Title :
Characterization and comparison of single and stacked MIMC in copper interconnect Process for mixed-mode and RF applications
Author :
Ng, C.H. ; Ho, C.S. ; Toledo, N.G. ; Chu, S.-F.
Author_Institution :
Technol. Dev. Dept., Chartered Semicond. Manuf. Ltd., Singapore, Singapore
fDate :
7/1/2004 12:00:00 AM
Abstract :
This letter presents the dc and RF study and comparison on four manufacturable single- (one and dual additional masks) and stacked- (intraand multiple inter-) metal-insulator-metal capacitors (MIMCs) in a Cu dual-damascene backend of line process. The capacitors were found to exhibit low leakage and high breakdown field strength, absence of dispersive behavior, and good voltage and temperature linearity. Their quality factor (Q) values are different due to the different electrode series resistance as a result of different architectures. The stacked MIMC offers reduced chip area for the same capacitance value and is a viable manufacturable alternative for current and future precision mixed-mode capacitor incorporating SiN or high-κ dielectric materials.
Keywords :
MIM devices; capacitors; copper; integrated circuit interconnections; mixed analogue-digital integrated circuits; Cu; Cu dual-damascene backend; RF applications; breakdown field strength; copper interconnect process; dispersive behavior; electrode series resistance; leakage current; line process; metal-insulator-metal capacitors; mixed-mode applications; mixed-mode capacitor; quality factor; single MIMC; stacked MIMC; temperature linearity; voltage linearity; Breakdown voltage; Copper; Dispersion; Electrodes; Linearity; MIM capacitors; Manufacturing processes; Q factor; Radio frequency; Temperature; Breakdown field strength; MIMC; dielectric constant; metal-insulator-metal capacitor; silicon nitride; temperature coefficient of capacitance; voltage coefficient of capacitance;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2004.830283
