Alright, I know I am going to get a lot of flak for this, but let me reassure you that I have already spent the last few days reading on Google while going back and forth from the bench to test different things. I have taken numerous seated/structured classes on basic circuit design and basic electrical engineering courses, yet it seems every time I take a break and come back to the material in application, I can never seem to grasp the most basic concepts. The math of Ohms law is simple and makes perfect sense, but am I the only one that seems to still confuse things in application? Ok, enough setup (and please dont edit my question. I included that information for a reason...).

I am testing a new off the shelf switch mode power supply. I don't have all that much experience with them, in fact I just recently learned about their minimum current requirements. That's the problem I am trying to overcome.

How can I test the power supply (achieve that minimum load) so I can use this supply for my application? It seems I need to add a dummy load resistor to achieve the minimum load requirement so the power supply will turn on and stabilize. Here are the points I seem to be getting confused on.

If the supply (RT-125D http://www.mouser.com/ds/2/260/RT-125-SPEC-806385.pdf) has a minimum current of .1A on V3 (12V rail), does that mean I can throw a 120 ohm resistor (R=V/I R=12v/.1A) across the terminals to get that minimum load? Also, that resistor should be rated for at least 1.2W but realistically, should probably be rated for quite a bit higher right? Maybe 2W - 4W? (P=V^2/R P= 12v^2/120ohms) Is my thought process right so far? That should be enough minimum load to at least get the supply to turn on right?

Side note: This supply may not always have a load in its final application which is why I need this dummy load. Or... I guess I need to find a supply with no minimum load requirement (which I understand does essentially the same thing I am trying to do here anyways, just inside the supply itself)

Any help here is greatly appreciated.

Thanks

Alright, I know I am going to get a lot of flak for this, but let me reassure you that I have already spent the last few days reading on Google while going back and forth from the bench to test different things. I have taken numerous seated/structured classes on basic circuit design and basic electrical engineering courses, yet it seems every time I take a break and come back to the material in application, I can never seem to grasp the most basic concepts. The math of Ohms law is simple and makes perfect sense, but am I the only one that seems to still confuse things in application? Ok, enough setup (and please dont edit my question. I included that information for a reason...).

I am testing a new off the shelf switch mode power supply. I don't have all that much experience with them, in fact I just recently learned about their minimum current requirements. That's the problem I am trying to overcome.

This power supply requires a minimum load to turn on. Can you please help me determine the proper minimum dummy load to get the power supply to turn on and stabilize?

If the supply (RT-125D http://www.mouser.com/ds/2/260/RT-125-SPEC-806385.pdf) has a minimum current of .1A on V3 (12V rail), does that mean I can throw a 120 ohm resistor (R=V/I R=12v/.1A) across the terminals to get that minimum load? Also, that resistor should be rated for at least 1.2W but realistically, should probably be rated for quite a bit higher right? Maybe 2W - 4W? (P=V^2/R P= 12v^2/120ohms) Is my thought process right so far? That should be enough minimum load to at least get the supply to turn on right?

Side note: This supply may not always have a load in its final application which is why I need this dummy load. Or... I guess I need to find a supply with no minimum load requirement (which I understand does essentially the same thing I am trying to do here anyways, just inside the supply itself)

Any help here is greatly appreciated.

Thanks

Alright, I know I am going to get a lot of flak for this, but let me reassure you that I have already spent the last few days reading on Google while going back and forth from the bench to test different things. I have taken numerous seated/structured classes on basic circuit design and basic electrical engineering courses, yet it seems every time I take a break and come back to the material in application, I can never seem to grasp the most basic concepts. The math of Ohms law is simple and makes perfect sense, but am I the only one that seems to still confuse things in application? Ok, enough setup (and please dont edit my question. I included that information for a reason...).

I am testing a new off the shelf switch mode power supply. I don't have all that much experience with them, in fact I just recently learned about their minimum current requirements. That's the problem I am trying to overcome.

How can I test the power supply (achieve that minimum load) so I can use this supply for my application. It seems I need to add a dummy load resistor to achieve the minimum load requirement so the power supply will turn on and stabilize. Here are the points I seem to be getting confused on.

If the supply (RT-125D http://www.mouser.com/ds/2/260/RT-125-SPEC-806385.pdf) has a minimum current of .1A on V3 (12V rail), does that mean I can throw a 120 ohm resistor (R=V/I R=12v/.1A) across the terminals to get that minimum load? Also, that resistor should be rated for at least 1.2W but realistically, should probably be rated for quite a bit higher right? Maybe 2W - 4W? (P=V^2/R P= 12v^2/120ohms) Is my thought process right so far? That should be enough minimum load to at least get the supply to turn on right?

Side note: This supply may not always have a load in its final application which is why I need this dummy load. Or... I guess I need to find a supply with no minimum load requirement (which I understand does essentially the same thing I am trying to do here anyways, just inside the supply itself)

Any help here is greatly appreciated.

Thanks

Alright, I know I am going to get a lot of flak for this, but let me reassure you that I have already spent the last few days reading on Google while going back and forth from the bench to test different things. I have taken numerous seated/structured classes on basic circuit design and basic electrical engineering courses, yet it seems every time I take a break and come back to the material in application, I can never seem to grasp the most basic concepts. The math of Ohms law is simple and makes perfect sense, but am I the only one that seems to still confuse things in application? Ok, enough setup (and please dont edit my question. I included that information for a reason...).

I am testing a new off the shelf switch mode power supply. I don't have all that much experience with them, in fact I just recently learned about their minimum current requirements. That's the problem I am trying to overcome.

How can I test the power supply (achieve that minimum load) so I can use this supply for my application? It seems I need to add a dummy load resistor to achieve the minimum load requirement so the power supply will turn on and stabilize. Here are the points I seem to be getting confused on.

If the supply (RT-125D http://www.mouser.com/ds/2/260/RT-125-SPEC-806385.pdf) has a minimum current of .1A on V3 (12V rail), does that mean I can throw a 120 ohm resistor (R=V/I R=12v/.1A) across the terminals to get that minimum load? Also, that resistor should be rated for at least 1.2W but realistically, should probably be rated for quite a bit higher right? Maybe 2W - 4W? (P=V^2/R P= 12v^2/120ohms) Is my thought process right so far? That should be enough minimum load to at least get the supply to turn on right?

Side note: This supply may not always have a load in its final application which is why I need this dummy load. Or... I guess I need to find a supply with no minimum load requirement (which I understand does essentially the same thing I am trying to do here anyways, just inside the supply itself)

Any help here is greatly appreciated.

Thanks