| 1. | Lines within the field along which the voltage is constant are called equipotential . 在电场中电压根等的那些曲线称为等位线。 |
| 2. | Buton and buttonhole position 扣眼位线 |
| 3. | The bimedian of a triangle is parallel to the third side and equal to its half 三角形的中位线平行与第三条边且等于第三条边长度的一半 |
| 4. | The second is called map matching , which adjusts vehicle positions to overlay road centreline data 第二是地图对比,就是把车辆的位置调校到路面的中位线上。 |
| 5. | Sub - array and subsection decoding reduce the load capacitance of bit line and word line and enhance the speed of sram simultaneously 存储阵列分块技术以及分段译码技术降低了sram位线和字线的负载电容,从而提高了sram的速度。 |
| 6. | Study of the regional stability and preliminary siting of the anqing bridge are the important , basic work prior to the construction of the bridge 安庆长江公路大桥区域稳定性及预选桥位线方案是大桥建设前期的一项重要基础性工作。 |
| 7. | Atd made the asynchronous use of sram . two - level sense amplifier amplifies the tiny voltage difference between the bit lines and enhances the anti - jamming ability 两级敏感放大器的应用在确保对位线微小电压差的放大的条件下,提高了抗干扰能力。 |
| 8. | The pore water pressure dissipation in the silt is produced mainly by lowering of groundwater table and pore water pressure dissipation in the pvds ( or sand drains ) is produced mainly by vacuum degree 淤泥地基中孔隙水压力消散主要是由于地下水位线的下降引起的;而砂井或塑排中的孔压消散大部分由真空度直接引起。 |
| 9. | Not only fault model , but also test arithmetic demand to be farther improved . the thesis , focusing on the 20 - port register file , makes a fault analysis , particularly in complex bridge fault and crosstalk coupling fault aroused by word - line and bit - line of 20 - port 本文针对所设计的寄存器文件进行了故障分析,特别对20端口字线、位线引起的复杂桥接故障和串扰导致的耦合故障进行了详尽论述。 |
| 10. | The cause of vacuum degree formation under groundwater table is discussed in the paper . the testing results show that vacuum degree above the groundwater table is produced directly by pumping air , and that vacuum degree below groundwater table is produced mainly by dewatering and by escaping of sealed air from the end of flexible pipe . based on the bernoulli equation , the limit lowering of groundwater table is analyzed , which is about 5 ~ 7m . the effective influence depth of vacuum preloading has relationship with pvds depth and can be more than 10m 对地下水位线以下的真空度成因进行了分析,结果表明,地下水位线以下测到的真空度是由于测试软管中水位下降或部分封存气体从软管末端逃逸引起的,与地下水位线以上的真空度由抽气直接形成在成因上存在不同;根据伯努俐方程,对地下水位下降的极限深度进行了分析,得出真空预压中地下水位的极限下降深度为5 7m ;对有效影响深度的分析结果表明,真空预压的有效影响深度与塑料排水板的打设深度具备一定关系,有效影响深度可以超过10m 。 |