Thundercomm Technology TURBOXSOMD820 Thundersoft TurboX-D820-SoM User Manual update9 10x

Thundercomm Technology Co., Ltd Thundersoft TurboX-D820-SoM update9 10x

User Manual

ThundercommThundersoft TurboX® D820 SOM Datasheet
REVISION PAGES0.1 1 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 1 Version Date Description V0.1 2018-7-12 Initial Version
REVISION PAGES0.1 2 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 2Contents 1 Overview ............................................................................................................................................................. 5 1.1 Abstract ................................................................................................................................................ 5 1.2 Reference Documents .......................................................................................................................... 5 1.3 Terms and Acronyms ........................................................................................................................... 5 2 Introduction ........................................................................................................................................................ 8 2.1 Key features ......................................................................................................................................... 8 2.2 Major Components Location ............................................................................................................. 13 2.3 Connectors Function and Part Number .............................................................................................. 13 3 Interfaces Description ..................................................................................................................................... 15 3.1 Interfaces Parameter Definitions........................................................................................................ 15 3.2 Interfaces Detail Description ............................................................................................................. 16 3.2.1 Power Supply Interface .............................................................................................................. 16 3.2.2 Touch screen Interface ............................................................................................................... 17 3.2.3 Display Interface ........................................................................................................................ 17 3.2.4 Camera Interfaces ...................................................................................................................... 18 3.2.5 Audio Interface .......................................................................................................................... 20 3.2.6 USB Interface ............................................................................................................................ 21 3.2.7 HDMI Interface.......................................................................................................................... 22 3.2.8 PCIe Interface ............................................................................................................................ 22 3.2.9 SSC Interface ............................................................................................................................. 23 3.2.10 SDIO Interface ........................................................................................................................... 24 3.2.11 BLSP Interface ........................................................................................................................... 24 3.2.12 Power on Interface ..................................................................................................................... 26 3.2.13 Reset Interface ........................................................................................................................... 27 3.2.14 Keys Interface ............................................................................................................................ 28
REVISION PAGES0.1 3 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 33.2.15 Sensor Interrupt Interface .......................................................................................................... 28 3.2.16 Debug UART Interface .............................................................................................................. 29 3.2.17 Battery Interface ........................................................................................................................ 29 3.2.18 JTAG debug ............................................................................................................................... 29 3.2.19 MPPs Interface ........................................................................................................................... 30 3.2.20 PWMs ........................................................................................................................................ 31 3.2.21 Antenna Interface ....................................................................................................................... 31 3.2.22 GPIO .......................................................................................................................................... 32 4 Electrical Characteristics ................................................................................................................................ 35 4.1 Absolute Maximum Ratings .............................................................................................................. 35 4.2 Operating Conditions ......................................................................................................................... 36 4.3 Output Power ..................................................................................................................................... 36 4.4 Digital-logic characteristics ............................................................................................................... 36 4.4.1 Digital GPIO characteristics ................................................................................................... 37 4.4.2 SD card digital I/O characteristics ............................................................................................. 37 4.5 MIPI ................................................................................................................................................... 38 4.6 USB ................................................................................................................................................... 38 4.7 PCIe ................................................................................................................................................... 38 4.8 HDMI ................................................................................................................................................. 39 4.9 SLIMbus ............................................................................................................................................ 39 4.10 SDIO .................................................................................................................................................. 39 4.11 I2S ........................................................................................................................... ........................... 39 4.12 I2C ..................................................................................................................................................... 41 4.13 SPI ..................................................................................................................................................... 42 4.14 Mpps .................................................................................................................................................. 42 4.15 Power Consumption ........................................................................................................................... 43
REVISION PAGES0.1 4 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 44.16 Thermal(TBD) ................................................................................................................................... 43 4.17 RF Performance ................................................................................................................................. 43 4.17.1 GPS Performance ....................................................................................................................... 44 5 PIN Summary .................................................................................................................................................... 45 5.1 J5218 BTB Connector ....................................................................................................................... 45 5.2 J5221 BTB Connector ....................................................................................................................... 46 5.3 J5219 ZIF Connector ......................................................................................................................... 48 5.4 J5220 ZIF Connector ......................................................................................................................... 49 5.5 J101 JTAG Connector ........................................................................................................................ 51
REVISION PAGES0.1 5 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 51 Overview 1.1 Abstract Thundersoft TurboX®D820 is high level performance intelligent module, integrating Android or Linux system, based on Qualcomm APQ8096 processor. It used the advanced 14 nm Fin FET process, customized 64-bit ARMv8-campliant quad-core applications processor, 2.15GHz CPU process performance, integrated a new Adreno 530 graphics processing unit (GPU). Thundersoft TurboX® D820 support short-range wireless communication through Wi-Fi 802.11 a/b/g/n/ac and BT4.2, and integrates GPS/GLONASS satellite positioning system. Thundersoft TurboX® D820 support 3840*2400@60fps display, it can connect 3 x camera modules, 1080P video smoothly output, and integrating multiple audio and video input/output interfaces. Thundersoft TurboX® D820 provides a variety of GPIO, I2C, UART and SPI standard interfaces. In addition, it supports two MIPI-DSI, three MIPI-CSI and SOM common standard protocol interfaces such as USB3.0, USB2.0, SPI, PCIE2.1, I2S, SLIMBUS and HDMI. Thundersoft TurboX® D820 provide convenient and stable system software solution for IOT field, it can be embedded into the device on VR/AR, Drone, Robot, Smart Camera, Routers, and any other connecting fields. The size of Thundersoft TurboX® D820 module is 36mm x 51mm x 6.45mm, weight 16g,with 302PINs. 1.2 Reference Documents Document 80-NT204-1 MSM8996-APQ8096 DEVICE SPECIFICATION 80-NT204-41 MSM8996 BASEBAND REFERENCE SCHEMATIC 80-NJ118-1 PMI8994-PMI8996 POWER MANAGEMENT IC DEVICE SPECIFICATION 1.3 Terms and Acronyms Acronym/Terminology Description ADC Analog-to-digital converter BER Bit error rate
REVISION PAGES0.1 6 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 6BLSP BAM-based low-speed peripheral eMMC Embedded Multimedia Card GPIO General Purpose Input/output GLONASS GLONASS Global orbiting navigation satellite system GNSS Global navigation satellite system HDMI High-Definition Multimedia Interface LPDDR Low Power Double Data Rate LPG Light Pulse Generators LCD Liquid crystal display MIPI-CSI Mobile Industry Processor Interface Camera Serial Interface MIPI-DSI Mobile Industry Processor Interface Display Serial Interface MBHC Multiple button headset control MOSI Master output/Slaver input MISO Master input/Slaver output MPP Multipurpose pin NFC Near field communicator PMIC Power Management Integrated Circuit OSC Oscillator PA Power amplifier PCB Printed circuit board PCIe Peripheral component interconnect express PCM Pulse-coded modulation PM Power management PWM Pulse width modulation PoP Package-on-package
REVISION PAGES0.1 7 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 7SDC Secure digital controller SDRAM Synchronous dynamic random access memory SLIMbus Serial Low-power Inter-chip Media Bus SPI Serial peripheral interface SPMI Serial power management interface SSC Snapdragon™ sensor core TCXO Temperature-compensated crystal oscillator SoC System on Chip XTAL Crystal SDIO Secure Digital Input / Output UART Universal Asynchronous Receiver Transmitter USB Universal serial bus I2S Inter-IC Sound I2C Inter-integrated circuit WCN Wireless connectivity network WLAN Wireless local area network SMPS Switched-mode power supply SOM System On Module ZIF Zero Insert Force
REVISION PAGES0.1 8 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 82 Introduction 2.1 Key features The following table shows the detailed features and performance on Thundersoft TurboX® D820. Processors Applications Processor Customized 64-bit ARMv8-compliant quad-core applications processor (Kryo) Two high-performance Kryo cores – gold cluster (2.15 GHz) Two low-power Kryo cores – silver cluster (1.593 GHz) Digital signal processing Hexagon DSP with dual-Hexagon vector processor (HVX-512)(target 825 MHz) Sensor core Snapdragon™ sensor core (dedicated Q6 low-power island with 512 KB) Operating System Android OS 7(TBD) Memory 64GB UFS+ LPDDR4 4GB Dual-channel PoP high-speed memory – LPDDR4 SDRAM designed for 1866 MHz clock. Multimedia Display support 2 x 4-lane DSI DPHY 1.2 and HDMI 2.0 (4K60) or 4K30 Miracast HDMI up to 3840 x 2160 at 60fps Maximum concurrency configurations 3840x2400 or 4096x2160 at 60Hz primary + 3840x2160 or 4096x2160 at 60Hz HDMI
REVISION PAGES0.1 9 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 92560x1600 at 60 fps primary + 2560x1600 at 60fps secondary + 3840x2160 at 60fps HDMI Camera support Support 3 x 4-lane MIPI_CSI Dual 14-bit ISP 28 MP + 13 MP, 600 MHz each 32MP 30ZSL with dual-ISP 16 MP30 ZSL with single ISP ABF3 with radius noise reduction, Demosaic4, TNR, ASF2.2, Dual AF, LTM, CAC2, GIC, Pedestal correction, stats upgrades Video Encode H.264 BP/MP/HP, MPEG-4 SP/ASP, H.263 P0, VP8, HEVC Main Maximum performance 3840x2160 at 30 fps 4096x2160 at 24 fps Decode H.264 BP/MP/HP, MPEG-4 SP/ASP, H.263 P0, VC1 SP/MP/AP, MPEG-2 MP, DivX 3.11/4/5/6, VP8, VP9, HEVC Main, HEVCMain10* Maximum performance 3840x2160 at 60 fps 4096x2160at 60 fps Graphics Adreno 530 3D graphics accelerator 624 MHz Support by A530 for all important GPU APIs DirectX 12 _FL12 (future-proof DX)
REVISION PAGES0.1 10 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 10OpenGL ES 3.1*+AEP1 and Vulkan OpenCL 2.0*(full), RenderScript Support for 64-bit virtual addresses, allowing for SVM with 64-bit CPUs Supports GPU virtualization Audio(build in Thundersoft TurboX® D820 Carrier Board with WCD9335 codec) Codec Seven DACs, seven outputs Six differential analog inputs with dedicated ADCs Six digital microphones Snapdragon™ voice activation (SVA) subsystem for ultra low voice wake-up MBHC, ANC 130 dB dynamic range, 24-bit DAC 44.1 kHz native playback SLIMbus to I2S bridge Low-power audio Low-power, low-complexity; 7.1 surround sound Voice codec support QCELP, EVRC, EVRC-B, EVRC-WB,EVS, GSM-FR, -EFR, -HR; AMR-NB, -WB Audio Encoders QCELP, EVRC, AMR-WB, AMR-NB, AAC ELD, AAC and AAC+ Audio Decoders PCM playback, AAC/AAC+/eAAC+, MP3, WMA (v9 and v10), WMALossless, WMAPro10, AMR-NB, AMR-WB, AMR-WB+, FLAC, ALAC, Vorbis*, AIFF, APE, AC3, eAC3, M8 Enhanced audio Surround sound: DTS-HD; DTS express 7.1 Fluence noise cancellation; enhanced speaker protection
REVISION PAGES0.1 11 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 11QAudioFX/Qconcert/QEnsemble Wireless connectivity WLAN 2.4G/5G, support 802.11 a/b/g/n/ac, 2 X 2 MIMO Support AP mode Bluetooth Support Bluetooth 4.2 + HS BLE, Backwards compatible with Bluetooth 1.2, 2.X + enhanced data rate. GNSS Support GPS/GLONASS Connectivity USB Two – one USB 2.0 high-speed and one USB 3.0 super-speed/USB 2.0 high-speed Compliant HDMI Integrated HDMI Tx core and HDMI PHY Rev 2.0 1080p at 60 Hz refresh; 24-bit RGB color 4k 60 fps HDMI 2-channel Linear Pulse-Code Modulation (LPCM) 8-channel LPCM 24 bit/192 kHz PCIe 2x PCIe, PCIe v2.1 PHY and 2.1 controller SDIO 1 x 4-bit, SD 3.0 SD/MMC card, eMMC NAND, eSD/eMMC boot BLSP 7 BLSPs ,can be configured as SPI or I2C or UART
REVISION PAGES0.1 12 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 12UART up to 4 MHz I2C Sensors etc SPI Sensors etc SLIMbus One, highly multiplexed, high-speed, baseline WCD9335 MI2S 3 ports; Full duplex stereo or up to quad channel Tx/Rx MI2S (x1); Up to 2 channel for multi-channel audio applications (x2); PCM Short and long sync PCM support GPIO 6+ GPIO ports Others ADC Interface Support ADC interfaces used for input voltage sense, battery temperature detection and general purpose ADC Touch screen support Capacitive panels via ext IC (I2C, SPI, and interrupts) Physical size Size: 36mm x 51mm x 6.45mm Weight: approx.16g Interface: Connector Operating temperature -10C ~55C
REVISION PAGES0.1 13 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 13RoHS All hardware components are fully compliant with EU RoHS directive Table 2.1-1Detailed features and performance 2.2 Major Components Location Thundersoft TurboX® D820 SOM’s major components are as below. There are another 2 pieces shielding covers which will be covered at the top and bottom shielding frame. 2.3 Connectors Function and Part Number We have SOM major parts connectors on Thundersoft TurboX® D820. Below map can easy to show the Pin start & end location on connector. Figure 2.2-1ThundersoftTurboX® D820 SoM Key component Location
REVISION PAGES0.1 14 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 14 Figure 2.3-1ThundersoftTurboX® D820 SOM Connector PIN Location Thundersoft TurboX® D820 SOM Below table indicates connectors detail information. Part Reference Description Manufacturer Part Number Manufacturer J5218,J5221 BTB connectors, used for connecting to Carrier Board. AXK6S00437YG PANASONIC J5219,J5220 ZIF connectors, used for extended CSI/DSI/SENSOR/GPIOs FH26W-51S-0.3SHW(05) HIROSE J5201,J5202 J5201 is an antenna connector for Wi-Fi/BT; J5202 is an antenna connector for Wi-Fi. 818000157 ECT J5222 An antenna connector for GPS; 818000157 ECT J5205,J5214 Wifi/bt calibration and test socket MM8030-2610RK0 MURATA J5223 GPS test socket MM8030-2610RK0 MURATA J101 JTAG connector AXG7160J7 PANASONIC Table 2.3-1Connector part number and information
REVISION PAGES0.1 15 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 153 Interfaces Description This chapter introduces all the interfaces definition, purpose to guide developer easy to design and verification on Thundersoft TurboX® D820 SOM. 3.1 Interfaces Parameter Definitions Symbol Description AI Analog input AO Analog output B Bidirectional digital with CMOS input CSI Supply voltage for MIPI_CSI circuits and I/O; (1.8 V only) DI Digital input(CMOS) DSI Supply voltage for MIPI_DSI I/O; (1.8 V only) DO Digital output(CMOS) H High-voltage tolerant nppdpukp Programmable pull resistor. The default pull direction is indicated using capital letters and is a prefix to other programmable options: NP: pdpukp = default no-pull with programmable options following the colon (:)  PD: nppukp = default pull-down with programmable options following the colon (:) PU: nppdkp = default pull-up with programmable options following the colon (:) KP: nppdpu = default keeper with programmable options following the colon (:) KP Contains an internal weak keeper device (keepers cannot drive external buses) MIPI Mobile industry processor interface NP Contains no internal pull OD Open drain PD Contains an internal pull-down device
REVISION PAGES0.1 16 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 16PI Power input PO Power output PD Contains an internal pull-down device PU Contains an internal pull-up device P3 Power group 3,it is 1.8V. P2 SDC Power group 3,it is 1.8V or 2.95V. P12 SSC Power group 12,it is 1.8V. Table 3.1-1Interfaces parameter definitions 3.2 Interfaces Detail Description 3.2.1 Power Supply Interface Below table describes all interfaces of SOM Power Supply. For the detail parameter request, please refer the chapter on Electrical specifications. Power Supply PIN Name Location PIN Type Description Notes VBATT J5218 1,3,5,7,9,11 PI Power supply in for SOM all operations. VBUS_USB_IN J5218 2,4 PI,POUSB input power sources or output during USB-OTG operation. VREG_S4A_1P8 J5218 8 PO Used for 1.8V IO pull up voltage; VREG_L21A_2P95 J5218 18 PO Power output for SD card VCOIN J5218 46 AI,AO Coin cell battery or backup battery; GND J5218 10,16,22,28,27,29,31,33,34,40,43,47, GND J5221 1,2,5,8,9,13,14,20,25,26,31,32,37,38,43,44,49,50,55,5GND
REVISION PAGES0.1 17 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 176,61,62,67,68,73,74,79,85,88,91,97 J5219 6,12,14,16 GND J5220 1,4,7,10,13,16,18,25,36,39,42,45,48,51GND Table 3.2-1 Power Supply Definition 3.2.2 Touch screen Interface Touch screen panels are supported using I2C buses and GPIOs configured as discrete digital inputs. Touch screen PIN Name Location PIN Voltage Type Description Notes BLSP12_GPIO_87 J5218 60 P3 OD BLSP12 I2C signals sda BLSP12_GPIO_88 J5218 58 P3 OD BLSP12 I2C signals scl BLSP12_GPIO_85 J5218 64 P3 DO BLSP12 UART signals tx TP-RST BLSP12_GPIO_86 J5218 62 P3 DI BLSP12 UART signals rx TP-INT Table 3.2-2Touchscreen interfaces definition 3.2.3 Display Interface The SOM supports dual 4-lane MIPI_DSI interfaces. Display PIN Name Location PIN Voltage Type Description Notes MIPI_DSI0_CLK_P_CON J5218 12 DSI AO MIPI0 signals for MIPI LCM. Compliant with MIPI Alliance Specification for Display Serial Interface MIPI_DSI0_CLK_N_CON J5218 14 DSI AO MIPI_DSI0_LANE3_P_CON J5218 18 DSI AO MIPI_DSI0_LANE3_N_CON J5218 20 DSI AO MIPI_DSI0_LANE2_P_CON J5218 24 DSI AO MIPI_DSI0_LANE2_N_CON J5218 26 DSI AO MIPI_DSI0_LANE0_P_CON J5218 30 DSI AO MIPI_DSI0_LANE0_N_CON J5218 32 DSI AO MIPI_DSI0_LANE1_P_CON J5218 36 DSI AO MIPI_DSI0_LANE1_N_CON J5218 38 DSI AO
REVISION PAGES0.1 18 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 18MIPI_DSI1_LANE3_N_CON J5220 37 DSI AO MIPI1 Signals for MIPI LCM Compliant with MIPI Alliance Specification for Display Serial Interface MIPI_DSI1_LANE3_P_CON J5220 38 DSI AO MIPI_DSI1_LANE0_N_CON J5220 40 DSI AO MIPI_DSI1_LANE0_P_CON J5220 41 DSI AO MIPI_DSI1_LANE2_N_CON J5220 43 DSI AO MIPI_DSI1_LANE2_P_CON J5220 44 DSI AO MIPI_DSI1_CLK_N_CON J5220 46 DSI AO MIPI_DSI1_CLK_P_CON J5220 47 DSI AO MIPI_DSI1_LANE1_N_CON J5220 49 DSI AO MIPI_DSI1_LANE1_P_CON J5220 50 DSI AO Table 3.2-3Display interfaces definition 3.2.4 Camera Interfaces The SOM supports 3x 4-lane camera interfaces.CSI0 and CSI1 connection are from B2B connector J5221, CSI2 is from zif connector J5220. There are only 2 I2C interfaces for three CSI, so it needs pay attention to the camera module I2C address. Camera1 Interface PIN Name Location PIN Voltage Type Description NotesCAM_MCLK0 J5221 3 P3 DO Camera0 main clock output MIPI_CSI0_CLK_N J5221 28 CSI AI MIPI Signals of Camera0 Compliant with MIPI Alliance Standard Specification MIPI_CSI0_CLK_P J5221 30 CSI AI MIPI_CSI0_LANE0_N J5221 34 CSI AI MIPI_CSI0_LANE0_P J5221 36 CSI AI MIPI_CSI0_LANE1_N J5221 40 CSI AI MIPI_CSI0_LANE1_P J5221 42 CSI AI MIPI_CSI0_LANE2_N J5221 46 CSI AI MIPI_CSI0_LANE2_P J5221 48 CSI AI MIPI_CSI0_LANE3_N J5221 52 CSI AI MIPI_CSI0_LANE3_P J5221 54 CSI AI Camera2 Interface PIN Name Location PIN Voltage Type Description NotesCAM_MCLK1 J5221 7 P3 DO Camera1 main clock output MIPI_CSI1_CLK_N J5221 27 CSI AI MIPI Signals of
REVISION PAGES0.1 19 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 19MIPI_CSI1_CLK_P J5221 29 CSI AI Camera1 Compliant with MIPI Alliance Standard Specification MIPI_CSI1_LANE0_N J5221 33 CSI AI MIPI_CSI1_LANE0_P J5221 35 CSI AI MIPI_CSI1_LANE1_N J5221 39 CSI AI MIPI_CSI1_LANE1_P J5221 41 CSI AI MIPI_CSI1_LANE2_N J5221 45 CSI AI MIPI_CSI1_LANE2_P J5221 47 CSI AI MIPI_CSI1_LANE3_N J5221 51 CSI AI MIPI_CSI1_LANE3_P J5221 53 CSI AI Camera3 Interface PIN Name Location PIN Voltage Type Description NotesCAM_MCLK2 J5221 11 P3 DO Camera2 main clock output MIPI_CSI2_LANE3_P J5220 2 CSI AI MIPI Signals of Camera2 Compliant with MIPI Alliance Standard Specification MIPI_CSI2_LANE3_N J5220 3 CSI AI MIPI_CSI2_LANE2_P J5220 5 CSI AI MIPI_CSI2_LANE2_N J5220 6 CSI AI MIPI_CSI2_LANE0_P J5220 8 CSI AI MIPI_CSI2_LANE0_N J5220 9 CSI AI MIPI_CSI2_LANE1_P J5220 11 CSI AI MIPI_CSI2_LANE1_N J5220 12 CSI AI MIPI_CSI2_CLK_P J5220 14 CSI AI MIPI_CSI2_CLK_N J5220 15 CSI AI Camera I2C Interface CCI_I2C_SDA0 J5221 15 P3 OD CCI0 Date signal, already pull up on SOM with 2.2k resistor CCI_I2C_SCL0 J5221 17 P3 OD CCI0 Clock signal, already pull up on SOM with 2.2k resistor CCI_I2C_SDA1 J5221 19 P3 OD CCI1 Date signal, already pull up on SOM with 2.2k resistor CCI_I2C_SCL1 J5221 21 P3 OD CCI1 Clock signal, already pull up on SOM with 2.2k resistor Table 3.2-4Camera interface definition
REVISION PAGES0.1 20 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 203.2.5 Audio Interface The SOM provide SLIMBUS, I2S interfaces and PCM interface for audio. SLIMBUS interface is dedicate for external codec IC(wcd9335), which can build system’s audio functions. I2S and PCM share the same interfaces which can connect audio devices. SlimBus Interface PIN Name Location PIN Voltage Type Description Notes PM_GPIO_15 J5218 45 1.8V DO External codec clk GPIO_71 J5218 37 P3 IO SLIMBUS_DATA0 Slimbus, connect to COEDC, Compliant with MIPI Alliance Specification for Serial Low-power Interchip Media Bus Version 1.01.01 GPIO_72 J5218 35 P3 IO SLIMBUS_DATA1 GPIO_70 J5218 39 P3 DO SLIMBUS_CLK GPIO_64 J5218 49 P3 DO CODEC reset output BLSP7_GPIO_54 J5218 63 P3 DI CODEC interrupt 1input BLSP7_GPIO_53 J5218 65 P3 DI CODEC interrupt 2input I2S2(PCM2) Interface GPIO_79 J5218 90 P3 DO I2S_2_MCLK GPIO_80 J5218 88 P3 DO I2S_2_SCK/PCM2_CLK BLSP5_GPIO_81 J5218 86 P3 DO I2S_2_WS/PCM2_SYNC BLSP5_GPIO_82 J5218 84 P3 DI/DO I2S_2_D0/PCM2_DIN BLSP5_GPIO_83 J5218 82 P3 DI/DO I2S_2_D1/PCM2_DOUT I2S3(PCM3) Interface GPIO_74 J5218 100 P3 DO I2S_3_MCLK GPIO_75 J5218 98 P3 DO I2S_3_SCK/PCM3_CLK GPIO_76 J5218 96 P3 DO I2S_3_WS/PCM3_SYNC GPIO_77 J5218 94 P3 DI/DO I2S_3_D0/PCM3_DIN GPIO_78 J5218 92 P3 DI/DO I2S_3_D1/PCM3_DOUT I2S4(PCM4) Interface GPIO_57_FORCE_USB_BOOT J5218 78 P3 DO I2S_4_MCLK The default setting is for usb boot gpio
REVISION PAGES0.1 21 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 21BLSP11_GPIO_58 J5218 76 P3 DO I2S_4_SCK/PCM4_CLK BLSP11_GPIO_59 J5218 74 P3 DO I2S_4_WS/PCM4_SYNC BLSP11_GPIO_60 J5218 72 P3 DI/DO I2S_4_D0/PCM4_DIN BLSP11_GPIO_61 J5218 70 P3 DI/DO I2S_4_D1/PCM4_DOUT GPIO_62 J5218 68 P3 DI/DO I2S_4_D2 GPIO_63 J5218 66 P3 DI/DO I2S_4_D3 Table 3.2-5Audio interface definition 3.2.6 USB Interface The SOM support USB host and slave. Dual USB port support, one is USB 2.0 high-speed for host, the other is USB 3.0 super-speed/USB 2.0 high-speed compliant SS/HS USB (3.0/2.0) Interface PIN Name Location PIN Voltage Type Description Notes USB3_SS_RX0_P J5221 58 AI USB 3.0 Signals Compliant with USB 3.0 standard specification Require differential impedance of 90Ω. USB3_SS_RX0_M J5221 60 AI USB3_SS_TX0_P J5221 64 AO USB3_SS_TX0_M J5221 66 AO USB3_HS_D_P J5221 70 AI,AO USB 2.0 Signals Compliant with USB 2.0 standard specification Require differential impedance of 90Ω. USB3_HS_D_M J5221 72 AI,AO VBUS_USB_IN J5218 2,4 PI USB VBUS input USB3_HS_USB_ID J5218 6 AI USB 2.0 for ID input BLSP3_GPIO_47 J5220 24 P3 DO Type C USB SS switch GPIO Could be changed based on software configure HS USB (2.0) Interface PIN Name Location PIN Voltage Type Description Notes USB2_HS_D_P J5221 57 AI,AO USB 2.0 Signals Compliant with USB 2.0 standard specification Require differential impedance of 90Ω. USB2_HS_D_M J5221 59 AI,AO VBUS_USB_IN J5218 2,4 PI USB VBUS input Table 3.2-6USB interface definition
REVISION PAGES0.1 22 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 223.2.7 HDMI Interface The SOM supports one HDMI2.0 output interface. Complete 4K 60fps entertainment system, also supports the audio portion of HDMI using internal CPU audio setting. HDMI Interface PIN Name Location PIN Voltage Type Description NotesGPIO_31 J5218 54 P3 IO HDMI_CEC GPIO_32 J5218 52 P3 OD HDMI_DDC_CLK GPIO_33 J5218 50 P3 OD HDMI_DDC_DATA GPIO_34 J5218 48 P3 DI HDMI_HPD_CON MSM_HDMI_TX0_P J5221 4 AO HDMI_TX0_P MSM_HDMI_TX0_M J5221 6 AO HDMI_TX0_M MSM_HDMI_TCLK_P J5221 10 AO HDMI_TCLK_P MSM_HDMI_TCLK_M J5221 12 AO HDMI_TCLK_M MSM_HDMI_TX2_P J5221 16 AO HDMI_TX2_P MSM_HDMI_TX2_M J5221 18 AO HDMI_TX2_M MSM_HDMI_TX1_P J5221 22 AO HDMI_TX1_P MSM_HDMI_TX1_M J5221 24 AO HDMI_TX1_M Table 3.2-7HDMI interface definition 3.2.8 PCIe Interface The SOM supports two Peripheral Component Interconnect Express (PCIe) interfaces, which can be used for general-purpose peripherals. PCIE1 Interface PIN Name Location PIN Voltage Type Description Notes PCIE1_REFCLK_N J5221 63 AO PCIe Signals Compliant with PCI Express Specification Revision 2.1 PCIE1_REFCLK_P J5221 65 AO PCIE1_MSM_RX_N J5221 69 AI PCIE1_MSM_RX_P J5221 71 AI PCIE1_MSM_TX_N J5221 75 AO PCIE1_MSM_TX_P J5221 77 AO GPIO_130 J5221 29 P3 DO PCIe reset signal PCIE1_RST_N GPIO_131 J5221 35 P3 DI PCIe clock require signal, need to reserve pull up PCIE1_CLKREQ_N
REVISION PAGES0.1 23 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 233.2.9 SSC Interface The SOM has an integrated sensor subsystem called Snapdragon™ sensor core (SSC), which is dedicated to support low-power, always-on use cases. The sensor subsystem can be left powered on even when the rest of the device is in sleep mode. The SSC has a dedicated 512 kB L2 cache. The SSC core has dedicated I/O to communicate with the sensors. The I/O scan support I2C and SPI interfaces. SSC Interface PIN Name Location PIN Voltage Type Description NotesSPI_CS_N_MAG J5219 38 P12 DO SSC SPI1 chip select 2 SSC_PWR_EN J5219 39 P12 DO SSC power enable output SSC_I2C_3_SDA J5219 40 P12 OD/OI SSC I2C3 serial data SSC_I2C_3_SCL J5219 41 P12 OD SSC I2C3 serial clock SSC_I2C_2_SDA J5219 42 P12 OD/OI SSC I2C2 serial data SSC_I2C_2_SCL J5219 43 P12 OD SSC I2C2 serial clock SSC_SPI_1_CS_N J5219 44 P12 DO SSC SPI1 chip select 1 SSC_SPI_1_CLK J5219 45 P12 DO SSC SPI1 serial clock SSC_SPI_1_MOSI J5219 46 P12 DO SSC SPI1 data master out /slaver in SSC_SPI_1_MISO J5219 47 P12 DI SSC SPI1 data master in /slaver out resistor GPIO_132 J5221 37 P3 DI PCIe wake up signal PCIE1_WAKEUP PCIE2 Interface PCIE2_REFCLK_N J5221 81 AO PCIe Signals Compliant with PCI Express Specification Revision 2.1 PCIE2_REFCLK_P J5221 83 AO PCIE2_MSM_RX_N J5221 87 AI PCIE2_MSM_RX_P J5221 89 AI PCIE2_MSM_TX_N J5221 93 AO PCIE2_MSM_TX_P J5221 95 AO GPIO_114 J5221 82 P3 DO PCIe reset signal PCIE2_RST_N GPIO_115 J5221 84 P3 DI PCIe clock require signal, need to reserve pull up resistor PCIE2_CLKREQ_NGPIO_116 J5221 86 P3 DI PCIe wake up signal PCIE2_WAKEUP Table 3.2-8PCIe interface definition
REVISION PAGES0.1 24 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 24SSC_SPI_3_CLK J5219 48 P12 DO SSC SPI3 chip select 1 SSC_SPI_3_CS_N J5219 49 P12 DO SSC SPI3 serial clock SSC_SPI_3_MOSI J5219 50 P12 DO SSC SPI3 data master out /slaver in SSC_SPI_3_MISO J5219 51 P12 DI SSC SPI3 data master in /slaver out Table 3.2-9SSC interface definition 3.2.10 SDIO Interface The SOM supports 4-laneSDIO for SD-card. The SDIO is high-speed signal group. It should protect other sensitive signals/circuits from SD corruption, and protect SD signals from noisy signals (clock, RF and so on).  The clock can be up to 200 Mhz.  The signals routing should be 50ohm±10% impedance control.  CLK to DATA/CMD length matching less than 1mm.  The spacing to all other signals should 2X line width  Maximum bus capacitance less than 1.0pF.  Each trace needs to be next to a ground plane. SDIO (SDC2) Interface PIN Name Location PIN Voltage Type Description Notes SDC2_SDCARD_D3 J5221 90 P2 IO SDC2_SDCARD_CMD J5221 92 P2 DO SDC2_SDCARD_CLK J5221 94 P2 DO SDC2_SDCARD_D0 J5221 96 P2 IO SDC2_SDCARD_D1 J5221 98 P2 IO SDC2_SDCARD_D2 J5221 100 P2 IO GPIO_79 J5218 90 P3 DI SD_CARD_DET_N Could be changed to other interrupt GPIO Table 3.2-4SDIO interface definition 3.2.11 BLSP Interface These GPIOs are available as BAM-based low-speed peripheral (BLSP) interface ports that can be configured for UART, SPI, or I2C operation. The UART is based on cpu direction.
REVISION PAGES0.1 25 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 25I2C is a two-wire bus that can be routed to multiple devices; there are no pull-up resistors on SOM board for I2C bus; so if it is configured as I2C interface by software, it needs to pull up to IO voltage with resistors on IO board. BLSP1 Interface PIN Name Location PIN Voltage Type Description Notes BLSP1_GPIO_0 J5219 22 P3 DO spi_mosi/uart_tx BLSP1_GPIO_1 J5219 23 P3 DI spi_miso/uart_rx BLSP1_GPIO_2 J5219 24 P3 DODI/ODOI spi_cs/uart_cts/i2c_sda BLSP1_GPIO_3 J5219 25 P3 DO/ODOI spi_clk/uart_rfr/i2c_scl GPIO_23 J5218 91 P3 DO spi_cs3 GPIO_24 J5218 89 P3 DO spi_cs2 GPIO_90 J5220 32 P3 DO spi_cs1 BLSP3 Interface BLSP3_GPIO_47 J5220 24 P3 ODOI i2c_sda BLSP3_GPIO_48 J5220 23 P3 OD i2c_scl BLSP5 Interface BLSP5_GPIO_81 J5218 86 P3 DO spi_mosi/uart_tx BLSP5_GPIO_82 J5218 84 P3 DI spi_miso/uart_rx BLSP5_GPIO_83 J5218 82 P3 DODI/ODOI spi_cs/uart_cts/i2c_sda BLSP5_GPIO_84 J5218 80 P3 DO/ODOI spi_clk/uart_rfr/i2c_scl BLSP6 Interface BLSP6_GPIO_25 J5218 99 P3 DO spi_mosi/uart_tx BLSP6_GPIO_26 J5218 97 P3 DI spi_miso/uart_rx BLSP6_GPIO_27 J5218 95 P3 DODI/ODOI spi_cs/uart_cts/i2c_sda BLSP6_GPIO_28 J5218 93 P3 DO/ODOI spi_clk/uart_rfr/i2c_scl BLSP7 Interface BLSP7_GPIO_53 J5218 65 P3 DO spi_mosi/uart_tx BLSP7_GPIO_54 J5218 63 P3 DI spi_miso/uart_rx BLSP7_GPIO_55 J5218 61 P3 DODI/ODOI spi_cs/uart_cts/i2c_sda BLSP7_GPIO_56 J5218 59 P3 DO/ODOI spi_clk/uart_rfr/i2c_scl BLSP8 Interface
REVISION PAGES0.1 26 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 26MSM_UART_TX J5218 57 P3 DO spi_mosi/uart_tx gpio4;default uart log MSM_UART_RX J5218 55 P3 DI spi_miso/uart_rx gpio5;default uart log BLSP8_GPIO_6 J5218 53 P3 DODI/ODOI spi_cs/uart_cts/i2c_sda BLSP8_GPIO_7 J5218 51 P3 DO/ODOI spi_clk/uart_rfr/i2c_scl BLSP9 Interface BLSP9_GPIO_49 J5218 73 P3 DO spi_mosi/uart_tx BLSP9_GPIO_50 J5218 71 P3 DI spi_miso/uart_rx BLSP9_GPIO_51 J5218 69 P3 DODI/ODOI spi_cs/uart_cts/i2c_sda BLSP9_GPIO_52 J5218 67 P3 DO/ODOI spi_clk/uart_rfr/i2c_scl BLSP10 Interface BLSP10_GPIO_8 J5218 81 P3 DO spi_mosi/uart_tx BLSP10_GPIO_9 J5218 79 P3 DI spi_miso/uart_rx BLSP10_GPIO_10 J5218 77 P3 DODI/ODOI spi_cs/uart_cts/i2c_sda BLSP10_GPIO_11 J5218 75 P3 DO/ODOI spi_clk/uart_rfr/i2c_scl BLSP11 Interface BLSP11_GPIO_58 J5218 76 P3 DO spi_mosi/uart_tx BLSP11_GPIO_59 J5218 74 P3 DI spi_miso/uart_rx BLSP11_GPIO_60 J5218 72 P3 DODI/ODOI spi_cs/uart_cts/i2c_sda BLSP11_GPIO_61 J5218 70 P3 DO/ODOI spi_clk/uart_rfr/i2c_scl BLSP12 Interface BLSP12_GPIO_85 J5218 64 P3 DO spi_mosi/uart_tx BLSP12_GPIO_86 J5218 62 P3 DI spi_miso/uart_rx BLSP12_GPIO_87 J5218 60 P3 DODI/ODOI spi_cs/uart_cts/i2c_sda BLSP12_GPIO_88 J5218 58 P3 DO/ODOI spi_clk/uart_rfr/i2c_scl Table 3.2-5BLSP interface definition 3.2.12 Power on Interface Dedicated PMIC circuits continuously monitor events that might trigger a power-on sequence. If an event occurs, these circuits power on the IC, determine the device’s available power sources, enable the correct source. It is longer than 1s with pressing power-on key, for power on event. And it is suggested for 3s
REVISION PAGES0.1 27 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 27powering on system. Power on/off key signal can be connected to ground through J5218.83; the other power on method is: when using CBL_PWR_N pin connect to ground, insert battery or power supply, SOM will power on automatically. Figure 3.2-2 Power on signal Power on Interface PIN Name Location PIN Voltage Type Description Notes KYPD_PWR_N1 J5218 83 pulled up internally through a 200K resistor to 1.8V DI Power on/off key signal, Low level active CBL_PWR_N J5218 44 pulled up internally through a 200K resistor to 1.8V DI Signal use for auto power on when you plug in a battery, active low, internal pull up Table 3.2-12Power on interface definition 3.2.13 Reset Interface Extended press of volume key will initiate a shutdown or reset (software selectable)  Stage 1 reset – software-configurable bark PMIC generates interrupt, giving the soc device the opportunity to fix the problem or gracefully reset the system. Example events that can cause a bark: Over temperature indicates system is getting too hot. PMIC watchdog indicates that it has not kicked.  Stage 2 –software-configurable bite If reset is ignored, PMIC will force a reset event (selectable by software).  Stage 3 –hardware mandatory bite The user can generate a mandatory reset by a long key press of PM_RESIN_N, or KYPD_PWR_N1, or
REVISION PAGES0.1 28 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 28PM_RESIN_N + KYPD_PWR_N1. The standalone or combination of reset triggers can also be selected as SBL by directly writing to the appropriate registers Reset Pin PIN Name Location PIN Voltage Type Description Notes PM_RESIN_N J5218 85 pulled up internally to 1.8V DI Volume down/Reset key signal, Low active Table 3.2-6Reset interface definition 3.2.14 Keys Interface KEY_GPIO can be configure to key functions as your request. KEYs PINs PIN Name Location PIN Voltage Type Description Notes KEY_VOL_UP_N J5218 87 P3 DI Volume up key signal, Low active PM_RESIN_N J5218 85 P3 DI Volume down key signal, Low active KYPD_PWR_N1 J5218 83 P3 DI Power on/off key signal, Low active PM_GPIO_01 J5219 27 P3 DI Back key signal, Low active PM_GPIO_02 J5219 28 P3 DI Home key signal, Low active Table 3.2-7Keys interface definition 3.2.15 Sensor Interrupt Interface All these interfaces dedicate to below sensors. Sensor Interrupt PINs PIN Name Location PIN Voltage Type Description Notes GPIO_117 J5219 29 P3 DI Accelerometer sensor interrupt signal
REVISION PAGES0.1 29 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 29GPIO_118 J5219 30 P3 DI GYRO Sensor interrupt GPIO_119 J5219 31 P3 DI Magnetometer sensor interrupt signal GPIO_120 J5219 32 P3 DI Ambient light sensor interrupt signal GPIO_121 J5219 33 P3 DI GPIO_122 J5219 34 P3 DI GPIO_123 J5219 35 P3 DI GPIO_124 J5219 36 P3 DI Hall sensor interrupt GPIO_125 J5219 37 P3 DI Table 3.2-8Sensor interrupt definition 3.2.16 Debug UART Interface This is interface dedicate for uart debug. Debug UART PINs PIN Name Location PIN Voltage Type Description Notes MSM_UART_TX J5218 57 P3 DO BLSP8 UART signals, can use for debug MSM_UART_RX J5218 55 P3 DI Table 3.2-9Debug UART interface definition 3.2.17 Battery Interface There is a NTC pin which is for internal battery package NTC resistor connection. The SOM can't be monitoring battery status and charging. Battery PINs PIN Name Location PIN Voltage Type Description Notes BAT_THERM J5218 17 2.7V AI Battery temperature sense input signal 10K NTC resistor to gnd; if without NTC, a 10K resistor is necessary for replaced. Table 3.2-17 NTC interface 3.2.18 JTAG debug
REVISION PAGES0.1 30 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 30The SOM supports one jtag interface for advanced debugging. JTAG interfaces PIN Name Location PIN Voltage Type Description Notes JTAG_TMS J101 1 P3 JTAG_TCK J101 2 P3 JTAG_TDO J101 3 P3 JTAG_TDI J101 4 P3 JTAG_TRST_N J101 5 P3 KYPD_PWR_N1 J101 6 P3 PM_RESIN_N J101 7 P3 GND J101 8 P3 JTAG_RESOUT_N J101 9 P3 MSM_UART_TX J101 10 P3 MSM_UART_RX J101 11 P3 VREG_S4A_1P8 J101 12 P3 MSM_PS_HOLD J101 13 P3 GPIO57_FORCE_USB_BOOT J101 14 P3 WDOG_DISABLE J101 15 P3 MSM_RESOUT_N J101 16 P3 Table 3.2-18JTAG 3.2.19 MPPs Interface The MPPs can be programmed to digital input/digital output/analog input/analog output/bidirectional IO/programmable current sink. The pmi8994 device does not support the bidirectional I/O configuration; and only even-numbered MPPs can be current sinks while only odd-numbered MPPs can be analog outputs. The PM8996 device only odd MPPs(MPP5) can be configured as analog output; only even MPPs(MPP2,MPP4,MPP6) have current sink capability. The ADC input cannot reliably go below 0.05V or above (P3 ‒ 0.05 V); do not exceed this range. MPPs PINs PIN Name Location PIN Voltage Type Description Notes
REVISION PAGES0.1 31 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 31PMI_MPP1 J5219 7 Cannot be used as current sink PMI_MPP2 J5219 8 Cannot be used as analog outputPM_MPP2 J5219 9 PM_MPP5 J5219 10 Can be used as analog output PM_MPP6 J5219 11 PM_MPP4 J5218 42 Table 3.2-19MPPs interface definition 3.2.20 PWMs The SOM support PWM output, all PWM output by Light Pulse Generators. Independently programmable duty cycle and period via LPGs (6-or 9-bit resolution) for digital dimming. PWMs PINs PIN Name Location PIN Voltage Type Description Notes PM_GPIO_04 J5219 17 P3 LDP_DRV1 PM LPG PM_GPIO_05 J5219 18 P3 LDP_DRV2 PM_GPIO_07 J5219 20 P3 LDP_DRV3 PM_GPIO_10 J5219 21 P3 LDP_DRV6 PMI_MPP1 J5219 7 P3 PMI LPG PMI_MPP2 J5219 8 P3 Table 3.2-10PWMs and LED Current Driver interface definition 3.2.21 Antenna Interface The SOM provides the fully-integrated WLAN, Bluetooth and GPS function. The WLAN, Bluetooth and GPS share the antenna port with 50ohm impedance.  WLAN supports2 × 2 multiple input, multiple output (MIMO) with two spatial streams IEEE802.11 a/b/g/n/ac WLAN standards.  Supports Bluetooth 4.2 + HS enabling seamless integration of WLAN/Bluetooth and low energy technology.  Supports GPS, GLONASS, and COMPASS operation.
REVISION PAGES0.1 32 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 32Antenna interface PIN Name Location PIN Voltage Type Description Notes Antenna 1 J5201 IO Antenna 1 supports WIFI 2.4G/5G &BT Chain0 Antenna 2 J5202 IO Antenna 2 supports WIFI 2.4G/5G Chain1 Antenna 3 J5222 IO Antenna GPS Table 3.2-21Antenna interface definition 3.2.22 GPIO The SOM supports the GPIOs which are multi function with others, such as blsp, i2s and others. It can be configured by different software setting. Some GPIOs can be used as APQ power management interrupt which can wake the system up. GPIO PIN Name Location PIN Voltage Type Interrupt Description Notes GPIO_73 J5218 19 P3 DI/DO YES GPIO_21 J5218 21 P3 DI/DO GPIO_12 J5218 23 P3 DI/DO GPIO_38 J5218 25 P3 DI/DO YES GPIO_72 J5218 35 P3 DI/DO GPIO_71 J5218 37 P3 DI/DO YES GPIO_70 J5218 39 P3 DI/DO GPIO_69 J5218 41 P3 DI/DO GPIO_64 J5218 49 P3 DI/DO YES BLSP8_GPIO_7 J5218 51 P3 DI/DO BLSP8_GPIO_6 J5218 53 P3 DI/DO BLSP7_GPIO_56 J5218 59 P3 DI/DO YES BLSP7_GPIO_55 J5218 61 P3 DI/DO BLSP7_GPIO_54 J5218 63 P3 DI/DO YES BLSP7_GPIO_53 J5218 65 P3 DI/DO YES BLSP9_GPIO_52 J5218 67 P3 DI/DO BLSP9_GPIO_51 J5218 69 P3 DI/DO BLSP9_GPIO_50 J5218 71 P3 DI/DO YES
REVISION PAGES0.1 33 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 33BLSP9_GPIO_49 J5218 73 P3 DI/DO BLSP10_GPIO_11 J5218 75 P3 DI/DO YES BLSP10_GPIO_10 J5218 77 P3 DI/DO BLSP10_GPIO_9 J5218 79 P3 DI/DO YES BLSP10_GPIO_8 J5218 81 P3 DI/DO GPIO_24 J5218 89 P3 DI/DO YES GPIO_23 J5218 91 P3 DI/DO BLSP6_GPIO_28 J5218 93 P3 DI/DO BLSP6_GPIO_27 J5218 95 P3 DI/DO BLSP6_GPIO_26 J5218 97 P3 DI/DO YES BLSP6_GPIO_25 J5218 99 P3 DI/DO GPIO_34 J5218 48 P3 DI/DO YES GPIO_33 J5218 50 P3 DI/DO GPIO_32 J5218 52 P3 DI/DO GPIO_31 J5218 54 P3 DI/DO GPIO_30 J5218 56 P3 DI/DO BLSP12_GPIO_88 J5218 58 P3 DI/DO BLSP12_GPIO_87 J5218 60 P3 DI/DO BLSP12_GPIO_86 J5218 62 P3 DI/DO YES BLSP12_GPIO_85 J5218 64 P3 DI/DO GPIO_63 J5218 66 P3 DI/DO YES GPIO_62 J5218 68 P3 DI/DO YES BLSP11_GPIO_61 J5218 70 P3 DI/DO YES BLSP11_GPIO_60 J5218 72 P3 DI/DO YES BLSP11_GPIO_59 J5218 74 P3 DI/DO YES BLSP11_GPIO_58 J5218 76 P3 DI/DO YES BLSP5_GPIO_84 J5218 80 P3 DI/DO BLSP5_GPIO_83 J5218 82 P3 DI/DO BLSP5_GPIO_82 J5218 84 P3 DI/DO YES BLSP5_GPIO_81 J5218 86 P3 DI/DO GPIO_80 J5218 88 P3 DI/DO YES GPIO_79 J5218 90 P3 DI/DO YES GPIO_78 J5218 92 P3 DI/DO YES GPIO_77 J5218 94 P3 DI/DO YES GPIO_76 J5218 96 P3 DI/DO
REVISION PAGES0.1 34 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 34GPIO_75 J5218 98 P3 DI/DO GPIO_74 J5218 100 P3 DI/DO GPIO_130 J5221 76 P3 DI/DO GPIO_131 J5221 78 P3 DI/DO YES GPIO_132 J5221 80 P3 DI/DO YES GPIO_114 J5221 82 P3 DI/DO GPIO_115 J5221 84 P3 DI/DO YES GPIO_116 J5221 86 P3 DI/DO YES GPIO_29 J5221 23 P3 DI/DO GPIO_22 J5221 99 P3 DI/DO YES PMI_GPIO2 J5219 1 1.8V DI/DO From PMI8994 PMI_GPIO5 J5219 2 1.8V DI/DO PMI_GPIO6 J5219 3 1.8V DI/DO PMI_GPIO9 J5219 4 1.8V DI/DO PMI_GPIO10 J5219 5 1.8V DI/DO PM_GPIO_04 J5219 17 1.8V DI/DO From PM8996 PM_GPIO_05 J5219 18 1.8V DI/DO PM_GPIO_06 J5219 19 1.8V DI/DO PM_GPIO_07 J5219 20 1.8V DI/DO PM_GPIO_10 J5219 21 1.8V DI/DO BLSP1_GPIO_0 J5219 22 P3 DI/DO BLSP1_GPIO_1 J5219 23 P3 DI/DO YES BLSP1_GPIO_2 J5219 24 P3 DI/DO BLSP1_GPIO_3 J5219 25 P3 DI/DO GPIO_107 J5219 26 P3 DI/DO PM_GPIO_01 J5219 27 1.8V DI/DO From PM8996 PM_GPIO_02 J5219 28 1.8V DI/DO GPIO_117 J5219 29 P3 DI/DO YES GPIO_118 J5219 30 P3 DI/DO YES GPIO_119 J5219 31 P3 DI/DO YES GPIO_120 J5219 32 P3 DI/DO YES GPIO_121 J5219 33 P3 DI/DO YES GPIO_122 J5219 34 P3 DI/DO YES GPIO_123 J5219 35 P3 DI/DO YES GPIO_124 J5219 36 P3 DI/DO YES
REVISION PAGES0.1 35 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 35GPIO_125 J5219 37 P3 DI/DO YES PM_GPIO_14 J5220 19 1.8V DI/DO From PM8996 PM_GPIO_22 J5220 20 1.8V DI/DO GPIO_126 J5220 21 P3 DI/DO YES PMI_GPIO3 J5220 22 P3 DI/DO BLSP3_GPIO_48 J5220 23 P3 DI/DO BLSP3_GPIO_47 J5220 24 P3 DI/DO GPIO_96 J5220 26 P3 DI/DO GPIO_95 J5220 27 P3 DI/DO YES GPIO_94 J5220 28 P3 DI/DO GPIO_93 J5220 29 P3 DI/DO GPIO_92 J5220 30 P3 DI/DO YES GPIO_91 J5220 31 P3 DI/DO YES GPIO_90 J5220 32 P3 DI/DO GPIO_40 J5220 33 P3 DI/DO YES GPIO_39 J5220 34 P3 DI/DO GPIO_89 J5220 35 P3 DI/DO Table 3.2-22GPIOs 4 Electrical Characteristics 4.1 Absolute Maximum Ratings The SOM needs to be desinged in the operatin conditons which is shown as below table. Parameter Min Typical Max Units Input Power voltage VBAT 3.8 4.0 4.2 V ESD ESD-HBM model rating ±2k KV ESD-CDM model rating ±4k KV Table 4.1-1Absolute rating condition Notes: for the ESD, it will be valid and available only when the module is fully tested and approved in the Initial
REVISION PAGES0.1 36 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 36Production stage. 4.2 Operating Conditions The SOM needs to be desinged in the operatin conditons which is shown as below table. Parameters Min Typical Max Units Input Power voltage VBAT +3.8 4.0 +4.2 V VBAT 0.1 1.0 3 A Thermal conditions Operating temperature -10 25 55 °C Storage temperature -10 25 55 °C Table 4.2-1Operating condition Note: For the thermal conditons, operatin and storage min and max temperature is only when the module is fully tested and approved in the Initial Production stage. 4.3 Output Power The SOM provide power supply for external device, such as SD card, IO voltage,Below map show the details. Function Default voltage(V) Programble range(V) Rated current(mA) Default ON Expected use VREG_S4A_1P8 +1.8 NA 300 Y power output for external io voltage and 1.8V IO pull up voltage; VREG_L21A_2P95 +2.95 +1.62--+3.6 300 Y Power output for SD card Table 4.3-1Output power 4.4 Digital-logic characteristics The digital I/O's performance depeds on its pad type, usage, and power supply voltage.The SOM IO voltage level is the same with P3 except the SD card and analog input/output. The I2C, USB,MIPI and UART comply with the satndards.
REVISION PAGES0.1 37 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 374.4.1 Digital GPIO characteristics The followint table shows the digital GPIO characteristics: Parameter Description Min Max Units VIH High-level input voltage, CMOS/Schmitt, 0.7* P3 P3+0.3 V VIL Low-level input voltage, CMOS/Schmitt, -0.3 0.3* P3 V VSHYS Schmitt hysteresis voltage 300 - mV VOH High-level output voltage, CMOS VREG_S4A_1P8-0.45 VREG_S4A_1P8 V VOL Low-level output voltage, CMOS 0.0 0.45 V RPULL-UP Pull-up resistance 20 K 60 K Ω RPULL-DOWN Pull-down resistance 60 K 20 K Ω Table 4.4-1 Digital IO voltage performance 4.4.2 SD card digital I/O characteristics The SD card is powered by P2 supply; the power is 1.8V and 2.95V.the following table shows the SD card digital I/O characteristics: Parameter Description Min Typical Max Units VIH High-level input voltage 1.27/2.065 - 2.1/3.25 V VIL Low-level input voltage -0.3/-0.3 - 0.45/0.74 V VHYS Schmitt hysteresis voltage 100 - - mV RPULL-UP Pull-up resistance 10 K - 100K Ω RPULL-DOWN Pull-down resistance 10 K - 100K Ω RKEEPER-UP Keeper-up resistance 10 K - 100K Ω RKEEPER-DOWN Keeper-down resistance 10 K - 100K Ω VOH High-level output voltage 1.4/2.21 - 1.8/2.95 V
REVISION PAGES0.1 38 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 38VOL Low-level output voltage 0/0 - 0.225/1.091 V Table 4.4-2SD digital IO voltage performance (1.8V/2.95V) 4.5 MIPI The SOM supports the MIPI interface and comply with MIPI standards. Applicable standard Feature exceptions MIPI Alliance Specification for Display Serial Interface None MIPI Alliance Specification for DPHY v1.2 None Table 4.5-1 MIPI_DSI Applicable standard Feature exceptions MIPI Alliance Specification for CSI-2 v1.3 RAW7 not supported DPCM predictor 2 not supported MIPI Alliance Specification for DPHY v1.2 None MIPI Alliance Specification for CPHY v1.0 None Table 4.5-1 MIPI_CSI 4.6 USB The SOM supports USB standards and exceptions. Applicable standard Feature exceptions APQ variation Universal Serial Bus Specification, Revision 3.1 (August 11, 2014 or later) SS Gen 2 Operating voltages, system clock, and VBUS UTMI + Low Pin Interface (ULPI) Specification (October 20, 2004 Revision 1.1 or later) None None On-The-Go and Embedded Host Supplement to theUSB 3.0 Specification (May 10, 2012, Revision 1.1 orlater) None None Table 4.6-1USB 4.7 PCIe
REVISION PAGES0.1 39 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 39The SOM supports PCIe standards and exceptions Applicable standard Feature exceptions APQ variation PCI Express Specification, Revision 2.1 (March 4, 2009 or later) None None Table 4.7-1PCIe 4.8 HDMI The SOM supports HDMI standards and exceptions Applicable standard Feature exceptions APQ variation HDMI Specification Version 2.0 None None Table 4.8-1HDMI 4.9 SLIMbus The SOM supports SLIMbus HDMI standards and exceptions Applicable standard Feature exceptions APQ variation MIPI Alliance Specification for Serial Low-power Interchip Media Bus Version 1.01.01 None None Table 4.9-1SLIMbus 4.10 SDIO The SOM Supports SD standards and exceptions Applicable standard Feature exceptions Embedded Multimedia Card (eMMC) Specification version 5.1 None Secure Digital: Physical Layer Specification version 3.0 None SDIO Card Specification version 3.0 None Table 4.10-1 SDIO 4.11 I2S
REVISION PAGES0.1 40 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 40The SOMI2S standards and exceptions: Legacy I2S interfaces for primary and secondary microphones and speakers. The multiple I2S (MI2S) interface for microphone and speaker functions, including 7.1 audio for HDMI. It is supports both master and slave mode. Supports 16, 24, or 32-bit resolution audio samples Supports 8,16,32,48,96 and192 kHz sampling rate in Master mode, and all standard sample rates in Slave mode. Supports16-bit and 24-bit data formats in standard I2S mode, and 24-bit left-justified (24-bit data in 32-bit frame left-justified, LSBs are padded with 0s). Maximum clock frequency supported 12.288 MHz. An additional pin can be used for a master clock, supplied by the MSM device, the master clock is often used in the external devices to drive their oversampling logic. The LPASS clock controller can provide master clocks from independent clock dividers to the I2S bit-clock dividers. Applicable standard Feature exceptions MSM variations Philips I2S Bus Specifications revised June 5, 1996 None When an external SCK clock is used, a duty cycle between45% to 55% is required. Table 4.11-1 I2S Figure 4.11-1I2S timing diagram
REVISION PAGES0.1 41 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 41The word-select signal is a 50% duty cycle signal. Data is delayed 1 bit-clock, relative to the word select. Data outputs are launched on the falling edge of the clock, and inputs data are captured on the rising edge of the clock by the receiver. I2S samples are 2’s complement values, and the MSB is transmitted first allowing the transmitter and receiver to support different number of bits per sample. The left channel is transmitted when the word select is low, and the right channel is transmitted when the word select is high Parameter Comments Min Typ Max Unit Using internal SCK Frequency – – – 12.288 MHz T Clock period – 81.380 – – ns t(HC) Clock high – 0.45 × T – 0.55 × T ns t(LC) Clock low – 0.45 × T – 0.55 × T ns t(sr) SD and WS input setup time – 16.276 – – ns t(hr) SD and WS input hold time – 0 – – ns t(dtr) SD and WS output delay – – – 65.100 ns t(htr) SD and WS output hold time – 0 – – ns Using external SCK Frequency – – – 12.288 MHz T Clock period – 81.380 – – ns t(HC) Clock high – 0.45 × T – 0.55 × T ns t(LC) Clock low – 0.45 × T – 0.55 × T ns t(sr) SD and WS input setup time – 16.276 – – ns t(hr) SD and WS input hold time – 0 – – ns t(dtr) SD and WS output delay – – – 65.100 ns t(htr) SD and WS output hold time – 0 – – ns Table 4.11-2 I2S Timing 4.12 I2C The SOMI2C standards and exceptions: Applicable standard Feature exceptions I2C Specification, version 3.0 None Table 4.12-1 I2C
REVISION PAGES0.1 42 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 424.13 SPI The SOM supports SPI standards and exceptions: IT IS supports SPI as a master only. 4.14 Mpps MPPs can be configured any of the functions specified within Table 4.14-1 Function Min Typ Max Units Expected use MPP configured as digital input Logic high-input 0.65 · VM¹ - - V Logic low-input - - 0.35 ·VM¹ V MPP configured as digital output Logic high-output VM¹ – 0.45 - VM¹ V Logic low-output 0 - 0.45 V Drive strength Logic high (V_M > 2.5 V) Logic high (V_M < 2.5 V) Logic low 5.1 3.3 5.9 7.3 4.9 11.3 15.2 9.9 36.0 mA MPP configured as analog input Input current - - 100 mA MPPs configured as current sinks Output current 0 - 40 mA Table 4.14-1Mpps Notes: VM1 = 1.8V
REVISION PAGES0.1 43 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 434.15 Power Consumption Power Consumption S/N Test Items and Test Condition UNIT DUT average value data range1 Normal Operation Current (Play Movie ) -Wi-Fi off, BT off - Vol Max, no LCD, no Camera 4K mA 382 245--634 1080P 305 270--545 2 Normal Operation Current (Idle mode) - Restart the device - At Home Page - No LCD. No Camera WIFI ON mA 104 64.7--416 WIFi OFF mA 71 63.1--99 3 Normal Operation Current (Sleep Mode) - No LCD. No camera WIFI ON mA 24 12.4--239 WIFi OFF mA 6 5.3--6.1 4 Normal Operation Current (online Play Movie 1080P Movie ) - No LCD. No camera WIFI On mA 485 222---989 5 Run in CPU Max Loading(1.5G+2.1G) WIFI On mA 2389 1506--32876 Camera Record no LCD WIFI Off mA NA NA 7 Leakage current - uA 178 <200uA Table 4.15-1Power Consumption (Without LCD/Camera) 4.16 Thermal(TBD) 4.17 RF Performance
REVISION PAGES0.1 44 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 44 4.17.1 GPS Performance GPS RF Performance Conditions : VBAT=4.0V ; signal source=-130dBm/Hz,Temp:25°C C/N0 40dB Table 4.17-4 GPS Performance
REVISION PAGES0.1 45 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 455 PIN Summary 5.1 J5218 BTB Connector Pin Signal Name Pin Signal Name 1 VBATT 2 VBUS_USB_IN 3 VBATT 4 VBUS_USB_IN 5 VBATT 6 USB3_HS_USB_ID 7 VBATT 8 VREG_S4A_1P8 9 VBATT 10 GND 11 VBATT 12 MIPI_DSI0_CLK_P_CON 13 VREG_L21A_2P95 14 MIPI_DSI0_CLK_N_CON 15 VREG_L21A_2P95 16 GND 17 BAT_THERM 18 MIPI_DSI0_LAN3_P_CON 19 GPIO_73 20 MIPI_DSI0_LAN3_N_CON 21 GPIO_21 22 GND 23 GPIO_12 24 MIPI_DSI0_LAN2_P_CON 25 GPIO_38 26 MIPI_DSI0_LAN2_N_CON 27 GND 28 GND 29 GND 30 MIPI_DSI0_LAN0_P_CON 31 GND 32 MIPI_DSI0_LAN0_N_CON 33 GND 34 GND 35 GPIO_72 36 MIPI_DSI0_LAN1_P_CON 37 GPIO_71 38 MIPI_DSI0_LAN1_N_CON 39 GPIO_70 40 GND 41 GPIO_69 42 PM_MPP4 43 GND 44 CBL_PWR_N 45 PM_GPIO_15 46 VCOIN
REVISION PAGES0.1 46 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 4647 GND 48 GPIO_34 49 GPIO_64 50 GPIO_33 51 BLSP8_GPIO_7 52 GPIO_32 53 BLSP8_GPIO_6 54 GPIO_31 55 MSM_UART_RX 56 GPIO_30 57 MSM_UART_TX 58 BLSP12_GPIO_88 59 BLSP7_GPIO_56 60 BLSP12_GPIO_87 61 BLSP7_GPIO_55 62 BLSP12_GPIO_86 63 BLSP7_GPIO_54 64 BLSP12_GPIO_85 65 BLSP7_GPIO_53 66 GPIO_63 67 BLSP9_GPIO_52 68 GPIO_62 69 BLSP9_GPIO_51 70 BLSP11_GPIO_61 71 BLSP9_GPIO_50 72 BLSP11_GPIO_60 73 BLSP9_GPIO_49 74 BLSP11_GPIO_59 75 BLSP10_GPIO_11 76 BLSP11_GPIO_58 77 BLSP10_GPIO_10 78 GPIO57_FORCE_USB_BOOT 79 BLSP10_GPIO_9 80 BLSP5_GPIO_84 81 BLSP10_GPIO_8 82 BLSP5_GPIO_83 83 KYPD_PWR_N1 84 BLSP5_GPIO_82 85 PM_RESIN_N 86 BLSP5_GPIO_81 87 PM_GPIO_03 88 GPIO_80 89 GPIO_24 90 GPIO_79 91 GPIO_23 92 GPIO_78 93 BLSP6_GPIO_28 94 GPIO_77 95 BLSP6_GPIO_27 96 GPIO_76 97 BLSP6_GPIO_26 98 GPIO_75 99 BLSP6_GPIO_25 100 GPIO_74 5.2 J5221 BTB Connector
REVISION PAGES0.1 47 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 47Pin Signal Name Pin Signal Name 1 GND 2 GND 3 CAM_MCLK0 4 MSM_HDMI_TX0_P 5 GND 6 MSM_HDMI_TX0_M 7 CAM_MCLK1 8 GND 9 GND 10 MSM_HDMI_TCLK_P 11 CAM_MCLK2 12 MSM_HDMI_TCLK_M 13 GND 14 GND 15 CCI_I2C_SDA0 16 MSM_HDMI_TX2_P 17 CCI_I2C_SCL0 18 MSM_HDMI_TX2_M 19 CCI_I2C_SDA1 20 GND 21 CCI_I2C_SCL1 22 MSM_HDMI_TX1_P 23 GPIO_29 24 MSM_HDMI_TX1_M 25 GND 26 GND 27 MIPI_CSI1_CLK_N 28 MIPI_CSI0_CLK_N 29 MIPI_CSI1_CLK_P 30 MIPI_CSI0_CLK_P 31 GND 32 GND 33 MIPI_CSI1_LANE0_N 34 MIPI_CSI0_LANE0_N 35 MIPI_CSI1_LANE0_P 36 MIPI_CSI0_LANE0_P 37 GND 38 GND 39 MIPI_CSI1_LANE1_N 40 MIPI_CSI0_LANE1_N 41 MIPI_CSI1_LANE1_P 42 MIPI_CSI0_LANE1_P 43 GND 44 GND 45 MIPI_CSI1_LANE2_N 46 MIPI_CSI0_LANE2_N 47 MIPI_CSI1_LANE2_P 48 MIPI_CSI0_LANE2_P 49 GND 50 GND 51 MIPI_CSI1_LANE3_N 52 MIPI_CSI0_LANE3_N 53 MIPI_CSI1_LANE3_P 54 MIPI_CSI0_LANE3_P
REVISION PAGES0.1 48 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 4855 GND 56 GND 57 USB2_HS_D_P 58 USB3_SS_RX0_P 59 USB2_HS_D_M 60 USB3_SS_RX0_M 61 GND 62 GND 63 PCIE1_REFCLK_N 64 USB3_SS_TX0_P 65 PCIE1_REFCLK_P 66 USB3_SS_TX0_M 67 GND 68 GND 69 PCIE1_MSM_RX_N 70 USB3_HS_D_P 71 PCIE1_MSM_RX_P 72 USB3_HS_D_M 73 GND 74 GND 75 PCIE1_MSM_TX_N 76 GPIO_130 77 PCIE1_MSM_TX_P 78 GPIO_131 79 GND 80 GPIO_132 81 PCIE2_REFCLK_N 82 GPIO_114 83 PCIE2_REFCLK_P 84 GPIO_115 85 GND 86 GPIO_116 87 PCIE2_MSM_RX_N 88 GND 89 PCIE2_MSM_RX_P 90 SDC2_SDCARD_D3 91 GND 92 SDC2_SDCARD_CMD 93 PCIE2_MSM_TX_N 94 SDC2_SDCARD_CLK 95 PCIE2_MSM_TX_P 96 SDC2_SDCARD_D0 97 GND 98 SDC2_SDCARD_D1 99 GPIO_22 100 SDC2_SDCARD_D2 5.3 J5219 ZIF Connector Pin Signal Name Pin Signal Name 1 PMI_GPIO2 26 GPIO_107
REVISION PAGES0.1 49 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 492 PMI_GPIO5 27 PM_GPIO_01 3 PMI_GPIO6 28 PM_GPIO_02 4 PMI_GPIO9 29 GPIO_117 5 PMI_GPIO10 30 GPIO_118 6 GND 31 GPIO_119 7 PMI_MPP1 32 GPIO_120 8 PMI_MPP2 33 GPIO_121 9 PM_MPP2 34 GPIO_122 10 PM_MPP5 35 GPIO_123 11 PM_MPP6 36 GPIO_124 12 GND 37 GPIO_125 13 PM_GPIO_17 38 SPI_CS_N_MAG 14 GND 39 SSC_PWR_EN 15 BBCLK2 40 SSC_I2C_3_SDA 16 GND 41 SSC_I2C_3_SCL 17 PM_GPIO_04 42 SSC_I2C_2_SDA 18 PM_GPIO_05 43 SSC_I2C_2_SCL 19 PM_GPIO_06 44 SSC_SPI_1_CS_N 20 PM_GPIO_07 45 SSC_SPI_1_CLK 21 PM_GPIO_10 46 SSC_SPI_1_MOSI 22 BLSP1_GPIO_0 47 SSC_SPI_1_MISO 23 BLSP1_GPIO_1 48 SSC_SPI_3_CLK 24 BLSP1_GPIO_2 49 SSC_SPI_3_CS_N 25 BLSP1_GPIO_3 50 SSC_SPI_3_MOSI 51 SSC_SPI_3_MISO 5.4 J5220 ZIF Connector
REVISION PAGES0.1 50 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 50Pin Signal Name Pin Signal Name 1 GND 26 GPIO_96 2 MIPI_CSI2_LAN3_P 27 GPIO_95 3 MIPI_CSI2_LAN3_N 28 GPIO_94 4 GND 29 GPIO_93 5 MIPI_CSI2_LAN2_P 30 GPIO_92 6 MIPI_CSI2_LAN2_N 31 GPIO_91 7 GND 32 GPIO_90 8 MIPI_CSI2_LAN0_P 33 GPIO_40 9 MIPI_CSI2_LAN0_N 34 GPIO_39 10 GND 35 GPIO_89 11 MIPI_CSI2_LAN1_P 36 GND 12 MIPI_CSI2_LAN1_N 37 MIPI_DSI1_LANE3_N_CON 13 GND 38 MIPI_DSI1_LANE3_P_CON 14 MIPI_CSI2_CLK_P 39 GND 15 MIPI_CSI2_CLK_N 40 MIPI_DSI1_LANE0_N_CON 16 GND 41 MIPI_DSI1_LANE0_P_CON 17 CAM_MCLK3 42 GND 18 GND 43 MIPI_DSI1_LANE2_N_CON 19 PM_GPIO_14 44 MIPI_DSI1_LANE2_P_CON 20 PM_GPIO_22 45 GND 21 GPIO_126 46 MIPI_DSI1_CLK_N_CON 22 PMI_GPIO3 47 MIPI_DSI1_CLK_P_CON 23 BLSP3_GPIO_48 48 GND 24 BLSP3_GPIO_47 49 MIPI_DSI1_LANE1_N_CON 25 GND 50 MIPI_DSI1_LANE1_P_CON 51 GND
REVISION PAGES0.1 51 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 515.5 J101 JTAG Connector Pin Signal Name Pin Signal Name 1 JTAG_TMS 9 JTAG_RESOUT_N 2 JTAG_TCK 10 MSM_UART_TX 3 JTAG_TDO 11 MSM_UART_RX 4 JTAG_TDI 12 VREG_S4A_1P8 5 JTAG_TRST_N 13 MSM_PS_HOLD 6 KYPD_PWR_N1 14 GPIO_57_FORCE_USB_BOOT 7 PM_RESIN_N 15 WDOG_DISABLE 8 GND 16 MSM_RESOUT_N FCC Caution: Any Changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment. 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. FCC Radiation Exposure Statement: This equipment complies with FCC radiation exposure limits set forth for an uncontrolled environment .This equipment should be installed and operated with minimum distance 20cm between the radiator& your body. Note: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may 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:
REVISION PAGES0.1 52 of 52 STATE TITLE Released Thundersoft TurboX® D820 SOM Datasheet 52—Reorient or relocate the receiving antenna. —Increase the separation between the equipment and receiver. —Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. —Consult the dealer or an experienced radio/TV technician for help. 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. If not, a second label must be placed on the outside of the final device that contains the following text: ―Contains FCC ID: 2AOHHTURBOXSOMD820. ISEDC Warning: This device complies with Innovation, Science, and Economic Development Canad 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. Le présent appareil est conforme aux CNR d' Innovation, Sciences et Développement économique Canada applicables aux appareils radio exempts de licence. L'exploitation est autorisée aux deux conditions suivantes : (1) l'appareil nedoit pas produire de brouillage, et (2) l'utilisateur de l'appareil doit accepter tout brouillage radioélectrique subi, même si le brouillage est susceptible d'en compromettre le fonctionnement. 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. The device is compliance with RF exposure guidelines, users can obtain Canadian information on RF exposure and compliance.The minimum distance from body to use the device is 20cm. Le présent appareil est conforme Après examen de ce matériel aux conformité ou aux limites d’intensité de champ RF, les utilisateurs peuvent sur l’exposition aux radiofréquences et la conformité and compliance d’acquérir les informations correspondantes. La distance minimale du corps à utiliser le dispositif est de 20cm. Per RSS GEN section 3.21 requirement, The module must be labeled with its own certification number, and, if the certification number is not visible when the module is installed inside a host device, then the host device into which the module is installed must also display a label referring to the enclosed module. For details as follows: Contains transmitter module IC: 23465-TURBOX820 where 23465-TURBOX820 is the module’s certification number

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