TG16:Turbo Duo Audio Fix: Difference between revisions
(Created page with "When comparing the audio signature of the Original Turbo Duo to other units (such as Duo R/RX or PAC-N1/10), there is severe low frequency attenuation of hucard audio (all channels) due to the small AC coupling capacitance used in the audio circuit. ==Audio Fix Details== ===Step 1 - Remove cer4amic capacitors C878, C879 and C883=== <gallery> TurboDuo_C878C879.jpg|C878 and C879 Location TurboDuo_C883_Location.jpg|C883 Location </gallery> ===Step 2 - Replace with 10 uF 0...") |
m (Zaxour moved page TG16:Turbo Duo Audio Fix to TG16:Turbo Duo Audio Fix: Title formatting) |
Revision as of 21:46, 11 August 2024
When comparing the audio signature of the Original Turbo Duo to other units (such as Duo R/RX or PAC-N1/10), there is severe low frequency attenuation of hucard audio (all channels) due to the small AC coupling capacitance used in the audio circuit.
Audio Fix Details
Step 1 - Remove cer4amic capacitors C878, C879 and C883
C878 and C879 Location
C883 Location
Step 2 - Replace with 10 uF 0805 capacitors
Replace the capacitors using ceramic X7R 10 uF 0805 size capacitors. Tantalum or electrolytic may be used as well, but polarity must be considered and is not covered here.
Frequency Response Comparison
The difference in frequency response can be seen in the MDFourier plots shown below. Low frequency hucard audio is attenuated almost 10 dB due to the more aggressive high pass filter formed by the original 100 nF AC coupling capacitors. The Original Turbo Duo audio capture was performed with a Turbo Everdrive Pro and compared to a PC Engine Duo R native CD hardware.
MDFourier Response - Before
MDFourier Response - After
