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Difference between revisions of "DCSD Cable"
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| + | [[File:DCSD_Front_annotated.jpg|right|thumb|Annotated photo of the main DCSD PCB]] |
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| − | The DCSD Alex cable is used in factories to communicate over serial to run tests and write to the SysCfg (for serial definitions, etc) during production. These cables are produced by Shenzhen Alex connector Co. Ltd. in China, I believe this is why they can be found on obscure markets for sale, if not just taken from a trashcan from factories. |
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| + | The '''DCSD Alex cable''' is used in factories to communicate over serial to run tests and write to the SysCfg (for serial definitions, etc) during production. These cables are produced by Shenzhen Alex Connector Co. Ltd. in China; this may be why they can be found on obscure markets for sale, if not just taken from a trash can from factories. |
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| − | == Factory DCSD "Alex" Lightning Serial Cable == |
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| − | [[File:DCSD_Front_annotated.jpg|400px|right|Annotated photo of the main DCSD PCB]] |
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| − | + | == Top of the board == |
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| − | + | == Back of the board == |
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! Label |
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Revision as of 02:58, 24 August 2016
The DCSD Alex cable is used in factories to communicate over serial to run tests and write to the SysCfg (for serial definitions, etc) during production. These cables are produced by Shenzhen Alex Connector Co. Ltd. in China; this may be why they can be found on obscure markets for sale, if not just taken from a trash can from factories.
Top of the board
| Label | Chip | Datasheet | Notes |
|---|---|---|---|
| D1 | Low Power Consumption Voltage Regulator with ON/OFF Switch | http://www.s-manuals.com/pdf/datasheet/x/c/xc6215_series_torex.pdf | |
| D5 | |||
| D6 | Tied to TX and an input voltage of 3.3V on the UART J5 pads, this may be a protection in case the host shorts? | ||
| U1 | Micrel 2026A Dual-Channel Power Distribution Switch | http://www.xilinx.com/products/boards/ml510/datasheets/mic2076-2bm.pdf | |
| U2 | |||
| U3 | FTDI FT232RQ UART IC | http://www.ftdichip.com/Support/Documents/DataSheets/ICs/DS_FT232R.pdf | Handles stoplight LED controls |
| U4 | Micrel MIC5219 | http://datasheet.datasheetarchive.com/originals/library/Datasheets-EDS7/DSAEDA000124178.pdf | 500mA Peak Output LDO Regulator |
| U5 | FTDI FT232RQ UART IC | http://www.ftdichip.com/Support/Documents/DataSheets/ICs/DS_FT232R.pdf | Handles serial mux interface from iPhone |
| U6 | SMSC USB2514 4-port USB hub | http://www.mouser.com/catalog/specsheets/2514.pdf |
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| U7 | Microchip 24AA04/24LC04B | http://ww1.microchip.com/downloads/en/DeviceDoc/21708G.pdf | I2C Serial EEPROM (TSSOP Package) |
| X1 | MKC 24 MHz Oscillator | N/A | I'm not 100% sure about the value of the chip, but this should be correct |
Back of the board
| Label | Notes |
|---|---|
| J9 | I believe these are used to flash the U7 EEPROM with USB IDs for use by the SMSC USB Hub, I have yet to dump the contents of the EEPROM to find out for sure. |
| J10 | |
| J11 | |
| J12 |
Other notes
- The Lightning Connector has a specific Accessory ID flashed to it for enabling serial via the Tristar chip.
- This PCB is quite easy to replicate, but without the proper Accessory ID you will need to mimic the protocol similar to how key2fr did in his research.
- In theory, you can use the Tristar for JTAG through a similar board, but JTAG gets enabled by the device during boot due to production fusing status.
