Dynamic microphone Schematic

An overview of common microphone design and use in the studio

Since microphones are the literally the first element in the recording chain, they can make or break any recording. Understanding and knowing how to use different microphones is essential knowledge for any serious recording engineer. Although you may not have immediate access to a wide selection microphones, having a working knowledge of general sonic characteristics will come in handy when you are in a situation to use mics that are new to you.

A closer look at the three most common studio recording microphones:

Dynamic

This microphone works on an electromagnetic principle, and features a stiff, thick diaphragm wrapped in a coil of wire. Housed in a magnetic structure, the coils are caused to vibrate by changes in sound pressure – disrupting the magnetic field.

Dynamic mics are extremely tough. Not only can they handle phyisical abuse, but they can also stand up to the loudest sound sources. These mics are many times the go-to choices for kick drums, snares, guitar amps, and bass amps (not to mention live sound as a whole). They are considered to produce a “clean” and “uncolored” but “non-sensitive” sound.

Famous Examples: Shure SM 57/58, ElectroVoice RE-20, AKG d-12, Sennheiser MD421

Ribbon (aka Velocity Microphone)

Also operating on an electromagnetic principle, ribbon microphones feature a very thin aluminium diaphragm placed between two strong magnets. Acoustic pressure from the front or back causes vibrations based on the acoustic waveform. Compared directly to the moving coil of a dynamic mic, the output signal is quite low. This necessitates the use of a dedicated transformer to boost the signal. Ribbon mics are known to respond well to low impedance pre-amps.

Since the aluminum diaphragm is so thin, this is a very fragile design. Way too often, I hear stories of blown ribbons because of super loud sound sources or hot plugging (non grounded application of phantom power). Don’t let this happen to you! Make sure you handle these mics with great care. That being said, ribbon mics were the go-to studio microphones in the late 40s, 50s and early 60s. Many legendary early rock ‘n’ roll records were recorded with nothing but ribbons. Since the ribbon is open to both the front and back of the mic, it picks up sound in a bi-directional (figure 8 ) fashion. Generally, these are described as producing “dark”, “smooth” and “warm” sounds. Experiment with them on guitar amps (moderate levels, of course!), string/reed instruments, and as drum room mics.

Famous Examples: RCA 44/77, Royer 121, Coles 4038

A word on modern ribbon mics: Advances in technology have resulted in much smaller and more efficient ribbon design. With the use of rare earth magnets and filters in the grill, new designs are much less prone to wind damage and can handle louder sound sources. This design results in a hyper-cardiod pick up pattern as opposed to the traditional bi-directional. The Beyer M160 is a classic example of this new design.

Condensor

You might also like
CAD GLX-2400 + home made phantom power
CAD GLX-2400 + home made phantom power
10. Using Phantom Power on Yamaha MG124CX
10. Using Phantom Power on Yamaha MG124CX

Types of dynamic mikes

by thisisstilltempora

Ribbons are a type of dynamic microphone. Your OM2 is a dynamic mic; the ubiquitous Shure SM57/SM58 series mikes are dynamics as well. Ribbons are a type of dynamic using a different capsule design from 'standard' dynamic mikes such as the SM57/SM58.
Condenser mikes like the other mikes you mentioned require phantom power (+48v) from the preamps in your interface (or other device). Does your interface have phantom power?
So what genre(s) are you singing?

MOTU MKII 828 & Shure KSM27 - No input signal?!

by JKreydatus

So today I purchased a *Used* Shure KSM27 condenser microphone - my first studio mic.
Perfect working condition - as the retailers demonstrated it for me before I purchased it.
I was going to use it for the Motu MKII 828 audio interface.
So to make a long story short - I brought it back to my studio immediately - anxious to try it out.
My MOTU MKII 828 rack has phantom power - perfect, because the microphone that I purchased today needs to be powered.
And to my dismay, there is no line input signal! I've tried everything it seems...volume controls, different inputs, etc

Omega Power (Future) Simple Dynamic Microphone 2 transistor Preamplifier Kit Assembled kit 9VDC Electronic Circuit Kit : FA647
Home Improvement (Omega Power (Future))
  • This circuit is to amplify the sound signal from the dynamic microphone which has low impedance. Dynamic mic is the microphone which is use to sing a song / Speak.
  • Require power supply 9VDC
  • It contains 2 transistor, some resistor and capacitor. ( not difficult to buid )
  • Comes with the schematic diagram
  • PCB size : 1.6 x 1.3
Google Google Nexus One Unlocked Phone with Android - No Warranty (Black)
Wireless (Google)
  • 1400 mAH battery Charges at 480mA from USB, at 980mA from supplied charger
  • Talk time Up to 10 hours on 2G Up to 7 hours on 3G Standby time Up to 290 hours on 2G Up to 250 hours on 3G Internet use Up to 5 hours
  • 3G Up to 6.5 hours on Wi-Fi Video playback Up to 7 hours Audio playback Up to 20 hours ProcessorQualcomm QSD 8250 1 GHz
Manie Power (Future) 15W Power Amplifier with Tone control for Teacher MIC Electronic Circuit Kit - FREE SHIPPING : FA617
Home Improvement (Manie Power (Future))
  • Technical information: Power Supply 12VDC or battery or adapter (not including in the package) at least 1A., MIC INPUT for dynamic MIC , Line in L/R.
  • Selector switch to switch between MIC and Line In., Volume to control the level of MIC., Main Volume/ Treble Volume/ BASS Volume.
  • THD 0.1% at 1W 4 Ohm, Power Amp IC TDA2004 Bridge Amplifier, PCB size: 2.31 x 4.10 x 1.5 (High).
  • All module is tested again before shipping., Comes with the schematic and diagram how to connect.
Related Posts