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Thundercomm TurboX D845 System on Module

Thundercomm TurboX

D845 System on Module

A high performance embedded platform based on Qualcomm® Snapdragon

™

845

processor

Description

Thundercomm TurboX

D845 System on Module(SOM) is a high performance intelligent module, integrating

Android or Linux system, based on Qualcomm SDA845 processor. It integrates the advanced 10 nm Fin FET

process, a customized 64-bit ARM v8-compliant Octacore Qualcomm Kryo 385 applications processor.

TurboX D845 SOM supports short-range wireless communication through Wi-Fi 802.11 a/b/g/n/ac and BT5.0.

This SOM supports 3840*2400@60fps display, it can connect 4 x camera modules, and integrating multiple

audio and video input/output interfaces. This SOM provides a variety of GPIO, I2C, UART and SPI standard

interfaces. In addition, it supports two MIPI-DSI, four MIPI-CSI and SOM common standard protocol

interfaces such as USB3.1, PCIE2.1/3.0, I2S and SLIMBUS.

TurboX D845 SOM provides convenient and stable system solution for IOT field, it can be embedded into the

device on VR/AR, Drone, Robot, Smart Camera, AI devices, and any other connecting fields. The size of

module is 37mm x 60mm x 7.1mm, weight 10.3g, with 336PINs.

Features

The following table shows the detailed features and performance on TurboX D845 SOM.

Processors

Applications

Processor

64-bit applications processor (Kryo 385) with 2 MB L3 cache

Quad high-performance Kryo cores at 2.649 GHz - Kryo Gold cluster with 256 kB L2

cache per core

Quad low-power Kryo cores at 1.766 GHz - Kyro Silver cluster with 128 kB L2 cache

per core

Digital signal

processing

Compute DSP with Qualcomm Hexagon Vector Extensions (dual-HVX512) processor

Summary of content (49 pages)

PAGE 1
Thundercomm TurboX D845 System on Module Thundercomm TurboXTM D845 System on Module A high performance embedded platform based on Qualcomm® Snapdragon ™ 845 processor Description Thundercomm TurboXTM D845 System on Module(SOM) is a high performance intelligent module, integrating Android or Linux system, based on Qualcomm SDA845 processor. It integrates the advanced 10 nm Fin FET process, a customized 64-bit ARM v8-compliant Octacore Qualcomm Kryo 385 applications processor.
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Thundercomm Sensor core Operating System TurboX D845 System on Module Snapdragon™ sensor core with dedicated sensor DSP and 1.0 MB memory (512 kB TCM + 512 kB L2) to support always-on low-power use cases Android OS 8 64GB UFS + LPDDR4x 4GB Memory Four-channel PoP high-speed memory – LPDDR4x SDRAM (4 x 16-bit) designed for a 1866 MHz clock. Multimedia 2 x 4-lane DSI DPHY 1.2 and DisplayPort 1.
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Thundercomm TurboX D845 System on Module OpenGL ES 3.2 + AEP, DX next, Vulkan 2 OpenCL 2.0 full profile, RenderScript Audio (build in TurboX D845 Carrier Board) Five DACs, five outputs five differential analog inputs; four ADCs Six digital microphones Codec Open DSP CPE voice activation subsystem for ultra low-power voice wake-up Native DSD (WCD9341 only), MBHC, and ANC 130 dB dynamic range, 32-bit DAC Low-power audio Low-power, low-complexity; 7.
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Thundercomm TurboX D845 System on Module USB 2x USB 3.1, one can support Type-C with DisplayPort PCIe 2x PCIe, one Gen 2 1-lane with PHY 2.1 and one Gen 3 1-lane with PHY 3.0 SDIO SD V3.
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Thundercomm TurboX D845 System on Module Applications TurboX D845 SOM is ideal for many applications including (but not limited to): AI, Robotics, Virtual Reality (VR), Augmented Reality (AR),Drones and Medical Devices. Revision History: Version Date Description V1.0 July 31, 2018 Revised Release V1.1 Sep 28, 2018 Update the pin definition description V1.2 Oct 8, 2018 Update format Copyright © 2018 All Rights Reserved , Thundercomm Technology Co., Ltd.
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Thundercomm TurboX D845 System on Module Table of Contents 1 2 3 Physical Description............................................................................................................................................ 9 1.1 Major Components Location................................................................................................................9 1.2 Connectors Function and Part Number.............................................................................................
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Thundercomm 4 5 TurboX D845 System on Module 3.2.13 Keys Interface...............................................................................................................................27 3.2.14 Sensor Interrupt Interface.............................................................................................................27 3.2.15 Debug UART Interface.................................................................................................................27 3.2.
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Thundercomm TurboX D845 System on Module 5.14 LED Current Driver..............................................................................................................................44 5.15 ADC...................................................................................................................................................... 45 5.16 Power Consumption.............................................................................................................................
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Thundercomm 1 Physical Description TurboX D845 System on Module 1.1 Major Components Location TurboX D845 SOM’s major components as below map. Figure 1.1- 1 TurboX D845 SOM Key component Location Copyright © 2018 All Rights Reserved , Thundercomm Technology Co., Ltd.
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Thundercomm TurboX D845 System on Module 1.2 Connectors Function and Part Number Below table indicates connectors detail information. Part Reference CON2401,CON2402 J2 J3002,J5701,J5801 Description BTB connectors, used for connecting to Manufacturer Part Number Manufacturer FX10A-168P-SV HIROSE JTAG connector, used for JTAG Debug AXG7160J7 Panasonic RF antenna connector, J3002 is for 818000500 ECT Carrier Board. Table 1.
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Thundercomm TurboX D845 System on Module 1.3 Package Drawing and Dimensions Figure 1.3- 1 Top View Figure 1.3- 2 Side View Figure 1.3- 3 Bottom View Copyright © 2018 All Rights Reserved , Thundercomm Technology Co., Ltd.
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Thundercomm TurboX D845 System on Module 2 Functional Overview 2.1 DSP(Hexagon v65)  Hexagon Coprocessor (HCP) and VMA1.0  Universal Bandwidth Compression(UBWC) and DMA1.0  Vector TCM (VTCM)  Scatter-Gather support  HVX contexts and concurrency  Migrating to 128-byte mode for future forward compatibility  dspCV_init is deprecated  New HAP DCVS v2 APIs for clock and bus voting  dspCV_concurrency is deprecated  Session restart  SDK 3.
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Thundercomm    More efficient, wider Shader microarchitecture  Significant resource (ALU) increase in Shader Processors  Increased texture performance TurboX D845 System on Module Memory bandwidth reduction and efficiency improvements  Improved UI with updated 2D rasterization patterns  Improved hidden surface removal to reduce work  Better lossless compression to reduce memory bandwidth and power Improvements for Vulkan support  Reduced overhead in hardware and driver 2.
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Thundercomm TurboX D845 System on Module 2.4 ISP(ISP280)    IFE: Image front-end engine  Bayer process for preview/video only  Stats for 3A  Muti-pass outputs feeding to IPE IPE: Image processing engine, consists of 2 parts  NPS: Noise processing segment  PPS: Post processing segment BPS: Bayer processing segment  Bayer process and noise reduction for snapshot only  Simple stats for special offline processing  Muti-pass outputs feeding to IPE 2.5 Connection  2 x 2 802.
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Thundercomm TurboX D845 System on Module 3 Interfaces Description This chapter introduces all the interfaces definition, purpose to guide developer easy to design and verification on Thundercomm TurboXTM D845 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.
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Thundercomm TurboX D845 System on Module 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 2.96V. P12 SSC Power group 12, it is 1.8V. Table 3.1- 1 Interfaces 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.
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Thundercomm TurboX D845 System on Module 11,12,17,18,23,24, 29,30,35,36,41,42, 46,54,97,103,104, 109,110,115,116,1 21,122,128,156,15 7,162,168 8 CON2402 J2 GND GND Table 3.2- 1 Power Supply Definition 3.2.2 Touchscreen Interface Touchscreen panels are supported using I2C buses and GPIOs configured as discrete digital inputs.
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Thundercomm MIPI_DSI1_CLK_P MIPI_DSI1_CLK_N MIPI_DSI1_LANE2_P MIPI_DSI1_LANE2_N MIPI_DSI1_LANE3_N MIPI_DSI1_LANE3_P MIPI_DSI1_LANE1_N MIPI_DSI1_LANE1_P LCD_RST_N LCD_TE0 TurboX D845 System on Module CON2402 CON2402 CON2402 CON2402 CON2402 CON2402 CON2402 CON2402 CON2402 CON2402 20 22 26 28 32 34 38 40 61 59 DSI DSI DSI DSI DSI DSI DSI DSI PX3 PX3 AO AO AO AO AO AO AO AO DO DI Compliant with MIPI Alliance Specification for Display Serial Interface LCD reset signal LCD TE signal input Table 3.
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Thundercomm MIPI_CSI0_CLK_N TurboX D845 System on Module CON2401 29 CSI AI Camera1 Interface PIN Name Location PIN Voltage Type CCI_I2C_SDA0 CON2401 143 PX3 OD CCI_I2C_SCL0 CON2401 141 PX3 OD CAM1_PWDN CON2401 119 PX3 DO CAM1_RSTN CAM1_STROBE CON2401 CON2401 95 115 PX3 PX3 DO DI CAM1_DVDD_EN CON2401 129 LV DO CAM1_AVDD_EN CON2401 97 PX3 DO CAM_MCLK1 CON2401 96 PX3 DO MIPI_CSI1_LANE3_N MIPI_CSI1_LANE3_P MIPI_CSI1_LANE2_P MIPI_CSI1_LANE2_N MIPI_CSI1_LANE1_N MIPI_CS
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Thundercomm TurboX D845 System on Module CAM_MCLK2 CON2401 100 PX3 DO MIPI_CSI2_LANE1_P MIPI_CSI2_LANE1_N MIPI_CSI2_LANE2_P MIPI_CSI2_LANE2_N MIPI_CSI2_LANE3_P MIPI_CSI2_LANE3_N MIPI_CSI2_CLK_P MIPI_CSI2_CLK_N MIPI_CSI2_LANE0_N MIPI_CSI2_LANE0_P CON2401 CON2401 CON2401 CON2401 CON2401 CON2401 CON2401 CON2401 CON2401 CON2401 63 65 69 71 75 77 62 64 68 70 CSI CSI CSI CSI CSI CSI CSI CSI CSI CSI AI AI AI AI AI AI AI AI AI AI Camera main clock output MIPI Signals of Camera2 Compliant with MIPI Alli
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Thundercomm TurboX D845 System on Module CODEC_SLIMBUS_DATA1 CON2402 50 PX3 IO CODEC_SLIMBUS_CLK CON2402 52 PX3 DO CODEC_INT1_N CODEC_INT2_N CODEC_RST_N LN_BB_CLK2_WCD CODEC_SPI_CLK CODEC_SPI_MOSI CODEC_SPI_CS_N CODEC_SPI_MISO MI2S1_WS MI2S1_MCLK MI2S1_SCK MI2S1_DATA1 MI2S1_DATA0 MI2S2_WS MI2S2_SCK MI2S2_DATA0 MI2S2_DATA1 MI2S3_WS MI2S3_DATA1 MI2S3_DATA2 MI2S3_DATA0 MI2S3_DATA3 MI2S3_SCK CON2402 CON2402 CON2402 CON2402 CON2402 CON2402 CON2402 CON2402 CON2402 CON2402 CON2402 CON2402 CON2402 CON2
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Thundercomm TurboX D845 System on Module USB1_SS_TX1_M USB1_SS_TX1_P USB1_SS_RX1_P USB1_SS_RX1_M CON2402 CON2402 CON2402 CON2402 112 114 111 113 DO DO DI DI USB1_HS_DP CON2402 120 IO USB1_HS_DM CON2402 118 IO USB_VBUS CON2402 USB_CC1 USB_CC2 EDP_AUX_P EDP_AUX_N USB 2.0 Signals Compliant with USB 2.
PAGE 23
Thundercomm TurboX D845 System on Module PCIE_0_CLK_REQ CON2401 6 PX3 DI PCIE_0_RST_N PCIE_0_WAKE_N PCIE1_REFCLK_P PCIE1_REFCLK_M PCIE1_RX_P PCIE1_RX_M PCIE1_TX_M PCIE1_TX_P CON2401 CON2401 CON2401 CON2401 CON2401 CON2401 CON2401 CON2401 2 4 122 124 116 118 128 130 PX3 PX3 DO DI AO AO AI AI AO AO PCIE_1_CLK_REQ CON2401 110 PX3 DI PCIE_1_RST_N PCIE_1_WAKE_N CON2401 CON2401 108 112 PX3 PX3 DO DI PCIe clock require signal, need to reserve pull up resistor PCIe reset signal PCIe wake up si
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Thundercomm TurboX D845 System on Module SSC_SPI2_CLK CON2401 146 PX12 DO SSC_SPI2_MISO CON2401 148 PX12 DI Table 3.2- 8 SSC interface definition 3.2.9 SDIO Interface The SOM support dual 4-laneSDIO, SDC2 connect to 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.
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Thundercomm TurboX D845 System on Module UART, SPI, or I2C operation. I2C is a two-wire bus that can be routed to multiple devices; each line of each bus need to supplement by a 2.
PAGE 26
Thundercomm TurboX D845 System on Module will power on automatically. Figure 3.2- 1 Power on signal Power on Interface PIN Name CBL_PWR_N Location CON2401 Voltage PIN pulled up internally through a 200K resistor to 1.8V 133 Type Description DI Signal use for auto power on when you plug in a battery, active low, internal pull up Notes Table 3.2- 11 Power on interface definition 3.2.
PAGE 27
Thundercomm PM_RESIN_N TurboX D845 System on Module CON2402 pulled up internally to 1.8V 8 DI Volume down/Reset key signal, Low active Table 3.2- 12 Reset interface definition 3.2.13 Keys Interface This is interface dedicate for key.
PAGE 28
Thundercomm MSM_UART_TX TurboX D845 System on Module CON2402 PX3 138 use for debug DO Table 3.2- 15 Debug UART interface definition 3.2.16 Battery Interface This is dedicate for battery interface, major for monitoring battery status, inserting and voltage detect.
PAGE 29
Thundercomm TurboX D845 System on Module and flashing periods from 0 to 12 seconds in steps of ≤ 0.5 seconds (or always on). PWMs PINs PIN Name Location PIN Voltage Type PWM_OUTPUT1 CON2402 145 P3 LV PWM_OUTPUT2 CON2402 143 P3 MV Voltage Type Description Can be configured as GPIO and PWM(max 19.
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Thundercomm TurboX D845 System on Module 4 Connector PIN Summary 4.
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Thundercomm TurboX D845 System on Module 51 MIPI_CSI1_LANE0_N 52 SDC2_DATA0 53 MIPI_CSI1_LANE0_P 54 SDC2_DATA1 55 GND 56 SDC2_DATA3 57 MIPI_CSI1_CLK_N 58 SDC2_DATA2 59 MIPI_CSI1_CLK_P 60 GND 61 GND 62 MIPI_CSI2_CLK_P 63 MIPI_CSI2_LANE1_P 64 MIPI_CSI2_CLK_N 65 MIPI_CSI2_LANE1_N 66 GND 67 GND 68 MIPI_CSI2_LANE0_N 69 MIPI_CSI2_LANE2_P 70 MIPI_CSI2_LANE0_P 71 MIPI_CSI2_LANE2_N 72 GND 73 GND 74 MIPI_CSI3_LANE1_N 75 MIPI_CSI2_LANE3_P 76 MIPI_CSI3_LANE1_P 77 M
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Thundercomm TurboX D845 System on Module 111 CAM3_PWDN 112 PCIE_1_WAKE_N 113 CAM0_PWDN 114 GND 115 CAM1_STROBE 116 PCIE1_RX_P 117 CAM2_STROBE 118 PCIE1_RX_M 119 CAM1_PWDN 120 GND 121 CAM0_STROBE 122 PCIE1_REFCLK_P 123 CAM2_RSTN 124 PCIE1_REFCLK_M 125 CAM3_RSTN 126 GND 127 CAM3_DVDD_EN 128 PCIE_TX_M 129 CAM1_DVDD_EN 130 PCIE1_TX_P 131 CAM0_DVDD_EN 132 GND 133 CBL_PWR_N 134 MAG_INT 135 SSC_MAG_CS_L 136 MAG_DRDY_INT 137 SSC_GYRO_CS_L 138 GYRO_INT 139 S
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Thundercomm TurboX D845 System on Module 4.
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Thundercomm TurboX D845 System on Module 55 BLSP_SPI2_MISO 56 MI2S2_WS 57 BLSP_SPI2_MOSI 58 MI2S2_SCK 59 LCD_TE0 60 MI2S2_DATA0 61 LCD_RST_N 62 MI2S2_DATA1 63 GPIO_42 64 MI2S3_WS 65 GPIO_44 66 MI2S3_DATA1 67 GPIO_52 68 MI2S3_DATA2 69 GPIO_50 70 MI2S3_DATA0 71 GPIO_134 72 MI2S3_DATA3 73 GPIO_122 74 MI2S3_SCK 75 GPIO_124 76 APPS_I2C10_SCL 77 GPIO_49 78 APPS_I2C10_SDA 79 BLSP_SPI0_CS_L 80 MI2S1_WS 81 BLSP_SPI0_MOSI 82 MI2S1_MCLK 83 BLSP_SPI0_MISO 84
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Thundercomm TurboX D845 System on Module 115 GND 116 GND 117 USB1_SS_RX0_M 118 USB1_HS_DM 119 USB1_SS_RX0_P 120 USB1_HS_DP 121 GND 122 GND 123 VREG_S4A_1P8 124 USB1_SS_TX0_M 125 VREG_S4A_1P8 126 USB1_SS_TX0_P 127 VREG_S4A_1P8 128 GND 129 FORCE_USB_BOOT 130 EDP_AUX_P 131 GPIO_128 132 EDP_AUX_N 133 GPIO_135 134 VCOIN 135 GPIO_129 136 MSM_UART_RX 137 NC 138 MSM_UART_TX 139 VREG_BOB 140 USB_CC2 141 VREG_BOB 142 USB_CC1 143 PWM_OUTPUT2 144 BATT_THERM
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Thundercomm TurboX D845 System on Module 4.3 J2 BTB Connector Pin Signal Name Pin Signal Name 1 MSM_JTAG_TMS 9 MSM_JTAG_SRST_N 2 MSM_JTAG_TCK 10 MSM_UART_TX 3 MSM_JTAG_TDO 11 MSM_UART_RX 4 MSM_JTAG_TDI 12 VREG_S4A_1P8 5 MSM_JTAG_TRST_N 13 MSM_PS_HOLD 6 PHONE_ON_N 14 FORCE_USB_BOOT 7 PM_RESIN_N 15 WDOG_DISABLE 8 GND 16 MSM_RESOUT_N Copyright © 2018 All Rights Reserved , Thundercomm Technology Co., Ltd.
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Thundercomm TurboX D845 System on Module 5 Electrical Characteristics 5.1 Absolute Maximum Ratings The SOM needs to be desinged in the operatin conditions which is shown as below table. Parameter Min Max Units USB_VBUS -0.3 28 V VBAT -0.5 6 V -0.5 6 V ESD-HBM model rating ±2k KV ESD-CDM model rating ±4k KV Input Power voltage VBATT_CONN_VSENSE_P, VBATT_CONN_VSENSE_M, RSENSE_EXT_M, RSENSE_EXT_P ESD Table 5.
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Thundercomm TurboX D845 System on Module RSENSE_EXT_P Thermal conditions Operating temperature -20 25 50 °C Storage temperature -40 - 70 °C Table 5.2- 1 Operating 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. 5.3 Digital-logic characteristics The digital I/O's performance depends on its pad type, usage, and power supply voltage.
PAGE 39
Thundercomm Parameter VIH VIL VSHYS TurboX D845 System on Module Description High-level input voltage, CMOS/Schmitt, Min Max Units 0.7 x VDDPX_3 VDDPX_3+0.3 V -0.3 0.3 x VDDPX_3 V 300 - mV Low-level input voltage, CMOS/Schmitt, Schmitt hysteresis voltage VOH High-level output voltage, CMOS VDDPX_3 - 0.45 VDDPX_3 V VOL Low-level output voltage, CMOS 0.0 0.45 V Pull-up resistance 20 K 60 K Ω Pull-down resistance 60 K 20 K Ω RPULL-UP RPULL-DOWN Table 5.
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Thundercomm TurboX D845 System on Module 5.4 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 MIPI Alliance Specification for CPHY v1.0 None Table 5.5- 1 MIPI_DSI Applicable standard Feature exceptions RAW7 not supported DPCM MIPI Alliance Specification for CSI-2 v1.
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Thundercomm TurboX D845 System on Module PCI Express Specification, Revision 3.0 None Table 5.7- 1 PCIe 5.7 DisplayPort The SOM supports DisplayPort standards and exceptions Applicable standard VESA DisplayPort V1.4 Feature exceptions HBR3 Table 5.8- 1 DP 5.8 SLIMbus The SOM supports SLIMbus HDMI standards and exceptions Applicable standard MIPI Alliance Specification for Serial Low-power Interchip Media Bus Version 1.01.01 Feature exceptions None Table 5.9- 1 SLIMbus 5.
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Thundercomm TurboX D845 System on Module mode. Supports 16-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.
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Thundercomm TurboX D845 System on Module 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 Min Typ Max – – – 24.
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Thundercomm TurboX D845 System on Module 5.13 Fuel gauge The fuel gauge module offers a hardware-based algorithm that is able to accurately estimate the Battery’s state of charge by using current monitoring and voltage-based techniques. This hybrid approach ensures both excellent short-term linearity and long-term accuracy. Furthermore, neither full battery charge cycling, nor zero-current-load conditions, are required to maintain the accuracy.
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Thundercomm TurboX D845 System on Module 5.15 ADC ADC performance specifications are listed in Table 4.16- 1 Specification Test condition Min Typ Max Units 1/1 channel end-to-end accuracy Calibrated data result -11 ±6 11 mV 1/1 channel end-to-end accuracy with internal pull-up Calibrated data result -12.5 ±7 12.5 mV 1/3 channel end-to-end accuracy Calibrated data result -20 ±10 20 mV - 114.441 - μV ADC resolution (LSB) ADC conversion time 1K decimation ratio, 4.
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Thundercomm TurboX D845 System on Module 5.16 Power Consumption Power Consumption S/N average value Normal Operation Current (Play Movie ) 1 3 4 4K60 -Play mp4 4K TBD mA 1080P -Loudspeaker 2 DUT UNIT Test Items and Test Condition TBD Take photo mA TBD video mA TBD Normal Operation Current (Sleep Mode) WIFI ON mA TBD - No LCD. No camera WIFi OFF mA TBD uA TBD Normal Operation Current (Camera mode) - HDMI Output Leakage current Table 5.17- 1 Power Consumption 5.
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Thundercomm TurboX D845 System on Module Thermal Test Result △T Test Location Temperature(Max) 1 Environment Temperature 25 2 UFS 34.6 9.6 3 PM845 38.6 13.6 4 DDR 33.9 8.9 5 PMI8998 35.5 10.5 6 WIFI 33.8 8.8 7 PCB 29.7 4.7 Figure 5.18- 1 Thermal Data Heat Sink Design Copyright © 2018 All Rights Reserved , Thundercomm Technology Co., Ltd.
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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.
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Integration instructions for host product manufacturers according to KDB 996369 D03 OEM Manual v01 2.2 List of applicable FCC rules CFR 47 FCC PART 15 SUBPART C/E has been investigated. It is applicable to the modular. 2.3 Specific operational use conditions This module is stand-alone modular.