Atmel Xplained Pro Evaluation Kit ATSAM4E-XPRO ATSAM4E-XPRO Data Sheet

SAM4E [DATASHEET]

Atmel-11157D-ATARM-SAM4E16-SAM4E8-Datasheet_12-Jun-14

1440

 is a computation example for the above formula, where V

ADVREF

 = 3V: 

The LSB is relative to the analog scale V

ADVREF

.

The term LSB expresses the quantization step in volts, also used for one ADC code variation.



Single-ended (SE)  (ex: V

ADVREF

=3.0V) 

̶

Gain = 1, LSB = (3.0V / 4096) = 732 µV

̶

Gain = 2, LSB = (1.5V / 4096) = 366 µV

̶

Gain = 4, LSB = (750 mV / 4096) = 183 µV



Differential (DIFF) (ex: V

ADVREF

=3.0V) 

̶

Gain = 0.5, LSB = (6.0V / 4096) = 1465 µV

̶

Gain = 1, LSB = (3.0V / 4096) = 732 µV

̶

Gain = 2, LSB = (1.5V / 4096) = 366 µV

The gain error depends on the gain value and the OFFx bit. The data are given with and without autocorrection at
27°C. The data include the ADC performances as the PGA and ADC core cannot be separated. The temperature
and voltage dependency are given as separate parameters.

For:



a given gain error: E

G

 (%)



a given ideal code (Ci)



a given offset error: E

O

 (LSB)

the actual code (Ca) is calculated using the following formula 

0

0

0

0

2047

1.5

0.75

0.375

4095

3

1.5

0.75

T

GK

Gain Temperature dependency

-40°C to 105°C

—

—

5

ppm/°C

V

GK

Gain Supply dependency

VDDIN

—

—

0.025

%/V

T

OK

Offset Temperature dependency

-40°C to 105°C

—

—

5

ppm/°C

V

OK

Offset Supply dependency

VDDIN

—

—

0.025

%/V

1

100

---------

+









2047

–

(

)

×

2047

+

+

=