Peripheral Simulation
For NXP (founded by Philips) LPC11D14/302 — Clocking & Power Control
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.
Brown-out Control Dialog
The Brown-out Control Dialog configures the brown-out detector of
the device. With this dialog, you can choose the level of monitoring
of brown-out events.
Brown-out Detector Configuration
-
BODCTRL (Brown-out Control Register) contains the
Brown-out configuration bit settings.
-
BODRSTENA (Brown-out Reset Enable) when set, resets the
device when a brown-out condition is detected.
-
BODINTVAL (Brown-out Interrupt Assertion Level) sets
brown-out assertion and de-assertion to 2.29/2.44 if set, or
1.69/1.84 if reset.
-
BODRSTLEV (Brown-out Reset Level) is a fixed setting for
reset assertion at 1.49V and reset de-assertion at 1.64V.
Clkout Clock Selection Dialog
The Clkout Clock Selection dialog selects the source of the input
clocking from the 3 independent oscillators.
Clock Source Select
-
CLKOUTCLKSEL (Clock Output Clock Select Register)
configures the clkout_clk signal to be output on the CLKOUT
pin.
-
CLKOUTUEN (CLKOUT Source Update Enable Register) holds
the update clock source enable bit setting.
-
UEN checkbox sets or resets the update clock source
enable bit.
Selected Clock
- COCLK displays the selected clock output value.
Clock Inputs to Selector
-
Oscillators IRC, XTAL, WDT and MCLK display the
frequency of each clock source.
Clock Dividers Dialog
The Clock Dividers dialog displays the registers and settings for
the CPU, USB and Peripheral clock supported by this device.
System AHB Clock Configuration
-
SYSAHBCLKDIV (System AHB Clock Configuration Register)
contains the 8-bit divisor used to create the CCLK signal from the
PLL output.
- CCLK is the resulting Core Clock value.
USB Clock Configuration
-
USBCLKDIV (USB Clock Configuration Register) contains
the 4-bit divisor used to create the USBCLK signal.
- USBCLK is the resulting USB Clock value.
Peripheral Clock Configuration
-
SSPCLKDIV (SSP Clock Divisor Register) contains the
4-bit divisor used to create the SSPCLK signal.
-
UARTCLKDIV (UART Clock Divisor Register) contains the
4-bit divisor used to create the UARTCLK signal.
-
TRACECLKDIV (TRACE Clock Divisor Register) contains the
4-bit divisor used to create the TRACECLK signal.
-
SYSTICKCLKDIV (SYSTICK Clock Divisor Register) contains
the 4-bit divisor used to create the SYSTICKCLK signal.
-
WDTCLKDIV (WDT Clock Divisor Register) contains the
4-bit divisor used to create the WDTCLK signal.
-
CLKOUTDIV (Clock Out Divisor Register) contains the
4-bit divisor used to create the CLKOUT signal.
Clock Generation Schematic Dialog
The Clock Generation Schematic displays input clock values and the
resulting generated clock values to be used by the application.
Clock generation Schematic
- IRC is the on-chip 12 MHz oscillator.
- XTAL is the value of the external crystal.
- WDT is the watchdog timer source clock value.
- MCLK is the generated main clock.
- CCLK is the generated core clock.
- SYSPLLCLKOUT is the resulting system PLL clock.
- SYSPLLCLKIN is the input clock for the system PLL.
Device ID Dialog
The Device ID dialog displays the device ID for the target
device.
Device ID
-
DEVICE_ID is a read-only register that contains the
device ID for each LPC11xx part.
Internal RC Oscillator Dialog
The IRC Oscillator Control Dialog configures the internal resonant
crystal (RC) control register of the device.
Internal RC Oscillator Control
-
IRCCTRL (Internal RC Oscillator Control Register)
contains the factory-preset IRC trim value.
Internal RC Oscillator
-
IRC contains the internal RC oscillator value in
MHz.
Main Clock Selection Dialog
POR Captured PIO Status Dialog
Power Control Dialog
The Power Control Dialog controls the power saving mode of the ARM
controller. With this dialog, you can selectively enable or disable
unused peripherals to save power.
Power Control
-
PCON (Power Control Register) contains the DPDEN and
DPDFLAG bits.
-
DPDEN (Deep Power-down Mode Enable) enables deep
power-down mode when an ARM/Cortex-M0 WFI/WFE instruction is
executed.
-
DPDFLAG (Deep Power-down Mode Flag) if set, indicates
the device is in deep power-down mode.
-
GPREGn (General Purpose Register n) colds
data retained during deep power-down mode. GPREG4 hold the
WAKEUPHYS setting.
-
WAKEUPHYS (WAKEUP Pin Hysteresis Enable) if set, enables
hysteresis for the WAKEUP pin.
Power-down Control Dialog
Start Logic Dialog
System Oscillator Dialog
The System Oscillator Control Dialog configures the frequency
range for the system oscillator.
System Oscillator Control
-
SYSOSCCTRL (System Oscillator Control Register) contains
the following bit settings:
-
BYPASS when set, the PLL input (SYS_OSC_CLK) is taken
from the XTALIN and XTALOUT pins.
-
FREQRANGE Determines frequency range for the low-power
oscillator. If reset, 1-20 MHz. If set, 15-25MHz.
Crystal Oscillator
- XTAL contains the oscillator value in MHz.
System Phase Locked Loop Dialog
System PLL Clock Selection Dialog
System Tick Control Dialog
Watchdog Clock Selection Dialog
Watchdog Oscillator Control Dialog
The Watchdog Oscillator Control Dialog configures the frequency
range for the watchdog oscillator.
Watchdog Oscillator Control
-
WDTOSCCTRL (Watchdog Oscillator Control Register)
contains the following bit settings:
-
DIVSEL selects the divider value (2, 4 or 6) used to
generate the watchdog oscillator claokc (WDT_OSC_CLK).
-
FREQSEL Selects the watchdog oscillator frequency
range.
Watchdog Oscillator
- WDT contains the oscillator value in MHz.
XTAL VTREG
Data Type: unsigned long
The XTAL VTREG contains the frequency of the oscillator (in Hertz)
used to drive the microcontroller. The value is automatically set
from the value specified in Project Options - Options for Target.
However, you may change the value of XTAL using the command window.
For example:
XTAL=33000000
You may also output the current value of XTAL using the
following:
XTAL
XTAL may be used in calculations to synchronize external scripts
with the simulated microcontroller.