Αγαπητοι φίλοι παίρνω το θάρρος να σας γράψω γιατί δεν έχω τεχνικές γνώσεις και χρειάζομαι λίγη βοήθεια. Έχω αποφασίσει να αγοράσω τον freya+ και να τον σεταρω με τους μονομπλοκ της shiit. Vidar ή Aegir. Τα ηχεία είναι wharfedale evo 4.4. Προκύπτουν οι εξής ερωτήσεις.
Μπορούν οι vidar να συνδεθούν με αυτά τα ηχεία ή είναι υπερβολικά πολλά τα βατ?
Μπορούν να συνδεθούν aegir για hf και vidar για lf ή είναι λάθος λόγω διαφορετικών βατ και gain?
Δύο aegir είναι αρκετοί για έναν χώρο 25 τετραγωνικών?
Ίσως είναι αστείες οι ερωτήσεις αλλά όπως είπα γνώσεις μηδέν.
Από κάτω παραθέτω τα τεχνικά χαρακτηριστικά.
Ευχαριστώ εκ των προτέρων για όποιον μπει στον κόπο.
Wharfedale evo 4.4
Vidar
Power Output:
Stereo, 8 Ohms: 100W RMS per channel
Stereo, 4 Ohms: 200W RMS per channel
Mono, 8 ohms: 400W RMS
Frequency Response: 20Hz-20Khz, -0.1db, 3Hz-500KHz, -3dB
THD: <0.01%, 20Hz-20KHz, at 100W RMS into 8 ohms
IMD: <0.01%, CCIR, at 100W RMS into 8 ohms
SNR: >115db, A-weighted, referenced to full output
Damping Factor: >100 into 8 ohms, 20-20kHz
Gain: 22 (27dB)
Input Sensitivity: AKA Rated Output (Vrms)/Rated Gain. Or, 28V/22. You do the math.
Input Impedance: 22k ohms SE, 44k ohms balanced
Crosstalk: >95dB, 20-20kHz
Inputs: L/R RCA jacks for stereo input, single XLR for mono input
Topology: Fully complementary, all-BJT, current feedback, no coupling capacitors or DC servos
Oversight: microprocessor-controlled monitoring and management of critical operational points, including DC offset, with with relay shut-down for overcurrent, thermal, and other faults
Power Supply: 600VA transformer with dual mono main rails, plus boosted, regulated supply to input, voltage gain and driver stages, plus separate, isolated and regulated rails for microprocessor management.
Power Consumption: 700W maximum
Aegir
Power Output:
Stereo, 8 Ohms: 20W RMS per channel
Stereo, 4 Ohms: 40W RMS per channel
Mono, 8 ohms: 80W RMS
Frequency Response: 20Hz-20Khz, -0.1db, 3Hz-500KHz, -3dB
THD: <0.01%, 20Hz-20KHz, at 20W RMS into 8 ohms
IMD: <0.01%, CCIR, at 20W RMS into 8 ohms
SNR: >112db, A-weighted, referenced to full output
Damping Factor: >100 into 8 ohms, 20-20kHz
Gain: 12 (22dB)
Input Sensitivity: AKA Rated Output (Vrms)/Rated Gain. Or, 14.3/12. You do the math.
Input Impedance: 22k ohms SE, 44k ohms balanced
Crosstalk: >95dB, 20-20kHz
Inputs: L/R RCA jacks for stereo input, single XLR for mono input
Topology: Fully complementary, all-BJT, current feedback, no coupling capacitors or DC servos with Continuity™ constant transconductance output stage
Oversight: microprocessor-controlled monitoring and management of critical operational points, including DC offset, with standby mode and relay shut-down for overcurrent, thermal, and other faults
Power Supply: 600VA transformer with dual mono main rails, plus boosted, regulated supply to input, voltage gain and driver stages, plus separate, isolated and regulated rails for microprocessor management.
Power Consumption: 450W maximum
Μπορούν οι vidar να συνδεθούν με αυτά τα ηχεία ή είναι υπερβολικά πολλά τα βατ?
Μπορούν να συνδεθούν aegir για hf και vidar για lf ή είναι λάθος λόγω διαφορετικών βατ και gain?
Δύο aegir είναι αρκετοί για έναν χώρο 25 τετραγωνικών?
Ίσως είναι αστείες οι ερωτήσεις αλλά όπως είπα γνώσεις μηδέν.
Από κάτω παραθέτω τα τεχνικά χαρακτηριστικά.
Ευχαριστώ εκ των προτέρων για όποιον μπει στον κόπο.
Wharfedale evo 4.4
General Description | 3-way floorstanding Speakers |
---|---|
Enclosure Type | bass reflex |
Transducer Complement | 3-way |
Bass Driver | 6.5"(165mm) black woven Kevlar® cone x 2 |
Midrange Driver | 2"(50mm) soft dome |
Treble Driver | 30*60mm AMT |
AV Shield | No |
Sensitivity (2.83V @ 1M) | 89dB |
Recommended Amplifier Power | 30-200W |
Peak SPL | 107dB |
Nominal Impedance | 8Ω Compatible |
Minimum Impedance | 4.3Ω |
Frequency Response (+/-3dB) | 44Hz ~ 22kHz |
Bass Extension (-6dB) | 38Hz |
Crossover Frequency | 1.4kHz,4.7kHz |
Vidar
Power Output:
Stereo, 8 Ohms: 100W RMS per channel
Stereo, 4 Ohms: 200W RMS per channel
Mono, 8 ohms: 400W RMS
Frequency Response: 20Hz-20Khz, -0.1db, 3Hz-500KHz, -3dB
THD: <0.01%, 20Hz-20KHz, at 100W RMS into 8 ohms
IMD: <0.01%, CCIR, at 100W RMS into 8 ohms
SNR: >115db, A-weighted, referenced to full output
Damping Factor: >100 into 8 ohms, 20-20kHz
Gain: 22 (27dB)
Input Sensitivity: AKA Rated Output (Vrms)/Rated Gain. Or, 28V/22. You do the math.
Input Impedance: 22k ohms SE, 44k ohms balanced
Crosstalk: >95dB, 20-20kHz
Inputs: L/R RCA jacks for stereo input, single XLR for mono input
Topology: Fully complementary, all-BJT, current feedback, no coupling capacitors or DC servos
Oversight: microprocessor-controlled monitoring and management of critical operational points, including DC offset, with with relay shut-down for overcurrent, thermal, and other faults
Power Supply: 600VA transformer with dual mono main rails, plus boosted, regulated supply to input, voltage gain and driver stages, plus separate, isolated and regulated rails for microprocessor management.
Power Consumption: 700W maximum
Aegir
Power Output:
Stereo, 8 Ohms: 20W RMS per channel
Stereo, 4 Ohms: 40W RMS per channel
Mono, 8 ohms: 80W RMS
Frequency Response: 20Hz-20Khz, -0.1db, 3Hz-500KHz, -3dB
THD: <0.01%, 20Hz-20KHz, at 20W RMS into 8 ohms
IMD: <0.01%, CCIR, at 20W RMS into 8 ohms
SNR: >112db, A-weighted, referenced to full output
Damping Factor: >100 into 8 ohms, 20-20kHz
Gain: 12 (22dB)
Input Sensitivity: AKA Rated Output (Vrms)/Rated Gain. Or, 14.3/12. You do the math.
Input Impedance: 22k ohms SE, 44k ohms balanced
Crosstalk: >95dB, 20-20kHz
Inputs: L/R RCA jacks for stereo input, single XLR for mono input
Topology: Fully complementary, all-BJT, current feedback, no coupling capacitors or DC servos with Continuity™ constant transconductance output stage
Oversight: microprocessor-controlled monitoring and management of critical operational points, including DC offset, with standby mode and relay shut-down for overcurrent, thermal, and other faults
Power Supply: 600VA transformer with dual mono main rails, plus boosted, regulated supply to input, voltage gain and driver stages, plus separate, isolated and regulated rails for microprocessor management.
Power Consumption: 450W maximum