News

[News] Texas Instruments Plans Large-Scale Transition of GaN Chip Production from 6-inch to 8-inch Wafers


2024-03-25 Semiconductors editor

According to a report from Korean media outlet THE ELEC, a senior executive at analog chip manufacturer Texas Instruments (TI) stated that the company is transitioning its production of gallium nitride (GaN) chips from several 6-inch fabs to 8-inch fabs.

The same report further noted that Jerome Shin, manager of Texas Instruments’ Korean subsidiary, stated at a press conference in Seoul that Texas Instruments is preparing to build 8-inch fabs in Dallas and Aizu, Japan. This move will enable the company to offer more competitively priced GaN chips.

Jerome Shin pointed out that there has been a shift in the perception of GaN chips compared to silicon carbide (SiC) chips since 2022. While GaN chips were previously considered more expensive, this perception is changing because Texas Instruments is transitioning its production from 6-inch fabs to 8-inch fabs. Producing larger wafers means more chips per wafer, leading to increased productivity and lower costs for GaN chips.

Currently, the price of GaN chips is already lower than that of SiC chips. Once the transformation of Texas Instruments’ fabs in Dallas and Aizu, Japan is completed, they will be able to offer even more affordable solutions. Expansion at the Dallas facility is expected to be completed by 2025, although Jerome Shin did not disclose the timetable for the Aizu facility.

However, some industry sources cited in the report suggest that Texas Instruments’ plan may lead to a comprehensive decline in GaN chip prices.

Currently, Texas Instruments is also transitioning the production of power management IC from 8-inch fabs to 12-inch fabs. This move has already resulted in a decrease in the prices of power management chips across the industry.

Still, reportedly, transitioning the production of power management chips from 8-inch fabs to 12-inch fabs could enable Texas Instruments to save over 10% in costs.

Read more

(Photo credit: Texas Instruments)

Please note that this article cites information from THE ELEC.

Get in touch with us