Neumann U47 FET Collectors Edition Condenser Microphone
You Save 20% ($1,300.00)
The Neumann U47 FET Collectors edition is a solid state cardioid condenser studio microphone. The Collectors Edition, released in 2014 marks the re-commencement of the infamous Neumann U47. Whilst the U47 FET has been built strictly to the original schematics and design, the collectors edition is unique in that it has taken some of the most impressive elements of the U47 over its production history. The U47 FET Collectors Edition uses FET 80 circuitry, has a low cut filter and an attenuation switch too. It ships with an elegant protective wooden case and certificate of authenticity. Mounting the U47 FET is easy, thanks to the built in bracket that is swivel mounted.
Neumann U47 FET Collectors Edition PRODUCT FEATURES:
The U 47 fet is back! The U 47 fet Collectors Edition is a new edition of the classic, issued in the year 2014.
Linear frequency response with a slight boost in the range between 2 and 5 kHz for more clarity to the human voice Useful amount of proximity effect, particularly good for thin voices bass roll-off at 40 Hz, switchable high-pass filter at 140 Hz
Neumann U47 FET Collectors Edition TECHNICAL SPECIFICATIONS:
Acoustical operating principle: Pressure gradient transducer Directional pattern: Cardioid Frequency range: 40 Hz ... 16 kHz Sensitivity at 1 kHz into 1 kohm: 8 mV/Pa Rated impedance: 150 ohms Rated load impedance: 1 kohms Equivalent noise level, CCIR1): 25 dB Equivalent noise level, A-weighted1): 18 dB-A Maximum SPL for THD 0.5%2): 137 dB Maximum SPL for THD 0.5% with preattenuation2): 147 dB Signal-to-noise ratio, CCIR1) (rel. 94 dB SPL): 69 dB Signal-to-noise ratio, A-weighted1) (rel. 94 dB SPL): 76 dB Maximum output voltage: -3.3 dBu Supply voltage (P48, IEC 61938): 48 V ± 4 V Current consumption (P48, IEC 61938): 0.5 mA Matching connector: XLR3F Weight: 710 g Diameter: 63 mm Length: 160 mm
1) according to IEC 60268-1; CCIR-weighting acccording to CCIR 468-3, quasi peak; A-weighting according to IEC 61672-1, RMS 2) measured as equivalent el. input signal