--_003_CY1PR0201MB188422E322DC3E751DE5AA9FDCE10CY1PR0201MB1884_ Content-Type: text/plain; charset="iso-8859-1" Content-Transfer-Encoding: quoted-printable Hi Forrest, Good points, and thanks for the video. I decided to test for myself, so I m= ade a string of 2W metal oxide resistors connected to a power supply and cr= anked it up so the resistors were at 2W each. With full leads, 8mm from any= surface and 21C ambient. Using .4mm(0.15") 63/37 solder for my test, solder melted quickly on the bo= dy of the resistor. But I could not get solder to melt on the leads at all.= Attached is a picture with a small piece of solder wrapped tightly about 1= mm from the resistor body. After 20 minutes there wasn't even any flux esca= ping from the ends of the solder. A magnet sticks to the leads of these resistors. Most power resistors seem = to have similar leads. I have another (more expensive) brand that are non-m= agnetic, and although their datasheet shows the leads as "CuFe" they are no= t more specific and I did not do a solder test on them. In summary, this makes me feel good. I wanted to rule out failures due to r= esistors desoldering and falling out of the board. Using lead-free solder w= ill give me an extra 10-15 degrees of margin for high ambient conditions. B= oard scorching is another risk, so I will space them off the board as much = as reasonable.=20 As I've mentioned before, I'm only worried about a temporary overload condi= tion until other safety systems kick in. Under normal conditions the resist= ors will be dissipating under 1W. Thanks to everyone for your input, this has been fun. Bob ________________________________________ From: piclist-bounces@mit.edu on behalf of Forres= t Christian Sent: Tuesday, January 23, 2018 1:55 PM To: Microcontroller discussion list - Public. Subject: Re: [EE] Resistor temperature rise Since this thread seems to be still alive, I'll add my $0.02: The degrees rise figure is the typically body temperature, not the temperature of the leads at the board, which be much cooler. Note that on page 10 of the datasheet you linked it shows recommended lead termination bending, effectively offseting the resistor off of the board by 8mm. I was trying to find a good thermal camera picture to show this, the closest was at https://www.youtube.com/watch?v=3D-e-qIjttIIY&t=3D134s , at = 1:57 in, there is a thermal camera pic which shows the leads basically being cold, while the resistor body itself being hot. I wouldn't be surprised to find that when mounted as recommended, the units will not desolder from the board. --_003_CY1PR0201MB188422E322DC3E751DE5AA9FDCE10CY1PR0201MB1884_ Content-Type: image/jpeg; name="HotResistor.jpg" Content-Description: HotResistor.jpg Content-Disposition: attachment; filename="HotResistor.jpg"; size=16513; creation-date="Thu, 25 Jan 2018 17:25:19 GMT"; modification-date="Thu, 25 Jan 2018 17:25:19 GMT" Content-Transfer-Encoding: base64 /9j/4AAQSkZJRgABAQEAtAC0AAD/4SP+RXhpZgAASUkqAAgAAAAJAA8BAgAGAAAAegAAABABAgAZ AAAAgAAAABIBAwABAAAAAQAAABoBBQABAAAAoAAAABsBBQABAAAAqAAAACgBAwABAAAAAgAAADIB AgAUAAAAsAAAABMCAwABAAAAAQAAAGmHBAABAAAAxAAAANAMAABDYW5vbgBDYW5vbiBQb3dlclNo b3QgU0Q3OTAgSVMAAAAAAAAAALQAAAABAAAAtAAAAAEAAAAyMDE4OjAxOjI1IDEwOjI5OjA2ACAA moIFAAEAAABKAgAAnYIFAAEAAABSAgAAJ4gDAAEAAACAAgAAAJAHAAQAAAAwMjIwA5ACABQAAABa AgAABJACABQAAABuAgAAAZEHAAQAAAABAgMAApEFAAEAAACCAgAAAZIKAAEAAACKAgAAApIFAAEA 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