Digital Data via Analogue Signal Forms
ACDC – a complementary alternative to HART for existing wiring
Jul 27 2020 Read 106 Times
Author: Hans-Jörg Hübner on behalf of GFG Gesellschaft fur Geratebau
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It is a contradiction of sorts; most field devices on the ends of 4-20 mA current loops have become so smart that the transmission systems connecting them cannot handle the additional information.
In a world in which economic success increasingly depends on data-driven process optimization and process automation, not being able to access all necessary information is no longer an option. But to rip and replace an existing and functioning infrastructure, just to achieve the necessary bandwidth for data transmission, makes neither economic nor ecological sense.
Round about 95 percent of the gas detection systems installed in industry plants communicate on the “last mile” via 4-20 mA systems. The connection between controllers and transmitters is still analogue, while the data exchange with other components of the infrastructure is done digitally.
For more than three decades, the means of choice to solve this problem has been the HART communication protocol (Highway Addressable Remote Transducer). It still is the best solution for customers who would benefit from putting together the optimum solution from the list of more than 1,500 registered products, but it is often too sophisticated for less complex applications.
One has to keep in mind that gas detection systems consist of finely tuned and tested components. Although it may occasionally be necessary to integrate a third-party pressure or temperature sensor into a solution if the manufacturer does not offer one, it makes no sense at all to put together such a complex solution using transmitters and controllers from several vendors.
Thus the real challenge – to transmit digital data quickly and cost-effectively via analogue 4-20 mA lines – is unsolved even with HART. It is time for a new approach. It’s time for an Analogue Carrier for Digital Communication
Why use a 4-20 mA Solution these Days Anyway?
If data and information ultimately have to be available in digital form in order to be processed, why not transmit them digitally? For every task in the field of gas detection, devices with analogue and digital interfaces are available. GfG customers can choose between 4-20 mA and Modbus/RTU versions for almost all transmitters.
Even more advanced would be solutions that rely on Industrial Ethernet for communication and offer data transmission in near real time. However, this is a speed level that would be wasted in the field of gas detection systems, where T90 reaction times are measured in seconds, often in the double-digit range.
A glimpse into history There are a number of good reasons why 4-20 mA became the industry standard (ISA SP50, originally published in 1966), mainly because the concept is simple, reliable and cost effective.
It can be operated over long distances with minimal signal loss and a varying load impedance or supply voltage has no significant effect on the signal as long as the recommended component limits are not exceeded. The fact that an offset-zero measurement verifies that the sensor is electrically functional was also a first type of remote diagnosis. This offered considerable advantages compared to the pneumatic 3-15 psi control signals used to date.
Why not use HART in Modern Gas Detectors?
Over the past decades, many clever minds have invested a great deal of time and effort in the development of the HART protocol and the corresponding devices. It is the perfect solution for many applications, but it was never intended to simply transfer additional data at low cost and high speed.
In many cases, the only reason for implementing HART is the fact that there is simply no alternative if you needed a digital communication protocol to send and receive information between the terminal devices and the control unit of a 4-20 mA interface. It’s a bit like cutting a steak with a Swiss army knife: possible, but definitely not a stylish solution.
The most important reasons not to use HART:
• The Bell 202 standard is no longer state of the art
It still works, but it was neither designed for today’s computing power nor today’s transmission capabilities. Your IIoT infrastructure requires and deserves more than just the transmission of a “Caller ID”. The HART protocol is intended for process automation, and many of the performance and cost issues associated with it are due to the necessary (backward) compatibility requirements. What if you could use the digital protocol you’ re using anyway?
• It does not offer the option of integrating information from portable gas detectors into your safety system in the future
In order for transmitters to function as “radio hotspots” for portable gas detection devices, an excess of bandwidth is required on the 4-20 mA line. The next big thing in gas detection technology is to obtain a holistic view of all sensor readings, whether from stationary devices or mobile solutions.
• It’s not exactly cheap!
Interoperability has its price: Devices have to be tested and registered, the infrastructure beyond the existing cables is complex and sometimes costly, and it costs time and money to be a member of the FieldComm Group so that the protocol can be developed further.
The undisputed advantage of HART:
The large selection of manufacturers and products as well as the interoperability of components associated with the HART protocol and the fact that HART systems have proven themselves in practice for many years are among the great strengths of HART.
ACDC is therefore not intended to compete with HART, but to complement it. It can easily exist in parallel with HART installations. Whenever the focus is less on process automation and more on fast and cost-effective transmission of safety and/ or cost-relevant information, it covers a longstanding industry requirement.
Simplicity as a Design Principle
To make it for our customers and implementation partners as easy as possible, we have decided to stick with the digital protocol that we already use for our digital transmitters: Modbus/RTU. It is widespread and established.
All that remained was the challenge of superimposing the Modbus protocol on the transmitter’s analogue 4-20 mA signal. For its purposes, the HART protocol uses Frequency Shift Keying (FSK). The analogue current signal is modulated with a sinusoidal signal whose frequency changes from 1.2 kHz to 2.2 kHz - depending on whether a logical “1” or “0” is transmitted. It’s a complex and therefore costly procedure. It would be much easier if no signal transformation was required.
ACDC achieves this by superimposing an amplitude modulation on the 4-20 mA current signal to generate a digital data stream. All that is needed are a few discrete components and a serial interface available in almost all microcontrollers. This allows for transmission rates of up to 38,400 bit/s.
The Advantages of ACDC
The great advantages of ACDC are hardly visible at first sight. You might think that not much has changed. But it is somehow comparable to a Porsche engine put into a beetle chassis.
As long as the transmitters are not digitally addressed, they behave like normal devices on a 4-20 mA interface. Although you will need to replace the old transmitters with ACDCenabled ones, the system at first looks the same as before. Retrofitting and migration are thus possible without any problems within the scope of normal maintenance cycles.
It all changes the moment you switch to digital communication and the full bandwidth of ACDC becomes available. All communication via ACDC is digital, including the transmission of measured values, but the analogue current signal used as a carrier is still fully functional and serves as a backup and failover in case of an error in digital transmission.
• No need to lay new cables
• A step by step exchange of transmitters is possible
• Transfer rates of up to 38,400 Bit/s (HART 1,200 Bit/s)
• Suitable for Ex-Zones
• Range >1.200 meters
• Using the same protocol as transmitters that communicate via digital bus
• Cost effective solution
However, with ACDC we are only at the beginning of the development. We are working hard to integrate ACDC into our equipment series and to develop new service, maintenance and compliance processes as well as enhanced security concepts in cooperation with interested manufacturers and customers from various industries.
A Glimpse into Future
Even when transmitting all the additional information available from smart sensors and ACDC-enabled transmitters, the available bandwidth will rarely be fully used. This allows for a solution in which alarms and even readings from portable gas detectors are fed wirelessly into the stationary gas detection system and thus become part of the alarm system.
Portable gas detection devices from GfG come with an optional radio module. With the portable TeamLink it is already possible to monitor teams of up to 10 people. However, with regard to the safety of lone workers and small work forces, it would be desirable to integrate all portable devices into the stationary safety infrastructure. This would significantly improve security in the workplace
To achieve this, transmission by radio signal offers considerable advantages over solutions based on WLAN, mobile or satellite telephony. And ACDC will provide the backbone to do so wherever you only have 4-20 mA interfaces on site.
Be at the forefront of development and join in on this endeavour. Let us know your requirements and expectations on connected gas detection. For more information on ACDC and connected gas detection, please get in touch with your local account manager at GfG or send an email to firstname.lastname@example.org and start shaping the future.
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