| 1. | So it is necessary to l - esearch on a dual - mode latching recipro : al ferrite phase shifter 因此,开展双模互易铁氧体移相器的研究是很有必要的。 |
| 2. | The differential phase shift changes as the change in the thickness of the ferrite phase shifter is calculated with the transcendental equation 根据超越方程对单环非互易铁氧体移相器的差相移随铁氧体厚度的变化进行了数值计算。 |
| 3. | The transcendental equation for the single toroidal non - reciprocal ferrite phase shifter is obtained by using the twin slab model , and its properties are discussed 利用双平板模型推导出了单环非互易铁氧体移相器的超越方程,并对其特性进行了讨论。 |
| 4. | " with the developme1lt of the phased array antenna system , it is very important to research on various phase shifters , particularly on a duai - mode latching reciprojal ferrite phase shifter 随着相控阵雷达技术的应用发展,各类移相器的研制工作越来越重要,其中双模互易铁氧体移相器由于其独特的优点而得到广泛应用。 |
| 5. | Abstract : the single toroidal non - reciprocal ferrite phase shifter that isthe key components of a phase array antenna is studied to develop the phase array antenna for autotracking synchronous communication satellite 文摘:为了研制自动跟踪同步通信卫星平板相控天线阵系统,对相控阵天线中的关键元件单环非互易铁氧体移相器进行了研究。 |
| 6. | According to the reciprocal characteristic of dual - mcde reciprocal ferrite phase shifters , the antenna only requires to provide the sa : lle beams of operation between the trtinsmit and receive beams . in addition , 1he phased shifter can operate in various polarizations such as linear polarization or circular polarization , which is adiipted to the development of modern ra ( 1ar technologies 对电扫描相控阵天线来说,双模互易式铁氧体移相器的互易特性可使收、发在同一特定波束位置上工作;此外,双模互易铁氧体移相器可以在线极化、圆极化等多种极化方式下工作,适应了现代雷达技术的发展。 |