Magnetoresistive devices are important components in a large number of commercial electronic products in a wide range of applications including industrial position sensors, automotive sensors, hard disk read heads, cell phone compasses, and solid state memories. These devices are commonly based on anisotropic magnetoresistance (AMR) and giant magnetoresistance (GMR), but over the past few years tunneling magnetoresistance (TMR) has been emerging in more applications. Here we focus on recent work that has enabled the development of TMR magnetic field sensors with 1/f noise of less than 100 pT/rtHz at 1 Hz. Of the commercially available sensors, the lowest noise devices have typically been AMR, but they generally have the largest die size. Based on this observation and modeling of experimental data size and geometry dependence, we find that there is an optimal design rule that produces minimum 1/f noise. This design rule requires maximizing the areal coverage of an on-chip flux concentrator, providing it wi...
[1]
Philip W. T. Pong,et al.
Critical challenges for picoTesla magnetic-tunnel-junction sensors ☆
,
2009
.
[2]
Paulo P. Freitas,et al.
Low frequency picotesla field detection using hybrid MgO based tunnel sensors
,
2007
.
[3]
S. E. Russek,et al.
Picotesla Magnetic Sensors for Low-Frequency Applications
,
2011,
IEEE Transactions on Magnetics.
[4]
P. Lai,et al.
Review of Noise Sources in Magnetic Tunnel Junction Sensors
,
2011,
IEEE Transactions on Magnetics.
[5]
D. Robbes,et al.
Highly sensitive magnetometers—a review
,
2006
.