Features
Warranty length | 2 Years |
---|---|
Brand | Musical Fidelity |
Tech Specs
MM
- Input Impedance: 47 KΩ
- Sensitivity: 3.0mV
- Gain: 40dB
- THD: 0.01%
- S/N Ratio: >80dB
- Overload Margin: 15dB
- RIAA Response: ±0.25dB
- Power: 12-24V 100mA
- In: 1 pair RCA sockets
- Load: 1 pair RCA sockets
MC
- Input Impedance: 100Ω
- Sensitivity: 300μV
- Gain: 55dB
- THD: 0.01%
- S/N Ratio: >70dB
- Input Overload: 22dB
- RIAA Response: ±0.25dB
- Power Req: 12-24V 100mA
- In: 1 pair RCA sockets
- Load: 1 pair RCA sockets
General
- DC: 1.3mm inner pin, 3.5mm
- Dimensions (WHD): 172 x 46.5 x 197mm
- Weight: 1.05kg
Product Description
Musical Fidelity LX2-LPS is a premium quality versatile MM/MC phono stage with adjustable impedance and excellent technical performance, housed in stunning detailed metalwork that is the peak of minimalist high class elegance.
Reference Standard
Designed for reference grade listening, it is astonishingly accurate and faithful to the input with a purpose to deliver your music with nothing added or subtracted from the artists and producers intentions.
Phono Stage Components
LX2-LPS boasts all the elements required of a phono stage; accurate RIAA, low noise and distortion plus overload margin. Musical Fidelity's RIAA correction technology is renowned for its predictable and reliable precision.
The accuracy is ±0.25dB at a frequency spanning 20 hertz to 20 kilo hertz, this extends to 45kHz to prevent overshoot ringing and create absolutely crisp highs free from intermodulation or other anomalies.
Signal to Noise Ratio
Both the MM and MC stage feature a remarkable noise ratio of greater than 82dB and 72dB respectively. This translates to virtually inaudible noise at any volume setting.
Distortion is vanishingly low at under 0.007% across the audio spectrum. The exemplary overload margin makes it almost impossible for any cartridge currently available to overload it.
Key Features:
- Elegant aesthetics and build
- Exemplary overload margin
- Adjustable impedance
- Clear high frequencies
- Vanishingly low distortion