QAT and Mini Q Energy Accelerometers
Overview
Honeywell produces the QAT (160C and 185C versions) and the Mini Q (150C, 185C and 200C) high-temperature Energy Accelerometers for down hole measurement-while-drilling and wireline applications. High temperature accelerometers are designed to survive in extreme heat or cold environments and require precise acceleration information like drilling. These accelerometers and pressure sensors provide critical data that prevents failures and reduces downtime.
Honeywell’s Q-Flex design is ruggedized for high temperature and specifically customized for the demands of oil and gas applications. QAT and Mini Q products feature a patented Q-Flex etched-quartz-flexure seismic system and its amorphous quartz proof-mass structure provides excellent bias, scale factor and axis alignment stability.
The integral Q-Flex electronics develop an acceleration-proportional output current providing both static and dynamic acceleration measurements. By use of a customer-supplied output load resistor, appropriately scaled for the acceleration range of the application, the output current can be converted into a voltage.
Key Honeywell Advantages
Honeywell’s Q-Flex design is ruggedized for high temperature and specifically customized for the demands of oil and gas applications. QAT and Mini Q products feature a patented Q-Flex etched-quartz-flexure seismic system and its amorphous quartz proof-mass structure provides excellent bias, scale factor and axis alignment stability.
The integral Q-Flex electronics develop an acceleration-proportional output current providing both static and dynamic acceleration measurements. By use of a customer-supplied output load resistor, appropriately scaled for the acceleration range of the application, the output current can be converted into a voltage.
Key Honeywell Advantages
- High-temperature capability
- Environmentally rugged
- Analog output
- Square or round mounting flange options (QAT160/185 only)
- Field-adjustable range
- Internal temperature sensor for thermal compensation
- Low-power electronics
- Built-in test
Specifications
Key Benefits
- Temperature-compensating algorithms dramatically improve bias, scale factor, and axis misalignment performance
Size
- 0.79in Diameter (2 cm) x 0.57in High (1.4 cm)
- 1.0in Diameter (2.5 cm) x 0.73in High (1.9 cm)
Resolution
- <1 µg (Mini Q)
- <5 µg (QAT)
Resources
SortBrochure
Title
Category
Date Added
Size
Type
Brochure
24 Apr 2025
0.06 MB
Multimedia_Resources
Title
Category
Date Added
Size
Type
Brochure
24 Apr 2025
0.06 MB
Multimedia_Resources
