71m6545h-igtr/f Maxim Integrated Products, Inc., 71m6545h-igtr/f Datasheet - Page 78

71m6545h-igtr/f

Manufacturer Part Number

71m6545h-igtr/f

Description

Metrology Processors

Manufacturer

Maxim Integrated Products, Inc.

Datasheet

1.71M6545H-IGTRF.pdf (134 pages)

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Data Sheet 71M6545/H

stored by the MPU in five CE RAM locations GAIN_ADJ0-GAIN_ADJ5 (CE RAM 0x40-0x44). The

demonstration code thus provides a suitable implementation of temperature compensation, but other

methods are possible in MPU firmware by utilizing the on-chip temperature sensor while storing the sample

gain adjustment results in the CE RAM GAIN_ADJn storage locations. The demonstration code maintains

five separate sets of PPMC and PPMC2 coefficients and computes five separate GAIN_ADJn values

based on the sensed temperature using the equation below:

The GAIN_ADJn values stored by the MPU in CE RAM are used by the CE to gain adjust (i.e., multiply)

the sample in each corresponding sensor channel. A GAIN_ADJx value of 16,384 (i.e., 2

unity gain, while values less than 16,384 attenuate the samples and values greater than 16,384 amplify

the samples.

In the above equation, TEMP_X is the deviation from nominal or calibration temperature expressed in

multiples of 0.1 °C. The 10x and 100x factors seen in the above equation are due to 0.1

TEMP_X. For example, if the calibration (reference) temperature is 22 °C and the measured temperature

is 27 °C, then 10*TEMP_X = (27-22) x 10 = 50 (decimal), which represents a +5 °C deviation from 22 °C.

In the demonstration code, TEMP_X is calculated in the MPU from the STEMP[10:0] temperature sensor

reading using the equation provided below and is scaled in 0.1°C units. See

Temperature Sensor

reading.

Table 58

measurements for which they compensate.

In the demonstration code, the shape of the temperature compensation second-order parabolic curve is

determined by the values stored in the PPMC (1

which are typically setup by the MPU at initialization time from values that are stored in EEPROM.

To disable temperature compensation in the demonstration code, PPMC and PPMC2 are both set to zero

for each of the five GAIN_ADJx channels. To enable temperature compensation, the PPMC and PPMC2

coefficients are set with values that match the expected VREF temperature variation and optionally the

corresponding sensor circuit (i.e., the CT and burden resistor for current channels or the resistor divider

network for the voltage channels).

In the 71M6545 (±0.5% energy accuracy), the required VREF compensation coefficients PPMC and

PPMC2 are calculated from readable on-chip non-volatile fuses (see

the

71M6545). These coefficients are designed to achieve ±40 ppm/°C for VREF.

Gain Adjustment Output

shows the five GAIN_ADJx equation output storage locations and the voltage or current

GAIN_ADJ0

GAIN_ADJ1

GAIN_ADJ2

GAIN_ADJ3

GAIN_ADJ4

Table 58: GAIN_ADJx Compensation Channels

GAIN

on page

ADJx

16385

CE RAM Address

for the equation to calculate temperature in °C from the STEMP[10:0]

0x40

0x41

0x42

0x43

0x44

⋅

TEMP

order coefficient) and PPMC2 (2

Sensor Channel(s)

⋅

PPMC

VADC10 (VC)

IADC0-IADC1

IADC2-IADC3

IADC4-IADC5

IADC6-IADC7

(pin names)

VADC8 (VA)

VADC9 (VB)

(Figure

100

4.5.2Temperature Coefficients for

⋅

TEMP

VREF in 71M6545/H, CT and Burden

Figure

VREF in 71M6545/H and Voltage

2.5.5 71M6545/H

Resistor (Neutral Current)

Compensation For:

Resistor (Phase A)

Resistor (Phase B)

Resistor (Phase C)

28,

Divider Resistors

⋅

PPMC

order coefficient),

Table

C scaling of

)corresponds to

PDS_6545_009

v1.0

71m6545h-igtr/f Maxim Integrated Products, Inc., 71m6545h-igtr/f Datasheet - Page 78

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