78M6613-IM/F Maxim Integrated Products, 78M6613-IM/F Datasheet - Page 15

78M6613-IM/F

Manufacturer Part Number

78M6613-IM/F

Description

IC AC PWR MON APPLIANCES 32-QFN

Manufacturer

Maxim Integrated Products

Type

Energy Measurementr

Datasheet

1.78M6613-IMF.pdf (33 pages)

Specifications of 78M6613-IM/F

Core

80515

Core Architecture

80515

Data Bus Width

8 bit

Data Ram Size

2 KB

Device Million Instructions Per Second

5 MIPS

Interface Type

ICE, UART

Maximum Clock Frequency

5 MHz

Maximum Operating Temperature

+ 85 C

Minimum Operating Temperature

- 40 C

Mounting Style

SMD/SMT

Number Of Programmable I/os

Number Of Timers

On-chip Adc

22 bit

Operating Supply Voltage

3 V to 3.6 V

Package / Case

QFN-32

Processor Series

80515

Program Memory Size

32 KB

Program Memory Type

Flash

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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DS_6613_018

3.2 Temperature Measurement

Measurement of absolute temperature uses the on-chip temperature sensor while 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 518,203,584 (N

the 32-pin QFN package. At an unknown temperature T the value 449,648,000 is read at (N(T)). The

absolute temperature is then determined by dividing both N

shift of the ADC value and then inserting the results into the above formula, using –2220 for LSB/°C:

3.3 Temperature Compensation

Temperature Coefficients: The internal voltage reference is calibrated during device manufacture.

The temperature coefficients TC1 and TC2 are given as constants that represent typical component

behavior (in µV/°C and µV/°C

Temperature Compensation: The CE provides the bandgap temperature to the MPU, which then may

digitally compensate the power outputs for the temperature dependence of VREF.

The MPU, not the CE, is entirely in charge of providing temperature compensation. The MPU applies

the following formula to determine any gain adjustments. In this formula TEMP_X is the deviation from

nominal or calibration temperature expressed in multiples of 0.1°C:

Rev. 1.1

Since TC1 and TC2 are given in µV/°C and µV/°C

(1.195V) has to be taken into account when transitioning to PPM/°C and PPM/°C

that PPMC = 26.84*TC1/1.195, and PPMC2 = 1374*TC2/1.195).

In a power and energy measurement unit, the 78M6613 is not the only component contributing to

temperature dependency. A whole range of components (e.g. current transformers, resistor

dividers, power sources, filter capacitors) will contribute temperature effects. Since the output of

the on-chip temperature sensor is accessible to the MPU, temperature-compensation

mechanisms with great flexibility are possible (e.g. system-wide temperature correction over the

entire unit rather than local to the chip).

GAIN

is the sensitivity in LSB/°C and T

ADJ

, respectively).

16385

449,648,00

512

TEMP

⋅

- 0

(

−

(

2220

518,203,58

(

)

is +25°C.

−

⋅

PPMC

, respectively, the value of the VREF voltage

)

and N(T) by 512 to account for the 9-bit

TEMP

) is read by the ADC by a 78M6613 in

3 .

⋅

PPMC

78M6613 Data Sheet

. This means

is the ADC

78M6613-IM/F Maxim Integrated Products, 78M6613-IM/F Datasheet - Page 15

78M6613-IM/F

Specifications of 78M6613-IM/F

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