No longer in. Those changes were performed in the master branch, but I created a branch from the Spin1 tag, so now I've to make some corrections to the schematic again.jharvey wrote:Updated and no longer in ?nitrousnrg wrote:* Mic2954:
It has 250mA vs 400mA of the LM2937. The last seems like a safer choice.
Perfect.jharvey wrote:I'm not crazy about that choice, I changed to VNP20N07 an OVP MOSFET.nitrousnrg wrote:* low side drive mosfets
totally optional, they're insanely huge (RFP30N06). Perhaps you guys have a better/cheaper/more common suggestion?
Ah, I see. Yes, I approximated those values, since I had a working setup with them. You can leave 39k and 3.3k, or remove the resistors if you want, only a couple of argies will use that circuit in Spin1, and I'm the one who build the boards.jharvey wrote:The issue is that I didn't have an exact match value. I'm guessing you used 39K and 3.3K.nitrousnrg wrote:* R151 and R150
Yeah, that circuit was taken from a Bosch sensor datasheet, for the thermistor that my car and quite a bunch of other cars here have. Those resistors aren't part of a normal setup. Ask fred about the values of the bias resistor, it should be calculated with Freetherm afaik.
Mmmm, yes, in later versions all 1N4XXX were replaced by schottkys.jharvey wrote:So 1N4148 is now a different diode We should update the schematic to call for a different diode.
Still unsure about those caps, most of the input circuits already have a filtering network.jharvey wrote:This being a qty 0, could be a good thing. The diodes and cap should basically not influence the circuit unless you exceed the frequency or voltage of the circuit. I should QUCS this circuit to show it's reactions a bit better. A down side is that I can't figure out how to do a FFT with the copy of QUCS I have.nitrousnrg wrote:O2 has no extra components but the protection circuits, which has some RC filtering. I'd remove the filtering caps at the circuit protection (in all channels), and only filter in the input circuitry. Maybe having diodes so close to the ADC can make the input too noisy, I can check that in minutes.
By the way, I'm not a power user of qucs, but if it can throw a table, .csv preferentially, the FFT can be calculated with octave with a couple of commands.
* Leave 39k and 3.3k. That BOM was produced from an updated schematicjharvey wrote:Here's what I see that needs addressing.
R150 and R151 are exact values, but are probably really 39K and 3.3K, what should they be?
1R1W and 1R should these be the same? I probably have a buggered count, the are currently 1R.
1N4448 is replaced by a different diode, but what one?
C21 470pF and C123 1uF doesn't appear in the BOM. What's the digikey/MFG number?
Newest BOM pushed.
*1R is R2, in the voltage regulator circuitry. Two 1R1W are for the stepper IC, they are in there for current sensing.
* 1N4448 -> MBR0520L The same as the analog protection schottkys. Digikey: MBR0520LCT-ND
* Further revisions changed C123 from 1uF to 0.1uF, and R111 from 3.9k to 39k, setting the same time constant.
C21 = 470pF should be 330pF, to reuse the cap of the PLL circuit. It was changed later for a similar and now inexistent convenience (fixed in master branch now)
