Electrical characteristics
STM32F103xC, STM32F103xD, STM32F103xE
5.3.20
DAC electrical specifications
Table 63. DAC characteristics
Symbol
Parameter
Min
2.4
Typ
Max
Unit
Comments
VDDA
Analog supply voltage
3.6
V
VREF+
VSSA
Reference supply voltage
Ground
2.4
0
3.6
0
V
VREF+ must always be below VDDA
V
(1)
RLOAD
Resistive load with buffer ON 5
kΩ
When the buffer is OFF, the Minimum
resistive load between DAC_OUT
and VSS to have a 1% accuracy is
1.5 MΩ
Impedance output with buffer
OFF
(1)
RO
15
50
kΩ
Maximum capacitive load at
DAC_OUT pin (when the buffer is
ON).
(1)
CLOAD
Capacitive load
pF
V
It gives the maximum output
excursion of the DAC.
DAC_OUT Lower DAC_OUT voltage
min(1)
with buffer ON
0.2
It corresponds to 12-bit input code
(0x0E0) to (0xF1C) at VREF+ = 3.6 V
DAC_OUT Higher DAC_OUT voltage
max(1)
with buffer ON
and (0x155) and (0xEAB) at VREF+
2.4 V
=
VDDA – 0.2
V
DAC_OUT Lower DAC_OUT voltage
min(1)
with buffer OFF
0.5
mV
It gives the maximum output
excursion of the DAC.
DAC_OUT Higher DAC_OUT voltage
VREF+ – 1LSB V
max(1)
with buffer OFF
DAC DC current
With no load, worst code (0xF1C) at
IDDVREF+
consumption in quiescent
mode (Standby mode)
220
380
480
µA VREF+ = 3.6 V in terms of DC
consumption on the inputs
With no load, middle code (0x800) on
the inputs
µA
DAC DC current
consumption in quiescent
mode (Standby mode)
IDDA
With no load, worst code (0xF1C) at
µA VREF+ = 3.6 V in terms of DC
consumption on the inputs
Given for the DAC in 10-bit
configuration
0.5
LSB
Differential non linearity
Difference between two
consecutive code-1LSB)
DNL(2)
Given for the DAC in 12-bit
configuration
2
1
LSB
Integral non linearity
(difference between
Given for the DAC in 10-bit
configuration
LSB
measured value at Code i
and the value at Code i on a
line drawn between Code 0
and last Code 1023)
INL(2)
Given for the DAC in 12-bit
configuration
4
LSB
108/130
Doc ID 14611 Rev 8