JoaMat Posted April 27 Report Posted April 27 I like the idea about to-252. First draft… …have to think about this. XLR ground pin to signal ground on PCB. 1 Quote
Shawn Posted April 28 Report Posted April 28 12 hours ago, JoaMat said: XLR ground pin to signal ground on PCB. Correct me if I am wrong. The Ground Pin(Pin1) has been connected to the XLR socket shell by default by the manufacturer in some cases. This way, the ground pin should be left unconnected to avoid a looping ground. In this case, the loop may be like this: XLR(Pin 3)-> AMP signal ground - > L bracket - > chassis -> XLR(Pin 3). I just realised the L-bracket is isolated to the signal ground, so it should be fine.🤐 I assumed the amp chassis ground wires are connected to the PSU chassis somewhere, and the amp signal grounds are merged with the XLR ground, and then connected to the PSU power supply ground somewhere. Quote
kevin gilmore Posted April 28 Report Posted April 28 the neutrik jacks i used in the diy t2 are actually 4 wires. the connector shell is a seperate wire. i put in a jumper to chassis ground for that wire. 1 Quote
JoaMat Posted April 28 Report Posted April 28 You might say I follow the strategy of DIY T2 PSU by Kevin. I have two PSU I’m using for all my electrostatic amplifiers. One original T2 PSU and one I made myself basically same as the original but with KGSSHV PSU regulators. Bottom line: I’ve never have bother about grounding strategies. So far, I haven’t had any issues with ground loops that I’m aware of. 1 Quote
JoaMat Posted 8 hours ago Report Posted 8 hours ago On 4/27/2025 at 11:20 AM, Shawn said: IXTP10M90S can be replaced with IXCP10M90S(TO-252). If KSC2690 can be replaced by something else with an SMD package, we can eliminate all the aluminum oxide isolations. Milled a small board to test IXCP10M90S(TO-252). Attached board to heat sink via L-bracket and sil pad for insulation purpose of course. When increasing current to 20 mA left side its 10m90s popped and left the board completely. Found it on floor. So, no more testing regarding surface mounted 10m90s. I’m very pleased with the new mini T2 board. Here with 300B via tube adapter with filament injection, 5VAC from transformer. Works great. Nice setup, don’t you think? Quote
Shawn Posted 8 hours ago Report Posted 8 hours ago 32 minutes ago, JoaMat said: Attached board to heat sink via L-bracket and sil pad for insulation purpose of course. When increasing current to 20 mA left side its 10m90s popped and left the board completely. Found it on floor. That 10M90S decided it was done with this world and took a leap of faith! Looks like it couldn’t handle the heat.☹️ Did you check this section? Looks like it was shortened by the solder. Quote
JoaMat Posted 7 hours ago Report Posted 7 hours ago Thanks for notifying. The more eyes the better and… No, I missed that damage. With L-bracket it looks like this. Clearence between +400V area and ground is 40 mil. So, I doubt that there has been an electric short. I suspect that, for a reason I don’t understand, the current rushed and 10m90 quickly over heated. At the same time the PSU gave up and all went silent. I guess it’s heat from 10m90s that caused the damage. But that is a 100% guess. Anyhow, I think I stick to to220 version of 10m90s and forget this mishap. Quote
simmconn Posted 2 hours ago Report Posted 2 hours ago Yep, if you had checked the theata-jc of those packages you wouldn’t have bothered with such “test”. Quote
JoaMat Posted 40 minutes ago Report Posted 40 minutes ago Since I don’t know how to calculate the thermal resistance between to-252 and heat sink out into free air I made this small test. I got a clear answer. I do know Ohm's law though. 1 Quote
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