[1] CHE L F,LU Y, XU Z H. Finite element simulation on packaging of hinged high-g micromachined accelerometer[J].Opt.Precision Eng.,2007,15(2):199-205.(in Chinese)

[2] LIU J,QIN L, LIU J C,et al.. A novel differential piezoelectric accelerating sensor[J].Opt.Precision Eng.,2007,15(6):903-909.(in Chinese)

[3] DONG P T,LI X X, YANG H,et al.. High-performance monolithic triaxial piezoresistive shock accelerometers [J]. Sensors and Actuators A,2008,141:339-346.

[4] DONG J, LI X X, WANG Y L, et al..Silicon micromachined high-shock accelerometers with a curved-surface application structure for over-range stop protection and free-mode-resonance depression[J].Journal of Micromechanics and Microengineering,2002(12):742-746.

[5] TOGAMI T C, BAKER W E, FORRESTAL M J.A split Hopkinson bar technique to evaluate the performance of accelerometers [J]. Journal of Applied Mechanics,1996,63:353-356.

[6] TOGAMI T C, BROWN F A, FORRESTAL M J.et al.. Performance evaluation of accelerometers to 200,000G[J].Journal of Applied Mechanics,1998,65:266-268.

[7] LI Y L, GUO W G, JIA D X, et al.. An equipment for calibration high-shock accelerometer sensors[J].Explosion and Shock Waves,1997,17(1):90-96.(in Chinese)