如韻電子 CONSONANCE www.consonance-elec.com Rev 1.2 5A雙節鋰電池充電管理集成電路 CN3702
標簽: CN3702中文資料
上傳時間: 2016-09-04
上傳用戶:smallfish
A major societal challenge for the decades to come will be the delivery of effective medical services while at the same time curbing the growing cost of healthcare. It is expected that new concepts-particularly electronically assisted healthcare will provide an answer. This will include new devices, new medical services as well as networking. On the device side, impressive innovation has been made possible by micro- and nanoelectronics or CMOS Integrated Circuits. Even higher accuracy and smaller form factor combined with reduced cost and increased convenience of use are enabled by incorporation of CMOS IC design in the realization of biomedical systems. The compact hearing aid devices and current pacemakers are good examples of how CMOS ICs bring about these new functionalities and services in the medical field. Apart from these existing applications, many researchers are trying to develop new bio-medical solutions such as Artificial Retina, Deep Brain Stimulation, and Wearable Healthcare Systems. These are possible by combining the recent advances of bio-medical technology with low power CMOS IC technology.
上傳時間: 2017-02-06
上傳用戶:linyj
本設計利用德國西門子PLC S7-200進行電鍍行車自動化控制。在本次設計中,從電鍍行車在生產現場的運行環境和自動控制技術器件在國內的應用前景來考慮,以電鍍行車具備自動生產運行為目的,制定了采用在當前及以后都應用廣泛且能適應多種環境的可編程控制器PLC來控制整個工作流程的方案。首先對系統的軟硬件進行設計,給出系統的工作流程圖、硬件接線圖、PLC控制I/O端口分配表及整體程序流程圖。并以STEP7 Micro/WIN32為編程軟件設計出電鍍行車自動控制系統的梯形圖,最后通過仿真實驗,實現了電鍍行車自動化控制,提高了電鍍生產效率,降低了勞動強度。
上傳時間: 2017-11-11
上傳用戶:狂暴老戴
ZCORE系列NBIOT開發底板資料開源。 NBIOT開發板主要接口: Micro USB *1 3.7V電池充電電路 慶科WIFI模塊支持 貼片SIM卡支持 STM32L433全部外圍接口已拉出為2.0排針
上傳時間: 2018-04-25
上傳用戶:pshr960405
The rapid growth in mobile communications has led to an increasing demand for wide- band high data rate communications services. In recent years, Distributed Antenna Systems (DAS) has emerged as a promising candidate for future (beyond 3G or 4G) mobile communications, as illustrated by projects such as FRAMES and FuTURE. The architecture of DAS inherits and develops the concepts of pico- or micro-cell systems, where multiple distributed antennas or access points (AP) are connected to and con- trolled by a central unit.
標簽: Distributed Antenna Systems
上傳時間: 2020-05-27
上傳用戶:shancjb
The need to develop reliable microelectronic devices capable of operating at high speeds with complex functionality requires a better understanding of the factors that govern the thermal performance of electronics. With an increased demand on system reliability and performance combined with miniaturization of the devices, thermal consideration has become a crucial factor in the design of elec- tronic packages, from chip to system levels.
標簽: Telecommunications Management Equipment Thermal of
上傳時間: 2020-06-01
上傳用戶:shancjb
Applications of microelectromechanical systems (MEMS) and microfabrica- tion have spread to different fields of engineering and science in recent years. Perhaps the most exciting development in the application of MEMS technol- ogy has occurred in the biological and biomedical areas. In addition to key fluidic components, such as microvalves, pumps, and all kinds of novel sensors that can be used for biological and biomedical analysis and mea- surements, many other types of so-called micro total analysis systems (TAS) have been developed.
標簽: Applications Technologies Bio-MEMS and
上傳時間: 2020-06-06
上傳用戶:shancjb
The mature CMOS fabrication processes are available in many IC foundries. It is cost-effective to leverage the existing CMOS fabrication technologies to implement MEMS devices. On the other hand, the MEMS devices could also add values to the IC industry as the Moore’s law reaching its limit. The CMOS MEMS could play a key role to bridge the gap between the CMOS and MEMS technologies. The CMOS MEMS also offers the advantage of monolithic integration of ICs and micro mechanical components.
標簽: TECHNOLOGY CMOS MEMS KEY
上傳時間: 2020-06-06
上傳用戶:shancjb
For more than three decades, Micro Electro Mechanical Systems (MEMS) have steadily transitioned out of research labs and into production forming a more than $10 billion market [1]. MEMS devices such as accelerometers, pressure sensors and microphones, to name a few, have seen immense utilization, particularly in the consumer electronics market, because of their compact sizes and minute power consumptions. In addition, these devices benefit from batch fabrication, which has enabled year-over-year reductions in cost [2]. In recent years,
上傳時間: 2020-06-06
上傳用戶:shancjb
MICRO-electro-Mechanical Systems (MEMS) are miniature systems composed ofintegratedelectricalandmechanicalpartstosenseand/orcontrolthingsonaμmscale. The concept of MEMS is attributed to Richard Feynman’s famous talk on December 29th, 1959 [2,3]. Dr. Feynman foresaw many aspects of future MEMS development with his insight in microphysics. In particular, material properties in the μm scale are differentfrombulkpropertiesandthescalingdownofintegratedcircuits(IC)fabrication technology has been a major driving force of MEMS development.
標簽: Performance High MEMS RF
上傳時間: 2020-06-06
上傳用戶:shancjb
