Smart Sensors for a Smarter World
Precision Sensing Technology for Advanced Automation
Since 2001, Luksens has been empowering industries with high-performance pressure and current sensors. Trusted by over 200 global partners, our solutions drive precision, efficiency, and innovation across green energy, HVAC, industrial automation.
Core Sensing Technologies
High-accuracy measurement solutions for
current, pressure and magnetic field applications
LF01 series fluxgate current sensor
LF05 series fluxgate current sensor
PA series OEM pressure transmitter
Powering Critical Industries
Robust performance where it matters most. From renewable grids to automated manufacturing lines.
Engineering Precision & Quality
R&D
Reinvesting over 10% of revenue, our engineering teams in Germany and China drive innovation in magnetic and pressure sensing—setting the benchmark for Green Energy and Automation.
Agile Innovation
In-House Multi-Physics Simulation
Rapid Concept-to-Sample
in weeks
Industrial-Grade EMC
Optimization
Zero-Defect Manufacturing
From raw materials to End-of-Line (EOL), every step is documented. We employ Automated Optical Inspection (AOI) and 100% functional testing to guarantee zero defect performance.
Quality Promise
100% Batch Traceability
Harsh Environment Tested
Global Compliance & Safety
Standards
UL, CE, ROHS, REACH TSCA...
News & Events
Stay tuned for our upcoming events, where industry experts confidently share their insights knowledge on sensor technology and its applications.
Meet the P04 Series: "Designed for high-pressure environments up to 1600 bar, the P04 leverages advanced Micro-fused technology bonded directly to a solid metal substrate. This oil-free design eliminates leakage risks and ensures exceptional stability.
Looking for precise sensor solutions? Meet the Luksens team at leading trade fairs and events globally. We'll show you firsthand how our Hall Effect, Fluxgate, and Pressure Sensors deliver the performance your applications demand.
Reasons to Choose Us
2001
Innovating since 2001
100
Over 200 Active Customers: Our Trusted, Engaged, and Committed Clients.
4
Four facilities spanning Asia and Europe.
Million
1
Enhancing productivity by over 5 million.
Get Answers Here
FAQs
Find answers to your questions and gain a deeper understanding of our services and offerings through our comprehensive FAQs.
What is Hall Effect Current Sensor?
The Hall Effect is the presence of a voltage when an external, perpendicular magnetic field is applied to a current carrying conductor. The conductor, or the Hall Element, is biased with a constant current. As magnetic field changes, a change in voltage across the hall element occurs. This voltage can then be amplified and conditioned to provide an output that is related to the magnetic field. Using this principle, magnetic field can be concentrated perpendicular to the hall element using integrated packaging, ferromagnetic cores, or coreless busbars. There are many current transducer manufacturers using this principle, as Hall effect current sensors have the advantage of inherent isolation, low power loss, and stability across temperature while providing an analog output voltage that can be monitored by a micro-controller. And it is what we provide as professional current transducer manufacturer.
Can the Hall Effect Current Sensor be used to replace shunt resistor+isolation amplifier/isolation ADC?
There are different current sensors in the market, provided by currenr sensor suppliers. Basically every shunt solution can be replaced with an integrated Hall-effect sensor, simply by routing the current traces through the integrated current sensor rather than through an external shunt. The few shunt solutions that may not be practical for integrating Hall-effect sensors include ultra-low current resolution (in uA) or ultra-high speed (>1Mhz). The main benefits of switching from a shunt solution to an integrated Hall-effect solution are increased isolation, reduced layout size, and reduced design complexity. The common-mode voltage of most shunt solutions cannot exceed 100 V without using an isolation amplifier that requires an external isolation circuit. Compare this to Hall-effect current sensors, which provide inherent isolation from the current path to the signal pins. Switching to Hall-effect sensors also eliminates the need for external shunts and input filtering. This reduces layout space and design complexity. If you are interest, feel free to email us. We can definitely provide you the solution as professional currenr sensor supplier.
Does VCC level affect sensitivity and zero current output voltage?
Parts can be proportional or non-proportional. The ratio indicates that the device sensitivity is proportional to the device supply voltage VCC. Additionally, the device’s output at 0 A, also referred to as V IOUT(Q), is nominally equal to vcc /2. The VIOUT(Q) and sensitivity values for non-ratiometric devices are stable over changes in VCC over the specified input voltage range. The ratio method is useful when the sensor input voltage is on the same line as the ADC reference voltage. Non-proportional components are useful in applications where the sensor input voltage is noisy or unstable. If the part is ratiometric, an unstable V CC will produce a noisy output.
What is the current consumption IC ?
It is the maximum current draw of the sensor electronics at the specified supply voltage when the primary signal is zero, plus the secondary current IS. This parameter only applies to sensors with current output.
How long is the lead time?
As experience current transducer manufacturer, within 2 months if the customized samples are developed based on the existing product platform. For standard models, it would be 4 to 6 weeks.