The laboratory-grade fast-acting wideband sensor described has impressive features that make it suitable for precise and accurate measurement of air-fuel ratios across a broad range. Here's a breakdown of its key characteristics:
Features:
Wide Measurement Range:
- The sensor is designed to measure air-fuel ratios across a broad range from 8:1 to 30:1. This versatile range covers both rich and lean conditions, making it suitable for a variety of applications.
Platinum Coated:
- The sensor's platinum coating enhances its responsiveness and accuracy. Platinum is known for its catalytic properties, which help facilitate the electrochemical reactions required for accurate measurement of oxygen levels.
Thimble Type Sensor:
- The sensor's thimble design is a common configuration for wideband oxygen sensors. This design allows for efficient gas diffusion and optimal contact with exhaust gases, ensuring accurate measurement.
Length of 409mm (16.1"):
- The length of the sensor is specified as 409mm or approximately 16.1 inches. This length indicates the physical size of the sensor, which is important for proper installation and integration into exhaust systems.
Zirconium Material:
- Zirconium is a common material used in the construction of oxygen sensors. Its properties make it suitable for high-temperature applications and its use in oxygen sensors is linked to its ability to conduct oxygen ions at elevated temperatures.
Laboratory-Grade and Fast-Acting:
- The description emphasizes that the sensor is "laboratory-grade" and "fast-acting." This suggests that the sensor is built to meet high-quality standards for accuracy and responsiveness, which are essential in laboratory and testing environments.
Overall, this laboratory-grade wideband sensor is designed for accurate and reliable measurement of air-fuel ratios across a wide range. Its platinum coating, thimble design, and zirconium construction contribute to its ability to deliver precise readings under various conditions. With its capabilities, it's likely well-suited for research, testing, and performance tuning applications where precision and responsiveness are paramount.