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gsm portable communication
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  “gsm portable communication”译为未确定词的双语例句
     The performance of carbon nanotubes based supercapacitor and application in GSM portable communication
     碳纳米管超级电容器的研制和应用
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     The Application of Carbon Nanotubes Based Supercapacitor in GSM Portable Telecommunication
     碳纳米管超级电容器-锂离子电池复合电源在GSM移动通讯中的应用
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     Design and Implementation of GPS/GSM Portable Orientation Instrument
     GPS/GSM手持式定位仪的设计与实现
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     Portable Meteorograph
     便携式气象仪
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     It is portable and friendly.
     仪器小型轻便,操作界面友好。
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     The performance of carbon nanotubes based supercapacitor and application in GSM portable communication
     碳纳米管超级电容器的研制和应用
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Many applications for supercapacitors have been proposed in recent years. Supercapacitors based on charge storage at the interface between a high surface area carbon nanotubes electrode and a LiClO_4/PC electrolyte is assembled. The performance of the capacitor depends not only on the materials used in the cells but also on the construction of the cells. From a constant charge-discharge test, a capacitance of 60 F and ESR(Equivalent Series Resistance) of 35 mΩ is obtained. Evaluation of capacitor performance...

Many applications for supercapacitors have been proposed in recent years. Supercapacitors based on charge storage at the interface between a high surface area carbon nanotubes electrode and a LiClO_4/PC electrolyte is assembled. The performance of the capacitor depends not only on the materials used in the cells but also on the construction of the cells. From a constant charge-discharge test, a capacitance of 60 F and ESR(Equivalent Series Resistance) of 35 mΩ is obtained. Evaluation of capacitor performance by different techniques is also discussed. The performance of CNTs(carbon nano tubes) capacitors for high power sources used in electronic equipment are described. Values for the specific energy and specific power of 0.8 Wh·kg~(-1) and 0.75 kW·kg~(-1), respectively, are demonstrated for a cell with (2.5) V maximum operating voltage. A hybrid power source consisting of lithium ionic battery and 60 F supercapacitor was demonstrated to power successfully a simulated power load encountered in GSM portable communication equipment.

通过催化裂解法制备碳纳米管材料 ,以泡沫镍作为集流体制备成电极并采用 Li Cl O4 /PC为有机电解液组装成60 F超级电容器 ,其内阻为 3 5 mΩ ,具有 0 .8Wh/kg的比能量以及 0 .75 k W/kg的峰值功率密度 ,且在较大电流放电时 ,仍然保持良好的容量特性。因而适合作为电子设备中的大电流放电电源。本文详细探讨了超级电容器对锂离子电池GSM脉冲放电性能的改善以及复合电源系统在移动通讯领域的应用前景。

Supercapacitor based on charge storage at the interfaces between high surface area carbon nanotubes electrode and LiClO4/PC electrolyte was assembled in this paper. The performance of the capacitor not only depends on the materials but also the construction of the cells. From a constant current charge/discharge test, a capacitance of 600 F was obtained. Evaluation of capacitor performance by different techniques was also discussed. The performance of power capacitors for large power sources is described. Values...

Supercapacitor based on charge storage at the interfaces between high surface area carbon nanotubes electrode and LiClO4/PC electrolyte was assembled in this paper. The performance of the capacitor not only depends on the materials but also the construction of the cells. From a constant current charge/discharge test, a capacitance of 600 F was obtained. Evaluation of capacitor performance by different techniques was also discussed. The performance of power capacitors for large power sources is described. Values for the specific energy and specific power of 0.8Wh·kg-1 and 1 kW·kg-1, respectively, are demonstrated for a cell with 2.5V maximum operating voltage. A hybrid power source consisting of lithium ion battery and 60F carbon nanotubes based supercapacitor was demonstrated to power successfully a simulated power load encountered in GSM portable communication equipment. That supercapacitor applied to the power train of a cellular phone results in significantly more energy from the battery being used by the load. The experiments indicate as much as 33.8% energy is utilized by load and less stored energy is dissipated within the battery during each cycle.

文章通过催化裂解法制备碳纳米管材料并采用泡沫镍作为基体制备成电极并采用有机电解液组装了600 F超级电容器,电容器比能量和比功率分别达到0.8 Wh/kg 和1 k W/kg。还采用完全相同的工艺组装了60 F超级电容器并探讨了5 V超级电容器组对锂离子电池GSM(全球移动通讯)脉冲放电性能的改善以及复合电源系统在移动通讯领域的应用前景。

Supercapacitors based on charge storage at the interface between a high surface area carbon nanotubes electrode and (C 2H 5) 4NBF 4/AN electrolyte were assembled. The performance of the capacitor depends not only on the materials used in the cells but also on the construction of the cells. From a constant charge-discharge test, capacitance of 175F and ESR of 28mΩ was obtained for supercapacitor module. The performance of CNTs capacitors for high power sources used in electronic equipment was described....

Supercapacitors based on charge storage at the interface between a high surface area carbon nanotubes electrode and (C 2H 5) 4NBF 4/AN electrolyte were assembled. The performance of the capacitor depends not only on the materials used in the cells but also on the construction of the cells. From a constant charge-discharge test, capacitance of 175F and ESR of 28mΩ was obtained for supercapacitor module. The performance of CNTs capacitors for high power sources used in electronic equipment was described. Values for the specific energy and specific power of 1Wh/kg and 0 37kW/kg, respectively, were demonstrated for a module with 5V operating voltage. A hybrid power source consisting of lithium ionic battery and supercapacitor module was demonstrated to power successfully a simulated power load encountered in GSM portable communication equipment. Addition of a supercapacitor to the power train of a cellular phone results in significantly more energy from the battery being used by the load.

通过催化裂解法制备碳纳米管材料 ,采用铝箔作为集流体制备成电极 ,并采用四氟硼酸铵 /乙腈有机电解液 ,组装了工作电压大于 5V ,容量为 175F的超电容器模组。该电容器模组内阻为 2 8mΩ ,重量为 0 .6公斤 ,具有 1Wh/kg的比能量以及 0 .37kW /kg的峰值功率密度 ,且在较大电流放电时仍然保持良好的容量特性 ,适合作为电子设备中的高功率放电电源。在GSM型脉冲放电时 ,超电容器的应用使脉冲条件下电源的平均电位变化振幅ΔV从 0 .3V下降到不足 0 .0 2V ,同等条件下复合电源系统放电时间延长 36 98秒 ,脉冲放电效率提高 3.7倍。探讨了超电容器 锂离子电池复合电源系统在移动通讯领域的应用前景。

 
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