Patent ID: 10483287

Abstract:
Transistors formed on semiconductor substrates are not well-suited for integrated circuits employed in media designed to structurally flex to conform to a shaped surface or in response to physical stress. Structural flexing of wearable electronic devices, such as clothing, may cause cracking in the semiconductor substrate, resulting in failure of the integrated circuits. TFTs formed on flexible substrates can withstand structural flexing without failure. CMOS circuits are employed due to cost, performance, and power efficiency considerations. To provide increased drive strength for such applications, a flexible TFT structure for a CMOS circuit disclosed herein includes an exemplary NFET integrated with a complementary PFET on a flexible substrate. By forming a top gate on a semiconductor layer of a FET opposite to a bottom gate formed between the semiconductor layer and the flexible substrate, an effective thickness of an inversion channel layer induced in the semiconductor layer is doubled.