Transmitter Archives

Endress+Houser hygienic RTD thermometer

2nd March 2020/in Thermometer, Transmitter/by Mari-saba

iTHERM TM411 Endress+Houser hygienic RTD thermometer

Endress+Houser hygienic RTD thermometer has been designed to meet the requirements of the Food & Beverages and Life Sciences industries and complies with the highest quality standards. It offers a variety of versions within a clearly segmented standard product. The result: Time and cost savings by simple and fast product selection.

It offers many technical innovations: iTHERM QuickSens, StrongSens or QuickNeck. This leads to a distinctive reduction in maintenance costs, improved product quality, process efficiency, and safety.

What is Hygienic?

Hygiene is a central topic when it comes to industrial manufacturing and processing. Good hygiene conditions provide the best foundation for human health and a clean environment. The legal provisions, ordinances, and certifications created for this purpose should therefore not be conceived as an inconvenient obligation; instead, they give us a great chance to improve the quality of our own products and guarantee a maximum of consumer protection.

In numerous areas of industry, professional disinfection is, particularly of crucial importance. It often has a very immediate impact on the quality of the products manufactured or those subject to further processing. The effectiveness of the actions taken to reduce contaminations or hazards usually relies on the perfect interaction of disinfection products, disinfection technology, and consulting services.

Technical Specification of iTHERM TM411 Endress+Houser RTD thermometer

Specially designed for use in hygienic and aseptic applications in the Food & Beverages and Life Sciences industries
Measuring range: –200 to +600 °C (–328 to +1112 °F)
Pressure range up to 50 bar (725 psi)
Protection class: up to IP69K
Head transmitter
All Endress+Hauser transmitters are available with enhanced accuracy and reliability compared to directly wired sensors. Easy customizing by choosing one of the following outputs and communication protocols:
Analog output 4 to 20 mA, HART®
PROFIBUS® PA, FOUNDATION Fieldbus™

Benefits

User-friendly and reliable from product selection to maintenance
globally unique, automated production. Full traceability and consistently high product quality for reliable measured values
fastest response times (t90s: 1.5 s) for optimum process control
unsurpassed vibration resistance (> 60g) for ultimate plant safety
iTHERM QuickNeck – cost and time savings thanks to simple, tool-free recalibration
316L terminal head for easier handling and lower installation and maintenance costs, and with a highest IP69K rating
International certification: explosion protection e.g. ATEX/IECEx and in compliance with hygiene standards according to 3-A®, EHEDG, ASME BPE, FDA, TSE Certificate of Suitability

Technical Data

Pressure transmitter for hygienic pressure Krohne

26th December 2019/0 Comments/in Transmitter/by Mari-saba

Pressure transmitter for hygienic pressure Krohne

The OPTIBAR P 2010 is an ultra-compact pressure transmitter with flush diaphragm for hygienic pressure and level applications in the food and beverage as well as in the pharmaceutical industry. It is perfectly suited for front-flush and aseptic installation.

The versatile pressure and level transmitter provide a repeatable measuring signal that is stable over the long term, even with regular SIP/CIP cleaning cycles, while simultaneously guaranteeing a high degree of chemical resistance to process and cleaning solutions.

The modular design of the OPTIBAR P 2010 allows combining a wide range of fully welded process connections with a variety of filling media and electrical connections so as to accommodate virtually any hygienic requirement. Optional cooling fins can be added to handle continuous process temperatures up to +300°C / +572°F.

Product highlights

Fully welded hygienic design with a surface roughness of Ra <0.4 μm
Suitable for SIP (Sterilisation In Place) and CIP (Cleaning In Place)
3A certified process connections
Extraordinary accuracy of ±0.25%
Outstanding temperature stability
Long-term stability: ±0.1%/year (uncertainty)
Modular design: a free combination of device options such as electrical connections, diaphragm material, fill oil, measuring range, process connections
Ingress protection up to IP68 / NEMA 6P
ATEX/IECEx intrinsically safe approval for Zone 0

Typical applications

General

Absolute and gauge pressure measurement, without cavities, in gases and liquids
Hygienic level measurement of liquids

Food, beverage and pharmaceutical industries

Viscous and crystallizing media
General sterile process technology

Water industry

Level measurement in drinking water tanks

Industries

Food & Beverage
Pharmaceutical industry
Viscous and crystallizing media
General sterile process technology

Industrial Hygiene

Industrial hygiene is the science of protecting and enhancing the health and safety of people at work and in their communities. Health and safety hazards cover a wide range of chemical, physical, biological and ergonomic stressors. Those dedicated to anticipating, recognizing, evaluating and controlling those hazards are known as Industrial Hygienists. They are professionals dedicated to the well-being of people – at work, at home, and in the community.

The term “industrial hygiene” gained popularity in the early 1900s with the formation of the Industrial Hygiene Section of the American Public Health Association. Since there were few “industrial hygienists”, organizations began to use their Scientists (e.g. chemists, toxicologists, physicians, engineers) to evaluate and improve the health of the work environment, largely with a focus on chemical and noise hazards. The term industrial hygiene is still in use although it’s application and scope have expanded greatly since that time period to all hazards, industries, workers, families, and the communities. Today, there are other terms that essentially mean the same thing as industrial hygiene, e.g., Occupational Hygiene, Occupational Health, Environment, Health & Safety (EHS).

Vortex Flow Meters Rosemount

26th December 2019/0 Comments/in Flow Meter, Transmitter/by Mari-saba

Vortex Flow Meters Rosemount

Vortex Flow Meters Rosemount offers many advantages for flow measurement including easy installation without impulse lines, no moving parts to maintain or repair, less leak potential and a wide flow turndown range. Vortex meters also offer very low power consumption, allowing for use in remote areas.

Additionally, Vortex meters are unique in that they can accommodate liquids, gasses, steam, and corrosive applications. Vortex flowmeters are also able to withstand high process pressures and temperatures.

Rosemount 8800 Series Vortex Flow Meters offer world-class reliability with a gasket-free, non-clog meter body that eliminates potential leak points, resulting in maximum process availability and fewer unscheduled shutdowns. The unique design of Emerson’s Rosemount 8800 Vortex Flow Meters features isolated sensors that eliminate the need to break process seals for flow and temperature sensor replacement.

What is the Vortex flow meter?

A vortex flow meter is a flow measurement device best suited for flow measurements where the introduction of moving parts presents problems. They are available in industrial grade, brass or all-plastic construction. Sensitivity to variations in the process conditions is low and no moving parts have relatively low wear compared to other types of flow meters.

Vortex flowmeters operate under the vortex shedding principle, where an oscillating vortexes occur when a fluid such as water flow past a bluff (as opposed to streamlined) body. The frequency that the vortexes are shed depends on the size and shape of the body. It is ideal for applications where low maintenance costs are important. Industrial size vortex meters are custom built and require appropriate sizing for specific applications.

Flow Meter Accuracy

± 0.65% of volumetric rate for liquids
± 1% of volumetric rate for gas and steam
± 0.70% of mass flow rate in water using MultiVariable option
± 2% of mass flow in steam using MultiVariable optio

Turndown

38:1

Output

4-20 mA with HART® 5 or 7
4-20 mA with HART® 5 or 7 and Scalable Pulse Output
FOUNDATION; Fieldbus ITK6 with 2 Analog Input blocks, 1 Backup Link Active Scheduler function block, and 1 Integrator function block

Wetted Material

Stainless Steel – 316/316L and CF3M
Nickel Alloy – C-22 and CW2M
High Temp Carbon Steel – A105 and WCB
Low Temp Carbon Steel – LF2 and LCC
Duplex UNS S32760 and 6A
Consult factory for other wetted material

Flange Options

ANSI Class 150 to 1500
DIN PN 10 to PN 160
JIS 10K to 40K
Flanges are available in a variety of facings
Consult factory for additional flange ratings

Operating Temperatures

-330°F to 842°F (-200°C to 450°C)

Line Size

Flanged: ½-in to 12-in (15 to 300 mm)
Wafer: ½-in to 8-in (15 to 200 mm)
Dual: ½-in to 12-in (15 to 300 mm)
Reducer: 1-in to 14-in (25 to 350 mm)

Features

An isolated sensor allows for inline replacement without breaking the process seal
Increase plant availability and eliminate potential leak points with a unique gasket-free meter body design
Eliminate downtime and maintenance costs associated with plugged impulse lines with a non-clog meter body design
Achieve vibration immunity with a mass balanced sensor and Adaptive Digital Signal Processing with visual filtering
A standard internal signal generator included in every meter simplifies electronics verification
All meters arrive pre-configured and hydrostatically tested, making them ready and easy to install
Simplify SIS compliance with available dual and quad Vortex flowmeters
Detect liquid to gas phase change using Smart Fluid Diagnostics

Pressure transmitter WIKA model SA-11

14th November 2019/0 Comments/in Sensor, Transmitter/by Mari-saba

Pressure transmitter WIKA model SA-11

The Pressure transmitter WIKA model SA-11 is designed especially for the requirements of the food and beverage, pharmaceutical and biotechnology industries.

It is particularly suitable for the special conditions of CIP/SIP cleaning processes, such as chemical stability towards cleaning liquids and high temperatures.

The flush diaphragm is directly welded to the process connection. This guarantees a crevice-free connection of the process connection and the measuring cell so that additional sealings are not required. For dead-space free instrumentation, aseptic process connections (clamp, threaded, VARIVENT ® and NEUMO®) are available.

The SA-11 pressure transmitter is ideally suited to fulfill the stringent demands of sanitary applications and is EHEDG certified. Furthermore, the SA-11 is marked with the 3-A symbol and current version number, as it conforms, based on a third-party verification, to the 3-A standard.

Design

A diaphragm made of 1.4435 stainless steel forms a flush separation of the process medium from the pressure measuring instrument.

The process pressure is transmitted hydrostatically from the diaphragm, via an FDA-approved system fill fluid, to a piezo-resistive sensor.

The measuring range covers 0 … 250 mbar up to 0 … 25 bar.

The SA-11 pressure transmitter is powered with a DC voltage of 10 (14) … 30 V. Available electronic output signals are 4 … 20 mA, 0 … 20 mA or 0 … 10 V output.

A stainless steel case with an ingress protection of up to IP 68 offers secure protection for external cleaning with splashed water and enables its use in high-humidity environments. Through the integrated cooling section, process temperatures of up to 150 °C can be realized.

Applications

For gases, compressed air, vapor, liquids, pastes and powdery media
Ultra-pure steam systems for SIP
Hydrostatic level measurement:
Vacuum pressure monitoring, e.g. vacuum conveyors, pump monitoring
Food and beverage manufacturing, pharmaceutical industry, biotechnology, sanitary applications

Technical Features

Measuring range

0.25 – 0.4 – 0.6 – 1 – 2.5 – 4 – 6 – 10 – 16 – 25 Bar

Material

wetted parts: Stainless steel 1.4435
Case: Stainless steel 1.4571

Output signal

4 … 20 mA, 2-wire
0 … 20 mA, 3-wire

Permissible temperature ranges

Medium

-20 … +150

Ambient

-20 … +80

Storage

-40 … +100

Data Sheet

Ultra-high purity transducer WIKA

30th September 2019/0 Comments/in Transmitter/by Mari-saba

Ultra-high purity transducer WIKA

The WUD-2x series Ultra-high purity transducer WIKA combine state-of-the-art transducer concepts with analogue output signals. Thus the safest and most accurate pressure measurements necessary for today’s market requirements are provided.

Pressure measurement, based on a true vacuum reference, and electronic measures for interference shielding and signal noise cancellation ensure high-accuracy pressure measurement and excellent long-term stability.

Active temperature compensation reduces the impact of changing temperatures on the transducer, allowing safe operations even in applications with high fluctuations in temperature, e.g. Joule-Thomson effect in the case of gas expansion.

WUD-25 (flow-through) and WUD-26 (surface mount)transducers are specifically designed to sustain torsion applied stresses often incurred during installation. The special design of the thin-film sensor eliminates the risk of sensor failure due to loads at the process connection or welded joints.

Versatile

The WUD-2x can be readily installed in “on-tool” gas distribution systems. The bright LED display is rotatable and easy to read from any position.

Application-specific monitoring and control operations can be realized via two programmable switch outputs.

Compact

With its small footprint the WUD-2x is the most compact UHP transducer in the market. Thus it is optimally suited for installation in applications with limited mounting space, and even in existing plants, it can be easily retrofitted.

Applications

Semiconductor, flat panel display, and photovoltaic industry
Ultrapure gas supply in semiconductor production systems

Specifications

Measuring range

WUD-20, WUD-25, WUD-26:

2 – 4 – 7 – 11 – 17

WUD-20, WUD-25:

25 – 36 – 70 – 100 – 145 – 225 – 360
Absolute pressure: 0 … 2 bar to 0 … 60 bar
Vacuum pressure: -1 … 1 bar to -1 … 250 bar

Measuring principle

Metal thin-film sensor

Wetted

Process connection: 316L stainless steel, according to SEMI F20 (option: 316L VIM/VAR) Sensor: 2.4711 / UNS R30003

Case

Lower body: 304 SS
Plastic components: PC/PBT
Keyboard: TPE
Display window: PC

Surface

finish Electropolished, typical Ra ≤ 0.13 µm (RA 5); max. Ra ≤ 0.18 µm (RA 7), per SEMI F19

Power supply U+

DC 10 … 30 V (with output signal 4 … 20 mA and DC 0 … 5 V)
DC 14 … 30 V (with output signal DC 0 … 10 V)

Output signal and maximum load

4 … 20 mA, 3-wire, RA ≤ (U+ – 10 V) / 0.02 A
DC 0 … 5 V, 3-wire, RA > 5 kΩ
DC 0 … 10 V, 3-wire, RA > 10 kΩ

Permissible temperature

Medium -20 … +100 °C [-4 … +212 °F]
Ambient -10 … +60 °C [14 … +140 °F]
Storage -10 … +60 °C [14 … +140 °F]

Data Sheet

Head mount temperature transmitter KROHNE

23rd September 2019/0 Comments/in Thermometer, Transmitter/by Mari-saba

Head mount temperature transmitter Krohne

Head mount temperature transmitter KROHNE transform a temperature signal acquired from a Pt100, Pt1000 (TX401 only) or Ni100 RTD sensor or from a thermocouple (TX402 only) into a 2-wire 4 to 20 mA or 0…10 V signal output.

OPTITEMP TT 53 C

The OPTITEMP TT 53 C is a universal, programmable, 2-wire head-mounted temperature transmitter. The galvanically isolated transmitter works with RTD elements, thermocouple (TC) elements or other inputs (mV and Ω). It supports wireless Near Field Communication (NFC) as well as Bluetooth^® communication. The OPTITEMP TT 53 C transmitter can thus be remotely configured and monitored using mobile devices.

Featuring HART^®7 communication, the transmitter also offers extended diagnostic information (for example device error, sensor, and wiring conditions). In addition, it is able to measure the actual supply voltage as well as the ambient temperature while making them available via HART^®. The maximum values are stored internally. The robust design of the OPTITEMP TT 53 C makes the transmitter highly reliable even under harsh environmental conditions. The temperature transmitter is available for use in hazardous areas. It is designed to be mounted in a “B connection head”. A dedicated rail-mounted version for DIN rails is available with the OPTITEMP TT 53 R.

Product category

Head-mounted temperature transmitter

Alternative product categories

Hockey-puck transmitter, In-head temperature transmitter

Galvanic isolation (VAC)

1500 VAC

Transmitter input

Potentiometer (Ω), Resistance (RTD), Thermocouple (TC), Voltage (mV)

RTD input

Cu10, Ni100, Ni1000, Ni120, Ni50, Pt100, Pt1000, Pt50

RTD input / wiring

2-wire, 3-wire, 4-wire

TC Input

B, C, D, E, J, K, N, R, S, T

Potentiometer input (Ω)

100…10000 Ω

Voltage input (mV)

-10…+1000 mV

Transmitter programmable

Yes

Configuration method

Bluetooth^®, HART handheld, NFC (Near Field Communication), PC/ ConSoft software

Power supply (VDC)

10…36 VDC/10…30 VDC (Ex)

Ambient temperature

-40…+85°C/-40…+185°F

Diagnostic functions

Sensor break detection, Sensor short circuit detection

Digital outputs

HART^®

Analog outputs

20…4 mA, 4…20 mA

Data Sheet

Honeywell Pressure Switch

2nd September 2019/0 Comments/in Pressure Gauge, Transmitter/by Mari-saba

Pressure Switch

A pressure switch is a mechanical device that relies on air pressure to control the operation of an electric air compressor. This simple mechanism completes the circuit and allows power to the motor as long as system pressure is below a specified setting. All of the pressure switches used on our air compressors include a pressure switch relief valve which relieves head and line pressure, allowing for easier starts.

Honeywell Pressure Switch

Rely on Honeywell pressure switches to perform in critical applications that experience performance spikes and other extreme conditions. These switches sense a change in the pressure and open or close an electrical circuit when the designated set point is reached.

Honeywell HP Series

Honeywell HP Series pressure switches are easily customizable, durable, reliable electromechanical pressure on/off switches. They boast the following specifications:

100 psi to 4500 psi set point range (factory set)
Silver and gold contacts
10,000 psi proof pressure (base style a); 6,500 psi proof pressure (base style b)
2 million life cycle (base style a); 1 million life cycle (base style b)
SPDT, SPST-NO/NC
Easily configurable
Smart Diagnostic Technology option
Hysteresis option
Numerous ports & terminations

Honeywell HE Series

Honeywell’s HE Series pressure switches are easily customizable, durable, reliable electromechanical pressure on/off switches. They boast the following specifications:

150 psi to 4500 psi set point range (factory set)
Silver contacts
10,000 psi proof pressure
1 million life cycle
SPDT, SPST-NO/NC
Easily configurable
Smart Diagnostic Technology option
Hysteresis option
Numerous ports & terminations

Honeywell MH Series

Honeywell’s MH Series pressure switches are easily customizable, durable, reliable electromechanical pressure on/off switches. They boast the following specifications:

Pressure switching setpoint range: 3.5 psi to 4500 psi
Proof pressure: from 500 psi up to 10,000 psi
Burst pressure: from 1250 psi up to 20,000 psi
Life cycle rating up to 2 million
IP67 sealing rating
Operating temperature: -40 °C to 120 °C [-40 °F to 248 °F]
Hysteresis option
More than 15 pressure port options and over 30 electrical terminations
Plated steel, brass or stainless steel options
Switching point accuracy up to ±2 %

Honeywell ME Series

Honeywell’s ME Series pressure switches are easily customizable, durable, reliable electromechanical pressure on/off switches. They boast the following specifications:

25 psi to 350 psi setpoint range
Gold contacts
Factory set or field adjustable
4,000 psi proof pressure
1 million life cycle
SPDT, SPST-NO/NC
Smart Diagnostic Technology option
Easily configurable
Numerous ports & terminations

Honeywell LP Series

Honeywell’s LP Series pressure switches are easily customizable, durable, reliable electromechanical pressure on/off switches. They boast the following specifications:

3.5 psi to 150 psi set point range (factory set or field adjustable)
Gold contacts
500 psi proof pressure
2 million life cycle
SPDT, SPST-NO/NC
Smart Diagnostic Technology option
Easily configurable
Hysteresis option
Numerous ports & terminations

Honeywell’s LE Series

Honeywell’s LE Series pressure switches are easily customizable, durable, reliable electromechanical pressure on/off switches. They boast the following specifications:

3.5 psi to 150 psi set point range (factory set or field adjustable)
Gold contacts
500 psi proof pressure
1 million life cycle
Smart Diagnostic Technology option
SPDT, SPST-NO/NC
Easily configurable
Numerous ports & terminations

Honeywell’s 5000 Series

Honeywell’s 5000 Series pressure switch is specifically designed to stand up to extended duty applications. This switch is factory set but capable of field adjustment. It features a Kapton diaphragm for compatibility with a wide variety of fluids and various terminations including a Metri-Pack connector that forms a tight seal when connected. Among the outstanding design, benefits are its durable construction, compact size, and enhanced set point integrity.

APPLICATIONS

Agricultural machinery
Heavy-duty construction machinery and trucks
Lawn & garden machinery
Marine vessels
Material handling machinery
Railway
CNC machines
Compressors/boilers
Fracking equipment
Food & beverage equipment
Generators
HVAC/R equipment
Mud pumps
Pneumatic equipment
Presses/punches
Pressure washers
Trash compactors
Water pumps & jet cutting machines

FEATURES

Pressure switching setpoint range: 3.5 psi to 4500 psi
Proof pressure: from 500 psi up to 10,000 psi
Burst pressure: from 1250 psi up to 20,000 psi
Life cycle rating up to 2 million
IP67 sealing rating4
Operating temperature: -40 °C to 120 °C [-40 °F to 248 °F]
Hysteresis option5
More than 15 pressure port options and over 30 electrical terminations
Plated steel, brass or stainless steel options3
Switching point accuracy up to ±2 %

Superior Pressure Transmitter S20 WIKA

8th August 2019/0 Comments/in Transmitter/by Mari-saba

Superior pressure transmitter model S20 WIKA

A pressure sensor (pressure transmitter) converts the physical quantity ‘pressure’ into an industry-standard signal. WIKA portfolio covers a wide spectrum of pressure sensors: for refrigeration and air-conditioning applications, the food industry, mobile working machines, medical gases, and the semiconductor industry. WIKA pressure sensors offer accuracies starting from 0.05 %, measuring ranges from 20inWc … 200,000 psi, digital interfaces such as CANopen and IO-Link, multiple international approvals, hazardous areas.

Superior Pressure Transmitter S20 WIKA

The model S-20 pressure transmitter for general industrial applications is the ideal solution for customers with demanding measuring requirements.

It features a very good accuracy, a robust design and an exceptional number of variants, meaning it can be suited to the widest range of applications. Versatile The model S-20 offers continuous measuring ranges between 0 … 10 to 0 … 20,000 psi (0 … 0.4 and 0 … 1,600 bar) in all the major units.

These measuring ranges can be combined in almost any way with all the standard industry output signals, the most common international process connections and a wide number of electrical connections. Furthermore, it offers numerous options, such as different accuracy classes, extended temperature ranges and customer-specific pin assignments. High quality The robust design turns the model S-20 into a very high-quality product, which even the most adverse environmental conditions cannot affect. Whether with the lowest temperatures when used outdoors, with extreme shock and vibration in machine building or with aggressive media in the chemical industry, this transmitter can meet all requirements. Availability All variants described in this data sheet are available on very short lead times. For particularly urgent demands, there is a sizeable stock available.

Applications

Critical industrial applications
Demanding applications in research and development
Harsh environments in the process industry

Measuring ranges

Gauge pressure (Bar)

0 … 0.4 / 0 … 0.6 / 0 … 1 / 0 … 1.6 / 0 … 2.5 / 0 … 4 / 0 … 6 / 0 … 10 / 0 … 16 / 0 … 25 / 0 … 40 / 0 … 60 / 0 … 100 / 0 … 160 / 0 … 250 / 0 … 400 / 0 … 600 / 0 … 1000 / 0 … 1600

Absolute pressure (Bar)

0 … 0.4 / 0 … 0.6 / 0 … 1 / 0 … 1.6 / 0 … 2.5 / 0 … 4 / 0 … 6 / 0 … 10 / 0 … 16 / 0 … 25 / 0 … 40

Vacuum and +/- measuring range (Bar)

-0.4 … 0 / -0.6 … 0 / -1 … 0 / -1 … +0.6 / -1 … +1.5 / -1 … +3 / -1 … +5 / -1 … +9 / -1 … +15 / -1 … +24 / -1 … +39 / -1 … +59

Output signal

Current (2-wire)

4 … 20 mA

Voltage (3-wire)

DC 0 … 10 V
DC 0 … 5 V
DC 1 … 5 V
DC 0.5 … 4.5 V
DC 1 … 6 V

Ratiometric (3-wire)

DC 0.5 … 4.5 V

Power supply

Maximum power supply for cULus approval: DC 35 V (DC 32 V with heavy-duty connector)

Overpressure limit

The overpressure limit is based on the sensor element used. Depending on the selected process connection and sealing, restrictions in overpressure safety can result. A higher overpressure limit will result in a higher temperature error

Data Sheet

Rosemount Temperature Transmitter

15th June 2019/0 Comments/in Thermometer, Transmitter/by Mari-saba

Rosemount Temperature Transmitter

A temperature transmitter is an electrical instrument that interfaces a temperature gauge – such as a thermocouple, RTD, or thermistor – to a measurement or control device, such as a PLC, DCS, PC, loop controller, data logger, display or recorder.

Typically, temperature transmitters isolate, amplify, filter noise, linearize, and convert the input signal from the sensor then send (transmit) a standardized output signal to the control device. Common electrical output signals used in manufacturing plants are 4-20mA or 0-10V DC ranges. For example, 4mA could represent 0°C and 20mA means 100°C.

Rosemount 3144P Temperature Transmitter

The Rosemount 3144P Temperature Transmitter provides industry-leading accuracy, stability, and reliability for your temperature measurements. It features a dual-compartment housing to ensure reliability and advanced diagnostics to keep your measurement point up and running.

When combined with Rosemount X-well^™ Technology and the Rosemount 0085 Pipe Clamp sensor, this transmitter can provide accurate measurement of process temperature, eliminating the need for a thermowell or process penetration.

The industry-leading Rosemount 3144P Single Point Temperature Transmitter delivers unmatched field reliability and innovative process measurement solutions and diagnostics Transmitter features include:

Temperature measurement assembly with Rosemount X-well Technology (option code PT)
Dual and single sensor input capabilities
Transmitter-sensor matching (option code C2)
Integral transient protector (option code T1)
IEC 61508 Safety Certificate of Compliance (option code QT)
Advanced sensor and process diagnostics (option codes D01 and DA1)
Large, easy to read LCD display (option code M5)
“Assemble to Sensor” option (option code XA)

technical specification

Material

Aluminum
Stainless steel

Connection Size

½–14-in. NPT
M20 x 1,5 (CM20)
PG 13.5 (PG11)
JIS G ½

Transmitter output

4—20 mA with a digital signal based on HART Protocol
FOUNDATION Fieldbus digital signal (includes three AI function block and backup link active scheduler)

Measurement Configuration

Single-sensor input
Dual-sensor input

Display

The large LCD display with percent range graph and buttons/switchesDiagnostics

Calibration Options

Transmitter-sensor matching (Callendar-Van Dusen constants), custom trim

Certifications/Approvals

SIL 2/3 certified to IEC 61508 by an independent 3rd party, hazardous location, marine type, see full specs for a complete list of certifications

Data Sheet

Differential Pressure Transmitter ABB

28th May 2019/0 Comments/in Transmitter/by Mari-saba

Differential Pressure Transmitter ABB

The Differential Pressure Transmitter ABB offers a broad variety of communication possibilities. Another highlight of 266DSH ABB sensors is the measurement accuracy of up to 0.025 %.

266DSH is the differential pressure transmitter featuring standard DP-Style design. Characterized by long stability and high performance, this pressure transmitter represents ABB commitment to satisfying Customer needs.

This transmitter features an in-field replaceable electronics module that thanks to the auto-configuration functionality dramatically improves plant productivity. Its intuitive plug-and-play display with easy setup procedure really helps users by saving time and lowering maintenance and inventory costs. Moreover, the innovative TTG (Through The Glass) technology allow users to configure the instruments in the field without removing the windowed front cover and consequently to save a lot of time setting all parameters by using the fingertips in few minutes.

In addition, 266DSH features Plugged Impulse Line Detection as a standard helping customer in detecting when the impulse line is going to be plugged. This is real predictive maintenance.

SIL2/SIL3 certification issued by TÜV Nord according to IEC 61508 represents another key-feature within 266 pressure transmitter portfolio. This certification is a real guarantee of protection and makes of 266DSH the smartest fit in Safety-critical loops.

266DSH features WirelessHART communication protocol allowing the addition of pressure measurement points throughout your operation. You can now monitor hard-to-reach locations and keep your employees out of dangerous and hazardous areas. The 266 WirelessHART Pressure Transmitters have a battery life of about 10 years at 32-sec update rates, delivering a very cost-effective and reliable solution to monitor your process assets.

Shorten installation times by eliminating complex wired infrastructures, and lower overall implementation costs of process measurement, with ABB wireless devices featuring WirelessHART communications – Measurement made easy.

Technical Specification

Base accuracy: from ±0.06%
Span limits: 0.05 to 16000kPa; 0.2 … 2320 psi
Multiple protocol availability
provides integration with HART®, PROFIBUS PA and FOUNDATION Fieldbus platforms offering interchangeability and transmitter upgrade capabilities
Full compliance with PED Category III