User Manual for BOARDCON models including: MINI1126, Mini1126, Mini1126 System on Module, System on Module, Module
Customize the embedded system based on 1 YourIdea 1. Introduction 1.1. About this Manual This manual is intended to provide the user with an overview of the board and benefits, complete features
File Info : application/pdf, 17 Pages, 2.64MB
DocumentDocumentMini1126 Reference User Manual V4.20241025 Boardcon Embedded Design www.armdesigner.com Customize the embedded system based on Your Idea 1. Introduction 1.1. About this Manual This manual is intended to provide the user with an overview of the board and benefits, complete features specifications, and set up procedures. It contains important safety information as well. 1.2. Feedback and Update to this Manual To help our customers make the most of our products, we are continually making additional and updated resources available on the Boardcon website ((www.boardcon.com , www.armdesigner.com)). These include manuals, application notes, programming examples, and updated software and hardware. Check in periodically to see what's new! When we are prioritizing work on these updated resources, feedback from customers is the number one influence, If you have questions, comments, or concerns about your product or project, please no hesitate to contact us at support@armdesigner.com. 1.3. Limited Warranty Boardcon warrants this product to be free of defects in material and workmanship for a period of one year from date of buy. During this warranty period Boardcon will repair or replace the defective unit in accordance with the following process: A copy of the original invoice must be included when returning the defective unit to Boardcon. This limited warranty does not cover damages resulting from lighting or other power surges, misuse, abuse, abnormal conditions of operation, or attempts to alter or modify the function of the product. This warranty is limited to the repair or replacement of the defective unit. In no event shall Boardcon be liable or responsible for any loss or damages, including but not limited to any lost profits, incidental or consequential damages, loss of business, or anticipatory profits arising from the use or inability to use this product. Repairs make after the expiration of the warranty period are subject to a repair charge and the cost of return shipping. Please contact Boardcon to arrange for any repair service and to obtain repair charge information. 1 Customize the embedded system based on Your Idea Content 1 Mini1126 Introduction ............................................................................................................................. 3 1.1 Summary ..................................................................................................................................... 3 1.2 Features....................................................................................................................................... 3 1.3 Mini1126 Block Diagram .............................................................................................................. 5 1.4 Mini1126 specifications ................................................................................................................ 6 1.5 Mini1126 PCB Dimension ............................................................................................................ 7 1.6 Mini1126 Pin Definition ................................................................................................................ 7 1.7 Development Kit (EM1126) ........................................................................................................ 12 2 Hardware Design Guide....................................................................................................................... 13 2.1 Peripheral Circuit Reference ...................................................................................................... 13 2.2 PCB Footprint ............................................................................................................................ 14 2.3 B2B connector ........................................................................................................................... 15 3 Product Electrical Characteristics ........................................................................................................ 16 3.1 Dissipation and Temperature ..................................................................................................... 16 3.2 Reliability of Test ........................................................................................................................ 16 2 Customize the embedded system based on Your Idea 1 Mini1126 Introduction 1.1 Summary The Mini1126 system-on-module is equipped with Rockchip's RV1126 build in quad-core Cortex-A7, 2.0 TOPs NPU and RISC-V MCU. It is designed specifically for the IPC/CVR devices, AI Camera devices, intelligent interactive devices, and mini robots. The high performance and low power solution can help customers to introduce new technologies more quickly and enhance the overall solution efficiency. 1.2 Features · Microprocessor - Quad-core Cortex-A7 up to 1.5G - 32KB I-cache and 32KB D-cache for each core, 512KB L3 cache - 2.0 TOPS Neural Process Unit - RISC-V MCU to support 250mS fast boot - Max 14M ISP Memory Organization - LPDDR4 RAM up to 4GB - EMMC up to 32GB - SPI Flash up to 8MB · Video Decoder/Encoder - Supports video decode/encode up to 4K@30fps - Supports real-time decoding of H.264/265 - Supports real-time UHD H.264/265 video encoding - Picture size up to 8192x8192 · Display Subsystem - Video Output Supports 4 lanes MIPI DSI up to 2560x1440@60fps Supports 24bit RGB parallel output - Image in Supports up to 16bit DVP interface Supports 2ch MIPI CSI 4lanes interface · I2S/PCM/ AC97 - Two I2S/PCM interface - Support Mic array Up to 8ch PDM/TDM interface - Support PWM audio output · USB and PCIE - Two 2.0 USB interfaces - One USB 2.0 OTG, and one 2.0 USB hosts 3 Customize the embedded system based on Your Idea · Ethernet - RTL8211F onboard - Support 10/100/1000M · I2C - Up to five I2Cs - Support standard mode and fast mode(up to 400kbit/s) · SDIO - Support 2CH SDIO 3.0 protocol · SPI - Up to two SPI controllers, - Full-duplex synchronous serial interface · UART - Support up to 6 UARTs - UART2 with 2 wires for debug tools - Embedded two 64byte FIFO - Support auto flow control mode for UART1-5 · ADC - Up to three ADC channels - 12-bit resolution - Voltage input range between 0V to 1.8V - Support up to 1MS/s sampling rate · PWM - 11 on-chip PWMs with interrupt-based operation - Support 32bit time/counter facility - IR option on PWM3/7 · Power unit - RK809 on board - 5V input and RTC power input - Build-in Audio Codec 4 Customize the embedded system based on Your Idea 1.3 Mini1126 Block Diagram 1.3.1 RV1126 Block Diagram 5 Customize the embedded system based on Your Idea 1.3.2 Development board (EM1126) Block Diagram 1.4 Mini1126 specifications Feature CPU DDR eMMC FLASH Power MIPI DSI I2S MIPI CSI RGB LCD Camera USB Ethernet SDMMC I2C SPI UART PWM ADC IN Board Dimension Specifications Quad-core Cortex-A7 2GB LPDDR4 (up to 4GB) 8GB (up to 32GB) DC 5V 4-Lane 2-CH 2-CH 4-Lane 24bit 1-CH(DVP) and 2-CH(CSI) 2-CH (USB HOST2.0 and OTG 2.0) 1000M GMAC 2-CH 5-CH 2-CH 5-CH, 1-CH(DEBUG) 11-CH 4-CH 30 x 38mm 6 Customize the embedded system based on Your Idea 1.5 Mini1126 PCB Dimension 1.6 Mini1126 Pin Definition J1 Signal 1 VCC5V0_SYS 2 VCC5V0_SYS 3 VCC5V0_SYS 4 VCC5V0_SYS 5 GND 6 SNSP 7 GND 8 SNSN 9 CLKO_32K 10 GND 11 PWRON 12 BATDIV 13 MIC_L 14 VCC_RTC 15 MIC_R 16 SDMMC0_CLK 17 GND 18 SDMMC0_CMD 19 HPR_OUT 20 SDMMC0_D0 21 HP_SNS Description or functions 5V Main Power input 5V Main Power input 5V Main Power input 5V Main Power input Ground Charge sense current signal in Ground Charge sense current signal in GPIO serial RTC clock output Ground Power key input Divided voltage of positive BATT Microphone L-CH or positive in RTC Power input Microphone R-CH or negative in UART3_RTSn_M1 Ground UART3_CTSn_M1 R-CH output of headphone UART2_RX_M0 Reference ground of headphone GPIO1_B0_u GPIO1_B1_u GPIO1_A4_u IO Voltage 5V 5V 5V 5V 0V 0V 0V 0V 1.8V 0V 5V 3.3V 0V 3.3V 0V 3.3V 0V 3.3V 0V 3.3V 0V 7 Customize the embedded system based on Your Idea J1 Signal Description or functions 22 SDMMC0_D1 UART2_TX_M0 23 HPL_OUT L-CH output of headphone 24 SDMMC0_D2 UART3_RX_M1 25 I2C1_SDA UART4_RTSn_M2 26 SDMMC0_D3 UART3_TX_M1 27 I2C1_SCL UART4_CTSn_M2 28 I2C2_SDA_3V3 PWM5_M0 29 MIPI_CSI_CLK0 UART5_CTSn_M2 30 I2C2_SCL_3V3 PWM4_M0 31 GND Ground 32 MIPI_CSI_PWDN0 UART4_RX_M2 33 MIPI_CSI_CLK1 UART5_RTSn_M2 MIPI_CSI_RX1_D0 34 MIPI CSI1 or LVDS1 RXD0N N MIPI_CSI_RX1_D1 35 MIPI CSI1 or LVDS1 RXD1N N MIPI_CSI_RX1_D0 36 MIPI CSI1 or LVDS1 RXD0P P MIPI_CSI_RX1_D1 37 MIPI CSI1 or LVDS1 RXD1P P 38 GND Ground MIPI_CSI_RX1_D2 39 MIPI CSI1 or LVDS1 RXD2N N MIPI_CSI_RX1_CL 40 MIPI CSI1 or LVDS1 CLKN KN MIPI_CSI_RX1_D2 41 MIPI CSI1 or LVDS1 RXD2P P MIPI_CSI_RX1_CL 42 MIPI CSI1 or LVDS1 CLKP KP MIPI_CSI_RX1_D3 43 MIPI CSI1 or LVDS1 RXD3N N 44 UART1_RX_3V3 PWM1_M0 MIPI_CSI_RX1_D3 45 MIPI CSI1 or LVDS1 RXD3P P 46 UART1_TX_3V3 PWM0_M0 47 WIFI_REG_ON SPI0_MOSI_M0 48 SDMMC0_DET Must be used for SD Card 49 BT_RST SPI0_MISO_M0 50 BT_WAKE SPI0_CS1n_M0 51 WIFI_WAKE_HOST SPI0_CLK_M0 52 BT_WAKE_HOST SPI0_CS0n_M0 GPIO serial GPIO1_A5_u GPIO1_A6_u GPIO1_D2_u GPIO1_A7_u GPIO1_D3_u GPIO0_C3_d GPIO2_A3_d GPIO0_C2_d GPIO1_D4_d GPIO2_A2_d GPIO0_B7_d GPIO0_B6_d GPIO0_A6_d GPIO0_A3_u GPIO0_A7_d GPIO0_A4_u GPIO0_B0_d GPIO0_A5_u IO Voltage 3.3V 0V 3.3V 1.8V 3.3V 1.8V 3.3V 1.8V 3.3V 0V 1.8V 1.8V 1.8V 1.8V 1.8V 1.8V 0V 1.8V 1.8V 1.8V 1.8V 1.8V 3.3V 1.8V 3.3V 1.8V 1.8V 1.8V 1.8V 1.8V 1.8V 8 Customize the embedded system based on Your Idea J1 Signal Description or functions GPIO serial MIPI_CSI_RX0_D0 53 MIPI CSI0 or LVDS0 RXD0N N MIPI_CSI_RX0_D2 54 MIPI CSI0 or LVDS0 RXD2N N MIPI_CSI_RX0_D0 55 MIPI CSI0 or LVDS0 RXD0P P MIPI_CSI_RX0_D2 56 MIPI CSI0 or LVDS0 RXD2P P MIPI_CSI_RX0_D1 57 MIPI CSI0 or LVDS0 RXD1N N MIPI_CSI_RX0_D3 58 MIPI CSI0 or LVDS0 RXD3N N MIPI_CSI_RX0_D1 59 MIPI CSI0 or LVDS0 RXD1P P MIPI_CSI_RX0_D3 60 MIPI CSI0 or LVDS0 RXD3P P 61 GND Ground MIPI_CSI_RX0_CL 62 MIPI CSI0 or LVDS0 CLKN KN 63 PDM_CLK I2S0_LRCK_RX_M0 GPIO3_D4_d MIPI_CSI_RX0_CL 64 MIPI CSI0 or LVDS0 CLKP KP 65 SPI0_CLK_M1 I2S1_SDO_M1/UART5_RX_M2 GPIO2_A1_d 66 SPI0_CS0n_M1 I2S1_SDI_M1/UART5_TX_M2 GPIO2_A0_d 67 SPI0_MISO_M1 I2S1_LRCK_M1/I2C3_SDA_M2 GPIO1_D7_d 68 SPI0_CS1n_M1 I2S1_MCK_M1/UART4_TX_M2 GPIO1_D5_d 69 SPI0_MOSI_M1 I2S1_SCK_M1/I2C3_SCL_M2 GPIO1_D6_d 70 PDM_SDI0 I2S0_SDI0_M0 GPIO3_D6_d 71 PDM_SDI1 I2S0_SDO3_SDI1_M0/I2C4SDA GPIO4_A1_d 72 PDM_SDI2 I2S0_SDO2_SDI2_M0/I2C4SCL GPIO4_A0_d 73 PDM_CLK1 I2S0_SCK_RX_M0 GPIO3_D1_d 74 OTG_ID 75 OTG_DET_1V8 76 USB_CTRL Must be use for OTG compatible GPIO0_C1_d 77 OTG_DM 78 USB_HOST_DM 79 OTG_DP 80 USB_HOST_DP IO Voltage 1.8V 1.8V 1.8V 1.8V 1.8V 1.8V 1.8V 1.8V 0V 1.8V 1.8V 1.8V 1.8V 1.8V 1.8V 1.8V 1.8V 1.8V 1.8V 1.8V 1.8V 1.8V 1.8V 3.3V 1.8V 1.8V 1.8V 1.8V 9 Customize the embedded system based on Your Idea J2 Signal 1 GND 2 LCDC_D0_3V3 3 LCDC_D16_3V3 4 LCDC_D1_3V3 5 LCDC_D17_3V3 6 LCDC_D2_3V3 7 LCDC_D18_3V3 8 LCDC_D3_3V3 Description or functions Ground UART4_RTSn_M1/CIF_D0_M1 CIF_D12_M1 UART4_CTSn_M1/CIF_D1_M1 CIF_D13_M1 UART4_TX_M1/CIF_D2_M1 CIF_D14_M1 UART4_RX_M1/I2S2_SDO_M1 GPIO serial GPIO2_A4_d GPIO2_C4_d GPIO2_A5_d GPIO2_C5_d GPIO2_A6_d GPIO2_C6_d GPIO2_A7_d 9 LCDC_D19_3V3 I2S1_MCLK_M2/CIF_D15_M1 GPIO2_C7_d 10 LCDC_D4_3V3 UART5_TX_M1/I2S2_SDI_M1 GPIO2_B0_d 11 LCDC_D20_3V3 I2S1_SDO_M2/CIF_VS_M1 GPIO2_D0_d 12 LCDC_D5_3V3 UART5_RX_M1/I2S2_SCK_M1 GPIO2_B1_d 13 LCDC_D21_3V3 I2S1_SCLK_M2/CIF_CLKO_M1 GPIO2_D1_d 14 LCDC_D6_3V3 UART5_RTSn_M1/I2S2_LRCK_ GPIO2_B2_d M1 15 LCDC_D22_3V3 I2S1_LRCK_M2/CIF_CKIN_M1 GPIO2_D2_d 16 LCDC_D7_3V3 UART5_CTSn_M1/I2S2_MCLK_ GPIO2_B3_d M1/CIF_D3_M1 17 LCDC_D23_3V3 I2S1_SDI_M2/CIF_HS_M1 GPIO2_D3_d 18 LCDC_D8_3V3 CIF_D4_M1 GPIO2_B4_d 19 UART0_TX GPIO1_C3_u 20 LCDC_D9_3V3 CIF_D5_M1 GPIO2_B5_d 21 UART0_RX GPIO1_C2_u 22 LCDC_D10_3V3 CIF_D6_M1 GPIO2_B6_d 23 UART0_RTSN GPIO1_C0_u 24 LCDC_D11_3V3 CIF_D7_M1 GPIO2_B7_d 25 UART0_CTSN GPIO1_C1_u 26 LCDC_D12_3V3 CIF_D8_M1 GPIO2_C0_d 27 CAN_RX_3V3 UART3_TX_M2/I2C4_SCL_M0 GPIO3_A0_u 28 LCDC_D13_3V3 CIF_D9_M1 GPIO2_C1_d 29 CAN_TX_3V3 UART3_RX_M2/I2C4_SDA_M0 GPIO3_A1_u 30 LCDC_D14_3V3 CIF_D10_M1 GPIO2_C2_d 31 ADKEY_IN0 Recovery mode set(10K PU) 32 LCDC_D15_3V3 CIF_D11_M1 GPIO2_C3_d 33 ADCIN1 34 GPIO1_D1 UART1_RX_M1/I2C5_SDA_M2 GPIO1_D1_d 35 ADCIN2 36 LCDC_DEN_3V3 I2C3_SCL_M1/SPI1_CS0n_M2 GPIO2_D4_d 37 ADCIN3 38 LCDC_VSYNC_3V3 UART3_RTSn_M2/SPI1_MOSI GPIO2_D6_d 39 GND Ground IO Voltage 0V 3.3V 3.3V 3.3V 3.3V 3.3V 3.3V 3.3V 3.3V 3.3V 3.3V 3.3V 3.3V 3.3V 3.3V 3.3V 3.3V 3.3V 1.8V 3.3V 1.8V 3.3V 1.8V 3.3V 1.8V 3.3V 3.3V 3.3V 3.3V 3.3V 1.8V 3.3V 1.8V 1.8V 1.8V 3.3V 1.8V 3.3V 0V 10 Customize the embedded system based on Your Idea J2 Signal Description or functions GPIO serial 40 LCDC_HSYNC_3V3 I2C3_SDA_M1/SPI1_CLK_M2 GPIO2_D5_d 41 MIPI_DSI_D0N MIPI DSI TXD0N 42 UART2_RX_3V3 For debug GPIO3_A3_u 43 MIPI_DSI_D0P MIPI DSI TXD0P 44 UART2_TX_3V3 For debug GPIO3_A2_u 45 MIPI_DSI_D1N MIPI DSI TXD1N 46 LCDC_CLK_3V3 UART3_CTSn_M2/SPI1_MISO_ GPIO2_D7_d M2/PWM8_M1 47 MIPI_DSI_D1P MIPI DSI TXD1P 48 GND Ground 49 MIPI_DSI_CLKN MIPI DSI CLKN 50 PCM_RX I2S2_SDI_M0/SPI1_MISO_M1 GPIO1_C5_d 51 MIPI_DSI_CLKP MIPI DSI CLKP 52 PCM_CLK I2S2_SCLK_M0/SPI1_CLK_M1/ GPIO1_C6_d UART1_RTSn_M1 53 MIPI_DSI_D3N MIPI DSI TXD3N 54 PCM_SYNC I2S2_LRCK_M0/SPI1_CSn0_M 1/UART1_CTSn_M1 GPIO1_C7_d 55 MIPI_DSI_D3P MIPI DSI TXD3P 56 PCM_TX I2S2_SDO_M0/SPI1_MOSI_M1 GPIO1_C4_d 57 MIPI_DSI_D2N MIPI DSI TXD2N 58 GPIO1_D0 I2S2_MCLK_M0/SPI1_CSn1_M GPIO1_D0_d 1/UART1_TX_M1/I2C5_SCLK 59 MIPI_DSI_D2P MIPI DSI TXD2P 60 SDIO_D2 GPIO1_B6_u 61 GND Ground 62 SDIO_D3 GPIO1_B7_u 63 MDI3- Ethernet MDI3 negative out 64 SDIO_CMD GPIO1_B3_u 65 MDI3+ Ethernet MDI3 positive out 66 GND Ground 67 MDI2- Ethernet MDI2 negative out 68 SDIO_CLK GPIO1_B2_d 69 MDI2+ Ethernet MDI2 positive out 70 SDIO_D0 GPIO1_B4_u 71 MDI1- Ethernet MDI1 negative out 72 SDIO_D1 GPIO1_B5_u 73 MDI1+ Ethernet MDI1 positive out 74 LED2/CFG_LDO1 75 MDI0- Ethernet MDI0 negative out 76 LED1/CFG_LDO0 77 MDI0+ Ethernet MDI3 positive out IO Voltage 3.3V 1.8V 3.3V 1.8V 3.3V 1.8V 3.3V 1.8V 0V 1.8V 1.8V 1.8V 1.8V 1.8V 1.8V 1.8V 1.8V 1.8V 1.8V 1.8V 1.8V 0V 1.8V 0V 1.8V 0V 0V 0V 1.8V 0V 1.8V 0V 1.8V 0V 3.3V 0V 3.3V 0V 11 Customize the embedded system based on Your Idea J2 Signal Description or functions 78 VCC1V2_DVDD Camera 1.2V Power out(400mA) 79 VCC2V8_AVDD Camera 2.8V Power out(400mA) 80 VCC3V3_SD SD Card Power output(400mA) Note: 1. Most GPIO voltage is 1.8V, but some pins marked 3.3V. 2. J1_Pin76 OTG compatible circuit refer as 2.1.3. GPIO serial IO Voltage 1V2 2V8 3V3 1.7 Development Kit (EM1126) 12 Customize the embedded system based on Your Idea 2 Hardware Design Guide 2.1 Peripheral Circuit Reference 2.1.1 Battery Charge Circuit 2.1.2 Debug Circuit 13 2.1.3 USB OTG Interface Circuit Customize the embedded system based on Your Idea 2.2 PCB Footprint 14 Customize the embedded system based on Your Idea 2.3 B2B connector Header for carrier board: DF12NC(3.0)-80DP-0.5V(51) Receptacle for CPU board: DF12NC(3.0)-80DS-0.5V(51) 15 Customize the embedded system based on Your Idea 3 Product Electrical Characteristics 3.1 Dissipation and Temperature Symbol Parameter Min Typ Max Unit System IO VCC5V_SYS 3.6 5 5.5 V Voltage VCC5V_SYS Isys_in 850 mA input Current VCC_RTC RTC Voltage 3 3.7 5 V RTC input Iirtc Current 50 60 uA Camera Core VCC1V2_DVDD 1.2 V Voltage output VCC1V2_DVDD I1v2_dv 400 mA output Current Camera Analog VCC2V8_AVDD 2.8 V Voltage output VCC2V8_AVDD I2v8_av 400 mA output Current Operating Ta -20 Temperature 70 °C Storage Tstg -40 Temperature 85 °C 3.2 Reliability of Test Contents Result High Temperature Operating Test Operating 8h in high temperature Contents Result Operating Life Test Operating in room 55°C±2°C 120h 16
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ARM single board computer, industrial embedded computer design, system on module - Boardcon Embedded Design
ARM single board computer, industrial embedded computer design, system on module - Boardcon Embedded DesignARM single board computer, industrial embedded computer design, system on module - Boardcon Embedded DesignARM single board computer, industrial embedded computer design, system on module - Boardcon Embedded Design