Fabricant : Altec Lansing
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Nom Fichier : 4751d578-b430-4ffc-b792-86996c6514e0.pdf
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(50 Hz to 4 kHz): KEY FEATURES ★ High-Output Capability ★ Excellent Directivity Control ★ 550 Watts = 130 dB SPL ★ Enclosure Allows Refinishing ★ True Point Source DESCRIPTION Maximum Output: H.F.: L.F.: Vented bass horn type, two-way full-range loudspeaker system. (see note 1) 109 dB SPL (1W, 1 kHz to 10 kHz, re: 20 jxPa. 104 dB SPL (1W, 125 Hz to 1 kHz, re: 20 ^Pa). 50 Hz to 15 kHz (see Figure 2, note 2). (see note 3) 75 w, AES method. 150 w, continuous program. 300 w, peak power. 200 w. AES method. 400 w, continuous program. 800 w, peak power. (see note 4) 128 dB SPL, AES method. 131 dB SPL, continuous program. 134 dB SPL, peak power. 127 dB SPL, AES method. 130 dB SPL, continuous program. 133 dB SPL, peak power. The Altec Lansing 9864A is a two-way, factory assembled, vented bass Duplex® horn system. This compact system features high sensitivity, high output capability, point source alignment with excellent directivity control down to 200 Hz. The coverage at 500 Hz is 70° horizontal by 50° vertical and the systems nominal coverage is 60° horizontal by 40° vertical. The bass reflex porting extends the low frequency response to 50 Hz, or lower if multiple units are used. This unique driver utilizes the low frequency magnet structure to support both low and high frequency voice coil assemblies. This physical driver alignment creates a true point source device. The 9864A "Duplex" driver combines the Altec Lansing 515-8GHP 16 inch (40.6 cm) low frequency driver and 299 1.4 inch (3.6 cm) high frequency compression driver with a 60° by 40° constant directivity horn for smooth directivity through the crossover region. The system should be used with an electronic crossover, and the recommended cross- over frequency is 1 kHz. The 9607A plug-in equalization module can be used to provide equalization in Altec Lansing electronic crossovers. The enclosure will also accept the standard Altec Lansing passive crossover network. The enclosure is constructed from 3/4-inch (1.9 cm) thick, thoroughly braced 7-ply birch plywood lined with sound absorbent glass wool. Threaded insert mounting points are provided to conveniently attach the Altec Lansing 816VI-SK suspension kit. The system may be hung as a single unit or as part of a cluster. The enclosure is covered in a new and unique wood-grained vinyl which can be painted or stained to complement any interior. The enclosure is supplied with a removable black metal grille. The 9864A can be used individually or in arrays to create compact, high output and directivity controlled systems for use in churches, auditoriums, hotels and civic centers. E o o 00 w T- CO 25.3 in (64.3 cm) 9864A Specifications (continued) Crossover Frequency: Impedance: H.F.: L.F.: Components: Input Terminals Replacement L.F. Replacement H.F. Replacement Grille Enclosure 1 kHz recommended. 8.0 ohms minimum. 7.0 ohms minimum. 8.0 ohms nominal. 16-inch, high efficiency, duplex'" loudspeaker. Large screw terminals. R9864A-LF. 25884. Model RG9864. Vented bass horn type, built of 3A-inch (1.9 cm) birch plywood with Finish: Dimensions: Net Weight: Shipping Weight: Accessories: appropriate bracing, lined with glass wool. Includes mounting points for accessory 816VI-SK suspension kit. Architectural wood grain vinyl with black metal grille. 31.5 inch (80.0 cm) high. 25.3 inch (64.3 cm) wide. 25.5 inch (64.8 cm) deep. 124.0 lbs (56.2 kg). 132.0 lbs (59.9 kg). Altec Lansing 816VI-SK suspension kit. Altec Lansing continually strives to improve products and performance. Therefore, specifications are subject to change without notice. NOTES ON MEASUREMENT CONDITIONS 1. Pink noise signal, one Watt calculated using E2/Zmin, 3.16 meter-measurement distance referred to one meter. 2. On-axis, one Watt calculated using E2/Zmin, 3.16 meter-measurement distance referred to one meter, low frequencies corrected for anechoic chamber error. 3. This system rating patterned after the AES method for individual driver, where the test signal is pink noise with a 6 dB crest factor over the bandwidth of the system, with power calculated using the E2/Zmin, for two hours. 4. This measurement made under the same conditions as Pressure Sensitivity, but at rated power, and takes into account any power compression effects due to non-linearities in the system. 5. Distortion components invalid above 10 kHz. The distortion at any given frequency may be found by graphically taking the difference between the fundamental and harmonic, and adding the number of Decibels which the harmonic has been raised on the graph and apply the formula: % distortion = 100 x lOl