Texas Instruments provides a recommended PCB layout in the application note SLUAAC4, which includes guidelines for thermal vias, copper pours, and component placement to minimize thermal resistance and ensure optimal performance.
The LM95235 has a built-in calibration mechanism that can be accessed through the I2C interface. The device can be calibrated using the CAL_MODE register, which allows the user to adjust the temperature offset and gain to achieve high accuracy. Refer to the datasheet and application notes for detailed calibration procedures.
The maximum cable length for the I2C interface depends on the clock frequency, bus capacitance, and noise tolerance. As a general guideline, Texas Instruments recommends keeping the cable length below 10 inches (25 cm) for a 400 kHz clock frequency. However, longer cable lengths can be achieved with proper signal conditioning and noise filtering.
The LM95235 is specified to operate from a 3.0V to 3.6V power supply. While it may be possible to operate the device at 5V, it is not recommended as it may exceed the absolute maximum ratings and affect the device's reliability and accuracy. Texas Instruments recommends using a 3.3V or 3.0V power supply for optimal performance.
The LM95235 has built-in thermal shutdown and fault detection mechanisms. The device can be configured to generate an interrupt or reset signal when a thermal fault occurs. The user can also monitor the device's status registers to detect faults and take corrective action. Refer to the datasheet and application notes for detailed information on thermal shutdown and fault detection.
LM95235DIMMX/NOPB datasheet
by Texas Instruments
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