Winbond 25q32 Programmator

If you are simply looking for a way to program the Winbond SPI flash with 'pre-loaded' data that your microcontroller would read for use when it is running then what you will want to look into is a programmer that can do in-circuit programming of the SPI Flash chip. This also known as in-system-programming (ISP). One choice is the. This USB connected device can program in circuit if you design your board correctly. They even sell an adapter clip that can attach into the SOW-16 package without having to design in a separate programming header on your board. DediProg has application information bulletins available to help with correct design for in circuit use. The main strategy for the design is to find a simple way to isolate the SPI interface drivers in your MCU system so that they do not interfere with the drivers in the SPI programming pod.

The simplest way to do this is to put series resistors in the MCU driven lines between the MCU and the SPI Flash. The programmer would connect on the SPI flash side of the series resistors. Alternate methods could include adding a MUX or analog switches in the driven interface lines. An even more clever scheme is to add a 'programming enable' input to the MCU that makes the software disconnect all the SPI I/Os from the SPI Flash chip (i.e. Make all those GPIOs as inputs). A second choice to also consider is. The Presto is able to do various types of SPI and I 2C devices including SPI Flash devices.

I have one of these devices specifically for programming Atmel MCUs and various types of SPI Flash devices. It is a more cost effective solution than the above unit but not quite as flexible. Their more expensive device called the Forte is able to do more things because it has more target interface pins. Sometimes it can be beneficial to be able to connect a programmmer to a target board without having to add a programming header. One nice solution for this is to place a small set of pads in a special footprint defined. They manufacture and sell a series of quick connect programming cables that have pogo pins that engage the special footprint on the board. There are 6-pin, 10-pin and 14-pin versions of the cable available to suit a range of applications.

Programmator spi flash spi flash programmator spi flash programme spi flash sop spi flash 1.8v Promotion: spi flash programmers spi flash w25 4mb spi flash winbond spi flash 25q64 spi flash flash spi 64mbit spi flash 1.8v reviews: spi flash 25q32 spi flash 2516 spi flash mbit spi flash 32mbit 32mbit flash spi flash spi. The Winbond 25Q128 is a really cool part: high capacity (16 MBytes), very fast, good support for many standard instructions, supports wide bus modes. But it can be expensive depending on the application. I found the little sister 25Q32: I use 6 of them on each board of a project.

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Cost of the cables are very reasonable. I have never heard of any other tools talking SPI directly to such a chip, and I think it is impossible since 'all' chips require different calls for different operations. The chip needs SPI calls for write, read, change sector, data size etc. Under 7.2 Instructions chapter in the datasheet you can see all the SPI commands you can send to it. Hence, since all external flash memories does not have the same instruction set, you need to write a customized application for this one.

EDIT: Being a follow up, I would really recommend one of Atmels own SPI flash memories, since most of them already has written open available code for them. Looking at from will provide you with code for some of Atmels AT45xxxx serial flash chips.

I purchased a ' programmer from Embedded Computers for about $30 US. It was surprisingly easy to connect to the PC via USB and write files to the Winbond flash memory.

The methods and programmers in other answers are probably just as good, some more expensive or DIY, but this is a cheap and simple way that fits what I was seeking. Here's a picture of the setup: The FlashCAT programmer is at left, connected to USB. It's running the SPI programming firmware (as opposed to JTAG) and supplying power to the flash memory. The supplied power is selectable (3.3V or 5V) with a jumper.

I have a SOIC to DIP socket on the breadboard to make it easy to program multiple chips. (You can see another flash memory IC sitting on the breadboard as well.) I haven't yet converted my audio file to the proper binary format, but I wrote a 211KB WAV file to memory just to test, pictured above. I then read it back and saved it as a new file, renamed it to.wav, and it plays correctly on the PC. The next step will be to properly encode the file, and write the AVR software to read the data and send it through a DAC. Disclaimer: I am not affiliated with Embedded Computers, I'm just a customer who picked something inexpensive and am sharing information about the experience with the product. Kind of late to the discussion, but for anyone reading it after a search. One thing I did not see mentioned, which is absolutely critical when programming SPI Flash chips is control of the Chip Select (CS_) pin.