hello all,
when i first saw this idea, **broken link removed**
i ordered pic10f200 without thinking.as i felt it is very much suitable ckt for (tacho with LED's and compact design) my application.
but after reading the comments iam stuck.is this tacho gona work or will it fail as per the commented by a guy(I Ron)
can u guys just confirm this ckt.
thanks
thanks guys.
actually i have no knowledge of PIC programming etc.i found this ckt while browsing generally.why i liked it is bcz it looks simple to built and occupies very less space.and the required code is already available.
but the comment (of the right side)
"t is not clear how the design prevents the upper or lower LEDs to turn on when the middle ones are turned on."
made me to post a thread here.
and if u guys know any compact designs of tacho.pls let me know.
thanks once again.
thanks for the replies guys.
@3v0 i'll start learning abt mcu's as u said.
actually my problem is we are working on a new design of automotive(college project).where my part is to take care of lighting system and other simple electronics.so i have to finish it and fix it as soon as possible as most of the work is already finished.
i have multi pic programmer(v5.2) for burning pic's.so can i use it for 10f200 or is there any spl type of programmer do i need?
and another thing i observed is similarity between 10f200 and 12f629.it has almost same pins as 10f200(gp0,gp1,gp2,gp3).so can i use the same code with 12f629 with modified circuit?
This is an ouch. Wait till the last minute and then come here asking for somthing ASAP. Sort of sounds fimiilar.
Regarding pins. Microchip has setup its processors so that processors with the same number of pins have the same pinouts. The gotchas are most often that the config bits are different.
The 10f200 processor is a low-range processor and the 12f629 is a mid range processor. It is late at night but I am fairly sure they have different instruction sets.
No I do not think the 12f629 will run 10f200 code.
The source code provided is for the CCS C compiler.
Your best bet is to order the correct chip from Newark. They ship 2nd day for the same price as ground.
You did not fill in you location (bad) so I have no clue where you are. If you are close to Mouser (TX) or DigiKey (MN) you can use UPS ground fromt them in a day or two ( I know this is true of Mouser but have not used DigiKey much of late). I am a state away from Mouser and some orders come in under 24 hours. Mouser has no min order. If you are not in the US you are on your own. Again no location.
This is an ouch. Wait till the last minute and then come here asking for somthing ASAP. Sort of sounds fimiilar.
Regarding pins. Microchip has setup its processors so that processors with the same number of pins have the same pinouts. The gotchas are most often that the config bits are different.
The 10f200 processor is a low-range processor and the 12f629 is a mid range processor. It is late at night but I am fairly sure they have different instruction sets.
No I do not think the 12f629 will run 10f200 code.
The low end PIC's are 12 bit, the mid range are 14 bit (16F series, but also 12F629) - the 14 bit devices are upwards compatible from the 12 bit ones, they just have a couple of extra instructions.
So it should be pretty trivial to convert from 10F to 12F.
The low end PIC's are 12 bit, the mid range are 14 bit (16F series, but also 12F629) - the 14 bit devices are upwards compatible from the 12 bit ones, they just have a couple of extra instructions.
So it should be pretty trivial to convert from 10F to 12F.
ok it seems better to use 10f200 only.i'll get them soon.
and for programming it(multi pic programmer),i did some search on net and found a pcb layout to convert it in to dip type. **broken link removed**
just scroll down u'll find the layout in a Japanese page.
i compared it against 12f629 for programming.have a look **broken link removed**
i hope it might be useful who are looking for some homemade adapter.
Please explain how this happens. LEDs are diodes, and the acceptable reverse voltage is given in the data sheet. Are all of the LED data sheets mistaken?
Reverse bias can't hurt a diode unless the PN junction temperature is violated. The voltage drop of a diode undergoing zener and/or avalanche effects is higher than a forward biased diode, but as long as the reverse current isn't so high as to violate the devices power rateing nothing bad is going to happen and it doesn't degrade anything that I'm aware of. Devices that use Zener regulation run their diodes reverse biased AND conducting for their entire life.