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Tektronix TDS3xxx replacing backlight, power supply, fan etc. HDMI out. (photos)
JusTideaFIX:
Backlight replacement (CCFL to LED):
CCFL lamps have aged and become too dim. For replacement, a ready-made monitor repair kit was purchased. LED strips (width 3 mm) cut to size (27 LEDs). There is a resistor on the board to regulate the current consumption of the LEDs. Power is taken from the accessory port 15V (not used).
I did not use the brightness control circuit. Consumption was 3 watts.
Same replacement: https://www.eevblog.com/forum/repair/tds3000-series-ccfl-upgrade-to-led/msg3853634/#msg3853634
JusTideaFIX:
Replacing the power supply:
The original power supply finally failed and a decision was made to completely replace it. The oscilloscope is powered by 15 volts with a power of 30 watts. MEAN WELL RPS-60-15 was chosen as a replacement.
Since the power supply board is a supporting structure, an adapter plate was made on a laser cutter.
Another replacement: https://www.eevblog.com/forum/testgear/tektronix-tds3052-(tds3000-series)-psu-replacment/msg3449214/#msg3449214
JusTideaFIX:
Fan replacement:
The cooling fan has expired and started making annoying sounds. For the sake of efficient cooling with maximum silence, I chose Noctua NF-B9 [NF-B9-REDUX-1600] 3-pin (without PWM) 92x92mm.
Resistors slightly reduced the rotation speed.
JusTideaFIX:
Cleaning encoders:
As encoders age, they begin to malfunction. This makes it very difficult to use the oscilloscope. It is almost impossible to find a replacement. The design does not imply disassembly.
Of course, you can remove the rivets and clean encoders thoroughly. And then think about how to install the encoders in place. BUT
Since the contacts are located directly on the printed circuit board, all you need to do is:
Tilt the board 45 degrees. Pour isopropyl alcohol 99,97% into the gap between the board and the encoder, one drop at a time until it flows from the other side. Rotate the encoders. Tilt the board perpendicular to the horizon. Collect escaping isopropanol with a tissue. Repeat 2-3 times.
Same problem: https://www.eevblog.com/forum/testgear/tds3000b-tds3054b-rotary-encoder-repairreplacement/msg3578292/#msg3578292
JusTideaFIX:
Creating a video signal converter to output video to HDMI for TDS30xxB.
In the attached file "HDMI(DVI)Transmitter Project.7z" you will find the 4 layer board design (Altium). gerber files and 3D model.
In my case, the illumination of the matrix was changed from CCFL to LEDs. Therefore, the inverter board was removed and the transmitter board was installed in its place.
An adapter plate was made for the connector. The HDMI connector is installed instead of the LPT.
R0..3=R4..7, G0..3=G4..7, B0..3=B4..7 pads must be connected to each other according to the sсhematic.
Example of captured video signal:
BOM:
IC Texas Instruments TFP410 PAP HTQFP64 Digital Transmitter == 1
HDMI-19-02F, (L-KLS1-285-1-N-1-R) Connector 19pin (SMD) == 1
Connector Hirose DF9-31S-1V(32) == 1
Connector Hirose DF9-31P-1V(32) == 1
RCLAMP0524P, TVS Array 5V [SLP2510P8] == 2
FPC/FFC cable 60mm 20Pin 1mm Reverse Direction == 1
FPC/FFC Socket 20Pin 1mm == 2
LDO +3.3V LD1117DT33TR 0.8А [D-PAK] == 1
Murata Chip Ferrite Bead BLM18RK601SN1D 0603 == 4
SMD capacitor 0603 10uF == 3
SMD capacitor 0603 100nF == 6
SMD capacitor 0805 10uF == 2
SMD resistor 0603 10k == 6
SMD resistor 0603 510R == 1
HDMI Extension Cable Male To Female With Screw Panel Mount 0,3(0,6)m https://aliexpress.com/item/1005001975924049.html == 1
I installed a 30 cm long cable, but this length was barely enough. Most likely it is better to use 60 cm.
It depends on the location of the board in the oscilloscope body. You may want to use a longer flat FPC/FFC cable
some info about https://www.eevblog.com/forum/beginners/capturing-video-from-lcd-interface/msg5057389/#msg5057389.
The approximate cost was 40$
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