Indian Patents. 268959:MODULAR FIELDBUS SEGMENT PROTECTOR

Title of Invention	MODULAR FIELDBUS SEGMENT PROTECTOR
Abstract	A modular Fieldbus segment protector comprising a support means provided with trunk connection means, a trunk connection bus and a plurality of spur outlets, in which autonomous fault isolation means are removably mounted on the support means between the trunk connection bus and any one or more of the plurality of spur outlets.

Full Text	WO 2007/010289 PCT/GB2006/002758 -1- Modular Fieldbus Segment Protector This invention relates to a Modular Fieldbus Segment Protector for use in connecting electrical devices to a trunk connection bus. Known Fieldbus segment protection generally comprises a block containing a plethora of spur outlets. This is not an economic or versatile configuration as many spur outlets are often left unused. It is possible to use T couplers but these increase the footprint size, increase the number of terminal connections and generally increases the cost of manufacture and use. In addition, the known types of block couplers do not allow the live replacement of any faulty spur autonomous components. In order to remove a spur module the trunk connection must be broken. The present invention is intended to overcome some of the above problems. Therefore, according to a first aspect of the present invention a modular Fieldbus segment protector comprises a support means provided with trunk connection means, a trunk connection bus and a plurality of spur outlets, in which autonomous fault isolation means are removably mounted on the support means between the trunk connection bus and any one or more of the plurality of spur outlets. Therefore, the invention provides a modular system in which self-contained fault isolation means can be utilised where and when necessary by only being applied to particular spur outlets. As the fault isolation means are removable from the support means, they can also be moved about thereon and applied to the spur outlets as desired. WO 2007/010289 PCT/GB2006/002758 -2- In addition, with this arrangement each spur outlet is provided with its own autonomous fault isolation means. It will be appreciated that the invention includes a modular Fieldbus segment protector in which removal of a fault isolation means from between the trunk connection bus and a spur outlet will isolate the spur outlet, and any spur connected thereto, from the trunk connection bus. However, in a preferred embodiment of the invention secondary switch means can be provided between the trunk connection bus and one or more of the plurality of spur outlets. Each secondary switch means can be adapted to connect its spur outlet to the trunk connection bus when a fault isolation means is not mounted between the trunk connection bus and that spur outlet The secondary switch means can be adapted to automatically connect its spur outlet to the trunk connection bus when a fault isolation means is removed from between them, and to automatically break that connection when a fault isolation means is returned to between them. With this arrangement the removal of one of the fault isolation means does not isolate the spur outlet, and therefore any spur connected thereto. As such a faulty fault isolation means can be removed and replaced without isolating a spur and interrupting electrical supply to a device connected thereto. In one arrangement the secondary switch means can be provided with deactivation means, the operation of which prevents the secondary switch means connecting its spur outlet to the trunk connection bus when a fault isolation means is not mounted between them. The deactivation means can be manual or otherwise. Thus, if it is desired to isolate a particular spur outlet, and a spur mounted thereon, then the deactivation means can be operated and the fault isolation means WO 2007/010289 PCT/GB2006/002758 -3- can be removed from between the spur outlet and the trunk connection bus. Also, if a fault isolation means is not present, and the secondary switch means is connecting the spur outlet to the trunk connection bus, then the deactivation means can be operated at any time to isolate the spur. Preferably each one of the plurality of spur outlets is provided with a secondary switch means of any of the kinds described above. The fault isolation means can comprise an electrical circuit adapted to transition to high impedance if a short circuit or low resistance fault occurs at a spur. There are several known types of electrical circuit which can be used. The trunk connection means can be any known connector, such that the modular Fieldbus segment protector could be retrofit to an existing Fieldbus trunk. Alternatively, the trunk connection bus can be connected to a trunk by being integrally formed thereon. Such an arrangement would be suitable if the modular Fieldbus segment protector of the invention were integrated into a new Fieldbus trunk system. Likewise, the spur outlets can be any know connectors, such that the modular Fieldbus segment protector can be retrofit to an existing Fieldbus trunk, and such that different spurs can be connected and disconnected thereto as desired in use. Alternatively, spurs can be integrally formed onto the support means, and as such the spur connectors can comprise the connection points between the spurs and the support means. Such an arrangement would be suitable if the modular Fieldbus segment protector of the invention were integrated into a Fieldbus trunk system in which the spurs were not disconnectable. The support means can comprise a backplane carrying the trunk connection bus, the removable fault isolation means and the plurality of spur outlets. WO 2007/010289 PCT/GB2006/002758 -4- However in a more advantageous construction of the invention, the support means can comprise a plurality of separate backplanes each carrying a trunk connection bus and a spur outlet. One or more of the backplanes can also carry a fault isolation means, according to the invention. With this construction the trunk connection means of the invention can comprise connectors which can connect the backplanes to a trunk. In addition, the connectors can also be adapted to connect one backplane to another, so any number of backplanes can be daisy-chained together between connections to the trunk. Such connectors might be so-called D connectors. With this arrangement a modular trunk connection bus runs through all the backplanes, and a separate spur outlet is provided at each backplane. This arrangement allows any number of backplanes to be incorporated into a Fieldbus system as required. This modular system eliminates the occurrence of redundant spur outlets. The support means of the invention can also be adapted to support other devices. For example, any device could be mounted between the trunk connection means and the trunk connection bus to serve any particular purpose. Such a device might be a simple direct spur connection module without any fault isolation features, or it could be a passive device with a PCB connection. Other types of additional circuitry could also be included here, for example voltage limiting components or modules, and/or additional spur protection electronics. As stated above, the modular Fieldbus segment protector of the invention could be fully integrated into a Fieldbus system. Therefore, according to a second aspect of the present invention a Fieldbus system is provided with a modular Fieldbus segment protector comprising a support means provided with trunk connection means, a trunk connection bus and a plurality WO 2007/010289 PCT/GB2006/002758 -5- of spur outlets, in which autonomous fault isolation means are removably mounted on the support means between the trunk connection bus and any one or more of the plurality of spur outlets. Two embodiments of the invention will now be described by way of example and with reference to the accompanying drawings, in which: Figure 1 is a diagrammatic view of a first modular Fieldbus segment protector according to the present invention; and, Figure 2 is a diagrammatic view of a second modular Fieldbus segment protector according to the present invention. (In the following examples terminators are not included, but it will be appreciated that they may be inserted at any point in the system.) As shown in Figure 1 a modular Fieldbus segment protector comprises a support means, in the form of backplane 1, provided with trunk connection means, a trunk connection bus 6 and a plurality of spur outlets. (In the example shown the backplane 1 is simply mounted on a trunk 2, and as such the "trunk connection means" in this case comprises the incoming and outgoing trunk wires. In addition, the spurs, only one of which 7 is shown, are simply connected to the backplane 1, and as such the "spur outlets" of the invention comprise those connection points.) Autonomous fault isolation means, in the form of spur isolators 3,3a, and 3b to 3n are removably mounted on the support means (1) between the trunk connection bus 6 and any one or more of the plurality of spur outlets, as is illustrated in Figure 1. Secondary switch means in the form of shunt switches, only one of which 4 is visible, are provided between the trunk connection bus 6 and the spurs 7. The shunt switches 4 automatically connect the spurs 7 to the trunk connection bus 6 when a spur isolator 3 is removed from between them. This connection is broken when a WO 2007/010289 PCT/GB2006/002758 -6- spur isolator 3 is returned. The means by which the shunt switches 4 automatically connect the spurs 7 to, and disconnect the spurs 7 from, the trunk connection bus 6 can be any known trip devices. The spur isolators 3, 3a and 3b to 3n comprise electrical circuits adapted to transition to high impedance if a short circuit or low resistance fault occurs at a spur 7. Such technology is well known and is not further described here. In use the spur isolators 3, 3a and 3b to 3b connect the spurs 7 to the trunk connection bus 6, so that devices (not shown) connected to the spurs 7 are provided with electrical power and can operate. The spur isolators 3, 3a and 3b to 3n operate to protect the spur 7 and the trunk 2 from any short circuits or breaks which may occur in the system. As the spur isolators 3, 3a and 3b to 3n are autonomous they can Isolate separate parts of the system without affecting others. As the spur isolators 3, 3a and 3b to 3n are removable from the backplane 1 they can be applied to connect particular spurs 7 to the trunk connection bus 6 as required. For example where a spur 7 is not being used, a spur isolator 3, 3a and 3b to 3n is not required and can be utilised elsewhere. This flexibility allows for a targeted, and therefore more economic, use of resources. If a spur isolator 3, 3a and 3b to 3n is removed from between the trunk connection bus 6 and a particular spur 7, as is shown in Figure 1, then the shunt switch 4 automatically connects the spur 7 directly to the trunk connection bus 6. As such, a spur isolator 3, 3a and 3b to 3n can be removed from the backplane 1 for whatever reason, and there will be no interruption in electrical supply to the spur 7, and any device connected thereto. This allows for the live removal and replacement of spur isolators 3, 3a and 3b to 3n in use. In particular it prevents devices from being disconnected by accident. WO 2007/010289 PCT/GB2006/002758 -7- Figure 2 shows a variation of the invention in which the support means comprises a plurality of separate backplanes 1a and 1b to 1n, each carrying a single trunk connection bus and a spur outlet. In Figure 2 each backplane 1a and 1b to 1n also carries a spur isolator, and in each case shunt switches as described above are provided. Each of the backplanes la and 1b to 1n is provided with the female part of a D connector at one side, and the male part of a D connector at the opposite side (not shown). As such, each backplane 1a and 1b to 1n can be connected to the trunk, either at an inlet or an outlet, and the backplanes 1a and 1b to 1n can be connected together. Therefore, any number of backplanes can be daisy-chained together between connections to the trunk. In Figure 2 backplanes la and lb are connected together in such a chain, between connections to the trunk. It will be appreciated that any number of such backplanes can be connected together in this way, and the hashed outline of 1n in Figure 2 is intended to indicate this capability. With this arrangement a modular trunk connection bus 6 runs through these backplanes 1a and 1b to 1n, and a separate spur outlet is provided at each backplane 1a and 1b to 1n. It will be appreciated that this arrangement allows any number of backplanes to be incorporated into a Fieldbus system as required, and such a modular system eliminates the occurrence of redundant spur outlets. As such the modular Fieldbus segment protector shown in Figure 2 has two levels of modular flexibility. The spur isolators can be removed from the backplanes 1a and 1b to 1n, and moved between them if desired, and in addition, the number of actual spur outlets provided can be adjusted by removing or adding backplanes. The present invention also includes a Fieldbus system provided with a modular Fieldbus segment protector as described above. This invention is supported by Figure 1, in which the modular Fieldbus segment protector is integrally mounted on a Fieldbus trunk, and the spurs are integrally mounted on the modular Fieldbus WO 2007/010289 PCT/GB2006/002758 -8- segment protector. Therefore a Fieldbus system according to the second aspect of the present invention is supported by the Figures. The present invention can be altered without departing from the scope of Claim 1. In particular, in an alternative embodiment (not shown), the modular Fieldbus segment protector is provided with actual trunk connectors, and actual spur connectors, so the modular Fieldbus segment protector is a stand-alone device which can be readily plugged into an existing Fieldbus system. In another alternative embodiment (not shown) the modular Fieldbus segment protector is not provided with any secondary switch means, such that removal of a fault isolation means from between the trunk connection bus and a spur outlet isolates that spur outlet. Such a version may be preferred in some cases. In another alternative arrangement (not shown) the secondary switch means are provided with deactivation means, the operation of which prevents the secondary switch means connecting the spur outlets to the trunk connection bus when a fault isolation means is not mounted between them. Such a version provides greater flexibility of use. In a further alternative embodiments (not shown) the backplanes support other devices, including a simple direct spur connection module without any fault isolation features, and/or a passive device with a PCB connection and / or voltage limiting components or modules and/or additional spur protection electronics. Thus, Fieldbus segment protection is provided in a modular and flexible fashion, so the required devices can be utilized more effectively. In addition, the invention provides for removal of Fieldbus segment protection from individual spurs without any interruption in electrical supply. Further, each spur is provided with its own autonomous protection which prevents other parts of the system from being affected by faults. WO 2007/010289 PCT/GB2006/002758 -9- Claims 1. A modular Fieldbus segment protector comprising a support means provided with trunk connection means, a trunk connection bus and a plurality of spur outlets, in which autonomous fault isolation means are removably mounted on the support means between the trunk connection bus and any one or more of the plurality of spur outlets. 2. A modular Fieldbus segment protector as claimed in Claim 1 in which secondary switch means are provided between the trunk connection bus and one or more of the plurality of spur outlets, in which each secondary switch means is adapted to connect its associated spur outlet to the trunk connection bus when a fault isolation means is not mounted between the trunk connection bus and that spur outlet. 3. A modular Fieldbus segment protector as claimed in Claim 2 in which each secondary switch means is adapted to automatically connect its associated spur outlet to the trunk connection bus when a fault isolation means is removed from between the trunk connection bus and that spur outlet, and in which each secondary switch means is adapted to automatically break said connection when a fault isolation means is returned to between the trunk connection bus and that spur outlet 4. A modular Fieldbus segment protector as claimed in Claim 3 in which each secondary switch means is provided with deactivation means, the operation of which prevents the secondary switch means connecting its associated spur outlet to the trunk connection bus when a fault isolation means is not mounted between the trunk connection bus and that spur outlet 5. A modular Fieldbus segment protector as claimed in Claim 4 in which the deactivation means is manually operable. WO 2007/010289 PCT/GB2006/002758 -10- 6. A modular Fieldbus segment protector as claimed in any of Claims 2 and 5 in which each one of the plurality of spur outlets is provided with a secondary switch means. 7. A modular Fieldbus segment protector as claimed in any of the preceding Claims in which the support means comprises a backplane carrying the trunk connection bus, the removable fault isolation means and the plurality of spur outlets. 8. A modular Fieldbus segment protector as claimed in any of Claims 1 to 6 in which the support means comprises a plurality of separate backplanes each carrying a trunk connection bus and one spur outlet, and in which one or more of the backplanes carries a fault isolation means removably mounted thereon between the trunk connection bus and the spur outlet 9. A modular Fieldbus segment protector as claimed in Claim 8 in which the trunk connection means comprises connectors adapted to connect each of the plurality of backplanes to a trunk with which the modular Fieldbus segment protector is used, and in which said connectors are further adapted to connect one backplane to another, so any umber of backplanes are daisy-chainable together between connections to said trunk. 10. A modular Fieldbus segment protector as claimed in any of the preceding Claims in which the support means is adapted to support further electronic or electrical Fieldbus devices. 11. A modular Fieldbus segment protector as claimed in Claim 10 in which a direct spur connection module is mounted between the trunk connection means and the trunk connection bus. WO 2007/010289 PCT/GB2006/002758 -11- 12. A Fieldbus system provided with a modular Fieldbus segment protector comprising a support means provided with trunk connection means, a trunk connection bus and a plurality of spur outlets, in which autonomous fault isolation means are removably mounted on the support means between the trunk connection bus and any one or more of the plurality of spur outlets. A modular Fieldbus segment protector comprising a support means provided with trunk connection means, a trunk connection bus and a plurality of spur outlets, in which autonomous fault isolation means are removably mounted on the support means between the trunk connection bus and any one or more of the plurality of spur outlets.

Full Text

WO 2007/010289 PCT/GB2006/002758
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Modular Fieldbus Segment Protector
This invention relates to a Modular Fieldbus Segment Protector for use in
connecting electrical devices to a trunk connection bus.
Known Fieldbus segment protection generally comprises a block containing a
plethora of spur outlets. This is not an economic or versatile configuration as many
spur outlets are often left unused.
It is possible to use T couplers but these increase the footprint size, increase
the number of terminal connections and generally increases the cost of manufacture
and use.
In addition, the known types of block couplers do not allow the live
replacement of any faulty spur autonomous components. In order to remove a spur
module the trunk connection must be broken.
The present invention is intended to overcome some of the above problems.
Therefore, according to a first aspect of the present invention a modular
Fieldbus segment protector comprises a support means provided with trunk
connection means, a trunk connection bus and a plurality of spur outlets, in which
autonomous fault isolation means are removably mounted on the support means
between the trunk connection bus and any one or more of the plurality of spur
outlets.
Therefore, the invention provides a modular system in which self-contained
fault isolation means can be utilised where and when necessary by only being
applied to particular spur outlets. As the fault isolation means are removable from
the support means, they can also be moved about thereon and applied to the spur
outlets as desired.

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In addition, with this arrangement each spur outlet is provided with its own
autonomous fault isolation means.
It will be appreciated that the invention includes a modular Fieldbus segment
protector in which removal of a fault isolation means from between the trunk
connection bus and a spur outlet will isolate the spur outlet, and any spur connected
thereto, from the trunk connection bus.
However, in a preferred embodiment of the invention secondary switch means
can be provided between the trunk connection bus and one or more of the plurality of
spur outlets. Each secondary switch means can be adapted to connect its spur outlet
to the trunk connection bus when a fault isolation means is not mounted between
the trunk connection bus and that spur outlet
The secondary switch means can be adapted to automatically connect its spur
outlet to the trunk connection bus when a fault isolation means is removed from
between them, and to automatically break that connection when a fault isolation
means is returned to between them.
With this arrangement the removal of one of the fault isolation means does
not isolate the spur outlet, and therefore any spur connected thereto. As such a faulty
fault isolation means can be removed and replaced without isolating a spur and
interrupting electrical supply to a device connected thereto.
In one arrangement the secondary switch means can be provided with
deactivation means, the operation of which prevents the secondary switch means
connecting its spur outlet to the trunk connection bus when a fault isolation means is
not mounted between them. The deactivation means can be manual or otherwise.
Thus, if it is desired to isolate a particular spur outlet, and a spur mounted
thereon, then the deactivation means can be operated and the fault isolation means

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can be removed from between the spur outlet and the trunk connection bus. Also, if a
fault isolation means is not present, and the secondary switch means is connecting
the spur outlet to the trunk connection bus, then the deactivation means can be
operated at any time to isolate the spur.
Preferably each one of the plurality of spur outlets is provided with a
secondary switch means of any of the kinds described above.
The fault isolation means can comprise an electrical circuit adapted to
transition to high impedance if a short circuit or low resistance fault occurs at a spur.
There are several known types of electrical circuit which can be used.
The trunk connection means can be any known connector, such that the
modular Fieldbus segment protector could be retrofit to an existing Fieldbus trunk.
Alternatively, the trunk connection bus can be connected to a trunk by being
integrally formed thereon. Such an arrangement would be suitable if the modular
Fieldbus segment protector of the invention were integrated into a new Fieldbus
trunk system.
Likewise, the spur outlets can be any know connectors, such that the modular
Fieldbus segment protector can be retrofit to an existing Fieldbus trunk, and such
that different spurs can be connected and disconnected thereto as desired in use.
Alternatively, spurs can be integrally formed onto the support means, and as such the
spur connectors can comprise the connection points between the spurs and the
support means. Such an arrangement would be suitable if the modular Fieldbus
segment protector of the invention were integrated into a Fieldbus trunk system in
which the spurs were not disconnectable.
The support means can comprise a backplane carrying the trunk connection
bus, the removable fault isolation means and the plurality of spur outlets.

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However in a more advantageous construction of the invention, the support
means can comprise a plurality of separate backplanes each carrying a trunk
connection bus and a spur outlet. One or more of the backplanes can also carry a
fault isolation means, according to the invention.
With this construction the trunk connection means of the invention can
comprise connectors which can connect the backplanes to a trunk. In addition, the
connectors can also be adapted to connect one backplane to another, so any
number of backplanes can be daisy-chained together between connections to the
trunk. Such connectors might be so-called D connectors. With this arrangement a
modular trunk connection bus runs through all the backplanes, and a separate spur
outlet is provided at each backplane.
This arrangement allows any number of backplanes to be incorporated into a
Fieldbus system as required. This modular system eliminates the occurrence of
redundant spur outlets.
The support means of the invention can also be adapted to support other
devices. For example, any device could be mounted between the trunk connection
means and the trunk connection bus to serve any particular purpose. Such a device
might be a simple direct spur connection module without any fault isolation features,
or it could be a passive device with a PCB connection. Other types of additional
circuitry could also be included here, for example voltage limiting components or
modules, and/or additional spur protection electronics.
As stated above, the modular Fieldbus segment protector of the invention
could be fully integrated into a Fieldbus system.
Therefore, according to a second aspect of the present invention a Fieldbus
system is provided with a modular Fieldbus segment protector comprising a support
means provided with trunk connection means, a trunk connection bus and a plurality

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of spur outlets, in which autonomous fault isolation means are removably mounted
on the support means between the trunk connection bus and any one or more of the
plurality of spur outlets.
Two embodiments of the invention will now be described by way of example
and with reference to the accompanying drawings, in which:
Figure 1 is a diagrammatic view of a first modular Fieldbus segment protector
according to the present invention; and,
Figure 2 is a diagrammatic view of a second modular Fieldbus segment
protector according to the present invention.
(In the following examples terminators are not included, but it will be
appreciated that they may be inserted at any point in the system.)
As shown in Figure 1 a modular Fieldbus segment protector comprises a
support means, in the form of backplane 1, provided with trunk connection means, a
trunk connection bus 6 and a plurality of spur outlets. (In the example shown the
backplane 1 is simply mounted on a trunk 2, and as such the "trunk connection
means" in this case comprises the incoming and outgoing trunk wires. In addition,
the spurs, only one of which 7 is shown, are simply connected to the backplane 1,
and as such the "spur outlets" of the invention comprise those connection points.)
Autonomous fault isolation means, in the form of spur isolators 3,3a, and 3b to 3n
are removably mounted on the support means (1) between the trunk connection bus
6 and any one or more of the plurality of spur outlets, as is illustrated in Figure 1.
Secondary switch means in the form of shunt switches, only one of which 4 is
visible, are provided between the trunk connection bus 6 and the spurs 7. The shunt
switches 4 automatically connect the spurs 7 to the trunk connection bus 6 when a
spur isolator 3 is removed from between them. This connection is broken when a

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spur isolator 3 is returned. The means by which the shunt switches 4 automatically
connect the spurs 7 to, and disconnect the spurs 7 from, the trunk connection bus 6
can be any known trip devices.
The spur isolators 3, 3a and 3b to 3n comprise electrical circuits adapted to
transition to high impedance if a short circuit or low resistance fault occurs at a spur
7. Such technology is well known and is not further described here.
In use the spur isolators 3, 3a and 3b to 3b connect the spurs 7 to the trunk
connection bus 6, so that devices (not shown) connected to the spurs 7 are provided
with electrical power and can operate.
The spur isolators 3, 3a and 3b to 3n operate to protect the spur 7 and the
trunk 2 from any short circuits or breaks which may occur in the system. As the spur
isolators 3, 3a and 3b to 3n are autonomous they can Isolate separate parts of the
system without affecting others.
As the spur isolators 3, 3a and 3b to 3n are removable from the backplane 1
they can be applied to connect particular spurs 7 to the trunk connection bus 6 as
required. For example where a spur 7 is not being used, a spur isolator 3, 3a and 3b
to 3n is not required and can be utilised elsewhere. This flexibility allows for a
targeted, and therefore more economic, use of resources.
If a spur isolator 3, 3a and 3b to 3n is removed from between the trunk
connection bus 6 and a particular spur 7, as is shown in Figure 1, then the shunt
switch 4 automatically connects the spur 7 directly to the trunk connection bus 6. As
such, a spur isolator 3, 3a and 3b to 3n can be removed from the backplane 1 for
whatever reason, and there will be no interruption in electrical supply to the spur 7,
and any device connected thereto. This allows for the live removal and replacement
of spur isolators 3, 3a and 3b to 3n in use. In particular it prevents devices from
being disconnected by accident.

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Figure 2 shows a variation of the invention in which the support means
comprises a plurality of separate backplanes 1a and 1b to 1n, each carrying a single
trunk connection bus and a spur outlet. In Figure 2 each backplane 1a and 1b to 1n
also carries a spur isolator, and in each case shunt switches as described above are
provided.
Each of the backplanes la and 1b to 1n is provided with the female part of a
D connector at one side, and the male part of a D connector at the opposite side (not
shown). As such, each backplane 1a and 1b to 1n can be connected to the trunk,
either at an inlet or an outlet, and the backplanes 1a and 1b to 1n can be connected
together. Therefore, any number of backplanes can be daisy-chained together
between connections to the trunk. In Figure 2 backplanes la and lb are connected
together in such a chain, between connections to the trunk. It will be appreciated that
any number of such backplanes can be connected together in this way, and the
hashed outline of 1n in Figure 2 is intended to indicate this capability.
With this arrangement a modular trunk connection bus 6 runs through these
backplanes 1a and 1b to 1n, and a separate spur outlet is provided at each
backplane 1a and 1b to 1n. It will be appreciated that this arrangement allows any
number of backplanes to be incorporated into a Fieldbus system as required, and
such a modular system eliminates the occurrence of redundant spur outlets.
As such the modular Fieldbus segment protector shown in Figure 2 has two
levels of modular flexibility. The spur isolators can be removed from the backplanes
1a and 1b to 1n, and moved between them if desired, and in addition, the number of
actual spur outlets provided can be adjusted by removing or adding backplanes.
The present invention also includes a Fieldbus system provided with a
modular Fieldbus segment protector as described above. This invention is supported
by Figure 1, in which the modular Fieldbus segment protector is integrally mounted
on a Fieldbus trunk, and the spurs are integrally mounted on the modular Fieldbus

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segment protector. Therefore a Fieldbus system according to the second aspect of
the present invention is supported by the Figures.
The present invention can be altered without departing from the scope of
Claim 1. In particular, in an alternative embodiment (not shown), the modular
Fieldbus segment protector is provided with actual trunk connectors, and actual spur
connectors, so the modular Fieldbus segment protector is a stand-alone device which
can be readily plugged into an existing Fieldbus system.
In another alternative embodiment (not shown) the modular Fieldbus segment
protector is not provided with any secondary switch means, such that removal of a
fault isolation means from between the trunk connection bus and a spur outlet
isolates that spur outlet. Such a version may be preferred in some cases.
In another alternative arrangement (not shown) the secondary switch means
are provided with deactivation means, the operation of which prevents the secondary
switch means connecting the spur outlets to the trunk connection bus when a fault
isolation means is not mounted between them. Such a version provides greater
flexibility of use.
In a further alternative embodiments (not shown) the backplanes support
other devices, including a simple direct spur connection module without any fault
isolation features, and/or a passive device with a PCB connection and / or voltage
limiting components or modules and/or additional spur protection electronics.
Thus, Fieldbus segment protection is provided in a modular and flexible
fashion, so the required devices can be utilized more effectively. In addition, the
invention provides for removal of Fieldbus segment protection from individual spurs
without any interruption in electrical supply. Further, each spur is provided with its
own autonomous protection which prevents other parts of the system from being
affected by faults.

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Claims
1. A modular Fieldbus segment protector comprising a support means provided
with trunk connection means, a trunk connection bus and a plurality of spur outlets,
in which autonomous fault isolation means are removably mounted on the support
means between the trunk connection bus and any one or more of the plurality of spur
outlets.
2. A modular Fieldbus segment protector as claimed in Claim 1 in which
secondary switch means are provided between the trunk connection bus and one or
more of the plurality of spur outlets, in which each secondary switch means is
adapted to connect its associated spur outlet to the trunk connection bus when a
fault isolation means is not mounted between the trunk connection bus and that spur
outlet.
3. A modular Fieldbus segment protector as claimed in Claim 2 in which each
secondary switch means is adapted to automatically connect its associated spur
outlet to the trunk connection bus when a fault isolation means is removed from
between the trunk connection bus and that spur outlet, and in which each secondary
switch means is adapted to automatically break said connection when a fault
isolation means is returned to between the trunk connection bus and that spur
outlet
4. A modular Fieldbus segment protector as claimed in Claim 3 in which each
secondary switch means is provided with deactivation means, the operation of which
prevents the secondary switch means connecting its associated spur outlet to the
trunk connection bus when a fault isolation means is not mounted between the trunk
connection bus and that spur outlet
5. A modular Fieldbus segment protector as claimed in Claim 4 in which the
deactivation means is manually operable.

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6. A modular Fieldbus segment protector as claimed in any of Claims 2 and 5 in
which each one of the plurality of spur outlets is provided with a secondary switch
means.
7. A modular Fieldbus segment protector as claimed in any of the preceding
Claims in which the support means comprises a backplane carrying the trunk
connection bus, the removable fault isolation means and the plurality of spur outlets.
8. A modular Fieldbus segment protector as claimed in any of Claims 1 to 6 in
which the support means comprises a plurality of separate backplanes each carrying
a trunk connection bus and one spur outlet, and in which one or more of the
backplanes carries a fault isolation means removably mounted thereon between the
trunk connection bus and the spur outlet
9. A modular Fieldbus segment protector as claimed in Claim 8 in which the
trunk connection means comprises connectors adapted to connect each of the
plurality of backplanes to a trunk with which the modular Fieldbus segment protector
is used, and in which said connectors are further adapted to connect one backplane
to another, so any umber of backplanes are daisy-chainable together between
connections to said trunk.
10. A modular Fieldbus segment protector as claimed in any of the preceding
Claims in which the support means is adapted to support further electronic or
electrical Fieldbus devices.
11. A modular Fieldbus segment protector as claimed in Claim 10 in which a
direct spur connection module is mounted between the trunk connection means and
the trunk connection bus.

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12. A Fieldbus system provided with a modular Fieldbus segment protector
comprising a support means provided with trunk connection means, a trunk
connection bus and a plurality of spur outlets, in which autonomous fault isolation
means are removably mounted on the support means between the trunk connection
bus and any one or more of the plurality of spur outlets.

A modular Fieldbus segment protector comprising a support means provided with trunk connection means, a trunk connection bus and a plurality of spur outlets, in which autonomous fault isolation means are removably mounted on the support means between the trunk connection bus and any one or more of the plurality of spur outlets.

Documents:

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Patent Number

268959

Indian Patent Application Number

75/KOLNP/2008

PG Journal Number

40/2015

Publication Date

02-Oct-2015

Grant Date

24-Sep-2015

Date of Filing

04-Jan-2008

Name of Patentee

PEPPERL & FUCHS (DE)

Applicant Address

KONIGSBERGER ALLEE 87 D-68307 MANNHEIM

Inventors:

#	Inventor's Name	Inventor's Address
1	KITCHENER RENATO	LASHBURN, WANDLEYS LANE, WALBERTON, WEST SUSSEX BN 18 00R
2	ROGOLL GUNTHER	C/O PEPPERL & FUCHS (DE), KONIGSBERGER ALLEE 87, D-68307 MANNHEIM

PCT International Classification Number

H01H 71/02

PCT International Application Number

PCT/GB2006/002758

PCT International Filing date

2006-07-21

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1	0514906.7	2005-07-21	U.K.