QCT-CAL Quality Control Test Standard (Calibration)

This Standard block Contains:

This Standard contains the following:
• Opt 1 – Material to be selected by the customer from our recommended list
• Opt 2 – Material to be selected by the customer from our recommended list
• Opt 3 – Material to be selected by the customer from our recommended list
• Opt 4 – Material to be selected by the customer from our recommended list
• BSE Feature Std – 4 high purity elements covering low, med. and high grey scales
• BSE Duplex Brass used for Backscattered Detector (BSE) resolution
• Au/C BSE specimen used for SEM BSE resolution, 5 – 150nm particles
• Sn/C BSE specimen used for SEM BSE resolution, 5nm-30μm particles
• 150 μm Faraday cup used for Beam current stability
• Silicon Test Grid used for Magnification calibration & image distortion

Selectable Materials for the QCT Standards

Recommended Materials for Checking Energy Resolution

Resolution is quoted as the width of the peak at half its maximum height (FWHM). The lower the number the better the resolution of the detector and therefore the better it will be at resolving peaks due to closely spaced X-ray lines.
Many manufacturers test the performance of an EDS detector using Fe55. This is con-venient as it can be achieved without the need of mounting the detector on an SEM.
The resolution of a detector is traditionally specified for the Manganese Kα X-rays at 5.895 KeV as this is the energy of the most intense X-ray line emitted by the Fe55 source.
Mn Kα energy is most commonly used to specify EDS resolution as the peaks are well separated. However, much more serious overlaps occur below 3keV and the resolution performance at low energies is critical to good performance for all elements. Mn (FWHM) is a very insensitive measure to characterize the noise of a detector and pre-dict the resolution at low energy. Therefore, to characterize the resolution of a detector at low energy, the resolution is also quoted for another line, typically Fluorine Kα.
The resolution of the C Kα peak measured using pure Carbon is very useful due to its sensitivity to noise and incomplete charge collection. A low value guaranteed here means excellent detector resolution for all energies.

Recommended Material for Checking Detector Performance Changes

A gradual decrease in low energy sensitivity over time will result in a decrease in the height of peaks at low energy. This can be checked by monitoring the relative height of K and L lines from a transition metal element. The ratio of L to K line heights from pure nickel measured at 20kV is a common test. A more sensitive test for the presence of ice and water vapour on a detector window is to look at the L spectrum from pure Cr.

Miscellaneous Materials
Be is often used for checking the low-end sensitivity of high-performance detectors.
BN is used for checking the low-end energy performance of thin window and window-less detectors.
SiO2 is used to test the Oxygen sensitivity of the EDS.
Almandine is used to verify the quant. analysis achieved for oxides after calibration.
AISI 316 S/S is used to verify the quant. analysis achieved after calibration.

See also SEM Magnification and Resolution Specimen Options

Supplied in a specially designed storage/transportation case that contains:
• The standard—protected by an additional specially designed case
• A full electronic booklet on a USB, containing:
• The standard plan/layout
• Certificates of analysis or conformance for each material
• Details on storage and care of your standards
• Certificate of final inspection & recommended re-polishing date
• A replaceable silica gel capsule for protection whilst in transit
• A credit card sized quick reference guide
A copy of the electronic booklet is also accessible from our cloud storage.