NEXIO Laboratories (EMC / Radio / Near field)
Operated by experienced consultants on a one-off (daily) or integrated basis, NEXIO laboratories enable you to provide rapid answers to questions concerning :
- Comprunderstanding and characterization of EM phenomena
- Development and integration of RF functionalities
- Application ofhe 5 golden rules of EMC design
- Anticipating constraints and risks
- EMC and RADIO evaluation, tuning and pre-qualification
- Investigation and compliance
- CE marking and support for export markings (FCC, etc.)
When the assignments entrusted to us involve support through to certification, NEXIO can count on privileged partnerships with a large number of notified laboratories in the automotive, aeronautics, space, military, rail, medical, industrial, IT, multimedia & telecom sectors, etc.
Laboratoires Nexio services
We have built up a team of over 80 technicians, engineers and PhDs, capable of integrating EMC into a project approach, designing and building the product’s EMC, or validating the product’s EMC behavior.
We provide expertise and support for technological choices, design assistance, investigation, digital simulation, technical documentation, qualification…
tests carried out under conditions close to certification conditions, but in optimized configurations.
- Conducted & radiated emission
- Conducted & radiated immunity
- Immunity to electrical transients (lightning, ESD, burst, dip, etc.)
- Near-field emission and radiated immunity
- Transmitting power (EIRP)
- Sensitivity
- Spurious
- Cyclic ratio
- Frequency hopping and blocking
in-cage and out-of-cage measurements to support electronic developments.
Particularly for those involving wireless links (validating antenna design, integrating and/or adjusting RF circuits, characterizing performance, etc.).
- Radiation diagram: efficiency and gain
- Impedances and Parameters S
- Cyclic ratio
- Attenuation / Shielding efficiency
- EM characterization of materials
- Antenna matching
NEXIO Laboratories
Test areas :
- Semi-anechoic chamber
- Near-field scanner
- On tables / Table tops
- Radiated emission and “classic” driving
- Near-field radiated emission (amplitude and vector)
- Radiated immunity and “classic” driving
- Near-field radiated immunity
- Immunity to electrical transients
- Immunity to electrostatic discharge
- Spurious
- Emitted power (EIRP)
- Sensitivity
- Frequency hopping and frequency blocking
- Spectral occupancy
- SAR (Specific Absorption Rate) measurements
- EMF (ElectroMagnetic Field) measurements
- Radiation diagrams of single or integrated antennas (power, efficiency, gain)
- Parameters S
- Impedances
- Shielding attenuation and efficiency (cables, materials)
- Transfer impedance
- Dielectric strength / Continuity
- Propagation time
- Reflection coefficient
- Quality coefficient for magnetic materials
- Permittivity / Permeability
Why choose us?
Dual EMC and RADIO skills complemented by dual NORMATIVE and FUNCTIONAL skills, relevant in a context where :
- More and more electronic products incorporate RADIO functions.
- The RADIO performance targets must not compromise EMC performance
- Compromises are needed to balance functionality and standards
A powerful QCD:
- QUALITY: The right means, at the right time, meeting the right requirements
- COST : The laboratories we use enable us to charge the fairest prices
- DELAY: Another strong point of our offerthe laboratories we use ensure optimum responsiveness
A high level of service:
- des by specialized consultants testing AND design
- from realistic recommendations adapted to the project context
- a incremental approach to optimize strategy (and costs)
Webinar: 5 key steps to successful EMC certification
Key steps to successful EMC certification :
Whatever the type, size and complexity of the electronic equipment under development, EMC management is a matter of managing risks, costs and development time.
In this presentation, NEXIO consultants will share the 5 key steps for embarking on an EMC certification process with mastery and serenity.
They’ll show you why managing these constraints is much simpler than it seems, as long as you take them into account methodically from the very first hectometers of your projects.
EMC / Radio / Lightning / ESD / Near-field service use cases
- Understanding and analyzing design choices
- Analysis and interpretation of test results
- Additional measurements to confirm hypotheses / test solutions (in anechoic chamber and near-field scanner)
- Recommendations for corrections/improvements
- Adjustment and validation of recommended solutions
- Drafting of associated technical documents
- RADIO performance status of a LoRa Europe device (868MHz)
- Analysis of results in relation to design choices (especially RF front-end circuitry)
- Search for antennas (& cables) suitable for Chinese (490MHz) and North American (915MHz) LoRa networks
- Simulation of the 868MHz front-end circuit to adapt it to 490 and 915MHz applications
- Optimization of 2 antenna-matching circuits using duct measurements
- Validation of work using radiated RADIO performance measurements
- 6 ISO 17025 test facilities / day, 2*8, 3*8
- Technician/engineer platform with local manager
- Adaptation to workload: between 1 and 6 employees per week
- Document management
- Lab management support
- Modeling an antenna
- Simulation with Ansys HFSS software
- Calculating the radiation diagram
- Parametric study to define the optimum configuration
- Measuring radiation patterns in an anechoic chamber on a prototype
- Choice of guidelines/standards
- Pre-qualification pre-qualification
- Investigations using near-field measurements
- Recommendations
- CE Marking” qualification tests