Title :
Trade-off between high-side capability and substrate minority carrier injection in deep sub-micron smart power technologies
Author :
Khemka, V. ; Parthasarathy, V. ; Zhu, R. ; Bose, A. ; Roggenbauer, T.
Author_Institution :
Semicond. Products Sector, Motorola Inc., Tempe, AZ, USA
Abstract :
In this paper we present an evaluation of trade-off capability between high-side capability and minority carrier injection into substrate in smart power technologies. While high-side capability is easier to accomplish on lightly doped p-type substrates, the suppression of minority carrier injection is extremely poor. Techniques such as active protection, while useful in stand-alone configuration, show significant problems in actual circuits in a product. On the other hand use of a P++ substrate to improve substrate injection suppression poses significant challenges in achieving high-side voltage. We propose a new scheme of integrating deep trench based isolation with P++ substrate to realize an excellent trade-off between the two.
Keywords :
CMOS integrated circuits; charge injection; minority carriers; power integrated circuits; substrates; P++ substrate; active protection; deep sub-micron smart power technology; deep trench; high-side capability; high-side voltage; lightly doped p-type substrate; stand-alone configuration; substrate minority carrier injection; trade-off capability; Breakdown voltage; CMOS technology; Electrons; Epitaxial growth; Isolation technology; MOSFET circuits; Motion control; Power MOSFET; Protection; Substrates;
Conference_Titel :
Power Semiconductor Devices and ICs, 2003. Proceedings. ISPSD '03. 2003 IEEE 15th International Symposium on
Print_ISBN :
0-7803-7876-8
DOI :
10.1109/ISPSD.2003.1225273
