MLX90614ESF-AAC MELEXIS [Melexis Microelectronic Systems], MLX90614ESF-AAC Datasheet - Page 22

MLX90614ESF-AAC

Manufacturer Part Number

MLX90614ESF-AAC

Description

Single and Dual Zone Infra Red Thermometer in TO-39

Manufacturer

MELEXIS [Melexis Microelectronic Systems]

Datasheet

1.MLX90614ESF-AAC.pdf (40 pages)

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8.7 Computation of ambient and object temperatures

The IR sensor consists of serial connected thermo-couples with cold junctions placed at thick chip substrate

and hot junctions, placed over thin membrane. The IR radiation absorbed from the membrane heats (or

cools) it. The thermopile output signal is:

Where To is the object temperature absolute (Kelvin) temperature, Ta is the sensor die absolute (Kelvin)

temperature, and A is the overall sensitivity.

An on board temperature sensor is needed to measure the chip temperature. After measurement of the

output of both sensors, the corresponding ambient and object temperatures can be calculated. These

calculations are done by the internal DSP, which produces digital outputs, linearly proportional to measured

temperatures.

8.7.1 Ambient temperature Ta

The Sensor die temperature is measured with a PTC or a PTAT element. All the sensors’ conditioning and

data processing is handled on-chip and the linearized sensor die temperature Ta is made available in

memory.

The resolution of the calculated temperature is 0.02 ˚C. The sensor is factory calibrated for the full automotive

range (-40 to 125 ˚C). In RAM cell 006h, 2DE4h corresponds to -38.2 ˚C (linearization output lower limit) and

4DC4h (19908d) corresponds to 125 ˚C. The conversions from RAM contend to real Ta is easy using the

following relation:

8.7.2 Object temperature To

The result has a resolution of 0.02 ˚C and is available in RAM. To is derived from RAM as:

8.7.3 Calculation flow

The measurement, calculation and linearization are held by core, which executes a program form ROM.

After POR the chip is initialized with calibration data from EEPROM. During this phase the number of IR

sensors is selected and it is decided which temperature sensor will be used. Measurements, compensation

and linearization routines run in a closed loop afterwards.

Processing ambient temperature includes:

Processing of the object temperature consists of three parts. The first one is common for both IR sensors, the

third part can be skipped if only one IR sensor is used.

3901090614

Rev 003

[

]

Offset measurement with fixed length FIR filter

Additional filtering with fixed length IIR filter. The result is stored into RAM as T

Temperature sensor measurement using programmable length FIR *.

Offset compensation

Additional processing with programmable length IIR **. The result is stored into RAM as T

Calculation of the ambient temperature. The result is stored into RAM as T

IR offset:

Tareg

Toreg

Offset measurement with a fixed length FIR

Additional filtering with a fixed length IIR. The result is stored into RAM as IR

. 0

, or 0.02 °K / LSB.

(

Page 22 of 40

)

(

Infra Red Thermometer in TO-39

−

MLX90614 family

)

Single and Dual Zone

Data Sheet

03/Oct/2007

MLX90614ESF-AAC MELEXIS [Melexis Microelectronic Systems], MLX90614ESF-AAC Datasheet - Page 22

MLX90614ESF-AAC

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