Search
Search titles only
By:
Search titles only
By:
Home
Forums
New posts
Search forums
What's new
New posts
Latest activity
Members
Current visitors
Κανονισμός Λειτουργίας
Σωματείο AVClub
Log in
Register
Search
Search titles only
By:
Search titles only
By:
New posts
Search forums
Menu
Install the app
Install
Reply to thread
Home
Forums
Home Theater
Audio / Video
Νέες τεχνολογίες, Χώροι, Εγκαταστάσεις
Audyssey One !!!!!!!!! ΔΕΙΤΕ ΤΟ !!!!
JavaScript is disabled. For a better experience, please enable JavaScript in your browser before proceeding.
You are using an out of date browser. It may not display this or other websites correctly.
You should upgrade or use an
alternative browser
.
Message
<blockquote data-quote="djmnv81" data-source="post: 1058952599" data-attributes="member: 53606"><p>Έτσι από περιέργεια είδα το βίντεο κ το έκανα κ εγώ αλλά δεν το φόρτωσα ακόμα στο Denon στο preset 2 . </p><p></p><p></p><p></p><p>9:48:37 μ.μ. [INFO] Based on your AVR model - Denon AVC-X4700H, speed of sound has been set to 300.0 m/s for all distance calculations.</p><p>9:48:37 μ.μ. [WARNING] - if you believe this setting is not correct for your receiver model, please notify OCA!</p><p>9:48:37 μ.μ. [INFO] ************************************************************************************************************************</p><p>9:48:38 μ.μ. [LOG] Applying Target Curve located @ C:\Users\manve\Downloads\DrTooleTargetCurve (4).txt</p><p>9:48:38 μ.μ. [INFO] ************************************************************************************************************************</p><p>9:48:38 μ.μ. [INFO] Optimization process started...</p><p>9:48:38 μ.μ. [LOG] Transposing measurements from '8' different microphone positions to the primary listening position...</p><p>9:48:43 μ.μ. [INFO] Done!</p><p>9:48:43 μ.μ. [INFO] ************************************************************************************************************************</p><p>9:48:43 μ.μ. [INFO] Cleaning up processed measurements...</p><p>9:49:09 μ.μ. [LOG] Done!</p><p>9:49:09 μ.μ. [INFO] ************************************************************************************************************************</p><p>9:49:09 μ.μ. [LOG] Calculating precise speaker volume levels...</p><p>9:49:09 μ.μ. [LOG] Co: 69.97598993778229 dB</p><p>9:49:10 μ.μ. [LOG] FDLo: 65.21943516731262 dB</p><p>9:49:10 μ.μ. [LOG] FDRo: 66.27844332456588 dB</p><p>9:49:10 μ.μ. [LOG] FLo: 71.43202688694001 dB</p><p>9:49:10 μ.μ. [LOG] FRo: 71.88455293178558 dB</p><p>9:49:10 μ.μ. [LOG] SBLo: 75.47293245792389 dB</p><p>9:49:11 μ.μ. [LOG] SBRo: 77.10151777267457 dB</p><p>9:49:11 μ.μ. [LOG] SDLo: 68.383982026577 dB</p><p>9:49:11 μ.μ. [LOG] SDRo: 68.60003623962403 dB</p><p>9:49:11 μ.μ. [LOG] SLAo: 74.0658071756363 dB</p><p>9:49:11 μ.μ. [LOG] SRAo: 73.72223811149597 dB</p><p>9:49:11 μ.μ. [INFO] Optimized target volume level for all speakers: 71.1033601847562 dB</p><p>9:49:11 μ.μ. [INFO] Total number of speakers averaged (excludes subwoofer): 11</p><p>9:49:11 μ.μ. [LOG] Finalized speaker volume settings:</p><p>9:49:11 μ.μ. [LOG] C: 1.0 ; with 0.12737024697391064 dB filter compensation</p><p>9:49:12 μ.μ. [LOG] FDL: 6.0 ; with -0.11607498255642668 dB filter compensation</p><p>9:49:12 μ.μ. [LOG] FDR: 5.0 ; with -0.17508313980968637 dB filter compensation</p><p>9:49:12 μ.μ. [LOG] FL: -0.5 ; with 0.1713332978161901 dB filter compensation</p><p>9:49:12 μ.μ. [LOG] FR: -1.0 ; with 0.21880725297062043 dB filter compensation</p><p>9:49:12 μ.μ. [LOG] SBL: -4.5 ; with 0.13042772683230908 dB filter compensation</p><p>9:49:12 μ.μ. [LOG] SBR: -6.0 ; with 0.0018424120816291634 dB filter compensation</p><p>9:49:12 μ.μ. [LOG] SDL: 2.5 ; with 0.2193781581791967 dB filter compensation</p><p>9:49:12 μ.μ. [LOG] SDR: 2.5 ; with 0.0033239451321662727 dB filter compensation</p><p>9:49:12 μ.μ. [LOG] SLA: -3.0 ; with 0.03755300911990389 dB filter compensation</p><p>9:49:12 μ.μ. [LOG] SRA: -2.5 ; with -0.1188779267397706 dB filter compensation</p><p>9:49:12 μ.μ. [INFO] Optimizing subwoofer volume adjustment...</p><p>9:49:12 μ.μ. [LOG] SW1: -5.5 dB ; with -0.13999999999999968 dB filter compensation</p><p>9:49:12 μ.μ. [INFO] ************************************************************************************************************************</p><p>9:49:12 μ.μ. [INFO] Deriving optimal speaker distances with advanced cross-correlation analysis...</p><p>9:49:12 μ.μ. [LOG] C: 5m</p><p>9:49:12 μ.μ. [LOG] FDL: 6.25m</p><p>9:49:12 μ.μ. [LOG] FDR: 6.17m</p><p>9:49:12 μ.μ. [LOG] FL: 5m</p><p>9:49:12 μ.μ. [LOG] FR: 4.91m</p><p>9:49:12 μ.μ. [LOG] SBL: 1.66m</p><p>9:49:12 μ.μ. [LOG] SBR: 1.62m</p><p>9:49:12 μ.μ. [LOG] SDL: 4.22m</p><p>9:49:12 μ.μ. [LOG] SDR: 4.21m</p><p>9:49:12 μ.μ. [LOG] SLA: 2.05m</p><p>9:49:12 μ.μ. [LOG] SRA: 2.03m</p><p>9:49:12 μ.μ. [LOG] SW1: 19.22m</p><p>9:49:12 μ.μ. [WARNING] Calculated optimal subwoofer distance of 19.22m exceeds AV Receiver's max. speaker spacing limit [17.6m vs 5.88m]!</p><p>9:49:12 μ.μ. [INFO] Attempting to re-align the sub...</p><p>9:49:13 μ.μ. [WARNING] Recalculated subwoofer distance of 13.03m still exceeds AV Receiver's max. speaker spacing limit [11.41m vs 5.88m]!</p><p>9:49:13 μ.μ. [INFO] Attempting to re-align the sub...</p><p>9:49:14 μ.μ. [INFO] Subwoofer distance is again re-set to 4.74m and is finally within the receiver speaker spacing limits [3.12m vs 5.88m].</p><p>9:49:14 μ.μ. [INFO] ************************************************************************************************************************</p><p>9:49:14 μ.μ. [INFO] Crafting custom room correction filters...</p><p>9:49:17 μ.μ. [LOG] Optimal filter generation for speaker C is completed.</p><p>9:49:20 μ.μ. [LOG] Optimal filter generation for speaker FDL is completed.</p><p>9:49:24 μ.μ. [LOG] Optimal filter generation for speaker FDR is completed.</p><p>9:49:27 μ.μ. [LOG] Optimal filter generation for speaker FL is completed.</p><p>9:49:30 μ.μ. [LOG] Optimal filter generation for speaker FR is completed.</p><p>9:49:34 μ.μ. [LOG] Optimal filter generation for speaker SBL is completed.</p><p>9:49:41 μ.μ. [LOG] Optimal filter generation for speaker SBR is completed.</p><p>9:49:49 μ.μ. [LOG] Optimal filter generation for speaker SDL is completed.</p><p>9:49:57 μ.μ. [LOG] Optimal filter generation for speaker SDR is completed.</p><p>9:50:02 μ.μ. [LOG] Optimal filter generation for speaker SLA is completed.</p><p>9:50:06 μ.μ. [LOG] Optimal filter generation for speaker SRA is completed.</p><p>9:50:09 μ.μ. [LOG] Optimal filter generation for speaker SW1 is completed.</p><p>9:50:10 μ.μ. [LOG] Done!</p><p>9:50:10 μ.μ. [INFO] ************************************************************************************************************************</p><p>9:50:10 μ.μ. [INFO] Pinpointing crossover frequencies for each speaker...</p><p>9:50:10 μ.μ. [LOG] Optimal crossover frequency for speaker C: 27.09961Hz, closest receiver XO freq: 40Hz</p><p>9:50:10 μ.μ. [LOG] - @ 40Hz - phase difference with SW: 106.91 degrees, phase delay: 7.42 ms</p><p>9:50:10 μ.μ. [LOG] Optimal crossover frequency for speaker FDL: 87.52443Hz, closest receiver XO freq: 90Hz</p><p>9:50:10 μ.μ. [LOG] - @ 90Hz - phase difference with SW: -132.19 degrees, phase delay: -4.08 ms</p><p>9:50:11 μ.μ. [LOG] Optimal crossover frequency for speaker FDR: 27.46582Hz, closest receiver XO freq: 40Hz</p><p>9:50:11 μ.μ. [LOG] - @ 40Hz - phase difference with SW: 101.08 degrees, phase delay: 7.02 ms</p><p>9:50:11 μ.μ. [LOG] Optimal crossover frequency for speaker FL: 27.46582Hz, closest receiver XO freq: 40Hz</p><p>9:50:11 μ.μ. [LOG] - @ 40Hz - phase difference with SW: 55.01 degrees, phase delay: 3.82 ms</p><p>9:50:11 μ.μ. [LOG] Optimal crossover frequency for speaker FR: 23.43750Hz, closest receiver XO freq: 40Hz</p><p>9:50:11 μ.μ. [LOG] - @ 40Hz - phase difference with SW: 79.98 degrees, phase delay: 5.55 ms</p><p>9:50:11 μ.μ. [LOG] Optimal crossover frequency for speaker SBL: 46.14259Hz, closest receiver XO freq: 40Hz</p><p>9:50:11 μ.μ. [LOG] - @ 40Hz - phase difference with SW: -178.95 degrees, phase delay: -12.43 ms</p><p>9:50:11 μ.μ. [LOG] Optimal crossover frequency for speaker SBR: 50.90333Hz, closest receiver XO freq: 60Hz</p><p>9:50:11 μ.μ. [LOG] - @ 60Hz - phase difference with SW: -91.43 degrees, phase delay: -4.23 ms</p><p>9:50:11 μ.μ. [LOG] Optimal crossover frequency for speaker SDL: 28.19825Hz, closest receiver XO freq: 40Hz</p><p>9:50:11 μ.μ. [LOG] - @ 40Hz - phase difference with SW: -151.79 degrees, phase delay: -10.54 ms</p><p>9:50:11 μ.μ. [LOG] Optimal crossover frequency for speaker SDR: 27.83204Hz, closest receiver XO freq: 40Hz</p><p>9:50:11 μ.μ. [LOG] - @ 40Hz - phase difference with SW: -163.98 degrees, phase delay: -11.39 ms</p><p>9:50:11 μ.μ. [LOG] Optimal crossover frequency for speaker SLA: 46.50880Hz, closest receiver XO freq: 40Hz</p><p>9:50:11 μ.μ. [LOG] - @ 40Hz - phase difference with SW: 171.30 degrees, phase delay: 11.90 ms</p><p>9:50:12 μ.μ. [LOG] Optimal crossover frequency for speaker SRA: 38.08594Hz, closest receiver XO freq: 40Hz</p><p>9:50:12 μ.μ. [LOG] - @ 40Hz - phase difference with SW: 166.21 degrees, phase delay: 11.54 ms</p><p>9:50:12 μ.μ. [LOG] Subwoofer measures flat down to 16.47950Hz!</p><p>9:50:12 μ.μ. [INFO] Done!</p><p>9:50:12 μ.μ. [INFO] All crossover frequencies below 80Hz were set to 80Hz to reduce the workload on the amplifier and speaker drivers, and to improve clarity.</p><p>9:50:12 μ.μ. [INFO] Feel free to lower the crossover frequencies if you're using power amplifiers or high-sensitivity speakers, but be cautious to remain above the calculated frequencies shown above.</p><p>9:50:12 μ.μ. [INFO] For speaker pairs with different crossover frequencies, the AV receiver will synchronize them to the lower frequency of the two.</p><p>9:50:12 μ.μ. [INFO] ***********************************************************************************************************************************</p><p>9:50:12 μ.μ. [INFO] Uploading all optimization adjustments into the final calibration file...</p><p>9:50:15 μ.μ. [INFO] ************************************************************************************************************************</p><p>9:50:15 μ.μ. [LOG] 'AUDYSSEY ONE' optimization has been completed with SUCCESS in 96.983 seconds!</p><p>9:50:15 μ.μ. [INFO] ************************************************************************************************************************</p><p>9:50:15 μ.μ. [INFO] ************************************************************************************************************************</p><p>9:50:15 μ.μ. [INFO] When prompted, save the .ady file to your PC and send it 'as is' to your MultEQ Editor app.</p><p>9:50:15 μ.μ. [INFO] Next, transfer it 'as is' from the app to your AV receiver as you normally would.</p><p>9:50:15 μ.μ. [INFO] The Editor app graphs will no longer represent final speaker responses due to the special filtering technique implemented.</p><p>9:50:15 μ.μ. [INFO] Speaker responses with 'final' indices under REW / All SPL tab are your expected post-calibration responses.</p><p>9:50:15 μ.μ. [INFO] ************************************************************************************************************************</p><p>9:50:15 μ.μ. [INFO] YouTube video ([MEDIA=youtube]iU1ZBsru76M[/MEDIA]) contains a download link for several Dolby Atmos & DTS-X test clips</p><p>9:50:15 μ.μ. [INFO] compatible for playback via a USB key on your Blu-ray player for testing.</p><p>9:50:15 μ.μ. [INFO] ************************************************************************************************************************</p><p>9:50:15 μ.μ. [INFO] Enjoy your new sound!</p></blockquote><p></p>
[QUOTE="djmnv81, post: 1058952599, member: 53606"] Έτσι από περιέργεια είδα το βίντεο κ το έκανα κ εγώ αλλά δεν το φόρτωσα ακόμα στο Denon στο preset 2 . 9:48:37 μ.μ. [INFO] Based on your AVR model - Denon AVC-X4700H, speed of sound has been set to 300.0 m/s for all distance calculations. 9:48:37 μ.μ. [WARNING] - if you believe this setting is not correct for your receiver model, please notify OCA! 9:48:37 μ.μ. [INFO] ************************************************************************************************************************ 9:48:38 μ.μ. [LOG] Applying Target Curve located @ C:\Users\manve\Downloads\DrTooleTargetCurve (4).txt 9:48:38 μ.μ. [INFO] ************************************************************************************************************************ 9:48:38 μ.μ. [INFO] Optimization process started... 9:48:38 μ.μ. [LOG] Transposing measurements from '8' different microphone positions to the primary listening position... 9:48:43 μ.μ. [INFO] Done! 9:48:43 μ.μ. [INFO] ************************************************************************************************************************ 9:48:43 μ.μ. [INFO] Cleaning up processed measurements... 9:49:09 μ.μ. [LOG] Done! 9:49:09 μ.μ. [INFO] ************************************************************************************************************************ 9:49:09 μ.μ. [LOG] Calculating precise speaker volume levels... 9:49:09 μ.μ. [LOG] Co: 69.97598993778229 dB 9:49:10 μ.μ. [LOG] FDLo: 65.21943516731262 dB 9:49:10 μ.μ. [LOG] FDRo: 66.27844332456588 dB 9:49:10 μ.μ. [LOG] FLo: 71.43202688694001 dB 9:49:10 μ.μ. [LOG] FRo: 71.88455293178558 dB 9:49:10 μ.μ. [LOG] SBLo: 75.47293245792389 dB 9:49:11 μ.μ. [LOG] SBRo: 77.10151777267457 dB 9:49:11 μ.μ. [LOG] SDLo: 68.383982026577 dB 9:49:11 μ.μ. [LOG] SDRo: 68.60003623962403 dB 9:49:11 μ.μ. [LOG] SLAo: 74.0658071756363 dB 9:49:11 μ.μ. [LOG] SRAo: 73.72223811149597 dB 9:49:11 μ.μ. [INFO] Optimized target volume level for all speakers: 71.1033601847562 dB 9:49:11 μ.μ. [INFO] Total number of speakers averaged (excludes subwoofer): 11 9:49:11 μ.μ. [LOG] Finalized speaker volume settings: 9:49:11 μ.μ. [LOG] C: 1.0 ; with 0.12737024697391064 dB filter compensation 9:49:12 μ.μ. [LOG] FDL: 6.0 ; with -0.11607498255642668 dB filter compensation 9:49:12 μ.μ. [LOG] FDR: 5.0 ; with -0.17508313980968637 dB filter compensation 9:49:12 μ.μ. [LOG] FL: -0.5 ; with 0.1713332978161901 dB filter compensation 9:49:12 μ.μ. [LOG] FR: -1.0 ; with 0.21880725297062043 dB filter compensation 9:49:12 μ.μ. [LOG] SBL: -4.5 ; with 0.13042772683230908 dB filter compensation 9:49:12 μ.μ. [LOG] SBR: -6.0 ; with 0.0018424120816291634 dB filter compensation 9:49:12 μ.μ. [LOG] SDL: 2.5 ; with 0.2193781581791967 dB filter compensation 9:49:12 μ.μ. [LOG] SDR: 2.5 ; with 0.0033239451321662727 dB filter compensation 9:49:12 μ.μ. [LOG] SLA: -3.0 ; with 0.03755300911990389 dB filter compensation 9:49:12 μ.μ. [LOG] SRA: -2.5 ; with -0.1188779267397706 dB filter compensation 9:49:12 μ.μ. [INFO] Optimizing subwoofer volume adjustment... 9:49:12 μ.μ. [LOG] SW1: -5.5 dB ; with -0.13999999999999968 dB filter compensation 9:49:12 μ.μ. [INFO] ************************************************************************************************************************ 9:49:12 μ.μ. [INFO] Deriving optimal speaker distances with advanced cross-correlation analysis... 9:49:12 μ.μ. [LOG] C: 5m 9:49:12 μ.μ. [LOG] FDL: 6.25m 9:49:12 μ.μ. [LOG] FDR: 6.17m 9:49:12 μ.μ. [LOG] FL: 5m 9:49:12 μ.μ. [LOG] FR: 4.91m 9:49:12 μ.μ. [LOG] SBL: 1.66m 9:49:12 μ.μ. [LOG] SBR: 1.62m 9:49:12 μ.μ. [LOG] SDL: 4.22m 9:49:12 μ.μ. [LOG] SDR: 4.21m 9:49:12 μ.μ. [LOG] SLA: 2.05m 9:49:12 μ.μ. [LOG] SRA: 2.03m 9:49:12 μ.μ. [LOG] SW1: 19.22m 9:49:12 μ.μ. [WARNING] Calculated optimal subwoofer distance of 19.22m exceeds AV Receiver's max. speaker spacing limit [17.6m vs 5.88m]! 9:49:12 μ.μ. [INFO] Attempting to re-align the sub... 9:49:13 μ.μ. [WARNING] Recalculated subwoofer distance of 13.03m still exceeds AV Receiver's max. speaker spacing limit [11.41m vs 5.88m]! 9:49:13 μ.μ. [INFO] Attempting to re-align the sub... 9:49:14 μ.μ. [INFO] Subwoofer distance is again re-set to 4.74m and is finally within the receiver speaker spacing limits [3.12m vs 5.88m]. 9:49:14 μ.μ. [INFO] ************************************************************************************************************************ 9:49:14 μ.μ. [INFO] Crafting custom room correction filters... 9:49:17 μ.μ. [LOG] Optimal filter generation for speaker C is completed. 9:49:20 μ.μ. [LOG] Optimal filter generation for speaker FDL is completed. 9:49:24 μ.μ. [LOG] Optimal filter generation for speaker FDR is completed. 9:49:27 μ.μ. [LOG] Optimal filter generation for speaker FL is completed. 9:49:30 μ.μ. [LOG] Optimal filter generation for speaker FR is completed. 9:49:34 μ.μ. [LOG] Optimal filter generation for speaker SBL is completed. 9:49:41 μ.μ. [LOG] Optimal filter generation for speaker SBR is completed. 9:49:49 μ.μ. [LOG] Optimal filter generation for speaker SDL is completed. 9:49:57 μ.μ. [LOG] Optimal filter generation for speaker SDR is completed. 9:50:02 μ.μ. [LOG] Optimal filter generation for speaker SLA is completed. 9:50:06 μ.μ. [LOG] Optimal filter generation for speaker SRA is completed. 9:50:09 μ.μ. [LOG] Optimal filter generation for speaker SW1 is completed. 9:50:10 μ.μ. [LOG] Done! 9:50:10 μ.μ. [INFO] ************************************************************************************************************************ 9:50:10 μ.μ. [INFO] Pinpointing crossover frequencies for each speaker... 9:50:10 μ.μ. [LOG] Optimal crossover frequency for speaker C: 27.09961Hz, closest receiver XO freq: 40Hz 9:50:10 μ.μ. [LOG] - @ 40Hz - phase difference with SW: 106.91 degrees, phase delay: 7.42 ms 9:50:10 μ.μ. [LOG] Optimal crossover frequency for speaker FDL: 87.52443Hz, closest receiver XO freq: 90Hz 9:50:10 μ.μ. [LOG] - @ 90Hz - phase difference with SW: -132.19 degrees, phase delay: -4.08 ms 9:50:11 μ.μ. [LOG] Optimal crossover frequency for speaker FDR: 27.46582Hz, closest receiver XO freq: 40Hz 9:50:11 μ.μ. [LOG] - @ 40Hz - phase difference with SW: 101.08 degrees, phase delay: 7.02 ms 9:50:11 μ.μ. [LOG] Optimal crossover frequency for speaker FL: 27.46582Hz, closest receiver XO freq: 40Hz 9:50:11 μ.μ. [LOG] - @ 40Hz - phase difference with SW: 55.01 degrees, phase delay: 3.82 ms 9:50:11 μ.μ. [LOG] Optimal crossover frequency for speaker FR: 23.43750Hz, closest receiver XO freq: 40Hz 9:50:11 μ.μ. [LOG] - @ 40Hz - phase difference with SW: 79.98 degrees, phase delay: 5.55 ms 9:50:11 μ.μ. [LOG] Optimal crossover frequency for speaker SBL: 46.14259Hz, closest receiver XO freq: 40Hz 9:50:11 μ.μ. [LOG] - @ 40Hz - phase difference with SW: -178.95 degrees, phase delay: -12.43 ms 9:50:11 μ.μ. [LOG] Optimal crossover frequency for speaker SBR: 50.90333Hz, closest receiver XO freq: 60Hz 9:50:11 μ.μ. [LOG] - @ 60Hz - phase difference with SW: -91.43 degrees, phase delay: -4.23 ms 9:50:11 μ.μ. [LOG] Optimal crossover frequency for speaker SDL: 28.19825Hz, closest receiver XO freq: 40Hz 9:50:11 μ.μ. [LOG] - @ 40Hz - phase difference with SW: -151.79 degrees, phase delay: -10.54 ms 9:50:11 μ.μ. [LOG] Optimal crossover frequency for speaker SDR: 27.83204Hz, closest receiver XO freq: 40Hz 9:50:11 μ.μ. [LOG] - @ 40Hz - phase difference with SW: -163.98 degrees, phase delay: -11.39 ms 9:50:11 μ.μ. [LOG] Optimal crossover frequency for speaker SLA: 46.50880Hz, closest receiver XO freq: 40Hz 9:50:11 μ.μ. [LOG] - @ 40Hz - phase difference with SW: 171.30 degrees, phase delay: 11.90 ms 9:50:12 μ.μ. [LOG] Optimal crossover frequency for speaker SRA: 38.08594Hz, closest receiver XO freq: 40Hz 9:50:12 μ.μ. [LOG] - @ 40Hz - phase difference with SW: 166.21 degrees, phase delay: 11.54 ms 9:50:12 μ.μ. [LOG] Subwoofer measures flat down to 16.47950Hz! 9:50:12 μ.μ. [INFO] Done! 9:50:12 μ.μ. [INFO] All crossover frequencies below 80Hz were set to 80Hz to reduce the workload on the amplifier and speaker drivers, and to improve clarity. 9:50:12 μ.μ. [INFO] Feel free to lower the crossover frequencies if you're using power amplifiers or high-sensitivity speakers, but be cautious to remain above the calculated frequencies shown above. 9:50:12 μ.μ. [INFO] For speaker pairs with different crossover frequencies, the AV receiver will synchronize them to the lower frequency of the two. 9:50:12 μ.μ. [INFO] *********************************************************************************************************************************** 9:50:12 μ.μ. [INFO] Uploading all optimization adjustments into the final calibration file... 9:50:15 μ.μ. [INFO] ************************************************************************************************************************ 9:50:15 μ.μ. [LOG] 'AUDYSSEY ONE' optimization has been completed with SUCCESS in 96.983 seconds! 9:50:15 μ.μ. [INFO] ************************************************************************************************************************ 9:50:15 μ.μ. [INFO] ************************************************************************************************************************ 9:50:15 μ.μ. [INFO] When prompted, save the .ady file to your PC and send it 'as is' to your MultEQ Editor app. 9:50:15 μ.μ. [INFO] Next, transfer it 'as is' from the app to your AV receiver as you normally would. 9:50:15 μ.μ. [INFO] The Editor app graphs will no longer represent final speaker responses due to the special filtering technique implemented. 9:50:15 μ.μ. [INFO] Speaker responses with 'final' indices under REW / All SPL tab are your expected post-calibration responses. 9:50:15 μ.μ. [INFO] ************************************************************************************************************************ 9:50:15 μ.μ. [INFO] YouTube video ([MEDIA=youtube]iU1ZBsru76M[/MEDIA]) contains a download link for several Dolby Atmos & DTS-X test clips 9:50:15 μ.μ. [INFO] compatible for playback via a USB key on your Blu-ray player for testing. 9:50:15 μ.μ. [INFO] ************************************************************************************************************************ 9:50:15 μ.μ. [INFO] Enjoy your new sound! [/QUOTE]
Verification
Post reply
Home
Forums
Home Theater
Audio / Video
Νέες τεχνολογίες, Χώροι, Εγκαταστάσεις
Audyssey One !!!!!!!!! ΔΕΙΤΕ ΤΟ !!!!
Top
Bottom
This site uses cookies to help personalise content, tailor your experience and to keep you logged in if you register.
By continuing to use this site, you are consenting to our use of cookies.
Accept
Learn more…