User manual of 3G SEP EVDO module User manual of 3G SEP Module (EVDO version) Wistron NeWeb Corp.
User manual of 3G SEP EVDO module Revision History Version Change history Date Ver 0.1 Initial version 2012-10-15 Ver 0.2 Update EVDO 2013-1-16 Ver 0.3 Update IO spec 2013-1-22 Ver 0.4 Update FCC/IC warning statement 2013-5-16 Ver 0.5 Modify 6.
User manual of 3G SEP EVDO module Contents Contents........................................................................................................................ 3 1. introduction ............................................................................................................ 5 1.1 product concept ......................................................................................... 5 1.2 Terms and abbreviation .......................................................................
User manual of 3G SEP EVDO module 4.8 ADC........................................................................................................... 32 4.9 UART......................................................................................................... 33 4.10 SPI............................................................................................................. 33 4.11 SDIO.......................................................................................................... 34 4.
User manual of 3G SEP EVDO module 1. INTRODUCTION This document describes the specifications of the WNC 3G SEP M2M module used to connect the device application and the air interface. 1.1 PRODUCT CONCEPT The 3G SEP module provides CDMA connectivity for machine-to-machine (M2M) application over dual frequency bands BC0 and BC1. The markets of application include AMM (Automatic Metering Management), tracking system, and alarm, etc.
User manual of 3G SEP EVDO module CS DCS DSR DTR EDGE EGSM ENS EONS ESD ETS GNSS GSM GPRS GPS HSCSD HSDPA HSIC HSPA+ HSUPA IC IEEE I/O ISO ITU I2C I2S Coding Scheme Digital Communications System Data Set Ready Data Terminal Ready Enhanced Data Rate for GSM Evolution Extended GSM Enhanced network selection Enhanced operator name string Electrostatic Discharge European Telecommunication Standard Global Navigation Satellite System Global System for Mobile communication General Packet Radio Services Global Po
User manual of 3G SEP EVDO module PCM PCS PMIC Pulse Code Modulation Personal Communication System Power management integrated circuit PWM RAM RF RI RMS RTS RX SIM SMS TBC TBD TCXO Pulse Width Modulation Random Access Memory Radio Frequency Ring Indication Root Mean Square Ready To Send Reception Subscriber Identification Module Short Message Service To Be Confirmed To Be Defined Temperature-compensated crystal oscillator TX UART UIM Transmission Universal Asynchronous Receiver and Transmitter User id
User manual of 3G SEP EVDO module Mechanical & environment Temperature range Normal range: -30°C to +70°C (fully compliant) Extended range: -30°C to +85°C (fully functional) Storage: -40°C to +105°C Weight (g) 6 grams ESD ESD protection :+/- 2 kV Physical dimensions 34x34x3 mm Connection 157 pins LGA contact Power supply 3.4V to 4.2V range, 4.0V nominal Power consumption1 Off mode: 50 µA typical Registered idle mode: (cell power -55dBm/1.
User manual of 3G SEP EVDO module USB Supports USB High speed 480Mbps and full speed 12Mbps, with 3 logical Channels. UART interface with flow Up to 3.6 Mbit/s for data transmission (no auto-bauding) control Full flow control signals (+1.8V) are provided on a 94 pins LGA connector. A reference schematic to build the RS232 interface is provided in the UMC-3GSEP application note. Supported SIM cards 3V and 1.8V SIM cards SIM slot Signals for the management of the SIM card are provided on LGA pins.
User manual of 3G SEP EVDO module 2.
User manual of 3G SEP EVDO module Figure 1: 3G SEP Pin-out (Top view) Page 11
User manual of 3G SEP EVDO module 2.1 SIM 2.1.1 SIM card interface 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 and adapts to 3V and 1.8V SIM cards. To prevent SIM card damage, the power supply of the module must be turned off before any manipulation of the SIM card.
User manual of 3G SEP EVDO module 2.1.2 SIM CARD CONNECTION Figure 2: SIM connection Note: A reference schematic of the SIM card connection is given in the application note. 2.2 2.2.1 AUDIO Audio interface The 3G SEP M2M module features a PCM/I2S interface.
User manual of 3G SEP EVDO module Pulse-code modulation (PCM) audio ports: Fixed sampling rate at 8 kHz 8 bits A-Law or µ-Law 16 bits linear PCM PCM master mode Fixed PCM clock rate at 128 kHz or 2.048 MHz PCM slave mode Fixed PCM clock rate at 2.048 MHz only Signal Pin N° Description I2S/PCM_CLK 113 I2S/PCM clock signal I2S_WS/PCM_SYNC 49 I2S word select/ PCM sync signal I2S/PCM_RX 115 I2S/PCM data input I2S/PCM_TX 50 I2S/PCM data output I2S_MCLK 114 I2S master clock 2.2.
User manua al of 3G SEP EVDO moduule Software download: up to 1 M Mbit/s 2-pin n UART2 fo or PLC Sig gnal Pin P N° D Description (defined in n Module’ss direction)) UA ART2_TX 120 U UART Transmit UA ART2_RX 57 U UART Rece eive 2-pin n UART3 fo or Meter In nterface Sig gnal Pin P N° D Description (defined in n Module’ss direction)) UA ART3_TX 58 U UART Transmit UA ART3_RX 122 U UART Rece eive 2.2..4 UAR RT CONNEC CTION Figure 4 4: UART co onnection 2.2..
User manual of 3G SEP EVDO module If the USB feature is not used in the customers design, it is, however, strongly recommended to leave this interface accessible through test points for debug purposes. Signal Pin N° Description USB_DP 60 USB Data Positive USB_DM 124 USB Data Negative 2.2.6 I2C Interface I2C pins use GPIOs configured as open-drain outputs; the pull-up resistor is provided by the slave. Two-wire bus for inter-IC communications supporting any IC fabrication process.
User manua al of 3G SEP EVDO moduule Sig gnal Pin P N° D Description (defined in n Module’ss direction)) SM MPS3 29 JT TAG VDD JT TAG_RTCK K 30 JT TAG return n clock JT TAG_SRST T_N 96 JT TAG reset for debug JT TAG_TCK 93 JT TAG clock k input JT TAG_TDI 94 JT TAG data input JT TAG_TDO 31 JT TAG data output JT TAG_TMS 95 JT TAG mode e select inp put JT TAG_TRST T_N 32 JT TAG reset 2.2..
User manual of 3G SEP EVDO module 2.2.9 Secure digital controller(sdc) ports The MDM IC provides up to two SD interfaces, which provide the following features or functions: Up to 25 MB/s data rate 1.8 V / 2.95 V dual-voltage operation on SDC1; Interface with SD/MMC memory cards up to 2 TB 10k pullup resistor on command pin; placeholder pullups are recommended on the data lines also.
User manual of 3G SEP EVDO module through appropriate AT commands and they can be configured as input or output: 2.5 RESET One reset input pin is available to reset the module in case of undesirable behavior and internal pull up 1.8V with 40K ohm. Signal Pin N° PERST_N 97 Description Low level active input signal to reset the module 2.6 ADC ADC input pin is available to measure an external analog voltage through dedicated AT commands.
User manual of 3G SEP EVDO module Signal Pin N° VPH_PWR GND 9,10, 37,38,102,103 Description Pin9/10 (for RF power) Pin37/38/102/103 (for Baseband power) 5,8,11,12,14,15,20,22,2 Ground pins 5,28,33,36,40,45,51,55, 61,69,72-157 2.8 POWER MANAGEMENT 2.9 SLEEP MODES There are two kinds of sleep modes, the “off mode” and “stand-by” mode as described below: 2.9.
User manual of 3G SEP EVDO module awakened with any character received on the UART. However, to be sure to awaken the module, the “0x00” character must be sent. The main interest of the AT+KSLEEP=0 mode is to be able to forbid the sleep mode from using the DTR signal. AT+KSLEEP=2 In this mode the sleep state is never authorized in any DTR state. Detailed descriptions of these modes are given in. 2.9.3 Power consumption The power supply input of ranges from 3.4V to 4.2V and 4V is nominal.
User manual of 3G SEP EVDO module 2.10 RTC FUNCUTION One reset input pin is available to reset the module in case of undesirable behavior and internal pull up 1.8V with 40K ohm.
User manual of 3G SEP EVDO module 3. PINOUT 3.1 I/O CONNECTOR PIN ASSIGNMENTS Pin number Category 3G SEP pin definitions MDM9615 pad name PM8018 pad name Pad type 104: VDD_S1 4V/3A 9 RF_VPH_PWR1 10 RF_VPH_PWR2 4V/3A 37 4V/3A 38 VPH_PWR BB_VPH_PWR1 (4V / 3A) BB_VPH_PWR2 102 BB_VPH_PWR3 4V/3A 103 BB_VPH_PWR4 4V/3A 39 3V Power for peripheral (3.075V / 300mA) 4V/3A LDO4 84: VREG_L4 3.075V / 0.
User manual of 3G SEP EVDO module BH-PD, /INT BH-PD, /INT 44 SDC2_DATA2 AA22: GPIO_27 106 SDC2_DATA3 AC21: GPIO_28 105 WLAN_PWR_DO WN Y3: GPIO_72 B-PD 41 SDC2_GPIO W3: GPIO_73 B-PD 83 CAPGOOD M5: GPIO_59 BH-PD, /INT RAD_DC_ON R2: GPIO_60 B-PD PLC_DC_ON N1: GPIO_61 B-PD EN_CHG AA1: GPIO_32 B-PD 19 POWER_FAIL V5: GPIO_45 BH-PD, /INT 62 UART1_TX B7: GPIO_11 UART1_RX A7: GPIO_10 UART1_CTS A6: GPIO_9 B-PU UART1_RFR B6: GPIO_8 B-PD ZB_RESET J5: GPIO_67 B-PD 1 ZB_PA5
User manual of 3G SEP EVDO module (1.8V) 53 I2C_SDA B9: GPIO_13 B-PD I2C_SCL C8: GPIO_12 B-PU I2C_RESET M3: GPIO_82 I2C_INT J3:GPIO_84 118 TILT_INT J1: GPIO_80 55 USB_HS_ID F9: USB_HS_ID 54 52 117 I2C for Accelerome ter or LCM (1.
User manual of 3G SEP EVDO module 67 ISM_CC1190_HG M L3: GPIO_65 27 UIM1_DATA E1: GPIO_3 B-PD UIM for 90 SIM Card Socket (1.8V or 2.85V ) UIM1_CLK C3: GPIO_2 UIM1_RESET F3: GPIO_1 LDO6 17: VREG_L6 97 Power reset (1.8V) PERST_N 16: RESIN_N 17 Heater (1.8V) HTR_ON 50:GPIO_03 26 91 34 99 35 ADC_IN POWER_DETECT Scaling 1 1 POWER_DETECT (0.1 to 2 1.7V) Scaling 1/3 XO_THERM (0.3 to VPH_PWR) 24 88 87 LEDs (1.
User manual of 3G SEP EVDO module I2S/PCM_RX B13: GPIO_22 BH-PU, /INT 49 I2S_WS/PCM_SY NC E13: GPIO_21 B-PD 113 I2S/PCM_CLK C12: GPIO_20 BH-PD, /INT 115 Alarm (1.
User manual of 3G SEP EVDO module 77 GND 78 GND 79 GND 80 GND 84 GND 85 GND 86 GND 89 GND 92 GND 98 GND 101 GND 104 GND 109 GND 116 GND 119 GND 123 GND 125 GND 129 GND 130 GND 131 GND 132 GND 133 GND 134 GND 135 GND 136 GND 137 GND 138 GND Page 28
User manual of 3G SEP EVDO module 139 GND 140 GND 141 GND 142 GND 143 GND 144 GND 145 GND 146 GND 147 GND 148 GND 149 GND 150 GND 151 GND 152 GND 153 GND 154 GND 155 GND 156 GND 157 GND 13 RF_MAIN 16 21 RF RF_DRX RF_GPS Page 29
User manual of 3G SEP EVDO module 4. ELECTRICAL SPECIFICATIONS Five system operating states are defined: NO SUPPLY: No power voltage is present. OFF: Main power voltage is present. ACTIVE: Main power voltage is present Internal power supplies are on. SLEEP: Main power voltage is present Internal power supplies are in the low power mode. If not specified, all electrical values are given for the active state at VPH_PWR=4.0V and an operating temperature of 25°C. 4.
User manual of 3G SEP EVDO module 4.3 VSIM Parameter Output Voltage(V) Min. Typ. 2.7 3 Max Remarks . 3.15 The appropriate output voltage is auto detected and selected by software. 1.65 1.80 1.95 Output Current (mA) - - 150 Line Regulation (mV/V) - - 50 Power-up Setting Time (us) - 10 - IOUT = MAX from power down 4.4 DIGITAL INTERFACE The digital interface has the following characteristics, which includes UART, PCM/I2S,I2C, GPIOs, SPI and SDIO. Parameter Min. Typ. Max.
User manual of 3G SEP EVDO module Input Voltage-Low (V) -0.3 0 0.3 Input Voltage-High(V) 1.2 1.8 2.1 Power up Period (ms) from RESET falling edge 20 - - 4.6 SIM Signal VL (V) Min. SIM_RST VH (V) Max. Min. Max. Fully compliant to the GSM11.11 and ISO/IEC 7816-3 standards SIM_CLK SIM_DATA I2C INTERFACE I2C HAS THE FOLLOWING CHARACTERISTICS: Applicable standard Feature exceptions I2C Specification, version 2.
User manual of 3G SEP EVDO module pins/function MPP_XX (selectable) 0.1 to 1.7 1 0.1 to 1.7 MPP_XX (selectable) 0.3 to VPH_PWR 1/3 0.1 to 1.7 4.9 UART TX, RX, CTS, and RFR have the following characteristics: Signal VL (V) VH (V) Min Max Min Max UART_TX -0.3 0.4 1.5 2.1 UART_RX -0.3 0.4 1.5 2.1 UART_RFR -0.3 0.4 1.5 2.1 UART_CTS -0.3 0.4 1.5 2.1 4.10 SPI The SPI allows duplex (or half-duplex) and synchronous serial communication between a master and a slave.
User manual of 3G SEP EVDO module t(mov) Master output data -5 5 ns uncertainty t(mis) Master input setup 0 3 ns t(moh) Master output hold 0 3 ns t(tse) Tri-state enable -5 5 ns t(tsd) Tri-state disable -5 5 ns Figure 9: SPI in the slave mode Parameter Comments Minimum Maximum Unit 1/T SPI clock frequency - 26 MHz t(ch) Clock high 0.45xT 0.55xT ns t(cl) Clock low 0.45xT 0.55xT ns Slave output data 0 15.8 ns t(sov) uncertainty t(sis) Slave input setup 1.
User manual of 3G SEP EVDO module Figure 10: SDIO timing Single data rate (SDR) 1 Parameter Comments Minimum Maximum Unit t(chrd) Command hold 2.5 ns t(csurd) Command setup 6.0 ns t(dhrd) data hold 2.5 ns t(dsurd) Data setup 5.0 ns t(pddwr) Propagation delay on data -7 3 ns -7 3 ns Minimum Maximum write t(pdcwr) Propagation delay on command write Double data rate (DDR) 2 Parameter Comments Unit t(chrd) Command hold 1.5 ns t(csurd) Command setup 12.
User manual of 3G SEP EVDO module t(pdcwr) Propagation delay on -10.9 5.7 ns command write 4.12 HIGH-SPEED INTER-CHIP (HSIC) INTERFACE High-Speed Inter-Chip USB Electrical Specification, version 1.0 (a supplement to the USB 2.0 specification, 4.13 DIGITAL AUDIO THE AUDIO OUTPUTS CONTAIN THE FOLLOWING CHARACTERISTICS: Parameter Min Typ Max Maximum input range 1.6 1.8V 2.1 Maximum output range 1.6 1.8V 2.1 4.14.
User manual of 3G SEP EVDO module Parameter Condition Min Typ Max Unit Clock period I2S requirement: min T = 293 293 326 359 ns t(hc) Clock high I2S requirement: min > 0.35T 120 ns t(lc) Clock low I2S requirement: min > 0.35T 120 ns t(dtr) Delay I2S requirement: max < 0.
User manual of 3G SEP EVDO module Figure 14: PCM_CODEC to MDM timing Figure 15: MDM to PCM_CODEC timing Parameter Condition Mi n Typ Max Unit t(sync) PCM_SYNC cycle time - 125 - us t(synca) PCM_SYNC asserted time - 488 - ns t(syncd) PCM_SYNC de-asserted time - 124.
User manual of 3G SEP EVDO module t(pdout) t(zdout) Delay from PCM_CLK rising to PCM_DOUT valid Delay from PCM_CLK falling to - - 60 ns - - 60 ns Min Typ Max Unit - 125 - us 62.4 62.5 - us PCM_DOUT HIGH-Z 4.14.2.
User manual of 3G SEP EVDO module t(auxsyncd) AUX_PCM_SYNC de-asserted time 62.4 62.5 - us t(auxclk) AUX_PCM_CLK cycle time - 7.8 - us t(auxclkh) AUX_PCM_CLK high time 3.8 3.9 - us t(auxclkl) AUX_PCM_CLK low time AUX_PCM_SYNC setup time to 3.8 3.9 - us 1.95 - - ns 1.
User manual of 3G SEP EVDO module 5. ENVIRONMENTAL SPECIFICATIONS Min. Max. Ambient temperature Normal range -20°C +70°C Ambient temperature Extended range -30°C +85°C Storage temperature -40°C +105°C Long damp heat Tested at +60°C, 95% RH during a 504 hour Operating conditions period Short damp heat Storage and transportation conditions Tested at +40°C, 95% RH during a 96 hour period Parameter 5.
User manual of 3G SEP EVDO module 5.1.2 Typical transmission values at normal temperature range Typical transmission values is as below Typ. 3GPP2 C.S0033 min. standard BC0 class III 24dBm +/- 1dB ERP 0.2 W BC1 class II 24dBm +/- 1dB EIRP 0.2 W Frequency band 5.2 EXTENDED TEMPERATURE RANGE 5.2.1 Typical Cellular sensitivity at extended temperature range Frequency band Temperature (°C) Typical sensitivity (dBm) BC0 -30 +85 3GPP2 C.S0033 min. standard (TBD) (TBD) < -105.
User manual of 3G SEP EVDO module 6. FCC WARNING STATEMENT 6.1 GENERAL This manual is limited to OEM/Integrators installation only. OEM integrators are responsible for ensuring that the end-user has no manual instructions to remove or install module. 6.2 END PRODUCT LABELING (FCC) When the module is installed in the host device, the FCC ID label must be visible through a window on the final device or it must be visible when an access panel, door or cover is easily re-moved.
User manual of 3G SEP EVDO module cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures: –Reorient or relocate the receiving antenna.
