NAD6200 Network Access Device Datasheet, Rev. 1.3 september, 2013 PEIKER acustic Confidential and Proprietary ________________________________________________________________________________________________________________________________________ Site 1 peiker acustic GmbH & Co.
Revision History Revision 1.0 1.1 1.2 1.3 Date 13.5.2013 17.7.2013 28.8.2013 2.9.2013 Chapter all 10 10 10 Comment Release Insert chapter 10.2 Warning Statements Insert RF Exposure Warning and Notice Insert OEM responsibility to the FCC rules and regulations ________________________________________________________________________________________________________________________________________ Site 2 peiker acustic GmbH & Co.
Index of contents Abstract .................................................................................................................................. 9 1. 2. 3. Introduction ................................................................................................................... 10 1.1. Scope ............................................................................................................................. 10 1.2. References .................................................
3.3.3.2. Antenna Switching .............................................................................................. 27 3.3.3.3. Antenna diagnostics ............................................................................................ 28 3.3.4. Chipset MDM6200 + PM8028 ..................................................................................... 28 3.3.4.1. PM8028 ............................................................................................................. 28 3.3.
Index of figures Figure 1: Block diagram of NAD6200 module ....................................................................... 14 Figure 2: board to board pin connector ................................................................................ 16 Figure 3: Mating connector .................................................................................................. 16 Figure 4: Pin description of GSBIs ........................................................................................
Index of tables Table 1: References .............................................................................................................. 10 Table 2: Key features of NAD6200 - Module ......................................................................... 11 Table 3: Product variants ..................................................................................................... 13 Table 4: Pin description of the board to board connector ....................................................
Index of abbreviations 3 GPP 3rd Generation Partnership Project ADC Analog – Digital – Converter DAC Digital – Analog - Converter eCall Emergency Call Gb Gigabit GLONASS Global Satellite navigation system GNSS Global Navigation Satellite System GPIO General Purpose Input Output GPRS General Packet Radio Service GSBI General Serial Bus Interface GSM Global System for Mobile Communications HSDPA High Speed Downlink Packet Access HSIC High Speed Inter – chip Interface HSPA High Speed
SMPS Switched Mode Power Supply SPDIF Sony / Philips Digital Interface SPI Serial Peripheral Interface SIM Subscriber Identity Module SSBI Single – wired Serial Bus Interface SW Software UART Universal Asynchronous Receiver Transmitter UIM User Interface Module UMTS Universal Mobile Telecommunications System USB Universal Serial Bus WCDMA Wideband Code Division Multiple Access W-WAN Wireless Wide Area Network ___________________________________________________________________________
Abstract Peiker NAD 6200 - Network Access Device ERA – GLONASS / eCall enabled Automotive Grade by Design - 10 – Layer design for best possible EMC and RF characteristics At the PA – Area and the Antenna Connector – Area is nothing assembled on bottom side Components integrated for antennas diagnostics Temperature sensors included for temperature management of some parameters Automotive Grade by Application A 500 MHz clocked ARM11 application processor is part of the MDM6200 chipset: - It contains all m
1. Introduction 1.1. Scope This document gives an overview about electrical, functional and mechanical details of the peiker NAD6200 module based on the Qualcomm chipset MDM6200 and PM 8028. 1.2. References Table 1: References Ref. 1 2 3 4 Name ASP-162345-02 (samtec) CLP-120-02-F-D-A-K-TR (samtec) 4369.SMBA.1H10.009 (IMS Connector Systems GmbH) 4408.SMBA.1H10.009 (IMS Connector Systems GmbH) Comment Board to board connector 40-pole Revision Date Mating connector FAKRA HF dual connector d 10.09.
2. Overview of the NAD6200 – Module This chapter gives a general overview of approvals, functionality and product variants of the NAD6200 module. 2.1. Key features Table 2: Key features of NAD6200 - Module Feature Processors Memory GSM,GMSK,EDGE WCDMA, HSDPA, HSUPA GNSS Antenna functions/interface Interfaces Data Communication Software Power supply 1 Application Processor: ARM1136 + L2 cache at 480 MHz Modem DSP: QDSP4000 processor at 147.
Thermal functions Additional operations Operating Temperature: -40 °C to +85 °C2 DTMF after dialing DTMF configurable Multiple PDP contexts Echo Cancellation / Noise suppression VDA Class 2a fulfilled Speech codecs: - Half rate EFR - Full rate FR - Enhanced Full rate EFR - Adaptive Multi – Rate AMR 2 : Automotive ambience fulfilled ________________________________________________________________________________________________________________________________________ Site 12 peiker acustic GmbH & Co.
2.2.
3. Overview HW – Part 3.1. Block – Diagram Figure 1: Block diagram of NAD6200 module ________________________________________________________________________________________________________________________________________ Site 14 peiker acustic GmbH & Co.
3.2. Pin description of the board to board connector The following table describes the pin out of the board to board connector of the NAD6200 Module. For detailed information about the electrical characteristics of every Pin see chapter 3.3.2 Detailed Pin description.
35 36 37 38 39 40 GPIO_17 GPIO_14 GPIO_46_GSBI_4_2 GPIO_9 Output Output Output Input OUT / active GPS_ANT_OVERVOLT low EXT_5V5 Input Power NAD-WAKEUP Codec Reset I²S – data output NAD-UPDATE Detection of GPS – Antenna short against + 12 V Power for inside GPS – Antenna LNA Information about the pin connector and mating connector: Figure 2: board to board pin connector Figure 3: Mating connector For detailed information about board to board pin connector see reference 1 and for mating connector see re
PIN 2 PIN 1 PIN 40 PIN 39 3.3. HW – Features 3.3.1. 3.3.1.1. - W-WAN connectivity GSM/EDGE EGSM850,900 Class 4 (2W) GSM1800, 1900 Class 1 (1W) EDGE850, EDGE900 Class E2 (0.5W) EDGE1800, EDGE1900 Class E2 (0.4W) GPRS/EDGE Multi slot class 12 DTM Multi slot class 11 3.3.1.2. UMTS/WCDMA UMTS / WCDMA are the 3rd generation of mobile telecommunication standard worldwide. HSPA are only an extension of UMTS / WCDMA.
3.3.1.3. GNSS GNSS is used for detection of the position and navigation. In the moment two systems are exist the American version GPS and the Russian version GLONASS. The NAD6200 support GPS and GLONASS. The MDM GNSS RF receiver performance is adequate to ensure compliance to the applicable standards. 3.3.1.3.1.
3.3.2.1.2. Nominal values Table 7: nominal values of the NAD6200 - module Parameter Voltage supply Current supply Voltage drop @ GSM power burst (33 dBm) for an external voltage regulator 3.3.2.2. 3.3.2.2.1. Min 3.7 Typ 3.8 Max 3.9 2.5 Unit V A 100 mV KPD_Power Description This signal is used to switch on the NAD6200 module. After the main power VPH_Power (3.8V) is applied to the NAD6200 module, the module will not start automatically.
3.3.2.3.2. Electrical characteristics Table 9: Electrical characteristics of RES_IN PIN Parameter 16 RES_IN 3.3.2.4. Comment Pull down with open Collector VREG_MSME 3.3.2.4.1. Description VREG_MSME is provided by an internal regulator of the NAD6200 module. VREG_MSME can be used to source interface circuits like level shifters which are connected to the interfaces or GPIOs of the NAD6200 module. The current drawn on VREG_MSME shall not exceed 30 mA.
3.3.2.5.2. Electrical characteristics Table 11: Electrical characteristics of SIM Interface PIN Parameter 11 VREG_USIM Min Max 2.85 / 1.8 150 2.85 /1.8 Unit V mA 10 USIM_CLK 12 USIM_DATA 2.85 /1.8 V 9 USIM_RESET 2.85 /1.8 V 14 SIM Present Signal – GPIO69 1.8 V 3.3.2.6. 3.3.2.6.1. Comments V Pull up 22 kΩ against VREG_USIM is required Is not supported yet USB Description The NAD6200 module has one USB 2.0 high speed compliant interface with built-in PHY.
The Pin USB_VBUS must be supply a Minimum voltage about 2 V with the serial resistor. 3.3.2.7. 3.3.2.7.1. GPIOs Description There are 21 GPIOs on the board to board connector of the NAD6200 module. Most of them are part of 5 GSBIs and are used for different interfaces (see Table 4 and the following chapters). For dissenting configurations of the GPIOs/GSBIs please contact Peiker acustics GmbH & Co.KG GPIOs and GSBIs share the same output pins and may not available when used as GSBI configuration.
For the standard configuration of the GSBIs see the following Figure 4. Figure 4: Pin description of GSBIs For other configuration of the GSBIs please contact Peiker acustics GmbH & Co.KG. 3.3.2.7.2. Electrical characteristics Table 13: Electrical characteristics of GPIOs PIN 13 Parameter GPIO_73 14 GPIO_69 SIM Present Signal 35 36 GPIO_17 – NAD-WAKEUP GPIO_14 – Codec reset Min Max 1.8 Unit V 1.8 V 1.8 V 1.8 V Comment Not implemented yet.
GPIO_9 – NAD-UPDATE 38 1.8 Pull up 10 kΩ against 1.8 V V The following table is valid for all GPIOs and digital inputs and outputs. Table 14: Definition of High - and Low - Level for digital inputs and outputs VIH VIL VSHYS VOH VOL Parameter High-level input voltage Low-level input voltage Hysteresis voltage High-level output voltage Low-level output voltage 3.3.2.8. 3.3.2.8.1. Min Typ Max Unit 0.65*1.8 1.8+0.3 V -0.3 0.35*1.8 V 100 mV 1.8-0.45 1.8 V 0 0.
3.3.2.9.2. Electrical characteristics Table 16: Electrical characteristics of I²C PIN 33 34 Parameter Seriel clock Seriel data 3.3.2.10. Min Max 1.8 1.8 Unit V V I²S 3.3.2.10.1. Description The I²S interface is used to transfer serial digital audio to/from an external stereo DAC/ADC.
3.3.2.11. GPS Pins 3.3.2.11.1. Description The PIN GPS_ANT_OVERVOLT and EXT_5V5 are reserved for use of the internal GPS of the NAD6200 module. The PINs should be grounded when not used in the design. 3.3.2.11.2. Electrical characteristics Table 18: Electrical characteristics of GPS Pins PIN Parameter Min Max Unit 39 GPS_ANT_OVERVOLT - - - 40 EXT_5V5 5.5 100 V mA 3.3.3. 3.3.3.1. Comment Open Collector, Pull up 47 kΩ against 3.
Figure 6: FAKRA HF Single connector Figure 7: FAKRA HF Dual connector For detailed information see the datasheet of those connectors. The device numbers of connectors see the reference 3 and 4 at the Table 1: References. 3.3.3.2. Antenna Switching For switching between main and backup antenna a RF – switch SPDT is soldered on the PCB of the NAD6200 – module. The switch is controlled by two GPIO´s. The following Table 19 shows 4 switch combinations.
3.3.3.3. Antenna diagnostics The diagnostic is supported for the main and backup antenna. The following states have to diagnose: a) Antenna connected b) No antenna connected c) Antenna has a short-circuit against ground d) Antenna has a short-cicuit against +Ubatt The hardware is implemented for the diagnostic for both antenna on the PCB of the NAD6200 – module. This hardware is connected to the PM8028. Main antenna is connected to MPP_08 and backup antenna is connected to MPP_07.
- General – purpose I/Os RF functions: RF transmitter (including supporting analog and LO circuits) RF receiver (including supporting analog and LO circuits) 3.3.5. Memory The NAD6200 – module has one 1 Gb NAND Flash + 512 Mb Mobile DDR SDRAM memory. For more detailed information about the memory device see the datasheet of K521H12ACI-B050.
4. Application software Tbd ________________________________________________________________________________________________________________________________________ Site 30 peiker acustic GmbH & Co. KG, Max-Planck-Straße 28-32, D-61381 Friedrichsdorf, Amtsgericht Bad Homburg HRA 1897 phG: peiker Verwaltungs GmbH, Vorsitzender der Geschäftsführung: Andreas Peiker, Geschäftsführer: Reinhard Kromer-von Baerle, Amtsgericht Bad Homburg HRB 1369 Vorsitzender des Aufsichtsrates: Dr.
5. Antenna characteristics 5.1. Electrical characteristics for the Antenna The end user is responsible to take care of the fulfillment of the “over the air performance” (OTA) of his end product. OTA performance will be influenced mainly by the RF routing from the module to the antenna and antenna choice. If external switches or splitters are necessary signal attenuation and degradation has to be considered. Regulatory requirements will give details on measurements and the corresponding limits.
5.2.2. Power Consumption, Call Table 24: Power Consumption @ TA = +25°C, VPH_PWR = 3.8 V, P = 23 dBm Band WCDMA WCDMA WCDMA WCDMA Condition BC1 BC2 BC5 BC8 REL 99 Min - Typ 584 607 620 607 Max - Unit mA mA mA mA Table 25: Power Consumption @ TA = +25°C, VPH_PWR = 3.8 V, P = 10 dBm Band WCDMA WCDMA WCDMA WCDMA Condition BC1 BC2 BC5 BC8 REL 99 Min - Typ 192 196 184 297 Max - Unit mA mA mA mA Table 26: Power Consumption @ TA = +25°C, VPH_PWR = 3.
Idle current WCDMA BC1, DRX = 8, Vdd = 3.8 V 2.2 mA ________________________________________________________________________________________________________________________________________ Site 33 peiker acustic GmbH & Co. KG, Max-Planck-Straße 28-32, D-61381 Friedrichsdorf, Amtsgericht Bad Homburg HRA 1897 phG: peiker Verwaltungs GmbH, Vorsitzender der Geschäftsführung: Andreas Peiker, Geschäftsführer: Reinhard Kromer-von Baerle, Amtsgericht Bad Homburg HRB 1369 Vorsitzender des Aufsichtsrates: Dr.
6. Environmental Specification 6.1. General information - Storage Temperature Handling -40°C - +85°C ESD – human body rating specified with max. 2 KV 6.2. Temperature Range Table 29: Operating temperature range Range Operating temp. range Operating temp. range -30°C … +70°C -40°C … +85°C 10 3GPP spec. conform Operational Performance might slightly deviate from 3GPP spec.
7. Mechanical Specification Figure 8: Mechanical dimensions of the NAD6200 module Figure 9: Mechanical dimensions of the NAD6200 module (top view) ________________________________________________________________________________________________________________________________________ Site 35 peiker acustic GmbH & Co.
8. Safety Recommendations according to EN60950-1 This device must be supplied by a limited power source according to EN 60950-1. The clearance and creep age distances required by the end product must be withheld when the module is installed. The cooling of the end product shall not negatively be influenced by the installation of the module.
9. Evaluation Kit For the NAD6200 – module there is an evaluation board available. They have the following features: - On beard 12 V DC power Supply or 3.8 V DC direct connected (unbuffered) USB 2.0 port type B SIM card tray 40 pin header connected to the board to board connector of the NAD6200 – module. 3 GSBI ports connected to DB9 or pin header. Figure 10: Evaluation Kit for NAD6200 module Using the evaluation board with on board 3.
For RF measurements use main antenna connector 5) AT Command interface: The module supports standard AT command as listed in the chapter 10.1 AT Command list. Commands are compliant to: 3GPP TS 27.007 3GPP TS 27.005 ________________________________________________________________________________________________________________________________________ Site 38 peiker acustic GmbH & Co.
10. Appendix 10.1.
Command Description AT+CGACT AT+CGPADDR AT+CGSMS ATE PDP context activate or deactivate Show PDP address Select service for MO SMS messages 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 Comment Restore Settings Only one Parameter
(c) The provisions of paragraphs (a) and (b) of this section do not apply to digital devices exempted from the technical standards under the provisions of § 15.103. (d) For systems incorporating several digital devices, the statement shown in paragraph (a) or (b) of this section needs to be contained only in the instruction manual for the main control unit.
IC Canada This Class b digital apparatus complies with Canadian ICES-003. Cet appareil numérique de la classe b est conforme à la norme NMB-003 du Canada. Le présent appareil est conforme aux CNR d'Industrie Canada applicables aux appareils radio exempts de licence.