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SIMtrace Hardware » History » Version 36

laforge, 03/17/2017 07:30 AM
add schematics/gerber for v1.4(p)

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{{>toc}}
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h1. Osmocom SIMtrace Hardware
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This page is dedicated to the Hardware for Osmocom [[SIMtrace]], which looks like this:
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{{thumbnail(simtrace_11_front.jpg)}}{{thumbnail(simtrace_connectors_scaled.png)}}
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You can buy the device on the "sysmocom shop":http://shop.sysmocom.de/products/simtrace.
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h2. Connectors
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* USB: USB mini-B connector. The main connector. The host software communicates (sniffing,...) through USB with the board. It can also be used to flash the micro-controller (using DFU).
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* serial: 2.5 mm jack serial cable, as used by osmocomBB. port used to debug the device (printf goes there).
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* debug (P2): same as serial, but using the FTDI serial cable. *It is recommended to cut the voltage wire of the 6pin FTDI connector before plugging the cable into the simtrace.*
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* jtag (P1): JTAG 20 pin connector to do hardware assisted debugging.
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* BT1: battery connector (4.5-6V DC). normally the USB provides power, but the battery port can be used for autonomous use of SIMtrace. The sniffed data can be saved in the flash (U1).
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* FFC_SIM (P3): to connect the flat flexible cable with SIM end for the phone.
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* SIM (P4): put your SIM in there (instead of in the phone)
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* reset (SW1): to reset the board (not erasing the firmware). If your are too lazy to unplug and re-plug the USB.
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* bootloader (SW2): used to start the bootloader to flash the device using DFU. press when plugging in the USB.
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* test (JP1): short circuit using a jumper to flash using [[SIMtraceFirmware#EnteringtheSAM-BAmode|SAM-BA]].
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* erase (JP2): short circuit using a jumper to completely erase the firmware.
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h2. Schematics, Gerber & Co
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The schematics, Gerber files, etc. can be found in the 'hardware' subdirectory of the simtrace.git repository:
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* http://cgit.osmocom.org/cgit/simtrace/tree/hardware (web browsing)
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* git://git.osmocom.org/simtrace (git clone URL)
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We're using Kicad as EDA tool.  Most of the work on the schematics and Gerber files has been done by Kevin Redon,
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based on the original design by Harald Welte.
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The latest schematics are also available as an attachment to this page.
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h2. Interconnections
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The hardware schematics are very, very simple:
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* Connect SIM-RST with PA7
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* Connect SIM-I/O with PA6(TXD0) and PA1(TIOB0)
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* Connect SIM-CLK with PA2(SCK0) and PA4(TCLK0)
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* Connect SIM-GND with GND
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h2. Mode of operation
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The USART of the AT91SAM7S is capable of T=0. The documentation only mentions it in clock-master mode, like you
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would run it in a smart card reader to actively talk to a smart card. However, by using the USART input clock multiplexer,
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you can use an externally-generated CLK like the one from the SIM card socket of the phone.
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Unfortunately, the Rx Timeout feature of the USART is not working in T=0 mode, so I had to re-implement Rx timeout (waiting time)
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handling by means of the TC (timer/counter) block 0.  Due to technical limitations, we will wait up to one byte (12 etu) more
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than we should.
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h2. Modi
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SIMtrace has the possibility to work as:
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* sniffer
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* card reader
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* card emulator
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* man-in-the-middle
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The SAM7S offers 2 T=0 capable USART ports.
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One is connected to the phone (PA21-PA27), the other to the SIM (PA1-PA7).
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The lines goes from the phone to the SIM through a bus switch (IC4="CB3Q3244":http://www.ti.com/lit/ds/symlink/sn74cb3q3244.pdf).
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The bus switch offer 2 buses of 4 lines:
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* The first is used to forward RST, CLK, and VPP (between the SIM and the phone). It is controlled by SC_SW (PA20)
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* The second is used to forward I/O (between the SIM and the phone). It is controlled by SC_I/O (PA19)
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The various modi require to interrupt different lines:
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|_.SW_SC (PA20) |_.SC_I/O (PA19) |_.description |_.modus |
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| L | L | phone and SIM directly connected | sniffer (use any USART port) |
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| L | H | only I/O interrupted | MitM (use both USART port) |
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| H | H | phone and SIM not connected | card read, emulator (use each USART port) |
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As of now, still only the sniffer is implemented in the firmware
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SIM cards support various classes (voltage levels): class A = 5.0V, class B = 3.0V, class C = 1.8V.
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SIMtrace v1.x only supports class B (3.0V), which all actual SIM cards and phone also support.
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To ensure class B is used, SIMtrace forces 3.3V (within the 3.0V±10% spec) by holding the VCC line at this voltage.
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SIMtrace v2 will support all 3 classes.
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h2. Revisions
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h3. v2.0
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This was formerly ongoing (but now long stalled) work.
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The changes compared to v1.x are:
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* ID-1 and ID-000 smart card slots (with presence detection): so to be able to also sniff credit card sized smart cards
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* through hole USB Mini-B and Serial/Jack 2.5 connector: to be more robust
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* properly support all smart card classes (A,B,C): better compatibility
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* be able to forward voltage from phone to SIM or provide voltage from the board: ideal sniffer and reader
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* use an microSD slot instead of built-on flash: easier data transfer
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* a SWP sniffer (maybe)
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j3. v1.4p-SAM3 (unreleased, available upon request)
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* switch from AT91SAM7S to AT91SAM3S: it has more USB endpoints
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** new firmware incomplete
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h3. v1.4 / v1.4p (2014-06)
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Changes:
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* ensure PA0, PA1 and PA2 are high logic level at power-up (low interferes with SAM-BA operation)
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** PA0 hard-wired to 3V#
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** PA1 and PA2 get R25, R26 pull-up
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* update to AT91SAM128D (previous we used AT91SAM128C which is now EOL)
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* switch to alternative type of ferrite bead/filter, as old one is EOL
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Downloads:
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* [attachment:simtrace_v14_schematic.pdf]
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* [attachment:simtrace_v14_gerber.zip]
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h3. v1.3 (2013-11)
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{{thumbnail(simtrace_v13_front.jpg)}}
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Changes:
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* added a FPF2109 power switch
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* added a zener diode on LDO to SIM to provide ~3.0V to SIM (closer to ISO 7812 specified class B)
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* it is now possible to choose the power source for the SIM card: provided by the SIMtrace on-board LDO, or forwarded from the phone
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* no production customizations required
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* silkscreen redone (sadly missing on the produced batch)
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* change SPI flash to S25FL032P0XMFI011
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*BUG:* because of this new feature (selecting power source for the SIM), we wanted to be able to identify the v1.3 board.
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To do that, we tied PA0 to ground. But this needs to be HIGH for the AT91SAM7S to be able to enter it's SAM-BA mode (for flashing the first time).
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If you produce the board yourself, you have to cut the path between the left upper pin and the capacitor.
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The version is now written in flash. To flash the firmware the first time (only), follow the dedicated [[ProductionFlashingV13|instructions]].
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Downloads:
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* [attachment:simtrace_v13_schematic.pdf]
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* [attachment:simtrace_v13_board.zip]
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h3. v1.2p (1.2 Production branch, 2012-05)
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{{thumbnail(simtrace_v12p_front.jpg)}}
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adaptation of the v1.1p because of component availability for new batch.
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Changes:
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* capacitor is even nearer to the LDO
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* one diode slightly changed place
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* quartz crystal is smaller (footprint still fits)
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* SIM slot is another (not available from Amphenol anymore). No presence switch.
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Downloads:
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* [attachment:simtrace_v12_schematic.pdf]
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* [attachment:simtrace_v12p_gerber.zip]
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h3. v1.1p (1.1 Production branch, 2011-12)
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{{thumbnail(simtrace_11_front.jpg)}}
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This is a slightly corrected version of the v1.0p.
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Changes:
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* a critical capacitor is near the LDO
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* some other capacitors are nearer to the CPU
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* some power traces are wider
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* the SIM C6/VPP contact is also routed through the bus switch (sometimes used for Single Wire Protocol)
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* sysmocom is added in the copper for legal reasons
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* the FTDI Vcc is cut
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Downloads:
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* [attachment:simtrace_v11p_schematic.pdf]
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* [attachment:simtrace_v11p_gerber.zip]
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h3. v1.0p (1.0 Production branch, 2011-07)
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{{thumbnail(simtrace_v10p_front_mid.jpg)}}
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This is identical to v1.0 on the schematics side, we simply altered the footprints of some components to accommodate
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whatever the SMT factory had in stock.  Specifically the LED are 0805 instead of 0603, and the shottky diodes are
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in a slightly awkward looking very large package.
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Downloads:
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* [attachment:simtrace_v10p_schematic.pdf]
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* [attachment:simtrace_v10p_gerber.zip]
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h3. v1.0
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{{thumbnail(simtrace_10_front.jpg)}}
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This is the first stable release.  We built some 5 prototypes from this version.
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Downloads:
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* [attachment:simtrace_schem_v10.pdf]
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* [attachment:simtrace_10_gerber.zip]
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h3. v0.9
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{{thumbnail(simtrace_v09_top_mid.jpg)}}
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As of June 04, 2011 the components had all arrived and four PCBs were in production.  We assemble the first
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units around June 14, 2011.
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As of June 21st, we had four re-worked prototypes that are fully functional.
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h3. v0.8
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{{thumbnail(simtrace_08_front_mid.jpg)}}
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Never really was an official release.  However, a friend took the unfinished Gerber files and built 5 units.
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Since the Gerber was not finished, we had to do lots and lots of re-work in order to make them work at all.
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h2. License
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Schematics and Gerber files are released under the Creative Commons CC-BY-SA (Share Alike / Attribution) license.
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h2. Sales
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Sales started at the 2011 CCC Camp and the hardware can be bought through the web-shop of sysmocom GmbH ("h2. Credits
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* Harald Welte
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** Original project idea, schematic design
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** Olimex SAM7-P64 based prototypes
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** Firmware and host software
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* Kevin Redon
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** [[KiCAD]] work on schematics, footprints and routing
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** Soldering of some prototypes
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* [http://sysmocom.de/ sysmocom - systems for mobile communications GmbH":http://shop.sysmocom.de/])
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** funding for hardware prototyping (PCB, components, etc)
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* Christian Daniel
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** post-production flashing + debugging, design + test of v1.0p rework
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