System integration design in MEMS — A case study of micromachined load cell

Abstract: One of the critical issues in large scale commercial exploitation of MEMS technology is its system integration. In MEMS, a system design approach requires integration of varied and disparate subsystems with one of a kind interface. The physical scales as well as the magnitude of signals of various subsystems vary widely. Known and proven integration techniques often lead to considerable loss in advantages the tiny MEMS sensors have to offer. Therefore, it becomes imperative to think of the entire system at the… Show more

“…More particularly, piezoresistive MEMS strain sensors are favourable and attractive, due to a number of key advantages such as high sensitivity [17], low noise, better scaling characteristics, low cost and their ability to have the detection electronics circuit further away from the sensor, or on the same sensing board. Moreover, they have high potential for monolithic integration with low-power CMOS electronics and piezoresistive strain sensors and need less complicated conditioning circuits.…”

Mechatronic Scanning System with Integrated Micro Electro Mechanical System Position Sensors

“…More particularly, piezoresistive MEMS strain sensors are favourable and attractive, due to a number of key advantages such as high sensitivity [17], low noise, better scaling characteristics, low cost and their ability to have the detection electronics circuit further away from the sensor, or on the same sensing board. Moreover, they have high potential for monolithic integration with low-power CMOS electronics and piezoresistive strain sensors and need less complicated conditioning circuits.…”

Mechatronic Scanning System with Integrated Micro Electro Mechanical System Position Sensors