Mid frequency decoupling using embedded decoupling capacitors

Muthana, P.; Swaminathan, Madhavan; Engin, Ege; Raj, P. Markondeya; Tummala, Rao

doi:10.1109/epep.2005.1563756

Cited by 19 publications

(10 citation statements)

References 6 publications

(4 reference statements)

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“…Those different types of decoupling capacitors dominate the PDN at different frequency ranges, C PCB allows the introduction of large capacitance values, but their high access impedance limits their response to lower frequencies (~100MHz [3]). On the other hand C FE exhibits limited capacitance values with very low access impedance allowing the decoupling of higher frequencies (>2GHz [3]). …”

Section: Pdn Decoupling Solutions For 3d Integrationmentioning

confidence: 99%

“…Two kinds of capacitors are distinguished at each floor: SMD and substrate embedded. Several studies points out the benefits of embedded over discrete capacitors (at the same package floor) due to the removal of parasitic inductance induced by mounting pads, signal/ground traces and signal/ground vias, either on PCB [10], BGA [3] or interposer [6]. Figure 4 shows a simplified PDN RLC electrical model of the structure depicted in Figure 3.…”

Section: Pdn Decoupling Solutions For 3d Integrationmentioning

confidence: 99%

“…If chip/package anti-resonance already is a major concern in classical circuit [3] [4] [5], it becomes critical in 3DIC. The complexity induced by stacking dies has several noticeable effects on PDN's quality.…”

Section: Pdn Decoupling Solutions For 3d Integrationmentioning

confidence: 99%

See 2 more Smart Citations

Through Silicon Capacitor co-integrated with TSV as an efficient 3D decoupling capacitor solution for power management on silicon interposer

Guiller

Joblot

Lamy

et al. 2014

2014 IEEE 64th Electronic Components and Technology Conference (ECTC)

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First part of this paper discusses decoupling method limitation within the Power Delivery Network of a classical circuit and challenges introduced by 3D integrated circuit in term of power management. Solutions are exposed, such as integration of decoupling capacitor on silicon interposer.Second part of the paper focuses on the Through Silicon Capacitor (or TSC) as an alternative decoupling solution cointegrated with Through Silicon Vias on silicon interposer. TSC realization is described and architectural benefits of adding a partial copper-filling prior to the Metal-InsulatorMetal stack deposition are discussed.A distributed analytical model is used to quantify partial filling resistance contribution, pointing out a 6 decade decrease in ESR value of the structure. TSC process and matrix design parameters impact on capacitance density are studied. Finally, electrical performances of TSC modules are evaluated showing a low intrinsic impedance behavior granted by TSC parallel structure.

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Section: Pdn Decoupling Solutions For 3d Integrationmentioning

confidence: 99%

Section: Pdn Decoupling Solutions For 3d Integrationmentioning

confidence: 99%

See 1 more Smart Citation

Through Silicon Capacitor co-integrated with TSV as an efficient 3D decoupling capacitor solution for power management on silicon interposer

Guiller

Joblot

Lamy

et al. 2014

2014 IEEE 64th Electronic Components and Technology Conference (ECTC)

View full text Add to dashboard Cite

show abstract

“…The PDN should have an impedance of less than the target impedance over a frequency range of DC to hundreds of MHz [7] [8]. In general, impedance peaks appear in the frequency range from a few MHz to GHz, owing to circuit resonance from the capacitance and the effective inductance of the PDN; thus, a good PDN design must maintain this impedance peak below the target impedance [9] [10].…”

Section: Introductionmentioning

confidence: 99%

Ultralow impedance analysis and evaluation of power distribution network for decoupling capacitor embedded interposers of 3-D integrated LSI system

Kikuchi

Ueda

Gomyo

et al. 2012

2012 IEEE 62nd Electronic Components and Technology Conference

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We evaluated low-impedance power distribution network (PDN) of decoupling capacitor embedded interposers for 3-D integrated LSI system. Measurements are carried out using the developed impedance analyzer system of a wide frequency range for evaluating ultralow impedance, and calculations are carried out using 2.5-D and 3-D finite element method (FEM) electromagnetic field simulator. We fabricated various types of capacitor mounted or capacitor embedded interposers test element group (TEG), such as surface-mounted and embedded chip capacitors, and thin film capacitors on silicon interposers using the same simple design to compare measurement results with calculation ones. As a result, the ultralow impedance evaluation system that has a high measurement dynamic range at the entire measurable frequency band can be realized. Furthermore, by using 2.5-D and 3-D FEM electromagnetic field simulator, it is expected that the accurate and wideband comparative verification of the PDN impedance analysis and evaluation can be realized.

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“…Applications such as DC-DC converters and Power Distribution Networks (PDN) decoupling require high capacitance density (up to 100 nF/mm²) placed at the vicinity of the dies to avoid noise and ensure reliable operating system [1][2]. Meeting this capacitance densities value implies the use of a large die area.…”

Section: Introductionmentioning

confidence: 99%

Electrical model and characterization of Through Silicon Capacitors (TSC) in silicon interposer

Dieng

Artillan

Bermond

et al. 2014

2014 International 3D Systems Integration Conference (3DIC)

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Inspired from Through Silicon Vias (TSVs), Through Silicon Capacitors (TSCs) are newly developed capacitors integrated throughout the silicon interposer. This paper deals with a demonstrator which investigates the first process steps of TSCs. A predictive modeling method of the impedance of large matrices of such components is proposed. The modeling method makes use of 2D/3D parasitic extraction software for the modeling of each parts of the structure. The resulting lumped RLCG parameters are used to generate a global equivalent circuit composed of segments of coupled distributed cells. The modeling method is validated by experimental results on the whole frequency range of use (up to 10 GHz). Such components demonstrate simultaneously high capacitance density (up to 23 nF/mm²), low parasitic equivalent series resistance and inductance and high serial resonance frequency (in GHz range for a capacitance value of 10 nF).

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Mid frequency decoupling using embedded decoupling capacitors

Cited by 19 publications

References 6 publications

Through Silicon Capacitor co-integrated with TSV as an efficient 3D decoupling capacitor solution for power management on silicon interposer

Through Silicon Capacitor co-integrated with TSV as an efficient 3D decoupling capacitor solution for power management on silicon interposer

Ultralow impedance analysis and evaluation of power distribution network for decoupling capacitor embedded interposers of 3-D integrated LSI system

Electrical model and characterization of Through Silicon Capacitors (TSC) in silicon interposer

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