T O P I C R E V I E W |
dgdiniz |
Posted - 10/30/2015 : 08:14:54 Hi, with the gq-4x I can program 32Mb Tsop chips, like 29f032, but are there some 64/128/256Mb Tsop chips supported by gq-4x? Or the maximum supported is 32Mb?
Thanks |
7 L A T E S T R E P L I E S (Newest First) |
anniel |
Posted - 12/22/2015 : 12:10:41 I gave that as an exemple of multiplexing. For your chip you can always switch the A24 and A25 lines manually and use an offset without a specific adaptor. |
chadbh74 |
Posted - 12/22/2015 : 09:57:26 Well that topic talks about the GQ-5X. Also, the datasheet is for a H27U4G8_6F2D or H27S4G8_6F2D and I can't find either one in the DEVICES.TXT for the GQ-4X. The OP asked for an example of a 64MB/128MB chip supported by the GQ-4X. I too have wondered about this as every one I have come across is NOT in the DEVICES.TXT file.
Take this chip for example JS28F00AM29EWHA (1Gbit, 128M x 8)www.micron.com/~/media/documents/products/data-sheet/nor-flash/parallel/m29ew/m29ew_256mb_2gb.pdf. I can find suport for this chip in more expensive programmers with ZIF48 sockets, but not in any that have just a ZIF40.
Perhaps support is possible with the right adapter though? |
anniel |
Posted - 12/21/2015 : 17:03:40 Bigger chips use multiplexing I/O address allocation.
http://www.mcumall.com/forum/topic.asp?TOPIC_ID=6862
www.farnell.com/datasheets/1641689.pdf |
chadbh74 |
Posted - 12/21/2015 : 14:29:10 Is there an adapter that expands the GQ-4X beyond the A23 line? I'm guessing some shift registers would be used to implement this?
For standard A0-A23 lines, the binary math works out as follows...
A0 - 2 bytes A1 - 4 bytes A2 - 8 bytes A3 - 16 bytes A4 - 32 bytes A5 - 64 bytes A6 - 128 bytes A7 - 256 bytes A8 - 512 bytes A9 - 1024 bytes (1K) A10 - 2048 bytes (2K) A11 - 4K A12 - 8K A13 - 16K A14 - 32K A15 - 64K A16 - 128K A17 - 256K A18 - 512K A19 - 1024K (1MB) A20 - 2MB A21 - 4MB A22 - 8MB A23 - 16MB
So largest as is with A0-A23 would be a 16MB (MegaBYTES) chip. Often times the datasheets will rate chips in MegaBITS, which takes 8 bites to make a byte so we're talking 8 x 16 = 128 megabits max.
A simple way to calculate the max bytes is 2 ^ (Number of lines)
i.e. A0-A23 = 24 lines = 2 ^ 24 = 16,777,216 bytes 16,777,216 bytes / 1024 bytes (1K) = 16,384K (Kilobytes) 16,384K / 1024K (1MB) = 16MB (Megabytes)
Of course serial chips could get around this easily as well. |
ZLM |
Posted - 11/07/2015 : 23:09:09 The GQ-4X has A0-A23 address lines. So, for the parallel chip, it can be support up to 4 GB.
However, the address line can be expended by adapter.
|
dgdiniz |
Posted - 11/04/2015 : 06:35:42 And about NOR-flash? What is the largest chip supported? Could you give an example of a 64/128Mb chip supported by gq-4x? |
ZLM |
Posted - 11/03/2015 : 17:38:36 It is possible to program a none NAND flash TSOP chip. Regardless chip capacity. |