crwdns2933423:0crwdne2933423:0
crwdns2918538:0crwdne2918538:0

crwdns2934243:0crwdne2934243:0 oldturkey03

crwdns2934249:0crwdne2934249:0:

-joseluisgzz the component you are pointing to is reference designator L7130 and it is a PIME103T-4R7MS 4.7UH 20% 8.5A inductor. The max current for this is 8.5A so it is possible that it is heating up due to overcurrent. I'd be checking Q7130 (component just above L7130) MOSFET. Get the datasheet for that [https://www.renesas.com/en-sg/doc/products/.../r07ds0904ej0120_rjk03p0dpa.pdf|from here.] Of course you can always check L7130 with a multimeter (simple go-no go) as well as an oscilloscope. Check [http://www.learningaboutelectronics.com/Articles/How-to-test-an-inductor|on here] for an idea
+joseluisgzz the component you are pointing to is reference designator L7130 and it is a PIME103T-4R7MS 4.7UH 20% 8.5A inductor. The max current for this is 8.5A so it is possible that it is heating up due to overcurrent. I'd be checking Q7130 (component just above L7130) MOSFET. Get the datasheet for that [https://www.renesas.com/en-sg/doc/products/.../r07ds0904ej0120_rjk03p0dpa.pdf|from here.] Of course you can always check L7130 with a multimeter (simple go-no go) as well as an oscilloscope. Check [http://www.learningaboutelectronics.com/Articles/How-to-test-an-inductor|on here] for an idea. I'd check mouser.com as well as digikey.com as well as many others for a replacement if you really need it.

crwdns2915684:0crwdne2915684:0:

open

crwdns2934245:0crwdne2934245:0 oldturkey03

crwdns2934249:0crwdne2934249:0:

-joseluisgzz the component you are pointing to is reference designator L7130 and it is a PIME103T-4R7MS 4.7UH 20% 8.5A inductor. The max current for this is 8.5A so it is possible that it is heating up due to overcurrent. I'd be checking Q7130 (component just above L7130) MOSFET. Get the datasheet for that [https://www.renesas.com/en-sg/doc/products/.../r07ds0904ej0120_rjk03p0dpa.pdf|from here.] Of course you can always check L7130 with a multimeter as well as an oscilloscope. Check [http://www.learningaboutelectronics.com/Articles/How-to-test-an-inductor|on here] for an idea
+joseluisgzz the component you are pointing to is reference designator L7130 and it is a PIME103T-4R7MS 4.7UH 20% 8.5A inductor. The max current for this is 8.5A so it is possible that it is heating up due to overcurrent. I'd be checking Q7130 (component just above L7130) MOSFET. Get the datasheet for that [https://www.renesas.com/en-sg/doc/products/.../r07ds0904ej0120_rjk03p0dpa.pdf|from here.] Of course you can always check L7130 with a multimeter (simple go-no go) as well as an oscilloscope. Check [http://www.learningaboutelectronics.com/Articles/How-to-test-an-inductor|on here] for an idea

crwdns2915684:0crwdne2915684:0:

open

crwdns2934241:0crwdne2934241:0 oldturkey03

crwdns2934249:0crwdne2934249:0:

joseluisgzz the component you are pointing to is reference designator L7130 and it is a PIME103T-4R7MS 4.7UH 20% 8.5A inductor. The max current for this is 8.5A so it is possible that it is heating up due to overcurrent. I'd be checking Q7130 (component just above L7130) MOSFET.  Get the datasheet for that [https://www.renesas.com/en-sg/doc/products/.../r07ds0904ej0120_rjk03p0dpa.pdf|from here.] Of course you can always check L7130 with a multimeter as well as an oscilloscope. Check [http://www.learningaboutelectronics.com/Articles/How-to-test-an-inductor|on here] for an idea

crwdns2915684:0crwdne2915684:0:

open