Peripheral Simulation
For Silicon Laboratories, Inc. C8051F364 — A/D Converter (21x10-bit)
Simulation support for this peripheral or feature is comprised of:
- Dialog boxes which display and allow you to change peripheral configuration.
- VTREGs (Virtual Target Registers) which support I/O with the peripheral.
These simulation capabilities are described below.
Analog/Digital Converter 0 Dialog
The Analog/Digital Converter (ADC) dialog displays and configures
the A/D converter. The controls in this dialog are separated into
several logical groups.
Analog Digital Converter
-
ADC0CN contains the following ADC control register
settings:
-
ADC0EN (ADC0 Enable) is set to enable the A/D
converter.
-
ADC0TM (ADC Track Mode) is set to enable low-power track
and hold mode.
-
ADC0INT (ADC Interrupt) is set when an A/D conversion
completes.
-
ADC0BUSY (ADC Busy) is set when and A/D conversion is in
progress.
-
ADC0WINT (ADC Window Compare Interrupt) is set when a
Window Comparison Match occurs.
-
ADC0LJST (Left Justify Select) is set to left-justify
the ADC0H and ADC0L register. If reset, they are
right-justified.
-
AMX0SL (Channel Select Register) is used to select the
ADC input.
-
ADC0CF contains the SAR Clock and PGA ADC control
register settings.
-
ADC0CM (ADC Conversion Mode) selects the event that
starts the A/D conversion.
-
ADC0H (ADC High-Order Data Word) contains the MSB of the
10-bit ADC result. ADLJST affects where data is located in this
byte.
-
SAR Clock 0 displays the calculated SAR (Successive
Approximation Register) clock value derived from the system clock
and bits 7-3 in ADC0CF.
Programmable Window Detector This feature continuously
compares the output of the ADC to the following limit registers and
notifies the system when an ADC output falls outside of this
range:
-
ADC0GT (Greater Than Data High Byte Register) is the
high limit reference value.
-
ADC0LT (Less Than Data High Byte Register) is the low
limit reference value.
Reference Voltages
- VREF contains the bandgap output reference voltage.
- VDD contains the power supply voltage.
-
REF0CN (Reference Control Register) contains the
following controls:
-
IOSCEN (Internal Oscillator Enable) is set to enable the
chip's internal oscillator.
-
REFSL (Reference Source Select) is set to use the VDD
pin as a reference source. If reset, the source is external.
-
TEMPE (Temperature Sensor Enable) is set to enable the
internal temperature sensor.
-
BIASE (Bias Generator Enable) is set to enable internal
bias voltage generation.
Analog Input Channels
-
AINx (Analog Input Channels x) displays
the analog voltage value input for each channel.
Temp. Sensor
-
TEMP (Temperature) displays the on-chip (die)
temperature.
-
VTEMP (Temperature Output Voltage) is the the voltage
input to the PGA when the Temperature Sensor is selected.
AINx VTREG
Data Type: float
The AINx VTREGs set the analog input voltages for simulated A/D
converters. The AINx VTREGs represent the inputs to the analog input
pins of the MCU for analog input 0, 1, 2, and so on. AIN0 sets the
input voltage for analog input #0, AIN1 sets the input voltage for
analog input #1, etc. If you have properly configured the analog
inputs, the following commands (typed in the debugger's Command
Window) input the voltages specified.
AIN0 = 0.000 /* Analog Input 0 = 0.000 volts */
AIN1 = 2.500 /* Analog Input 1 = 2.500 volts */
AIN2 = 4.999 /* Analog Input 2 = 4.999 volts */
You may create a debugger signal function to periodically change
the value of the A/D input. The following signal function increases
the A/D Channel 1 input voltage by 0.1 volts each second.
signal void AIN1_sig (void) {
float f;
for (f = 0.0; f < 5.0; f += 0.1)
{
swatch (1.0); // Delay 1 second
AIN1 = f; // Set AIN1 Voltage
}
}
SARCLK0 VTREG
Data Type: unsigned long
The Successive Approximation Register (SAR) clock used for A/D
conversion. It is based on the system clock (CLOCK VTREG) and can be
adjusted by the setting in bits 7-3 of ADC0CF.
TEMP VTREG
Data Type: float
TEMP contains the on-chip temperature sensor in degrees
(centigrade). The on-chip temp sensor measures temperature of the
chip die. TEMP is used as the VTEMP output voltage to the PGA. The
following command (typed in the debugger's Command Window) sets the
die temperature.
TEMP = 30.5
VDD VTREG
Data Type: float
VDD is the digital supply voltage.
VREF VTREG
Data Type: float
VREF contains the bandgap output reference voltage.
VTEMP VTREG
Data Type: float
VTEMP is the the voltage input to the PGA when the Temperature
Sensor is selected.