network

+[[DAS1016-dat]]

+

+

+

+# ESP32-C6-dat

+

+- [[WIFI6-dat]] - [[zigbee-dat]]

+

+

+

+## ref

+## Chip Series

+

+- [[ESP32-S3-dat]] - [[ESP32-S2-dat]]

+

+- [[ESP32-C6-dat]] - [[ESP32-C3-dat]] - [[ESP32-C2-dat]]

+

+- [[ESP32-P4-dat]]

+

+

+- [[ESP32-dat]]

+

+- [[ESP8089-dat]]

+

+

+

+

+

+

+

+

+

+

+

+

+

+

+## zigbee

+

+- [[CC2530-dat]] - [[CC2630-dat]] - [[zigbee-dat]]

+

+## IEEE 802.15.4

+

+- [[zigbee-dat]]

+

+

+## network protocols and standards

+

+- [[network-dat]] - [[xbee-dat]] - [[btbee-dat]] - [[nrf24l01-dat]] - [[CC1101-dat]] - [[sensor-dat]]

+

+- [[zigbee-dat]]

+

+- [[wifi-dat]]

+

+- [[IEEE-dat]]

+

+

+## network system

+

+- [[network-system-dat]]

+

+

+

+

+

+## wifi based

+

+- [[wifi-dat]]

+

+- [[ESPHome-dat]]

+

+- [[home-assistant-dat]]

+

+

+## ref

+

+- [[network-dat]]

+- [[wifi-sdk-dat]] - [[network-system-dat]]

+

+

+- [[WIFI6-dat]]

+

+

+# WIFI6-dat.md

+

+- [[ESP32-C6-dat]] - [[ESP32-dat]]

+

+# xbee-dat

+

+

+## board

+

+- [[DAS1016-dat]]

+

+## info

+

+

+

+

+

+xbee is a brand of radio modules from Digi International that are based on the IEEE 802.15.4 standard for wireless communication.

+

+XBee modules are commonly used in applications such as home automation, industrial control, and remote sensing due to their ease of use and versatility.

+

+XBee modules support various communication protocols, including Zigbee, 802.15.4, and DigiMesh, allowing for flexible network configurations.

+

+## XBee Module Types

+

+1. **XBee Series 1**: Basic point-to-point and point-to-multipoint communication.

+2. **XBee Series 2**: Supports mesh networking with Zigbee protocol.

+3. **XBee 868/900**: Operates in the 868 MHz and 900 MHz bands for long-range communication.

+4. **XBee Cellular**: Provides cellular connectivity for IoT applications.

+5. **XBee Wi-Fi**: Enables Wi-Fi connectivity for devices.

+

+## Key Features

+

+- Easy to use with simple serial interface (UART).

+- Supports various network topologies (point-to-point, star, mesh).

+- Low power consumption, suitable for battery-operated devices.

+- Configurable via AT commands or API mode.

+- Wide range of accessories and development kits available.

+

+

+## Xbee XB24

+

+

+

+- Packaging Tray: ②

+- Part Status: Discontinued

+- DigiKey Programmable: Not Verified

+- RF Series/Standard: 802.15.4

+- Protocol: Zigbee

+- Modulation: DSSS

+- Frequency: 2.4GHz

+- Data Rate: 250kbps

+- Output Power: 1dBm

+- Sensitivity: -96dBm

+- Serial Interface: UART

+- Antenna Type: Integrated, Wire Antenna

+- IC/Component Used: EM250

+- Storage Capacity: (Not specified)

+- Supply Voltage: 2.1V ~ 3.6V

+- Receive Current: 38mA ~ 40mA

+- Transmit Current: 35mA ~ 45mA

+- Mounting Type: Through Hole

+- Operating Temperature: -40°C ~ 85°C

+

+

+## Xbee Pro S2C

+

+

+

+

+specs

+

+

+

+

+

+## XBee S6B

+

+

+

+## XBee PRO 900HP (XBeePROS3B) Wireless Module Guide

+

+The XBee PRO 900HP (also known as XBeePROS3B) is a long-range wireless data transmission module operating in the 900–928 MHz band, using FHSS (Frequency Hopping Spread Spectrum) technology. It is ideal for applications requiring robust, long-distance communication.

+

+### Key Features

+

+- Maximum transmit power: up to 250mW

+- FHSS technology for interference resistance

+- Supports multiple firmware protocols (XBP9B-DM, XBP9B-DP)

+- Flexible network topologies: star, mesh (Digimesh), point-to-point

+

+For environments with high background noise (e.g., many base stations), consider the higher-power XBeePROSX module for extended range.

+

+---

+

+## Getting Started with XCTU

+

+1. **Download and install the latest XCTU tool.**

+2. **Connect your XBee modules to your computer using Digi’s development kit and USB cables.**

+3. **Open XCTU and use the search button to detect connected XBee modules. Add them to the left panel.**

+

+---

+

+## Module Configuration

+

+- By default, XCTU opens in configuration mode.

+- Select a module to view and edit its parameters.

+- It’s recommended to restore factory defaults before testing to avoid unexpected results.

+- Use the “Default” button to load default parameters, then “Write” to save them to the module.

+

+---

+

+## Transparent Mode Communication

+

+To form a network:

+- Ensure all modules have the same Network ID and HP (hopping pattern).

+- CM (channel mask) should cover the same frequency points.

+- Modules communicate using 64-bit addresses:

+ - SH, SL: module’s own MAC address

+ - DH, DL: target address (DH=0, DL=FFFF for broadcast)

+

+**Broadcast Communication:**

+- With default parameters, modules can communicate via broadcast.

+- In XCTU, open the terminal for each module and use “Split View” to see both terminals.

+- Typing in one terminal will send data to the other.

+

+**Unicast Communication:**

+- Set each module’s DH, DL to the other’s SH, SL for direct communication.

+- Test in the terminal to confirm unicast data transfer.

+

+---

+

+## AT Command Mode

+

+- Enter command mode by typing “+++” in the terminal; module responds with “OK”.

+- Example: Set the NI (Node Identifier) parameter:

+ - `ATNI NODE1` (sets name to NODE1)

+ - `ATNI` (reads current name)

+ - `ATWR` (writes changes to flash)

+ - `ATCN` (exits command mode)

+

+- If you don’t exit command mode, the module will automatically return to transparent mode after ~6 seconds of inactivity.

+

+---

+

+## API Mode Communication

+

+**Advantages of API Mode:**

+- Direct, targeted communication with any module

+- Send AT commands without switching modes

+- Identify data sources and receive feedback packets

+- Remotely configure other modules

+

+**How to Enable:**

+- Set the AP parameter to 1 or 2 in configuration mode.

+

+**Sending Data:**

+- In terminal mode, the window changes to a frame-based interface.

+- Use the wizard to create an API frame (e.g., FrameType 0x10 for sending data).

+- Enter the target module’s MAC address and data (e.g., “1234”).

+- Send the frame; the target module receives the data.

+

+- Data sent from a transparent mode module will appear as a 0x90 receive frame in API mode.

+

+---

+

+## Digimesh vs. Point-to-Multipoint

+

+- **Digimesh (XBP9B-DM firmware):** Supports mesh networking; any node can route data for others.

+- **XBP9B-DP firmware:** No mesh; lower RF rate (10Kbps) for longer range, suitable for star networks with distant nodes.

+

+---

+

+## UAVs and High-Speed Industrial Communication

+

+For point-to-multipoint setups (not mesh), optimize for bandwidth and real-time performance:

+- `TO=40`: Enables point-to-multipoint mode

+- `CE=2`: Node does not route data, saving CPU and bandwidth

+- `NH=1`: Limits network hops to 1, increasing bandwidth

+

+---

+

+## Summary

+

+The XBee PRO 900HP module is versatile for various wireless networking scenarios. Use Digimesh for self-organizing mesh networks, or configure for point-to-multipoint for high-speed, real-time applications. API mode offers advanced control and flexibility, while transparent mode is simple for basic data transmission.

+

+

+

+

+

+## ref

+

+- [[network-dat]] - [[IEEE-dat]]

+

+- [[IEEE-dat]]

+

+- [[CC2530-dat]] - [[CC2630-dat]] - [[TI-network-dat]]

+

+- [[ESP32-C6-dat]]

+

+zigbee is a wireless communication protocol based on the IEEE 802.15.4 standard, designed for low-power, low-data-rate applications in personal area networks. It is widely used in home automation, industrial control, and sensor networks due to its mesh networking capabilities and energy efficiency.

+

+

+## ref

+

+- [[network-dat]]

+- [[mcu-dat]] - [[dev-board-dat]] - [[PIC-dat]] - [[risc-v-dat]]