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Probing benefits

By Niranjan Mudholkar,

Added 10 July 2014

New ultra-compact radio transmission touch probes bring probing benefits to a wider range of CNC machine tools

Renishaw has introduced new touch probe systems that use its unique frequency hopping spread spectrum (FHSS) probe signal radio transmission technology to allow automated job set-up and in-process measurement on all sizes of CNC machine tools. The new ultra-compact RMP40 probe is especially suited to multi-axis and mill-turn applications, whilst its variant, the RLP40 touch probe, is specifically designed for more hostile turning environments. A transmission only module RMP40M is also being introduced.

The range of radio-based inspection probes already includes the RMP60 touch probe, and the high accuracy RMP600 probe with Renishaw's patented Rengage 3D strain gauge technology.

FHSS technology

Measuring just 40 mm in diameter and 50 mm long, the RMP40 probe system pairs the compactness of OMP40 optical transmission probe system with the robustness and versatility of the unique FHSS radio transmission. This combination means that the RMP40 is suited for use on all sizes of machine tools, particularly multi-axis and mill-turn applications in which line-of-sight between the inspection probe and its interface cannot always be maintained.

The RMP40's FHSS radio transmission is the same unique yet tried-and-trusted system used by Renishaw's existing RMP60 and RMP600 probes in thousands of applications worldwide. It pairs with the standard Radio Machine Interface (RMI) and utilises the 2.4GHz frequency band, allowing it to be ‘worldwide legal' so that machine tool builders and users can specify and operate the same types of probes wherever they are located. It also delivers unrivalled levels of robustness and flexibility through frequency diversity, whereby the probe and its interface continually hop from one transmission channel to another. This eliminates ‘dead spots' within the working environment and allows the system to avoid radio interference, both of which are common problems for other fixed-channel and non-hopping radio transmission inspection probes.