My recommendation for a step down converter: The AOZ1280CI is cheap, has a wide voltage input range (3-26V), and can deliver up to 1.2A at 0.8-23V Another good thing: it switches at 1.5Mhz, so the inductor can be kept small. -Michael Op 31-3-2017 om 7:30 schreef Mark Webb-Johnson:
It seems that a dual voltage design would not be ideal.
1. We’d have to go 12V -> 5V, and then 5V -> 3.3V.
2. But then USB 5V is not necessarily 5V, so we would also have to deal with boosting that if necessary.
3. We could use a dual-output buck converter 12V -> 5V and 3.3V. But, then we still have to deal with the USB issue for true 5V.
Reading what all you guys are saying (thanks to all that gave feedback), it does seem that the concerns are unwarranted.
Perhaps we can build the dev boards just pure 3.3V, and see how it goes. We’d use a high range buck converter to bring everything down to 3.3V. If we can find one that would also work in the USB 5V range, then we could just use that. If not, we use a cheap and simple 5V->3.3V device. I’ll ask the China guys what they can recommend based on what they have available and popular in their market.
Regards, Mark.
On 30 Mar 2017, at 10:33 PM, Collin Kidder <collink@kkmfg.com <mailto:collink@kkmfg.com>> wrote:
I'm unsure of why the 3.3v transceiver would be a problem. CAN wiring is supposed to be differential and it isn't supposed to matter if it is 20V and 18V relative to local ground or 4V and 2V. There is isn't a requirement to keep a shared ground between two CAN devices so how would a remote node even know what the "voltage" of CAN-L is? Voltage is only defined between two points so if you don't share a ground between two nodes then the only voltage the transceiver knows is CAN-L to CAN-H which will range by the proper amount whether you use a 5V or 3.3V transceiver. I've used the SN65HVD series transceivers in all sorts of things and never had a single problem. I've also used the ISO1050 isolated transceiver and also had no problems with different devices. But, if the 5V transceiver is cheaper and you can get 5V easily enough then maybe that's still the way to go. I'm just saying in my experience the concern isn't terribly warranted. YMMV.
On Wed, Mar 29, 2017 at 9:07 PM, Mark Webb-Johnson <mark@webb-johnson.net <mailto:mark@webb-johnson.net>> wrote:
I’m trying to finalise the OVMS v3 final board layout, with the factory in China. We have some questions and seek your opinions:
CAN transceivers / power
Overall, the OVMS v3 system runs at 3.3V. We have two power supply sources: USB (where we use a 5V -> 3.3V regulator), and +12V vehicle power (where we use a +12V -> 3.3V switching power supply, to be as energy efficient as possible). Diodes are used for reverse-polarity protection as well as coping with the situation where both usb and vehicle power is applied simultaneously.
Our problem is with the CAN transceivers. I’m used to the MCP2551 (been using it for a decade or more), but that is 5V so greatly complicates the power supply arrangements at the +12V side. We can switch to something like the SN65HVD233 transceiver that works at 3.3V.
But, I am concerned about comments I am reading about 3.3V CAN transceivers and their inability to meet the ISO11898 dominant condition requirement of 3.5V. From my understanding, these 3.3V CAN transceivers get around this by driving CAN-L to 1V, to still get the differential of about 2V (recessive condition?). My concern is compatibility.
What do people think about this? Any recommendations?
External Connectors
The idea is to retain the existing DB9 connector, with the same basic pin arrangement:
DB9-M Signal 3 Chassis/Power GND 2 CAN-L (primary) 7 CAN-H (primary) 4 CAN-L (alternate CAN) 5 CAN-H (alternate CAN) 9 +12V Vehicle Power
That leaves pins #1, #6, and #8 free for expansion uses. It gives us compatibility with existing OVMS cables.
We would then add a second connector. The suggestions here are DB15 normal density, DB25 normal density, or DA-26 high density. My preference is the DA-26 (as DB25 is the old parallel printer style connector and very bulky). As well as power lines, expansion cards could wire to this connector to expose external inputs/outputs.
What do people think about the DA-26 connector? I’m suggesting a female version (as power is carried there, and I don’t want the pins to get pushed together for a short).
Note that we’ve also got a micro-usb socket, as well as space for GPS and GSM/GNS antennas.
Other than that, we are good to go. Things have stabilised now with Espressif, so we can proceed with building developer boards.
Regards, Mark.
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