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Related Manuals for SIM Tech SIMCom SIM5360
Summary of Contents for SIM Tech SIMCom SIM5360
- Page 1 SIM5360_Hardware Design_V1.06...
- Page 2 Smart Machine Smart Decision Document Title SIM5360 Hardware Design Version 1.06 Date 2016-11-17 Status Release Document Control ID SIM5360_Hardware Design_V1.06 General Notes SIMCom offers this information as a service to its customers, to support application and engineering efforts that use the products designed by SIMCom. The information provided is based upon requirements specifically provided to SIMCom by the customers.
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Page 3: Table Of Contents
Smart Machine Smart Decision Contents Revision History ............................9 Introduction ............................10 Product Outline ..........................10 Hardware Interface Overview ......................11 Hardware Diagram .......................... 11 Functional Overview........................12 Package Information .......................... 13 Pin Configuration ........................... 13 Pin description ..........................15 Package Dimensions ........................ - Page 4 Smart Machine Smart Decision 3.10 USB Interface ..........................40 3.10.1 Application Guide ....................... 40 3.11 SPI Interface ..........................41 3.11.1 Pin Description ........................41 3.12 GPIO Interface ........................... 41 3.12.1 Pin Description ........................41 3.12.2 Application Guide ....................... 42 3.13 PCM Interface ..........................
- Page 5 Smart Machine Smart Decision Table Index Table 1: SIM5360 series frequency bands........................10 Table 2: General Feature ..............................12 Table 3: Pin definition ..............................14 Table 4: IO Parameters Definition ..........................15 Table 5: Pin description ..............................15 Table 6: Pin description ..............................21 Table 7: Recommended zener diode models ........................
- Page 6 Smart Machine Smart Decision Table 42: Recommended operating ratings ........................59 Table 43: Operating temperature ............................. 59 Table 44: Operating Modes Overview ..........................60 Table 45: Current consumption ............................61 Table 46: The ESD performance measurement table (Temperature: 25℃, Humidity: 45%) .......... 63 Table 47: Moisture sensitivity level and floor life ......................
- Page 7 Smart Machine Smart Decision Figure Index Figure 1: SIM5360 functional architecture ........................11 Figure 2: Pin view ................................. 13 Figure 3: Top dimensions (Unit: mm) ..........................18 Figure 4: Side dimensions (Unit: mm) ..........................19 Figure 5: Bottom dimensions (Unit: mm) ........................19 Figure 6: Footprint recommendation (Unit: mm) ......................
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Page 8: Sim5360_Hardware Design_V1.06
Smart Machine Smart Decision Figure 43: The ramp-soak-spike reflow profile of SIM5360 ..................65 Figure 44: Reference design ............................67 SIM5360_Hardware Design_V1.06 2016-11-17... -
Page 9: Revision History
Smart Machine Smart Decision Revision History Data Version Description of change Author 2014-02-28 1.01 Original Libing 2014-04-18 1.02 Libing Add UART2 description Modify pin names of SIM5360 Update Table 2 2014-07-28 1.03 Libing Update Figure 2 Update Figure 43 Libing 2015-03-24 1.04 Add table 29 of GNSS Technical specification... -
Page 10: Introduction
Introduction This document describes electronic specifications, RF specifications, function interface, mechanical characteristic and testing conclusions of the SIMCom SIM5360 module. With the help of this document and other SIM5360 software application notes, user guides, users can quickly understand and use SIM5360 module to design and develop applications quickly. -
Page 11: Hardware Interface Overview
Smart Machine Smart Decision Hardware Interface Overview Sub-interfaces are described in detail in the next chapter, which includes: Power Supply ● USB Interface ● UART Interface ● SD card Interfaces ● USIM Interface ● GPIO ● ● LDO Power Output ●... -
Page 12: Functional Overview
Smart Machine Smart Decision Functional Overview Table 2: General Feature Feature Implementation Power supply Single supply voltage 3.4~4.2V Dual-mode UMTS/HSPA+/EDGE/GPRS operation ● GPRS Class B, multislot class 12 operation, Supports coding scheme: ● CS1-4 EDGE multislot class 12 operation, Supports coding schemes ●... -
Page 13: Package Information
Smart Machine Smart Decision Normal operation temperature: -30°C to +80°C ● Temperature range Extended operation temperature: -40°C to +85°C ● Storage temperature -45°C to +90°C ● Package Information Pin Configuration All hardware interfaces which connect SIM5360 to customers’ application platform are through 82 pins pads (Metal half hole). -
Page 14: Table 3: Pin Definition
Smart Machine Smart Decision Table 3: Pin definition Pin No. Define Pin No. Define PWRKEY RESET SPI_CLK UART2_RXD UART2_TXD SPI_CS USB_VBUS USB_DN USB_DP VDD_1V8 RESERVED USIM_DATA USIM_RST USIM_CLK USIM_VDD SD_CMD SD_DATA0 SD_DATA1 SD_DATA2 SD_DATA3 SD_CLK KBC1 KBC0 KBR0 KBR2 KBC2 KBC3 KBR1 KBR4... -
Page 15: Pin Description
Smart Machine Smart Decision PCM_OUT PCM_IN PCM_SYNC PCM_CLK GNSS_ANT AUX_ANT Pin description Table 4: IO Parameters Definition Pin Type Description Power input Power output Bidirectional input / output Digital input Digital output Analog input Table 5: Pin description Pin name Pin No. - Page 16 Smart Machine Smart Decision Power on/off PWRKEY should be pulled low PWRKEY at least 180ms to power on or 500ms to power off the module. SD interface SD_CMD SDIO command SD_DATA0 SDIO data SD_DATA1 SDIO data If it is unused, keep open.
- Page 17 Smart Machine Smart Decision I2C interface None pulled up I2C clock output resistors in the module. Pulled up with a 2.2kR resistor to 1.8V externally. I2C data If it is unused, keep open. Keypad interface KBR0 Bit 0 drive to the pad matrix KBR1 Bit 1 drive to the pad matrix KBR2...
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Page 18: Package Dimensions
Smart Machine Smart Decision be used as wake/interrupt signal to module from host. GPIO44 General input/output PIN. GPIO42 General input/output PIN. RF interface MAIN _ANT MAIN ANT soldering pad GNSS_ANT GNSS ANT soldering pad AUX_ANT Diversity ANT soldering pad Other interface RESET System reset in, active low. -
Page 19: Figure 4: Side Dimensions (Unit: Mm)
Smart Machine Smart Decision Figure 4: Side dimensions (Unit: mm) Figure 5: Bottom dimensions (Unit: mm) SIM5360_Hardware Design_V1.06 2016-11-17... -
Page 20: Footprint Recommendation
Smart Machine Smart Decision Footprint Recommendation Figure 6: Footprint recommendation (Unit: mm) SIM5360_Hardware Design_V1.06 2016-11-17... -
Page 21: Application Interface Specification
Smart Machine Smart Decision Application Interface Specification Power Supply The power supply pins of SIM5360 include four VBAT pins (pin 62&63, pin 38&39). VBAT directly supplies the power to RF circuit and baseband circuit. All four VBAT pins of SIM5360 must be used together. -
Page 22: Table 7: Recommended Zener Diode Models
Smart Machine Smart Decision For the consideration of RF performance and system stability, some multi-layer ceramic chip (MLCC) capacitors (0.1/1uF) need to be used for EMC because of their low ESR in high frequencies. Note that capacitors should be put beside VBAT pins as close as possible. Also User should minimize the PCB trace impedance from the power supply to the VBAT pins through widening the trace to 80 mil or more on the board. -
Page 23: Figure 9: Reference Circuit Of The Ldo Power Supply
Smart Machine Smart Decision U101 MIC29302 DC INPUT VBAT Vout C101 C102 R101 On/Off C103 R103 100K C104 100uF 470R PWR_CTRL 330uF 100nF R102 Figure 9: Reference circuit of the LDO power supply If there is a big difference between the input voltage and the desired output (VBAT), a switching converter power will be preferable because of its better efficiency, especially at the high current situation. -
Page 24: Rtc Backup
Smart Machine Smart Decision 3.1.3 RTC Backup The module uses RTC (Real Time Clock) to update and maintain inherent time at no VBAT power supply status. The RTC power supply of module can be provided by an external capacitor or a battery (non-chargeable or rechargeable) through the VRTC. -
Page 25: Reset Function
Smart Machine Smart Decision Coin-type rechargeable battery is recommended, such as ML414H-IV01E form Seiko can be used. Note: The VRTC can be disabled, jus disconnect it in application circuit. Reset Function SIM5360 also have a RESET pin (PIN4) to reset the module. This function is used as an emergency reset only when AT command “AT+CPOF”... -
Page 26: Sleep Mode Design Guide
Smart Machine Smart Decision Sleep mode Design guide Using USB interface ● SIM5360 USB interface is connected with a host CPU. SIM5360 could enter sleep mode when the host CPU supports USB suspend mode, otherwise it could not enter sleep mode. If host CPU don’t support USB suspend mode, the SIM5360 module can enter sleep mode by cutting off USB_VBUS line. -
Page 27: Power On/Off Time Sequence
Smart Machine Smart Decision AT+CFUN=1: Full functionality (Default) ● AT+CFUN=4: Disable RF function of the module (Flight mode) ● Table 8: The Current Consumption of Minimum Functionality Mode (BS-PA-MFRMS=5) <fun> Current consumption(mA) (sleep mode) If SIM5360 has been set to minimum functionality mode, the module will firstly enter sleep mode, then the RF function and SIM card function will be closed. -
Page 28: Table 9: Power On Timing
Smart Machine Smart Decision 1.8V 200K Power PWRKEY On / off logic 4.7K Turn on / off MODULE impulse V IH > 1.6V VBAT V IL <0.3V PWRKEY (Input) Tpd+ NETLIGHT/GPIO1 (Output) Tpw+ VDD_EXT (Output) Tuart Active Undefined UART Port Tusb Active Undefined... -
Page 29: Power Off Sequence
Smart Machine Smart Decision Before designing, please refer to Document [27] for more detail. 3.4.2 Power off Sequence The following methods can be used to power off SIM5360. These procedures will make module disconnect from the network and allow the software to enter a safe state, and then save data before completely powering the module off. -
Page 30: Uart Interface
Smart Machine Smart Decision Tpw- The time to indicate the module power off completely Tuart The time to disable UART Tusb The time to disable USB Trestart The time to power on again after Tpw- User can also use the AT command “ AT+CPOF ” to power down the module. After that, the AT commands cannot be executed any longer. -
Page 31: Pin Description
Smart Machine Smart Decision HOST ( DTE) MODULE ( DCE) UART1 UART Wake up host RING Interrupt HOST ( DTE) MODULE ( DCE) UART2_TXD UART2 UART UART2_RXD Figure 18: Null modem (UART1 and UART2) 3.5.1 Pin Description Table 11: Pin description Pin type Pin name Pin No. -
Page 32: Application Guide
Smart Machine Smart Decision Table 12: Logic level Symbol Parameter Unit High-level input voltage 1.26 Low-level input voltage -0.3 0.63 High-level output voltage 1.35 Low-level output voltage 0.45 3.5.2 Application Guide If UART port is used in Null Modem, the pin “RI” can be used as an interrupt signal to HOST. Normally it will keep high logic level until certain condition such as receiving SMS, voice call (CSD, video) or URC reporting, then “RI”... -
Page 33: Sd/Mmc Interface
Smart Machine Smart Decision The SIM5360 UART is 1.8V interface. A level shifter should be used if user’s application is equipped with a 3.3V UART interface. The level shifter TXB0108RGYR provided by Texas Instruments is recommended. The reference design of the TXB0108RGYR is in the following figures. VDD_1V8 or 3.3V External 1V8... -
Page 34: Design Guide
Smart Machine Smart Decision SD_DATA2 SD card data2 SD_DATA3 SD card data3 SD card clock SD_CLK SD card command SD_CMD SD card power VDD_EXT Table 14: Electronic characteristic Symbol Parameter Unit 2.71 2.85 2.99 VDD_EXT LDO power output High-level input voltage 0.65·VDD_EXT VDD_EXT+0.3 Low-level input voltage... -
Page 35: Pin Description
Smart Machine Smart Decision 3.7.1 Pin description Table 15: Pin description Pin name Description USIM_CLK USIM Card Clock USIM_RST USIM Card Reset USIM Card data I/O, which has been pulled up with a 22kR resistor to USIM_DATA USIM_VDD in module. Do not pull up or pull down in users’ application circuit. -
Page 36: Recommend Components
Smart Machine Smart Decision 33pF 220nF SIM CARD USIM_VDD USIM_RST 22 ohm MODULE USIM_CLK 22 ohm C707 10M006 512 USIM_DATA 22 ohm Figure 23: USIM interface reference circuit Note: USIM_DATA has been pulled up with a 15kohm resistor to USIM_VDD in module. A 220nF shut capacitor on USIM_VDD is used to reduce interference. -
Page 37: I2C Interface
Smart Machine Smart Decision Table 17: Amphenol USIM socket pin description Signal Description SIM Card Power supply, it can identify automatically the SIM Card USIM_VDD power mode,one is 3.0V±10%, another is 1.8V±10%. USIM_RST SIM Card Reset. USIM_CLK SIM Card Clock. Connect to GND. -
Page 38: Keypad Interface
Smart Machine Smart Decision Keypad Interface SIM5360 module provides a keypad interface that supports five sense lines, or columns, and five keypad rows. The interface generates an interrupt when any key is pressed. Its operation voltage is 1.8V. 3.9.1 Pin Description Table 19: Pin description Pin name Pin No. -
Page 39: Table 20: Keypad Multiplexing Function
Smart Machine Smart Decision KBC0 KBC1 KBC2 KBC3 KBC4 KBR0 Module KBR1 KBR2 KBR3 KBR4 Figure 25: Reference circuit If these pins are configured for GPIOs, the sequence is listed in the following table. Table 20: Keypad multiplexing function Pin name Pin number Mode 0(default) Mode 1... -
Page 40: Usb Interface
Smart Machine Smart Decision 3.10 USB Interface SIM5360 module contains a USB interface. This interface is compliant with the USB2.0 specification. The USB2.0 specification requires hosts such as the computer to support all three USB speeds, namely low-speed (1.5Mbps), full-speed (12Mbps) and high-speed (480Mbps). USB charging and USB-OTG is not supported. -
Page 41: Spi Interface
Smart Machine Smart Decision 3.11 SPI Interface SPI interface of SIM5360 is master only. It provides a duplex, synchronous, serial communication link with peripheral devices. Its operation voltage is 1.8V, with clock rates up to 26 MHz. 3.11.1 Pin Description Table 22: Pin description Pin name Pin No. -
Page 42: Application Guide
Smart Machine Smart Decision If it is unused, left open. Output PIN as operating status indicating of module. H: Power on L: Power off GPIO40 If it is unused, left open. General input/output PIN. It can be used as GPIO41 wake/interrupt signal to host from module If it is unused, left open. -
Page 43: Table 26: Led Status
Smart Machine Smart Decision VBAT Module NETLIGHT 4.7K /GPIO1 Figure 27: Application circuit Note: The value of resistor Rx depends on LED characteristic. Table 26: LED status LED Status Module Status Always On Searching Network/Call Connect 200ms ON, 200ms OFF Data Transmit 800ms ON, 800ms OFF Registered network... -
Page 44: Pcm Interface
Smart Machine Smart Decision Table 27: Control status GPIO4 Status Module operation Low Level Flight Mode: RF is closed. High Level Normal Mode: RF is working. Note 1. For SIM5360, GPIO0, GPIO2, GPIO3 and GPIO5 have multiplex function, user can use them :... -
Page 45: Signal Description
Smart Machine Smart Decision Symbol Parameter Unit High-level input voltage 1.26 Low-level input voltage -0.3 0.63 High-level output voltage 1.35 Low-level output voltage 0.45 3.13.2 Signal Description The default PCM interface in SIM5360 is the auxiliary PCM interface. The data changes on the high level of PCM_CLK and is sampled at the falling edge of PCM_CLK in one period. -
Page 46: Table 30: Timing Parameters
Smart Machine Smart Decision Figure 30: EXT CODEC to MODULE timing Figure 31: MODULE to EXT CODEC timing Table 30: Timing parameters Parameter Description Unit T(auxsync) AUX_PCM_SYNC cycle time – μs T(auxsynch) AUX_PCM_SYNC high time 62.4 62.5 μs T(auxsyncl) AUX_PCM_SYNC low time 62.4 62.5 μs... -
Page 47: Figure 32: Synchrony Timing
Smart Machine Smart Decision AUX_PCM_IN setup time before falling edge T(suauxdin) – – of AUX_PCM_CLK AUX_PCM_IN hold time after falling edge of T(hauxdin) – – AUX_PCM_CLK Delay from AUX_PCM_CLK rising T(pauxdout) – – AUX_PCM_OUT valid *Note: T(auxclk) = 1/(128 KHz). Primary PCM (2048 KHz PCM clock) SIM5360 also supports 2.048 MHz PCM data and sync timing for υ... -
Page 48: Application Guide
Smart Machine Smart Decision Figure 34: MODULE to EXT CODEC timing Table 31: Timing parameters Parameter Description Unit T(sync) PCM_SYNC cycle time – – μs T(synch) PCM_SYNC high time – T(syncl) PCM_SYNC low time – 124.5 – μs T(clk) PCM_CLK cycle time –... -
Page 49: Figure 35: Reference Circuit Of Pcm Application With Nau8810Gy Codec
Smart Machine Smart Decision In addition, the firmware of SIM5360 has integrated the configuration on NAU8810GY and WM8960CGEFL/RV codec with I2C interface. NAU8810GY is provided by Nuvoton Technology Corporation. WM8960CGEFL/RV is provided by Wolfson Microelectronics. Solution I: The Reference Design of NAU8810GY CODEC (Priority Solution) The following is the reference circuit. -
Page 50: Gnss (Gps And Glonass)
Smart Machine Smart Decision VDD_1V8 3V VBAT VDD_1V8 26MHz CXO 10KR AVDD MCLK SPKVDD1 GPIO42 SPKVDD2 VCONT DCVDD DBVDD PCM_IN 2.2K ADCDAT MICBIAS PCM_OUT DACDAT MODULE LINPUT2 PCM_SYNC LINPUT1 DACLRCK PCM_CLK BCLK SPK_LP 22 ohm SPK_LN SCLK 8 OHM SDIN HP_L WM8960 HP_R... -
Page 51: Operate Mode
Smart Machine Smart Decision GNSS antenna Passive antenna Note: Performance will vary depending on the environment, antenna type and signal conditions and so 3.14.2 Operate Mode SIM5360 supports both A-GPS and S-GPS, and then provides three operating modes: mobile-assisted mode, mobile-based mode and standalone mode. A-GPS includes mobile-assisted and mobile-based mode. In mobile-assisted mode, when a request for position location is issued, available network information is provided to the location server (e.g. -
Page 52: Figure 37: Active Antenna Circuit
Smart Machine Smart Decision 10 ohm 47nH GPS/GLONASS antenna Matching circuit 33pF GNSS_ANT MODULE Figure 37: Active antenna circuit GPS/GLONASS antenna Matching circuit GNSS_ANT MODULE Figure 38:Passive antenna circuit (Default) In above figures, the components C1 and L1, L2 are used for antenna matching, the values of the components can only be obtained after the antenna tuning usually, and they are provided by antenna vendor.C2 in Figure 36 is used for DC isolation. -
Page 53: Multi-Functional Interface
Smart Machine Smart Decision AGPS mode needs more support from the mobile telecommunication network. Refer to AGPS application document for details. 3.15 Multi-functional interface SIM5360 merges functions for various applications. It can enrich users’ design and lower the cost of users’ hardware. -
Page 54: Adc
Smart Machine Smart Decision 3.15.2 ADC SIM5360 has two dedicated ADC that is available for digitizing analog signals such as battery voltage and so on; it is on PIN 47 and PIN 46 , namely ADC1 and ADC2 . This ADC is 15 bit successive-approximation circuit, and electronic specification is shown in the following table. -
Page 55: Rf Specification
Smart Machine Smart Decision 4 RF Specification 4.1 RF Specification Table 36: Conducted transmission power Frequency GSM850 33dBm ±2dB 5dBm ± 5dB E-GSM900 33dBm ±2dB 5dBm ± 5dB DCS1800 30dBm ±2dB 0dBm ± 5dB PCS1900 30dBm ±2dB 0dBm ± 5dB GSM850 (8-PSK) 27dBm ±3dB 5dBm ±... -
Page 56: Operating Specification
Smart Machine Smart Decision Operating Specification SIM5360 can support high rate data by GSM/WCDMA wireless network. In the different network environment, data transmission rate shifts depending on modulation and encoding. Table 39: GPRS/EDGE data throughout Function Coding schemes 1 Timeslot 2 Timeslot 4 Timeslot CS-1... -
Page 57: Antenna Design Guide
Smart Machine Smart Decision Antenna Design Guide SIM5360 provides RF antenna interface. Customer’s antenna should be located in the host board and connected to module’s antenna pad through micro-strip line or other types of RF trace and the trace impedance must be controlled in 50Ω. SIMCom recommends that the total insertion loss between the antenna pad and antenna should meet the following requirements: GSM900/GSM850<0.5dB ●... -
Page 58: Figure 41: Antenna Matching Circuit (Aux_Ant)
Smart Machine Smart Decision WCDMA Diversity antenna Matching circuit AUX_ANT MODULE Figure 41: Antenna matching circuit (AUX_ANT) In above figure, the components R3,C3,C5 and R5 is used for diversity antenna matching. The method of antenna tuning is same as MAIN_ANT. SIM5360_Hardware Design_V1.06 2016-11-17... -
Page 59: Electrical, Reliability And Operating Characteristics
Smart Machine Smart Decision Electrical, Reliability and Operating Characteristics Electronic Characteristics Absolute maximum rating for digital and analog pins of SIM5360 are listed in the following table: Table 41: Absolute maximum ratings Parameter Unit Voltage at digital pins (1.8v digital I/O) -0.3 Voltage at VBAT -0.5... -
Page 60: Operating Modes Overview
Smart Machine Smart Decision 5.2.1 Operating Modes Overview Table 44: Operating Modes Overview Mode Function Module will automatically enter SLEEP mode if DTR is set to high level and there is no on air or hardware interrupt (such as GPIO interrupt or data on serial port). -
Page 61: Current Consumption
Smart Machine Smart Decision Current Consumption The current consumption in suspended mode and without USB connection is listed in the table below. Here, “suspended mode” means that SIM5360 is connected to USB bus, but it does not transfer data. Table 45: Current consumption OFF state OFF state supply current Power down... -
Page 62: Emc And Esd Notes
Smart Machine Smart Decision UMTS Sleep/Idle Mode (without USB connection) Sleep mode@DRX=9 1.1 mA Sleep mode @DRX=8 1.3 mA WCDMA supply current Sleep mode @DRX=6 2.8 mA (GNSS off) Idle mode @DRX=6 15 mA UMTS Sleep/Idle Mode (with USB suspended) Sleep mode @DRX=9 1.3 mA Sleep mode @DRX=8 1.6 mA WCDMA supply current... -
Page 63: Table 46: The Esd Performance Measurement Table (Temperature: 25℃, Humidity: 45%)
Smart Machine Smart Decision Table 46: The ESD performance measurement table (Temperature: 25℃, Humidity: 45%) Part Contact discharge Air discharge VBAT,GND ±5KV ±10KV UART,USB ±2KV ±6KV Antenna port ±5KV ±10KV Other PADs ±0.5KV ±1KV SIM5360_Hardware Design_V1.06 2016-11-17... -
Page 64: Guide For Production
Smart Machine Smart Decision Guide for Production Top and Bottom View of SIM5360 Figure 42: Top and bottom view of SIM5360 These test points are only used for module manufacturing and testing. They are not for customer’s application. Typical Solder Reflow Profile For customer convenience, SIMCom provides a typical example for a commonly used soldering profile. -
Page 65: Moisture Sensitivity Level (Msl)
Smart Machine Smart Decision Figure 43: The ramp-soak-spike reflow profile of SIM5360 For details about secondary SMT, please refer to document [26]. Moisture Sensitivity Level (MSL) SIM5360 is qualified to Moisture Sensitivity Level (MSL) 5 in accordance with JEDEC J-STD-033. The module should be mounted within 48 hours after unpacking in the environmental conditions of temperature <30°C and relative humidity of <60% (RH). -
Page 66: Baking Requirements
Smart Machine Smart Decision Baking Requirements Because of its sensitivity to moisture absorption, SIM5360 should be baked sufficiently before re-flow soldering. Otherwise SIM5360 will be at the risk of permanent damage during re-flow soldering. SIM5360 should be baked 192 hours at temperature 40°C +5°C /-0°C and <5% RH for low-temperature device containers, or 72 hours at temperature 80°C±5°C for high-temperature device containers. -
Page 67: Appendix
Smart Machine Smart Decision Appendix A. Reference Design Main Antenna GNSS Antenna R102 MAIN_ANT GNSS_ANT C108 L101 L102 33pF C106 C107 Div Antenna Power supply R101 AUX_ANT VBAT VBAT VBAT C104 C105 C101 C102 C103 100uF 100nF 22pF R105 POWERKEY Power supply 300R R106... -
Page 68: Sim5360 Gpios List
Smart Machine Smart Decision B. SIM5360 GPIOs List Table 49: SIM5360 GPIOs list Name GPIO Index Default Function Alternate Function PCM_IN GPIO Interrupt [LEVEL/LOW] PCM_IN STATUS_LED Status led GPIO1 PCM_SYNC GPIO [IN] PCM_SYNC PCM_CLK GPIO [OUT/LOW] PCM_CLK RF_SWITCH RF Switch GPIO4 PCM_OUT GPIO [OUT/LOW]... -
Page 69: Digital I/O Characteristics
Smart Machine Smart Decision C. Digital I/O Characteristics Table 50: Digital I/O characteristics 1.8V Digital I/O Parameter Description Unit High-level input 1.26 voltage Low-level input -0.3 0.63 voltage High-level output 1.35 voltage Low-level output 0.45 voltage High-level output current Low-level output current Input high leakage current... -
Page 70: Related Documents
Smart Machine Smart Decision D. Related Documents Table 51: Related documents Document name Remark SIM5360_ATC_V1.00 SIM5360_ATC_V1.00 ITU-T Draft Serial asynchronous automatic dialing and control recommendationV.25ter Digital cellular telecommunications (Phase 2+); AT command set GSM 07.07 for GSM Mobile Equipment (ME) GSM 07.10 Support GSM 07.10 multiplexing protocol Digital cellular telecommunications (Phase 2+);... - Page 71 Smart Machine Smart Decision Station (MS) conformance specification [19] Global Certification Forum - Certification Criteria GCF-CC V3.23.1 Directive of the European Parliament and of the Council of 27 [20] January 2003 on the restriction of the use of certain hazardous 2002/95/EC substances in electrical and electronic equipment (RoHS) Audio Application Note...
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Page 72: Terms And Abbreviations
Smart Machine Smart Decision E. Terms and Abbreviations Table 52: Terms and Abbreviations Abbreviation Description Analog-to-Digital Converter Antenna Reference Point Bit Error Rate Base Transceiver Station Coding Scheme Circuit Switched Data Clear to Send Digital-to-Analog Converter Discontinuous Reception Digital Signal Processor Data Terminal Equipment (typically computer, terminal, printer) Data Terminal Ready Discontinuous Transmission... - Page 73 Smart Machine Smart Decision Receive Direction Subscriber Identification Module Short Message Service serial peripheral interface TDMA Time Division Multiple Access Terminal Equipment, also referred to as DTE Transmit Direction UART Universal Asynchronous Receiver & Transmitter VSWR Voltage Standing Wave Ratio Vmax Maximum Voltage Value Vnorm...
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Page 74: Safety Caution
Smart Machine Smart Decision F. Safety Caution Table 53: 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 to not operate normally for RF energy interference. - Page 75 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 3235 3300 Fax: +86 21 3235 3301 URL: www.simcomm2m.com SIM5360_Hardware Design_V1.06 2016-11-17...
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