Die generierte OCA, die beim hochladen vom Script erstellt wird.
Hi, ich nutze den gleichen AVR. Welche maximale Lautstärke erreichst Du bei Anwendung der Evo? Mein AVR begrenzt auf max. Lautstärke 74, im Setup wird diese nicht eingeschränkt.
Audyssey One
-
-
Ich bin kein Lauthörer und nutze auch die dB Anzeige.
Max. Lautstärke bei meinem Reciever ist 0dB (kann man aber glaube ich ändern?)Abhörlautstärke bei mir etwa -20 dB bis -15 dB
-
Ich bin kein Lauthörer und nutze auch die dB Anzeige.
Max. Lautstärke bei meinem Reciever ist 0dB (kann man aber glaube ich ändern?)Abhörlautstärke bei mir etwa -20 dB bis -15 dB
Ich nutze die Anzeige von 0-98, bei 74 geht nichts mehr. Im Heimkino bin ich sonst immer bei 75, ist dann die Lautstärke, mit welcher Action-Kracher sehr gut rüberkommen. Eventuell hat ja jemand mal die Möglichkeit, dies an seinem Receiver mal zu testen. Danke für die schnelle Reaktion. Die max. Lautstärke kann man im Setup einstellen, ist bei mir aber auf Standart.
-
Ich hab´s eben mal umgestellt und die Begrenzung bei "80" deaktiviert.
Screenshot zeigt die maximal erreichbare Lautstärke (also mehr als 74, aber nicht 98)
A1 EVO ist aktiv.
-
Vielleicht wurde im Script die Lautstärke einzelner Lautsprecher über 0dB (zb + 7dB etc.) angehoben und das wird
bei der maximalen Lautstärke berücksichtigt und entsprechend begrenzt.
Vielleicht wird dadurch die Lautstärke, die Du sonst hörst, schon bei zb Anzeige 69 erreicht...
-
Vielleicht wurde im Script die Lautstärke einzelner Lautsprecher über 0dB (zb + 7dB etc.) angehoben und das wird
bei der maximalen Lautstärke berücksichtigt und entsprechend begrenzt.
Das schaue ich mir noch mal an, aber so starke Anhebungen hatte ich eigentlich nicht gesehen. Danke!
-
Mein Gott was für eine Lautstärke
. Meine Max. Lautstärke bei meinem Reciever war mal 65 da sind mir bald die ohren weggeflogen 
. Ich höre wenn ich alleine bin und einen film schaue immer auf 60 . Das ist schon Mega laut .Ich habe den Denon AVR-X 4800 H
LG Holymann
-
Alles anzeigen
Ich hab´s eben mal umgestellt und die Begrenzung bei "80" deaktiviert.
Screenshot zeigt die maximal erreichbare Lautstärke (also mehr als 74, aber nicht 98)
A1 EVO ist aktiv.
Das sieht bei mir ganz anders aus, bei "normalen" Audy - Einmessungen ist das bei mir auch so wie Du es gerade zeigst.
-
Mein Gott was für eine Lautstärke
. Meine Max. Lautstärke bei meinem Reciever war mal 65 da sind mir bald die ohren weggeflogen . Ich höre wenn ich alleine bin und einen film schaue immer auf 60 . Das ist schon Mega laut .Ich habe den Denon AVR-X 4800 H
LG Holymann
Na ja, sogar meine Frau schaut bei der Lautstärke mit und sie hört noch die Grillen
-
Habe meinen letzten Beitrag editiert und um einen Gedanken ergänzt.
-
Meine maximale Pegelanhebung sind +2,5 dB. Ich werde mal die EVO 2.3x an den Denon schicken und mal schauen, was passiert.
-
die Lautstärke am AVR hat ja nichts mehr der im Raum zu tun. Kann ja sein, dass jemand Lautsprecher mit einem Kennschalldruckpegel von 95dB 1W/1m und der ander von 85dB nutzt. Trotz gleichem Lautstärkewertes am AVR werden dass dann schon zwei unterschiedliche Welten sein.
-
die Lautstärke am AVR hat ja nichts mehr der im Raum zu tun. Kann ja sein, dass jemand Lautsprecher mit einem Kennschalldruckpegel von 95dB 1W/1m und der ander von 85dB nutzt. Trotz gleichem Lautstärkewertes am AVR werden dass dann schon zwei unterschiedliche Welten sein.
So ist es. Meine (XTZ M8 in der Kompakt-Variante) liegen bei 91,2 dB.
-
die Lautstärke am AVR hat ja nichts mehr der im Raum zu tun. Kann ja sein, dass jemand Lautsprecher mit einem Kennschalldruckpegel von 95dB 1W/1m und der ander von 85dB nutzt. Trotz gleichem Lautstärkewertes am AVR werden dass dann schon zwei unterschiedliche Welten sein.
Das würde ich so nicht sagen, sofern man eingemessen hat. In dem Zusammenhang wird die Lautstärke ja ermittelt/eingepegelt und entsprechend sollte der Receiver oder die Vorstufe es korrekt anzeigen. Jedenfalls im Bereich der Genauigkeit die das Einmessmikrofon hergibt.
-
Das würde ich so nicht sagen, sofern man eingemessen hat. In dem Zusammenhang wird die Lautstärke ja ermittelt/eingepegelt und entsprechend sollte der Receiver oder die Vorstufe es korrekt anzeigen. Jedenfalls im Bereich der Genauigkeit die das Einmessmikrofon hergibt.
Das ist ein guter Hinweis. Ich hatte herausgefunden (steht auch im Manual des Denon), dass der Lautstärkepegel an Hand der Einmessung begrenzt werden kann, um Clipping zu verhindern. Bei der "normalen" Einmessung habe ich, was die Lautstärke angeht, auch Pegelanpassungen von +-3dB, aber nur eine Begrenzung auf ca. 87 bei der Lautstärkeeinstellung. Das ist das was mich verwundert. Es kommt dazu, dass einige Quellen (z.B. Netflix über Fire-Tv Stick) leiser sind und mir somit derzeit Lautstärke fehlt.
-
Zur Not kannst Du ja mal Dynamic Volume auf "niedrig" bei leisen Quellen aktivieren. Das arbeitet in solchen Fällen recht gut und unauffällig. (niedrig!)
Und jetzt bin ich raus und überlasse das Feld denjenigen mit Ahnung von der Materie.
-
die Lautstärke am AVR hat ja nichts mehr der im Raum zu tun. Kann ja sein, dass jemand Lautsprecher mit einem Kennschalldruckpegel von 95dB 1W/1m und der ander von 85dB nutzt. Trotz gleichem Lautstärkewertes am AVR werden dass dann schon zwei unterschiedliche Welten sein.
Das ist nicht so - die Diskussion hatten wir schon mal (weil ich es auch so dachte, bzw. mich fragte, warum immer ALLE Lautsprecher einen Anpassungswert haben und nicht wenigstens einer immer auf 0dB steht, quasi als Referenzpunkt). Soweit ich es verstanden habe, misst Audyssey so ein, dass man bei eingestellten 0dB am Receiver 75dB im Raum erreicht. Vollkommen unabhängig davon, wie effizient die Lautsprecher sind.
-
Kurze Info:
Bei der Berechnung mit der neuesten 2.3x kommen komplett
unterschiedliche Übergangsfrequenzen raus, verglichen mit den beiden vorigen 2.3ern (dort waren sie bei beiden gleich)
Meine Höhenlautsprecher wurden zb bisher immer (seit der allerersten Version) bei 110-120 Hertz getrennt.
Jetzt sind es 80 Hz.
Ich dachte im Script wären nur
Kleinigkeiten geändert worden, die mit der Berechnung nichts zu tun haben.
Ich habe immer die gleiche Ady genommen und nichts am Script verändert.
Was ist nun die bessere, korrekte Version?
Ich höre auf Anhieb auch keine
Unterschiede beim Testlauf
-
Hier noch die Logs:
2.3 (zweite Version)
Code
Alles anzeigen15:40:26 [IMPORTANT!] Initialising A1 Evo v2.3... 15:40:26 [INFORMATION] Audyssey calibration '17.4.24 Medium-Original-8 Platz .ady' has been uploaded! 15:40:27 [INFORMATION] Speed of sound setting has been automatically adjusted for your Denon AVC-X6700H at 300 m/s. 15:40:27 [INFORMATION] Speaker measurements have been extracted from the uploaded calibration file. 15:40:27 [IMPORTANT!] Please save Evo_TargetCurve.txt and 17.4.24 Medium-Original-8 Platz _extractedMeasurements.zip files when prompted. 15:40:27 [IMPORTANT!] Both save prompts can be cancelled if the original Audyssey measurements and a target curve are already loaded in REW! 15:40:27 [WARNING!] 'Allow' multiple file downloads when prompted to prevent the browser from blocking saving calibrated files at the end of the optimization. 15:41:39 [IMPORTANT!] All 96 measurements have now been successfully imported! 15:41:45 [IMPORTANT!] Active custom target curve: D:\Downloads\Evo_TargetCurve (11).txt 15:41:45 [IMPORTANT!] Optimization started... 15:41:45 [WARNING!] Please keep REW on 'SPL & Phase' tab, close any child windows and stay on this web page until optimization is completed! 15:41:54 [IMPORTANT!] 'Standard bass' mode with 2 subwoofer(s) detected. 15:41:54 [INFORMATION] Transposing measurements from <8> different microphone positions to the primary listening location (1st mic position)... 15:41:54 [INFORMATION] This will take a while but ensure 'direct sound' is prioritized for every measurement impulse. 15:41:54 [INFORMATION] Computing optimal spatial averaging configuration for speaker #1... 15:41:55 [INFORMATION] Computing optimal spatial averaging configuration for speaker #2... 15:41:56 [INFORMATION] Computing optimal spatial averaging configuration for speaker #3... 15:41:57 [INFORMATION] Computing optimal spatial averaging configuration for speaker #4... 15:41:57 [INFORMATION] Computing optimal spatial averaging configuration for speaker #5... 15:41:58 [INFORMATION] Computing optimal spatial averaging configuration for speaker #6... 15:41:59 [INFORMATION] Computing optimal spatial averaging configuration for speaker #7... 15:41:59 [INFORMATION] Computing optimal spatial averaging configuration for speaker #8... 15:42:00 [INFORMATION] Computing optimal spatial averaging configuration for speaker #9... 15:42:01 [INFORMATION] Computing optimal spatial averaging configuration for speaker #10... 15:42:01 [INFORMATION] Computing optimal spatial averaging configuration for speaker #11... 15:42:02 [INFORMATION] Computing optimal spatial averaging configuration for speaker #12... 15:42:11 [INFORMATION] Deleting processed measurements... 15:42:26 [INFORMATION] Removing imported impulse volume offsets... 15:42:27 [INFORMATION] Executing precision temporal alignment across the speaker array for optimal coherence... 15:42:57 [INFORMATION] Proprietary 'filtered excess phase' based impulse alignment optimization is complete! 15:42:57 [INFORMATION] Speaker Co distance has been set to 2.91 meters. 15:42:57 [INFORMATION] Available bass system volume adjustment range → { -11dB : 12dB } 15:42:57 [INFORMATION] Bass system delay headroom available after maxing out all tweaks → 35.452156439301746ms { -44.290699040529915ms : -8.838542601228173ms } 15:42:57 [INFORMATION] Aligning each speaker's volume to precisely 75dB (Audyssey measurement level at source) at the listening position... 15:42:57 [IMPORTANT!] C - measured average volume: 80.53dB, applied adjustment: -5.5dB 15:42:57 [IMPORTANT!] FHL - measured average volume: 81.29dB, applied adjustment: -6.5dB 15:42:57 [IMPORTANT!] FHR - measured average volume: 80.66dB, applied adjustment: -5.5dB 15:42:57 [IMPORTANT!] FL - measured average volume: 76.31dB, applied adjustment: -1.5dB 15:42:57 [IMPORTANT!] FR - measured average volume: 77.22dB, applied adjustment: -2dB 15:42:57 [IMPORTANT!] RHL - measured average volume: 83.3dB, applied adjustment: -8.5dB 15:42:57 [IMPORTANT!] RHR - measured average volume: 83.51dB, applied adjustment: -8.5dB 15:42:57 [IMPORTANT!] SBL - measured average volume: 78.93dB, applied adjustment: -4dB 15:42:57 [IMPORTANT!] SBR - measured average volume: 78.18dB, applied adjustment: -3dB 15:42:57 [IMPORTANT!] SLA - measured average volume: 78.95dB, applied adjustment: -4dB 15:42:57 [IMPORTANT!] SRA - measured average volume: 78.61dB, applied adjustment: -3.5dB 15:42:57 [INFORMATION] Aligning subwoofer volume to target curve between 30Hz - 80Hz (Dolby standard)... 15:42:57 [IMPORTANT!] Calculated subwoofer volume adjustment requirement with the minimum tracking error on target(0.02%): 0.5dB 15:43:15 [IMPORTANT!] Pre-determined crossover frequencies based on 12dB/octave Butterworth highpass filter (receiver spec) roll off slopes: 15:43:15 [IMPORTANT!] Speaker C: 40Hz 15:43:15 [IMPORTANT!] Speaker FHL: 100Hz 15:43:15 [IMPORTANT!] Speaker FHR: 100Hz 15:43:15 [IMPORTANT!] Speaker FL: 'Large/Full range' 15:43:15 [IMPORTANT!] Speaker FR: 'Large/Full range' 15:43:15 [IMPORTANT!] Speaker RHL: 110Hz 15:43:15 [IMPORTANT!] Speaker RHR: 110Hz 15:43:15 [IMPORTANT!] Speaker SBL: 80Hz 15:43:15 [IMPORTANT!] Speaker SBR: 80Hz 15:43:15 [IMPORTANT!] Speaker SLA: 60Hz 15:43:15 [IMPORTANT!] Speaker SRA: 60Hz 15:43:17 [INFORMATION] Subwoofer(s) Linkwitz-Riley 24dB/oct lowpass filter (receiver spec) roll off frequency: 250Hz 15:43:22 [INFORMATION] Generating proprietary room correction filters based on Hilbert transforms of the impulse responses... 15:43:56 [INFORMATION] Speakers 'FL & FR' measured bass roll off frequency at LP (includes boundary gain): 'Large/Full range' 15:43:56 [INFORMATION] Analyzing other crossover frequency options... 15:43:58 [INFORMATION] Commencing in-depth frequency and SPL analysis. Please sit tight... 15:44:13 [INFORMATION] XO: 60Hz; Target tracking error: 5.58dB 15:44:15 [INFORMATION] Commencing in-depth frequency and SPL analysis. Please sit tight... 15:44:32 [INFORMATION] XO: 80Hz; Target tracking error: 5.12dB 15:44:32 [IMPORTANT!] Search completed. 15:44:32 [INFORMATION] Finalizing subwoofer time alignment with 'FL & FR' at the selected crossover frequency: 80Hz... 15:44:32 [INFORMATION] Calculating subwoofer system delay for optimal match with the front mains... 15:44:32 [INFORMATION] Available subwoofer delay range → { -44.290699040529915ms : -8.838542601228173ms } 15:44:35 [INFORMATION] Commencing in-depth frequency and SPL analysis. Please sit tight... 15:44:52 [INFORMATION] Required 'Impulse' alignment delay of -9.78ms is within limits, expected bass region excess phase: 57.24481740572157° 15:44:52 [INFORMATION] Polarity inversion required? 'false' 15:44:52 [INFORMATION] Commencing in-depth frequency and SPL analysis. Please sit tight... 15:45:03 [INFORMATION] Required delay for 'Phase' alignment is too large! 15:45:03 [INFORMATION] 'Impulse' alignment selected! 15:45:03 [IMPORTANT!] Final speaker distances: 15:45:03 [IMPORTANT!] C: 2.91 meters 15:45:03 [IMPORTANT!] FHL: 2.19 meters 15:45:03 [IMPORTANT!] FHR: 2.24 meters 15:45:03 [IMPORTANT!] FL: 3.13 meters 15:45:03 [IMPORTANT!] FR: 3.14 meters 15:45:03 [IMPORTANT!] RHL: 1.86 meters 15:45:03 [IMPORTANT!] RHR: 1.88 meters 15:45:03 [IMPORTANT!] SBL: 1.77 meters 15:45:03 [IMPORTANT!] SBR: 1.81 meters 15:45:03 [IMPORTANT!] SLA: 2.03 meters 15:45:03 [IMPORTANT!] SRA: 2.12 meters 15:45:03 [WARNING!] SW1: 7.49 meters, keep this subwoofer's polarity 'as is'. 15:45:03 [INFORMATION] Your bass system is expected to measure flat down to {14.28 ± 0.18} Hz! 15:45:04 [INFORMATION] Optimizing crossover frequencies for the remaining speakers... 15:45:11 [IMPORTANT!] Speaker: 'C' 15:45:11 [INFORMATION] Measured bass roll off frequency at the LP (includes room gain): 40Hz 15:45:11 [INFORMATION] Analyzing other crossover frequency options... 15:45:12 [INFORMATION] XO: 60Hz; Target tracking error: 3.87dB 15:45:14 [INFORMATION] XO: 80Hz; Target tracking error: 4.01dB 15:45:15 [IMPORTANT!] Selected crossover frequency: 60Hz. 15:45:15 [INFORMATION] ______________________________________________________________________________________________ 15:45:15 [IMPORTANT!] Speaker pair: 'FHL & FHR' 15:45:15 [INFORMATION] Measured bass roll off frequency at the LP (includes room gain): 100Hz 15:45:15 [INFORMATION] Analyzing other crossover frequency options... 15:45:17 [INFORMATION] XO: 100Hz; Target tracking error: 3.65dB 15:45:18 [INFORMATION] XO: 110Hz; Target tracking error: 3.61dB 15:45:20 [INFORMATION] XO: 120Hz; Target tracking error: 3.31dB 15:45:20 [IMPORTANT!] Selected crossover frequency: 120Hz. 15:45:20 [INFORMATION] ______________________________________________________________________________________________ 15:45:21 [IMPORTANT!] Speaker pair: 'RHL & RHR' 15:45:21 [INFORMATION] Measured bass roll off frequency at the LP (includes room gain): 110Hz 15:45:21 [INFORMATION] Analyzing other crossover frequency options... 15:45:23 [INFORMATION] XO: 110Hz; Target tracking error: 3.47dB 15:45:24 [INFORMATION] XO: 120Hz; Target tracking error: 3.34dB 15:45:25 [IMPORTANT!] Selected crossover frequency: 120Hz. 15:45:25 [INFORMATION] ______________________________________________________________________________________________ 15:45:25 [IMPORTANT!] Speaker pair: 'SBL & SBR' 15:45:25 [INFORMATION] Measured bass roll off frequency at the LP (includes room gain): 80Hz 15:45:25 [INFORMATION] Analyzing other crossover frequency options... 15:45:27 [INFORMATION] XO: 80Hz; Target tracking error: 2.23dB 15:45:29 [INFORMATION] XO: 90Hz; Target tracking error: 2.34dB 15:45:30 [INFORMATION] XO: 100Hz; Target tracking error: 2.48dB 15:45:32 [INFORMATION] XO: 110Hz; Target tracking error: 2.61dB 15:45:34 [INFORMATION] XO: 120Hz; Target tracking error: 2.72dB 15:45:34 [IMPORTANT!] Selected crossover frequency: 80Hz. 15:45:34 [INFORMATION] ______________________________________________________________________________________________ 15:45:35 [IMPORTANT!] Speaker pair: 'SLA & SRA' 15:45:35 [INFORMATION] Measured bass roll off frequency at the LP (includes room gain): 60Hz 15:45:35 [INFORMATION] Analyzing other crossover frequency options... 15:45:36 [INFORMATION] XO: 60Hz; Target tracking error: 2.68dB 15:45:38 [INFORMATION] XO: 80Hz; Target tracking error: 3.09dB 15:45:39 [INFORMATION] XO: 90Hz; Target tracking error: 3.64dB 15:45:41 [INFORMATION] XO: 100Hz; Target tracking error: 3.99dB 15:45:43 [INFORMATION] XO: 110Hz; Target tracking error: 4.07dB 15:45:45 [INFORMATION] XO: 120Hz; Target tracking error: 4.10dB 15:45:45 [IMPORTANT!] Selected crossover frequency: 60Hz. 15:45:45 [INFORMATION] ______________________________________________________________________________________________ 15:45:45 [IMPORTANT!] You crossover frequencies have been optimized within the frequency range '60Hz to 120Hz'! 15:45:45 [INFORMATION] Evo iterates through a reasonable range of frequencies for each speaker but the search range can be customized. 15:45:45 [INFORMATION] You can modify 'minimumXO' and 'maximumXO' variables in the script to your taste e.g., to avoid bass localization. 15:45:50 [INFORMATION] Generating expected final outputs for each channel... 15:46:15 [INFORMATION] Calculating Audyssey auto-leveling compensations and uploading optimization settings into the 'master' calibration file... 15:46:15 [INFORMATION] 0dB Audyssey auto-leveling compensation needed for speaker C. 15:46:15 [INFORMATION] 0dB Audyssey auto-leveling compensation needed for speaker FHL. 15:46:15 [INFORMATION] 0dB Audyssey auto-leveling compensation needed for speaker FHR. 15:46:15 [INFORMATION] 0dB Audyssey auto-leveling compensation needed for speaker FL. 15:46:16 [INFORMATION] 0dB Audyssey auto-leveling compensation needed for speaker FR. 15:46:16 [INFORMATION] 0dB Audyssey auto-leveling compensation needed for speaker RHL. 15:46:16 [INFORMATION] 0dB Audyssey auto-leveling compensation needed for speaker RHR. 15:46:16 [INFORMATION] 0dB Audyssey auto-leveling compensation needed for speaker SBL. 15:46:16 [INFORMATION] 0dB Audyssey auto-leveling compensation needed for speaker SBR. 15:46:16 [INFORMATION] 0dB Audyssey auto-leveling compensation needed for speaker SLA. 15:46:16 [INFORMATION] 0dB Audyssey auto-leveling compensation needed for speaker SRA. 15:46:16 [INFORMATION] -1.5dB Audyssey auto-leveling compensation needed to subwoofer SW1 volume level. 15:46:16 [INFORMATION] -1.5dB Audyssey auto-leveling compensation needed for subwoofer SW1. 15:46:16 [INFORMATION] -1.5dB Audyssey auto-leveling compensation needed to subwoofer SW2 volume level. 15:46:16 [INFORMATION] -1.5dB Audyssey auto-leveling compensation needed for subwoofer SW2. 15:46:16 [INFORMATION] Calculating Audyssey auto-leveling compensations and uploading optimization settings into the 'DEQ0dB' calibration file... 15:46:17 [INFORMATION] 0dB Audyssey auto-leveling compensation needed for speaker C for 'DEQ' ady. 15:46:17 [INFORMATION] -1.5dB Audyssey auto-leveling compensation needed for speaker FHL for 'DEQ' ady. 15:46:17 [INFORMATION] -1.5dB Audyssey auto-leveling compensation needed for speaker FHR for 'DEQ' ady. 15:46:17 [INFORMATION] 0dB Audyssey auto-leveling compensation needed for speaker FL for 'DEQ' ady. 15:46:17 [INFORMATION] 0dB Audyssey auto-leveling compensation needed for speaker FR for 'DEQ' ady. 15:46:17 [INFORMATION] -1.5dB Audyssey auto-leveling compensation needed for speaker RHL for 'DEQ' ady. 15:46:17 [INFORMATION] -1.5dB Audyssey auto-leveling compensation needed for speaker RHR for 'DEQ' ady. 15:46:17 [INFORMATION] -3dB Audyssey auto-leveling compensation needed for speaker SBL for 'DEQ' ady. 15:46:18 [INFORMATION] -3dB Audyssey auto-leveling compensation needed for speaker SBR for 'DEQ' ady. 15:46:18 [INFORMATION] -3dB Audyssey auto-leveling compensation needed for speaker SLA for 'DEQ' ady. 15:46:18 [INFORMATION] -3dB Audyssey auto-leveling compensation needed for speaker SRA for 'DEQ' ady. 15:46:18 [INFORMATION] -6dB Audyssey auto-leveling compensation needed for subwoofer SW1 for 'DEQ' ady. 15:46:18 [INFORMATION] -6dB Audyssey auto-leveling compensation needed for subwoofer SW2 for 'DEQ' ady. 15:46:18 [IMPORTANT!] 'Congratulations! A1 EVO' optimization has been completed with SUCCESS in 273.612 seconds. 15:46:18 [INFORMATION] ************************************************************************************************************************ 15:46:18 [IMPORTANT!] When prompted, save both .ady files to your PC and transfer them to your MultEQ Editor app. 15:46:18 [IMPORTANT!] Next, transfer either ady file 'as is' from MultEQ Editor app to your AV receiver as you do after a calibration. 15:46:18 [WARNING!] The calibration file with '_DEQ0dB.ady' extension is ONLY for LOW VOLUME LISTENING, please use the 'master' file otherwise. 15:46:18 [IMPORTANT!] Do not turn Dynamic EQ on with the normal calibration file, use a different target curve if you need more bass and highs. 15:46:18 [INFORMATION] If your receiver has 2 different presets, you can transfer both ady files and switch between them as you need. 15:46:18 [INFORMATION] The Editor app graphs will no longer represent before/after speaker responses due to the special filtering technique implemented. 15:46:18 [IMPORTANT!] You can save this complete log to your computer with mouse right click and selecting 'Save as'. 15:46:18 [INFORMATION] Check YT video comments for information on most issues and solutions:https://www.youtube.com/watch?v=lmZ5yV1-wMI 15:46:18 [INFORMATION] ***************************************************************************************************************************** 15:46:18 [IMPORTANT!] Enjoy your 'A1 EVO'lved sound!2.3x (letzte Version)
Code
Alles anzeigen15:47:16 [IMPORTANT!] Initialising A1 Evo v2.3x... 15:47:16 [INFORMATION] Audyssey calibration '17.4.24 Medium-Original-8 Platz .ady' has been uploaded! 15:47:17 [INFORMATION] Speed of sound setting has been automatically adjusted for your Denon AVC-X6700H at 300 m/s. 15:47:17 [INFORMATION] Speaker measurements have been extracted from the uploaded calibration file. 15:47:17 [IMPORTANT!] Please save Evo_TargetCurve.txt and 17.4.24 Medium-Original-8 Platz _extractedMeasurements.zip files when prompted. 15:47:17 [IMPORTANT!] Both save prompts can be cancelled if the original Audyssey measurements and a target curve are already loaded in REW! 15:47:17 [WARNING!] 'Allow' multiple file downloads when prompted to prevent the browser from blocking saving calibrated files at the end of the optimization. 15:49:20 [IMPORTANT!] All 96 measurements have now been successfully imported! 15:49:28 [IMPORTANT!] Active custom target curve: D:\Downloads\Evo_TargetCurve (12).txt 15:49:28 [IMPORTANT!] Optimization started... 15:49:28 [WARNING!] Please keep REW on 'SPL & Phase' tab, close any child windows and stay on this web page until optimization is completed! 15:49:37 [IMPORTANT!] 'Standard bass' mode with 2 subwoofers detected. 15:49:37 [INFORMATION] Transposing measurements from <8> different microphone positions to the primary listening location (1st mic position)... 15:49:37 [INFORMATION] This will take a while but ensure 'direct sound' is prioritized for every measurement impulse. 15:49:37 [INFORMATION] Computing optimal spatial averaging configuration for speaker #1... 15:49:38 [INFORMATION] Computing optimal spatial averaging configuration for speaker #2... 15:49:39 [INFORMATION] Computing optimal spatial averaging configuration for speaker #3... 15:49:40 [INFORMATION] Computing optimal spatial averaging configuration for speaker #4... 15:49:41 [INFORMATION] Computing optimal spatial averaging configuration for speaker #5... 15:49:41 [INFORMATION] Computing optimal spatial averaging configuration for speaker #6... 15:49:42 [INFORMATION] Computing optimal spatial averaging configuration for speaker #7... 15:49:42 [INFORMATION] Computing optimal spatial averaging configuration for speaker #8... 15:49:43 [INFORMATION] Computing optimal spatial averaging configuration for speaker #9... 15:49:44 [INFORMATION] Computing optimal spatial averaging configuration for speaker #10... 15:49:44 [INFORMATION] Computing optimal spatial averaging configuration for speaker #11... 15:49:45 [INFORMATION] Computing optimal spatial averaging configuration for speaker #12... 15:49:54 [INFORMATION] Deleting processed measurements... 15:50:09 [INFORMATION] Removing imported impulse volume offsets... 15:50:09 [INFORMATION] Executing precision temporal alignment across the speaker array for optimal coherence... 15:50:36 [INFORMATION] Proprietary 'filtered excess phase' based impulse alignment optimization is complete! 15:50:36 [INFORMATION] Speaker Co distance has been set to 2.91 meters. 15:50:36 [INFORMATION] Available bass system volume adjustment range → { -11dB : 12dB } 15:50:36 [INFORMATION] Bass system delay headroom available after maxing out all tweaks → 35.4252743178898ms { -44.52093401974681ms : -9.095659701857013ms } 15:50:36 [INFORMATION] Aligning each speaker's volume to precisely 75dB (Audyssey measurement level at source) at the listening position... 15:50:36 [IMPORTANT!] C - measured average volume: 80.48dB, applied adjustment: -5.5dB 15:50:36 [IMPORTANT!] FHL - measured average volume: 81.24dB, applied adjustment: -6dB 15:50:36 [IMPORTANT!] FHR - measured average volume: 80.7dB, applied adjustment: -5.5dB 15:50:36 [IMPORTANT!] FL - measured average volume: 76.33dB, applied adjustment: -1.5dB 15:50:36 [IMPORTANT!] FR - measured average volume: 76.82dB, applied adjustment: -2dB 15:50:36 [IMPORTANT!] RHL - measured average volume: 83.25dB, applied adjustment: -8dB 15:50:36 [IMPORTANT!] RHR - measured average volume: 83.59dB, applied adjustment: -8.5dB 15:50:36 [IMPORTANT!] SBL - measured average volume: 78.9dB, applied adjustment: -4dB 15:50:36 [IMPORTANT!] SBR - measured average volume: 78.22dB, applied adjustment: -3dB 15:50:36 [IMPORTANT!] SLA - measured average volume: 78.81dB, applied adjustment: -4dB 15:50:36 [IMPORTANT!] SRA - measured average volume: 78.57dB, applied adjustment: -3.5dB 15:50:36 [INFORMATION] Aligning subwoofer volume to best track the target curve between 30Hz - 80Hz (Dolby standard)... 15:50:36 [IMPORTANT!] Required subwoofer volume adjustment : 1dB, deviation from target curve: 0.03% 15:50:51 [IMPORTANT!] Observed crossover frequencies based on steady state 12dB/octave Butterworth highpass filter (receiver spec) roll off slopes: 15:50:51 [INFORMATION] Speaker C: 40Hz 15:50:51 [INFORMATION] Speaker FHL: 110Hz 15:50:51 [INFORMATION] Speaker FHR: 110Hz 15:50:51 [INFORMATION] Speaker FL: 'Large/Full range' 15:50:51 [INFORMATION] Speaker FR: 'Large/Full range' 15:50:51 [INFORMATION] Speaker RHL: 120Hz 15:50:51 [INFORMATION] Speaker RHR: 120Hz 15:50:51 [INFORMATION] Speaker SBL: 90Hz 15:50:51 [INFORMATION] Speaker SBR: 90Hz 15:50:51 [INFORMATION] Speaker SLA: 80Hz 15:50:51 [INFORMATION] Speaker SRA: 80Hz 15:50:52 [INFORMATION] Subwoofer(s) Linkwitz-Riley 24dB/oct lowpass filter (receiver spec) roll off frequency: 250Hz 15:50:57 [INFORMATION] Generating proprietary room correction filters based on Hilbert transforms of the impulse responses... 15:51:29 [INFORMATION] Speakers 'FL & FR' measured bass roll off frequency at LP (includes boundary gain): 'Large/Full range' 15:51:29 [INFORMATION] Analyzing other crossover frequency options... 15:51:30 [INFORMATION] Commencing 'iterative' impulse alignment frequency vs expected SPL analysis. Please sit tight... 15:51:50 [INFORMATION] XO: 40Hz; Calculated excess phase: 119.04014220518353° 15:51:52 [INFORMATION] Commencing 'iterative' impulse alignment frequency vs expected SPL analysis. Please sit tight... 15:52:10 [INFORMATION] Below configuration will require subwoofer(s) polarity inversion: 15:52:12 [INFORMATION] XO: 60Hz; Calculated excess phase: 32.4666555058347° 15:52:14 [INFORMATION] Commencing 'iterative' impulse alignment frequency vs expected SPL analysis. Please sit tight... 15:52:33 [INFORMATION] XO: 80Hz; Calculated excess phase: 110.86946161646043° 15:52:35 [INFORMATION] Commencing 'iterative' impulse alignment frequency vs expected SPL analysis. Please sit tight... 15:52:54 [INFORMATION] XO: 90Hz; Calculated excess phase: 103.72659296188911° 15:52:54 [INFORMATION] Search completed. 15:52:54 [IMPORTANT!] Finalizing subwoofer time alignment with 'FL & FR' at the selected crossover frequency {60Hz}... 15:52:54 [INFORMATION] Calculating subwoofer system delay for optimal match with the front mains... 15:52:54 [INFORMATION] Available subwoofer delay range → { -44.52093401974681ms : -9.095659701857013ms } 15:52:56 [INFORMATION] Commencing 'iterative' impulse alignment frequency vs expected SPL analysis. Please sit tight... 15:53:14 [INFORMATION] Required 'Impulse' alignment delay of -34.18ms is within limits, expected bass region excess phase: 66.48589209657516° 15:53:14 [INFORMATION] Polarity inversion required? 'true' 15:53:15 [INFORMATION] Commencing 'iterative' phase alignment frequency vs expected SPL analysis. Please sit tight... 15:53:25 [INFORMATION] Required delay for 'Phase' alignment is too large! 15:53:25 [INFORMATION] 'Impulse' alignment selected! 15:53:26 [IMPORTANT!] Final speaker distances: 15:53:26 [IMPORTANT!] C: 2.91 meters 15:53:26 [IMPORTANT!] FHL: 2.18 meters 15:53:26 [IMPORTANT!] FHR: 2.23 meters 15:53:26 [IMPORTANT!] FL: 3.13 meters 15:53:26 [IMPORTANT!] FR: 3.13 meters 15:53:26 [IMPORTANT!] RHL: 1.84 meters 15:53:26 [IMPORTANT!] RHR: 1.86 meters 15:53:26 [IMPORTANT!] SBL: 1.75 meters 15:53:26 [IMPORTANT!] SBR: 1.79 meters 15:53:26 [IMPORTANT!] SLA: 2.01 meters 15:53:26 [IMPORTANT!] SRA: 2.10 meters 15:53:26 [WARNING!] SW1: 0.23 meters, please SWITCH this subwoofer's POLARITY! 15:53:26 [WARNING!] You will need to switch polarity of EACH of your 2 subwoofers! 15:53:26 [IMPORTANT!] Reminder: DO NOT FORGET to physically switch the polarity of subwoofer(s) as instructed above. 15:53:26 [IMPORTANT!] If your sub(s) don't have a physical or app controlled phase/polarity switch, you can change polarity of your front main speakers. 15:53:26 [IMPORTANT!] You DO NOT need to repeat Audyssey measurements after subwoofer inversion(s), optimization calculations already account for that. 15:53:27 [INFORMATION] Your bass system is expected to measure flat down to {13.92 ± 0.18} Hz! 15:53:27 [INFORMATION] Optimizing crossover frequencies for the remaining speakers... 15:53:34 [IMPORTANT!] Speaker: 'C' 15:53:34 [INFORMATION] Measured bass roll off frequency at the LP (includes room gain): 40Hz 15:53:34 [INFORMATION] Comparing other crossover frequency options for highest clarity... 15:53:38 [INFORMATION] XO: 40Hz; Calculated excess phase: 93.81949904452276° 15:53:40 [INFORMATION] XO: 60Hz; Calculated excess phase: 83.38896349485773° 15:53:43 [INFORMATION] XO: 80Hz; Calculated excess phase: 79.43229830700116° 15:53:45 [INFORMATION] XO: 90Hz; Calculated excess phase: 77.98592612908705° 15:53:46 [IMPORTANT!] Selected crossover frequency: 90Hz. 15:53:46 [INFORMATION] ______________________________________________________________________________________________ 15:53:46 [IMPORTANT!] Speaker pair: 'FHL & FHR' 15:53:46 [INFORMATION] Measured bass roll off frequency at the LP (includes room gain): 110Hz 15:53:46 [INFORMATION] Comparing other crossover frequency options for highest clarity... 15:53:49 [INFORMATION] XO: 80Hz; Calculated excess phase: 64.57639778496521° 15:53:51 [INFORMATION] XO: 90Hz; Calculated excess phase: 66.4073116727119° 15:53:54 [INFORMATION] XO: 100Hz; Calculated excess phase: 67.6533173905672° 15:53:57 [INFORMATION] XO: 110Hz; Calculated excess phase: 68.67461888633505° 15:53:59 [INFORMATION] XO: 120Hz; Calculated excess phase: 69.50223025527313° 15:54:00 [IMPORTANT!] Selected crossover frequency: 80Hz. 15:54:00 [INFORMATION] ______________________________________________________________________________________________ 15:54:00 [IMPORTANT!] Speaker pair: 'RHL & RHR' 15:54:00 [INFORMATION] Measured bass roll off frequency at the LP (includes room gain): 120Hz 15:54:00 [INFORMATION] Comparing other crossover frequency options for highest clarity... 15:54:03 [INFORMATION] XO: 80Hz; Calculated excess phase: 61.907330048562834° 15:54:05 [INFORMATION] XO: 90Hz; Calculated excess phase: 64.33350194849237° 15:54:08 [INFORMATION] XO: 100Hz; Calculated excess phase: 66.7764099821122° 15:54:11 [INFORMATION] XO: 110Hz; Calculated excess phase: 69.07459662307095° 15:54:14 [INFORMATION] XO: 120Hz; Calculated excess phase: 71.35083039659654° 15:54:16 [INFORMATION] XO: 150Hz; Calculated excess phase: 73.78971688068697° 15:54:17 [IMPORTANT!] Selected crossover frequency: 80Hz. 15:54:17 [INFORMATION] ______________________________________________________________________________________________ 15:54:17 [IMPORTANT!] Speaker pair: 'SBL & SBR' 15:54:17 [INFORMATION] Measured bass roll off frequency at the LP (includes room gain): 90Hz 15:54:17 [INFORMATION] Comparing other crossover frequency options for highest clarity... 15:54:19 [INFORMATION] XO: 60Hz; Calculated excess phase: 55.647031685731704° 15:54:22 [INFORMATION] XO: 80Hz; Calculated excess phase: 46.765532389228795° 15:54:25 [INFORMATION] XO: 90Hz; Calculated excess phase: 48.58978376434232° 15:54:27 [INFORMATION] XO: 100Hz; Calculated excess phase: 58.1174746181843° 15:54:30 [INFORMATION] XO: 110Hz; Calculated excess phase: 62.8283782844656° 15:54:31 [IMPORTANT!] Selected crossover frequency: 80Hz. 15:54:31 [INFORMATION] ______________________________________________________________________________________________ 15:54:31 [IMPORTANT!] Speaker pair: 'SLA & SRA' 15:54:31 [INFORMATION] Measured bass roll off frequency at the LP (includes room gain): 80Hz 15:54:31 [INFORMATION] Comparing other crossover frequency options for highest clarity... 15:54:34 [INFORMATION] XO: 60Hz; Calculated excess phase: 58.80609866041337° 15:54:37 [INFORMATION] XO: 80Hz; Calculated excess phase: 59.646575336908775° 15:54:40 [INFORMATION] XO: 90Hz; Calculated excess phase: 61.75067353509638° 15:54:43 [INFORMATION] XO: 100Hz; Calculated excess phase: 63.219119470593704° 15:54:44 [IMPORTANT!] Selected crossover frequency: 60Hz. 15:54:44 [INFORMATION] ______________________________________________________________________________________________ 15:54:44 [INFORMATION] Evo iterates through a preset range of frequencies for each observed frequency but the search range can be customized. 15:54:44 [INFORMATION] You can customize the frequency map 'freqMap' in the script if you so wish e.g., to avoid bass localization. 15:54:48 [INFORMATION] Generating expected final outputs for each channel... 15:55:10 [INFORMATION] Calculating Audyssey auto-leveling compensations and uploading optimization settings into the 'master' calibration file... 15:55:11 [INFORMATION] 0dB Audyssey auto-leveling compensation needed for speaker C. 15:55:11 [INFORMATION] 0dB Audyssey auto-leveling compensation needed for speaker FHL. 15:55:11 [INFORMATION] 0dB Audyssey auto-leveling compensation needed for speaker FHR. 15:55:11 [INFORMATION] 0dB Audyssey auto-leveling compensation needed for speaker FL. 15:55:11 [INFORMATION] 0dB Audyssey auto-leveling compensation needed for speaker FR. 15:55:11 [INFORMATION] 0dB Audyssey auto-leveling compensation needed for speaker RHL. 15:55:11 [INFORMATION] 0dB Audyssey auto-leveling compensation needed for speaker RHR. 15:55:11 [INFORMATION] 0dB Audyssey auto-leveling compensation needed for speaker SBL. 15:55:11 [INFORMATION] 0dB Audyssey auto-leveling compensation needed for speaker SBR. 15:55:11 [INFORMATION] 0dB Audyssey auto-leveling compensation needed for speaker SLA. 15:55:11 [INFORMATION] 0dB Audyssey auto-leveling compensation needed for speaker SRA. 15:55:12 [INFORMATION] -1.5dB Audyssey auto-leveling compensation needed to subwoofer SW1 volume level. 15:55:12 [INFORMATION] -1.5dB Audyssey auto-leveling compensation needed for subwoofer SW1. 15:55:12 [INFORMATION] -1.5dB Audyssey auto-leveling compensation needed to subwoofer SW2 volume level. 15:55:12 [INFORMATION] -1.5dB Audyssey auto-leveling compensation needed for subwoofer SW2. 15:55:12 [INFORMATION] Calculating Audyssey auto-leveling compensations and uploading optimization settings into the 'DEQ0dB' calibration file... 15:55:12 [INFORMATION] 0dB Audyssey auto-leveling compensation needed for speaker C for 'DEQ' ady. 15:55:12 [INFORMATION] -1.5dB Audyssey auto-leveling compensation needed for speaker FHL for 'DEQ' ady. 15:55:12 [INFORMATION] -1.5dB Audyssey auto-leveling compensation needed for speaker FHR for 'DEQ' ady. 15:55:12 [INFORMATION] 0dB Audyssey auto-leveling compensation needed for speaker FL for 'DEQ' ady. 15:55:12 [INFORMATION] 0dB Audyssey auto-leveling compensation needed for speaker FR for 'DEQ' ady. 15:55:12 [INFORMATION] -1.5dB Audyssey auto-leveling compensation needed for speaker RHL for 'DEQ' ady. 15:55:12 [INFORMATION] -1.5dB Audyssey auto-leveling compensation needed for speaker RHR for 'DEQ' ady. 15:55:13 [INFORMATION] -3dB Audyssey auto-leveling compensation needed for speaker SBL for 'DEQ' ady. 15:55:13 [INFORMATION] -3dB Audyssey auto-leveling compensation needed for speaker SBR for 'DEQ' ady. 15:55:13 [INFORMATION] -3dB Audyssey auto-leveling compensation needed for speaker SLA for 'DEQ' ady. 15:55:13 [INFORMATION] -3dB Audyssey auto-leveling compensation needed for speaker SRA for 'DEQ' ady. 15:55:13 [INFORMATION] -6dB Audyssey auto-leveling compensation needed for subwoofer SW1 for 'DEQ' ady. 15:55:13 [INFORMATION] -6dB Audyssey auto-leveling compensation needed for subwoofer SW2 for 'DEQ' ady. 15:55:13 [IMPORTANT!] Congratulations! 'A1 EVO' optimization completed successfully in 5 minutes and 45 seconds on Jun 26, 2024, 03:55 PM. 15:55:13 [INFORMATION] ************************************************************************************************************************ 15:55:13 [IMPORTANT!] When prompted, save both .ady files to your PC and transfer them to your MultEQ Editor app. 15:55:13 [IMPORTANT!] Next, transfer either ady file 'as is' from MultEQ Editor app to your AV receiver as you do after a calibration. 15:55:13 [WARNING!] The calibration file with '_DEQ0dB.ady' extension is ONLY for LOW VOLUME LISTENING, use the 'master' calibration file at all other times. 15:55:13 [IMPORTANT!] Do not turn Dynamic EQ on with the normal calibration file, use a different target curve if you need more bass and highs. 15:55:13 [INFORMATION] If your receiver has 2 different presets, you can transfer both ady files and switch between them as you need. 15:55:13 [INFORMATION] The Editor app graphs will no longer represent before/after speaker responses due to the special filtering technique implemented. 15:55:13 [IMPORTANT!] You can save this complete log to your computer with mouse right click and selecting 'Save as'. 15:55:13 [INFORMATION] Check YT video comments for information on most issues and solutions:https://www.youtube.com/watch?v=lmZ5yV1-wMI 15:55:13 [INFORMATION] ***************************************************************************************************************************** 15:55:13 [IMPORTANT!] Enjoy your 'A1 EVO'lved sound! -
Sehr guter Basstest 20-60 Hz
Nicht direkt zu laut machen!
Externer Inhalt open.spotify.comInhalte von externen Seiten werden ohne Ihre Zustimmung nicht automatisch geladen und angezeigt.Durch die Aktivierung der externen Inhalte erklären Sie sich damit einverstanden, dass personenbezogene Daten an Drittplattformen übermittelt werden. Mehr Informationen dazu haben wir in unserer Datenschutzerklärung zur Verfügung gestellt.
Jetzt mitmachen!
Sie haben noch kein Benutzerkonto auf unserer Seite? Registrieren Sie sich kostenlos und nehmen Sie an unserer Community teil!
