-
Mashup Score: 52D Titanium carbide printed flexible ultrawideband monopole antenna for wireless communications - Nature Communications - 1 year(s) ago
Designing ultrathin and flexible antenna is of great interest for efficient wireless data communication and transmission at fast-growing IoT applications. The authors report a flexible ultrawideband Ti3C2 monopole antenna by combining strategies of interfacial modification and advanced extrusion printing technology.
Source: NatureCategories: General Medicine News, Latest HeadlinesTweet
-
Mashup Score: 0Registration - 2 year(s) ago
The power consumption of a wireless device depends on multiple factors, including the amount of data to be transmitted and received; duration of device airtime versus sleep time; geographic coverage and the range of its wireless network; and wireless protocols which enable low power, low data rate transmission. Most critical, however, is the RF performance of the antenna of the device. Join TE…
Source: register.gotowebinar.comCategories: Healthcare Professionals, Latest HeadlinesTweet
-
Mashup Score: 1Registration - 2 year(s) ago
The power consumption of a wireless device depends on multiple factors, including the amount of data to be transmitted and received; duration of device airtime versus sleep time; geographic coverage and the range of its wireless network; and wireless protocols which enable low power, low data rate transmission. Most critical, however, is the RF performance of the antenna of the device. Join TE…
Source: register.gotowebinar.comCategories: Healthcare Professionals, Latest HeadlinesTweet
-
Mashup Score: 1Registration - 2 year(s) ago
The power consumption of a wireless device depends on multiple factors, including the amount of data to be transmitted and received; duration of device airtime versus sleep time; geographic coverage and the range of its wireless network; and wireless protocols which enable low power, low data rate transmission. Most critical, however, is the RF performance of the antenna of the device. Join TE…
Source: register.gotowebinar.comCategories: Healthcare Professionals, Latest HeadlinesTweet
-
Mashup Score: 3Registration - 2 year(s) ago
The power consumption of a wireless device depends on multiple factors, including the amount of data to be transmitted and received; duration of device airtime versus sleep time; geographic coverage and the range of its wireless network; and wireless protocols which enable low power, low data rate transmission. Most critical, however, is the RF performance of the antenna of the device. Join TE…
Source: register.gotowebinar.comCategories: Healthcare Professionals, Latest HeadlinesTweet
-
Mashup Score: 3Registration - 2 year(s) ago
The power consumption of a wireless device depends on multiple factors, including the amount of data to be transmitted and received; duration of device airtime versus sleep time; geographic coverage and the range of its wireless network; and wireless protocols which enable low power, low data rate transmission. Most critical, however, is the RF performance of the antenna of the device. Join TE…
Source: register.gotowebinar.comCategories: Healthcare Professionals, Latest HeadlinesTweet
-
Mashup Score: 1Registration - 2 year(s) ago
The power consumption of a wireless device depends on multiple factors, including the amount of data to be transmitted and received; duration of device airtime versus sleep time; geographic coverage and the range of its wireless network; and wireless protocols which enable low power, low data rate transmission. Most critical, however, is the RF performance of the antenna of the device. Join TE…
Source: register.gotowebinar.comCategories: Healthcare Professionals, Latest HeadlinesTweet
-
Mashup Score: 0Cell Rover—a miniaturized magnetostrictive antenna for wireless operation inside living cells - Nature Communications - 2 year(s) ago
An intracellular antenna that can truly enable probing, modulation or augmentation of biological cells remains an unmet challenge. Here, the authors present the Cell Rover, a magnetostrictive antenna that operates wirelessly inside a living cell and is compatible with 3D biological systems.
Source: NatureCategories: General Medicine News, Latest HeadlinesTweet
Zhao et al. report a flexible ultra-wideband 2D Ti3C2 monopole #antenna by combining strategies of interfacial modification and advanced extrusion #printing technology for wireless communications #GettingApplied https://t.co/pj5STffrIl