IEDs and Substation Automation

 An experienced electrical safety professional, Dianoush Emami graduated with a BS in electrical engineering from the University of Southern California. Drawing on a career spanning three decades, Dianoush has also designed and implemented high-voltage systems for use in power generation and electrical substation facilities.

Intelligent Electronic Devices (IEDs) are built using microprocessor technology. In substations, IEDs serve as an integral component of the substation automation system. They essentially collect data on the state of different substation devices, process and interpret the data, and trigger autonomous control commands in a fraction of a second if an abnormal situation is identified. The control command can sometimes remedy the fault completely.

IEDs can also transfer information via multiple communication modes. Local operators and remote personnel can access this information for troubleshooting. In most substations, a special system called the Supervisory Control and Data Acquisition (SCADA) system centralizes communication from various IEDs, streamlining substation supervision.

Understanding High Voltage Transmissions and their Safety Precautions

 Dianoush Emami is an accomplished California-based electrical engineer, who draws upon more than three decades of experience. An alumnus of University of Southern California, Dianoush Emami has worked extensively as a high voltage engineer in electrical distribution and transmission.

High voltage electricity is utilized for multiple uses, including power generation to managing industrial plants. Transmission and distribution lines operate on significantly higher voltages compared to homes and businesses, as they carry huge amounts of power. Due to the massive amount of electrical energy involved, high voltage electrical sites should be installed far away from people and properties. To ensure any potential safety hazards have been addressed, high voltage electricity is often regulated and managed under close supervision. This allows for power levels to be maintained within industry-approved levels.

For high-voltage installation sites to remain safe, adequate insulation to maintain voltage levels and physical isolation measures should be implemented to prevent accidents. Installations are required to comply with the National Electrical Code and other applicable local codes. For insulation, regular testing should be done, as insulation degenerates when exposed to very high temperatures and chemical agents. A megohmmeter is an insulation tester device used to measure high resistance values, by transmitting a high voltage signal to an object being tested, in order to determine an insulation’s performance.

A Brief Look at Substation Automation Systems

 An electrical engineering alumnus of the University of Southern California, Dianoush Emami is an accomplished electrical engineer who worked at Bechtel Power Corporation for six years. Dianoush Emami has also implemented high-voltage systems in power generation facilities and electrical substations.

A substation automation system is a series of hardware and software components that help monitor and control electrical systems at electrical substations. With a substation automation system, electrical engineers no longer need to perform many tedious and repetitive tasks on-site at substations. These tasks are handled by complex algorithms embedded in substation automation systems' components. Some of these tasks are traditionally error-prone. Algorithms eradicate human errors.

Substation automation systems minimize electric system faults and downtime, expedite critical troubleshooting, optimize productivity, and boost revenue for electrical companies. These systems also streamline the analysis of hazards by recording and transferring data to locations where the data can be analyzed to determine the causes and patterns of component failures. With this information, engineers can take the necessary actions to prevent component faults and failures from happening again.

Many components of modern substation automation systems are microprocessor-based intelligent electronic devices (IEDs). Supervisory control and data acquisition system (SCADA) helps monitor multiple IEDs.