The VIBRO-METER IQS450 S3960 204-450-000-002 Signal Conditioner is an advanced eddy-current based proximity measurement system from Meggitt's vibro-meter® product line, designed for precise non-contact monitoring of rotating machinery. This high-performance sensor operates with a dynamic range of 16V (-1.6V to -17.6V) and features robust output characteristics including 500Ω impedance, 45mA short-circuit current, and wide frequency response from DC to 20kHz. The VIBRO-METER  IQS450 S3960 204-450-000-002 proximity measurement system excels in harsh environments with an operating temperature range of -35 to +85°C and storage capability from -40 to +85°C.

Engineered for critical machinery protection, the IQS450 S3960 204-450-000-002 VIBRO-METER PDF offers exceptional 2mm measurement range capability with temperature-compensated design for reliable performance. Its compact construction incorporates output protection against short circuits while maintaining low capacitance (1nF) and inductance (100µH) characteristics. The sensor is particularly effective for monitoring relative vibration and axial position in turbines, compressors, and pumps, making it an essential component in predictive maintenance systems.

The IQS450 S3960 204-450-000-002 high-performance vibration monitoring system is fully compatible with VM600Mk2/VM600 and VibroSmart® monitoring platforms, providing seamless integration into existing condition monitoring networks. Available in standard and Ex-certified versions for hazardous areas, this sensor meets stringent industry requirements including API 670 recommendations. Its voltage or current output options offer flexibility for different system configurations while maintaining measurement accuracy.

As part of a complete proximity measurement system that includes TQ401 and EA401 components, the VIBRO-METER Vibration monitoring system IQS450 S3960 204-450-000-002 delivers reliable data for machinery protection across power generation, oil & gas, and industrial applications. The sensor's robust design and advanced measurement capabilities make it ideal for tracking shaft relative vibration and gap variations in high-speed rotating equipment, helping prevent costly downtime through early fault detection.