Orban 536A Effect Processor
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Modello:
536A
Data:
1993
Categoria:
Gruppo:
Descrizione:
De-Esser
Informazioni
The Orban 536A Dynamic Sibilance Controller has been
designed as a universal de-esser for the recording,
broadcast, and motion picture industries. It offers
electrical specifications consistent with other
state-of-the-art audio signal processing equipment,
extremely simple setup and operation, and dynamic
characteristics which have been optimized for sibilance
control. The 536A incorporates a circuit which forces the
threshold of de-essing to track the average input level,
permitting constant amounts of de-essing and audibly
consistent results over an input level range of
approximately 15dB.
De-essers have existed for years, usually as
frequency-dependent sidechains in limiters or compressors.
However, a compressor used as a de-esser cannot function
optimally if one attempts to compress and de-ess with the
same device, since optimum compression ratios, attack times,
and release times are quite different for the two modes of
operation. In addition, such devices are often
insufficiently adjustable, and often contain simple filters
whose selectivity cannot provide enough differentiation
between sibilance frequencies and the lower frequencies
where most of the voice energy is concentrated. Further,
these devices cannot simultaneously de-ess voice and
maintain natural dynamic range because their thresholds are
fixed.
A specialized de-esser is therefore necessary to perform
sibilance control only. It is ordinarily the last piece of
processing hardware in a chain which may include both an
Equalizer and a compressor or limiter. Both devices will
tend to increase sibilance with reference to the energy of
the lower-frequency vocal components; the de-esser then
reduces sibilance levels until they are once again
natural-sounding and do not cause overload in recording
media employing high frequency preemphasis.
Many voices, especially female, produce relatively high
levels of sibilant energy. This can be exaggerated by close
miking techniques (especially condenser mics), and by audio
processing. Such exaggerated sibilance is not only annoying
aesthetically, but also can cause saturation of slow-speed
tape recordings (such as cassette), resulting in severe IM
distortion on sibilance. Similar problems can occur in
optical film recording. In disk recording, untrackably high
velocities can be produced.
The 536A controls the level of the sibilance to make it
sound aesthetically natural and to avoid overload problems.
When not de-essing, it acts like a high-quality Amplifier.
How It Works: When the level in the sibilance band (around
6kHz) attempts to exceed a certain fraction of the peak
input level (determined by the THRESHOLD control), the
channel gain is automatically reduced to hold the output at
this threshold level. This gain reduction occurs only during
sibilance. After each sibilant, the gain recovers so quickly
that subsequent vocal sounds are audibly unaffected. Because
the entire channel gain is reduced (as opposed to de-essers
which operate as program-controlled filters), any residual
IM distortion which accompanies the original sibilance is
reduced along with the sibilance itself.
Because the de-essing threshold automatically tracks the
input level, the de-esser forces the balance between the
sibilance and "voiced" speech to remain consistent over an
input level range of more than 15dB. Thus recordings whose
natural dynamic range has been preserved can be effectively
de-essed.
Tipo di manuale:
Servizio e manuale utente
Pagine:
37
Dimensione:
2.60 Mbytes (2728302 Bytes)
Lingua:
english
Revisione:
ID del manuale:
95034-000-05
Data:
1993 01 01
Qualità:
Documento scansionato, tutto leggibile.
Data caricamento:
2017 10 25
MD5:
4f00f4b4a0ec2b83a40ba5c58c1ac100
Scaricamenti:
524
Informazioni
1 Registration Card
1 Warranty
1 Performance Highlights
2 Part A: Introduction
2 Introduction
2 How It Works
2 Limitations
2 Use Your Ears
2 Front Panel Description
2 Rear Panel Description
3 Part B: Installation
3 Equipment Location
3 Installation Of Options
3 Electrical Installation
3 AC Power
4 AUDIO 4 Input
4 Input Gain Strapping
5 Output
5 Preferred Wiring
6 General Input/Output Connection Rules
7 If You've Followed The Rules And It Still Hums...
8 Wiring the 536A With Single-Conductor Shielded Cable
9 Part C: Operating Instructions
9 Applicability And Limitations
9 Location in The System
9 Adjustment Of The Operating Controls
10 Internal Adjustment For Unusually Noisy Program Material
PAGE
11 Part D: Maintenance
11 1: Performance Test And Alignment
11 Equipment Required
11 Power Supply
11 Signal Processing Circuitry
13 2: Maintenance And Service
13 Preventive Maintenance
13 Corrective Maintenance
13 Component Replacement
13 Replacement Parts
13 Desoldering Of Components On Printed Circuit Boards
15 Troubleshooting IC Opamps
15 Factory Service
15 Shipping Instructions
16 3: Circuit Description 16 Input Buffer
16 Voltage-Controlled Attenuator
17 Control Circuit
17 Level-Tracking Circuit
18 Overload Indicator
19 Power Supply
20 Appendix A: Interconnections And Grounding
20 Driving The 536A From High Impedance Or High Level Sources
20 Grounding
22 Appendix B: Specifications
23 Parts List
29 Schematic Diagram
Assembly Drawing