Bently Nevada 3500/32M 4-Channel Relay Control Module
Key SpecificationsVOGI
Number of Input Channels: The Bently Nevada 3500/32M typically offers a very high number of input channels, allowing multiple sensors to be connected and monitored simultaneously. For example, it may offer up to 32 channels, allowing you to monitor various aspects of a complex mechanical system.
High Sensitivity: It can pick up even the slightest vibration, making it suitable for applications where accurate measurement is critical. This versatility ensures effective monitoring of different types of mechanical parameters. The system can handle deviations in both the voltage and current ranges of the sensor signals.
Sampling Rate: A high sampling rate enables it to measure fast dynamics in mechanical conditions. An example of such a device: A recording device may have a sampling rate of up to 100 kHz per channel, allowing for accurate acquisition of transient events and high-frequency vibrations.
Bit Resolution: The system offers extremely high data resolution, typically 16 bits or more. With this resolution, it can depict even small changes in the monitored parameters and provide rich information about the health of the machinery.
Key FeaturesVOGI
Four Independent Relay Outputs: Each channel has SPDT contact with epoxy sealing.
Programmable Alarm Drive Logic: Configurable AND/OR voting based on Protection Plug-in Logic inputs.
Full-Height, Hot-Swap Capability: Insert/remove under power with redundant power configured.
Onboard Diagnostics & Status LEDs: Provides module health, communication, and channel alarm indication.
Epoxy-Sealed, Rugged Construction: Conformal-coated PCB withstands harsh environments.
API 670 Compliance: Meets machinery protection standards with appropriate rack setup
Freight Estimation(Part Of The Area)VOGI
Destination |
Freight |
Middle East |
$42 |
Southeast Asia |
$15 |
South Asia |
$55 |
South Africa |
$47 |
Europe and USA |
$27 |
Russia |
$50 |
APPLICATIONVOGI
Turbine/Compressor Shutdown & Trip Signaling: Drives external shutdown devices based on alarm conditions.
Complex Voting Logic for Critical Alarms: Ensures accurate trip decisions by combining multiple channel inputs.
High-Availability Power Architectures: Supports redundant power setups for continuous operation.