Broadband Electromagnetic Gap-Coupled Assembly of Patches Forming Trapezoidal Microstrip Antenna for S-Band Application

D. Bhardwaj; O. P. Sharma; B.V. Singh; C. K. Dubey; K. Sharma

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Broadband Electromagnetic Gap-Coupled Assembly of Patches Forming Trapezoidal Microstrip Antenna for S-Band Application

机译：宽带电磁间隙耦合的贴片组合，形成梯形微带天线，用于S频段应用

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Design ofareaefficient data pathlogicsystems formsthelargestareasofresearch inVLSIsystem design.Indigital adders, thespeed of addition islimitedbythetimerequired totransmit a carrythroughtheadder.CarrySelectAdder (CSA) isoneofthefastestadders usedinmanydata-processingprocessorstoperform fastarithmetic functions. Fromthestructure oftheCSA,itisclear thatthereisscopeforreducing thearea and powerintheCSA. This work usesasimpleandefficient gate-level modification todrasticallyreducetheareaandpower oftheCSA.Basedonthismodification 16,32,64 and128-bitsquare-root CSA(SQRT CSA) architectureshavebeendevelopedandcomparedwith theregularSQRTCSAarchitecture. Theproposed designhasreducedarea and powerascompared withtheregular SQRTCSA.Thisworkestimates theperformanceof theproposed designsintermsofpower,areaand isimplementedusingXilinxISE and synthesized using cadence in 90nm technology.

机译：高效的数据路径逻辑系统的设计形成了VLSI系统设计研究的最大重点。数字加法器需要通过加法器传输进位的时间来限制加法速度。CarrySelectAdder（CSA）是许多数据处理处理器所使用的最快的加法器之一，可以构成快速算术功能。从CSA的结构中，可以清楚地看到用于缩小CSA面积和功率的温度计。这项工作使用了一种简单而高效的门级修改方法，以大幅度降低CSA的面积和功耗。在此修改基础上，已经开发了16、32、64和128位平方根CSA（SQRT CSA）体系结构，并与常规SQRTCSA体系结构进行了比较。与常规的SQRTCSA相比，该建议的设计减少了面积和功耗。这项工作可估算出建议的设计性能，其中功率，面积和性能均使用XilinxISE并在90nm技术中使用脚踏圈速进行了合成。

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《International Journal of Engineering Research and Applications》 |2014年第5期|共5页
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D. Bhardwaj; O. P. Sharma; B.V. Singh; C. K. Dubey; K. Sharma;
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1. Gain and Bandwidth Enhancement of Electromagnetic Gap-Coupled Assembly of Various Patches Forming Rhombus Shaped Microstrip Patch Antenna for C-Band Applications [J] . D. Bhardwaj, O. P. Sharma, C. K. Dubey, International Journal of Engineering Research and Applications . 2014,第5期

机译：各种间隙的电磁间隙耦合组件的增益和带宽增强，形成用于C波段应用的菱形微带贴片天线
2. Gain and Bandwidth Enhancement of Electromagnetic Gap-Coupled Assembly of Various Patches Forming Rhombus Shaped Microstrip Patch Antenna for C-Band Applications [J] . D. Bhardwaj, O. P. Sharma, C. K. Dubey, International Journal of Engineering Research and Applications . 2014,第5期

机译：各种间隙的电磁间隙耦合组件的增益和带宽增强，形成用于C波段应用的菱形微带贴片天线
3. BROADBAND GAP-COUPLED ASSEMBLY OF PATCHES FORMING REACTANGULARMONOPOLE MICROSTRIP ANTENNA [J] . KALPANA CHIKATWAR, S.N. MULGP Indian Journal of Scientific Research . 2018,第2期

机译：宽带间隙耦合组件的贴片成形反应蒙普洛微带天线
4. Bandwidth Enhancement of Electromagnetic Coupled Nonuniform H-Shaped Microstrip Patch Antenna for Higher Band of Wi-MAX Applications [C] . Dheeraj Bhardwaj, Gitansh Gulati, Srishti Saraswat, International Conference on Communication Systems . 2016

机译：电磁耦合非均匀H形微带贴片天线的带宽增强用于Wi-MAX应用的高频带
5. Analysis and design of broadband reduced surface wave antennas and miniaturized microstrip antennas with via loading. [D] . Xu, Hao. 2006

机译：带通孔负载的宽带减小表面波天线和微型微带天线的分析和设计。
6. Low Scattering Microstrip Antenna Based on Broadband Artificial Magnetic Conductor Structure [O] . Muhammad Saleem, Xiao-Lai Li 2020

机译：基于宽带人工磁导体结构的低散射微带天线
7. Broadband Electromagnetic Gap-Coupled Assembly of Patches Forming Trapezoidal Microstrip Antenna for S-Band Application [O] . D. Bhardwaj, O. P. Sharma 2014

机译：用于s波段应用的形成梯形微带天线的贴片的电磁宽带间隙耦合组件

Broadband Electromagnetic Gap-Coupled Assembly of Patches Forming Trapezoidal Microstrip Antenna for S-Band Application

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