Hierarchical architectures

September 2009 Fieldbus & Industrial Networking

Pepperl and Fuchs’ heritage of innovation has enabled it to establish and maintain a world-leading position as a supplier of fieldbus technology in process automation.

The company says its digital process control is based on a three tier hierarchy:

At administrational and factory level Ethernet has established itself as the communications backbone, allowing direct data exchange between the PCS and the ERP systems.

At field level, the process industry has adopted Foundation Fieldbus H1 and Profibus PA as the dominant fieldbus systems. They comply with the international standard IEC61158 (fieldbus for use in industrial control systems). IEC61158-2, defines the physical layer of the fieldbus.

Design Considerations

Designing a fieldbus system starts with typical control and monitoring loops. At this stage it is vital to carefully consider the number of devices, cable resistance, and distances in order to meet all design criteria of the fieldbus standard.

Segment Checker is a widely accepted planning tool that will speed up the design process considerably. It has become the standard software package for planning and documenting fieldbus networks and offers valuable functions to verify the design based on the selected explosion protection such as calculation of voltage drop on the cable and validation of cable length and number of devices. Segment Checker as well as standard libraries for field instruments are available for download at www.segmentchecker.com

The high-power trunk concept

The High-Power Trunk concept overcomes limitations in regards to cable length and number of devices per segment while enabling explosion protection with simple validation procedures. Power supplies feed up to 500 mA/31 V to the trunk cable, which is installed with increased protection. This gets the energy close to many devices that all connect to one segment.

One device is connected per output of smart wiring blocks such as segment protectors or field barriers. The wiring blocks limit the energy at each spur to intrinsically safe values. They also protect the trunk from short circuits at the spur. Work on the field devices is allowed without requiring a hot work permit and without disturbing plant operation.

FISCO and the high-power trunk

All FISCO and Entity compliant instrumentation can be connected to the High-Power Trunk, which simplifies validation even further. Each spur is validated separately with the segment protector or field barrier as the only power supply and the device as the only power drain. FISCO and Entity devices can be installed and operated on the same segment. Work on field devices is permitted without gas clearance during plant operation.

Fieldbus physical layer

Fieldbus diagnostics for the physical layer assists users in getting better quality communication with significantly reduced effort during commissioning. New working procedures save more time during testing and wiring checkout.

A wizard automatically checks the segment, produces documentation and sets the system up for online monitoring. Signal degradation or other unintended changes in the fieldbus infrastructure can be handled proactively as part of the plant asset management.

Typical physical layer measurements

* Signal level: the voltage level of the data signal. (Measured per device.)

* Noise: unwanted disturbance. (Measured per device or per segment.)

<i.* Unbalance:</i> difference in isolation levels between each of the two leads and the shield. (Ground fault.)

* Jitter: deviation of the actual from the zero point crossing. (Measured per device and per segment.)

* CRC error: cyclic redundancy check. (A telegram where the check sum is invalid. i.e one or more bits were detected as invalid.)

* Framing error: part of the telegram is lost.

Benefits of the high-power trunk

* Simple engineering and planning.

* Same topology regardless of application.

* Mix and match instruments (Entity, FISCO) on the same trunk.

* Up to 31 field devices per segment even in hazardous areas.

* Maximum cable lengths.

* Efficient commissioning and plant start-up.

* Maximum plant performance and reduced, predictive maintenance.

* Highly reliable fieldbus power with redundancy.

* Integrated advanced diagnostic module.

Credit(s)

Pepperl+Fuchs

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