User manual NAD-MDM6200 Peiker product #: 2189-082-112-00 (V1082-x13) HW0811 Revision: Date: 0.4 10-2011 Status: Approved _______________________________________________________________________________________________________________ Seite 1 peiker acustic GmbH & Co.
History: Date 05.02.11 08-082011 17-082011 18-082011 06-102011 Revision Rev 0.0 Rev 0.1 Rev 0.2 Rev 0.3 Rev. 0.4 Name ChZi Gleich / Herold Hofmann Comment Initial document Document Review Document Review Herold / Document Review; Warning Statement included Hofmann Herold IC Canada Conformance statement Review _______________________________________________________________________________________________________________ Seite 2 peiker acustic GmbH & Co.
Content 1 2 3 4 5 6 7 8 Introduction .......................................................................................................................................... 4 1.1 Scope .................................................................................................................................................. 4 1.2 Audience ............................................................................................................................................ 4 1.
1 Introduction 1.1 Scope This document give an overview electrical and functional detail fort he peiker NAD. 1.2 Audience Informations for integrate the module in other applications. 1.3 Contact information, Support Peiker Max-Planck Street 32 D-61381 Friedrichsdorf http://www.peiker.de info@peiker.de 1.4 Related Documents None. 2 Overview 2.
2.3 Features - GSM/GPRS/EDGE Quad band (850, 900, 1800,1900) HSUPA up to 5.76 Mbps HSDPA up to 14.4 Mbps WCDMA up to 384kbps uplink/downlink DTM eCall inband nodem Power Classes - Class 4 (33dBm, 2W) Lo bands 850, 900 GSMK Class 1 (30dBm, 1W) Hi bands 1800, 1900 GSMK Class E2 Lo bands 850, 900 8PSK (EDGE) Class E2 Hi bands 1800, 1900 8PSK (EDGE) PS GPRS/EDGE Multi slot class 12 (4Dn/4Up/5Sum max.) CS Multi slot class 1 (1Dn/1Up) DTM Multi slot class 11 (4Dn/3Up/5Sum max.) 2.
3 Overview 3.1 Dimension, Mechanical Drawings Figure 1 V1082-x13 Mechanical Dimensions. Figure 2 V1082-x13 Mechanical Dimensions (Top View). _______________________________________________________________________________________________________________ Seite 6 peiker acustic GmbH & Co.
3.2 Block Diagram Figure 3 V1082-x13 Block Diagram. 3.3 HW Features - Qualcomm chipset MDM6200 (RF + Base band) + PM8028 (Power management) ARM11 Core up to 480 MHz 2 DSP for modem and application DSP MCP Memory (1Gb NAND Flash x16, 512Mb Mobile DDR SDRAM x16) 19.
3.4 Connectors 3.4.1 Base Band Connector The NAD has a 40pin (2x20) connector with 1.27mm pitch. The connector is designed to stitch through the main board PCB. To allow variable mounting scenarios the 40pin connect can be populated on the top or the bottom side of NAD PCB. Default location is the PCB bottom side. 3.4.1 Antenna Connectors To support the usage of a main and backup antenna, the NAD has an automotive dual FAKRA RFConnector (SMB male) populated.
3.5.3 KPD_POWER The signal is used switch on the NAD-Module. KPD_POWER is pulled against VPH_Power on the NAD internally. Due to this fact it is recommended to pull this input against GND using an open collector or open drain output only. 3.5.4 Reset The signal is used to reset the NAD the NAD-Module. RES_IN is pulled against VPH_Power on the NAD internally. Due to this fact it is recommended to pull this input against GND using an open collector or open drain output only. 3.5.
GSBI0: GSBI1: GSBI2: GSBI3: GSBI4: GSBI0_2, GSBI1_0, GSBI2_0, GSBI3_0, GSBI4_2, GSBI0_3 (GPIO_30,31) GSBI1_1, GSBI1_2, GSBI1_3 (GPIO_32,33,34,35) GSBI2_1, GSBI2_2, GSBI2_3 (GPIO_36,37,38,39) GSBI3_1, GSBI3_2, GSBI3_3 (GPIO_40,41,42,43) GSBI4_3 (GPIO_46,47) Generally the functions of a GSBI are: UART, UIM, I2C, I2S, SPI, PCM, RTS, CTS, GPIO For details and possible combinations an GSBIs please refer to latest chipset device specification document 80_VR001-1.
3.5.
3.5.7 GPS related Pins Pin 39 GPS_ANT_OVERVOLTAGE and Pin 40 EXT_5V5 are reserved for future use of the internal GPS of the NAD. The pins should be grounded when not used in the design. 3.5.7 Antenna Diagnostics The NAD is capable to monitor the connection status of both antennas (MAIN and BACKUP) To monitor the connection status, antennas with internal DC coupled 10k resistors to GND must be used. The diagnose is performed by NAD SW using 2 ADCs.
3.5.7 Antenna Switching The NAD is equipped with to antenna connectors. A main and a backup antenna can be connected to the antenna ports. To switchover between the antennas a SPDT RF- Switch is populated on NAD. The switch can be performed by SW toggling 2 internal GPIOs on NAD. At the moment the main antenna is switched on by default. The main antenna is the mapped to the SMB connector close to the outer dimension of the NAD.
During Hi RF Power GSM bursts the power amplifier can draw peak currents > 2Amps at VPH_PWR. The voltage drop during the GSM burst shall not exceed 100mV (measured at C5 on the NAD module 3.7 Power Consumption TA = +25°C, VPH_PWR =3.8V Voice Voice Voice Voice call call call call WCDMA WCDMA WCDMA WCDMA BC1 BC2 BC5 BC8 Voice call GSM850 Voice call GSM900 Voice call GSM1800 Voice call GSM1900 Standby current GSM Standby current WCDMA Output Power max. (typ.
Note 1: Due to temperature specification of the chipset, the temperature of the power manager and the temperature of the modem chip shall not excced +85°C. _______________________________________________________________________________________________________________ Seite 15 peiker acustic GmbH & Co.
4 Evaluation Kit For the NAD V1082-x13 there is an evaluation board available. Features : - On board 12V DC power supply or 3,8V DC direct connected (i.e. unbuffered). - USB port type B - SIM card tray - 40 pin header connected to the systemconnector of the NAD - 3 GSPI Port connected to DB9 or pin header. Can be configured as UART od SDIO or SPDIF to connect audio codecs Using the evaluation board with on board 3.8V regulator - Connect 11 ..
Figure 5 Evaluation Kit for V1082-x13. _______________________________________________________________________________________________________________ Seite 17 peiker acustic GmbH & Co. KG, Max-Planck-Straße 32, D-61381 Friedrichsdorf, Amtsgericht Bad Homburg HRA 1897 phG: peiker Verwaltungs GmbH, Vorsitzender der Geschäftsführung: Andreas Peiker, Geschäftsführer: Stephan Graf von der Schulenburg, Amtsgericht Bad Homburg 1369 Vorsitzender des Aufsichtsrates: Prof. Dr.
5 AT Command interface The modules supports standart AT command as listed below. Commands are compliant to 3GPP TS 27.007 . 3GPP TS 27.
Command Description ATE Character Echo ON/OFF AT+CSMS AT+CSMP AT+CSDH AT+CSCB Check Message Service support Set Text Mode Parameters Show Text Mode Parameters Select Cell Broadcast Message Types Save Settings AT+CSAS AT+CRES AT+CMGL AT+CNMA AT+CMGC AT+CMMS AT+ATV AT+ATX AT+CNMI AT+CPMS AT+CMGW AT+CMSS AT+CMGD AT+CNUM AT+CPBS AT+CPBR AT+CPBW 6 Comment Restore Settings Only one Parameter is supported by the device. Only one Parameter is supported by the device.
7 List of Acronyms 3GPP ADC ADN A-GPS 3 rd Generation Partnership Project Analog Digital Converter Abbrieviated Dialing Number Assisted GPS AMR Adaptive Multi Rate AT AWS BER CLIP CLIR CSD DARP DTMF FDN FTP GSM GPIO GPRS GPS HSPA HW LED MO MT OEM PCB PCM PDU PIN RF RoHs UART USB USIM UMTS WCDMA Attention Command Advanced Wireless Services Bit Error Rate Calling Line Identification Presentation Calling Line Identification Restriction Circuit Switch Data Downlink Advanced Receiver Performance Dual Tone
8 Warning Statements FCC NOTE: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications.
Le présent appareil est conforme aux CNR d'Industrie Canada applicables aux appareils radio exempts de licence. L'exploitation est autorisée aux deux conditions suivantes : (1) l'appareil ne doit pas produire de brouillage, et (2) l'utilisateur de l'appareil doit accepter tout brouillage radioélectrique subi, même si le brouillage est susceptible d'en compromettre le fonctionnement.