Wireless Thermal Monitoring Solutions for Low and Medium Voltage Switchgear
Effectively Monitor the Temperature of your Switchgear for Long Term, Cost-Effective Reliability and Safety
• Temperature sensors installed in equipment interface with monitoring units to remotely report overheating for proactive planning and mini-mize downtime.
• Designed for continuous monitoring of ambient bus and power con-nections through measurement of wireless temperature sensors that require NO power or wiring.
• User-configurable alarms, both limit and differential via optional HMI monitoring system.
• Industry standard Modbus RTU communications to customer SCADA
Why Measure Temperature?
Overview
• Bus joints and power connections are subject to overheating due to overload, corrosion, loose connections and environmental conditions
• Increase in heat will intensify until complete thermal failure of the con-nection or nearby insulation
• Next generation continuous Thermal Monitoring in lieu of traditional IR windows and periodic thermal imaging.
Safety: Directly mounted wireless sensors to critical measuring points while ensuring all safety requirements are maintained.
No Maintenance: 20+ year life expectancy
Easy Installation: Sensors do not require “line of sight” and can be mounted under insulation boots or tape
Reliability: Sensors designed to withstand harsh envi-ronments
Section 1 Section 2
Wireless Thermal Monitoring Solutions
How it WorksTemperature sensors are powered by RF signals through the Thermal Monitoring Module and antenna Temperature Interface Module.
The Thermal Monitoring Module provides the measurements taken from the sensors and immediately makes available the data through industry standard communication protocols for critical equipment monitoring.
Temperature Measurement Methods
Periodic, 1 or 2 times per year
Unable to measure under boots and locate all bus joints and connections
Requires engineering personnel
Dangerous if measuring with live energization of switchgear requiring high level PPE
Traditional Approach The IEM Approach
RS485 RS485
Thermal Monitoring Module
Thermal Monitoring Module
Temperature Interface Module
Temperature Sensor ( up to 12)
Temperature Interface Module
Temperature Sensor ( up to 12)
• Partial Discharge Sensor / Interface Module
• Humidity Sensors
• MB RTU to TCP/IP Gateway
Options • Thermal Monitoring Software
• 17” HMI/Panel PC
Low Voltage Example:
Medium Voltage Example:
Wireless Thermal Monitoring Solutions
Installation Overview
5kV - 38kV Metal-clad / Metal-enclosed and custom assemblies
Up to 600V
Wireless Temperature Sensors (3x)
Wireless Temperature Sensors (3x)
Low Voltage Compartment
Main Bus Comparment
BreakerComparment
CableComparment
Temp Interface Module
Thermal MonitoringModule
Wireless Temperature Sensors (3x)
Wireless Temperature Sensors (3x)
Thermal Monitoring Module
Breaker Compartment
Temp Interface Module
Wireless Temperature Sensors (3x)
Wireless Temperature Sensors (3x)
Cable Compartment
Low Voltage Compartment
Bus Compartment
Profitability
Reliability
Safety
• Lower maintenance costs
• Minimize downtime
• Extend bus life
• Increased ROI
• Optimize bus performance
• Quick identification of issues
• Proactive planning
• Avoid downtime
• Predict potential problem areas
• Prevent catastrophic failure
• Improve response time
• Monitor areas with limited access
• Keep personnel and facility safe
Benefits of Utilizing Wireless Thermal Monitoring
©2015 The New IEM LLC. Industrial Electric Mfg.™ and IEM Power Systems™ are trademarks of The New IEM LLC. in the U.S. and other countries. All rights reserved. Thermal Monitoring.v1
Corporate Headquarters
Industrial Electric Mfg. 48205 Warm Springs Blvd Fremont CA 94539 USA
dir: +1.510.656.1600
www.iemfg.com
Jacksonville
IEM Power Systems 11902 Central Parkway Jacksonville FL 32224 USA
dir: +1.904.365.4444
www.iemps.com
Vancouver
Industrial Electric Mfg. 201 - 27353 58th Crescent Langley BC V4W 3W7 CANADA
dir: +1.866.302.9836
www.iemfg.com