- System software requirements
- How to use
- List of supported chips
- Packages
- Changelog
- Project structure
- Chip database format
- Licensing
- Translations
IMSProg - I2C, MicroWire and SPI EEPROM/Flash chip
Programmer - is a program to read, write EEPROM chips use the
CH341A programmer
device.
The IMSProg makes respect to QHexEdit2 hex editor and SNANDer programmer. The format of the chip database is based on the format used in EZP2019, EZP2020, EZP2023, Minpro I, XP866+ programmers. Warning, format is not the same!
IMSProg is a collection of tools:
-
IMSProg - the chip programmer (it's the main part).
-
IMSProg_editor - chip database editor.
-
IMSProg_database_update - script to update chip database using external web-server.
git clone https://github.com/bigbigmdm/IMSProg.git && cd IMSProg
cd IMSProg_programmer
mkdir build
cd build
cmake ..
make -j`nproc`
sudo make install
cd IMSProg_editor
mkdir build
cd build
cmake ..
make -j`nproc`
sudo make install
These commands are included in the build_all.sh
file.
For build are needed:
- g++ or clang
- CMake
- libusb 1.0
- Qt5
- Qt5 Qt5LinguistTools
- pkgconf or pkg-config
- udev
On Debian and derivatives:
sudo apt-get install cmake g++ libusb-1.0-0-dev qtbase5-dev qttools5-dev pkgconf
On Debian >=13 and Ubuntu >=23.10:
sudo apt-get install systemd-dev
On older:
sudo apt-get install udev
Optionally if you want to use IMSProg_database_update script:
- zenity
- wget
sudo apt-get install zenity wget
ℹ️ Debian < 11 and Ubuntu < 20.04 are not supported, you may unable to have it working on them.
if using Homebrew then Xcode Command Line Tools will install by default, if not then install manually from terminal:
xcode-select --install
install the required packages
using brew:
brew install qt@5 libusb cmake pkgconf
if not using the build_all.sh script then make sure libusb
is in your C_INCLUDE_PATH
export C_INCLUDE_PATH=/usr/local/opt/libusb/include
Optionally if you want to use IMSProg_database_update script:
brew install wget zenity
Note: for macOS use CMD ⌘
instead of CTRL for keyboard shortcuts.
Can be launched from Terminal by running the command
$ IMSProg
- Insert the chip into the appropriate slot of the CH341A programmer. The
24xxx
and25xxx
series chips must be inserted directly, according to the markings on the PCB of the CH341A programmer. The93xxx
series chips must be inserted into the93xxx adapter
and the adapter into the marking25xxx
programmer slot. The DataFlashAT45DBxxx
series chips must be mounted in aSOP-8 DIP-8
and this adapter shall be inserted into the45xxx
adapter. The45xxx
adapter must be installed in the programmer slot marked25xxx
.
- If the chip supply voltage is 1.8 volt he must be inserted in
1.8 volt adapter
and the adapter into needed programmer slot.
- Plug the CH341A programmer into the USB socket of your computer and running
the
IMSProg
. - You can plug and unplug the programmer device (CH341A) to the USB port at any time when basic operations (reading, checking, and programming) are not in progress.
- Read more about adapters here.
Select the type of chip used from the Type
pop-up menu: SPI FLASH
when
using SPI NOR FLASH chips of the 25xxx
series, 24_EEPROM
when using I2C
EEPROM of the 24xxx
series, 93_EEPROM
when using MicroWire EEPROM of the
93xxx
series, 45_EEPROM
when using DataFlash chips AT45DBxxx
series.
When using 25xxx
series SPI NOR FLASH chips (Menu item type
-> SPI_FLASH
),
or AT45DBxx
series SPI FLASH (Menu item type
-> 45_EEPROM
) the Detect
button will be available. When the Detect
button or
or <Ctrl+D>
is pressed, the JEDEC information is read from the chip and all
parameters of that chip are loaded from the chip database. Any parameter
(size
, page size
, block size
, VCC voltage
, and 4-bit address length
)
can be changed manually. You can manually enter the Manufacture
and Name
pop-up menu data - all other parameters will be automatically loaded from the
chip database.
When using 24xxx
or 93xxx
or 95xxx
or 25xxx
SPI EEPROM (non NOR FLASH)
series chips, it is necessary to manually enter the Manufacture
and Name
pop-up menu data - all other parameters will be automatically loaded from the
chip database.
-
Pressing
Read
or or<Ctrl+R>
to read data from the chip into the computer buffer. -
Pressing or
<Ctrl+W>
to write data from the computer buffer into the chip. -
Pressing the or
<Ctrl+T>
button causes the data in the chip and in the computer buffer to be compared.
The progress bar shows the progress of the read, erase, and verify operations.
-
The
Auto
button is used to perform erase, write and verify operations in sequence. If one of these operations is not needed, you can uncheck the checkbox for that operation. -
The or
<Ctrl+I>
key is used to force interruption of chip read/write/erase/verify operations. -
The
i
key show the connection chip to CH341A device image form. -
The
Main menu -> Programmer -> Chip info
or<Ctrl+P>
item shows the Serial Flash Discoverable Parameter (SFDP) register and the status registers of the SPI NOR flash memory chips.
If the SPI NOR FLASH chip is detected normally, but is not read (gives the
message Error reading sector 0
), then in the Chip info
window you can
change bits BP4
and BP3
to zero and press the Write registers
button.
Then repeat the chip reading operation.
If the SPI NOR FLASH chip is read unreliably (with a different checksum each
time) and Status Register 2
is available in the chip, you can change bits
DRV0
and DRV1
to zero and press the Write Registers button. This will
increase the power of the output stage of the DO
pin of the chip. Then
repeat the chip read operation.
For 25xxx
, 95xxx
and 45xxx
series chips that have only one status
register, the Chip info
form is as follows:
-
The or
<Ctrl+S>
button is used to save the computer buffer to a file. -
The or
<Ctrl+O>
button is used to save the file in the computer buffer. -
The or
<Ctrl+Shift-S>
button is used to save a part of the computer buffer to a file (the start address and length of the part must be entered). This operation can be used when splitting a binary data image into parts. -
The or
<Ctrl+Shift-S>
button is used to load a small file to a certain address in the buffer. The data fragment in the buffer will be replaced with new data from the file. -
The or
<Ctrl+Q>
button is used to invoke the chip database editor. -
The menu item
File / Import from Intel HEX
is used to save the Intel HEX file in the computer buffer. -
The menu item
File / Export to Intel HEX
is used to save the computer buffer to a file in Intel HEX format.
The hexadecimal chip editor (right side of the screen) is used to display and modify buffer data.
It contains the following controls: undo,
redo, and the
search/replace. The [Ctrl+A]
key used to update the CRC24 checksum. The
[Ctrl+G]
key used to to move the cursor to the entered address.
Chip base editor - IMSProg_editor is a stand-alone program that can be launched
from the Development
menu or from the IMSProg program by clicking on
.
All operations in the editor become available only after loading a chip base file with .Dat extension.
Menu File
.
Open
or[Ctrl+O]
or allows you to load the data file.Save
or[Ctrl+S]
or saves the chip parameter table to a database file.Exit
or[Ctrl+X]
or - exits the editor.Export to CSV format
or[Ctrl+X]
or allows to unload data about chips in CSV format for further processing by spreadsheet software - LibreOffice Calc, OpenOffice Calc, Google Tables, etc.Import from CSV file
or[Ctrl+Shift+X]
or - loads a table in CSV format and adds data from it to the existing data in the table.
Menu Edit
.
Delete Rows
orDel
or - deletes one or more rows.Add Row
orIns
or - adds a row below the selected row and copies all data from the selected row to the new row.Move Up
or '[Ctrl+Up]` or - moves the selected line up.Move Down' or
[Ctrl+Down]` or - moves the selected row down.Import selected rows to CSV format
or- saves selected rows to CSV file.
The most recent version of the chip database file can be downloaded from this page in both .Dat and .csv formats.
IMSProg_database_update uses the zenity graphical Gnome utility. Once started, it copies the downloaded database to the ~/.local/imsprog folder. The script then displays the number of of chips in the database before and after the upgrade.
24C01, 24C02, 24C04, 24C08, 24C16, 24C32, 24C64, 24C128, 24C256, 24C512, 24C1024
93C46, 93C56, 93C66, 93C76, 93C86
- ST
M95010, M95020, M95040, M95080, M95160, M95320, M95640, M95128, M95256, M95512, M95M01, M95M02
- ATMEL
AT25010, AT25020, AT25040, AT25080, AT25160, AT25320, AT25640, AT25128, AT25256, AT25F512, AT25F1024, AT25F2048, AT25F4096
- MICROCHIP
25AA010, 25AA020, 25AA040, 25AA080, 25AA160, 25AA320, 25AA640, 25AA128, 25AA256, 25AAF512, 25AAF1024, 25LC010, 25LC020, 25LC040, 25LC080, 25LC160, 25LC320, 25LC640, 25LC128, 25LC256, 25LC512, 25LC1024
- ONSEMI
CAT25C01, CAT25C02, CAT25C04, CAT25C08, CAT25C16, CAT25C32, CAT25C64, CAT25C128, CAT25C256, CAT25C512
- ATMEL
AT45DB011, AT45DB021, AT45DB041, AT45DB081, AT45DB161, AT45DB321
- ADESTO
AT45DB011, AT45DB021, AT45DB041, AT45DB081, AT45DB161, AT45DB321, AT45DB641
- SPANSION
FL016AIF, S25FL016P, S25FL032P, FL064AIF, S25FL064P, S25FL256S, S25FL128P, S25FL129P, S25FL204K, S25FL208K, S25FL116K, S25FL132K, S25FL164K
- XTX
XT25F02E, XT25F04D, XT25F08B, XT25F16B, XT25F32F, XT25F64F, XT25F128F, XT25F256B, XT25W02E, XT25W04D, XT25Q08D(1.8V), XT25Q16D(1.8V), XT25Q64D(1.8V), XT25F128D(1.8V)
- ACE
ACE25AC512G, ACE25AC100G, ACE25AC200G, ACE25AC400G
- EON
EN25B10T, EN25B20T, EN25B40T, EN25B80T, EN25B16T, EN25B32T, EN25B64T, EN25P64, EN25Q40A, EN25Q80B, EN25Q16, EN25Q32C, EN25Q64, EN25Q128, EN25F10A, EN25F20A, EN25F40, EN25F80, EN25F16, EN25F32, EN25S10A(1.8V), EN25S20A(1.8V), EN25S40A(1.8V), EN25S80B(1.8V), EN25S16B(1.8V), EN25S64A(1.8V), EN25QE16A, EN25QE32A, EN25E10A, EN25E40A, EN25SE16A(1.8V), EN25SE32A(1.8V), EN25T80, EN25T16, EN25QA32B, EN25QA64A, EN25QA128A, EN25QW16A, EN25QW32A, EN25QH16, EN25QH32B, EN25QH64A, EN25QH128A, EN25Q256, EN25QX64A, EN25QX128A, EN25QX256A, EN25QY256A, EN25SX64A(1.8V), EN25SX128A(1.8V)
- ATMEL
AT25LS321(1.8V), AT25LS128A(1.8V), AT25LS641(1.8V), AT26DF161, AT25DF321, AT25DF641
- MICRON
M25P10, M25P20, M25P40, M25P80, M25P016, M25P32, M25P64, M25P128, N25Q032A, N25Q064A, MT25QL64AB, N25Q128A, MT25QL128AB, N25Q256A, MT25QL256AB, MT25QL512AB, N25Q032A(1.8V), N25Q064A(1.8V), MT25QU64AB(1.8V), N25Q128A(1.8V), MT25QU128AB(1.8V), MT25QU256AB(1.8V), MT25QU512AB(1.8V)
- XMC
XM25QH10B, XM25QH20B, XM25QH40B, XM25QH80B, XM25QH16C, XM25QH32B, XM25QH64C, XM25QH128C, XM25QH256C, XM25QH512C, XM25LU64C(1.8V), XM25LU128C(1.8V), XM25QU256C(1.8V), XM25QU512C(1.8V), XM25QW16C, XM25QW32C, XM25QW64C, XM25QW128C, XM25QW256C, XM25QW512C, XM25QU41B(1.8V), XM25QU80B(1.8V), XM25QU16C(1.8V), XM25LU32C(1.8V), XM25QH32A, XM25QH64A, XM25QH128A
- AMIC
AT25L05P, A25L10PU, A25L20PU, A25L40PU, A25L80PU, A25L16PU, A25L10PT, A25L20PT, A25L40PT, A25L80PT, A25L16PT, A25L010, A25L020, A25L040, A25L040, A25L080, A25L016, A25L032, A25LQ080, A25LQ16, A25LQ32, A25LQ64
- EXCELSEMI
ES25P10, ES25P20, ES25P40, ES25P80, ES25P16, ES25P32, ES25M40A, ES25M80A, ES25M16A
- DOUQI
DQ25Q64AS
- Zbit
ZB25LD10A(1.8V), ZB25LD20A(1.8V), ZB25LD40B(1.8V), ZB25LD80(1.8V), ZB25D10A, ZB25D20A, ZB25D40B, ZB25D80B, ZB25VQ16, ZB25VQ32, ZB25VQ64, ZB25VQ128, ZB25LQ16(1.8V), ZB25LQ32(1.8V), ZB25LQ64(1.8V), ZB25LQ128(1.8V), ZB25VQ20A, ZB25VQ40A, ZB25VQ80A, ZB25VQ16A, ZD25D20, ZD25D40, ZD25D80
- ONSemi
LE25U20AMB, LE25U40CMC
- Boya
BY25Q05AW, BY25Q10AW, BY25Q20BL(1.8V), BY25Q40BL, BY25Q80AW(1.8V), BY25Q16BL(1.8V), BY25D05AS, BY25D10AS, BY25D20AS, BY25D40AS, BY25Q80BS, BY25Q16BS, BY25Q32BS, BY25Q64AS, BY25Q128AS, BY25Q256ES, BY25Q10AL(1.8V), BY25Q20AL(1.8V), BY25Q40AL(1.8V), BY25Q32AL(1.8V), BY25Q64AL(1.8V), BY25Q128EL(1.8V)
- PFLASH
Pm25LQ512B, Pm25LQ010B, Pm25LD020, Pm25LQ020B, PM25LQ016, PM25LQ032, PM25LQ064, PM25LQ128, Pm25LV010, Pm25LV020, Pm25LQ040B, Pm25LV040
- Puya
P25Q06H, P25Q40H, PY25Q128HA, PY25Q256HB, PY25Q512HB, P25Q11H, P25Q21H, P25Q10H, P25Q20H, P25Q80H, P25Q16H, P25Q32H, P25Q64H, P25Q128H
- ESMT
F25L004A, F25L008A, F25L016, F25L032, F25L064, F25L16QA, F25L32QA, F25L64QA
- ISSI
IS25WQ020(1.8V), IS25WQ040(1.8V), IS25WQ080(1.8V), IS25LQ010, IS25LQ020, IS25LP040E, IS25LP080D, IS25LP016D, IS25LP032D, IS25LP064D, IS25LP128F, IS25LP256D, IS25LP512D, IS25WP512E(1.8V), IS25WP010E(1.8V), IS25WP020E(1.8V), IS25WP040D(1.8V), IS25WP080D(1.8V), IS25WP016D(1.8V), IS25WP032D(1.8V), IS25WP064D(1.8V), IS25WP128F(1.8V), IS25WP256D(1.8V), IS25WP512D(1.8V)
- Fudan
FM25W02, FM25W04, FM25W16, FM25W32, FM25W64, FM25W128, FM25F005, FM25F01B, FM25F02A, FM25F04A, FM25Q04, FM25Q08, FM25Q16, FS25Q32, FS25Q64, FS25Q128
- Zetta
ZD25Q64B, ZD25LQ128(1.8V), ZD25LQ64(1.8V), ZD25WD20B, ZD25WD40B, ZD25Q80C, ZD25Q16B, ZD25Q32C
- PCT
PCT25VF016B, PCT25VF032B, PCT25VF064C, PCT25VF020B, PCT25VF040B, PCT25VF080B, PCT26VF016, PCT26VF032, PCT25VF010A
- MXIC
MX25L512E, MX25L1006E, MX25L2005, MX25L4005A, MX25L8005M, MX25L1605D, MX25L3205D, MX25L6405D, MX25L12805D, MX25L25635E, MX25L51245G, MX25L5121E, MX25L1021E, MX25L1633E, MX25L1635E, MX25U5121E(1.8V), MX25U1001E(1.8V), MX25U2035F(1.8V), MX25U4035F(1.8V), MX25U80356(1.8V), MX25U1632F(1.8V), MX25U3232F(1.8V), MX25U6432F(1.8V), MX25U12832F(1.8V), MX25U25643G(1.8V), MX25U51245G(1.8V), MX25L1655D, MX25L6455E, MX25L12855E, MX25L25655E, MX25R1035F, MX25R2035F, MX25R4035F, MX25R8035F, MX25R1635F, MX25R3235F, MX25R6435F, MX25L3225D, MX25L3255D
- GigaDevice
GD25F40, GD25F80, GD25D40, GD25D80, GD25D05C, GD25D10C, GD25Q20C, GD25Q40C, GD25Q80C, GD25Q16C, GD25Q32, GD25Q64CSIG, GD25Q128CSIG, GD25Q256CSIG, GD25VQ21B, GD25VQ40C, GD25VQ80C, GD25VQ16C, GD25LD05C(1.8V), GD25LD10C(1.8V), GD25LD20C(1.8V), GD25LD40C(1.8V), GD25LQ80C, GD25LQ16C, GD25LQ32E, GD25LQ64E(1.8V), GD25LQ128(1.8V), GD25LQ256D(1.8V), GD25WD05C, GD25WD10C, GD25WD20E, GD25WD40E, GD25WD80C, GD25WQ20E, GD25WQ40E, GD25WQ80E, GD25WQ16E, GD25WQ32E, GD25WQ64E, GD25WQ128E, GD25WB256E, GD25LB512ME(1.8V), YC25Q128
- Nantronix
N25S80, N25S32
- PARAGON
PN25F08, PN25F16, PN25F32, PN25F64, PN25F128
- WINBOND
W25P80, W25P16, W25P32, W25P64, W25X05, W25X10, W25X20, W25X40, W25X80, W25X16, W25X32VS, W25X64, W25Q05CL, W25Q10Cl, W25Q20CL, W25Q40BV, W25Q80BL, W25Q16DV, W25Q32BV, W25Q64BV, W25Q128BV, W25Q256FV, W25Q20BW(1.8V), W25Q80, W25Q10EW(1.8V), W25Q20EW(1.8V), W25Q40EW(1.8V), W25Q80EW(1.8V), W25Q16JW(1.8V), W25Q32FW(1.8V), W25Q64DW(1.8V), W25Q128FW(1.8V), W25Q256JW(1.8V), W25M512JW(1.8V), W25Q512JV, W25M512JV, W25Q32JW(1.8V)
- Fidelix
FM25Q04A, FM25Q08A, FM25Q16A, FM25Q32A, FM25Q64A, FM25Q128A, FM25M04A(1.8V), FM25M08A(1.8V), FM25M16A(1.8V), FM25M32A(1.8V), FM25M64A(1.8V), FM25M4AA(1.8V)
The latest version of the chip database can be found here. You can download it and copy it to the ~/.local/imsprog folder:
cp IMSProg.Dat ~/.local/imsprog
-
There is a work in progress for add IMSProg to official
Debian
(and derivatives repositories)For some Ubuntu versions you can use this PPA by adding
ppa:bigmdm/imsprog
to your system's Software Sources.
sudo add-apt-repository ppa:bigmdm/imsprog
sudo apt update
sudo apt install imsprog
Is also possible manually build deb package using debian/latest
branch.
- For some versions of Fedora, you can use the official repositories.
sudo dnf install imsprog
- The
RPM package
by Red Soft can be downloaded
here - The
RPM package
by ALT Linux - The
RPM package
by ROSA Linux - The
ARCH AUR repository
by kjkent is here - The
openSUSE
package is here - The
Debian
package is here
IMSProg _files_ _folder_
================================================================================
IMSProg /usr/bin
IMSProg_editor /usr/bin
IMSProg_programmer/other/IMSProg_database_update /usr/bin
IMSProg_programmer/database/IMSProg.Dat /usr/share/imsprog
~/.local/share/imsprog
IMSProg_programmer/other/71-CH341.rules /lib/udev/rules.d
IMSProg_programmer/other/index.html /usr/share//doc/imsprog/html
IMSProg_programmer/language/chipProgrammer_ru_RU.qm /usr/share/imsprog
IMSProg_programmer/language/chipProgrammer_es_ES.qm /usr/share/imsprog
IMSProg_programmer/language/chipProgrammer_de_DE.qm /usr/share/imsprog
IMSProg_programmer/language/chipProgrammer_zH_CN.qm /usr/share/imsprog
IMSProg_programmer/language/chipProgrammer_uk_UA.qm /usr/share/imsprog
IMSProg_programmer/language/chipProgrammer_hu_HU.qm /usr/share/imsprog
IMSProg_programmer/language/chipProgrammer_pt_BR.qm /usr/share/imsprog
IMSProg_editor/language/chipEditor_ru_RU.qm /usr/share/imsprog
IMSProg_editor/language/chipEditor_de_DE.qm /usr/share/imsprog
IMSProg_editor/language/chipEditor_es_ES.qm /usr/share/imsprog
IMSProg_editor/language/chipEditor_zh_CN.qm /usr/share/imsprog
IMSProg_editor/language/chipEditor_uk_UA.qm /usr/share/imsprog
IMSProg_editor/language/chipEditor_hu_HU.qm /usr/share/imsprog
IMSProg_editor/language/chipEditor_pt_BR.qm /usr/share/imsprog
IMSProg_programmer/other/IMSProg.desktop /usr/share/applications
IMSProg_programmer/other/IMSProg_editor.desktop /usr/share/applications
IMSProg_programmer/other/IMSProg_database_update.desktop /usr/share/applications
IMSProg_editor/other/IMSProg_editor.1.gz /usr/share/man/man1
IMSProg_programmer/other/IMSProg.1.gz /usr/share/man/man1
IMSProg_programmer/other/IMSProg_database_update.1.gz /usr/share/man/man1
IMSProg_programmer/img/IMSProg64.png /usr/share/pixmaps
IMSProg_programmer/img/IMSProg_database_update.png /usr/share/pixmaps
IMSProg_editor/img/chipEdit64.png /usr/share/pixmaps
IMSProg_programmer/other/other/io.github.bigbigmdm.imsprog.metainfo.xml /usr/share/metainfo
IMSProg_editor/other/other/io.github.bigbigmdm.imsprog_editor.metainfo.xml /usr/share/metainfo
IMSProg_programmer/other/other/io.github.bigbigmdm.imsprog_database_update.metainfo.xml /usr/share/metainfo
IMSProg.Dat file structure:
Chip string lenght: 0x44 (68) bytes;
offset Size Value
00 - 2F ASCII Chip type, Name and Manufacture, 0x00 filling
30 1 NOR FLASH Chip Size code / 0x00 - other chips
31 1 NOR FLASH Chip ID Code / 0x00 - other chips
32 1 NOR FLASH Manufacture code / 0x00 - other chips
33 0x00
34 4 Chip Size
35
36
37
38 2 Sector size
39
3A 1 Binary chip type:
- 0x00 - SPI NOR FLASH
- 0x01 - 24xxx I2C
- 0x02 - 93xxx MicroWire
- 0x03 - 25xxx SPI EEPROM
- 0x04 - 95xxx ST SPI EEPROM
- 0x05 - AT45DBxxx SPI EEPROM
3B 1 Algoritm code number:
- SPI NOR Flash always 0x00
- I2C (24xxx) 0x?1 - address size 1 byte
- I2C (24xxx) 0x?2 - address size 2 bytes
- I2C (24xxx) 0x1? - address mask 1
- I2C (24xxx) 0x3? - address mask 3
- I2C (24xxx) 0x7? - address mask 7
- MicroWire (93xxx) - 0x1? - organisation 16 bit
- MicroWire (93xxx) - 0x0? - organisation 8 bit
- MicroWire (93xxx) - 0x?7 - 7 bit address number
- MicroWire (93xxx) - 0x?9 - 9 bit address number
- MicroWire (93xxx) - 0x?A - 10 bit address number
- MicroWire (93xxx) - 0x?B - 11 bit address number
- 95xxx ST SPI EEPROM - 0x01 - 8 bit address
- 95xxx ST SPI EEPROM - 0x02 - 16 bit address
- 25xxx SPI EEPROM - 0x?0 - 8 bit address
- 25xxx SPI EEPROM - 0x?1 - 16 bit address
- 25xxx SPI EEPROM - 0x?2 - 24 bit address
- 25xxx SPI EEPROM - 0x0? - fill erasing
- 25xxx SPI EEPROM - 0x1? - The third bit of the command is used for the high bit of the address
- 25xxx SPI EEPROM - 0x2? - erasing with use CHIP FULL ERASE command
- 45xxx SPI EEPROM - 0x0? - ATMEL command pattern
- 45xxx SPI EEPROM - 0x1? - ADESTO commant pattern
- 45xxx SPI EEPROM - 0x?9 - 9 bit sector address number
- 45xxx SPI EEPROM - 0x?A - 10 bit sector address number
- 45xxx SPI EEPROM - 0x?B - 11 bit sector address number
- 45xxx SPI EEPROM - 0x?C - 12 bit sector address number
- 45xxx SPI EEPROM - 0x?D - 13 bit sector address number
- 45xxx SPI EEPROM - 0x?F - 15 bit sector address number
3C 2 Timing parameter:
3D 3000/1000/500/300/200/100 - NOR FLASH, 4000/2000 - 24xxx, 100 - 93xxx
3E 2 SPI NOR Flash 4bit address type:
- 0x?0 - Not used (3 bit address data)
- 0x?1 - Used (4 bit address data)
- 0x01 - Default 4 bit command using
- 0x11 - Winbond algorithm
- 0x21 - Spansion algorithm
3F 1 0x00
40 1 SPI NOR FLASH block size in KB (64K = 0x40)
41 1 0x00
42 1 EEPROM pages 0x01 - 0x04
43 1 VCC 00=>3.3V 01=>1.8V 02=>5.0V
The end record is 0x44 (68) zero bytes.
Copyright (C) 2023 - 2024 Mikhail Medvedev. This project use GPL-3+ License, some parts taken from project SNANDer are GPL-2+ and from QHexEdit2 is LGPL-2.1.
- Hungarian translation by blackPantherOS
- Italian translation by Marino Pasquale and Giovanni Scafora
- Brasil translation by Alexandre C. Leite
- Ukrainian translation by Sergey Golovko
- Chinese translation by Tian-HP
- German translation by wucke13
Anyone can add or improve a translation by making a pull request. Translations files are located in: IMSProg_programmer/language/ and IMSProg_editor/language/
You can also add translation to the desktop files (IMSProg.desktop, IMSProg_database_update.desktop, IMSProg_editor.desktop), to the update script (IMSProg_database_update) and to the appstream metadata files (io.github.bigbigmdm.imsprog_editor.metainfo.xml, io.github.bigbigmdm.imsprog_database_update.metainfo.xml, io.github.bigbigmdm.imsprog.metainfo.xml).