Ultra-compact four-lane hybrid-integrated ROSA based on three-dimensional microwave circuit design

Zeping Zhao; Jiaojiao Wang; Xueyan Han; Zhike Zhang; Jianguo Liu

doi:doi:10.3788/COL201917.030401

Chinese Optics Letters, 2019, 17 (3): 030401, Published Online: Mar. 8, 2019

Ultra-compact four-lane hybrid-integrated ROSA based on three-dimensional microwave circuit design Download： 925次

Zeping Zhao ^1,2Jiaojiao Wang ^1,2Xueyan Han ^1,2Zhike Zhang ^1,2Jianguo Liu ^1,2,*

Author Affiliations

¹ State Key Laboratory of Integrated Optoelectronics, Institute of Semiconductors, Chinese Academy of Sciences, Beijing 100083, China

² College of Materials Science and Opto-Electronic Technology, University of Chinese Academy of Sciences, Beijing 100049, China

Figures & Tables

Fig. 1. (a) Hybridly-integrated CWDM ROSA module configuration. (b) Photograph of the ROSA. (c) Partially detailed configuration of the ROSA.

下载图片查看原文

Fig. 2. (a) Schematic of 3D microwave circuit. (b) Model of RF circuit board with high frequency transmission line.

下载图片查看原文

Fig. 3. Simulation results of transmission performance of the RF circuit board.

下载图片查看原文

Fig. 4. Simulation results of the electrical crosstalk between the adjacent channels.

下载图片查看原文

Fig. 8. Measured and simulation frequency responses of (a) the PD chip and (b) the packaged module for one channel. The insets are their corresponding simulation and measurement eye diagrams.

下载图片查看原文

Fig. 9. Flat-top spectral profile of four-lane ROSA module in CWDM (gray areas indicate CWDM grid).

下载图片查看原文

Fig. 10. Measured responsivity of the packaged ROSA module. Inset is the photograph of the module with the detailed inner distribution.

下载图片查看原文

Fig. 11. Measured transmission response and reflection response of the hybridly-integrated PD module at a bias voltage of 3 V.

下载图片查看原文

Zeping Zhao, Jiaojiao Wang, Xueyan Han, Zhike Zhang, Jianguo Liu. Ultra-compact four-lane hybrid-integrated ROSA based on three-dimensional microwave circuit design[J]. Chinese Optics Letters, 2019, 17(3): 030401.

Ultra-compact four-lane hybrid-integrated ROSA based on three-dimensional microwave circuit design Download： 925次

Fig. 1. (a) Hybridly-integrated CWDM ROSA module configuration. (b) Photograph of the ROSA. (c) Partially detailed configuration of the ROSA.

Fig. 2. (a) Schematic of 3D microwave circuit. (b) Model of RF circuit board with high frequency transmission line.

Fig. 3. Simulation results of transmission performance of the RF circuit board.

Fig. 4. Simulation results of the electrical crosstalk between the adjacent channels.

Fig. 5. Small-signal equivalent circuit model for one channel of the module.

Fig. 6. Calculated frequency response with different values of Ls.

Fig. 7. Calculated frequency response with different values of C2.

Fig. 8. Measured and simulation frequency responses of (a) the PD chip and (b) the packaged module for one channel. The insets are their corresponding simulation and measurement eye diagrams.

Fig. 9. Flat-top spectral profile of four-lane ROSA module in CWDM (gray areas indicate CWDM grid).

Fig. 10. Measured responsivity of the packaged ROSA module. Inset is the photograph of the module with the detailed inner distribution.

Fig. 11. Measured transmission response and reflection response of the hybridly-integrated PD module at a bias voltage of 3 V.

关于本站 Cookie 的使用提示

全站搜索

Ultra-compact four-lane hybrid-integrated ROSA based on three-dimensional microwave circuit design Download： 925次

Fig. 1. (a) Hybridly-integrated CWDM ROSA module configuration. (b) Photograph of the ROSA. (c) Partially detailed configuration of the ROSA.

Fig. 2. (a) Schematic of 3D microwave circuit. (b) Model of RF circuit board with high frequency transmission line.

Fig. 3. Simulation results of transmission performance of the RF circuit board.

Fig. 4. Simulation results of the electrical crosstalk between the adjacent channels.

Fig. 5. Small-signal equivalent circuit model for one channel of the module.

Fig. 6. Calculated frequency response with different values of Ls.

Fig. 7. Calculated frequency response with different values of C2.

Fig. 8. Measured and simulation frequency responses of (a) the PD chip and (b) the packaged module for one channel. The insets are their corresponding simulation and measurement eye diagrams.

Fig. 9. Flat-top spectral profile of four-lane ROSA module in CWDM (gray areas indicate CWDM grid).

Fig. 10. Measured responsivity of the packaged ROSA module. Inset is the photograph of the module with the detailed inner distribution.

Fig. 11. Measured transmission response and reflection response of the hybridly-integrated PD module at a bias voltage of 3 V.

相关论文

相关资讯

关于本站 Cookie 的使用提示

全站搜索