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ELB Product Specification
General Description
Rotork’s ELB (Electronic Line Break) is a robust self-contained
electronic pipeline monitoring system designed for use in the
gas industry. It will continuously monitor pipeline pressure to
provide early detection of pipeline breaks and initiate
automatic movement of the valve actuator to a user-defined
position. The powerful and versatile system can also collect
detailed operational data useful for optimising performance and
enhancing pipeline safety.
The ELB system is designed to monitor the pipeline with the
capability of sensing both upstream and downstream pressure. It
provides valve actuator control based on rate-of-drop (RoD) and
rate-of-rise (RoR) as well as high, low and differential pressure
limits. The ELB can also provide an array of programmable alarm
and alert indications and has an extensive feature set that can be
configured to meet each end user’s particular requirements.
Design Features
 Intuitive user interface featuring an advanced backlit
display and Chinese language option
 Configuration and data retrieval via Rotork Bluetooth®
Setting Tool or PC (using Rotork Insight2TM)
 Comprehensive data logging in non-volatile memory with
real-time clock
 Pressure monitoring with RoD and RoR calculation
 Configurable fail-safe position to Open, Close, or Stay-in-
place
 Manual reset option to maintain fail-safe position until
human intervention allows a return to normal operation
 Will operate on 9-36 VDC supply voltage
 Local controls OPEN, CLOSE, LOCAL / REMOTE / STOP
 Remote control available via either hard-wired
connections or Modbus® serial communication protocol
 Provision for up to six remote inputs
 Partial stroke testing available
 Optional position sensor input
 Up to four configurable solenoid outputs
 Rotork designed hazardous area enclosure
 Compatible with a variety of actuator types
 Can be mounted either on the actuator or remotely
2
General Operation
The ELB has two distinct modes of operation as detailed below:
Basic Mode
The actuator will be driven to the open or closed position by
using either the local controls or the PSD input when in remote.
Advanced Mode
The following inputs, outputs and features can be utilised in
Advanced Mode if independent limits switches are connected for
open, closed and partial stroke position, (if required):
 Limit switch inputs
 Sensor 3 input (actuator position or pressure)
 Remote open, close, maintain & manual reset.
 Inhibit open/close
 Partial stroke testing
 Stall detection
Display
The advanced dual stacked display is clear and offers a wide
viewing angle making it easily legible from a distance. In
normal mode the LCD display indicates pipeline pressure
down to -50 °C (-58°F).
The matrix layer provides high resolution screens for settings
menus, status and alarms along with graphical datalog screens
such as pressure/position profiles. Position indication lights (red,
yellow and green) are duplicated each side of the display. All
display elements are protected by a 13mm toughened glass
window with an optional shield for protection against abrasive
media such as sand and UV light.
Local Controls
Local Open/Close and lockable Local/Stop/Remote selectors are
coupled magnetically to the designated switches and therefore
do not penetrate the electrical cover.
Rotork Bluetooth®
Setting Tool Pro
The dual Bluetooth® and IR secure and intrinsically safe setting
tool is suitable for use in hazardous environments. The setting
tool can be used to download data wirelessly and to remotely
configure multiple devices, (individually).
Process Shutdown (PSD)
The PSD command can be configured so that its action overrides
all other commands and alarms. It can also be re-mapped to
provide a 2nd open / close command which can act as an AND/OR
function. The PSD action can be set to the following:
 De-energise all solenoid valves
 Open
 Close
 Open Inhibit
 Close Inhibit
 Stop
 Do Nothing
 PSD (specific solenoid valve output)
The PSD can be initiated by a remote hardwired input or a
network card.
Manual Reset
The device can be configured to either automatically clear an
alarm when its source is no longer present or keep the condition
active until manually reset by the user. This is managed via the
local controls, a remote hardwired input or through a network
card.
If an alarm is tripped and the device goes into manual reset then
it will not accept any new commands. For new commands to be
accepted then the alarm condition needs to be removed before
the device can be manually reset.
Partial Stroke Testing (PST)
Partial Stroke Testing is a function used in two position, critical
applications, where the process valve is infrequently
operated. PST allows the operator to test the final elements
such as solenoid valve(s), actuator drive and the process valve
for possible failure. The test can be performed without the
need to physically close the valve and thereby maintain the
process operation.
The open or close limit needs to be selected for the test to
start from along with the allowable time to move to the
partial stroke position (set by a separate limit switch) and
the allowable time to move back to the start position. A pass
will be issued if the test is carried out within the allowable
times and a fail will be issued if the test is outside these
times. If a fail is issued then the device will drive the
actuator back to the start position.
The PST can be initiated by a remote hardwired input, a
network card or locally with the Rotork Bluetooth® Setting
Tool Pro.
3
Pipeline Monitoring
The ELB has five different pressure conditions that can be
monitored; any combination of the five can be utilised depending
on the application. These are as follows:
 Rate of Drop (RoD)
 Rate of Rise (RoR)
 High Pressure
 Low Pressure
 Differential pressure (across the valve)
Each of the five pressure conditions has adjustable limits allowing
the ELB to indicate an alert condition when close to the alarm
limit. Once the alarm limit is reached the configured action will
be performed.
Each alarm action can also be set with a Delay to Action time and
a Delay to Reset time. These are adjustable from 0-1800 seconds.
Alarm actions can be set to the following:
 De-energise all solenoid valves
 Open
 Close
 Open Inhibit
 Close Inhibit
 Stop
 Do Nothing
 PSD (specific solenoid valve output)
Alarm Reset actions can be set to the following:
 Disabled (alarm not raised)
 Set (alarm active whilst source is present)
 Set and Latch (alarm active until manually reset)
The pressure is sampled every 10 milliseconds (fixed) for each
sensor.
The pressure is then averaged over a number of rolling samples
(1-100). The default is 30 samples.
For RoD and RoR, the average pressure value is then sampled
again every 10 seconds (default). This is then compared to the
value sampled 60 seconds before it. The sample period can be
adjusted from 1-99 seconds.
The rate of change is adjustable from 0.2 to 20 bar/min (0.02 to
2.0 MPa/min) for both the alarm and alert.
For Low, High and Differential alarms and alerts, the averaged
pressure value is sampled every 5 seconds (default) with the
range being 1-99 seconds.
Live Pressure
Sampled every 10ms
Average Pressure
Rolling Sample Rate (1-100)
Default – 30 samples
RoD / RoR High / Low / Differential
Average Pressure
Sampling Rate (1-99s)
Default – 10s
Average Pressure
Sampling Rate (1-99s)
Default – 5s
Last sample compared
with sample taken 60s
before it
Alert is tripped
Alarm is tripped if condition is
retained for a set time (0-1800s)
Default – 30s (RoD / RoR)
4
Asset Management
Asset management data regarding the device and the valve can
be stored including build data, tag numbers and valve
information along with operational and service information.
Datalogger
The datalogger stores the configuration set-up, events, trends,
status and alarms with up to 1000 events held in the memory.
The position and various pressure values can also be continuously
monitored and stored (if appropriate sensors are connected).
The data can be viewed locally on the dot matrix display from
pressure and position graphs through to statistical operational
data. All data held is secure and can be downloaded using the
Rotork Bluetooth® setting tool pro for viewing on a PC with
Rotork Insight2 software.
All configuration and datalog files are stored in non-volatile
EEPROM memory, which means all settings are safe when the
power is removed. An internal super capacitor is provided to
maintain the real time clock (used to maintain the datalogger
time) when the device is not powered for periods up to two
weeks.
The datalogger provides comprehensive data capture and
analysis for planned maintenance and troubleshooting issues
with the valve and processes. This includes, but is not limited to
the following:
 Event Log
Alarms / Alerts
PSD status
PST results
Local & remote commands
Faults
 Alarm Log
One log per Alarm
Alarms logged are RoR, RoD, High, Low and
Differential Pressure
 Trend Logs
Pipeline pressure
Mains supply
Temperature
Vibration
 Partial Stroke Result Log
Last 10 results
 Operational logs
Opening/Closing time
Last Open/Close limit
Max/Min temperature
Max/Min mains supply voltage
Typical Configuration
5
Design Specification
Design Life
The expected design life of the electronics is 10 years across the full operating temperature range if the requirements of this
specification are met. This will be extended if the device is operated in temperatures less than +70°C.
Vibration, Shock and Noise
The ELB is suitable for applications where vibration and shock severity do not exceed the following:
Type Level
Plant induced
vibration
1g RMS total for all vibration within the frequency range of 10 to 1,000 Hz.
Shock 5g peak acceleration
Seismic 2g acceleration over a frequency range of 1 to 50 Hz if it is to operate during and after the event.
Emitted noise Tests have shown that at 1m generated noise does not exceed 70 db (A).
Levels quoted are those present at the actuator mounting interface. It should be noted that the effects of vibration are cumulative
and therefore a device subjected to significant levels may have a reduced lifespan. Where excessive plant induced vibration is
anticipated, mounting the device remote from the valve may provide a satisfactory solution.
Mounting Interface
Maximum Weight is 9kg.
6
Certification
Non-Hazardous & Hazardous areas Certification
The ELB is watertight to IP66 / IP68 / NEMA Type 4 & 6. Through the use of non-intrusive commissioning, using the Rotork Bluetooth®
Setting Tool Pro, covers do not need removed.
In addition, the Rotork Bluetooth® Setting Tool Pro is certified Intrinsically Safe permitting power-on commissioning in hazardous areas.
Devices are available with the following enclosure types for which the ambient working temperature ranges are stated. Where
option temperatures are indicated, changes to some actuator components are required and therefore the temperature
requirement must be specified. Hazardous area approvals for other country standards are available; please contact Rotork.
The ELB is available in accordance with the following standards:
Non-Hazardous Area (Watertight)
Standard Rating Standard Option 1
BS EN 60529 (1992) IP66 / IP68 (7m for 72Hrs) -20°C to +70°C
(-4°F to +158°F)
-50°C to +70°C
IEC 60529 (1989-11) IP66 / IP68 (7m for 72Hrs)
Hazardous Area
ATEX (Europe)*
Code Enclosure Code Standard Option 1
ATEX II 2G c Ex db IIB T4
-20°C to +70°C
(-4°F to +158°F)
-50°C to +70°C
(-58°F to +158°F)
ATEX II 2G c Ex db IIC T4
-20°C to +70°C
(-4°F to +158°F)
-50°C to +70°C
(-58°F to +158°F)
IECEx (International)*
Code Enclosure Code Standard Option 1
IECEx Ex db IIB T4
-20°C to +70°C
(-4°F to +158°F)
-50°C to +70°C
(-58°F to +158°F)
IECEx Ex db IIC T4
-20°C to +70°C
(-4°F to +158°F)
-50°C to +70°C
(-58°F to +158°F)
cCSAus – (Canada & USA)*
Class / Zone Enclosure Code Standard Option 1
Class 1 / Zone 1 (A) Ex d IIB T4
-20°C to +70°C
(-4°F to +158°F)
-50°C to +70°C
(-58°F to +158°F)
Class 1 / Zone 1 (A) Ex d IIC T4
-20°C to +70°C
(-4°F to +158°F)
-50°C to +70°C
(-58°F to +158°F)
*The approvals above are pending and subject to change.
Bluetooth®
Setting Tool Pro
Region Directive/Standard Rating Temperature
Europe ATEXII1G Ex ia IIC T4
-30 to +50 °C
(-22 to +122 °F)
International IECEx Ex ia IIC T4
United States FM3610
Intrinsically Safe - Class I, Div. 1
Groups A, B ,C & D: T4
Canada
CSA
C22.2 No.157-92
Intrinsically Safe - Class I, Div. 1
Groups A, B ,C & D: T4
7
Regulatory Standards
Compliance with the following European Union Directives permits the ELB to be CE marked under the provision of the Machinery
Directive.
Directive Applicable to Reference
Electro-magnetic Compatibility (EMC) Immunity to/emissions of electromagnetic energy 2004/108/EC
Low Voltage (LVD) Electrical Safety 2006/95/EC
Machinery* Product Safety
Actuators follow the provision of the
Machinery Directive 2006/42/EC. They
must not be put into service until the
equipment into which it is being
incorporated has been declared to be in
conformity with the provisions of the
European Community Machinery Directive
2006/42/EC.
Waste Electrical &Electronic Equipment
(WEEE)
Exempt under the scope of the directive
Federal Communications Commission
Bluetooth® modules - actuator and Rotork
Bluetooth® Setting Tool Pro.
Contains FCC certified transmitter module.
Refer to PUB002-039 for FCC ID.
*This device is not classified as a machine within the scope of the machinery directive.
Contact Rotork for a copy of our Declaration of Conformity and Incorporation
Power, Control & Indication
Power Supply
The ELB is suitable for operation with the following power supply:
Voltage Type Voltage
DC 24 VDC - Nominal (Range is 9 – 36 VDC)
The following supply is available for customer use:
24 VDC 15 W rated - device derived supply for remote control circuits and sensors.
Power Consumption (Mains power)
Power (W) Function
6.1 Standard Unit
5.0 Modbus Card
0.6 Limit Switch (assumes only one limit switch is closed at a time)
0.48 Pressure / Position Sensor (this is worst case value for each sensor connected)
X
Solenoid Valve (X = power rating stated by the manufacturer)
Each solenoid valve is pulled in at full power, before going into coil save mode which reduces the power to
hold it.
Example
Limit switches connected with two pressure sensors and one solenoid valve (10W each) being powered together with a coil save of 50%.
Pull-in Power = 6.1 + 0.6 + 0.48 + 0.48 + 10 = 17.66W
Holding Power = 6.1 + 0.6 + 0.48 + 0.48 + (10*(50/100)²) = 10.16W
8
Local Control, Indication & Set-up
Non-intrusive selectors are provided on the electrical cover which also includes an LCD display showing the actuators position, status and
alarms.
The cover may be rotated through 360° (90° increments) to suit orientation/operator access. Set-up is over a Bluetooth® interface using the
supplied Rotork Bluetooth® Setting Tool Pro.
Local Controls (Standard)
Operation Type Range Comments
Position
Red, rotary
selector.
Selects “Local”,
“Stop” or
“Remote” control.
Can be padlocked in each position (stop remains available) for site
operational protection.
Local Control
Black, rotary
selector.
Initiates local
“Open” and
“Close” operation.
Spring to centre neutral position. Local control may be user
configured for inching action.
Bluetooth®
Rotork Bluetooth®
Setting Tool Pro.
Initiates local
“Open” and
“Close” operation.
May be user configured for Bluetooth® operation over a nominal
distance of 10m (30ft).
Local Indication (Standard)
Operation Type Range Comments
PositionIndication
LCD – large character
(25mm/1”).
Close & Open icon.
Position sensor not connected.
Back-lit (power on) – operating temperature -50°C to +70°C (-58°F to
+158°F).
PositionIndication
LCD – large character
(25mm/1”).
Close icon – 1-99%
(0.1% increments) –
Open icon.
Position sensor connected.
Back-lit (power on) – operating temperature -50°C to +70°C (-58°F to
+158°F).
PositionIndication
Coloured indication
LEDs.
Red (close), Green
(open) & Yellow
(mid-travel).
LED indication colours can be reversed.
Mid-travel LED can be set to flash or indicate an alarm.
Status andAlarm
(multi-language)
LCD – status and
alarm text.
Real time status and
alarm text
integrated into
position display.
Alarm icon is also displayed.
Set-up (Standard)
Setting Tool
LCD displays
Simple non-intrusive, interactive set-up procedure using supplied Rotork Bluetooth® Setting Tool Pro with read-back from LCD.
Settings include limits, indication and control options. Settings may be password protected.
PC Using the freely available Insight2 software, devices can be configured / analysed over Bluetooth® interface.
Datalogging
Standard on-board datalogger provides operational statistics, event logs and partial stroke test results. Device configuration
and manufacturing data also available. Files can be downloaded direct to a PC or to Rotork Bluetooth® Setting Tool Pro (IS
certified) for transport to office PC. Freeware Insight2 for PC is available to download at www.rotork.com
Options
Vandal resistant Lockable cover protects standard selectors and window.
9
Remote Control & Indication
The ELB enables remote control and status indication of Gas over Oil, Hydraulic and Pneumatic actuators. The following actuator control
and indication options are available to meet the requirements of various site control systems from simple manual push-button control,
process shutdown (PSD) through to Distributed Control Systems (DCS) using hardwired switched signals or digital “bus” network systems.
Remote Control (Standard)
Operation Type Range Comments
Open
Close
Maintain
PartialStroke
Positive switched
5 x opto-isolated
inputs designed for
pulsed or maintained
contacts*.
20 - 60 VDC
40 - 120 VAC
(min. 0.15 W / input)
Device supplied 24 VDC or externally supplied from the control system.
Minimum pulsed duration of 30ms.
Limit switches are required for these functions to be available.
ManualReset
Device supplied 24 VDC or externally supplied from the control system.
Minimum pulsed duration of 30ms.
Process Shutdown
(PSD)
1 x opto-isolated
input designed for
maintained contacts.
Device supplied 24 VDC or externally supplied from the control system.
This input can be re-mapped as an additional AND/OR Open or Close
command.
*Open, close, maintain, partial stroke and manual reset share the same common.
Network Control (Optional)
The ELB is available with the following network interface cards to enable remote control and indication using digital “bus” network systems
communication to the Distributed Control Systems (DCS).
Network Type Comments
Modbus
Modbus modules suitable for single or dual communication highways may be included in the device, to provide
Fieldbus communication of all the control functions and feedback data. Data is carried on an RS485 data highway and
the communications protocol used is Modbus RTU. System variables such as unit address and data baud rate are
programmed over the Bluetooth® data link. For more information please refer to PUB091-001.
Remote Indication (Standard)
Operation Type Range Comments
Indication Relays
2 x configurable volt
free non-latching
contacts - S1 & S2.
Single pole - single
throw (SPST),
configurable NO or
NC.
2A @ 24 VDC
Independently configured using the Rotork Bluetooth® Setting Tool or
Insight2 to signal one of the following:
Valve Position: closed & open limit (if limit switches are connected).
Status: local-stop / local / remote selected, temperature trip & partial
stroke active / pass / fail.
Control Alarms: PSD active, alarm reset active, voltage supply high /
low.
Process Alarms / Alerts: rate of pressure rise (ROR) / drop (ROD),
high / low pressure, high differential pressure & stall.
Device Alarms: loss of customer supply / HMI / Bluetooth®.
General Alarm / Alert: includes all process alarms / alarms above.
Alarm Relay
1 x volt free non-
latching contact.
Single pole - double
throw (SPDT),
configurable NO or
NC.
2A @ 24 VDC
This relay will be de-energised when the actuator is unavailable for
remote control due to any one or more of the following conditions:
PSD, process alarms (above) & Internal hardware fault.
Monitor Relay
1 x volt free non-
latching contact.
Single pole - double
throw (SPDT),
configurable NO or
NC.
2A @ 24 VDC
This relay will be de-energised when the actuator is unavailable for
remote control due to any one or more of the following conditions:
Local control selected, local stop selected, loss of network
communication & internal hardware fault.
10
Protection & Operating Features
Feature Comments
Set-up
Simple non-intrusive, interactive set-up procedure using supplied Rotork Bluetooth® Setting Tool Pro with LCD display
or Insight2. Settings include sensor calibration, alarm values, indication contacts and control options. Settings may be
password protected. Setting tools are provided on a 1 for 10 device ratio, additional setting tools available on request.
Drifting from limit
If the actuator starts to drift away from a limit (limit switch de-activates without any command active), then the ELB will carry
out the following action:
If in Local or Stop, a Stop command will be issued and the user can then choose to move back to the limit.
If in Remote, then an Open or Close command will be issued to move the actuator back to the limit. If the limit switch is not
reached in the configured time then a Stall Alarm will be issued along with a Stop command.
Datalogger
Standard onboard datalogger provides hydraulic pressure, position and starts profiles, operational statistics, events log.
Actuator configuration & manufacturing data is also available. Files can be downloaded directly to a PC or to the Rotork
Bluetooth® Setting Tool Pro (IS certified) for transfer to a remote PC. Freeware Insight2 for PC is available to download at
www.rotork.com Using Insight2; actuators may be configured and analysed over a Bluetooth® interface.
Micro-controller
Provides all control function logic, setup programming and allied system requirements. Software is field upgra deable
for future enhancements.
Memory All configured settings are stored in non-volatile EEPROM memory (does not require power).
Connected Devices
Inputs (Standard)
Input Type Range Comments
Open Limit Switch
Close Limit Switch
Partial Stroke Limit
Switch
3 x non-isolated
digital inputs,
suitable for NO
contacts.
N/A
Mechanical limit switches to be housed in a separate switchbox
mounted directly to the actuator.
If more than one limit switch is active at the same time then an
alarm will be raised and its default action is to STOP.
Sensor 1 (Pressure)
Sensor 2 (Pressure)
Sensor 3 (Position or
Pressure)
3 x isolated analogue
inputs (2 or 3 wire).
4 - 20 mA
0.5 - 4.5 VDC
Sensor 1 – Monitors downstream pipeline pressure.
Sensor 2 – Monitors downstream pipeline pressure to verify Sensor 1
is working correctly (redundancy), or monitors upstream pipeline
pressure to enable differential pressure to be calculated.
Sensor 3 – Monitors the cylinder pressure or position of the actuator.
The 24V supply is rated to 3 W (or customer supply can be used).
The 5V supply is rated to 0.5 W.
Outputs (Standard)
Output Range Comments
4 x Solenoid Valves
24 VDC ± 10%
20 W Max. per
channel.
The control logic for the solenoid valves can be configured for open, close, stop & PSD
commands.
Each solenoid valve can also be configured to switch to a low power mode once energised
based on the type used.
11
Components
Details of the major mechanical and electrical components are provided below:
Materials
Component Material Grade Finish
ELB Housing Aluminium
BS EN 1706 AC-42000 (LM25)
ASTM B5 GRADE A360
Painted
Fasteners Stainless Steel A4-80 (316) N/A
Finish
All finishes are tested in accordance with Rotork’s 1,000 hour cyclic salt spray test procedure which is the most realistic and arduous test
cycle applicable. The test combines cyclic salt spray, drying and humidity at elevated temperatures on complete factory built devices. This
tests the finish and the various substrate materials, fixings and interfaces that make up the ELB. Substrate materials and finishes are
selected to provide maximum corrosion resistance combined with good adhesion.
Standard Finish Two-pack epoxy (90 microns)
Offshore Finish Two-pack epoxy (350 microns)
Conduit / Cable Entries
The enclosure is machined with conduit/cable entries as indicated below. Alternative adapters are available.
Type Adapter Material Thread
Standard N/A 5 x M25 x 1.5P
Option 1 Nickel Plated Brass
5 x M20 x 1.5 P
5 x M32 x 1.5 P
5 x ½” NPT
5 x ¾” NPT
5 x 1” NPT
5 x 1-1/4” NPT
Option 2 Stainless Steel (316)
All devices are dispatched with transit plugs fitted into the conduit entries. It is the responsibility of the installer to ensure the appropriate
cable/conduit adapters, cable glands and/or blanking plugs are fitted in order to maintain hazardous area certification and ingress protection
levels. Certified adapters and blanking plugs are available as optional extras.
Terminals
The mains supply
The enclosure for the mains supply takes the form of a separately sealed compartment containing a terminal block, which is suitable for
AMP type ring crimps. Terminal screws and washers are supplied with the device.
All other connections are made within the main enclosure using the supplied removable connectors which accept insulated pin crimps
(Ø1.4mm). Each device is dispatched with a Safe Use and Installation Manual and wiring diagram.
12
Model code
ELB Selection ELB – 0 1 – A B C
Table A – Network Cards
Table B – Operating Temperature
Table C – Certification
Table D – Cable Entries
Table E - Accessories
Table A - Network Cards
Code Description
0 No Network card
2 Modbus Single channel
3 Modbus Dual channel
Table B - Operating Temperature
Code Description
0 -20°C to +70°C
1 -50°C to +70°C
Table C - Certification
Code Description
A WT – Watertight IP66/68
B ATEX - IIB
C ATEX - IIC
D IECEx - IIB
E IECEx - IIC
F CSAUS - IIB
G CSAUS - IIC
H CSAC - IIB
J CSAC - IIC
K TR TS – IIB (Russia)
L TR TS – IIC (Russia)
Table D – Cable Entries
Code Description
A M25 x 1.5P (Standard)
B M20 x 1.5P - Nickel plated adaptors
C M20 x 1.5P - Stainless steel adaptors
D M32 x 1.5P - Nickel plated adaptors
E M32 x 1.5P - Stainless steel adaptors
F 1/2" NPT - Nickel plated adaptors
G 1/2" NPT - Stainless steel adaptors
H 3/4" NPT - Nickel plated adaptors
J 3/4" NPT - Stainless steel adaptors
K 1" NPT - Nickel plated adaptors
L 1" NPT - Stainless steel adaptors
M 1-1/4" NPT - Nickel plated adaptors
N 1-1/4" NPT - Stainless steel adaptors
Table E - Accessories
Code Description
A Ex Cable entry Plugs-Nickel plated
B Ex Cable entry Plugs- Stainless steel
D Window Protector
E Vandal proof Cover
F Solar Shield
G Coastal - Std Colour 180 microns
H* Offshore - Std Colour 350 microns
J Customer specific paint specification
K Non-standard top coat colour change
*For Ex d IIC certified devices, maximum paint thickness is 200 microns.
PUB127-002-00
Issue 12/16
www.rotork.com
Gearboxes and Gear Operators
Precision Control Instruments
Projects, Services and Retrofit
Electric Actuators and Control Systems
Fluid Power Actuators and Control Systems
A full listing of the Rotork sales
and service network is available
on our website.
Corporate Headquarters
Rotork plc
tel +44 (0)1225 733200
fax +44 (0)1225 333467
email mail@rotork.com
As part of a process of on-going product development, Rotork reserves the right to
amend and change specifications without prior notice. Published data may be subject
to change. For the very latest version release, visit our website at www.rotork.com
The name Rotork is a registered trademark. Rotork recognises all registered trademarks.
Published and produced in the UK by Rotork Controls Limited.ROWMH/LC1216

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Electronic Line Break Protector for Fluid Systems

  • 1. ELB Product Specification General Description Rotork’s ELB (Electronic Line Break) is a robust self-contained electronic pipeline monitoring system designed for use in the gas industry. It will continuously monitor pipeline pressure to provide early detection of pipeline breaks and initiate automatic movement of the valve actuator to a user-defined position. The powerful and versatile system can also collect detailed operational data useful for optimising performance and enhancing pipeline safety. The ELB system is designed to monitor the pipeline with the capability of sensing both upstream and downstream pressure. It provides valve actuator control based on rate-of-drop (RoD) and rate-of-rise (RoR) as well as high, low and differential pressure limits. The ELB can also provide an array of programmable alarm and alert indications and has an extensive feature set that can be configured to meet each end user’s particular requirements. Design Features  Intuitive user interface featuring an advanced backlit display and Chinese language option  Configuration and data retrieval via Rotork Bluetooth® Setting Tool or PC (using Rotork Insight2TM)  Comprehensive data logging in non-volatile memory with real-time clock  Pressure monitoring with RoD and RoR calculation  Configurable fail-safe position to Open, Close, or Stay-in- place  Manual reset option to maintain fail-safe position until human intervention allows a return to normal operation  Will operate on 9-36 VDC supply voltage  Local controls OPEN, CLOSE, LOCAL / REMOTE / STOP  Remote control available via either hard-wired connections or Modbus® serial communication protocol  Provision for up to six remote inputs  Partial stroke testing available  Optional position sensor input  Up to four configurable solenoid outputs  Rotork designed hazardous area enclosure  Compatible with a variety of actuator types  Can be mounted either on the actuator or remotely
  • 2. 2 General Operation The ELB has two distinct modes of operation as detailed below: Basic Mode The actuator will be driven to the open or closed position by using either the local controls or the PSD input when in remote. Advanced Mode The following inputs, outputs and features can be utilised in Advanced Mode if independent limits switches are connected for open, closed and partial stroke position, (if required):  Limit switch inputs  Sensor 3 input (actuator position or pressure)  Remote open, close, maintain & manual reset.  Inhibit open/close  Partial stroke testing  Stall detection Display The advanced dual stacked display is clear and offers a wide viewing angle making it easily legible from a distance. In normal mode the LCD display indicates pipeline pressure down to -50 °C (-58°F). The matrix layer provides high resolution screens for settings menus, status and alarms along with graphical datalog screens such as pressure/position profiles. Position indication lights (red, yellow and green) are duplicated each side of the display. All display elements are protected by a 13mm toughened glass window with an optional shield for protection against abrasive media such as sand and UV light. Local Controls Local Open/Close and lockable Local/Stop/Remote selectors are coupled magnetically to the designated switches and therefore do not penetrate the electrical cover. Rotork Bluetooth® Setting Tool Pro The dual Bluetooth® and IR secure and intrinsically safe setting tool is suitable for use in hazardous environments. The setting tool can be used to download data wirelessly and to remotely configure multiple devices, (individually). Process Shutdown (PSD) The PSD command can be configured so that its action overrides all other commands and alarms. It can also be re-mapped to provide a 2nd open / close command which can act as an AND/OR function. The PSD action can be set to the following:  De-energise all solenoid valves  Open  Close  Open Inhibit  Close Inhibit  Stop  Do Nothing  PSD (specific solenoid valve output) The PSD can be initiated by a remote hardwired input or a network card. Manual Reset The device can be configured to either automatically clear an alarm when its source is no longer present or keep the condition active until manually reset by the user. This is managed via the local controls, a remote hardwired input or through a network card. If an alarm is tripped and the device goes into manual reset then it will not accept any new commands. For new commands to be accepted then the alarm condition needs to be removed before the device can be manually reset. Partial Stroke Testing (PST) Partial Stroke Testing is a function used in two position, critical applications, where the process valve is infrequently operated. PST allows the operator to test the final elements such as solenoid valve(s), actuator drive and the process valve for possible failure. The test can be performed without the need to physically close the valve and thereby maintain the process operation. The open or close limit needs to be selected for the test to start from along with the allowable time to move to the partial stroke position (set by a separate limit switch) and the allowable time to move back to the start position. A pass will be issued if the test is carried out within the allowable times and a fail will be issued if the test is outside these times. If a fail is issued then the device will drive the actuator back to the start position. The PST can be initiated by a remote hardwired input, a network card or locally with the Rotork Bluetooth® Setting Tool Pro.
  • 3. 3 Pipeline Monitoring The ELB has five different pressure conditions that can be monitored; any combination of the five can be utilised depending on the application. These are as follows:  Rate of Drop (RoD)  Rate of Rise (RoR)  High Pressure  Low Pressure  Differential pressure (across the valve) Each of the five pressure conditions has adjustable limits allowing the ELB to indicate an alert condition when close to the alarm limit. Once the alarm limit is reached the configured action will be performed. Each alarm action can also be set with a Delay to Action time and a Delay to Reset time. These are adjustable from 0-1800 seconds. Alarm actions can be set to the following:  De-energise all solenoid valves  Open  Close  Open Inhibit  Close Inhibit  Stop  Do Nothing  PSD (specific solenoid valve output) Alarm Reset actions can be set to the following:  Disabled (alarm not raised)  Set (alarm active whilst source is present)  Set and Latch (alarm active until manually reset) The pressure is sampled every 10 milliseconds (fixed) for each sensor. The pressure is then averaged over a number of rolling samples (1-100). The default is 30 samples. For RoD and RoR, the average pressure value is then sampled again every 10 seconds (default). This is then compared to the value sampled 60 seconds before it. The sample period can be adjusted from 1-99 seconds. The rate of change is adjustable from 0.2 to 20 bar/min (0.02 to 2.0 MPa/min) for both the alarm and alert. For Low, High and Differential alarms and alerts, the averaged pressure value is sampled every 5 seconds (default) with the range being 1-99 seconds. Live Pressure Sampled every 10ms Average Pressure Rolling Sample Rate (1-100) Default – 30 samples RoD / RoR High / Low / Differential Average Pressure Sampling Rate (1-99s) Default – 10s Average Pressure Sampling Rate (1-99s) Default – 5s Last sample compared with sample taken 60s before it Alert is tripped Alarm is tripped if condition is retained for a set time (0-1800s) Default – 30s (RoD / RoR)
  • 4. 4 Asset Management Asset management data regarding the device and the valve can be stored including build data, tag numbers and valve information along with operational and service information. Datalogger The datalogger stores the configuration set-up, events, trends, status and alarms with up to 1000 events held in the memory. The position and various pressure values can also be continuously monitored and stored (if appropriate sensors are connected). The data can be viewed locally on the dot matrix display from pressure and position graphs through to statistical operational data. All data held is secure and can be downloaded using the Rotork Bluetooth® setting tool pro for viewing on a PC with Rotork Insight2 software. All configuration and datalog files are stored in non-volatile EEPROM memory, which means all settings are safe when the power is removed. An internal super capacitor is provided to maintain the real time clock (used to maintain the datalogger time) when the device is not powered for periods up to two weeks. The datalogger provides comprehensive data capture and analysis for planned maintenance and troubleshooting issues with the valve and processes. This includes, but is not limited to the following:  Event Log Alarms / Alerts PSD status PST results Local & remote commands Faults  Alarm Log One log per Alarm Alarms logged are RoR, RoD, High, Low and Differential Pressure  Trend Logs Pipeline pressure Mains supply Temperature Vibration  Partial Stroke Result Log Last 10 results  Operational logs Opening/Closing time Last Open/Close limit Max/Min temperature Max/Min mains supply voltage Typical Configuration
  • 5. 5 Design Specification Design Life The expected design life of the electronics is 10 years across the full operating temperature range if the requirements of this specification are met. This will be extended if the device is operated in temperatures less than +70°C. Vibration, Shock and Noise The ELB is suitable for applications where vibration and shock severity do not exceed the following: Type Level Plant induced vibration 1g RMS total for all vibration within the frequency range of 10 to 1,000 Hz. Shock 5g peak acceleration Seismic 2g acceleration over a frequency range of 1 to 50 Hz if it is to operate during and after the event. Emitted noise Tests have shown that at 1m generated noise does not exceed 70 db (A). Levels quoted are those present at the actuator mounting interface. It should be noted that the effects of vibration are cumulative and therefore a device subjected to significant levels may have a reduced lifespan. Where excessive plant induced vibration is anticipated, mounting the device remote from the valve may provide a satisfactory solution. Mounting Interface Maximum Weight is 9kg.
  • 6. 6 Certification Non-Hazardous & Hazardous areas Certification The ELB is watertight to IP66 / IP68 / NEMA Type 4 & 6. Through the use of non-intrusive commissioning, using the Rotork Bluetooth® Setting Tool Pro, covers do not need removed. In addition, the Rotork Bluetooth® Setting Tool Pro is certified Intrinsically Safe permitting power-on commissioning in hazardous areas. Devices are available with the following enclosure types for which the ambient working temperature ranges are stated. Where option temperatures are indicated, changes to some actuator components are required and therefore the temperature requirement must be specified. Hazardous area approvals for other country standards are available; please contact Rotork. The ELB is available in accordance with the following standards: Non-Hazardous Area (Watertight) Standard Rating Standard Option 1 BS EN 60529 (1992) IP66 / IP68 (7m for 72Hrs) -20°C to +70°C (-4°F to +158°F) -50°C to +70°C IEC 60529 (1989-11) IP66 / IP68 (7m for 72Hrs) Hazardous Area ATEX (Europe)* Code Enclosure Code Standard Option 1 ATEX II 2G c Ex db IIB T4 -20°C to +70°C (-4°F to +158°F) -50°C to +70°C (-58°F to +158°F) ATEX II 2G c Ex db IIC T4 -20°C to +70°C (-4°F to +158°F) -50°C to +70°C (-58°F to +158°F) IECEx (International)* Code Enclosure Code Standard Option 1 IECEx Ex db IIB T4 -20°C to +70°C (-4°F to +158°F) -50°C to +70°C (-58°F to +158°F) IECEx Ex db IIC T4 -20°C to +70°C (-4°F to +158°F) -50°C to +70°C (-58°F to +158°F) cCSAus – (Canada & USA)* Class / Zone Enclosure Code Standard Option 1 Class 1 / Zone 1 (A) Ex d IIB T4 -20°C to +70°C (-4°F to +158°F) -50°C to +70°C (-58°F to +158°F) Class 1 / Zone 1 (A) Ex d IIC T4 -20°C to +70°C (-4°F to +158°F) -50°C to +70°C (-58°F to +158°F) *The approvals above are pending and subject to change. Bluetooth® Setting Tool Pro Region Directive/Standard Rating Temperature Europe ATEXII1G Ex ia IIC T4 -30 to +50 °C (-22 to +122 °F) International IECEx Ex ia IIC T4 United States FM3610 Intrinsically Safe - Class I, Div. 1 Groups A, B ,C & D: T4 Canada CSA C22.2 No.157-92 Intrinsically Safe - Class I, Div. 1 Groups A, B ,C & D: T4
  • 7. 7 Regulatory Standards Compliance with the following European Union Directives permits the ELB to be CE marked under the provision of the Machinery Directive. Directive Applicable to Reference Electro-magnetic Compatibility (EMC) Immunity to/emissions of electromagnetic energy 2004/108/EC Low Voltage (LVD) Electrical Safety 2006/95/EC Machinery* Product Safety Actuators follow the provision of the Machinery Directive 2006/42/EC. They must not be put into service until the equipment into which it is being incorporated has been declared to be in conformity with the provisions of the European Community Machinery Directive 2006/42/EC. Waste Electrical &Electronic Equipment (WEEE) Exempt under the scope of the directive Federal Communications Commission Bluetooth® modules - actuator and Rotork Bluetooth® Setting Tool Pro. Contains FCC certified transmitter module. Refer to PUB002-039 for FCC ID. *This device is not classified as a machine within the scope of the machinery directive. Contact Rotork for a copy of our Declaration of Conformity and Incorporation Power, Control & Indication Power Supply The ELB is suitable for operation with the following power supply: Voltage Type Voltage DC 24 VDC - Nominal (Range is 9 – 36 VDC) The following supply is available for customer use: 24 VDC 15 W rated - device derived supply for remote control circuits and sensors. Power Consumption (Mains power) Power (W) Function 6.1 Standard Unit 5.0 Modbus Card 0.6 Limit Switch (assumes only one limit switch is closed at a time) 0.48 Pressure / Position Sensor (this is worst case value for each sensor connected) X Solenoid Valve (X = power rating stated by the manufacturer) Each solenoid valve is pulled in at full power, before going into coil save mode which reduces the power to hold it. Example Limit switches connected with two pressure sensors and one solenoid valve (10W each) being powered together with a coil save of 50%. Pull-in Power = 6.1 + 0.6 + 0.48 + 0.48 + 10 = 17.66W Holding Power = 6.1 + 0.6 + 0.48 + 0.48 + (10*(50/100)²) = 10.16W
  • 8. 8 Local Control, Indication & Set-up Non-intrusive selectors are provided on the electrical cover which also includes an LCD display showing the actuators position, status and alarms. The cover may be rotated through 360° (90° increments) to suit orientation/operator access. Set-up is over a Bluetooth® interface using the supplied Rotork Bluetooth® Setting Tool Pro. Local Controls (Standard) Operation Type Range Comments Position Red, rotary selector. Selects “Local”, “Stop” or “Remote” control. Can be padlocked in each position (stop remains available) for site operational protection. Local Control Black, rotary selector. Initiates local “Open” and “Close” operation. Spring to centre neutral position. Local control may be user configured for inching action. Bluetooth® Rotork Bluetooth® Setting Tool Pro. Initiates local “Open” and “Close” operation. May be user configured for Bluetooth® operation over a nominal distance of 10m (30ft). Local Indication (Standard) Operation Type Range Comments PositionIndication LCD – large character (25mm/1”). Close & Open icon. Position sensor not connected. Back-lit (power on) – operating temperature -50°C to +70°C (-58°F to +158°F). PositionIndication LCD – large character (25mm/1”). Close icon – 1-99% (0.1% increments) – Open icon. Position sensor connected. Back-lit (power on) – operating temperature -50°C to +70°C (-58°F to +158°F). PositionIndication Coloured indication LEDs. Red (close), Green (open) & Yellow (mid-travel). LED indication colours can be reversed. Mid-travel LED can be set to flash or indicate an alarm. Status andAlarm (multi-language) LCD – status and alarm text. Real time status and alarm text integrated into position display. Alarm icon is also displayed. Set-up (Standard) Setting Tool LCD displays Simple non-intrusive, interactive set-up procedure using supplied Rotork Bluetooth® Setting Tool Pro with read-back from LCD. Settings include limits, indication and control options. Settings may be password protected. PC Using the freely available Insight2 software, devices can be configured / analysed over Bluetooth® interface. Datalogging Standard on-board datalogger provides operational statistics, event logs and partial stroke test results. Device configuration and manufacturing data also available. Files can be downloaded direct to a PC or to Rotork Bluetooth® Setting Tool Pro (IS certified) for transport to office PC. Freeware Insight2 for PC is available to download at www.rotork.com Options Vandal resistant Lockable cover protects standard selectors and window.
  • 9. 9 Remote Control & Indication The ELB enables remote control and status indication of Gas over Oil, Hydraulic and Pneumatic actuators. The following actuator control and indication options are available to meet the requirements of various site control systems from simple manual push-button control, process shutdown (PSD) through to Distributed Control Systems (DCS) using hardwired switched signals or digital “bus” network systems. Remote Control (Standard) Operation Type Range Comments Open Close Maintain PartialStroke Positive switched 5 x opto-isolated inputs designed for pulsed or maintained contacts*. 20 - 60 VDC 40 - 120 VAC (min. 0.15 W / input) Device supplied 24 VDC or externally supplied from the control system. Minimum pulsed duration of 30ms. Limit switches are required for these functions to be available. ManualReset Device supplied 24 VDC or externally supplied from the control system. Minimum pulsed duration of 30ms. Process Shutdown (PSD) 1 x opto-isolated input designed for maintained contacts. Device supplied 24 VDC or externally supplied from the control system. This input can be re-mapped as an additional AND/OR Open or Close command. *Open, close, maintain, partial stroke and manual reset share the same common. Network Control (Optional) The ELB is available with the following network interface cards to enable remote control and indication using digital “bus” network systems communication to the Distributed Control Systems (DCS). Network Type Comments Modbus Modbus modules suitable for single or dual communication highways may be included in the device, to provide Fieldbus communication of all the control functions and feedback data. Data is carried on an RS485 data highway and the communications protocol used is Modbus RTU. System variables such as unit address and data baud rate are programmed over the Bluetooth® data link. For more information please refer to PUB091-001. Remote Indication (Standard) Operation Type Range Comments Indication Relays 2 x configurable volt free non-latching contacts - S1 & S2. Single pole - single throw (SPST), configurable NO or NC. 2A @ 24 VDC Independently configured using the Rotork Bluetooth® Setting Tool or Insight2 to signal one of the following: Valve Position: closed & open limit (if limit switches are connected). Status: local-stop / local / remote selected, temperature trip & partial stroke active / pass / fail. Control Alarms: PSD active, alarm reset active, voltage supply high / low. Process Alarms / Alerts: rate of pressure rise (ROR) / drop (ROD), high / low pressure, high differential pressure & stall. Device Alarms: loss of customer supply / HMI / Bluetooth®. General Alarm / Alert: includes all process alarms / alarms above. Alarm Relay 1 x volt free non- latching contact. Single pole - double throw (SPDT), configurable NO or NC. 2A @ 24 VDC This relay will be de-energised when the actuator is unavailable for remote control due to any one or more of the following conditions: PSD, process alarms (above) & Internal hardware fault. Monitor Relay 1 x volt free non- latching contact. Single pole - double throw (SPDT), configurable NO or NC. 2A @ 24 VDC This relay will be de-energised when the actuator is unavailable for remote control due to any one or more of the following conditions: Local control selected, local stop selected, loss of network communication & internal hardware fault.
  • 10. 10 Protection & Operating Features Feature Comments Set-up Simple non-intrusive, interactive set-up procedure using supplied Rotork Bluetooth® Setting Tool Pro with LCD display or Insight2. Settings include sensor calibration, alarm values, indication contacts and control options. Settings may be password protected. Setting tools are provided on a 1 for 10 device ratio, additional setting tools available on request. Drifting from limit If the actuator starts to drift away from a limit (limit switch de-activates without any command active), then the ELB will carry out the following action: If in Local or Stop, a Stop command will be issued and the user can then choose to move back to the limit. If in Remote, then an Open or Close command will be issued to move the actuator back to the limit. If the limit switch is not reached in the configured time then a Stall Alarm will be issued along with a Stop command. Datalogger Standard onboard datalogger provides hydraulic pressure, position and starts profiles, operational statistics, events log. Actuator configuration & manufacturing data is also available. Files can be downloaded directly to a PC or to the Rotork Bluetooth® Setting Tool Pro (IS certified) for transfer to a remote PC. Freeware Insight2 for PC is available to download at www.rotork.com Using Insight2; actuators may be configured and analysed over a Bluetooth® interface. Micro-controller Provides all control function logic, setup programming and allied system requirements. Software is field upgra deable for future enhancements. Memory All configured settings are stored in non-volatile EEPROM memory (does not require power). Connected Devices Inputs (Standard) Input Type Range Comments Open Limit Switch Close Limit Switch Partial Stroke Limit Switch 3 x non-isolated digital inputs, suitable for NO contacts. N/A Mechanical limit switches to be housed in a separate switchbox mounted directly to the actuator. If more than one limit switch is active at the same time then an alarm will be raised and its default action is to STOP. Sensor 1 (Pressure) Sensor 2 (Pressure) Sensor 3 (Position or Pressure) 3 x isolated analogue inputs (2 or 3 wire). 4 - 20 mA 0.5 - 4.5 VDC Sensor 1 – Monitors downstream pipeline pressure. Sensor 2 – Monitors downstream pipeline pressure to verify Sensor 1 is working correctly (redundancy), or monitors upstream pipeline pressure to enable differential pressure to be calculated. Sensor 3 – Monitors the cylinder pressure or position of the actuator. The 24V supply is rated to 3 W (or customer supply can be used). The 5V supply is rated to 0.5 W. Outputs (Standard) Output Range Comments 4 x Solenoid Valves 24 VDC ± 10% 20 W Max. per channel. The control logic for the solenoid valves can be configured for open, close, stop & PSD commands. Each solenoid valve can also be configured to switch to a low power mode once energised based on the type used.
  • 11. 11 Components Details of the major mechanical and electrical components are provided below: Materials Component Material Grade Finish ELB Housing Aluminium BS EN 1706 AC-42000 (LM25) ASTM B5 GRADE A360 Painted Fasteners Stainless Steel A4-80 (316) N/A Finish All finishes are tested in accordance with Rotork’s 1,000 hour cyclic salt spray test procedure which is the most realistic and arduous test cycle applicable. The test combines cyclic salt spray, drying and humidity at elevated temperatures on complete factory built devices. This tests the finish and the various substrate materials, fixings and interfaces that make up the ELB. Substrate materials and finishes are selected to provide maximum corrosion resistance combined with good adhesion. Standard Finish Two-pack epoxy (90 microns) Offshore Finish Two-pack epoxy (350 microns) Conduit / Cable Entries The enclosure is machined with conduit/cable entries as indicated below. Alternative adapters are available. Type Adapter Material Thread Standard N/A 5 x M25 x 1.5P Option 1 Nickel Plated Brass 5 x M20 x 1.5 P 5 x M32 x 1.5 P 5 x ½” NPT 5 x ¾” NPT 5 x 1” NPT 5 x 1-1/4” NPT Option 2 Stainless Steel (316) All devices are dispatched with transit plugs fitted into the conduit entries. It is the responsibility of the installer to ensure the appropriate cable/conduit adapters, cable glands and/or blanking plugs are fitted in order to maintain hazardous area certification and ingress protection levels. Certified adapters and blanking plugs are available as optional extras. Terminals The mains supply The enclosure for the mains supply takes the form of a separately sealed compartment containing a terminal block, which is suitable for AMP type ring crimps. Terminal screws and washers are supplied with the device. All other connections are made within the main enclosure using the supplied removable connectors which accept insulated pin crimps (Ø1.4mm). Each device is dispatched with a Safe Use and Installation Manual and wiring diagram.
  • 12. 12 Model code ELB Selection ELB – 0 1 – A B C Table A – Network Cards Table B – Operating Temperature Table C – Certification Table D – Cable Entries Table E - Accessories Table A - Network Cards Code Description 0 No Network card 2 Modbus Single channel 3 Modbus Dual channel Table B - Operating Temperature Code Description 0 -20°C to +70°C 1 -50°C to +70°C Table C - Certification Code Description A WT – Watertight IP66/68 B ATEX - IIB C ATEX - IIC D IECEx - IIB E IECEx - IIC F CSAUS - IIB G CSAUS - IIC H CSAC - IIB J CSAC - IIC K TR TS – IIB (Russia) L TR TS – IIC (Russia) Table D – Cable Entries Code Description A M25 x 1.5P (Standard) B M20 x 1.5P - Nickel plated adaptors C M20 x 1.5P - Stainless steel adaptors D M32 x 1.5P - Nickel plated adaptors E M32 x 1.5P - Stainless steel adaptors F 1/2" NPT - Nickel plated adaptors G 1/2" NPT - Stainless steel adaptors H 3/4" NPT - Nickel plated adaptors J 3/4" NPT - Stainless steel adaptors K 1" NPT - Nickel plated adaptors L 1" NPT - Stainless steel adaptors M 1-1/4" NPT - Nickel plated adaptors N 1-1/4" NPT - Stainless steel adaptors Table E - Accessories Code Description A Ex Cable entry Plugs-Nickel plated B Ex Cable entry Plugs- Stainless steel D Window Protector E Vandal proof Cover F Solar Shield G Coastal - Std Colour 180 microns H* Offshore - Std Colour 350 microns J Customer specific paint specification K Non-standard top coat colour change *For Ex d IIC certified devices, maximum paint thickness is 200 microns.
  • 13. PUB127-002-00 Issue 12/16 www.rotork.com Gearboxes and Gear Operators Precision Control Instruments Projects, Services and Retrofit Electric Actuators and Control Systems Fluid Power Actuators and Control Systems A full listing of the Rotork sales and service network is available on our website. Corporate Headquarters Rotork plc tel +44 (0)1225 733200 fax +44 (0)1225 333467 email mail@rotork.com As part of a process of on-going product development, Rotork reserves the right to amend and change specifications without prior notice. Published data may be subject to change. For the very latest version release, visit our website at www.rotork.com The name Rotork is a registered trademark. Rotork recognises all registered trademarks. Published and produced in the UK by Rotork Controls Limited.ROWMH/LC1216