Wafer-level antenna effect detection pattern for VLSI

Assignee

• TAIWAN SEMICONDUCTOR MANUFACTURING COMPANY LTD. · TW

Inventors

• Chrong-Jung Lin · Taipei, TW
• Hsin-Ming Chen · Hsinchu, TW

Key dates

Classification

• Technology area (CPC H)Electricity
• CPC primaryH01L2924/0002
• WIPO fieldSemiconductors
• WIPO sectorElectrical engineering

Abstract

A test structure for evaluating plasma damage in thin gate oxides is formed with a single polysilicon floating gate EEPROM device on which an antenna structure delivers charge to a floating gate through a tunnel oxide. The floating gate extends beyond the MOSFET channel in one direction, passing over field oxide and terminating in a pad over a thin tunnel oxide window formed over an isolated n+ diffusion. The n+ diffusion is connected to a metal antenna structure which is exposed to a processing plasma. Charge accumulated on the antenna during plasma exposure causes a tunnel current to flow through the tunnel oxide, and charge to accumulate on the floating gate. A second extension of the polysilicon floating gate passes over a second field oxide region and terminates in a pad over a thicker oxide formed on a second isolated n+ diffusion. The second n+ diffusion forms the control gate of the EEPROM and is connected by wiring to a probe pad. The device is formed in the saw-kerf region of a product wafer. After exposure of the device to plasma processing, the device is tested in-line with conventional probe testing equipment. Threshold voltage is measured by applying a scanning voltag…