One Platform.
Multiple High-Value Markets.
One Platform. Multiple High-Value Markets.
One Platform.
Multiple High-Value Markets.
One Platform. Multiple High-Value Markets.
Cenfire’s MEMS technology addresses structural limitations in legacy relay architectures, enabling performance, efficiency, and reliability gains across semiconductor test, electric vehicles, medical imaging, and connected devices.
Cenfire’s MEMS technology addresses structural limitations in legacy relay architectures, enabling performance, efficiency, and reliability gains across semiconductor test, electric vehicles, medical imaging, and connected devices.
Cenfire’s MEMS technology addresses structural limitations in legacy relay architectures, enabling performance, efficiency, and reliability gains across semiconductor test, electric vehicles, medical imaging, and connected devices.
Cenfire’s MEMS technology addresses structural limitations in legacy relay architectures, enabling performance, efficiency, and reliability gains across semiconductor test, electric vehicles, medical imaging, and connected devices.
Semiconductor Test
Semiconductor Test
Semiconductor Test
Semiconductor Test
Semiconductor Test
Application Highlight:
Application Highlight:
General Purpose Relay Card
General Purpose Relay Card
Today, test engineers spend valuable development time programming FPGAs and tuning signal integrity to accommodate a mix of mechanical relays, solid state switches, and complex cabling required for high density test. Cenfire MEMS switches deliver the next level of flexibility, combining ultra high channel density with true AC and DC performance, high current capability, wideband operation, and robust high voltage isolation in a single compact platform. This enables true single contact testing across the full suite of semiconductor test requirements, improving coverage while reducing system complexity.
Today, test engineers spend valuable development time programming FPGAs and tuning signal integrity to accommodate a mix of mechanical relays, solid state switches, and complex cabling required for high density test. Cenfire MEMS switches deliver the next level of flexibility, combining ultra high channel density with true AC and DC performance, high current capability, wideband operation, and robust high voltage isolation in a single compact platform. This enables true single contact testing across the full suite of semiconductor test requirements, improving coverage while reducing system complexity.
Today, test engineers spend valuable development time programming FPGAs and tuning signal integrity to accommodate a mix of mechanical relays, solid state switches, and complex cabling required for high density test. Cenfire MEMS switches deliver the next level of flexibility, combining ultra high channel density with true AC and DC performance, high current capability, wideband operation, and robust high voltage isolation in a single compact platform. This enables true single contact testing across the full suite of semiconductor test requirements, improving coverage while reducing system complexity.
Today, test engineers spend valuable development time programming FPGAs and tuning signal integrity to accommodate a mix of mechanical relays, solid state switches, and complex cabling required for high density test. Cenfire MEMS switches deliver the next level of flexibility, combining ultra high channel density with true AC and DC performance, high current capability, wideband operation, and robust high voltage isolation in a single compact platform. This enables true single contact testing across the full suite of semiconductor test requirements, improving coverage while reducing system complexity.
>20
tests per contact
tests per contact
tests per contact
tests per contact
3X
reduction in downtime frequency for your production test
reduction in downtime frequency for your production test
reduction in downtime frequency for your production test
reduction in downtime frequency for your production test
Electric Vehicles
Electric Vehicles
Electric Vehicles
Electric Vehicles
Application Highlight:
Application Highlight:
Auxiliary Power Management Systems
Auxiliary Power Management Systems
Auxiliary Power Management Systems
Ancillary power management systems contribute meaningfully to the system-level efficiency of an electric vehicle. Power losses from electromechanical relays are a significant driver of this efficiency. Replacing these EMRs with Cenfire MEMS relays would result in a 99.9% reduction in power loss associated with contact electromagnet power dissipation.
Ancillary power management systems contribute meaningfully to the system-level efficiency of an electric vehicle. Power losses from electromechanical relays are a significant driver of this efficiency. Replacing these EMRs with Cenfire MEMS relays would result in a 99.9% reduction in power loss associated with contact electromagnet power dissipation.
Ancillary power management systems contribute meaningfully to the system-level efficiency of an electric vehicle. Power losses from electromechanical relays are a significant driver of this efficiency. Replacing these EMRs with Cenfire MEMS relays would result in a 99.9% reduction in power loss associated with contact electromagnet power dissipation.
Ancillary power management systems contribute meaningfully to the system-level efficiency of an electric vehicle. Power losses from electromechanical relays are a significant driver of this efficiency. Replacing these EMRs with Cenfire MEMS relays would result in a 99.9% reduction in power loss associated with contact electromagnet power dissipation.
15
more miles of range
more miles of range
more miles of range
more miles of range
99.9%
reduction in power loss
reduction in power loss
reduction in power loss
reduction in power loss
Medical Imaging
Medical Imaging
Medical Imaging
Medical Imaging
Application Highlight:
Application Highlight:
Point-of-Care Medical Imaging
Point-of-Care Medical Imaging
Point-of-Care Medical Imaging
Laboratory medical imaging systems use banks of high-voltage EMRs to switch transducers. Without the ability to switch many transducers, portable ultrasound systems have been forced to innovate on other aspects, such as the image reconstruction algorithm. With a 560x reduction in component volume, a MEMS switch bank reduces the constraint on transducer quantity, generating a massive leap in image resolution and SNR for PoC ultrasound technology.
Laboratory medical imaging systems use banks of high-voltage EMRs to switch transducers. Without the ability to switch many transducers, portable ultrasound systems have been forced to innovate on other aspects, such as the image reconstruction algorithm. With a 560x reduction in component volume, a MEMS switch bank reduces the constraint on transducer quantity, generating a massive leap in image resolution and SNR for PoC ultrasound technology.
Laboratory medical imaging systems use banks of high-voltage EMRs to switch transducers. Without the ability to switch many transducers, portable ultrasound systems have been forced to innovate on other aspects, such as the image reconstruction algorithm. With a 560x reduction in component volume, a MEMS switch bank reduces the constraint on transducer quantity, generating a massive leap in image resolution and SNR for PoC ultrasound technology.
Laboratory medical imaging systems use banks of high-voltage EMRs to switch transducers. Without the ability to switch many transducers, portable ultrasound systems have been forced to innovate on other aspects, such as the image reconstruction algorithm. With a 560x reduction in component volume, a MEMS switch bank reduces the constraint on transducer quantity, generating a massive leap in image resolution and SNR for PoC ultrasound technology.
-560x
in component volume
in component volume
in component volume
in component volume
Benchtop quality medical imaging in a portable package
Benchtop quality medical imaging in a portable package
Benchtop quality medical imaging in a portable package
Industrial/Consumer IoT
Industrial/Consumer IoT
Industrial/Consumer IoT
Industrial/Consumer IoT
Application Highlight: Circuit Breakers
Application Highlight:
Growing IoT market demands for remote access and control of various circuits in the industrial and the commercial markets. MEMS and MEMS hybrid solutions allow for enhanced safety along with power efficiency. Compared to these EMRs, Cenfire's MEMS Relays save 2.24kWh per year in maintenance and actuation power draw.
Growing IoT market demands for remote access and control of various circuits in the industrial and the commercial markets. MEMS and MEMS hybrid solutions allow for enhanced safety along with power efficiency. Compared to these EMRs, Cenfire's MEMS Relays save 2.24kWh per year in maintenance and actuation power draw.
Growing IoT market demands for remote access and control of various circuits in the industrial and the commercial markets. MEMS and MEMS hybrid solutions allow for enhanced safety along with power efficiency. Compared to these EMRs, Cenfire's MEMS Relays save 2.24kWh per year in maintenance and actuation power draw.
Growing IoT market demands for remote access and control of various circuits in the industrial and the commercial markets. MEMS and MEMS hybrid solutions allow for enhanced safety along with power efficiency. Compared to these EMRs, Cenfire's MEMS Relays save 2.24kWh per year in maintenance and actuation power draw.
2.24kWh
save per year in maintenance and actuation power draw
save per year in maintenance and actuation power draw
save per year in maintenance and actuation power draw
save per year in maintenance and actuation power draw
Evaluation board
Evaluation board
We can provide you with test boards for DC and RF.
Fill the form and see if you qualify.
We can provide you with test boards for DC and RF. Fill the form and see if you qualify.
We can provide you with test boards for DC and RF. Fill the form and see if you qualify.
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COMPANY
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CENFIRE
Ready to Move Forward?
Start your technical evaluation with a configured evaluation board.
©2026 Cenfire inc, All Rights Reserved
COMPANY
Resources
CENFIRE
Ready to Move Forward?
Start your technical evaluation with a configured evaluation board.
©2026 Cenfire inc, All Rights Reserved
COMPANY
Resources
CENFIRE
Ready to Move Forward?
Start your technical evaluation with a configured evaluation board.
©2026 Cenfire inc, All Rights Reserved
COMPANY
Resources
CENFIRE
Ready to Move Forward?
Start your technical evaluation with a configured evaluation board.
©2026 Cenfire inc, All Rights Reserved