Your browser does not support JavaScript!
http://iet.metastore.ingenta.com
1887

Using circuit model from layout-level synthesis as coarse model in space mapping and its application in modelling low-temperature ceramic cofired radio frequency circuits

Using circuit model from layout-level synthesis as coarse model in space mapping and its application in modelling low-temperature ceramic cofired radio frequency circuits

For access to this article, please select a purchase option:

Buy article PDF
£12.50
(plus tax if applicable)
Add to cart
Buy Knowledge Pack
10 articles for £75.00
(plus taxes if applicable)
Add to cart

IET members benefit from discounts to all IET publications and free access to E&T Magazine. If you are an IET member, log in to your account and the discounts will automatically be applied.

Learn more about IET membership 

Recommend Title Publication to library

You must fill out fields marked with: *

Librarian details
Name:*
Email:*
Your details
Name:*
Email:*
Department:*
Why are you recommending this title?
Select reason:
 
 
 
 
 
IET Microwaves, Antennas & Propagation — Recommend this title to your library

Thank you

Your recommendation has been sent to your librarian.

© The Institution of Engineering and Technology
Published

The technique of using a coarse model obtained from layout-level synthesis of radio frequency components in neural inverse space mapping (NISM) optimisation technique is proposed. Layout-level synthesis is based on a combination of segmented lump-circuit modelling, nonlinear mapping using neural network (NN) and circuit-level optimisation. The circuit model based on the electromagnetic (EM) simulation describes the important parameters and parasitic parameters and serves as a high-quality coarse model in applying NISM. In implementation of NISM optimisation, trained NN is introduced as a buffer space between the original coarse model space and the fine model space, where the subset of the coarse model space is completely different from that of the fine model space. Stoer–Bulirsch adaptive frequency sampling (S–B AFS) technique is used in frequency sweep of the fine model to further reduce the computing time. An application design of low-temperature ceramic cofired filter is used to demonstrate the proposed technique. Synthesis and optimisation results of the filter meet the design specifications.

Inspec keywords: integrated circuit modelling; ceramic packaging; circuit optimisation; radiofrequency integrated circuits; integrated circuit layout

Other keywords: nonlinear mapping; neural inverse space mapping; low-temperature ceramic cofired radio frequency circuits; Stoer-Bulirsch adaptive frequency sampling; NISM optimisation; electromagnetic simulation; segmented lump-circuit modelling; LTCC filter; layout-level synthesis; circuit-level optimisation; neural network; radio frequency components

Subjects: Product packaging; Semiconductor integrated circuit design, layout, modelling and testing; Microwave integrated circuits

References

    1. 1)
      • J.W. Bandler , Q.S. Cheng , S.A. Dakroury , A.S. Mohamed , M.H. Bakr , K. Madsen , J. SØndergaard . Space mapping: the state of the art. IEEE Trans. Microwave Theory Tech. , 1 , 337 - 361
    2. 2)
      • Y. Ding , K.L. Wu , D.G. Fang . A broadband adaptive frequency sampling approach for microwave circuit EM simulation exploiting Stoer–Bulirsch algorithm. IEEE Trans. Microwave Theory Tech. , 3 , 928 - 934
    3. 3)
      • K.L. Wu , R. Zhang , M. Ehlert , D.G. Fang . An explicit knowledge-embedded space mapping technique and its application to optimisation of LTCC RF passive circuits. IEEE Trans. Microwave Theory Tech. , 2 , 399 - 405
    4. 4)
      • Eun, K.C., Lee, Y.C., Choi, B.G., Kim, D.J., Park, C.S.: `L-band RF characteristics of LTCC embedded spiral inductors', Proc. ICMMT' 2002, 2002, Beijing, China, p. 23–26.
    5. 5)
      • S. Mukherjee , B. Mutnury , S. Dalaia , M. Swminthan . Layout-level synthesis of RF inductors and filter in LCP substrates for Wi-Fi application. IEEE Trans. Microwave Theory Tech. , 6 , 2196 - 2209
    6. 6)
      • Blood, W., Ling, F., Kamgaing, T., Myers, T., Petras, M.: `Simulation, modelling and testing embedded RF capacitors in low temperature cofired ceramic', Proc. Electronic, Components and Technol. Conf., May 2000, Las Vegas, Nevada, p. 852–857.
    7. 7)
      • Mustapha, C.E., Yagoub, P.S.: `Optimization of RF/microwave multichip module performance based on neural model of passives and interconnects', Proc. Electronic Components and Technology Conf., June 2004, Nevada, USA, p. 1420–1425.
    8. 8)
      • Q.J. Zhang . (1999) NeuroModeler v.1.1.
    9. 9)
      • R.J. Pratap , S. Sarkar , S. Pinel , J. Lasker , G.S. May . Modeling and optimisation of multilayer RF passives using coupled neural networks and genetic algorithms. IEEE MTT-S Dig. , 1557 - 1560
    10. 10)
      • J.H. Lee , G. DeJean , S. Sarkar , S. Pinel , K. Lim , J. Papapolymerou , J. Laskar , M.M. Tentzeris . Highly integrated millimeter-wave passive components using 3-D LTCC system-on-package (SOP) technology. IEEE Trans. Microwave Theory Tech. , 1 , 2220 - 2229
    11. 11)
      • J.W. Bandler , M.A. Ismail , J.E. Rayas-Sánchez , Q.J. Zhang . Neural inverse space mapping (NISM) optimisation for EM-based microwave design. Int. J. RF Microwave Comput.-Aided Eng. , 136 - 147
    12. 12)
      • A. Sutono , J. Laskar , W.R. Smith . Design of miniature multilayer on-package integrated image-rejectfilters. IEEE Trans. Microwave Theory Tech. , 1 , 2196 - 2209
http://iet.metastore.ingenta.com/content/journals/10.1049/iet-map_20060201
Loading

Related content

content/journals/10.1049/iet-map_20060201
pub_keyword,iet_inspecKeyword,pub_concept
6
6
Loading
Print this page
This is a required field
Please enter a valid email address