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Neumann

008550

Neumann TLM-49 Cardioid Condenser Microphone with EA3 Shock-Mount

The Neumann TLM-49 is a large diaphragm studio condenser microphone, with a cardioid polar pattern. It has been optimised for recording vocals, and offers a detailed and warm sound quality. The TLM49 is great value, as it includes a Neumann EA3 elastic suspension mount - it also won the 2006 TEC outstanding technical achievement product award for Mic Technology / Recording.


    • Neumann TLM-49 Features:

      Applications
      During the development phase, the sound was adjusted in extensive practical tests, so as to make the TLM 49 ideal particularly for vocal and speech recording. However, in addition, it is also suitable for instrumental applications in professional production studios and demanding home recordings.

      Polar pattern
      The large-diaphragm capsule of the TLM 49 provides a cardioid directional characteristic with a tendency toward supercardioid, due to the special capsule construction. Following the example of the M 49, high frequencies are more directional. The capsule diameter is 34 mm.

      The front of the microphone is indicated by the red Neumann logo on the microphone body. The capsule is oriented so that the microphone is addressed from the front.

      Acoustic features
      The TLM 49 uses the famous K 47 capsule, which was also used in the M 49 and the U 47. The capsule has a linear frequency response up to the upper mid-range. Above 2 kHz there is a gentle presence boost up to 3 dB.

      The capsule is enclosed by a large microphone headgrille, which is acoustically very open and is hence neutral with regard to the sound.

      Electrical features
      The letters TLM stand for “transformerless microphone”. With TLM technology the usual output transformer is replaced by an electronic circuit.

      As with traditional transformers, it ensures good common mode rejection, and prevents RF interference that may influence the balanced audio signal.

      Noise signals which affect the balanced modulation line are therefore effectively suppressed. The microphone can operate at sound pressure levels of up to 129 dB without distortion, and provides a dynamic range of 117 dB (A-weighted).

      Operational safety
      The entire interior structure is mounted elastically, to prevent the transmission of structure-borne noise. In addition, the capsule is mounted with a rubber shock mount.

      Due to the wide frequency response, the TLM 49 can also transmit extremely low-frequency signals without coloration. Of course this means that the microphone is also sensitive to noise signals such as vibration noise and wind noise in this frequency range. The TLM 49 is therefore supplied with the elastic suspension EA 3, which effectively protects the microphone from structure-borne noise. If the microphone is addressed at extremely close range, pop screen PS 15 or PS 20 a can be used in front of the microphone to provide protection against plosive sounds.

      *The design of the microphone is a registered design of the Georg Neumann GmbH in certain countries.
    • Neumann TLM-49 Specifications:

      Acoustical operating principle: Pressure gradient transducer
      Directional pattern: Cardioid
      Frequency range: 20 Hz ... 20 kHz
      Sensitivity at 1 kHz into 1 kohm: 13 mV/Pa
      Rated impedance: 50 ohms
      Rated load impedance: 1 kohms
      Equivalent noise level, CCIR1): 23 dB
      Equivalent noise level, A-weighted1): 12 dB-A
      Signal-to-noise ratio, CCIR1) (rel. 94 dB SPL): 71 dB
      Signal-to-noise ratio, A-weighted1) (rel. 94 dB SPL): 82 dB
      Maximum SPL for THD < 0.5 %2): 110 dB
      Maximum SPL for THD < 5 %2): 129 dB
      Maximum output voltage for THD < 5%2): -1 dBu
      Supply voltage (P48, IEC 61938): 48 V ± 4 V
      Current consumption (P48, IEC 61938): 3.2 mA
      Matching connector: XLR 3F
      Weight: 825 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, k2 dominant
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