Rockruepel Limit.One - Analogue Stereo Limiter
The Rockruepel Limit.One is a neo-classic :a transformer based analog limiter! Brickwall limiting, level control for mono or stereo tracks and new sound shaping possibilities all in one box. This new limiting circuit design improves your control when working with high or uneven audio levels. Built to get the most out of your dynamics and leaving the audio signal wave intact, this limiter is ready to take on the 21st century and its new audio formats and platforms.
Rockruepel adapted and optimized the use of a current-controlled attenuator placed between two Pikatron transformers , this element keeps the original shape of sound wave while setting a limit. The limit.one features a multi-dial switch to control the precise point of the limiting threshold accessing a wide range from +2dBu to over + 22dBu. Elma switches for Output gain up to 5dB of make-up gain and a 4 speed setting from slow to fast. The unit can operate in mono or stereo and has a hard wire bypass. An alternate output allows splitting of the signal for mastering applications.
Rockruepel started with the successful tube compressor series consisting of the comp.one and its successor, the comp.two. This boutique compressor has been an insider tip for recording, mixing and mastering and received several nominations. Now, with the debut of the limit.one , all of the ultra-hi-fidelity sound and build quality that Rockruepel users have come to know and love, is available in a whole new audio toolkit that maximizes the incredibly valuable balance of both volume and dynamics in ways never before possible.
Rockruepel Limit.One Key Features:
- Complete analog circuitry
- Precise level control with new multi dial
- Stepped Elma output and time constants switches
- Real Hardwire Bypass
- Alternate output for 2nd feed
- Mono or stereo
- Precise limiting LED
- Transfromer balanced inputs
- Aluminium chassis with 6 millimeter front plate
- Additional Information
Manufacturer Rockruepel SKU SROCLIMITONE Model Limit.One GTIN NA