bgs2-w hardware interf ace description" version 00.100 chapter what is new 5.4 marked pad 64 as agnd pad in figure 40 . 5.4 , 6.1 updated layout for module?s center pads. 6.2.1.1 updated section land pattern and stencil . 6.3.3 new section on trays . 7 revised figure 57 to show only two batt+ pads. chapter what is new 2.1 added module weight. 3.2.2 added figure 4 . 6.2.1.1 updated section land pattern and stencil . 6.2.3.1 updated section reflow profile . 6.3.1 added tape and reel dimensions. 6.3.1.1 added figure 48 . chapter what is new 3.16 revised ring0 behavior. 6.1 updated figure 43 . chapter what is new -- initial document setup. www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 1 introduction 18 bgs2_hid_v01.301 page 10 of 112 2011-04-07 confidential / released ? 1 introduction this document 1 describes the hardware of the cinterion BGS2-E/bgs2-w module that con- nects to the cellular device application and the ai r interface. it helps you quickly retrieve inter- face specifications, electrical and mechanical details and inform ation on the requirements to be considered for integrating further components. 1.1 related documents [1] BGS2-E/bgs2-w at command set [2] BGS2-E/bgs2-w release note [3] application note 48: smt module integration for BGS2-E/bgs2-w 1.2 terms and abbreviations 1. the document is effective only if listed in the appropriate release notes as part of the technical documentation delivered with your cinterion product. abbreviation description adc analog-to-digital converter agc automatic gain control ansi american national standards institute arfcn absolute radio frequency channel number arp antenna reference point asc0/asc1 asynchronous controller. abbreviations us ed for first and second serial interface of BGS2-E/bgs2-w b thermistor constant ber bit error rate bts base transceiver station cb or cbm cell broadcast message ce conformit europene (european conformity) chap challenge handshake authentication protocol cpu central processing unit cs coding scheme csd circuit switched data cts clear to send dac digital-to-analog converter dai digital audio interface dbm0 digital level, 3.14dbm0 correspond s to full scale, see itu g.711, a-law dce data communication equipment (typica lly modems, e.g. cin terion gsm module) www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 1.2 terms and abbreviations 18 bgs2_hid_v01.301 page 11 of 112 2011-04-07 confidential / released ? dcs 1800 digital cellular system , also referred to as pcn drx discontinuous reception dsb development support box dsp digital signal processor dsr data set ready dte data terminal equipment (typically comput er, terminal, printer or, for example, gsm application) dtr data terminal ready dtx discontinuous transmission efr enhanced full rate egsm enhanced gsm eirp equivalent isotropic radiated power emc electromagnet ic compatibility erp effective radiated power esd electrostatic discharge ets european telecommunication standard fcc federal communications commission (u.s.) fdma frequency division multiple access fr full rate gmsk gaussian minimum shift keying gpio general purpose input/output gprs general packet radio service gsm global standard for mobile communications hiz high impedance hr half rate i/o input/output ic integrated circuit imei international mob ile equipment identity iso international standards organization itu international telecommunications union kbps kbits per second led light emitting diode li-ion/li+ lithium-ion li battery rechargeable lithium ion or lithium polymer battery mbps mbits per second mmi man machine interface mo mobile originated ms mobile station (gsm module), also referred to as te abbreviation description www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 1.2 terms and abbreviations 18 bgs2_hid_v01.301 page 12 of 112 2011-04-07 confidential / released ? msisdn mobile station international isdn number mt mobile terminated ntc negative temperature coefficient oem original equipment manufacturer pa power amplifier pap password authentication protocol pbcch packet switched broadcast control channel pcb printed circuit board pcl power control level pcm pulse code modulation pcn personal communications network, also referred to as dcs 1800 pcs personal communication system, also referred to as gsm 1900 pdu protocol data unit pll phase locked loop ppp point-to-point protocol psk phase shift keying psu power supply unit pwm pulse width modulation r&tte radio and telecommunication terminal equipment ram random access memory rf radio frequency rms root mean square (value) rohs restriction of the use of certain hazard ous substances in electrical and electronic equipment. rom read-only memory rtc real time clock rts request to send rx receive direction sar specific absorption rate saw surface accoustic wave selv safety extra low voltage sim subscriber identification module smd surface mount device sms short message service smt surface mount technology sram static random access memory ta terminal adapter (e.g. gsm module) tdma time division multiple access abbreviation description www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 1.2 terms and abbreviations 18 bgs2_hid_v01.301 page 13 of 112 2011-04-07 confidential / released ? te terminal equipment, also referred to as dte tx transmit direction uart universal asynchronou s receiver-transmitter urc unsolicited result code ussd unstructured supplementary service data vswr voltage standing wave ratio abbreviation description www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 1.3 regulatory and type approval information 18 bgs2_hid_v01.301 page 14 of 112 2011-04-07 confidential / released ? 1.3 regulatory and type approval information 1.3.1 directives and standards BGS2-E/bgs2-w is designed to comply with the directives and standards listed below. it is the responsibility of the application manufac turer to ensure compliance of the final product with all provisions of the applicable directives and standards as well as with the technical spec- ifications provided in the "BGS2-E/bgs2-w hardware interface description". 1 1. manufacturers of applications which can be used in the us shall ensure that their applications have a ptcrb approval. for this purpose they can refer to the ptcrb approval of the respective module. table 1: directives 1999/05/ec directive of the european parlia ment and of the council of 9 march 1999 on radio equipment and telecommunications terminal equipment and the mutual recognition of thei r conformity (in short referred to as r&tte direc- tive 1999/5/ec). the product is labeled with the ce conformity mark 2002/95/ec directive of the europe an parliament and of the council of 27 january 2003 on the restriction of the use of certain hazardous substances in electrical and electronic equip- ment (rohs) table 2: standards of north am erican type approval 1 1. applies for the quad band module variant bgs2-w only. cfr title 47 code of federal regulations, part 22 and part 24 (telecommunications, pcs); us equipment authorization fcc ul 60 950-1 product safety certification (safety requirements) naprd.03 v5.6 overview of pc s type certification review board mobile equipment type certification and imei control pcs type certification review board (ptcrb) rss132 (issue2) rss133 (issue5) canadian standard table 3: standards of european type approval 3gpp ts 51.010-1 digital cellular telecommunications system (phase 2); mobile station (ms) conformance specification etsi en 301 511 v9.0.2 candidate harmonized european standard (telecommunications series) global system for mobile communic ations (gsm); harmonized standard for mobile stations in the gsm 900 and dcs 1800 bands covering essen- tial requirements under article 3.2 of the r&tte directive (1999/5/ec) (gsm 13.11 version 7.0.1 release 1998) gcf-cc v3.40 global certification forum - certification criteria www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 1.3 regulatory and type approval information 18 bgs2_hid_v01.301 page 15 of 112 2011-04-07 confidential / released ? etsi en 301 489-1 v1.8.1 candidate harmonized european stand ard (telecommunications series) electro magnetic compatibility and ra dio spectrum matters (erm); elec- tro magnetic compatibility (emc) st andard for radio equ ipment and ser- vices; part 1: common technical requirements etsi en 301 489-7 v1.3.1 candidate harmonized european stand ard (telecommunications series) electro magnetic compatibility and ra dio spectrum matters (erm); elec- tro magnetic compatibility (emc) st andard for radio equ ipment and ser- vices; part 7: specific conditions for mobile and portable radio and ancillary equipment of digital cellu lar radio telecommunications systems (gsm and dcs) en 60950-1:2006 safety of information technology equipment table 4: requirements of quality iec 60068 environmental testing din en 60529 ip codes table 5: standards of the ministry of information i ndustry of the people?s republic of china sj/t 11363-2006 ?requirements for concentr ation limits for certain hazardous sub- stances in electronic information products? (2006-06). sj/t 11364-2006 ?marking for control of pollution caused by electronic information products? (2006-06). according to the ?chinese administration on the control of pollution caused by electronic information products? (acpeip) the epup, i.e., en vironmental protection use period, of this product is 20 years as per the symbol shown here, unless otherwise marked. the epup is valid only as long as the product is operated within the o perating limits described in the cin- terion wireless modules hard ware interface description. please see table 6 for an overview of toxic or hazardous substances or elements that might be contained in product parts in concentrations above the limits defined by sj/t 11363-2006. table 3: standards of european type approval www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 1.3 regulatory and type approval information 18 bgs2_hid_v01.301 page 16 of 112 2011-04-07 confidential / released ? table 6: toxic or hazardous substances or elem ents with defined concentration limits www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 1.3 regulatory and type approval information 18 bgs2_hid_v01.301 page 17 of 112 2011-04-07 confidential / released ? 1.3.2 sar requirements spec ific to portable mobiles mobile phones, pdas or other portable transmitters and receivers incorporating a gsm module must be in accordance with the guidelines fo r human exposure to radio frequency energy. this requires the specific absorption rate (sar ) of portable BGS2-E/bgs2-w based applications to be evaluated and approved for compliance with national and/or international regulations. since the sar value varies significantly with the individual product design manufacturers are advised to submit their product for approval if designed for portable use. for european and us markets the relevant directives are mentioned below. it is the responsibility of the manufacturer of the final product to verify whether or not further standards, recommendations or directives are in force outside these areas. products intended for sale on us markets 1 es 59005/ansi c95.1 considerations for evaluat ion of human exposure to electromagnetic fields (emfs) from mobile telecom munication equipment (mte) in the frequency range 30mhz - 6ghz products intended for sale on european markets en 50360 product standard to demonstrate the compliance of mobile phones with the basic restrictions related to human exposure to electromagnetic fields (300mhz - 3ghz) 1. applies for the quad band module variant bgs2-w only. www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 1.3 regulatory and type approval information 18 bgs2_hid_v01.301 page 18 of 112 2011-04-07 confidential / released ? 1.3.3 safety precautions the following safety precautions must be observ ed during all phases of the operation, usage, service or repair of any cellular terminal or mobile incorporating BGS2-E/bgs2-w. manufac- turers of the cellular terminal are advised to convey the following safety information to users and operating personnel and to incorporate these guidelines into all manuals supplied with the product. failure to comply with these precauti ons violates safety standards of design, manu- facture and intended use of the product. cinterion wireless modules assumes no liability for customer?s failure to comply with these precautions. when in a hospital or other health care facility, observe the restrictions on the use of mobiles. switch the cellular te rminal or mobile off, if instructed to do so by the guide- lines posted in sensitive ar eas. medical equipment may be sensitive to rf energy. the operation of cardiac pacemakers, other implanted medical equipment and hear- ing aids can be affected by interference fr om cellular terminals or mobiles placed close to the device. if in doubt about potential danger, contact the physician or the manufac- turer of the device to verify that the equipment is properly shielded. pacemaker patients are advised to keep their hand-held mobile away from the pacemaker, while it is on. switch off the cellular te rminal or mobile before boarding an aircraft. make sure it can- not be switched on inadvertently. the operatio n of wireless appliances in an aircraft is forbidden to prevent interference with commu nications systems. failure to observe these instructions may lead to the suspension or denial of cellular services to the offender, legal action, or both. do not operate the cellular terminal or mobile in the presence of flammable gases or fumes. switch off the cellular terminal when you are near petrol stations, fuel depots, chemical plants or where blasting operations are in progress. operation of any elec- trical equipment in potentially explosive at mospheres can constitu te a safety hazard. your cellular terminal or mobile receives and transmits radio frequency energy while switched on. remember that interference ca n occur if it is used close to tv sets, radios, computers or inadequately shielded equipment. follow any special regulations and always switch off the cellular terminal or mobile wherever forbidden, or when you suspect that it may cause interference or danger. road safety comes first! do not use a hand-held cellular terminal or mobile when driv- ing a vehicle, unless it is securely mount ed in a holder for speakerphone operation. before making a call with a hand-held terminal or mobile, park the vehicle. speakerphones must be installed by qualified personnel. faulty installation or opera- tion can constitute a safety hazard. important! cellular terminals or mobile s operate using radio signals and cellular networks. because of this, connection cannot be guara nteed at all times under all conditions. therefore, you should never rely solely upon any wireless device for essential com- munications, for example emergency calls. remember, in order to make or receive calls , the cellular terminal or mobile must be switched on and in a service area with adequate cellular signal strength. some networks do not allow for emergency calls if certain network services or phone features are in use (e.g. lock functions, fixe d dialing etc.). you may need to deactivate those features before you can make an emergency call. some networks require that a valid sim card be properly inserted in the cellular termi- nal or mobile. www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 2 product concept 22 bgs2_hid_v01.301 page 19 of 112 2011-04-07 confidential / released ? 2 product concept 2.1 key features at a glance feature implementation general frequency bands dual band (BGS2-E): gsm 900/1800mhz quad band (bgs2-w): gs m 850/900/1800/1900mhz gsm class small ms output power (according to release 99, v5) class 4 (+33dbm 2db) for egsm850 (quad band only) class 4 (+33dbm 2db) for egsm900 class 1 (+30dbm 2db) for gsm1800 class 1 (+30dbm 2db) for gsm1900 (quad band only) power supply 3.3v to 4.5v operating temperature (board temperature) normal operation: -30c to +85c restricted operation: -40c to -30c, +85c to +90c physical dimensions: 27.6mm x 18.8mm x 2.7mm weight: approx. 3 g rohs all hardware compon ents fully compliant with eu rohs directive gsm/gprs features data transfer gprs: ? multislot class 8 (dual band) or 10 (quad band) ? full pbcch support ? mobile station class b ? coding scheme 1 ? 4 csd: ? v.110, rlp, non-transparent ? 2.4, 4.8, 9.6, 14.4kbps ?ussd ppp-stack for gprs data transfer sms point-to-point mt and mo cell broadcast text and pdu mode storage: sim card plus 25 sms locations in mobile equipment transmission of sms alternatively ov er csd or gprs. preferred mode can be user defined. fax group 3; class 1 audio speech codecs: ? half rate hr (ets 06.20) ? full rate fr (ets 06.10) ? enhanced full rate efr (ets 06.50/06.60/06.80) ? adaptive multi rate amr handsfree operation, echo cancellation, noise suppression, 7 different ringing tones/melodies www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 2.1 key features at a glance 22 bgs2_hid_v01.301 page 20 of 112 2011-04-07 confidential / released ? software at commands hayes 3gpp ts 27.007, ts 27.005, cinterion at commands for ril compatibility microsoft? compatibility ril for pocket pc and smartphone sim application toolkit sat release 99 tcp/ip stack protocols: tcp server /client, udp, http, ftp, smtp, pop3 access by at commands firmware update generic update from host application over asc0 or asc1. interfaces module interface surface mount device with sol derable connection pads (smt application interface). land grid array (lga) te chnology ensures high so lder joint reliability and provides the possibility to use an optional module mounting socket. for more information on how to integrate smt modules see also [3] . this application note comprises chapters on module mounting and application layout issues as well as on additi onal smt application development equip- ment. 2 serial interfaces asc0: ? 8-wire modem interface with status and control lines, unbalanced, asyn- chronous ? adjustable baud rates: 1,200bps to 230,400bps ? autobauding: 1,200bps to 230 ,400 bps ? supports rts0/cts0 hardware ha ndshake and software xon/xoff flow control. ? multiplex ability according to gsm 07.10 multip lexer protocol. asc1: ? 4-wire, unbalanced asynchronous interface ? adjustable baud rates: 1,200bps to 230,400bps ? supports rts1/cts1 hardware ha ndshake and software xon/xoff flow control audio 1 analog interface (with microphone feeding) uicc interface supported sim/usim cards: 3v, 1.8v external sim card reader has to be connected via interface connector (note that card reader is not part of BGS2-E/bgs2-w) gpio interface gpio interface with 10 gpio lines . the gpio interface is shared with an i2c interface, led signalling and pwm functionality. antenna 50 ? power on/off, reset power on/off switch-on by hardware signal on switch-off by at command (at^smso) automatic switch-off in case of critic al temperature and voltage conditions. reset orderly shutdown and reset by at command special features real time clock timer functions via at commands phonebook sim and phone tty/ctm support integrated ctm modem feature implementation www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 2.2 BGS2-E/bgs2-w system overview 22 bgs2_hid_v01.301 page 21 of 112 2011-04-07 confidential / released ? 2.2 BGS2-E/bgs2-w system overview figure 1: BGS2-E/bgs2-w system overview gpio interface i2c dac (pwm) status audio asc0 asc1 control rtc power antenna bgs2 sim interface sim card application power supply backup supply emergency reset on serial interface serial modem interface led / gpio pwm / gpio gpio i2c / gpio 2 2 8 4 5 1 2 2 5 1 1 1 2 audio microphone feeding 1 antenna 1 1 2 3 www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 2.3 circuit concept 22 bgs2_hid_v01.301 page 22 of 112 2011-04-07 confidential / released ? 2.3 circuit concept figure 2 shows a block diagram of the BGS2-E/bgs2-w module and illustrates the major func- tional components: baseband block: ? gsm baseband processor and power management ? stacked flash/psram memory ? application interface (s mt with connecting pads) gsm rf section: ? rf transceiver (part of baseband processor ic) ? rf power amplifier/front-end module inc. harmonics filtering ? receive saw filters figure 2: BGS2-E/bgs2-w block diagram nor flash/psram rf power amplifier/ frontend module 26mhz 32khz rx saw filter rx saw filter transceiver switching regulator bb-linear regulator rf-linear regulator gpio i 2 c pwm status audio serial modem interface serial interface on emergency reset sim interface power rtc supply antenna interface data & adress bus control rtc gsm processor and power management control adc measurement audio serial interface sim memory interface gpio www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 3 application interface 62 bgs2_hid_v01.301 page 23 of 112 2011-04-07 confidential / released ? 3 application interface BGS2-E/bgs2-w is equipped with an smt application interface that connects to the external application. the host interface incorporates several sub-interfaces described in the following sections: ? power supply - see section 3.2 ? rtc backup ? see section 3.7 ? sim/usim interface - see section 3.8 ? serial interface asc0 - see section 3.9 ? serial interface asc1 - see section 3.10 ? analog audio interface - see section 3.11 ? gpio interface - see section 3.12 ?i 2 c interface - section 3.13 ? pwm interfaces - section 3.14 ? status control - led: section 3.15 , ring line: section 3.16 , power indication: section 3.17 www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 3.1 operating modes 62 bgs2_hid_v01.301 page 24 of 112 2011-04-07 confidential / released ? 3.1 operating modes the table below briefly summariz es the various operating modes referred to in the following chapters. see the following sections for the various opt ions of waking up BGS2-E/bgs2-w and proceed- ing from one mode to another. table 7: overview of operating modes normal operation gsm/gprs sl eep various power save modes set with at+cfun command. software is active to minimum extent. if the module was registered to the gsm network in idle mode, it is registered and paging with the bts in sleep mode, too. power sav- ing can be chosen at different levels: the non-cyclic sleep mode (at+cfun=0) disabl es the at interface. the cyclic sleep modes at+cfun=7 and 9 alternatingly activate and deactivate the at interfaces to allow perma- nent access to all at commands. gsm idle software is active. once registered to the gsm network, paging with bts is carried out. the module is ready to send and receive. gsm talk connection between two subscribers is in progress. power consumption depends on network coverage individual set- tings, such as dtx off/ on, fr/efr/hr, hopping sequences, antenna. gprs idle module is ready for gprs data transfer, but no data is cur- rently sent or received. power consumption depends on network settings and gprs configuration (e.g. multislot set- tings). gprs data gprs data transfer in progress. power consumption depends on network settings (e.g. power control level), uplink/downlink data rates, gprs configuration (e.g. used multislot settings) and reduction of maximum output power. power down normal shutdown after sending the at^smso command. only a voltage regulator is active for po wering the rtc. software is not active. interfaces are not accessible. operating voltage (connected to batt+) remains applied. alarm mode restricted operation launched by rtc alert function while the module is in power down mode. module will not be registered to gsm network. limited number of at commands is accessible. www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 3.2 power supply 62 bgs2_hid_v01.301 page 25 of 112 2011-04-07 confidential / released ? 3.2 power supply BGS2-E/bgs2-w needs to be connected to a powe r supply at the smt application interface (2 lines each batt+ and gnd). the power supply of BGS2-E/bgs2-w has to be a single voltage source at batt+. it must be able to provide the peak current during the uplink transmission. all the key functions for supplying power to the device are handled by the power management section of the analog controller. this ic provides the following features: ? stabilizes the supply voltages for the gsm baseband using low drop linear voltage regula- tors and a dc-dc step down switching regulator. ? switches the module's power voltages for the power-up and -down procedures. ? delivers, across the vext line, a regulated voltage for an exte rnal application. this voltage is not available in power-down mode. ? sim switch to provide sim power supply. 3.2.1 minimizing power losses when designing the power supply for your applicat ion please pay specific attention to power losses. ensure that the input voltage v batt+ never drops below 3.3v on the BGS2-E/bgs2-w board, not even in a gsm transmit burst where current consumption can rise (for peaks values see the power supply ratings listed in section 5.5 ). it should be noted that BGS2-E/bgs2-w switches off when exceeding these limits. any voltage drops that may occur in a transmit burst should not exceed 400mv. the module switches off if the minimum battery voltage ( v battmin ) is reached. example: v battlowlimit = 3.3v d dropmax = 0.4v v battmin = v battlowlimit + d dropmax v battmin = 3.3v + 0.4v = 3.7v figure 3: power supply limits during transmit burst www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 3.2 power supply 62 bgs2_hid_v01.301 page 26 of 112 2011-04-07 confidential / released ? 3.2.2 measuring the supply voltage (v batt+ ) to measure the supply voltage v batt+ it is possible to define two reference points gnd and batt+. gnd should be the module?s shielding, while batt+ should be a test pad on the ex- ternal application the module is mounted on. the external batt+ reference point has to be connected to and positioned close to the smt app lication interface?s batt+ pads 5 or 53 as shown in figure 4 . figure 4: position of reference points batt+and gnd 3.2.3 monitoring power supply by at command to monitor the supply voltage you can also use the at^sbv co mmand which returns the value related to the reference points batt+ and gnd. the module continuously measures the voltage at intervals depending on the operating mode of the rf interface. the duration of measuring ranges from 0.5s in ta lk/data mode to 50s when BGS2-E/bgs2-w is in idle mode or limit ed service (deregistered). the displayed volt- age (in mv) is averaged over the last measuring period before the at ^sbv command was ex- ecuted. reference point gnd: module shielding reference point batt+: external test pad connected to and positioned closely to batt+ pad 5 or 53. external application www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 3.3 power up/power down scenarios 62 bgs2_hid_v01.301 page 27 of 112 2011-04-07 confidential / released ? 3.3 power up/power down scenarios in general, be sure not to turn on BGS2-E/bgs2-w while it is beyond the safety limits of voltage and temperature stated in chapter 5 . BGS2-E/bgs2-w would immediately switch off after hav- ing started and detected these inappropriate c onditions. in extreme cases this can cause per- manent damage to the module. 3.3.1 turn on BGS2-E/bgs2-w BGS2-E/bgs2-w can be started as des cribed in the following sections: ? hardware driven switch on by on line: starts normal mode (see section 3.3.1.1 ). ? wake-up from power down mode by using rtc interrupt: starts alarm mode (see section 3.3.1.3 ). 3.3.1.1 switch on BGS2-E /bgs2-w using on signal when the operating voltage batt+ is applied, BGS2-E/bgs2-w can be switched on by means of the on signal. if the operating voltage batt+ is applied while the on signal is present, BGS2-E/bgs2-w will be switched on automatically. please note that if the rise time for the operating voltage batt+ is longer than 12ms, the module start up will be delayed by about 1 second. please also note that if there is no on signal present right after applying batt+, BGS2-E/bgs2- w will instead of switching on perform a very short switch on/off sequence (approx. 120ms) that cannot be avoided. the on signal is a high active signal and only allows the input voltage level of the vddlp sig- nal. the following figure 5 shows an example for a switch-on circuit (an alternative switch-on possibility is shown in figure 57 ). figure 5: on circuit sample vddlp on 100k 100k rtc backup www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 3.3 power up/power down scenarios 62 bgs2_hid_v01.301 page 28 of 112 2011-04-07 confidential / released ? it is recommended to set a serial 1kohm resistor between the on circuit and the external ca- pacitor or battery at the vddlp power supply. this serial resistor protection is necessary in case the capacitor or battery has low power (is empty). please note that the on signal is an edge triggered signal. this implies that a micro-second high pulse on the signal line suffices to almost immediately switch on the module, as shown in figure 6 . the following section 3.3.1.2 describes a sample circuit that may be implemented to prevent possible spikes or glitc hes on the on signal line from unintentionally switching on the module. please also note that if the state of the on signal is coupled to the state of the vddlp line or that if the on signal otherwise remains active high after switch on, it is no longer possible to switch off BGS2-E/bgs2-w using the at comm and at^smso. using this command will in- stead automatically restart the module. figure 6: on timing if configured to a fixed bit rate (at+ipr ? 0), the module will send the urc ?^sysstart? which notifies the host application that the first at command can be sent to the module. the duration until this urc is output varies wi th the sim card and may take a couple of seconds, particularly if the request for the sim pin is deactivated on the sim card. please note that no ?^sysstart? urc will be generated if autobauding (at+ipr=0) is en- abled. to allow the application to detect the ready state of the module we recommend using hardware flow control which can be set with at\q (see [1] for details). the default setting is at\q0 (no flow control) which shall be altered to at\q3 (rts/cts handshake). if the application design does not integrate rts/cts lines the host application shall wa it at least for the ?^sysstart? urc. however, if the urc is not available (due to autobauding), you will simply have to wait for a period of time (at least 2 seconds) befor e assuming the module to be in ready state and before entering any data. please note that no data must be sent over the asc0 interface before the interface is active and ready to receive data. batt + on emerg _ rst v 180 v 285 vddlp a high impulse starts the module up www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 3.3 power up/power down scenarios 62 bgs2_hid_v01.301 page 29 of 112 2011-04-07 confidential / released ? 3.3.1.2 suppressing unintentiona l pulses on on signal line since the on signal is edge triggered and a micr osecond high pulse on t he signal line suffices to almost immediately switch on the module, it might be necessary to implement a circuit on the external application that prevents possible sp ikes or glitches on the signal line from unin- tentionally switching on the module. figure 7 shows an example for such a circuit. figure 7: sample circuit to suppress spikes or glitches on on signal line vddlp on 100k 100k 10k 100k 220nf rtc backup www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 3.3 power up/power down scenarios 62 bgs2_hid_v01.301 page 30 of 112 2011-04-07 confidential / released ? 3.3.1.3 turn on BGS2-E/bgs2-w using the rtc (alarm mode) another power-on approach is to use the rtc, wh ich is constantly supplied with power from a separate voltage regulator in the power supply processor. the rtc provides an alert function, which allows the BGS2-E/bgs2-w to wake up whilst the internal voltage regulators are off. this procedure only enables restri cted operation, referred to as alarm mode. it must not be confused with a reminder message that can be ac tivated by using the same at command, but without switching off power. use the at+cala command to set the alarm time. the rtc retains the alarm time if BGS2-E/ bgs2-w was powered down by at^smso. once the alarm is timed out and executed, bgs2- e/bgs2-w enters alarm mode. this is indicated by an unsolicited result code (urc) which reads: ^sysstart alarm mode note that this urc is the only indication of the alarm mode and will not appear when autobaud- ing at+ipr=0 was activated (due to the mi ssing synchronization between dte and dce upon start-up). therefore, it is recommended to select a fixed baudrate before using the alarm mode. in alarm mode the module is deregistered from the gsm network and only a limited number of at commands is available. for a table show ing the availability of at commands depending on the module?s operating mode please refer to [1] . for the module to change from alarm mode to full operation (normal operating mode) it is pos- sible to use the at+cfun command or to switch on the module using the on signal. the latter must be implemented in your ho st application as described in section 3.3.1.1 . 3.3.2 restart BGS2-E/bgs2-w after startup BGS2-E/bgs2-w can be re-start ed as described in the following sections: ? software controlled reset by at+cfun command: starts normal mode (see section 3.3.2.1 ). ? hardware controlled reset by emerg_ rst line: starts normal mode (see section 3.3.2.2 ) 3.3.2.1 restart BGS2-E/bgs 2-w via at+cfun command to reset and restart the BGS2-E/bgs2-w module use the command at+cfun. you can enter the command at+cfun=,1 or 1,1 or 7,1 or 9,1. see [1] for details. if configured to a fix baud rate (at+ipr ? 0), the module will send the urc "^sysstart" to notify that it is ready to operate. if autobauding is enabled (at+ipr=0) there will be no notifica- tion. to register to the network sim pin authentication is necessary after restart. www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 3.3 power up/power down scenarios 62 bgs2_hid_v01.301 page 31 of 112 2011-04-07 confidential / released ? 3.3.2.2 restart BGS2-E/b gs2-w using emerg_rst the emerg_rst signal is internally connected to the central gsm processor. a low level for more than 10ms sets the processor and with it all the other signal pads to their respective reset state. the reset state is described in section 3.3.3 as well as in the figures showing the startup behavior of an interface. after releasing the emerg-rst line, i.e., with a change of the signal level from low to high, the module restarts. the other signals continue from their rese t state as if the module was switched on by the on signal. figure 8: emergency restart timing it is recommended to control this emerg_rst line with an open collector transistor or an open drain field-effect transistor. caution: use the emerg_rst line only when, due to serious problems, the software is not responding for more than 5 seconds. pulling the emerg_rst line causes the loss of all infor- mation stored in the volatile memory. therefore, this procedure is intended only for use in case of emergency, e.g. if BGS2-E/bgs2-w does not respond, if reset or shutdown via at com- mand fails. batt+ on emerg_rst v180 v285 vddlp >10ms system started system started again reset state firmware initialization internal reset www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 3.3 power up/power down scenarios 62 bgs2_hid_v01.301 page 32 of 112 2011-04-07 confidential / released ? 3.3.3 signal states after startup table 8 lists the states each interface signal passes through during reset and firmware initial- ization. the reset state is reached with the rising edge of the emerg_rst signal - either after a normal module startup (see section 3.3.1.1 ) or after a reset (see section 3.3.2.2 ). after the reset state has been reached the firmware initialization state begins. the firmware initialization is complet- ed as soon as the asc0 interface lines cts0, dsr0 and ring0 as well as the asc1 interface line cts1 have turned low (see section 3.9 and section 3.10 ). now, the module is ready to receive and transmit data. table 8: signal states signal name reset state firmware initialization ccin t / 100k pd i / 100k pd ccrst l o / l ccio l o / l ccclk l o / l ccvcc t / pu_b o / l rxd0 t / 2 x pu_a o / h txd0 t / 2 x pu_a i cts0 pd_b o / h rts0 t / 10k pu i / 10k pu ring0 t / 10k pu o / h, 10k pu dtr0 t / pd_a t / pd_a dcd0 t / pu_a t / pu_a dsr0 t / pd_c t / pd_c rxd1 t / pd_b o / h txd1 t / pd_b i cts1 t / pd_b o / h rts1 t / pu_a i / pu_a gpio1 t / pu_b t / pu_b gpio2 t / pu_b t / pu_b gpio3 t / pu_b t / pu_b gpio4 t / pu_a t / pu_a gpio5 / led t / pu_a t / pu_a gpio6 / pwm2 t / pu_b t / pu_b gpio7 / pwm1 t / pu_b t / pu_b gpio8 t / pu_b t / pu_b gpio9 / i2cdat t / od t / od gpio10 / i2cclk t / 5k pu / od t / 5k pu / od www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 3.3 power up/power down scenarios 62 bgs2_hid_v01.301 page 33 of 112 2011-04-07 confidential / released ? abbreviations used in above table 8 : l = low level h = high level l/h = low or high level t = tristate i = input o = output od = open drain pd_a = pull down, 103a at 1.75v pd_b = pull down, 51a at 1.75v pd_c = pull down, 27a at 1.75v pu_a = pull up -102a at 0.05v pu_b = pull up -55a at 0.05v pu_c = pull up -31a at 0.05v www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 3.3 power up/power down scenarios 62 bgs2_hid_v01.301 page 34 of 112 2011-04-07 confidential / released ? 3.3.4 turn off BGS2-E/bgs2-w to switch the module off the following procedures may be used: ? normal shutdown procedure : software controlled by sending the at^smso command over the serial application interface. see section 3.3.4.1 . ? automatic shutdown : see section 3.3.5 - takes effect if under- or overvoltage is detected. - takes effect if BGS2-E/bgs2-w board temperature exceeds a critical limit. 3.3.4.1 switch off BGS2-E/b gs2-w using at command the best and safest approach to powering down BGS2-E/bgs2-w is to issue the at^smso command. this procedure lets BGS2-E/bgs2-w log off from the network and allows the soft- ware to enter into a secure state and safe data before disconnecting the power supply. the mode is referred to as power down mode. in this mode, only the rtc stays active. before switching off the device sends the following response: ^smso: ms off ok ^shutdown after sending at^smso do not enter any other at commands. there are two ways to verify when the module turns off: ? wait for the urc ?^shutdown?. it indicates that data have been stored non-volatile and the module turns off in less than 1 second. ? also, you can monitor the v180/v285 pads. the low state of these pads definitely indicates that the module is switched off. be sure not to disconnect the operating voltage v batt+ before the urc ?^shutdown? has been issued and the v180/v285 pads have gone low. otherwise you run the risk of losing data. while BGS2-E/bgs2-w is in power down mode the application interface is switched off and must not be fed from any other voltage source. therefore, your application must be designed to avoid any current flow into any digi tal pads of the application interface. www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 3.3 power up/power down scenarios 62 bgs2_hid_v01.301 page 35 of 112 2011-04-07 confidential / released ? figure 9: switch off behavior batt+ on emerg_rst v180 v285 vddlp at^smso system power down procedure power down www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 3.3 power up/power down scenarios 62 bgs2_hid_v01.301 page 36 of 112 2011-04-07 confidential / released ? 3.3.5 automatic shutdown automatic shutdown takes effect if any of the following events occurs: ? the BGS2-E/bgs2-w board is exceeding the critic al limits of overtemperature or undertem- perature ? undervoltage or overvoltage is detected the automatic shutdown procedure is equivalent to the power-down initiated with the at^smso command, i.e. BGS2-E/bgs2-w logs off from the network and the software enters a secure state avoiding loss of data. 3.3.5.1 thermal shutdown the board temperature is constantly monitored by an internal ntc resistor located on the pcb. the values detected by the ntc resistor are measured directly on the board and therefore, are not fully identical with the ambient temperature. each time the board temperature goes out of range or back to normal, BGS2-E/bgs2-w in- stantly displays an alert (if enabled). ? urcs indicating the level "1" or "-1" allow the user to take appropriate precautions, such as protecting the module from exposure to ex treme conditions. the presentation of the urcs depends on the settings selected with the at^sctm write command (for details see [1] ): at^sctm=1: presentation of urcs is always enabled. at^sctm=0 (default): presentation of urcs is enabled during the 15 second guard period after start-up of BGS2-E/bgs2-w. after expiry of the 15 second guard period, the presen- tation will be disabled, i.e. no urcs wi th alert levels "1" or ''-1" will be generated. ? urcs indicating the level "2" or "-2" are instantly followed by an orderly shutdown. the pre- sentation of these urcs is always enabled, i.e. they will be output even though the factory setting at^sctm=0 was never changed. the maximum temperature ratings are stated in section 5.2 . refer to table 9 for the associated urcs. table 9: temperature dependent behavior sending temperature alert (15s after BGS2-E/bgs 2-w startup, otherwise only if urc presentation enabled) ^sctm_b: 1 board close to overtemperature limit. ^sctm_b: -1 board close to undertemperature limit. ^sctm_b: 0 board back to non-critical temperature range. automatic shutdown (urc appears no matter whether or not presentation was enabled) ^sctm_b: 2 alert: board equal or beyond overtemperature limit. BGS2-E/bgs2-w switches off. ^sctm_b: -2 alert: board equal or below undertemperature limit. BGS2-E/bgs2-w switches off. www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 3.3 power up/power down scenarios 62 bgs2_hid_v01.301 page 37 of 112 2011-04-07 confidential / released ? 3.3.5.2 undervoltage shutdown if the measured supply voltage is no more suffici ent to set up a call the following urc will be presented: ^sbc: undervoltage. the message will be reported, for example, when you attempt to make a call while the voltage is close to the shutdown threshold of 3.3v and further power loss is caused during the transmit burst. in an idle state, the shutdown threshold is the sum of the module?s minimum supply volt- age (3.3v) and the value of the maximum voltage drop resulting from earlier calls. this means that in an idle state the actual shutdown threshold may be higher than 3.3v. therefore, to prop- erly calculate the actual shutdown threshold app lication manufacturers are advised to measure the maximum voltage drops that may occur during transmit bursts. this type of urc does not need to be activated by the user. it will be output automatically when fault conditions occur. 3.3.5.3 overvoltage shutdown the overvoltage shutdown threshold is 100mv above the maximum supply voltage v batt+ specified in table 24 . when the supply voltage approaches the overvoltage shutdown threshold the module will send the following urc: ^sbc: overvoltage this alert is sent once. when the overvoltage shutdown threshold is exceeded the module will shut down cleanly. this type of urc does not need to be activated by the user. it will be output automatically when fault conditions occur. keep in mind that several BGS2-E/bgs2-w co mponents are directly linked to batt+ and, therefore, the supply voltage remains applied at major parts of BGS2-E/bgs2-w. especially the power amplifier is very sensitive to high voltage and might even be destroyed. www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 3.4 automatic gprs multislot class change 62 bgs2_hid_v01.301 page 38 of 112 2011-04-07 confidential / released ? 3.4 automatic gprs mu ltislot class change please note that automatic gprs multislot cl ass change applies only for the quad band module variant bgs2-w: temperature control is also effective for operati on in gprs multislot class 10. if the board tem- perature increases to the limit specified for restricted operation (see section 5.2 for tempera- ture limits) while data is transmitted over gp rs, the module automatically reverts from gprs multislot class 10 (2tx) to class 8 (1tx). this reduces the power consumption and, conse- quently, causes the board?s temperature to decr ease. once the temperature drops to a value of 5 degrees below the limit of restricted operation, bgs2-w returns to the higher multislot class. if the temperature stays at the critical le vel or even continues to rise, bgs2-w will not switch back to the higher class. after a transition from multislot class 10 to mult islot 8 a possible switc hback to multislot class 10 is blocked for one minute. please note that there is not one single cause of switching over to a lower gprs multislot class. rather it is the result of an interaction of several factors, such as the board temperature that depends largely on the ambient temperature, the operating mode and the transmit power. furthermore, take into account that there is a delay until the network proceeds to a lower or, accordingly, higher multislot class. the delay time is network dependent. in extreme cases, if it takes too much time for the network and the temperature cannot drop due to this delay, the module may even switch off as described in section 3.3.4 . www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 3.5 power saving 62 bgs2_hid_v01.301 page 39 of 112 2011-04-07 confidential / released ? 3.5 power saving sleep mode reduces the functionality of the BGS2-E/bgs2-w module to a minimum and, thus, minimizes the current consumption to t he lowest level. settings can be made using the at+cfun command. for details see below and [1] . sleep mode falls into two categories: ? non-cyclic sleep mode at+cfun=0 ? cyclic sleep modes, selectable with at+cfun=7 or 9. important: please keep in mind that power saving works properly only when pin authenti- cation has been done. if you attempt to activate power saving while the sim card is not inserted or the pin not correctly entered (limited service), the selected BGS2-E/bgs2-w hardware interface description 3.5 power saving 62 bgs2_hid_v01.301 page 40 of 112 2011-04-07 confidential / released ? 3.5.3 cyclic sleep mode at+cfun=7 the functionality level at+cfun=7 is referred to as cy clic sleep modes. the major benefit of all cyclic sleep modes is that the serial interface remains accessible, and that, in inter- mittent wake-up periods, characters can be sent or received without terminating the selected mode. the cyclic sleep modes give you greater flex ibility regarding the wake-up procedures: for example, in all cyclic sleep modes, you can enter at+cfun=1 to permanently wake up the module. in mode cfun=7, BGS2-E/bgs2-w automatically resumes power saving, after you have sent or received a short message, made a call or completed a gprs transfer. please refer to table 10 for a summary of all modes. the cyclic sleep mode is a dynamic process which alternatingly enables and disables the serial interface. by setting/resetting the cts signal, the module indicates to the application whether or not the uart is active . the timing of cts is described below. both the application and the module must be configured to use hardware flow control (rts/ cts handshake). the default setting of BGS2-E/b gs2-w is at\q0 (no flow control) which must be altered to at\q3. see [1] for details. note: if both serial interfaces asc0 and asc1 are connected, both are synchronized. this means that sleep mode takes effect on both, no matter on which interface the at command was issued. although not explicitly stated, all ex planations given in this section refer equally to asc0 and asc1, and accordingly to cts0 and cts1. 3.5.4 cyclic sleep mode at+cfun=9 mode at+cfun=9 is similar to at+cfun=7, but provides two additional features: ? the time the module stays active after rts was asserted or after the last character was sent or received, can be configured indivi dually using the command at^scfg. default set- ting is 2 seconds like in at+cfun=7. the entire range is from 0.5 seconds to 1 hour, selectable in tenths of seconds. for details see [1] . ? rts0 and rts1 are not only used for flow control (as in mode at+cfun=7), but also cause the module to wake up temporarily. see section 3.5.6.1 for details. 3.5.5 timing of the cts sign al in cyclic sleep modes the cts signal is enabled in synchrony with the module?s paging cycle. it goes active low each time when the module starts lis tening to a paging message block from the base station. the timing of the paging cycle varies with the base station. the duration of a paging interval can be calculated from the following formula: 4.616 ms (tdma frame duration) * 51 (number of frames) * drx value . drx (discontinuous reception) is a value from 2 to 9, resulting in paging intervals from 0.47 to 2.12 seconds. the drx value of the base station is assigned by the network operator. each listening period causes the cts signal to go active low: if drx is 2, the cts signal is activated every 0.47 seconds, if drx is 3, the cts signal is activated every 0.71 seconds and if drx is 9, the cts signal is activated every 2.1 seconds. www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 3.5 power saving 62 bgs2_hid_v01.301 page 41 of 112 2011-04-07 confidential / released ? the cts signal is active low for 4.6 ms. this is fo llowed by another 4.6 ms uart activity. if the start bit of a received character is detected wi thin these 9.2 ms, cts will be activated and the proper reception of the character will be guarant eed. cts will also be activated if any character is to be sent. after the last character was sent or received the interface will remain active for ? another 2 seconds, if at+cfun=7 ? or for an individual time defined with at^scfg, if at+cfun=9. assertion of rts has the same effect. in the pauses between listening to paging messa ges, while cts is high, the module resumes power saving and the at interface is not accessible. see figure 10 and figure 11 . figure 10: timing of cts signal (example for a 2. 12 s paging cycle) figure 11 illustrates the cfun=7 modes, which reset the cts signal 2 seconds after the last character was sent or received. figure 11: beginning of power saving if cfun=7 www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 3.5 power saving 62 bgs2_hid_v01.301 page 42 of 112 2011-04-07 confidential / released ? 3.5.6 wake up BGS2-E/b gs2-w from sleep mode a wake-up event is any event that causes the module to draw current. depending on the se- lected mode the wake-up event either swit ches sleep mode off and takes BGS2-E/bgs2-w back to at+cfun=1, or activates BGS2-E/bgs 2-w temporarily without leaving the current sleep mode. definitions of the state transitions described in table 10 : quit = BGS2-E/bgs2-w exits sleep mode and returns to at+cfun=1. temporary = BGS2-E/bgs2-w becomes active te mporarily for the duration of the event and the mode specific follow-up time after the last character was sent or received on the serial interface. no effect = event is not relevant in the selected sleep mode. BGS2-E/bgs2-w does not wake up. table 10: wake-up events in non-cycl ic and cyclic sleep modes event selected mode at+cfun=0 selected mode at+cfun=7 or 9 ignition line no effect no effect rts0 or rts1 1 ) (falling edge) 1. see section 3.5.6.1 on wake-up via rts. quit + flow control mode 7: no effect, rts is only used for flow control mode 9: temporary + flow control unsolicited result code (urc) quit temporary incoming voice or data call quit temporary any at command (incl. outgoing voice or data call, outgoing sms) not possible (uart disabled) temporary incoming sms depending on mode selected by at+cnmi: at+cnmi=0,0 (= default, no indication of received sms) at+cnmi=1,1 (= displays urc upon receipt of sms) no effect quit no effect temporary gprs data transfer not possible (uart disabled) temporary rtc alarm 2 2. recommendation: in non-cyclic sleep mode, you can se t an rtc alarm to wake up BGS2-E/ bgs2-w and return to full functionality. this is a usef ul approach because, in this mode, the at interface is not accessible. quit temporary at+cfun=1 not possible (uart disabled) quit www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 3.6 summary of state tran sitions (except sleep mode) 62 bgs2_hid_v01.301 page 43 of 112 2011-04-07 confidential / released ? 3.5.6.1 wake-up via rts0 an d rts1 (if at+cfun=0 or at+cfun=9) during the cyclic sleep mode 7, the rts0 and rts1 lines are conven tionally used for flow control: the assertion of rts0 or rts1 indica tes that the application is ready to receive data - without waking up the module. if the module is in cfun=0 mode the assertion of rts0 and rts1 serves as a wake-up event, giving the application the possibility to intentio nally terminate power saving. if the module is in cfun=9 mode, the assertion of rts0 or rts1 can be used to temporarily wake up BGS2-E/ bgs2-w for the time specified with the at^scfg command (default = 2s). in both cases, if rts0 or rts1 is asserted while at+cfun=0 or at+cfun=9 is set, there may be a short de- lay until the module is able to receive data again. this delay depends on the current module activities (e.g. paging cycle) and may be up to 60ms. the ability to re ceive data is signalized by cts0 and cts1. it is therefore recommended to enable rts/cts flow control, not only in cyclic sleep mode, but also in non-cyclic sleep mode. 3.6 summary of state transi tions (except sleep mode) the table shows how to proceed from one mode to another (grey column = present mode, white columns = intended modes) table 11: state transitions of BGS2-E/bgs2-w (except sleep mode) further mode ?? power down normal mode alarm mode present mode power down mode --- on >10ms at vddlp level wake-up from power down mode (if activated with at+cala) normal mode at^smso emerg_rst > 10ms at+cala followed by at^smso. BGS2-E/ bgs2-w enters alarm mode when specified time is reached. alarm mode at^smso at+cfun=x,1 or on >10ms at vddlp level --- www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 3.7 rtc backup 62 bgs2_hid_v01.301 page 44 of 112 2011-04-07 confidential / released ? 3.7 rtc backup the internal real time clock of BGS2-E/bgs2- w is supplied from a separate voltage regulator in the power supply component which is also active when BGS2-E/bgs2-w is in power down mode and batt+ is available. an alarm function is provided that allows to wake up BGS2-E/ bgs2-w without logging on to the gsm network. in addition, you can use the vddlp pad to backup the rtc from an external capacitor. the capacitor is charged from the internal ldo of BGS2-E/bgs2-w. if the voltage supply at batt+ is disconnected the rtc can be powered by the c apacitor. the size of the capacitor determines the duration of buffering when no voltage is applied to BGS2-E/bgs2-w, i.e. the greater the capacitor the longer BGS2-E/bgs2-w will save the date and time. the rtc can also be sup- plied from an external battery (rechargeable or non-chargeable). in this case the electrical specification of the vddlp pad (see section 5.4 ) has to be taken in to account. figure 12 shows an rtc backup configuration. figure 12: rtc supply variants capacitor vddlp gsm processor and power management lrtc rtc application interface batt+ module 1k gnd www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 3.8 sim/usim interface 62 bgs2_hid_v01.301 page 45 of 112 2011-04-07 confidential / released ? 3.8 sim/usim interface the baseband processor has an integrated sim/usim card interface compatible with the iso/ iec 7816 ic card standard. this is wired to the host interface in order to be connected to an external sim card holder. five pads are reserv ed for the sim interface. BGS2-E/bgs2-w sup- ports and automatically detects 3.0v as well as 1.8v sim cards. the ccin pad serves to detect whether a tray is present in the card holder. using the ccin pad is mandatory for compliance with the 3gpp ts 11.11 (rel.99) recommendation if the me- chanical design of the host application allows the user to remove the sim card during operation. the figure below shows a circuit to connect an external sim card holder. figure 13: external sim card holder circuit table 12: signals of the sim interface (smt application interface) signal description ccclk chipcard clock, various clock rates can be set in the baseband processor. ccvcc sim supply volt age from psu-asic ccio serial data line, input and output. ccrst chipcard reset, provided by baseband processor ccin input on the baseband processor for detecting a sim card tray in the holder.the default level of ccin is low (internal pu ll down resistor, no ca rd inserted). it will ch ange to high level when the card is inserted. to take advantage of this feature, an appropriate contact is required on the cardholder. ensure that the cardholder on your application platform is wired to output a high signal when the sim card is present. the ccin pad is mandatory for applications that allow the user to remove the sim card dur- ing operation. the ccin pad is solely intended for use with a sim card. it must not be used for any other purposes. failure to comply with this requirement may invalidate the type approval of bgs2- e/bgs2-w. sim ccvcc ccrst ccio ccclk 220nf 1nf ccin v180 4k7 www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 3.8 sim/usim interface 62 bgs2_hid_v01.301 page 46 of 112 2011-04-07 confidential / released ? it is recommended that the total cable leng th between smt application interface pads on BGS2-E/bgs2-w and the connector of the external sim card holder must not exceed 100mm in order to meet the specifications of 3gpp ts 51.010-1 and to satisfy the requirements of emc compliance. to avoid possible cross-talk from the ccclk si gnal to the ccio signal be careful that both lines are not placed closely next to each other. a useful approach would be to use a separate sim card ground connection to shield the ccio line from the ccclk line. a gnd line may be employed for such a case. notes: no guarantee can be given, nor any liability accepted, if loss of data is encountered after removing the sim card during operation. also, no guarantee can be given for properly initialising any sim card that the user inserts after having removed a sim card during operation. in this case, the application must restart bgs2- e/bgs2-w. if using a sim card holder without detecting co ntact please be sure to switch off the module before removing the sim card or inserting a new one. www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 3.9 serial interface asc0 62 bgs2_hid_v01.301 page 47 of 112 2011-04-07 confidential / released ? 3.9 serial interface asc0 BGS2-E/bgs2-w offers an 8-wire unbalanced , asynchronous modem interface asc0 con- forming to itu-t v.24 protocol dce signalling. the electrical characteristics do not comply with itu-t v.28. the voltage level of the asc0 interface can be configured to either 1.8v or 2.85v: ? if the vdig signal (i.e., application interface pad 10) is connected to the v180 line (i.e., application interface pad 35) the asc0 interface starts up with a 1.8v signal level. ? if the vdig signal (i.e., application interface pad 10) is connected to the v285 line (i.e., application interface pad 22), the asc0 interface runs with a 2.85v signal level. the voltage level configuration of the asc0 interface also has an impact on the i 2 c interface. the i 2 c interface is also in the power supply domain configured by the vdig signal (see sec- tion 3.13 ). for electrical characteristics of the interface signals please refer to section 5.4 . figure 14: vdig controlled power supply domain BGS2-E/bgs2-w is designed for use as a dce. based on the conventions for dce-dte con- nections it communicates with the customer application (dte) using the following signals: ? port txd @ application sends data to the module?s txd0 signal line ? port rxd @ application receives data from the module?s rxd0 signal line asc0 interface modem status power supply domain module i 2 c interface/ gpio9/10 application interface pads v180 v285 serial interface asc0 i 2 c interface/ gpio9/10 or vdig jumper or direct connection www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 3.9 serial interface asc0 62 bgs2_hid_v01.301 page 48 of 112 2011-04-07 confidential / released ? figure 15: serial interface asc0 features: ? includes the data lines txd0 and rxd0, the status lines rts0 and cts0 and, in addition, the modem control lines dtr0, dsr0, dcd0 and ring0. ? asc0 is primarily designed for controlling voice calls, transferring csd, fax and gprs data and for controlling the gsm module with at commands. ? the dtr0 signal will only be polled once per second from the internal firmware of bgs2- e/bgs2-w. ? the ring0 signal serves to i ndicate incoming calls and ot her types of urcs (unsolicited result code). it can also be used to send puls es to the host application, for example to wake up the application from power saving state. see [1] for details on how to configure the ring0 line by at^scfg. ? configured for 8 data bits, no parity and 1 stop bit. ? asc0 can be operated at fixed bit rates from 1,200 bps to 230,400 bps. ? autobauding supports bit rates from 1,200 bps to 230,400 bps. ? supports rts0/cts0 hardware flow control and xon/xoff software flow control. table 13: dce-dte wiring of asc0 v.24 circuit dce dte pad function signal direction pad function signal direction 103 txd0 input txd output 104 rxd0 output rxd input 105 rts0 input rts output 106 cts0 output cts input 108/2 dtr0 input dtr output 107 dsr0 output dsr input 109 dcd0 output dcd input 125 ring0 output ring input www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 3.9 serial interface asc0 62 bgs2_hid_v01.301 page 49 of 112 2011-04-07 confidential / released ? the following figure shows the startup behavior of the asynchronous serial interface asc0. *) for pull-up and pull-down values see table 8 . figure 16: asc0 startup behavior please note that no data must be sent over the asc0 interface before the interface is active and ready to receive data (see section 3.3.1.1 ). txd0 rxd0 rts0 cts0 dtr0 dsr0 dcd0 ring0 on internal reset emerg_rst pull up pu 10k *) pull up pu 10k *) pull up pu_a *) pull down pd_a *) pull up pu_a *) pull up pu_a *) pull down pd_c *) pull down pd_b *) power supply active start up firmware initialization command interface initialization interface active reset state v180 / v285 www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 3.10 serial interface asc1 62 bgs2_hid_v01.301 page 50 of 112 2011-04-07 confidential / released ? 3.10 serial interface asc1 BGS2-E/bgs2-w offers a 4-wire unbalanced, asynchronous modem interface asc1 conform- ing to itu-t v.24 protocol dce signalling. the elec trical characteristics do not comply with itu- t v.28. the electrical level of the asc1 interface is set to 1.8v. for electrical characteristics please refer to table 23 . BGS2-E/bgs2-w is designed for use as a dce. based on the conventions for dce-dte con- nections it communicates with the customer application (dte) using the following signals: ? port txd @ application sends data to module?s txd1 signal line ? port rxd @ application receives data from the module?s rxd1 signal line figure 17: serial interface asc1 features ? includes only the data lines txd1 and rxd1 plus rts1 and cts1 for hardware hand- shake. ? on asc1 no ring line is available. the in dication of urcs on the second interface depends on the settings made with the at ^scfg command. for details refer to [1] . ? configured for 8 data bits, no parity and 1 or 2 stop bits. ? asc1 can be operated at fixed bit rates from 1,200 bps to 230,400 bps. autobauding is not supported on asc1. ? supports rts1/cts1 hardware flow control and xon/xoff software flow control. table 14: dce-dte wiring of asc1 v.24 cir- cuit dce dte line function signal direction line function signal direction 103 txd1 input txd output 104 rxd1 output rxd input 105 rts1 input rts output 106 cts1 output cts input www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 3.10 serial interface asc1 62 bgs2_hid_v01.301 page 51 of 112 2011-04-07 confidential / released ? the following figure shows the startup behavior of the asynchronous serial interface asc1. *) for pull-up and pull-down values see table 8 . figure 18: asc1 startup behavior txd1 rxd1 rts1 cts1 on internal reset v180 / v285 pull up pu_a *) pull down pd_b *) pull down pd_b *) pull down pd_b *) power supply active start up firmware initialization command interface initialization module active reset state emerg_rst www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 3.11 analog audio interface 62 bgs2_hid_v01.301 page 52 of 112 2011-04-07 confidential / released ? 3.11 analog audio interface BGS2-E/bgs2-w has an analog audio interface with a balanced analog microphone input and a balanced analog earpiece output. a supply voltage and an analog ground connection are pro- vided at dedicated pads. BGS2-E/bgs2-w offers six audio modes which can be selected with the at^snfs command. the electrical characteristics of the voiceband part vary with the audio mode. for example, sending and receiving amplificati on, sidetone paths, noise suppression etc. depend on the se- lected mode and can be altered with at commands (except for mode 1). please refer to section 5.6 for specifications of the audio interface and an overview of the audio parameters. detailed instructions on using at commands are presented in [1] . table 27 sum- marizes the characteristics of the various audio modes and shows what parameters are sup- ported in each mode. when shipped from factory, all audio parameters of BGS2-E/bgs2-w are set to audio mode 1. this is the default configuration optimised fo r the votronic hh-si-30.3/v1.1/0 handset and used for type approving the cinterion wireless modules reference configuration. audio mode 1 has fix parameters which cannot be modified. to adjust the settings of the votronic handset simply change to another audio mode. in transmit direction, all audio modes contain inter nal scaling factors (digital amplification) that are not accessible. 3.11.1 microphone inputs and supply the differential microphone inputs micp and micn present an impedance of 50kohm and must be decoupled by capacitors (typical 100nf). a regulated power supply for electret micro- phones is available at vmic. the voltage at vmic is rated at 2.2v and available while audio is active (e.g., during a call). it can also be controlled by at^snfm. it is recommended to use an additional rc-filter if a high microphone gain is necessary. it is also recommended to use the agnd line for grounding the microphone circuit. agnd provides for the same module ground potential the analog circuits of the module refe r to. agnd must not be connected to the system gnd anywhere. otherwise, high gsm burst peak currents will flow across the agnd line caus- ing gsm humming in the uplink audio signal. www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 3.11 analog audio interface 62 bgs2_hid_v01.301 page 53 of 112 2011-04-07 confidential / released ? the following figures show possible microphone and line connections. figure 19: single ended microphone connection figure 20: differential microphone connection figure 21: line input module agnd vmic micp micn 2k2 2k2 470 + 10f 5k6 100nf 100nf module agnd micp micn 1k 1k 1k + 10f 1k 100nf 100nf vmic module ~ micn 100nf micp 100nf www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 3.11 analog audio interface 62 bgs2_hid_v01.301 page 54 of 112 2011-04-07 confidential / released ? 3.11.2 loudspeaker output BGS2-E/bgs2-w provides a differential louds peaker output epp/epn. the output is able to deliver a voltage of 3.2vpp at a load resistanc e of 16ohm. if it is used as line output (see figure 23 ), the application should provide a capacitor decoupled differential input to eliminate gsm humming. a first order low pass filter above 4khz may be useful to improve the out-of-band sig- nal attenuation. a single ended co nnection to a speaker or a line input should not be realized. the following figures show the typical output configurations. figure 22: differential loudspeaker connection figure 23: line output connection module epn epp module epn epp + _ www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 3.12 gpio interface 62 bgs2_hid_v01.301 page 55 of 112 2011-04-07 confidential / released ? 3.12 gpio interface BGS2-E/bgs2-w offers a gpio interface with 10 gpio lines. some gpio lines are shared with other interfaces, such as i 2 c interface (see section 3.13 ), status led (see section 3.15 ) and the pwm functionality (see section 3.14 ). all functions are controlled by dedicated at commands. the following table shows the configuration variants of the gpio pads. all variants are mutually exclusive, i.e. a pad configured as gpio is locked for alternative use. each gpio line can be configured for use as input or output. the gpio related at commands are the following: at^spio, at^scpin, at^sgio, at^ssio. a detailed description can be found in [1] . when the BGS2-E/bgs2-w starts up, all gpio lines are set to high-impedance state after ini- tializing, as described in section 3.3.3 . therefore, it is recommended to connect external pull- up or pull-down resistors to all gpio lines you want to use as output. this is necessary to keep these lines from floating or driving any exter nal devices before all settings are done by at com- mand (at least at^spio, at^scpin), and after closing the gpios again. the power supply domain voltage level for gpio1 to gpio8 is 1.8v. gpio9 and gpio10 are in the vdig power supply domain which can be conf igured to either a 1.8v or a 2.85v voltage level (for details see section 3.9 ; figure 14 ). i2cclk (gpio10) has an internal 5kohm pull-up resitor, i2cdat (gpio9) requires an external pull-up resistor. table 15: gpio assignment gpio i2c pwm status led voltage domain gpio1 v180 gpio2 v180 gpio3 v180 gpio4 v180 gpio5 status led v180 gpio6 pwm2 v180 gpio7 pwm1 v180 gpio8 v180 gpio9 i2cdat vdig gpio10 i2cclk vdig www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 3.12 gpio interface 62 bgs2_hid_v01.301 page 56 of 112 2011-04-07 confidential / released ? the following figure shows the startup behavior of the gpio interface. with an active state of the asc0 interface (i.e. ring0, cts0 or cts1 are at low level) the initialization of the gpio interface lines is also finished. *) for pull-up values see table 8 . figure 24: gpio startup behavior gpio1, 2, 3 gpio4, 5 gpio6, 7, 8 on internal reset v180 / v285 pull up pu_b *) pull up pu_a *) power supply active start up firmware initialization command interface initialization interface active pull up pu_b *) gpio10 gpio9 open drain (pull up) open drain (pull up) ctsx ring0 reset state emerg_rst www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 3.13 i 2 c interface 62 bgs2_hid_v01.301 page 57 of 112 2011-04-07 confidential / released ? 3.13 i 2 c interface the signal lines of the i 2 c interface are shared with the gpio9 and gpio10 signal pads and are activated by means of at command. for details see [1] : at^sspi. the voltage level configuration for the asc0 interface has an impact on the i 2 c interface since the i 2 c interface is in the same vdig controlled power supply domain. if the asc0 voltage level is set to 1.8v, the i 2 c interface pads have the same voltage level (see figure 14 ). i 2 c is a serial, 8-bit oriented data transfer bu s for bit rates up to 400kbps in fast mode. it con- sists of two lines, the serial data line i2 cdat (gpio9) and the serial clock line i2cclk (gpio10). the module acts as a si ngle master device, e.g. the clock i2cclk is driven by the module. i2cdat is a bi-directional line. each device connected to the bus is software address- able by a unique 7-bit address, and simple master /slave relationships exist at all times. the module operates as master-transmitter or as master-receiver. the customer application trans- mits or receives data only on request of the module. the i 2 c interface can be powered from an external supply or via the v180/v285 line of bgs2- e/bgs2-w. if connected to the v180/v285 line, the i 2 c interface will be properly shut down when the module enters the power down mode. if you prefer to connect the i 2 c interface to an external power supply, take care that vcc of the application is in the range of v180/v285 and that the interface is shut down when the emerg_rst signal goes low. in the application i2cdat and i2cclk lines need to be connected to a positive supply voltage via a pull-up resistor. for electric al characteristics please refer to table 23 . figure 25: i 2 c interface connected to vcc of application figure 26: i 2 c interface connected to v180 or v285 note: good care should be taken when creating the pcb layout of the host application: the traces of i2cclk and i2cdat should be equal in length and as short as possible. i2cclk i2cdat gnd i2cclk i2cdat gnd module application vdig 5k pull up r pull up r pull up vcc < vdig i2cclk i2cdat gnd i2cclk i2cdat gnd module application vdig r pull up r pull up 5k pull up www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 3.13 i 2 c interface 62 bgs2_hid_v01.301 page 58 of 112 2011-04-07 confidential / released ? the following figure shows the startup behavior of the i 2 c interface. with an active state of the asc0 interface (i.e. ring0, cts0 or cts1 are at low level) the initialization of the i 2 c interface is also finished. figure 27: i 2 c startup behavior i2cclk i2cdat on internal reset v180 / v285 open drain (internal 5k pull up) open drain power supply active start up firmware initialization command interface initialization interface active (external pull up) (external pull up) ctsx ring0 reset state emerg_rst www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 3.14 pwm interfaces 62 bgs2_hid_v01.301 page 59 of 112 2011-04-07 confidential / released ? 3.14 pwm interfaces BGS2-E/bgs2-w offers two pwm (pulse width modulation) interfaces, which can be used, for example, to connect buzzers. the pwm1 line is shared with gpio7 and the pwm2 line is shared with gpio6 (for gpios see section 3.12 ). gpio and pwm functionality are mutually exclusive. the startup behavior of the lines is shown in figure 24 . to open and configure a pwm output use the at^swdac command. for details refer to [1] . 3.15 status led the gpio5 line at the smt application interface can be configured to drive a status led which indicates different operating modes of the module (for gpios see section 3.12 ). gpio and led functionality are mutually exclusive. to take advantage of this function connect an led to the gpio5/led line as shown in figure 28 . the led can be enabled/disabled by at command. for details refer to [1] : at^ssync. figure 28: status signalling with led driver vcc gpio5/ led led gnd gnd r1 r2 r3 www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 3.16 behavior of the ring0 line (asc0 interface only) 62 bgs2_hid_v01.301 page 60 of 112 2011-04-07 confidential / released ? 3.16 behavior of the ring0 line (asc0 interface only) the ring0 line is available on the first serial interface (asc0). the signal serves to indicate incoming calls and other types of urcs (unsolicited result code). although not mandatory for use in a host application, it is strongly suggested that you connect the ring0 line to an interrupt line of your applic ation. in this case, the application can be de- signed to receive an interrupt when a falling edge on ring0 occurs. this solution is most ef- fective, particularly, for waking up an applicati on from power saving. note that if the ring0 line is not wired, the application would be required to permanently poll the data and status lines of the serial interface at the expense of a higher current consumption. therefore, utilizing the ring0 line provides an option to significantly reduce the overal l current consumption of your application. the behavior of the ring0 line varies with the type of event: ? when a voice call comes in the ring0 line goes low for 1s and high for another 4s. every 5 seconds the ring string is generated and sent over the rxd0 line. if there is a call in prog- ress and call waiting is activated for a c onnected handset or handsfree device, the ring0 line switches to ground in order to generate ac oustic signals that indicate the waiting call. figure 29: incoming voice call ? likewise, when a data or fax call is received, ring0 goes low. however, in contrast to voice calls, the line remains low. every 5 seconds the ring string is generated and sent over the rxd0 line. figure 30: incoming voice call ? all other types of unsolicited result codes (urcs) also cause the ring0 line to go low, however for 1 second only. figure 31: urc transmission 4s ring0 4s 1s 1s 1s ring string ring string ring string 5s ring0 ring string ring string ring string 5s 1s ring0 urc www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 3.17 power indication circuit 62 bgs2_hid_v01.301 page 61 of 112 2011-04-07 confidential / released ? 3.17 power indication circuit in power down mode the maximum voltage at any digital or analog interface line must not ex- ceed +0.3v (see also section 5.1 ). exceeding this limit for any length of time might cause per- manent damage to the module. it is therefore recommended to implement a powe r indication signal that reports the module?s power state and shows whether it is active or in power down mode. while the module is in power down mode all signals with a high level from an external application need to be set to low state or high impedance state. the sample power indication circuit illustrated in figure 32 denotes the module?s active state with a low signal and the module?s power down mode with a high signal or high impedance state. the following table 16 lists two different configurations for the module?s interfaces, depending on the power supply domain specified with vdig. the cases differ in the power supply voltage level configured for the asc0, asc1, i 2 c and gpio interface lines and the possibility of back powering through the used interface li nes from an external application: ? if all interface lines operate within the v 180 power supply domain (i.e., vdig connected to v180), the v285 power supply voltage line is not prone to back powering. the power indi- cation circuit is therefore controlled by the power supply voltage line v285. ? if the asc0 and i 2 c interface lines operate within the v285 power supply domain (i.e., vdig connected to v285), the v180 power supply voltage line is not prone to back powering. the power indication circuit is therefore co ntrolled by the power supply voltage line v180. table 16: power indication circuit interface vdig = v180 vdig = v285 voltage level at interface voltage level at interface asc0 lines 1.8v 2.85v asc1 lines 1.8v 1.8v i 2 c lines 1.8v 2.85v gpio lines 1.8v 1.8v voltage control for power indication circuit v285 controlled v180 controlled www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 3.17 power indication circuit 62 bgs2_hid_v01.301 page 62 of 112 2011-04-07 confidential / released ? figure 32: power indication circuit v285 (v180) power indication external power supply (e.g., 3.0v) 10k 10k (4.7k) 4.7k www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 4 antenna interface 70 bgs2_hid_v01.301 page 63 of 112 2011-04-07 confidential / released ? 4 antenna interface the rf interface has an impedance of 50 ? . BGS2-E/bgs2-w is capable of sustaining a total mismatch at the antenna lines without any dam age, even when transmitting at maximum rf power. the external antenna must be matched properly to achieve best performance regarding radi- ated power, modulation accuracy and harmonic suppression. antenna matching networks are not included on the BGS2-E/bgs2-w module and s hould be placed in the host application if the antenna does not have an impendance of 50 ? . regarding the return loss BGS2-E/bgs2-w provi des the following values in the active band: table 17: return loss in the active band state of module return loss of module recommended return lo ss of application receive > 8db > 12db transmit not applicable > 12db www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 4.1 antenna installation 70 bgs2_hid_v01.301 page 64 of 112 2011-04-07 confidential / released ? 4.1 antenna installation the antenna is connected by soldering the antenna pad (rf_out, i.e., pad #59) and its neigh- boring ground pads (gnd, i.e., pads #58 and #60) directly to the application?s pcb. the anten- na pad is the antenna reference point (arp) for BGS2-E/bgs2-w. all rf data specified throughout this document is related to the arp. figure 33: antenna pads (bottom view) the distance between the antenna rf_out pad (#59) and its neighboring gnd pads (#58, #60) has been optimized for best possible impedance. on the application pcb, special atten- tion should be paid to these 3 pads, in order to prevent mismatch. the wiring of the antenna connection line, star ting from the antenna pad to the application an- tenna should result in a 50 ? line impedance. line width and distance to the gnd plane needs to be optimized with regard to the pcb?s layer stack. some examples are given in section 4.2 . to prevent receiver desensitization due to interf erences generated by fast transients like high speed clocks on the application pcb, it is re commended to realize the antenna connection line using embedded stripline rather than mi cro-stripline technology. please see section 4.2.1 for an example. for type approval purposes, the use of a 50 ? coaxial antenna connector (u.fl-r-smt) might be necessary. in this case the u.fl-r-smt conne ctor should be placed as close as possible to BGS2-E/bgs2-w?s antenna pad. 53 65 64 63 62 61 60 59 58 57 56 55 54 66 33 21 22 23 24 25 26 27 28 29 30 31 32 20 106 92 91 98 97 96 95 94 90 89 85 86 93 74 99 87 88 84 83 79 78 77 76 75 82 81 80 72 71 70 69 68 67 105 104 103 102 101 100 73 44 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 34 35 36 37 38 39 40 41 42 43 45 46 47 48 49 50 51 52 gnd gnd rf_out www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 4.2 rf line routing design 70 bgs2_hid_v01.301 page 65 of 112 2011-04-07 confidential / released ? 4.2 rf line routing design 4.2.1 line arrangement examples several dedicated tools are available to calcul ate line arrangements for specific applications and pcb materials - for example from http://www.polarinstruments.com/ (commercial software) or from http://web.awrcorp.com/usa/produ cts/optional-products/tx-line/ (free software). 4.2.1.1 embedded stripline this below figure shows a line arrangement ex ample for embedded stripline with 65m fr4 prepreg (type: 1080) and 710m fr4 core (4-layer pcb). figure 34: embedded stripline with 65m prepreg (1080) and 710m core www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 4.2 rf line routing design 70 bgs2_hid_v01.301 page 66 of 112 2011-04-07 confidential / released ? 4.2.1.2 micro-stripline this section gives two line arrangement examples for micro-stripline. micro-stripline on 1.0mm standard fr4 2-layer pcb the following two figures show examples with di fferent values for d1 (ground strip separation). figure 35: micro-stripline on 1.0mm standard fr4 2-layer pcb - example 1 antenna line ground line ground line application board www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 4.2 rf line routing design 70 bgs2_hid_v01.301 page 67 of 112 2011-04-07 confidential / released ? figure 36: micro-stripline on 1.0mm standard fr4 pcb - example 2 antenna line ground line ground line application board www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 4.2 rf line routing design 70 bgs2_hid_v01.301 page 68 of 112 2011-04-07 confidential / released ? micro-stripline on 1.5mm standard fr4 2-layer pcb the following two figures show examples with di fferent values for d1 (ground strip separation). figure 37: micro-stripline on 1.5mm standard fr4 pcb - example 1 antenna line ground line ground line application board www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 4.2 rf line routing design 70 bgs2_hid_v01.301 page 69 of 112 2011-04-07 confidential / released ? figure 38: micro-stripline on 1.5mm standard fr4 pcb - example 2 antenna line ground line ground line application board www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 4.2 rf line routing design 70 bgs2_hid_v01.301 page 70 of 112 2011-04-07 confidential / released ? 4.2.2 routing example 4.2.2.1 interface to rf connector figure 39 shows the connection of the module?s an tenna pad with an application pcb?s coaxial antenna connector. please note that the BGS2-E/bgs2-w bottom plane appears mirrored, since it is viewed from BGS2-E/bgs2-w top side. by definition the top of customer's board shall mate with the bottom of the BGS2-E/bgs2-w module. figure 39: pouting to application?s rf connector - top view pad 1 www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 5 electrical, reliability and radio characteristics 89 bgs2_hid_v01.301 page 71 of 112 2011-04-07 confidential / released ? 5 electrical, reliability and radio characteristics 5.1 absolute maximum ratings the absolute maximum ratings stated in table 18 are stress ratings under any conditions. stresses beyond any of these limits will cause permanent damage to BGS2-E/bgs2-w. table 18: absolute maximum ratings parameter min max unit supply voltage batt+ -0.3 +6.0 v voltage at all digital lines in power down mode -0.3 +0.3 v voltage at digital lines 1.8v domain in normal operation -0.3 +2.2 v voltage at digital lines vdig domain (1.8v) in normal opera- tion -0.3 +2.2 v voltage at digital lines vdig domain (2.85v) in normal opera- tion -0.3 +3.3 v voltage at sim interface, ccvcc 1. 8v in normal operation -0.3 +2.2 v voltage at sim interface, ccvcc 2.85v in normal operation -0.3 +3.3 v voltage at analog lines in normal operation -0.3 +3.0 v voltage at analog lines in power down mode -0.3 +0.3 v vddlp -0.3 +2.5 v www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 5.2 operating temperatures 89 bgs2_hid_v01.301 page 72 of 112 2011-04-07 confidential / released ? 5.2 operating temperatures please note that the module?s lifetime, i.e., t he mttf (mean time to failure) may be reduced, if operated outside the restriced temperature range. a special urc reports whether the module enters or leaves the restriced temperature range (see [1] ; at^sctm). see also section 3.3.5.1 for information about the ntc for on-board temperature measure- ment, automatic thermal s hutdown and alert messages. note that within the specified operating temperature ranges the board temperature may vary to a great extent depending on operating mode, used frequency band, radio output power and current supply voltage. when data are transmitted over gprs the quad band module variant automatically reverts to a lower multislot class if the temperature rises to the limit specified for normal operation and, vice versa, returns to the higher multislot class if the temperature is back to normal. for details see section 3.4 . table 19: board temperature parameter min typ max unit normal operation -30 +25 +85 c restricted operation -40 to -30 +85 to +90 c automatic shutdown 1 temperature measured on BGS2-E/bgs2-w board 1. due to temperature measurement uncertainty, a tolerance of 3c on the thresholds may occur. <-40 --- >+90 c table 20: ambient temperature according to iec 60068-2 (w/o forced air circulation) parameter min typ max unit gsm call @ max. rf-power -40 +75 c gprs class 8 @ max. rf-power -40 +75 c gprs class 10 @ max. rf-power (quad band only) -40 +60 c table 21: ambient temperature with forced ai r circulation (air speed 0.9m/s) parameter min typ max unit gsm call @ max. rf-power -40 +80 c gprs class 8 @ max. rf-power -40 +80 c gprs class 10 @ max. rf-power (quad band only) -40 +70 c www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 5.3 reliability ch aracteristics 89 bgs2_hid_v01.301 page 73 of 112 2011-04-07 confidential / released ? 5.3 reliability characteristics the test conditions stated below are an extract of the complete test specifications. table 22: summary of reliabili ty test conditions type of test conditions standard vibration frequency range: 10-20hz; acceleration: 5g frequency range: 20-500hz; acceleration: 20g duration: 20h per axis; 3 axes din iec 60068-2-6 1 1. for reliability tests in the frequency range 20-500hz the standard?s acceleration reference value was increased to 20g. shock half-sinus acceleration: 500g shock duration: 1msec 1 shock per axis 6 positions ( x, y and z) din iec 60068-2-27 dry heat temperature: +70 2c test duration: 16h humidity in the test chamber: < 50% en 60068-2-2 bb ets 300 019-2-7 temperature change (shock) low temperature: -40c 2c high temperature: +85c 2c changeover time: < 30s (dual chamber system) test duration: 1h number of repetitions: 100 din iec 60068-2-14 na ets 300 019-2-7 damp heat cyclic high temperature: +55c 2c low temperature: +25c 2c humidity: 93% 3% number of repetitions: 6 test duration: 12h + 12h din iec 60068-2-30 db ets 300 019-2-5 cold (constant exposure) temperature: -40 2c test duration: 16h din iec 60068-2-1 www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 5.4 pad assignment and signal description 89 bgs2_hid_v01.301 page 74 of 112 2011-04-07 confidential / released ? 5.4 pad assignment an d signal description the smt application interface on the BGS2-E /bgs2-w provides connecting pads to integrate the module into external applications. figure 40 shows the connecting pads? numbering plan, the following table 23 lists the pads? assignments. figure 40: numbering plan for connecting pads (bottom view) 53 65 64 63 62 61 60 59 58 57 56 55 54 66 33 21 22 23 24 25 26 27 28 29 30 31 32 20 106 92 91 98 97 96 95 94 90 89 85 86 93 74 99 87 88 84 83 79 78 77 76 75 82 81 80 72 71 70 69 68 67 105 104 103 102 101 100 73 44 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 34 35 36 37 38 39 40 41 42 43 45 46 47 48 49 50 51 52 supply pads: batt+ control pads gnd pads analog audio pads asc0 pads asc1 pads sim pads gpio pads rf antenna pad do not use adc pad supply pads: other www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 5.4 pad assignment and signal description 89 bgs2_hid_v01.301 page 75 of 112 2011-04-07 confidential / released ? signal pads that are not used should not be connected to an external application. please note that the reference voltages listed in table 24 are the values measured directly on the BGS2-E/bgs2-w module. they do not apply to the accessories connected. table 23: pad assignments pad no. signal name pad no. signal name pad no. signal name 1 vmic 23 do not use 45 gnd 2 epn 24 dsr0 46 gnd 3 epp 25 dtr0 47 gnd 4 gnd 26 dcd0 48 gnd 5 batt+ 27 gpio9/i2cdat 49 gnd 6 gnd 28 gpio10/i2cclk 50 gnd 7 adc1 29 txd1 51 gnd 8 on 30 rxd1 52 gnd 9 gnd 31 rts1 53 batt+ 10 vdig 32 cts1 54 gnd 11 rxd0 33 emerg_rst 55 gnd 12 cts0 34 gnd 56 gnd 13 txd0 35 v180 57 gnd 14 ring0 36 gpio8 58 gnd 15 rts0 37 gpio7/pwm1 59 rf_out 16 vddlp 38 gpio6/pwm2 60 gnd 17 ccrst 39 gpio5/led 61 gnd 18 ccin 40 gpio4 62 gnd 19 ccio 41 gpio3 63 gnd 20 ccvcc 42 gpio2 64 agnd 21 ccclk 43 gpio1 65 micp 22 v285 44 gnd 66 micn 67-106 gnd 1 1. the pads 67-106 are centrally located and should be connected to ground except for pad 98 that is only required for factory tests. pad 98 must not be connected to the external application, but should be left open. www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 5.4 pad assignment and signal description 89 bgs2_hid_v01.301 page 76 of 112 2011-04-07 confidential / released ? table 24: electrical description of application interface function signal name io signal form and level comment power supply batt+ i v i max = 4.5v v i norm = 4.0v v i min = 3.3v during tx burst on board i ? 1.35a, during tx burst (gsm) lines of batt+ and gnd must be connected in parallel for supply pur- poses because higher peak currents may occur. minimum voltage must not fall below 3.3v includ- ing drop, ripple, spikes. n tx = n x 577s peak current every 4.616ms power supply gnd ground application ground external supply voltage v180 o normal operation: v o norm = 1.80v 3% i o max = -10ma sleep mode operation: v o sleep = 1.80v 5% i o max = -10ma clmax = 100nf v180 or v285 may be used for application cir- cuits. if unused keep line open. not available in power down mode. the exter- nal digital logic must not cause any spikes or glitches on voltage v180 or v285. v285 o v o norm = 2.85v +1.5%, -2% i o max = -10ma clmax = 100nf ignition on i r i ? 32k ?? 15%, c i ? 1nf v ih max = vddlp + 0.5v v ih min = 1.2v at ~40a v il max = 0.4v ___|____ high impulse this signal switches the module on. this line must be driven high by an open drain or open collector driver con- nected to vddlp. see section 3.3 . emergency restart emerg_rst i r i ? 1k ? , c i ? 1nf v oh max = 1.9v v ih min = 1.35v v il max = 0.3v ~~|___|~~ low impulse width > 10ms this line must be driven low by an open drain or open collector driver con- nected to gnd. if unused keep line open. rtc backup vddlp i/o v o norm = 2.3v 5% i o max = 2ma v i max = 2.4v v i min = 1.0v i i typ = 8a it is recommended to use a serial resistor between vddlp and a possible capacitor. see 3.3.1.1 . if unused keep line open. sim card detection ccin i r i ? 110k ? v ih min = 1.45v at i = 15a, v ih max= 1.9v v il max = 0.3v ccin = high, sim card inserted. if unused keep line open. www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 5.4 pad assignment and signal description 89 bgs2_hid_v01.301 page 77 of 112 2011-04-07 confidential / released ? 3v sim card inter- face ccrst o v ol max = 0.20v at i = 2ma v oh min = 2.40v at i = -2ma v oh max = 2.90v maximum cable length or copper track to sim card holder should not exceed 100mm. ccio i/o v il max = 0.60v v ih min = 1.95v v ih max = 2.90v v ol max = 0.20v at i = 2ma v oh min = 2.40v at i = -2ma v oh max = 2.90v ccclk o v ol max = 0.20v at i = 2ma v oh min = 2.40v at i = -2ma v oh max = 2.90v ccvcc o v o min = 2.80v v o typ = 2.85v v o max = 2.90v i o max = -30ma 1.8v sim card inter- face ccrst o v ol max = 0.20v at i = 2ma v oh min = 1.50v at i = -2ma v oh max = 1.90v ccio i/o v il max = 0.37v v ih min = 1.22v v ih max = 1.90v v ol max = 0.20v at i = 2ma v oh min = 1.50v at i = -2ma v oh max = 1.90v ccclk o v ol max = 0.20v at i = 2ma v oh min = 1.50v at i = -2ma v oh max = 1.90v ccvcc o v o min = 1.75v v o typ = 1.80v v o max = 1.85v i o max = -30ma table 24: electrical description of application interface function signal name io signal form and level comment www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 5.4 pad assignment and signal description 89 bgs2_hid_v01.301 page 78 of 112 2011-04-07 confidential / released ? digital power supply vdig i v i min = 1.75v v i max = 2.90v i i max = 50ma asc0 and i 2 c power sup- ply input. connect this line to the external power supply voltage v180 or v285. see also section 3.9 . serial interface asc0 vdig connected to v180, i.e., vdig = 1.80v if unused keep line open. rxd0 o v ol max = 0.20v at i = 2ma v oh min = 1.50v at i = -2ma v oh max = 1.90v v il max = 0.34v v ih min = 1.30v v ih max = 1.90v txd0 i cts0 o dtr0 i dsr0 o dcd0 o rts0 i v il max = 0.20v at i = -280a v ih min = 1.20v at i = -160a v ih max = 1.90v ring0 o v ol max = 0.30v at i = 2ma v oh min = 1.40v at i = -40a v oh max = 1.90v vdig connected to v285, i.e., vdig = 2.85v rxd0 o v ol max = 0.20v at i = 2ma v oh min = 2.40v at i = -2ma v oh max = 2.90v v il max = 0.56v v ih min = 2.05v v ih max = 2.90v txd0 i cts0 o dtr0 i dsr0 o dcd0 o rts0 i v il max = 0.30v at i = -380a v ih min = 1.96v at i = -80a v ih max = 2.90v ring0 o v ol max = 0.30v at i = 2ma v oh min = 2.40v at i = -40a v oh max = 2.90v serial interface asc1 rxd1 o v ol max = 0.20v at i = 2ma v oh min = 1.50v at i = -2ma v oh max = 1.90v v il max = 0.34v v ih min = 1.30v v ih max = 1.90v if unused keep line open. txd1 i rts1 i cts1 o table 24: electrical description of application interface function signal name io signal form and level comment www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 5.4 pad assignment and signal description 89 bgs2_hid_v01.301 page 79 of 112 2011-04-07 confidential / released ? i 2 c vdig connected to v180, i.e., vdig = 1.80v i2cdat is configured as open drain and needs a pull-up resistor in the host application. according to the i 2 c bus specification version 2.1 for the fast mode a rise time of max. 300ns is per- mitted. there is also a maximum v ol =0.4v at 3ma specified. the value of the pull-up depends on the capaci- tive load of the whole sys- tem (i 2 c slave + lines). the maximum sink cur- rent of i2cdat and i2cclk is 4ma. if lines are unused keep lines open. i2cclk o v ol min = 0.4v at i = -3ma v il max = 0.5v v ih min = 1.3v v ih max = 2.25v rpullup >= 470 ohm i2cdat io vdig connected to v285, i.e., vdig = 2.85v i2cclk o v ol min = 0.4v at i = -3ma v il max = 0.8v v ih min = 2.1v v ih max = 3.3v rpullup >= 820 ohm i2cdat io table 24: electrical description of application interface function signal name io signal form and level comment www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 5.4 pad assignment and signal description 89 bgs2_hid_v01.301 page 80 of 112 2011-04-07 confidential / released ? gpio interface gpio1 io v ol max = 0.20v at i = 2ma v oh min = 1.50v at i = -2ma v oh max = 1.90v v il max = 0.34v v ih min = 1.30v v ih max = 1.90v if unused keep line open. please note that some gpio lines can be used for functions other than gpio: status led line: gpio5, pwm: gpio6/gpio7, i 2 c: gpio9/gpio10. gpio9 has an open drain output functionality only and will need an external pull-up resistor. with vdig connected to v180 the minimum value of this external resistor should be 750ohm. with vdig connected to v285 the minimum value should be 1.1kohm. gpio10 also has an open drain output func- tionality only, but with an internal 5kohm pull up. with vdig connected to v180 the minimum value of this external resistor should be 860ohm. with vdig connected to v285 the minimum value should be 1.5kohm. for further details see section 3.12 , section 3.13 , section 3.14 , sec- tion 3.15 . gpio2 io gpio3 io gpio4 io gpio5 io gpio6 io gpio7 io gpio8 io vdig connected to v180, i.e., vdig = 1.80v gpio9, i.e., i2cdat io input, open drain output (no pull up) v il max = 0.5v v ih min = 1.3v v ih max = 2.20v v ol min = 0.4v at i = -3ma gpio10, i.e., i2cclk io input, open drain output r i ? 5kohm ( internal pull up) v ol min = 0.4v at i = -3ma v oh max = 1.90v vdig connected to v285, i.e., vdig = 2.85v gpio9, i.e., i2cdat io input, open drain output (no pull up) v il max = 0.8v v ih min = 2.1v v ih max = 3.3v v ol min = 0.4v at i = -3ma gpio10, i.e., i2cclk io open drain output r i ? 5kohm ( internal pull up) v ol min = 0.4v at i = -3ma v oh max = 2.90v table 24: electrical description of application interface function signal name io signal form and level comment www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 5.4 pad assignment and signal description 89 bgs2_hid_v01.301 page 81 of 112 2011-04-07 confidential / released ? analog audio interface vmic o v o typ = 2.2v i max = 4 ma microphone supply for customer feeding circuits if unused keep line open. epp o differential, typ. 3.4vpp at 16 ? load typ. 4.5vpp at no load pcm level = +3dbm0, 1.02 khz sine wave balanced output for ear- phone or balance output for line out if unused keep line open. epn o micp i z i typ = 50k ? vinmax = 0.8vpp (for 3dbm0 @ 0db gain) balanced differential microphone with external feeding circuit (using vmic and agnd) or bal- anced differential line input. use coupling capacitors. if unused keep lines open. micn i agnd analog ground gnd level for external audio circuits. if unused keep line open. adc adc1 i r i = 1m ? v i = 0v ... 1.2v v ih max = 3.3v if unused keep line open. table 24: electrical description of application interface function signal name io signal form and level comment www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 5.5 power supply ratings 89 bgs2_hid_v01.301 page 82 of 112 2011-04-07 confidential / released ? 5.5 power supply ratings table 25: power supply ratings 1 1. gsm850 and gsm1900 bands are applicable for the quad band module variant bgs2-w only. parame- ter description conditions min typ max unit batt+ supply voltage voltage must stay within the min/ max values, including voltage drop, ripple and spikes. 3.3 4.0 4.5 v voltage drop during transmit burst normal condition, power control level for p out max 400 mv voltage ripple normal condition, power control level for p out max @ f< 250khz @ f>250khz 85 25 mvpp i vddlp off state supply current rtc backup @ batt+ = 0v @ vddlp = 2.3v 8.0 a power down mode 45 a i batt+ average supply cur- rent sleep mode, gsm 2 @ drx = 2 @ drx = 5 @ drx = 9 2. measurements start 3 minutes after the module was switched on, averaging times: sleep mode - 3 minutes; idle mode - 1.5 minutes, communication tester settings: no neighbour cells, no cell reselection etc. 2.1 1.5 1.1 ma sleep mode, gprs 2 @ drx = 2 @ drx = 5 @ drx = 9 2.2 1.5 1.2 ma idle mode 2 8.6 ma talk mode gsm gsm850/egsm 900 3 gsm 1800/1900 4 3. power control level pcl 5 4. power control level pcl 0 200 150 ma data mode gprs 1 tx, 4 rx gsm 850/egsm 900 3 gsm 1800/1900 4 180 145 ma data mode gprs 2 tx, 3 rx gsm 850/egsm 900 3 gsm 1800/1900 4 330 260 ma peak supply current (during transmission slot every 4.6ms) power control level gsm 850/egsm 900 3 gsm 1800/1900 4 1.30 0.95 1.35 0.97 a www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 5.6 electrical characteristics of the voiceband part 89 bgs2_hid_v01.301 page 83 of 112 2011-04-07 confidential / released ? 5.6 electrical characteristics of the voiceband part 5.6.1 setting audio parameters by at commands the audio modes 2 to 6 can be adjusted accordi ng to the parameters listed below. each audio mode is assigned a separate set of parameters. note: the parameters incalibrate, outcalibrate and sidetone accept also values from 32768 to 65535. these values are in ternally truncated to 32767. table 26: audio parameters adjustable by at command parameter influence to range gain range calculation inbbcgain micp/micn analog amplifier gain of baseband controller before adc 0...7 0...39db 6db steps, 3db between step 6 and 7 incalibrate digital attenuation of input signal after adc 0...32767 - ? ...0db 20 * log (incali- brate/ 32768) outbbcgain epp/epn anal og output gain of baseband controller after dac 0...3 0...-18db 6db steps outcalibrate[n] n = 0...4 digital attenuation of output signal after speech decoder, before sum- mation of sidetone and dac present for each volume step[n] 0...32767 - ? ...+6db 20 * log (2 * out- calibrate[n]/ 32768) sidetone digital attenuation of sidetone is cor- rected internally by outbbcgain to obtain a constant sidetone indepen- dent of output volume 0...32767 - ? ...0db 20 * log (sidet- one/ 32768) www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 5.6 electrical characteristics of the voiceband part 89 bgs2_hid_v01.301 page 84 of 112 2011-04-07 confidential / released ? 5.6.2 audio programming model the audio programming model show s how the signal path can be influenced by varying the at command parameters. the parameters BGS2-E/bgs2-w hardware interface description 5.6 electrical characteristics of the voiceband part 89 bgs2_hid_v01.301 page 85 of 112 2011-04-07 confidential / released ? 5.6.3 characteristics of audio modes the electrical characteristic s of the voiceband part depend on the current audio mode set with the at^snfs command. note: with regard to acoustic shock, the cellular application must be designed to avoid sending false at commands that might increase amplificat ion, e.g. for a high sensitive earpiece. a pro- tection circuit should be implem ented in the cellular application. table 27: voiceband characteristics (typical) audio mode no. at^snfs= 1 (default settings, not adjustable) 2 3 4 5 6 name default handset basic handsfree headset user handset plain codec 1 plain codec 2 purpose dsb with votronic handset car kit headset dsb with individual handset direct access to speech coder direct access to speech coder gain setting via at command. defaults: inbbcgain outbbcgain fix 4 (24db) 0 (0db) adjustable 1 (6db) 2 (-12db) adjustable 6 (36db) 2 (-12db) adjustable 4 (24db) 0 (0db) adjustable 0 (0db) 0 (0db) adjustable 0 (0db) 0 (0db) power supply on (2.2v) on (2.2v) on (2.2v) on (2.2v) on (2.2v) on (2.2v) sidetone on -- adjustable adjustable adjustable adjustable volume control off adjustable adjust able adjustable adjustable adjustable echo control (send) cancella- tion cancella- tion cancella- tion cancella- tion cancella- tion cancella- tion noise suppression 1 1. in audio modes with noise reduction, the microphone input signal for 0dbm0 shall be measured with a sine burst signal for a tone duration of 5 seconds and a pause of 2 sec. the sine signal appears as noise and, after approx. 12 sec, is attenuated by the noise reduction by up to 12db. 12db 12db 12db 12db -- -- mic input signal for 0dbm0 @ 1024 hz (default gain) 16mv 130mv 7.5mv 2 2. signal for -2dbm0 (due to attenuation of uplink filter at 1khz) 16mv 275mv 275mv ep output signal in mv rms. @ 0dbm0, 1024 hz, no load (default gain); @ 3.14 dbm0 500mv 160mv 230mv 500mv 1160mv 4.5vpp 1160mv 4.5vpp sidetone gain at default settings 20db - ? 17db 20db - ? - ? www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 5.6 electrical characteristics of the voiceband part 89 bgs2_hid_v01.301 page 86 of 112 2011-04-07 confidential / released ? 5.6.4 voiceband receive path test conditions: ? the values specified below were tested to 1khz and 0db gain stage, unless otherwise stated. ? parameter setup: gs = 0db means audio mode = 5 for epp to epn, inbbcgain= 0, incali- brate = 32767, outbbcgain = 0, outcalibrate = 16384, sidetone = 0. gs = gain setting table 28: voiceband receive path parameter min typ max unit test condition/remark differential output volt- age (peak to peak) 3.4 4.5 vpp 16ohm, no load, from eppx to epnx gs = 0db @ 3.14dbm0 differential output gain settings ( gs ) at 6db stages (outbbcgain) -18 0 db set with at^snfo fine scaling by dsp (outcalibrate) - ? +6 db set with at^snfo output differential dc offset -50 +50 mv gs = 0db, outbbcgain = 0 and -6db differential output load resistance 14 ? from epp to epn allowed single ended load capacitance 150 pf from epp or epn to agnd absolute gain drift -5 +5 % variation due to change in tempera- ture and life time passband ripple 0.5 db for f < 3600 hz stopband attenuation 50 db for f > 4600 hz www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 5.6 electrical characteristics of the voiceband part 89 bgs2_hid_v01.301 page 87 of 112 2011-04-07 confidential / released ? 5.6.5 voiceband transmit path test conditions: ? the values specified below were tested to 1khz and 0db gain stage, unless otherwise stated. ? parameter setup: audio mode = 5 for micp to micn, inbbcgain= 0, incalibrate = 32767, outbbcgain = 0, outcalibrate = 16384, sidetone = 0 table 29: voiceband transmit path parameter min typ max unit test condition/remark input voltage (peak to peak) micp to micn 0.8 v input amplifier gain in 6db steps (inbbcgain) 1 1. 3db step between inbbcgain 6 and 7. 0 39 db set with at^snfi fine scaling by dsp (incalibrate) - ? 0 db set with at^snfi input impedance mic 50 k ? microphone supply voltage 2.2 v microphone supply current 4 ma www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 5.7 antenna interface specification 89 bgs2_hid_v01.301 page 88 of 112 2011-04-07 confidential / released ? 5.7 antenna interface specification measurement conditions: t amb = 25c, v batt+ nom = 4.1v. table 30: antenna interface specifications 1 1. gsm850 and gsm1900 bands are applicable for the quad band module variant bgs2-w only. parameter min typ max unit frequency range gsm 850 824 849 mhz uplink (ms ? bts) e-gsm 900 880 915 mhz gsm 1800 1710 1785 mhz gsm 1900 1850 1910 mhz frequency range gsm 850 869 894 mhz downlink (bts ? ms) e-gsm 900 925 960 mhz gsm 1800 1805 1880 mhz gsm 1900 1930 1990 mhz receiver input sensitivity @ arp under all propagation conditions according to gsm specification gsm 850 -102 dbm e-gsm 900 -102 dbm gsm 1800 -102 dbm gsm 1900 -102 dbm receiver input sensitivity @ arp ber class ii <= 2.43% @ static input level (no fading) gsm 850 -107 dbm e-gsm 900 -107 dbm gsm 1800 -107 dbm gsm 1900 -107 dbm rf power @ arp with 50 ? load gsm 850 31 33 35 dbm e-gsm 900 31 33 35 dbm gsm 1800 283032dbm gsm 1900 283032dbm www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 5.8 electrostatic discharge 89 bgs2_hid_v01.301 page 89 of 112 2011-04-07 confidential / released ? 5.8 electrostatic discharge the gsm module is not protected against elec trostatic discharge (esd) in general. conse- quently, it is subject to esd handling precaution s that typically apply to esd sensitive compo- nents. proper esd handling and packaging pr ocedures must be applied throughout the processing, handling and operation of any application that incorporates a BGS2-E/bgs2-w module. special esd protection provided on BGS2-E/bgs2-w: ? sim interface: serial resistor and esd protection diode BGS2-E/bgs2-w has been tested according to group standard etsi en 301 489-1 (see table 3 ) and test standard en 61000-4-2. the measured val ues can be gathered from the following ta- ble. note: please note that the values may vary wi th the individual application design. for example, it matters whether or not the application platfo rm is grounded over external devices like a com- puter or other equipment, such as the ci nterion reference application described in chapter 8 . table 31: measured electrostatic values specification/requirements contact discharge air discharge en 61000-4-2 sim interface ? 4kv ? 8kv antenna interface ? 4kv ? 8kv jedec jesd22-a114d (human body model, test conditions: 1.5 k ? , 100 pf) esd at the module ? 1kv n.a. www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 6 mechanics, mounting and packaging 91 bgs2_hid_v01.301 page 90 of 112 2011-04-07 confidential / released ? 6 mechanics, mounting and packaging the following sections describe the mechanical dimensions of BGS2-E/bgs2-w and give rec- ommendations for integrating BGS2-E/bgs2-w into the host application. also, a number of files containing product model data in step format as well as gerber data for the external ap- plication footprint are attached to this pdf. please open the attachments navigation panel to view and save these files. 6.1 mechanical dimensio ns of BGS2-E/bgs2-w figure 42 shows the top and bottom view of BGS2-E/b gs2-w and provides an overview of the board's mechanical dimensions. for further details see figure 43 . figure 42: BGS2-E/bgs2-w? top and bottom view product label top view bottom view www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 6.1 mechanical dimensions of BGS2-E/bgs2-w 91 bgs2_hid_v01.301 page 91 of 112 2011-04-07 confidential / released ? figure 43: dimensions of BGS2-E/bgs2-w (all dimensions in mm) www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 6.2 mounting BGS2-E/bgs2-w onto the application platform 104 bgs2_hid_v01.301 page 92 of 112 2011-04-07 confidential / released ? 6.2 mounting BGS2-E/bgs2-w on to the application platform this section describes how to mount BGS2-E /bgs2-w onto the pcbs (=printed circuit boards), including land pattern and stencil desi gn, board-level characterization, soldering con- ditions, durability and mechanical handling. for mo re information on issues related to smt module integration see also [3] . 6.2.1 smt pcb assembly 6.2.1.1 land pattern and stencil the land pattern and stencil design as shown in figure 44 , figure 45 and figure 46 are based on cinterion characterizations for lead-free solder paste on a four-layer test pcb and a 110 re- spectively 150 micron thick stencil. figure 44: land pattern (top view) the below stencil design samples show that not all of the module?s center ground pads will have to be soldered to an external application. the remaining center ground pads however, should be soldered to the application in order to improve solder joint consistency for all module pads. the center ground pads are primarily intended for stabilizing purposes, and may show some more voids than the application interface pads at the module's rim. this is acceptable, since they are electrically irrelevant. www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 6.2 mounting BGS2-E/bgs2-w onto the application platform 104 bgs2_hid_v01.301 page 93 of 112 2011-04-07 confidential / released ? figure 45: recommended design for 110 micron thick stencil (top view) figure 46: recommended design for 150 micron thick stencil (top view) www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 6.2 mounting BGS2-E/bgs2-w onto the application platform 104 bgs2_hid_v01.301 page 94 of 112 2011-04-07 confidential / released ? 6.2.1.2 board level characterization board level characterization issues should also be taken into account if devising an smt pro- cess. characterization tests should attempt to optimiz e the smt process with regard to board level reliability. this can be done by performing the fo llowing physical tests on sample boards: peel test, bend test, tensile pull tes t, drop shock test and temperature cycling. sample surface mount checks are described in [3] . it is recommended to characterize land pattern s before an actual pcb production, taking indi- vidual processes, materials, equipment, stencil desig n, and reflow profile into account. for land and stencil pattern design recommendations see also section 6.2.1.1 . optimizing the solder stencil pattern design and print process is necessa ry to ensure print uniformity, to decrease sol- der voids, and to increase board level reliability. daisy chain modules for smt char acterization are available on request. for details refer to [3] . generally, solder paste manufac turer recommendations for screen printing process parame- ters and reflow profile conditions should be followed. maximum ratings are described in section 6.2.3 . 6.2.2 moisture se nsitivity level BGS2-E/bgs2-w comprises components that are susceptible to damage induced by absorbed moisture. cinterion?s BGS2-E/bgs2-w module complies with the latest revision of the ipc/jedec j- std-020 standard for moisture sensitive surface mount devices and is classified as msl 4. for additional msl (=moisture sensitivity level) related information see section 6.2.4 and section 6.3.2 . www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 6.2 mounting BGS2-E/bgs2-w onto the application platform 104 bgs2_hid_v01.301 page 95 of 112 2011-04-07 confidential / released ? 6.2.3 soldering conditions and temperature 6.2.3.1 reflow profile figure 47: reflow profile table 32: reflow temperature ratings profile feature pb-free assembly preheat & soak temperature minimum (t smin ) temperature maximum (t smax ) time (t smin to t smax ) (t s ) 150c 200c 60-120 seconds average ramp up rate (t smax to t p ) 3k/second max. liquidous temperature (t l ) time at liquidous (t l ) 217c 60-90 seconds peak package body temperature (t p )245c +0/-5c time (t p ) within 5 c of the peak package body temperature (t p ) 30 seconds max. average ramp-down rate (t p to t smax ) 6 k/second max. time 25c to maximum temperature 8 minutes max. t l t p t p t l t s preheat t to maximum time temperature t smin t smax www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 6.2 mounting BGS2-E/bgs2-w onto the application platform 104 bgs2_hid_v01.301 page 96 of 112 2011-04-07 confidential / released ? 6.2.3.2 maximum temper ature and duration the following limits are recommended for the smt board-level soldering process to attach the module: ? a maximum module temperature of 245c. thi s specifies the temperature as measured at the module?s top side. ? a maximum duration of 30 seconds at this temperature. please note that while the solder paste manufacturers' recommendations for best temperature and duration for solder reflow should generally be followed, the limits listed above must not be exceeded. BGS2-E/bgs2-w is specified for one soldering cy cle only. once bgs2-w is removed from the application, the module will very likely be destroyed and cannot be soldered onto another ap- plication. www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 6.2 mounting BGS2-E/bgs2-w onto the application platform 104 bgs2_hid_v01.301 page 97 of 112 2011-04-07 confidential / released ? 6.2.4 durability and mechanical handling 6.2.4.1 storage conditions BGS2-E/bgs2-w modules, as delivered in tape and reel carriers, must be stored in sealed, moisture barrier anti-static bags. the conditions stated below are only valid for modules in their original packed state in weather protected, non-temperature-controlled storage locations. nor- mal storage time under these conditions is 12 months maximum. table 33: storage conditions type condition unit reference air temperature: low high -25 +40 c ipc/jedec j-std-033a humidity relative: low high 10 90 at 40c % ipc/jedec j-std-033a air pressure: low high 70 106 kpa iec tr 60271-3-1: 1k4 iec tr 60271-3-1: 1k4 movement of surrounding air 1.0 m/s iec tr 60271-3-1: 1k4 water: rain, drip ping, icing and frosting not allowed --- --- radiation: solar heat 1120 600 w/m 2 ets 300 019-2-1: t1.2, iec 60068-2-2 bb ets 300 019-2-1: t1.2, iec 60068-2-2 bb chemically active substances not recommended iec tr 60271-3-1: 1c1l mechanically acti ve substances not recommended iec tr 60271-3-1: 1s1 vibration sinusoidal: displacement acceleration frequency range 1.5 5 2-9 9-200 mm m/s 2 hz iec tr 60271-3-1: 1m2 shocks: shock spectrum duration acceleration semi-sinusoidal 1 50 ms m/s 2 iec 60068-2-27 ea www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 6.2 mounting BGS2-E/bgs2-w onto the application platform 104 bgs2_hid_v01.301 page 98 of 112 2011-04-07 confidential / released ? 6.2.4.2 processing life BGS2-E/bgs2-w must be soldered to an application within 72 hours after opening the mbb (=moisture barrier bag) it was stored in. as specified in the ipc/jedec j-std-033 standard, the manufacturing site processing the modules should have ambient temperatures bel ow 30c and a relative humidity below 60%. 6.2.4.3 baking baking conditions are specified on the moisture sensitivity label attached to each mbb (see figure 52 for details): ? it is not necessary to bake BGS2-E/bgs2-w, if the conditions specified in section 6.2.4.1 and section 6.2.4.2 were not exceeded. ? it is necessary to bake BGS2-E/bgs2-w, if any condition specified in section 6.2.4.1 and section 6.2.4.2 was exceeded. if baking is necessary, the modules must be put into trays that can be baked to at least 125c. devices should not be baked in tape and reel carriers at any temperature. 6.2.4.4 electrostatic discharge esd (=electrostatic discharge) may lead to irre versable damage for the module. it is therefore advisable to develop measures and methods to counter esd and to use these to control the electrostatic environment at manufacturing sites. please refer to section 5.8 for further information on electrostatic discharge. www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 6.3 packaging 104 bgs2_hid_v01.301 page 99 of 112 2011-04-07 confidential / released ? 6.3 packaging 6.3.1 tape and reel the single-feed tape carrier for BGS2-E/bgs2-w is illustrated in figure 48 . the figure also shows the proper part orientation. the tape width is 44 mm and the bgs2-w modules are placed on the tape with a 28-mm pitch. the reels are 330 mm in diameter with a core diameter of 100 mm. each reel contains 500 modules. 6.3.1.1 orientation figure 48: carrier tape figure 49: reel direction 44 mm 330 mm reel direction of the completely equipped tape direction into smd machine view direction pad 1 pad 1 www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 6.3 packaging 104 bgs2_hid_v01.301 page 100 of 112 2011-04-07 confidential / released ? 6.3.1.2 barcode label a barcode label provides detailed information on the tape and its contents. it is attached to the reel. figure 50: barcode label on tape reel barcode label www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 6.3 packaging 104 bgs2_hid_v01.301 page 101 of 112 2011-04-07 confidential / released ? 6.3.2 shipping materials BGS2-E/bgs2-w is distributed in tape and reel carriers. the tape and reel carriers used to dis- tribute BGS2-E/bgs2-w are packed as described below, including the following required ship- ping materials: ? moisture barrier bag, including desic cant and humidity indicator card ? transportation box 6.3.2.1 moisture barrier bag the tape reels are stored inside an mbb (=moisture barrier bag), together with a humidity indi- cator card and desiccant pouches - see figure 51 . the bag is esd protected and delimits mois- ture transmission. it is vacuum-sealed and should be handled carefully to avoid puncturing or tearing. the bag protects the BGS2-E/bgs2-w m odules from moisture exposure. it should not be opened until the devices are ready to be soldered onto the application. figure 51: moisture barrier bag (mbb) with imprint the label shown in figure 52 summarizes requirements regarding moisture sensitivity, includ- ing shelf life and baking requirements. it is attached to the outside of the moisture barrier bag. www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 6.3 packaging 104 bgs2_hid_v01.301 page 102 of 112 2011-04-07 confidential / released ? figure 52: moisture sensitivity label www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 6.3 packaging 104 bgs2_hid_v01.301 page 103 of 112 2011-04-07 confidential / released ? mbbs contain one or more desiccant pouches to absorb moisture that may be in the bag. the humidity indicator card described below should be used to determine whether the enclosed components have absorbed an excessive amount of moisture. the desiccant pouches should not be baked or reused once removed from the mbb. the humidity indicator card is a moisture indica tor and is included in the mbb to show the ap- proximate relative humidity level within the bag. sample humidity cards are shown in figure 53 . if the components have been exposed to moisture above the recommended limits, the units will have to be rebaked. figure 53: humidity indicator card - hic a baking is required if the humidity indicato r inside the bag indicates 10% rh or more. 6.3.2.2 transportation box tape and reel carriers are distributed in a box, marked with a barcode label for identification purposes. a box contains two reels with 500 modules each. www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 6.3 packaging 104 bgs2_hid_v01.301 page 104 of 112 2011-04-07 confidential / released ? 6.3.3 trays if small module quantities are required, e.g., for test and evaluation purposes, BGS2-E/bgs2-w may be distrib- uted in trays. the small quantity trays are an alternative to the single-feed tape carriers normally used. however, the trays are not designed for machine processing. they contain modules to be (hand) soldered onto an external application (for information on hand soldering see [3] ). figure 54: small quantity tray trays are packed and shipped in the same way as tape carriers, including a moisture barrier bag with desiccant and humidity indicator card as well as a transportation box (see also section 6.3.2 ). figure 55: tray to ship odd module amounts figure 56: trays with packaging materials 1:1,5 www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 7 sample application 108 bgs2_hid_v01.301 page 105 of 112 2011-04-07 confidential / released ? 7 sample application figure 57 shows a typical example of how to integrate a BGS2-E/bgs2-w module with an ap- plication. usage of the various host interfac es depends on the desired features of the applica- tion. the audio interface demonstrates the balanced connection of microphone and earpiece. this solution is particularly well suited for internal transducers. because of the very low power consumption desi gn, current flowing from any other source into the module circuit must be avoided, for example reverse current from high state external control lines. therefore, the controlling application must be designed to prevent reverse current flow. otherwise there is the risk of undefined states of the module during startup and shutdown or even of damaging the module. because of the high rf field density inside the module, it cannot be guaranteed that no self interference might occur, depending on frequ ency and the applications grounding concept. ex- cluded that in some applications dependant on the grounding concept of the customer. the po- tential interferers may be minimized by placing small capacitors (47pf) at suspected lines (e.g. rxd0, rxt0, vddlp, and on). while developing smt applications it is strongly recommended to provide test points for certain signals resp. lines to and from the module - for debug and/or test purposes. the smt application should allow for an easy access to these signals. for details on how to implement test points see [3] . the emc measures are best practice recommenda tions. in fact, an adequate emc strategy for an individual application is very mu ch determined by the overall layout and, especially, the po- sition of components. for example, mounting the internal acoustic transducers directly on the pcb eliminates the need to use the ferrite beads shown in the sample schematic. please note that BGS2-E/bgs2-w is not intended for use with cables longer than 3m. disclaimer no warranty, either stated or implied, is provided on the sample schematic diagram shown in figure 57 and the information detailed in this section. as functionality and compliance with na- tional regulations depend to a great amount on the used electronic components and the indi- vidual application layout manufacturers are r equired to ensure adequate design and operating safeguards for their products using BGS2-E/bgs2-w modules. www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 7 sample application 108 bgs2_hid_v01.301 page 106 of 112 2011-04-07 confidential / released ? figure 57: schematic diagram of BGS2-E/bgs2-w sample application 100k on emerg_rst v285 v180 on reset vdig asc0 asc1 asc1 asc0 8 4 100nf 100nf microphone feeding fb* fb* fb* fb* vmic micp micn agnd epp epn v180 ccvcc ccio ccclk ccin ccrst sim v180 220nf 1nf i2cclk (gpio10) i2cdat (gpio9) 5k 4.7k vdig vdig gpio1 gpio2 gpio3 gpio4 gpio5 (led) gpio6 (pwm) gpio7 (pwm) gpio8 led gnd gnd gnd rf batt+ power supply gsm module fb* = ferrite beads optimized for gsm 900mhz all sim components should be close to card holder. keep sim wires low capacitive. asc0 operates with vdig level i 2 c operates with vdig level asc1 operates only with 1.8v level gpios operate only with 1.8v level 100nf *10pf *10pf * add optional 10pf for sim protection against rf (internal antenna) 100nf 33pf 4.7k blocking** blocking** blocking** 1k (1.8v level) blocking** = for more details see vdig section 7.1 www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 7.1 blocking against rf on interface lines 108 bgs2_hid_v01.301 page 107 of 112 2011-04-07 confidential / released ? 7.1 blocking against rf on interface lines to reduce emi issues there are serial resistors, or capacitors to gnd, implemented on the module for the ignition, emergency rest art, and sim interface lines (cp. section 5.8 ). however, all other signal lines have no emi measures on the module and there are no blocking measures at the module?s interface to an external application. dependent on the specific application design, it might be useful to implement further emi mea- sures on some signal lines at the interface between module and application. these measures are described below. there are five possible variants of emi measures (a-e) that may be implemented between module and external application depending on the signal line (see figure 58 and table 34 ). pay attention not to exceed the maximum input volta ges and prevent voltage overshots if using in- ductive emc measures. the maximum value of the serial resistor s hould be lower than 1kohm on the signal line. the maximum value of the capacitor should be lower than 50pf on the signal line. please observe the electrical specificati on of the module interface and the application interface. figure 58: emi circuits r b2b application emi measures a c b2b applicatio n gnd emi measures b r c b2b application gn d emi measures c l b2b applicatio n emi measures d l c b2b application gn d emi measures e www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 7.1 blocking against rf on interface lines 108 bgs2_hid_v01.301 page 108 of 112 2011-04-07 confidential / released ? the following table lists for each signal line at the smt application interface the emi measures that may be implemented. table 34: emi measures on the application interface signal name emi measures remark a b c d e ccin x x ccrst x the external capacito r should be not higher than 30pf. the value of the capacitor depends on the external application. ccio x ccclk x rxd0 xxxxx txd0 xxxxx cts0 xxxxx rts0 x ring0 x dtr0 xxxxx dcd0 xxxxx dsr0 xxxxx rxd1 xxxxx txd1 xxxxx cts1 xxxxx rts1 xxxxx gpio1 xxxxx gpio2 xxxxx gpio3 xxxxx gpio4 xxxxx gpio5/status xxxxx gpio6/pwm2 xxxxx gpio7/pwm1 xxxxx gpio8 xxxxx gpio9/i2cdat x x the rising signal edge is reduced with an additional capacitor. gpio10/i2cclk x x v180 x x x v285 x x x vdig x x x www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 8 reference approval 110 bgs2_hid_v01.301 page 109 of 112 2011-04-07 confidential / released ? 8 reference approval 8.1 reference equipment for type approval the cinterion wireless modules reference setup submitted to type approve BGS2-E/bgs2-w is shown in the following figure: figure 59: reference equipment for type approval dsb75 adapter for bgs2 antenna gsm antenna with 1m cable asc0 pc power supply gsm / gprs / umts base station dsb75 evaluation module extern connected via flexible cable and 60to80 pin adapter audio test system handset asc1 sim card sma sma rf reference point on 60to80 pin adapter audio bgs2 bgs2 www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 8.2 compliance with fcc and ic rules and regulations 110 bgs2_hid_v01.301 page 110 of 112 2011-04-07 confidential / released ? 8.2 compliance with fcc and ic rules and regulations the equipment authorization certification for the cinterion wireless modules reference appli- cation described in section 8.1 will be registered under the following identifiers 1 : fcc identifier: qipbgs2 industry canada certification number: 7830a-bgs2 granted to cinterion wireless modules gmbh manufacturers of mobile or fixed devices inco rporating bgs2-w modules are authorized to use the fcc grants and industry canada certificates of the bgs2-w modules for their own final products according to the conditions referenced in these documents. in this case, an fcc/ ic label of the module shall be visible from the out side, or the host device shall bear a second label stating "contains fcc id qipbgs2", and accordingly ?contains ic 7830a-bgs2?. important: manufacturers of portable applic ations incorporating bgs2-w modules are required to have their final product certified and apply for their own fcc grant and industry canada certificate related to the specific portable mobile. this is mandatory to meet the sar requirements for por- table mobiles (see section 1.3.2 for detail). changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment. 1. applies only for the quad band module variant bgs2-w. www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 9 appendix 112 bgs2_hid_v01.301 page 111 of 112 2011-04-07 confidential / released ? 9 appendix 9.1 list of parts and accessories table 35: list of parts and accessories description supplier ordering information BGS2-E/bgs2-w cinterion standard module cinterion wireless modules imei: ordering number: l30960-n2200-a100 (BGS2-E) ordering number: l30960-n2210-a100 (bgs2-w) customer imei mode: ordering number: l30960-n2205-a100 (BGS2-E) ordering number: l30960-n2215-a100 (bgs2-w) dsb75 evaluation kit cinterion ordering number: l36880-n8811-a100 dsb75 adapter for mounting BGS2-E/bgs2-w evaluation modules cinterion ordering number: l30960-n1801-a100 evaluation module cinterion ordering number: l30960-n2201-a100 (BGS2-E) ordering number: l30960-n2211-a100 (bgs2-w) votronic handset votronic votronic hh-si-30.3/v1.1/0 votronic entwicklungs- und produktionsgesellschaft fr elektronische ger?te mbh saarbrcker str. 8 66386 st. ingbert germany phone: +49-(0)6 89 4 / 92 55-0 fax: +49-(0)6 89 4 / 92 55-88 email: contact@votronic.com sim card holder incl. push button ejector and slide-in tray molex ordering numbers: 91228 91236 sales contacts are listed in table 36 . www.datasheet.co.kr datasheet pdf - http://www..net/ BGS2-E/bgs2-w hardware interface description 9.1 list of parts and accessories 112 bgs2_hid_v01.301 page 112 of 112 2011-04-07 confidential / released ? table 36: molex sales contacts (subject to change) molex for further information please click: http://www.molex.com molex deutschland gmbh felix-wankel-str. 11 4078 heilbronn-biberach germany phone: +49-7066-9555 0 fax: +49-7066-9555 29 email: mxgermany@molex.com american headquarters lisle, illinois 60532 u.s.a. phone: +1-800-78molex fax: +1-630-969-1352 molex china distributors beijing, room 1319, tower b, cofco plaza no. 8, jian guo men nei street, 100005 beijing p.r. china phone: +86-10-6526-9628 phone: +86-10-6526-9728 phone: +86-10-6526-9731 fax: +86-10-6526-9730 molex singapore pte. ltd. jurong, singapore phone: +65-268-6868 fax: +65-265-6044 molex japan co. ltd. yamato, kanagawa, japan phone: +81-462-65-2324 fax: +81-462-65-2366 www.datasheet.co.kr datasheet pdf - http://www..net/ |
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