 |
| New system allows wireless transmission of measuring data & power from wheel to on-board electronics |
21 April 2006 - Kistler Instruments
In addition to the tried-and-tested, in-board telemetry data transmission unit (signal/energy supply and angle measurement), Kistler now offers an out-board transmission system Type 5248A with System 2000 technology. |
|
|
| New, simplfied connection technology with many benefits when used in multi-cavity molds |
21 April 2006 - Kistler Instruments
Kistler has introduced a new, simplfied connection technology with many benefits when used in multi-cavity molds. With the new multi-channel cable technology, between one and four or one and eight sensors can be connected with one single cable running from the mold to the monitoring system. |
|
|
| 2-Component Sensor for Measuring Force and Torque |
21 April 2006 - Kistler Instruments
The space available for precision instruments to carry out sophisticated force and torque measurements on assembling and testing machines is usually very restricted. Thus, in applications such as monitoring screw-driving processes or testing the operation of combined push and turn switches or threaded fasteners, the top priorities are compactness and ease of installation. The Kistler solution is a small 2-component sensor that measures both force and torque, thus eliminating the need for two separate sensors. |
|
|
| PSA Peugeot-Citroen S.A. has decided to upgrade its crash centre with a Kistler SmartCrash barrier |
21 April 2006 - Kistler Instruments
After Audi and BMW, PSA is the third European automobile manufacturer to opt for this system since its market launch in 2004. With its ultra-dynamic quartz measurement technology and integrated data processing, SmartCrash is the last word in multicomponent force measurement systems for crash barrier instrumentation. Its MICRODAU architecture and intelligent hub design ensure ease of service, as well as safe and reliable operation. The equipment is scheduled to go into operation in the summer of 2006. |
|
|
| Ultra-Sensitive Sensor to Measure the Smallest Tensile and Compressive Forces |
21 April 2006 - Kistler Instruments
Precision measurement needs a sensor capable of delivering accurate and reliable readings of minute tensile and compression forces not only under laboratory conditions but also in the far tougher world of testing in industrial practice. |
|
|
| Force and torque sensors for monitoring production, assembly and testing processes |
21 April 2006 - Kistler Instruments
In the new application catalog 'Force and Torque Sensors for Monitoring Production, Assembly and Testing Processes' Kistler presents its product portfolio of sensors, systems and accessories and the areas of application for piezoelectric force and torque measurement in assembly and testing processes. |
|
|
| New temperature conditioning unit for water-cooled pressure sensors |
21 April 2006 - Kistler Instruments
The new Kistler Type 2621E system is used for temperature conditioning of water-cooled pressure sensors and ensures constant thermal conditions in the measuring element, irrespective of the varying operating conditions of the combustion engine. |
|
|
| Complete product-line mold-cavity pressure and temperature sensors |
21 April 2006 - Kistler Instruments
With the market launch of its new 1 mm temperature sensor, Kistler now offers a complete product line for measuring mold cavity pressure and temperature in the molded component. |
|
|
| Optimised cooling of injection mould tools cuts costs |
16 December 2004 - Kistler Instruments
A new system that automatically determines the optimum residual cooling time for injection moulding tools, developed by Kistler Instruments, can reduce cycle time by 20%, producing typical cost savings of £35,000 per annum per machine. |
|
|
| Automatic optimisation of mould residual cooling time
|
28 October 2004 - Kistler Instruments
Kistler has developed a completely new technique based on the mould cavity pressure and the surface temperature of the moulded product which can automatically determine the residual cooling time, making unnecessary the empirical setting of the injection-moulding machine or the use of a cooling time formula. |
|
