M5STACK-
CORE2 2020 V0.01 1. OUTLINE M5Stick CORE2 is ESP32 board which based on ESP32-D0WDQ6-V3 chip, contained 2-inch TFT screen. The board is made of PC+ABC. 1.1 Hardware Composition The hardware of CORE2: ESP32-D0WDQ6-V3 chip, TFT screen, Green LED, Button, GROVE interface, TypeC-to-USB interface, Power Management chip and battery. ESP32-D0WDQ6-V3 The ESP32 is a dual-core system with two Harvard Architecture Xtensa LX6 CPUs. All embedded memory,external memory and peripherals are located on the data bus and/or the instruction bus of these CPUs.With some minor exceptions
(see below), the address mapping of two CPUs is symmetric, meaning that they usethe same addresses to access the same memory. Multiple peripherals in the system can access embeddedmemory via DMA. TFT Screen is a 2-inch color screen driven ILI9342C with a resolution of 320 x 240. Operating voltage range is 2.6~3.3V, working temperature range is -25~55C. Power Management chip is X-Powers's AXP192. The operating voltage range is 2.9V~6.3V and the charging current is 1.4A. CORE2 equips ESP32 with everything needed for programming, everything needed for operation and development 2. PIN DESCRIPTION 2.1. USB INTERFACE M5CAMREA Configuration Type-C type USB interface, support USB2.0 standard communication protocol. 2.2. GROVE INTERFACE 4p disposed pitch of 2.0mm M5CAMREA GROVE interfaces, internal wiring and GND, 5V, GPIO32, GPIO33 connected. 3. FUNCTIONAL DESCRIPTION This chapter describes the ESP32-D0WDQ6-V3 various modules and functions. 3.1. CPU AND MEMORY Xtensasingle-/dual-core32-bitLX6microprocessor(s), upto600MIPS
(200MIPSforESP32-S0WD/ESP32-U4WDH, 400 MIPS for ESP32-D2WD):
448 KB ROM 520 KB SRAM 16 KB SRAM in RTC QSPI supports multiple flash/SRAM chips 3.2. STORAGE DESCRIPTION 3.2.1. External Flash and SRAM data. ESP32 support multiple external QSPI flash and static random access memory
(SRAM), having a hardware-based AES encryption to protect the user programs and ESP32 access external QSPI Flash and SRAM by caching. Up to 16 MB external Flash code space is mapped into the CPU, supports 8-bit, 16-bit and 32-bit access, and can execute code. Up to 8 MB external Flash and SRAM mapped to the CPU data space, support for 8-bit, 16-bit and 32-bit access. Flash supports only read operations, SRAM supports read and write operations. 3.3. CRYSTAL External 2 MHz~60 MHz crystal oscillator (40 MHz only for Wi-Fi/BT functionality) 3.4. RTC MANAGEMENT AND LOW POWER CONSUMPTION ESP32 uses advanced power management techniques may be switched between different power saving modes. (See Table 5). Power saving mode signal. Bluetooth baseband and RF
- Active Mode: RF chip is operating. Chip may receive and transmit a sounding
- Modem-sleep mode: CPU can run, the clock may be configured. Wi-Fi /
- Light-sleep mode: CPU suspended. RTC and memory and peripherals ULP coprocessor operation. Any wake-up event (MAC, host, RTC timer or external interrupt) will wake up the chip.
- Deep-sleep mode: only the RTC memory and peripherals in a working state. Wi-
Fi and Bluetooth connectivity data stored in the RTC. ULP coprocessor can work.
- Hibernation Mode: 8 MHz oscillator and a built-in coprocessor ULP are disabled. RTC memory to restore the power supply is cut off. Only one RTC clock timer located on the slow clock and some RTC GPIO at work. RTC RTC clock or timer can wake up from the GPIO Hibernation mode. Deep-sleep mode
- related sleep mode: power save mode switching between Active, Modem-sleep, Light-sleep mode. CPU, Wi-Fi, Bluetooth, and radio preset time interval to be awakened, to ensure connection Wi-Fi / Bluetooth.
- Ultra Low-power sensor monitoring methods: the main system is Deep-sleep mode, ULP coprocessor is periodically opened or closed to measure sensor data. The sensor measures data, ULP coprocessor decide whether to wake up the main system. Functions in different power consumption modes: TABLE 5 4. ELECTRICAL CHARACTERISTICS 4.1. LIMIT PARAMETERS Table 8: Limiting values 1. VIO to the power supply pad, Refer ESP32 Technical Specification Appendix IO_MUX, as SD_CLK of Power supply for VDD_SDIO. Press and hold the side power button for two seconds to start the device.Press and hold for more than 6 seconds to turn off the device. Switch to the photo mode through the Home screen, and the avatar that can be obtained through the camera is displayed on the tft screen.The USB cable must be connected when working, and the lithium battery is used for short-term storage to prevent power failure. FCC Statement:
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:
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. M5Stack Docs Search
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UIFlow Quick Start This tutorial applies to M5Core2 Burning tool Please click the button below to download the corresponding M5Burner rmware burning tool according to your operating system. Unzip and open the application. Windows10 MacOS Linux Note: After the installation of MacOS users, please put the application in the Application folder, as shown in the gure below. Firmware burning to download. 1.Double-click to open the Burner burning tool, select the corresponding device type in the left menu, select the rmware version you need, and click the download button 2.Then connect the M5 device to the computer through the Type-C cable, select the corresponding COM port, the baud rate can use the default conguration in M5Burner, in addition, you can also ll in the WIFI that the device will be connected to during the rmware burning stage information. After conguration, click "Burn" to start burning. NETWORK-PROGRAMMING-MODE-AND-API-KEY BURNING-TOOL FIRMWARE-BURNING CONFIGURE-WIFI HTTP BLE-UART UIFLOW-DESKTOP-IDE RELATED-LINKS 3.When the burning log prompts Burn Successfully , it means that the rmware has been burned. When rst burning or the rmware program runs abnormally, you can click "Erase" to erase the ash memory. In the subsequent rmware update, there is no need to erase again, otherwise the saved Wi-Fi information will be deleted and the API Key will be refreshed. Congure WIFI UIFlow provides both ofine and web version of the programmer. When using the web version, we need to congure a WiFi connection for the device. The following describes two ways to congure WiFi connection for the device (Burn conguration and AP hotspot conguration). Burn conguration WiFi(recommend) UIFlow-1.5.4 and versions above can write WiFi information directly through M5Burner. AP hotspot conguration WiFi 1. Press and hold the power button on the left to turn on the machine. If WiFi is not congured, the system will automatically enter the network conguration mode when it is turned on for the rst time. Suppose you want to re-enter the network conguration mode after running other programs, you can refer to the operation below. After the UIFlow Logo appears at startup, quickly click the Home button (center M5 button) to enter the conguration page. Press the button on the right side of the fuselage to switch the option to Setting, and press the Home button to conrm. Press the right button to switch the option to WiFi Setting, press the Home button to conrm, and start the conguration. 2. After successfully connecting to the hotspot with your mobile phone, open the mobile phone browser to scan the QR code on the screen or directly access 192.168.4.1, enter the page to ll in your personal WIFI information, and click Congure to record your WiFi information. The device will restart automatically after successfully conguring and enter programming mode. Note: Special characters such as "space" are not allowed in the congured WiFi information. Network Programming Mode and API KEY Enter network programming mode Network programming mode is a docking mode between M5 device and UIFlow web programming platform. The screen will show the current network connection status of the device. When the indicator is green, it means that you can receive program push at any time. Under default situation, after the rst successful WiFi network conguration, the device will automatically restart and enter the network programming mode. If you do not know how to re-enter the programming mode after running other applications, you can refer to the following operations. restarting, press button A in the main menu interface to select the programming mode and wait till the right indicator of the network indicator to turn green in the programming mode page. Access UIFlow programming page by visiting ow.m5stack.com on a computer browser. API KEY Pairing API KEY is the communication credential for M5 devices when using UIFlow web programming. By conguring the corresponding API KEY on the UIFlow side, the program can be pushed for the specic device. The user needs to visit ow.m5stack.com in the computer web browser to enter the UIFlow programming page. Click the setting button in the menu bar at the upper right corner of the page, enter the API Key on the corresponding device, select the hardware used, click OK to save and wait till it prompts successfully connecting. HTTP Complete the above steps, then you can start programming with UIFlow. For example:Access Baidu via HTTP BLE UART Function Description Establish Bluetooth connection and enable Bluetooth passthrough service. Init ble uart name Initialize settings, congure Bluetooth device name. BLE UART Writre Send data using BLE UART. BLE UART remain cache Check the number of bytes of BLE UART data. BLE UART read all Read all data in BLE UART cache. BLE UART read characters Read n data in BLE UART cache. Instructions Establish Bluetooth passthrough connection and send on / off control LED. UIFlow Desktop IDE UIFlow Desktop IDE is an ofine version of UIFlow programmer which does not require network connection, and can provide you with responsive program push experience. Please click the corresponding version of UIFlow-Desktop-IDE to download according to your operating system . Windows10 MacOS Linux USB programming mode Unzip the downloaded UIFlow Desktop IDE archive and double-click to run the application. After the app starts, it will automatically detect whether your computer has a USB driver (CP210X), click Install, and follow the prompts to nish installation. After the driver installation is complete, it will automatically enter the UIFlow Desktop IDE and automatically pop up the conguration box. At this time, connect the M5 device to the computer through the Tpye-C data cable. Using UIFlow Desktop IDE requires M5 device with UIFlow rmware and enter ** USB programming mode **. Click the power button on the left side of the device to restart, after entering the menu, quickly click the right button to select USB mode. Select the corresponding port, and the programming device, click OK to connect. Related Links UIFlow Block introduction