Why does your BLE work in the lab – then fail in production?
BLE works in the lab. In production, latency becomes unpredictable. We tested 4 modules under interference to show what actually breaks — and why.
We tested 4 popular BLE modules under real Wi-Fi interference, and here’s what we found.
BLE works in the lab. In production, latency becomes unpredictable. We tested 4 modules under interference to show what actually breaks — and why.
Why the AT interface typically causes issues in deployed industrial BLE systems
The AT interface for BLE chips is simple and familiar – but also slow, inefficient, and error-prone due to its human-readable nature. Learn why the AT interface typically causes issues in deployed industrial BLE systems!
Boosting Bluetooth Range: Understanding Tx Power Regulations in the EU & US
And why, in most industrial deployments, transmit power is rarely the factor that decides whether a wireless system succeeds or fails.
How to Replace Serial Data Cables with Reliable, High-Performance Wireless Communication
See how we replace serial data cables with Bluetooth communication to achieve wireless mobility.
Why We Use Bluetooth to Reliably Exchange Time-Critical Data in Industrial Applications
Discover why Bluetooth Low Energy (BLE) is our top choice for reliable, time-critical wireless communication in industrial applications.
How to Achieve Long-Range Bluetooth Communication Up to 5 Kilometers
We show you how can reliably use Bluetooth for long-range communication.
Understanding Bluetooth Low Energy (BLE) PHY Modes: Choosing the Best Option for Your Application
Here is how we choose the best BLE PHY Mode for our BLE applications.