New simultaneous switching noise analysis and modeling for high-speed and high-density CMOS IC package design

In order to achieve high speed and high resolution for switched-capacitor (SC) digital-to-analog converters (DACs), an architecture of split-segmented SC DAC is proposed. The detailed design considerations of kT/C noise, capacitor mismatch, settling time and simultaneous switching noise (SSN) are mathematically analyzed and modelled. The design area W-Cu is defined based on that analysis. It is used not only to identify the maximum speed and resolution but also to find the design point (W, Cu) for certain speed and resolution of SC DAC topology. The segmentation effects are also considered. An implementation example of this type of DACs is a 12-bit 6-6 split-segmented SC DAC designed in 65 nm CMOS. The linear open-loop output driver utilizing derivation superposition (DS) technique for nonlinear cancellation is used to drive off-chip load for the SC array without compromising its performance. The measured results show that the SC DAC achieves a 44 dB spurious free dynamic range (SFDR) within a 1 GHz bandwidth of input signal at 5 GS/s while consuming 50 mW from 1 V digital and 1.2 V analog supplies. The overall performance that was achieved from measurement is poorer than expected due to lower power supply rejection ratio (PSRR) in fabricated chip. This DAC can be used in transmitter baseband for wideband wireless communications.Index Terms-high-speed DACs, SC DACs, 12-bit splitsegmented DACs, linear output driver, wideband wireless communications. Clk-Clk+ Out+ Decoder

show abstract

Modelling and analysis of ground bounce due to internal gate switching

Yuan

2004

IEE Proc., Circuits Devices Syst.

View full text Add to dashboard Cite

New simultaneous switching noise analysis and modeling for high-speed and high-density CMOS IC package design

Cited by 26 publications

References 17 publications

Modeling and Characterization of IC Interconnects and Packagings for the Signal Integrity Verification of High-Performance VLSI Circuits

Modeling and Characterization of IC Interconnects and Packagings for the Signal Integrity Verification of High-Performance VLSI Circuits

Design and analysis of high-speed split-segmented switched-capacitor DACs

Modelling and analysis of ground bounce due to internal gate switching

Contact Info

Product

Resources

About