May 30, 2021
11:16 PM
- Mark as New
- Bookmark
- Subscribe
- Mute
- Subscribe to RSS Feed
- Permalink
- Report Inappropriate Content
May 30, 2021
11:16 PM
Hi,
We are planning to use 2 FETs with partnumber IRF7749L1TRPbF in parallel for each side in each leg in a inverter circuit. The rated current flowing through each leg is 125A (i.e. 67.5A in each FET). As our switching freq is 10KHz and duty cycle is 50% the turn on time (pulse width will be) 50us. Can this FET operate safely in this conditions?
I have checked and found from SOA graph that it can operate around 70A at 100us pulse width. Can this margin of 2.5A be safe? Can we use this FET for our application?
We are planning to use 2 FETs with partnumber IRF7749L1TRPbF in parallel for each side in each leg in a inverter circuit. The rated current flowing through each leg is 125A (i.e. 67.5A in each FET). As our switching freq is 10KHz and duty cycle is 50% the turn on time (pulse width will be) 50us. Can this FET operate safely in this conditions?
I have checked and found from SOA graph that it can operate around 70A at 100us pulse width. Can this margin of 2.5A be safe? Can we use this FET for our application?
Solved! Go to Solution.
Labels
- Tags:
- IFX
1 Solution
Jul 04, 2021
05:09 AM
- Mark as New
- Bookmark
- Subscribe
- Mute
- Subscribe to RSS Feed
- Permalink
- Report Inappropriate Content
Jul 04, 2021
05:09 AM
Hi,
Safe Operating area is the area in which the MOSFET can operate without being damaged or degraded.
Now let us understand the boundary limitations of SOA curve. Following image shows a SOA curve with the different boundary limitations,
From the above figure, it is clear that the pulsed duration has different limits. The limit which has to be considered for this application circuit is the secondary breakdown limit. From your application, the switching frequency is 10Khz and the duty cycle is 50%.
From the time period and the duty we can arrive at the pulse width or the turn on duration of the MOSFET to be 50us. This 50us is less than the specified limit in the SOA curve for the specified MOSFET.
The SOA curve of the MOSFET is as shown below,
From the graph, the 50us is above the limit of SOA curve. So please try increasing the switching frequency or reducing the duty cycle for your application.
Regards,
Abhilash P
Safe Operating area is the area in which the MOSFET can operate without being damaged or degraded.
Now let us understand the boundary limitations of SOA curve. Following image shows a SOA curve with the different boundary limitations,
From the above figure, it is clear that the pulsed duration has different limits. The limit which has to be considered for this application circuit is the secondary breakdown limit. From your application, the switching frequency is 10Khz and the duty cycle is 50%.
From the time period and the duty we can arrive at the pulse width or the turn on duration of the MOSFET to be 50us. This 50us is less than the specified limit in the SOA curve for the specified MOSFET.
The SOA curve of the MOSFET is as shown below,
From the graph, the 50us is above the limit of SOA curve. So please try increasing the switching frequency or reducing the duty cycle for your application.
Regards,
Abhilash P
1 Reply
Jul 04, 2021
05:09 AM
- Mark as New
- Bookmark
- Subscribe
- Mute
- Subscribe to RSS Feed
- Permalink
- Report Inappropriate Content
Jul 04, 2021
05:09 AM
Hi,
Safe Operating area is the area in which the MOSFET can operate without being damaged or degraded.
Now let us understand the boundary limitations of SOA curve. Following image shows a SOA curve with the different boundary limitations,
From the above figure, it is clear that the pulsed duration has different limits. The limit which has to be considered for this application circuit is the secondary breakdown limit. From your application, the switching frequency is 10Khz and the duty cycle is 50%.
From the time period and the duty we can arrive at the pulse width or the turn on duration of the MOSFET to be 50us. This 50us is less than the specified limit in the SOA curve for the specified MOSFET.
The SOA curve of the MOSFET is as shown below,
From the graph, the 50us is above the limit of SOA curve. So please try increasing the switching frequency or reducing the duty cycle for your application.
Regards,
Abhilash P
Safe Operating area is the area in which the MOSFET can operate without being damaged or degraded.
Now let us understand the boundary limitations of SOA curve. Following image shows a SOA curve with the different boundary limitations,
From the above figure, it is clear that the pulsed duration has different limits. The limit which has to be considered for this application circuit is the secondary breakdown limit. From your application, the switching frequency is 10Khz and the duty cycle is 50%.
From the time period and the duty we can arrive at the pulse width or the turn on duration of the MOSFET to be 50us. This 50us is less than the specified limit in the SOA curve for the specified MOSFET.
The SOA curve of the MOSFET is as shown below,
From the graph, the 50us is above the limit of SOA curve. So please try increasing the switching frequency or reducing the duty cycle for your application.
Regards,
Abhilash P