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New Range of Rotary Torque Transducers

Thursday, November 17th, 2011

DRDL Dual Range Rotary Torque Sensor Applied Measurements are pleased to announce exclusive UK distribution of a new range of brushless rotary torque transducers from German manufacturer ETH Messtechnik. ETH were chosen for the very high performance capabilities and exemplary quality of their torque sensors which will compliment our own existing range of rotary and static types.

Initially we have introduced five torque sensors to our range, here is a brief summary of each model:

DRBK – A compact and low cost shaft type torque sensor available with capacities from 0-5Nm up to 0-1000Nm, maximum speeds up to 22,000rpm and a ±5Vdc conditioned output signal. A pulsed speed/RPM output is optional.

DRFL – A compact, high performance shaft type torque sensor with an accuracy class of ±0.1%/rated capacity. Capacities available range from 0-0.05Nm up to 0-20,000Nm with maximum speeds up to 37,000rpm. Torque output is ±10Vdc with optional pulsed speed and angle outputs available if required.

DRFN – A square drive type torque sensor suited to torque tool testing, automotive assembly and manufacturing applications. Square drives are to DIN 3121, capacities range from 0-0.5Nm to 0-5000Nm and torque output is ±5Vdc. A pulsed angle output is optional with rotational speeds up to 12,000rpm possible.

DRDL – A dual-range shaft type torque sensor with rated capacities from 0-0.5 to 0-1500Nm available. The second measuring range is factory-set to anywhere from ½ to 1/10 of the primary measuring range (rated capacity), i.e. Range 1 = 0-2Nm, Range 2 = 0-0.2Nm. An electrical output of ±10Vdc per range is provided as standard with pulsed speed or angle outputs optional.

DRWPL – A shaft type IP67-rated waterproof torque sensor designed for use in harsh operating environments where dust, dirt, moisture and water are present, it can even withstand short-term immersion! Rated capacities range from 0-0.1Nm up to 0-1500Nm with a ±10Vdc output provided as standard with pulsed speed or angle outputs optional. This unit offers superb accuracy of
<±0.1%/rated capacity along with maximum rotation speeds up to 20,000rpm.

Standard or customised couplings can be offered to suit all of the above torque sensors ensuring simple integration into your system whilst maintaining maximum performance. Associated monitoring and control instrumentation can also be supplied calibrated and configured with your chosen sensor as a complete torque measurment system.

Contact our expert sales team to discuss your application today either by phone (+44 (0) 1189 817339), email, or via our online web enquiry form.

Posted in Product News, Torque Sensors | No Comments »

Rotary Wireless Torque Transducers Use Battery-Powered 2.4GHz Telemetry

Tuesday, October 5th, 2010

Applied Measurements are proud to introduce the DTDR-F rotary wireless torque transducer, a novel design that expunges stator coils and inductive transmission systems from the design brief in favour of a cutting edge, battery-powered 2.4GHz wireless telemetry data acquisition and transmission system.

The DTDR-F design is based on the DTD-F torque transducer, a flanged device designed for use in static and quasi-static torque measurement applications, with modifications to allow the incorporation of a pair of balanced Delrin housings, one containing the telemetry acquisition and transmission module and the other containing a 3.6V high capacity lithium-ion (Li-Ion) battery that is recharged in-situ.

The DTDR-F is intended primarily for use in rotating applications at speeds of up 6500rpm where a direct, in-line torque measurement is desired, but is prohibited due to access restrictions or other obstacles. In these cases, the lack of connecting cables and additional mounting hardware make the DTDR-F the ideal choice. The DTDR-F is, of course, also suited to static or quasi-static applications where reaction torque sensing is required.

The T24-SA telemetry acquisition and transmission module is taken from the T24 range of wireless telemetry products and offers extremely low power consumption and a range of up to 120m. The superb power supply control capability of the T24 acquisition modules allows you to achieve a battery life of 650 hours / 27 days based on continuous use at a transmission rate of 1 per second. Reduce the transmission rate to 1 per minute and you’ll be looking at a battery life of 1 year!

As the DTDR-F’s wireless torque transducer’s output is not polled, it is possible to have multiple receiving modules from the T24 range reading the data simultaneously. The T24 range includes handheld indicators, analogue output modules, printers, relay modules and even USB base stations with software to read and log data onto a PC.

One existing installation of the DTDR-F features a scaled 4-20mA signal being fed into a PLC via the T24-AO1i analogue output module whilst plant engineers can take torque readings on demand from anywhere nearby using a T24-HS handheld digital indicator.

The DTDR-F can also be used for dynamic torque measurement applications if fitted with the high speed T24-SAf acquisition module, which increases the output bandwidth to 2kHz (2000 readings per second).

Contact our sales engineers on +44 (0)1189 817339 or via info@appmeas.co.uk to discuss your requirement in detail.

Links

Posted in Product News, Torque Sensors, Wireless Telemetry | No Comments »

High Accuracy Displacement Sensors Use Strain Gauge Technology

Wednesday, April 14th, 2010

As a result of increased demand from customers preferring to use a strain gauge based measuring system, we have introduced a 0–100mm version to our range of high accuracy displacement transducers.

Based on a four-arm Wheatstone-Bridge design with a nominal impedance of 350 Ohms, the design ensures excellent non-linearity, low power consumption and excellent temperature stability. Additionally, the characteristics of strain gauge based sensors provide higher accuracy linear sensing than that of less accurate and lower resolution LVDT sensors.

These advantages of our high accuracy displacement sensors have been realised by Oxfordshire based company Fugro GeoConsulting Limited, who use the existing 0-50mm version of the sensors within their accredited geotechnical soil-testing laboratory. This high-tech establishment tests soil samples in order to predict how they will behave when subject to the stresses and loads that planned new buildings will place on them. The lab has worked on many major projects including some of the world’s tallest buildings, biggest bridges and countless oil & gas rigs and wind turbine sites. The loads being simulated in the lab include the varying effects of wind, wave, tide and earthquake action, as well as the dead weight of the building itself. The sensors are used (together with submersible load cells, also from Applied Measurements) to accurately monitor small changes in the dimensions of the samples as tests progress.

Fugro’s Laboratory Manager, Roger Brown, said “We test soil samples from all over the world and considerable time and effort is spent retrieving them from varied and often challenging locations, for example from the seabed at deep water locations in the Atlantic Ocean and as such, each sample is unique and expensive to collect. In addition, some tests can take several weeks to perform. The lab gets one shot only at each test and hence we need confidence in the testing equipment so that the results can be relied upon”. Because these sensors operate at similar voltage levels and produce output signals compatible with other commonly used strain gauge sensors such as load cells and pressure transducers, they can easily form part of the same measurement chain in one central instrumentation system.

The AML/SGD high accuracy displacement sensors operate on low cost DC strain indicators or digital voltmeters, whereas standard LVDT transducers require conversion of the signals to achieve the same level of compatibility. The simplicity of this type of measurement requiring no further processing of the basic signal, can make this type of test or measurement significantly more attractive to a user.

Additionally, strain gauge based displacement transducers exhibit typical non-linearity errors of a quarter of that of typical LVDT’s. As with other strain gauge devices, the resolution is infinite and strain sensitivity is constant with a stabilized input voltage between 1.5Vdc and 15Vdc.

The range of AML-SGD displacement sensors are precision assemblies contained within a rugged stainless steel outer casing. The internal construction of the AML/SGD transducer ensures a smooth, virtually frictionless movement of the inner core, resulting in high overall accuracy of <±0.1% on 0-5mm, 0-10mm and 0-25mm models, <±0.15% on the 0-50mm model and <±0.25% on the 0-100mm model.

The return force of the spindle is maintained at a minimum level for effective operation when installed upside-down, without having to attach the spindle to the subject. This makes the sensor less intrusive to the application when measuring on soft or pliable materials. The sensors are designed for long life and excellent mechanical reliability, hence the 3-year manufacturing warranty offered. This is evidenced by existing applications where these transducers have passed 14 million cycles in normal operation. And unlike some LVDT transducers, the AML/SGD product is completely serviceable by the manufacturer in the event of damage in use.

Any transducer device would be quite useless without means of providing appropriate supply voltage and output signal and this is often a significant part of any data acquisition programme. The AML/SGD range of high accuracy displacement sensors ensure these costs remain at a minimum, by utilising strain gauge signal inputs of existing data acquisition equipment. In this way, these displacement sensors limit expenditure to the cost of the sensor only, thus eliminating further capital outlay on dedicated instrumentation.

However these advantages would be of no use if this combination of user benefits meant extended lead times. As such it is the policy of Applied Measurements to keep most standard ranges in stock, meaning that the payback period is shorter and the benefits can be realised sooner.

Compact, rugged and easy-to-install, AML/SGD high accuracy displacement transducers are used by industries such as R&D, machine builders, automotive, marine and geotechnical. The total cost of ownership of instrumentation is now more relevant than ever for these industries and improvements in the versatility of sensors that allow their use with simple DC signal conditioning is but one method of spreading the life costs.

For more information on the range of AML/SGD range of high accuracy displacement transducers please see the AML/SGD Product Page or PDF Datasheet. Alternatively, please call us 0118 981 7339 or send an email to: info@appmeas.co.uk

Posted in Application Stories, Displacement & Position Sensors, Product News | No Comments »

Custom Torque Sensors Now Available on Standard Lead Times

Wednesday, July 1st, 2009

A UK manufacturer of torque sensors is offering custom designed static/reaction torque transducers on similar lead times to its standard units, with only a small premium on the standard list price.

Applied Measurements Ltd, based in Aldermaston, is able to design and manufacture custom torque sensors to meet any customer requirement, including different flange diameters, unusual sizes of square drive, special sealed versions and shorter, more compact designs.

According to Peter Lewis, Managing Director at Applied Measurements: “Many manufactured products require fatigue testing to ensure that they can operate for a guaranteed minimum period of time. An accelerated life test, for example, may be carried out on a drive shaft to determine the torque limits. The fatigue testing can sometimes be an afterthought. If this is the case, some kind of customised sensor is then required before the torque sensor can be coupled to the test unit. This is what Applied Measurements specialises in.”

Whilst Lewis concedes that there are plenty of companies able and willing to supply static (reaction) torque sensors from their standard range, many do not offer customised designs, let alone on lead times that are similar to standard product.

Applied Measurements manufactures two types of static torque sensor as standard, a square drive mounting type and a flange mounted unit. The DTD-S square drive mounting sensor is designed specifically for measuring direct torque and is ideal for use in the calibration or testing of torque tools (screwdrivers, spanners, etc) in a quality assurance and inspection environments. The sensor is constructed from stainless steel and is protected to IP65. For fast, easy connection, the sensor is supplied with an integral, robust bayonet lock military connector. The DTD-S is available from 10Nm up to 50,000Nm as standard, with custom versions rated to 200,000Nm.

The DTD-F range of flange mounting static torque sensors are also designed to measure direct torque, but are ideally suited to fatigue test applications. Again, the units are finished in stainless steel and are protected to IP65. The sensor is provided with an integral, robust bayonet ‘lemo’ connector for fast, easy connection.

As Lewis continues: “The flange mounting sensors are normally used in applications where there are two mating faces, one driving or applying the torque and the other resisting the torque. For any torque sensor to work, there has to be a reaction or load to generate the resistance to motion and hence torque.”

“While we offer customers a range of standard torque sensors, we also have the ability to design and manufacture custom torque sensors, where the standard unit does not suit the application. It could be the size and shape of the sensor that needs changing, but could also include the need for odd size ranges that fall between the standard increments.”

Lewis says this could include making the sensor longer, shorter, broader, or with different flange diameters and thicknesses. Units with different hole spacing or with an odd size of square drive may be requested. As an alternative to the square drive unit, Applied has also custom designed round shaft units with keyways. By creating a tubular design and applying the gauges internally, it is possible to create high integrity sealed units for wet environments. Other custom torque sensor designs have included two-axis measurement of combined force and torque, pressure-compensated models or complete submersion units.

Applied Measurements has supplied custom static torque sensors to a variety of customers and industry sectors, including aerospace, marine, oil and gas, robotics, machine building and plastic moulding machines.

Applied Measurements’ full range of static torque sensors can be seen here. Alternatively, please call the sales department on 0118 981 7339 or email: info@appmeas.co.uk.

Posted in Customised Sensors, Product News, Torque Sensors | No Comments »

Custom Load, Pressure, Torque and Displacement Sensors for Machine Builders

Friday, May 1st, 2009

By providing custom design services for its range of load cells, torque sensors, pressure transducers and displacement sensors, Applied Measurements Limited is helping machine builders and systems integrators to reduce lead times, cut costs and improve quality.

“Despite the current economic downturn, we have grown our sales revenues by more than 30 per cent over the last three years,” says Peter Lewis, Managing Director at Applied Measurements Limited. “A major part of this growth is coming from our custom design service for our products, which include load cells, torque sensors, displacement sensors and pressure transducers. We are supplying one-off designs, pre-production prototypes, high volume specials, direct competitor equivalents, as well as modifying or strain gauging existing components.”

According to Lewis, many of Applied Measurements’ global customers now request custom designs on as fast a lead time as possible. “Rather than trying to make existing, standard catalogue sensors ‘fit’ their application, customers now seem to want custom solutions delivered in as short a time frame as possible. After all, there seems little point in offering a custom design service for your sensor if the lead time doubles as a result. Customers simply won’t wait that long. In most cases, we can deliver a custom solution – including concept design, engineering, production and calibration if required – in just six to eight weeks from customer order.”

In a tough economic climate, says Lewis, Applied Measurements has recognised that this ability to meet a customer’s exact design requirements on a competitive lead time, has given the company a clear edge on its competitors.

”Our design service not only includes the ability to design new custom sensors,” says Lewis, “but also includes manufacturing direct equivalents to existing competitor products, as well as retrofit versions that the competitor may have ceased to produce. It can also include the bonding of strain gauges to metal structures or housings provided by the customer and then completing these into a finished, certified and tested product.”

Machine builders and systems integrators often need to upgrade a machine for the end user, to include new electronics or instrumentation, from older mechanical gauges or dials. As Lewis states: “In this age of accountability, it is important to have sensors that are connected to the appropriate instrumentation, including PCs that log and record the measurement data, providing traceability for the end user. In these types of applications, there are usually physical restrictions that also need to be overcome, as the customer is likely to want minimal disruption to the original machine. This is where our ability to fit in with the existing design is a big advantage to the customer. Our combination of mechanical and electronics design capability also helps here.”

Many machine builders need their systems to measure in more than one axis at a time. For this, Applied can design two or three-axis force sensors, with a variation on this when customers want a sensor to combine two measurements, such as force and torque, or force and acceleration.

The aim of the custom design service is to provide customers with a solution that exactly fits their measurement requirements under the constraints of cost, size, environmental conditions, general performance specification and availability. As Lewis puts it: “An incorrectly chosen transducer to fulfill a particular measurement application costs considerable time and money if it is eventually discovered that the data being collected is meaningless, or that the transducer is performing incorrectly due to overloading or poor installation.”

“Our experienced application engineers will talk through the measurement requirements with the customer in order to determine the most appropriate solution. This typically includes discussions on the measurement range required; dynamic transient effects; space restrictions; accuracy levels; and whether there are any unusual environmental conditions to consider.”

For more information on Applied Measurements’ custom engineered solutions please contact our sales department on 0118 981 7339 or send an e-mail to info@appmeas.co.uk.

Posted in Customised Sensors, Displacement & Position Sensors, Level & Depth Sensors, Load Cells & Force Sensors, Pressure Sensors, Product News, Torque Sensors | No Comments »

New Range of Strain Gauge Based Displacement Transducers

Wednesday, April 15th, 2009

AML/SGD Strain Gauge Displacement Transducer Applied Measurements is pleased to announce the introduction of a new range of strain gauge based displacement transducers, the AML/SGD Series.

It is now available with stroke lengths of 0-5mm, 0-10mm, 0-25mm and 0-50mm. The accuracy offered is +/-0.1% up to 25mm and +/-0.15% above 25mm, plus excellent long term and thermal stability. They require a stabilised dc voltage excitation anywhere between 2 and 10 volts and return a high level millivolt signal proportional to the position of the plunger.

The AML/SGD Series are constructed using a rugged stainless steel tubular housing containing a spindle guide bearing and spring return mechanism. A light spring force ensures a minimal effect on the application and enables inverted operation when required. Precision construction guarantees a long service life with superb mechanical reliability.

The AML/SGD Series are suitable for a broad range of applications in Research and Development, Industrial, Aerospace, Civil Engineering and Automotive. Being strain gauge based they are compatible with a wide range of analogue and digital monitoring, control and acquisition equipment found in both laboratory and field environments.

Posted in Displacement & Position Sensors, Product News | No Comments »

Bolt-On Retrofit Sensors for High Capacity Weighing Systems

Wednesday, October 5th, 2005

boss-f-200x200 The BOSS series of bolt-on strain sensors from Applied Measurements provide a very cost effective solution for many high capacity weighing requirements such as on large tanks and silos, as well as finding application in overload protection systems on cranes, winches, lifts and presses.

The sensors are designed to be attached directly to steel structures and are capable of detecting tensile, compressive and bending stresses.

Utilizing the latest strain gauge technology, each sensor is manufactured from specifically selected high grade alloy steel with thermal coefficients of expansion matched to structural steel. Unlike some competitive units each sensor is temperature cycled and compensated to minimize the effects of temperature variation.

For installation, each unit is supplied with a template to which the two threaded mounting blocks are attached using high tensile bolts. The mounting blocks are welded in position and the bolt-on sensor then attached in place of the template.

The sensors are fully encapsulated to ensure complete protection from all but the very harshest of environments.

Click here to visit our main Bolt-On Sensing page

Posted in Load Cells & Force Sensors, Product News, Weighing | No Comments »

Custom Load Pins Designed To Suit Your Needs

Wednesday, January 5th, 2005

dbep-200x200 The DBEP series load pins are available in a standard range of capacities and sizes to show the overall scope of this product. As the majority of applications require specific dimensions we can quickly and easily design and manufacture custom load pins to meet individual needs. This can be achieved without the normal high cost and long delivery associated with custom load pin manufacture.

Options for our custom load pin designs include; load ratings from 0-500kg up to 0-1500 tonnes, sealed to IP68 or subsea, built in amplifiers (analogue or digital), bi-directional operation, dual strain gauge bridges, X-Y force measurement, temperature ranges from –20ºC to +70ºC, while Stainless Steel construction is standard.

Our custom load pins can be supplied as a pin by itself or complete with shackle, Applied Measurements can also offer a wide range of digital displays or loggers to offer a complete monitoring system.

Click here to view our main load pin page

Posted in Customised Sensors, Load Cells & Force Sensors, Product News | No Comments »

Digiforce Strikes A Chord at Bison Concrete

Monday, March 8th, 2004

digiforce-150x150 Bison is the UK’s leading producer of structural, precast concrete products. Consistent, quality control is vital to maintain the company’s position at the forefront of the sector.

Bison is particularly renowned for prestressed elements, including hollow-core floors, solid composite floors and beams. Integral to the durability and structural performance of these products is the correct tensioning of the prestressing steel tendons. There are approximately 30 tendons in the average 1200mm-wide hollow-core floor slab. These may be up to 160m in length.

The tendon carrier precedes the casting hopper. It lifts the tendons to the required depth in the slab so that sufficient concrete cover is achieved during casting.

The tensioning equipment must be tested on a regular basis, but current methods are cumbersome and time-consuming to use. Accuracy is very much dependent on the skill of the operator.

The unique Digiforce developed jointly by TMS Systems, and Applied Measurements has enabled Bison to achieve rapid, highly repeatable, non-contact tension measurement using the latest technology incorporated into their new Digiforce non-contact tension meter.

The Digiforce non-contact tension meter operates on the principle that when a tensioned cable or wire is struck it vibrates at a frequency relative to its tensile stress. These vibrations interfere with the magnetic field created by the Digiforce and, via unique software, allow accurate force measurements to be made.

The Digiforce non-contact tension meter is quick and easy to use. Only two inputs are required – the tendon length and the weight in grams per metre. As the measurement is taken, a reading in KiloNewtons is digitally displayed. The values can be saved in the internal datalogger and downloaded for quality control purposes.

The Digiforce tension meter is supplied in a robust carry case with a bush hammer for creating resonance and ferrous clips for non-magnetic tendons. Lookup tables from which to calculate the weights of various types of tendons, cables or strands are also included. It is also resistant to shocks and rated to IP65 (waterproof).

Click here to visit the main Digiforce section

Bison Concrete can be contacted on 01283 495000 or via their website, www.bison.co.uk

Posted in Application Stories, Load Cells & Force Sensors, Product News | No Comments »

New Compact Load Cell Measures up to 300 tonnes in Tension or Compression

Monday, December 1st, 2003

dbcl-200x200 Even though the new DBCL compact load cell from Applied Measurements is a small design, it has the capability of measuring up to 300 tonnes in tension and compression.

Its design with either male or female threads at each end of the body make the DBCL compact load cell ideal for measuring tension in ranges from 0-1 to 0-300 tons. For higher capacity requirements we can produce larger custom models rated to 1500 tonnes and beyond.

The compact load cell design will suit many applications including offshore, construction, building and testing fields.

The DBCL has a robust stainless steel construction with O-ring sealing to IP67 for use in harsh environments, together with a fully submersible IP68 version available for use at depth in both potable water and sea water.

With an overall accuracy of 0.2% and calibration traceable to UKAS, the DBCL compact load cell will accept overloads of up to 300% of rated load and is available with either integral cable or connector. To create a complete compact load measurement or control system, Applied Measurements also offer a comprehensive range of analogue amplifiers and digital displays to suit a variety of engineering applications.

Click here to view the DBCL load cell product page

Posted in Load Cells & Force Sensors, Product News | No Comments »