Article

Which Temperature Control Device Should You Use?

Editor’s Note: This article is adapted from the whitepaper, “Top Advantages of SCR Power Controllers Over Contactors and Solid-State Relays,” from Advanced Energy. Download the free, comprehensive white paper to get in-depth information comparing electromechanical contactors and solid-state relays to SCR power controllers operating in a similar on-off manner. It includes details about on-off cycling, utility cost reduction, control accuracy, heater lifetime, cost-efficiency, noise and transient resistance and diagnostics.

Electricity can be controlled by a variety of switching devices. This article compares SCR power controllers to electromechanical contactors and solid-state relays (SSRs) operating in a similar on-off manner to regulate temperature

An electromechanical contactor is a device that opens or closes a contact, allowing electricity to be switched fully on and fully off. An electrical control signal triggers the opening or closing of the contact or contacts.

In general, an electromechanical contactor is rated for a specific number of on-off cycles while in operation throughout its lifetime. This rating depends on the manufacturer and typically ranges from less than a million cycles at rated current and voltage to a few million cycles at rated current and voltage.

For a process cycle time of 30 seconds, a mechanical contactor performs 829,440 on-off cycles per year. At a process cycle time of 10 seconds, a mechanical contactor performs 2,488,320 on-off cycles per year. Based on the manufacturer’s recommendation, the electromechanical contactor electrical contacts should be inspected and cleaned, and possibly repaired or replaced, after reaching the specified number of on-off operations.

A solid-state relay (SSR) is an electronic switch that operates without an electromechanical relay’s moving parts. Because it does not have moving parts, the SSR’s life expectancy is greater. Typical cycle times are 2 to 5 seconds for reasonable SSR life.

The SSR can operate at a faster cycle (on-off) time than a comparable mechanical contactor. However, the SSR has a higher contact resistance and is susceptible to damage from surge currents. It also has limited switching arrangements compared to an electromechanical contactor (typically a SPST contact).

The SCR power control module is designed to switch the power applied to its output load quickly. Typical cycle times are 1 second, which means that the SCR will perform 24,883,200 operations in a year for the conditions stated.

Figure 1 compares the calculated total quantity of cycles of operation for the electromechanical relay, the SSR and the SCR over 48 weeks, operating six days per week.

On and Off Cycling During Typical Operation

The electromechanical contactor and SSR both switch electricity to a load when signaled to do so. This means that both devices can turn the electrical power to the output load on and off at any point in a sinusoidal wave.

In the United States, electricity is provided at 60 cycles per second, or 60 Hz. When the power supplied to a device does not turn on or off at a zero crossover point in the sinusoidal waveform, voltage spikes occur on the sine wave, and RFI and harmonics are generated. An arc also may occur with this type of random on and off operation.

The contactor and SSR devices operate efficiently (no disturbances when fully turned on or off). However, under normal process operating conditions, the generated harmonics can cause the sine wave provided by the power company to become distorted. This may cause difficulty for the power company’s measurement equipment, making it appear that the measured or required power is greater than the actual power used. This could increase power costs.

An SCR power control module is an electronic semiconductor device designed to regulate the power to an output load efficiently. It can switch the power applied to an output load in milliseconds.

Zero-cross operating mode allows SCRs to function comparably to contactors and SSRs, which operate by turning power fully on and fully off. However, in zero-cross mode, the SCR turns the output on and off at the zero-cross point in the sinusoidal wave, which reduces the potential radio frequency interference (RFI), harmonics and arcing associated with contactors and SSRs. These features make SCR power control module use suitable for electric thermal heating applications, for example.

Assess Your Needs

Assessing the pros and cons of each type of device to determine suitability for a particular application can help optimize thermal control and output in temperature-critical processes.

Advanced Energy, Inc. is a participating Encompass™ Product Partner in the Rockwell Automation PartnerNetwork™. Based in Fort Collins, Colorado, Advanced Energy provides power and control technologies, including power control modules, for high-growth, precision power conversion solutions.

^{The Journal From Rockwell Automation and Our PartnerNetwork™ is published by Putman Media, Inc.}

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