WT32-ETH01 goods in stock wt32 eth01 Embedded serial port networking Bluetooth + wifi combo gateway module wt32 eth01
Main features of WT32-ETH01 gateway: 1. Adopt dual-core Xtensa®32-bit LX6 MCU. Integrated SPI flash 3.32Mbit SRAM 520KB 2. Support TCP Server, TCP Client, UDP Server, UDP Client working mode. 3. Support the four data ports of serial port, wif. Ethernet and Bluetooth-compatible-compatible to be combined in pairs, and the data is transparently transmitted. 4. Support to connect to the network through wired network or wifi to upgrade the firmware. 5. Support wifi to connect to the Internet or LAN through a router, establish a TCP/UDP connection, and access the user's designated server. 6. Support wired network access. 7. Support user secondary development. 8. Industrial grade operating temperature range: -40-+85. 9. Serial port baud rate: 80-5000000. 10. Network protocol: IPv4, TCP/UDP. 11. Software encryption: AES/RSA/ECC/SHA 3.3 Pin description Table-1 Debugging and programming interface Pin Name Description 1- EN1 reserved debugging and programming interface; enabled, high level is effective 2- GND Reserved debugging and programming interface; GND 3- 3V3 reserved debugging and programming interface; 3V3 4- TXD reserved debugging programming interface; IO1, TXD0 5- RXD reserved debugging programming interface; IO3, RXD0 6- IO0 is reserved for debugging and programming interface; IO0 Module IO description 1- EN1 enable, active high 2- CFG IO32, CFG 3- 485_EN IO33, RS485 enable pin 4- RXD IO35, RXD2 5- TXD IO17, TXD2 6- GND GND 7- 3V32 3V3 power supply 8- GND GND 9- 5V2 5V power supply 10- LINK network connection indicator pin 11- GND GND 12- IO393 IO39, only supports input 13- IO363 IO36, only supports input 14- IO15 IO15 15- I014 IO14 16- IO12 IO12 17- IO5 IO5 18- IO4 IO4 19- IO2 IO2 20- GND GND Note 1: The module enables high level by default. Note 2: You can only choose one of 3V3 power supply and 5V power supply! ! ! Note 3: IO39 and IO36 only support input. 3.4 Power supply characteristics 3.4.1 Supply voltage The power supply voltage of the module can be 5V or 3V3, and only one of the two can be selected. 3.4.2 Power supply mode Users can freely choose according to their needs: 1) Through hole (welding header): Use DuPont line connection for power supply; Use breadboard connection for power supply; 2) Half pad (directly soldered to the board): the user board provides power. 4. Instructions for use 4.1 Power-on instructions If the DuPont line is used: find the 3V3 or 5V power input port, connect the corresponding voltage, the indicator light (LED1) lights up, indicating that the Electric success. 4.2 Indicator light description LED1: power indicator, power on normally, the light is on; LED3: serial port indicator light, when RXD2 (IO35) has data flow, the light is on; LED4: serial port indicator light, when TXD2 (IO17) has data stream, the light is on; 4.3 Instructions for use There are three ways to use, users can choose according to their needs: 1) Through hole (welding pin header): use DuPont wire to connect; 2) Through hole (welding header): put it on the breadboard for use; 3) Half pad: Users can directly solder the module on their own board. 4.4 Description of network port working indicator Green light: Connection status indicator When connected to the network correctly, the green light is on Yellow light: data indicator flashes when the module receives or sends data, including the module receives a network broadcast packet
Set IP/Subnet Mask/Gateway 1. The IP address is the identity of the module in the local area network. It is unique in the local area network, so it cannot be duplicated with other devices in the same local area network. There are two ways to obtain the IP address of the module: static IP and DHCP/dynamic IP. a. Static IP The static IP needs to be manually set by the user. Pay attention to write the IP, subnet mask and gateway at the same time during the setting process. The static IP is suitable for IP and device statistics and one-to-one corresponding scenes. Pay attention to the correspondence between IP address, subnet mask, and gateway when setting. Use static IP needs to be set for each module and ensure that the IP address is not duplicated with other network devices in the local area network. b. DHCP/Dynamic IP The main function of DHCP/Dynamic IP is to dynamically obtain the IP address, Gateway address, DNS server address and other information from the gateway host, thus Eliminate the cumbersome steps of setting an IP address. It is suitable for scenarios where there is no requirement for IP and no one-to-one correspondence between IP and module. Note: When the module is directly connected to a computer, it cannot be set to DHCP. Generally, the computer does not have the ability to assign IP addresses. If the module is set to DHCP direct Connecting to a computer will cause the module to be in a state of waiting for the IP address to be assigned, which will cause the module to fail to perform normal transparent transmission. Module default It is a static IP: 192.168.0.7. 2. The subnet mask is mainly used to determine the network number and host number of the IP address, indicate the number of subnets, and determine whether the module is in the subnet. child The net mask must be set. Our commonly used C type subnet mask: 255.255.255.0, the network number is the first 24 digits, the host number is the last 8 digits, and the subnet mask is 255.255.255.0. If the number of networks is 255, and the module IP is in the range of 255, it is considered that the module IP is in this subnet. 3. Gateway refers to the network number of the network where the current IP address of the module is located. If you connect to a device such as a router when connecting to the external network, the gateway is the router If the IP address is set incorrectly, it will not be able to access the external network correctly. If you do not connect to a router such as a router, you do not need to set it, just the default. 6.2.2 Restore factory settings AT command to restore factory settings: restore factory settings through AT+ RESTORE. 6.2.3 Firmware upgrade The way to upgrade the firmware of the module is OTA remote upgrade. By upgrading the firmware, more application functions can be obtained. a. The firmware upgrade can be connected to the network via wired network or wifi. b. Operate GPIO2 to ground, restart the module, and enter the OTA upgrade mode. c. After the upgrade is complete, disconnect GPIO2 from the ground, restart the module, and the module enters the normal working mode. 6.2.4 AT command function setting The user can set the function of the module by inputting AT commands through the serial port. For details, please refer to the AT command set of esp32 wired module. 6.2.5 Data transparent transmission function The module has four data transmission ports: serial port, wifi, Ethernet and Bluetooth. Users can use AT commands to combine the four data ports in pairs for data transparent transmission. Set/query the transparent transmission channel of the module through AT+PASSCHANNEL command. After the setting is completed, the module needs to be restarted to take effect. 6.3 socket function The Socket working mode of the module is divided into four types: TCP Client, TCP Server, UDP Client, and UDP Server. The AT command can be used
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