- cross-posted to:
- [email protected]
- cross-posted to:
- [email protected]
cross-posted from: https://lemmy.world/post/766830
STM32C0 is a new line of Cortex M0+ Microcontrollers this year. Low-end STM32 chips have been trying to dethrone the 8-bit crowd by offering a 32-bit ARM Cortex M0+ for some time, and I welcome this competition. STM32C0 is cost-optimized with 8-pin to 48-pin form factors, and targeting very low end with 6kB SRAM and 48 MHz clock speed.
SPI, UART, I2C, 4+ MHz XTAL and 32kHz XTAL support, multiple timers for PWM, 12-bit ADC with best case 2.5 Megasamples / second.
Not bad for 61-cents (quantity 1k) at Digikey, ehh?
I think the 8-bitters still seem to have more I/O features, but this is a pretty competitive 32-bit chip on the low end. ST-micro is selling this chip as “entry-level 32-bit”, saying that you can keep code-compatibility as you scale up your projects. After all, ARM is ARM, be it a tiny Cortex M0+ or a higher end M33, M4 or M7 chip.
For people hoping to scale designs up and down, adding STM32C0 line chips is probably welcome to the STM32 hobbyists.
Have you tried one of the SOT23-6 microcontrollers? I have a few ATTINY 9s and 10s.
I do wanna design my own boards eventually, but I’m sticking with premade boards and at smallest, DIP-8 packages for easy breadboarding or prototype boards.
AVR DD comes in DIP28 and under $2, with the latest and greatest updates from Microchip.
STM32C0 is surface mount only so it’s probably not something I’m actually gonna play with. But I do gaze upon it with awe.
It comes in what look like SOIC-8 and QFP packages. They have gull wing pins. Those are straight forward to solder using a small chisel to soldering iron and dead simple with a GW tip. I can show you how to do it if you like. Check out the banner picture at [email protected]. I soldered that chip with a simple pencil iron and a 2 mm chisel tip.
I actually do have a hot-air gun, a pancake-griddle, and a soldering iron + some lab experience from college a few years ago :-) (Heat from below + Hot-air heat from above leads to more consistency. A real life hot-plate is much more expensive than $20 pancake griddles though. You can’t get around the hot-air gun though for a lot of these parts)
I’m not against soldering. Its the designing of the PCB board that trips me up.
When its DIP-8, I can just buy proto-boards / breadboards and a few wires and everything hooks up quite well. I do have a few SOIC8 to DIP8 boards when I need to use an SOIC-8 or other SMT board though… but its an extra step that’s kinda annoying.
My knowledge gap is KiCAD. So sticking with PDIP8 and anything that has a SMT->DIP conversion board is my preference.
I guess your point is that there’s plenty of conversion boards for SOT-6 to DIP or whatever? Which is true, but… I really should just start taking advantage of Digikey Red + KiCAD and start making proper boards. Those converter boards are more expensive than a custom USA-made Digikey-Red 2-layer board in practice. Its just a knowledge gap of KiCAD that’s stopping me from doing this…