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This document is the sole and exclusive property of Wavecom. Not to be distributed or divulged without prior written

agreement.

WA_DEV_M2106+_PTS_003-001 April, 2007

Plug & Play Wireless CPU

Integra M2106+

Product Specification

Reference:

WA_DEV_M2106+_PTS_003

Revision:

001

Date:

April, 2007

Supports Open AT

embedded ANSI C applications

Summary of content (77 pages)

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Plug & Play Wireless CPU® Integra M2106+ Product Specification Reference: WA_DEV_M2106+_PTS_003 Revision: 001 Date: April, 2007 Supports Open AT® embedded ANSI C applications ©Confidential Page: 1 / 77 This document is the sole and exclusive property of Wavecom. Not to be distributed or divulged without prior written agreement.
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Integra M2106+ Document Information Revision Date 001 April 2007 History of the evolution Creation ©Confidential Page: 2 / 77 This document is the sole and exclusive property of Wavecom. Not to be distributed or divulged without prior written agreement.
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Integra M2106+ Caution Information furnished herein by Wavecom is accurate and reliable. However, no responsibility is assumed for its use. Please read carefully the safety precautions for an application based on the Integra M2106+ Wireless CPU®. Trademarks WAVECOM®, Open AT®, Wireless CPU® are trademarks or registered trademarks of WAVECOM SA. All other company and/or product names mentioned may be trademarks or registered trademarks of their respective owners.
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Integra M2106+ Web Site Support General information about Wavecom and its range of www.wavecom.com products: Carrier/Operator approvals: ® www.wavecom.com/approvals Open AT Introduction: www.wavecom.com/OpenAT Developer support for software and hardware: www.wavecom.com/forum ©Confidential Page: 4 / 77 This document is the sole and exclusive property of Wavecom. Not to be distributed or divulged without prior written agreement.
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Integra M2106+ Overview This document defines and specifies the Integra M2106+ Plug & Play Wireless CPU®. It also contains guidelines for application design and recommendations to use the Integra development kit. This Plug and Play Wireless CPU® is an E-GSM/GSM - GPRS Class 10 900/1800 product, based on the Q24 Wireless CPU® which supports Open AT® by default.
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Integra M2106+ Contents 1 1.1 2 References ........................................................................................................................................... 10 Reference Documents........................................................................................................................... 10 1.1.1 Open AT® Software Documentation............................................................................................ 10 1.1.2 AT Software Documentation ............
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Integra M2106+ 3.12 Activity Status Indication (Flashing LED) .............................................................................................. 39 3.13 RF Interface........................................................................................................................................... 41 3.13.1 RF Interface Characteristics........................................................................................................ 41 3.13.2 RF Performance............................
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Integra M2106+ 8 Annexes................................................................................................................................................ 73 8.1 Supplier Information .............................................................................................................................. 73 8.1.1 General Purpose Connector ....................................................................................................... 73 8.1.2 Antenna connector ...................
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Integra M2106+ List of Figures Figure 1: M2106+ view .................................................................................................................................... 13 Figure 2: Integra M2106+ Wireless CPU® connectors .................................................................................... 13 Figure 3: Functional architecture ..................................................................................................................... 16 Figure 4: 50-pin connector...
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Integra M2106+ Erreur ! Style non défini. 1 References 1.1 Reference Documents Note: All below documents are related to V3.12 Open AT® Software and 6.57a Open AT® Firmware. Wavecom recommends that the developer should check the web site for the latest documentation 1.1.1 Open AT® Software Documentation [1] Getting started with Open AT® (Ref. WM_ASW_OAT_CTI_00001) [2] Open AT® Tutorial (Ref. WM_ASW_OAT_UGD_00001) [3] Tools Manual (Ref.
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Integra M2106+ Erreur ! Style non défini. 1.
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Integra M2106+ Erreur ! Style non défini. 2 General Description 2.1 Presentation The Integra M2106+ Wireless CPU® is a self-contained E-GSM/GSM-GPRS 900/1800 dual-band Wireless CPU® and is GPRS class 10 capable.
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Integra M2106+ Erreur ! Style non défini. 2.2 Key Features Integra M2106+ Wireless CPU® features: • Open AT® programmable: o o o o Native execution of embedded standard ANSI C applications, Custom AT command creation, Custom application library creation, Standalone operation.
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Integra M2106+ Erreur ! Style non défini. 2.4 GSM/GPRS Services The basic services provided by the Integra M2106+ Wireless CPU® are listed in the table below: Standard Interface Audio SMS Data Fax GPRS SIM • • • • • • • • • • • • • • • • • • • • • • • • • • • 900 MHz, E-GSM compliant; Class 4 (2 W). 1800 MHz ; Class 1 (1 W) GSM phase 2 GPRS Class 10 Serial interface V.24/CMOS AT command set based on V.25ter and GSM 07.05 & 07.07.
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Integra M2106+ Erreur ! Style non défini. 2.5 Functional Description 2.5.
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Integra M2106+ Erreur ! Style non défini. 2.5.2 RF Functionalities The Radio Frequency (RF) functionalities comply with the Phase II E-GSM 900 / DCS 1800 recommendations. The frequencies are: EGSM 900 DCS 1800 Transmit band (TX) Receive band (RX) 880 to 915 MHz 1710 to 1785 MHz 925 to 960 MHz 1805 to 915 MHz The Integra M2106+ Wireless CPU® also gives a quad band capability (GSM850, EGSM900, DCS 1800 and PCS 1900) and it is qualified by Wavecom.
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Integra M2106+ Erreur ! Style non défini. 3 Interfaces This chapter describes the hardware interfaces of the Integra M2106+ Wireless CPU®. 3.1 General Purpose Connector A 50-pin standard connector provides the baseband analog and digital interfaces. 50 2 49 1 Figure 4: 50-pin connector ©Confidential Page: 18 / 77 This document is the sole and exclusive property of Wavecom. Not to be distributed or divulged without prior written agreement.
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Integra M2106+ Erreur ! Style non défini. 3.1.
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Integra M2106+ Erreur ! Style non défini. 3.1.2 Signal Description The following table presents the main characteristics of the 50-pin connector.
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Integra M2106+ Erreur ! Style non défini. Pin # Name I/O Reset State I/O type 45 SIM_CLK O Output low -- 46 SIM_RST O Output low -- 47 SIM_VCC O -- Supply Description Clock for SIM Interface Reset for SIM interface SIM card supply Comment 3V /1.8V mode 3V /1.8V mode 3V /1.8V mode 6 mA max Connected to SIM connector pin 8.
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Integra M2106+ Erreur ! Style non défini. Pin description Pin number Name Reset state Description Comment 1 2 3 4 6 21 24 GND GND +5V +5V GND GND GND -------- Ground Ground Supply Supply Ground Ground Ground High Current High Current High Current High Current High Current High Current High Current ©Confidential Page: 23 / 77 This document is the sole and exclusive property of Wavecom. Not to be distributed or divulged without prior written agreement.
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Integra M2106+ Erreur ! Style non défini. 3.3 3.3.1 ON/~OFF Control General Description This input is used to switch ON or OFF the Integra Wireless CPU®. A high level signal must be provided on the ON/~OFF pin to switch ON the Wireless CPU®. To switch OFF, the ON/~OFF signal must be reset and an AT+CPOF command must be sent to the Wireless CPU®.
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Integra M2106+ Erreur ! Style non défini. 3.3.2 3.3.2.1 Operating Sequences Power-ON Once the Wireless CPU® is supplied the ON/~OFF signal must be asserted high during a delay of Ton-hold (Hold delay on the ON/~OFF signal) to power-ON. After this delay, once the firmware has completed its power-up sequence, an internal logic maintains the Wireless CPU® in power ON condition.
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Integra M2106+ Erreur ! Style non défini. an AT command. Note: See also “AT Commands Interface Guide” [7] for more information on these commands. Proceeding thus – by software detection - will always prevent the application from de-asserting the ON/~OFF signal too early. If WIND indicators are disabled or AT commands unavailable or not used, it is still possible to de-assert ON/~OFF after a delay long enough (Ton-hold) to ensure that the firmware has already completed its power-up initialization.
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Integra M2106+ Erreur ! Style non défini. 3.4 Alternative Download Control (BOOT pin) If the standard X-modem download procedure does not work correctly, an alternative download procedure can be selected with the BOOT pin. This alternative procedure requires a specific downloading software tool. See section 6.1, "Firmware Upgrade" for details.
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Integra M2106+ Erreur ! Style non défini. 3.5 Reset Signal (~RST) 3.5.1 General Presentation This signal is used to force a reset procedure by providing a low level for at least 500 µs. This signal must be considered as an emergency reset only. A reset procedure is automatically driven by an internal hardware component during the power-up sequence.
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Integra M2106+ Erreur ! Style non défini. The Reset process is activated either by the external ~RST signal or by an internal signal (coming from a reset generator). This automatic reset mode is activated at Power-up. The Wireless CPU® remains in Reset mode as long as the Reset signal is held low. • This signal should be used only for “emergency” resets: A software reset is always preferred to a hardware reset. 3.5.
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Integra M2106+ Erreur ! Style non défini. 3.6 Serial Link 3.6.1 Interface Description A serial link interface is available on the Integra M2106+ Wireless CPU®. It is compliant with V24 signaling protocol with a 2.8 V electrical interface except TX, RTS, and DTR inputs, which can be either 5 V or 3 V. This means the serial link not compliant with the V28 standard and a level shifter is required to connect to a PC.
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Integra M2106+ Erreur ! Style non défini. 3.6.2 Application Note with Level Shifter A level shifter (MAX3238, for example) can be used for an application requiring V28 levels. Lev el Sh if t er W ireles s CP U ® T er m in al DTE D CE VCC VCC V CC ERRO R ON VCC VCC M A X3 2 3 8 Figure 11: Level shifter application diagram for serial link* * This application note is valid for VCC ≥ 3.0 Volt (see MAX3238 specifications). Auto shutdown mode is not used in this example. 3.
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Integra M2106+ Erreur ! Style non défini. 3.8 Keyboard Interface This interface provides 10 connections: • 5 rows (R0 to R4) and • 5 columns (C0 to C4). Digital scanning and debouncing are performed within the M2106+ Wireless CPU®. No discrete components such as R, C (Resistor, Capacitor) are required.
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Integra M2106+ Erreur ! Style non défini. 3.9 Audio Interface Two different microphone inputs (MIC1 and MIC2 inputs) and two different speaker outputs (SPK1 and SPK2 outputs) are supported. The connection can be either differential or single-ended but the use of a differential connection in order to reject common mode noise and TDMA noise is strongly recommended.
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Integra M2106+ Erreur ! Style non défini. Table 2: Microphone gain vs Max input voltage* Using Controller 1 Using Controller 2 Transmit Gain (dB) Max Vin (mVrms) Transmit Gain (dB) Max Vin (mVrms) + 30 + 33 + 36 + 39 + 42 + 45 + 48 + 51 * 3.9.1.2 43.80 31.01 21.95 15.54 11.00 7.79 5.51 3.90 - -6.5 -6 0 +9.5 +10 +30.3 +30.8 +50.8 +51.3 3031 2861 1434 480 454 43.80 41.36 41.14 3.
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Integra M2106+ Erreur ! Style non défini. The MIC1 inputs are differential and do not include internal bias. These inputs are the standard for an external headset or a hands-free kit. To use these inputs with an electret microphone, bias has to be generated outside the Wireless CPU® according to the characteristics of this electret microphone. These inputs are provided either for an external headset or a hands-free kit. The input impedance is around 10kΩ +/- 30% between 400Hz and 4000Hz.
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Integra M2106+ Erreur ! Style non défini. 3.9.2.1 Common Speaker Output Characteristics The connection can be differential or single-ended but the use of a differential connection to reject common mode noise and TDMA noise is strongly recommended. Moreover in single-ended mode, ½ of the power is lost. When using a single-ended connection, ensure to have a good ground plane, good filtering as well as shielding, in order to avoid any disturbance on the audio path.
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Integra M2106+ Erreur ! Style non défini. Table 3: Speaker gain vs Max output voltage * 3.9.2.2 Receive Gain (dB)* Max output level (Vrms) Min Speaker load (Ω) +2 0 -2 -4 -6 -8 -10 -12 -14 -16 -18 -20 -22 -24 -26 1.74 1.38 1.099 0.873 0.693 0.551 0.437 0.347 0.276 0.219 0.174 0.138 0.110 0.087 0.069 150 50 32 32 32 32 32 32 32 32 32 32 32 32 32 Analog gain: may not be significant Speaker 2 Output Pin description 3.9.2.
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Integra M2106+ Erreur ! Style non défini. GPIO0 GPIO4 26 7 I/O I/O High Z High Z CMOS/ 2X CMOS/ 2X General Purpose I/O General Purpose I/O All digital I/Os comply with 3 volts CMOS. Both GPIO0 and GPIO4 are low level at reset. You can access (write or read) the GPIO value via AT+WIOW and AT+WIOR commands. See the AT commands Interface Guide documentation [7] for more details. 3.11 Analog to Digital Converter (ADC) An Analog to Digital Converter is provided by the Integra M2106+ Wireless CPU®.
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Integra M2106+ Erreur ! Style non défini. OFF Wireless CPU® in download mode or Wireless CPU® switched OFF. Permanent ON Slow flash LED ON for 200 ms OFF for 2 s Quick flash LED ON for200 ms OFF for 600 ms ©Confidential Wireless CPU® switched ON, not registered on the network Wireless CPU® switched ON Registered on the network Idle mode Wireless CPU® switched ON Registered on the network Communication in progress Page: 40 / 77 This document is the sole and exclusive property of Wavecom.
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Integra M2106+ Erreur ! Style non défini. 3.13 RF Interface 3.13.1 RF Interface Characteristics The nominal impedance value is 50 Ω. The DC impedance is 0 Ω, connected to GND. The RF connector is a MMCX (Miniature Micro Connector) type. (See section "Supplier Information", 8.1.
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Integra M2106+ Erreur ! Style non défini. 3.13.3 Antenna Specifications The antenna connected to the Integra M2106+ Wireless CPU® antenna via the MMCX connector should have the following characteristics: Table 4: Antenna requirements EGSM 900 DCS 1800 Frequency RX 925 to 960 MHz 1805 to 1880 MHz Frequency TX 880 to 915 MHz 1710 to 1785 MHz RF power stand 2 W at 2/8 duty cycle 1 W at 2/8 duty cycle Impedance VSWR 50 Ω Rx max 1.5 : 1 Tx max 1.
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Integra M2106+ Erreur ! Style non défini. 3.14 SIM Card Interface Integra M2106+ has an embedded SIM reader. This embedded SIM interface is for 3 V / 1V8 micro-SIM cards. If the application requires ISO SIM cards interface or 5 V SIM cards, the SIM interface signals are available on the General Purpose Connector.
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Integra M2106+ Erreur ! Style non défini. 3.14.1 Internal SIM Card Interface This interface supports 3V / 1V8 Micro-SIM cards. The SIM card (micro-SIM) is inserted in the extractible holder. In order to extract or insert the micro SIM card, press with a sharp element (a pen for example) the SIM card holder ejector. Caution: If this procedure is not respected, the SIM card holder could be destroyed.
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Integra M2106+ Erreur ! Style non défini. 3.14.2 External SIM Card Interface The external SIM interface is available through the General Purpose Connector in order to use a stand-alone SIM card holder. This interface is 3V / 1V8, but 5 V SIMs can be driven by using an external level shifter. See the application schematics in section 6.3. Each SIM line must not exceed a length of 10 cm on the application PCB.
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Integra M2106+ Erreur ! Style non défini. SIM socket pin description Signal Pin number Description VCC RST CLK CC4 GND VPP I/O CC8 1 2 3 4 5 6 7 8 SIMVCC SIMRST SIMCLK Resistor connected to GROUND GROUND Not connected SIMDATA SIMPRES1 SIMVCC 1 SIMRST 2 RST 3 CLK SIMCLK GND VCC CC4 1K GND VPP SIMDATA 7 SIMPRES1 8 I/O CC8 Figure 17: Schematic for external SIM card holder When the external SIM card is used, the internal SIM card must be removed.
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Integra M2106+ Erreur ! Style non défini. 4 Technical Specifications 4.1 4.2 4.2.1 Environmental Constraints Conditions Temperature range Operating / Full GSM specification compliant Storage -20°C to + 55°C -30°C to +85°C Mechanical Specifications Mechanical Overview Integra is encased as shown in the figure below. Figure 18: Mechanical overview 1/3 Figure 19: Mechanical overview 2/3 ©Confidential Page: 47 / 77 This document is the sole and exclusive property of Wavecom.
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Integra M2106+ Erreur ! Style non défini. Figure 20: Mechanical overview 3/3 4.2.2 Mechanical Characteristics Overall dimensions 46 x 64 x 12 mm Weight 81 g Volume 36.21 cm3 Casing Complete shielding - stainless steel Mounting 4 screw holes For the M2106+ assembly on an application board, see the section 6.4. 4.2.3 Mechanical Drawings The following page shows the Integra M2106+ Wireless CPU® mechanical drawings.
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Integra M2106+ Erreur ! Style non défini. PAGE RESERVEE Insérer ici dans le PDF le fichier : wmoi3_assembly_A.pdf ©Confidential Page: 49 / 77 This document is the sole and exclusive property of Wavecom. Not to be distributed or divulged without prior written agreement.
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Integra M2106+ Erreur ! Style non défini. 4.3 4.3.1 Electrical Specifications Power Mode The Integra M2106+ Wireless CPU® supports different power consumption modes: Working modes Comments ® OFF mode FAST idle mode SLOW idle mode FAST Standby mode SLOW Standby mode Communication mode The Wireless CPU is in OFF mode. The Wireless CPU® is synchronized with an RF GSM/GPRS network. The internal 26 MHz of the Wireless CPU® is constantly active.
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Integra M2106+ Erreur ! Style non défini. 4.3.2 Power Consumption without Open AT® Processing The following measurement results are relevant only when: • There is no Open AT® application, • The Open AT® application is disabled, • No processing is required by the Open AT® application. Power supply: 5 V DC ± 5%, 1.5 A INOM average IMAX peak Unit 16 NA µA Paging 9 18.2 150RX mA Paging 2 20.4 150RX mA Paging 9 10.3 150RX mA Paging 2 13.
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Integra M2106+ Erreur ! Style non défini. 4.3.3 Power Consumption with Open AT® Processing The power consumption with Open AT® software used is the Dhrystone application and the following consumption results were measured while performing on the Dhrystone application. Power supply: 5 V DC /1.
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Integra M2106+ Erreur ! Style non défini. 4.3.4 Current Consumption Waveform The consumption waveforms are given for an EGSM900 network configuration with AT software running on the Wireless CPU®. Power supply: 5 V DC /1.
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Integra M2106+ Erreur ! Style non défini. 5 Applicable Normative Documents 5.1 Normative Specifications Integra M2106+ Wireless CPU® is compliant with the applicable GSM ETSI, 3GPP and GCF recommendations for GSM/GPRS phase2. ©Confidential Page: 54 / 77 This document is the sole and exclusive property of Wavecom. Not to be distributed or divulged without prior written agreement.
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Integra M2106+ Erreur ! Style non défini. Notes: Short description of Class IE13 (For more information see standard IEC 60721-3-1.) "Locations without controlled temperature and humidity, where heating may be used to raise low temperatures, locations in buildings providing minimal protection against daily variations of external climate, prone to receiving rainfall from carrying wind" Short description of Class IE23 (For more information see standard IEC 60721-3-2.
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Integra M2106+ Erreur ! Style non défini. matter which can contain polluted materials liable to produce oxidation (such as, e.g. substances including chlorine). In case a cleaning of the Card is necessary a dry cloth must be used (never use any chemical substance). ©Confidential Page: 57 / 77 This document is the sole and exclusive property of Wavecom. Not to be distributed or divulged without prior written agreement.
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Integra M2106+ Using the Integra Wireless CPU® 6 Using the Integra Wireless CPU® 6.1 Firmware Upgrade The Integra firmware is stored in flash memory and can easily be upgraded. The upgrade procedure is based on the X-modem protocol, but an emergency mode (backup procedure) based on a Wavecom specific downloader is also available. 6.1.1 Nominal Upgrade Procedure The firmware file can be downloaded to the Wireless CPU® using the X-modem protocol.
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Integra M2106+ Using the Integra Wireless CPU® 6.2.2 Antenna The choice of the antenna sub-system (type, performance, cable length and thermal resistance, etc.) and its integration in the application is a major issue. These elements could affect the performance of the GSM features such as sensitivity and transmitted power. It is recommended to shield the application. For applications including an antenna, poor shielding could dramatically affect the sensitivity of the terminal.
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Integra M2106+ Using the Integra Wireless CPU® 6.3 3 V/5 V SIM Management The figure below shows the schematic for a SIM level shifter to manage 5 V SIM cards. Figure 21: Schematic for a SIM level shifter to manage 5 V SIM cards ©Confidential Page: 60 / 77 This document is the sole and exclusive property of Wavecom. Not to be distributed or divulged without prior written agreement.
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Integra M2106+ Using the Integra Wireless CPU® 6.4 Installation of the Integra M2106+ Wireless CPU® on an Application Board The Integra M2106+ Wireless CPU® can be mounted on the application PCB in two ways: • The bottom side of the Wireless CPU® is assembled on the application PCB. The 50-pin connector of the Wireless CPU® is directly connected to the mating connector assembled on the application PCB • The top side of the Wireless CPU® is assembled on the application PCB.
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Integra M2106+ Using the Integra Wireless CPU® • Do not put any components under the Wireless CPU®. • For the overall dimensions of the Wireless CPU®, see section 4.2.3 (Mechanical drawings). Top view 2.4 2 18.83 43.75 57.65 1 19.8 4 3 39.65 General tolerance : ±0.1mm Figure 22: Recommended footprint (Integra M2106 Wireless CPU® bottom side on application board) ©Confidential Page: 62 / 77 This document is the sole and exclusive property of Wavecom.
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Integra M2106+ Using the Integra Wireless CPU® 6.5 Integra Development Kit Board Presentation The quickest way of getting started with the Integra Wireless CPU® is by using the Wavecom development kit board, also called as development kit board.
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Integra M2106+ Using the Integra Wireless CPU® 6.5.1 Getting Started To use the Integra M2106+ Wireless CPU® with a Development kit board: 1. Mount the Integra Wireless CPU® on the Development kit board. 2. Insert one SIM card in the holder internal or external) and verify the SIM card fits in the holder correctly. 3. Connect the antenna to the Integra M2106+ RF connector. 4. Plug the handset into the RJ9 connector (HANDSET1). 5.
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Integra M2106+ Using the Integra Wireless CPU® 6.5.3 Example of AT Commands This section gives examples to get started with AT commands. Refer to the AT commands Interface Guide documentation [7] for details. 6.5.3.1 Example of AT commands for Quick Starting the Wireless CPU® The table below lists the main AT commands required to start the Wireless CPU®.
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Integra M2106+ Using the Integra Wireless CPU® Example of set of AT commands, which can be used for quickly getting started with the Integra Wireless CPU®: • AT+CGMI: Wireless CPU® response is “WAVECOM MODEM” when serial link is OK. • AT+CPIN=: enter a PIN code (if activated). • AT+CSQ: to check received signal strength. • AT+CREG?: to check the registration of the Wireless CPU® on the network. • ATD; - to initiate a call. • ATH: to hang up (end of call).
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Integra M2106+ Using the Integra Wireless CPU® 6.5.3.3 Checking Wireless CPU® Network Registration To check Wireless CPU® network registration: 5. Make sure a valid SIM card is previously inserted in the Wireless CPU® SIM card holder. 6. Enter the AT+CREG? command by using communication software such as the HyperTerminal program, The value appears as a response. 7. Check the result by comparing it with the values listed in the table below.
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Integra M2106+ Erreur ! Style non défini. 7 Troubleshooting This section describes: • Problems that may be encountered when using the Integra Wireless CPU® • Possible causes • Possible solutions To review other troubleshooting information, refer to the 'FAQs' (Frequently Asked Questions) page either at www.wavecom.com or use the following link: http://www.wavecom.com/modules/movie/scenes/support/ 7.
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Integra M2106+ Erreur ! Style non défini. 7.2 Receiving 'no carrier' Messages If the Wireless CPU® returns a 'no carrier' message on an attempted transmission of data or voice signals, refer to the next table for possible causes and solutions.
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Integra M2106+ Erreur ! Style non défini. 7.3 Receiving error Messages If the Wireless CPU® returns an 'error' message on an attempted transmission of data or voice signals, refer to the table below for possible causes and solutions: Table 8: Solutions for error messages If the Wireless CPU® returns Then ask Corrective Action Is the Wireless CPU® registered on the network? Refer to section 6.5.3.3 to check that the Wireless CPU® is registered on the network.
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Integra M2106+ Erreur ! Style non défini. ® If the Integra Wireless CPU returns an 'error' message and there is no solution in Table 8, investigate the extended error code by using the AT+CMEE command. Refer to the table below for interpretation of the extended error code. Table 9: Interpretation of extended error codes Error Code Diagnostic Hint 0 3 4 Phone failure Operation not allowed Operation not supported Call technical support.
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Integra M2106+ Erreur ! Style non défini. 8 Annexes 8.1 8.1.1 Supplier Information General Purpose Connector The mating connector for the Integra M2106+ Wireless CPU® General Purpose Connector is made by SAMTEC France (http://www.samtec.com/). Many SAMTEC products are available via SAMTEC dealers throughout the world. Figure 24: High and low profile CLP connectors For better fastening of the M2106+ on the application, Wavecom recommends the use of a low-profile connector.
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Integra M2106+ Erreur ! Style non défini. 8.1.2 Antenna connector The Integra M2106+ Wireless CPU® antenna connector is an MMCX connector (Miniature Micro Connector). A mating MMCX connector for a cable or a mattng MMCX/SMA adaptor can be used for antenna connection.
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Integra M2106+ Erreur ! Style non défini. 8.2 Safety Recommendations (for information only) IMPORTANT FOR THE EFFICIENT AND SAFE OPERATION OF YOUR INTEGRA WIRELESS CPU®, PLEASE READ THIS INFORMATION CAREFULLY 8.2.1 8.2.1.1 RF Safety General Your GSM terminal based on Integra Wireless CPU® is based on the GSM standard for cellular technology. The GSM standard is spread all over the world. It covers Europe, Asia and some parts of America and Africa. This is the most used telecommunication standard.
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Integra M2106+ Erreur ! Style non défini. 8.2.1.4 Antenna Care and Replacement Do not use the GSM terminal with a damaged antenna. If a damaged antenna comes into contact with the skin, a minor burn may result. You may repair antenna to yourself by following the instruction manual provided to you. If so, use only a manufacturer-approved antenna. Otherwise, have your antenna repaired by a qualified technician. Buy or replace the antenna only from the approved suppliers list.
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Integra M2106+ Erreur ! Style non défini. 8.2.2.5 Aircraft Turn your terminal OFF before boarding any aircraft. • Use it on the ground only with crew permission. • Do not use it in the air. To prevent possible interference with aircraft systems, Federal Aviation Administration (FAA) regulations require you should have prior permission from a crew member to use your terminal while the aircraft is on the ground.