0
Each UWB base station should be at least 30 cm away from the wall, with no obstructions around it. The base station should be installed at a height above human level. It's best to ensure that there is a clear line of sight between base stations without any visual obstructions.
What else can I help you with?
What are the differences between LoRa and LoRaWAN in terms of transmission rate and coverage range?
Differences in Transmission Rate and Coverage Range Transmission Rate Differences LoRa Transmission rate range: Typically 0.3 kbps to 37.5 kbps. LoRa's rate can be adjusted by modifying the spreading factor. A higher spreading factor results in a lower transmission rate but improves signal anti-interference capability and extends transmission distance. LoRaWAN LoRaWAN's transmission rate is determined by the LoRa physical layer modulation technology. The protocol layer adjusts different spreading factors to balance the transmission rate of each node. Coverage Range LoRa LoRa's physical layer modulation technology enables a transmission distance of 10 to 15 kilometers in open environments. Transmission distance is closely related to the spreading factor and transmission power: a higher spreading factor and greater power result in a wider coverage range. LoRaWAN NiceRF LoRaWAN, as a network protocol, does not directly define coverage range. By deploying multiple LoRa gateways, coverage can be extended to achieve wide-area IoT connectivity. Summary Data transmission rate: LoRa has a limited data rate, but LoRaWAN can adjust the spreading factor to reduce speed while enhancing anti-interference capability and extending transmission distance. Coverage range: A single LoRa node has a long coverage range in open environments, while LoRaWAN extends coverage through a multi-gateway architecture, making it suitable for wide-area coverage needs. NiceRF When designing an IoT system, the transmission rate and coverage range of LoRa and LoRaWAN should be optimized based on specific application requirements to ensure network performance and coverage effectiveness.
Advantages of wireless UWB modules for distance measurement??
High accuracy: UWB technology provides centimeter-level positioning accuracy, making it suitable for scenarios that require precise location tracking. Strong anti-interference capability: UWB signals use low-power short pulses, effectively reducing interference and maintaining stable signal transmission in complex environments. High data transfer rate: UWB modules not only support high-precision distance measurement but also enable high-speed data transmission. Low power consumption: UWB technology employs a low-power design, which effectively extends the device's operational lifespan. Wide spectrum support: UWB signals can operate over a broader frequency range, coexist with other narrowband signals, and are less susceptible to interference from traditional wireless signals. NiceRF
