Output voltage at 1000 Hz, 5cm/sec. – 5,5 mV
Channel balance at 1 kHz – 1,5 dB
Channel separation at 1 kHz – 25 dB
Channel separation at 15 kHz – 15 dB
Frequency range at – 3dB – 20-25.000 Hz
Frequency response – 20-20.000 Hz + 2 / – 1 dB
Tracking ability at 315Hz at recommended tracking force – 80 µm
Compliance, dynamic, lateral – 20 µm/mN
Stylus type – Nude Elliptical
Stylus tip radius – r/R 8/18 µm
Tracking force range – 1,6-2,0g (16-20 mN)
Tracking force, recommended – 1,8 g (18 mN)
Tracking angle – 20°
Internal impedance, DC resistance – 1,3 kOhm
Internal inductance – 700 mH
Recommended load resistance – 47 kOhm
Recommended load capacitance – 150-300 pF
Cartridge colour, body/stylus – Black/Blue
Cartridge weight – 7,2 g
2M PnP MkII cartridge with integrated headshell weight – 20 g
2M PnP MkII cartridge with integrated headshell length – 52 mm
The QED speaker cable story began in 1973, with the launch of the world’s first specialist speaker cables, QED 42 and 79 strand, now household names in the audio industry. Building on this longstanding British speaker cable heritage, QED embarked on an exhaustive research program into cable parameters which began in 1995 and continues into 2017 with the release of “The Sound of Science”, a 40 page White Paper distilling the research published since 1973 by QED.
QX16/2 LSZH are high performance and exceptional quality installation speaker cables with the added bonus of a fully certificated LSZH fire rated design. They deliver excellent levels of performance in all multi-room and home cinema installations.
QED Subwoofer 40 has been designed primarily for low capacitance, as this has been identified by QED as a major factor making for a tight sound which retains the rhythm of the original piece - vital when it comes to the 'bottom end!" Minute timing errors are ameliorated by the use of QED's Complementary Conductor TechnologyTM combined with a special floating Zn/Mn ferrite jacket to absorb very high frequency noise signals outside the audible band. The QED AnalocTM plug design helps to control eddy currents which can also affect the micro-timing of the audio signal, maintaining high- fidelity from start to finish.