New Member of the PWM-Core Family: SPWM103F-1S2P

PWM103F-1S2P SPWM PWM Core Structure

SPWM103F-1S2P has been introduced as a new member of the PWM-Core family.

SPWM103F-1S2P is designed as a mixed signal generation module that includes one sinusoidal PWM output and two standard PWM outputs. This structure makes it useful in applications where SPWM-based waveform generation and additional programmable PWM signals are required from the same module.

Sinusoidal PWM Output

The SPWM output is intended to digitally model a sine wave through pulse width modulation.

In this structure, the sinusoidal waveform behavior is represented by changing the PWM pattern according to a sine reference. The SPWM parameters can be configured for applications where sinusoidal PWM behavior needs to be adjusted, tested and evaluated.

Additional Programmable PWM Outputs

In addition to the SPWM output, SPWM103F-1S2P provides two standard PWM outputs.

The frequency, phase and duty cycle parameters of these PWM outputs can be programmed separately. This gives the module a more flexible signal generation structure compared with modules that provide only SPWM outputs.

Communication and Configuration

The module is configured through commands sent to its Rx pin.

This communication structure allows signal parameters to be adjusted from an external microcontroller or control system. The configured signal values can be stored in internal memory, so the module does not need to be reconfigured at each use.

Typical Application Areas

SPWM103F-1S2P can be used in systems where both sinusoidal PWM and standard PWM signals are required.

Typical application areas include:

· SPWM signal generation

· Inverter control experiments

· Motor control studies

· Power electronics development

· Mixed SPWM and PWM signal generation

· PWM-based driver and switching tests

· Prototype and R&D setups

Conclusion

SPWM103F-1S2P expands the PWM-Core family with a mixed SPWM and PWM signal generation structure. With one sinusoidal PWM output, two programmable PWM outputs, configurable signal parameters and internal memory support, it provides a practical platform for waveform-based control experiments, inverter studies and power electronics prototype applications.