CAD Audio 2220VP Specifications - 2600Vp/2700Vp/2800Vp/2220Vp
T
he microphone will be a condenser t
ype designed to be
suspended (260
0VP), mounted on a boom (270
0VP), mounted
on a podium goosenec
k (280
0VP) or inst
alled in a boundar
y
surf
ace (2220VP/2220VPW).
T
h
e
microphone will ha
v
e
a
continuously v
ariable polar pat
tern controllable
from the
digit
al signal platf
orm connected b
y
a t
w
o conductor shielded
cable separating pins 2 and 3 to t
w
o discrete c
hannels of the
DSP
.
T
he sensitivit
y of the microphone (260
0VP
, 27
0
0VP
, 280
0VP)
will be –29dB
V (35mv) @ 1P
a.
T
he frequency response will be
40Hz - 20KHz.
T
he impedance of the microphone will be 1
35
ohms. T
h
e
self noise will be 22dB
A.
T
he maximum SPL will be
11
0dB
. T
he
microphone
will ha
v
e
a
TB3M-t
ype connector on
the rear of the microphone element enclosure.
T
he included
cable will be a XLRF
-t
ype connector and t
w
o Phoenix
-s
tyle
connectors with 24" of t
w
o
-conductor shielded 22A
WG cable.
T
he
A
s
tatic model 260
0VP is specifi
ed abo
v
e.
T
he 2
7
0
0VP is specifi
ed with the abo
v
e
equipment with the
addition of the MB
-1
. T
he MB
-1 is a lo
w gloss, 56" [1
42cm]
carbon-fi
ber pole designed to at
ta
ch
to a
5/8" x 27 threaded
microphone st
and.
T
he pole is terminated
with a 3" [73mm]
fl e
x
-goosenec
k with a diameter of 1/4" [7mm] and
T
A3F-
type
connector
. T
he opposite end has a
TB3M-t
ype connector
.
L
ength and angle is easily adjusted with a tension scre
w
where the pole meets the microphone st
and. P
a
ckaged
w
eight is 2lbs [0.9 k
g] and is 57" [1
.5m] long
.
T
he 280
0VP is specifi
ed with e
v
e
rything in the 260
0VP and
the addition of the MB-
18.
T
he MB-
18
is a mat
te blac
k, 1
6
-3/4"
[42.3cm] dual-fl
e
x
goosenec
k.
To
tal length of 1
8" [45.7cm]
is
reac
hed when the microphone head is connected.
T
h
e
goosenec
k is terminated with a
T
A3F-t
ype connector and
XLRM-t
ype connector
. P
a
ckaged w
eight is 1lb 1
4oz [0.85Kg]
and 7
.2oz [0.20Kg].
T
he 2220VP
/2220VPW is specifi
ed with a sensitivit
y of
-32dBV (25mv @ 1Pa). The frequency response will be
90Hz
-1
7KHz.
T
he impedance of the microphone will be 1
20
ohms.
T
he self noise will be 24dB
A.
T
he maximum SPL will
be 1
20dB
. T
he microphone will include an integral 80Hz,
12dB/oct
a
v
e
high-pass fi
lter to impro
v
e
intelligibilit
y.
T
h
e
microphone will ha
v
e
a 3
-pin XLRM-t
ype
connector allo
wing
for bot
tom e
xit.
T
he microphone will operate from P1
2, P24
or P48 st
andard phantom po
w
er consuming 4mA.
T
h
e
microphone will be 3
-3/8" [85mm] long
, 1-1
/8" [28mm] in
diameter and st
ands 3/4" [20mm] abo
v
e
boundar
y.
T
he net
w
eight [mass] will be 3.9oz [0.
11Kg].
T
he pac
kaged w
eight
[mass] will be 5.0oz [0.
14Kg].
T
he 2220VP will ha
v
e
a durable
mat
te
-blac
k urethane fi
nish, or f
or a mat
te
-white fi
nish add
“W” to the model number
.
C
AD A
udio
657
3 Coc
hran Rd. Building
I S
olon, Ohio 4
4
139 U
.S.A.
T
el: (440) 349-
490
0 F
ax: (440) 2
48-
4902 S
ales: (80
0) 7
62-
9266 www
.cadaudio.com
©20
11
CAD
A
udio P
art No. 47
13
7
-0
0
-0
1 J
une20
11
2600VP/2700VP/2800VP/2220VP
Continuously
-v
ar
iable P
a
tt
er
n Condenser Micr
ophone S
yst
em
with Remot
e P
olar Contr
ol thr
ough Digital Signal Platf
or
m
P
a
g
e
3 of 4
P
a
g
e
2 of 4
The connection cable betw
een the micr
ophone element and the DSP is t
o
be tw
o-conduct
or
, with a br
aided shield
cable -
A
WG22.
(Existing wir
ing suc
h as mic cable or an analog audio snak
e can be used.)
1.
Connect the microphone to the 4
0
-360 cable
2.
If the microphone has an onboard
VP dial, set it to Figure-of-eight (8) fully cloc
k-wise
3.
Connect the 4
0
-360 cable end with heat shrink to the fi
rst c
hannel of the DSP
4.
Connect the 4
0
-360 cable without the heat shrink to the second c
hannel of the DSP
5.
Upload the cor
responding sof
tw
are f
or the DSP in use - c
hec
k www
.cadaudio.com/vpdsp
6.
Apply phantom po
w
er to both c
hannels within the DSP
7.
A
djust the input gain equally on eac
h c
hannel
Final Connection & Set
up
Ar
c
hit
ects’ and Engineers’ Specifi
cations
Cable 40-360
VP DSP Bloc
k Diagr
am