Motz, A miniature digital current sensor with differential Hall probes using enhanced chopping techniques and mechanical stress compensation, in IEEE Sensors, 2012 (IEEE, 2012), pp. Schott et al., CMOS single-chip electronic compass with microcontroller. van der Meer et al., A fully integrated CMOS Hall sensor with a 3.65μT 3σ offset for compass applications, in IEEE ISSCC 2005 (IEEE, 2005), pp. Infineon, Application note, Current sensing using linear hall sensors. Pappas, High Sensitivity Magnetic Field Sensor Technology Overview (National Institute of Standards and Technology, NIST, Boulder). Xu et al., A ±4A high-side current sensor with 25V input CM range and 0.9% gain error from −40☌ to 85☌ using an analog temperature compensation technique, in IEEE ISSCC 2018 (IEEE, 2018), pp. Shalmany et al., A ☓6-A integrated current-sensing system with a 0.3% gain error and a 400-μA offset from −55 ☌ to +85☌. Shalmany et al., A ±5 A integrated current-sensing system with ☐.3% gain error and 16 μA offset from −55 ☌ to +85 ☌. Fan et al., A capacitively coupled chopper instrumentation amplifier with a ☓0V common-mode range, 160dB CMRR and 5μV offset, in IEEE ISSCC (IEEE, 2012), pp. Fan et al., Capacitively-Coupled Chopper Amplifiers (Springer, Cham, 2017) Tan et al., A fully isolated delta-sigma ADC for shunt based current sensing. Rothan et al., A ☑.5% nonlinearity 0.1-to-100A shunt current sensor based on a 6kV isolated micro-transformer for electrical vehicles and home automation, in IEEE ISSCC (IEEE, 2011), pp. Witte et al., A current-feedback instrumentation amplifier with 5 μV offset for bidirectional high-side current-sensing. Spaziani, Using copper PCB Etch for low value resistance, Unitrode (Texas Instruments) design note, DN71. Vishay Intertechnology Inc., Shunts, current shunts, and current-sensing resistors, An overview of resistor shunt products for current sensing. Aupetit, ST Microelectronics, Application Note AN4835, High-side current sensing for applications using high common-mode voltage. Maxim Integrated, Tutorial 746, High-side current-sense measurement: circuits and principles. Texas Instruments, Reference design, Automotive shunt-based ±500A precision current sensing reference design. Kindt, Current sense amplifiers with extended common mode voltage range, in Analog Circuit Design, ed. Texas Instruments, Application note SLYB194d, Current sense amplifiers. Andrews, Current sensing for inline motor-control applications, Application report SBOA172. Slowik et al., Selected current sensing circuits for motor control applications. Lepkowski, Motor control sensor feedback circuits, Application note AN894. Sengupta, Introduction to battery management, in Battery Charging – Texas Instruments Training, Lynch, Feedback in the fast lane – modeling current-mode control in high-frequency converters, Application paper. Forghani-zadeh et al., Current-sensing techniques for DC-DC converters, in IEEE MWSCAS (Aug 2002)ī. Patel et al., Advanced current sensing techniques for power electronic converters, in IEEE Vehicle Power and Propulsion Conference (Sept 2007) Zhang, Modeling and loop compensation design of switching mode power supplies, Application note 149. Yang, Peak current mode and continuous current mode DC-to-DC converter modeling and loop compensation design considerations, Technical article. (Linear Technology (ADI))Īutomotive current sensing. LTC6802-1 multicell battery stack monitor, datasheet. Douglass, Linear Technology (ADI), Battery management architectures for hybrid/electric vehicles. Regan et al., Current sense circuit collection, Application note 105. Maxim Integrated, Practical considerations for advanced current sensing in high-reliability systems, Application note 3883. Ziegler et al., Current sensing techniques: a review. Wells, Texas Instruments, A current sensing tutorial, parts 1 to 4.
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