User Manual - cmit 5 u

ManualsBrandsSchoeps ManualsAudio for Video- CMIT 5 U Microphone with Windshield Kit

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Start up/ Phantom Powering

19

English

for high-frequency loss caused by windscreens

and enhances speech intelligibility.

Pairs of LEDs next to each pushbutton indi-

cate the status of the filters. Green means

“Filter is OFF”, which means constant frequency

response curve. Red means “Warning, filter is

ON”. The settings are retained when the

microphone is switched off.

The LEDs next to each pushbutton let the

operator know the filter settings and whether

the microphone is on, even in the dark.

Start-Up / Phantom Powering

The CMIT 5 U is a condenser microphone. It is

built as a combination of two main compo-

nents: a capsule and a microphone amplifier.

The capsule is the component that converts

sound waves into a varying electrical voltage.

It determines the directionality and, for the most

part, the sound quality of the microphone.

The amplifier of the CMIT 5 U possesses an

electronic circuit needed to polarize (charge)

the capacitive capsule. This hardly influences

the signal, since it only amplifies it, making it

low-impedance so that it can be sent through

a cable. The output is electrically balanced, in

order to eliminate electromagnetic interference

in the cable. This prevents "AC hum“, for

example. Filters cut out high frequencies picked

up by the cable (e.g. from mobile phones).

The microphone amplifier of the CMIT 5 U

has a transformerless, class-AB output stage

without condensers. This is what allows the

low impedance, low distortion and small size.

Start-Up

The CMIT 5 U is an electrically active compo-

nent which requires operating current. This will

most often be supplied by the inputs of a mixer,

preamplifier (such as the SCHOEPS VMS 5U)

or recorder with suitable microphone power-

ing built in.

Like most modern, solid-state professional

microphones, the CCM also uses a standard-

ized powering scheme known as “phantom

powering.” Most recording equipment offers

a 48-Volt supply for such microphones.

Our microphones are developed and tested

with power supplies that conform to the

require ments of this standard. Proper operation

with non-standard power supplies cannot be

guaranteed. Circuit arrangements that deviate

from the standard can cause operational prob-

lems (i.e. distortion or even gaps in the signal),

particularly at high sound pressure levels or in

the presence of strong wind noise. Such prob-

lems may often seem to defy analysis until

their real cause is discovered.

Fig. 1

Input with transformer

(or balanced, ungrounded

transformerless input)

+ phase

- phase

2 (4)

3 (5)

microphone

1

screen

cable

powering

R

S

U

S

input

R

S

P48: U

S

=

48 V ± 4 V; R

S

= 6,8 kW*,

I

max.

= 10 mA

I

/2

I

/2

I

* Tolerance: ±20%, however, the differ-

ence between the resistors of any one pair

should be less than 0.4% (i.e. 27 Ohms)

XLR-3

Connector

Shield

Microphone

+ Phase

- Phase

Cable

Powering

Input