16 comments
here are 175 more adapter boards. gotta break them free first before soldering them down. @RueNahcMohr hct4066 I'll have you know. also these are very cheap, 20 cents each another meaningless scope photo to some, but this contains clues as to why the MOnSter 6502 tops out at 100KHz or so. notice how, in the center of the screen, when channel 1 (the clock signal) falls, there is a corresponding drop in channel 3 (the data bus) this is an effect of the precharge mosfet. the clock signal goes to the gate, the drain goes to 5V, and the source goes to the data bus bit. the idea is that when the clock goes high, the bit gets charged up (to the clock pulse voltage minus the threshold voltage). when the clock goes low, the mosfet turns off, and the data bit remains charged. in practice, due to the gate to source capacitance (Cgs) the falling edge of the clock couples into the data bus bit. years ago I added bus capacitance which mitigates this somewhat. I've come up with a better solution. I've replaced the precharge mosfet with an analog switch chip -- one of those little circuit boards. and look: the glitch is gone, and we've got a clean signal now. the rising edge looks much cleaner as well. (we're looking at channel 2, purple) @tubetime Was gonna say cuz that rising edge on yellow looks hella analog 😃 That said I like how the scope is labelling the voltages on the right edge.My Rigol doesn't do that, it seems like a reasonable upgrade. @tubetime oh god yeah just saw context now. building a whole CPU out of $6 matched MOSFETs is an expesive business. My first guess would have been SOT23 2n7000 and I guess that'd work for gates but body diode might scupper pass transistor stuff. 74hc4066 switches area good shout, txb0108 family might work as well. |
whatever is driving the bus is very slow. the new analog switch closes quickly and loads the bus into accumulator bit 0, but the bus is still settling.