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Description
A Legend Perfected
The M 150 Tube is a unique small diaphragm condenser microphone for orchestral recordings, based on the legendary Neumann M 50. The M 150 uses a titanium capsule flush mounted in a small sphere to create an omni pattern which becomes directional at higher frequencies. An innovative transformerless tube circuit ensures a vivid sound with low noise.
Truly Unique – Uniquely True
The M 150 is a unique tube microphone in the tradition of the legendary Neumann M 50 of the 1950s, often quoted as the ultimate microphone for orchestral recording. The M 150 offers the same phenomenal transient response and unique directional characteristic as its ancestor, updated with 21st century technology and improved performance.
Construction
Like its predecessor, the M 150 uses a 12 mm small diaphragm capsule, flush mounted in a 40 mm sphere. The capsule itself is a pressure transducer, but the sphere modifies its omnidirectional pattern to become gradually more directional at higher frequencies. The M 150’s condenser transducer is extraordinary in other respects, too: Its ultra-thin diaphragm is made of titanium, a light yet rigid metal, and spaced only 10 microns from the backplate, also made of titanium. The result is a sound transducer with unparalleled transient response. This delicate capsule is protected by an acoustically open headgrille – shaped just like that of the venerable M 50.
The capsule signal is amplified by a tube circuit using a subminiature triode, specially selected for optimal transmission characteristics and lowest self-noise of only 15 dB-A. Unlike its ancestor developed in the 1950s, however, the M 150 does not use an output transformer which might color the sound. Instead, the M 150 relies on an ultra-transparent transformerless output stage ensuring a clear low end, even at highest levels, and a wide dynamic range of 119 dB. Moreover, this state of the art output stage allows for long cable runs of up to 300 m without transmission losses.
A –10 dB switch allows to attenuate the microphone signal at the output for use with low headroom preamps. Another switch activates a 40 Hz rumble filter; in the LIN position, the low cut filter is not entirely deactivated but shifted to 16 Hz in order to protect the console input from sub-audio noise as the capsule’s low frequency response is virtually unlimited.
Applications
The M 150 is primarily designed to bring unprecedented detail and realism to orchestral recordings, e.g. of classical pieces and film scores. Due to its unique “directional omni” characteristic, its outstanding transient response, and a gradually rising sensitivity above 1 kHz, the Neumann M 150 is the perfect microphone for DECCA Tree techniques, including extended surround setups.
- Ideal for DECCA Tree stereo and surround recordings
- Modern version of the legendary Neumann M 50
- Unique all-titanium capsule
- Extended frequency response and unparalleled transient accuracy
- Tube circuit with transformerless output stage
- Very low self-noise
Data and Diagrams
Acoustical operating principle | Pressure transducer |
---|---|
Directional Pattern | Omnidirectional |
Frequency Range | 20 Hz ... 20 kHz |
Sensitivity at 1 kHz into 1 kohm | 20 mV/Pa |
Rated Impedance | 50 ohms |
Rated load impedance | 1 kohms |
Equivalent noise level, CCIR¹⁾ | 28 dB |
Equivalent noise level, A-weighted¹⁾ | 15 dB-A |
Typical SPL (tube characteristic) for K<0.5%²⁾ | 114 dB |
Typical SPL (tube characteristic) for K<5%²⁾ | 134 dB |
Signal-to-noise ratio, CCIR (re. 94 dB SPL)¹⁾ | 66 dB |
Signal-to-noise ratio, A-weighted (re. 94 dB SPL)¹⁾ | 79 dB |
Maximum output voltage | 8 dBu |
Dynamic range of the amplifier, DIN/IEC 651, for THD < 0.5%²⁾ | 99 dB |
Dynamic range of the amplifier, DIN/IEC 651, for THD < 5%²⁾ | 119 dB |
Power supply | N 149 A |
Matching connector | Microphone: DIN 8 F, Power Supply: XLR 3 F |
Weight | 800 g |
Diameter | 78 mm |
Length | 165 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