Details
Efficient gas sample management with flow-through housing
Minimal interference from other gases
Compliant with RoHS & REACH regulations
Operates seamlessly in vacuum and high-oxygen environments
Compatible with microcontrollers like Arduino and Raspberry Pi
Delivers accurate readings for partial pressure O₂, percent O₂, temperature, and barometric pressure
Rapid response time, with T90 typically under 10 seconds
Advanced non-depleting luminescence technology, developed in-house
Quick sample availability with short lead times
User-friendly software, available for testing
Expert design engineersSensor board sold separately
The LuminOx Flow-Through Optical Oxygen Sensor ensures a clean gas sample stream, allowing complete separation from the process environment. Developed and manufactured by SST, the LuminOx Flow-Through Optical Oxygen Sensor is part of the LuminOx family—a range of factory-calibrated sensors that measure ambient oxygen levels using fluorescence quenching technology (also known as luminescence quenching). The LOX-02-F model enhances the standard LuminOx oxygen sensor range with faster response times. Its sealed flow-through housing enables optimal sample gas management and offers flexible sensor placement. Leveraging patented non-depleting technology, SST has developed a suite of sensors with extended lifespans, outperforming traditional galvanic sensors in similar applications. Each LuminOx oxygen sensor features built-in temperature and barometric pressure compensation, eliminating the need for external adjustments. It connects directly to the customer’s USART, requiring no additional signal conditioning circuitry. LuminOx is a solid-state sensor containing no lead or liquid electrolytes, ensuring 100% RoHS compliance. With virtually no cross-sensitivity, it excels in environments where other sensor technologies struggle with mixed gas compositions. By measuring the partial pressure of oxygen (ppO₂), combined with internal barometric pressure data, the sensor calculates oxygen concentration (O₂%). The USART output delivers O₂%, ppO₂, barometric pressure, internal temperature, and sensor status for streamlined integration.
Details
- Efficient gas sample management with flow-through housing
- Minimal interference from other gases
- Compliant with RoHS & REACH regulations
- Operates seamlessly in vacuum and high-oxygen environments
- Compatible with microcontrollers like Arduino and Raspberry Pi
- Delivers accurate readings for partial pressure O₂, percent O₂, temperature, and barometric pressure
- Rapid response time, with T90 typically under 10 seconds
- Advanced non-depleting luminescence technology, developed in-house
- Quick sample availability with short lead times
- User-friendly software, available for testing
- Expert design engineersSensor board sold separately
The LuminOx Flow-Through Optical Oxygen Sensor ensures a clean gas sample stream, allowing complete separation from the process environment. Developed and manufactured by SST, the LuminOx Flow-Through Optical Oxygen Sensor is part of the LuminOx family—a range of factory-calibrated sensors that measure ambient oxygen levels using fluorescence quenching technology (also known as luminescence quenching).
The LOX-02-F model enhances the standard LuminOx oxygen sensor range with faster response times. Its sealed flow-through housing enables optimal sample gas management and offers flexible sensor placement. Leveraging patented non-depleting technology, SST has developed a suite of sensors with extended lifespans, outperforming traditional galvanic sensors in similar applications. Each LuminOx oxygen sensor features built-in temperature and barometric pressure compensation, eliminating the need for external adjustments. It connects directly to the customer’s USART, requiring no additional signal conditioning circuitry.
LuminOx is a solid-state sensor containing no lead or liquid electrolytes, ensuring 100% RoHS compliance. With virtually no cross-sensitivity, it excels in environments where other sensor technologies struggle with mixed gas compositions. By measuring the partial pressure of oxygen (ppO₂), combined with internal barometric pressure data, the sensor calculates oxygen concentration (O₂%). The USART output delivers O₂%, ppO₂, barometric pressure, internal temperature, and sensor status for streamlined integration.
