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Live technical webinar

June 9th, 2026

Why time-critical BLE systems work in the lab – then fail in production

Industrial BLE systems often look stable during development, then become unpredictable under real-world RF conditions.

In this webinar, Michael Spörk, CEO of DEWINE Labs, explains what actually causes latency spikes, disconnects, unstable throughput, and timing failures in industrial Bluetooth LE systems — and why most teams diagnose the wrong problem first.

What you’ll learn:

  • Why BLE changes under real RF load
  • What “best-effort” scheduling actually means in production
  • Why latency averages hide the real failure modes
  • How interference, retransmissions, and mixed traffic destabilize systems
  • Why many BLE “hardware problems” are actually firmware problems
  • How industrial teams diagnose and stabilize failing BLE systems without redesigning hardware

Based on real-world deployments in industrial automation, robotics, and intralogistics systems.

Register for the live session!

Free registration · Technical session · Engineering-focused

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Can’t attend live? Register anyway to receive the recording, slides, and webinar resources after the session.

Technical webinar details

Everything you need to know before joining

Date June 9th, 2026
Time 19:00 CEST
Format Live online webinar
Duration 45 min presentation + live Q&A
Speaker Michael Spörk, CEO

Can’t attend live? Register anyway to receive the recording, slides, and webinar resources after the session.

Who should attend

Built for engineers working with real-world BLE systems

Embedded and firmware engineers

If your BLE system…

  • shows latency spikes
  • disconnects unexpectedly
  • behaves differently under load
  • becomes unstable in production

System architects and technical leaders

If you’re evaluating…

  • wireless cable replacement
  • deterministic communication
  • BLE coexistence challenges
  • industrial wireless architectures

Teams with systems already deployed in the field

Especially if your system…

  • worked in the lab
  • struggles in the field
  • behaves unpredictably under load
  • becomes difficult to diagnose

This webinar is designed for embedded engineers, system architects, R&D teams, and technical decision-makers responsible for Bluetooth LE performance in industrial environments.

Speaker

Michael Spörk

CEO, DEWINE Labs

Michael Spörk is the CEO and co-founder of DEWINE Labs, focused on industrial Bluetooth LE behavior, deterministic wireless communication, and Nordic Semiconductor platforms.

His work focuses on diagnosing and stabilizing BLE systems operating under real-world industrial conditions, including interference-heavy automation, robotics, intralogistics, and regulated environments.

At DEWINE Labs, he supports engineering teams working on industrial automation, robotics, intralogistics, wireless I/O, and regulated systems, including deployments where wireless communication replaced traditional wired control architectures.

The REAL problem with industrial BLE

Most BLE failures start above the radio

What teams usually suspect

  • antennas
  • PCB layout
  • interference
  • BLE itself

What changes in production

  • retransmissions increase
  • latency becomes unbounded
  • control traffic competes with logs and telemetry
  • systems become unpredictable

Standard BLE was designed around best-effort communication. Industrial systems often require predictable behavior under load.

This webinar explains what actually changes between the bench and the factory floor — and how engineering teams

identify, diagnose, and stabilize BLE systems before considering hardware redesigns.

Inside the session

Why BLE systems behave differently in production

Why BLE behaves differently under real RF load

Why systems that work in the lab often behave differently in production.

Why average latency numbers are misleading

Why worst-case behavior matters more than average latency.

Why diagnostics
visibility matters

How to determine whether failures originate from RF, firmware, or architecture.

Why best-effort scheduling breaks down

Why consumer BLE assumptions fail in industrial systems.

Why mixed traffic causes instability

Why telemetry and control traffic often interfere with each other.

When firmware changes
are enough

When firmware changes are enough, and when they aren’t.

You’ll leave with a clearer framework for diagnosing BLE behavior in production environments.

What you won't get:

No product demo. No generic Bluetooth theory. Just practical lessons from real industrial BLE deployments.

Secure your seat now

Built around real industrial deployments

Based on lessons learned from:

  • industrial automation
  • robotics
  • intralogistics
  • wireless I/O systems

Register now!

Free registration · Technical session · Engineering-focused

Can’t attend live? Register anyway to receive the recording, slides, and webinar resources after the session.

 open form in a new tab