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The IMSProg makes respect to [QHexEdit2](https://github.com/Simsys/qhexedit2) hex editor and [SNANDer programmer](https://github.com/McMCCRU/SNANDer).
-The chip database format is clone with EZP2019, EZP2020, EZP2023, Minpro I, XP866+ programmers. You can edit the database use the [EZP Chip data Editor](https://github.com/bigbigmdm/EZP2019-EZP2025_chip_data_editor)
+The format of the chip database is based on the format used in EZP2019, EZP2020, EZP2023, Minpro I, XP866+ programmers. You can edit the database use the [EZP Chip data Editor](https://github.com/bigbigmdm/EZP2019-EZP2025_chip_data_editor)
IMSProg is a collection of tools:
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+## IMSProg
+
+
+
+* [System software requirements](#system-software-requirements)
+* [How to use](#how-to-use)
+* [List of supported chips](#list-of-supported-chips)
+* [Packages](#packages)
+* [Changelog](ChangeLog)
+* [Project structure](#project-structure)
+* [Chip database format](#chip-database-format)
+* [Licensing](#Licensing)
+
+
+
+**IMSProg** - **I**2C, **M**icroWire and **S**PI EEPROM/Flash chip **Prog**rammer - is a program to read, write EEPROM chips use the `CH341A programmer` device.
+
+ 
+
+The IMSProg makes respect to [QHexEdit2](https://github.com/Simsys/qhexedit2) hex editor and [SNANDer programmer](https://github.com/McMCCRU/SNANDer).
+The format of the chip database is based on the format used in EZP2019, EZP2020, EZP2023, Minpro I, XP866+ programmers. You can edit the database use the [EZP Chip data Editor](https://github.com/bigbigmdm/EZP2019-EZP2025_chip_data_editor)
+
+IMSProg is a collection of tools:
+
+1. IMSProg - the chip programmer (it's the main part).
+
+2. IMSProg_editor - chip database editor.
+
+3. IMSProg_database_update - script to update chip database using external web-server.
+
+
+
+
+
+## Compiling programmer
+```
+git clone https://github.com/bigbigmdm/IMSProg.git && cd IMSProg
+cd IMSProg_programmer
+mkdir build
+cd build
+cmake ..
+make -j`nproc`
+sudo make install
+```
+## Compiling editor
+```
+cd IMSProg_editor
+mkdir build
+cd build
+cmake ..
+make -j`nproc`
+sudo make install
+```
+These commands are included in the `build_all.sh` file.
+
+## System software requirements
+
+For build are needed:
+- g++ or clang
+- CMake
+- libusb 1.0
+- Qt5
+- pkgconf or pkg-config
+- udev
+
+On Debian and derivatives:
+
+`sudo apt-get install cmake g++ libusb-1.0-0-dev qtbase5-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`
+
+:information_source: Debian < 11 and Ubuntu < 20.04 are not supported, you may unable to have it working on them.
+
+## How to use:
+
+## Chip programmer
+
+### Connecting
+- Insert the chip into the appropriate slot of the CH341A programmer. The `24xxx` and `25xxx` series chips must be inserted directly, according to the markings on the PCB of the CH341A programmer. The `93xxx` series chips must be inserted into the `93xxx adapter` and the adapter into the marking `25xxx` programmer slot.
+
+
+
+- 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.
+
+### Chip type selecting
+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.
+When using `25xxx` series SPI NOR FLASH chips (Menu item `type` -> `SPI_FLASH`), the `Detect` button will be available. When the `Detect` button or  or `` 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.
+
+### Basic programmer operations
+- Pressing `Read` or  or `` to read data from the chip into the computer buffer.
+
+- Pressing  or `` to write data from the computer buffer into the chip.
+
+- Pressing  or `` will erase all data in the chip.
+
+- Pressing the  or `` 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 `` 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 `` 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.
+
+### File operations
+- The  or `` button is used to save the computer buffer to a file.
+
+- The  or `` button is used to save the file in the computer buffer.
+
+- The  or `` 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 `` 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 `` 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.
+
+### Buffer (Hex editor) operations
+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.
+
+## Chip database editor
+
+
+
+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` or `Del` or  - deletes one or more rows.
+- `Add Row` or `Ins` 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.
+
+## Chip updater
+
+ 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.
+
+## List of supported chips
+
+### I2C EEPROM
+24C01, 24C02, 24C04, 24C08, 24C16, 24C32, 24C64, 24C128, 24C256, 24C512, 24C1024
+
+### MicroWire EEPROM
+93C46, 93C56, 93C66, 93C76, 93C86
+
+### Serial SPI Bus EEPROM
+- 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
+
+- 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
+### SPI NOR Flash
+- SPANSION
+
+FL016AIF, S25FL016P, S25FL032P, FL064AIF, S25FL064P, S25FL256S, S25FL128P, S25FL129P, S25FL116K, S25FL132K, S25FL164K
+
+- XTX
+
+XT25F02E, XT25F04D, XT25F08B, XT25F16B, XT25F32F, XT25F64F, XT25F128F, XT25W02E, XT25W04D, XT25Q08D(1.8V), XT25Q16D(1.8V), XT25Q64D(1.8V), XT25F128D(1.8V)
+
+- EON
+
+EN25B10T, EN25B20T, EN25B40T, EN25B80T
+EN25B16T, EN25B32T, EN25B64T, EN25F64, 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), EN25QE32A, EN25E10A, EN25E40A, EN25SE16A(1.8V), EN25SE32A(1.8V), EN25T80, EN25QA32B, EN25QA64A, EN25QA128A, EN25QW16A, EN25QW32A, EN25QH16, EN25QH32B, EN25QH64A, EN25QH128A, EN25Q256, EN25QX64A, EN25QX128A, EN25QX256A, EN25QY256A, EN25SX64A(1.8V), EN25SX128A(1.8V)
+
+- ATMEL
+
+AT26DF161, AT25DF321
+
+- 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
+
+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
+
+- ONSemi
+
+LE25U20AMB, LE25U40CMC
+
+- Boya
+
+BY25Q05AW, BY25Q10AW, BY25Q20BL(1.8V), BY25Q40BL(1.8V), 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, Pm25LQ020B, PM25LQ016, PM25LQ032, PM25LQ064, PM25LQ128, Pm25LQ040B
+
+- Puya
+
+P25Q06H, P25Q40H, P25Q11H, P25Q21H, P25Q10H, P25Q20H, P25Q40H, P25Q80H, P25Q16H, P25Q32H, P25Q64H, P25Q128H
+
+- ESMT
+
+F25L004A, F25L008A, F25L016, F25L032, F25L064, F25L16QA, F25L32QA, F25L64QA
+
+- ISSI
+
+IS25LQ010, IS25LQ020, IS25LP080D, IS25LP016D, IS25LP032D, IS25LP064D, IS25LP128F, IS25LP256D, IS25LP512D, 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
+
+FM25W04, FM25W16, FM25W32, FM25W64, FM25W128, 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
+
+MX25L8005M, MX25L1605D, MX25L3205D, MX25L6405D, MX25L12805D, MX25L25635E, MX25L51245G, 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), MX25R2035F, MX25R4035F, MX25R8035F, MX25R1635F, MX25R3235F, MX25R6435F
+
+- GigaDevice
+
+GD25F40, GD25F80, GD25D40, GD25D80, GD25D05C, GD25D10C, GD25Q20C, GD25Q40C, GD25Q80C, GD25Q16C, GD25Q32, GD25Q64CSIG, GD25Q128CSIG, GD25Q256CSIG, GD25LD05C(1.8V), GD25LD10C(1.8V), GD25LD20C(1.8V), GD25LD40C(1.8V), GD25LQ80C(1.8V), GD25LQ16C(1.8V), GD25LQ32E(1.8V), 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
+
+- PARAGON
+
+PN25F08, PN25F16, PN25F32, PN25F64, PN25F128
+
+- WINBOND
+
+W25P80, W25P16, W25P32, W25X05, W25X10, W25X20, W25X40, W25X80, W25X16, W25X32VS, W25X64, 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), FM25M32B(1.8V), FM25M64A(1.8V)
+
+The latest version of the chip database can be found [here](https://antenna-dvb-t2.ru/dl_all/IMSProg.Dat).
+You can download it and copy it to the ~/.local/imsprog folder:
+
+`cp IMSProg.Dat ~/.local/imsprog`
+
+[](img/IMSProg_1_0_24.mp4)
+
+## Packages
+- 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
+```
+ Is also possible manually build deb package using `debian/latest` branch.
+
+
+ 
+
+
+- The `RPM package` by [Red Soft](https://redos.red-soft.ru/) can be downloaded [here](http://repo.red-soft.ru/redos/7.3/x86_64/updates/imsprog-1.3.1-1.el7.x86_64.rpm)
+- The `RPM package` by [ALT Linux](https://packages.altlinux.org/en/sisyphus/srpms/IMSProg/)
+- The `RPM package` by [ROSA Linux](https://mirror.rosalinux.ru/rosa/rosa2021.1/repository/x86_64/contrib/release/IMSProg-1.3.1-1-rosa2021.1.x86_64.rpm)
+- The `ARCH AUR repository` by [kjkent](https://github.com/kjkent) is [here](https://aur.archlinux.org/packages/imsprog)
+- The `openSUSE` package is [here](https://software.opensuse.org/package/IMSProg?search_term=imsprog)
+
+## Project structure
+
+```
+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/99-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_zn_CH.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_zn_CH.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
+
+```
+## Chip database format
+
+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
+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 address bit number
+ - MicroWire (93xxx) - 0x?9 - 9 address bit number
+ - MicroWire (93xxx) - 0x?A - 10 address bit number
+ - MicroWire (93xxx) - 0x?B - 11 address bit 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
+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.
+```
+## Licensing
+
+Copyright (C) 2023 - 2024 Mikhail Medvedev.
+This project use [GPL-3+ License](https://www.gnu.org/licenses/gpl-3.0.html), some parts taken from project [SNANDer](https://github.com/McMCCRU/SNANDer/commits?author=McMCCRU)
+are [GPL-2+](https://www.gnu.org/licenses/old-licenses/gpl-2.0.html) and from [QHexEdit2](https://github.com/Simsys/qhexedit2) is [LGPL-2.1](https://www.gnu.org/licenses/old-licenses/lgpl-2.1.html).
+