Manualshelf

Technical data

ManualsBrandsCoustic ManualsAmplifierAMP800S
41424344454647484950
9392
1
2
3
50 70 90 110 130 150 250
150
120
90
60
30
0
170 210190 230
600
800
1000
1200
50 100 150 200 350
400
250
150
100
50
0
250 300
300
350
200
600
800
1000
1200
1400
1800
2400
50 100 150 250
96
94
92
90
88
86
84
82
200
1
2
97
95
93
91
89
87
85
83
050 100 250
140
120
100
80
60
40
20
0
150 200
29
33
35 37 39 41
050 100 250
140
120
100
80
60
40
20
0
150 200
48
52 56 60 64
050 100 250
140
120
100
80
60
40
20
0
150 200
48
46
44
42
50
RT
ET
IT
OT
IF
EF
FT
CP
F2
F1
HE
CT
EHS
EHS
BP
BP
SCHEMATIC DIAGRAM
CV 200
SFP  TYPE L & R  W/M
3
/S*
Add extra pressure loss for F7 inlet filter.
ΔP = 0,0004 ∙ qv2 [Pa]; (qv=flow i m
3
/h)
Pressure loss (p) incl. F7 filter: p = pS + Dp [Pa]; ps pressure loss from
diagram.
Power consumption (P):
P = SFP ∙ qv/3600 [W]; (SFP from diagram and qv = flow in m
3
/h)
5% of SFP can be deducted for type C
* SFP measured at max. 150 Pa external pressure loss and 250 m
3
/h
with F5 filters.
SFP  TYPE L & R  W/M
3
/S*
Add extra pressure loss for F7 inlet filter.
ΔP = 0,0004 ∙ qv2 [Pa]; (qv=flow i m
3
/h)
Pressure loss (p) incl. F7 filter: p = pS + Dp [Pa]; ps pressure loss from
diagram.
Power consumption (P):
P = SFP ∙ qv/3600 [W]; (SFP from diagram and qv = flow in m
3
/h)
5% of SFP can be deducted for type C
Note: CV 200 type R is limited to 250 m
3
/h.
* SFP measured independent of external pressure loss and flow with
F5 filters.
Airow (m
3
/h)
Airow (m
3
/h)
Name of component
F1 Inlet fan
F2 Exhaust fan
IF Fresh air filter
EF Exhaust air filter
BP Bypass damper
HE Countercurrent heat exchanger
EHS Electric humidity sensor
CT Condensate tray
CP Condensate pump
FT Float
RT Room temperature sensor
OT Outdoor temperature sensor
ET Exhaust temperature sensor
IT Inlet temperature sensor
PRODUCT INFORMATION CV 200
EPP CONSTRUCTION
The CV 200 consists of an EPP construction
with two sections - a filter section (1) and a
heat exchanger section (2). The motor section
(3) is made of aluminium. All unit parts and
components are fitted in or on the moulded
EPP sections, which are then assembled in a
sealed unit with the motor section.
SOUND ENERGY LEVEL  CABINET (dB(A))
TEMPERATURE EFFICIENCY
(%)
1: According to: EN308 (without condensation)
Conditions: Balanced operation
Indoor air: 25 °C 28 % RH
Outdoor air: 5 °C 50 % RH
2: With condensation
Conditions: Balanced operation
Indoor air: 25 °C 55 % RH
Outdoor air: -10 °C 50 % RH
SOUND ENERGY LEVEL  PRESSURE SIDE (dB(A))
SOUND ENERGY LEVEL  SUCTION SIDE (dB(A))
SOUND ENERGY LEVEL  SUCTION SIDE
L
W
= L
WA
+ K
W
HZ
ZONE 1
K
W
ZONE 2
K
W
ZONE 3
K
W
ZONE 4
K
W
ZONE 5
K
W
ZONE 6
K
W
63
14 14 13 14 14 16
125
15 14 14 13 12 12
250
3 5 4 6 6 6
500
-14 -14 -15 -13 -12 -12
1000
-31 -31 -33 -30 -27 -27
2000
-38 -39 -41 -38 -35 -34
4000
-43 -47 -51 -48 -43 -40
8000
-45 -49 -54 -53 -49 -44
Sound energy level for ducts is stated according to: EN ISO 5136
SOUND ENERGY LEVEL  PRESSURE SIDE
L
W
= L
WA
+ K
W
HZ
ZONE 1
K
W
ZONE 2
K
W
ZONE 3
K
W
ZONE 4
K
W
63
11 9 8 8
125
11 8 5 4
250
5 6 6 5
500
-2 -2 -2 -2
1000
-13 -13 -13 -12
2000
-18 -16 -15 -14
4000
-29 -26 -24 -22
8000
-36 -34 -29 -26
Sound energy level for ducts is stated according to: EN ISO 5136
SOUND ENERGY LEVEL  CABINET
L
W
= L
WA
+ K
W
HZ
ZONE 1
K
W
ZONE 2
K
W
ZONE 3
K
W
ZONE 4
K
W
63
10 9 9 16
125
9 8 6 6
250
4 6 6 5
500
-5 -4 -3 -2
1000
-14 -15 -16 -14
2000
-12 -17 -19 -18
4000
- 11 -16 -20 -21
8000
-10 -16 -19 -22
Sound energy level from the cabinet is stated according to: EN ISO
3744. Cabinet type C, add 0.7 dB to LwA
Airow (m
3
/h)
Airow (m
3
/h)
Airow (m
3
/h)
Airow (m
3
/h)
Zone 1
Zone 2
Zone 3
Zone 4
Zone 1
Zone 2
Zone 3
Zone 4
Zone 1
Zone 2
Zone 3 Zone 4 Zone 5
Zone6
EXTRACTION
INTAKE
INLET
EXHAUST