Standex Electronics

Standex Electronics Standex Electronics is a global leader in mission‑critical electronic components.

As the platform behind Standex DETECT, EDGE, and GRID, we deliver solutions that power industries from smart home to aerospace, transportation, and the electrical grid. Standex Electronics is a global leader in mission‑critical electronic components, bringing together decades of engineering expertise and customer partnerships to power innovation across industries. As the platform company of Stande

x Detect, Standex Edge, and Standex Grid, we provide solutions that touch nearly every sector, from smart home to aerospace, from transportation to the electrical grid. What began as a single precision manufacturing operation has evolved into a diversified global platform with three complementary operating divisions. Standex Detect – switching and sensing technologies for various applications
Standex Edge – magnetics solutions for power, performance, and efficiency
Standex Grid – instrument transformers and grid solutions for utilities and OEMs

Over the years, we’ve expanded our capabilities through strategic acquisitions and organic growth, building a strong portfolio of brands, products, and services while maintaining a unified commitment to quality, engineering excellence, and customer intimacy. We design and manufacture high‑reliability components that keep industries moving forward. Our product portfolio includes:

Switching and Sensing Technologies – reed switches, relays, and sensors
Magnetics Solutions – transformers, inductors, planar power solutions
Grid Solutions – low and medium voltage instrument transformers, bushings, and related products

Our deep vertical integration allows us to provide consistent quality, rapid prototyping, and innovative design tailored to the most demanding applications.

The Hidden Enemies of HV Measurement AccuracyIn high‑voltage test systems, accuracy isn’t just about instrumentation it’...
05/20/2026

The Hidden Enemies of HV Measurement Accuracy

In high‑voltage test systems, accuracy isn’t just about instrumentation it’s about everything in the signal path.

From semiconductor ATE to cable harness and battery testing, designers must actively manage:
▪️ Leakage paths that distort measurements
▪️ Parasitic capacitance that slows performance
▪️ Layout constraints in dense, high‑voltage environments

The right switching approach makes all the difference.

📘 Explore practical design guidelines and system-level consideration:
https://hubs.ly/Q04h1c5m0
⚡ Discover SHV‑2A https://hubs.ly/Q04h1d450

🚀 New Release: Reed Relays & Optocouplers BrochureExplore the newest edition of our comprehensive product line guide fea...
05/19/2026

🚀 New Release: Reed Relays & Optocouplers Brochure

Explore the newest edition of our comprehensive product line guide featuring high-performance reed relays and optocouplers designed for precision, reliability, and long-term durability.

Inside you’ll find:
✅ Expanded product portfolio
✅ Key technical specifications
✅ Application insights across industries

Download the latest brochure and discover the right solution for your next design:
👉 https://hubs.ly/Q04h16ql0

No two liquid level sensing applications are exactly the same and your sensor shouldn’t be either.From switching points ...
05/14/2026

No two liquid level sensing applications are exactly the same and your sensor shouldn’t be either.

From switching points and materials to form factor and integration, customization plays a critical role in system success. Our Liquid Level Sensors & Floats Engineering Guide helps engineers make informed design decisions early reducing risk and speeding time to production.

For When it Matters – The Right Design, at the Right Time, at the Optimal Cost.

📘 Download the guide and design it right the first time: https://hubs.ly/Q04fqzKd0

Designing reliable liquid level sensing isn’t about adding complexity it’s about choosing the right approach.Our Liquid ...
05/12/2026

Designing reliable liquid level sensing isn’t about adding complexity it’s about choosing the right approach.

Our Liquid Level Sensors & Floats Engineering Guide walks engineers through:
✔ Single-, multi-point, and continuous level sensing
✔ Float and stem material selection
✔ Application examples across industrial, medical, and energy systems
✔ Customization options to fit real constraints

Engineer with confidence—the right design, at the right time, at the optimal cost.
📘 Get the guide here: https://hubs.ly/Q04frc1l0

When liquid level measurement fails, the consequences can be costly downtime, false readings, or redesigns late in devel...
05/08/2026

When liquid level measurement fails, the consequences can be costly downtime, false readings, or redesigns late in development.

Reed switch–based liquid level sensors offer a proven, direct-contact solution that:
• Performs reliably in foam, v***r, and turbulence
• Requires no power at the sensing point
• Supports long service life and stable operation

Our engineering guide shows how to apply these designs effectively—for when it matters most.
📘 Explore the guide: https://hubs.ly/Q04flzZH0

Liquid level measurement failures often don’t start in the field they start at the design stage.Foam, turbulence, temper...
05/06/2026

Liquid level measurement failures often don’t start in the field they start at the design stage.

Foam, turbulence, temperature extremes, and tight mechanical constraints can quickly expose the limits of the wrong sensing approach. That’s why selecting the right liquid level sensor early matters.

📘 Our Liquid Level Sensors & Floats Engineering Guide helps engineers:
• Understand sensor technology tradeoffs
• Match materials and designs to real-world conditions
• Improve reliability while controlling total system cost

For When it Matters – The Right Design, at the Right Time, at the Optimal Cost.
👉 Download the guide: https://hubs.ly/Q04fkNRT0

Designing for AI isn’t just about today’s workloads — it’s about what comes next.Energy‑efficient, sensor‑enabled infras...
05/05/2026

Designing for AI isn’t just about today’s workloads — it’s about what comes next.

Energy‑efficient, sensor‑enabled infrastructure gives data centers the flexibility to scale, adapt, and operate more sustainably as AI demand grows.

Future‑ready data centers are built with intelligence embedded from the ground up.

Explore how sensors play a critical role: 👉 https://hubs.ly/Q04dCvdH0

In AI data centers, small failures can lead to major downtime.Sensors provide real‑time visibility into:• Physical acces...
05/04/2026

In AI data centers, small failures can lead to major downtime.

Sensors provide real‑time visibility into:
• Physical access
• Cooling system performance
• Environmental conditions

That insight enables faster response, fewer failures, and smarter preventive maintenance — all while reducing unnecessary energy use.

Reliability and efficiency by design — For When it Matters.

👉 Read the full article: https://hubs.ly/Q04dCrWN0

Power and cooling demands are rising fast in AI‑driven data centers — and every inefficiency adds up.Sensor‑based monito...
04/30/2026

Power and cooling demands are rising fast in AI‑driven data centers — and every inefficiency adds up.

Sensor‑based monitoring helps operators:
✅ Optimize cooling systems
✅ Reduce wasted energy
✅ Maintain stable, high‑density environments

The result? More sustainable performance without compromising uptime.

Learn how sensor‑driven design supports greener, AI‑ready facilities:👉 https://hubs.ly/Q04dCxhB0

AI is pushing data center infrastructure to its limits — higher power density, more heat, tighter uptime requirements.Bu...
04/28/2026

AI is pushing data center infrastructure to its limits — higher power density, more heat, tighter uptime requirements.

Building energy‑efficient, AI‑ready data centers starts at the sensor level.

For When it Matters — from monitoring access and safety to maintaining precise cooling performance, sensors enable smarter decisions, lower energy consumption, and greater operational resilience.

The future of AI infrastructure is efficient by design. 👉 See how: https://hubs.ly/Q04dCrm30

From IGBTs and SiC MOSFETs to IPMs, your test system is only as reliable as its switching foundation.Our latest whitepap...
04/28/2026

From IGBTs and SiC MOSFETs to IPMs, your test system is only as reliable as its switching foundation.

Our latest whitepaper dives into how pulse distortion and relay performance impact power semiconductor validation and why reed relay architectures are becoming critical in modern ATE.

We’re also excited to introduce the SHV‑2A relay:
🔹Compact Form 2A design for high-density systems
🔹High insulation resistance & low parasitic capacitance
🔹Built for precise, repeatable high-voltage switching

📄 Read the whitepaper https://hubs.ly/Q04bXQ0V0
⚡ Discover SHV‑2A https://hubs.ly/Q04bXZnY0

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