Around 25% of the world’s electrical energy is consumed by electric motors in industrial applications. However, as John Mitchell explains, installing variable frequency drives (VFDs) and surge protection devices (SPDs) are not the final steps in creating ultimate cost-efficiency
A variable frequency drive (VFD) controls the frequency and voltage supplied to an electric motor.
By implementing VFDs, many businesses experience an increased bottom line due to increased efficiency and reduced energy costs.
However, the VFD is not without its problems — its normal operation can cause negative effects.
Issues arise with VFDs due to power fluctuation. This could be caused by an anomalous event such as a lightning strike to the grid, or by lower level transient surges caused by VFDs countless times a day. These transient surges are a change in fundamental frequency in a microsecond time frame.
If not accounted for, they can lead to confusion in electrical systems, such as false zero crossings, false triggering of diodes and timing issues.
A basic SPD may be used alongside a VFD to mitigate the damaging impact of high power surges, yet many users are still faced with unexplainable lockups, downtime and even some failures in surge protection cause by low level switching transient events.
This is because typical SPDs are voltage triggered only. Their clamping will only occur at a set point above or below the amplitude of the sine wave, and with therefore not act upon low level switching transient events.
While the sine wave had remained the same since the late 1800s, the sensitivity of the equipment that is connected to the grid is now much more sensitive. It’s time to bring surge protection up to speed.
It’s clear that standard SPDs are not doing enough to protect valuable systems, whether this is in an elevator, factory conveyor or petroleum production equipment.
The next step is to eliminate these low level switching transient events.
Using surge and transient protection systems such as the SineTamer, offers a new opportunity to protect valuable assets from the transient events that can occur millions of times per day.
The frequency attenuation network of Sinetamer can do this because it monitors the frequency not just the voltage.
Some businesses have already made this investment.
In fact, one plant manager at a packaging company was experiencing multiple electrical failures across seven plant areas related to programmable logic controllers (PLC) and power supplies.
After implementing SineTamer, the failures decreased from an average of 55% to zero. The improved production saved over $3 million.
CP Automation has partnered with the makers of SineTamer, Energy Control Systems, to supply this equipment across Europe, the Middle East and Africa (EMEA).
“We are excited about the partnership that is developing between SineTamer and CP Automation for several reasons,” Jeff Edwards, CEO and founder of Energy Control Systems.
“Primarily it is refreshing to encounter a progressive group of individuals that are truly interested in assisting clients improve the profitability of their organizations.
“For too many years investments made in process technology have failed to reach their promised results, through no fault of their own. It’s simply been due to the electrical environments in which they were placed.
“With Sinetamer and CP Automation, we look forward to protecting and preserving electronic infrastructure reliability throughout EMEA”
John Mitchell is global business development manager at supply, installation and repair specialist, CP Automation.