Skip to content

Quartet – Multipurpose Receiver

Rugged, Versatile and Sensitive All Surface Types

Our multi-purpose laser receiver is suited for a wide range of acoustic and ultrasonic applications from the laboratory to the factory and available in the visible or infrared. Based on our patented multi-channel random quadrature detection technology, the system is designed for remote detection of sub-nanometer displacements. The system offers high sensitivity, requires low to no maintenance, can be fitted with a variety of laser wavelengths, and is capable of rapid scans and measurements. The Quartet was born of a research and development grant by NASA and the National Science Foundation.

Description

The Quartet

is a multi-purpose laser receiver well suited for a wide range of acoustic and ultrasonic applications from the laboratory to the factory and available in the visible or infrared. Based on our patented multi-channel random quadrature detection technology, this receiver is designed for remote detection of sub-nanometer displacements. It offers high sensitivity, requires low to no maintenance, can be fitted with a variety of laser wavelengths, and is capable of rapid scans and measurements.

Robust & Versatile

Because the technology does not require control over the length of the optical path within the system, the Quartet is not subject to stability issues common to most long cavity and path-stabilized interferometers. It does not require high accuracy optical components or positioning, making it exceptionally rugged.

Fiberized Optical Head

A relatively small and versatile fiberized optical head is easily mounted to fit a variety of measurement conditions and can be set-up for a wide-range of stand-off distances. Its front lens can be easily changed or replaced if necessary

Measurement Precision

The Quartet produces an analog signal that is proportional to surface displacement.

High Sensitivity on all Surface Types and Materials

Thanks to its multiple detectors and high transmission optics, the Quartet accomplishes efficient light collection and thus, high sensitivity. This continues to be true when the system is fitted with a moderately powerful laser thanks to low noise detectors and electronics. By detecting and processing many speckle interference signals, the Quartet achieves a stable demodulated signal even when processing a highly speckled beam. This means that it can perform measurements on any kind of surface, including rough, porous, rusted or mirror-like surfaces.

Inspection on Rapidly Moving Objects

Streamlined electronic processing allows the Quartet to perform single shot measurements on fast-moving objects, at speeds up to meters per second.

Not Wavelength Dependent

The Quartet can be fitted with a range of internal laser wavelengths ranging from visible to infrared.

Signal Indicators

Incorporated within the system are visual and audible signal indicators designed to help the user optimize their measurement setup. The Quartet also includes an internal calibration signal allowing for a calibrated output at 100mV per nanometer of displacement.

Beam Chopper (Optional Upgrade)

The beam chopper is an optional feature which allows the system to be used on materials with poor heat conductivity, such as plastics or carbon fiber materials without damaging the surface. A perforated disk synchronized with the generation laser “chops” the beam at a regular interval in order to prevent the sample from being exposed to continuous laser power. This feature does not affect the quality of the signal as it allows the laser to be used at full power, in contrast to alternative solutions such as using continuous but low laser power systems. Once installed, the chopper can be turned on and off to suit the application. This upgrade is compatible with new generation Quartets and is easily installed by replacing the top cover of the system.

Specifications

Specification

MCRQ Technology: The idea behind Multi-Channel Random Quadrature was to develop a laser-ultrasound technology with a robust, compact design and a large depth-of-field, capable of functioning effectively in a wide range of environments without loses in sensitivity, including on rough surfaces. With support from the National Science Foundation and NASA, we developed the Quartet. By collecting and processing a multitude of speckles, the Quartet is fully functional in environments which would otherwise be unsuitable for most other receivers and can perform measurements on all surface types.

NESD (Noise Equivalent Surface

Displacement)

2. 10-6 nm/Hz1/2
Detection Bandwidth Upper limitUp to 80 MHz
Standard Detection Bandwidth Lower limit1 MHz
 

Suitable CW Laser power

500mW to 3W internal laser

Option: Internal chopper for reduced average power

Laser wavelength532nm (Visible), 1064nm (IR) and 1550nm (IR)
FiberMultimode / Length to be specified when ordering
Spot diameter on sample50µm to 1.5mm (depend on stand-off & wavelength)
Optical stand- offFrom 70mm to a few meters
Diameter of collecting aperture2” (50mm)
Analog OutputsCalibrated output – 100mV/nm Direct output, Calibration level and DC level
OptionsBeam Chopper / 2D scanning set-up including PC, software, digitalization card and X-Y translations
Electrical Requirements110V / 220V – 50Hz / 60Hz
Demodulation Dimensions185 x 320 x 370mm
Optical Head Dimensions65 x 85 x 170 mm
Demodulation Weight10kg
Optical Head Weight0.75kg

Documentation

Download / View Documentation

Loader Loading...
EAD Logo Taking too long?
Reload Reload document
| Open Open in new tab

Download your personal copy here [960.81 KB]

Request Quote

Request a quote









    Back To Top
    Open chat
    Scan the code
    Hello 👋
    Can we help you?