As part of its design and assembly solutions, Nano Electronic Services is working with UK Start Up Paragraf, to help promote their products and unique graphene electronics technology
“Paragraf harnesses graphene’s unique properties to create the next generation of semiconductor devices.
It is the first company in the world to mass produce graphene-based Hall effect sensors that measure magnetic fields using less power, while achieving greater sensitivity, than conventional Hall sensors. Paragraf sensors have unique advantages for industrial automation and manufacturing, automotive and transportation, consumer electronics, research, computing and healthcare applications.
The company’s proprietary production techniques provide a contamination-free, one-atom-thick layer of graphene directly on standard semiconductor substrates. The team is also developing biosensors that will deliver high sensitivity, point-of-care diagnostic tests and working on technologies to extend Moore’s Law.
Paragraf’s story began in 2015, when CEO Simon Thomas was part of a team of research scientists at the University of Cambridge working with graphene deposition. The Paragraf HQ and first manufacturing plant opened near Cambridge in 2018. A second plant will open soon.”
Paragraf harnesses graphene’s unique properties to create the next generation of semiconductor devices.
It is the first company in the world to mass produce graphene-based Hall effect sensors that measure magnetic fields using less power, while achieving greater sensitivity, than conventional Hall sensors.
Paragraf sensors have unique advantages for industrial automation and manufacturing, automotive and transportation, consumer electronics, research, computing and healthcare applications.
The company’s proprietary production techniques provide a contamination-free, one-atom-thick layer of graphene directly on standard semiconductor substrates. The team is also developing biosensors that will deliver high sensitivity, point-of-care diagnostic tests and working on technologies to extend Moore’s Law.
Graphene Based Hall Effect Sensors
The integration of high purity 2D graphene allows Paragraf’s Hall Effect Sensors to deliver unrivalled measurements, sensing, and control in ultra-high resolution magnetic field sensing and positioning applications.
They can be used across the widest range of operating conditions, including ambient, high temperature and cryogenic environments.
The GHS-H is Paragraf’s range of Hall Effect Sensors that deliver ultra-high-resolution magnetic field measurements in high-temperature conditions
To see more about the sensor range click here
Benefits include :
– immunity to in-plane stray fields (no magnetic hysteresis)
– high resilience to mechanical stress
– extremely high sensitivity
– reduced shielding requirements
– very low power requirements
– up to 10,000x lower power requirements
– robustness to radiation
– consistent and repeatable performance in extreme environments
– reduced shielding requirements
– no magnetic hysteresis
– 10ppm sensor resolution
– one sensor for two applications
– live measurements
Typical Applications for the technology :
– High temperature current sensing
– MRI field mapping/calibration
– Maglev field mapping/calibration
– Battery cell field mapping
– Low power, heart sensor
– Sensing in high radiation places
– In vitro diagnostic tests
– Instantaneous gas sensing
– Chemical detection
– Water contamination sensing
– Optical modulation (data comms)
– High frequency transistors
– Fast photo-detectors
For more information why not visit our stand at C8 or contact us on sales@nanoelectronicservices.com for more information
More at : www.nanoelectronicservices.com
