The CricketProbe is a debugging tool for ARM Cortex Microprocessors.
It is a Black Sphere Technologies Black Magic Probe PCB re-design, with some improvements made to the connectors, and is fully software-compatible.
- 1 Hardware Revision History
- 2 Detailed Features
- 3 Pictures
- 4 Pinout
- 5 Schematic
- 6 PCB
- 7 Assembly
- 8 Mechanical Dimensions
- 9 Programming
- 10 Getting, compiling flashing firmware
- 11 Hardware Source Files
- 12 Source code
Hardware Revision History
|Version #||Release Date||Release Notes|
|v1.00 (current)||04/2014||Initial release|
- Aimed at ARM Cortex based microcontrollers.
- Allows direct connection to the targeted processors JTAG interface. Alternatively, you may use the ARM Serial Wire Debug protocol as well.
- Full debugging functionality is provided. This includes: watchpoints, flash memory breakpoints, memory and register examination, flash memory programming, etc.
- Multiple targets on a single JTAG scan chain is supported.
- Interface to the host computer is a standard USB CDC ACM device (a virtual serial port), which does not require special drivers on Linux.
- Implements the GDB extended remote debugging protocol for seamless integration with the GNU debugger and other GNU development tools.
- Implements USB DFU class for easy firmware upgrades (as updates become available).
- Windows, Linux and Mac environments supported.
This board allows you to:
- Load your application into the target processor Flash memory or RAM.
- Single step through your program.
- Run your program in real-time with halt on demand.
- Examine and modify CPU registers and memory.
- Obtain a call stack backtrace.
- Set up to 6 hardware assisted breakpoints.
- Set up to 4 hardware assisted read, write or access watchpoints.
- Set unlimited software breakpoints when executing your application from RAM.
Pins Name and Type are specified with respect to the CricketProbe Board
Gerber & Drill Files
2 Layers PCB design Eurocircuits 6-C class compliant:
RS274X, units = Inches, format = 2:5
- CricketProbe_v100_Silkscreen_Top.GBR (Top Print Layer)
- CricketProbe_v100_Soldermask_Top.GBR (Top Solder Mask)
- CricketProbe_v100_Paste_Mask_Top.GBR (Top Paste Mask, stencil)
- CricketProbe_v100_Signal_Top.GBR (Top Copper Layer)
- CricketProbe_v100_Signal_Bottom.GBR (Bottom Copper Layer)
- CricketProbe_v100_Soldermask_Bottom.GBR (Bottom Solder Mask)
- CricketProbe_v100_Silkscreen_Bottom.GBR (Bottom Print Layer)
- CricketProbe_v100_Outline.GBR (Board Outline)
- CricketProbe_v100_Drill.GBR (NC XY coordinates & Drill tools sizes)
Bill Of Material
PCB and assembled boards suppliers
Check availability on Get Hardware page
"Factory" (Bootloader) Programming
Getting, compiling flashing firmware
Since the criquet probe is an accurate copy of bmack magic probe, the black magic probe documentation applies.
Here is an abstract of the software installation.
° You will need the same cross compiler as used by paparazzi, so, if you allready use paparazzi, this point is already done.
° get and compile source : git clone https://github.com/gsmcmullin/blackmagic.git
cd blackmagic ; git submodule init ; git submodule update ; make
at this point, the bootloader and the debugging firmware are compiled.
Well will use the stlink part of a stm32 discovery (all stm32 discovery will be good to do the job) to program the bootloader :
° remove the two programming jumper on the discovery card (refer to the discovery card stm32 documentation)
° wire discovery SWD connector to criquet probe (cf upper shematic)
° load the bootloader : st-flash write ./src/blackmagic_dfu.bin 0x08000000
Still need one step to have a useful device, see on next chapter how to program black magic gdb client firmware