Logo
 
Reference terms from Wikipedia, the free encyclopedia
 

Automatic test equipment

Automatic test equipment or automated test equipment (ATE) is any apparatus that performs tests on a device, known as the device under test (DUT), equipment under test (EUT) or unit under test (UUT), using automation to quickly perform measurements and evaluate the test results. An ATE can be a simple computer-controlled digital multimeter, or a complicated system containing dozens of complex test instruments (real or simulated electronic test equipment) capable of automatically testing and diagnosing faults in sophisticated electronic packaged parts or on wafer testing, including system on chips and integrated circuits.

 
Note:   The above text is excerpted from the Wikipedia article Automatic test equipment, which has been released under the GNU Free Documentation License.
 

Check out these latest Nanowerk News:

 

Creating complex light patterns using a two-century-old light phenomenon

Researchers used the Poisson spot effect to create stable optical skyrmions with a laser and disc, simplifying studies for photonics and computing applications.

Graphene catalyst design could cut the cost of hydrogen fuel cells

Simulations pinpoint an electronic sweet spot where nitrogen-doped graphene can drive oxygen reactions more efficiently than platinum.

Cleanroom-free process brings electronic skin to curved robots and wearables

A UV laser and 3D printer create large flexible tactile sensor arrays directly on target surfaces, simplifying fabrication and rapid prototyping.

Hollow silicon nanotubes boost waste-heat conversion without rare metals

A nanoscale tube-in-wall structure localizes heat-carrying vibrations, sharply lowering thermal conductivity while staying compatible with chip manufacturing.

Raman microscopy gets a roadmap for biology and medicine

Bioengineers bridge the gap between spectroscopy developers and biologists through a systematic guide explaining modern Raman imaging technologies, probes, and applications.

Interlocking 3D nano-architecture powers solar desalination for freshwater and irrigation

The material's interlocked, porous structure improves salt resistance, water transport, and vapor generation, enabling stable solar desalination outdoors.

Interface layer drives quantum dot tandem solar cells to record efficiency

Researchers used an ultrathin chlorinated polymer layer to cut charge losses and set efficiency records for all-PbS quantum dot tandem solar cells.

Modular nanorobot targets cancer cells and can be reused for other tasks

Researchers developed a versatile nanorobot with propulsion and payload modules. The two reusable modules autonomously self-assemble and could be used in medicine or industry.

Light color controls a photonic synapse that remembers and forgets

Researchers built a photonic synapse that strengthens or erases memory by light color, using a defect to mimic the brain's balanced learning.

Twisting 2D materials brings quantum light control closer to reality

Researchers show that twisting atom-thin boron nitride layers can tune quantum light emitters, offering new control for quantum technologies.