Owner's Manual
Page 4
... (1th8etone4t0wcmor)k. B = 0 to 2" (0 to 7" 18cm) B WF AXIS ON OFF TW OR x2 -EN A - B = 2 to 3.5" WF (5 to 9cm) A B 3 AXIS ON OFF TW OR x2 2 A - Overview: Crossover Network Tweeter Protection Bulb (OSRAM 20W) A B A - B = 2 to 3.5" WF (5 to 9cm) A B 5 AXIS ON OFF TW x2 A - B =(9BA3t.o5 to 16" section of the x2...
... (1th8etone4t0wcmor)k. B = 0 to 2" (0 to 7" 18cm) B WF AXIS ON OFF TW OR x2 -EN A - B = 2 to 3.5" WF (5 to 9cm) A B 3 AXIS ON OFF TW OR x2 2 A - Overview: Crossover Network Tweeter Protection Bulb (OSRAM 20W) A B A - B = 2 to 3.5" WF (5 to 9cm) A B 5 AXIS ON OFF TW x2 A - B =(9BA3t.o5 to 16" section of the x2...
Owner's Manual
Page 5
... T W LEVEL adjustment may be desired. If equal performance is intended to optimize imaging for recommendations. Speaker LPoocinattsiotnosObserve for both networks. Step 4: Adjust the tweeter level for recommendations (Page 10). -EN See Advanced Settings Matrix for each network. Crossover Setup Basic ... your system. Step 3: Install the recommended Phase Link Module in each network. NOTE: Tweeter level adjustment may be required for the most common speaker locations. Proper level matching based upon listener position 2. Satisfying the tastes of different Phase Link...
... T W LEVEL adjustment may be desired. If equal performance is intended to optimize imaging for recommendations. Speaker LPoocinattsiotnosObserve for both networks. Step 4: Adjust the tweeter level for recommendations (Page 10). -EN See Advanced Settings Matrix for each network. Crossover Setup Basic ... your system. Step 3: Install the recommended Phase Link Module in each network. NOTE: Tweeter level adjustment may be required for the most common speaker locations. Proper level matching based upon listener position 2. Satisfying the tastes of different Phase Link...
Owner's Manual
Page 8
... these distances to the Advanced Settings Matrix (page 10) for recommendations. Repeat this for the tweeter. Subtract these angles and the ON & OFF Axis Definitions (page 9) to the Advanced Settings Matrix (page 10). Refer to find difference. Speaker CLPoocinnaftitsgioutnorasOtbiosnersve for Safe Usage Type F INSTALL MODULE 1 Driver side network A B INSTALL MODULE 1 A Passenger side...
... these distances to the Advanced Settings Matrix (page 10) for recommendations. Repeat this for the tweeter. Subtract these angles and the ON & OFF Axis Definitions (page 9) to the Advanced Settings Matrix (page 10). Refer to find difference. Speaker CLPoocinnaftitsgioutnorasOtbiosnersve for Safe Usage Type F INSTALL MODULE 1 Driver side network A B INSTALL MODULE 1 A Passenger side...
Owner's Manual
Page 9
B = WF & TW Distance Difference Distance to TW Distance to WF (in Inches) (in Inches) Difference of WF & TW Distance to Main Listening Position (in Inches) Example 1: 56" 54" TW WF 56"- 54"= 2" Example 2: 54" TW 56" WF 54"- 56"= 2" On & Off Axis Definitions θ < 70º ON AXIS θ < [45º]* OFF AXIS θ > 70º θ > [45º]* NOTE: * When using flush cup assembly, tweeter can swivel up to 15º. -EN WF-TW Distance Difference Calculation Main Listening Position TW WF A -
B = WF & TW Distance Difference Distance to TW Distance to WF (in Inches) (in Inches) Difference of WF & TW Distance to Main Listening Position (in Inches) Example 1: 56" 54" TW WF 56"- 54"= 2" Example 2: 54" TW 56" WF 54"- 56"= 2" On & Off Axis Definitions θ < 70º ON AXIS θ < [45º]* OFF AXIS θ > 70º θ > [45º]* NOTE: * When using flush cup assembly, tweeter can swivel up to 15º. -EN WF-TW Distance Difference Calculation Main Listening Position TW WF A -
Owner's Manual
Page 10
... to 2" (0 t o 5cm) 2 to 3.5" (5 to 9cm) WF θ< 70° TW θ < 45° WF θ > 70° or TW θ = Any Speaker Location Types Type E Type F Type A Type D Phase Link Module # TW polarity [J6 , J5] TW slope = Off-axis -12dB or -18dB compensation [J4] [J3] Presence control... [J2] Impedance compensation [J1] Tweeter level (in dB) 1 Out of phase ON ON OFF OFF 0 2 In phase ON OFF ON ON -1.5 to 0 2 to 3.5" (5 to 9cm) WF θ <...
... to 2" (0 t o 5cm) 2 to 3.5" (5 to 9cm) WF θ< 70° TW θ < 45° WF θ > 70° or TW θ = Any Speaker Location Types Type E Type F Type A Type D Phase Link Module # TW polarity [J6 , J5] TW slope = Off-axis -12dB or -18dB compensation [J4] [J3] Presence control... [J2] Impedance compensation [J1] Tweeter level (in dB) 1 Out of phase ON ON OFF OFF 0 2 In phase ON OFF ON ON -1.5 to 0 2 to 3.5" (5 to 9cm) WF θ <...
Owner's Manual
Page 12
... Type Power Handling (RMS/Peak), CEA-2031 spec Impedance Frequency Response Sensitivity Net Weight SPX-17PRO 2-Way Component 100 W/300 W 4 ohm 35 Hz-40 KHz 88 dB 4.20 kg Drivers General Speaker size Speaker Type Power Handling (RMS) Frequency Response (-10dB) Sensitivity 6.5" (17 cm) Woofer 75 W 32 - 9....50 95 cm2 0.79 mm/N 9.6 g 4.3 Tm 14.0 mm 4.0 mm 5.0 mm 6.2 mm 18 mm 0.3 - 0.7 ft3 9 - 20 L 0.4 ft3 (11.3 L), F3=84 Hz 1.75" (38 mm) Tweeter 20 W 800 - 45.000 Hz 90 dB Aluminum/ABS Aluminum CCAW 25 mm KFR Textile Ring Radiator 32.0 mm n/a n/a Perimeter Vented w/ Faraday Ring Neodymium n/a 75...
... Type Power Handling (RMS/Peak), CEA-2031 spec Impedance Frequency Response Sensitivity Net Weight SPX-17PRO 2-Way Component 100 W/300 W 4 ohm 35 Hz-40 KHz 88 dB 4.20 kg Drivers General Speaker size Speaker Type Power Handling (RMS) Frequency Response (-10dB) Sensitivity 6.5" (17 cm) Woofer 75 W 32 - 9....50 95 cm2 0.79 mm/N 9.6 g 4.3 Tm 14.0 mm 4.0 mm 5.0 mm 6.2 mm 18 mm 0.3 - 0.7 ft3 9 - 20 L 0.4 ft3 (11.3 L), F3=84 Hz 1.75" (38 mm) Tweeter 20 W 800 - 45.000 Hz 90 dB Aluminum/ABS Aluminum CCAW 25 mm KFR Textile Ring Radiator 32.0 mm n/a n/a Perimeter Vented w/ Faraday Ring Neodymium n/a 75...