It's a 40 MHz 030, but I'm looking for a 25 MHz one. I don't think I'll want to run this card much faster. If/when I get this to work it's going to be sold at a charity auction, and the 40 MHz CPU is to be used in a TF534Maximilian wrote: ↑Thu Mar 07, 2019 10:56 pm P.s. witch 68030 did you get? 33c? , that could probably run on 50Mhz...., just remove the coprocessor if it is slower than 50Mhz
My thought with the 5V oscillator was to get the levels higher as the buffer seems to react better to the 7 MHz clock than the output from the 3.3V oscillator. I might be able to create a simple level shifter instead... But as you can see in my earlier post the output from the 3.3V oscillator looks quite ok now. But not after the buffer.Maximilian wrote: ↑Thu Mar 07, 2019 10:56 pm If you have to wait for parts i have an Idea...
1. Take the 50Mhz 5v Oscillator and test it on 3v, if it runs you are in luck and you can use it on 3,3v.
2. Put the above on a piece of perfboard with frequency divider using a d-flip flop on 3,3v , and then you have 25Mhz.
(don't forget a 19Uf cap across VCC and GND)
3. Test
4. Put on your new Oscillator on when it arrives.
I think I'm going to check at what level the buffer triggers with a variable supply. Something weird is going on.
I'll see if I have a suitable resistor, but I might only have ones with larger footprints at the moment. I could test with FPU, but I don't think this card will have one when it's done as I only have 40 MHz FPUs that I was going to use for the 534.terriblefire wrote: ↑Fri Mar 08, 2019 7:26 am There is a resistor pad in the Rev 3 for this purpose. North of the RaM cpld next to the SPI port.
I’d also recommend putting the FPU in if you haven’t already. It has the same effect