71m6534h-igt Maxim Integrated Products, Inc., 71m6534h-igt Datasheet - Page 66

71m6534h-igt

Manufacturer Part Number

71m6534h-igt

Description

Energy Meter Ic

Manufacturer

Maxim Integrated Products, Inc.

Datasheet

1.71M6534H-IGT.pdf (124 pages)

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71M6533/71M6534 Data Sheet

Only partial trim fuse information is available for non-H parts. The values for PPMC and PPMC2 that are

used by the CE to implement temperature compensation are calculated as follows:

The factor TRIMT used to calculate PPMC is derived from the trim fuse TRIMT[7:0].

3.3 Connecting 5 V Devices

All digital input pins of the 71M6533/71M6534 are compatible with external 5 V devices. I/O pins confi-

gured as inputs do not require current-limiting resistors when they are connected to external 5 V devices.

3.4 Temperature Measurement

Measurement of absolute temperature uses the on-chip temperature sensor and applying the following

formula:

In the above formula T is the temperature in °C, N(T) is the ADC count at temperature T, N

count at 25°C, S

Example: At 25°C a temperature sensor value of 483,203,000 (N

temperature T the value 449.648.000 is read at (N(T)). We determine the absolute temperature by divid-

ing the difference of N

the reference measurement:

The divisor 512 accounts for the 8-bit shift of the ADC value and for the factor of 2 introduced into the

measurement by the CE which adds two consecutive temperature readings. It is recommended that tem-

perature measurements be based on TEMP_RAW_X which is the sum of two consecutive temperature

readings, thus being higher by a factor of two than the raw sensor readings.

3.5 Temperature Compensation

In a typical application, the CE compensates for the temperature dependency of the reference voltage

(see Section 3.5.2). System-wide temperature correction over the entire meter is possible by involving

the MPU. The thermal coefficients processed by the MPU may include the current sensors, the voltage

sensors, and other influences.

3.5.1 Temperature Coefficients

For the 71M6533 and 71M6534, the temperature coefficient TC2 is given as a constant that represent

typical component behavior (in µV/°C

the TRIMT[7:0] I/O RAM register. TC1 and TC2 allow compensation for variations of the reference vol-

tage to within ±40 PPM/°C.

For the 71M6533H/71M6534H, individualized coefficients TC1 and TC2 can be retrieved from the on-chip

fuses via TRIMBGA, TRIMBGB, TRIMM[2:0] (see Section

71M6533H/71M6534H Parts).

ence voltage to within ±15 PPM/°C

PPMC = TC1 * 22.46 = (52.46 - TRIMT) * 3.18 * 22.46 = (52.46 - TRIMT) * 71.423

PPMC2 = TC2 * 1150.1 = –0.444 * 1150.1 = -510.6

is the sensitivity in LSB/°C as stated in the Electrical Specifications, and T

and N(T) by 512 times the slope factor (-1180). After that, we add the 25C from

For this part, TC1 and TC2 allow compensation for variations of the refer-

449.648.00

). TC1 can be calculated for the individual chip from the contents of

512

- 0

(

1180

483,203,00

(

)

3.2 Distinction between 71M6533/71M6534 and

)

) is read by the ADC. At an unknown

5 .

FDS_6533_6534_004

is the ADC

is +25 °C.

v1.1

71m6534h-igt Maxim Integrated Products, Inc., 71m6534h-igt Datasheet - Page 66

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