Title :
Substrate Effects on Resonant Frequency of Silicon-Based RF On-Chip MIM Capacitor
Author :
Xiong, Yong-Zhong ; Yu, Ming-Bin ; Lo, Guo-Qiang ; Li, Ming-Fu ; Kwong, Dim-Lee
Author_Institution :
Inst. of Microelectron., Singapore
Abstract :
This brief presents an analytical model that describes a silicon-based RF on-chip metal-insulator-metal (MIM) capacitor including the parasitics originating from its coupling with backend intermetal dielectric (IMD) scheme and the substrate. Results show that the resonant frequency fre depends on the intrinsic capacitance, inductance, and substrate effects of the MIM. The model and fre formula are verified experimentally for several types of MIM capacitors (i.e., high kappa and Si3N4 based) integrated on different IMDs (e.g., undoped glass and low kappa). The results also show that for a given CMIM, if the capacitance density is increased further so that the area is shrunk, and the inductances are reduced to a level that is comparable to the substrate effects from item epsiv0epsivrrhoSi heff|SiR2/heff|IMD, then further fre improvement could be limited
Keywords :
MIM devices; capacitors; silicon; backend intermetal dielectric; capacitance density; metal-insulator-metal capacitor; on-chip capacitor; resonant frequency; silicon-based radiofrequency on-chip MIM capacitor; substrate effects; Analytical models; Dielectric substrates; Glass; Inductance; MIM capacitors; Metal-insulator structures; Microelectronics; Parasitic capacitance; Radio frequency; Resonant frequency; Backend intermetal dielectric (IMD); high; metal-insulator-metal (MIM); modeling; on-chip capacitor; resonant frequency;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2006.883677
