![wavesurfer 3022 wavesurfer 3022](https://store.ema-eda.com/wp-content/uploads/2020/06/wavesurfer-4104hd.png)
Using the sensor developed in this study, different motions and breathing frequencies can be individually or simultaneously detected using the TE, PR, and TR sensing elements.
Wavesurfer 3022 series#
Further information on the WaveSurfer 3000 series can be found below. You will get one PP019 (5mm) per channel on the WaveSurfer 3022 and the Wavesurfer 3024 You will get one PP020 (5mm) per channel on the WaveSurfer 3034, WaveSurfer 3054 and the WaveSurfer 3074. The TR and PR sensing elements were realized using vapor-phase polymerized fiber electrode layers. All models of Ossilloscopes in the WaveSurfer 3000 Series from Teledyne LeCroy come with one probe per channel. The TE sensing unit was fabricated by integrating two triboelectrically dissimilar nanofiber surfaces using a polymer mesh separator, for the formation of internal macro-scale air gaps followed by the electrical polarization of nanofibers.
![wavesurfer 3022 wavesurfer 3022](https://www.blue-panther.cz/data/img/6/wavesurfer4000hblue_panther.jpg)
In this paper, a simple method is presented for the fabrication of all-nanofiber multifunctional sensors, which consist of triboelectric (TE), piezoresistive (PR), and thermoresistive (TR) sensing elements and demonstrate superior flexibility, excellent wearability, and multifunctionality. However, the superior flexibility of fiber-based sensors is generally limited due to the partial use of rigid elements such as metal electrode layers. Fiber-based electronic sensors demonstrate significant potential for such applications due to their flexibility. Recently, human motion and respiration monitoring sensors have attracted significant research attention in the field of wearable electronics and healthcare applications.