Addressing the challenges of fabricating microwave antennas using conductive threads

Chauraya, Alford; Zhang, Shiyu; Whittow, William G.; Acti, Tessa; Seager, Rob; Dias, Tilak; Vardaxoglou, Yiannis

doi:10.1109/eucap.2012.6205910

Cited by 24 publications

(21 citation statements)

References 12 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…A detailed simulation method is required to model the directional and discrete nature of the threads [35] (Figure 7). The challenges of fabricating embroidered antennas are outlined in [36]. Such challenges include: selecting the most suitable conductive thread in terms of conductivity; strength; flexibility and the assessment of the behavior of the conductive threads when they are stitched to form an approximately continuous object so as to improve the efficiency of the patch antenna [36].…”

Section: Embroiderymentioning

confidence: 99%

“…The challenges of fabricating embroidered antennas are outlined in [36]. Such challenges include: selecting the most suitable conductive thread in terms of conductivity; strength; flexibility and the assessment of the behavior of the conductive threads when they are stitched to form an approximately continuous object so as to improve the efficiency of the patch antenna [36]. The effect of the stitch direction and stitch density on the performance of the antenna has been extensively studied and described in [37].…”

Section: Embroiderymentioning

confidence: 99%

See 1 more Smart Citation

Embroidery and Related Manufacturing Techniques for Wearable Antennas: Challenges and Opportunities

et al. 2014

Self Cite

View full text Add to dashboard Cite

This paper will review the evolution of wearable textile antennas over the last couple of decades. Particular emphasis will be given to the process of embroidery. This technique is advantageous for the following reasons: (i) bespoke or mass produced designs can be manufactured using digitized embroidery machines; (ii) glue is not required and (iii) the designs are aesthetic and are integrated into clothing rather than being attached to it. The embroidery technique will be compared to alternative manufacturing processes. The challenges facing the industrial and public acceptance of this technology will be assessed. Hence, the key opportunities will be highlighted.

show abstract

Section: Embroiderymentioning

confidence: 99%

Section: Embroiderymentioning

confidence: 99%

Embroidery and Related Manufacturing Techniques for Wearable Antennas: Challenges and Opportunities

et al. 2014

Self Cite

View full text Add to dashboard Cite

show abstract

“…Two conference papers from 2010 have also describe conformable antennas for space suits [127,128]. The production of flexible embroidered antennas has been reported as suitable for megahertz frequency communications [129,130]. This type of antenna is highly sensitive and has been employed for unilateral magnetic resonance measurements [131].…”

Section: Communication Devicesmentioning

confidence: 99%

A Historical Review of the Development of Electronic Textiles

Hughes‐Riley

Dias

Cork

2018

Fibers

Self Cite

116

View full text Add to dashboard Cite

Abstract:Textiles have been at the heart of human technological progress for thousands of years, with textile developments closely tied to key inventions that have shaped societies. The relatively recent invention of electronic textiles is set to push boundaries again and has already opened up the potential for garments relevant to defense, sports, medicine, and health monitoring. The aim of this review is to provide an overview of the key innovative pathways in the development of electronic textiles to date using sources available in the public domain regarding electronic textiles (E-textiles); this includes academic literature, commercialized products, and published patents. The literature shows that electronics can be integrated into textiles, where integration is achieved by either attaching the electronics onto the surface of a textile, electronics are added at the textile manufacturing stage, or electronics are incorporated at the yarn stage. Methods of integration can have an influence on the textiles properties such as the drapability of the textile.

show abstract

“…This leads to significant loss and so limits high frequency RF applications such as antennas [8]- [10]. Although these challenges are slowly being overcome for textile devices, very little work has been carried out on another class of textiles commonly used within the aerospace industry.…”

Section: Introductionmentioning

confidence: 99%

Investigation of microwave active elements embedded in composite structures

Baum

Ghorbani

Ziolkowski

et al. 2016

2016 IEEE MTT-S International Microwave Symposium (IMS)

View full text Add to dashboard Cite

-Multifunctional structures have become popular within the past decade as they allow for more efficient utilization of limited real-estate available on many civilian and military platforms. Taking structures and electromagnetics, one can marry these two fields to produce a weight optimized loadbearing microwave structure which may ideally be suited for unmanned aerial systems. This paper investigates the use of textile processes to develop loadbearing smart skins built into a class of structural conformal composite materials called prepregs (resin pre-impregnated fabrics). An example of an active UWB mini-circuits ERA-4SM+ (0-4 GHz) amplifier has been investigated within a 48 g.m -2 pre-preg structural glass material (HexPly914E). This amplifier has been embroidered and cured at 170˚C in an autoclave at 700 kPa pressure. Its performance before and after curing has been examined.

show abstract

Addressing the challenges of fabricating microwave antennas using conductive threads

Cited by 24 publications

References 12 publications

Embroidery and Related Manufacturing Techniques for Wearable Antennas: Challenges and Opportunities

Embroidery and Related Manufacturing Techniques for Wearable Antennas: Challenges and Opportunities

A Historical Review of the Development of Electronic Textiles

Investigation of microwave active elements embedded in composite structures

Contact Info

Product

Resources

About