Datasheet
1134
SAM4S Series [DATASHEET]
11100F–ATARM–29-Jan-14
44.8.4.3 Example of LSB Computation
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
44.8.5 ADC Electrical Characteristics
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.
44.8.5.1 Gain and Offset Errors
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
Table 44-42. Voltage and Temperature Dependencies
Symbol Parameter Conditions Min Typ Max Unit
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
Ca 1
E
G
100
----------
+
C
i
2047–()× 2047 E
O
++=