Fluke 1760 Three-Phase Power Quality Recorder

Class-A compliance for the most demanding 
power quality tests.

The Fluke/Topas 1760 Three-Phase Power Quality Recorder is fully compliant to IEC 61000-4-30 Class-A, for advanced power quality analysis and consistent compliance testing. Designed for analysis of utility and industrial power distribution systems, in medium- and low-voltage networks, this power quality monitor provides the flexibility to customize thresholds, algorithms, and measurement selections. It has 8 input channels (4 current and 4 voltage or 8 voltage) and captures the most comprehensive details on user selectable parameters.

Class-A compliance for the most demanding 
power quality tests.

The Fluke/Topas 1760 Three-Phase Power Quality Recorder is fully compliant to IEC 61000-4-30 Class-A, for advanced power quality analysis and consistent compliance testing. Designed for analysis of utility and industrial power distribution systems, in medium- and low-voltage networks, this power quality monitor provides the flexibility to customize thresholds, algorithms, and measurement selections. It has 8 input channels (4 current and 4 voltage or 8 voltage) and captures the most comprehensive details on user selectable parameters.

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Features
  • Detailed disturbance analysis - Perform high-speed transient analysis and uncover root cause of equipment malfunction for later mitigation and predictive maintenance. The fast transient option, with its 6000V measurement range, allows capture of very short impulses such as lighting strikes.
  • Class-A quality-of-service compliance - Validate incoming power quality at the service entrance. Thanks to Class A compliance, the Fluke 1760 allows undisputable verification.
  • Event correlation at multiple locations - Utilizing GPS time synchronization, users can quickly detect where a fault occurred first, either inside or outside the facility.
  • Galvanic separation and DC coupling - Allows complete measurements on dissimilar power systems. For example troubleshoot UPS systems by simultaneously recording the battery voltage and power output.
  • Power quality and power load studies - Assess baseline power quality to validate compatibility with critical systems before installation and verify electrical system capacity before adding loads.
Model 1760 Three-Phase Power Quality Recorder
Overview The Fluke/Topas 1760 Three-Phase Power Quality Recorder is fully compliant to IEC 61000-4-30 Class-A, for advanced power quality analysis and consistent compliance testing. Designed for analysis of utility and industrial power distribution systems, in medium- and low-voltage networks, this power quality monitor provides the flexibility to customize thresholds, algorithms, and measurement selections. It has 8 input channels (4 current and 4 voltage or 8 voltage) and captures the most comprehensive details on user selectable parameters.
Includes Class-A compliance for the most demanding power quality tests. The Fluke/Topas 1760 Three-Phase Power Quality Recorder is fully compliant to IEC 61000-4-30 Class-A, for advanced power quality analysis and consistent compliance testing. Designed for analysis of utility and industrial power distribution systems, in medium- and low-voltage networks, this power quality monitor provides the flexibility to customize thresholds, algorithms, and measurement selections. It has 8 input channels (4 current and 4 voltage or 8 voltage) and captures the most comprehensive details on user selectable parameters.
  • Detailed disturbance analysis - Perform high-speed transient analysis and uncover root cause of equipment malfunction for later mitigation and predictive maintenance. The fast transient option, with its 6000V measurement range, allows capture of very short impulses such as lighting strikes.
  • Class-A quality-of-service compliance - Validate incoming power quality at the service entrance. Thanks to Class A compliance, the Fluke 1760 allows undisputable verification.
  • Event correlation at multiple locations - Utilizing GPS time synchronization, users can quickly detect where a fault occurred first, either inside or outside the facility.
  • Galvanic separation and DC coupling - Allows complete measurements on dissimilar power systems. For example troubleshoot UPS systems by simultaneously recording the battery voltage and power output.
  • Power quality and power load studies - Assess baseline power quality to validate compatibility with critical systems before installation and verify electrical system capacity before adding loads.