User manual LTE-NAD V1140-xxx Peiker product ID: 2189-140-xxx-00 (V1140-xxx) Revision: Date: 0.9 June 2014 Status: Draft _______________________________________________________________________________________________________________ Seite 1 peiker acustic GmbH & Co.
History: Date Revision 15.09.2013 0.5 13.12.2013 0.6 16.12.2013 0.7 01.04.2014 0.8 17.06.2014 0.9 Name Comment wlo Initial document phse Some additions to sections 2.1 and 3.3 Some corrections to section 2.2, Figure 4 updated phse Some additions to section 8 phse Modifications/additions to section 8 phse Updated Max Antenna Gain Values in section 8.3 _______________________________________________________________________________________________________________ Seite 2 peiker acustic GmbH & Co.
Content 1 Introduction ..........................................................................................................................................4 1.1 Scope ..................................................................................................................................................4 1.2 Audience ............................................................................................................................................4 1.3 Contact information, Support ..
1 Introduction 1.1 Scope This document gives an overview about electrical, mechanical and functional detail of the peiker LTENAD v1140-xxx. 1.2 Audience Information to integrate the module in other applications. 1.3 Contact information, Support peiker acustic GmbH & Co KG Max-Planck Street 32 D-61381 Friedrichsdorf / Ts. Germany http://www.peiker.de info@peiker.de 1.4 Related Documents None.
2 Overview 2.
2.2 Features Features - Same footprint and pin-out for all modules Voice and data calls are supported in all modules GSM (R99, GPRS and EDGE) for all modules WCDMA (R99, R5 HSDPA, R6 HSUPA and R7 HSPA+) for all modules WCDMA (R8 DC-HSPA+) for all modules except for V1140-101 and V1140-105 LTE (Rel.9 Cat3 FDD) for LTE capable modules DTM/eDTM eCall inband modem Standalone GPS, GLONASS, AGPS (MS-Assisted and MS-Based) Data rates - GSM: DL/UL – 14.4kbps / 14.4kbps GPRS: Multislot class 12, DL/UL – 85.
3 Overview 3.1 HW Features - - Qualcomm SoC (system on chip) o LTE capable modules V1140-100, V1140-101 and V1140-104 MDM9215 Baseband / PMIC8018 Power management / WTR1605L o Non-LTE modules V1140-103, V1140-105 and V1140-106 MDM8215 Baseband / PMIC8018 Power management / WTR1605 Cortex A5 Core up to 550 MHz 3 DSPs for modem and low power audio sub systems RPM Resource and power manager 2Gb NAND Flash x16, 2Gb Low Power Mobile DDR SDRAM x32 19.
- USB_D_P: USB_D_M: USB_ID: USB_VBUS: VREG_USB3_3V075 USB Data Plus signal USB Data Minus signal Master/Slave Configuration1 USB Voltage Supply USB Voltage Output A dynamic reconfiguration between USB-Host or USB-Device is not foreseen, the NAD can be configured to USB-Host or USB-Device by the insertion of a resistor on the USB_ID line. 3.3.2 SIM Interface The NADs SIM interface is compatible to 1.8V and 3V SIM Cards, the necessary voltage and level shifting is handle by LTE-NAD automatically.
There are 51 GPIOs on the LTE-NAD module available. Most of them are part of the 5 GSBIs provided in next chapter. They are used for different interfaces (see Table 1 and the following chapters). For allocation of GPIOs/GSBIs to different configurations please contact peiker acustics GmbH & Co.KG GPIOs and GSBIs share the same output pins and may not available when used as GSBI configuration.
Figure 1 V1140-xxx General Serial Bus Interface GSBI interface configuration 3.3.
PIN Signal 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 JTAG_RTCK GND JTAG_TCK JTAG_RESOUT_N GPIO82 JTAG_PS_HOLD EXT_RESIN_N GND RESOUT_N GPIO29_ SDC2_CMD GPIO25_ SDC2_D0 GPIO28_ SDC2_D3 GPIO30_ SDC2_CLK GND GPIO26_ SDC2_D1 GPIO27_ SDC2_D2 PM_GPIO4 GPIO84 GND SDC1_CMD SDC1_DATA0 SDC1_DATA3 SDC1_CLK GPIO80_SDC1_DET_N GND SDC1_DATA2 SDC1_DATA1 GPIO21_ I2S_WS GPIO23_ I2S_DOUT GPIO22_ I2S_DIN GPIO24_ I2S_MCLK GND GPIO20_ I2S_CLK GPIO19_GSBI
PIN Signal 71 72 73 74 75 GPIO13_GSBI4_1 GPIO16_GSBI5_0 USB_ID GPIO12_GSBI4_0 GND Direction related to LTE-NAD Input Output Input Output Input Power 76 USB_VBUS Input 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 GPIO11_GSBI3_3 GPIO10_GSBI3_2 GPIO9_GSBI3_1 GPIO8_GSBI3_0 GPIO6_ UIM2_CLK GND GPIO2_ UIM1_CLK GPIO5_ UIM2_RST GPIO7_ UIM2_DATA GPIO4_ UIM2_DET GND HSIC_DATA GND HSIC_STROBE GND GPIO3_ UIM1_DATA GPIO1_ UIM1_RST GPIO78 GPIO79_ HSIC_RDY GPIO85 GPIO86_ GPS_EXT_LNA_EN GND VREG_USB
PIN Signal 113 114 115 116 117 118 119 120 121 GND GND PON HW-REV-RESISTOR PM_GPIO3 GND PM_MPP5 PM_MPP1 GND Direction related to LTE-NAD Input Power Input Power Input Output IN/OUT Input Power Input Input Input Power 122 GPIO69 Output 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 – 152 153 154 – 160 161 162 – 164 165 166 167 – 172 GPIO0_ UIM1_DET GPIO77 GPIO65 GPIO61 PON_N GND GPIO68 GPIO51 GPIO54 GND PM_MPP2 PM_GPIO2 PM_GPIO1 PM_GPIO6 GND GPIO73 GND GPIO48 GPI
Note: Pins should be grounded when not used in design. 3.4 Supply Voltage The external supply voltage is applied to LTE-NAD by 8 Pins on modules signal connectors. PINs 109, 110, 111, 112 for VMAIN PINs 107, 108, 113, 114 for the corresponding GND Please note that there are further main ground connection that should be connected to ensure proper NAD function.
Output Power Output Power LTE data call B3 LTE data call B7 LTE data call B20 3.6 Transmitter Tbd. 3.7 Receiver Tbd. 3.8 Environmental Specification 3.8.1 Temperature Range Range Operating temp. range Operating temp. range -20°C … +65°C -40°C … +85°C Storage temp. range -40°C … +85°C Note 1 3GPP spec. conform Operational Performance might slightly deviate from 3GPP spec.
4 Evaluation Kit For the NAD V1140-xxx, there is an evaluation board available. Features: - On board 12V DC power supply (alternatively 3,8V DC direct connected, unbuffered). - USB port type B - SIM card tray - 20 pin JTAG header for debugging - 2 UART ports connected to DB9 - CODEC supported by I2S and I2C interfaces Using the evaluation board with an external power supply By default the module can be supplied by a switching regulator at 12V DC input voltage or by the module VCC at 3.8V. 3.
Figure 2 Evaluation Kit for V1140-xxx. _______________________________________________________________________________________________________________ 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.
Figure 3 Power supply for Evaluation Kit for V1140-xxx. Figure 4 SIM card and USB interfaces for Evaluation Kit for V1140-xxx. _______________________________________________________________________________________________________________ Seite 18 peiker acustic GmbH & Co.
Figure 5 RF interfaces for Evaluation Kit for V1140-xxx. 5 AT Command interface The modules supports standard AT command as listed below. Commands are compliant to 3GPP TS 27.007 and TS 27.
Command Description AT+CLIP AT+CLIR AT+CCWA AT+CHLD AT+CUSD AT+CLCC AT+CPOL AT+CPAS AT+CFUN AT+CPIN AT+CSQ AT+CMER AT+CSIM AT+CRSM AT+CMEE AT+CGDCONT AT+CGEQREQ AT-CGATT AT+CGACT AT+CGPADDR AT+CGSMS ATE Calling line identification presentation Calling line identification restriction Call waiting Call related supplementary services Unstructured supplementary service data List current calls Preferred PLMN list Phone active status Set phone functionality Enter PIN Signal quality Mobile termination event rep
6 Safety Recommendations according to EN60950-1 This device must be supplied by a limited power source according to EN 60950-1. The clearance and creepage 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. _______________________________________________________________________________________________________________ Seite 21 peiker acustic GmbH & Co.
7 List of Acronyms 3GPP ADC ADN A-GPS 3 rd Generation Partnership Project Analog Digital Converter Abbreviated 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 M
8 Regulatory Certifications 8.1 USA (FCC) This device complies with Part 15 of the FCC rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) This device must accept any interference received, including interference that may cause undesired operation. 8.1.
8.3 OEM Responsibilities Antenna - The antenna gain, including cable loss, must not exceed 1,47dBd at 700 MHz & 850 MHz, 6dBi at 1700 MHz and 3.01dBi at 1900 MHz for satisfying RF exposure compliance. - The systems antenna(s) must be installed such that 20 cm is maintained between the antenna(s) and the body of the user or nearby persons. - This transmitter must not be co-located or operating in conjunction with any other antenna or transmitter.
- The V1140-103 module is labeled with its own IC ID Number. If the IC ID is not visible when the V1140-103 module is installed inside another device, then the host device must contain the IC ID number with the statement such as the following: "Contains Transmitter Module IC: 6588A-V1140103" or "Contains IC: 6588A-V1140103". - The V1140-105 module is labeled with its own IC ID Number.
