1) return-to-zero/carrier-suppressed return-to-zero differential quadrature phase-shift keyed
差分正交相移键控载波抑制归零码
2) return-to-zero/carrier-suppressed return-to-zero differential phase-shift keyed
差分相移键控载波抑制归零码
3) OCS-DPSK
光载波抑制-差分相移键控
1.
This article demonstrates that Optical Carrier Suppressed-Differential Phase-Shift Keying (OCS-DPSK) modulation format can be used to realize three key functions in Radio over Fiber (RoF) system: delivering downlink RoF signals, generating remote Local Oscillator (LO) signal, and re-modulating uplink signal.
文章提出一种新型的光载波抑制-差分相移键控(OCS-DPSK)调制格式,可以实现光载无线(RoF)系统的3个关键功能:分发下行RoF信号、产生远端本振信号和上行数据的重调制,从而实现成本最优的RoF接入网络。
4) CSRZ-DPSK
载波抑制归零差分相位调制
5) CSRZ
载波抑制归零码
1.
Research on CSRZ code generation by a single-stage modulator;
采用单调制器实现载波抑制归零码的研究
2.
The transmission performance of nonreturn-to-zero(NRZ) and carried-suppressed return-to-zero(CSRZ) in 40 Gbit/s single channel systems over 6×80 km G.
文章仿真了非归零码(NRZ)和载波抑制归零码(CSRZ)在40Gbit/s单通道系统中G。
3.
CSRZ signal is generated by two LiNbO3 Mach-Zehnder modulators.
载波抑制归零码(CSRZ)由两个铌酸锂(LiNbO3)外调制器级联产生,这种材料受温度等外界环境的变化,导致输出的CSRZ码眼图不稳定。
6) CS-RZ
载波抑制归零码
1.
This paper introduces the production mechanism of carrier-suppressed return-to-zero(CS-RZ) format and its good transmission performance, and also compares the transmission performance of CS-RZ with RZ and NRZ formats at 40 Gbit/s system through computer simulation.
文章介绍了载波抑制归零码(CS RZ)的产生机制及其优良的传输性能,并采用计算机仿真比较了CS RZ、非归零(NRZ)和归零(RZ),这三种码在40Gbit/s速率下的传输性能。
补充资料:于归
1.出嫁。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条