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PS Audio Stellar Phono Preamplifier
- Moving Magnet and Moving Coil preamplifier.
- Fixed and variable cartridge loading adjustable from remote control.
- Up to 70dB of ultra low noise gain for MC cartridges as low as 0.15mv.
- Review in HiFi news magazine.
Reed – Muse 3C Turntable
1 Only - Cancelled Order.
New - Sealed Box
After more than three years idea-crunching and countless man hours of CADing, prototyping, programming and real-life testing, we built our first commercially available turntable – Reed Muse 3C. Is it somehow unique? Well, yes! Whether you are fan of friction-driven turntables (the famous Garrard is made that way), or if you think that the right way to build turntables is to use a pair of motors and a belt, Reed Muse 3C should catch your eye.
Thanks to its unique and innovative design, you can convert friction-driven turntable to a belt-driven machine in 5 minutes.
Reed 1H Tonearm
Starts at £2500, please get in touch to discuss your requirements and pricing.
(available in 9.5" 10.5" and 12") Reed 1H is the latest addition to Reed's entry level tonearm series. And, for the first time, they introduce carbon fiber as the Reed 1H’s arm wand material. After thorough research Reed found a way to make the carbon fiber arm wand’s acoustic properties close to ones that normally are typical for the wood. By using soft wood to damp the carbon fiber tube, Reed's new arm wand’s acoustic properties become considerably better than using carbon fiber alone, and can be compared to wooden arm wands.Manufacturer's website
Reed 3P Tonearm
User manual here.
Available in 9.5", 10.5" and 12"
Reed Muse 3C Turntable With 3P Tone Arm
Rimsky Korsakov – Scheherazade Chasing The Dragon Audiophile Vinyl
ShaknSpin Turntable Analyser
Simply Analog Microfibre Cleaning Cloth 15cm x 18cm
Simply Analog's Microfiber cloths are made from extremely thin filaments of polyester and polyamide. The weight of one Microfiber is less than 1 gram per 10 km length. Several different processes can be used to produce these fibers, all involving the splitting of a basic fiber into very many smaller ones.
