LM76-NEVAL National Semiconductor, LM76-NEVAL Datasheet - Page 6

LM76-NEVAL

Manufacturer Part Number

LM76-NEVAL

Description

EVALUATION BOARD FOR LM76-N

Manufacturer

National Semiconductor

Datasheets

1.LM76CHM-5NOPB.pdf (18 pages)

2.LM76-NEVAL.pdf (3 pages)

3.LM76-NEVAL.pdf (16 pages)

Specifications of LM76-NEVAL

Sensor Type

Temperature

Sensing Range

-55°C ~ 125°C

Interface

I²C

Sensitivity

±1°C

Voltage - Supply

3.3V

Embedded

Utilized Ic / Part

LM76

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

*LM76-NEVAL

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Note 1: Absolute Maximum Ratings indicate limits beyond which damage to the device may occur. DC and AC electrical specifications do not apply when operating

the device beyond its rated operating conditions.

Note 2: When the input voltage (V

maximum package input current rating limits the number of pins that can safely exceed the power supplies with an input current of 5 mA to four.

Note 3: See AN-450 “Surface Mounting Methods and Their Effect on Product Reliability” or the section titled “Surface Mount” found in a current National

Semiconductor Linear Data Book for other methods of soldering surface mount devices.

Note 4: Human body model, 100 pF discharged through a 1.5 kΩ resistor. Machine model, 200 pF discharged directly into each pin.

Note 5: LM76 θ

Note 6: While the LM76 has a full-scale-range in excess of 128˚C, prolonged operation at temperatures above 125˚C is not recommended.

Note 7: The LM76 will operate properly over the +V

specified for rated accuracy at the nominal supply voltage of 3.3V. Accuracy of the LM76CNM-3 will degrade 0.2˚C for a

The LM76CHM-5 is tested and specified for a rated accuracy at the nominal supply voltage of 5.0V. Accuracy of the LM76CHM-5 will degrade 0.08˚C for a

variation in +V

Note 8: Typicals are at T

Note 9: Limits are guaranteed to National’s AOQL (Average Outgoing Quality Level).

Note 10: 12 bits + sign, two’s complement

Note 11: This specification is provided only to indicate how often temperature data is updated. The LM76 can be read at any time without regard to conversion state

(and will yield last conversion result). If a conversion is in process it will be interrupted and restarted after the end of the read.

Note 12: For best accuracy, minimize output loading. Higher sink currents can affect sensor accuracy with internal heating. This can cause an error of 0.64˚C at full

rated sink current and saturation voltage based on junction-to-ambient thermal resistance.

Note 13: Hysteresis value adds to the T

subtracts from the T

discussion of the function of hysteresis refer to Section 1.1, TEMPERATURE COMPARISON, and Figure 3.

Note 14: Default values set at power up.

1.0 Functional Description

The LM76 temperature sensor incorporates a band-gap type

temperature sensor, 13-bit ADC, and a digital comparator

with user-programmable upper and lower limit values. The

comparator activates either the INT line for temperatures

outside the T

for temperatures which exceed T_CRIT. The lines are pro-

grammable for mode and polarity.

1.1 TEMPERATURE COMPARISON

LM76 provides a window comparison against a lower (T

and upper (T

(T_CRIT) functions as a critical alarm shutdown. Figure 3

depicts the comparison function as well as the modes of

operation.

from the nominal value.

LOW

HIGH

(thermal resistance, junction-to-ambient) when attached to a printed circuit board with 2 oz. foil is 200˚C/W.

HIGH

and T

) trip point. A second upper trip point

and T_CRIT setpoints (e.g.: if T

FIGURE 2. Temperature-to-Digital Transfer Function (Non-linear scale for clarity)

= 25˚C and represent most likely parametric norm.

HIGH

) at any pin exceeds the power supplies (V

window, or the T_CRIT_A line

LOW

setpoint value (e.g.: if T

supply voltage range of 3V to 5.5V for the LM76CNM-3 and the LM76CHM-5. The LM76CNM-3 is tested and

HIGH

setpoint = 64˚C, and hysteresis = 2˚C, then actual hysteresis point is 64−2 = 62˚C). For a detailed

LOW

setpoint = 10˚C, and hysteresis = 2˚C, then actual hysteresis point is 10+2 = 12˚C); and

)

GND or V

1.1.1 Status Bits

The internal Status bits operate as follows:

“True”: Temperature above a T

those respective bits. A “true” for T

“False”: Assuming temperature has previously crossed

above T

below the points corresponding T

T_CRIT − T

+ T

The Status bits are not affected by reads or any other

actions, and always represent the state of temperature vs.

setpoints.

LOW

HYST

, assuming temperature has previously crossed below

, a “false” occurs when temperature goes above T

HIGH

) the current at that pin should be limited to 5 mA. The 20 mA

HYST

or T_CRIT, then the temperature must drop

) in order for the condition to be false. For

1% variation in +V

10101505

HIGH

LOW

HYST

or T_CRIT is “true” for

is temperature below

from the nominal value.

HIGH

− T

HYST

LOW

LM76-NEVAL National Semiconductor, LM76-NEVAL Datasheet - Page 6

LM76-NEVAL

Specifications of LM76-NEVAL

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