This document provides information on functional safety solutions for solenoid valves from ASCO Numatics. It discusses the key components of a safety loop including the sensing element, logic solver and final element. It then describes single solenoid certified pilot valves, manual reset valves, and redundant pilot valves that can be used as the final element. The document also discusses safety systems like bypass panels, actuator control systems, and redundant control systems to integrate and monitor the components. It provides an overview of terminology used in functional safety and examples of redundant control system configurations.
Terminology, Control Valve Basic Designs, Characterization and Trim Design, Control Valve Technical Considerations, Force-Balance Principle, Actuator Basic Designs, Control Valve Unit Action, Actuator Benchset Range, Valve Positioner Basics, Control Loop Action, Control Valve Packing Designs, Seat Leakage
Terminology, Control Valve Basic Designs, Characterization and Trim Design, Control Valve Technical Considerations, Force-Balance Principle, Actuator Basic Designs, Control Valve Unit Action, Actuator Benchset Range, Valve Positioner Basics, Control Loop Action, Control Valve Packing Designs, Seat Leakage
This manual covers the basic guidelines and minimum requirements for
periodic inspection of heat exchangers used in petroleum refinery.
Locations to be inspected, inspection tools, frequency of inspection &
testing, locations prone to deterioration and causes, corrosion
mitigation, inspection and testing procedures have been specified in
the manual.
Documentation of observations & history of heat exchangers,
inspection checklist and recommended practices have also been
included.
Heat exchanging equipment is used for heating or cooling a fluid.
Individual heat transfer equipment is named as per its function.
Cooler
A cooler cools the process fluid, using water or air, with no change of
phase.
Chiller
A chiller uses a refrigerant to cool process fluid to a temperature below
that obtainable with water.
Condenser
A condenser condenses a vapour or mixture of vapours using water or
air.
Exchanger
An exchanger performs two functions in that it heats a cold process
fluid by recovering heat from a hot fluid, which it cools. None of the
transferred heat is lost.
In this day and age of automated computer control valve sizing, the logic and theories behind it are invisible. In his presentation, Al Holton of Allagash Valve & Controls will look at the basic principles that apply and how they affect the application and installation of a wide range of control valve types. He will also review the reasoning behind valve type selection.
Setpoint Integrated Solutions is an industry leader in applying Control Valve solutions across industry segments.
Brannon Gant - Regional Sales Manager
The One Series Safety Transmitter is a transmitter-switch for monitoring pressure or temperature and meets the requirements of SIL 2 for random integrity at HFT = 0, SIL 3 for random integrity at HFT = 1 and SIL 3 for systematic capability. The One Series Safety Transmitter incorporates UE’s patented IAW self diagnostics, redundant and diverse signal processing and software algorithms to detect abnormalities in the process and internal faults. The design is based on a powerful microprocessor that provides an extremely fast response time for emergency shutdown situations.
One Series Safety Transmitter - Pressure and Temperature Transmitter-SwitchMiller Energy, Inc.
The One Series Safety Transmitter simplifies installation, improves productivity, and eliminates nuisance trips. Sensor diagnostics with redundant data processing detect open, shorted, and plugged sensing elements.
This manual covers the basic guidelines and minimum requirements for
periodic inspection of heat exchangers used in petroleum refinery.
Locations to be inspected, inspection tools, frequency of inspection &
testing, locations prone to deterioration and causes, corrosion
mitigation, inspection and testing procedures have been specified in
the manual.
Documentation of observations & history of heat exchangers,
inspection checklist and recommended practices have also been
included.
Heat exchanging equipment is used for heating or cooling a fluid.
Individual heat transfer equipment is named as per its function.
Cooler
A cooler cools the process fluid, using water or air, with no change of
phase.
Chiller
A chiller uses a refrigerant to cool process fluid to a temperature below
that obtainable with water.
Condenser
A condenser condenses a vapour or mixture of vapours using water or
air.
Exchanger
An exchanger performs two functions in that it heats a cold process
fluid by recovering heat from a hot fluid, which it cools. None of the
transferred heat is lost.
In this day and age of automated computer control valve sizing, the logic and theories behind it are invisible. In his presentation, Al Holton of Allagash Valve & Controls will look at the basic principles that apply and how they affect the application and installation of a wide range of control valve types. He will also review the reasoning behind valve type selection.
Setpoint Integrated Solutions is an industry leader in applying Control Valve solutions across industry segments.
Brannon Gant - Regional Sales Manager
The One Series Safety Transmitter is a transmitter-switch for monitoring pressure or temperature and meets the requirements of SIL 2 for random integrity at HFT = 0, SIL 3 for random integrity at HFT = 1 and SIL 3 for systematic capability. The One Series Safety Transmitter incorporates UE’s patented IAW self diagnostics, redundant and diverse signal processing and software algorithms to detect abnormalities in the process and internal faults. The design is based on a powerful microprocessor that provides an extremely fast response time for emergency shutdown situations.
One Series Safety Transmitter - Pressure and Temperature Transmitter-SwitchMiller Energy, Inc.
The One Series Safety Transmitter simplifies installation, improves productivity, and eliminates nuisance trips. Sensor diagnostics with redundant data processing detect open, shorted, and plugged sensing elements.
Series One Safety Transmitter, Pressure and Temperature SwitchIves Equipment
The One Series Safety Transmitter is a transmitter-switch for monitoring pressure or temperature and meets the requirements of SIL 2 for random integrity at HFT = 0, SIL 3 for random integrity at HFT = 1 and SIL 3 for systematic capability. The One Series Safety Transmitter incorporates UE’s patented IAW self diagnostics, redundant and diverse signal processing and software algorithms to detect abnormalities in the process and internal faults. The design is based on a powerful microprocessor that provides an extremely fast response time for emergency shutdown situations.
The One Series Safety Transmitter was designed with features that simplify installation, improve productivity, and eliminate nuisance trips. “I Am Working” sensor diagnostics with redundant data processing detect open, shorted, and plugged sensing elements. The transmitter’s analog output conforms to the NAMUR NE 43 standard and provides process variable (PV) and detected-fault information. Discrete outputs provide a fail-safe (open) emergency shutdown when a fault is detected. Set point and deadband (reset point) are 100% programmable. The instrument is password protected to prevent unwanted parameter changes; eliminating the risk of tampering. In addition, LED backlighting enhances viewing of process variables, parameters, and status in dimly lit areas.
The One Series Safety Transmitter is a transmitter-switch for monitoring pressure or temperature and meets the requirements of SIL 2 for random integrity at HFT = 0, SIL 3 for random integrity at HFT = 1 and SIL 3 for systematic capability. The One Series Safety Transmitter incorporates UE’s patented IAW self diagnostics, redundant and diverse signal processing and
software algorithms to detect abnormalities in the process and internal faults. The design is based on a powerful microprocessor that provides an extremely fast response time for emergency shutdown situations.
Siemens ,
Catalog Thiết Bị Điện Siemens , Catalog Thiết Tự Động
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Chi tiết các sản phẩm khác của Siemens tại https://dienhathe.com
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MEA provides control systems and actuation solutions across several industrial sectors, including: in refining with FCCU Slide Valves, Coker Switch Valves, Wet Gas Compressors, MOV Gate Valves and Furnace Controls; in utilities with Boiler Fan Damper Actuators, Turbine Steam Emission Valves, Feed Water Control Valves and Turbine Bypass Valves; and in Steel Production with Edge Guide and Center Guide Systems.
This paper deals with the design of a shutdown controller for a Sphere tank in oil refinery using Programmable Logic Controller (PLC). PLCs are sequential control systems which are used to implement safety interlock system in industrial plants. The sphere tanks are used to store flammable products like LPG and must be isolated in case of fire or gas leakage PLC are switch type devices we, closing all the inlet and outlet (ROVs) valves. According to predefined conditions, the safety instruments located both at the field and at the console will function. This system also includes gas leakage detection. Keywords: Sphere, Programmable logic controller (PLC), shutdown, Liquefied Petroleum Gas (LPG), Remote Operating Valves (ROV).
Smarter, self-diagnostic digital safety switches for temperature, pressure, flow, and level eliminate some of the risks associated with mechanical or pneumatic actuated devices.
The Art of the Pitch: WordPress Relationships and SalesLaura Byrne
Clients don’t know what they don’t know. What web solutions are right for them? How does WordPress come into the picture? How do you make sure you understand scope and timeline? What do you do if sometime changes?
All these questions and more will be explored as we talk about matching clients’ needs with what your agency offers without pulling teeth or pulling your hair out. Practical tips, and strategies for successful relationship building that leads to closing the deal.
Elevating Tactical DDD Patterns Through Object CalisthenicsDorra BARTAGUIZ
After immersing yourself in the blue book and its red counterpart, attending DDD-focused conferences, and applying tactical patterns, you're left with a crucial question: How do I ensure my design is effective? Tactical patterns within Domain-Driven Design (DDD) serve as guiding principles for creating clear and manageable domain models. However, achieving success with these patterns requires additional guidance. Interestingly, we've observed that a set of constraints initially designed for training purposes remarkably aligns with effective pattern implementation, offering a more ‘mechanical’ approach. Let's explore together how Object Calisthenics can elevate the design of your tactical DDD patterns, offering concrete help for those venturing into DDD for the first time!
GDG Cloud Southlake #33: Boule & Rebala: Effective AppSec in SDLC using Deplo...James Anderson
Effective Application Security in Software Delivery lifecycle using Deployment Firewall and DBOM
The modern software delivery process (or the CI/CD process) includes many tools, distributed teams, open-source code, and cloud platforms. Constant focus on speed to release software to market, along with the traditional slow and manual security checks has caused gaps in continuous security as an important piece in the software supply chain. Today organizations feel more susceptible to external and internal cyber threats due to the vast attack surface in their applications supply chain and the lack of end-to-end governance and risk management.
The software team must secure its software delivery process to avoid vulnerability and security breaches. This needs to be achieved with existing tool chains and without extensive rework of the delivery processes. This talk will present strategies and techniques for providing visibility into the true risk of the existing vulnerabilities, preventing the introduction of security issues in the software, resolving vulnerabilities in production environments quickly, and capturing the deployment bill of materials (DBOM).
Speakers:
Bob Boule
Robert Boule is a technology enthusiast with PASSION for technology and making things work along with a knack for helping others understand how things work. He comes with around 20 years of solution engineering experience in application security, software continuous delivery, and SaaS platforms. He is known for his dynamic presentations in CI/CD and application security integrated in software delivery lifecycle.
Gopinath Rebala
Gopinath Rebala is the CTO of OpsMx, where he has overall responsibility for the machine learning and data processing architectures for Secure Software Delivery. Gopi also has a strong connection with our customers, leading design and architecture for strategic implementations. Gopi is a frequent speaker and well-known leader in continuous delivery and integrating security into software delivery.
DevOps and Testing slides at DASA ConnectKari Kakkonen
My and Rik Marselis slides at 30.5.2024 DASA Connect conference. We discuss about what is testing, then what is agile testing and finally what is Testing in DevOps. Finally we had lovely workshop with the participants trying to find out different ways to think about quality and testing in different parts of the DevOps infinity loop.
Connector Corner: Automate dynamic content and events by pushing a buttonDianaGray10
Here is something new! In our next Connector Corner webinar, we will demonstrate how you can use a single workflow to:
Create a campaign using Mailchimp with merge tags/fields
Send an interactive Slack channel message (using buttons)
Have the message received by managers and peers along with a test email for review
But there’s more:
In a second workflow supporting the same use case, you’ll see:
Your campaign sent to target colleagues for approval
If the “Approve” button is clicked, a Jira/Zendesk ticket is created for the marketing design team
But—if the “Reject” button is pushed, colleagues will be alerted via Slack message
Join us to learn more about this new, human-in-the-loop capability, brought to you by Integration Service connectors.
And...
Speakers:
Akshay Agnihotri, Product Manager
Charlie Greenberg, Host
Securing your Kubernetes cluster_ a step-by-step guide to success !KatiaHIMEUR1
Today, after several years of existence, an extremely active community and an ultra-dynamic ecosystem, Kubernetes has established itself as the de facto standard in container orchestration. Thanks to a wide range of managed services, it has never been so easy to set up a ready-to-use Kubernetes cluster.
However, this ease of use means that the subject of security in Kubernetes is often left for later, or even neglected. This exposes companies to significant risks.
In this talk, I'll show you step-by-step how to secure your Kubernetes cluster for greater peace of mind and reliability.
LF Energy Webinar: Electrical Grid Modelling and Simulation Through PowSyBl -...DanBrown980551
Do you want to learn how to model and simulate an electrical network from scratch in under an hour?
Then welcome to this PowSyBl workshop, hosted by Rte, the French Transmission System Operator (TSO)!
During the webinar, you will discover the PowSyBl ecosystem as well as handle and study an electrical network through an interactive Python notebook.
PowSyBl is an open source project hosted by LF Energy, which offers a comprehensive set of features for electrical grid modelling and simulation. Among other advanced features, PowSyBl provides:
- A fully editable and extendable library for grid component modelling;
- Visualization tools to display your network;
- Grid simulation tools, such as power flows, security analyses (with or without remedial actions) and sensitivity analyses;
The framework is mostly written in Java, with a Python binding so that Python developers can access PowSyBl functionalities as well.
What you will learn during the webinar:
- For beginners: discover PowSyBl's functionalities through a quick general presentation and the notebook, without needing any expert coding skills;
- For advanced developers: master the skills to efficiently apply PowSyBl functionalities to your real-world scenarios.
2. Safety is reality and is part of our daily business. The same applies to ASCO Numatics; it is reality and part of your safety. You can
rely on our focus on reliable products. Our solenoids in your process installation give you a higher degree of safety. The standards
IEC61508 and 61511 state: ‘Functional safety is part of the overall safety that depends on a system or equipment operating correctly
in response to its inputs.’ This applies not only to a new installation but continues over the full service life or ‘safety lifecycle’. With our
solenoid pilots for air operated safety valves we have created a new era. We have designed new hardware that makes your safety
management easier. Our improved products and new solutions offer you: ‘ease of installation’ and ‘simplicity in service’.
The safety loop
Final Element
The standard addresses a ‘dedicated independent layer’ of risk
The final element consists of a solenoid valve, an actuator and a
reduction by using electric, electronic or programmable electronic
process safety valve.
systems. A safety system in this context always consists of a sensing
element, logic solver and final element that measure, control and
Solenoid valves are an essential part in this section, they directly
act to bring the dangerous process in a safe state within a specified
control the on/off valve actuators. In normal operation, the solenoid
time.
is energised and open, activating the actuator. When the logic
solver is triggered, it de-energises the solenoid, which releases the
supply pressure to the actuator, causing the valve to move to its safe
Sensing Element
Logic Solver
Final Element
position. Safety is highly dependent on the reliability of the pilot
valve. This means that these solenoid valves need to be manufactured
to the highest quality standards and tested under the most severe
conditions.
Safety loop
The reliability of these systems is expressed as probability of failure
on demand (PFD) and depends on the equipment failure rates and
testing frequency. For this purpose components on which safety
depends are exposed to detailed failure mode and effect analysis
(FMEA). During the life of the safety system its performance
gradually degrades. Frequent testing of its functional behaviour is
required to maintain overall reliability. Obviously this applies to all
components on which safety depends, such as sensors, logic,
actuators and solenoids. If testing is made easy and the likelihood
of operational mistakes is reduced then both performance and
safety improves. This brochure describes solenoids and related
systems that fulfil these demands.
SIL3
le
Capab
TÜ V
ied
Certif
Exida
ied
Certif
Terminology
As in many sectors, functional safety also has its specific terminology. Although you may be an expert, we feel it is valuable to
agree upon a common use of terms. Each page has a brief list of abbreviations and terms that are used in this brochure.
2
3. Redundancy with pilot valves
Two pilot valves can be used to operate process or shutdown valves.
In this full redundancy mode either reliability or availability of the
final element can be increased depending on the piping
configuration. Reliability is related to the integrity of the safety loop
to perform its safety function, where availability is related to the
production to maintain its function. Two pilot valves connected in
series as shown in figure 1 are operated in a 1oo2 voting by the
logic solver. This increases the reliability (or PFD) of the system. At
the same time however, it decreases the availability. In a 1oo2
Figure 1
configuration (HFT = 1), two devices are used to perform one
function. If one component safely fails, then the system is tripped.
With two devices the likelihood of this happening increases.
In 2oo2 configuration, two pilot valves are connected in parallel as
shown in figure 2. The safety valve will still be pressurised if one is
de-energised. De-energising the second pilot valve will remove the
actuator pressure and the shutdown valve will operate. This
configuration is less sensitive for safe failures, reducing the number
of nuisance or spurious trips and increasing the availibility. However,
the reliability has gone down.
ASCO Numatics has a specific 2oo2 configuration, in which two
pilot valves are connected in parallel. One outlet port (2) however,
is connected to the release port (1) of the other, see figure 3. This
Figure 2
provides the same availability, but increases the reliability or
integrity of the final element.
Most redundant pilot valve installations do not provide indication of
safe failure of one of the valves. Generally, online maintenance and
testing of solenoid valves is difficult without shutting down the
process.
ASCO Numatics has re-engineered their solenoid valves to offer
higher reliability, easier installation and improved capability for
testing and diagnosis. In addition, new solutions have been
1
designed that cut engineering effort and greatly reduce the time for
installation and testing, particularly when using multiple devices for
redundant safety functions.
Figure 3
2
actuator | a mechanical device for moving or controlling a
availability | the degree to which a system or subsystem is in
dangerous failure | failure which has the potential to put
mechanism or system
a specified operable and committable state at the start of a
the safety instrumented system in a hazardous or
mission or task
fail-to-function state
3
4. Single solenoid certified pilot valves
Manual reset valves
Safety Solutions
ASCO Numatics has dedicated solutions to operate your safety valve with a high degree of integrity. We have three standard
types of safety products for basic installations: single pilot valves, manual reset valves and redundant (coil) pilot valves. For more
advanced installations, we have developed three different safety systems: bypass panels, actuator control systems and redundant
control systems.
Safety Products
1. Single SOLENOID pilot valves
2. Manual reset valves
ASCO 3-way and 5-way solenoids, series 126, 314, 316, 320, 327
When you need to manually engage the final control element of
and 551/552/553, are the most widely used solenoid pilot valves
your process system, ASCO Numatics has a lever or push button
in the process industry. For spring return actuator applications,
operated manual reset valve. These valves are designed with
these valves are proven in use and have undergone an independent
corrosion resistant materials and industrial strength components.
evaluation by TÜV and/or by Exida per IEC 61508 Parts 1 & 2.
ASCO Manual Reset Pilot Valves are a process industry standard
and are also available as tamper-proof.
All series are certified as capable for use in SIL 3 safety loops.
Individual pilot valves are most commonly used as a single device
These manual reset valves are available in two versions: electrically
(1oo1 voting). Two units can easily be piped in series or parallel to
tripped and no-voltage release. The first one works as follows: with
provide redundancy (1oo2 or 2oo2 voting). ASCO pilot valves are
the pilot valve solenoid de-energised, the handle is raised manually
used as the primary device for process valve actuation, as well as
and latches the operator in the ‘up’ (latched) position. Upon
the shutdown valves when used with (digital) valve positioners for
energising the pilot valve solenoid, the latch is tripped, returning the
control valve applications.
operator to the ‘down’ (unlatched) position. If auxiliary air supply to
the pilot valve is lost, then the main valve will shift position. The novoltage release version operates similarly but in reverse: upon loss
of voltage, the latch is tripped.
final element | part of a safety instrumented system,
logic solver | that portion of safety instrumented system
MooN voting (i.e. 1oo2 voting) | safety instrumented
which implements the physical action necessary to achieve a
that performs one or more logic function(s)
system, or part thereof, made up of ‘N’ independent
safe state
channels, which are so connected that ‘M’ channels are
sufficient to perform the safety instrumented function
4
5. Redundant Pilot Valves
Redundant Coil Pilot Valves
Bypass Panels
3. Redundant (Coil) Pilot Valves
To increase the integrity of the pilot valve
operation ASCO Numatics has designed a valve
construction that is operated with two independent
coils. Configured in 1oo2 voting, the safety valve is
operated if one of the two coils is de-energised. This 1oo2
configuration highly increases the reliability or integrity. Configured
in 2oo2 voting, both coils must be de-energised to return the
actuator/process valve to its non-operating position. Redundant coil
Safety systems
pilot valves in this 2oo2 configuration are used for high availability
applications. There are two coils (solenoid operators) that are
1. Bypass Panels
redundantly keeping the main solenoid valve in the energised
The normal use of solenoid valves in safety systems is a single pilot
position, which in turn keeps the actuator/process valve in its
valve connected to the actuator of a shutdown or process valve.
operating position.
Part of the safety lifecycle is testing and maintenance of the safety
systems. ASCO Bypass panels are designed to improve the way
that solenoids can be tested while maintaining the integrity of the
system. The panels provide manual testing of the solenoid valves
proof test | test performed to reveal undetected faults in
redundancy | use of multiple elements or systems to
reliability | the ability of a system or component to
a safety instrumented system so that, if necessary, the
perform the same function; redundancy can be
perform its required functions under stated conditions for a
system can be restored to its designed functionality
implemented by identical elements (identical redundancy)
specified period of time
or by diverse elements (diverse redundancy)
5
6. Redundant Control Systems (RCS)
Actuator Control Systems (ACS)
under operation by using a bypass valve. The proper operation of
an individual valve, include the ability to perform automatic online
the pilot valve can be verified visually and the state of the bypass
testing of the redundant solenoid valves, automatic partial stroke
valve is indicated. The valve can be replaced without removing the
testing of the process valve, and online maintenance capabilities.
air supply. The bypass panels greatly reduce the time required for
This product is built for high reliability applications and functional
maintenance. The panels can be used with the majority of the ASCO
safety. The redundant solenoids can operate in 1oo1 Hot Standby
Numatics solenoid valves and are mounted on a stainless steel
mode or in 2oo2 Diagnostic mode. Both modes of operation are
panel with (sun) shed. Many different configurations are available.
certified per IEC 61508 Parts 1 and 2 and are SIL 3 capable. A fully
equipped RCS has pressure switches on both the solenoid valves and
2. Actuator Control Systems (ACS)
on the air operated by-pass valve and has two isolation valves.
Connecting the components of an air controlled safety shutdown
valve always requires piping and fittings that are reliable and
RCS 1oo1 HS
durable. Filter regulator, one or more solenoids, relief and isolation
Only one solenoid valve is on-line during normal operation, while
valves; all need interconnection and mechanical support. ASCO
the second solenoid is in ‘hot-standby’. The solenoid trips in the
Numatics has developed special fittings that allows easy coupling
event of a coil failure, which is detected by the pressure switch.
of pneumatic parts with high flexibility, fixed distances, good
Then the second solenoid is automatically energised maintaining
reliability and robust support. The so-called Actuator Control System
pressure to the shutdown valve. This version offers high reliability at
(ACS) has inert mounting brackets for manifold support and versatile
the availability of a 2oo2 design.
branching ducts as pipe couplers. These provide a fixed width
between the components that do not depend on thread tolerances,
RCS 2oo2 D
and components can rotate and be mounted in a standard mounting
Both solenoids are energised during normal operation. The pressure
pattern without the use of slots.
switches that are connected to the solenoid valves are used as an
alarm in the case that one goes to a vent state when not commanded.
3. Redundant Control Systems (RCS)
To shut down the system, both solenoids need to be de-energised.
The ASCO RCS is a redundant pilot valve system that acts as a
This version provides high availability with the reliability of a 1oo1
single 3-way valve. The added features of this system, apart from
design.
risk | combination of the frequency of occurrence of harm
safe failure | failure which does not have the potential to
safety integrity level (SIL) | discrete level (one of four)
and the severity of that harm
put the safety instrumented system in a hazardous or
for specifying the safety integrity requirements of the safety
fail-to-function state
instrumented functions to be allocated to the safety
instrumented systems. Safety integrity level 4 has the highest
level of safety integrity; safety integrity level 1 has the lowest.
6
7. SOV1
Primary
SOV1
PS1
PS1
Air Supply
Air Supply
SOV2
Hot Standby
SOV2
PS2
PS2
PS3
vent
vent
PS3
Safety valve
ZSO
Safety valve
RCS 1oo1 HS
RCS 2oo2 D
Reset
Enter Catalog Number
5RC027BFQ4E2Z0C
View Details
To ensure that you are familiar with the RCS product line, we recommend that you read the RCS catalog prior to designing a product.
Design a Redundant Control System
ATEX Cert
* Indicates a required attribute
On board Diagnostic Processor
*
None
O&M Guide
View Safety Manual
* Closed
Normally
Configuration
Standard: 32˚F to 131˚F (0˚C to 55˚C)
View RCS Catalog
Information
Normally Open
Extended Temperature: -13˚F to 158˚F (-25˚C to 70˚C)
Double Acting
Enclosure
* Stainless SteelMaterial
304
*
12 VDC
316 Stainless Steel
24 VDC
De-Energized to Trip
Composite (Fiberglass)
48 VDC
1oo1HS De-Energized to Trip
120 VDC
2oo2 De-Energized to Trip
*
System Voltage
Operational Mode
Energized to Trip
120/60-110/50
24 VDC Intrinsically Safe
230/50-240/50
Optional Features
Common Alarm
Full Stroke Limit Switch
Modbus 485 Communication
Dual Power Sources
Local Initiation of Sov Test
Analog Input Module
Local Initiation of Partial Stroke Test
Two Analog Input Modules
Local Manual Reset
Cabinet Heater
Bypass Inidcation
Lever Type Bypass
Midstroke Limit Switch
Shutoff for Modulatd Control Valves
Silver Contacts for Relay Logic
No Bypass
SIL Certification
P
ATEX Certification
Additional Lights and Push Buttons
One Green Light
One Green & One Red Light
One Push Button
Two Green Lights
Two Green & One Red Light
Two Push Buttons
Three Green Lights
Three Green & One Red Light
Three Push Buttons
Four Green Lights
One Green & Two Red Lights
Four Push Buttons
One Red Light
One Green & Three Red Lights
Two Red Lights
Two Green & Two Red Lights
Three Red Lights
Four Red Lights
Enter Catalog Number
Reset
View Details
RCS Configurator
How can we help you?
ASCO Numatics simplified the RCS product selection process with
PLC) or 5LC (without PLC) catalogue number into the window next
an online catalogue number configurator. Once you have determined
to the Enter Catalogue Number button (CAPs only). The configurator
the needs, you can easily construct a catalogue number by clicking
automatically highlights the appropriate construction features.
on each feature and then clicking the View Details button. A second
screen appears, providing the product catalogue number, product
In order to use the online configurator, go to:
attributes, and various drawings. The configurator is programmed
www.ascovalve.com/RCSConfigurator
to accept only valid constructions.
You can also contact us by calling us or send us an e-mail with your
In addition to creating a catalogue number, the configurator can
questions.
also interpret a catalogue number for you. Type a valid 5RC (with
safety instrumented system (SIS) | instrumented
safety lifecycle | necessary activities involved in the
solenoid Pilot valve | an integrated device containing an
system used to implement one or more safety instrumented
implementation of safety instrumented function(s)
electrical coil and mechanism that converts energy into
functions. An SIS is composed of any combination of sensor
occurring during a period of time that starts at the concept
linear motion, in order to actuate an air operated valve
(s), logic solver (s), and final elements(s)
phase of a project and finishes when all of the safety
instrumented functions are no longer available for use
7
8. Tel: +44 (0)191 490 1547
Fax: +44 (0)191 477 5371
Email: northernsales@thorneandderrick.co.uk
Website: www.heattracing.co.uk
www.thorneanderrick.co.uk
131292-296 . 02/11
‘ASCO Numatics, global market leader in
solenoid valves, combines local presence
with functional safety expertise and solutions
to help you improve your process safety.’
www.asconumatics.eu