Instrukcja obsługi Electro-Voice EVF/EVH EVH-1152D

Instrukcja obsługi dla urządzenia Electro-Voice EVF/EVH EVH-1152D

Urządzenie: Electro-Voice EVF/EVH EVH-1152D
Kategoria: Glosnik
Producent: Electro-Voice
Rozmiar: 6.47 MB
Data dodania: 8/18/2014
Liczba stron: 56
Drukuj instrukcję

Pobierz

Jak korzystać?

Naszym celem jest zapewnienie Ci jak najszybszego dostępu do treści zawartych w instrukcji obsługi urządzenia Electro-Voice EVF/EVH EVH-1152D. Korzystając z podglądu online możesz szybko przejrzeć spis treści i przejść do strony, na której znajdziesz rozwiązanie swojego problemu z Electro-Voice EVF/EVH EVH-1152D.

Dla Twojej wygody

Jeżeli przeglądanie instrukcji Electro-Voice EVF/EVH EVH-1152D bezpośrednio na tej stornie nie jest dla Ciebie wygodne, możesz skorzystać z dwóch możliwych rozwiązań:

  • Przeglądanie pełnoekranowe - Aby wygodnie przeglądać instrukcję (bez pobierania jej na komputer) możesz wykorzystać tryp przeglądania pełnoekranowego. Aby uruchomić przeglądanie instrukcji Electro-Voice EVF/EVH EVH-1152D na pełnym ekranie, użyj przycisku Pełny ekran.
  • Pobranie na komputer - Możesz również pobrać instrukcję Electro-Voice EVF/EVH EVH-1152D na swój komputer i zachować ją w swoich zbiorach. Jeżeli nie chcesz jednak marnować miejsca na swoim urządzeniu, zawsze możesz pobrać ją w przyszłości z ManualsBase.
Electro-Voice EVF/EVH EVH-1152D Instrukcja obsługi - Online PDF
Advertisement
« Page 1 of 56 »
Advertisement
Wersja drukowana

Wiele osób woli czytać dokumenty nie na ekranie, lecz w wersji drukowanej. Opcja wydruku instrukcji również została przewidziana i możesz z niej skorzystać klikając w link znajdujący się powyżej - Drukuj instrukcję. Nie musisz drukować całej instrukcji Electro-Voice EVF/EVH EVH-1152D a jedynie wybrane strony. Szanuj papier.

Streszczenia

Poniżej znajdziesz zajawki treści znajdujących się na kolejnych stronach instrukcji do Electro-Voice EVF/EVH EVH-1152D. Jeżeli chcesz szybko przejrzeć zawartość stron znajdujących się na kolejnych strinach instrukcji, możesz z nich skorzystać.

Streszczenia treści
Streszczenie treści zawartej na stronie nr. 1

EVF/EVH
User Manual
EVF-1121S
EVF-1151S
EVF-1181S
EVF-2121S
EVF-2151D
EVF-1122S (All Patterns)
EVF-1122D (All Patterns)
EVF-1152S (All Patterns)
EVF-1152D (All Patterns)
EVH-1152S (All Patterns)
EVH-1152D (All Patterns)
Electro-Voice EVF/EVH User Manual

Streszczenie treści zawartej na stronie nr. 2

Table of Contents Rigging-Safety Warning ...........................................................................................................................................................................................3 1.0 Introduction ........................................................................................................................................................................................................4 1.1 Finishes and Colors Available .............

Streszczenie treści zawartej na stronie nr. 3

Table of Contents (cont’) 6.5 HRK Rigging Structural Ratings for Horizontal Clusters ...................................................................................................... 46 6.51 Using Tie Plates as Main Load-Bearing Suspension ............................................................................................47 6.52 Suspension-Line Angles for HRK Kits ...............................................................................................................

Streszczenie treści zawartej na stronie nr. 4

1.0 Introduction The Electro-Voice EVF series is a group of compact two-way front-loaded full-range systems, available with 12- or 15-inch woofers, augmented by low-frequency and subwoofer systems. EVF full-range sys- tems are available in two versions. The “S” versions employ 400-watt SMX low-frequency transducers and the ND2B medium-format, 1.4-inch exit/2-inch diaphragm compression driver. The “D” versions em- ploy 500-watt DVX-A low-frequency transducers and the DH7N large-format, 1.4-inc

Streszczenie treści zawartej na stronie nr. 5

1.0 Introduction (cont’) Model Name EVF-1122S/96 (example) (As Shown) Model Name EVF - 1 12 2 S / 96 (Separated) Loudspeaker Number of Woofer Number of Woofer Coverage Description Family/Series Woofers Diameter Band Passes Series Used Pattern (EVF Series) (1 Woofer) (12-inch) (Two-Way) (SMX Series) (90° x 60°) Table 1b: Model number scheme, showing the meaning of each individual model number Typical EVF and EVH systems are shown in Figure 1, with key dimensions, suspension points, weights and

Streszczenie treści zawartej na stronie nr. 6

1.0 Introduction (cont’) System Weight - 57.7 lb (26.2 kg) End View Front View Side View Rear View Figure 1c: Key dimensions, suspension points, weight, and center-of-gravity for EVF-1121S System Weight - 62.6 lb (28.4 kg) End View Front View Side View Rear View Figure 1d: Key dimensions, suspension points, weight, and center-of-gravity for EVF-1151S System Weight - 101.2 lb (46.0 kg) End View Front View Side View Rear View Figure 1e: Key dimensions, suspension points, weight, and center-of-gra

Streszczenie treści zawartej na stronie nr. 7

1.0 Introduction (cont’) System Weight - 82.4 lb (37.4 kg) End View Front View Side View Rear View Figure 1f: Key dimensions, suspension points, weight, and center-of-gravity for EVF-2121S System Weight - 117.0 lb (53.1 kg) End View Front View Side View Rear View Figure 1g: Key dimensions, suspension points, weight, and center-of-gravity for EVF-2151D “S” System Weight - “D” System Weight - 143.0 lb (64.9 kg) 145.5 lb (66.1 kg) End View Front View Side View Rear View Figure 1h: Key dimensions,

Streszczenie treści zawartej na stronie nr. 8

1.0 Introduction (cont’) Washer (x4) Eyebolt (x4) Figure 1g: Key dimensions for washers and eyebolts included with each loudspeaker End View Side View Rear View Figure 1h: Key suspension point dimensions for EVF or EVH loudspeakers as indicated in table below Dimension: A B C D E° EVF 12-inch 4.176” [106.07mm] 14.301” [363.24mm] N/A 16.129” [409.67mm] 15° EVF 15-inch 4.176” [106.07mm] 14.301” [363.24mm] N/A 18.353” [466.16mm] 15° EVF Subs 3.957” [100.50mm] 13.889” [352.77mm] 23.857” [605.97mm]

Streszczenie treści zawartej na stronie nr. 9

1.0 Introduction (cont’) 1.1 Finishes and Colors Available The standard EVF/EVH indoor versions are finished in tough EVCoat™. In addition, all models are available in two levels of weather resistance, indicated by letters following the coverage-pattern numbers. The FG versions, e.g., EVF-1152S/64-FGB, are designed for full weather exposure and feature a fiberglass-fin- ished enclosure, stainless-steel hydrophobic grille and the CDG dual-gland-nut input-panel cover. The PI versions, e.g., EV

Streszczenie treści zawartej na stronie nr. 10

1.0 Introduction (cont’) 1.4 Accessories for EVF and EVH Systems Note that some accessories are supplied with certain system versions, as noted. CDG: optional dual-gland-nut input-panel cover to protect the input connections from water. Note that this cover is supplied with the weather-resistant versions. CSG: optional single-gland-nut input-panel cover to protect the input connections from water. ® CDNL4: optional input-panel cover equipped with dual Neutrik Speakon NL4M connectors, providing

Streszczenie treści zawartej na stronie nr. 11

3.0 Designing an EVF/EVH Cluster 3.1 General Aiming and Placement Guidelines Loudspeakers should be “pointed at the people” and away from reflective room surfaces. Since people are excellent absorbers of sound and room surfaces are often not, this practice insures not only that the audience will receive the high frequencies necessary for good voice intelligibility and musical clarity but also that the reflective surfaces do not energize the room with intelligibility-robbing reverberation. Lo

Streszczenie treści zawartej na stronie nr. 12

3.0 Designing an EVF/EVH Cluster (cont’) 3.3 More on Coverage Patterns, Multiple Coverage Patterns, the Need for Clusters of Loud- speakers and How Far a Single Cluster Can “Reach” into a Venue The coverage patterns or angles mentioned previously are defined where loudspeaker output is 6 dB down from maximum, usually on-axis level. In order to help cover only the absorptive audience with sound, given different trim heights and the wide variety of venue shapes, the EVF and EVH series are offer

Streszczenie treści zawartej na stronie nr. 13

3.0 Designing an EVF/EVH Cluster (cont’) Figure 2: Typical “reach” of a single loudspeaker into a venue (D ) in order to maintain I the desired ±3 dB coverage is about two times the distance to the closest seats (D ) S Adding a long-throw device will typically extend this reach to about three times the closest distance. See Figure 3. Figure 3: Adding a long-throw device extends the reach to about three times the distance to the closest seat For reaches beyond this, loudspeakers can be su

Streszczenie treści zawartej na stronie nr. 14

3.0 Designing an EVF/EVH Cluster (cont’) 3.5 Multiple-Source Interference in Clusters Whenever two or more sources serve a single venue, some seats will receive strong signals from multiple sources. Consider two EVF-1122S/64 60° x 40° systems clustered side by side with their axes 60° apart to form a 120° x 40° cluster. If these systems maintained their rated coverage patterns into the low- frequency range, there would be essentially no interference. But the 12-inch-square waveguides used in

Streszczenie treści zawartej na stronie nr. 15

3.0 Designing an EVF/EVH Cluster (cont’) This effect is shown in the frequency-response of Figure 5. Given the dimensions of the typical compact loudspeaker systems and when they are clustered in close proximity to one another, the first several in- terference nulls occur right in the middle of the vocal range. A frequency response with these ever-more- closely spaced nulls is known as a “comb filter” response, after the visual appearance of the response. Figure 5: Typical response off the arr

Streszczenie treści zawartej na stronie nr. 16

3.0 Designing an EVF/EVH Cluster (cont’) At higher frequencies, the interference patterns become more densely packed, which essentially elimi- nates their audibility. Figure 7 shows this effect at 8,000 Hz. Figure 7: Horizontal polar response (blue center plot) of two closely clustered 60° x 40° loudspeakers aimed 60° apart, showing multiple, densely packed off-axis nulls at 8,000 Hz caused by multiple-source interference (see text for more details) 3.51 Reducing Multiple-Source Interferen

Streszczenie treści zawartej na stronie nr. 17

3.0 Designing an EVF/EVH Cluster (cont’) One clustering technique that accomplishes this separation without putting a physical space between two full-range systems is putting a low-frequency or subwoofer system between two full-range systems. Such a cluster is shown in Figure 9, assembled with the optional HRK rigging kits. HRK-2 Kit (Sold Separately) HRK-2 Kit (Sold Separately) EVF Full-Range System EVF Subwoofer Note: Loudspeakers are non-specific and EVF Full-Range shown as an example. Sy

Streszczenie treści zawartej na stronie nr. 18

3.0 Designing an EVF/EVH Cluster (cont’) Finally, another way to reduce interference is to apply signal delay of up to 8 milliseconds to one of the two systems. This requires a separate DSP (digital signal processor) drive to the delayed system. Figure 10 shows the dramatic smoothing achieved at 1,250 Hz. Note that the systems are still close together as in Figure 6. Figure 10: Horizontal polar response (blue center plot) of two closely clustered 60° x 40° loudspeakers aimed 60° apart, show

Streszczenie treści zawartej na stronie nr. 19

4.0 Preparing EVF and EVH Systems for Installation 4.1 Recommended Preflight Procedures For any installed sound system, certain checks made at the installer’s place of business can prevent ex- pensive on-site delays. A short-list follows, and sets the stage for proper cluster performance: 1. Unpack all loudspeakers in the shop. 2. Check for proper model numbers. 3. Check the overall condition of the loudspeakers. 4. Check for continuity at the loudspeaker inputs. It is a good idea, once on site

Streszczenie treści zawartej na stronie nr. 20

4.0 Preparing EVF and EVH Systems for Installation (cont’) To configure for biamp operation, remove the switch card by drawing it toward you using the central finger hole. (The switch can also be removed with the end of a flat-blade screwdriver, by placing the blade end in the switch hole and using the adjacent edge of the input panel as a fulcrum. To facilitate this operation, there is a small recess in the edge of the input panel adjacent to the hole in switch card.) Reinsert the switch c


Podobne instrukcje
# Instrukcja obsługi Kategoria Pobierz
1 Electro-Voice 2.1P Instrukcja obsługi Glosnik 2
2 Electro-Voice Active Subwoofer SB2A Instrukcja obsługi Glosnik 19
3 Electro-Voice 405-4T Instrukcja obsługi Glosnik 2
4 Electro-Voice 89478 Instrukcja obsługi Glosnik 1
5 Electro-Voice 3-Inch High Frequency Neodymium Transducer ND6x-8 Instrukcja obsługi Glosnik 0
6 Electro-Voice 3-Inch High Frequency Neodymium Transducer ND6x-16 Instrukcja obsługi Glosnik 1
7 Electro-Voice DL10X Instrukcja obsługi Glosnik 33
8 Electro-Voice 405-8H Instrukcja obsługi Glosnik 1
9 Electro-Voice DL12X Instrukcja obsługi Glosnik 12
10 Electro-Voice DL15X Instrukcja obsługi Glosnik 23
11 Electro-Voice Dual 18" Direct-Radiating Subwoofer TX2181 Instrukcja obsługi Glosnik 11
12 Electro-Voice DL15W Instrukcja obsługi Glosnik 16
13 Electro-Voice ECS 15-1 Instrukcja obsługi Glosnik 5
14 Electro-Voice DMS-1122/85 Instrukcja obsługi Glosnik 0
15 Electro-Voice ELETRO-VOICE CPS2.4 Instrukcja obsługi Glosnik 6
16 Sony ACTIVE SUBWOOFER SA-W3800 Instrukcja obsługi Glosnik 5
17 Sony ACTIVE SUBWOOFER sa-w3000 Instrukcja obsługi Glosnik 9
18 Sony CR205 Instrukcja obsługi Glosnik 2
19 Sony CDP-C40 Instrukcja obsługi Glosnik 3
20 Sony DAV-JZ8888K Instrukcja obsługi Glosnik 14