Make it sound like the original
- Ultra-compact spot or hanging mic
- Great for high sound pressure levels
- Accurate sound
- Colorless sound
- Modular flexibility
This condenser microphone is renowned in recording studios and live applications around the world as an exceptional mic. State-of-the-art components have been carefully selected to provide optimal neutrality, accuracy and extremely low distortion.
The principal appeal of the d:dicate™ 4011 Cardioid Mic is its directional quality and attention to detail. This mic makes everything sound like the original. The first-order cardioid pickup pattern provides superb separation between sound sources. It is equally suitable for close-up work on acoustic guitar, grand piano, overheads, percussion, wind instruments and vocals as it is for spot-miking symphonies. It can handle incredibly high sound pressure levels (SPLs).
A flat on-axis frequency response and excellent phase response deliver a faithful reproduction of the original sound. The off-axis response is similarly smooth so that any leakage is an accurate reflection of the original, though attenuated according to the true first-order cardioid pickup pattern.
Combine it with the preamp of your choice
As with all of the modular d:dicate™ microphones, you can combine the d:dicate™ Cardioid Mic Capsule with any of our preamps.
The MMP-A Microphone Preamp is an ultra-transparent, transformerless preamp with active drive for impedance balancing. The MMP-C Compact Microphone Preamp is an ultra-compact preamp with active drive for impedance balancing. It has a slightly softer character than the other preamps in the d:dicate™ Recording Microphone Series.
Other preamps include the very small form factor types MMP-E Modular Active Cable (XLR output) and MMP-G Modular Active Cable (MicroDot output), allowing for very slim set-ups. The MMP-G even allows you to match a larger microphone directly to a wireless transmitter.
d:dicate™ 4011A Cardioid Mic
This condenser microphone is renowned in recording studios and live applications around the world as an exceptional mic. State-of-the-art components have been carefully selected to provide optimal neutrality, accuracy and extremely low distortion. It is equally suitable for close-up work on acoustic guitar, grand piano, overheads, percussion, wind instruments and vocals as it is for spot-miking symphonies. It can handle incredibly high sound levels and even includes a 20 dB pad switch in the center of the XLR connector to attenuate the output of the microphone.
The d:dicate™ 4011A Cardioid Mic is also available as a matched stereo pair.
d:dicate™ 4011C Compact Cardioid Mic
This mic is the worldwide reference standard for extreme sound level handling. Designed to be hidden from view, the diminutive design and high performance of the d:dicate™ 4011C Compact Cardioid Mic makes it the outstanding choice for unobtrusively miking all types of television, film, theatre, concert and studio performances.
When used to spot-mike larger orchestras, these mics are hard to beat. Capable of handling high SPLs without distortion, the mic is perfectly tailored for close-miking applications; minimizing bleed from other instruments. In film and TV studios, they are excellent for off-camera voice recording or Foley work. For live on-camera recordings, their matte black finish gives them a classic yet inconspicuous appearance, while for sound reinforcement in concert halls, theatres and houses of worship, they provide clean, natural sound while reducing the noticeable effect of lighting reflection.
d:dicate™ 4011E Cardioid Mic
Ideal for unobtrusive spot miking, such as hanging or table use, this mic is an ultra-compact cardioid microphone from the modular d:dicate™ Microphone Series. The mic has a length of only 3.5 cm (1.4 in) and a low-key appearance.
This solution features an integrated cable solution with either side (4011ES) or rear (4011ER) cable entry. This allows the mic to be hung from the ceiling and create precise and repeatable positions and angles when spot miking orchestra sections or ambience atmospheres.