The Signal Conditioner IQS900 204-900 VIBRO-METER-000-011 is a high-performance signal conditioner designed for precise vibration and displacement monitoring in critical rotating machinery. It features an advanced high-frequency modulator/demodulator that powers TQ9xx series eddy-current sensors, generating electromagnetic fields to measure target proximity through eddy-current changes. The VIBRO-METER IQS900 204-900-000-011 Signal Conditioner outputs both dynamic (AC) vibration signals and quasi-static (DC) gap measurements, configurable as 4-20mA (2-wire) or voltage (3-wire) signals for compatibility with monitoring systems like VM600 or VibroSmart®.

Engineered for industrial reliability, the IQS900 signal conditioner VIBRO-METER includes built-in self-test (BIST) diagnostics that continuously verify sensor, cable, and conditioner integrity. Faults trigger DC output deviations from normal ranges, enabling remote troubleshooting. For field testing, it provides raw voltage output and test input signals, simplifying commissioning and maintenance without system disassembly. The unit's robust design ensures accurate measurements in harsh environments typical of turbines, compressors, and generators.

The Signal Conditioner VIBRO-METER 204-900-000-011 supports flexible integration, with outputs optimized for long-distance transmission to control rooms or local monitoring panels. Its eddy-current technology delivers micron-level resolution for detecting shaft vibration, eccentricity, and position changes, critical for predictive maintenance. Optional diagnostic models enhance system reliability by identifying sensor degradation, cable faults, or power issues before they impact operations.

As part of Vibro-Meter's condition monitoring solutions, the 204-900-000-011 IQS900 signal conditioner combines real-time processing with fail-safe diagnostics, making it ideal for SIL2/SIL3 safety systems. Whether used in power plants, oil refineries, or heavy industry, this conditioner ensures accurate machinery health data while reducing unplanned downtime through proactive fault detection.