Cedrat Technologies, innovation in mechatronics

The FACELIFT project aims to improve strategic surveillance capability, survivability and operational resilience for future stealth aircraft, which will be more stealthy and more maneuverable than the current generation of military assets such as the European MALE-RPAS.

Fluidic actuators; aeronautics; aircraft; military assets; air jets

The aim of the FILUSONIC project is to develop a new range of self-cleaning filtration products, based on the use of power ultrasonic excitation. As member of the consortium, CTEC will design and manufacture the resonant devices, test the proper behaviour under loaded conditions and improve the solution for scaled-up prototype.

Ultrasonic cleaning

COQTEL is an ANR project, which consortium is made of 4 partners: CTEC, I2M, PIMM and RESCOLL. The aim of the project is to develop a solution for corrosion monitoring on airplane structures, by using Lamb waves and by combining both passive and active interrogations.

Aircraft maintenance; Lamb-wave based structural health monitoring

The overall objective of the Fast-Smart project is to develop high quality nano-structured materials, nano-manufacturing technologies and innovative product designs to meet challenges on both quality and cost issues, and to deliver novel but also economically viable approaches of harvesting, storing and using energy concerning kinetic/ mechanical, solar and thermal energy harvesting.

Energy harvesting

MucoPiezoRheo Project, led by Rheonova in partnership with Cedrat Technologies (CTEC), TIMA and LRP laboratories of Grenoble-Alpes University, was selected as part of the PSPC program (Structuring Projects for Competitiveness). MucoPiezoRheo aims to establish a personalized monitoring tool for patients with cystic fibrosis and to anticipate exacerbations phases.

Biomed

The InterQ European project seeks to develop a digital platform for the generation and integrated management of data with the aim of ensuring the quality of products and processes under a zero-defect manufacturing paradigm.

Production; Dressing tools

The OLIVE-SOUND project aims to develop an Ultrasonic (US) reactor for the treatment of olive paste which enhances the working capacity of exiting olive mills. It reduces malaxation time, the current bottleneck in olive oil extraction, by 70% and hence reduces energy usage by 65%.

Ultrasonic applications; Olive oil extraction

The objective of the ACONIT project is to design, manufacture and test actuators for flow control for an implantation in an aircraft engine. The actuators will fulfill aeronautics requirement in order to increase the Technology Readiness Level (TRL) in this domain. To do so, the first objective of the work is to improve the knowledge of the flow physics of an efficient flow control system by joint numerical and experimental analysis performed in a low speed, single stage axial compressor.

Active Flow Control (AFC) solutions; Aircraft applications; Pulsed Jet Actuator (PJA)

The GUDGET project will design, manufacture, calibrate, verify and finally install in the ONERA S3Ch Wind Tunnel (WT) an enhanced gust generator system and an aeroelastic halfmodel connected to the WT side wall, with the purpose to support ONERA in the execution of a WT test campaign and gather information on the aeroelastic behaviour of the model under high amplitude gust conditions, with the acquisition of a relevant database will allow to assess the numerical capabilities for the prediction of gust loads.

Active Flow Control (AFC) solutions; Aircraft applications; Pulsed Jet Actuator (PJA)

The objective of the project is the design, production and testing of a functional prototype of a needle-free injection medical device using a piezoelectric actuator. The device is supplied with substance to be injected by inserting a consumable cartridge from the market.

Medical device; Fluidic

The FORTH project aims at developing a mechatronic tool holder to provide a solution to problems that currently limit machining quality and/or productivity in turning operations.

Internal turning, boring, bottle boring and trepanning operations.

The MEPCOS project, funded by BPI France in the framework of FRANCE RELANCE, aims to ensure the industrialization of optical pointing mechanisms. CTEC's triple experience in space, optronics and innovation will be used in MEPCOS to achieve high-performance and  cost effective space mechanisms for constellation markets. The activities planned in the MEPCOS project aim to:

• Finalize and qualify the space design of our P-FSM (Piezo-Fast Steering Mirrors) and M-FSM (Magnetic Fast Steering Mirrors) models
• Set up and organize our facilities for series production

Optical space communication; ASD; constellations; satellites; FSO

The purpose of the SMArT project is to characterize Electro Active Polymers (EAP) and to explore, from a fundamental point of view, several new types of applications.

Electro Active Polymers

The aim of PULSE-COM project is to combine photo-mobile polymers (PMP) and lead-free piezo-composite (PZL), to develop and to integrate a new class of Photo-Piezo-Actuators. CEDRAT TECHNOLOGIES will be involved in PMP and PZL characterization and will design and test two micro machines: an opto-switch and an optical micro-valve starting from the PMP-PZL materials prepared by partners.

Photo-mobile polymers (PMP);lead-free piezo-composite (PZL); Photo-Piezo-Actuators

The objective of the AUDACITY project is to make the demonstration for a compact powerful and reliable piezoelectric actuator for future locking applications in aerospace. The actuator typology proposed in AUDACITY is based on a 100% piezoelectric actuator technology. The long stroke is achieved by an accumulation of steps, such as the Inchworm piezo motor type or resonant. Although the principle is not new, the passed developments highlighted limitations on several aspects: thermal stability, limited speed, power management, poor friction interfaces…

Locking applications in aerospace

The H2020 Cleansky 2 project SYNJET3C aims at reducing the aircrafts energy consumption by decreasing flow separation on the wings. Active Flow Control (AFC) consists in a mechanism which pulses air from a nozzle at high flow and velocity. The objective of the project is to improve the understanding of SJA behavior and to define the next generation of SJA.

CTEC is in charge of building a system model of the SJA in quiescent air condition and cross flow condition. This model will be a tool to predict the performance of a new SJA...

Active Flow Control (AFC) actuators and systems; Synthetic jet actuators; smart power amplifier solutions

The H2020 ReMAP project will contribute to reinforce the European leadership in aeronautics by developing an open-source solution for aircraft maintenance, the Integrated Fleet Health Management (IFHM) system. By replacing fixed-interval inspections with adaptive condition-based interventions, ReMAP will have an estimated benefit to the European aviation of more than 700 million Euros per year. This is due to a direct decrease in maintenance costs, reduced unscheduled aircraft maintenance events, and increased aircraft availability. ReMAP’s IFHM will be available for certification and reliable implementation on diverse aircraft systems and structures.

Integrated Fleet Health Management; 

The H2020 project PROTECT will develop a versatile platform of 3 pre-commercial lines for production of antimicrobial textiles for hospitals and public areas, and anti-biofilm medical devices and water treatment membranes. The project is coordinated by Univesitat Politècnica de Catalunya and has a duration of 54 months. As member of the PROTECT consortium, CTEC is developing devices for catheters batch treatment by ultrasound and roll to roll textile treatment by ultrasound.

Project PROTECT established The Pilot Laboratory Network (PLN) gathering highly qualified experts from the most eminent research institutes and academies to provide research-related service to the European industries.

Sonic and ultrasonic transducers; Ultrasonic processes: high power acoustic emission, ultrasonic degassing, cleaning

The H2020 Clean Sky 2 project FloCos is coordinated by Trisitec UG and performed with the help of Cedrat Technologies. The project will focus on an integrated Active Flow Control (AFC) actuator driving system taking into account the specific requirements of piezoelectrically driven Synthetic Jet Actuators.

Active Flow Control (AFC) actuators and systems; Synthetic jet actuators; smart power amplifier solutions

In the frame of ROXTAR, a MINALOGIC project dedicated to develop the next generation of XRay sensor for medical application, it has been spotted by our partner TRIXELL the interest to develop the capability of a blinded alignment between the imager and Xray emitter. Cedrat Technologies (CTEC) designed and developed an accurate contactless magnetic long range (1.5 m) alignment function, based on magnetic technologies.

Magnetic alignement, localisation, tracking, detection, X-Ray machines

The MC-SUITE project proposes a new generation of ICT enabled process simulation and optimization tools enhanced by physical measurements and monitoring. The scope is to increase the competence of the European manufacturing industry, reducing the gap between the programmed process and the real part. CTEC develops an innovative force sensor for machine tool application.

Machine tool builders and their end users.

The ASPIC project aims at developing a robust and effcient synthetic jet actuator (SJA) which will be evaluated inside the vertical fin of an aircraft. It will be coordinated by CTEC with the help of ONERA and funded via the Rapid project from DGA, French Ministry of Defence.

aerodynamics; solenoid valves; injectors; fast, precise and compact actuation

The VIPER (Valve hIgh PERformances for flow control separation in aircraft) Cleansky project aims at developing, manufacturing and testing piezoelectric valves to accurately control the air flow (Active Flow Control Actuators) on transport and business aircrafts.

Active flaps in helicopter blades for noise reduction - Optical stabilization in embedded cameras - Active tuneable antennas in telecom satellites - Active mirrors in space astronomy - Portable dynamic shakers

The main objective of this project is to improve the HMI (Human Machine Interface) systems by the integration of mechanical feedback on a tactile

surface to simulate a button or joystick. The contribution of Cedrat Technologies is the expertise on actuation solutions based on piezoelectric technologies.

automotive, aeronautics, embedded solutions

The Eu FP7 Clean Sky PPSMPAB (Piezo Power Supply Module for Piezo Actuator Bench) project aimed at developing a Piezo Power Supply (PPS) offering the highest required power (9kVA) with a high effciency, for driving piezo actuators, accounting for helicopter applications such as active flaps. Cedrat Technologies CTEC (coordinator, SME) and UJF-G2ELAB (partner, lab from Grenoble Joseph Fourier University) formed a consortium using their shared experience on piezoelectric actuators and high effciency high power supplies to meet the GRC requested by the PPSMPAB project. The topic manager was Eurocopter.

helicopter flaps, anti-vibration, embedded solutions aeronautics, low consumption

AEROPZT will address the challenge of developing more capable piezoelectric ceramics, protective encapsulation systems and actuator designs, targeting fluid flow control challenges in harsh / High Temperatures (-80 +250°C) conditions. In this application the aim is to maintain precise control of flow between pilot-mains fuel streams to enable combustion processes that reduce NOx emissions. Additional active control elements include management of lean-combustion thermoacoustic instability and lean-blow out.

active control technology, high temperature multilayer piezo ceramic, clearance control actuation, sensor devices

The main objective of this project is to develop a series of portable plug-and-produce components to improve the overall productivity and process quality of production line.In the framework of this project, CEDRAT TECHNOLOGIES has designed and built a high power controllable magnetic actuator: the so called MICA 500L.

Magnetic actuators, proof mass, milling machine, chatter,active control of vibration, European FP7 project

The aim of this project is to develop hydrometallurgical (as opposed to pyrometallurgical) processes for the recovery of materials including rare earth metals. CTEC’s role in COLABATS deals with the ultrasonic (US) system to be used in the main reactor and final tank. CTEC will design, manufacture and test an appropriate US system, including the vibration generator, sonotrode, and electronics that will be adapted to the specific ionic liquid to produce homogeneous ultrasonic vibrations to promote breaking the battery electrode structure.

Ultrasonic transducer, piezoelectic, magnetostrictive, European FP7 project

The e-Lift3 project aims at developing an electromagnetically activated

variable valve train component making it possible to optimize low engine size with 3/4 cylinder in a non-exclusive way. The system may be installed on the air intake or exhaust and on all or part of the valves of the target engine. In the framework of this automotive project CTEC has manufactured a series of electromagnetic actuators requiring means of production like a new winding tool for the fabrication of coils with wires from 80um to 3mm.

Automotive

The fluMIn3 deals with a new generation of medical injection device,miniaturized and automated, suitable for any type of injection.

The aim is to develop a smart syringe that can be easily used by people not belonging to the medical staff, to achieve safe injections, microdoses of the product, sometimes very expensive, such as in the case of treatment of some cancers or auto-immune diseases.

Medical

WINTUR=In-situ wireless monitoring of on-and offshore WINd TURbine blades using energy harvesting technology ; The project involves TWI, Optel, Smart Material, CEDRAT TECHNOLOGIES, Estonian Wind Power Assoc.,

Wintur, Solent Composite, BCF, Southern & Scottish Energy, Zenon, KTU.

Energy harvesting; piezo generator ; sensor ; health monitoring ; Wind turbine

Le but du projet HBS est de réduire d’un facteur 8 la taille d’un stimulateur cardiaque. La taille minimale obtenue à ce jour est de 8 cm3 et celle visée dans le cadre de ce projet est de 1 cm3.

Medical, Piezo, Energy harvesting, Pacemaker

The aim of SONO“R”US is to allow redefining some of the key features of the prototype developed under the Sonoplast project. The result will be a ready-to-market micromoulding machine that represents flexible, reliable and cost efficiency solutions for producing complex shaped and functional-parts.

Ultrasonic transducer ; Piezoelectric ; Magnetostrictive ;Micro injection, moulding machine, polymere, micro-part, European FP7 project

The SONO project aims at developing a pilot line of antibacterial and antifungal medical textiles based on a sonochemical process patented at BIU laboratories. CEDRAT TECHNOLOGIES will develop the mechatronic hardware for this pilot line including the transducers.

Ultrasonic transducer ; Piezoelectric ; Magnetostrictive ; Sonochemical reactor ; medical fabrics