Because the LMT01-Q1 is only a 2-pin device the power pins are common with the signal pins, thus the LMT01-Q1 has a floating supply that can vary greatly. The LMT01-Q1 has an internal regulator that provides a stable voltage to internal circuitry.

Take care to prevent reverse biasing of the LMT01-Q1 as exceeding the absolute maximum ratings may cause damage to the device.

Power supply ramp rate can effect the accuracy of the first result transmitted by the LMT01-Q1. As shown in Figure 30 with a 1-ms rise time, the LMT01-Q1 output code is at 1286, which converts to 30.125°C. The scope photo shown in Figure 31 reflects what happens when the rise time is too slow. In Figure 31, the power supply (yellow trace) is still ramping up to final value while the LMT01-Q1 (red trace) has already started a conversion. This causes the output pulse count to decrease from the previously shown 1286, to 1282 (or 29.875°C). Thus, for slow ramp rates, TI recommends that the first conversion be discarded. For even slower ramp rates, more than one conversion may have to be discarded as TI recommends that either the power supply be within final value before a conversion is used or that ramp rates be faster than 2.5 ms.

Yellow trace = 1 V/div, Red trace = 100 mV/div, Time Base = 20 ms/div
TA= 30°C	LMT01 Pulse Count = 1286
VP-VN = 3.3 V	Rise Time = 1 ms

Figure 30. Output Pulse Count With Appropriate Power Supply Rise Time

Yellow trace = 1V/div, Red trace = 100 mV/div, Time base = 20 ms/div
TA=30°C	LMT01 Pulse Count = 1282
VP-VN=3.3 V	Rise Time = 100 ms

Figure 31. Output Pulse Count With Slow Power Supply Rise Time