Hi there!
The attached photo is a circuit with an input waveform. Do I get it correctly? I'm so worried about the increasing current very much. (As you know, the inductor current is an integration of its voltage. Because the voltage is always greater or equal to zero, this current will keep going up)
Background story:
I'm trying to control a forward converter in this link: http://www.onsemi.com/pub_link/Collateral/TND378-D.PDF
The circuit is on page 47and48. Unfortunately, the PWM controller is not with a high-side MOSFET driver, so the author did it in page 48. When Q301 is on and the other is off, the voltage across the primary winding is Vcc. Subsequently, Q302 operation gives 0V to the winding. This will be a square pulsed DC like in the attached photo.
PS. Sometimes it's funny that the high side driver like HIP4082 does not come with a feedback pin and a pin for a setpoint resistor. while the ONSEMI has a feedback and a setpoint resistor, but no high side driver.
Thank you
BlackMelon
The attached photo is a circuit with an input waveform. Do I get it correctly? I'm so worried about the increasing current very much. (As you know, the inductor current is an integration of its voltage. Because the voltage is always greater or equal to zero, this current will keep going up)
Background story:
I'm trying to control a forward converter in this link: http://www.onsemi.com/pub_link/Collateral/TND378-D.PDF
The circuit is on page 47and48. Unfortunately, the PWM controller is not with a high-side MOSFET driver, so the author did it in page 48. When Q301 is on and the other is off, the voltage across the primary winding is Vcc. Subsequently, Q302 operation gives 0V to the winding. This will be a square pulsed DC like in the attached photo.
PS. Sometimes it's funny that the high side driver like HIP4082 does not come with a feedback pin and a pin for a setpoint resistor. while the ONSEMI has a feedback and a setpoint resistor, but no high side driver.
Thank you
BlackMelon
