Excelera's sensor systems are being used in different industries:

iot1.jpg

INTERNET OF THINGS

 

Excelera solutions turn data converters into sensor hubs able to measure most signals through one hardware component. Our products can measure frequency, period, its ratio, duty-cycle, phase-shift, resistance, capacitance and voltage* signals and convert them to digital. This is up to 19 measuring modes. Moreover, two different sensor signals can be measured through each channel doubling the amount of sensors that can be connected to each hub.

Our solutions are fully compatible with low energy consumption required for IoT applications. We can go below 10 milliwatts on active mode with fully functional solutions.

Our off-the-shelf product Excelera WSN consumes 8.1 mW on active mode and includes a wireless node in the same package (coming soon).

 
consumer&mobile1.jpg

CONSUMER & MOBILE

 

Excelera solutions turn data converters into sensor hubs able to measure most signals through one hardware component. Our products can measure frequency, period, its ratio, duty-cycle, phase-shift, resistance, capacitance and voltage* signals and convert them to digital. This is up to 19 measuring modes that can be quickly deployed into any CMOS package according to your requirements reducing time-to-market and costs dramatically.

Small space or low energy requirements are not a problem, we can go below 100 nanometres and 10 milliwatts on active mode with fully functional solutions.

Moreover, two different sensor signals can be measured through each channel doubling the amount of sensors that can be connected to each hub.

 
Automobilindustrie_01.jpg

AUTOMOTIVE

 

Excelera solutions can measure frequency, period, its ratio, duty-cycle, phase-shift, resistance, capacitance and voltage* signals and convert them to digital. This is up to 19 measuring modes deployed in a CMOS package according to your requirements. Small space or low energy requirements are not a problem, we can go below 100 nanometers and 10 milliwatts on active mode with fully functional solutions.

Moreover, our products work well in harsh environments: Extreme temperatures (-55 to 150 degrees Celsius), magnetic interferences, pressure, humidity, etc. Sensors systems based on our solutions will work where other solutions fail.

 
aerospace and defense.jpg

AEROSPACE & DEFENSE

 

Our combination of a very high precision and robustness is ideal for Aerospace and Defense applications. Excelera products offer relative error ratios below 0.001 % and are operational in harsh environments: Extreme temperatures (-55 to 150 degrees Celsius), magnetic interferences, pressure, humidity, etc.

All our solutions can be deployed in a CMOS package according to your requirements.

Additional measuring modes, interfaces and mathematical operations for onchip data and signal processing can also be implemented upon request.

 
industrial automation.png

INDUSTRIAL AUTOMATION

 

High precision and high sampling speed are essential requirements for sensor systems in Industrial Automation. Excelera products offer relative error ratios below 0.001% and sampling speeds over 500.000 samples per second.

Moreover, our products work well in harsh environments: Extreme temperatures (-55 to 150 degrees Celsius), magnetic interferences, pressure, humidity, etc. Sensors systems based on our solutions will work where other solutions fail.

Additional measuring modes, interfaces and mathematical operations for onchip data and signal processing can also be implemented upon request.

 
test and measurements.jpg

TEST & MEASUREMENT

 

High precision, resolution and sampling speed are essential requirements for Test & Measurement instruments. Excelera products offer relative error ratios not more than 0.0005% and sampling speeds over 160,000 samples per second.

Moreover, our solutions can measure frequency, period, its ratio, duty-cycle, phase-shift, resistance, capacitance and voltage* signals and convert them to digital. This is up to 19 measuring modes. In addition due to frequency signal multi-parametricity two different signals can be measured through each channel doubling the amount of sensors that can be connected for data acquisition.

Additional measuring modes and mathematical operations for onchip data and signal processing can also be implemented upon request.