Frequency characteristics of integral Hall sensor

The results of device-technological and schematic simulation of the silicon Hall sensor with the purpose of determine its dynamic characteristics are presented. The influence of the dimensions of the active region is investigated, the theoretical and actual values of the upper limit of the bandwidth of the Hall sensor are determined, taking into account the internal parasitic capacitance, and the presence and absence of a capacitive load. The characteristics of the Hall sensor combined on a single crystal with a differential amplifier are simulated.

Hall sensor, device-technological and schematic simulation, capacitive load, differential amplifier

1. Bandwidth limits in Hall effect based current sensors / C. Marco [et al.] // Acta Imeko. 2017. Vol. 6, No. 4. P. 17-24.

2. Crescentini M., Romani A., Sangiorgi E. Physical simulations of response time in Hall sensor devices // Ultimate Integration on Silicon (ULIS). 2014. P. 89-92.

3. Optimum Design Rules for CMOS Hall Sensors / M. Crescentini [et al.] // Sensors. 2017. Vol. 17. P. 1-13.

4. MLX91208, 250 kHz Programmable IMC-Hall Current Sensor [Electronic resource]. URL: https://www.melexis.com/-/media/files/documents/datasheets/mlx91208-datasheet-melexis.pdf (access date: 16.05.2018).

5. ACS709, High-Bandwidth, Fast Fault Response Current Sensor IC in Thermally Enhanced Package [Electronic resource]. URL: https://www.allegromicro.com/en/Products/Current-Sensor-ICs/Zero-To-Fifty-Amp-Integrated-Conductor-Sensor-ICs/ACS709/ACS709-Frequently-Asked-Questions.aspx (access date: 16.05.2018).

6. Allegro A1363 [Electronic resource]. - URL: http://allegromicro.com/en/Products/Current-Sensor-ICs/SIP-Package-Zero-To-Thousand-Amp-Sensor-ICs/A1363.aspx.

7. Popovic R. Hall Effect Devices. CRC Press, Boca Raton (FL). 2004. 426 p.

8. Дао Динь Ха, Стемпицкий В.Р. Исследование характеристик датчика холла с различной геометрией активной области // Нано- и микросистемная техника. 2018. T. 20, № 3. С. 174-186.

9. Paun M., Sallese J., Kayal M. Comparative Study on the Performance of Five Different Hall Effect Devices // Sensors. 2013. Vol. 13. P. 2093-2112.

10. Абрамов И. Моделирование элементов интегральных схем: учеб. пособие. Минск: Изд. БГУ, 1999. 92 с.

11. Нелаев В., Стемпицкий В. Основы САПР в микроэлектронике. Моделирование технологии и прибора. Минск: БГУИР, 2008. 220 с.

12. Silvaco [Electronic resource]. - URL: https://www.silvaco.com (access date: 16.05.2018).

13. Dao Dinh Ha, Stempitsky V., Tran Tuan Trung. Verilog-A compact model of the silicon Hall element // Integrated Circuits, Design, and Verification. 2017. P. 41-46. References

14. Bandwidth limits in Hall effect based current sensors / C. Marco [et al.] // Acta Imeko. 2017. Vol. 6, No. 4. P. 17-24.

15. Crescentini M., Romani A., Sangiorgi E. Physical simulations of response time in Hall sensor devices // Ultimate Integration on Silicon (ULIS). 2014. P. 89-92.

16. Optimum Design Rules for CMOS Hall Sensors / M. Crescentini [et al.] // Sensors. 2017. Vol. 17. P. 1-13.

17. MLX91208, 250 kHz Programmable IMC-Hall Current Sensor [Electronic resource]. URL: https://www.melexis.com/-/media/files/documents/datasheets/mlx91208-datasheet-melexis.pdf (access date: 16.05.2018).

18. ACS709, High-Bandwidth, Fast Fault Response Current Sensor IC in Thermally Enhanced Package [Electronic resource]. URL: https://www.allegromicro.com/en/Products/Current-Sensor-ICs/Zero-To-Fifty-Amp-Integrated-Conductor-Sensor-ICs/ACS709/ACS709-Frequently-Asked-Questions.aspx (access date: 16.05.2018).

19. Allegro A1363 [Electronic resource]. - URL: http://allegromicro.com/en/Products/Current-Sensor-ICs/SIP-Package-Zero-To-Thousand-Amp-Sensor-ICs/A1363.aspx.

20. Popovic R. Hall Effect Devices. CRC Press, Boca Raton (FL). 2004. 426 p.

21. Дао Динь Ха, Стемпицкий В.Р. Исследование характеристик датчика холла с различной геометрией активной области // Нано- и микросистемная техника. 2018. T. 20, № 3. С. 174-186.

22. Paun M., Sallese J., Kayal M. Comparative Study on the Performance of Five Different Hall Effect Devices // Sensors. 2013. Vol. 13. P. 2093-2112.

23. Абрамов И. Моделирование элементов интегральных схем: учеб. пособие. Минск: Изд. БГУ, 1999. 92 с.

24. Нелаев В., Стемпицкий В. Основы САПР в микроэлектронике. Моделирование технологии и прибора. Минск: БГУИР, 2008. 220 с.

25. Silvaco [Electronic resource]. - URL: https://www.silvaco.com (access date: 16.05.2018).

26. Dao Dinh Ha, Stempitsky V., Tran Tuan Trung. Verilog-A compact model of the silicon Hall element // Integrated Circuits, Design, and Verification. 2017. P. 41-46.