E07-m1101d: Pinout
The ESP8266 also operates at 3.3V, making it a great choice. According to tests on the NodeMCU board, the following connections work reliably:
Some integrations, like the "ESPSomfy-RTS" project, use a different mapping. A working alternative for an ESP32 Dev Kit is: GDO0→GPIO 4, CSN→GPIO 13, SCK→GPIO 14, MOSI→GPIO 15, MISO→GPIO 16, GDO2→GPIO 36.
Understanding the electrical limits of the module will help you design a more robust system. The absolute maximum parameters (do not exceed these) are:
[ ] (Antenna/SMA) (1) GND [ ] (2) VCC (3) GDO0 [ ] (4) CSN (5) SCK [ ] (6) MOSI (7) MISO [ ] (8) GDO2 Use code with caution. Typical Wiring with Microcontrollers e07-m1101d pinout
When looking at the module from the (the side with the components and the "Ebyte" logo), the pins are typically numbered as follows: Pin Number Description 1 VCC Supply voltage (1.8V – 3.6V). Do not use 5V. 2 GND Common ground. 3 GD00 Digital I/O General purpose I/O pin (often used for data/sync). 4 CSN Chip Select (Active Low). 5 SCK Serial Clock input. 6 MOSI SPI Data In Master Out Slave In. 7 MISO SPI Data Out Master In Slave Out (GD01). 8 GD02 Digital I/O General purpose I/O pin (often used for interrupts).
The E07-M1101D is a specific model of a microcontroller or a dedicated IC (Integrated Circuit) designed for a particular application. Unfortunately, the manufacturer and exact specifications of this component are not readily available, which has contributed to the mystique surrounding its pinout. However, through extensive research and analysis, we have compiled a comprehensive overview of its pin configuration and functionality.
The e07-m1101d is a specific model of chip, likely used in various electronic devices and applications. While the exact nature of the chip is not publicly disclosed, it is essential to understand its pinout to ensure proper integration and functionality. The ESP8266 also operates at 3
The name "E07-M1101D" generally refers to the module series. There are two main variants: the (which has an SMA connector for an external antenna) and the E07-M1101D-TH (which comes with a spring antenna). Both share the same pinout and functionality.
Understanding the is the first step to creating robust wireless links between your microcontrollers. This module, based on the trusty CC1101 chip, offers a great balance of range, low power consumption, and flexibility at an affordable price. By connecting the GND, VCC, SPI pins, and GDO pins correctly to a 3.3V compatible board like the ESP32 , you can quickly create wireless projects capable of transmitting over half a kilometer.
: Must be connected to 3.3V ; connecting to 5V will likely damage the module. CSN : Connect to a digital pin (often D10 on Arduino). Understanding the electrical limits of the module will
Understanding the precise is critical to avoid damaging its sensitive RF hardware and ensuring reliable Serial Peripheral Interface (SPI) communication with microcontrollers like Arduino, ESP8266, or ESP32. E07-M1101D Pinout Assignment
In the world of embedded systems and wireless communication, the stands out as a highly efficient, low-power RF module. Developed by Chengdu Ebyte Technology, this module is based on the Texas Instruments CC1101 transceiver IC. It operates in the sub-1GHz frequency bands (315/433/868/915 MHz), making it ideal for smart home devices, industrial sensors, remote controls, and IoT gateways.
The is a powerhouse for sub-GHz communication, but its compact 8-pin layout can be a "gotcha" for those used to standard TI reference designs. Once you have the pins mapped out, it’s one of the most reliable and long-range modules in its class. Ready to start your first transmission?
The is a compact 433MHz wireless module based on the Texas Instruments CC1101 transceiver chip, typically featuring an 8-pin DIP (Dual In-line Package) layout. Pinout Configuration