Addy, On Mon, Nov 24, 2014 at 6:38 PM, Addy <addy.ke@xxxxxxxxxxxxxx> wrote: >> In worst case scenario, VDD = 3.6V and VIO = 2.7V. That gives as the >> factor of 0.75, thus we are inside spec but without margins. > > * From eMMC4.5 spec: > 1. (VDDF)vcc: Supply voltage for flash memory, which is 2.7v -- 3.3v > 2. (VDD)vccq: Supply voltage for memory controller, which is 1.7v -- > 1.95v and 2,7v -- 3.6v > > * And from RK3288 datasheet: > Digtial GPIO Power(SDMMC0_VDD --> vccq) is 3.0v -- 3.6v and 1.62v - 1.98v > > So I think: > 3.3v: (2.7v < vccq < 3.6v) && (3.0v < vccq < 3.6v) ==> (3.0v < vccq < > 3.6v) > 1.8v: (1.7v < vccq < 1.95v) && (1.62v < vccq < 1.98v) ==> (1.7v < vccq < > 1.95v) > > and (2.7v < vcc < 3.3v) > > * And according to our hardware engineer: > All of supply voltage must have +/- 10% cushion. > > * And we have found in some worse card that there is 200mv voltage collapse > when these card is insert. > > So I think the best resolution is that vcc and vccq is configurable int dt > table. Ah, interesting. ...so what we really need to be able to do is to say that the regulator we for vqmmc have supports the ranges 3.0V - 3.3V and 1.7V - 1.95V but not anything in between 1.95V ad 3.0V. I have no idea how to express that in the regulator framework. Technically you could take the IO Voltage Domains code (responsible for choosing the 1.8V range or the 3.3V range) and have it communicate the requirements to the regulator framework if you could figure out how to communicate them. ...of course if you implemented my suggestion of keeping vqmmc as the highest voltage <= vmmc then maybe the whole point is moot and we don't have to figure it out. Just make sure that vmmc never goes below 3.0V. -Doug -- To unsubscribe from this list: send the line "unsubscribe linux-doc" in the body of a message to majordomo@xxxxxxxxxxxxxxx More majordomo info at http://vger.kernel.org/majordomo-info.html
