Measurement and control of physical properties are the foundation of all critical industrial technologies. Ian Loudon, international sales and marketing manager at remote monitoring specialist, Omniflex explains the challenges of industrial signal conditioning (SC) and the importance of safety engineering.
Automation for industry 4.0, process control, data acquisition, and alarm processing all rely on the conversion of physical signals to a standardised, usable format, that engineered systems can reliably use to manage industrial processes.
At its simplest, signal conditioning is the process by which physical properties such as temperature, humidity, pressure, vibration, frequency, presence or absence, relay logic, and flow are converted by transducers into usable electrical signals suitable for measurement and control systems. Any electronic device that detects and quantifies a physical property like this is referred to in industry as a transducer.
We can think of signal conditioning as an interface between the plant and the field. Control and monitoring systems are sensitive and need to be protected from harsh environments. Voltage spikes, high temperatures, and electrical noise are all potentially damaging, and signal conditioning provides protection to mitigate these harsh field conditions, typically using electrical isolation (galvanic or optical), noise immunity, and surge protection mechanisms.
Field devices or transducers on a process are normally wired back individually from the process to marshalling panels, where the signal conditioning system again converts the signal to the industry standard range of 4-20 mA. From there, multiple signals are run together in multicore cables to control systems.
This range is used for a number of reasons. It is set at 4 mA = 0% or minimum value, and 20 mA = 100% or maximum value. This can be interpreted by the measurement and control system and expressed in SI units. The signal conditioner also allows the field signal to be amplified, so it can zoom in on a portion of the transducer’s range.
This standard exists because a voltage output would result in a volt drop on the cable, introducing an error in measurement, whereas the current output over a long distance can be actively compensated in the system circuitry with voltage manipulation. Additionally, using four mA as a ‘live zero’ makes it very easy to detect a system fault, for example a cable break, as the current will fall to true zero.
Challenges of signal conditioning
Electromagnetic interference (EMI) is one of the biggest challenges involved with signal conditioning in industrial environments. Any factors that jeopardise the accurate transmission of signals to the control system must be dealt with. To resolve this, the signal conditioning system is electrically isolated from the plant at an industry standard of 1500 V AC. This is the maximum difference between input and output that the signal conditioner can handle without breaking down.
Signal amplification and attenuation are also issues that require attention. If signals have to travel long distances, tens or even hundreds of metres, they can attenuate because of wire resistance, meaning an inaccurate signal reaches the control system. Similarly, amplification of low-level voltage signals is complex, as any interference or non-linearities can be amplified along with the desired signal.
All of these challenges are mitigated by the 4-20 mA current range. Current signals naturally withstand EMI better than voltage signals, particularly over long distances. Other control devices can share the current loop as part of the control system.
Signal conditioning is an essential mechanism for industrial plants to collect information and monitor their processes. Only through precise design can plant engineers ensure reliable incoming data flow. Technical issues like signal attenuation, EMI, and process safety are all important to consider, but industry standard ranges for signal current and electrical isolation keep things running smoothly.
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