| 1. | Ultrahigh speed photographic instrument
超高速照相器械 |
| 2. | Ultrahigh speed photography
超高速摄影术 |
| 3. | Finally , the position of the ultrahigh speed wheels in ultrahigh speed grinding and our research direction in future are pointed out
最后,指出超高速磨削砂轮在超高速磨削中的地位,并指出努力方向。 |
| 4. | Therefore , the study in ultrahigh speed adcs with the relatively low resolution is an important research topic
因此,对采样速度超过ghz ,分辨率相对较低的超高速a / d转换器研究是a / d转换器研究的一个重要方向。 |
| 5. | Modeling and simulating the adc system by adopting standard cmos technologies can provide the theoretical supports for design and optimization of ultrahigh speed adcs
基于标准cmos工艺,从a / d转换器系统开始建模研究,可以为设计和优化超高速模数转换器提供必要的理论基础。 |
| 6. | On the account of physical extreme limit of serial computation , people ultimately resort to parallel computation to cater for the man ' s unending pursuit - ultrahigh speed
串行计算由于受到物理极限的限制,使得为了满足人类这一无止境的追求? ?超高速,人们必然求助于并行计算。 |
| 7. | In this dissertation , the generic high - speed adc architectures was investigated and the block of the ultrahigh speed adc was designed . furthermore , the adc system error model was simulated
在研究各种结构的高速a / d转换器基础上,设计了一个超高速的a / d转换器系统结构,并对系统的误差模型进行了仿真。 |
| 8. | There are three main problems in different building blocks that will impair the dynamic performance of ultrahigh speed adc . they are offset , sampling time uncertainty and signal - dependent delay
从失调电压、采样时间不确定性和相关输入信号延迟三个方面,分析了系统动态性能对系统组成电路模块的要求。 |
