MAX1455AAE-T Maxim Integrated Products, MAX1455AAE-T Datasheet - Page 6

MAX1455AAE-T

Manufacturer Part Number

MAX1455AAE-T

Description

Board Mount Temperature Sensors Automotive Sensor Signal Conditioner

Manufacturer

Maxim Integrated Products

Datasheet

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Specifications of MAX1455AAE-T

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The MAX1455 allows complete calibration and sensor

verification to be performed at a single test station. Once

calibration coefficients have been stored in the ASIC, the

customer can choose to retest in order to verify perfor-

mance as part of a regular QA audit or to generate final

test data on individual sensors. In addition, Maxim has

developed a pilot production test system to reduce time

to market. Engineering test evaluation and pilot produc-

tion of the MAX1455 can be performed without expending

the cost and time to develop in-house test capabilities.

Contact Maxim for additional information.

Frequency response can be user adjusted to values

lower than the 3.2kHz bandwidth by using the uncom-

mitted op amp and simple passive components.

The MAX1455 (Figure 1) provides an analog amplifica-

tion path for the sensor signal. It uses a digitally con-

trolled analog path for nonlinear temperature correction.

For PRT applications, analog architecture is available for

first-order temperature correction. Calibration and cor-

rection are achieved by varying the offset and gain of a

PGA and by varying the sensor bridge excitation current

or voltage. The PGA utilizes a switched capacitor CMOS

technology, with an input-referred offset trimming range

of more than ±150mV with an approximate 3µV resolution

(16 bits). The PGA provides gain values from 39V/V to

234V/V in 16 steps.

The MAX1455 uses four 16-bit DACs with calibration

coefficients stored by the user in an internal 768 x 8

EEPROM (6144 bits). This memory contains the follow-

ing information, as 16-bit-wide words:

•

Initial offset correction is accomplished at the input

stage of the signal gain amplifiers by a coarse offset

setting. Final offset correction occurs through the use of

a temperature-indexed lookup table with one hundred

seventy-six 16-bit entries. The on-chip temperature sen-

sor provides a unique 16-bit offset trim value from the

table with an indexing resolution of approximately 1.5°C

from -40°C to +125°C. Every millisecond, the on-chip

temperature sensor provides indexing into the offset

lookup table in EEPROM and the resulting value is

Low-Cost Automotive Sensor Signal

Conditioner

Configuration register

Offset calibration coefficient table

Offset temperature coefficient register

FSO calibration coefficient table

FSO temperature correction register

52 bytes (416 bits) uncommitted for customer pro-

gramming of manufacturing data (e.g., serial num-

ber and date)

_______________________________________________________________________________________

Offset Correction

transferred to the offset DAC register. The resulting volt-

age is fed into a summing junction at the PGA output,

compensating the sensor offset with a resolution of

±76µV (±0.0019% FSO). If the offset TC DAC is set to

zero, then the maximum temperature error is equivalent

to 1°C of temperature drift of the sensor, given that the

Offset DAC has corrected the sensor every 1.5°C. The

temperature indexing boundaries are outside the speci-

fied absolute maximum ratings. The minimum indexing

value is 00hex, corresponding to approximately -69°C.

All temperatures below this value output the coefficient

value at index 00hex. The maximum indexing value is

AFhex, which is the highest lookup table entry. All tem-

peratures higher than approximately +184°C output the

highest lookup table index value. No indexing wrap-

around errors are produced.

Two functional blocks control the FSO gain calibration.

First, a coarse gain is set by digitally selecting the gain of

the PGA. Second, FSODAC sets the sensor bridge cur-

rent or voltage with the digital input obtained from a tem-

perature indexed reference to the FSO lookup table in

EEPROM. FSO correction occurs through the use of a

Figure 1. Functional Diagram

UNLOCK

BDR

INM

DD1

DD2

DIO

INP

8-BIT A/D

SENSOR

TEMP

CONTROL

CURRENT

DAC

SOURCE

IRO

∑

TEMPERATURE-

COEFFICIENTS

416 BITS FOR

CONFIG REG

USER DATA

MAX1455

176-POINT

INDEXED

6144-BIT

EEPROM

OFFSET

PGA

FSO

CLIP-TOP

CLIP-BOT

OSCILLATOR

GENERATOR

AMP+

FSO Correction

BIAS

ANAMUX

TEST 1

TEST 2

TEST 3

TEST 4

OUT

AMP-

AMPOUT

MAX1455AAE-T Maxim Integrated Products, MAX1455AAE-T Datasheet - Page 6

MAX1455AAE-T

Specifications of MAX1455AAE-T

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