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General| Model | PowerMonitor 3000 |
|---|---|
| Frequency Range | 45-65 Hz |
| Power Measurement Accuracy | ±0.5% of reading |
| Communication Ports | RS-485 |
| Protocols Supported | Modbus RTU |
| Display Type | LCD |
| Mounting | Panel Mount |
| Storage Temperature | -40°C to 85°C (-40°F to 185°F) |
| Humidity | 5-95% non-condensing |
Explains the meaning of warning, important, attention, shock, and burn hazard symbols.
Explains how to navigate and utilize the content of the user manual.
Defines abbreviations and technical terms used throughout the manual for clarity.
Discusses general safety precautions for installation, use, and servicing of the equipment.
Covers additional safety measures, including handling to prevent electrostatic discharge.
Describes the primary component responsible for metering, data logging, and communications.
Details the optional user interface for configuration, commands, and data display.
Lists specific functionalities offered by different Powermonitor 3000 models (M4, M5, M6, M8).
Outlines the available communication ports (native RS-485 and optional) and protocols.
Explains the status and diagnostic light-emitting diodes (LEDs) on the module.
Explains how voltage, current, and power are measured, sampled, and converted to digital values.
Describes the operation and modes (Display, Program, Edit) of the display module.
Details the step-by-step process for configuring the Powermonitor 3000 via its display module.
Discusses how the metering update rate is calculated and its significance for applications.
Guidance on setting up communication parameters using the display module or communication ports.
Details the configuration parameters for the default RS-485 port.
Overview of optional ports including RS-232, Remote I/O, DeviceNet, Ethernet, and ControlNet.
Guidelines for designing and implementing data messaging using various communication options.
Explains how setpoints monitor parameters and take action when specified conditions are met.
Describes the parameters required to configure setpoints, including type, limits, and action.
Details how to view setpoint data via the display module and configure setpoints via communications.
Details configuration of relay and KYZ solid-state outputs, including control sources.
Explains emulation of pulsed outputs using the Control source parameter and calculate output scale.
Covers Setpoint Control, Discrete I/O Control, Forced Operation, and No Control Operation for outputs.
Defines the configurable behavior of outputs when communication with the Powermonitor 3000 is lost.
Describes configuration options for status inputs, including counters and synchronization.
Covers Event Log description, configuration options, viewing, and configuration via communications.
Describes Trend Log, its modes of operation, depth calculation, setup, and reading methods.
Describes the Min/Max Log, accessing it via display or communications, and clearing it.
Provides a history of energy usage and demand, including hours selection, configuration, and reading.
Covers oscillography features, configuration, block number, capture type, read-back, and waveform data points.
Details harmonic analysis capabilities, including THD, DIN, Crest Factor, TIF, K-Factor, IEEE-519, and configuration.
Explains the detection of voltage sags and swells based on IEEE-1159 standards.
Describes load factor calculation, storage, and reading of the load factor log.
Covers transient monitoring, capture parameters, configuration, and reading of metering data.
Explains the components and meaning of the master module's catalog number structure.
Introduces sample applications, ladder diagrams, and methods for setting up communications.
Demonstrates reading and writing the Powermonitor 3000 system clock using various controllers and methods.
Example of reading multiple data tables into a SLC 500 controller using DeviceNet.
Shows how to set up a user-configured data table using ControlLogix and EtherNet/IP.
Details EtherNet/IP, ControlNet conformance testing, UL/CUL, and CE certifications.
Provides tables for measurement accuracy, ranges, and performance specifications.
Covers general input/output ratings, terminal block specifications, and environmental operating conditions.
Addresses programming via display and the necessity of a display module.
Covers powering the monitor, RIO block transfers, and fuse sizing for voltage inputs.
Explains the need for shorting terminal blocks and monitoring multiple loads.
Addresses the ability to change communications networks and the non-interchangeable card.
Provides an overview of the EtherNet/IP device profile and its purpose.
Describes the CIP object model and interfaces supported by the Powermonitor 3000 on EtherNet/IP.
Details the Identity Object, its class code, instances, attributes, and common services.
Describes the Assembly Object, its instances, attributes, common services, and connections.
Details the vendor-specific PCCC Object and the Non-Volatile Storage (NVS) Object.
Covers SNTP Client, End of Interval Pulse, and Dynamic Web Server functionality.
Provides an overview of the ControlNet device profile and its purpose.
Describes the CIP object model and interfaces supported by the Powermonitor 3000 on ControlNet.
Details the Identity Object, its class code, instances, attributes, and common services.
Describes the Assembly Object, its instances, attributes, common services, and connections.
Details the vendor-specific PCCC Object and the Non-Volatile Storage (NVS) Object.
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