Design Solutions November 2025

orderForm.title

orderForm.productCode

orderForm.description

orderForm.quantity

orderForm.itemPrice

orderForm.price

orderForm.totalPrice

orderForm.deliveryDetails.name

orderForm.deliveryDetails.accountNumber

orderForm.deliveryDetails.phone

orderForm.deliveryDetails.poNumber

orderForm.deliveryDetails.email

orderForm.deliveryDetails.companyName

orderForm.deliveryDetails.billingAddress

orderForm.deliveryDetails.deliveryAddress

orderForm.deliveryDetails.deliveryDetailsDeliveryAddressSameAsBillingAddress

orderForm.deliveryDetails.address1

orderForm.deliveryDetails.address2

orderForm.deliveryDetails.city

orderForm.deliveryDetails.state

orderForm.deliveryDetails.postCode

orderForm.deliveryDetails.country

orderForm.deliveryDetails.additionalInformation

orderForm.noItems

FEATURE SENSORS & SENSING SYSTEMS

A SENSING SOLUTION FOR 3D SURFACE INSPECTION AND DEFECT DETECTION

Glenn Wedgbrow, business development manager at

Micro-Epsilon UK, examines the features and applications for the company’s 3D reflectCONTROL sensors

A

vailable from Micro-Epsilon, the 3D reflectCONTROL series of sensors are designed

to provide an innovative solution for surface inspection and defect detection on highly reflective and transparent surfaces.

These use phase-measuring

deflectometry to precisely analyse reflective surfaces. A striped pattern is projected onto the surface and its reflection is captured by two cameras. The sensor then calculates a 3D point cloud of the surface structure from the images, making unevenness, scratches and other defects visible. The sensor can be integrated in a stationary manner or moved over the target on a robot, with localised abnormalities or defects evaluated and displayed in the CAD data.

FEATURES Featuring a GigE Vision interface, the RCS130-160 3D HLP sensor is designed for measurement and inspection tasks in production lines. This provides GenICam- compliant data, enabling seamless integration into existing image processing systems. The sensor delivers sharper 2D images than its predecessor model as well as a 3D representation of highly reflective surfaces. Furthermore, it can be used to determine the topology of the components – for example, flatness, deflection and curvature. The high z-axis resolution in the nanometre range and repeatability of <1µm, in combination with its measuring range of approximately 170mm x 160mm, enable the sensor to record up to five million data points of the surface to be measured within just a few seconds.

APPLICATIONS reflectCONTROL sensors can be used in semiconductor production, for example, where they can detect the exact shape of a wafer. The sensors are also ideal for the automotive industry: even the smallest surface defects of less than 1µm can be detected precisely and reliably during the surface inspection of painted

attachments. The sensors are also used in the quality inspection of mirrors, flat glass (e.g. smartphone production) and in the surface inspection of head-up displays. Furthermore, reflectCONTROL sensors can be

used together with Micro-Epsilon’s 3DInspect software, which transmits measurement data from the sensor to a PC via Ethernet and visualises it in 3D. This 3D data is processed further, evaluated and assessed with 3DInspect and, if necessary, logged and transmitted to a control unit. The 3D data can also be saved.

DESIGN The reflectCONTROL sensor works according to the principle of phase-measuring deflectometry, a method which is particularly suitable for high precision defect detection and three-dimensional geometrical detection of flat reflective objects. With deflectometry, the surface itself is not examined but is optically distorted or intensity weakening effect, which shows itself in the

36 DESIGN SOLUTIONS NOVEMBER 2025

mirror image of a pattern. In the process, a sine pattern is shown on a display and then the reflection of this pattern is recorded by cameras. A few images are taken with CCD cameras with a phase shift of the displayed pattern. The data obtained is processed using special algorithms to determine curvatures and intensity amplitudes over the entire surface. Deflectometry systems are superior to other optical methods in that the required local curvature, intensity and amplitude data are available over the entire area captured by the camera. The advantage of the stereo measuring system lies in the simultaneous image acquisition of two cameras from different directions. The combined evaluation of the data from

both cameras enables a 3D reconstruction of the measuring object with nanometer precision.

Micro-Epsilon

T: 0151 355 6070 www.micro-epsilon.co.uk

Page 1 | Page 2 | Page 3 | Page 4 | Page 5 | Page 6 | Page 7 | Page 8 | Page 9 | Page 10 | Page 11 | Page 12 | Page 13 | Page 14 | Page 15 | Page 16 | Page 17 | Page 18 | Page 19 | Page 20 | Page 21 | Page 22 | Page 23 | Page 24 | Page 25 | Page 26 | Page 27 | Page 28 | Page 29 | Page 30 | Page 31 | Page 32 | Page 33 | Page 34 | Page 35 | Page 36 | Page 37 | Page 38 | Page 39 | Page 40 | Page 41 | Page 42 | Page 43 | Page 44 | Page 45 | Page 46 | Page 47 | Page 48 | Page 49 | Page 50 | Page 51 | Page 52