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STM32F105xx, STM32F107xx Electrical characteristics
103
5.3.18 DAC electrical specifications
Table 56. DAC characteristics
Symbol Parameter Min Typ Max Unit Comments
V
DDA
Analog supply voltage 2.4 - 3.6 V -
V
REF+
Reference supply voltage 2.4 - 3.6 V V
REF+
must always be below V
DDA
V
SSA
Ground 0 - 0 V -
R
LOAD
(1)
Resistive load with buffer ON 5 - - kΩ -
R
O
(1)
Impedance output with buffer
OFF
- - 15 kΩ
When the buffer is OFF, the
Minimum resistive load between
DAC_OUT and V
SS
to have a 1%
accuracy is 1.5 MΩ
C
LOAD
(1)
Capacitive load - - 50 pF
Maximum capacitive load at
DAC_OUT pin (when the buffer is
ON).
DAC_OUT
min
(1)
Lower DAC_OUT voltage
with buffer ON
0.2 - - V
It gives the maximum output
excursion of the DAC.
It corresponds to 12-bit input code
(0x0E0) to (0xF1C) at V
REF+
=
3.6 V and (0x155) to (0xEAB) at
V
REF+
= 2.4 V
DAC_OUT
max
(1)
Higher DAC_OUT voltage
with buffer ON
- - V
DDA
– 0.2 V
DAC_OUT
min
(1)
Lower DAC_OUT voltage
with buffer OFF
- 0.5 - mV
It gives the maximum output
excursion of the DAC.
DAC_OUT
max
(1)
Higher DAC_OUT voltage
with buffer OFF
- - V
REF+
– 1LSB V
I
DDVREF+
DAC DC current
consumption in quiescent
mode (Standby mode)
- - 220 µA
With no load, worst code (0xF1C)
at V
REF+
= 3.6 V in terms of DC
consumption on the inputs
I
DDA
DAC DC current
consumption in quiescent
mode (Standby mode)
- - 380 µA
With no load, middle code (0x800)
on the inputs
- - 480 µA
With no load, worst code (0xF1C)
at V
REF+
= 3.6 V in terms of DC
consumption on the inputs
DNL
(2)
Differential non linearity
Difference between two
consecutive code-1LSB)
- - ±0.5 LSB
Given for the DAC in 10-bit
configuration.
- - ±2 LSB
Given for the DAC in 12-bit
configuration.
INL
(2)
Integral non linearity
(difference between
measured value at Code i
and the value at Code i on a
line drawn between Code 0
and last Code 1023)
- - ±1 LSB
Given for the DAC in 10-bit
configuration.
- - ±4 LSB
Given for the DAC in 12-bit
configuration.