Empowering Every IoT Device with Our Technology Thundercomm TurboX C610 SOM DATASHEET Rev V1.
TurboX C610 SOM DATASHEET Revision History Revision 1.0 Date Oct 12,2020 Description Initial release Applications TurboX C610 SOM is ideal for many applications including (but not limited to): AI, Robotics, Virtual Reality (VR), Augmented Reality (AR), Drones and Medical Devices.
TurboX C610 SOM DATASHEET Table of Contents TurboX C610 System on Module ............................................................................................ 1 Description ..................................................................................................................................... 1 Features .......................................................................................................................................... 1 1 Physical Description ...................
TurboX TurboX C610 SOM DATASHEET C610 System on Module A high performance SOM (System On Module) based on Qualcomm® Snapdragon™ QCS610 processor Description Thundercomm TurboX C610 System on Module (SOM) is a high performance intelligent module, integrating Android, based on Qualcomm® Snapdragon™ 610 processor to boast a 64-bit capable Octa-core CPU architecture with Wi-Fi to balance power and performance in high-tier products. C610 SOM supports 1x1 Wi-Fi 802.11 a/b/g/n/ac and BT5.1.
TurboX C610 SOM DATASHEET OpenCL 2.0 One 4-lane; DSI D-PHY 1.2 with split link; VESA DSC 1.1 supporting resolutions up to QHD+ Display support Display port 1.4 Color depth – 30-bit pp; TFT, LTPS, CSTN 2520 × 1080p 60 (Built-in) + 1920 × 1200 at 60 (external) Three 4-lane CSIs (4/4/4 or 4/4/2/1) D-DPHY is 2.1 Gbps, CPHY – 5.7 Gbps per trio Camera support Three (two IFEs + one IFE Lite); 16 + 16 +2 MP One IPE and one BPS Multi-format codec up to 4K30 video encode.
TurboX C610 SOM DATASHEET Operating Operation Temperature: -20℃ ~ 70℃ Environment Operation Humidity: 5%~95%, non-condensing Power supply 3.2V ~ 4.8V, typ. 3.8V Dimension 38mm x 38mm LGA RoHS All hardware components are fully compliant with EU RoHS 2.0 directive 1 Physical Description 1.1 Hardware Block Diagram Figure 1.1-1 TurboX C610 SOM Hardware System Block Diagram 1.2 Major Components Location TurboX C610 SOM's major components is shown as below.
TurboX C610 SOM DATASHEET Figure 1.2-1 TurboX C610 SOM Key component Location Copyright© 2020 Thundercomm Technology Co., Ltd. All rights reserved.
TurboX C610 SOM DATASHEET 1.3 Package Drawing and Dimensions Figure 1.3-1 TurboX C610 SOM Drawing and Dimensions 2 Interfaces Description This chapter introduces all the interfaces definition, purpose to guide developer easy to design and verification on Thundercomm TurboX C610 SOM. 2.1 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.
TurboX C610 SOM DATASHEET is a prefix to other programmable options: NP: pdpukp = default noPD: nppukp = default pull-down with programmable options following the colon (:) PU: nppdkp = default pullKP: nppdpu = default keeper with programmable options following the colon (:) KP MIPI Contains an internal weak keeper device (keepers cannot drive external buses) Mobile industry processor interface NP Contains no internal pull OD Open drain PD Contains an internal pull-down device PI Power input PO
TurboX C610 SOM DATASHEET 2.2 Pin Description Figure 0-1 TurboX C610 SOM pin Top view Copyright© 2020 Thundercomm Technology Co., Ltd. All rights reserved.
TurboX C610 SOM DATASHEET 2.3 Pin Assignment 2.3.
TurboX C610 SOM DATASHEET A98 VREG_L8C_1P8 PO Sensor 1.8V B46 VREG_L9C_2P95 PO SD/MMC card, 2.95V B42 VREG_WLED PO LCD Backlight Power B50 VREG_DISP_P PO LCDB positive output voltage, 5.5V B19 VREG_DISP_N PO LCDB negative output voltage,-5.5V C40 VIB_DRV_P PO Power supply for haptics driver A16 VCOIN AI, AO Coin-cell battery/capacitor 2.3.2 Control Signal Pad# Function Voltage Type Function description A57 QSC_MODE_0 1.
TurboX C610 SOM DATASHEET B2 BATT_ID - AI Battery ID input B28 BATT_THERM - AI Battery temperature input C4 BA_N - DO Battery alarm A66 SPMI_CLK 1.8V DO SPMI communication bus clock A67 SPMI_DATA 1.8V B SPMI communication bus AUX1, C60 TYPEC_uUSB_SEL - AO 560Kohm to GND if use USB Type_C connector on USB port 0.
TurboX A18 USB_CC2 - AI/PO C610 SOM DATASHEET CC2 pin for the USB Type-C connector 2.3.
TurboX C33 MIPI_DSI0_L3_N DSI AO MIPI DSI lane 3 pair minus C13 MIPI_DSI0_CLK_P DSI AO MIPI DSI clock pair plus C31 MIPI_DSI0_CLK_N DSI AO MIPI DSI clock pair minus C51 MIPI_DSI1_CLK_P DSI AO MIPI DSI clock 1 pair plus C69 MIPI_DSI1_CLK_N DSI AO MIPI DSI clock 1 pair minus C610 SOM DATASHEET 2.3.
TurboX A104 WLED_SINK4 - PI C610 SOM DATASHEET WLED low-side current sink input, string 4 2.3.
TurboX B62 QUP0_1_I2C_SDA B GPIO_04 B89 QUP0_1_I2C_SCL B GPIO_05 C94 QUP1_2_SPI_MISO DI GPIO_06 C111 QUP1_2_SPI_MOSI DO GPIO_07 C93 QUP1_2_SPI_CLK DO GPIO_08 C129 QUP1_2_SPI_CS_N DO GPIO_09 B73 SDM_GPIO_14 B-PD:nppukp GPIO_14 B72 SDM_GPIO_15 B-PD:nppukp GPIO_15 B66 QUP0_0_UART_TX DO GPIO_16 B96 QUP0_0_UART_RX DI GPIO_17 D57 QUP0_3_I2C_SDA B GPIO_18 D47 QUP0_3_I2C_SDL B GPIO_19 B104 HDMI_RSTN B-PD:nppukp GPIO_20 C107 SDM_GPIO_21 B-PD:nppukp GPIO_21 C90
TurboX A77 IMX290_DVDD_eLDO5_E N B-PD:nppukp GPIO_46 A82 CAM0_RST_N B-PD:nppukp GPIO_47 A80 USB_DP_GPU_SEL B-PD:nppukp GPIO_49 A109 SDM_GPIO_50 B-PD:nppukp GPIO_50 D2 QLINK_REQUEST DI GPIO_51 D3 QLINK_ENABLE DO GPIO_52 D71 PA_INDICATOR DO GPIO_53 C17 SDM_GPIO_54 B-PD:nppukp GPIO_54 D72 SDM_GPIO_55 B-PD:nppukp GPIO_55 C36 SDM_GPIO_56 B-PD:nppukp GPIO_56 C35 BOOT_CONFIG_0 DI GPIO_57 C54 SDM_GPIO_58 B-PD:nppukp GPIO_58 C18 SDM_GPIO_59 B-PD:nppukp GPIO_59 C72
TurboX B93 KEY_SNAPSHOT_N B-PD:nppukp GPIO_98 C125 SDM_GPIO_99 B-PD:nppukp GPIO_99 B64 KEY_FOCUS_N B-PD:nppukp GPIO_100 D4 WMSS_RST_N B-PD:nppukp GPIO_105 C88 WCD_WSA_EN1 B-PD:nppukp GPIO_108 A122 SDM_WSA_EN2 B-PD:nppukp GPIO_109 A90 SDM_SWR_DATA B GPIO_110 A121 SDM_SWR_CLK B GPIO_111 B78 I2S_SCK BI GPIO_115 B107 I3S_WS B GPIO_116 B79 I2S_DATA0 B GPIO_117 B106 I2S_DATA1 B GPIO_118 B77 HDMI_DET_N B-PD:nppukp GPIO_119 C126 BOOT_CONFIG_3 DI GPIO_120 B105
TurboX D26 QLINK_RX1_P - AI QLink downlink lane 0 - plus D36 QLINK_RX1_M - AI QLink downlink lane 0 - minus D27 QLINK_RX2_P - AI QLink downlink lane 1 - plus D37 QLINK_RX2_M - AI QLink downlink lane 1 - minus D6 QLINK_RX3_P - AI QLink downlink lane 2 - plus D16 QLINK_RX3_M - AI QLink downlink lane 2 - minus D25 QLINK_TX1_P - AO QLink uplink lane 0 - plus D35 QLINK_TX1_M - AO QLink uplink lane 0 - minus D5 QLINK_CLK_P - AO QLink clock - plus D15 QLINK_CLK_M -
TurboX C610 SOM DATASHEET 3 Function Description 3.1 Input Power Management Input power management functions include: Switching charger and battery charging Qualcomm battery gauge Battery interface module Battery current limiting Coin cell/keep alive capacitor 3.2 Charger Module PM6150 incorporates a dual-input, high-efficiency switch-mode battery charger for single-cell lithium batteries. 3.
TurboX C610 SOM DATASHEET 20 VREG_L17A PM6150 3.128 USB 3.1V 21 VREG_11C PM6150L 2.960 UFS 2.96 V 22 VREG_L6C PM6150L 2.960 PX_2 23 VREG_L9C PM6150L 2.960 SD_MMC 3V 24 VREG_S7C PM6150L 0.800 Modem 25 VREG_S3C PM6150L 0.800 APC0 3.4 C610 System Power Tree 3.5 C610 Power On There are 2 pads which can trigger Power on sequence. KPD_PWR_N: Connected to a keypad power-on button and when grounded, initiates the power-on sequence. Copyright© 2020 Thundercomm Technology Co.
TurboX C610 SOM DATASHEET If held at a logic low for longer durations. Can also be configured for generating a stage 2 and/or stage 3 reset Pulled up internally to 1.8V via the dVdd regulator. CBL_PWR_N: Alternate input pad, which can be used to initiate the power-on sequence when grounded; pulled up internally to 1.8V via the dVdd regulator. 3.6 C610 Boot Configuration Special boot-related GPIO features: They are sensed for boot-purposes during IC reset (during fuse sense).
TurboX C60 TYPEC_uUSB_SEL C610 SOM DATASHEET AUX1,560Kohm to GND if use USB Type C connector on USB port 0. Float, if use Micro USB connector 3.8 Debug UART QUP0 serial engine 0 (GPIO_16, GPIO_17) can be used for debugging. Copyright© 2020 Thundercomm Technology Co., Ltd. All rights reserved.
TurboX C610 SOM DATASHEET 4 Electrical Characteristics 4.1 Operating Conditions Parameters Min Typical Max Units Input Power voltage USB_IN 3.7 12.6 V VBATT, VPH_PWR +2.7 3.8 +4.8 V MID_CHG 3.7 - 12.6 V -30 25 125 °C Thermal conditions Operating Junction temperature 4.2 Output Power Function Default Programble Rated Default Expected use voltage(V) range(V) current(mA) State VREG_S4A_1P056 1.056 0.32 to 2.04 4000 LV sub-regulation; VREG_S5A_2P04 2.04 0.32 to 2.
TurboX C610 SOM DATASHEET 4.3 Digital-logic characteristics The digital I/O's performance depends on its pad type, usage, and power supply voltage. The I2C, USB,SPI and UART are complied with their standards, no additional specifications are listed. Performance specifications for all other digital I/Os are organized within this section. 4.3.1 Digital GPIO characteristics The GPIOs can be programmed for a variety of configurations.
TurboX C610 SOM DATASHEET 4.6 I2C I2C standards and exceptions: Applicable standard Feature exceptions I²C Specification, version 5.0, October 2012 None 4.7 RF Performance Wi-Fi supports 2.4G & 5G, below table records the RF performance test results. Table 0-1 WIFI Performance 2.4G WLAN performance Tx Characteristics Parameter Comments Tx frequency range Min Typ 2.412 Max Unit 2.484 GHz 1. power level 802.11b@11Mbps 14.5 16 18 dbm 802.11g @54Mbps 12.5 14 18 dbm 802.11n,2.
TurboX C610 SOM DATASHEET 1. power level 802.11a@54Mbps 10.5 12 15 dbm 802.11n @HT20-MCS7 9.5 11 14 dbm 802.11n @HT40-MCS7 9.5 11 13 dbm 802.11ac@VHT20-MCS8 8.5 10 14 dbm 802.11ac@VHT40-MCS9 8.5 10 13 dbm 802.11ac@VHT80-MCS9 8.5 10 12 dbm 2. Frequency Error -20 20 ppm 3.Modulation Accuracy(EVM) 802.11a@54Mbps -34 -25 db 802.11n @HT20-MCS7 -34 -28 db 802.11n @HT40-MCS7 -37 -28 db 802.11ac@VHT20-MCS8 -37 -30 db 802.11ac@VHT40-MCS9 -39 -32 db 802.
TurboX C610 SOM DATASHEET Statement 1. Conformity Assessment of the Radio Module to the RED This radio module is for professional installation only. When installing this radio module permanently into a host product to a create new radio equipment device; the manufacturer responsible for placing the final radio product on the market in the EU must assess if the combination of this radio module and the host product complies with the essential requirements of the RE Directive 2014/53/EU. 2.
TurboX C610 SOM DATASHEET nearby circuitry, etc. In reality, it is expected that manufacturers of final radio products will need to test the output power, conducted spurious emissions and receiver performance requirements on the final radio product; and not take the results of those test cases from the radio module test reports. Radiated test cases will also need to be performed on the final radio product. 3.
TurboX C610 SOM DATASHEET 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. Integration instructions for host product manufacturers according to KDB 996369 D03 OEM Manual v01 3.1.List of applicable FCC rules CFR 47 FCC PART 15 SUBPART C has been investigated. It is applicable to the modular. 3.2.
TurboX C610 SOM DATASHEET 3.7.Label and compliance information The final end product must be labeled in a visible area with the following "Contains FCC ID: 2AOHHTURBOXC610”. 3.8.Information on test modes and additional testing requirements Host manufacturer is strongly recommended to confirm compliance with FCC requirements for the transmitter when the module is installed in the host. 3.9.
