Waves SSL 4000 G Music Mixer User Manual

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Waves SSL 4000 G Music Mixer User Manual | Manualzz

Waves SSL 4000 Collection

SSL 4000 E-Channel SSL 4000 G-Channel

1. Introduction

The unique sound of Solid State Logic’s 4000 Series analogue mixing consoles is sought after worldwide. Engineers of pop and rock music, broadcast transmissions and television postproduction value the SSL 4000’s flexible dynamics chain as much as the trademark SSL

“punchy” sound. Waves and SSL engineers have worked together for over a year to recreate the sound characteristics of the classic SSL 4000 Series E and Series G consoles. Now, those who

“mix in the box” can achieve the sound they thought they’d lost when they moved to the digital world.

The SL4000 console was the first mixing desk to incorporate dynamics processing into every channel, as well as a master bus compressor in the console’s center section. The ability to

'patch' into the SL4000's master bus compressor and to control its sidechain from an internal sub-mix allowed sound engineers to discover unique, history-making applications of this console technology. Whether used to record instruments such as piano and drums or for final mixing, these innovative console sections - master bus compressor, EQ and dynamics - opened up a

new world of opportunities. For years, workstation users have sought this unusual flexibility and signature sound. But conventional dynamics and EQ plug-ins couldn’t produce the unique SSL color.

The Waves SSL 4000 Collection is the result of a partnership between Waves Audio and Solid

State Logic. These processors faithfully recreate the same EQ and dynamics characteristics which made legendary the SL4000 consoles. Plus, the interface accurately reflects the classic

SSL console. Couple all of this with state-of-the art Waves software and you suddenly find yourself working with the same tools that have provided countless hit mixes for the world's best audio engineers.

The Waves SSL 4000 Collection consists of three separate sections:

• The SSL E-Channel/ G-Channel

• The SSL 4000 G-Master Bus Compressor

• The SSL G-Equalizer

2. Description of the SSL 4000 E-Channel/ G-Channel plug-in

SSL E-Channel

The Waves SSL E-Channel is modeled after the SL4000 E Series console, combining the dynamics section of the SL4000 channel strip with the “Black Knob” 242 EQ. The only obvious change from the hardware original is that the EQ and Dynamics sections are side-by-side rather than inline, to better conform to computer screens.

SSL G-Channel

The Waves SSL G-Channel is modeled after the SL4000 G Series console, combining the dynamics section of the SL4000 channel strip with the 383 G EQ. The only obvious change from the hardware original is that the EQ and Dynamics sections are side-by-side rather than inline, to better conform to computer screens.

Dynamics Section

The dynamics section consists of a soft-knee compressor/limiter and an expander/gate.

Dynamics can be switched to pre-equalizer (default) or post-equalizer (CH OUT.)

Although the same gain change circuitry is used for both the compressor/limiter and the expander/gate, two dedicated level indicators illustrate activity for each device. Automatic gain make-up, calculated from the Ratio and Threshold settings, is applied by the compressor to maintain a steady output level. The default compressor attack time is program sensitive, responding to the audio material’s wavefront.

The dynamics section’s threshold circuitry uses variable hysteresis, which allows the signal to decay below its opening level. (Hysteresis is the lag between making a change in input, such as increasing or decreasing power, and the response or effect of that change. Thus, the threshold’s variable hysteresis circuitry allows for program-dependent dynamic processing.)

Equalizer Section

The equalizer is a four-band device which can be routed to the processor’s output or to the dynamics section’s sidechain. Q can be adjusted in the LMF and HMF ranges. At the top of the

section is the High Pass (18 dB/octave) filter and the Low Pass (12 dB/octave) filter. Normally, low pass and high pass filters follow the same path as the entire EQ section. However, when

SPLIT is selected, the low pass and high pass filters are placed before the dynamics processors in the chain. The equalizer can be switched into the dynamics sidechain to afford simple deessing and other frequency-controlled dynamics processing by selecting DYN S-C at the foot of the section. In the E-Channel LF and HF shelves can be reshaped to bell curves by pressing

BELL. The Q of the LF and HF bells are calculated based on frequency settings and are not user-definable. In the G-Channel Lf and HF are fixed shelfs, the LMF /3 will devide the LMF frequency by 3, and the HMFx3 will Multiply the HMF frequency by three.

SSL Channel Latency

The channel strip has a latency of one sample.

Routing in SSL Channel

3. SSL 4000 Channel Controls and Indicators

Dynamics Sections Controls (top to bottom)

1. Compressor (white knobs) a. The compressor’s Ratio/Slope can be set from 1 to infinity (limiter). c. When the Attack time switch is set to Slow (F.ATK off,) attack time is autosensing and program dependent. In the Fast setting (F.ATK,) attack time will be forced to 1 ms. d. Release time is adjustable from 0.1 sec to 4 seconds.

2. Expander/Gate (green knobs) a. The expander’s Threshold is variable from -30 dB to +10 dB c. When the Attack time switch is set to Slow (F.ATK off,) attack time is autosensing and program dependent. In the Fast setting (F.ATK,) attack time is 1 ms. gate.

does not result in a signal which is flat, but rather one which mimics the flat response of the SSL channel strip hardware.

SSL E EQ Section Controls (top to bottom)

Low pass: 18 dB/octave, 15 Hz – 350 Hz (-3 dB point)

High pass: 12 dB/octave, 3 kHz – 20 kHz (-3 dB point)

Turning the knob completely to the left bypasses the filter.

When SPLIT is selected, the low pass and high pass filters are placed before the dynamics processors in the chain.

2. High frequency EQ section (red knobs): Range 1.5 kHz – 16 kHz. Gain range is ±18 dB for bell shape, ±16.5 dB for shelving. Selecting BELL changes the HF EQ from shelf to bell shape.

3. High medium frequency EQ section (green knobs): Range 600 Hz – 7 kHz. As in the

LMF EQ section, Q is continuously adjustable from 0.1 to 3.5. Gain varies from ±18 dB when Q is set at 3.5 to ±15 dB when Q is set at 0.1.

4. Low medium frequency EQ section (blue knobs): Range 200 Hz – 2.5 kHz. Q is continuously adjustable from 0.1 to 3.5. Gain varies from ±18 dB when Q is set at 3.5 to

±15 dB when Q is set at 0.1.

5. Low frequency EQ section (black knobs): Range 30 Hz – 450 Hz. Gain range ±16.5 dB, shelving, ±18 dB, bell shape.

SSL G EQ Section Controls (top to bottom)

Low pass: 18 dB/octave, 15 Hz – 350 Hz (-3 dB point)

High pass: 12 dB/octave, 3 kHz – 20 kHz (-3 dB point)

Turning the knob completely to the left bypasses the filter.

When SPLIT is selected, the low pass and high pass filters are placed before the dynamics processors in the chain.

2. High frequency EQ section (red knobs): Range 1.5 kHz – 16 kHz. Gain range is ±17 dB shelving.

3. High medium frequency EQ section (green knobs): Range 600 Hz – 7 kHz. As in the

LMF EQ section, Q is continuously adjustable from 0.1 to 3.5. Gain varies from ±18 dB when Q is set at 3.5 to ±15 dB when Q is set at 0.1. Pushing the HMF X3 will multiply the frequency by 3.

4. Low medium frequency EQ section (blue knobs): Range 200 Hz – 2.5 kHz. Q is continuously adjustable from 0.1 to 3.5. Gain varies from ±18 dB when Q is set at 3.5 to

±15 dB when Q is set at 0.1. Pushing the LMF /3 will divide the frequency by 3.

5. Low frequency EQ section (black knobs): Range 30 Hz – 450 Hz. Gain range ±17 dB, shelving.

6. EQ TO switches does not result in a signal which is flat, but rather one which mimics the flat response of the SSL channel strip hardware. simple de-essing, etc. by selecting DYN S-C .

Master Section Controls and Indicators

On the bottom right of the SSL Channel Strip are the master gain controls and level indicator. as dBu. between input and output. plug-in is aligned so that -18 dBFS = 0. harmonic distortions than modern digital devices. This is, in part, what gives analogue processors their desired sound. By default, all components of the SSL 4000 Collection operate in a mode which enables emulation of the SSL analogue console. However, there may be times when you prefer to use this plug-in without these special attributes.

Switching off Analogue disables analogue emulation.

4. The Waves System Bar

All Waves plug-ins share a common feature, the Waves System Bar, which takes care of most administrative functions you will encounter while working with Waves plug-ins. Since the Waves

System Bar is the same on practically all Waves plug-ins, you will always know how to file, compare, load and copy the parameters of a Waves plug-in, even if you have never before worked with that particular processor.

Commands common to all Waves plug-ins:

Undo undoes the last performed action.

Redo redoes the last undone action. There are 6 levels of undo and redo.

Setup A/B toggles between two sets of parameters within the same processor – useful when comparing different parameter settings in order to achieve optimal results.

Copy A->B copies the current settings to the second setup register.

Save used for saving presets in the Waves file format (.xps)

There are two options for saving:

Save to new file: creates a new .xps file wherein multiple presets can be saved.

Save into preset menu: saves the preset into the default list of the plug-in.

Load allows recalling presets from files.

Once a file is selected, its first preset will load and become active. Other presets in the file will be listed under the preset’s name in the Load menu.

You can also load factory presets and user presets (saved using “Save into preset

menu.)

Pressing the

?

button will open the manual for the plug-in you are using.

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