SIM7600NA,SIM7600NA miniPCIE_User Manual
Smart Machine Smart Decision Document Title SIM7600NA,SIM7600NA miniPCIE_user manual Version 1.00 Date 2020-1-7 Status Released Document Control ID SIM7600NA,SIM7600NA miniPCIE_user manual _V1.00 General Notes SIMCom offers this information as a service to its users to support the application and engineering efforts that use the products designed by SIMCom. The information provided is based on the requirements specifically from the users.
Smart Machine Smart Decision Ce matériel est complété par une exposition de rayonnements IC pour un environnement naturel. Ce matériel doit être installé et se faire avec une distance minimale de 20cm entre les radiateurs et les autresYour body shop.
Smart Machine Smart Decision antenna or transmitter. This modular must be installed and operated with a minimum distance of 20 cm between the radiator and user body. If the FCC identification number is not visible when the module is installed inside another device, then the outside of the device into which the module is installed must also display a label referring to the enclosed module.
Smart Machine Smart Decision Contents Contents .............................................................................................................................................5 Revision History ................................................................................................................................7 1 Introduction ................................................................................................................................8 1.1 Product Outline ........
Smart Machine Smart Decision 3.15 Flight Mode Control ........................................................................................................46 3.16 Other interface .................................................................................................................46 3.16.1 Sink Current Source ..................................................................................................46 3.16.2 ADC ..........................................................................
Smart Machine Smart Decision Revision History Data Version Description of change Author 2020-1-7 1.00 Original Xutao.Jiang Qiang.Zhang SIM7600NA_user manual _V1.
Smart Machine Smart Decision 1 Introduction This document describes the electronic specifications, RF specifications, interfaces, mechanical characteristics and testing results of the SIMCom MODULE. With the help of this document and other software application notes/user guides, users can understand and use MODULE to design and develop applications quickly. 1.1 Product Outline Aimed at the North American market, the MODULE support GSM, WCDMA, LTE-TDD and LTE-FDD.
Smart Machine Smart Decision ● GPIO ● ● ● ● ● ● ● ● ADC LDO Power Output Current Sink Source PCM Interface SPI Interface I2C Interface HSIC Interface SGMII Interface SIM7600NA_user manual _V1.
Smart Machine Smart Decision 1.3 Hardware Block Diagram The block diagram of the MODULE is shown in the figure below. Figure 1: MODULE block diagram SIM7600NA_user manual _V1.
Smart Machine Smart Decision 1.4 Functional Overview Table 2: General features Feature Implementation Power supply Single supply voltage 3.4~4.2V, Recommend supply voltage 3.8V Power saving Current in sleep mode : <5mA Radio frequency bands Please refer to the table 1 Transmitting power LTE power class: 3 (0.25W) Data Transmission Throughput LTE CAT 1: 10 Mbps(DL) 5 Mbps(UL) LTE CAT 4 :150 Mbps (DL) 50 Mbps (UL) Antenna LTE main antenna.
Smart Machine Smart Decision Physical characteristics Size:30*30*2.9m Weight:5.7 g Temperature range Normal operation temperature: -30°C to +80°C Extended operation temperature: -40°C to +85°C* Storage temperature -45°C to +90°C *Note: Module is able to make and receive voice calls, data calls, SMS and make GPRS/UMTS/HSPA+/LTE traffic in -40℃ ~ +85℃.
Smart Machine Smart Decision 2 Package Information 2.1 Pin Assignment Overview All functions of the MODULE will be provided through 135 pads that will be connected to the users’ platform. The following Figure is a high-level view of the pin assignment of the MODULE.
Smart Machine Smart Decision Table 3: Pin definition Pin No. Pin name Pin No.
Smart Machine Smart Decision 69 RI 70 DCD 71 TXD 72 DTR 73 PCM_OUT 74 PCM_IN 75 PCM_SYNC 76 PCM_CLK 77 GND 78 GND 79 GNSS_ANT 80 GND 81 GND 82 MAIN_ANT 83 COEX1●* 84 COEX2* 85 BOOT_CFG0●* 86 COEX3●* 87 GPIO77 88 RESERVED 89 RESERVED 90 RESERVED 91 RESERVED 92 RESERVED 93 GND 94 GPIO4 95 GPIO2 96 GPIO1 97 GPIO_54 98 GND 99 RESERVED 100 RESERVED 101 RESERVED 102 RESERVED 103 RESERVED 104 RESERVED 105 RESERVED 106 DBG_ RXD 107 RESERV
Smart Machine Smart Decision 2.2 Pin Description Table 4: IO parameters definition Pin type Description PI Power input PO Power output AI Analog input AIO Analog input/output I/O Bidirectional input /output DI Digital input DO Digital output DOH Digital output with high level DOL Digital output with low level PU Pull up PD Pull down Table 5: Pin description Pin name Pin No.
Smart Machine Smart Decision 0,131,13 2,133,13 4135 System Control DI,PU System power on/off control input, active low. The high voltage is 0.8V; 4 DI, PU System reset control input, active low. RESET has been pulled up to 1.8V via 40Kohm resistor internally.
Smart Machine Smart Decision USB_DP 13 AI, AO Positive line of the differential, bi-directional USB signal.
Smart Machine Smart Decision SDIO_DATA0 30 I/O SDIO data0 SDIO_DATA3 31 I/O SDIO data3 SDIO_CLK 32 DO SDIO clock HSIC_STROBE 35 I/O HSIC strobe wakeup HSIC_DATA 36 keep them open. HSIC interface I/O If use, please refer to document [27] Otherwise please keep them open. HSIC data PCM interface PCM_OUT 73 DO,PD PCM data output. PCM_IN 74 DI,PD PCM data input. PCM_SYNC 75 I/O,PD PCM data frame sync signal. PCM_CLK 76 I/O,PU PCM data bit clock.
Smart Machine Smart Decision COEX2* COEX3●* BOOT_CFG0●* FLIGHTMODE* 84 86 85 54 I/O RFsynchronizing between Wi-Fi and LTE. I/O RF synchronizing between Wi-Fi and LTE. DI,PD Boot configuration input. Module will be forced into USB download mode by connect 85 pin to VDD_1V8 during power up. DI,PU Flight Mode control input.
Smart Machine Smart Decision 2.3 Mechanical Information The following figure shows the package outline drawing of MODULE. Figure 3: Dimensions (Unit: mm) SIM7600NA_user manual _V1.
Smart Machine Smart Decision 2.4 Footprint Recommendation Figure 4: Footprint recommendation (Unit: mm) SIM7600NA_user manual _V1.
Smart Machine Smart Decision 3 Interface Application 3.1 Power Supply The power supply pins of MODULE include 4 pins (pin 62&63, pin 38&39) named VBAT. The 4 VBAT pads supply the power to RF and baseband circuits directly. On VBAT pads, the ripple current up to 2A typically, due to GSM/GPRS emission burst (every 4.615ms), may cause voltage drop. So the power supply for these pads must be able to provide sufficient current up to more than 2A in order to avoid the voltage drop is more than 300mV.
Smart Machine Smart Decision 3.1.1 Power Supply Design Guide Make sure that the voltage on the VBAT pins will never drop below 3.4V, even during a transmit burst, when current consumption may rise up to 2A. If the voltage drops below 3.4V, the RF performance may be affected. Note: If the power supply for VBAT pins can support up to 2A, more than 300uF capacitors are recommended .Otherwise users must use a total of 1000uF capacitors typically, in order to avoid of the voltage drop more than 300mV.
Smart Machine Smart Decision 3.1.2 Recommended Power Supply Circuit GND It is recommended that a switching mode power supply or a linear regulator power supply is used. It is important to make sure that all the components used in the power supply circuit can resist a peak current up to 2A. The following figure shows the linear regulator reference circuit with 5V input and 3.8V output.
Smart Machine Smart Decision 3.2 3.2.1 Power on/Power off/Reset Function Power on MODULE can be powered on by pulling the PWRKEY pin down to ground. The PWRKEY pin has been pulled up with a diode to 1.8V internally, so it does not need to be pulled up externally. It is strongly recommended to put a100nF capacitor, an ESD protection diode, close to the PWRKEY pin as it would strongly enhance the ESD performance of PWRKEY pin. Please refer to the following figure for the recommended reference circuit.
Smart Machine Smart Decision Table 8: Power on timing and electronic characteristic Symbol Parameter Min. Ty p. Max. Unit Ton The time of active low level impulse of PWRKEY pin to power on MODULE 100 500 - ms Ton(status) The time from power-on issue to STATUS pin output high level(indicating power up ready ) 15 16 - Ton(uart) The time from power-on issue to UART port ready 13 14 - s Ton(vdd_aux) The time from power-on issue to VDD_AUX ready 2.
Smart Machine Smart Decision Toff-on Ton Toff PWRKEY ( Input ) STATUS (Output) Toff(status) Toff(uart) Active UART Port Undefined Toff(usb) Active USB Port Undefined Figure 11: Power off timing sequence Table 9: Power off timing and electronic characteristic Symbol Parameter Toff Time value Unit Min. Typ. Max. The active low level time pulse on PWRKEY pin to power off MODULE -- 2.
Smart Machine Smart Decision Figure 12: Reference reset circuit Table 10: RESET pin electronic characteristic Symbol Description Min. Typ. Max. Unit Treset The active low level time impulse on RESET pin to reset MODULE 100 200 500 ms VIH Input high level voltage 1.17 1.8 2.1 V VIL Input low level voltage -0.3 0 0.8 V 3.3 UART Interface MODULE provides a 7-wire UART (universal asynchronous serial transmission) interface as DCE (Data Communication Equipment).
Smart Machine Smart Decision Figure 13: UART full modem Figure 14: UART null modem The MODULE UART is 1.8V voltage interface. If user’s UART application circuit is 3.3V voltage interface, the level shifter circuits should be used for voltage matching. The TXB0108RGYR provided by Texas Instruments is recommended. The following figure shows the voltage matching reference design. Figure 15: Reference circuit of level shift User can use another level shifter circuits as follow SIM7600NA_user manual _V1.
Smart Machine Smart Decision Figure 16: level matching circuit To comply with RS-232-C protocol, the RS-232-C level shifter chip should be used to connect MODULE to the RS-232-C interface, for example SP3238ECA, etc. Note1: User needs to use high speed transistors such as MMBT3904. Note2: MODULE supports the following baud rates: 300, 600, 1200, 2400, 4800, 9600, 19200, 38400, 57600, 115200, 230400, 460800, 921600, 3200000, 3686400, 4000000bps. The default band rate is 115200bps. 3.3.
Smart Machine Smart Decision Normally RI will be kept at a high level until a voice call, then it will output periodic rectangular wave with 5900ms low level and 100ms high level. It will output this kind of periodic rectangular wave until the call is answered or hung up. Figure 18 : RI behaviour(voice call) Note: For more details of AT commands about UART, please refer to document [1] and [22]. DTR pin can be used to wake MODULE from sleep. When MODULE enters sleep mode, pulling down DTR can wake MODULE.
Smart Machine Smart Decision Because of the high bit rate on USB bus, more attention should be paid to the influence of the junction capacitance of the ESD component on USB data lines. Typically, the capacitance should be less than 1pF. It is recommended to use an ESD protection component such as ESD9L5.0ST5G provided by On Semiconductor (www.onsemi.com ). D3 is suggested to select the diode with anti-ESD and voltage surge function, or user could add a TVS for surge clamping.
Smart Machine Smart Decision Full duplex rated to 1 Gbps Half/full duplex for 10/100 Mbps Can be connected to external Ethernet PHY like AR8031/AR8033(industrial 10/100/1000Mbps), BCM89820(automotive 10/100Mbps) Uses 8B10B encoding of data with effective baud data rate of 1 Gbps, data rate is always 1.25 Gbps (or DDR clock is always at 625 MHz) Main features of MDIO: Host mode only Dual voltage: 1.8 V or 2.85 V operation Default signal frequency: 6.
Smart Machine Smart Decision 3.6.2 Reference schematic with BCM89820 Figure21: Reference SGMII circuit with BCM89820 Note: The module SGMII function default closed. If user need, please contact SIMCom for more details or refer to document [28] SIM7600NA_user manual _V1.
Smart Machine Smart Decision 3.7 USIM Interface MODULE supports both 1.8V and 3.0V USIM Cards. Table 12: USIM electronic characteristic in 1.8V mode (USIM_VDD=1.8V) Symbol Parameter Min. Typ. Max. Unit USIM_ VDD LDO power output voltage 1.75 1.8 1.95 V VIH High-level input voltage 0.65*USIM_VDD - USIM_VDD +0.3 V VIL Low-level input voltage -0.3 0 0.35*USIM_VDD V VOH High-level output voltage USIM_VDD -0.45 - USIM_VDD V VOL Low-level output voltage 0 0 0.
Smart Machine Smart Decision Figure 202: USIM interface reference circuit Note: USIM_DATA has been pulled up with a 10KΩ resistor to USIM_VDD in MODULE. A 100nF capacitor on USIM_VDD is used to reduce interference. For more details of AT commands about USIM, please refer to document [1].USIM_CLK is very important signal, the rise time and fall time of USIM_CLK should be less than 40ns, otherwise the USIM card might not be initialized correctly.
Smart Machine Smart Decision SIM card circuit is susceptible, the interference may cause the SIM card failures or some other situations, so it is strongly recommended to follow these guidelines while designing: Make sure that the SIM card holder should be far away from the antenna while in PCB layout. SIM traces should keep away from RF lines, VBAT and high-speed signal lines. The traces should be as short as possible. Keep SIM holder’s GND connect to main ground directly.
Smart Machine Smart Decision Recommended USIM Card Holder It is recommended to use the 6-pin USIM socket such as C707 10M006 512 produced by Amphenol. User can visit http://www.amphenol.com for more information about the holder. Figure 224: Amphenol SIM card socket Table 14: Amphenol USIM socket pin description Pin C1 C2 C3 C5 C6 C7 Signal USIM_VDD USIM_RST USIM_CLK GND VPP USIM_DATA SIM7600NA_user manual _V1.00 Description USIM Card Power supply. USIM Card Reset. USIM Card Clock. Connect to GND.
Smart Machine Smart Decision 3.8 PCM Interface MODULE provides a PCM interface for external codec, which can be used in master mode with short sync and 16 bits linear format. Table 15: PCM format Characteristics Specification Line Interface Format Linear(Fixed) Data length 16bits(Fixed) PCM Clock/Sync Source Master Mode(Fixed) PCM Clock Rate 2048 KHz (Fixed) PCM Sync Format Short sync(Fixed) Data Ordering MSB Note: For more details about PCM AT commands, please refer to document [1]. 3.8.
Smart Machine Smart Decision Figure 257: Module to EXT codec timing Table 16: PCM timing parameters Parameter Description Min. Typ. Max. Unit T(sync) PCM_SYNC cycle time – 125 – μs T(synch) PCM_SYNC high level time – 488 – ns T(syncl) PCM_SYNC low level time – 124.
Smart Machine Smart Decision Figure 268: Audio codec reference circuit 3.9 SD Interface MODULE provides a 4-bit SD/MMC/eMMC interface with clock rate up to 200 MHz. When connected to a SD or MMC card, the voltage of SD interface is 1.8/2.85V, which is compatible with Secure Digital Physical Layer Specification version 3.0 and SDIO Card Specification version 3.0.It supports up to 128GB SD cards. When connected to a eMMC card, the interface voltage will be a single 1.
Smart Machine Smart Decision Users should provide 2.85V to power SD card system and the current should more than 350mA, which is showed below as VCC_SD. ESD/EMI components should be arranged beside SD card socket. Refer to the following application circuit. Figure29: SD reference circuit Users should provide 2.85V to power eMMC card system and 1.8V to power the SDIO_DATA/CMD/CLK signals. The source of 2.85V should be able to provide more than 500mA* which showed below as VCC_eMMC, as the source of 1.
Smart Machine Smart Decision related datasheet of eMMC which is used. The listed current of 500mA and 300mA are just for your reference. SD/MMC/eMMC card layout guide lines: ● Protect SD card signals from noisy signals (clocks, SMPS, etc.). ● Up to 200 MHz clock rate, 50 Ω nominal, ±10% trace impedance ● CLK to DATA/CMD length matching < 1 mm ● Total routing length < 50 mm ● Spacing to all other signals = 2x line width ● Bus capacitance < 10 pF 3.
Smart Machine Smart Decision 3.12 SPI Interface SIM7600NA provides a SPI interface as a master only. It provides a duplex, synchronous, serial communication link with peripheral devices. Its operation voltage is 1.8V, with clock rates up to 50 MHz Note:For more details of the AT commands about the SPI, please refer to document [1]. 3.13 Network status The NETLIGHT pin is used to control Network Status LED, its reference circuit is shown in the following figure.
Smart Machine Smart Decision 3.14 Flight Mode Control The FLIGHTMODE pin can be used to control MODULE to enter or exit the Flight mode. In Flight mode, the RF circuit is closed to prevent interference with other equipments and minimize current consumption. Bidirectional ESD protection component is suggested to add on FLIGHTMODE pin, its reference circuit is shown in the following figure.
Smart Machine Smart Decision ISINK is a ground-referenced current sink. The following figure shows its reference circuit. Figure34: ISINK reference circuit Note: The sinking current can be adjusted to meet the design requirement through the AT command “AT+ CLEDITST =<0>, ”.The “value” ranges from 0 to 8, on behalf of the current from 0mA to 40mA by 5mA step. 3.15.2 ADC MODULE has 2 dedicated ADC pins named ADC1 and ADC2.
Smart Machine Smart Decision Table 23: Electronic characteristic Symbol Description Min. Typ. Max. Unit VVDD_AUX Output voltage 1.7 2.85 3.05 V IO Output current - - 150 mA Note:For more details of AT commands about VDD_AUX, please refer to document [1]. SIM7600NA_user manual _V1.
Smart Machine Smart Decision 4 RF Specifications 4.1 GSM/UMTS/LTE RF Specifications Table 24: Conducted transmission power Frequency LTE-FDD B2 LTE-FDD B4 LTE-FDD B5 LTE-FDD B12 LTE-FDD B13 LTE-FDD B14 LTE-FDD B25 LTE-FDD B26 LTE-FDD B71 LTE-FDD B66 LTE-TDD B41 Power 23dBm +/-2.7dB 23dBm +/-2.7dB 23dBm +/-2.7dB 23dBm +/-2.7dB 23dBm +/-2.7dB 23dBm +/-2.7dB 23dBm +/-2.7dB 23dBm +/-2.7dB 23dBm +/-2.7dB 23dBm +/-2.7dB 23dBm +/-2.7dB Min.
Smart Machine Smart Decision Table 27: Conducted receive sensitivity Frequency LTE FDD/TDD Receive sensitivity(Typical) See table 28. Receive sensitivity(MAX) 3GPP Table 28: Reference sensitivity (QPSK) E-UTR 1.4 MHz 3 MHz 5 MHz 10 MHz 15 MHz 20 MHz Duplex A band Standard Standard Standard Standard Standard Standard Mode 2 -102.7 -99.7 -98 -95 -93.2 -92 FDD 4 -104.7 -101.7 -100 -97 -95.2 -94 FDD 5 -103.2 -100.2 -98 -95 FDD 12 -101.7 -98.
Smart Machine Smart Decision Figure35: Antenna matching circuit (MAIN_ANT) In above figure, the components R1, C1, C2 and R2 are used for antenna matching, the values of components can only be achieved after the antenna tuning and usually provided by antenna vendor. By default, the R1, R2 are 0Ω resistors, and the C1, C2 are reserved for tuning. The component D1 is a TVS for ESD protection, and it is optional for users according to application environment.
Smart Machine Smart Decision Table 30: Recommended TVS Package Part Number Vender 0201 LXES03AAA1-154 Murata 0402 LXES15AAA1-153 Murata Note:SIMCom suggests the LTE auxiliary antenna to be kept on, since there are many high bands in the designing of LTE-TDD, such as band38, band40 and band41. Because of the high insert loss of the RF cable and layout lines, the receiver sensitivity of these bands above will have risk to meet the authentication without the diversity antenna.
Smart Machine Smart Decision Figure 287: Active antenna circuit Figure 298: Passive antenna circuit (Default) In above figures, the components C1, L1 and L2 are used for antenna matching. Usually, the values of the components can only be achieved after antenna tuning and usually provided by antenna vendor. C2 is used for DC blocking. L3 is the matching component of the external LNA, and the value of L3 is determined by the LNA characteristic and PCB layout.
Smart Machine Smart Decision 5 Electrical Specifications 5.1 Absolute maximum ratings Absolute maximum rating for digital and analog pins of MODULE are listed in the following table: Table 31: Absolute maximum ratings Parameter Voltage at VBAT Voltage at USB_VBUS Voltage at digital pins (RESET,SPI,Keypad,GPIO,I2C,UART,PCM) Voltage at digital pins (SD,USIM) Voltage at PWRKEY 5.2 Min. -0.5 -0.5 Typ. - Max. 6.0 5.85 Unit V V -0.3 - 2.1 V -0.3 -0.3 - 3.05 1.8 V Min. 3.4 3.0 Typ. 3.8 5.0 Max.
Smart Machine Smart Decision *Note: These parameters are for digital interface pins, such as SPI, GPIOs (NETLIGHT, FLIGHTMODE, STATUS, USIM_DET, SD_DET), SDIO, I2C, UART, PCM, COEXn, and BOOT_CFG0. The operating temperature of MODULE is listed in the following table. Table 34: Operating temperature Parameter Normal operation temperature Min. -30 Typ. 25 Max.
Smart Machine Smart Decision USB port are still accessible. The power consumption in this mode is lower than normal mode. Flight mode AT command “AT+CFUN=4” or pulling down the FLIGHTMODE pin can be used to set the MODULE to flight mode without removing the power supply. In this mode, the RF part of the MODULE will not work, but the serial port and USB port are still accessible. The power consumption in this mode is lower than normal mode.
Smart Machine Smart Decision 5.4 Current Consumption The current consumption is listed in the table below. Table 36: Current consumption on VBAT Pins (VBAT=3.
Smart Machine Smart Decision the connectors which human body may touch, such as USIM card holder, audio jacks, switches, keys, etc. The following table shows the MODULE ESD measurement performance without any external ESD component. Table 37: The ESD performance measurement table (Temperature: 25℃, Humidity: 45%) Part Contact discharge Air discharge VBAT,GND TBD TBD Antenna port TBD TBD Other PADs TBD TBD SIM7600NA_user manual _V1.
Smart Machine Smart Decision 6 SMT Production Guide 6.1 Top and Bottom View of MODULE Figure 309: Top and bottom view of MODULE SIM7600NA_user manual _V1.
Smart Machine Smart Decision 6.2 Label Information Figure 40: Label information Table 38: The description of label information No. Description A LOGO B Module part number C Project name D Serial number E International mobile equipment identity 6.3 Typical SMT Reflow Profile SIMCom provides a typical soldering profile. Therefore the soldering profile shown below is only SIM7600NA_user manual _V1.
Smart Machine Smart Decision a generic recommendation and should be adjusted to the specific application and manufacturing constraints. Figure41: The ramp-soak-spike reflow profile of MODULE Note: For more details about secondary SMT, please refer to the document [21]. 6.4 Moisture Sensitivity Level (MSL) MODULE is qualified to Moisture Sensitivity Level (MSL) 3 in accordance with JEDEC J-STD-033.
Smart Machine Smart Decision 6.5 Stencil Foil Design Recommendation The recommended thickness of stencil foil is more than 0.15mm. Figure 42 : Stencil Foil SIM7600NA_user manual _V1.
Smart Machine Smart Decision 7 Packaging MODULE support tray packaging. Figure43: packaging diagram Module tray drawing: Figure 314: Tray drawing SIM7600NA_user manual _V1.
Smart Machine Smart Decision Table 40: Tray size Length(±3mm) Width(±3mm) Number 161.0 15 242.0 Small carton drawing: Figure 325: Small carton drawing Table 41: Small Carton size Length(±10mm) Width(±10mm) 270 180 Height(±10mm) Number 120 15*20=300 Big carton drawing: Figure 46: Big carton drawing Table 42: Big Carton size Length(±10mm) Width(±10mm) SIM7600NA_user manual _V1.
Smart Machine Smart Decision 380 280 280 300*4=1200 Appendix Ⅰ.
Smart Machine Smart Decision Specification of the Subscriber Identity Module – Mobile Equipment (SIM – ME) interface Digital cellular telecommunications system (Phase 2+); Alphabets and language-specific information Digital cellular telecommunications system (Phase 2) ; Mobile Station (MS) conformance specification; Part 1: Conformance specification [8] GSM 03.38 [9] GSM 11.10 [10] 3GPP TS 51.
Smart Machine Smart Decision [26] [27] [28] SIM7100_SIM7500_SIM7600 _Sleep Mode_Application Note_V1.xx 7600CE-LAN-Reference Design V1.0 SIM7600_Series_SGMII-Refe rence_Design_V1.00 SIM7600NA_user manual _V1.
Smart Machine Smart Decision Ⅲ.
Smart Machine Smart Decision RF RMS RTC SIM SMS SPI SMPS TDMA TE TX UART VSWR SM NC EDGE HSDPA HSUPA ZIF WCDMA VCTCXO USIM UMTS UART Radio Frequency Root Mean Square (value) Real Time Clock Subscriber Identification Module Short Message Service serial peripheral interface Switched-mode power supply Time Division Multiple Access Terminal Equipment, also referred to as DTE Transmit Direction Universal Asynchronous Receiver & Transmitter Voltage Standing Wave Ratio SIM phonebook Not connect Enhanced data rat
Smart Machine Smart Decision Ⅳ. Safety Caution Table 46: Safety Caution Marks Requirements When in a hospital or other health care facility, observe the restrictions about the use of mobiles. Switch the cellular terminal or mobile off, medical equipment may be sensitive and not operate normally due to RF energy interference. Switch off the cellular terminal or mobile before boarding an aircraft. Make sure it is switched off.
Smart Machine Smart Decision Contact us: Shanghai SIMCom Wireless Solutions Ltd. Add: SIM Technology Building, No.633, Jinzhong Road, Changning District, Shanghai P.R. China 200335 Tel:+86 21 3157 5100\3157 5200 URL:www.simcom.com SIM7600NA_user manual _V1.
Antenna requirements 1. Antenna List: Type: Dipole antenna with non-standard SMA connector(50ohm); Model: MF25D Antenna Gain: Band 2:1.87dBi,Band 4:3.12dBi, Band 5:0.91dBi, Band 12:0.95dBi, Band 13:2.23dBi, Band 14:2.18dBi, Band 25:1.87dBi, Band 26:1.40dBi, Band 41:3.20dBi, Band 66:3.12dBi, Band 71:-0.48dBi 2. The user must match the MF25D antenna with the non-standard SMA connector and cannot change the antenna.
FCC Statement 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. Any Changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment.
IC Warning This device complies with Industry Canada licence-exempt RSS standard(s). Operation is subject to the following two conditions: (1) This device may not cause interference, and (2) This device must accept any interference, including interference that may cause undesired operation of the device. The modular can be installed or integrated in mobile or fix devices only. This modular cannot be installed in any portable device.