A measurement device and a measurement interface having a radio communications module

1 . A measurement device, comprising a measurement sensor for generating metrology data and a frequency hopping radio communications module for transmitting and receiving a radio signal over a plurality of frequency channels, the frequency hopping radio communications module comprising a clock for defining a series of base time intervals, and a memory for storing a hopping pattern describing a sequence of frequency channels, wherein the communications module is operable in at least a first mode, a second mode and a third mode, operation in the first mode comprises transmitting and/or receiving data using a series of frames having a first frame time, the first frame time being equal to or an integer multiple of the base time interval, operation in the second mode comprises transmitting and/or receiving data using a series of frames having a second frame time, the second frame time being an integer multiple of the first frame time, operation in the third mode comprises transmitting and/or receiving data using a series of frames having a third frame time, the third frame time being an integer multiple of the second frame time, and each successive base time interval is associated with a successive frequency channel of the hopping pattern sequence, each frame using the frequency channel associated with the base time interval that occurs at the start of that frame. 2 . A measurement device according to claim 1 , wherein the first frame time is equal to the base time interval. 3 . A measurement device according to claim 1 , wherein the second frame time is equal to M times the base time interval, where M=2 N and N is an integer of one or more. 4 . A measurement device according to claim 1 , wherein the second frame time is twice the base time interval. 5 . A measurement device according to claim 1 , wherein the third frame time is quadruple the base time interval. 6 . A measurement device according to claim 1 , wherein the base time interval is at least 0.25 ms. 7 . A measurement device according to claim 1 , wherein the first mode is used for standby communications of non-metrology data. 8 . A measurement device according to claim 1 , wherein the second mode is used for the communication of touch trigger data. 9 . A measurement device according to claim 1 , wherein the third mode is used for the communication of analogue probe data. 10 . A measurement device according to claim 1 , where the measurement sensor comprises at least one of a touch trigger sensor, a scanning sensor, an ultrasound sensor and an imaging sensor. 11 . A measurement interface for communicating with a measurement device according to claim 1 , the measurement interface comprising an output for passing the measurement data received from the measurement device to an associated machine tool. 12 . A measurement interface according to claim 11 , comprising a frequency hopping radio communications module for transmitting and receiving a radio signal over a plurality of frequency channels, the frequency hopping radio communications module comprising a clock for defining a series of base time intervals, and a memory for storing a hopping pattern describing a sequence of frequency channels, wherein the communications module is operable in at least a first mode, a second mode and a third mode, operation in the first mode comprises transmitting and/or receiving data using a series of frames having a first frame time, the first frame time being equal to or an integer multiple of the base time interval, operation in the second mode comprises transmitting and/or receiving data using a series of frames having a second frame time, the second frame time being an integer multiple of the first frame time, operation in the third mode comprises transmitting and/or receiving data using a series of frames having a third frame time, the third frame time being an integer multiple of the second frame time, and each successive base time interval is associated with a successive frequency channel of the hopping pattern sequence, each frame using the frequency channel associated with the base time interval that occurs at the start of that frame. 13 . A measurement interface according to claim 12 , comprising an input for receiving an instruction to change between the first, second and third modes, the frequency hopping radio communications module of the measurement interface being configured to send a message to change mode to the frequency hopping communications module of the measurement device over the frequency hopping communications link. 14 . A measurement interface according to claim 13 , wherein the message to change mode include timing information for synchronising the base timing intervals of the communications module of the measurement device with those of the communications module of the measurement interface. 15 . A measurement system comprising one or more measurement devices according to claim 1 and a measurement interface for communicating with the measurement device, the measurement interface comprising an output for passing the measurement data received from the measurement device to an associated machine tool.