And the faster the sample rate, the less likely the trigger is to happen. Like one of the other folk here, I brought this thing to record single shot events, but triggering is almost non existent. Somebody mentioned an API to the device, where can I find that please. I have not traced the circuit to see whether it plays any major part in analogue acquisition However I note that the (awful) software is the same for both scopes, so I am guessing the protocol to the cy 7C68013 is the same. The altera gives a lot of extra I/O pins for logic analyser / sig.gen. I have the DDS140 (BM104) which uses ad9288 cy7C68013 altera max II. " should be shown next do Device - press Lg EEPROM "DnLoad to 64k EEPROM" - select "All files *.*" - select "DDS120_24LC64.bin" - wait for finish then reconnect scope - wait for scope driver to finish installation - DoneĪ little off topic. ![]() When doing so, it is important to select the "64k eeprom": - disconnect (open) jumper R32 from pcb - connect scope to PC - wait for USB recognition (CYPRESS default VID/PID) - connect (close) jumper R32 on pcb - start Cypress USB Console - start EZ-USB Interface (Options -> EZ-USB) - "Cypress EZ-USB. (Should also be possible via a CH341A eeprom programmer, but haven't any success) Reprogramming can also be done via the CYPRESS USB Control Center (see attachment). ![]() "DDS120_24LC64.bin" - write device (button), verifies when finished - reconnect scope, wait for scope driver to finish installation O0 Flashing is done via a simple parallel-port-programmer called "Easy I☬ Bus interface": Bottom of page. ![]() ED2: Updates.īIG thanks to ganzuul and franky, we are back in business! Reflash the EEPROM in short: - disconnect (open) jumper R32 from pcb - connect scope to PC - wait for USB recognition (CYPRESS default VID/PID) - connect (close) jumper R32 on pcb - start Ponyprog2000 - set EEPROM type to 2464/2465 - I2C bus 16bit eeprom - do a calibration (Setup -> Calibration - read device to backup state (button) - File -> Open Device File -> i.e. R4 - AD9288BSTZ-40: C10 - CY7C68013A: R13 - 24LC64: I'll bump this when I know more about this thing! ED: Added some high-res pics to my private web server: These photographs are just under 6MB each. I ordered it from here: So far I'm happy with the hardware I actually got for the money but will have to look into making the scope work with some existing open source package. I placed my order on May 8th, so it took 12 days to deliver it from China to Finland. There is also an API to the driver with a sample project for the Microsoft platform SDK. There's a rather exposed I2C interface, which I have heard lends itself to hackability. They are probably not true 100MHz probes, but one review of them that I saw referred to them as "good stuff". ![]() The two probes are of the model TP6100, which when sold separately reportedly cost $9 on eBay. The lowered sampling rate appears to be a way to avoid writing sub-pixel graphing accuracy, but it could also be a self-imposed CPU load ceiling. The resulting graph is not as pretty as I'd like. The supplied software switches down to a sampling rate of 2.4 "MHz" when over a certain time division, and then over the time division it switches up to 50MHz. ED: We have FOSS code!! /ED This scope is advertised as 50Ms/s while the ADC runs at 40MHz.
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