CMOS Manufacturing Process
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CMOS Manufacturing Process Digital Integrated Circuits Manufacturing Process EE141 CMOS Process Digital Integrated Circuits Manufacturing Process EE141 A Modern CMOS Process gate-oxide TiSi2 AlCu SiO2 Tungsten poly p-well n+ SiO2 n-well p-epi p+ p+ Dual -Well Trench -Isolated CMOS Process Digital Integrated Circuits Manufacturing Process EE141 Circuit Under Design VDD VDD M2 M4 Vout Vin M1 Vout2 M3 This two-inverter circuit (of Figure 3.25 in the text) will be manufactured in a twin-well process. Digital Integrated Circuits Manufacturing Process EE141 Circuit Layout Digital Integrated Circuits Manufacturing Process EE141 The Manufacturing Process For a great tour through the process and its different steps, check http://www.fullman.com/semiconductors/semiconductors.html For a complete walk-through of the process (64 steps), check the Book web-page http://bwrc.eecs.berkeley.edu/Classes/IcBook Digital Integrated Circuits Manufacturing Process EE141 Photo-Lithographic Process optical mask oxidation photoresist removal (ashing) photoresist coating stepper exposure Typical operations in a single photolithographic cycle (from [Fullman]). photoresist development acid etch process step Digital Integrated Circuits spin, rinse, dry Manufacturing Process EE141 Patterning of SiO2 Chemical or plasma etch Si-substrate Hardened resist SiO 2 (a) Silicon base material Si-substrate Photoresist SiO2 (d) After development and etching of resist, chemical or plasma etch of SiO 2 Si-substrate Hardened resist SiO 2 (b) After oxidation and deposition of negative photoresist Si-substrate UV-light Patterned optical mask (e) After etching Exposed resist Si-substrate (c) Stepper exposure Digital Integrated Circuits SiO 2 Si-substrate (f) Final result after removal of resist Manufacturing Process EE141 CMOS Process at a Glance Define active areas Etch and fill trenches Implant well regions Deposit and pattern polysilicon layer Implant source and drain regions and substrate contacts Create contact and via windows Deposit and pattern metal layers Digital Integrated Circuits Manufacturing Process EE141 CMOS Process Walk-Through p-epi (a) Base material: p+ substrate with p-epi layer p+ SiN 34 p-epi SiO 2 (b) After deposition of gate-oxide and sacrificial nitride (acts as a buffer layer) p+ (c) After plasma etch of insulating trenches using the inverse of the active area mask p+ Digital Integrated Circuits Manufacturing Process EE141 CMOS Process Walk-Through SiO 2 (d) After trench filling, CMP planarization, and removal of sacrificial nitride n p Digital Integrated Circuits (e) After n-well and VTp adjust implants (f) After p-well and VTn adjust implants Manufacturing Process EE141 CMOS Process Walk-Through poly(silicon) (g) After polysilicon deposition and etch n+ p+ (h) After n+ source/drain and p+source/drain implants. These steps also dope the polysilicon. SiO2 (i) After deposition of SiO 2 insulator and contact hole etch. Digital Integrated Circuits Manufacturing Process EE141 CMOS Process Walk-Through Al (j) After deposition and patterning of first Al layer. Al SiO 2 (k) After deposition of SiO insulator, etching of via’s, 2 deposition and patterning of second layer of Al. Digital Integrated Circuits Manufacturing Process EE141 Advanced Metalization Digital Integrated Circuits Manufacturing Process EE141 Advanced Metalization Digital Integrated Circuits Manufacturing Process EE141 Design Rules Jan M. Rabaey Digital Integrated Circuits Manufacturing Process EE141 3D Perspective Polysilicon Digital Integrated Circuits Manufacturing Process Aluminum EE141 Design Rules l l l Interface between designer and process engineer Guidelines for constructing process masks Unit dimension: Minimum line width » scalable design rules: lambda parameter » absolute dimensions (micron rules) Digital Integrated Circuits Manufacturing Process EE141 CMOS Process Layers Layer Color Well (p,n) Yellow Active Area (n+,p+) Green Select (p+,n+) Green Polysilicon Red Metal1 Blue Metal2 Magenta Contact To Poly Black Contact To Diffusion Black Via Black Digital Integrated Circuits Manufacturing Process Representation EE141 Layers in 0.25 µm CMOS process Digital Integrated Circuits Manufacturing Process EE141 Intra-Layer Design Rules Same Potential 0 or 6 Well Different Potential 2 9 Polysilicon 2 10 3 Active Contact or Via Hole 3 2 3 Metal1 2 3 2 Select 4 Metal2 3 Digital Integrated Circuits Manufacturing Process EE141 Transistor Transistor Layout 1 3 2 5 Digital Integrated Circuits Manufacturing Process EE141 Vias and Contacts 2 4 Via 1 1 5 Metal to 1 Active Contact Metal to Poly Contact 3 2 2 2 Digital Integrated Circuits Manufacturing Process EE141 Select Layer 2 Select 3 2 1 3 3 2 5 Well Substrate Digital Integrated Circuits Manufacturing Process EE141 CMOS Inverter Layout In GND VD D A A’ Out (a) Layout A A’ n p-substrate n+ p+ Field Oxide (b) Cross-Section along A-A’ Digital Integrated Circuits Manufacturing Process EE141 Layout Editor Digital Integrated Circuits Manufacturing Process EE141 Design Rule Checker poly_not_fet to all_diff minimum spacing = 0.14 um. Digital Integrated Circuits Manufacturing Process EE141 Sticks Diagram V DD 3 Out In 1 • Dimensionless layout entities • Only topology is important • Final layout generated by “compaction” program GND Stick diagram of inverter Digital Integrated Circuits Manufacturing Process EE141
