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I am new to microcontroller - AVR and Arduino. I see that the microcontrollers used in commercial devices are much cheaper than the AVR or PIC.

For example the cheap price of a remote control device (transmitter) indicates the price of the microcontroller (very small and thin) is also cheap. Anything is made using AVR or PIC is more expensive than the commercial device already in the market.

I am interested to know about these commercial microcontrollers - how to program them and where to get. Since there is learning curve for programming any type of microcontroller, then why not to use the professional ones which have use in the real world devices?

Thank you in advance.

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2 – Anycorn Nov 11 '10 at 17:28

While there are a few special cases, the processors are generally the same. The difference is in quantity. Large companies guarantee the vendors that they will buy a minimum number of processors per year and in return get a discount. This can be quite significant. In the single unit quantities, you may pay $4 for certain processors that are about $1.20 in the 10k annual quantity, or even to less than $1 in 1 million annual quantities.

Also, one thing to note. Microcontrollers all do basically the same thing. The difference is in the details. The important part is learning how to deal with minimal resources. Most of the skills transfer quite readily to other architectures. AVR is a good starting platform.

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The ones on the eval boards are basically the same. The differences have to do with package type (through hole dip, surface mount, bga, etc), temperature ratings sometimes, mil spec, version commercial for example. Either way though a particular family is usually represented. Often the chip vendor will put the fancy version of the chip meaning more memory, more I/O, more whatever on the cheap eval board, and the one you may put into production on a commercial product (note the eval board is a commercial product) may be selected to have the absolute minimum, memory, pins, power, etc.

As already answered commercial products buy tens or hundreds of thousands at a time and get a considerable price break. So that is why your HP calculator with an at91sam7s microcontroller in it, at $20 is cheaper than an at91sam7s eval board. That also has to do with supply and demand of the commercial product not just the individual components, there are a lot more HP calculators made on a single run than microcontroller eval boards. In fact the eval boards from the vendors are sometimes sold at a loss to the company. The idea being that the cost will get recovered when a percentage of the eval board customers go into production runs with their products. Falls under that marketing budget, the free ball point pens and golf balls at trade shows are given away at a loss to the company in hopes that you will think of them next time you are buying something.

Get some eval boards and learn to program the various microcontrollers. Once you dive into the databook, and perhaps go surf their website you will see the various package types, memory sizes, pin count, etc and price per unit for various quantities.

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Commercial devices often have a so-called MaskROM instead of flash. Chips are "programmed" at factory using mask plate on manufacturing phase. Mask plate is made on factory from hex file. And then used to produse large amount of identical preprogrammed chips.

Mask ROM is nothing more than array of metal conductor connections endcoding PROM content. Just like any other connections in a chip. They cannot be reprogrammed when chip is produced.

Hechnology is cheap, because it does not add any technology stages in production process and removes large and expensive field of floating charge devices (FlashROM) from chip, replacing it with single metal layer.

Difference is like with conventional CD and CD-RW.

More cheap device can be made using custom chips. In this case only needed circuitry remain on chip so it can be produced in most optimal way.

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