A Comprehensive Guide to Kelvin Probe Technique by Equiptest.com

Kelvin probe techniques are used to measure the work functions of materials. They have been successfully applied in surface science for decades, usually under UHV conditions. It is employed to study the adsorption of molecule surfaces or reconstruction processes of single-crystal surfaces. Both of which cause a change in the surface or dipole potential.

What is the Kelvin probe technique?

The Kelvin Probe technique is a non-contact, non-destructive method that measures the change in the contact potential difference (CPD) between the sample and the electrode using a vibrating reference electrode.

 

The work function difference between the tip and sample is produced using the conventional Kelvin probe. Lord Kelvin, a renowned Scottish scientist, proposed the Kelvin method in 1861. Typically, the tip is calibrated against a reference surface, such as gold. However, KP Technology is the only company that offers absolute Kelvin probes. To generate absolute work function values, this combines the Einstein Photoelectric Effect with the Kelvin technique (in eV).

Specifications of Kelvin probe

Because the topmost 1 - 3 layers of atoms or molecules define the WF of a surface, the Kelvin probe is one of the most sensitive surface analysis techniques available. KP Technology systems have an extremely high wf resolution of 1 - 3 meV. This is currently the highest achieved by any commercial device. 

It does not make physical contact with the surface.  Instead, an electrical connection is made to another part of the sample or sample holder.

A head unit with a voice coil driving system and an inbuilt amplifier suspended above a sample is the physical form of a Kelvin Probe.

The sample and the vibrating tip combine to create a capacitor with a perfect, or parallel-plate shape. Electric charge is pushed around the external detecting circuit as the tip vibrates. Both the potential across the capacitor and the capacitor spacing can be determined to very high resolution. It can be done by carefully controlling the tip potential and automatically capturing and analyzing the resulting waveform.

Kelvin probes for Semiconductor surfaces

The Kelvin probe is the only method for accurately measuring the Fermi level on semiconductor surfaces, including organic (polymer) and inorganic (Si, Ge, CdS, etc.) semiconductor surfaces. White or monochromatic light illumination alters the Fermi level, causing energy band shifts that can be utilized to describe the interface and bulk defect states. These processes are known as Surface Photovoltage (SPV) and Surface Photovoltage Spectroscopy (SPS).  KP Technology can provide our systems with the necessary software and add-ons.

Equip-Test- Ultimate destination for all interface solutions

Equip-Test is a worldwide manufacturer of test probes and fixture kits for a variety of applications. Our primary product line consists of test probes, test fixture kits, customized ICT, functional test fixtures, and integrated ICT with function testing capabilities. We make significant investments in research and development, internal laboratories, and high-tech manufacturing plants. If you have any concerns, our knowledgeable staff will be happy to assist you. Visit our official website today if you are looking for interface solutions or probe test tools. You can also get a quote by calling +36-29/550-940.

What are the advantages of spring contact probes?

The spring contact probes are used to create an electrical connection between the object that to be tested and the testing system. These contact probes are primarily used for electrical testing of printed circuit boards, connectors, cables and various other electrical components and assemblies. The main advantages of the spring contact probes are:

spring contact probes

·          
     Constant contact resistance.

·         High pointing accuracy.

·         Longevity.

·         High currents and frequencies as possible.

·         Easy installation in the test adapter by using receptacles

·         Interchangeable.

Other categories are interface probes, probes with rolling ball, switch probes, high current probes, threaded probes; pneumatic probes etc. Flat tip pin size contact probe is suitable for solder pads and contact pins. Different uses of contact probes are according to the tip pin size. High current probes are used for high current application, specially designed for a very small probe resistance.

Probes are a durable component, which can perform several hundred thousand contact cycles with stable contact resistance. The variety of spring contact probe allows the user to find the perfect test needle for each application.  Each probe is used for different purposes. The users have to choose according to the tip style, length, spring force and travel time. Moreover, the spring contact probes are used to test the printed circuit boards, connectors, wire harness and other electronic components. They can be used in interfaces and easily removable electrical connections. The contact probes of springs do not require tolerance compensation because they are suitable for all contacting requirements in two-terminal measurement. Altogether, the contact probes of spring produce different materials such as brass, steel or copper beryllium. It contains a broad range of head shapes with a diameter between 0.5 and 3mm forms of your standard product range. You can find the spring contact probes from Equip-test.