Sagem Wireless 95V3L GSM 900/1800/1900 MHz Module User Manual

Sagem Wireless GSM 900/1800/1900 MHz Module

OEM Instruction Manual

   SCT TMO MASV3 SPEC 030 I spec  agrément triband.doc Document  .  All rights of reproduction and disclosure reserved. This document contains information on a product under development. SAGEM reserves the right to change or discontinue this product without notice.  Unit of Saint Christophe TMO +$5':$5(0$697287(69(56,216Réf. : SCT TMO MASV3 SPEC 30 Revision:  I Réf. sec. : 2x xxx xxx – x Date :  02/11/04 Page 1 sur 46   &2[[;6VSHFLILFDWLRQ Type of document :    SPECIFICATIONS
  Document  .  All rights of reproduction and disclosure reserved.  This document contains information on a product under development. SAGEM reserves the right to change or discontinue this product without notice. &RQFOXVLRQRUVXPPDU\: This document gives an overview of the CO2xx/XS200 module: a miniature, single-side, BGA board, tri-band GSM/GPRS module, ready for integration in mobile application like vehicle-mounted or vending machines … It describes the main functionalities of this module as well as the electrical interfaces, the mechanical specification (dimension, form…) and the electrical specification of the module.                            +$5':$5(&2[[;6VSHFLILFDWLRQ)RUPRELOHDSSOLFDWLRQV Ref. :  SCT TMO MASV3 SPEC 30  Rev :  I  02/11/04 Ref. Sec. :  2x xxx xxx – x
 Réf. :  SCT TMO MASV3 SPEC 30 Rev. :  H Réf. sec. :  2x xxx xxx – x Date :  14/09/04  Document  .  All rights of reproduction and disclosure reserved.  Page 1 This document contains information on a product under development. SAGEM reserves the right to change or discontinue this product without notice.       &2;;;6*60*35675,%$1'%&(02'8/()2502%,/($33/,&$7,216
 Réf. :  SCT TMO MASV3 SPEC 30 Rev. :  H Réf. sec. :  2x xxx xxx – x Date :  14/09/04  Document  .  All rights of reproduction and disclosure reserved.  Page 2 This document contains information on a product under development. SAGEM reserves the right to change or discontinue this product without notice.   &+$1*(+,6725<  5HY 'DWH 5HDVRQIRUFKDQJHA  12/07/03  First document B  15/07/03 LCD addressable, electrical specification, vibrating device interface description, LED interface, audio interface, keyboard interface modification, melody chip interface description, Blue tooth interface description C  07/10/03  Pinout modification, electrical specification, LED and backlight capability D  14/11/03  Pinout Modification, LCD and Keyboard Backlight suppression E  27/01/04  Charge precision, VBAT limitation, OEMEM* signal F  06/04/04  End of preliminary specification G  07/05/04  Power consumption H I 14/09/04 02/11/04 Pull up / Pull down, certification clarifications certification clarifications      7$%/(2)&217(176 6&23(  ,QWURGXFWLRQ   5HIHUHQFH    6WDQGDUGVFRPSOLDQFH    FRPSOLDQFHZLWKIFFJXLGHOLQHV   7HUPVDQGDEEUHYLDWLRQ    3URGXFWIHDWXUHV    %/2&',$*5$0   )81&7,21$/'(6&5,37,21   6,0    $XGLR   'LVSOD\   3.3.1 Serial interface ........................................................................................................................... 13 3.3.2 Parallel interface to LCD ............................................................................................................ 14  'DWD   3.4.1 Data services.............................................................................................................................. 15 3.4.2 IrDA ............................................................................................................................................ 15 3.4.3 UART 2....................................................................................................................................... 15 3.4.4 V24 ............................................................................................................................................. 15 3.4.5 USB ............................................................................................................................................ 16  $QWHQQD    .H\SDG   9LGHRVHQVRU   3.7.1 I2C interface............................................................................................................................... 17 3.7.2 Parallel interface to sensor......................................................................................................... 17
 Réf. :  SCT TMO MASV3 SPEC 30 Rev. :  H Réf. sec. :  2x xxx xxx – x Date :  14/09/04  Document  .  All rights of reproduction and disclosure reserved.  Page 3 This document contains information on a product under development. SAGEM reserves the right to change or discontinue this product without notice.  ([WHUQDOFRPSDQLRQFKLSLQWHUIDFH  3.8.1 I2S interface ............................................................................................................................... 17 3.8.2 Parallel interface to companion chip .......................................................................................... 17  %OXHWRRWKRSWLRQDO   3.9.1 MCSI interface............................................................................................................................ 21 3.9.2 UART interface........................................................................................................................... 22 3.9.3 Clock........................................................................................................................................... 22  0HORG\JHQHUDWLRQ    '$,    &ORFNV    3RZHUPDQDJHPHQWDQGFKDUJH  3.13.1 Battery ........................................................................................................................................ 22 3.13.2 VRIO........................................................................................................................................... 23 3.13.3 Vbackup ..................................................................................................................................... 23 3.13.4 Charge........................................................................................................................................ 23  $FFHVVRULHV   3.14.1 Flap............................................................................................................................................. 23 3.14.2 Network LED .............................................................................................................................. 23 3.14.3 Vibrating device.......................................................................................................................... 24  23(5$7,1*02'(6  0RGHVGHVFULSWLRQ  4.1.1 No supply ................................................................................................................................... 25 4.1.2 OFF ............................................................................................................................................ 25 4.1.3 Active.......................................................................................................................................... 25 4.1.4 Standby ...................................................................................................................................... 25  7UDQVLWLRQVGHVFULSWLRQ  4.2.1 Power_on ................................................................................................................................... 25 4.2.2 Power_off ................................................................................................................................... 26 4.2.3 Switch_on................................................................................................................................... 26 4.2.4 Switch_off................................................................................................................................... 26 4.2.5 Wake up ..................................................................................................................................... 26  %$//287  (/(&75,&$/63(&,),&$7,21  9%$7    95,2    '$,LQWHUIDFH   1HWZRUN/('    6HULDOLQWHUIDFHIRU/&'   .H\ERDUGLQWHUIDFH    9LEUDWLQJGHYLFHFRQWURO   9    ,5'$DQG8$57    5HVHW    6SDUH,2 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   0&6,LQWHUIDFH    ,6LQWHUIDFH   ,&LQWHUIDFH   -7$*LQWHUIDFH    $'&    ,QWHUUXSWV 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 Réf. :  SCT TMO MASV3 SPEC 30 Rev. :  H Réf. sec. :  2x xxx xxx – x Date :  14/09/04  Document  .  All rights of reproduction and disclosure reserved.  Page 4 This document contains information on a product under development. SAGEM reserves the right to change or discontinue this product without notice.  9%$&.83    (19,5210(17$/63(&,),&$7,21   2SHUDWLQJFRQGLWLRQV    &OLPDWLFFRQGLWLRQV    0(&+$1,&$/63(&,),&$7,21   $11(;( 
 Réf. :  SCT TMO MASV3 SPEC 30 Rev. :  H Réf. sec. :  2x xxx xxx – x Date :  12/05/04 DRAFT Document  .  All rights of reproduction and disclosure reserved.  Page 5 This document contains information on a product under development. SAGEM reserves the right to change or discontinue this product without notice.  6&23( ,1752'8&7,21This document gives an overview of the CO2xx/XS200 module: a miniature, single-side, BGA board, tri-band GSM/GPRS module, ready for integration in mobile application like vehicle-mounted or vending machines…  It describes the main functionalities (GPRS / GSM 900MHz  / DCS 1800MHz / PCS 1900MHz, interface to a melody chip, LCD interface, SIM interface, vibrating device interface, audio interfaces for speaker/microphone or accessories, battery interface, battery charging interface, USB interface, SD card interface, Sensor interface …) of this module as well as the electrical interfaces, the mechanical specification (dimension, form… ) and the electrical specification of the module.     5()(5(1&(  67$1'$5'6&203/,$1&(•  GSM 02.60: "Digital cellular telecommunications system (Phase 2+); Stage 1 Service Description of the General Packet Radio Service (GPRS)". Version 6.3.0. •  GSM 03.03: "Digital cellular telecommunications system (Phase 2+); Numbering, addressing and identification". Version 6.6.0. •  GSM 03.13: "Digital cellular telecommunications system (Phase 2+); Discontinuous Reception (DRX) in the GSM system". Version 6.0.0. •  GSM 03.60: "Digital cellular telecommunications system (Phase 2+); General Packet Radio Service (GPRS); Service description; Stage 2". Version 6.7.0. •  GSM 03.64: "Digital cellular telecommunications system (Phase 2+); General Packet Radio Service (GPRS);Overall description of GPRS radio Interface; Stage 2". Version 6.4.0. •  GSM 04.02: "Digital cellular telecommunications system (Phase 2+); GSM Public Land Mobile Network (PLMN) access reference configuration". Version 6.0.0. •  GSM 04.03: "Digital cellular telecommunications system (Phase 2+); Mobile Station - Base Station System (MS - BSS) interface Channel structures and access capabilities". Version 6.0.0. •  GSM 04.04: "Digital cellular telecommunications system (Phase 2+); Layer 1 General requirements". Version 6.0.0. •  GSM 04.05: "Digital cellular telecommunications system (Phase 2+); Data Link (DL) layer  General aspects". Version 6.0.1. •  GSM 04.07: "Digital cellular telecommunications system (Phase 2+); Mobile radio interface signalling layer 3  General aspects". Version 6.5.1. •  GSM 04.08: "Digital cellular telecommunications system (Phase 2+);Mobile radio interface layer 3 specification". Version 6.11.0. •  GSM 04.60: "Digital cellular telecommunications system (Phase 2+); General Packet Radio Service (GPRS); Radio Link Control/Medium Access Control (RLC/MAC) protocol". Version 6.9.0. •  GSM 04.64: "Digital cellular telecommunications system (Phase 2+); General Packet Radio Service (GPRS); Logical Link Control (LLC)". Version 6.7.0. •  GSM 04.65: : "Digital cellular telecommunications system (Phase 2+); General Packet Radio Service (GPRS); Mobile Station (MS) - Serving GPRS Support Node (SGSN); Sub network Dependent Convergence Protocol (SNDCP)". Version 6.7.0. •  GSM 05.02: "Digital cellular telecommunications system (Phase 2+); Multiplexing and multiple access on the radio path". Version 6.9.0. •  GSM 05.03: "Digital cellular telecommunications system (Phase 2+); Channel coding". Version 6.2.1. •  GSM 05.08: "Digital cellular telecommunications system (Phase 2+); Radio subsystem link control". Version 6.8.0.
 Réf. :  SCT TMO MASV3 SPEC 30 Rev. :  H Réf. sec. :  2x xxx xxx – x Date :  12/05/04 DRAFT Document  .  All rights of reproduction and disclosure reserved.  Page 6 This document contains information on a product under development. SAGEM reserves the right to change or discontinue this product without notice. •  GSM 05.10: "Digital cellular telecommunications system (Phase 2+); Radio subsystem synchronisation". Version 6.6.0. •  GCF-CC (V.3.12.0) and GT.01. •  NAPRD.03 (V.2.10.1).   &203/,$1&(:,7+)&&*8,'(/,1(6Fix-mount and mobile devices incorporating CO2xx/XS200,XS200 modules must be designed to maintain a minimum separation distance of 20 cm between the antenna and the end user to satisfy RF exposure requirements for mobile transmitting devices.    7(506$1'$%%5(9,$7,21ADC        Analog to Digital Converter ADPCM      Adaptive Delta Pulse Code Modulation AFC        Application Frequency Correction ASIC        Application Specific Integrated Circuit BMP        Bitmap CODEC      Coder-Decoder CTS        Clear To Send DAC        Digital to Analog Converter DAI        Digital Analog Interface DCS        Digital DSP        Data Signal Processor DSR        Data Set Ready DTR        Data Terminal Ready EGSM        Enhanced GSM EMS        Enhanced Messaging Services ESD        Electrostatic Discharge ETS        European Telecommunication Standard GSM        Global Standard for Mobile communication GPRS        Global Packet Radio Services IC        Integrated Circuit IEEE        Institute of Electrical and Electronics Engineers I/O        Input / Output IRDA        Infra Red ISO        International Standards Organisation ITU        International Telecommunication Union JPEG        Joint Picture Expert Group JTAG        Joint Test Action Group KBPS        Kbit per second LCD        Liquid Crystal Display LED        Diode LNA        Low Noise Amplifier MBPS        Mbit per second MIDI        Musical Instrument Digital Interface MMI        Man Machine interface PA        Power Amplifier PBCCH       Packet Broadcast Channel PCB        Printed Circuit Board PCS        Personal Communication System PLL        Phase Locked Loop PNG        Portable Network Graphics RAM        Random Access Memory RF        Radio Frequency RI        Ring Indication
 Réf. :  SCT TMO MASV3 SPEC 30 Rev. :  H Réf. sec. :  2x xxx xxx – x Date :  12/05/04 DRAFT Document  .  All rights of reproduction and disclosure reserved.  Page 7 This document contains information on a product under development. SAGEM reserves the right to change or discontinue this product without notice. RMS        Root Mean Square RTS        Ready To Send RX        Receive direction SIM        Subscriber Identification Module SMS        Short Message Service SRAM        Static Random Access Memory TBC        To Be Confirmed TBD        To Be Defined TX        Transmit direction UART        Universal Asynchronous Receiver and Transmitter USB        Universal Serial Bus USSD        Unstructured Supplementary Service Data VCO        Voltage Controlled Oscillator WAP        Wireless Application Protocol WBMP       Wide Bitmap   352'8&7)($785(6Temperature range Normal range: -10°C to +55°C (fully compliant) Extended range: -20°C to –10°C and +55°C to +70°C (functional without any risk for the network) Storage: -40°C to °85°C Weight (in g)  10g ESD  ESD protected, < 1kv or 2kv (see application note) Physical dimensions  33x38x3.3 mm (typical) Connection  BGA type connection (including antenna and battery connection) Power supply  3.45V to 4.5V range, 3.8V nominal. Power consumption Off mode: 80uA (typ) Standby mode: 2mA (typ) Communication mode: 260mA (GSM/DCS à Pmax)                                      2.2A (GSM  peak during TX slot) Battery charge management and interface Battery charge management is included for regulated charger to 600mA maximum charge current. Specific un-regulated charger qualified by SAGEM could be used (see application note). Antenna connection  No antenna included in the module. Antenna connection is included in the BGA ball-out. See recommendations for connection. Frequency bands  EGSM900  + DCS1800 + PCS1900 Voice codecs  Half Rate, Full Rate, Enhanced Full Rate GSM class  Small MS Transmit power  Class 4 (2W) for EGSM900  Class 1 (1W) for DCS1800 / PCS1900 Supported SIM card 3V SIM cards. To prevent SIM card’s damages, the power supply of the module has to be turned off before any manipulation of the SIM card. SIM slot  Not included on the module. Signals for the management of the SIM card are provided on ball-out. Vibrating device  Not included in the module. Control is provided on ball-out.
 Réf. :  SCT TMO MASV3 SPEC 30 Rev. :  H Réf. sec. :  2x xxx xxx – x Date :  12/05/04 DRAFT Document  .  All rights of reproduction and disclosure reserved.  Page 8 This document contains information on a product under development. SAGEM reserves the right to change or discontinue this product without notice. Keyboard / LCD backlight / network LED (GB)  GB LED management. Interface to external backlight and RGB component. Audio up-link  2x2 differential inputs are provided for microphone (accessories and handset). Audio down-link non stereo  3x2 differential outputs are provided for non stereo earphone (accessories and 6 ohms and 32 ohms). Audio down-link stereo  3 outputs are provided for stereo earphone (accessories and handset). Flap open/closed detection  IO5 dedicated for Flap. Keyboard interface  6x6 keyboard interface is provided on ball-out. UART1 interface with flow control Up to 115.2 Kbaud with auto bauding. Full flow control signals (+2.8V) are provided on ball-out. If a full compliant RS232 (+/-5V) serial interface is needed: The drivers (like MAX3232, ST3237CD, …) are not included in the module and have to be added on the main PCB. A proven schematic to build the RS232 interface is provided in application note. IrDA interface or UART2 interface  Up to 115.2 Kbaud. UART2 and IrDA are not multiplexed but could not be used at the same time. Data services  GPRS, CSD, Fax Supplementary services  Line identification, Call Waiting, Call Hold, Call Forwarding, Multiparty, Closed User Group, Call Barring, Advice of Charge, USSD USB interface  USB 1.1 (slave only) is provided on ball-out. Melody chip interface  The melody chip is not integrated in the module but the interface is provided (power supply, clock, analog audio, serial link, I2S) on ball-out. Serial Interface  A serial interface is provided on ball-out in order to manage an external LCD or a chip melody. Companion chip Interface A parallel interface (16 bits) is provided on ball-out (3 addresses, 1 chip select, OE and RW signals are available) to connect external companion chip for additional multimedia application. LCD parallel interface  A parallel interface (8bits) is provided on ball-out (2 chip select, RW, RS, ESTRB, RESET) to connect LCDs up to 256K colours. MMC interface for SD card only  MMC interface is available on ball-out (power supply not provided) for SD card only. Video sensor interface Video sensor interface is provided on ball-out (parallel interface with 8 bit, clock in, clock out, horizontal synchronisation, vertical synchronisation, reset, standby, I2C interface) to connect VGA sensor (power supply not provided). Blue tooth interface (optional) Blue tooth chipset not included in the module but the interface (MCSI, Clock 26MHz and UART) is available on ball-out. Blue tooth chipset management is optional. Reset pin  Active high signal available (reset of all the system including backup). Power on pin  Available
 Réf. :  SCT TMO MASV3 SPEC 30 Rev. :  H Réf. sec. :  2x xxx xxx – x Date :  12/05/04 DRAFT Document  .  All rights of reproduction and disclosure reserved.  Page 9 This document contains information on a product under development. SAGEM reserves the right to change or discontinue this product without notice. General purpose I/Os pin  4 I/O available on ball-out. GPRS  SMG 31bis, Multi slot class 10, class B terminal, PBCCH support GSM/DCS certification GCF-CC  V.3.12.0 and GT.01 PCS certification  NAPRD.03 (V.2.10.1) Multimedia objects download  Ring tones, wallpapers, icons, games, screen savers
 Réf. :  SCT TMO MASV3 SPEC 30 Rev. :  H Réf. sec. :  2x xxx xxx – x Date :  12/05/04 DRAFT Document  .  All rights of reproduction and disclosure reserved.  Page 10 This document contains information on a product under development. SAGEM reserves the right to change or discontinue this product without notice.  %/2&',$*5$0                                   )LJXUH&2[[;6;6EORFGLDJUDP See Ball-out chapter for more details.    )81&7,21$/'(6&5,37,21  6,0The SIM Card interface is compatible with the ISO 7816-3 IC card standard on the issues required by the GSM 11.11 Phase 2+ standard. The module also supports Release 99 of the SIM Toolkit recommendation and supports a Fixed Dialling Number directory. The SIM Card interface insures the detection (SIMCD), the power on (SIMVCC) of the SIM Card and the communication with it through a data signal (SIMIO), a clock signal (SIMCLK) and a reset signal (SIMRST).  Serial interface to LCD or melody chipParallel interface (16bits) to companion chipEarphone 32 ohms &2[[;6;6PRGXOH GPRS / GSM900 / DCS1800 / PCS1900  Keyboard Battery charger Battery (3.8V) Vibrating deviceMMC interfaceSIM interface (3V)Serial link 2 or IRDA interface V24Antenna Network LEDMicrophone (accessory) 2 1 4 22 8 5 3 10 13 5 9 2 2 Stereo earphone 3 USB interface3 Bluetooth interface(MCSI) -optional5 Spare I/Os 4 Interruption Inputs 2 Parallel interface (8bits) to LCD14 Sensor interface 14 Backup 1 I2S interface 5 Earphone 6 ohms min 2
 Réf. :  SCT TMO MASV3 SPEC 30 Rev. :  H Réf. sec. :  2x xxx xxx – x Date :  12/05/04 DRAFT Document  .  All rights of reproduction and disclosure reserved.  Page 11 This document contains information on a product under development. SAGEM reserves the right to change or discontinue this product without notice. 6LJQDO 3LQ1 'HVFULSWLRQSIMRST  T8  SIM reset, provided by Base-band processor SIMCLK  T9  SIM clock, provided by Base-band processor SIMIO  T10  SIM serial data line, input and output SIMVCC  T7  SIM supply voltage SIMCD  B12  SIM insertion detection  SIM card connection:                )LJXUH6,0FRQQHFWLRQ The SIMCD signal should be connected to the SIM card reader in order to get SIMCD at low level (GND) when no card is present and at high level (SIMVCC) when card is present (external pull down needed when SIM card connector with detection is used).  This interface includes main protections.  &2[[;6   SIMVCCSIMIOSIMRSTSIMCLKSIMCDSIM card In option
 Réf. :  SCT TMO MASV3 SPEC 30 Rev. :  H Réf. sec. :  2x xxx xxx – x Date :  12/05/04 DRAFT Document  .  All rights of reproduction and disclosure reserved.  Page 12 This document contains information on a product under development. SAGEM reserves the right to change or discontinue this product without notice.  $8',2The module supports the following voice codecs: •  Half-Rate •  Full-Rate •  Enhanced Full Rate  It manages an external handset microphone (MICIP/MICIN) and an external handset earphone (32 ohms HPP32/HPN32 and 6 ohms HPP8/HPN8) in differential mode.  The bias voltage of the microphone is provided directly on MICIP/MICIN pins (1.5V).  There are two options for the earphone: -  Two earphones, one 32 Ohms as earpiece and one 6 Ohms minimum as Ring/melody and as hands-free loudspeaker if it is far from the microphone. -  one 32 Ohms earphone as earpiece.  The module can also manage accessories (earphone and microphone) through dedicated lines (HSMICIP/HSMICIN for microphone and HSOL/HSGND/HSOR for stereo earphone). The typical impedance for the earphone is 150ohms.                       )LJXUH$XGLR This interface includes main protections. To ensure proper operation of such sensitive signals, they have to be isolated from the other by ground on mother board layout.  NB: To avoid destruction of module components, the HP inductance has to be 47nH +/- 5% @ 200MHz  Base-band Ampli+Filter MICIPMICINHSMICIPPHSMICINHPP32HPN32HSGNDHSORHSOLHPP8HPN8
 Réf. :  SCT TMO MASV3 SPEC 30 Rev. :  H Réf. sec. :  2x xxx xxx – x Date :  12/05/04 DRAFT Document  .  All rights of reproduction and disclosure reserved.  Page 13 This document contains information on a product under development. SAGEM reserves the right to change or discontinue this product without notice.  ',63/$< 6HULDOLQWHUIDFHA serial interface is provided on the module to manage an external LCD (256 colours) through data input signal (DIMIW), data output signal (DOMIW), clock (CKMIW) and chip select (CSMIW1*). Power supply of the LCD (VRIO) is also provided through this interface.  This interface could be used to manage one serial LCD or one melody chip (or other chipset using this interface).  )LJXUH6HULDOOLQNUHFHLYHWLPLQJ  )LJXUH6HULDOOLQNWUDQVPLWWLPLQJ 7LPLQJ 'HVFULSWLRQ 0LQQV 0D[QVTw(SCLK) Pulse duration, serial port clock  38  - Tc(SCLK) Cycle time, serial port clock  77  - Td(SDO) Delay time, data valid after CLK falling  -  10 Th(SDO) Hold time, data valid after CLK falling  0  - Tw(nSCSx) Pulse duration, EN port  38  - Td(nSCSx) Delay time, En after CLk rising  10  - Ts(SDI) Setup, data valid before CLK rising  15  - Th(SDI) Hold time, data valid after CLK rising  15  - Ts(nSCSx) Setup, data valid before CLK falling  10  - Th(nSCSx) Hold time, EN after CLK falling edge  10  -  This interface includes main protections.
 Réf. :  SCT TMO MASV3 SPEC 30 Rev. :  H Réf. sec. :  2x xxx xxx – x Date :  12/05/04 DRAFT Document  .  All rights of reproduction and disclosure reserved.  Page 14 This document contains information on a product under development. SAGEM reserves the right to change or discontinue this product without notice. If specific LCD driver is used, the software would be provided by SAGEM, or at least the specific drivers will be integrated by SAGEM. In that case a specific quotation is required.   3DUDOOHOLQWHUIDFHWR/&'A parallel interface is provided on the module to manage an external LCD (up to 262K colours) with data bus (DLCD<0..7>), strobe enable (ESTRLCD), RWLCD*, RSLCD*, reset (RESETLCD*) and 2 chip select (CS1LCD*, CS0LCD*). NB: 65K and 262K colour LCDs have to be configured in 8 bits multi access mode.   )LJXUH5HDGWLPLQJLQPRGH  )LJXUH:ULWHWLPLQJLQPRGH 7LPLQJ 'HVFULSWLRQ 0LQQV 0D[QVTw(LCD) Pulse duration  38  -
 Réf. :  SCT TMO MASV3 SPEC 30 Rev. :  H Réf. sec. :  2x xxx xxx – x Date :  12/05/04 DRAFT Document  .  All rights of reproduction and disclosure reserved.  Page 15 This document contains information on a product under development. SAGEM reserves the right to change or discontinue this product without notice. Tcyc Cycle time  77  - Tacc1 Access time of RnW  -  10 Tacc2 Access time off RS, nCS  0  - Tod1 Output delay of RnW  38  - Tod2 Output delay of RS, nCS  10  - Tdacc Data access time  15  - Tdod Data output disable time  15  - Tds Setup time of read data  10  - Tdh Hold time of read data  10  -   '$7$ 'DWDVHUYLFHVThe module supports the following services: •  GPRS •  CSD: transparent and non-transparent up to 9600 BPS •  fax: class 1  Data sessions may be established over the main serial link, using the IrDA port (see below) or though the USB interface.   ,U'$This UART interface is compatible with 16C750 compliant devices. It includes the slow infra-red protocol in order to be connected with an infra-red transmitter to any external data peripherals with an IrDA compliant data interface. This IrDA interface (TXIR, RXIR and CMDIRDA) provided by the module is compliant with the IrDA 1.0 SIR up to 115.2 Kbaud. This interface could not be used at the same time as UART2 interface.  This interface includes main protections.   8$57It is strongly recommended to leave this interface externally accessible for Debug. This interface could not be used at the same time as IRDA interface.   9A V24 interface is provided on external pins of the module with the following signals: -  RTS/CTS -  RX/TX -  DSR -  DTR -  DCD -  RI  It supports speeds up to 115.2 KBPS and may be used in auto bauding mode.  This interface includes main protections.
 Réf. :  SCT TMO MASV3 SPEC 30 Rev. :  H Réf. sec. :  2x xxx xxx – x Date :  12/05/04 DRAFT Document  .  All rights of reproduction and disclosure reserved.  Page 16 This document contains information on a product under development. SAGEM reserves the right to change or discontinue this product without notice.  86%CO2xx/XS200/XS200 provides an USB 1.1, slave only, with the following signals: differential data (USB_DP, USB_DM) and +5V input power supply (VCUSB).   $17(11$The antenna connexion is prived through the ’antenna’ ball. This is a 50ohm RF connexion and as such must be connected to the antenna via a proper 50ohm line; the RF ground is provided by the 5 balls surrounding the antenna ball. A matching network might be required between the module antenna connexion and the actual antenna to further adapt the antenna impedance to the module. An example of connexion is provided in the application note together with some layout guidelines.   .(<3$'A 6X6 keyboard could be managed by the module through the R1/R2/R3/R4/R5:R6 row signals and C1/C2/C3/C4/C5:C6 column signals. OUI signal performs the ON function. OFF signals performs OFF function. Multi-key pressing is possible with this keyboard configuration.                           )LJXUHKeyboard connection  NC = these keys are connected internally in the CO2xx/XS200/XS200 module but are not managed.  The module uses the Tegic T9TM predictive input system.   9,'(26(1625All the interfaces to connect a VGA video sensor are provided. Only power supply is not included.  R5 R4 R3 R2 C5 C4 C3 C2 C6 GREEN GND &2[[R6 NC NC NC # 9 NC NC NC 5 8 0 * NC NC NC P1 DO LEFT OK LAT. HIGH RIGHT UP RED P2 C1 4 7 6 MN P3 R1 CL NC NC 3 2 1 LAT. LOW
 Réf. :  SCT TMO MASV3 SPEC 30 Rev. :  H Réf. sec. :  2x xxx xxx – x Date :  12/05/04 DRAFT Document  .  All rights of reproduction and disclosure reserved.  Page 17 This document contains information on a product under development. SAGEM reserves the right to change or discontinue this product without notice.  ,&LQWHUIDFHA standard I2c interface is available on ball-out to send command to the video sensor.   3DUDOOHOLQWHUIDFHWRVHQVRUA dedicated parallel interface is provided on ball-out with 8 bits data bus (DCAM<0..7>), vertical synchronisation (VSCAM), horizontal synchronisation (HREF), input clock (PCLKCAM), configurable output clock (XCLKCAM), reset (RESETCAM), standby (STBYCAM).   (;7(51$/&203$1,21&+,3,17(5)$&( ,6LQWHUIDFHFor audio transfer:  )LJXUH,6WLPLQJ 7LPLQJ 'HVFULSWLRQ 0LQQV 0D[QVTw(CSCLK) Pulse duration  651  - Tc(CSCLK) Cycle time  1302  - Td(CDO) Delay time, data after CLK rising  -  15 Th(CDO) Hold time, data valid after CLK rising  5  - Ts(CDI) Setup, data valid before CLK falling  5  - Th(CDI) Hold time, data valid after CLK falling  0  - Td(CSYNC) Delay time, EN after CLK falling  -  3 Th(CSYNC) Hold time, EN after CLK falling  2  -   3DUDOOHOLQWHUIDFHWRFRPSDQLRQFKLSA parallel interface is provided on ball-out. This interface include 16 bits data lines (DPROC<0..15>), 3 address lines (APROC<1>, APROC<2>, APROC<3>), Write control signal RWPROC* (active low), Read control signal OEPROC* (active low) and one chip select CS1PROC* (active low). This interface is dedicated to external companion chip interface (as external DSP for additional multimedia applications). This interface supports page mode.
 Réf. :  SCT TMO MASV3 SPEC 30 Rev. :  H Réf. sec. :  2x xxx xxx – x Date :  12/05/04 DRAFT Document  .  All rights of reproduction and disclosure reserved.  Page 18 This document contains information on a product under development. SAGEM reserves the right to change or discontinue this product without notice. NB: The maximum capacitance acceptable on each signal of the parallel interface is 25pF (including copper line capacitance, connectors capacitance…).
 Réf. :  SCT TMO MASV3 SPEC 30 Rev. :  H Réf. sec. :  2x xxx xxx – x Date :  12/05/04 DRAFT Document  .  All rights of reproduction and disclosure reserved.  Page 19 This document contains information on a product under development. SAGEM reserves the right to change or discontinue this product without notice.   )LJXUHParallel link read timing      )LJXUHParallel link write timing
 Réf. :  SCT TMO MASV3 SPEC 30 Rev. :  H Réf. sec. :  2x xxx xxx – x Date :  12/05/04 DRAFT Document  .  All rights of reproduction and disclosure reserved.  Page 20 This document contains information on a product under development. SAGEM reserves the right to change or discontinue this product without notice.  Single access: 7LPLQJ 'HVFULSWLRQ 0LQQV 0D[QVtcyc CPU frequency  -  1/Fcpu tcsv Chip Select Valid  tcyc (N+1)tcyc tda NCS to Address valid  -  1.2 tha Address hold from nCS  0  - tdbe NBHE, nBLE to nCS  -  0.6 tdoe NOE to nCS  -  0.6 tsu Input data setup to nCS  5.5  - tho Input data hold from nCS  0  - tsrw NCS to RnW  Tcyc/2-tdrw - tdrw RnW to nCS  1.3  2.9 tdso NCS to output data valid  -  Tsrw+7.5 thd Output data hold from RnW  0  - N= Wait State number  Page mode access: 7LPLQJ 'HVFULSWLRQ 0LQQV 0D[QVtcyc CPU frequency  -  1/Fcpu tcsv Chip Select Valid  tcyc (N+1)tcyc tda NCS to Address valid  -  1.5 tha Address hold from nCS  0  - tdbe NBHE, nBLE to nCS  -  0.8 tdoe NOE to nCS  -  1.5 tsu1 Input data setup to nCS  5.2  - tho1 Input data hold from nCS  0  - tsu2 Input data setup to nCS  5.6  - tho2 Address invalid time  -  3 Tsa1sa2 Input data hold from nCS  0  - Note: all timings computed for an external capacitance load of 10pF   NB: if needed, additional Wait State could be added by SAGEM.  %HFDUHIXOWKHPD[LPXPFDSDFLWDQFHFRPSRQHQWVOLQHVFRQQHFWRUV«DFFHSWDEOHRQHDFKVLJQDORIWKHSDUDOOHOEXVLVS)
 Réf. :  SCT TMO MASV3 SPEC 30 Rev. :  H Réf. sec. :  2x xxx xxx – x Date :  12/05/04 DRAFT Document  .  All rights of reproduction and disclosure reserved.  Page 21 This document contains information on a product under development. SAGEM reserves the right to change or discontinue this product without notice.  %/8(7227+237,21$/All the interfaces to connect a blue tooth chipset are provided. Only power supply is not included. Blue tooth chipset management is optional.   0&6,LQWHUIDFHFor audio transfer:  )LJXUH%OXHWRRWKUHFHLYHWLPLQJ  )LJXUH%OXHWRRWKWUDQVPLWWLPLQJ 7LPLQJ 'HVFULSWLRQ 0LQQV 0D[QVTw(MCSI_CLK) Pulse duration  77  - Tc(MCSICLK) Cycle time  154  - Td(MCSI_DO) Delay time, data after CLK rising  -  10 Th(MCSI_DO) Hold time, data valid after CLK rising  0  - Td(MCSI_FSYNCH) Delay time, EN after CLK falling  -  10 Tw(MCSI_FSYNCH) Pulse duration, EN after CLK falling  77  - Ts(MCSI_DI) Setup, data valid before CLK falling  15  - Th(MCSI_DI) Hold time, data valid after CLK falling  15  - Ts(MCSI_FSYNCH) Setup time, EN after CLK falling  10  - Th(MCSI_FSYNCH) Hold time, EN after CLK falling  10  -
 Réf. :  SCT TMO MASV3 SPEC 30 Rev. :  H Réf. sec. :  2x xxx xxx – x Date :  12/05/04 DRAFT Document  .  All rights of reproduction and disclosure reserved.  Page 22 This document contains information on a product under development. SAGEM reserves the right to change or discontinue this product without notice.  8$57LQWHUIDFHSee UART interface from the V24 interface or from the IRDA interface.   &ORFN26MHz clock could be used for clock input of blue tooth component (please note: 13MHz clock is also available on CO2xx/XS200 ball-out but is not compliant with blue tooth chipsets features).    0(/2'<*(1(5$7,21An external melody chip could be connected to the CO2xx/XS200 module through the following links: -  I2S for audio transfer -  Microwire for command -  13MHz for melody chip clocking Please note: if the melody chip is connected to the microwire, no serial LCD could be connected. All these interfaces are described in the previous chapters.   '$,A DAI interface is provided on the module for type approval tests.   &/2&.6A 32KHz frequency clock, a 13MHz frequency digital clock and a 26MHz frequency analogic clock are provided on external pins of the module. The 13MHz clock could be used for the melody chip. The 26MHz clock could be used for the blue tooth interface.  To ensure proper operation of such sensitive signals, they have to be isolated from the other by ground on mother board layout.   32:(50$1$*(0(17$1'&+$5*( %DWWHU\The power supply signal VBAT is 3.45V to 4.5V range and 3.8V nominal. Only Li-Ion battery are supported.  It has to be more than 3.2V, even during transients in order to avoid unwanted resets. The power supply dropout has to be limited to 450mV, when the current consumption goes from minimum to maximum (0.1 to 2A). The noise level of the power supply has to be limited to 50mV RMS in the 100MHz – 1MHz frequency range   SAGEM advises to use Sanyo or LG battery. If battery is used, SAGEM agreement is needed (slight qualification tests). Only battery with 200mohms maximum internal resistor are managed by the module.  External capacitor of 47uF has to be added as near as possible from the battery connector of mother board for charge needs.
 Réf. :  SCT TMO MASV3 SPEC 30 Rev. :  H Réf. sec. :  2x xxx xxx – x Date :  12/05/04 DRAFT Document  .  All rights of reproduction and disclosure reserved.  Page 23 This document contains information on a product under development. SAGEM reserves the right to change or discontinue this product without notice.  95,2+2.8V output is available on external pin of the module and could supply +2.8V external components (current capability 10mA in active mode).  This interface includes main protections.   9EDFNXSExternal Backup could be supply through the VBACKUP input (from 2.2V to 3.2V). A internal mechanism is present to charge the backup battery. If No external Backup is supplied, VBACKUP input has to be connected to VBAT signal.   &KDUJHThis interface manages the charge of the mobile for regulated charger, when a charger is connected, even in the following conditions: deeply discharged battery, short-circuited battery and unconnected battery (600mA with regulated charger). The interface manages the charge of some un regulated chargers, that have to be qualified by SAGEM (see listing in application note).  This interface includes main protections.   $&&(6625,(6Accessories connection has to be defined more precisely. With the CO2xx/XS200 module, the following accessories could be connected : -  a pedestrian stereo or non stereo hand-free kit -  a battery charger -  an automotive hand-free kit -  a data cable -  an USB cable  These interfaces includes main protections.  )ODSIO5 is dedicated for Flap detection.   1HWZRUN/('Commands for Green and Red LED are provided.            )LJXUH/('GHYLFHFRQQHFWLRQ   LEDR or  LEDG
 Réf. :  SCT TMO MASV3 SPEC 30 Rev. :  H Réf. sec. :  2x xxx xxx – x Date :  12/05/04 DRAFT Document  .  All rights of reproduction and disclosure reserved.  Page 24 This document contains information on a product under development. SAGEM reserves the right to change or discontinue this product without notice.  9LEUDWLQJGHYLFHVibrating device control is provided but external transistor is needed.                 )LJXUH9LEUDWLQJGHYLFHFRQQHFWLRQ      VIB+ VIB- VBAT CMDVIB
 Réf. :  SCT TMO MASV3 SPEC 30 Rev. :  H Réf. sec. :  2x xxx xxx – x Date :  12/05/04 DRAFT Document  .  All rights of reproduction and disclosure reserved.  Page 25 This document contains information on a product under development. SAGEM reserves the right to change or discontinue this product without notice.  23(5$7,1*02'(6                   )LJXUH2SHUDWLQJPRGHVVWDWHGLDJUDP  02'(6'(6&5,37,21 1RVXSSO\VBAT < 3.2V and VBACKUP < 2.2V. All functions and power supplies are OFF: VRIO = 0.   2))VBAT > 3.2V or external Backup VBACKUP > 2.2V. The RTC only is running (32kHz). All other functions and power supplies are OFF: VRIO = 0.   $FWLYHThe module is active: all the functions are running and all the power supplies are ON and in full power mode (full consumption). VRIO = +2.8V   6WDQGE\The module is in standby mode: the power supplies are ON and in low power mode. This mode is typically use when the module is connected to the network and checking periodically if there is an incoming call.   75$16,7,216'(6&5,37,21 3RZHUBRQA battery is connected to the module with VBAT > 3.2V (and/or VBACKUP is switched ON). Wake-up Sleep (automatic) Switch_off Switch_on Switch_off Power_on Power_off Power_off No supply OFF Active Standby
 Réf. :  SCT TMO MASV3 SPEC 30 Rev. :  H Réf. sec. :  2x xxx xxx – x Date :  12/05/04 DRAFT Document  .  All rights of reproduction and disclosure reserved.  Page 26 This document contains information on a product under development. SAGEM reserves the right to change or discontinue this product without notice.   3RZHUBRIIThe battery is removed from the module (and/or VBACKUP is switched OFF).   6ZLWFKBRQThe battery is already connected. The module starts when ON key is pressed or a charger is connected or when wake up occurs.   6ZLWFKBRIIThe battery is connected. The software is turning off of the module when OFF key is pressed and VBAT > 3.2V.   :DNHXSThe actions to go from standby mode to active mode are: -  Charger connection -  Key pressed -  Incoming call -  Data cable connection -  V24 activity
 Réf. :  SCT TMO MASV3 SPEC 30 Rev. :  H Réf. sec. :  2x xxx xxx – x Date :  12/05/04 DRAFT Document  .  All rights of reproduction and disclosure reserved.  Page 27 This document contains information on a product under development. SAGEM reserves the right to change or discontinue this product without notice.  %$//287The following list of signals could change.                         $GND  GND  GND  GND  GND  GND  GND  GND  GND  GND  GND  GND  GND  GND  GND   %GND  TXD1 TXIR  RXD1 TXD2 RXD2 OUI*  SDAI2C  SIMCD  POWMMC  CDMMC  DMMC<1>  DMMC<2>  DMMC<3>  EMU1* GND  GND &GND  DCAM<1>  CTS  DCAM<4>  CMDIRDA  DCAM<2>  DCAM<6>  PCLKCAM  SCLI2C  CMDMMC  MCSIDI  TDIDIGIT  XCLKCAM  GND  TSPACTEXT EMU0* GND  GND  GND 'GND  DTR  RTS  DCAM<7>  ALENAND  RXIR RBNAND*  CLENAND  DCAM<0>  CLKMMC  DMMC<0>  MCSIDO  GND  GND  BSCAN*  TDODIGIT  GND  GND  GND  GND  GND (GND  DCD  DSR  RENAND  GND  GND  GND  CE1NAND  MCSISYNCH GND  DCAM<3>  MCSICLK  GND  GND  GND  GND  IO11  GND  GND  GND  GND  GND  GND )GND  APROC<3> APROC<2> APROC<1> OEPROC*  CSPROC1* GND  GND  GND  DCAM<5>  GND  GND  GND  GND  GND  GND  GND  GND  VBAT VBAT VBAT VBAT VBAT *GND  DPROC<15> DPROC<14> DPROC<13> GND  GND  GND  GND  GND  GND  GND  CS1LCD*  GND  GND  GND  GND  DLCD<4>  GND  VBAT VBAT GND  GND  GND +GND  DPROC<10> DPROC<11> DPROC<12> GND  INTI2C GND  GND  GND  GND  GND  WP1NANDL CS0LCD*  GND  DLCD<6>  GND  GND  GND  VBAT VBAT GND  GND  GND ,GND  DPROC<9> DPROC<8> DPROC<7> RWPROC*  GND  GND  GND  WENAND  GND  GND  DLCD<3>  DLCD<0>  ESTRBLCD DLCD<7>  RSLCD  GND  GND  GND  GND  GND  GND  ANTENNE -GND  DPROC<4> DPROC<5> DPROC<6> IO7  GND  GND  GND  GND  GND  GND  GND  GND  GND  GND  RWLCD*  GND  GND  GND  GND  GND  GND  GND .GND  DPROC<3> DPROC<2> DPROC<1> DPROC<0> GND  GND  GND  GND  GND  GND  CRESET  GND  GND  DLCD<5>  GND  GND  GND  GND  GND  GND  GND  GND /NC  DAICLK  RESETCAM HREFCAM  VSCAM  LEDC GND  GND  GND  GND  GND  CLK13M  C5  R5  C1  DLCD<2>  GND  GND  GND  GND  GND  GND  GND 0GND  DAIIN DAIOUT  DAIRST  STBYCAM  VCCS GND  CDO  GND  GND  GND  C3  C4  C6  R6  C2  CMDVIB  GND  GND  GND  GND  GND  GND 1GND  RESETLCDL IO6  IO5  RI  ITDATA  GND  GND  GND  HPN8 HPP32 HSGND  GND  GND  GND  USB_DP  USB_DM  DLCD<1>  GND  GND  GND  GND  GND 2GND  NC  CHARGEUR CHARGEUR CHARGEUR GND  GND  GND  GND  HPP8 HPN32  GND  HSOR HSOL HSMICIP  CDI  R1  GND  GND  GND  GND  GND  GND
 Réf. :  SCT TMO MASV3 SPEC 30 Rev. :  H Réf. sec. :  2x xxx xxx – x Date :  12/05/04 DRAFT Document  .  All rights of reproduction and disclosure reserved.  Page 28 This document contains information on a product under development. SAGEM reserves the right to change or discontinue this product without notice. 3GND  LEDR NC  TESTRST  VBACKUP  GND  TDOANALO GND  GND  GND  GND  GND  GND  HSMICIN  GND  R3  R2  GND  GND  GND  GND  GND  GND 4GND  LEDG INT1  VRIO ADC2 NC  GND  CSYNC  CSCLK  GND  GND  GND  GND  GND  MICIN GND  R4  GND  GND  GND  TSPCLK  GND   5GND  CSMIW2*  ENLED  NC  GND  CLK32K  GND  TDIANALO  GND  GND  GND  GND  GND  MICIP GND  GND  GND  GND  TSPDI TSPENI*  GND 6GND  DOMIW  CKMIW  CSMIW1*  GND  GND  GND  GND  GND  GND  GND  GND  GND  GND  GND  GND  GND  TSPDO  GND 7GND  DIMIW GND  SIMVCC  SIMRST  SIMCLK  SIMIO TCK  GND  GND  TMS  VCUSB  GND  GND  GND  CLK26M  GND 8GND  GND  GND  GND  GND  GND  GND  GND  GND  GND  GND  GND  GND  GND  GND
 Réf. :  SCT TMO MASV3 SPEC 30 Rev. :  H Réf. sec. :  2x xxx xxx – x Date :  12/05/04 DRAFT Document  .  All rights of reproduction and disclosure reserved.  Page 29 This document contains information on a product under development. SAGEM reserves the right to change or discontinue this product without notice. 6LJQDOQDPH ,2W\SH )XQFWLRQ 'HVFULSWLRQ 3LQ1DAIRST  Input  DAI reset  M4 DAIOUT  Output  DAI output data  M3 DAIIN  Input  DAI input data  M2 DAICLK  Input DAI interface DAI clock  L2 DIMIW  Input  LCD driver input data of the serial link  T5 DOMIW  Output  LCD driver output data of the serial link S4 CKMIW  Output  LCD driver clock of the serial link  S5 CSMIW1*  Output Serial interface to connect LCD or chip melody (1 chip select) LCD driver chip select of the serial link  S6 CSMIW2*  Output  Serial interface for LED chipset  Chip select for Baklight component  R3 ENLED  Output  LED Chipset command  Enable for Backlight component  R4 LEDR  Output  Red LED command   P2 LEDG  Output  Green LED comment  Q2 R1  Input  Keyboard row 1  O17 R2  Input  Keyboard row 2  P17 R3  Input  Keyboard row 3  P16 R4  Input  Keyboard row 4  Q17 R5  Input  Keyboard row 5  L14 R6  Input  Keyboard row 6  M15 C6  Output  Keyboard column 6  M14 C5  Output  Keyboard column 5  L13 C4  Output  Keyboard column 4  M13 C3  Output  Keyboard column 3  M12 C2  Output  Keyboard column 2  M16 C1  Output Keyboard interface Keyboard column 1  L15 OUI*  Input  ON key  Keyboard ON key  B10 SIMVCC  Output  SIM power supply  T7 SIMRST  Output  SIM reset  T8 SIMCLK  Output  SIM clock  T9 SIMIO  In/output  SIM data  T10 SIMCD  Input SIM interface SIM insertion detection  B12 HSMICIP  Input  Differential input from microphone  O15 HSMICIN  Input  To external microphone (accessory)  Differential input from microphone  P14  HSOL  Output  O14 HSGND  Output  N12 HSOR  Output To external stereo HP (accessory)   O13 MICIP  Input  Differential input to handset microphone R15 MICIN  Input Microphone interface  Differential input to handset microphone Q15 HPP32  Output  Differential output to 32ohms earphone N11 HPN32  Output Earphone interface  Differential output to 32ohms earphone O11 HPP8  Output   Differential output to 8ohms earphone  O10 HPN8  Output   Differential output to 8ohms earphone  N10 CMDVIB  Output  Vibrating device interface  Vibrating device command  M17 RI  Output  Ring Indicator  N5 DSR  Output V24 interface with flow control  Data Send Ready  E3
 Réf. :  SCT TMO MASV3 SPEC 30 Rev. :  H Réf. sec. :  2x xxx xxx – x Date :  12/05/04 DRAFT Document  .  All rights of reproduction and disclosure reserved.  Page 30 This document contains information on a product under development. SAGEM reserves the right to change or discontinue this product without notice. DCD  Output  Data Carrier Detect  E2 DTR  Input  Data Terminal Ready  D3 CTS  Output  Clear To Send  C5 RTS  Input  Request To Send  D4 TXD1  Output  UART transmit 1  B5 RXD1  Input  UART receive 1  B7 TXD2  Output  UART transmit 2  B8 RXD2  Input UART interface UART receive 2  B9 TXIR  Output  IRDA transmit  B6 RXIR  Input  IRDA receive  D7 CMDIRDA  Output IRDA interface IRDA command  C7 INT1  Input  Interrupt   Q3 SCLI2C  Output  Clock  C11 SDAI2C  In/out  Data  B11 INTI2C  Output I2C interface Interrupt  H6 CHARGEUR  Input  Charge  O3,O4,O5 VCCS  Input   M6 LEDC  Output Load interface LED connection for charge activity  L6 TESTRST  Input  Reset  Reset system signal  P4 ITDATA  Input  Accessories detection Interrupt signal  N6 DPROC<0>  In/output  Data bus  K5 DPROC<1>  In/output  Data bus  K4 DPROC<2>  In/output  Data bus  K3 DPROC<3>  In/output  Data bus  K2 DPROC<4>  In/output  Data bus  J2 DPROC<5>  In/output  Data bus  J3 DPROC<6>  In/output  Data bus  J4 DPROC<7>  In/output  Data bus  I4 DPROC<8>  In/output  Data bus  I3 DPROC<9>  In/output  Data bus  I2 DPROC<10>  In/output  Data bus  H2 DPROC<11>  In/output  Data bus  H3 DPROC<12>  In/output  Data bus  H4 DPROC<13>  In/output  Data bus  G4 DPROC<14>  In/output  Data bus  G3 DPROC<15>  In/output  Data bus  G2 RWPROC*  Output  Write  I5 OEPROC*  Output  Read  F5 CSPROC1*  Output  Chip select 1  F6 APROC<1>  Output  Address bus  F4 APROC<2>  Output  Address bus  F3 APROC<3>  Output Parallel interface For Companion chip connection Address bus  F2 DLCD<0>  In/output  Data bus  I13 DLCD<1>  In/output  Data bus  N18 DLCD<2>  In/output  Data bus  L16 DLCD<3>  In/output  Data bus  I12 DLCD<4>  In/output  Data bus  G17 DLCD<5>  In/output Parallel LCD interface Data bus  K15
 Réf. :  SCT TMO MASV3 SPEC 30 Rev. :  H Réf. sec. :  2x xxx xxx – x Date :  12/05/04 DRAFT Document  .  All rights of reproduction and disclosure reserved.  Page 31 This document contains information on a product under development. SAGEM reserves the right to change or discontinue this product without notice. DLCD<6>  In/output  Data bus  H15 DLCD<7>  In/output  Data bus  I15 ESTRBLCD  Output  Strobe enable  I14 CS0LCD*  Output  Chip select 0  H13 CS1LCD*  Output  Chip select 1  G12 RSLCD*  Output  LCD register selection (data/control)  I16 RWLCD*  Output  Read/write  J16 RESETLCD*  Output  Reset  N2 USB_DP  In/output  N16 USB_DM  In/output Differential data N17 VCUSB  Input USB interface Power supply input  T15 TSPACTEXT  Output  Radio signal   C17 CSYNC  In/output  Synchronisation  Q8 CSCLK  In/output  Clock  Q9 CDI  Input  Data input  O16 CDO  Output  Data output  M8 CRESET  Output I2S Reset  K12 DCAM<0>  In/output  Data bus  D10 DCAM<1>  In/output  Data bus  C4 DCAM<2>  In/output  Data bus  C8 DCAM<3>  In/output  Data bus  E11 DCAM<4>  In/output  Data bus  C6 DCAM<5>  In/output  Data bus  F10 DCAM<6>  In/output  Data bus  C9 DCAM<7>  In/output  Data bus  D5 RESETCAM  Output  Reset  L3 STBYCAM  Output  Standby  M5 PCLKCAM  Input  Clock input  C10 VSCAM  Output  Clock output  L5 HREFCAM  Output  Horizontal synchronisation  L4 XCLKCAM  Output Sensor interface Vertical synchronisation  C15 WP1NAND*  Output   H12 WENAND  Output   I9 RENAND  Output   E4 CLENAND  Output   D9 ALENAND  Output   D6 RBNAND*  Input   D8 CE1NAND  Output Specific interface  E8 DMMC<0>  In/output  Data bus  D12 DMMC<1>  In/output  Data bus  B15 DMMC<2>  In/output  Data bus  B16 DMMC<3>  In/output  Data bus  B17 CLKMMC  Output  Clock  D11 CMDMMC  In/output  Control  C12 POWMMC  Output  Power supply control  B13 CDMMC  Input MMC interface Card detect  B14 CLK26M  Output  26MHz analog clock output  T19 CLK13M  Output Clocks  13MHz digital clock output  L12
 Réf. :  SCT TMO MASV3 SPEC 30 Rev. :  H Réf. sec. :  2x xxx xxx – x Date :  12/05/04 DRAFT Document  .  All rights of reproduction and disclosure reserved.  Page 32 This document contains information on a product under development. SAGEM reserves the right to change or discontinue this product without notice. CLK32K  Output   32KHz digital clock output  R7 ADC2  Input  ADC  Battery type detection  Q5 MCSIDI  Input  Data input  C13 MCSIDO  Output  Data output  D13 MCSICLK  In/output  Clock SPI  E12 MCSISYNCH  In/output  Synchronisation  E9 IO5  In/output  With Pull down  N4 IO6  In/output  With pull down  N3 IO7  In/output  With pull down  J5 IO11  In/output MCSI interface With pull up  E17 VBAT  Input  +3.6V battery power supply  F19,F20,F21,F22,F23,G19,G20,H19,H20 VRIO  Output  +2.8V output power supply  Q4 VBACKUP  Input Power supply Backup input  P5 GND  Ground  Ground  GND  Other ANTENNE  Output/input  Antenna input/output  Antenna connection (50 ohms)  I23 TCK  Input  JTAG  T11 TMS  Input  JTAG  T14 TDIDIGIT  Input  JTAG  C14 TDODIGIT  Output  JTAG  D17 TDIANALOG  Input  JTAG  R9 TDOANALOG  Output JTAG interface JTAG  P7 BSCAN*  Input  Boundary scan  JTAG  D16 EMU0*  Output   For debug  C18 EMU1*  Output   For debug  B18 NC  NC  No connect   Q21,R21,R20,S20, L1, P3, Q6, R5, O2
 Réf. :  SCT TMO MASV3 SPEC 30 Rev. :  H Réf. sec. :  2x xxx xxx – x Date :  12/05/04 DRAFT Document  .  All rights of reproduction and disclosure reserved.  Page 33 This document contains information on a product under development. SAGEM reserves the right to change or discontinue this product without notice.  (/(&75,&$/63(&,),&$7,21VOH    High level output voltage VOL    Low level output voltage VIH    High level input voltage VIL    Low level input voltage   9%$7The module is supplied through the VBAT signal with the following characteristics:  3DUDPHWHU 1DPH 0LQ 7\S 0D[VBAT period (ms)  VbatTe (*)  4.614  4.615  DC VBAT low duration (us)  VbatTi (*)  550  -  VBAT period VBAT rise time (us)  VbatTr (*)  0  -  - VBAT fall time (us)  VbatTf (*)  0  -  - VBAT maximum voltage (V)  VbatMax (*)  -  -  4.5 VBAT minimum voltage (V)  VbatMin (*)  3.45  -  - VBAT drop voltage (mV)  DeltaVbat (*)  -  -  450 (**) Transient voltage (V)   3  -  - Noise level (Vrms) @100MHz-1MHz   -  -  50mV (*): cf figure 16. (**): for a new battery. Of course for an old battery, this value will be higher and will create a reset (without MMI message) when the battery begins to be discharged.   )LJXUH9%$7YROWDJHZDYHIRUP
 Réf. :  SCT TMO MASV3 SPEC 30 Rev. :  H Réf. sec. :  2x xxx xxx – x Date :  12/05/04 DRAFT Document  .  All rights of reproduction and disclosure reserved.  Page 34 This document contains information on a product under development. SAGEM reserves the right to change or discontinue this product without notice.  95,26LJQDO 0LQ 7\S 0D[ 5HPDUNVVoltage level (activ mode)  2.70V  2.80V  2.90V Voltage level (sleep mode)  2.70V  2.80V  3.00V Current capability Active mode  -  -  10mA Current capability Sleep mode  -  -  0.5mA Rise time  -  10µs  -    '$,,17(5)$&(DAIRST, DAIIN, DAICLK and DAIOUT have the following characteristics: 9 9 9 96LJQDO0LQ 0D[ 0LQ 0D[5HPDUNVDAIRST  -0.5  +0.8  +2.03  +3.2   DAICLK  -0.5  +0.8  +2.03  +3.2  PD 100K DAIIN  -0.5  +0.8  +2.03  +3.2  PD 100K DAIOUT  -  +0.59  +2.32  -     1(7:25./('9 9 9 96LJQDO0LQ 0D[ 0LQ 0D[5HPDUNVLEDR, LEDG  -  +0.59  +2.32  -   LEDG: Imax = 2mA LEDR: Imax = 4mA   6(5,$/,17(5)$&()25/&'DIMIW, DOMIW, CKMIW, CSMIW1* have the following characteristics: 9 9 9 96LJQDO0LQ 0D[ 0LQ 0D[5HPDUNVDIMIW  -0.5  +0.8  +2.03  +3.2  PU 100K DOMIW  -  +0.59  +2.32  -   CKMIW  -  +0.59  +2.32  -   CSMIW1*  -  +0.59  +2.32  -     .(<%2$5',17(5)$&(R1, R2, R3, R4, R5, R6, C1, C2, C3, C4, C5 and C6 have the following characteristics: 9 9 9 96LJQDO0LQ 0D[ 0LQ 0D[5HPDUNVInput (R1/2/3/4/5/6)  -0.5  +0.8  +2.03  +3.2  ESD protection PU Output (C1/2/3/4/5/6)  -  +0.59  +2.32  -  ESD protection  OUI*:
 Réf. :  SCT TMO MASV3 SPEC 30 Rev. :  H Réf. sec. :  2x xxx xxx – x Date :  12/05/04 DRAFT Document  .  All rights of reproduction and disclosure reserved.  Page 35 This document contains information on a product under development. SAGEM reserves the right to change or discontinue this product without notice. 6LJQDO 0LQ 7\S 0D[ 5HPDUNVTon (ms)  -  32,31  - VIL  -  -  0.3*VBAT VIH  0.7*VBAT  -  - PU   9,%5$7,1*'(9,&(&21752/CMDVIB have the following characteristics: 9 9 9 96LJQDO0LQ 0D[ 0LQ 0D[5HPDUNVCMDVIB  -  +0.59  +2.32  -  PD ICMDVIB max = 2mA   9RXD1, TXD1, CTS, RTS, DCD, DSR, DTR and RI have the following characteristics: 9 9 9 96LJQDO0LQ 0D[ 0LQ 0D[5HPDUNVRTS  -0.5  +0.8  +2.03  +3.2  PU 100K RI  -  +0.59  +2.32  -   CTS  -  +0.59  +2.32  -   DSR  -  +0.59  +2.32  -  PD DCD  -  +0.59  +2.32  -  PU 10K DTR  -0.5  +0.8  +2.03  +3.2  PU 100K TXD1  -  +0.59  +2.32  -   RXD1  -0.5  +0.8  +2.03  +3.2  PU 10K   ,5'$$1'8$57RXIR, TXIR and CMDIRDA have the following characteristics: 9 9 9 96LJQDO0LQ 0D[ 0LQ 0D[5HPDUNVRXIR, RXD2  -0.5  +0.8  +2.03  +3.2  PU 100K TXIR, TXD2, CMDIRDA  -  +0.59  +2.32  -     5(6(7TESTRST has the following characteristics: 6LJQDO 0LQ 0D[ 5HPDUNVVL (V)  -  0.2 VBAT VH (V)  0.8 VBAT  - Treset (ms)  65  - PD 100K  NB: The reset signal resets all the system including backup.   63$5(,2IO5, 6,7,11 have the following characteristics: 6LJQDO 9 9 9 9 5HPDUNV
 Réf. :  SCT TMO MASV3 SPEC 30 Rev. :  H Réf. sec. :  2x xxx xxx – x Date :  12/05/04 DRAFT Document  .  All rights of reproduction and disclosure reserved.  Page 36 This document contains information on a product under development. SAGEM reserves the right to change or discontinue this product without notice.  0LQ 0D[ 0LQ 0D[  Input  -0.5  +0.8  +2.03  +3.2 Output  -  +0.59  +2.32  - IO5,6,7: programmable PD IO11: programmable PU Iout max = 2mA   &/2&.6CLK26M and CLK32K have the following characteristics: 9 9 9 96LJQDO0LQ 0D[ 0LQ 0D[5HPDUNVCLK13M  -  +0.59  +2.32  -   CLK32K  -  0,297  1,32  -    6LJQDO 9 9 9 9 5HPDUNVCLK26M  0.5V  2V     3$5$//(/,17(5)$&()25&203$1,21&+,3DPROC<0..15>, APROC<1..3>, RWPROC*, OEPROC*, CS1PROC* have the following characteristics: 9 9 9 96LJQDO0LQ 0D[ 0LQ 0D[5HPDUNVInput DPROC<0..15>  -0.5  +0.8  +2.03  +3.2   Output DPROC<0..15>, APROC<1..3>, RWPROC*, CS1PROC*, OEPROC* -  +0.59  +2.32  -   NB: The maximum capacitance acceptable on each signal of the parallel interface for companion chip is 25pF (including copper line capacitance, connectors capacitance…).   3$5$//(/,17(5)$&()25/&'DLCD<0..7>, ESTRBLCD, RWLCD*, CS0LCD*, CS1LCD*, RESETLCD*, RSLCD have the following characteristics: 9 9 9 96LJQDO0LQ 0D[ 0LQ 0D[5HPDUNVInput DLCD<0..7>  -0.5  +0.8  +2.03  +3.2   Output DLCD<0..15>, RESETLCD*, RWLCD*, CS0LCD*, CS1LCD*, RSLCD, ESTRBLCD -  +0.59  +2.32  -   NB: The maximum capacitance acceptable on each signal of the parallel interface for LCD is tbd (including copper line capacitance, connectors capacitance…).
 Réf. :  SCT TMO MASV3 SPEC 30 Rev. :  H Réf. sec. :  2x xxx xxx – x Date :  12/05/04 DRAFT Document  .  All rights of reproduction and disclosure reserved.  Page 37 This document contains information on a product under development. SAGEM reserves the right to change or discontinue this product without notice.  86%,17(5)$&(USB_DM, USB_DP, VCUSB have the following characteristics: 9 9 9 96LJQDO0LQ 0D[ 0LQ 0D[5HPDUNVInput USB_DM, USB_DP  -0.5  +0.93  +2.45  +3.6  PU Output USB_DM, USB_DP  -  +0.682  +2.8  -  PU  6LJQDO 0LQ 0D[VCUSB (V)  4.0  5.5   00&,17(5)$&(DMMC<0..3>, CLKMMC, CMDMMC, POWMMC, CDMMC have the following characteristics: 9 9 9 96LJQDO0LQ 0D[ 0LQ 0D[5HPDUNVInput DMMC<0..3>, CMDMMC -0.5  +0.8  +2.03  +3.2  PU 100K Output DMMC<0..3>, POWMMC, CMDMMC -  +0.59  +2.32  -  PU 100K CLKMMC  -  +0.59  +2.32  -     9,'(26(1625,17(5)$&(DCAM<0..7>, RESETCAM, STBYCAM, PCLKCAM, VSCAM, HREFCAM, XCLKCAM have the following characteristics: 9 9 9 96LJQDO0LQ 0D[ 0LQ 0D[5HPDUNVInput DCAM<0..7>, PCLKCAM -0.5  +0.8  +2.03  +3.2   Output DCAM<0..15>, XCLKCAM, HREFCAM -  +0.59  +2.32  -   VSCAM, STBYCAM, RESETCAM -  +0.59  +2.32  -  Programmable PU NB: The maximum capacitance acceptable on each signal of the parallel interface for video sensor is tbd (including copper line capacitance, connectors capacitance…).   0&6,,17(5)$&(MCSIDI, MCSIDO, MCSICLK, MCSISYNCH have the following characteristics: 9 9 9 96LJQDO0LQ 0D[ 0LQ 0D[5HPDUNVInput MCSIDI, MCSICLK, MCSISYNCH -0.5  +0.8  +2.03  +3.2
 Réf. :  SCT TMO MASV3 SPEC 30 Rev. :  H Réf. sec. :  2x xxx xxx – x Date :  12/05/04 DRAFT Document  .  All rights of reproduction and disclosure reserved.  Page 38 This document contains information on a product under development. SAGEM reserves the right to change or discontinue this product without notice. Output MCSIDO, MCSICLK, MCSISYNCH -  +0.59  +2.32  -   NB: a pull down as to be added to MCSIDI and MCSICLK  ,6,17(5)$&(CSYNC, CSCLK, CDI, CDO, CRESET have the following characteristics: 9 9 9 96LJQDO0LQ 0D[ 0LQ 0D[5HPDUNVCDI  -0.5  +0.8  +2.03  +3.2  PD 100K Input CSYNC, CSCLK  -0.5  +0.8  +2.03  +3.2   Output CDO, CRESET, CSYNC, CSCLK -  +0.59  +2.32  -     ,&,17(5)$&(SDAI2C, SCLI2C, INTI2C have the following characteristics: 9 9 9 96LJQDO0LQ 0D[ 0LQ 0D[5HPDUNVInput SDAI2C, INTI2C  -0.5  +0.8  +2.03  +3.2  Programmable PU on INTI2C Output SDAI2C, SCLI2C   -  +0.59  +2.32  -  PU 1.8K   -7$*,17(5)$&(TCLK, TMS, TDI, TDODIGIT, TDIANALOG, BSCAN*, EMU0*, EMU1* have the following characteristics: 9 9 9 96LJQDO0LQ 0D[ 0LQ 0D[5HPDUNVTMS, TDI, TDIANALOG, BSCAN* -0.5  +0.8  +2.03  +3.2  PU TCK  -0.5  +0.8  +2.03  +3.2  PD TDODIGIT, TDOANALOG,   -  +0.59  +2.32  -   EMU0*, EMU1*  -  +0.59  +2.32  -  PU   $'&3DUDPHWHU 0LQ 7\S 0D[Resolution  -  10 bits  - Input range  0  -  1.75V Input capacitor  -  12pF  -   ,17(558376ITDATA and INT1 have the following characteristics : 9 9 9 96LJQDO0LQ 0D[ 0LQ 0D[5HPDUNV
 Réf. :  SCT TMO MASV3 SPEC 30 Rev. :  H Réf. sec. :  2x xxx xxx – x Date :  12/05/04 DRAFT Document  .  All rights of reproduction and disclosure reserved.  Page 39 This document contains information on a product under development. SAGEM reserves the right to change or discontinue this product without notice. ITDATA  -0.5  +0.8  +2.03  +3.2  PU INT1  -0.5  +0.8  +2.03  +3.2  PU Pulse duration in functional mode: 77ns min.   9%$&.836LJQDO 0LQ 0D[ 5HPDUNVVBACKUP  +2.2V  +3.2V    If no external backup is supplied, VBACKUP has to be connected to VBAT. With external BACKUP: -  if VBAT < VBACKUP, internal RTC is supplied by VBACKUP. -  if VBAT > VBACKUP, internal RTC is supplied by VBAT. Without external VBACKUP (VBACKUP input connected to VBAT) -  if VBAT > 2.2V, internal RTC is supplied by VBAT. -  if VBAT < 2.2V, internal RTC is not supplied.   (19,5210(17$/63(&,),&$7,21 23(5$7,1*&21',7,216 3DUDPHWHU 0LQ 0D[Ambient temperature  -10°C  +55°C Supply voltage VBAT  +3.45V  +4.5V   &/,0$7,&&21',7,216 3DUDPHWHU 0LQ 0D[Ambient temperature Normal range  -10°C  +55°C Ambient temperature Extended range  -20°C  +70°C Storage temperature  -40°C  +85°C Long damp heat Operating conditions  Tested at +60°C, 95% RH during 504 hours Short damp heat Storage and transportation conditions Tested at +40°C, 95% RH during 96 hours
 Réf. :  SCT TMO MASV3 SPEC 30 Rev. :  H Réf. sec. :  2x xxx xxx – x Date :  12/05/04 DRAFT Document  .  All rights of reproduction and disclosure reserved.  Page 40 This document contains information on a product under development. SAGEM reserves the right to change or discontinue this product without notice.   0(&+$1,&$/63(&,),&$7,21  )LJXUH&2[[;6FRPSRQHQWVLGH
 Réf. :  SCT TMO MASV3 SPEC 30 Rev. :  H Réf. sec. :  2x xxx xxx – x Date :  12/05/04 DRAFT Document  .  All rights of reproduction and disclosure reserved.  Page 41 This document contains information on a product under development. SAGEM reserves the right to change or discontinue this product without notice.  )LJXUH&2[[;6EDOORXWVLGH
 Réf. :  SCT TMO MASV3 SPEC 30 Rev. :  H Réf. sec. :  2x xxx xxx – x Date :  12/05/04 DRAFT Document  .  All rights of reproduction and disclosure reserved.  Page 42 This document contains information on a product under development. SAGEM reserves the right to change or discontinue this product without notice.  )LJXUH&2[[;6GLPHQVLRQV
 Réf. :  SCT TMO MASV3 SPEC 30 Rev. :  H Réf. sec. :  2x xxx xxx – x Date :  12/05/04 DRAFT Document  .  All rights of reproduction and disclosure reserved.  Page 43 This document contains information on a product under development. SAGEM reserves the right to change or discontinue this product without notice.  $11(;( 6LJQDOQDPH ,2W\SH 3LQ1DAIRST  Digital bi directional buffer (IDI041/OUK431)  M4 DAIOUT  Digital bi directional buffer (IDI041/OUK431)  M3 DAIIN  Digital bi directional buffer (IDI041/OUK431). Pull down  M2 DAICLK  Digital bi directional buffer (IDI041/OUI431). Pull down  L2 DIMIW  Digital input buffer (IDI041/PS0201). Pull up  T5 DOMIW  Digital output buffer (OUK431)  S4 CKMIW  Digital output buffer (OUI431)  S5 CSMIW1*  Digital output buffer (OUK431)  S6 CSMIW2*  Digital output buffer (OUK431)  R3 ENLED  Digital bi directional buffer (IDG091/OUI431/PE1001)  R4 LEDR  Digital output buffer (OUI831)  P2 LEDG  Digital output buffer (OUK431)  Q2 R1  Digital bi directional buffer (IDI041/OUI431/PS1001). Pull up  O17 R2  Digital bi directional buffer (IDI041/OUI431/PS1001). Pull up  P17 R3  Digital bi directional buffer (IDI041/OUI431/PS1001). Pull up  P16 R4  Digital bi directional buffer (IDI041/OUI431/PS1001). Pull up  Q17 R5  Digital bi directional buffer (IDI041/OUI431/PS1001). Pull up  L14 R6  Digital bi directional buffer (IDI041/OUI431/PS1001). Pull up  M15 C6  Digital output buffer (OUO431)  M14 C5  Digital output buffer (OUI431)  L13 C4  Digital output buffer (OUI431)  M13 C3  Digital output buffer (OUI431)  M12 C2  Digital output buffer (OUI431)  M16 C1  Digital output buffer (OUI431)  L15 OUI*  Digital input. Pull up  B10 SIMVCC  Power supply output  T7 SIMRST  Digital output buffer  T8 SIMCLK  Digital output buffer  T9 SIMIO  Digital bi directional buffer. Pull up  T10 SIMCD  Digital input buffer (IDI091). Pull down  B12 HSMICIP  Analog audio input  O15 HSMICIN  Analog audio input  P14 HSOL  Analog audio output  O14 HSGND  Analog audio output  N12 HSOR  Analog audio output  O13 MICIP  Analog audio input  R15 MICIN  Analog audio input  Q15 HPP32  Analog audio output  N11 HPN32  Analog audio output  O11 HPP8  Analog audio output  O10 HPN8  Analog audio output  N10 CMDVIB  Digital bi directional buffer (IDG091/OUI431/PE1001). Pull down  M17 RI  Digital bi directional buffer (IDG091/OUO431/PS1001)  N5 DSR  Digital bi directional buffer (IDG091/OUI431/PE1001). Pull down  E3 DCD  Digital output buffer (OUI831). Pull up  E2
 Réf. :  SCT TMO MASV3 SPEC 30 Rev. :  H Réf. sec. :  2x xxx xxx – x Date :  12/05/04 DRAFT Document  .  All rights of reproduction and disclosure reserved.  Page 44 This document contains information on a product under development. SAGEM reserves the right to change or discontinue this product without notice. DTR  Digital bi directional buffer (IDI091/OUI831). Pull up  D3 CTS  Digital output buffer (OUI831). Pull up  C5 RTS  Digital bi directional buffer (IDI091/OUO431)  D4 TXD1  Digital output buffer (OUI831)  B5 RXD1  Digital bi directional buffer (IDI091/OUI831). Pull up  B7 TXD2  Digital output buffer (OUI831)  B8 RXD2  Digital input buffer (IDI091). Pull up  B9 TXIR  Digital bi directional buffer (IDI041/OUI831)  B6 RXIR  Digital bi directional buffer (IDI091/OUK431). Pull up  D7 CMDIRDA  Digital output buffer (OUK431)  C7 INT1  Digital bi directional buffer (IDG091/OUI431/PS1001). Pull up  Q3 SCLI2C  Digital bi directional buffer (IDI091/UOS205). Pull up  C11 SDAI2C  Digital bi directional buffer (IDI091/UOS205). Pull up  B11 INTI2C  Digital bi directional buffer (IDG091/OUI431/PS1001). Pull up  H6 CHARGEUR  Power supply input  O3,O4,O5 LEDC  Analog output  L6 TESTRST  Digital input. Pull down  P4 ITDATA  Digital bi directional buffer (IDI091/OUI431/PS1001). Pull up  N6 DPROC<0>  Digital bi directional buffer (IDI041/OUI831)  K5 DPROC<1>  Digital bi directional buffer (IDI041/OUI831)  K4 DPROC<2>  Digital bi directional buffer (IDI041/OUI831)  K3 DPROC<3>  Digital bi directional buffer (IDI041/OUI831)  K2 DPROC<4>  Digital bi directional buffer (IDI041/OUI831)  J2 DPROC<5>  Digital bi directional buffer (IDI041/OUI831)  J3 DPROC<6>  Digital bi directional buffer (IDI041/OUI831)  J4 DPROC<7>  Digital bi directional buffer (IDI041/OUI831)  I4 DPROC<8>  Digital bi directional buffer (IDI041/OUI831)  I3 DPROC<9>  Digital bi directional buffer (IDI041/OUI831)  I2 DPROC<10>  Digital bi directional buffer (IDI041/OUI831)  H2 DPROC<11>  Digital bi directional buffer (IDI041/OUI831)  H3 DPROC<12>  Digital bi directional buffer (IDI041/OUI831)  H4 DPROC<13>  Digital bi directional buffer (IDI041/OUI831)  G4 DPROC<14>  Digital bi directional buffer (IDI041/OUI831)  G3 DPROC<15>  Digital bi directional buffer (IDI041/OUI831)  G2 RWPROC*  Digital bi directional buffer (IDI041/OUI831)  I5 OEPROC*  Digital output buffer (OUI831)  F5 CSPROC1*  Digital bi directional buffer (IDI041/OUI831)  F6 APROC<1>  Digital bi directional buffer (IDI041/OUI831)  F4 APROC<2>  Digital bi directional buffer (IDI041/OUI831)  F3 APROC<3>  Digital bi directional buffer (IDI041/OUI831)  F2 DLCD<0>  Digital bi directional buffer (IDI041/OUI431)  I13 DLCD<1>  Digital bi directional buffer (IDI041/OUI431)  N18 DLCD<2>  Digital bi directional buffer (IDI041/OUI431)  L16 DLCD<3>  Digital bi directional buffer (IDI041/OUI431)  I12 DLCD<4>  Digital bi directional buffer (IDI041/OUI431)  G17 DLCD<5>  Digital bi directional buffer (IDI041/OUI431)  K15 DLCD<6>  Digital bi directional buffer (IDI041/OUI431)  H15 DLCD<7>  Digital bi directional buffer (IDI041/OUI431)  I15 ESTRBLCD  Digital output buffer (OUI431)  I14 CS0LCD*  Digital output buffer (OUI431)  H13
 Réf. :  SCT TMO MASV3 SPEC 30 Rev. :  H Réf. sec. :  2x xxx xxx – x Date :  12/05/04 DRAFT Document  .  All rights of reproduction and disclosure reserved.  Page 45 This document contains information on a product under development. SAGEM reserves the right to change or discontinue this product without notice. CS1LCD*  Digital output buffer (OUI431)  G12 RSLCD*  Digital output buffer (OUI431)  I16 RWLCD*  Digital output buffer (OUI431)  J16 RESETLCD*  Digital output buffer (OUI431)  N2 USB_DP  Digital bi directional buffer (UIS245/UOS181)  N16 USB_DM  Digital bi directional buffer (UIS245/UOS181)  N17 VCUSB  Power supply input  T15 TSPACTEXT  Digital output buffer (OUI831)  C17 CSYNC  Digital bi directional buffer (IDG091/OUM431/PE0201)  Q8 CSCLK  Digital bi directional buffer (IDG091/OUI831)  Q9 CDI  Digital output buffer (IDG091). Pull down  O16 CDO  Digital input buffer (OUM431)  M8 CRESET  Digital output buffer (OUI431)  K12 DCAM<0>  Digital bi directional buffer (IDI041/OUI431)  D10 DCAM<1>  Digital bi directional buffer (IDI041/OUI431)  C4 DCAM<2>  Digital bi directional buffer (IDI041/OUI431)  C8 DCAM<3>  Digital bi directional buffer (IDI041/OUI431)  E11 DCAM<4>  Digital bi directional buffer (IDI041/OUI431)  C6 DCAM<5>  Digital bi directional buffer (IDI041/OUI431)  F10 DCAM<6>  Digital bi directional buffer (IDI041/OUI431)  C9 DCAM<7>  Digital bi directional buffer (IDI041/OUI431)  D5 RESETCAM  Digital bi directional buffer (IDG091/OUI431/PE1001). Pull down  L3 STBYCAM  Digital bi directional buffer (IDG091/OUI431/PS1001)  M5 PCLKCAM  Digital bi directional buffer (IDG091/OUI431/PS1001)  C10 VSCAM  Digital bi directional buffer (IDG091/OUO431/PS1001). Pull up  L5 HREFCAM  Digital bi directional buffer (IDG091/OUI431/PS1001)  L4 XCLKCAM  Digital bi directional buffer (IDI091/OUI831/PS1001)  C15 WP1NAND*  Digital output buffer (OUI431)  H12 WENAND  Digital output buffer (OUI431)  I9 RENAND  Digital output buffer (OUI431)  E4 CLENAND  Digital output buffer (OUI431)  D9 ALENAND  Digital output buffer (OUI431)  D6 RBNAND*  Digital bi directional buffer (IDI041/OUI431)  D8 CE1NAND  Digital output buffer (OUI431)  E8 DMMC<0>  Digital bi directional buffer (IDG091/OUM431/PS0201). Pull up  D12 DMMC<1>  Digital bi directional buffer (IDG091/OUM431/PS0201). Pull up  B15 DMMC<2>  Digital bi directional buffer (IDG091/OUM431/PS0201). Pull up  B16 DMMC<3>  Digital bi directional buffer (IDG091/OUM431/PS0201). Pull up  B17 CLKMMC  Digital bi directional buffer (IDG091/OUI431)  D11 CMDMMC  Digital bi directional buffer (IDG091/OUM431/PS1001). Pull up  C12 POWMMC  Digital output buffer (OUI431). Pull down  B13 CDMMC  Digital bi directional buffer (IDG091/OUI431/PS0201)Pull up  B14 CLK26M  Analog Clock ouptut  T19 CLK13M  Digital bi directional buffer (IDI041/OUI831)  L12 CLK32K  Digital output buffer (OUK431)  R7 ADC2  Analog input  Q5 MCSIDI  Digital input buffer (IDG091)  C13 MCSIDO  Digital output buffer (OUM431)  D13 MCSICLK  Digital bi directional buffer (IDG091/OUM431)  E12 MCSISYNCH  Digital bi directional buffer (IDG091/OUM431)  E9
 Réf. :  SCT TMO MASV3 SPEC 30 Rev. :  H Réf. sec. :  2x xxx xxx – x Date :  12/05/04 DRAFT Document  .  All rights of reproduction and disclosure reserved.  Page 46 This document contains information on a product under development. SAGEM reserves the right to change or discontinue this product without notice. IO5  Digital bi directional buffer (IDG091/OUI431/PE1001)  N4 IO6  Digital bi directional buffer (IDG091/OUI431/PE1001)  N3 IO7  Digital bi directional buffer (IDG091/OUI431/PS1001)  J5 IO11  Digital bi directional buffer (IDG091/OUO431/PS1001)  E17 VBAT  Power supply input  F19,F20,F21,F22,F23,G19,G20,H19,H20 VRIO  Power supply output  Q4 VBACKUP  Power supply input  P5 ANTENNE  Analog bi directional HF  I23 TCK  Digital input buffer (IDI091/ PE0201). Pull down  T11 TMS  Digital input buffer (IDI091/ PS0201). Pull up  T14 TDIDIGIT  Digital input buffer (IDI091/ PS0201). Pull up  C14 TDODIGIT  Digital bi directional buffer (OUI431)  D17 TDIANALOG  Digital bi directional buffer. Pull up  R9 TDOANALOG  Digital bi directional buffer  P7 BSCAN*  Digital input buffer (IDI041/ PS0201). Pull up  D16 EMU0*  Digital bi directional buffer (IDI091/OUO431/PS1001). Pull up  C18 EMU1*  Digital bi directional buffer (IDI091/OUO431/PS1001). Pull up  B18  OUO231 : rated output current = 1mA (with Voh = Vccmin) OUI431, OUK431, OUO431 :rated output current = 2mA (with Voh = Vccmin) OUI831, OUK831 : rated output current = 4mA (with Voh = Vccmin)   (1'2)'2&80(17

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