EEVblog #675 - How To Reverse Engineer A Rigol DS1054Z
Dave shows you how to reverse engineer a PCB to get the schematic. In this case the new Rigol DS1054Z oscilloscope.
How does the discrete transistor analog front end and the software bandwidth limiting work?
How do you decode SMD transistor codes?
How does it compare to the old Rigol DS1052E?
Dave also discusses the low voltage ohms function of a mulitmeter, how it’s useful, and how to test your multimeter to see if it will have any issues with in-circuit testing.
Review Summary:
Full features review:
Teardown:
Jitter Problem:
Jitter Problem Fix:
Forum:
Schematic:
DS1052E Schematic:
Links:
SMD codes:
Export/Supplier Content/MCC_353/PDF/
Datasheets:
MMBFJ309L JFET
BAV199 Diode
BC856
Fujitsu FTR-B3 Relay
Cosmo solid state relay:
TL072:
74HC4053:
TLV274 Precision Quad Opamp:
AD5207 Digital POT:
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Теги: reverse engineering,how to,tutorial,pcb,schematic,transparency,multimeter,in-circuit,testing,oscilloscoep,rigol oscilloscope,rigol,ds1054z,ds1074z,ds1104z,ds2000,ds1052e,smd,smd code,jfet
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9 years ago 00:38:58 1
EEVblog #675 - How To Reverse Engineer A Rigol DS1054Z