| Content |
- FAST – Fast Attack (750us), Fast Release (130ms)
- MF – Medium Attack (2.25ms), Fast Release (130ms)
- MED – Medium Attack (2.25ms), Medium Release (400ms)
- MS – Medium Attack (4ms), Slow Release (725ms)
- SLOW – Slow Attack (10ms), Slow Release (1S)
- AUTO – Medium Attack (5ms), Dual Decay Release (T1 500ms, T2 1s)The LINK switch allows the compressor to be linked to another 535 compressor module via a sidechain control voltage. In link mode, the compressor generating the greater sidechain voltage (resulting in higher amounts of compression) will control the compression of both audio signal paths to maintain proper stereo center image while compressing. Note: it is advisable to always audition the unlinked sound as well, to decide if the benefit of a constant stereo center image is worth the potential trade-off of reduced left / right independence in the stereo field.
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SIDECHAIN HPF
- The S/C HPF switch allows the user to insert a 12dB/octave 150Hz high-pass filter in the compressor sidechain. When this filter is engaged, the compressor will be considerably less responsive to information below 150Hz. For example: if used on a drum kit, the low end of the kick drum would have less proportional effect on the compression than a snare drum or cymbals, since a significant portion of the kick drum’s dynamic energy is focused below 150Hz.
LEVEL AND GAIN REDUCTION METERING
- These two LED meters provide accurate representations of both the output level of the compressor and the amount of gain reduction being applied to the input signal.
| Proven reverberation classic for the future
With the VSR 3.2, we happily rely on the proven old mechanical way to create reverberation. Rightly, because the used reverberation spring by AccuBell (formerly Accutronics) creates that magic 60's reverb which is slightly metallic and dense at the same time.
Just like it predecessors, VSR 3.2 has a straight-forward and honest approach: signal in - spring reverb - vintage sound out.
VSR 3.2 is equipped with an equalizer that is exactly adapted to the springs' frequency response. In addition, there are controls to mix the dry and effect signal as well as controls for the input and output level. This way, VSR 3.2 simply exactly does what it was designed to do.
Designed for every situation
Although using a large spring (type 9), VSR 3.2 fits in a 19" housing with one rack unit – minimal space requirements. Thanks to its extremely solid chassis, VSR 3.2 is a reliable vintage-effect that cannot only be used in a controlled studio environment. On the contrary, it also serves fine when being used in straining live situations.
VSR 3.2 grants your sound an elegant touch of "good old times". Its simplicity makes it an unbelievable versatile companion.
Inputs
- 1/4"-jack input front
- unbalanced
- max. input sensitivity: –40 dBu
- impedance: 1 MΩ
- 1/4"-jack input rear (1)
- unbalanced
- max. input sensitivity: 0 dBu
- impedance: 100 kΩ
- 1/4"-jack input rear (2)
- unbalanced
- max. input sensitivity: –20 dBu
- impedance: 10 kΩ
Outputs
- 1/4"-jack output (1)
- unbalanced
- max. output level: 0 dBu
- 1/4"-jack output (2)
- unbalanced
- max. output level: - 20 dBu
Signal-to-Noise Ratio
- direct: > 80 dBu
- effect: > 70 dBu
THD + Noise
Miscellaneous
- power supply: external DC-adapter with 12 V/1000 mA
- dimensions: 19“, 1 HE, ca. 190 mm deep
- weight: 2.5 kg
| Originally developed for the dynamics circuit of the acclaimed Shelford Channel, the 535 Diode Bridge Compressor captures the soul of Rupert Neve’s original 2254 compressor while providing modern updates including advanced timing control, significantly lower noise, fully stepped controls throughout, and internal parallel processing capabilities.
What is diode bridge compression?
Where the VCA compressor found in the Master Buss Processor provides unmatched clarity, the weighty, harmonically rich tonality of diode bridge compression can be essential in pushing key sources like vocals, electric guitars, bass and drums to the forefront of a mix.
By understanding the limitations of vintage units like the legendary 2254, painstaking effort was taken to reproduce the unique tone of these classics while improving the noise floor & accuracy, expanding inflexible time constants, adding full wave sidechain detection for improved dynamic response, and widening the range of threshold and ratio controls.
Delivering the powerful sound of these iconic designs with enhanced flexibility for the modern age, the 535 Diode Bridge Compressor is a dynamic tool equipped to make a bold statement on virtually any mix or track.
LINE INPUT TO LINE OUTPUT
- Compressor Bypassed.
- Z source = 40 Ohm Balanced
INPUT IMPEDANCE
10K Ohm
OUTPUT IMPEDANCE
40 Ohm
MAXIMUM INPUT LEVEL
+23.5 dBu
MAXIMUM OUTPUT LEVEL
+23.5 dBu
NOISE
- 22 Hz - 22 kHz BW.
- -101 dBu
FREQUENCY RESPONSE
- 10 Hz - 120 kHz, 30ft Output XLR Cable.
- +/- 0.25 dB
THD+N
- @ 1 kHz @ Maximum Output Level, 22 Hz - 22 kHz BW.
- 0.001%
| Rupert Neve Designs Portico 542 500 Series Tape FX Standard
FEATURES
- Add depth and character to your sound
- Control the mix of pre and post tape signals
- Send signals through "True Tape" circuitry
- Silk circuit, reduces negative feedback, adding harmonic content as needed
- Red Silk accentuates the saturation in the mid and high frequencies
- Use soft clip to tame overly transient material like drums
- Provides +/- 12dB adjustment of level on incoming signal levels
TECHNICAL SPECIFICATION
Rupert Neve Designs Portico 542 500 Series Tape FX
- Line Amp Specifications (Measurements with tape circuit disengaged)
- Noise: Measured at Main Output, un-weighted, 20Hz-22kHz, Input Terminated 40 Ohms.
- Unity Gain Better than -100dBu
- Frequency Response
- Measured at +10dBu, trim at unity.
- Main Output +/- 0.25dB from 5Hz to 60Khz -2dB @ 120KHz
- Maximum Output Level 23.25dBu
- Total Harmonic Distortion and Noise:
- @ 1kHz, +20dBu output level Better than 0.0025% @ 20Hz, +20dBu output level 0.07% Typical (2nd and 3rd harmonic)
- Tape FX Specifications
- Noise:
- Measured at Main Output, un-weighted, 20Hz-22kHz, Input Terminated 40 Ohms.
- Saturation @ minimum Better than -100dBu Saturation @ maximum Better than -100dBu
- Frequency Response:
- 15 IPS, Input @ -0 dBu -3dBu @ 28kHz Saturation @ minimum 0dBu @ 10Hz +5dBu Peak @ 60Hz
- Saturation @ maximum -3dBu @ 20kHz -3dBu @ 12.5Hz +2.4dBu Peak @ 60Hz
- 30 IPS, Input @ -0 dBu -3dBu @ 120kHz Saturation @ minimum -3dBu @ 10Hz +3.15dBu Peak @ 125Hz
- Saturation @ maximum -3dBu @ 100kHz -3dBu @ 12.5Hz
- +1.3dBu Peak @ 110Hz
- Total Harmonic Distortion and Noise
- Refer to sweeps on page10 15 IPS, Input @ -0 dBu 0.4% @ 3kHz to 1% @ 175Hz typical
- Saturation @ minimum Greater than 1% below 175Hz typical
- Saturation @ maximum 1% at 6kHz typical 0.3% @ 1kHz to 3% @ 50Hz typical
- 30 IPS, Input @ -0 dBu 1% at 1kHz typical
- Saturation @ minimum 0.6% @ 400Hz 5% @ 20Hz typical
- Saturation @ maximum 1.5% @ 20kHz to 0.4% @ 1kHz typical 0.4% @ 1kHz to 2 %@ 50Hz typical
- Power requirements:
- Supplied by 500 series rack with 110-125 mA @ +/- 16V DC
| Effective against boredom, supporting creative sound design
A unique team play of spring reverberation, analogue multimode filtering, distortion and VCA, modulated by an ultra fast LFO and an envelope that can be triggered in flexible ways – Retroverb Lancet offers a comprehensive arsenal of many-sided effects for different applications. The spectrum by far surpasses classic reverberation, filter sweeps or overdrive because you are able to tweak and bend any parameter fast and intuitively to your liking.
Retroverb Lancet will change the way you work with effects. It becomes part of your sound engine, fires it up and will end up as essential part of your sonic signature.
Source of effectiveness
We designed Retroverb Lancet in a way that it can perfectly handle signals of any kind: Guitars, basses, synthesizers, organs or microphones. On top of that, Retroverb Lancet allows you to create percussive sounds using its crash function.
Retroverb Lancet is a real jack of all trades with character, suited for adventurous sound designers and tinkerers.
Audio Input
- max. input sensitivity: –32 dBu
- impedance: 1 MΩ
Output
- max. output level: 20 dBu
- impedance: 600 Ω
Trigger- and CV-inputs
- audio trigger
- max. input sensitivity: –32 dBu
- impedance: 1 MΩ
- gate & CRASH
- external cv
Signal-to-Noise Ratio
- direct: > 80 dB
- effect (filter completely open, no reverb): > 75 dB
Spring Tank
- number of springs: 3
- reverbration decay: between 2.75 db and 4.00 s
Filter
- modes: 24-db-lowpass, 24-db-highpass, 12-db-bandpass
- modulations sources: envelope generator, envelope follower, external CV, LFO
LFO
- frequency range: 0.05 Hz … 300 Hz
- waveforms: ramp up, ramp down, square, sine, S&H, envelope generator
Envelope Generator
- modes: AD, ASR
- attack: 1 ms … 10 s
- decay/release: 1 ms … 15 s
Miscellaneous
- power supply: external DC-adapter with 12 V/1000 mA
- dimensions: 26 cm x 14.5 cm x 8 cm (width x depth x height)
- weight: 0.75 kg
Accessories
| Imagine having the power and flexibility of the OP-Z sequencer available to any other music equipment. Now you can, with the new oplab module - the magic link between OP-Z and the rest of the world. The oplab module is the first hardware expansion module for OP-Z. once mounted in the back of your OP-Z, you can use it to connect to any equipment using standard cv and gate, such as the pocket operator modular or any other modular system. It features three cv outs and one gate out, all programmable and playable from OP-Z. have your wall of modules sequenced from the palm of your hands. Use the po sync out to unleash the power of your regular pocket operators and have them play in sync with the rest of your setup. Even connect standard midi devices, using midi over 3.5 mm jack or the included midi over din adapter cable. Oplab features both midi in and out ports as well as trig in and out for other synthesizers and sequencers. |
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