Product Details:
Minimum Order Quantity | 100 Piece |
Frequency | 50Hz |
Phase | Single |
Model Number | UVS 1 |
Brand | Camy Electro Mech |
Use Application | Determining Exposure To Ultraviolet Radiation In Laboratory Or Environmental Settings |
Set Contains | MS Frame, Light And Wire |
Type | UV Sensor |
Voltage | 220 V |
Product Details:
Measurement Range | 280-320 nm |
VOlatage | ant |
material | copper |
Color | any |
Country of Origin | Made in India |
Product Details:
Minimum Order Quantity | 1 Piece |
Measurement Range | 100-280 nm |
Product/Service Code | UVS-02 |
Delivery Time | ready stock |
Production Capacity | 100 |
Country of Origin | Made in India |
UV sensors can also be used as flame sensors in certain applications. Flames emit ultraviolet radiation, and UV sensors can detect this radiation to identify the presence of a flame. UV flame sensors are commonly used in industrial burners, gas appliances, and flame detection systems for safety and control purposes.
Here's how a UV sensor can be used as a flame sensor:
Placement: The UV sensor is positioned in close proximity to the flame that needs to be detected. It should have a clear line of sight to the flame for accurate detection.
Sensitivity: The UV sensor is designed to be sensitive to the ultraviolet radiation emitted by flames. It will detect the UV light generated by the flame and distinguish it from other sources of UV radiation in the environment.
Signal Processing: The electrical signal generated by the UV sensor is typically processed by a control system or a dedicated flame detection circuit. The system analyzes the signal to determine the presence or absence of a flame.
Flame Verification: In some applications, the UV sensor may be used in conjunction with other flame detection methods, such as using an additional sensor that detects visible light or an infrared (IR) sensor. This helps provide a more comprehensive and reliable flame detection system.
It's important to note that UV sensors used as flame sensors have limitations and considerations:
False Triggers: UV sensors can be sensitive to other sources of UV radiation, such as sunlight or certain types of lighting. Careful consideration of environmental factors and proper shielding can help minimize false triggers.
Environmental Conditions: Adverse conditions like heavy smoke, dust, or fouling on the UV sensor's surface can affect its performance. Regular cleaning and maintenance may be necessary to ensure reliable flame detection.
Application Specifics: Different flame detection applications may have specific requirements, such as different flame characteristics or safety standards. It's crucial to select a UV sensor that is suitable for the specific application and meets the necessary standards and guidelines.
Always consult the manufacturer's guidelines, product datasheets, and relevant safety standards when integrating UV sensors as flame sensors into your specific system or application.
Additional Information: