Texas Instruments Development Kit for TM4C129x,Tiva™ ARM® Cortex™ -M4 Microcontroller DK-TM4C129X DK-TM4C129X 데이터 시트
제품 코드
DK-TM4C129X
Figure 18-7 shows the ADC input equivalency diagram; for parameter values, see “Analog-to-Digital
Converter (ADC)” on page 2136.
Converter (ADC)” on page 2136.
Figure 18-7. ADC Input Equivalency Diagram
Rs
Cs
C
ADC
Pin
V
S
I
L
Zs
5V ESD
Clamp
R
ADC
Input PAD
Equivalent
Circuit
Equivalent
Circuit
Z
ADC
Input PAD
Equivalent
Circuit
Equivalent
Circuit
R
ADC
Input PAD
Equivalent
Circuit
Equivalent
Circuit
R
ADC
12‐bit
SAR ADC
Converter
Pin
Pin
Tiva™ Microcontroller
12‐bit
Word
V
ADCIN
ESD clamps
to GND only
The ADC operates from both the 3.3-V analog and 1.2-V digital power supplies. The ADC clock can
be configured to reduce power consumption when ADC conversions are not required (see “System
Control” on page 250). The analog inputs are connected to the ADC through specially balanced input
paths to minimize the distortion and cross-talk on the inputs. Detailed information on the ADC power
supplies and analog inputs can be found in “Analog-to-Digital Converter (ADC)” on page 2136.
be configured to reduce power consumption when ADC conversions are not required (see “System
Control” on page 250). The analog inputs are connected to the ADC through specially balanced input
paths to minimize the distortion and cross-talk on the inputs. Detailed information on the ADC power
supplies and analog inputs can be found in “Analog-to-Digital Converter (ADC)” on page 2136.
18.3.4.1
Voltage Reference
The ADC uses internal signals VREFP and VREFN as references to produce a conversion value
from the selected analog input. VREFP can be connected to either
from the selected analog input. VREFP can be connected to either
VREFA+
or
VDDA
and VREFN
can be connected to either
VREFA-
or
GNDA
as configured by the
VREF
bit in the ADC Control
(ADCCTL) register, as shown in Figure 18-8.
1211
December 13, 2013
Texas Instruments-Advance Information
Tiva
™
TM4C129XNCZAD Microcontroller