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William WrightAug 6, 2025
What to do if there is a network fault in BENSHAW RSi H2?
- RRobert CollinsAug 6, 2025
In case of a network fault, check the EtherNet settings.
What to do if there is a network fault in BENSHAW RSi H2?
In case of a network fault, check the EtherNet settings.
What does it mean if the communication board flashes (2 second interval) on BENSHAW DC Drives?
A flashing light (2 second interval) indicates that the communication board parameters are set differently from the communication parameter settings on the keypad.
What does it mean if the CPU LED flashes synchronously (1 second interval) on BENSHAW DC Drives?
If the CPU LED flashes synchronously with a 1-second interval, it indicates abnormal communication between the communication board and the inverter.
What does it mean if the communication board flashes (1 second interval) on BENSHAW DC Drives?
A flashing light (1 second interval) indicates that the communication board has been properly installed on the inverter.
General| Speed Regulation | ±0.5% of base speed |
|---|---|
| Operating Temperature | 0°C to 40°C (32°F to 104°F) |
| Communication Options | Modbus RTU |
| Enclosure Rating | NEMA 1 |
| Cooling Method | Forced Air |
| Humidity | 5% to 95% non-condensing |
| Altitude | Up to 1000 meters without derating |
Details how to identify the inverter model and specifications from the nameplate.
Illustrates and names the various external parts of the inverter.
Details environmental conditions and installation requirements for optimal operation.
Provides guidelines for choosing an installation location and ensuring proper clearances.
Specifies recommended cable types, sizes, and considerations for wiring.
Details the procedure for physically mounting the inverter on a wall or panel.
Explains how to activate or replace the inverter's built-in RTC battery.
Guides on connecting appropriately rated cables to power and control terminal blocks.
Provides a checklist to verify correct and safe installation of the inverter.
Guides on how to perform initial testing of the inverter and motor operation.
Explains how to use the Quick Start menu for initial inverter setup.
Describes the layout and components of the inverter's LCD display and keypad.
Explains the operation of the HAND, OFF, and AUTO buttons for controlling the inverter.
Shows how to view fault information that occurred during inverter operation.
Details how to reset all parameter settings to factory defaults.
Provides a table linking functions to parameter description pages.
Lists parameter groups and parameters within each group for operating requirements.
Explains parameters related to drive functions, including command sources and frequency references.
Covers parameters for motor settings, including capacity, base frequency, and rated values.
Covers parameters for basic operations like 2nd operating modes and auxiliary references.
Details advanced functions like Acc/Dec patterns, start/stop modes, and frequency limits.
Covers parameters for carrier frequency, anti-hunting regulation, and speed search.
Covers parameters for analog and digital inputs, including safe operation modes.
Lists parameters for analog and digital outputs, including relay and pulse outputs.
Details parameters for motor and inverter protection, such as overload, underload, and stall prevention.
Lists PID parameters, their setting ranges, and references.
Explains PID operation for controlling frequency, speed, pressure, flow, or temperature.
Includes additional PID control parameters and sleep/wake up functions.
Provides more accurate motor rotation speed estimation compared to V/F control.
Carries out vector control without speed feedback using motor rotation speed estimation.
Includes additional pump and fan related parameters like Load Tuning and Pump Clean.
Includes Time Event scheduler for programming operation at specific times over a 7-day period.
Explains how to move among display modes and select/configure parameters.
Allows monitoring of inverter operating conditions and displaying up to four items.
Includes all inverter parameter groups and allows setting parameters.
Allows creation of a unique list of frequently used parameters (USR Group).
Displays fault information and history when the inverter trips.
Includes parameters to view and program various inverter features.
Details RS-485 communication standards, including method, speed, and character system.
Explains setting up the RS-485 communication system with master/slave devices.
Guides on setting virtual multi-function inputs, saving parameters, and total memory map.
Explains BACnet communication networks, standards, and quick start configuration.
Provides instructions for configuring Metasys-N2 communication and its standards.
Explains how to interpret and handle inverter trips and warnings.
Lists possible causes and remedies for faults occurring due to protection functions.
Provides solutions for other common inverter faults not related to protection functions.
Provides a summary of periodic inspection items and their frequencies.
Details specific items to inspect periodically, including environment and physical components.
Provides guidelines for storing the product for extended periods.
Lists electrical input and output specifications for various inverter models.
Provides a detailed overview of product specifications, including control methods and functions.
Shows the physical dimensions of the inverter for different models.
Specifies terminal screw sizes and torque values for power and control wiring.
Provides specifications for dynamic braking resistors and units.
Details current derating based on single-phase input, carrier frequency, and voltage.
Provides data on heat generation and efficiency of the inverters.
