傳感器
TMR2102 大動態范圍TMR線性傳感器
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  • sop8
  • dfn8l(3x3x0.75)
  • sop8
  • dfn8l(3x3x0.75)
產品型號:TMR2102
兼容型號:MMLP57F
磁阻結構:全橋
供電電壓:0~7 V
敏度(mV/V/Oe):4.9
電阻(kΩ):90/45
飽和場(Oe):±90
敏感方向:X軸
磁滯(Oe):0.1
本底噪聲(nT/rt(Hz) @1Hz):~10
封裝形式:SOP8 DFN8L(3×3×0.75)
交付周期:In stock
規格說明書:
  • TMR2102

產品概述:TMR2102采用了一個獨特的推挽式惠斯通全橋結構設計,包含四個非屏蔽高靈敏度TMR傳感器元件。當外加磁場沿平行于傳感器敏感方向變化時,惠斯通全橋提供差分電壓輸出,并且該輸出具有良好的溫度穩定性。TMR2102性能優越,采用兩種封裝形式:SOP8(6mm × 5mm × 1.5mm)和DFN8(3mm × 3mm × 0.75mm)。

 

產品特性:(1)隧道磁電阻(TMR)技術;(2)高靈敏度;(3)寬動態范圍;(4)更低功耗;(5)優越的溫度穩定性;(6)極低的磁滯;(7)寬工作電壓范圍

 

典型應用:(1)磁力計;(2)電流傳感器;(3)工業流量計;(4)位置傳感器;(5)角度傳感器

sop8 dfn8l(3x3x0.75)


參考文獻:

[1]Luong V S, Chang C H, Jeng J T, et al. Reduction of Low-Frequency Noise in Tunneling-Magnetoresistance Sensors With a Modulated Magnetic Shielding[J]. IEEE Transactions on Magnetics, 2014, 50(11):1-4.

摘要:The high-noise level at low frequency in magnetic tunnel junction (MTJ) sensors is the key problem for their applications in measuring the low values of static magnetic field. In this paper, we investigated a shielding-type flux chopper to resolve the 1/f noise issue. By the using a cylindrical chopper with its axis perpendicular to the sensing direction of MTJ sensor, the noise at 1 Hz was reduced from 4 to 0.3 nT/rtHz by chopping the magnetic flux at 5 kHz. The reduction in noise can be qualitatively explained by the 1/f behavior and the chopping efficiency. The proposed method is promising in enhancing the detectivity of MTJ sensor for sensing the static geomagnetic field.

出版源:《IEEE Transactions on Magnetics》, 2014, 50(11):1-4

關鍵詞:1/f noise / magnetic field measurement / magnetic flux / magnetic noise / magnetic sensors / magnetic shielding / magnetoresistive devices / tunnelling magnetoresistance / 1/f noise / MTJ sensor


[2]Development of low-noise three-axis magnetometer with tunneling-magnetoresistance sensors

摘要:Three dimensional magnetic sensors play important roles for multiple applications, e g position sensing, automotive application, and geomagnetic navigation. In recent decades, many groups developed various kinds of vector magnetometer, including Hall effect, the anisotro-pic magnetoresistance (AMR) effect, giant magnetoresistance (GMR) sensors, and tunneling magnetoresistance (TMR) magnetometer. For all the designs, the inaccuracy in alignment of sensors or flux-guide leads to non-orthogonality between each sensing directions Another issue on three-axis magnetometer is to achieve a low-noise without increasing the size too much. In order to deal with this issues, several extrinsic methods have been reported, e g TMR arrays, flux concentrator, and flux-chopping techniques. Interestingly, the 1/f noise can be reduced by a factor of 12 with a shielding type magnetic flux chopper, which was realized successfully in the ref. In this work, we design and manufacture a low-noise vector magnetometer comprising three TMR sensors orthogonally aligned and placed in the central of a shielding flux chopper The non-orthogonality issue can be solved by the calibration process using a voltage-to-field transfer matrix.

出版源:IEEE Magnetics Conference, 2015

關鍵詞:1/f noise / Hall effect / geomagnetic navigation / giant magnetoresistance / magnetic anisotropy / magnetic sensors / magnetometers / magnetoresistive devices / tunnelling magnetoresistance / 1/f noise

                                                                                                                         

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