Keil Logo

Peripheral Simulation

For Samsung S3F4A1HR — Pulse Width Modulator

Simulation support for this peripheral or feature is comprised of:

  • Dialog boxes which display and allow you to change peripheral configuration.

These simulation capabilities are described below.

Pulse Width Modulator Dialog

Pulse Width Modulator

The Pulse Width Modulator dialog configures Pulse Width Modulator (PWM) simulation. When configured for PWM mode, the Timers (0 or 1) provide a basis for PWM outputs. Pulse period, pulse width, single and double edge controlled outputs are supported.

Prescaler

  • PR (PWM Prescaler Register) contains the number of times (minus 1) PCLK must cycle before incrementing the PWM Timer Counter (TC).
  • PC (PWM Prescaler Counter) contains the incrementing counter value. When this value equals the PR value plus 1, the PWM Timer Counter (TC) is incremented.

Timer

  • TCR (PWM Timer Control Register) contains the Counter Enable, Counter Reset and the PWM Enable control bits.
  • TC (PWM Timer Counter) contains the current value of the incrementing PWM Timer. When the Prescaler Counter (PC) reaches the Prescaler Register (PR) value plus 1, this counter is incremented.
  • Counter Enable is set to enable the PWM Timer Counter and PWM Prescale Counter.
  • Reset is set to reset the PWM Timer Counter and the PWM Prescale Counter to zero.
  • PWM Enable enables PWM mode. In this mode, writing to a Match Register does not affect the the match result until a corresponding bit in Latch Enable Register (LER) is set followed by a PWM Match event.

Interrupt Register

  • IR (Interrupt Register) contains the interrupt flags for PWM Match Channels 0-6. An interrupt flag is set when an interrupt occurs for that channel (MRx Interrupt).

Match Channels The Match Channel group allows simulation of 6 single-edge controlled or 3 double-edge controlled PWM outputs. You may modify the seven Match Channels to configure these PWM outputs to suit your requirements. Selected Channel

  • MRx (Match Register x) contains the value to be compared to the Timer Counter (TC) value. When equal, a Match event occurs.
  • Match x Latch is set to allow the last value written to a Match Register x to become active on the next timer reset.
  • MRx Interrupt (Match Register x Interrupt) is set when a interrupt occurs for Match Channel 0-6
  • Interrupt on MRx is set to allow an interrupt to occur on Match Channel 0-6 when Match Register x (MRx) equals the Timer Counter (TC) value.
  • Reset on MRx is set to reset the Timer Counter (TC) when the Match Register (MRx) equals the Timer Counter (TC) value.
  • Stop on MRx is set to stop the Timer Counter (TC) and Prescaler Register (PC) when the Match Register (MRx) equals the Timer Counter (TC) value. This condition also sets the Timer Counter Register (TCR) to zero.
  • EMCx (External Match Control 0-3) can be set to Clear (set External output low), Set (set External output high), Toggle (reverse the state of the External output) or do nothing.
  • External Match x is set to connect pin Mx to the output of MAT0/1 and perform the selected Match Control (EMCx) on that pin when the the Match x event occurs. Note: If Timer 0 is used, External Match 3 cannot be connected to a device pin.
  • MCR (PWM Match Control Register) contains the Interrupt, Reset and Stop bits that control the selected Match Channel.
  • EMR (External Match Register) contains the External Match bits and the External Match Control settings.
  • LER (Latch Enable Register) contains the Match x Latch bits for each Match Channel.
  • PCR (PWM Control Register) contains the bits that enable PWM outputs 0-6 and select single-edge or double-edge control for each output.
Get more information about the
Peripheral Simulation Capabilities
of the µVision Debugger.
  Arm logo
Important information

This site uses cookies to store information on your computer. By continuing to use our site, you consent to our cookies.

Change Settings

Privacy Policy Update

Arm’s Privacy Policy has been updated. By continuing to use our site, you consent to Arm’s Privacy Policy. Please review our Privacy Policy to learn more about our collection, use and transfers
of your data.