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Parameters Identification of Embedded PTAT Temperature Sensors for CMOS Circuits

Parameters Identification of Embedded PTAT Temperature Sensors for CMOS Circuits. MIXDES '07. 14th International Conference on Mixed Design of Integrated Circuits and Systems, 2007 IEEE Speaker : Shun-He Huang. Outline. Introduction PTAT circuit Layout of the test chip

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Parameters Identification of Embedded PTAT Temperature Sensors for CMOS Circuits

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  1. Parameters Identification of Embedded PTAT Temperature Sensors for CMOS Circuits MIXDES '07. 14th International Conference on Mixed Design of Integrated Circuits and Systems, 2007 IEEE Speaker: Shun-He Huang

  2. Outline • Introduction • PTAT circuit • Layout of the test chip • Simulations and Measurements • Conclusion

  3. Introduction • The temperature sensors have become common elements in wide range of modern integrated circuits. • The main parameters of temperature sensors are: temperature range, sensitivity, output range, linearity, accuracy. • This paper describe the PTAT (proportional to absolute temperature) temperature sensors that are implemented in the test chip and dedicated to CMOS integrated circuits.

  4. PTAT circuit △VBE=VBE1-VBE2 =VTln(N) =KT/q*ln(N) I2=VT*ln(N)/R1 IPTAT=I5 =W5/W4*I2

  5. Parameters of the PTAT sensor

  6. Layout of the test chip The locations and orientation of the test temperature sensors

  7. Thermal chamber Enlarged test chip in the chamber The photo of the device

  8. Simulation and Measurement • The test chip suppy voltage is 5V. • The measurements were performed in a thermal chamber for the temperature range of 288-358 K. • The achieved sensitivities of the temperature sensors are within following limits 3.44 to 4.82 mV/K.

  9. Output voltage vs. temperature of the PTAT_1 sensor Temperature vs. output voltage of the PTAT_1 sensor

  10. Temperature vs. output voltage of the sensors, which have orientation O1 Temperature vs. output voltage of the sensors, which have orientation O2

  11. Temperature vs. output voltage of the sensors, which have orientation O3 Temperature vs. output voltage of the sensors, which have orientation O4

  12. Exemplary results of temperature measurementsfor the PTAT_1 sensor

  13. Conclusion • The presented temperature sensors are one of the most important elements that are implemented in the test chip. • Their parameters such as linearity and sensitivity are good enough to dedicated purposes. • The self-heating effect and electro-thermal interactions also will be using this chip.

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