Ñêà÷àòü êàòàëîã Ðåãóëÿòîðû ïîñòîÿííîãî è ïåðåìåííîãî ðàñõîäà âîçäóõà Systemair

Ñêà÷àòü êàòàëîã Ðåãóëÿòîðû ïîñòîÿííîãî è ïåðåìåííîãî ðàñõîäà âîçäóõà Systemair
Fans | Air Handling Units | Air Distribution Products | Fire Safety | Air Curtains and Heating Products | Tunnel Fans
Constant & Variable air volume controllers
Air volume the smart way
2
| Systemair
Spread the secret of better air!
Since 1974, Systemair has been taking care of a vital
resource. Today, the company is one of the global leaders
in the field of ventilation technology. A success story
which started in Skinnskatteberg, Sweden which has
revolutionised the world of ventilation with the invention
of the circular duct fan.
Systemair |
Table of contents
Systemair............................................................................................................................................................................................. 4-5
A good indoor climate is vital ......................................................................................................................................................... 6-7
Optima-R...........................................................................................................................................................................................8-10
Optima-RI....................................................................................................................................................................................... 11-13
Optima-RS...................................................................................................................................................................................... 14-16
Accessories ................................................................................................................................................................................... 17-20
Room controllers........................................................................................................................................................................... 21-31
Presence detectors....................................................................................................................................................................... 32-35
Optima controller solutions......................................................................................................................................................... 36-44
Cooling and Heating batteries..................................................................................................................................................... 45-59
Group product range.................................................................................................................................................................... 60-61
Since then, the company has continued to grow, and today
it offers a complete range of standard-setting ventilation
technologies. Whether it is the ventilation concept for a
shopping mall, the controlled residential ventilation of
a single-family home or the ventilation of tunnels and
metro stations - Systemair experts are familiar with the
conditions and have the necessary know-how. More than
3000 employees in more than 60 subsidiaries in over 40
countries ensure the necessary proximity to the customer.
We invite you to join us in discovering the world of
ventilation technology in this brochure.
3
4
| Systemair
Systemair worldwide
Skinnskatteberg, Sweden:
Hässleholm, Sweden:
Maribor, Slovenia:
Systemair AB, the Systemair group head office
is in Skinnskatteberg, Sweden. The production
is virtually fully automated with modern machinery featuring advanced computer support. Also
located here is the company's most advanced
test installation for measuring technical data.
VEAB is the leading European manufacturer of
electric duct heaters. Production of heating and
cooling coils, electric and water based.
Specialized in centrifugal smoke extract fans,
EN certified.
Ukmerge, Lithuania :
Production of modular air handling units.
Windischbuch, Germany:
Production facility for fans and modular air
handling units, specialized on engineered
products (e.g. tunnel and jet fans). Distribution
center.
Production of smaller air handling units with
energy recovery systems.
Hasselager, Denmark:
Bratislava, Slovakia:
The factory in Bratislava manufactures air
distribution products and EN certified fire and
smoke dampers.
Systemair |
Save energy, lower running cost!
Quality:
Systemair is certified in accordance with ISO
9001; ISO 14001 and ATEX. Our research and
development laboratories are one of the most
modern in Europe; measurements are made in
accordance with international standards like
AMCA and ISO.
Dal, Eidsvoll, Norway
Hasselager, Denmark
Bouctouche, Canada
Langenfeld, Germany
Windischbuch, Germany
Kansas City, USA
Madrid, Spain
Our label "Green Ventilation" features products
with a high energy saving potential.All products labelled with "Green Ventilation" combine
energy economy with energy efficiency.
Skinnskatteberg, Sweden
Hässleholm, Sweden
Ukmerge, Lithuania
Bratislava, Slovakia
Maribor, Slovenia
Milano, Italy
Istanbul, Turkey
New Delhi, India
Hyderabad, India
Kuala Lumpur, Malaysia
Kuala Lumpur, Malaysia :
New Delhi, India:
Kansas City, USA:
Manufacturing of products for the Asian market.
The factories in New Delhi and Hyderabad
manufacturing grilles, diffusers, fire dampers, air
handling units and assembling axial fans.
Production of fans for the US market.
Madrid, Spain:
Production of air handling units.
Dal, Eidsvoll, Norway:
Production of air handling units for the Norwegian market.
Bouctouche, Canada:
Our main North American production facility of
air handling units and inline fans for commercial and residential applications is located in Bouctouche.
Milan, Italy:
Our factory in Italy, Systemair AC, develops and
manufactures a wide range of air conditioner.
Istanbul, Turkey:
Production of air handling units.
5
6
| Variable air volume controllers
Offices
Office buildings generally require good
ventilation during the day as well as heat
and cooling recovery and reconditioning of
supply air depending on external conditions. Ventilation systems with demand
control should be considered for offices
where staffing levels vary. As a rule, offices
develop an excess of heat produced by
people, lighting, solar radiation, computer
equipment, etc. In many cases there is a
need to cool the air and prevent uncomfortable high temperatures. In larger buildings that accumulate heat energy easily,
you should consider employing night cooling. If the office is in a city environment, a
higher filtration class should be used. In an
office environment, there is also considerable need to reduce the noise generated by
the ventilation system.
Schools and nurseries
A school environment means a lot of people present at certain times of the day, i.e.
generally there are relatively large variations. This means that it should be possible
to use demand control for the ventilation
system. Normally, with heat and/or cool
recovery is warranted. There will be short
periods during the year when heating may
be required. However if there is effective
sunscreening, then air reconditioning is
rarely required. High demand for low noise
levels. At day nurseries, activities such as
cooking that create odours are common,
so there is often a need for supply air and
extract air to be kept separate. There must
be heat recovery in the form of a plate heat
exchanger, for example.
Shops
As a rule, the number of people in a shop
changes constantly throughout the day,
making a control-on-demand ventilation
system the sensible option. Recirculating air
in combination with carbon dioxide control
(CO2) and heat recovery can be one optimised solution for these types of premises.
When there are few people present, CO2
levels will be low and an increased amount
of return air can be mixed into the system.
As the number of people present increases,
the amount of return air is reduced and
replaced with fresh outdoor air. If heating
is required at night-time, the premises are
warmed up using 100% recirculating air.
Variable air volume controllers |
Industry
Industrial premises will often have high
airflows if the work carried out there
generates high levels of air pollution. If the
pollutants are also aggressive, there may
be requirements that affect the choice of
material used. Systemair offers products
for different environmental classes that can
cope with tough environments. Filtration
of processed air can be adapted to suit
specific demands.
Hotels
The requirements for conditioning in hotels
are characterised by demands relating to
fire protection, demand control and low
noise levels. The choice of air handling
unit will probably be affected by these
demands. What is important here is good
functions for speed control and quiet operation. In addition to quiet air handling units
with demand control, Systemair can also
supply fans and dampers for fire protection.
Healthcare premises
Healthcare premises can encompass
numerous activities, everything from
operating theatres to wards. The activity
determines the requirements. Operating
theatres will have stringent demands for
cleanliness and ventilation. Wards require
low noise levels. If several areas are served
by the same system, the unit must have
demand control and possibly even subsystems. Systemair’s range of air handling
units can satisfy all requirements relating to
healthcare premises, whether these have
to do with air cleanliness, noise levels or
demand control.
7
8
| Variable air volume controllers
General Description
In Variable Air Volume (VAV) systems, supply of cool air
increases as the cooling load increases, and the air supply
decreases as the load decreases.
VAV systems are the most modern, energy efficient all air
systems available for comfort air conditioning. VAV systems require less fan capacity than a comparable constant
volume system because with VAV only the required air is
used. Typically a VAV system fan volume is 60% of a CAV
system.
Control of air flow in a VAV system is accomplished
through an electronic device, which regulate the amount
of supply air to the space in response to a proportional
room/space temperature controller.
Pressure Independent
Systemair VAV units are pressure independent The accurate volume control achieved by pressure independent
VAV units results in substantial energy savings as well
as increased comfort to the occupant. Conditioned air
volume is precisely regulated according to demand. A
maximum air volume setting avoids drafty air distribution;
a minimum air volume setting avoids cold air dumping and
stuffiness.
Minimum and Maximum air flow requirements are set to
suit the space application. “Pressure independent units
have controls consisting of an inlet duct sensor, damper,
controller/actuator and room temperature controller”. The
VAV device controls the air supply volume through the
inlet duct velocity pressure sensor to maintain air flow, as
the air-conditioning load in the space changes the thermostat signal will reset the VAV controller to change the
supply air volume to suit the space requirements. At any
given setting, the controller will maintain the required air
volume regardless of inlet static pressure changing. This
mode of operation is called “Pressure Independent”.
Variable Air Volume units allow the design to take full advantage of shifting loads from lights, occupancy, solar and
equipment diversity, which typically leads up to a 40%
saving in the total air volume required. Consequently, the
central plant and ducting would cost less, thus compensating for the additional cost of VAV terminal units and fan
speed controls.
Systemair offers complete range of VAV’s factory tested
and calibrated. The VAV range offered are as following:
1. Round single skin VAV units (Optima-R), used in
installations for return or supply air in low pressure
systems as single-zone control
2. Round double skin VAV units (Optima-R-I), used in
installations for return or supply air in medium to high
pressure systems as single-zone control
3. Round to rectangular single skin insulated VAV units
(Optima-RS), used in installations for return or supply
air in medium to high pressure systems as multi-zone
control
Benefits
The VAV system offers some advantage and benefits over
conventional systems as given below
yy F an energy savings from longhour usage at reduced
volumes, also installed fan horsepower reductions.
yy Greater flexibility in respect to varying loads, which
are easier zoned, resulting in occupancy controlled
comfort and energy saving.
yy Reduced installation and set-up cost.
yy Reduced system energy consumption cost.
yy Single unit for easy mounting.
yy Integrated high efficiency sound attenuator.
yy Suited for mounting of all controls according to customer specification.
yy Accurate air volume control with centre averaging
multi-point airflow differential cross velocity pressure
sensor.
Variable air volume controllers |
RDA
Self regulating constant air volume
Function
Dimensions
The air flow regulator RDA is an element placed inside the
duct in order to obtain a constant flow within a pressure
range from 50 to 200 Pascal. It is used in ventilation or
air conditioning systems for supply or return air. The air
is forced to pass through predetermined space in which
a flap can change the position according to the specified
air flow. The flap is attached on to a calibrated spring and
therefore no auxiliary power is needed.
D1
1
2
L
Design
3
D1
RDA is made from plastic material (polystyrene) classified
M1 in grey colour. Maximum temperature is 60°C.
1
D2
2
Mounting
RDA is inserted directly into a horizontal or vertical circular
duct. It is fixed and kept airtight by a lip seal. Arrow indicates the airflow. If the unit is placed in supply duct, the
space between the diffuser and the unit must be at least
3x diameter of the duct. If used for return air the space
must be 1x diameter of the duct.
Size
80
100
125
160
RDA-
Air volume
ØD
Flow regulators are characterized by their noise level in
dB(A).
50 Pa
25
26
27
32
32
32
30
33
34
34
35
37
33
D1 (mm)
76
96
120
456
D2 (mm)
73
93
117
147
Other dimensions available upon request (Ø200 and Ø250)
m /h
3
Lw dB(A)
100 Pa
150 Pa
29
32
31
35
33
36
37
39
37
40
38
41
34
39
37
41
40
44
40
42
41
44
43
45
37
42
L (mm)
55
60
90
89
200 Pa
35
38
39
42
42
44
42
45
47
44
47
49
45
Tests reports : CETIAT 2315002 for air flow RD Ø80 to RD
Ø125 mm
*spacer
= special body without spacers
1* air flow = special shims with air flow ref.
Diagram
Air flow in m3/h
Size
3
L
Ordering Code
Airflow
(m3/h)
15
30
45
60
75
90
120
150
180
210
240
270
300
D2
∆PT, Differential pressure in Pa
9
10
| Variable air volume controllers
A flow regulator can provide several flow rates by simply changing the number of calibrated Shims positioned within
the casing. The tables below show the relationship between the number of Shims, Spacers required to achieve the flow
rates.
Shims
15 m³/h
RD Ø80
2 Shims
30 m³/h
1 Shim
45 m³/h
Without any Shim
Note: The RD unit is shipped as standard in one complete unit including all spacers and shims to achieve the airflow
required. If another air flow than standard setting is required, then on site the Shims can be removed to achieve higher
airflows. (Eg. RD-80 is standard dispatched at 15m3/h airflow, by removing 2 shims, the airflow of 45m3/h is achieved)
RD Ø100
(1 Spacer)
Spacer
RD Ø100
RD Ø125
(2 Spacers)
RD Ø125
(1 Spacer)
RD Ø125
RD Ø150/160
(2 Spacers)
RD Ø150/160
(1 Spacer)
RD Ø150/160
15 m³/h
2 Shims
30 m³/h
1 Shim
45 m³/h
Without any Shim
60 m³/h
2 Shims
75 m³/h
1 Shim
90 m³/h
Without any Shim
15 m³/h
2 Shims
30 m³/h
1 Shim
45 m³/h
Without any Shim
60 m³/h
2 Shims
75 m³/h
1 Shim
90 m³/h
Without any Shim
120 m³/h
2 Shims
150 m³/h
1 Shim
180 m³/h
Without any Shim
60 m³/h
2 Shims
75 m³/h
1 Shim
90 m³/h
Without any Shim
120 m³/h
2 Shims
150 m³/h
1 Shim
180 m³/h
Without any Shim
210 m³/h
3 Shims
240 m³/h
2 Shims
270 m³/h
1 Shim
300 m³/h
Without any Shim
Variable air volume controllers |
RD Ø200
(2 Spacers)
120 m³/h
2 Shims
150 m³/h
1 Shim
180 m³/h
Without any Shim
210 m³/h
3 Shims
RD Ø200
240 m³/h
2 Shims
(1 Spacer)
270 m³/h
1 Shim
300 m³/h
Without any Shim
350 m³/h
1 Air Flow
Dependant Shim
400 m³/h
1 Air Flow
Dependant Shim
450 m³/h
1 Air Flow
Dependant Shim
500 m³/h
Without any Shim
120 m³/h
2 Shims
RD Ø200
Air Flow
Dependant Shim
RD Ø250
150 m³/h
1 Shim
180 m³/h
Without any Shim
210 m³/h
3 Shims
RD Ø250
240 m³/h
2 Shims
(2 Spacers)
270 m³/h
1 Shim
300 m³/h
Without any Shim
350 m³/h
1 Air Flow
Dependant Shim
400 m³/h
1 Air Flow
Dependant Shim
450 m³/h
1 Air Flow
Dependant Shim
500 m³/h
Without any Shim
550 m³/h
3 Shims
600 m³/h
2 Shims
650 m³/h
1 Shim
700 m³/h
Without any Shim
(3 Spacers)
RD Ø250
(1 Spacer)
RD Ø250
11
| Variable air volume controllers
RPK-R
Single skin constant volume regulator
Description
L
RPK-R is a single skin round pressure independent constant air flow regulator. RPK-R is used for supply or exact
of constant air to a zone by a self regulating mechanical
setting without the need of any other energy in low to
medium system pressure applications
L1
45
L2
45
øD1
40
RPK-R is characterized by:
yy
yy
yy
yy
yy
Accuracy of regulation
wide range of air volume setting per size
Easy installation
Maintenance free
Connections with rubber gasket for low leakage
RPK-R main dimensions
3000
optimum
2750
Design
The RPK-R is manufactured from galvanized sheet metal
only the blade is from aluminium. All steel parts are zinc
plated, spring is made from high quality steel. Sliding
bearing is suitable for high temperatures and doesn´t
require any lubrication. The cover of adjusting mechanism
is made from ABS plastic and the plastic functional parts
are from PA plastic.
Function
2500
2250
2000
Air flow q (m³. h-1)
12
The RPK-R enables regulation of individually required
amounts of air in separate ventilation system zones. RPKR works in temperature from -20 to 80°C and relative humidity up to 80%. Recommended air flow velocity is from
3 to 8 meters per second at pressure difference to Δp 500
Pa. Accuracy is ±5 %(±10% for outer settings).
Mounting
Regulator can be mounted to horizontal, diagonal or
vertical duct. The blade must be always horizontal. It is
necessary to pay attention to correct direction of mounting, so that the air is entering the regulator according to
the arrow direction, which is located on regulator casing.
Connecting the duct and the regulator is done according
to its size with self-taping screws ø3,2x13 to ø3,9x16, or
with rivets of the same diameters and the connection is
sealed with sealing tape. After mounting, set the required
air volume by turning the working screw on the controller
box.
1750
1500
1250
1000
750
500
250
400
Nominal dimension Ød (mm)
Ordering Code
Size
Optional
RPK-RØD
RAL
Variable air volume controllers |
Size
V
(m/s)
øD
(mm)
Q
(m3/h)
øD2
(mm)
L
(mm)
L1
(mm)
L2
(mm)
L3
(mm)
m
(kg)
m(i)
(kg)
80
4,3-8,4
75-140
78
170
350
260
76
123
0,8
1,7
100
3,7-7,5
100-200
98
190
350
260
86
136
1
2,1
125
3,2-7,1
125 - 300
123
215
360
270
100
148
1,2
2,4
140
3,6-6,4
190-340
138
230
370
280
107
156
1,4
2,8
160
4,3-8,9
300 - 620
158
250
380
290
117
166
1,6
3,2
180
2,8-8,1
250 - 720
178
270
390
300
128
176
1,9
3,6
200
3,2-7,3
350-800
198
290
400
310
138
186
2,1
4
250
315
3,8-7,5
3,1-6,0
650-1300
850-1650
248
313
340
405
425
500
335
410
164
196
208
243
3,3
5
5,8
8,3
400
3,3-6.5
1450-2900
397
490
500
410
238
286
6
10,4
Note:
M ... weight of the RPK-R controller, Mi ... weight of the RPK-R-I controller
Tab. 1: Dimensions of the RPK-R controller
Technical part
RPK-R
RPK-R
Size
80
100
125
140
160
Size
Q
Accuracy
ΔpRPKmin.
3
Q
Accuracy
ΔpRPKmin.
3
(m /h)
(%)
(Pa)
(m /h)
(%)
(Pa)
75
15
100
250
10
70
400
6
50
600
7
50
720
10
70
100
350
10
50
70
500
5
50
100
15
100
120
10
100
140
10
100
100
15
150
10
175
10
50
700
5
50
200
10
50
800
10
70
125
12
100
650
10
50
180
200
900
5
50
1100
5
50
200
8
50
250
6
50
300
10
50
1300
10
60
190
10
100
850
10
50
250
7
50
1200
5
50
300
6
50
340
7
60
300
10
400
6
250
315
1500
5
50
1750
10
70
70
1450
10
100
50
2000
6
50
2450
6
50
2900
10
80
500
7
50
620
10
50
400
Tab. 2: Working range, tolerance and minimal working pressure loss of the RPK-R controller
Air flow direction
Front view
ØD
150
80
L min = 3.D
Way of mounting RPK-R
RPK-R: Installation Min distance to parameter walls
13
| Variable air volume controllers
RPK-R-I
Double skin constant volume regulator
Description
RPK-R-I main dimensions
3000
Accuracy of regulation
wide range of air volume setting per size
Easy installation
Maintenance free
Connections with rubber gasket for low leakaget
Design
The RPK-R-I is manufactured from galvanized sheet metal
only the blade is from aluminium. All steel parts are zinc
plated, spring is made from high quality steel. Sliding
bearing is suitable for high temperatures and doesn´t require any lubrication. The cover of adjusting mechanism is
made from ABS plastic and the plastic functional parts are
from PA plastic. The outside insulation is made from 50
mm thick glass fiber material with outside steel casing.
optimum
2750
2500
2250
2000
1750
1500
1250
1000
750
500
250
400
Function
The RPK-R-I enables regulation of individually required
amounts of air in separate ventilation system zones. RPKR works in temperature from -20 to 80°C and relative humidity up to 80%. Recommended air flow velocity is from
3 to 8 meters per second at pressure difference to Δp 500
Pa. Accuracy is ±5 %(±10% for outer settings).
Ø D2
40
RPK-R-I is characterized by:
yy
yy
yy
yy
yy
L3
L1
ØD
RPK-R-I is a double skin round pressure independent constant air flow regulator. RPK-R-I is used for supply or exact
of constant air to a zone by a self regulating mechanical
setting without the need of any other energy in medium
to high system pressure applications. The external of
the regulator is insulated with 50mm mineral wool and
another sheet steel to reduce the radiated sound power
levels.
L
45
Air flow q (m³. h-1)
14
Nominal dimension Ød (mm)
Ordering Code
Size
RPK-R-IØD
Mounting
Optional
Regulator can be mounted to horizontal, diagonal or
vertical duct. The blade must be always horizontal. It is
necessary to pay attention to correct direction of mounting, so that the air is entering the regulator according to
the arrow direction, which is located on regulator casing.
Connecting the duct and the regulator is done according
to its size with self-taping screws ø3,2x13 to ø3,9x16, or
with rivets of the same diameters and the connection is
sealed with sealing tape. After mounting, set the required
air volume by turning the working screw on the controller
box.
RAL
Variable air volume controllers |
Size
V
(m/s)
Q
(m3/h)
øD
(mm)
øD2
(mm)
L
(mm)
L1
(mm)
L2
(mm)
L3
(mm)
m
(kg)
m(i)
(kg)
80
4,3-8,4
75-140
78
170
350
260
76
123
0,8
1,7
100
3,7-7,5
100-200
98
190
350
260
86
136
1
2,1
125
3,2-7,1
125 - 300
123
215
360
270
100
148
1,2
2,4
140
3,6-6,4
190-340
138
230
370
280
107
156
1,4
2,8
160
4,3-8,9
300 - 620
158
250
380
290
117
166
1,6
3,2
180
2,8-8,1
250 - 720
178
270
390
300
128
176
1,9
3,6
200
3,2-7,3
350-800
198
290
400
310
138
186
2,1
4
250
3,8-7,5
650-1300
248
340
425
335
164
208
3,3
5,8
315
3,1-6,0
850-1650
313
405
500
410
196
243
5
8,3
400
3,3-6.5
1450-2900
397
490
500
410
238
286
6
10,4
Note:
M ... weight of the RPK-R-I controller, Mi ... weight of the RPK-R-I controller
Tab. 1: Dimensions of the RPK-R-I controller
Technical part
RPK-R-I
RPK-R-I
Size
80
100
125
140
160
Q
Accuracy
3
(m /h)
(%)
ΔpRPKmin.
Size
(Pa)
Q
Accuracy
ΔpRPKmin.
(m3/h)
(%)
(Pa)
75
15
100
250
10
70
100
15
100
400
6
50
120
10
100
600
7
50
140
10
100
720
10
70
100
15
100
350
10
50
150
10
70
175
10
50
200
10
50
800
10
70
125
12
100
650
10
50
200
8
50
900
5
50
250
6
50
300
10
50
180
200
250
500
5
50
700
5
50
1100
5
50
1300
10
60
190
10
100
850
10
50
250
7
50
1200
5
50
300
6
50
1500
5
50
340
7
60
1750
10
70
300
10
70
1450
10
100
400
6
50
500
7
50
620
10
50
315
400
2000
6
50
2450
6
50
2900
10
80
Tab. 2: Working range, tolerance and minimal working pressure loss of the RPK-R-I controller
Air flow direction
Front view
ØD
150
80
L min = 3.D
Way of mounting RPK-R-I
RPK-R-I: Installation Min distance to parameter walls
15
| Variable air volume controllers
V setup (requiered)
200
1600
RPK 315
160
RPK 125
RPK 140/180/200
RPK 80/100
RPK 250
RPK 400
120
80
V (m3/h)
ΔP S (Pa)
16
RPK 160
1400
+5%
1200
-5%
1000
ΔP min.
ΔPmax.
800
600
40
400
200
0
0
2
4
v (m/s)
6
8
10
0
0
100
200
300
400
500
600
Δp RPK (Pa)
Minimal pressure drop ∆Ps(Pa) of RPK in open position
related on entering speed o fair (m/s)
Working range of RPK
Example
ΔPZ1 = 290 Pa
150 Pa

50 Pa
ΔPZ2 =
ΔPRPK(1) = 90 Pa
50 Pa
A
RPK(1) 125
RPK(2) 125
ΔPRPK(2) = ? Pa
50 Pa
What is pressure drop on RPK(2) Ø125mm for above mentioned example,
when speed on RPK(1) 125 is v = 6 m/s (265 m3/h)
Result:
Minimal pressure drop of RPK(1) 125 from graph 2:
Minimal operating pressure drop of RPK(1) 125 from tab: Calculating pressure drop of RPK(1) 125: ΔPS(1) = 50 Pa
ΔPRPK(1)min. = 90 Pa; ΔPRPK(1)min. > ΔPS(1)
ΔPRPK(1) = 90 Pa
Pressure drop of duct system 1 calculating to point „A“:
Pressure drop of duct system 2 calculating to point „A“:
ΔPZ1 = ΔPZ1´ + ΔpRPK(1) + ΔPZ1´´ = 150 + 90 +50 = 290 Pa
ΔPZ2 = ΔPZ1= ΔPZ2´ + ΔPRPK(2) + ΔPZ2´´
Pressure drop of RPK(2) 125 calculating to point „A“: drop of RPK(2) 125 is between working range:
ΔPRPK(2) = ΔPZ1 - (ΔPZ2´ + ΔPZ2´´) = 290 – (50 + 50) = 190 Pressure
50 Pa ≤ 190 Pa ≤ 500 Pa
ΔPRPK(1)
ΔPRPK(2)
ΔPZ1
ΔPZ2 ΔPZ1´ ΔPZ1´´ ΔPZ2´ ΔPZ2´´ ΔPRPKmin.
… pressure drop of RPK(1) 125
… pressure drop of RPK(2) 125
… Total pressure drop of duct system 1 to point „A“
… Total pressure drop of duct system 2 to point „A“
… Pressure drop of duct system in front of RPK(1)
…Pressure drop of duct system behind RPK(1)
… Pressure drop of duct system in front of RPK(2)
… Pressure drop of duct system behind RPK(2)
… Minimal operating pressure drop is 50Pa
Variable air volume controllers |
RPK-S
Single skin constant volume regulator
Description
b
(mm)
m
(kg)
m(i)
(kg)
100
2,9
5,3
200
3,7
6,6
100
3,7
6,6
150
4,1
7,2
800 - 1600
200
4,6
8,0
400x200
1100 – 2400
200
5,4
9,3
400x250
1750 - 3400
250
6,1
10,1
400x300
1700 – 3600
300
6,5
10,8
400x400
2000 – 5400
400
9,0
13,7
500x200
1500 - 3200
200
6,2
10,5
500x250
2300 - 4400
250
6,7
11,0
500x300
2400 – 4300
300
7,0
11,7
500x400
2400 – 5500
400
10,1
15,1
500x500
3800 - 6300
500
13,0
18,6
600x200
1650 - 3600
200
7,0
12,3
600x250
2550 - 5100
250
7,4
12,8
600x300
2700 – 5000
300
10,2
15,3
Function
600x400
2900 – 5000
400
11,4
17,0
The RPK-S enables regulation of individually required
amounts of air in separate ventilation system zones. RPKS works in temperature from -20 to 80°C and relative humidity up to 80%. Recommended air flow velocity is from
3 to 8 meters per second at pressure difference to Δp 500
Pa. Accuracy is ±5 %(±10% for outer settings).
600x500
3500 – 6500
500
14,6
20,7
600x500
5000 - 9000
500
14,6
20,7
600x600 5500 – 10000
600
15,8
22,6
Mounting
Size
Optional
RPK-S is a single skin round pressure independent constant air flow regulator. RPK-S is used for supply or exact
of constant air to a zone by a self regulating mechanical
setting without the need of any other energy in low to
medium system pressure applications.
RPK-S is characterized by:
yy
yy
yy
yy
Accuracy of regulation
wide range of air volume setting per size
Easy installation
Maintenance free
Design
The RPK-S is manufactured from galvanized sheet metal
only the blade is from aluminium. All steel parts are zinc
plated, spring is made from high quality steel. Sliding
bearing is suitable for high temperatures and doesn´t require any lubrication. The cover of adjusting mechanism is
made from ABS plastic and the plastic functional parts are
from PA plastic. The outside insulation is made from 50
mm thick glass fiber material with outside steel casing.
Regulator can be mounted to horizontal, diagonal or
vertical duct. The blade must be always horizontal. It is
necessary to pay attention to correct direction of mounting, so that the air is entering the regulator according to
the arrow direction, which is located on regulator casing.
Connecting the duct and the regulator is with flanges.
After mounting, set the required air volume by turning the
working screw on the controller box.
Size
Q
(m3/h)
200x100
330 – 620
200x200
510 – 1020
300x100
470 - 850
300x150
700 – 1350
300x200
a
(mm)
200
300
400
500
600
RPK-SLxH
RAL
17
| Variable air volume controllers
Air flow q (m³. h-1)
optimum
Nominal dimension a x b (mm)
400
400
a+50
a
Main dimension of RPK-S
(a+21)±3
bxa
b
AIR FLOW DIRECTION
ADJUSTING OF AIR FLOW VOLUME
a
(a+21)±3
a+67
Lmin = 3 x d ef
Way of mounting RPK-S
400
(b+21)±2
a+67
(b+21)±2
b
b+50
a+50
b+50
18
Variable air volume controllers |
RPK-S-I
Double skin constant volume regulator
Description
RPK-S-I is a double skin round pressure independent constant air flow regulator. RPK-S-I is used for supply or exact
of constant air to a zone by a self regulating mechanical
setting without the need of any other energy in medium
to high system pressure applications. The external of
the regulator is insulated with 50mm mineral wool and
another sheet steel to reduce the radiated sound power
levels.
Size
Q
(m3/h)
200x100
330 – 620
200x200
510 – 1020
300x100
470 - 850
a
(mm)
200
m
(kg)
m(i)
(kg)
100
2,9
5,3
200
3,7
6,6
100
3,7
6,6
300x150
700 – 1350
150
4,1
7,2
300x200
800 - 1600
200
4,6
8,0
400x200
1100 – 2400
200
5,4
9,3
RPK-S-I is characterized by:
400x250
1750 - 3400
250
6,1
10,1
yy
yy
yy
yy
400x300
1700 – 3600
300
6,5
10,8
400x400
2000 – 5400
400
9,0
13,7
500x200
1500 - 3200
200
6,2
10,5
500x250
2300 - 4400
250
6,7
11,0
500x300
2400 – 4300
300
7,0
11,7
Accuracy of regulation
wide range of air volume setting per size
Easy installation
Maintenance free
Design
The RPK-S-I is manufactured from galvanized sheet metal
only the blade is from aluminium. All steel parts are zinc
plated, spring is made from high quality steel. Sliding
bearing is suitable for high temperatures and doesn´t require any lubrication. The cover of adjusting mechanism is
made from ABS plastic and the plastic functional parts are
from PA plastic. The outside insulation is made from 50
mm thick glass fiber material with outside steel casing.
Function
The PKI-S-I enables regulation of individually required
amounts of air in separate ventilation system zones. RPKS works in temperature from -20 to 80°C and relative humidity up to 80%. Recommended air flow velocity is from
3 to 8 meters per second at pressure difference to Δp 500
Pa. Accuracy is ±5 %(±10% for outer settings).
Mounting
Regulator can be mounted to horizontal, diagonal or
vertical duct. The blade must be always horizontal. It is
necessary to pay attention to correct direction of mounting, so that the air is entering the regulator according to
the arrow direction, which is located on regulator casing.
Connecting the duct and the regulator is with flanges.
After mounting, set the required air volume by turning the
working screw on the controller box.
300
b
(mm)
400
500
500x400
2400 – 5500
400
10,1
15,1
500x500
3800 - 6300
500
13,0
18,6
600x200
1650 - 3600
200
7,0
12,3
600x250
2550 - 5100
250
7,4
12,8
600x300
2700 – 5000
300
10,2
15,3
600x400
2900 – 5000
400
11,4
17,0
600x500
3500 – 6500
500
14,6
20,7
600x500
5000 - 9000
500
14,6
20,7
600x600 5500 – 10000
600
15,8
22,6
Size
Optional
600
RPK-S-I
LxH
RAL
19
| Variable air volume controllers
Air flow q (m³. h-1)
optimum
Nominal dimension a x b (mm)
400
400
a+100
42
a
(a+23)±3
b
bxa
AIR FLOW DIRECTION
ADJUSTING OF AIR FLOW VOLUME
a
(a+23)±3
Lmin = 3 x d ef
Way of mounting RPK-S-I
400
(b+21)±2
Main dimension of RPK-S-I
(b+21)±2
42
b
b+100
a+100
b+100
20
Variable air volume controllers |
90
80
1600
60
50
200x200
1400
+5%
400x300
1200
-5%
40
other sizes
30
300x200
V (m3/h)
70
ΔP S (Pa)
Vsetup (requiered)
200x100
1000
ΔP min.
ΔP max.
800
600
20
400
10
200
0
0
2
4
6
8
0
10
0
V (m/s)
100
200
300
400
500
600
ΔPRPK (Pa)
Minimal pressure drop ∆Ps(Pa) of RPK in open position
related on entering speed o fair (m/s)
Example
Working range of RPK
ΔPZ2 = 250 Pa
150 Pa

50 Pa
ΔPZ2 =
ΔPRPK(1) = 50 Pa
50 Pa
A
RPK(1) 400 x 300
RPK(2) 400 x 300
ΔPRPK(2) = ? Pa
50 Pa
What is pressure drop on RPK(2) 400x300 for above mentioned example,
when speed on RPK(1) 400x300 is v = 6 m/s (2.592 m3/h)
Result:
Minimal pressure drop of RPK(1) 400x300 from graph 2:
Minimal operating pressure drop of RPK(1) 400x300 from tab: Calculating pressure drop of RPK(1) 400 x 300: ΔPS(1) = 18 Pa
ΔPRPK(1)min. = 50 Pa; ΔPRPK(1)min. > ΔPS(1) = 18 Pa
ΔPRPK(1) = 50 Pa
Pressure drop of duct system 1 calculating to point „A“:
Pressure drop of duct system 2 calculating to point „A“:
ΔPZ1 = ΔPZ1´ + ΔPRPK(1) + ΔPZ1´´ = 150 + 50 +50 = 250 Pa
ΔPZ2 = ΔPZ1= ΔPZ2´ + ΔPRPK(2) + ΔPZ2´´
Pressure drop of RPK(2) 400x300 calculating to point „A“: drop of RPK(2) 400x300 is between working range:
ΔPRPK(2) = ΔPZ1 - (ΔPZ2´ + ΔPZ2´´) = 250 – (50 + 50) = 150 Pressure
50 Pa ≤ 150 Pa ≤ 500 Pa
pressure drop of RPK(1) 400x300
pressure drop of RPK(2) 400x300
Total pressure drop of duct system 1 to point „A“
Total pressure drop of duct system 2 to point „A“
Pressure drop of duct system in front of RPK(1)
Pressure drop of duct system behind RPK(1)
Pressure drop of duct system in front of RPK(2)
Pressure drop of duct system behind RPK(2)
Minimal operating pressure drop is 50Pa
21
| Variable air volume controllers
Optima-R
Single skin circular variable air volume unit
Highlights:
yy Damper tightness class 4 according to EN 1751
yy Casing tightness class C according to EN 1751
yy ILH Hygienic certification VDI 6022 & VDI 3803 for
Standard Ventilation & Clean room application
yy High measuring accuracy of:
10-20% of Vmax air flow rate has an accuracy error rate
of: ±25%
20-40% of Vmax air flow rate has an accuracy error
rate of: <±10%
40-100% of Vmax air flow rate has an accuracy error
rate of: <±4%
yy Air volume range of 36 to 14589 m3/h
yy Operating range of up to 1500Pa
Dimensions
75
L
45
45
Single skin circular VAV terminal units are commonly used
for return air applications or for supply applications at
low system pressures. Optima terminal units are ideal for
single zone control with supply and return in Master and
Slave setup such as offices, hotel rooms or meeting rooms
where the required cooling and heating load will vary on
demand.
Design
VAV unit housing is constructed from galvanized sheet
steel. Special design of multi-point averaging cross flow
sensor assures an accurate air flow readings even in
difficult installations.
Available Sizes:
Inlet/outlet : from Ø80 to Ø630 mm
Controls:
The VAV terminal units are as standard equipped with
BLC (Belimo compact) controllers (LMV-D3 or NMV-D3)
without any MP or LON communication capability to be
used as stand alone or in master and slave setting.
The compact controllers are equally available with MPBus, ModBus and LON communication capability. On
demand as alternative, Gateway communication units
can be provided and can be connected later in time to
building management systems to create a zone control
by creating bus-rings solutions (only possible if MP-Bus
communication is installed).
ØD
Function
VAV and Compact controllers are factory calibrated as
standard to the air volume indicated in the table or upon
request can be adjusted to site required settings prior to
dispatch on Vmin and Vmax range. The air volumes can
also be readjusted on site with ZTH-Gen hand held service
tool. If specific air volumes for Vmin and Vmax would be
required, this must be indicated prior to order of the units
for adequate calibration in the factory.
BLC1= Belimo LMV-D3 compact controller WITH MP-Bus
communication
BLC4= Belimo LMV-D3 compact controller WITHOUT MPBus communication
BLC1-MOD= Belimo LMV-D3 compact controller WITH
MODBUS communication
630
500
400
315
Size (mm)
22
250
200
160
125
100
80
10
100
1000
Air-flow (m3/h)
7000
Variable air volume controllers |
Dimensions and Air Volume range
Code
Size
ØD (mm)
L (mm)
Optim-R-08-BLC_
80
78
Optim-R-10-BLC_
100
98
Optim-R-12-BLC_
125
123
Optim-R-16-BLC_
160
158
Optim-R-20-BLC_
200
Optim-R-25-BLC_
Optim-R-31-BLC_
Air volume *(m3/h)
Air volume *(l/s)
Vmin
Vmax
Vmin
Vmax
400
36
235
10
65
400
57
368
16
102
400
88
574
25
160
400
145
941
40
261
198
600
226
1470
63
408
250
248
800
353
2297
98
638
315
313
800
561
3647
156
1013
Optim-R-40-BLC_
400
398
800
905
5881
251
1634
Optim-R-50-BLC_
500
498
1000
1414
9189
393
2553
Optim-R-63-BLC_
630
623
1000
2244
14589
623
4052
* Note = Standard factory air volume setting if not indicated upon order
Accuracy:
10 - 20% of Vmax air flow rate has an accuracy error rate of: ±25%
20 - 40% of Vmax air flow rate has an accuracy error rate of: <±10%
40 - 100% of Vmax air flow rate has an accuracy error rate of: <±4%
Ordering codes
Optima - Type - Size- Controller Type - Vmin - Vmax
Type
R
Code 08 to 63
(ØD-80 to ØD-630mm)
BLC4
BLC1
BLC1-MOD
m3/h or l/s*
m3/h or l/s*
* Note:
1. If the air volumes are not given during the ordering
process, then standard Factory setting will be applied
according to table
2. Vmin can also be set to 0m3/h if required by demand
upon ordering
3. The standard input signal on the controller is set to
2-10V, upon request 0-10V can also be selected
Ordering example:
OPTIMA-R-25-353(m3/h)-2297(m3/h)-BLC4
The above order example is set for Vmin and Vmax air
volume setting for Ø250 with Belimo compact controller
having NO comminucation capability.
Optima-R-BLC_ installation Min distance to parameter walls
Air flow direction
Front view
ØD
Lmin = 3 x D
23
| Variable air volume controllers
Discharged Sound Power levels
Ø250
Ø315
Ø400
Ø500
Ø630
8000
LW dB(A)
63
125
250
500
1000
2000
4000
8000
LW dB(A)
Ø200
4000
Ø160
2000
Ø125
1000
Ø100
∆Pt = 200 Pa
500
Ø80
∆Pt = 100 Pa
250
Size
Air Volume
125
Optima-R
63
24
5
18
1
18
26
29
28
26
20
16
11
30
24
32
35
33
31
26
22
16
36
15
54
6
29
37
40
39
37
31
27
22
41
35
43
46
45
43
37
33
28
47
25
90
17
35
43
45
44
42
37
33
27
46
41
48
51
50
48
42
38
33
52
35
127
34
38
46
49
47
45
40
36
30
50
44
52
55
53
51
46
42
36
55
50
181
69
42
50
52
51
49
44
40
34
53
48
55
58
57
55
49
45
40
59
8
28
1
22
29
32
31
29
23
19
14
33
27
35
38
37
35
29
25
20
39
24
85
6
32
40
43
42
39
34
30
25
44
38
46
49
47
45
40
36
30
50
39
141
16
37
45
48
47
44
39
35
30
49
43
51
54
52
50
45
41
35
55
55
198
31
41
48
51
50
48
42
38
33
52
46
54
57
56
54
48
44
39
58
79
283
63
44
52
55
53
51
46
42
36
56
50
58
61
59
57
52
48
42
61
12
44
1
24
32
35
34
32
26
22
17
36
30
38
41
40
37
32
28
23
42
37
133
5
35
42
45
44
42
36
32
27
46
41
48
51
50
48
42
38
33
52
61
221
14
39
47
50
49
47
41
37
32
51
45
53
56
55
53
47
43
38
57
86
309
28
43
50
53
52
50
44
40
35
54
48
56
59
58
56
50
46
41
60
123
442
56
46
54
57
55
53
48
44
38
57
52
60
62
61
59
54
50
44
63
20
72
1
27
35
38
36
34
29
25
19
39
33
41
44
42
40
35
31
25
45
60
217
4
37
45
47
46
44
39
35
29
48
43
51
53
52
50
45
41
35
54
101
362
12
41
49
52
51
49
43
39
34
53
47
55
58
57
54
49
45
40
59
141
507
24
44
52
55
54
52
46
42
37
56
50
58
61
60
57
52
48
43
62
201
724
49
47
55
58
57
55
49
45
40
59
53
61
64
63
61
55
51
46
65
31
113
1
30
34
33
30
27
24
22
14
33
35
40
38
36
33
29
28
20
38
94
339
4
41
46
44
42
39
35
33
26
44
46
51
50
47
44
41
39
31
50
157
565
11
46
51
49
47
44
40
39
31
49
52
57
55
53
50
46
44
36
55
220
792
21
50
55
53
50
48
44
42
34
53
55
60
58
56
53
49
48
40
58
314
1131
42
53
58
56
54
51
48
46
38
57
59
64
62
60
57
53
51
44
62
49
177
1
34
38
37
34
31
28
26
18
37
39
44
43
40
37
34
32
24
43
147
530
3
44
49
47
45
42
38
36
29
47
50
55
53
51
48
44
42
34
53
Q
[l/s]
ΔPmin
Q
[m3/h] [Pa]
245
884
9
49
54
52
49
47
43
41
33
52
55
59
58
55
52
49
47
39
58
344
1237
17
52
57
55
53
50
46
44
36
55
58
63
61
58
56
52
50
42
61
491
1767
36
55
60
58
56
53
49
48
40
58
61
66
64
62
59
55
53
46
64
78
281
1
37
42
40
38
35
31
29
22
40
43
48
46
44
41
37
35
28
46
234
842
3
46
51
49
47
44
40
39
31
49
52
57
55
53
50
47
45
37
56
390
1403
7
50
55
54
51
48
45
43
35
54
57
61
60
57
54
51
49
41
60
546
1964
14
53
58
56
54
51
47
46
38
56
59
64
62
60
57
54
52
44
63
779
2806
29
56
61
59
57
54
50
49
41
59
62
67
65
63
60
57
55
47
66
126
452
1
39
44
42
40
37
34
32
24
43
46
51
49
47
44
40
38
30
49
377
1357
2
47
52
51
48
45
42
40
32
51
54
59
57
55
52
48
46
38
57
628
2262
5
51
56
54
52
49
45
44
36
54
58
62
61
58
55
52
50
42
61
880
3167
11
54
58
57
54
51
48
46
38
57
60
65
63
61
58
54
53
45
63
1257
4524
22
56
61
59
57
54
51
49
41
59
63
68
66
63
61
57
55
47
66
196
707
1
41
46
44
42
39
35
33
25
44
47
52
51
48
45
42
40
32
51
589
2121
2
48
53
51
49
46
42
40
32
51
54
59
58
55
52
49
47
39
58
982
3534
5
51
56
54
52
49
45
43
36
54
58
63
61
59
56
52
50
42
61
1374
4948
11
53
58
56
54
51
47
46
38
56
60
65
63
61
58
54
52
45
63
2356
8482
31
57
61
60
57
54
51
49
41
60
63
68
66
64
61
58
56
48
67
312
1122
1
41
46
44
42
39
36
34
26
45
48
53
51
49
46
43
41
33
52
935
3367
2
47
52
50
48
45
41
40
32
50
54
59
57
55
52
48
47
39
57
1559
5611
5
50
55
53
51
48
44
42
35
53
57
62
60
58
55
51
49
42
60
2182
7855
11
52
57
55
52
50
46
44
36
55
59
64
62
60
57
53
51
43
62
3117
11222
22
54
58
57
54
51
48
46
38
57
61
66
64
61
59
55
53
45
64
ΔPmin (Pa), Minimum pressure loss exerted on the system with Damper fully open
LW dB(A), Discharged or Re-generated Sound Power levels in dB(A)
ΔP= 100 Pa, Soud power levels at system atatic pressure level Pa per Octave Hz
Variable air volume controllers |
Discharged Sound Power levels
Ø250
Ø315
Ø400
Ø500
Ø630
4000
8000
LW dB(A)
63
125
250
500
1000
2000
4000
8000
LW dB(A)
Ø200
2000
Ø160
1000
Ø125
500
Ø100
∆Pt = 600 Pa
250
Ø80
∆Pt = 400 Pa
125
Size
Air Volume
63
Optima-R
5
18
1
30
38
41
39
37
32
28
22
41
33
41
44
43
40
35
31
26
45
15
54
6
41
49
52
50
48
43
39
33
53
44
52
55
54
52
46
42
37
56
25
90
17
46
54
57
56
54
48
44
39
58
50
58
60
59
57
52
47
42
61
35
127
34
50
58
60
59
57
52
48
42
61
53
61
64
62
60
55
51
45
65
50
181
69
53
61
64
63
61
55
51
46
65
57
65
67
66
64
59
55
49
68
8
28
1
33
41
44
43
40
35
31
26
45
37
44
47
46
44
38
34
29
48
24
85
6
44
52
55
53
51
46
42
36
55
47
55
58
57
55
49
45
40
59
39
141
16
49
57
60
58
56
51
47
41
60
52
60
63
62
60
54
50
45
64
55
198
31
52
60
63
62
59
54
50
45
64
56
63
66
65
63
57
53
48
67
79
283
63
56
64
66
65
63
58
54
48
67
59
67
70
68
66
61
57
51
71
12
44
1
36
44
47
45
43
38
34
28
48
40
47
50
49
47
41
37
32
51
37
133
5
46
54
57
56
54
48
44
39
58
50
58
61
59
57
52
48
42
61
61
221
14
51
59
62
60
58
53
49
44
63
55
62
65
64
62
56
52
47
66
86
309
28
54
62
65
64
62
56
52
47
66
58
66
68
67
65
60
56
50
69
123
442
56
58
65
68
67
65
59
55
50
69
61
69
72
70
68
63
59
53
73
20
72
1
39
47
50
48
46
41
37
31
50
42
50
53
52
50
44
40
35
54
60
217
4
49
57
59
58
56
51
46
41
60
52
60
63
61
59
54
50
45
64
101
362
12
53
61
64
63
60
55
51
46
65
57
65
67
66
64
59
55
49
68
141
507
24
56
64
67
66
63
58
54
49
68
60
68
70
69
67
62
57
52
71
201
724
49
59
67
70
69
67
61
57
52
71
63
71
74
72
70
65
61
55
74
31
113
1
41
45
44
41
38
35
33
25
44
44
49
47
45
42
38
36
28
47
94
339
4
52
57
55
53
50
46
44
37
55
55
60
58
56
53
49
48
40
58
157
565
11
57
62
60
58
55
52
50
42
61
60
65
64
61
58
55
53
45
64
220
792
21
61
66
64
62
59
55
53
45
64
64
69
67
65
62
58
56
49
67
314
1131
42
64
69
68
65
62
59
57
49
68
68
72
71
68
65
62
60
52
71
49
177
1
45
50
48
46
43
40
38
30
49
49
54
52
49
47
43
41
33
52
147
530
3
56
60
59
56
53
50
48
40
59
59
64
62
60
57
53
51
44
62
Q
[l/s]
DPmin
Q
[m3/h] [Pa]
245
884
9
60
65
63
61
58
55
53
45
64
64
69
67
65
62
58
56
48
67
344
1237
17
64
68
67
64
61
58
56
48
67
67
72
70
68
65
61
59
52
70
491
1767
36
67
72
70
68
65
61
59
51
70
70
75
73
71
68
65
63
55
74
78
281
1
49
54
52
50
47
43
42
34
52
53
58
56
54
51
47
45
37
56
234
842
3
58
63
61
59
56
53
51
43
62
62
67
65
63
60
56
54
47
65
390
1403
7
63
67
66
63
60
57
55
47
66
66
71
69
67
64
61
59
51
69
546
1964
14
65
70
69
66
63
60
58
50
69
69
74
72
70
67
63
61
54
72
779
2806
29
68
73
72
69
66
63
61
53
72
72
77
75
73
70
66
64
57
75
126
452
1
52
57
55
53
50
47
45
37
56
56
61
59
57
54
50
48
41
59
377
1357
2
60
65
63
61
58
55
53
45
64
64
69
67
65
62
58
57
49
67
628
2262
5
64
69
67
65
62
58
56
49
67
68
73
71
69
66
62
60
52
71
880
3167
11
67
71
70
67
64
61
59
51
70
70
75
73
71
68
65
63
55
74
1257
4524
22
69
74
72
70
67
63
62
54
72
73
78
76
74
71
67
65
58
76
196
707
1
54
59
57
55
52
49
47
39
57
58
63
61
59
56
52
51
43
61
589
2121
2
61
66
64
62
59
56
54
46
64
65
70
68
66
63
59
58
50
68
982
3534
5
64
69
68
65
62
59
57
49
68
68
73
72
69
66
63
61
53
72
1374
4948
11
67
71
70
67
64
61
59
51
70
71
75
74
71
68
65
63
55
74
2356
8482
31
70
75
73
71
68
64
62
55
73
74
79
77
75
72
68
66
59
77
312
1122
1
55
60
58
56
53
50
48
40
59
59
64
63
60
57
54
52
44
63
935
3367
2
61
66
64
62
59
56
54
46
65
65
70
69
66
63
60
58
50
69
1559
5611
5
64
69
67
65
62
58
56
49
67
68
73
71
69
66
62
61
53
71
2182
7855
11
66
71
69
67
64
60
58
50
69
70
75
73
71
68
64
62
55
73
3117
11222
22
68
73
71
69
66
62
60
52
71
72
77
75
73
70
66
64
56
75
ΔPmin (Pa), Minimum pressure loss exerted on the system with Damper fully open
LW dB(A), Discharged or Re-generated Sound Power levels in dB(A)
ΔP= 100 Pa, Soud power levels at system atatic pressure level Pa per Octave Hz
25
| Variable air volume controllers
Radiated Sound Power levels
Ø160
Ø200
Ø250
Ø315
Ø400
Ø500
Ø630
8000
LW dB(A)
0
0
0
0
<20
7
10
8
10
5
2
0
2
<20
18
12
9
8
10
<20
19
21
19
22
16
14
12
14
23
25
90
17
20
22
20
23
17
15
13
15
24
24
27
25
27
22
19
17
19
28
35
127
34
23
26
24
27
21
18
17
19
28
28
30
28
31
25
23
21
23
32
50
181
69
27
30
28
30
25
22
20
22
32
32
34
32
35
29
26
25
27
36
8
28
1
5
7
5
8
2
0
0
0
<20
9
11
9
12
6
4
2
4
<20
24
85
6
17
19
17
20
14
12
10
12
21
21
23
21
24
18
15
14
16
25
39
141
16
22
25
23
25
20
17
16
17
27
26
28
26
29
23
21
19
21
30
55
198
31
26
28
26
29
23
21
19
21
30
30
32
30
33
27
24
23
25
34
79
283
63
30
32
30
33
27
25
23
25
34
33
36
34
37
31
28
27
29
38
12
44
1
7
10
8
10
5
2
0
2
<20
10
13
11
14
8
5
4
6
<20
37
133
5
19
22
20
22
17
14
12
14
24
22
25
23
26
20
17
16
18
27
61
221
14
25
27
25
28
22
20
18
20
29
28
30
28
31
25
23
21
23
32
86
309
28
28
31
29
32
26
23
22
24
33
32
34
32
35
29
26
25
27
36
123
442
56
32
35
33
35
30
27
26
27
37
35
38
36
39
33
30
29
31
40
20
72
1
14
12
10
9
7
5
3
0
<20
20
17
16
14
13
10
8
2
<20
4000
6
15
2000
3
17
1000
5
14
500
3
6
250
125
LW dB(A)
1
54
8000
18
DPmin
Q
[m3/h] [Pa]
500
5
15
Q [l/s]
250
63
Ø125
4000
Ø100
∆Pt = 200 Pa
2000
Ø80
∆Pt = 100 Pa
125
Size
Air Volume
1000
Optima-R
63
26
60
217
4
25
23
21
20
19
16
14
8
24
31
28
27
25
24
21
19
13
29
101
362
12
30
28
26
25
24
21
19
13
29
36
33
32
30
29
26
24
18
34
141
507
24
34
31
30
28
27
24
22
16
32
39
37
35
33
32
30
28
22
37
201
724
49
37
35
33
32
31
28
26
20
36
43
40
39
37
36
33
31
25
41
31
113
1
19
17
15
13
12
9
8
1
<20
25
22
21
19
18
15
13
7
23
94
339
4
29
27
25
23
22
20
18
11
27
35
32
31
29
28
25
23
17
33
157
565
11
34
31
30
28
27
24
22
16
32
39
37
36
34
33
30
28
22
38
220
792
21
37
35
33
31
30
27
25
19
35
43
40
39
37
36
33
31
25
41
314
1131
42
40
38
36
34
33
31
29
23
38
46
43
42
40
39
36
34
28
44
49
177
1
23
21
19
17
16
13
12
5
21
29
27
25
23
22
19
18
11
27
147
530
3
32
30
28
26
25
23
21
15
30
38
36
34
32
31
29
27
21
36
245
884
9
36
34
33
31
30
27
25
19
35
42
40
38
37
36
33
31
25
41
344
1237
17
39
37
35
34
32
30
28
22
37
45
43
41
39
38
36
34
28
43
491
1767
36
42
40
38
36
35
33
31
25
40
48
46
44
42
41
39
37
31
46
78
281
1
26
24
22
21
20
17
15
9
25
33
30
29
27
26
23
21
15
31
234
842
3
34
32
31
29
28
25
23
17
33
41
38
37
35
34
31
29
23
39
390
1403
7
38
36
34
33
32
29
27
21
37
45
42
41
39
38
35
33
27
43
546
1964
14
41
39
37
35
34
31
29
23
39
47
45
43
41
40
38
36
29
45
779
2806
29
43
41
40
38
37
34
32
26
42
50
47
46
44
43
40
38
32
48
126
452
1
29
27
25
23
22
19
18
11
27
35
33
32
30
29
26
24
18
34
377
1357
2
36
34
32
30
29
27
25
18
34
43
40
39
37
36
33
31
25
41
628
2262
5
39
37
36
34
33
30
28
22
38
46
44
42
40
39
37
35
28
44
880
3167
11
42
39
38
36
35
32
30
24
40
48
46
44
43
42
39
37
31
46
1257
4524
22
44
42
40
38
37
34
33
26
42
51
48
47
45
44
41
39
33
49
196
707
1
31
28
27
25
24
21
19
13
29
37
35
34
32
31
28
26
20
36
589
2121
2
37
34
33
31
30
27
25
19
35
44
41
40
38
37
34
32
26
42
982
3534
5
40
37
36
34
33
30
28
22
38
47
44
43
41
40
37
35
29
45
1374
4948
11
42
39
38
36
35
32
30
24
40
48
46
45
43
42
39
37
31
47
2356
8482
31
45
42
41
39
38
35
33
27
43
52
49
48
46
45
42
40
34
50
312
1122
1
31
29
28
26
25
22
20
14
30
39
36
35
33
32
29
27
21
37
935
3367
2
37
34
33
31
30
27
25
19
35
44
42
40
38
37
34
32
26
42
1559
5611
5
39
37
35
33
32
30
28
22
37
46
44
42
41
40
37
35
29
45
2182
7855
11
41
38
37
35
34
31
29
23
39
48
46
44
42
41
38
37
30
46
3117
11222
22
42
40
39
37
36
33
31
25
41
50
47
46
44
43
40
38
32
48
ΔPmin (Pa), Minimum pressure loss exerted on the system with Damper fully open
LW dB(A), Discharged or Re-generated Sound Power levels in dB(A)
ΔP= 100 Pa, Soud power levels at system atatic pressure level Pa per Octave Hz
Variable air volume controllers |
Radiated Sound Power levels
Ø630
15
9
6
5
7
<20
14
16
14
17
11
9
7
9
Ø
24
26
21
18
16
18
27
26
28
26
29
23
20
19
21
30
25
90
17
28
31
29
32
26
23
22
24
33
31
33
31
34
28
26
24
26
35
35
127
34
32
35
33
35
30
27
25
27
36
35
37
35
38
32
29
28
30
39
50
181
69
36
38
36
39
33
31
29
31
40
38
41
39
41
36
33
32
33
43
8
28
1
12
15
13
16
10
7
6
8
<20
15
17
15
18
12
9
8
10
<20
24
85
6
24
27
25
27
22
19
17
19
29
26
29
27
30
24
21
20
22
31
39
141
16
30
32
30
33
27
25
23
25
34
32
34
32
35
29
27
25
27
36
55
198
31
33
36
34
36
31
28
27
28
38
35
38
36
39
33
30
29
31
40
79
283
63
37
40
38
40
35
32
30
32
41
39
42
40
42
37
34
33
34
44
12
44
1
14
16
14
17
11
8
7
9
<20
15
18
16
18
13
10
9
10
<20
37
133
5
26
28
26
29
23
20
19
21
30
27
30
28
30
25
22
21
22
32
61
221
14
31
34
32
34
29
26
24
26
35
33
35
33
36
30
28
26
28
37
86
309
28
35
37
35
38
32
30
28
30
39
37
39
37
40
34
31
30
32
41
123
442
56
39
41
39
42
36
34
32
34
43
40
43
41
44
38
35
34
36
45
20
72
1
25
23
21
19
18
15
14
7
23
28
26
24
22
21
19
17
11
26
60
217
4
36
34
32
30
29
27
25
18
34
39
37
35
34
32
30
28
22
37
101
362
12
41
39
37
35
34
32
30
24
39
44
42
40
39
38
35
33
27
43
141
507
24
45
42
41
39
38
35
33
27
43
48
45
44
42
41
38
36
30
46
201
724
49
48
46
44
42
41
39
37
31
46
51
49
47
46
45
42
40
34
50
31
113
1
30
28
26
25
24
21
19
13
29
34
31
30
28
27
24
22
16
32
94
339
4
40
38
37
35
34
31
29
23
39
44
41
40
38
37
34
32
26
42
157
565
11
45
43
41
39
38
36
34
28
43
48
46
45
43
42
39
37
31
47
220
792
21
48
46
44
43
42
39
37
31
46
52
49
48
46
45
42
40
34
50
314
1131
42
51
49
48
46
45
42
40
34
50
55
53
51
49
48
45
43
37
53
49
177
1
35
33
31
29
28
25
24
17
33
38
36
35
33
32
29
27
21
37
147
530
3
44
42
40
38
37
35
33
26
42
48
45
44
42
41
38
36
30
46
245
884
9
48
46
44
43
42
39
37
31
47
52
50
48
46
45
42
40
34
50
344
1237
17
51
49
47
45
44
42
40
34
49
55
52
51
49
48
45
43
37
53
491
1767
36
54
52
50
48
47
45
43
37
52
58
55
54
52
51
48
46
40
56
78
281
1
39
37
35
33
32
29
27
21
37
43
40
39
37
36
33
31
25
41
234
842
3
47
45
43
41
40
38
36
29
45
51
48
47
45
44
41
39
33
49
390
1403
7
51
49
47
45
44
41
39
33
49
55
52
51
49
48
45
43
37
53
546
1964
14
53
51
49
48
47
44
42
36
52
57
55
53
51
50
48
46
39
55
779
2806
29
56
54
52
50
49
47
45
38
54
60
57
56
54
53
50
48
42
58
126
452
1
42
40
38
36
35
33
31
24
40
46
44
42
40
39
36
35
28
44
377
1357
2
49
47
45
44
43
40
38
32
48
53
51
49
47
46
44
42
35
51
628
2262
5
53
50
49
47
46
43
41
35
51
56
54
53
51
50
47
45
39
55
880
3167
11
55
52
51
49
48
45
43
37
53
59
56
55
53
52
49
47
41
57
1257
4524
22
57
55
53
51
50
48
46
40
55
61
59
57
55
54
51
50
43
59
196
707
1
44
42
40
39
38
35
33
27
43
48
46
44
43
42
39
37
31
47
589
2121
2
51
48
47
45
44
41
39
33
49
55
52
51
49
48
45
43
37
53
982
3534
5
53
51
50
48
47
44
42
36
52
57
55
54
52
51
48
46
40
56
1374
4948
11
55
53
51
50
49
46
44
38
54
59
57
55
54
53
50
48
42
58
2356
8482
31
58
56
55
53
52
49
47
41
57
62
60
59
57
56
53
51
45
61
312
1122
1
46
43
42
40
39
36
34
28
44
50
48
46
44
43
40
39
32
48
935
3367
2
51
49
47
45
44
42
40
33
49
55
53
51
50
49
46
44
38
53
1559
5611
5
53
51
50
48
47
44
42
36
52
58
55
54
52
51
48
46
40
56
2182
7855
11
55
53
51
49
48
46
44
37
53
59
57
55
54
53
50
48
42
58
3117
11222
22
57
54
53
51
50
47
45
39
55
61
59
57
55
54
51
50
43
59
ΔPmin (Pa), Minimum pressure loss exerted on the system with Damper fully open
LW dB(A), Discharged or Re-generated Sound Power levels in dB(A)
ΔP= 100 Pa, Soud power levels at system atatic pressure level Pa per Octave Hz
LW dB(A)
12
26
8000
14
23
4000
11
6
2000
1
54
4000
18
Q
DPmin
[m3/h] [Pa]
2000
5
15
Q
[l/s]
1000
1000
Ø500
500
Ø400
250
Ø315
125
Ø250
63
Ø200
LW dB(A)
Ø160
8000
Ø125
500
Ø100
∆Pt = 600 Pa
250
Ø80
∆Pt = 400 Pa
125
Size
Air Volume
63
Optima-R
27
| Variable air volume controllers
Optima-R-I
Double skin circular variable air volume unit
Highlights:
Dimensions
yy D
amper tightness class 4 according to EN 1751
yy Casing tightness class C according to EN 1751
yy ILH Hygienic certification VDI 6022 & VDI 3803 for
Standard Ventilation & Clean room application
yy High measuring accuracy of :
10-20% of Vmax air flow rate has an accuracy error rate
of: ±25%
20-40% of Vmax air flow rate has an accuracy error
rate of: <±10%
40-100% of Vmax air flow rate has an accuracy error
rate of: <±4%
yy Air volume range of 36 to 14589 m3/h
yy Operating range of up to 1500Pa
yy External 50mm insulation with sheet steel cover
Function
Double skin circular VAV terminal units are commonly used
for supply or return air applications at medium to high
system pressures. Terminal units are ideal for single zone
control with supply and return in master and slave setup
such as offices, hotel rooms or meeting rooms where the
required cooling and heating load will vary on demand.
Design
VAV unit housing is constructed from galvanized steel
sheet with external thermal insulation of fiber glass material. The insulation is once again covered by a secondary
galvanized sheet steel to protect the insulation and to
add to the low frequency sound radiated in high pressure
systems. Special design of multi-point pressure sensor
assures an accurate air flow readings even in difficult
installations.
92-110
L
45
ØD
45
be provided and can be connected later in time to building
management systems to create a zone control by creating
bus-rings solutions (only possible if MP-Bus communication is installed). VAV and Compact controllers are factory
calibrated as standard to the air volume indicated in the
table or upon request can be adjusted to site required
settings prior to dispatch on Vmin and Vmax range. The
air volumes can also be readjusted on site with ZTH-Gen
hand held service tool. If specific air volumes for Vmin and
Vmax would be required, this must be indicated prior to
order of the units for adequate calibration in the factory.
BLC1= Belimo LMV-D3 compact controller WITH MP-Bus
communication
BLC4= Belimo LMV-D3 compact controller WITHOUT MPBus communication
BLC1-MOD= Belimo LMV-D3 compact controller WITH
MODBUS communication
Available Sizes
630
Inlet/outlet : from ø 80 to ø 630 mm
500
400
Controls:
The VAV terminal units are as standard equipped with BLC
(Belimo compact) controllers (LMV-D3 or NMV-D3) without any MP or LON communication capability to be used
as stand alone or in master and slave setting.
The compact controllers are equally available with MPBus, ModBus and LON communication capability. On
demand as alternative, Gateway communication units can
315
Size (mm)
28
250
200
160
125
100
80
10
100
1000
Air-flow (m3/h)
7000
Variable air volume controllers |
Dimensions and Air Volume range
Code
Size
Ø D (mm)
L (mm)
Optim-R-I-08-BLC_
80
78
Optim-R-I-10-BLC_
100
98
Optim-R-I-12-BLC_
125
Optim-R-I-16-BLC_
Optim-R-I-20-BLC_
Air volume *(m3/h)
Air volume *(l/s)
Vmin
Vmax
Vmin
Vmax
400
36
235
10
65
400
57
368
16
102
123
400
88
574
25
160
160
158
400
145
941
40
261
200
198
600
226
1470
63
408
Optim-R-I-25-BLC_
250
248
800
353
2297
98
638
Optim-R-I-31-BLC_
315
313
800
561
3647
156
1013
Optim-R-I-40-BLC_
400
398
800
905
5881
251
1634
Optim-R-I-50-BLC_
500
498
1000
1414
9189
393
2553
Optim-R-I-63-BLC_
630
623
1000
2244
14589
623
4052
* Note = Standard factory air volume setting if not indicated upon order
Accuracy:
10-20% of Vmax air flow rate has an accuracy error rate of: ±25%
20-40% of Vmax air flow rate has an accuracy error rate of: <±10%
40-100% of Vmax air flow rate has an accuracy error rate of: <±4%
Ordering codes
Optima - Type - Size- Controller Type - Vmin - Vmax
Type
R-I
Code 08 to 63
(ØD-80 to ØD-630mm)
BLC4
BLC1
BLC1-MOD
m3/h or l/s*
m3/h or l/s*
* Note:
1. If the air volumes are not given during the ordering
process, then standard Factory setting will be applied
according to table
2. Vmin can also be set to 0m3/h if required by demand
upon ordering
3. The standard input signal on the controller is set to
2-10V, upon request 0-10V can also be selected
Optima-R-I-BLC_ installation Min distance to parameter walls
Air flow direction
Front view
ØD
Ordering example:
OPTIMA-R-I-25-353(m3/h)-2297(m3/h)-BLC4
The above order example is set for Vmin and Vmax air
volume setting for Ø250 with Belimo compact controller
having NO comminucation capability.
Lmin = 3 x D
29
| Variable air volume controllers
Discharged Sound Power levels
Ø160
Ø200
Ø250
Ø315
Ø400
Ø500
Ø630
2000
4000
8000
LW dB(A)
63
125
250
500
1000
2000
4000
8000
LW dB(A)
Ø125
1000
Ø100
∆Pt = 200 Pa
500
Ø80
∆Pt = 100 Pa
250
Size
Air Volume
125
Optima-R-I
63
30
5
18
1
18
26
29
28
26
20
16
11
30
24
32
35
33
31
26
22
16
36
15
54
6
29
37
40
39
37
31
27
22
41
35
43
46
45
43
37
33
28
47
25
90
17
35
43
45
44
42
37
33
27
46
41
48
51
50
48
42
38
33
52
35
127
34
38
46
49
47
45
40
36
30
50
44
52
55
53
51
46
42
36
55
50
181
69
42
50
52
51
49
44
40
34
53
48
55
58
57
55
49
45
40
59
8
28
1
22
29
32
31
29
23
19
14
33
27
35
38
37
35
29
25
20
39
24
85
6
32
40
43
42
39
34
30
25
44
38
46
49
47
45
40
36
30
50
39
141
16
37
45
48
47
44
39
35
30
49
43
51
54
52
50
45
41
35
55
55
198
31
41
48
51
50
48
42
38
33
52
46
54
57
56
54
48
44
39
58
79
283
63
44
52
55
53
51
46
42
36
56
50
58
61
59
57
52
48
42
61
12
44
1
24
32
35
34
32
26
22
17
36
30
38
41
40
37
32
28
23
42
37
133
5
35
42
45
44
42
36
32
27
46
41
48
51
50
48
42
38
33
52
61
221
14
39
47
50
49
47
41
37
32
51
45
53
56
55
53
47
43
38
57
86
309
28
43
50
53
52
50
44
40
35
54
48
56
59
58
56
50
46
41
60
123
442
56
46
54
57
55
53
48
44
38
57
52
60
62
61
59
54
50
44
63
20
72
1
27
35
38
36
34
29
25
19
39
33
41
44
42
40
35
31
25
45
Q
[l/s]
ΔPmin
Q
[m3/h] [Pa]
60
217
4
37
45
47
46
44
39
35
29
48
43
51
53
52
50
45
41
35
54
101
362
12
41
49
52
51
49
43
39
34
53
47
55
58
57
54
49
45
40
59
141
507
24
44
52
55
54
52
46
42
37
56
50
58
61
60
57
52
48
43
62
201
724
49
47
55
58
57
55
49
45
40
59
53
61
64
63
61
55
51
46
65
31
113
1
30
34
33
30
27
24
22
14
33
35
40
38
36
33
29
28
20
38
94
339
4
41
46
44
42
39
35
33
26
44
46
51
50
47
44
41
39
31
50
157
565
11
46
51
49
47
44
40
39
31
49
52
57
55
53
50
46
44
36
55
220
792
21
50
55
53
50
48
44
42
34
53
55
60
58
56
53
49
48
40
58
314
1131
42
53
58
56
54
51
48
46
38
57
59
64
62
60
57
53
51
44
62
49
177
1
34
38
37
34
31
28
26
18
37
39
44
43
40
37
34
32
24
43
147
530
3
44
49
47
45
42
38
36
29
47
50
55
53
51
48
44
42
34
53
245
884
9
49
54
52
49
47
43
41
33
52
55
59
58
55
52
49
47
39
58
344
1237
17
52
57
55
53
50
46
44
36
55
58
63
61
58
56
52
50
42
61
491
1767
36
55
60
58
56
53
49
48
40
58
61
66
64
62
59
55
53
46
64
78
281
1
37
42
40
38
35
31
29
22
40
43
48
46
44
41
37
35
28
46
234
842
3
46
51
49
47
44
40
39
31
49
52
57
55
53
50
47
45
37
56
390
1403
7
50
55
54
51
48
45
43
35
54
57
61
60
57
54
51
49
41
60
546
1964
14
53
58
56
54
51
47
46
38
56
59
64
62
60
57
54
52
44
63
779
2806
29
56
61
59
57
54
50
49
41
59
62
67
65
63
60
57
55
47
66
126
452
1
39
44
42
40
37
34
32
24
43
46
51
49
47
44
40
38
30
49
377
1357
2
47
52
51
48
45
42
40
32
51
54
59
57
55
52
48
46
38
57
628
2262
5
51
56
54
52
49
45
44
36
54
58
62
61
58
55
52
50
42
61
880
3167
11
54
58
57
54
51
48
46
38
57
60
65
63
61
58
54
53
45
63
1257
4524
22
56
61
59
57
54
51
49
41
59
63
68
66
63
61
57
55
47
66
196
707
1
41
46
44
42
39
35
33
25
44
47
52
51
48
45
42
40
32
51
589
2121
2
48
53
51
49
46
42
40
32
51
54
59
58
55
52
49
47
39
58
982
3534
5
51
56
54
52
49
45
43
36
54
58
63
61
59
56
52
50
42
61
1374
4948
11
53
58
56
54
51
47
46
38
56
60
65
63
61
58
54
52
45
63
2356
8482
31
57
61
60
57
54
51
49
41
60
63
68
66
64
61
58
56
48
67
312
1122
1
41
46
44
42
39
36
34
26
45
48
53
51
49
46
43
41
33
52
935
3367
2
47
52
50
48
45
41
40
32
50
54
59
57
55
52
48
47
39
57
1559
5611
5
50
55
53
51
48
44
42
35
53
57
62
60
58
55
51
49
42
60
2182
7855
11
52
57
55
52
50
46
44
36
55
59
64
62
60
57
53
51
43
62
3117
11222
22
54
58
57
54
51
48
46
38
57
61
66
64
61
59
55
53
45
64
ΔPmin (Pa), Minimum pressure loss exerted on the system with Damper fully open
LW dB(A), Discharged or Re-generated Sound Power levels in dB(A)
ΔP= 100 Pa, Soud power levels at system atatic pressure level Pa per Octave Hz
Variable air volume controllers |
Discharged Sound Power levels
Ø160
Ø200
Ø250
Ø315
Ø400
Ø500
Ø630
1000
2000
4000
8000
LW dB(A)
63
125
250
500
1000
2000
4000
8000
LW dB(A)
Ø125
500
Ø100
∆Pt = 600 Pa
250
Ø80
∆Pt = 400 Pa
125
Size
Air Volume
63
Optima-R-I
5
18
1
30
38
41
39
37
32
28
22
41
33
41
44
43
40
35
31
26
45
15
54
6
41
49
52
50
48
43
39
33
53
44
52
55
54
52
46
42
37
56
25
90
17
46
54
57
56
54
48
44
39
58
50
58
60
59
57
52
47
42
61
35
127
34
50
58
60
59
57
52
48
42
61
53
61
64
62
60
55
51
45
65
50
181
69
53
61
64
63
61
55
51
46
65
57
65
67
66
64
59
55
49
68
8
28
1
33
41
44
43
40
35
31
26
45
37
44
47
46
44
38
34
29
48
24
85
6
44
52
55
53
51
46
42
36
55
47
55
58
57
55
49
45
40
59
39
141
16
49
57
60
58
56
51
47
41
60
52
60
63
62
60
54
50
45
64
55
198
31
52
60
63
62
59
54
50
45
64
56
63
66
65
63
57
53
48
67
79
283
63
56
64
66
65
63
58
54
48
67
59
67
70
68
66
61
57
51
71
12
44
1
36
44
47
45
43
38
34
28
48
40
47
50
49
47
41
37
32
51
37
133
5
46
54
57
56
54
48
44
39
58
50
58
61
59
57
52
48
42
61
61
221
14
51
59
62
60
58
53
49
44
63
55
62
65
64
62
56
52
47
66
86
309
28
54
62
65
64
62
56
52
47
66
58
66
68
67
65
60
56
50
69
123
442
56
58
65
68
67
65
59
55
50
69
61
69
72
70
68
63
59
53
73
20
72
1
39
47
50
48
46
41
37
31
50
42
50
53
52
50
44
40
35
54
Q
[l/s]
DPmin
Q
[m3/h] [Pa]
60
217
4
49
57
59
58
56
51
46
41
60
52
60
63
61
59
54
50
45
64
101
362
12
53
61
64
63
60
55
51
46
65
57
65
67
66
64
59
55
49
68
141
507
24
56
64
67
66
63
58
54
49
68
60
68
70
69
67
62
57
52
71
201
724
49
59
67
70
69
67
61
57
52
71
63
71
74
72
70
65
61
55
74
31
113
1
41
45
44
41
38
35
33
25
44
44
49
47
45
42
38
36
28
47
94
339
4
52
57
55
53
50
46
44
37
55
55
60
58
56
53
49
48
40
58
157
565
11
57
62
60
58
55
52
50
42
61
60
65
64
61
58
55
53
45
64
220
792
21
61
66
64
62
59
55
53
45
64
64
69
67
65
62
58
56
49
67
314
1131
42
64
69
68
65
62
59
57
49
68
68
72
71
68
65
62
60
52
71
49
177
1
45
50
48
46
43
40
38
30
49
49
54
52
49
47
43
41
33
52
147
530
3
56
60
59
56
53
50
48
40
59
59
64
62
60
57
53
51
44
62
245
884
9
60
65
63
61
58
55
53
45
64
64
69
67
65
62
58
56
48
67
344
1237
17
64
68
67
64
61
58
56
48
67
67
72
70
68
65
61
59
52
70
491
1767
36
67
72
70
68
65
61
59
51
70
70
75
73
71
68
65
63
55
74
78
281
1
49
54
52
50
47
43
42
34
52
53
58
56
54
51
47
45
37
56
234
842
3
58
63
61
59
56
53
51
43
62
62
67
65
63
60
56
54
47
65
390
1403
7
63
67
66
63
60
57
55
47
66
66
71
69
67
64
61
59
51
69
546
1964
14
65
70
69
66
63
60
58
50
69
69
74
72
70
67
63
61
54
72
779
2806
29
68
73
72
69
66
63
61
53
72
72
77
75
73
70
66
64
57
75
126
452
1
52
57
55
53
50
47
45
37
56
56
61
59
57
54
50
48
41
59
377
1357
2
60
65
63
61
58
55
53
45
64
64
69
67
65
62
58
57
49
67
628
2262
5
64
69
67
65
62
58
56
49
67
68
73
71
69
66
62
60
52
71
880
3167
11
67
71
70
67
64
61
59
51
70
70
75
73
71
68
65
63
55
74
1257
4524
22
69
74
72
70
67
63
62
54
72
73
78
76
74
71
67
65
58
76
196
707
1
54
59
57
55
52
49
47
39
57
58
63
61
59
56
52
51
43
61
589
2121
2
61
66
64
62
59
56
54
46
64
65
70
68
66
63
59
58
50
68
982
3534
5
64
69
68
65
62
59
57
49
68
68
73
72
69
66
63
61
53
72
1374
4948
11
67
71
70
67
64
61
59
51
70
71
75
74
71
68
65
63
55
74
2356
8482
31
70
75
73
71
68
64
62
55
73
74
79
77
75
72
68
66
59
77
312
1122
1
55
60
58
56
53
50
48
40
59
59
64
63
60
57
54
52
44
63
935
3367
2
61
66
64
62
59
56
54
46
65
65
70
69
66
63
60
58
50
69
1559
5611
5
64
69
67
65
62
58
56
49
67
68
73
71
69
66
62
61
53
71
2182
7855
11
66
71
69
67
64
60
58
50
69
70
75
73
71
68
64
62
55
73
3117
11222
22
68
73
71
69
66
62
60
52
71
72
77
75
73
70
66
64
56
75
ΔPmin (Pa), Minimum pressure loss exerted on the system with Damper fully open
LW dB(A), Discharged or Re-generated Sound Power levels in dB(A)
ΔP= 100 Pa, Soud power levels at system atatic pressure level Pa per Octave Hz
31
| Variable air volume controllers
Radiated Sound Power levels
Ø160
Ø200
Ø250
Ø315
Ø400
Ø500
Ø630
250
500
4000
8000
LW dB(A)
125
9
8
6
6
1
0
0
0
<20
13
12
10
11
6
1
0
0
Ø
6
21
19
17
18
13
8
6
5
<20
25
24
22
22
17
13
10
9
21
25
90
17
26
25
23
23
18
14
11
10
23
30
29
27
28
23
18
15
14
27
35
127
34
29
28
26
27
22
17
15
14
27
34
33
31
31
26
22
19
18
31
50
181
69
33
32
30
31
26
21
18
17
31
38
36
35
35
30
25
23
22
35
8
28
1
11
10
8
8
4
0
0
0
<20
15
14
12
12
7
2
0
0
<20
24
85
6
23
22
20
20
15
11
8
7
20
27
25
23
24
19
14
12
11
25
39
141
16
28
27
25
26
21
16
13
13
26
32
31
29
29
25
20
17
16
30
55
198
31
32
31
29
29
24
20
17
16
30
36
35
33
33
28
23
21
20
34
79
283
63
36
35
33
33
28
24
21
20
34
39
38
36
37
32
27
25
24
38
12
44
1
13
12
10
11
6
1
0
0
<20
16
15
13
14
9
4
1
1
<20
37
133
5
25
24
22
23
18
13
10
9
23
28
27
25
26
21
16
13
13
28
61
221
14
31
30
28
28
23
19
16
15
28
34
33
31
31
26
22
19
18
33
86
309
28
35
33
31
32
27
22
20
19
32
38
37
35
35
30
25
23
22
37
123
442
56
38
37
35
36
31
26
23
23
36
42
40
38
39
34
29
27
26
40
20
72
1
14
13
11
12
7
2
0
0
<20
20
19
17
17
12
7
5
4
<20
2000
63
1
54
1000
LW dB(A)
18
DPmin
Q
[m3/h] [Pa]
500
5
15
Q [l/s]
250
8000
Ø125
4000
Ø100
∆Pt = 200 Pa
2000
Ø80
∆Pt = 100 Pa
125
Size
Air Volume
1000
Optima-R-I
63
32
60
217
4
25
24
22
23
18
13
10
9
25
31
30
28
28
23
18
16
15
30
101
362
12
30
29
27
28
23
18
15
15
31
36
35
33
33
28
24
21
20
36
141
507
24
34
33
31
31
26
22
19
18
34
39
38
36
37
32
27
24
23
39
201
724
49
37
36
34
35
30
25
22
22
38
43
42
40
40
35
30
28
27
43
31
113
1
19
18
16
16
11
7
4
3
<20
25
24
22
22
17
12
10
9
22
94
339
4
29
28
26
27
22
17
14
13
27
35
34
32
32
27
23
20
19
32
157
565
11
34
33
31
31
26
22
19
18
32
39
38
36
37
32
27
25
24
37
220
792
21
37
36
34
34
29
25
22
21
35
43
41
40
40
35
30
28
27
41
314
1131
42
40
39
37
38
33
28
25
24
39
46
45
43
43
38
34
31
30
44
49
177
1
23
22
20
20
15
11
8
7
<20
29
28
26
26
21
17
14
13
24
147
530
3
32
31
29
30
25
20
17
16
29
38
37
35
36
31
26
23
22
34
245
884
9
36
35
33
34
29
24
21
21
33
42
41
39
40
35
30
27
27
39
344
1237
17
39
38
36
37
32
27
24
23
36
45
44
42
43
38
33
30
29
42
491
1767
36
42
41
39
40
35
30
27
26
40
48
47
45
46
41
36
33
32
45
78
281
1
26
25
23
24
19
14
11
11
<20
33
32
30
30
25
20
18
17
26
234
842
3
35
33
31
32
27
22
20
19
29
41
40
38
38
33
29
26
25
35
390
1403
7
38
37
35
36
31
26
23
23
34
45
44
42
42
37
32
30
29
40
546
1964
14
41
40
38
38
33
29
26
25
37
47
46
44
45
40
35
32
31
43
779
2806
29
43
42
40
41
36
31
29
28
40
50
49
47
47
42
38
35
34
46
126
452
1
29
28
26
26
21
17
14
13
21
36
34
32
33
28
23
21
20
27
377
1357
2
36
35
33
34
29
24
21
20
30
43
42
40
40
35
30
28
27
36
628
2262
5
39
38
36
37
32
27
25
24
34
46
45
43
43
39
34
31
30
40
880
3167
11
42
41
39
39
34
29
27
26
37
48
47
45
46
41
36
33
32
43
1257
4524
22
44
43
41
41
36
32
29
28
40
51
49
48
48
43
38
36
35
46
196
707
1
31
29
28
28
23
18
16
15
22
37
36
34
35
30
25
22
22
28
589
2121
2
37
36
34
34
29
25
22
21
30
44
43
41
41
36
31
29
28
36
982
3534
5
40
39
37
37
32
27
25
24
34
47
45
44
44
39
34
32
31
40
1374
4948
11
42
41
39
39
34
29
27
26
36
48
47
45
46
41
36
34
33
43
2356
8482
31
45
44
42
42
37
32
30
29
41
52
50
48
49
44
39
37
36
47
312
1122
1
31
30
28
29
24
19
17
16
22
39
38
36
36
31
26
24
23
28
935
3367
2
37
36
34
34
29
24
22
21
29
44
43
41
41
36
32
29
28
36
1559
5611
5
39
38
36
37
32
27
24
23
33
46
45
43
44
39
34
31
31
40
2182
7855
11
41
40
38
38
33
29
26
25
36
48
47
45
45
40
36
33
32
42
3117
11222
22
42
41
39
40
35
30
28
27
38
50
49
47
47
42
37
35
34
45
ΔPmin (Pa), Minimum pressure loss exerted on the system with Damper fully open
LW dB(A), Discharged or Re-generated Sound Power levels in dB(A)
ΔP= 100 Pa, Soud power levels at system atatic pressure level Pa per Octave Hz
Variable air volume controllers |
Radiated Sound Power levels
8000
LW dB(A)
17
16
14
15
10
5
2
2
<20
20
19
17
17
12
8
5
4
<20
6
29
28
26
27
22
17
14
13
25
32
31
29
29
24
19
17
16
28
25
90
17
35
33
31
32
27
22
20
19
31
37
36
34
34
30
25
22
21
34
35
127
34
38
37
35
36
31
26
23
22
35
41
40
38
38
33
28
26
25
38
50
181
69
42
41
39
39
34
30
27
26
39
44
43
41
42
37
32
29
29
42
8
28
1
18
17
15
16
11
6
3
3
<20
21
20
18
18
13
8
6
5
<20
24
85
6
30
29
27
28
23
18
15
14
29
32
31
29
30
25
20
17
17
32
39
141
16
36
35
33
33
28
24
21
20
35
38
37
35
35
30
26
23
22
37
55
198
31
39
38
36
37
32
27
24
24
38
42
40
38
39
34
29
27
26
41
79
283
63
43
42
40
41
36
31
28
27
42
45
44
42
43
38
33
30
30
45
12
44
1
20
18
17
17
12
7
5
4
21
21
20
18
19
14
9
6
6
23
37
133
5
32
30
28
29
24
19
17
16
32
33
32
30
31
26
21
18
18
35
61
221
14
37
36
34
35
30
25
22
21
38
39
38
36
36
31
27
24
23
40
86
309
28
41
40
38
38
33
29
26
25
41
43
42
40
40
35
30
28
27
44
123
442
56
45
44
42
42
37
32
30
29
45
46
45
43
44
39
34
32
31
48
20
72
1
25
24
22
22
18
13
10
9
24
28
27
25
26
21
16
13
12
27
60
217
4
36
35
33
33
29
24
21
20
35
39
38
36
37
32
27
24
23
38
101
362
12
41
40
38
39
34
29
26
25
40
44
43
41
42
37
32
29
29
43
141
507
24
45
43
42
42
37
32
30
29
44
48
47
45
45
40
35
33
32
47
201
724
49
48
47
45
46
41
36
33
32
47
51
50
48
49
44
39
36
36
50
31
113
1
30
29
27
28
23
18
15
15
27
34
33
31
31
26
21
19
18
30
94
339
4
40
39
37
38
33
28
25
25
38
44
43
41
41
36
32
29
28
41
157
565
11
45
44
42
43
38
33
30
29
43
48
47
45
46
41
36
34
33
46
220
792
21
48
47
45
46
41
36
33
32
46
52
50
49
49
44
39
37
36
49
314
1131
42
52
50
48
49
44
39
37
36
49
55
54
52
52
47
43
40
39
52
49
177
1
35
34
32
32
27
23
20
19
30
38
37
35
36
31
26
23
23
33
147
530
3
44
43
41
42
37
32
29
28
40
48
47
45
45
40
35
33
32
43
245
884
9
48
47
45
46
41
36
33
33
44
52
51
49
49
44
40
37
36
47
344
1237
17
51
50
48
49
44
39
36
35
47
55
54
52
52
47
42
40
39
51
491
1767
36
54
53
51
52
47
42
39
38
51
58
57
55
55
50
45
43
42
54
78
281
1
39
38
36
36
31
27
24
23
32
43
41
39
40
35
30
28
27
35
234
842
3
47
46
44
44
40
35
32
31
41
51
50
48
48
43
38
36
35
45
390
1403
7
51
50
48
48
43
39
36
35
46
55
53
51
52
47
42
40
39
49
546
1964
14
53
52
50
51
46
41
38
38
48
57
56
54
54
50
45
42
41
52
779
2806
29
56
55
53
53
49
44
41
40
52
60
59
57
57
52
47
45
44
55
126
452
1
42
41
39
40
35
30
27
26
33
46
45
43
43
38
34
31
30
37
377
1357
2
49
48
46
47
42
37
34
33
42
53
52
50
51
46
41
38
37
46
628
2262
5
53
52
50
50
45
40
38
37
46
56
55
53
54
49
44
41
41
50
880
3167
11
55
54
52
52
47
43
40
39
49
59
58
56
56
51
46
44
43
53
1257
4524
22
57
56
54
55
50
45
42
41
52
61
60
58
58
53
49
46
45
56
196
707
1
44
43
41
42
37
32
29
29
34
48
47
45
46
41
36
33
33
38
589
2121
2
51
49
47
48
43
38
36
35
43
55
53
52
52
47
42
40
39
47
982
3534
5
53
52
50
51
46
41
38
38
47
57
56
54
55
50
45
42
42
50
1374
4948
11
55
54
52
53
48
43
40
40
49
59
58
56
57
52
47
44
44
53
2356
8482
31
58
57
55
56
51
46
43
43
53
62
61
59
60
55
50
47
47
57
312
1122
1
46
45
43
43
38
34
31
30
35
50
49
47
47
42
38
35
34
39
935
3367
2
51
50
48
48
44
39
36
35
43
55
54
52
53
48
43
40
39
47
1559
5611
5
53
52
50
51
46
41
39
38
47
58
57
55
55
50
45
43
42
51
2182
7855
11
55
54
52
53
48
43
40
39
49
59
58
56
57
52
47
44
44
53
3117
11222
22
57
56
54
54
49
45
42
41
52
61
60
58
58
54
49
46
45
56
ΔPmin (Pa), Minimum pressure loss exerted on the system with Damper fully open
LW dB(A), Discharged or Re-generated Sound Power levels in dB(A)
ΔP= 100 Pa, Soud power levels at system atatic pressure level Pa per Octave Hz
4000
1
2000
18
54
Q
DPmin
[m3/h] [Pa]
4000
5
15
Q
[l/s]
2000
1000
Ø630
500
Ø500
250
Ø400
125
Ø315
63
Ø250
LW dB(A)
Ø200
8000
Ø160
1000
Ø125
500
Ø100
∆Pt = 600 Pa
250
Ø80
∆Pt = 400 Pa
125
Size
Air Volume
63
Optima-R-I
33
34
| Variable air volume controllers
OPTIMA-RM
Zone air supply / extract total ratio control system
Highlights:
Dimensions
yy
yy
yy
The body tightness class C acc. to EN 1751
Hygienic certificate acc. to VDI 6022 and VDI 3803
High accuracy up to 5%
0-20% of Vmax air flow rate has an accuracy error rate
of: ±25%
20-40% of Vmax air flow rate has an accuracy error rate
of: <±10%
40-100% of Vmax air flow rate has an accuracy error
rate of: <±4%
yy Flow measuring range 0 to 10974 m3/h
yy Fit for static pressure of 1000 Pa
Function
The flow transmitter Optima-RM is a part of a system
that maintains a proper ratio between the supply
and extract of a zone with individual flow control in air
supply branches. The information about the total zone
supply air flow is forwarded as a request for total zone
extract air flow control. This helps avoiding undesired
effects like too large air exchange, air suction into zone
in non standard locations or air drought. The system
consists from the air flow measuring transmitter in the
common zone air supply duct (the product Optima-RM
itself) and an especially adjusted air flow controller
(VAV Optima-R) in the common zone extract air duct.
The air extract controller is proportionally adjusted
by the measured flow value on the air supply
by the measuring transmitter Optima-RM.
This value is represented by the signal DC 0-10V.
Control diagram. Zone air flow control by Optima-RM system
Design
The measuring unit body is produced from galvanized
steel sheet. The construction of the measuring cross assures accurate reedings of the air flow also in complicated
installations.
Ordering codes
Optima-RM Size code 08 - 63 (øD 80 - 630 mm)
Available Sizes
inlet / outlet: ø 80 to ø 630 mm
Ordering code example:
Accessories for Optima-RM:
Optima-RM - 40
Optima-RM, size 400, control voltage DC 10V.
• Attenuators Optima-ASA
Attenuators applicable for reduction of the generated
noise.
Variable air volume controllers |
Dimensions
Vmin (m3/h)
Vmax (m3/h)
(Um = 0V,
v = 0 m/s)
(Um = 10 V,
v = 10 m/s)
260
0
172
1,27
260
0
272
123
1,49
260
0
428
138
1,60
260
0
538
160
158
1,73
260
0
706
180
178
1,87
260
0
896
200
198
2,00
260
0
1108
225
223
2,18
260
0
1406
250
248
2,68
260
0
1739
280
278
2,93
260
0
2185
315
313
3,21
260
0
2770
355
353
3,54
260
0
3523
400
398
3,91
260
0
4479
500
498
4,74
260
0
7012
630
623
5,80
260
0
10974
Size
DN
øD
(mm)
m
(kg)
L
(mm)
80
78
1,15
100
98
125
140
Tab. 1: Optima-RM table of dimensions and air volume range
Accuracy :
0 - 20% of Vmax air flow rate has an accuracy error rate of: ±25%
20 - 40% of Vmax air flow rate has an accuracy error rate of: <±10%
40 - 100% of Vmax air flow rate has an accuracy error rate of: <±4%
Control
The main function of Optima-RM is maintaining
the overall parameters of air flow and pressure
in the controlled zone - that means maintaining the
desired proportion between the air flow on the air supply
and on the air extract of the zone. The actual flow value
measured on the zone air supply represents a sum of air
flow in all branches in the zone - so their actual control
position. The zone air extract flow value is controlled
according to the flow value on the zone air supply.
The signal of the flow measurement on the zone air
supply is linked to the VAV controller on the zone extract
as the desired air flow control value.
For the proportional control the basic parameters
of the air flow measurement on the zone supply are
identical with the basic parameters of the control
at the zone extract and defined as follows:
Zone air supply:
Measuring transmitter Optima-RM
yy Signal of the measured flow value DC 0 - 10 V
yy Lower limit of measured flow Vmin = 0 % of measuring range (signal DC 0 V) corresponds to the flow
velocity 0 m/s
35
36
| Variable air volume controllers
yy Upper limit of measured flow Vmax = 100 % of the
measuring range (signal DC 10 V) corresponds to the
flow velocity 10 m/s
Zone air exhaust:
VAV controller Optima-R, Optima-R-GO (or other)
yy Desired flow valiue signal DC 0 - 10 V
yy Lower limit of flow control Vmin = 0 % of the control
yy range (signal DC 0 V) corresponds to flow velocity 0
m/s
yy Upper limit of flow control Vmax = 100 % of the control
range (signal DC 10 V) corresponds to flow velocity 10
m/s
These are the factory settings regarding the use
of Systemair products Optima-RM and Optima-R
or Optima-R-GO with identical nominal sizes.
So for the chosen flow velocities the identical values of
the air flow on supply and extract are achieved (Tab.1).
By adjusting the parameters of minimal and maximal air
flow volume of the VAV-controller on the air extract it is
possible to set the proportion supply/extract.
This generates zero pressure difference between zone
and surroundings, overpreessure or underpressure.
Legend
Vsup
- Zone supply flow (measurement Optima-RM)
Vexh
- Zone extract flow (VAV control)
Settings for zone air flow ratio supply / extract
Mounting
Measuring track length after Elbow or a T-branch etc.
installations, L to be min. 3 times duct diameter. If L can
not be respected, then minimum of 2 × diameter
with perforated equalizing grid should be installed.
Optima-RM: Installation Min distance to parameter walls
Optima-RM positioning and definition of measuring track length
Variable air volume controllers |
Optima-RS
Single skin variable air volume unit
round inlet and rectanglar oulet
Highlights:
W1
81
H
W
H1
Damper tightness class 4 according to EN 1751
Casing tightness class C according to EN 1751
High measuring accuracy of 5% accuracy expanded
10-20% of Vmax air flow rate has an accuracy error rate
of: ±25%
20-40% of Vmax air flow rate has an accuracy error rate
of: <±10%
40-100% of Vmax air flow rate has an accuracy error
rate of: <±4%
yy Air volume range of 57 to 5881 m3/h
yy Operating range of up to 1500Pa
yy 30 mm high density insulation with cleanable protection tissue cover
Dimensions
yy
yy
yy
L
L0
L1
45
Single skin round to square VAV terminal units is common­
ly used for supply air applications or for return air applica­
tions at low to medium system pressures. Optima-RS VAV
terminal units are ideal for multizone control with supply
and return in master and slave setup such as offices, hotel
rooms or meeting rooms where the required cooling and
heating load will vary on demand.
Design
VAV unit housing constructed of galvanized steel sheet,
large surface pleated for extra stiffness. Internal thermal
acoustic insulation of fibre glass material, dual density
insulation cover tissue is used to protect the fiberglass
insulation to protect the deterioration of the insulation for
air speeds of 20-25m/s.
Acoustic insulation in the housing has aerodynamic flow
for extra low sound level. Double skin low leakage damper
with airtight neoprene gasket seal.
Special design of centre averaging multi-point airflow
differential cross velocity pressure sensor assures an accurate air flow readings even in difficult installations. Button
punch snap lock seams, lock form with airtight nylon
bearings to assure low casing leakage.
Rectangular outlet with M8 riveted nuts, suited for connecting to duct flange. 12 mm aluminium shaft with nylon
bearings
Available Sizes
Inlet: from ø 100 to ø 400 mm
øD
Function
Controls:
The VAV terminal units are as standard equipped with BLC
(Belimo compact) controllers (LMV-D3 or NMV-D3) without any MP or LON communication capability to be used
as stand alone or in master and slave setting.
The compact controllers are equally available with MPBus, ModBus and LON communication capability. On
demand as alternative, Gateway communication units can
be provided and can be connected later in time to building
management systems to create a zone control by creating
bus-rings solutions (only possible if MP-Bus communication is installed). VAV and Compact controllers are factory
calibrated as standard to the air volume indicated in the
table or upon request can be adjusted to site required
settings prior to dispatch on Vmin and Vmax range. The
air volumes can also be readjusted on site with ZTH-Gen
hand held service tool. If specific air volumes for Vmin and
Vmax would be required, this must be indicated prior to
order of the units for adequate calibration in the factory.
BLC1= Belimo LMV-D3 compact controller WITH MP-Bus
communication
BLC4= Belimo LMV-D3 compact controller WITHOUT MPBus communication
BLC1-MOD= Belimo LMV-D3 compact controller WITH
MODBUS communication
37
| Variable air volume controllers
Dimensions and Air Volume range
Code
Size
Optim-RS-10-BLC_
100
Air volume
*(m3/h)
ØD
L
L0
L1
W
H
W1
H1
m
(mm) (mm) (mm) (mm) (mm) (mm) (mm) (mm) (kg)
98
450
149
303
200
200
260
260
5
Air volume *(l/s)
Vmin
Vmax
Vmin
Vmax
57
368
16
102
Optim-RS-12-BLC_
125
123
450
149
303
200
200
260
260
5
88
574
25
160
Optim-RS-16-BLC_
160
158
600
200
403
250
200
310
260
7
145
941
40
261
Optim-RS-20-BLC_
200
198
700
200
503
400
200
460
260
10
226
1470
63
408
Optim-RS-25-BLC_
250
248
750
249
503
500
250
560
310
12
353
2297
98
638
Optim-RS-31-BLC_
315
313
950
249
703
600
350
660
410
19
561
3647
156
1013
Optim-RS-40-BLC_
400
398
950
249
703
700
400
760
460
25
905
5881
251
1634
* Note = Standard factory air volume setting if not indicated upon order
Accuracy:
10 - 20% of Vmax air flow rate has an accuracy error rate of: ±25%
20 - 40% of Vmax air flow rate has an accuracy error rate of: <±10%
40 - 100% of Vmax air flow rate has an accuracy error rate of: <±4%
Ordering codes
Front View
Optima - Type - Size- Controller Type - Vmin - Vmax
Type
RS
Code 10 to 40
(ØD-100 to ØD-400mm)
BLC4
BLC1
BLC1-MOD
m3/h or l/s*
m3/h or l/s*
* Note:
1. If the air volumes are not given during the ordering
process, then standard Factory setting will be applied
according to table
2. Vmin can also be set to 0m3/h if required by demand
upon ordering
3. The standard input signal on the controller is set to
2-10V, upon request 0-10V can also be selected
Ordering example:
OPTIMA-RS-25-353(m3/h)-2297(m3/h)-BLC4
The above order example is set for Vmin and Vmax air
volume setting for Ø250 with Belimo compact controller
having NO comminucation capability.
200
80
38
Optima-RS-BLC_ installation Min distance to parameter walls
Air flow direction
ØD
Lmin = 3 x D
Variable air volume controllers |
OPTIMA-RS Discharged sound power level
Optima
RS
Discharged
Size
∆Pmin
Q
Q
[l/s] [m3/h] [Pa]
100
125
160
200
250
315
400
∆Pt = 100 Pa
63
125
250
∆Pt = 200 Pa
500 1000 2000 4000 8000 dB(A)
63
125
250
500 1000 2000 4000 8000 dB(A)
8
28
1
24
25
31
26
21
18
16
13
28
31
32
38
32
28
24
23
20
35
24
85
2
33
35
41
35
31
27
26
23
38
40
41
48
42
38
34
33
30
45
39
141
6
38
39
45
40
35
32
30
27
42
45
46
52
46
42
38
37
34
49
55
198
13
41
42
48
43
38
34
33
30
45
48
49
55
49
45
41
40
37
52
79
283
26
44
45
51
46
41
38
36
33
48
51
52
58
52
48
44
43
40
55
12
44
1
26
27
33
27
23
19
18
15
30
32
34
40
34
30
26
25
22
37
37
133
2
35
36
42
37
32
28
27
24
39
42
43
49
43
39
35
34
31
46
61
221
6
39
40
47
41
37
33
32
29
43
46
47
53
48
44
40
39
35
50
86
309
11
42
43
49
44
40
36
35
31
46
49
50
56
51
46
43
41
38
53
123
442
23
45
46
52
47
43
39
38
34
49
52
53
59
54
50
46
44
41
56
20
72
1
27
28
35
29
25
21
20
17
31
34
35
42
36
32
28
27
24
39
60
217
2
36
37
44
38
34
30
29
26
41
43
44
51
45
41
37
36
33
48
101
362
5
40
42
48
42
38
34
33
30
45
47
49
55
49
45
41
40
37
52
141
507
10
43
44
51
45
41
37
36
33
47
50
51
58
52
48
44
43
40
55
201
724
21
46
47
53
48
44
40
39
35
50
53
54
61
55
51
47
46
42
57
31
113
1
28
30
36
30
26
22
21
18
33
36
37
43
37
33
29
28
25
40
94
339
2
37
38
45
39
35
31
30
27
42
44
45
52
46
42
38
37
34
49
157
565
5
41
42
49
43
39
35
34
31
46
48
50
56
50
46
42
41
38
53
220
792
9
44
45
51
46
42
38
36
33
48
51
52
59
53
49
45
44
40
55
314
1131
19
47
48
54
49
44
40
39
36
51
54
55
61
56
52
48
46
43
58
49
177
1
30
31
37
31
27
23
22
19
34
37
38
44
38
34
30
29
26
41
147
530
2
38
39
45
40
36
32
30
27
42
45
46
53
47
43
39
38
35
50
245
884
4
42
43
49
44
40
36
34
31
46
49
50
57
51
47
43
42
39
54
344
1237
8
45
46
52
46
42
38
37
34
49
52
53
59
54
49
45
44
41
56
491
1767
17
47
48
55
49
45
41
40
37
52
55
56
62
56
52
48
47
44
59
78
281
1
30
31
38
32
28
24
23
20
35
38
39
45
39
35
31
30
27
42
234
842
1
39
40
46
40
36
32
31
28
43
46
47
53
48
44
40
38
35
50
390
1403
4
42
44
50
44
40
36
35
32
47
50
51
57
52
47
43
42
39
54
546
1964
7
45
46
52
47
43
39
37
34
49
52
54
60
54
50
46
45
42
57
779
2806
15
48
49
55
49
45
41
40
37
52
55
56
62
57
53
49
48
44
59
126
452
1
31
32
38
33
29
25
23
20
35
39
40
46
40
36
32
31
28
43
377
1357
1
39
40
46
41
37
33
31
28
43
47
48
54
48
44
40
39
36
51
628
2262
3
43
44
50
44
40
36
35
32
47
50
51
58
52
48
44
43
40
55
880
3167
7
45
46
53
47
43
39
38
35
49
53
54
60
54
50
46
45
42
57
1257 4524
14
48
49
55
49
45
41
40
37
52
55
56
63
57
53
49
48
45
60
39
40
| Variable air volume controllers
OPTIMA-RS Discharged sound power level
Optima
RS
Size
100
125
160
200
250
315
400
Discharged
Q
[l/s]
∆Pt = 400 Pa
∆Pmin
Q
[m3/h] [Pa]
63
125
250
∆Pt = 600 Pa
500 1000 2000 4000 8000 dB(A)
63
125
250
500 1000 2000 4000 8000 dB(A)
8
28
1
37
39
45
39
35
31
30
27
42
41
43
49
43
39
35
34
31
46
24
85
2
47
48
54
49
45
41
39
36
51
51
52
58
53
48
45
43
40
55
39
141
6
51
53
59
53
49
45
44
41
56
55
57
63
57
53
49
48
45
60
55
198
13
54
55
62
56
52
48
47
44
59
58
59
66
60
56
52
51
48
63
79
283
26
58
59
65
59
55
51
50
47
62
61
63
69
63
59
55
54
51
66
12
44
1
39
40
47
41
37
33
32
29
44
43
45
51
45
41
37
36
33
48
37
133
2
49
50
56
50
46
42
41
38
53
53
54
60
54
50
46
45
42
57
61
221
6
53
54
60
55
51
47
45
42
57
57
58
64
59
55
51
50
46
61
86
309
11
56
57
63
58
53
49
48
45
60
60
61
67
62
57
54
52
49
64
123
442
23
59
60
66
61
56
52
51
48
63
63
64
70
65
60
57
55
52
67
20
72
1
41
42
49
43
39
35
34
31
46
45
46
53
47
43
39
38
35
50
60
217
2
50
51
58
52
48
44
43
40
55
54
56
62
56
52
48
47
44
59
101
362
5
55
56
62
56
52
48
47
44
59
59
60
66
60
56
52
51
48
63
141
507
10
57
58
65
59
55
51
50
47
62
61
62
69
63
59
55
54
51
66
201
724
21
60
61
68
62
58
54
53
50
64
64
65
72
66
62
58
57
54
69
31
113
1
43
44
50
44
40
36
35
32
47
47
48
54
49
44
41
39
36
51
94
339
2
52
53
59
53
49
45
44
41
56
56
57
63
57
53
49
48
45
60
157
565
5
56
57
63
57
53
49
48
45
60
60
61
67
61
57
53
52
49
64
220
792
9
58
59
66
60
56
52
51
48
63
63
64
70
64
60
56
55
52
67
314
1131
19
61
62
69
63
59
55
54
50
65
65
66
73
67
63
59
58
55
70
49
177
1
44
45
51
46
42
38
37
33
48
48
49
56
50
46
42
41
38
53
147
530
2
53
54
60
54
50
46
45
42
57
57
58
64
59
54
50
49
46
61
245
884
4
57
58
64
58
54
50
49
46
61
61
62
68
62
58
54
53
50
65
344
1237
8
59
60
67
61
57
53
52
48
63
63
65
71
65
61
57
56
53
68
491
1767
17
62
63
69
64
59
56
54
51
66
66
67
74
68
64
60
59
56
70
78
281
1
45
46
53
47
43
39
38
35
49
50
51
57
51
47
43
42
39
54
234
842
1
53
55
61
55
51
47
46
43
58
58
59
65
59
55
51
50
47
62
390
1403
4
57
58
65
59
55
51
50
47
62
62
63
69
63
59
55
54
51
66
546
1964
7
60
61
67
61
57
53
52
49
64
64
65
71
66
62
58
57
53
68
779
2806
15
63
64
70
64
60
56
55
52
67
67
68
74
69
64
60
59
56
71
126
452
1
46
47
53
48
44
40
39
35
50
51
52
58
52
48
44
43
40
55
377
1357
1
54
55
61
56
52
48
47
43
58
59
60
66
60
56
52
51
48
63
628
2262
3
58
59
65
59
55
51
50
47
62
62
63
70
64
60
56
55
52
67
880
3167
7
60
61
68
62
58
54
53
50
65
65
66
72
66
62
58
57
54
69
1257
4524
14
63
64
70
65
60
56
55
52
67
67
68
75
69
65
61
60
57
72
Variable air volume controllers |
OPTIMA-RS Radiated sound levels
Optima
RS
Radiated
Size
∆Pmin
Q
Q
[l/s] [m3/h] [Pa]
100
125
160
200
250
315
400
∆Pt = 100 Pa
63
125
250
∆Pt = 200 Pa
500 1000 2000 4000 8000 dB(A)
63
125
250
500 1000 2000 4000 8000 dB(A)
8
28
1
20
27
22
10
<5
<5
<5
<5
14
23
30
25
14
<5
<5
<5
<5
18
24
85
2
34
41
36
25
12
4
3
7
29
37
45
39
28
15
7
6
10
32
39
141
6
41
48
43
31
19
11
10
14
35
44
51
46
35
22
14
13
17
38
55
198
13
45
52
47
36
23
15
14
18
40
48
56
50
39
26
18
18
21
43
79
283
26
50
57
52
40
28
20
19
23
44
53
60
55
44
31
23
22
26
47
12
44
1
23
30
25
13
<5
<5
<5
<5
17
27
34
28
17
<5
<5
<5
<5
21
37
133
2
36
43
38
27
14
6
5
9
31
40
47
42
31
18
10
9
13
35
61
221
6
42
50
44
33
20
12
12
15
37
46
54
48
37
24
16
15
19
41
86
309
11
46
54
48
37
24
17
16
20
41
50
58
52
41
28
20
20
23
45
123
442
23
51
58
53
41
29
21
20
24
45
55
62
57
45
33
25
24
28
49
20
72
1
25
32
27
16
<5
<5
<5
<5
20
30
37
32
20
8
<5
<5
<5
24
60
217
2
37
45
39
28
15
8
7
11
32
42
49
44
33
20
12
11
15
37
101
362
5
43
50
45
34
21
13
12
16
38
48
55
50
39
26
18
17
21
43
141
507
10
47
54
49
38
25
17
16
20
42
52
59
54
42
30
22
21
25
46
201
724
21
51
58
53
42
29
21
20
24
46
56
63
58
46
34
26
25
29
50
31
113
1
26
34
28
17
<5
<5
<5
<5
21
32
39
34
22
10
<5
<5
5
26
94
339
2
38
45
40
29
16
8
7
11
32
43
51
45
34
21
13
13
17
38
157
565
5
43
51
45
34
21
13
12
16
38
49
56
51
39
27
19
18
22
43
220
792
9
47
54
49
37
25
17
16
20
41
52
60
54
43
30
22
22
25
47
314
1131
19
51
58
52
41
28
21
20
24
45
56
63
58
47
34
26
25
29
51
49
177
1
27
34
29
18
5
<5
<5
<5
22
33
41
35
24
11
<5
<5
6
28
147
530
2
38
45
39
28
16
8
7
11
32
44
51
46
34
22
14
13
17
38
245
884
4
43
50
44
33
20
13
12
16
37
49
56
51
39
27
19
18
22
43
344
1237
8
46
53
48
36
24
16
15
19
40
52
59
54
43
30
22
21
25
47
491
1767
17
49
57
51
40
27
19
19
22
44
56
63
57
46
33
26
25
29
50
78
281
1
27
34
29
17
5
<5
<5
<5
21
34
41
36
25
12
<5
<5
7
28
234
842
1
37
44
38
27
15
7
6
10
31
44
51
45
34
22
14
13
17
38
390
1403
4
41
48
43
32
19
11
10
14
36
48
55
50
39
26
18
17
21
43
546
1964
7
44
51
46
35
22
14
13
17
39
51
58
53
42
29
21
20
24
46
779
2806
15
47
55
49
38
25
17
16
20
42
54
62
56
45
32
24
23
27
49
126
452
1
26
33
28
17
<5
<5
<5
<5
21
34
41
36
24
12
<5
<5
7
28
377
1357
1
35
42
37
25
13
<5
<5
8
29
43
50
44
33
20
13
12
16
37
628
2262
3
39
46
41
29
17
9
8
12
33
47
54
48
37
25
17
16
20
41
880
3167
7
41
49
43
32
19
12
11
15
36
49
57
51
40
27
19
19
22
44
1257 4524
14
44
52
46
35
22
14
14
17
39
52
59
54
43
30
22
21
25
47
41
42
| Variable air volume controllers
OPTIMA-RS Radiated sound levels
Optima
RS
Radiated
Size
∆Pmin
Q
Q
[l/s] [m3/h] [Pa]
100
125
160
200
250
315
400
∆Pt = 100 Pa
63
125
250
∆Pt = 200 Pa
500 1000 2000 4000 8000 dB(A)
63
125
250
500 1000 2000 4000 8000 dB(A)
8
28
1
16
17
24
18
14
10
9
6
21
18
19
26
20
16
12
11
8
23
24
85
2
31
32
38
32
28
24
23
20
35
33
34
40
34
30
26
25
22
37
39
141
6
37
38
45
39
35
31
30
27
42
39
40
47
41
37
33
32
29
43
55
198
13
42
43
49
43
39
35
34
31
46
44
45
51
45
41
37
36
33
48
79
283
26
46
47
54
48
44
40
39
36
51
48
49
56
50
46
42
41
38
52
12
44
1
21
22
28
22
18
14
13
10
25
23
24
30
25
21
17
16
12
27
37
133
2
34
35
42
36
32
28
27
24
38
36
38
44
38
34
30
29
26
41
61
221
6
40
42
48
42
38
34
33
30
45
43
44
50
44
40
36
35
32
47
86
309
11
45
46
52
46
42
38
37
34
49
47
48
54
49
44
40
39
36
51
123
442
23
49
50
56
51
46
43
41
38
53
51
52
59
53
49
45
44
41
55
20
72
1
25
26
32
26
22
18
17
14
29
28
29
35
29
25
21
20
17
32
60
217
2
37
38
45
39
35
31
30
27
41
40
41
47
42
38
34
32
29
44
101
362
5
43
44
50
45
41
37
35
32
47
46
47
53
47
43
39
38
35
50
141
507
10
47
48
54
48
44
40
39
36
51
50
51
57
51
47
43
42
39
54
201
724
21
51
52
58
53
48
44
43
40
55
54
55
61
55
51
47
46
43
58
31
113
1
28
29
35
29
25
21
20
17
32
31
32
38
33
28
24
23
20
35
94
339
2
39
40
47
41
37
33
32
29
43
42
44
50
44
40
36
35
32
47
157
565
5
45
46
52
46
42
38
37
34
49
48
49
55
49
45
41
40
37
52
220
792
9
48
49
55
50
46
42
41
37
52
51
52
59
53
49
45
44
41
56
314
1131
19
52
53
59
53
49
45
44
41
56
55
56
62
57
53
49
47
44
59
49
177
1
30
31
37
31
27
23
22
19
34
33
35
41
35
31
27
26
23
38
147
530
2
40
42
48
42
38
34
33
30
45
44
45
51
46
42
38
37
33
48
245
884
4
45
46
53
47
43
39
38
35
50
49
50
56
51
47
43
41
38
53
344
1237
8
49
50
56
50
46
42
41
38
53
52
53
60
54
50
46
45
42
57
491
1767
17
52
53
59
54
50
46
45
41
56
56
57
63
57
53
49
48
45
60
78
281
1
31
32
39
33
29
25
24
21
36
35
36
43
37
33
29
28
25
40
234
842
1
41
42
48
43
38
35
33
30
45
45
46
52
47
43
39
38
34
49
390
1403
4
45
47
53
47
43
39
38
35
50
50
51
57
51
47
43
42
39
54
546
1964
7
48
50
56
50
46
42
41
38
53
53
54
60
54
50
46
45
42
57
779
2806
15
52
53
59
53
49
45
44
41
56
56
57
63
57
53
49
48
45
60
126
452
1
32
33
39
34
29
26
24
21
36
37
38
44
38
34
30
29
26
41
377
1357
1
41
42
48
42
38
34
33
30
45
45
46
53
47
43
39
38
35
50
628
2262
3
45
46
52
46
42
38
37
34
49
49
50
57
51
47
43
42
39
54
880
3167
7
47
49
55
49
45
41
40
37
52
52
53
59
54
50
46
44
41
56
1257 4524
14
50
51
58
52
48
44
43
40
55
55
56
62
57
52
48
47
44
59
Variable air volume controllers |
Optima-S
Single skin rectangular VAV units
B
yy
yy
yy
400
H
Damper tightness class 3 according to EN 1751
Casing tightness class C according to EN 1751
High measuring accuracy of:
10-20% Of nominal air flow rate has an accuracy error
rate of ±25%
20-40% av nominell: <±10%
40-100% av nominell: <±4% 5%
yy Air volume range of 144 to 56160 m3/h
yy Operating range of up to 1000Pa
W + 140
H + 60
Highlights:
60
W
W + 60
400
Design
Optima-S units are constructed from sheet steel frame
and blades. The frame construction contains a robust
mounting frame to assure the sturdiness of the unit and
to facilitate the mounting to upstream and downstream
ducts.
The aerofoil blades are opposed action and are constructed from extruded aluminium and enforce corrosionfree throughout the blade to add rigidity and reduce the
pressure loss and sound levels which may be contributed
to airflow stream passing over the blades. The blade axe
are sitting in self lubricating bearings which are connected
together by a gear wheel to assure a smooth ratio and
transition from blade to blade.
H + 74
H + 60
Single skin rectangular or square VAV terminal units is
commonly used for supply air applications or for return air
applications at low to medium system pressures. OptimaS VAV terminal units are ideal for multi-zone control with
supply and return in Master and Slave setup such as
offices, hotel rooms or meeting rooms where the required
cooling and heating load will vary on demand.
B
Function
180
(If H = 150, 250, 350)
Bus, ModBus and LON communication capability. On
demand as alternative, Gateway communication units can
be provided and can be connected later in time to building
management systems to create a zone control by creating
bus-rings solutions (only possible if MP-Bus communication is installed).
VAV and Compact controllers are factory calibrated as
standard to the air volume indicated in the table or upon
request can be adjusted to site required settings prior to
dispatch on Vmin and Vmax range. The air volumes can
also be readjusted on site with ZTH-Gen hand held service
tool. If specific air volumes for Vmin and Vmax would be
required, this must be indicated prior to order of the units
for adequate calibration in the factory.
Available Sizes
BLC1= Belimo LMV-D3 compact controller WITH MP-Bus
communication
200 x 100mm to 1200 x 1000mm with steps of 50mm in
height and length
BLC4 = Belimo LMV-D3 compact controller WITHOUT MPBus communication
Controls
BLC1-MOD = Belimo LMV-D3 compact controller WITH
MODBUS communication
The VAV terminal units are as standard equipped with BLC
(Belimo compact) controllers (LMV-D3 or NMV-D3) without any MP or LON communication capability to be used
as stand alone or in master and slave setting.
The compact controllers are equally available with MP-
GO = Gruner compact controller type WTHOUT
communication
GO-MPD = Gruner compact controller type with MODBUS
communication
43
44
| Variable air volume controllers
Mounting
On duct installations after elbow, reduction, T-branch etc.
L to be min. 3 times duct equivalent effective diameter
(Deff ).
If L can not be respected, then minimum of 2 × Deff with
perforated equalizing grid should be installed
Fig. 2: Measuring track length after Elbow
Deff
2×W×H
=
W+H
Lmin = 3 × Deff
Fig. 1: Measuring track length after T-branch
Fig. 3: Optima-S positioning and definition of measuring track length
NOTE:
A proper flange fixing method (e.g. flange clamps) and gasket shall be
used by installer to maintain the corresponding tightness class.
Dimensions
W 200 250
H
100
2
2
150
4
5
200
6
7
250
7
300
3C
350
400
450
4C
500
550
600
650
700
750
800
850
900
950
1000
300
350
400
450
500
550
600
650
3
5
7
7
8
9
4
6
8
9
9
10
4
6
8
9
10
11
5
6
8
9
9
10
5
7
9
9
9
10
6
7
9
9
10
10
6
8
10
10
10
9
10
10
11
Tightness
class
12
12
12
11
13
15
11
13
14
16
11
12
13
15
17
19
12
13
14
16
18
20
22
Tab. 2: OPTIMA-S table of weight
Tab. 3: OPTIMA-S-I table of weight
m (kg)
5 Nm drive
m (kg)
10 Nm drive
m (kg)
20 Nm drive



OPTIMA-S
OPTIMA-S
OPTIMA-S



OPTIMA-S-GO
OPTIMA-S-GO
OPTIMA-S-GO
700
750
800
850
900
10
11
11
12
13
14
16
18
20
21
23
25
12
13
14
15
17
19
21
22
24
26
27
11
12
14
15
17
19
21
22
24
25
27
29
30
12
13
15
17
19
21
22
24
25
27
29
30
31
32
12
14
19
19
20
21
23
24
25
27
29
31
32
34
35
950
14
19
20
23
24
25
26
27
29
31
33
34
35
37
39
1000 1050 1100 1150 1200
21
22
25
26
28
29
30
32
34
36
37
38
40
41
43
21
22
26
27
29
30
32
33
35
37
38
39
41
43
45
22
24
27
28
30
31
33
35
37
38
40
41
43
45
47
25
28
29
31
32
34
36
38
40
42
43
45
47
49
29
30
32
34
36
38
40
42
43
45
47
49
50
Variable air volume controllers |
Ordering example:
Accessories
Silencers are available to reduce the discharge sound
power levels when required. Multi-outlet insulated terminal units are available when multi-zone application is
required.
OPTIMA-S-600x300-BLC1-1500(m3/h)-5000(m3/h)
The above order example is set for Vmin and Vmax air
volume setting for size 600x300 with Belimo compact
controller having MP Bus comminucation capability.
Ordering codes
BLC1 controller is a compact controller with MP-Bus communication
BLC1-MOD is controller with builtin ModBus comminucation
BLC4 controller is a standalone controller without any
communication
Optima - Type - Size- Controller Type - Vmin - Vmax
Type
S
LxH
200x100 to 1200x 1000 (mm)
BLC1
BLC4
BLC1-MOD
m3/h or l/s*
m3/h or l/s*
* Note:
1. If the air volumes are not given during the ordering
process, then standard Factory setting will be applied
according to table
45
46
| Variable air volume controllers
Optima-S Table of dimensions and weight
W
H
B
G
mm
mm
mm
W
H
B
G
mm
mm
W
H
B
mm
mm
G
kg
mm
kg
mm
200
6
200
8
200
11
300
7
300
11
300
14
400
9
400
13
400
17
500
10
500
15
500
20
600
12
600
18
600
20
700
440
27
700
15
800
22
800
30
900
17
900
25
900
33
1000
18
1000
28
1000
37
1100
19
1100
30
1100
40
1200
21
1200
32
1200
43
200
7
200
9
200
12
300
8
300
12
300
15
400
10
400
14
400
19
500
12
500
17
500
22
600
14
600
19
600
25
200
140
800
290
24
800
14
700
500
kg
16
700
22
700
800
17
800
25
800
32
700
300
51
600
301
900
451
29
900
19
900
27
900
35
1000
21
1000
30
1000
40
1100
22
1100
33
1100
43
1200
24
1200
36
1200
47
200
8
200
10
200
13
300
10
300
13
300
16
20
400
12
400
16
400
500
14
500
19
500
23
16
600
22
600
27
18
700
25
700
800
20
800
28
800
34
900
22
900
30
900
38
1000
25
1000
34
1000
43
1100
27
1100
37
1100
47
1200
29
1200
40
1200
50
600
700
400
201
700
390
1000
540
31
Variable air volume controllers |
Optima-S Quick selection table
mm
W
200
250
300
350
400
450
500
Vmin
H
3
m /h
100
144
150
200
Vmax
mm
l/s
3
m /h
l/s
40
936
260
216
60
1404
288
80
1872
100
180
50
150
270
200
360
250
450
100
216
150
200
H
m /h
100
396
390
150
520
200
1170
325
75
1755
488
100
2340
650
125
2925
60
1404
324
90
432
120
250
540
150
300
648
180
350
756
100
252
150
200
Vmax
l/s
3
m /h
l/s
110
2574
715
594
165
3861
1073
792
220
5148
1430
250
990
275
6435
1788
300
1188
330
7722
2145
350
1386
385
9009
2503
813
400
1584
440
10296
2860
390
450
1782
495
11583
3218
2106
585
500
1980
550
12870
3575
2808
780
550
2178
605
14157
3933
3510
975
100
432
120
2808
780
4212
1170
150
648
180
4212
1170
210
4914
1365
200
864
240
5616
1560
70
1638
455
250
1080
300
7020
1950
378
105
2457
683
300
1296
360
8424
2340
504
140
3276
910
350
1512
420
9828
2730
250
630
175
4095
1138
400
1728
480
11232
3120
300
756
210
4914
1365
450
1944
540
12636
3510
350
882
245
5733
1593
500
2160
600
14040
3900
100
288
80
1872
520
550
2376
660
15444
4290
150
432
120
2808
780
600
2592
720
16848
4680
200
576
160
3744
1040
150
702
195
4563
1268
250
720
200
4680
1300
200
936
260
6084
1690
300
864
240
5616
1560
250
1170
325
7605
2113
350
1008
280
6552
1820
300
1404
390
9126
2535
400
1152
320
7488
2080
350
1638
455
10647
2958
100
324
90
2106
585
400
1872
520
12168
3380
150
486
135
3159
878
450
2106
585
13689
3803
200
648
180
4212
1170
500
2340
650
15210
4225
250
810
225
5265
1463
550
2574
715
16731
4648
300
972
270
6318
1755
600
2808
780
18252
5070
350
1134
315
7371
2048
650
3042
845
19773
5493
400
1296
360
8424
2340
200
1008
280
6552
1820
450
1458
405
9477
2633
250
1260
350
8190
2275
100
360
100
2340
650
300
1512
420
9828
2730
150
540
150
3510
975
350
1764
490
11466
3185
200
720
200
4680
1300
400
2016
560
13104
3640
250
900
250
5850
1625
450
2268
630
14742
4095
300
1080
300
7020
1950
500
2520
700
16380
4550
350
1260
350
8190
2275
550
2772
770
18018
5005
400
1440
400
9360
2600
600
3024
840
19656
5460
450
1620
450
10530
2925
650
3276
910
21294
5915
500
1800
500
11700
3250
700
3528
980
22932
6370
10 - 20% Of Vmax air flow rate has an accuracy error rate of: ±25%
20 - 40% Of Vmax air flow rate has an accuracy error rate of: <±10%
40 - 100% Of Vmax air flow rate has an accuracy error rate of: <±4%
W
Vmin
3
550
600
650
700
47
48
| Variable air volume controllers
Optima-S Quick selection table
mm
W
750
800
850
900
Vmin
H
3
m /h
200
1080
250
1350
300
1620
350
Vmax
mm
l/s
3
m /h
l/s
300
7020
1950
375
8775
450
10530
1890
525
400
2160
450
2430
500
550
H
m /h
350
2268
2438
400
2925
450
12285
3413
600
14040
675
15795
2700
750
17550
4875
2970
825
19305
5363
600
3240
900
21060
650
3510
975
22815
700
3780
1050
750
4050
1125
200
1152
250
1440
300
350
Vmax
l/s
3
m /h
l/s
630
14742
4095
2592
720
16848
4680
2916
810
18954
5265
500
3240
900
21060
5850
3900
550
3564
990
23166
6435
4388
600
3888
1080
25272
7020
650
4212
1170
27378
7605
700
4536
1260
29484
8190
5850
750
4860
1350
31590
8775
6338
800
5184
1440
33696
9360
24570
6825
850
5508
1530
35802
9945
26325
7313
900
5832
1620
37908
10530
320
7488
2080
250
1710
475
11115
3088
400
9360
2600
300
2052
570
13338
3705
1728
480
11232
3120
350
2394
665
15561
4323
2016
560
13104
3640
400
2736
760
17784
4940
400
2304
640
14976
4160
450
3078
855
20007
5558
450
2592
720
16848
4680
500
3420
950
22230
6175
500
2880
800
18720
5200
550
3762
1045
24453
6793
550
3168
880
20592
5720
600
4104
1140
26676
7410
600
3456
960
22464
6240
650
4446
1235
28899
8028
650
3744
1040
24336
6760
700
4788
1330
31122
8645
700
4032
1120
26208
7280
750
5130
1425
33345
9263
750
4320
1200
28080
7800
800
5472
1520
35568
9880
800
4608
1280
29952
8320
850
5814
1615
37791
10498
200
1224
340
7956
2210
900
6156
1710
40014
11115
250
1530
425
9945
2763
950
6498
1805
42237
11733
300
1836
510
11934
3315
300
2160
600
14040
3900
350
2142
595
13923
3868
350
2520
700
16380
4550
400
2448
680
15912
4420
400
2880
800
18720
5200
450
2754
765
17901
4973
450
3240
900
21060
5850
500
3060
850
19890
5525
500
3600
1000
23400
6500
550
3366
935
21879
6078
550
3960
1100
25740
7150
600
3672
1020
23868
6630
600
4320
1200
28080
7800
650
3978
1105
25857
7183
650
4680
1300
30420
8450
700
4284
1190
27846
7735
700
5040
1400
32760
9100
750
4590
1275
29835
8288
750
5400
1500
35100
9750
800
4896
1360
31824
8840
800
5760
1600
37440
10400
850
5202
1445
33813
9393
850
6120
1700
39780
11050
200
1296
360
8424
2340
900
6480
1800
42120
11700
250
1620
450
10530
2925
950
6840
1900
44460
12350
300
1944
540
12636
3510
1000
7200
2000
46800
13000
10 - 20% Of Vmax air flow rate has an accuracy error rate of: ±25%
20 - 40% Of Vmax air flow rate has an accuracy error rate of: <±10%
40 - 100% Of Vmax air flow rate has an accuracy error rate of: <±4%
W
Vmin
3
900
950
1000
Variable air volume controllers |
Optima-S Quick selection table
mm
W
1050
1100
H
W
200
Vmin
Vmax
mm
H
m3/h
l/s
m3/h
l/s
300
2268
630
14742
350
2646
735
17199
400
3024
840
450
3402
945
500
3780
550
600
Vmin
W
H
m3/h
4095
350
4778
400
19656
5460
22113
6143
1050
24570
4158
1155
4536
1260
650
4914
700
Vmax
l/s
m3/h
l/s
2898
805
18837
5233
3312
920
21528
5980
450
3726
1035
24219
6728
500
4140
1150
26910
7475
6825
550
4554
1265
29601
8223
27027
7508
600
4968
1380
32292
8970
29484
8190
650
5382
1495
34983
9718
1365
31941
8873
700
5796
1610
37674
10465
5292
1470
34398
9555
750
6210
1725
40365
11213
750
5670
1575
36855
10238
800
6624
1840
43056
11960
800
6048
1680
39312
10920
850
7038
1955
45747
12708
850
6426
1785
41769
11603
900
7452
2070
48438
13455
900
6804
1890
44226
12285
950
7866
2185
51129
14203
1150
950
7182
1995
46683
12968
1000
8280
2300
53820
14950
1000
7560
2100
49140
13650
400
3456
960
22464
6240
300
2376
660
15444
4290
450
3888
1080
25272
7020
350
2772
770
18018
5005
500
4320
1200
28080
7800
400
3168
880
20592
5720
550
4752
1320
30888
8580
450
3564
990
23166
6435
600
5184
1440
33696
9360
500
3960
1100
25740
7150
650
5616
1560
36504
10140
550
4356
1210
28314
7865
700
6048
1680
39312
10920
600
4752
1320
30888
8580
750
6480
1800
42120
11700
650
5148
1430
33462
9295
800
6912
1920
44928
12480
700
5544
1540
36036
10010
850
7344
2040
47736
13260
750
5940
1650
38610
10725
900
7776
2160
50544
14040
800
6336
1760
41184
11440
950
8208
2280
53352
14820
850
6732
1870
43758
12155
1000
8640
2400
56160
15600
900
7128
1980
46332
12870
950
7524
2090
48906
13585
1000
7920
2200
51480
14300
250
300
350
400
450
500
550
600
1200
Note : value Vmin = 0 can be always adjusted
value Vmax can be adjusted also deside the standard range upon
an agreement with the producer
650
700
750
800
850
900
950
1000
1050
1100
100
150
200
250
300
3C
5Nm
350
400
450
500
550
600
4C
10Nm
650
700
750
800
850
900
950
1000
20Nm
1150
1200
49
50
| Variable air volume controllers
OPTIMA-S Discharge Low Pressure System
OPTIMA-S
Size
200x100
200x150
200x200
250x100
250x150
250x200
250x250
300x100
300x150
300x200
300x250
300x300
300x350
350x100
350x150
350x200
350x250
350x300
350x350
400x100
400x150
400x200
400x250
400x300
400x350
400x400
AIR-FLOW
Q [l/s]
Q [m3/h]
∆Pt = 100 Pa
∆Pst [Pa]
63
125
250
500
∆Pt = 200 Pa
1000 2000 4000 8000
dB(A)
63
125
250
500
1000 2000 4000 8000
dB(A)
40
144
2
36
37
41
40
42
39
31
26
45
44
45
49
48
50
47
39
34
53
260
936
81
47
49
53
51
53
50
42
38
57
55
57
61
59
61
58
50
46
65
60
216
2
36
37
41
40
42
39
31
26
45
44
46
49
48
50
47
39
34
53
390
1404
90
47
49
53
51
53
50
43
38
57
55
57
61
59
61
59
51
46
65
80
288
2
36
38
41
40
42
39
31
26
45
44
46
49
48
50
47
39
34
54
520
1872
97
47
49
53
52
54
51
43
38
57
55
57
61
60
62
59
51
46
65
50
180
2
36
37
41
40
42
39
31
26
45
44
45
49
48
50
47
39
34
53
325
1170
86
47
49
53
51
53
50
43
38
57
55
57
61
59
61
58
51
46
65
75
270
2
36
38
41
40
42
39
31
26
45
44
46
49
48
50
47
39
34
53
488
1755
95
47
49
53
52
54
51
43
38
57
55
57
61
60
62
59
51
46
65
100
360
2
36
38
41
40
42
39
31
26
46
44
46
49
48
50
47
39
34
54
650
2340
103
48
49
53
52
54
51
43
38
57
56
57
61
60
62
59
51
46
65
125
450
3
36
38
41
40
42
39
31
26
46
44
46
50
48
50
47
39
35
54
813
2925
109
48
50
53
52
54
51
43
38
57
56
58
61
60
62
59
51
46
66
60
216
2
36
37
41
40
42
39
31
26
45
44
46
49
48
50
47
39
34
53
390
1404
90
47
49
53
51
53
50
43
38
57
55
57
61
59
61
59
51
46
65
90
324
2
36
38
41
40
42
39
31
26
46
44
46
49
48
50
47
39
34
54
585
2106
100
48
49
53
52
54
51
43
38
57
56
57
61
60
62
59
51
46
65
120
432
3
36
38
41
40
42
39
31
26
46
44
46
49
48
50
47
39
35
54
780
2808
108
48
50
53
52
54
51
43
38
57
56
58
61
60
62
59
51
46
65
150
540
3
36
38
42
40
42
39
31
27
46
44
46
50
48
50
47
39
35
54
975
3510
113
48
50
53
52
54
51
43
38
58
56
58
61
60
62
59
51
46
66
180
648
3
36
38
42
40
42
39
31
27
46
44
46
50
48
50
47
40
35
54
1170
4212
116
48
50
53
52
54
51
43
39
58
56
58
62
60
62
59
51
47
66
210
756
3
36
38
42
40
42
39
32
27
46
44
46
50
49
50
48
40
35
54
1365
4914
117
48
50
54
52
54
51
43
39
58
56
58
62
60
62
59
52
47
66
70
252
2
36
38
41
40
42
39
31
26
45
44
46
49
48
50
47
39
34
53
455
1638
93
47
49
53
51
53
51
43
38
57
55
57
61
60
62
59
51
46
65
105
378
2
36
38
41
40
42
39
31
26
46
44
46
49
48
50
47
39
34
54
683
2457
104
48
49
53
52
54
51
43
38
57
56
58
61
60
62
59
51
46
65
140
504
3
36
38
41
40
42
39
31
27
46
44
46
50
48
50
47
39
35
54
910
3276
112
48
50
53
52
54
51
43
38
58
56
58
61
60
62
59
51
46
66
175
630
3
36
38
42
40
42
39
31
27
46
44
46
50
48
50
47
40
35
54
1138
4095
116
48
50
53
52
54
51
43
38
58
56
58
62
60
62
59
51
47
66
54
210
756
3
36
38
42
40
42
39
32
27
46
44
46
50
49
50
48
40
35
1365
4914
117
48
50
54
52
54
51
43
39
58
56
58
62
60
62
59
52
47
66
245
882
3
36
38
42
40
42
40
32
27
46
44
46
50
49
51
48
40
35
54
1593
5733
114
48
50
54
52
54
51
44
39
58
56
58
62
61
63
60
52
47
66
80
288
2
34
36
40
39
41
38
30
25
44
46
47
51
50
52
49
41
36
55
520
1872
97
40
42
45
44
46
43
35
30
50
51
53
57
55
57
54
46
42
61
120
432
3
34
36
40
39
41
38
30
25
44
44
46
50
48
50
47
40
35
54
780
2808
108
43
45
48
47
49
46
38
33
52
53
54
58
57
59
56
48
43
62
160
576
3
35
37
41
39
41
38
31
26
45
44
46
50
48
50
47
39
35
54
1040
3744
115
45
47
51
50
52
49
41
36
55
54
56
60
59
61
58
50
45
64
200
720
3
36
38
42
40
42
39
31
27
46
44
46
50
48
50
48
40
35
54
1300
4680
117
48
50
53
52
54
51
43
38
58
56
58
62
60
62
59
51
47
66
240
864
3
37
39
43
41
43
40
33
28
47
45
47
50
49
51
48
40
35
55
1560
5616
115
50
52
56
54
56
54
46
41
60
58
60
63
62
64
61
53
48
68
280
1008
3
38
40
44
42
44
42
34
29
48
45
47
51
50
52
49
41
36
55
1820
6552
109
52
54
58
57
59
56
48
43
62
60
61
65
64
66
63
55
50
69
320
1152
2
39
41
45
44
46
43
35
30
49
46
48
52
50
52
49
41
37
56
2080
7488
98
54
56
60
59
61
58
50
45
64
61
63
67
65
67
64
56
52
71
Variable air volume controllers |
OPTIMA-S Discharge Low Pressure System
OPTIMA-S
Size
200x100
200x150
200x200
250x100
250x150
250x200
250x250
300x100
300x150
300x200
300x250
300x300
300x350
350x100
350x150
350x200
350x250
350x300
350x350
400x100
400x150
400x200
400x250
400x300
400x350
400x400
AIR-FLOW
Q [l/s]
Q [m3/h]
∆Pt = 400 Pa
∆Pst [Pa]
63
125
250
500
∆Pt = 600 Pa
1000 2000 4000 8000
dB(A)
63
125
250
500
1000 2000 4000 8000
dB(A)
40
144
2
52
53
57
56
58
55
47
42
61
56
58
62
60
62
59
52
47
66
260
936
81
63
65
69
67
69
66
58
54
73
68
70
73
72
74
71
63
58
77
60
216
2
52
54
57
56
58
55
47
42
61
56
58
62
61
63
60
52
47
66
390
1404
90
63
65
69
67
69
67
59
54
73
68
70
74
72
74
71
63
59
78
80
288
2
52
54
57
56
58
55
47
42
62
57
58
62
61
63
60
52
47
66
520
1872
97
64
65
69
68
70
67
59
54
73
68
70
74
72
74
71
64
59
78
50
180
2
52
53
57
56
58
55
47
42
61
56
58
62
60
62
60
52
47
66
325
1170
86
63
65
69
67
69
66
59
54
73
68
70
73
72
74
71
63
58
78
75
270
2
52
54
57
56
58
55
47
42
62
57
58
62
61
63
60
52
47
66
488
1755
95
63
65
69
68
70
67
59
54
73
68
70
74
72
74
71
64
59
78
100
360
2
52
54
57
56
58
55
47
42
62
57
59
62
61
63
60
52
47
66
650
2340
103
64
66
69
68
70
67
59
54
73
68
70
74
73
75
72
64
59
78
125
450
3
52
54
58
56
58
55
47
43
62
57
59
62
61
63
60
52
47
67
813
2925
109
64
66
69
68
70
67
59
54
74
69
70
74
73
75
72
64
59
78
60
216
2
52
54
57
56
58
55
47
42
61
56
58
62
61
63
60
52
47
66
390
1404
90
63
65
69
67
69
67
59
54
73
68
70
74
72
74
71
63
59
78
90
324
2
52
54
57
56
58
55
47
42
62
57
58
62
61
63
60
52
47
66
585
2106
100
64
65
69
68
70
67
59
54
73
68
70
74
72
74
72
64
59
78
120
432
3
52
54
58
56
58
55
47
43
62
57
59
62
61
63
60
52
47
67
780
2808
108
64
66
69
68
70
67
59
54
74
69
70
74
73
75
72
64
59
78
150
540
3
52
54
58
56
58
55
48
43
62
57
59
62
61
63
60
52
47
67
975
3510
113
64
66
70
68
70
67
59
55
74
69
71
74
73
75
72
64
59
79
180
648
3
52
54
58
57
59
56
48
43
62
57
59
63
61
63
60
52
48
67
1170
4212
116
64
66
70
68
70
67
60
55
74
69
71
74
73
75
72
64
59
79
210
756
3
52
54
58
57
59
56
48
43
62
57
59
63
61
63
60
53
48
67
1365
4914
117
64
66
70
69
71
68
60
55
74
69
71
75
73
75
72
64
60
79
70
252
2
52
54
57
56
58
55
47
42
62
57
58
62
61
63
60
52
47
66
455
1638
93
63
65
69
68
70
67
59
54
73
68
70
74
72
74
71
63
59
78
105
378
2
52
54
57
56
58
55
47
43
62
57
59
62
61
63
60
52
47
66
683
2457
104
64
66
69
68
70
67
59
54
73
68
70
74
73
75
72
64
59
78
140
504
3
52
54
58
56
58
55
48
43
62
57
59
62
61
63
60
52
47
67
910
3276
112
64
66
69
68
70
67
59
55
74
69
71
74
73
75
72
64
59
78
175
630
3
52
54
58
57
58
56
48
43
62
57
59
63
61
63
60
52
48
67
1138
4095
116
64
66
70
68
70
67
60
55
74
69
71
74
73
75
72
64
59
79
67
210
756
3
52
54
58
57
59
56
48
43
62
57
59
63
61
63
60
53
48
1365
4914
117
64
66
70
69
71
68
60
55
74
69
71
75
73
75
72
64
60
79
245
882
3
53
54
58
57
59
56
48
43
62
57
59
63
62
64
61
53
48
67
1593
5733
114
65
66
70
69
71
68
60
55
74
69
71
75
73
75
73
65
60
79
80
288
2
57
59
62
61
63
60
52
47
66
63
65
69
67
69
67
59
54
73
520
1872
97
62
64
68
66
68
66
58
53
72
69
71
74
73
75
72
64
59
79
120
432
3
54
56
60
58
60
57
49
45
64
60
62
65
64
66
63
55
50
70
780
2808
108
62
64
68
67
69
66
58
53
72
68
70
74
72
74
71
64
59
78
160
576
3
53
55
58
57
59
56
48
43
63
58
60
64
62
64
61
53
49
68
1040
3744
115
63
65
69
67
69
66
59
54
73
68
70
74
73
75
72
64
59
78
200
720
3
52
54
58
57
59
56
48
43
62
57
59
63
61
63
60
53
48
67
1300
4680
117
64
66
70
68
70
68
60
55
74
69
71
75
73
75
72
64
60
79
240
864
3
52
54
58
56
58
56
48
43
62
57
59
62
61
63
60
52
47
66
1560
5616
115
65
67
71
70
72
69
61
56
75
70
72
75
74
76
73
65
60
80
280
1008
3
52
54
58
57
59
56
48
43
62
57
58
62
61
63
60
52
47
66
1820
6552
109
67
68
72
71
73
70
62
57
76
71
73
76
75
77
74
66
61
80
320
1152
2
53
54
58
57
59
56
48
43
62
57
58
62
61
63
60
52
47
66
2080
7488
98
68
70
73
72
74
71
63
58
77
72
73
77
76
78
75
67
62
81
51
52
| Variable air volume controllers
OPTIMA-S Discharge Low Pressure System
OPTIMA-S
Size
450x100
450x150
450x200
450x250
450x300
450x350
450x400
450x450
500x100
500x150
500x200
500x250
500x300
500x350
500x400
500x450
500x500
AIR-FLOW
∆Pt = 100 Pa
∆Pt = 200 Pa
Q [l/s]
Q [m /h]
∆Pst [Pa]
63
125
250
500
dB(A)
63
125
250
500
90
324
2
34
36
40
38
40
37
30
25
44
45
47
51
49
51
48
40
36
55
585
2106
100
41
42
46
45
47
44
36
31
50
51
53
57
56
58
55
47
42
61
3
1000 2000 4000 8000
1000 2000 4000 8000
dB(A)
135
486
3
35
36
40
39
41
38
30
25
44
44
46
50
48
50
47
39
35
54
878
3159
111
44
46
49
48
50
47
39
34
54
53
55
59
57
59
56
49
44
63
180
648
3
36
37
41
40
42
39
31
26
45
44
46
50
48
50
47
39
35
54
1170
4212
116
47
49
52
51
53
50
42
37
56
55
57
61
59
61
58
51
46
65
225
810
3
37
39
42
41
43
40
32
27
47
45
46
50
49
51
48
40
35
54
1463
5265
116
49
51
55
54
56
53
45
40
59
57
59
63
61
63
60
53
48
67
270
972
3
38
40
44
42
44
41
33
29
48
45
47
51
49
51
48
41
36
55
1755
6318
111
52
54
57
56
58
55
47
42
62
59
61
65
63
65
62
54
50
69
315
1134
2
39
41
45
43
45
43
35
30
49
46
48
51
50
52
49
41
36
56
2048
7371
100
54
56
60
58
60
57
50
45
64
61
63
66
65
67
64
56
51
71
360
1296
2
41
42
46
45
47
44
36
31
50
47
49
52
51
53
50
42
37
56
2340
8424
83
56
58
62
61
63
60
52
47
66
63
64
68
67
69
66
58
53
72
405
1458
1
42
44
47
46
48
45
37
32
51
48
49
53
52
54
51
43
38
57
2633
9477
61
58
60
64
63
64
62
54
49
68
64
66
70
68
70
67
60
55
74
54
100
360
2
34
36
40
38
40
37
30
25
44
45
47
50
49
51
48
40
35
650
2340
103
41
43
47
45
47
45
37
32
51
52
54
57
56
58
55
47
42
62
150
540
3
35
37
40
39
41
38
30
25
45
44
46
50
48
50
47
39
35
54
975
3510
113
45
47
50
49
51
48
40
35
55
54
56
59
58
60
57
49
44
64
200
720
3
36
38
42
40
42
39
31
27
46
44
46
50
48
50
48
40
35
54
1300
4680
117
48
50
53
52
54
51
43
38
58
56
58
62
60
62
59
51
47
66
250
900
4
38
39
43
42
44
41
33
28
47
45
47
50
49
51
48
40
35
55
1625
5850
111
51
53
56
55
57
54
46
41
61
58
60
64
62
64
62
54
49
68
300
1080
2
39
41
44
43
45
42
34
29
49
46
48
51
50
52
49
41
36
55
1950
7020
104
54
55
59
58
60
57
49
44
63
60
62
66
64
66
64
56
51
70
350
1260
2
40
42
46
44
46
43
36
31
50
47
48
52
51
53
50
42
37
56
2275
8190
89
56
58
61
60
62
59
51
46
66
62
64
68
66
68
65
58
53
72
400
1440
2
42
43
47
46
48
45
37
32
51
47
49
53
52
54
51
43
38
57
2600
9360
66
58
60
64
62
64
61
53
49
68
64
66
69
68
70
67
59
55
74
450
1620
1
43
45
48
47
49
46
38
33
53
48
50
54
52
54
52
44
39
58
2925
10530
35
60
62
66
64
66
63
56
51
70
66
68
71
70
72
69
61
56
75
500
1800
1
44
46
50
48
50
47
39
35
54
49
51
55
53
55
52
45
40
59
3250
11700
34
62
64
68
66
68
65
57
53
72
67
69
73
71
73
71
63
58
77
Variable air volume controllers |
OPTIMA-S Discharge Low Pressure System
OPTIMA-S
Size
450x100
450x150
450x200
450x250
450x300
450x350
450x400
450x450
500x100
500x150
500x200
500x250
500x300
500x350
500x400
500x450
500x500
AIR-FLOW
∆Pt = 400 Pa
∆Pt = 600 Pa
Q [l/s]
Q [m /h]
∆Pst [Pa]
63
125
250
500
dB(A)
63
125
250
500
90
324
2
56
58
61
60
62
59
51
46
66
62
64
68
66
68
65
58
53
72
585
2106
100
62
64
68
66
68
65
58
53
72
69
70
74
73
75
72
64
59
78
3
1000 2000 4000 8000
1000 2000 4000 8000
dB(A)
135
486
3
54
55
59
58
60
57
49
44
63
59
61
65
63
65
62
54
50
69
878
3159
111
63
65
68
67
69
66
58
53
72
68
70
74
72
74
71
64
59
78
180
648
3
53
54
58
57
59
56
48
43
62
58
59
63
62
64
61
53
48
67
1170
4212
116
64
66
69
68
70
67
59
54
73
69
71
74
73
75
72
64
59
78
225
810
3
52
54
58
57
58
56
48
43
62
57
59
62
61
63
60
52
47
67
1463
5265
116
65
67
70
69
71
68
60
56
75
70
71
75
74
76
73
65
60
79
270
972
3
52
54
58
57
59
56
48
43
62
57
58
62
61
63
60
52
47
66
1755
6318
111
66
68
72
70
72
70
62
57
76
70
72
76
75
77
74
66
61
80
315
1134
2
53
54
58
57
59
56
48
43
62
57
58
62
61
63
60
52
47
66
2048
7371
100
68
69
73
72
74
71
63
58
77
71
73
77
76
78
75
67
62
81
360
1296
2
53
55
58
57
59
56
48
43
63
57
58
62
61
63
60
52
47
66
2340
8424
83
69
71
74
73
75
72
64
59
79
72
74
78
77
79
76
68
63
82
405
1458
1
53
55
59
57
59
57
49
44
63
57
59
62
61
63
60
52
47
66
2633
9477
61
70
72
75
74
76
73
65
60
80
73
75
79
78
80
77
69
64
83
71
100
360
2
55
57
61
59
61
58
50
46
65
61
63
67
65
67
64
57
52
650
2340
103
62
64
68
66
68
65
58
53
72
68
70
74
73
74
72
64
59
78
150
540
3
53
55
59
57
59
56
48
44
63
58
60
64
63
65
62
54
49
68
975
3510
113
63
65
69
67
69
66
58
54
73
68
70
74
72
74
72
64
59
78
200
720
3
52
54
58
57
59
56
48
43
62
57
59
63
61
63
60
53
48
67
1300
4680
117
64
66
70
68
70
68
60
55
74
69
71
75
73
75
72
64
60
79
250
900
4
52
54
58
56
58
56
48
43
62
57
59
62
61
63
60
52
47
66
1625
5850
111
66
68
71
70
72
69
61
56
75
70
72
76
74
76
73
65
61
80
300
1080
2
53
54
58
57
59
56
48
43
62
57
58
62
61
63
60
52
47
66
1950
7020
104
67
69
73
71
73
70
62
58
77
71
73
77
75
77
74
66
62
81
350
1260
2
53
55
58
57
59
56
48
43
63
57
58
62
61
63
60
52
47
66
2275
8190
89
69
70
74
73
75
72
64
59
78
72
74
78
76
78
75
68
63
82
400
1440
2
53
55
59
57
59
57
49
44
63
57
59
62
61
63
60
52
47
66
2600
9360
66
70
72
75
74
76
73
65
60
80
73
75
79
77
79
77
69
64
83
450
1620
1
54
56
59
58
60
57
49
44
63
57
59
62
61
63
60
52
47
67
2925
10530
35
71
73
77
75
77
74
66
62
81
74
76
80
78
80
78
70
65
84
500
1800
1
54
56
60
58
60
58
50
45
64
57
59
63
61
63
61
53
48
67
3250
11700
34
72
74
78
77
79
76
68
63
82
75
77
81
80
82
79
71
66
85
53
54
| Variable air volume controllers
OPTIMA-S Discharge Medium Pressure System
OPTIMA-S
Size
550x100
550x150
550x200
550x250
550x300
550x350
550x400
550x450
550x500
550x550
600x100
600x150
600x200
600x250
600x300
600x350
600x400
600x450
600x500
600x550
600x600
650x150
650x200
650x250
650x300
650x350
AIR-FLOW
∆Pt = 100 Pa
∆Pt = 200 Pa
Q [l/s]
Q [m3/h]
∆Pst [Pa]
63
125
250
500
110
396
2
35
37
37
37
41
38
30
715
2574
106
42
44
45
44
49
46
38
1000 2000 4000 8000
dB(A)
63
125
250
500
25
44
45
47
47
47
1000 2000 4000 8000
51
48
40
35
dB(A)
54
33
52
53
54
55
54
59
56
48
43
62
165
594
3
36
37
38
37
42
39
31
26
45
44
46
47
46
51
48
40
35
54
1073
3861
115
46
48
49
48
52
49
42
37
56
55
57
57
57
61
58
50
45
64
220
792
3
37
39
40
39
43
40
32
28
46
45
47
47
47
51
48
40
35
54
1430
5148
117
50
51
52
51
56
53
45
40
59
57
59
60
59
64
61
53
48
67
275
990
3
39
40
41
40
45
42
34
29
48
46
48
48
48
52
49
41
36
55
1788
6435
110
53
54
55
54
59
56
48
43
62
60
62
62
62
66
63
55
50
69
330
1188
2
40
42
43
42
46
43
35
31
49
47
48
49
48
53
50
42
37
56
2145
7722
95
55
57
58
57
61
59
51
46
65
62
64
64
64
68
65
57
52
71
385
1386
2
42
43
44
43
48
45
37
32
51
48
49
50
49
54
51
43
38
57
2503
9009
72
58
60
60
60
64
61
53
48
67
64
66
66
66
70
67
59
54
73
440
1584
1
43
45
45
45
49
46
38
33
52
49
50
51
50
55
52
44
39
58
2860
10296
40
60
62
63
62
66
63
56
51
70
66
68
68
68
72
69
61
56
75
495
1782
1
44
46
47
46
50
48
40
35
54
49
51
52
51
56
53
45
40
59
3218
11583
34
62
64
65
64
68
66
58
53
72
67
69
70
69
74
71
63
58
77
60
550
1980
1
46
47
48
47
52
49
41
36
55
50
52
53
52
57
54
46
41
3575
12870
34
64
66
67
66
70
68
60
55
74
69
71
72
71
75
72
65
60
78
605
2178
1
47
49
49
49
53
50
42
37
56
51
53
54
53
57
55
47
42
61
3933
14157
34
66
68
69
68
72
69
62
57
76
71
73
73
73
77
74
66
61
80
120
432
3
35
37
37
37
41
38
30
25
44
45
46
47
46
51
48
40
35
54
780
2808
108
43
45
46
45
49
46
38
34
52
53
55
55
55
59
56
48
43
62
180
648
3
36
38
39
38
42
39
31
27
45
45
46
47
46
51
48
40
35
54
1170
4212
116
47
49
50
49
53
50
42
38
56
56
57
58
57
62
59
51
46
65
240
864
3
38
39
40
39
44
41
33
28
47
45
47
48
47
51
48
41
36
55
1560
5616
115
51
53
53
53
57
54
46
41
60
58
60
61
60
64
61
54
49
68
300
1080
2
39
41
42
41
45
43
35
30
49
46
48
49
48
52
49
41
37
55
1950
7020
104
54
56
56
56
60
57
49
44
63
61
63
63
63
67
64
56
51
70
360
1296
2
41
43
43
43
47
44
36
31
50
47
49
50
49
53
50
42
38
56
2340
8424
83
57
59
59
59
63
60
52
47
66
63
65
65
65
69
66
58
53
72
420
1512
1
42
44
45
44
49
46
38
33
52
48
50
51
50
54
51
44
39
57
2730
9828
53
59
61
62
61
66
63
55
50
69
65
67
68
67
71
68
60
56
74
480
1728
0
44
46
46
46
50
47
39
34
53
49
51
52
51
55
52
45
40
59
3120
11232
34
62
64
64
64
68
65
57
52
71
67
69
70
69
73
70
62
58
76
540
1944
1
45
47
48
47
52
49
41
36
55
50
52
53
52
56
53
46
41
60
3510
12636
43
64
66
67
66
70
67
59
55
73
69
71
71
71
75
72
64
59
78
600
2160
1
47
49
49
49
53
50
42
37
56
51
53
54
53
57
54
47
42
61
3900
14040
53
66
68
69
68
72
69
61
57
75
71
72
73
72
77
74
66
61
80
660
2376
2
48
50
51
50
54
51
43
39
57
52
54
55
54
58
55
48
43
62
4290
15444
64
68
70
71
70
74
71
63
59
77
72
74
75
74
78
75
68
63
82
720
2592
2
49
51
52
51
55
53
45
40
59
53
55
56
55
59
56
49
44
63
4680
16848
76
70
72
72
72
76
73
65
60
79
74
76
76
76
80
77
69
64
83
195
702
3
36
38
39
38
43
40
32
27
46
45
46
47
46
51
48
40
35
54
1268
4563
111
48
50
51
50
54
51
43
39
57
56
58
59
58
62
60
52
47
66
260
936
3
38
40
41
40
44
41
34
29
48
45
47
48
47
52
49
41
36
55
1690
6084
111
52
54
54
54
58
55
47
42
61
59
61
62
61
65
62
54
50
68
325
1170
2
40
42
42
42
46
43
35
30
49
47
48
49
48
53
50
42
37
56
2113
7605
97
55
57
58
57
61
58
50
46
64
62
63
64
63
68
65
57
52
71
390
1404
2
42
44
44
44
48
45
37
32
51
48
49
50
49
54
51
43
38
57
2535
9126
69
58
60
61
60
64
61
53
49
67
64
66
67
66
70
67
59
55
73
455
1638
1
43
45
46
45
49
47
39
34
53
49
51
51
51
55
52
44
39
58
2958
10647
30
61
63
63
63
67
64
56
51
70
66
68
69
68
72
69
62
57
76
Variable air volume controllers |
OPTIMA-S Discharge Medium Pressure System
OPTIMA-S
Size
550x100
550x150
550x200
550x250
550x300
550x350
550x400
550x450
550x500
550x550
600x100
600x150
600x200
600x250
600x300
600x350
600x400
600x450
600x500
600x550
600x600
650x150
650x200
650x250
650x300
650x350
AIR-FLOW
∆Pt = 400 Pa
∆Pt = 600 Pa
Q [l/s]
Q [m3/h]
∆Pst [Pa]
63
125
250
500
110
396
2
55
57
57
57
61
58
50
715
2574
106
63
65
65
65
69
66
58
1000 2000 4000 8000
dB(A)
63
125
250
500
45
64
61
63
63
63
1000 2000 4000 8000
67
64
56
51
dB(A)
70
53
72
69
70
71
70
75
72
64
59
78
165
594
3
53
55
56
55
59
56
49
44
63
58
60
61
60
65
62
54
49
68
1073
3861
115
64
66
66
66
70
67
59
54
73
69
71
71
71
75
72
64
59
78
220
792
3
53
55
55
55
59
56
48
43
62
57
59
60
59
63
61
53
48
67
1430
5148
117
65
67
68
67
71
68
61
56
75
70
72
72
72
76
73
65
60
79
275
990
3
53
55
55
55
59
56
48
43
62
57
59
59
59
63
60
52
47
66
1788
6435
110
67
69
69
69
73
70
62
57
76
71
73
73
73
77
74
66
61
80
330
1188
2
53
55
56
55
59
56
48
44
62
57
59
59
59
63
60
52
47
66
2145
7722
95
68
70
71
70
74
72
64
59
78
72
74
75
74
78
75
67
63
81
385
1386
2
54
55
56
55
60
57
49
44
63
57
59
60
59
63
60
52
48
66
2503
9009
72
70
72
72
72
76
73
65
60
79
73
75
76
75
79
77
69
64
83
440
1584
1
54
56
57
56
60
57
49
45
63
57
59
60
59
63
61
53
48
67
2860
10296
40
71
73
74
73
77
75
67
62
81
75
76
77
76
81
78
70
65
84
495
1782
1
55
56
57
56
61
58
50
45
64
58
59
60
59
64
61
53
48
67
3218
11583
34
73
74
75
74
79
76
68
63
82
76
77
78
77
82
79
71
66
85
67
550
1980
1
55
57
58
57
61
58
51
46
65
58
60
61
60
64
61
53
49
3575
12870
34
74
76
76
76
80
77
69
64
83
77
79
79
79
83
80
72
67
86
605
2178
1
56
58
58
58
62
59
51
46
65
58
60
61
60
65
62
54
49
68
3933
14157
34
75
77
78
77
81
78
71
66
85
78
80
80
80
84
81
73
68
87
120
432
3
54
56
57
56
61
58
50
45
64
60
62
63
62
66
63
56
51
70
780
2808
108
63
65
65
65
69
66
58
53
72
69
70
71
70
75
72
64
59
78
180
648
3
53
55
56
55
59
56
48
44
62
58
60
61
60
64
61
53
48
67
1170
4212
116
64
66
67
66
70
67
59
55
73
69
71
72
71
75
72
64
60
78
240
864
3
53
55
55
55
59
56
48
43
62
57
59
60
59
63
60
52
48
66
1560
5616
115
66
68
68
68
72
69
61
56
75
70
72
73
72
76
73
66
61
80
300
1080
2
53
55
55
55
59
56
48
43
62
57
59
59
59
63
60
52
47
66
1950
7020
104
68
69
70
69
74
71
63
58
77
71
73
74
73
78
75
67
62
81
360
1296
2
53
55
56
55
59
57
49
44
63
57
59
59
59
63
60
52
47
66
2340
8424
83
69
71
72
71
75
72
65
60
79
73
75
75
75
79
76
68
63
82
420
1512
1
54
56
56
56
60
57
49
44
63
57
59
60
59
63
60
53
48
67
2730
9828
53
71
73
73
73
77
74
66
61
80
74
76
77
76
80
77
69
65
83
480
1728
0
54
56
57
56
61
58
50
45
64
58
59
60
59
64
61
53
48
67
3120
11232
34
72
74
75
74
78
76
68
63
82
75
77
78
77
81
79
71
66
85
540
1944
1
55
57
58
57
61
58
50
46
64
58
60
60
60
64
61
53
48
67
3510
12636
43
74
76
76
76
80
77
69
64
83
77
78
79
78
83
80
72
67
86
600
2160
1
56
58
58
58
62
59
51
46
65
58
60
61
60
65
62
54
49
68
3900
14040
53
75
77
78
77
81
78
70
66
84
78
80
80
80
84
81
73
68
87
660
2376
2
56
58
59
58
63
60
52
47
66
59
61
61
61
65
62
54
49
68
4290
15444
64
76
78
79
78
83
80
72
67
86
79
81
81
81
85
82
74
69
88
720
2592
2
57
59
60
59
63
60
52
48
66
59
61
62
61
66
63
55
50
69
4680
16848
76
78
80
80
80
84
81
73
68
87
80
82
82
82
86
83
75
70
89
195
702
3
53
55
55
55
59
56
48
43
62
58
60
60
60
64
61
53
48
67
1268
4563
111
65
66
67
66
71
68
60
55
74
69
71
72
71
75
73
65
60
79
260
936
3
53
55
55
55
59
56
48
43
62
57
59
60
59
63
60
52
48
66
1690
6084
111
66
68
69
68
73
70
62
57
76
71
72
73
72
77
74
66
61
80
325
1170
2
53
55
56
55
59
56
48
44
62
57
59
59
59
63
60
52
47
66
2113
7605
97
68
70
71
70
74
71
64
59
78
72
74
75
74
78
75
67
63
81
390
1404
2
54
55
56
55
60
57
49
44
63
57
59
60
59
63
60
52
48
66
2535
9126
69
70
72
72
72
76
73
65
60
79
73
75
76
75
80
77
69
64
83
455
1638
1
54
56
57
56
60
57
50
45
64
57
59
60
59
64
61
53
48
67
2958
10647
30
72
73
74
73
78
75
67
62
81
75
77
77
77
81
78
70
65
84
55
56
| Variable air volume controllers
OPTIMA-S Discharge Medium Pressure System
OPTIMA-S
Size
650x400
650x450
650x500
650x550
650x600
650x650
700x200
700x250
700x300
700x350
700x400
700x450
700x500
700x550
700x600
700x650
700x700
750x200
750x250
750x300
750x350
750x400
750x450
750x500
750x550
750x600
750x650
750x700
AIR-FLOW
∆Pt = 100 Pa
∆Pt = 200 Pa
Q [l/s]
Q [m3/h]
∆Pst [Pa]
63
125
250
500
520
1872
0
45
47
47
47
51
48
40
3380
12168
34
63
65
66
65
69
67
59
1000 2000 4000 8000
dB(A)
63
125
250
500
35
54
50
52
52
52
1000 2000 4000 8000
56
53
45
40
dB(A)
59
54
73
68
70
71
70
74
71
64
59
78
585
2106
1
46
48
49
48
53
50
42
37
56
51
53
54
53
57
54
46
42
60
3803
13689
34
66
67
68
67
72
69
61
56
75
70
72
73
72
76
73
66
61
80
650
2340
1
48
50
50
50
54
51
43
38
57
52
54
55
54
58
55
47
43
61
4225
15210
34
68
70
70
70
74
71
63
58
77
72
74
74
74
78
75
67
62
81
715
2574
1
49
51
52
51
55
52
45
40
59
53
55
56
55
59
56
48
44
62
4648
16731
34
70
72
72
72
76
73
65
60
79
74
75
76
75
80
77
69
64
83
780
2808
1
50
52
53
52
57
54
46
41
60
54
56
57
56
60
57
49
45
63
5070
18252
34
72
73
74
73
78
75
67
62
81
75
77
78
77
81
78
71
66
85
845
3042
1
52
54
54
54
58
55
47
42
61
55
57
58
57
61
58
50
46
64
5493
19773
34
73
75
76
75
80
77
69
64
83
77
79
79
79
83
80
72
67
86
280
1008
3
39
41
41
41
45
42
34
29
48
46
48
48
48
52
49
41
36
55
1820
6552
109
53
55
55
55
59
56
48
43
62
60
62
62
62
66
63
55
50
69
350
1260
2
41
42
43
42
47
44
36
31
50
47
49
49
49
53
50
42
37
56
2275
8190
87
56
58
59
58
62
60
52
47
66
63
64
65
64
69
66
58
53
72
57
420
1512
1
42
44
45
44
49
46
38
33
52
48
50
51
50
54
51
44
39
2730
9828
55
59
61
62
61
66
63
55
50
69
65
67
68
67
71
68
60
56
74
490
1764
0
44
46
47
46
50
47
40
35
54
49
51
52
51
56
53
45
40
59
3185
11466
5
62
64
65
64
68
65
57
53
71
67
69
70
69
73
71
63
58
77
560
2016
1
46
48
48
48
52
49
41
36
55
51
52
53
52
57
54
46
41
60
3640
13104
34
65
67
67
67
71
68
60
55
74
69
71
72
71
76
73
65
60
79
630
2268
1
47
49
50
49
54
51
43
38
57
52
54
54
54
58
55
47
42
61
4095
14742
34
67
69
70
69
73
70
62
58
76
71
73
74
73
78
75
67
62
81
700
2520
1
49
51
51
51
55
52
44
39
58
53
55
55
55
59
56
48
43
62
4550
16380
34
69
71
72
71
75
72
65
60
79
73
75
76
75
79
77
69
64
83
770
2772
1
50
52
53
52
56
54
46
41
60
54
56
56
56
60
57
49
44
63
5005
18018
34
71
73
74
73
77
75
67
62
81
75
77
78
77
81
78
70
66
84
840
3024
1
52
53
54
53
58
55
47
42
61
55
57
58
57
61
58
50
46
64
5460
19656
34
73
75
76
75
79
76
69
64
83
77
78
79
79
83
80
72
67
86
910
3276
1
53
55
55
55
59
56
48
43
62
56
58
59
58
62
59
51
47
65
5915
21294
34
75
77
78
77
81
78
70
66
84
78
80
81
80
84
81
74
69
88
980
3528
1
54
56
57
56
60
57
49
45
63
57
59
60
59
63
60
52
48
66
6370
22932
34
77
79
79
79
83
80
72
67
86
80
82
82
82
86
83
75
70
89
300
1080
2
39
41
42
41
45
43
35
30
49
46
48
49
48
52
49
41
37
55
1950
7020
104
54
54
54
54
54
54
54
54
63
61
63
63
63
67
64
56
51
70
375
1350
2
41
43
44
43
47
45
37
32
51
47
49
50
49
54
51
43
38
57
2438
8775
78
57
59
60
59
64
61
53
48
67
63
65
66
65
70
67
59
54
73
450
1620
1
43
45
46
45
49
46
39
34
53
49
51
51
51
55
52
44
39
58
2925
10530
35
61
62
63
62
67
64
56
51
70
66
68
69
68
72
69
61
57
75
525
1890
1
45
47
48
47
51
48
40
36
54
50
52
53
52
56
53
45
40
59
3413
12285
34
63
65
66
65
70
67
59
54
73
68
70
71
70
75
72
64
59
78
600
2160
1
47
49
49
49
53
50
42
37
56
51
53
54
53
57
54
47
42
61
3900
14040
34
66
68
69
68
72
69
61
57
75
71
72
73
72
77
74
66
61
80
675
2430
1
48
50
51
50
54
52
44
39
58
52
54
55
54
59
56
48
43
62
4388
15795
34
69
70
71
70
75
72
64
59
78
73
74
75
74
79
76
68
63
82
750
2700
1
50
52
52
52
56
53
45
40
59
54
55
56
56
60
57
49
44
63
4875
17550
34
71
73
73
73
77
74
66
61
80
75
76
77
76
81
78
70
65
84
825
2970
1
51
53
54
53
57
55
47
42
61
55
57
57
57
61
58
50
45
64
5363
19305
34
73
75
75
75
79
76
68
63
82
76
78
79
78
82
80
72
67
86
900
3240
1
53
55
55
55
59
56
48
43
62
56
58
58
58
62
59
51
46
65
5850
21060
34
75
77
77
77
81
78
70
65
84
78
80
81
80
84
81
73
69
87
975
3510
1
54
56
57
56
60
57
49
45
63
57
59
59
59
63
60
52
47
66
89
6338
22815
34
77
79
79
79
83
80
72
67
86
80
81
82
81
86
83
75
70
1050
3780
1
55
57
58
57
61
59
51
46
65
58
60
61
60
64
61
53
48
67
6825
24570
34
78
80
81
80
85
82
74
69
88
81
83
84
83
87
84
76
72
90
Variable air volume controllers |
OPTIMA-S Discharge Medium Pressure System
OPTIMA-S
Size
650x400
650x450
650x500
650x550
650x600
650x650
700x200
700x250
700x300
700x350
700x400
700x450
700x500
700x550
700x600
700x650
700x700
750x200
750x250
750x300
750x350
750x400
750x450
750x500
750x550
750x600
750x650
750x700
AIR-FLOW
∆Pt = 400 Pa
∆Pt = 600 Pa
Q [l/s]
Q [m3/h]
∆Pst [Pa]
63
125
250
500
520
1872
0
55
57
57
57
61
58
50
3380
12168
34
73
75
76
75
79
76
69
1000 2000 4000 8000
dB(A)
63
125
250
500
45
64
58
60
60
60
1000 2000 4000 8000
64
61
53
48
dB(A)
67
64
83
76
78
79
78
82
79
72
67
86
585
2106
1
56
57
58
57
62
59
51
46
65
58
60
61
60
64
62
54
49
68
3803
13689
34
75
77
77
77
81
78
70
65
84
77
79
80
79
84
81
73
68
87
650
2340
1
56
58
59
58
62
60
52
47
66
59
61
61
61
65
62
54
49
68
4225
15210
34
76
78
79
78
82
79
72
67
86
79
81
81
81
85
82
74
69
88
715
2574
1
57
59
60
59
63
60
52
48
66
59
61
62
61
65
63
55
50
69
4648
16731
34
78
79
80
79
84
81
73
68
87
80
82
82
82
86
83
75
70
89
780
2808
1
58
60
60
60
64
61
53
48
67
60
62
62
62
66
63
55
50
69
5070
18252
34
79
81
81
81
85
82
74
69
88
81
83
84
83
87
84
76
72
90
845
3042
1
58
60
61
60
65
62
54
49
68
60
62
63
62
67
64
56
51
70
5493
19773
34
80
82
83
82
86
83
76
71
90
82
84
85
84
88
85
77
73
91
280
1008
3
53
55
55
55
59
56
48
43
62
57
59
59
59
63
60
52
47
66
1820
6552
109
67
69
69
69
73
70
62
57
76
71
73
74
73
77
74
66
62
80
350
1260
2
53
55
56
55
59
56
49
44
63
57
59
59
59
63
60
52
47
66
2275
8190
87
69
71
71
71
75
72
64
59
78
73
74
75
74
79
76
68
63
82
67
420
1512
1
54
56
56
56
60
57
49
44
63
57
59
60
59
63
60
53
48
2730
9828
55
71
73
73
73
77
74
66
61
80
74
76
77
76
80
77
69
65
83
490
1764
0
55
56
57
56
61
58
50
45
64
58
59
60
59
64
61
53
48
67
3185
11466
5
73
74
75
74
79
76
68
63
82
76
77
78
77
82
79
71
66
85
560
2016
1
55
57
58
57
61
59
51
46
65
58
60
61
60
64
61
53
49
67
3640
13104
34
74
76
77
76
80
77
70
65
84
77
79
79
79
83
80
72
67
86
630
2268
1
56
58
59
58
62
59
51
47
65
59
60
61
60
65
62
54
49
68
4095
14742
34
76
78
78
78
82
79
71
66
85
78
80
81
80
84
82
74
69
88
700
2520
1
57
59
59
59
63
60
52
47
66
59
61
62
61
65
62
55
50
69
4550
16380
34
77
79
80
79
83
81
73
68
87
80
81
82
81
86
83
75
70
89
770
2772
1
58
59
60
60
64
61
53
48
67
60
62
62
62
66
63
55
50
69
5005
18018
34
79
81
81
81
85
82
74
69
88
81
83
83
83
87
84
76
71
90
840
3024
1
58
60
61
60
65
62
54
49
68
60
62
63
62
67
64
56
51
70
5460
19656
34
80
82
83
82
86
83
75
71
89
82
84
85
84
88
85
77
73
91
910
3276
1
59
61
62
61
65
62
55
50
69
61
63
64
63
67
64
56
52
70
5915
21294
34
81
83
84
83
88
85
77
72
91
83
85
86
85
89
86
79
74
93
980
3528
1
60
62
62
62
66
63
55
50
69
62
63
64
63
68
65
57
52
71
6370
22932
34
83
84
85
84
89
86
78
73
92
84
86
87
86
90
88
80
75
94
300
1080
2
53
55
55
55
59
56
48
43
62
57
59
59
59
63
60
52
47
66
1950
7020
104
68
69
70
69
74
71
63
58
77
71
73
74
73
78
75
67
62
81
375
1350
2
53
55
56
55
60
57
49
44
63
57
59
60
59
63
60
52
47
66
2438
8775
78
70
71
72
71
76
73
65
60
79
73
75
76
75
79
76
68
64
82
450
1620
1
54
56
57
56
60
57
49
45
63
57
59
60
59
63
61
53
48
67
2925
10530
35
72
73
74
73
78
75
67
62
81
75
77
77
77
81
78
70
65
84
525
1890
1
55
57
57
57
61
58
50
45
64
58
60
60
60
64
61
53
48
67
3413
12285
34
73
75
76
75
80
77
69
64
83
76
78
79
78
82
80
72
67
86
600
2160
1
56
58
58
58
62
59
51
46
65
58
60
61
60
65
62
54
49
68
3900
14040
34
75
77
78
77
81
78
70
66
84
78
80
80
80
84
81
73
68
87
675
2430
1
57
58
59
58
63
60
52
47
66
59
61
62
61
65
62
54
50
68
4388
15795
34
77
79
79
79
83
80
72
67
86
79
81
82
81
85
82
75
70
89
750
2700
1
57
59
60
59
64
61
53
48
67
60
61
62
61
66
63
55
50
69
4875
17550
34
78
80
81
80
84
82
74
69
88
81
82
83
82
87
84
76
71
90
825
2970
1
58
60
61
60
64
62
54
49
68
60
62
63
62
66
64
56
51
70
5363
19305
34
80
82
82
82
86
83
75
70
89
82
84
84
84
88
85
77
72
91
900
3240
1
59
61
62
61
65
62
54
50
68
61
63
63
63
67
64
56
51
70
5850
21060
34
81
83
84
83
87
84
77
72
91
83
85
86
85
89
86
78
74
92
975
3510
1
60
62
62
62
66
63
55
50
69
62
63
64
63
68
65
57
52
71
94
6338
22815
34
83
84
85
84
89
86
78
73
92
84
86
87
86
90
87
80
75
1050
3780
1
61
62
63
62
67
64
56
51
70
62
64
65
64
68
65
58
53
72
6825
24570
34
84
86
86
86
90
87
79
74
93
85
87
88
87
92
89
81
76
95
57
58
| Variable air volume controllers
OPTIMA-S Discharge Medium Pressure System
OPTIMA-S
Size
750x750
800x200
800x250
800x300
800x350
800x400
800x450
800x500
800x550
800x600
800x650
800x700
800x750
800x800
850x200
850x250
850x300
850x350
850x400
850x450
850x500
850x550
850x600
850x650
850x700
850x750
850x800
850x850
AIR-FLOW
∆Pt = 100 Pa
∆Pt = 200 Pa
Q [l/s]
Q [m3/h]
∆Pst [Pa]
63
125
250
500
1125
4050
1
57
58
59
58
63
60
52
7313
26325
34
80
82
83
82
86
83
76
1000 2000 4000 8000
dB(A)
63
125
250
500
47
66
59
61
61
61
1000 2000 4000 8000
65
62
54
49
dB(A)
68
71
90
83
84
85
84
89
86
78
73
92
320
1152
2
40
42
42
42
46
43
35
30
49
46
48
49
48
53
50
42
37
56
2080
7488
99
55
57
57
57
61
58
50
45
64
61
63
64
63
68
65
57
52
71
400
1440
2
42
44
44
44
48
45
37
32
51
48
50
50
50
54
51
43
38
57
2600
9360
66
59
60
61
60
65
62
54
49
68
64
66
67
66
71
68
60
55
74
480
1728
1
44
46
46
46
50
47
39
34
53
49
51
52
51
55
52
45
40
59
3120
11232
34
62
64
64
64
68
65
57
52
71
67
69
70
69
73
70
62
58
76
560
2016
1
46
48
48
48
52
49
41
36
55
51
52
53
52
57
54
46
41
60
3640
13104
34
65
67
67
67
71
68
60
55
74
69
71
72
71
76
73
65
60
79
640
2304
1
48
49
50
49
54
51
43
38
57
52
54
54
54
58
55
47
42
61
4160
14976
34
67
69
70
69
74
71
63
58
77
72
74
74
74
78
75
67
62
81
720
2592
1
49
51
52
51
55
53
45
40
59
53
55
56
55
59
56
49
44
63
4680
16848
34
70
72
72
72
76
73
65
60
79
74
76
76
76
80
77
69
64
83
800
2880
1
51
53
53
53
57
54
46
41
60
54
56
57
56
61
58
50
45
64
5200
18720
34
72
74
75
74
78
75
68
63
82
76
78
78
78
82
79
71
66
85
65
880
3168
1
52
54
55
54
59
56
48
43
62
56
57
58
57
62
59
51
46
5720
20592
34
74
76
77
76
80
78
70
65
84
78
79
80
79
84
81
73
68
87
960
3456
1
54
56
56
56
60
57
49
44
63
57
58
59
58
63
60
52
47
66
6240
22464
34
76
78
79
78
82
80
72
67
86
79
80
81
80
85
82
74
69
88
1040
3744
1
55
57
58
57
61
58
51
46
65
58
59
60
59
64
61
53
48
67
6760
24336
34
78
80
81
80
84
81
74
69
88
80
81
82
81
86
83
75
70
89
1120
4032
1
56
58
59
58
63
60
52
47
66
58
60
61
60
65
62
54
49
68
7280
26208
34
80
82
83
82
86
83
75
71
89
80
82
83
82
87
84
76
71
90
1200
4320
1
58
60
60
60
64
61
53
48
67
59
61
62
61
65
62
55
50
69
7800
28080
34
82
84
84
84
88
85
77
72
91
81
83
84
83
87
84
77
72
91
1280
4608
1
59
61
61
61
65
62
54
49
68
61
63
63
63
67
64
56
51
70
8320
29952
34
83
85
86
85
90
87
79
74
93
85
87
88
87
92
89
81
76
95
340
1224
2
40
42
43
42
47
44
36
31
50
47
49
49
49
53
50
42
37
56
2210
7956
92
56
58
58
58
62
59
51
46
65
62
64
65
64
68
65
58
53
72
425
1530
1
43
44
45
44
49
46
38
33
52
48
50
51
50
54
51
44
39
58
2763
9945
52
60
61
62
61
66
63
55
50
69
65
67
68
67
71
68
61
56
75
510
1836
1
45
47
47
47
51
48
40
35
54
50
52
52
52
56
53
45
40
59
3315
11934
34
63
65
65
65
69
66
58
53
72
68
70
70
70
74
71
63
58
77
595
2142
1
47
48
49
48
53
50
42
37
56
51
53
54
53
57
54
47
42
61
3868
13923
34
66
68
68
68
72
69
61
56
75
70
72
73
72
77
74
66
61
80
680
2448
1
48
50
51
50
55
52
44
39
58
53
54
55
54
59
56
48
43
62
4420
15912
34
69
70
71
70
75
72
64
59
78
73
75
75
75
79
76
68
63
82
765
2754
1
50
52
53
52
56
53
46
41
60
54
56
56
56
60
57
49
44
63
4973
17901
34
71
73
74
73
77
74
67
62
81
75
77
77
77
81
78
70
65
84
850
3060
1
52
54
54
54
58
55
47
42
61
55
57
58
57
61
58
50
46
64
5525
19890
34
74
75
76
75
80
77
69
64
83
76
78
79
78
83
80
72
67
86
935
3366
1
53
55
56
55
59
57
49
44
63
56
58
59
58
63
60
52
47
66
6078
21879
34
76
78
78
78
82
79
71
66
85
79
81
81
81
85
82
74
69
88
1020
3672
1
55
57
57
57
61
58
50
45
64
58
59
60
59
64
61
53
48
67
6630
23868
34
78
80
80
80
84
81
73
68
87
81
82
83
82
87
84
76
71
90
1105
3978
1
56
58
59
58
62
59
52
47
66
59
61
61
61
65
62
54
49
68
7183
25857
34
80
82
82
82
86
83
75
70
89
82
84
85
84
88
85
78
73
92
1190
4284
1
58
59
60
59
64
61
53
48
67
60
62
62
62
66
63
55
50
69
7735
27846
34
82
83
84
83
88
85
77
72
91
84
86
86
86
90
87
79
74
93
1275
4590
1
59
61
61
61
65
62
54
49
68
61
63
63
63
67
64
56
51
70
8288
29835
34
83
85
86
85
89
87
79
74
93
85
87
88
87
91
89
81
76
95
1360
4896
1
60
62
63
62
66
63
55
51
69
62
64
64
64
68
65
57
52
71
96
8840
31824
34
85
87
88
87
91
88
80
75
94
87
89
89
89
93
90
82
77
1445
5202
1
61
63
64
63
67
64
57
52
71
63
65
65
65
69
66
58
53
72
9393
33813
34
87
88
89
88
93
90
82
77
96
88
90
91
90
94
91
84
79
98
Variable air volume controllers |
OPTIMA-S Discharge Medium Pressure System
OPTIMA-S
Size
750x750
800x200
800x250
800x300
800x350
800x400
800x450
800x500
800x550
800x600
800x650
800x700
800x750
800x800
850x200
850x250
850x300
850x350
850x400
850x450
850x500
850x550
850x600
850x650
850x700
850x750
850x800
850x850
AIR-FLOW
∆Pt = 400 Pa
∆Pt = 600 Pa
Q [l/s]
Q [m3/h]
∆Pst [Pa]
63
125
250
500
1125
4050
1
61
63
64
63
68
65
57
7313
26325
34
85
87
88
87
91
88
80
1000 2000 4000 8000
dB(A)
63
125
250
500
52
71
63
65
65
65
1000 2000 4000 8000
69
66
58
53
dB(A)
72
76
94
86
88
89
88
93
90
82
77
96
320
1152
2
53
55
56
55
59
56
48
44
62
57
59
59
59
63
60
52
47
66
2080
7488
99
68
70
71
70
74
71
63
59
77
72
74
74
74
78
75
67
62
81
400
1440
2
54
55
56
56
60
57
49
44
63
57
59
60
59
63
60
52
48
66
2600
9360
66
70
72
73
72
76
73
66
61
80
74
75
76
75
80
77
69
64
83
480
1728
1
54
56
57
56
61
58
50
45
64
58
59
60
59
64
61
53
48
67
3120
11232
34
72
74
75
74
78
76
68
63
82
75
77
78
77
81
79
71
66
85
560
2016
1
55
57
58
57
61
59
51
46
65
58
60
61
60
64
61
53
49
67
3640
13104
34
74
76
77
76
80
77
70
65
84
77
79
79
79
83
80
72
67
86
640
2304
1
56
58
59
58
62
59
52
47
66
59
61
61
61
65
62
54
49
68
4160
14976
34
76
78
79
78
82
79
71
67
85
79
80
81
80
85
82
74
69
88
720
2592
1
57
59
60
59
63
60
52
48
66
59
61
62
61
66
63
55
50
69
4680
16848
34
78
80
80
80
84
81
73
68
87
80
82
82
82
86
83
75
70
89
800
2880
1
58
60
61
60
64
61
53
49
67
60
62
63
62
66
63
55
51
69
5200
18720
34
79
81
82
81
85
83
75
70
89
81
83
84
83
88
85
77
72
91
70
880
3168
1
59
61
61
61
65
62
54
49
68
61
63
63
63
67
64
56
51
5720
20592
34
81
83
83
83
87
84
76
71
90
83
85
85
85
89
86
78
73
92
960
3456
1
60
62
62
62
66
63
55
50
69
62
64
64
64
68
65
57
52
71
6240
22464
34
82
84
84
84
88
85
77
72
91
84
86
86
86
90
87
79
74
93
1040
3744
1
61
63
63
63
67
64
56
51
70
63
65
65
65
69
66
58
53
72
6760
24336
34
83
85
85
85
89
86
78
73
92
85
87
87
87
91
88
80
75
94
1120
4032
1
62
64
64
64
68
65
57
52
71
64
65
66
65
70
67
59
54
73
7280
26208
34
84
85
86
85
90
87
79
74
93
86
87
88
87
92
89
81
76
95
1200
4320
1
63
64
65
64
69
66
58
53
72
64
66
67
66
71
68
60
55
74
7800
28080
34
84
86
87
86
91
88
80
75
94
86
88
89
88
92
90
82
77
96
1280
4608
1
63
65
65
65
69
66
58
53
72
64
66
67
66
70
67
59
55
73
8320
29952
34
87
89
90
89
94
91
83
78
97
89
90
91
90
95
92
84
79
98
340
1224
2
53
55
56
55
59
56
48
44
62
57
59
59
59
63
60
52
47
66
2210
7956
92
69
70
71
70
75
72
64
59
78
72
74
75
74
78
76
68
63
82
425
1530
1
54
56
56
56
60
57
49
44
63
57
59
60
59
63
60
53
48
67
2763
9945
52
71
73
73
73
77
74
66
61
80
74
76
77
76
80
77
70
65
84
510
1836
1
55
57
57
57
61
58
50
45
64
58
60
60
60
64
61
53
48
67
3315
11934
34
73
75
76
75
79
76
68
64
82
76
78
78
78
82
79
71
66
85
595
2142
1
56
58
58
58
62
59
51
46
65
58
60
61
60
65
62
54
49
68
3868
13923
34
75
77
78
77
81
78
70
66
84
78
79
80
79
84
81
73
68
87
680
2448
1
57
58
59
59
63
60
52
47
66
59
61
62
61
65
62
54
50
68
4420
15912
34
77
79
79
79
83
80
72
67
86
79
81
82
81
85
82
75
70
89
765
2754
1
58
59
60
59
64
61
53
48
67
60
62
62
62
66
63
55
50
69
4973
17901
34
79
80
81
80
85
82
74
69
88
81
83
83
83
87
84
76
71
90
850
3060
1
59
61
61
61
65
62
54
49
68
61
63
63
63
67
64
56
51
70
5525
19890
34
80
82
83
82
86
83
75
70
89
82
84
85
84
88
85
77
73
91
935
3366
1
59
61
62
61
66
63
55
50
69
61
63
64
63
67
64
57
52
71
6078
21879
34
82
84
84
84
88
85
77
72
91
84
85
86
85
90
87
79
74
93
1020
3672
1
60
62
63
62
66
64
56
51
70
62
64
64
64
68
65
57
52
71
6630
23868
34
83
85
86
85
89
87
79
74
93
85
87
87
87
91
88
80
75
94
1105
3978
1
61
63
64
63
67
64
57
52
71
63
65
65
65
69
66
58
53
72
7183
25857
34
85
87
87
87
91
88
80
75
94
86
88
89
88
92
89
82
77
96
1190
4284
1
62
64
65
64
68
65
57
53
71
63
65
66
65
70
67
59
54
73
7735
27846
34
86
88
89
88
92
89
81
77
95
87
89
90
89
94
91
83
78
97
1275
4590
1
63
65
65
65
69
66
58
53
72
64
66
67
66
70
67
59
55
73
8288
29835
34
87
89
90
89
94
91
83
78
97
89
90
91
90
95
92
84
79
98
1360
4896
1
64
66
66
66
70
67
59
54
73
65
67
67
67
71
68
60
55
74
99
8840
31824
34
89
90
91
90
95
92
84
79
98
90
91
92
92
96
93
85
80
1445
5202
1
64
66
67
66
71
68
60
55
74
65
67
68
67
72
69
61
56
75
9393
33813
34
90
92
92
92
96
93
85
80
99
91
93
93
93
97
94
86
81
100
59
| Variable air volume controllers
Optima-S-I
Double skin rectangular VAV units
with external insulation
Highlights:
B
30
H + 103
Damper tightness class 3 according to EN 1751
Casing tightness class C according to EN 1751
High measuring accuracy of:
10-20% of nominal air flow rate has an accuracy error
rate of ±25%
20-40% av nominell: <±10%
40-100% av nominell: <±4% 5%
yy Air volume range of 144 to 56160 m3/h
yy Operating range of up to 1000Pa
30
H
yy
yy
yy
400
W + 162
H + 60
W
C
W + 60
W + 103
400
30
30
Function
Design
Optima-S-I units are constructed from sheet steel frame
and blades. The frame construction contains a robust
mounting frame to assure the sturdiness of the unit and
to facilitate the mounting to upstream and downstream
ducts.
The aerofoil blades are opposed action and are constructed from extruded aluminium and enforce corrosionfree throughout the blade to add rigidity and reduce the
pressure loss and sound levels which may be contributed
to airflow stream passing over the blades. The blade axe
are sitting in self lubricating bearings which are connected
together by a gear wheel to assure a smooth ratio and
transition from blade to blade.
Available Sizes
200 x 100mm to 1200 x 1000mm with steps of 50mm in
height and length
Controls
The VAV terminal units are as standard equipped with BLC
(Belimo compact) controllers (LMV-D3 or NMV-D3) without any MP or LON communication capability to be used
as stand alone or in master and slave setting.
H + 103
If H = 150, 250, 350
B
Double skin rectangular or square VAV terminal units is
commonly used for supply air applications or for return air
applications at low to medium system pressures. OptimaSI VAV terminal units are ideal for multi-zone control with
supply and return in Master and Slave setup such as
offices, hotel rooms or meeting rooms where the required
cooling and heating load will vary on demand.
H + 60
60
180
(If H =equally
150, 250, 350)
The compact controllers are
available with MPBus, ModBus and LON communication capability. On
demand as alternative, Gateway communication units can
be provided and can be connected later in time to building
management systems to create a zone control by creating
bus-rings solutions (only possible if MP-Bus communication is installed).
VAV and Compact controllers are factory calibrated as
standard to the air volume indicated in the table or upon
request can be adjusted to site required settings prior to
dispatch on Vmin and Vmax range. The air volumes can
also be readjusted on site with ZTH-Gen hand held service
tool. If specific air volumes for Vmin and Vmax would be
required, this must be indicated prior to order of the units
for adequate calibration in the factory.
BLC1= Belimo LMV-D3 compact controller WITH MP-Bus
communication
BLC4 = Belimo LMV-D3 compact controller WITHOUT MPBus communication
BLC1-MOD = Belimo LMV-D3 compact controller WITH
MODBUS communication
GO = Gruner compact controller type WTHOUT
communication
GO-MPD = Gruner compact controller type with MODBUS
communication
Variable air volume controllers |
Mounting
On duct installations after elbow, reduction, T-branch etc.
L to be min. 3 times duct equivalent effective diameter
(Deff ).
If L can not be respected, then minimum of 2 × Deff with
perforated equalizing grid should be installed
Fig. 5: Measuring track length after Elbow
Deff
2×W×H
=
W+H
Lmin = 3 × Deff
Fig. 4: Measuring track length after T-branch
Fig. 6: Optima-S positioning and definition of measuring track length
NOTE:
A proper flange fixing method (e.g. flange clamps) and gasket shall be
used by installer to maintain the corresponding tightness class.
Dimensions
W 200 250
H
100
3
3
150
6
8
200
9
11
250
11
300
3C
350
400
450
4C
500
550
600
650
700
750
800
850
900
950
1000
300
350
400
450
500
550
600
650
5
8
11
11
12
14
6
9
12
14
14
15
6
9
12
14
15
17
8
9
12
14
14
15
8
11
14
14
14
15
9
11
14
14
15
15
9
12
15
15
15
14
15
15
17
Tightness
class
18
18
18
17
20
23
17
20
21
24
17
18
20
23
26
29
18
20
21
24
27
30
33
Tab. 4: OPTIMA-S-I table of weight
m (kg)
5 Nm drive
m (kg)
10 Nm drive
m (kg)
20 Nm drive



OPTIMA-S-I
OPTIMA-S-I
OPTIMA-S-I



OPTIMA-S-I-GO
OPTIMA-S-I-GO
OPTIMA-S-I-GO
700
750
800
850
900
15
17
17
18
20
21
24
27
30
32
35
38
18
20
21
23
26
29
32
33
36
39
41
17
18
21
23
26
29
32
33
36
38
41
44
45
18
20
23
26
29
32
33
36
38
41
44
45
47
48
18
21
29
29
30
32
35
36
38
41
44
47
48
51
53
950
21
29
30
35
36
38
39
41
44
47
50
51
53
56
59
1000 1050 1100 1150 1200
32
33
38
39
42
44
45
48
51
54
56
57
60
62
65
32
33
39
41
44
45
48
50
53
56
57
59
62
65
68
33
36
41
42
45
47
50
53
56
57
60
62
65
68
71
38
42
44
47
48
51
54
57
60
63
65
68
71
74
44
45
48
51
54
57
60
63
65
68
71
74
75
61
62
| Variable air volume controllers
Accessories
Ordering example:
Silencers are available to reduce the discharge sound
power levels when required. Multi-outlet insulated terminal units are available when multi-zone application is
required.
OPTIMA-S-I-600x300-BLC1-1500(m3/h)-5000(m3/h)
The above order example is set for Vmin and Vmax air
volume setting for size 600x300 with Belimo compact
controller having MP Bus comminucation capability.
Ordering codes
BLC1 controller is a compact controller with MP-Bus communication
BLC1-MOD is controller with builtin ModBus comminucation
BLC4 controller is a standalone controller without any
communication
Optima - Type - Size- Controller Type - Vmin - Vmax
Type
S-I
LxH
200x100 to 1200x 1000 (mm)
BLC1
BLC4
BLC1-MOD
m3/h or l/s*
m3/h or l/s*
* Note:
1. If the air volumes are not given during the ordering
process, then standard Factory setting will be applied
according to table
Variable air volume controllers |
Optima-S-I Table of dimensions and weight
W
H
B
G
mm
mm
mm
W
H
B
G
mm
mm
W
H
B
mm
mm
G
kg
mm
kg
mm
200
6
200
8
200
11
300
7
300
11
300
14
400
9
400
13
400
17
500
10
500
15
500
20
600
12
600
18
600
20
700
440
27
700
15
800
22
800
30
900
17
900
25
900
33
1000
18
1000
28
1000
37
1100
19
1100
30
1100
40
1200
21
1200
32
1200
43
200
7
200
9
200
12
300
8
300
12
300
15
400
10
400
14
400
19
500
12
500
17
500
22
600
14
600
19
600
25
200
140
800
290
24
800
14
700
500
kg
16
700
22
700
800
17
800
25
800
32
700
300
51
600
301
900
451
29
900
19
900
27
900
35
1000
21
1000
30
1000
40
1100
22
1100
33
1100
43
1200
24
1200
36
1200
47
200
8
200
10
200
13
300
10
300
13
300
16
20
400
12
400
16
400
500
14
500
19
500
23
16
600
22
600
27
18
700
25
700
800
20
800
28
800
34
900
22
900
30
900
38
1000
25
1000
34
1000
43
1100
27
1100
37
1100
47
1200
29
1200
40
1200
50
600
700
400
201
700
390
1000
540
31
63
64
| Variable air volume controllers
Optima-S-I Quick selection table
mm
W
200
250
300
350
400
450
500
Vmin
H
3
m /h
100
144
150
200
Vmax
mm
l/s
3
m /h
l/s
40
936
260
216
60
1404
288
80
1872
100
180
50
150
270
200
360
250
450
100
216
150
200
H
m /h
100
396
390
150
520
200
1170
325
75
1755
488
100
2340
650
125
2925
60
1404
324
90
432
120
250
540
150
300
648
180
350
756
100
252
150
200
Vmax
l/s
3
m /h
l/s
110
2574
715
594
165
3861
1073
792
220
5148
1430
250
990
275
6435
1788
300
1188
330
7722
2145
350
1386
385
9009
2503
813
400
1584
440
10296
2860
390
450
1782
495
11583
3218
2106
585
500
1980
550
12870
3575
2808
780
550
2178
605
14157
3933
3510
975
100
432
120
2808
780
4212
1170
150
648
180
4212
1170
210
4914
1365
200
864
240
5616
1560
70
1638
455
250
1080
300
7020
1950
378
105
2457
683
300
1296
360
8424
2340
504
140
3276
910
350
1512
420
9828
2730
250
630
175
4095
1138
400
1728
480
11232
3120
300
756
210
4914
1365
450
1944
540
12636
3510
350
882
245
5733
1593
500
2160
600
14040
3900
100
288
80
1872
520
550
2376
660
15444
4290
150
432
120
2808
780
600
2592
720
16848
4680
200
576
160
3744
1040
150
702
195
4563
1268
250
720
200
4680
1300
200
936
260
6084
1690
300
864
240
5616
1560
250
1170
325
7605
2113
350
1008
280
6552
1820
300
1404
390
9126
2535
400
1152
320
7488
2080
350
1638
455
10647
2958
100
324
90
2106
585
400
1872
520
12168
3380
150
486
135
3159
878
450
2106
585
13689
3803
200
648
180
4212
1170
500
2340
650
15210
4225
250
810
225
5265
1463
550
2574
715
16731
4648
300
972
270
6318
1755
600
2808
780
18252
5070
350
1134
315
7371
2048
650
3042
845
19773
5493
400
1296
360
8424
2340
200
1008
280
6552
1820
450
1458
405
9477
2633
250
1260
350
8190
2275
100
360
100
2340
650
300
1512
420
9828
2730
150
540
150
3510
975
350
1764
490
11466
3185
200
720
200
4680
1300
400
2016
560
13104
3640
250
900
250
5850
1625
450
2268
630
14742
4095
300
1080
300
7020
1950
500
2520
700
16380
4550
350
1260
350
8190
2275
550
2772
770
18018
5005
400
1440
400
9360
2600
600
3024
840
19656
5460
450
1620
450
10530
2925
650
3276
910
21294
5915
500
1800
500
11700
3250
700
3528
980
22932
6370
10 - 20% Of Vmax air flow rate has an accuracy error rate of: ±25%
20 - 40% Of Vmax air flow rate has an accuracy error rate of: <±10%
40 - 100% Of Vmax air flow rate has an accuracy error rate of: <±4%
W
Vmin
3
550
600
650
700
Variable air volume controllers |
Optima-S-I Quick selection table
mm
W
750
800
850
900
Vmin
H
3
m /h
200
1080
250
1350
300
1620
350
Vmax
mm
l/s
3
m /h
l/s
300
7020
1950
375
8775
450
10530
1890
525
400
2160
450
2430
500
550
H
m /h
350
2268
2438
400
2925
450
12285
3413
600
14040
675
15795
2700
750
17550
4875
2970
825
19305
5363
600
3240
900
21060
650
3510
975
22815
700
3780
1050
750
4050
1125
200
1152
250
1440
300
350
Vmax
l/s
3
m /h
l/s
630
14742
4095
2592
720
16848
4680
2916
810
18954
5265
500
3240
900
21060
5850
3900
550
3564
990
23166
6435
4388
600
3888
1080
25272
7020
650
4212
1170
27378
7605
700
4536
1260
29484
8190
5850
750
4860
1350
31590
8775
6338
800
5184
1440
33696
9360
24570
6825
850
5508
1530
35802
9945
26325
7313
900
5832
1620
37908
10530
320
7488
2080
250
1710
475
11115
3088
400
9360
2600
300
2052
570
13338
3705
1728
480
11232
3120
350
2394
665
15561
4323
2016
560
13104
3640
400
2736
760
17784
4940
400
2304
640
14976
4160
450
3078
855
20007
5558
450
2592
720
16848
4680
500
3420
950
22230
6175
500
2880
800
18720
5200
550
3762
1045
24453
6793
550
3168
880
20592
5720
600
4104
1140
26676
7410
600
3456
960
22464
6240
650
4446
1235
28899
8028
650
3744
1040
24336
6760
700
4788
1330
31122
8645
700
4032
1120
26208
7280
750
5130
1425
33345
9263
750
4320
1200
28080
7800
800
5472
1520
35568
9880
800
4608
1280
29952
8320
850
5814
1615
37791
10498
200
1224
340
7956
2210
900
6156
1710
40014
11115
250
1530
425
9945
2763
950
6498
1805
42237
11733
300
1836
510
11934
3315
300
2160
600
14040
3900
350
2142
595
13923
3868
350
2520
700
16380
4550
400
2448
680
15912
4420
400
2880
800
18720
5200
450
2754
765
17901
4973
450
3240
900
21060
5850
500
3060
850
19890
5525
500
3600
1000
23400
6500
550
3366
935
21879
6078
550
3960
1100
25740
7150
600
3672
1020
23868
6630
600
4320
1200
28080
7800
650
3978
1105
25857
7183
650
4680
1300
30420
8450
700
4284
1190
27846
7735
700
5040
1400
32760
9100
750
4590
1275
29835
8288
750
5400
1500
35100
9750
800
4896
1360
31824
8840
800
5760
1600
37440
10400
850
5202
1445
33813
9393
850
6120
1700
39780
11050
200
1296
360
8424
2340
900
6480
1800
42120
11700
250
1620
450
10530
2925
950
6840
1900
44460
12350
300
1944
540
12636
3510
1000
7200
2000
46800
13000
10 - 20% Of Vmax air flow rate has an accuracy error rate of: ±25%
20 - 40% Of Vmax air flow rate has an accuracy error rate of: <±10%
40 - 100% Of Vmax air flow rate has an accuracy error rate of: <±4%
W
Vmin
3
900
950
1000
65
66
| Variable air volume controllers
Optima-S-I Quick selection table
mm
W
1050
1100
H
W
200
Vmin
Vmax
mm
H
m3/h
l/s
m3/h
l/s
300
2268
630
14742
350
2646
735
17199
400
3024
840
450
3402
945
500
3780
550
600
Vmin
W
H
m3/h
4095
350
4778
400
19656
5460
22113
6143
1050
24570
4158
1155
4536
1260
650
4914
700
Vmax
l/s
m3/h
l/s
2898
805
18837
5233
3312
920
21528
5980
450
3726
1035
24219
6728
500
4140
1150
26910
7475
6825
550
4554
1265
29601
8223
27027
7508
600
4968
1380
32292
8970
29484
8190
650
5382
1495
34983
9718
1365
31941
8873
700
5796
1610
37674
10465
5292
1470
34398
9555
750
6210
1725
40365
11213
750
5670
1575
36855
10238
800
6624
1840
43056
11960
800
6048
1680
39312
10920
850
7038
1955
45747
12708
850
6426
1785
41769
11603
900
7452
2070
48438
13455
900
6804
1890
44226
12285
950
7866
2185
51129
14203
1150
950
7182
1995
46683
12968
1000
8280
2300
53820
14950
1000
7560
2100
49140
13650
400
3456
960
22464
6240
300
2376
660
15444
4290
450
3888
1080
25272
7020
350
2772
770
18018
5005
500
4320
1200
28080
7800
400
3168
880
20592
5720
550
4752
1320
30888
8580
450
3564
990
23166
6435
600
5184
1440
33696
9360
500
3960
1100
25740
7150
650
5616
1560
36504
10140
550
4356
1210
28314
7865
700
6048
1680
39312
10920
600
4752
1320
30888
8580
750
6480
1800
42120
11700
650
5148
1430
33462
9295
800
6912
1920
44928
12480
700
5544
1540
36036
10010
850
7344
2040
47736
13260
750
5940
1650
38610
10725
900
7776
2160
50544
14040
800
6336
1760
41184
11440
950
8208
2280
53352
14820
850
6732
1870
43758
12155
1000
8640
2400
56160
15600
900
7128
1980
46332
12870
950
7524
2090
48906
13585
1000
7920
2200
51480
14300
250
300
350
400
450
500
550
600
1200
Note : value Vmin = 0 can be always adjusted
value Vmax can be adjusted also deside the standard range upon
an agreement with the producer
650
700
750
800
850
900
950
1000
1050
1100
100
150
200
250
300
3C
5Nm
350
400
450
500
550
600
4C
10Nm
650
700
750
800
850
900
950
1000
20Nm
1150
1200
Variable air volume controllers |
Accessories
LDC
Circular Attenuator
Circular silencer LDC designed to fit directly to Optima-R
and Optima-R-I VAV terminal units with the help of Fast
clamp FK. The inlet and outlet connection complies with
the spiral duct standard.
The LDC effectively reduces noise levels on the discharge
of the VAV unit or in the duct work. Two silencers can
be used in series together in installations where noise
reduction is a particularly strong requirement, this can
be very effective. For the most effective noise reduction,
the silencer should be fitted immediately downstream
of the VAV terminal unit and before the accessories such
as Optima-R-MO (Round Multi-outlet units) or after the
Accessories such as VBC (Water Batteries).
The silencer is delivered in various fixed lengths and is
insulation thickness 100 mm. All LDC silencers are fitted
with tightness rubber gasket to assure leak less connection. FK can be used to facilitate the connection and
mounting of the system.
øD
Size
100-300
100-600
100-900
100-1200
125-600
125-900
125-1200
150-600
160-600
160-900
200-600
200-900
250-600
250-900
315-600
315-900
355-900
400-900
ØD
(mm)
97
97
97
97
122
122
122
147
157
157
197
197
247
247
312
312
352
397
L nom
(mm)
300
600
900
1200
600
900
1200
600
600
900
600
900
600
900
600
900
900
900
Ø D1
(mm)
200
200
200
200
224
224
224
250
260
260
300
300
355
355
415
415
560
600
L
(mm)
360
660
960
1260
665
965
1265
600
670
970
685
985
600
900
600
900
900
900
Hanging strap
FK
Fast clamps
Mounting clips which facilitate the installation and removal of fans for service and cleaning. Made from galvanised sheet steel and fitted with an 8 mm neoprene lining
which suppresses vibrations and ensures a tight fit. The
mounting clips are clamped together by two screws which
allow for small differences in dimension.
FK
100
125
150
160
200
250
315
355
400*
450*
500*
* Note! Without hanging straps
øD mm
100
125
150
160
200
250
315
355
400
450
500
ø D1
L
m
(kg)
2,28
4,09
5,18
6,46
4,39
6,2
7,47
5,37
5,37
7,48
6,9
9,74
8,55
11,7
11,8
16,3
25,2
24,3
67
| Variable air volume controllers
Attenuation [dB] for centre frequency [Hz]
ØD
nom
Length
nom
63
125
250
500
1k
2k
4k
8k
ØD1
mm
I
mm
m
mm
80
300
5
5
8
15
28
29
23
16
190
300
1,92
80
600
5
7
12
26
41
50
48
24
190
600
3,14
80
900
5
9
17
37
50
50
50
32
190
900
4,61
80
1200
6
11
21
49
50
50
50
40
190
1200
5,73
100
300
2
2
6
14
21
25
20
11
210
360
2,28
100
600
4
3
11
24
36
49
34
17
210
660
4,09
100
900
5
4
15
34
50
50
48
23
210
960
5,18
100
1200
6
5
19
45
50
50
50
29
210
1260
6,46
125
300
2
2
6
13
16
20
15
10
235
365
2,66
125
600
3
3
9
23
30
40
22
14
235
665
4,39
125
900
4
4
12
33
45
50
30
17
235
965
6,20
125
1200
5
5
15
43
50
50
38
21
235
1265
7,47
160
300
1
2
4
10
12
15
8
8
270
375
2,98
160
600
2
3
7
19
27
29
14
11
270
675
5,37
160
900
2
4
10
28
42
43
20
15
270
975
7,48
160
1200
2
5
13
37
50
50
26
19
270
1275
9,23
200
300
1
2
5
8
10
11
5
5
325
385
4,11
200
600
2
3
7
16
21
23
9
8
325
685
6,90
200
900
2
4
8
24
32
34
13
10
325
985
9,74
200
1200
3
5
10
31
43
45
18
13
325
1285
12,0
250
600
3
2
7
13
17
16
8
6
365
600
8,55
250
900
3
4
8
20
26
23
10
8
365
900
11,7
250
1200
4
5
9
26
35
30
12
10
365
1200
15,0
315
600
0
2
6
11
14
9
4
5
427
600
11,3
315
900
1
3
7
16
22
12
6
7
427
900
15,6
315
1200
1
3
8
22
30
16
7
9
427
1200
20,3
400*
600
0
3
4
6
8
4
4
4
508
600
20,5
400*
900
1
3
5
10
13
7
5
6
508
900
26,8
400*
1200
1
4
7
14
19
10
7
8
508
1200
30,0
* Supplied with two loose couplings
Technical data
5
1
0
20
0
Ød
m]
0
40
31
5
10
[m
5
v[
25
m/
s]
16
10
0
12
50
10
0
15
100
80
[Pa/m]
4
5
∆ pt
68
3
2
1
0.5
0.1
10
50
100
500
1 000
5 000 10 000 [l/s]
[m3 /h]
50
100
500
1 000
q
5 000 10 000
Variable air volume controllers |
69
Optima-SA
Rectangular Sound Attenuator
Rectangular silencer Optima-SA designed to fit directly to
Optima-RS VAV terminal units. The inlet and outlet connection is designed to effectively and easily be mounted
to the Optima-RS units.
20
ø9
W
20
20
H
The Optima-SA effectively reduces noise levels on the
discharge of the VAV unit. Two silencers can be used in
series together in installations where noise reduction is a
L
particularly strong requirement, this can be very effective.
For the most effective noise reduction, the silencer should
be fitted immediately downstream of the VAV terminal
unit and before the accessories such as Optima-RS-MO
(Rectangular to round Multi-outlet units) or after the Accessories such as VBR (Water Batteries). The silencer is
delivered in fixed length of 1000mm and is insulated with
thicknesses which vary to assure highest attenuation possible without compromising an increase in the pressure
loss.
L
ø9
Size
W
(mm)
H
(mm)
L
(mm)
m
(kg)
200x200-1000
200
200
1000
9,1
250x200-1000
250
200
1000
10,2
400x200-1000
400
200
1000
13,4
500x250-1000
500
250
1000
19,1
600x350-1000
600
350
1000
22,7
700x400-1000
700
400
1000
26,4
| Variable air volume controllers
THP
Rectangular Sound Attenuator
Rectangular silencer THP designed to fit directly to
Optima-S VAV terminal units. The inlet and outlet
connection is designed to effectively and easily be
mounted to the Optima-S units.
20
A
100
s
100
s
100
R50
Table of dimensions on the next page give the standard
basic configurations. For all other required configurations,
please contact your local Systemair sales office.
d
R50
The silencer is delivered in fixed length of 1000mm and
has beffel dimensions as noted and is insulated with
thicknesses which vary to assure highest attenuation
possible without compromising an increase in the
pressure loss.
B
The THP effectively reduces noise levels on the discharge
of the VAV unit. Two silencers can be used in series
together in installations where noise reduction is a
particularly strong requirement, this can be very effective.
For the most effective noise reduction, the silencer should
be fitted immediately downstream of the VAV terminal
unit and before the accessories such as VBR (Water
Batteries).
R50
70
100
100
100
L
d
Variable air volume controllers |
L
mm
200-1
300-2
400-2
500-3
600-3
d
W
S
d
W
S
d
W
S
d
W
S
d
W
S
d
200
12
0
50
20
50
25
22
100
50
28
66
34
30
100
50
35
75
37.5
300
15
0
50
22
50
25
24
100
50
30
66
34
32
100
50
39
75
37.5
400
18
0
50
26
50
25
28
100
50
35
66
34
37
100
50
44
75
37.5
500
21
0
50
30
50
25
32
100
50
41
66
34
43
100
50
50
75
37.5
24
0
50
34
50
25
36
100
50
44
66
34
46
100
50
55
75
37.5
600
28
0
50
38
50
25
40
100
50
49
66
34
51
100
50
62
75
37.5
800
31
0
50
43
50
25
45
100
50
54
66
34
56
100
50
68
75
37.5
900
33
0
50
45
50
25
47
100
50
58
66
34
60
100
50
71
75
37.5
1000
35
0
50
48
50
25
50
100
50
60
66
34
62
100
50
74
75
37.5
H
mm
L
mm
200
A [mm] - n
800-4
900-5
1000/5/100
1100/6/83
1200/6/100
W
S
d
W
S
d
W
S
d
W
S
d
W
S
d
37
100
50
43
80
40
45
100
50
46
83
42.5
48
100
50
41
100
50
47
80
40
49
100
50
50
83
42.5
52
100
50
46
100
50
54
80
40
56
100
50
64
83
42.5
66
100
50
500
600
1000
300
400
700
52
100
50
61
80
40
63
100
50
70
83
42.5
72
100
50
57
100
50
67
80
40
69
100
50
78
83
42.5
80
100
50
64
100
50
74
80
40
76
100
50
86
83
42.5
88
100
50
800
70
100
50
81
80
40
83
100
50
93
83
42.5
95
100
50
900
73
100
50
83
80
40
85
100
50
95
83
42.5
97
100
50
1000
76
100
50
88
80
40
90
100
50
100
83
42.5
102
100
50
n = Number of Baffels
s = Distance between baffels
A= Width of Silencer
H = Height of the Silencer
W = Total weight of silencer
d = Distance from Inner silencer wall to baffel
Height
700-4
S
700
Weights in Kg
A [mm] - n
W
1000
Weights in Kg
H
mm
Wide
200 250 300 350 400 450 500 550 600 650 700 750 800 850 900 950 1000 1050 1100 1150 1200
100
150
200
250
300
350
400
450
500
550
600
650
700
750
800
850
900
950
1000
Standard Size Silencers
On Demand Size Silencers
71
| Variable air volume controllers
Optima-R-MO & R-I-MO
Multioutlet box
Optima-R-MO are Multi-Outlet plenum boxes which are
designed to be used with Round VAV units. Multi-Outlet
plenum boxes are as standard without any insulation
internally or externally. On request following boxes can be
insulated as required on site.
Multi outlet plenum boxes are designed to facilitate
installation of VAV units to multiple diffusers for supply or
return air application.
L
øDout
H
øDout
45
12
øDout
B
øDin
72
øDout
Size
100-80
100-100
125-100
125-125
140-100
140-140
160-125
160-160
180-140
180-180
200-160
200-200
225-180
225-225
250-200
250-250
280-225
280-280
315-250
315-315
355-280
355-355
400-315
400-400
ØDin
(mm)
97
97
122
122
137
137
157
157
177
177
197
197
222
222
247
247
277
277
312
312
352
352
397
397
ØDout
(mm)
78
97
97
122
97
137
122
157
137
177
157
197
177
222
197
247
222
277
247
312
277
352
312
397
B
(mm)
250
300
300
350
300
380
350
420
380
460
420
500
460
560
500
610
560
670
610
740
670
820
740
910
H
(mm)
190
190
210
210
230
230
250
250
270
270
290
290
320
320
340
340
370
370
410
410
450
450
480
480
L
(mm)
150
170
170
190
170
210
190
230
210
250
230
270
250
300
270
330
300
370
330
390
370
430
390
470
Variable air volume controllers |
Optima-RS-MO
Multioutlet box
Optima-RS-MO are Multi-Outlet plenum boxes which are
designed to be used with Round to rectangular outlet
VAV units. Multi-Outlet plenum boxes are as standard
without any insulation internally or externally. On request
following boxes can be insulated as required on site.
Multi outlet plenum boxes are designed to facilitate
installation of VAV units to multiple diffusers for supply or
return air application.
L
øDout
12
H
øDout
W
øDout
20
45
Ø9
øDout
Size
200x200-80
200 x 200 - 100
250 x 200 - 100
250 x 200 - 125
400 x 200 - 125
400 x 200 - 140
400 x 200 - 160
400 x 200 - 180
500 x 250 -160
500 x 250 -180
500 x 250 -200
600 x 350 - 200
600 x 350 - 250
700 x 400 - 250
700 x 400 - 315
W
(mm)
200
200
250
250
400
400
400
400
500
500
500
600
600
700
700
H
(mm)
200
200
200
200
200
200
200
200
250
250
250
350
350
400
400
ØDout
(mm)
78
98
98
122
122
137
157
177
157
177
197
197
247
247
312
L
(mm)
190
190
190
190
190
210
210
250
250
330
330
330
370
370
390
73
74
| Variable air volume controllers
Reference
Project name: Sun & sand
Type of building: Hotel
City/country: Pune, India
Product/solution: Axial fans, high temperature fans.
Variable air volume controllers |
Controllers
Argus-RC
Argus-Midi
Room controller without communication..........10
Room controller with communication................10
Argus-IR24-P
Argus-IR24-PC
Wall mounted presence detector .......................10
Ceiling mounted presence detector ...................10
BLC4 controllers
BLC1 controllers
VAV-Compact Controller........................................10
VAV-Compact Controller........................................10
ZTH-GEN
ZTH-GEN
Hand held Service-Tool.........................................10
OK
CE
Fan Optimizer
Fan regulation for room ventilation ...................10
BLC1-MOD controllers
LMV-D3-MP
Office 12 - SA
VAV-Compact Controller .......................................10
75
76
| Variable air volume controllers
Argus-RC
Pre-programmed room controllers
The stand-alone version, Argus-RC, is designed for
control of heating and cooling in a single zone or a room.
A system consists of different control units and a relay
box. The control units are pre-programmed, but can be
configured for a specific application by using the display
and switches. (However, the default setting is in most
cases applicable.)
The control units have built-in temperature sensors. An
external temperature sensor can also be connected.
Relay box
Controllers Heating and Cooling
Argus-RC
Room Unit
Argus-RC-O
Room Unit
Occupancy
Argus-RC-H
Room Unit
Hidden Setpoint
Variable air volume controllers |
RC
Room controller
RC is a room controller from the Argus series intended to
control heating and cooling in a zone control system.
•
•
•
•
Awarded design
Simple installation
On/Off or 0...10 V control
Input for occupancy detector, window contact,
condensation detector and change-over function
RC is a room controller from the Argus series. It does not
have a communication connection.
Argus
Argus is a wide series of controllers which handle heating
and cooling. The controllers are divided into two different
series, With and Without communication capability. The
controller group with no communication capability, to
which RC belongs, are pre-programmed, stand-alone
controllers. The controllers with communication are preprogrammed and are ready to be installed into a controller
network to suit the communication type
Applications
The Argus controllers are suitable in buildings where
you want optimal comfort and low energy consumption,
for example offices, schools, shopping centres, airports,
hotels and hospitals etc.
Design
The controllers have a modern design. The design has
been awarded the 2007 “iF product design award”. The
standard colour is white, but the frame and centre can be
received in a number of different colours on inquiry. The
units can be combined, offering many different effects.
Sensor
The controller has a built-in sensor. An external Pt1000sensor can also be used.
Actuators
RC can control 0...10 V DC valve actuators and/or 24 V AC
thermal actuators.
Easy to install
The modular design with a separate bottom plate for
wiring makes the whole Argus series easy to install and
commission. The bottom plate can be put into place
before the electronics are installed. Mounting is directly
on the wall or on an electrical connection box.
77
78
| Variable air volume controllers
Control states
RC has control state:
• Heating and cooling in sequence
The change-over function can be activated, see below.
To ensure satisfactory functioning using sensor, the
system must have continuous primary circuit circulation.
When the change-over function is not used, the input
must be left disconnected.
Operating modes
Setpoint
There are three different operating modes: Stand-by,
Occupied and Bypass. Occupied is the preset operating
mode. It can be changed to Stand-by with a dipswitch.
The operating modes can be activated via an occupancy
detector.
Stand-by : The room is in an energy save mode and
is not used at the moment. This can for example be
during nights, weekends, evenings etc. The controller
is prepared to change operating mode to Occupied if
someone enters the room. Both heating and cooling are
disconnected within a temperature interval around the
applicable setpoint (heating setpoint value=-3°C, cooling
setpoint=+3°C).
Occupied : The room is in use and is therefore in a
comfort mode. The controller regulates the temperature
around a heating setpoint (22°C) and a cooling setpoint
(24°C).
Bypass: The temperature in the room is controlled in the
same way as in operating mode Occupied. The output
for forced ventilation is also active. Bypass is useful for
example in conference rooms, where many people are
present at the same time for a certain period of time.
After 10 minutes absence, the controller will automatically
return to the preset operating mode (Occupied or Standby).
In Occupied mode, the controller operates from a heating
setpoint (22°C) or a cooling setpoint (24°C) that can be
changed locally using dipswitches. The setpoint can be
adjusted up and down (±3°C) with the knob on the front
of the controller.Switching between heating and cooling
setpoints is done automatically in the controller depending
on the heating and cooling requirement.
Built-in safety functions
RC has an input for a condensation detector which
prevents condensation. The controller also has frost
protection. It prevents frost damages by by ensuring that
the room temperature does not drop below 8°C when the
controller is in Off-mode (caused by open window).
Indications
The controller has an LED shaped like a thermometer on
the front. A red indication is shown when heating control
is functional and a blue indication when cooling control is
active. No LED indication shows that neither heating nor
cooling control is active.
Occupancy detector
By connecting an occupancy detector, RC can switch
between Bypass and the preset operating mode
(Occupied or Stand-by). The temperature is then
controlled according to requirement, which saves energy
and keeps the temperature at a comfortable level.
Change-over function
RC has an input for change-over that automatically resets
output UO1 to operate with heating or cooling function.
The input can be connected to sensors of type PT1000
and have the sensor mounted so that it senses the
temperature on the supply pipe to the coil.
When the temperature exceeds 22°C, the output function
is set to heating and when the temperature drops below
18°C, the output is set to cooling.
As an alternative, a potential-free contact can be used.
When the contact is open the controller works with the
heating function and when it is closed, with the cooling
function.
Actuator exercise
All actuators are exercised. The exercise takes place at a
23 hours interval. An opening signal is sent to the actuator
for as long time as the run time has been configured.
Then a closing signal is sent for as long time and the
exercise is finished.
Application example
Condensation detector
IR
Window
contact
Temp
Variable air volume controllers |
Technical data
Supply voltage
Internal consumption
Ambient temperature
Storage temperature
Ambient humidity
Protection class
Built-in temperature sensor
Material, casing
Weight
Colour
18...30 V AC, 50...60 Hz
2.5 VA
0...50°C
-20...+70°C
Max 90% RH
IP20
NTC type, measuring range 0...50°C, accuracy ±0.5°C at 15...30°C
Polycarbonate, PC
110 g
Cover: Polar white RAL9010
Bottom plate: Light gray
Is also available in other colours on inquiry, contact systemair for more
Information.
This product conforms with the requirements of European EMC standards CENELEC EN 61000-6-1 and EN 61000-6-3, and the requirements of European LVD standard IEC 60 730-1. It carries the CE mark.
Inputs
External room sensor
Change-over alt. potential-free contact
Occupancy detector
PT1000-sensor, 0…50°C. Suitable sensors are Argus’s
TG-R5/PT1000,TG-UH/PT1000 and TG-A1/PT1000.
PT1000-sensor, 0…100°C. Suitable sensor is Argus’s TG-A1/PT1000.
Closing potential-free contact. Suitable occupancy detector is Argus’s
IR24-P.
Condensation detector alt. window contact
Argus’s condensation detector KG-A/1 resp. potential-free contact
Outputs
Forced ventilation
Valve actuator alt. thermal actuator
Valve actuator
Thermal actuator
Control
24 V AC actuator, max 0.5 A
2 outputs
0…10 V DC, max 5 mA
24 V AC, max 2.0 A
Heating or cooling
Actuator exercise
23 hours interval
Terminal blocks Lift type for cable cross-section 2.1 mm2
Basic setpoint heating, setting with dipswitches
The ON-position is marked on the dipswitch. The cooling setpoint is 2°C higher.
Basic setpoint, heating (°C)
SW1
SW2
20
OFF
OFF
22 (FS)
OFF
ON
24
ON
OFF
26
ON
ON
Other dipswitches
ON
OFF
Comment
SW3
Stand-by
Occupied (FS)
Preset operating mode
SW4
DI, window contact. Closed contact
indicates closed window.
CI, Argus’s condensation detector,
KG-A/1 (FS).
Function terminal 33, DI2/CI.
SW5
Digital output for 24 V AC thermal
actuator.
Analogue output for 0...10 V DC valve actuator (FS).
Function terminal 23, UO1.
SW6
Digital output for 24 V AC thermal
actuator.
Analogue output for 0...10 V DC valve actuator (FS).
Function terminal 24, UO2.
SW7
External, PT1000-sensor
Internal NTC-sensor (FS)
Temperature sensor
79
80
| Variable air volume controllers
Wiring
Terminal
Designation
Operation
10
G
Supply voltage 24 V AC
11
G0
Supply voltage 0 V
12
DO1
Output for forced ventilation
13-14
No function
20
GDO
24 V AC out common for DO
21
G0
0 V common for UO (when 0...10 V actuator is used)
22
No function
23
UO1
Output for 0...10 V valve actuator alt. thermal actuator. Heating or cooling.
24
UO2
Output for 0...10 V valve actuator alt. thermal actuator. Heating or cooling.
30
AI1
Input for external sensor
31
UI1
Input for change-over sensor alt. potential-free contact
32
DI1
Input for occupancy detector
33
DI2/CI
Input for Argus’s condensation detector KG-A/1 alt. window contact
40
+C
24 V DC out common for UI and DI
41
AGnd
Analogue ground
42-43
No function
Dimensions
60
68
95
31
mm
Product documentation
Document
Type
Instruction Argus RC
Instruction for RC
Product sheet TG-R4/PT1000, TG-R5/PT...
Information about room sensors, outdoor sensors and
strap-on sensors suitable for RC
Product sheet TG-UH/PT...
Product sheet TG-A1/PT...
Product sheet IR24-P
Information about occupancy detector suitable for RC
Instruction IR24-P
Instruction for IR24-P
Product sheet CS-1
Information about condensation detector for the Argus controllers
Variable air volume controllers |
Argus Midi
Pre-programmed room controllers with
communication
Argus Midi has basically the same set-up as the standalone version. However, every individual zone system
in every room can be connected to a bus line enabling
communication with a central SCADA system via RS485
using EXOline or Modbus.
The room controllers are pre-programmed
ROOM 2
ROOM 3
ROOM 4
Argus-RC-CDO
Room Unit
Display,
Occupancy
SCADA
RS485 (EXOline alt. Modbus)
Condensation detector
IR
Window
contact
Relay Box
Temp
ROOM 1
Controllers Heating and Cooling
Argus- RC-CO
Room Unit
Occupancy
Argus- RC-C
Room Unit
Argus- RC-CH
Room Unit
Hidden Set-point
81
82
| Variable air volume controllers
RC-CDO
Pre-programmed room controller with display and
communication
RC-CDO is a complete pre-programmed room controller
from the Argus Midi series intended to control heating and
cooling in a zone control system.
Sensor
•
•
•
•
•
•
•
Actuators
Awarded design
Communication via RS485 (Modbus or EXOline)
Fast and safe configuration via Argus tool©
Simple installation
On/Off or 0...10 V control
Backlit display
Input for occupancy detector, window contact,
condensation detector and change-over function
RC-CDO is a room controller from the Argus series. It
has a display and communication via RS485 (Modbus or
EXOline) for integration into systems.
The controller has a built-in sensor. An external Pt1000sensor can also be used.
RC-CDO can control 0...10 V DC valve actuators and/or
24 V AC thermal actuators.
Easy to install
The modular design with a separate bottom plate for
wiring makes the whole Argus series easy to install and
commission. The bottom plate can be put into place
before the electronics are installed. Mounting is directly
on the wall or on an electrical connection box.
Argus
Argus is a wide series of controllers which handle heating
and cooling.
The controllers are divided into three different series,
Mini, Midi and Maxi. Mini are pre-programmed,
stand-alone controllers. Maxi consists of freely
programmable controllers with communication. The Midi
group, to which RC-CDO belongs, are pre-programmed
controllers with communication.
Applications
The Argus controllers are suitable in buildings where
you want optimal comfort and low energy consumption,
for example offices, schools, shopping centres, airports,
hotels and hospitals etc.
Design
The controllers have a modern design. The design has
been awarded the 2007 “iF product design award”.
Flexibility with communication
RC-CDO can be connected to a central SCADA-system via
RS485 (EXOline or Modbus) and configured for a particular
application using the cost-free configuration tool Argus
tool©.
Variable air volume controllers |
Display handling
The display has the following indications:
It is possible to set different parameter values in a
Changeable value
Forced ventilation
Occupancy
indication
Setpoint
Indoor /
outdoor
temp.
OFF:
Unoccupied
(also
shows
temperature)
or Off
indication
(only OFF)
Current room
temperature in
°C to one
decimal point
Open window
STANDBY:
Standby indication
SERVICE:
Setting parameters
COOL/HEAT: Shows if the unit
controls according to the heating
or cooling setpoint
parameter menu in the display, using the buttons on
the controller. You change parameter values with the
INCREASE and DECREASE buttons and confirm changes
with the Occupancy button.
Occupancy button
INCREASE
DECREASE
Control states
RC-CDO can be configured for different control states/
control sequences:
• Heating
• Heating or cooling via the change-over function
• Heating/Heating
• Heating/Cooling
• Heating/Cooling with VAV-control and forced supply
air function
• Heating/Cooling with VAV-control
• Cooling
• Cooling/Cooling
•
Operating modes
There are five different operating modes: Off, Unoccupied,
Stand-by, Occupied and Bypass. Occupied is the preset
operating mode. It can be changed to Stand-by in the
parameter menu in the display. The operating modes
can be activated via a central command, an occupancy
detector or the Occupancy button.
Off: Heating and cooling are disconnected. However,
the temperature must not drop below the set minimum
temperature (Factory setting (FS)=8°C). Operating mode
Off is activated on open window.
Unoccupied: The room where the controller is placed
is not used for an extended period, for example during
holidays or long weekends. Both heating and cooling
are disconnected within a temperature interval with
configurable min/max temperatures (FS min=15°C,
max=30°C).
Stand-by: The room is in an energy save mode and is
not used at the moment. This can for example be during
nights, weekends, evenings etc. The controller is prepared
to change operating mode to Occupied if someone enters
the room. Both heating and cooling are disconnected
within a temperature interval around the applicable
setpoint (FS heating setpoint value=-3°C, cooling
setpoint=+3°C).
Occupied: The room is in use and is therefore in a comfort
mode. The controller regulates the temperature around
a heating setpoint (FS=22°C) and a cooling setpoint
(FS=24°C).
Bypass: The temperature in the room is controlled in the
same way as in operating mode Occupied. The output
for forced ventilation is also active. Bypass is useful for
example in conference rooms, where many people are
present at the same time for a certain period of time.
When Bypass has been activated by a press on the
Occupancy button, the controller will automatically return
to the preset operating mode (Occupied or Stand-by) after
a configurable time (FS=2 hours). If an occupancy detector
is used, the controller will automatically return to the
preset operating mode after 10 minutes absence.
Occupancy detector
By connecting an occupancy detector, RC-CDO can
switch between Bypass and the preset operating
mode (Occupied or Stand-by). The temperature is then
controlled according to requirement, which saves energy
and keeps the temperature at a comfortable level.
The Occupancy button
If you press the Occupancy button for less than 5 seconds
when the controller is in the preset operating mode, the
controller changes to operating mode Bypass. If you press
the button for less than 5 seconds when the controller
is in Bypass, it changes operating mode to the preset
operating mode.
When the Occupancy button is held depressed for more
than 5 seconds, the controller changes operating mode to
”Shutdown” (Off/Unoccupied), regardless of the current
83
| Variable air volume controllers
operating mode. Via the display or Argus tool©, you can
configure which operating mode, Off or Unoccupied,
should be activated on ”Shutdown” (FS=Unoccupied). If
you press the Occupancy button for less than 5 seconds in
Shutdown, the controller returns to Bypass.
Forced ventilation
Argus has a built-in function for forced ventilation. A short
press on the Occupancy button activates output DO1 for
example for a damper.
Change-over function
RC-CDO has an input for change-over that automatically
resets output UO1 to operate with heating or cooling
function. The input can be connected to sensors of type
PT1000 and have the sensor mounted so that it senses
the temperature on the supply pipe to the coil.
When the temperature exceeds 22°C, the output function
is set to heating and when the temperature drops below
18°C, the output is set to cooling. As an alternative, a
potential-free contact can be used. When the contact is
open the controller works with the heating function and
when it is closed, with the cooling function. To ensure
satisfactory functioning using sensor, the system must
have continuous primary circuit circulation. When the
change-over function is not used, the input must be left
disconnected.
Setpoint
(FS = +3°C). Pressing on DECREASE decreases the current
setpoint by 0.5°C with each press down to the min. limit
(FS = -3°C).
Switching between heating and cooling setpoints is done
automatically in the controller depending on the heating
and cooling requirement.
Built-in safety functions
RC-CDO has an input for a condensation detector which
prevents condensation. The controller also has frost
protection. It prevents frost damages by ensuring that the
room temperature does not drop below 8°C when the
controller is in Off-mode.
Actuator exercise
All actuators are exercised. The exercise takes place at
set intervals in hours (FS=23 hours interval). An opening
signal is sent to the actuator for as long time as the run
time has been configured. Then a closing signal is sent for
as long time and the exercise is finished.
Configuration and supervision with Argus tool©
RC-CDO is pre-programmed on delivery, but can be
configured using Argus tool©.
Argus tool© is a PC-based program that makes it possible
to configure and supervise an installation, and change
settings, via a clear and easy user interface.
In Occupied mode, the controller operates from a heating
setpoint (FS = 22°C), or a cooling setpoint (FS = 24°C)
that can be changed using the INCREASE and DECREASE
buttons. Pressing on INCREASE increases the current
setpoint by 0.5°C with each press up to the max. limit
Application examples
ROOM 2
ROOM 3
ROOM 4
SCADA
RS485
TCP/IP
RS485 (EXOline alt. Modbus)
Condensation detector
IR
Window
contact
Temp
ROOM 1
EX8282
RC-C...
RS485
EXO4
HUB
TCP/IP
84
RC-C...
EX8282
RS485
EX8282
RC-C...
Variable air volume controllers |
Technical data
Supply voltage
Internal consumption
Ambient temperature
Storage temperature
Ambient humidity
Protection class
Communication
Modbus Communication speed
Display
Built-in temperature sensor
Material, casing
Weight
Colour
18...30 V AC, 50...60 Hz
2.5 VA
0...50°C
-20...+70°C
Max 90% RH
IP20
RS485 (EXOline or Modbus) with automatic detection/change-over
8 bits, 1 or 2 stop bits. Odd, even (FS) or no parity.
9600 bps (not changeable)
LCD with background illumination
NTC type, measuring range 0...50°C, accuracy ±0.5°C at 15...30°C
Polycarbonate, PC
110 g
Cover: Polar white RAL9010
Bottom plate: Light gray
standards This product conforms with the requirements of European EMC
CENELEC EN 61000-6-1 and EN 61000-6-3, and the requirements of
European LVD standard IEC 60 730-1. It carries the CE mark.
External room sensor
PT1000-sensor, 0…50°C. Suitable sensors are Argus’s
TG-R5/PT1000,TG-UH/PT1000 and TG-A1/PT1000.
PT1000-sensor, 0…100°C. Suitable sensor is Argus’s TG-A1/PT1000.
Closing potential-free contact. Suitable occupancy detector is Argus’s
Inputs
Change-over alt. potential-free contact Occupancy detector IR24-P.
Condensation detector alt. window contact
Argus’s condensation detector KG-A/1 resp. potential-free contact
Outputs
Forced ventilation
Valve actuator alt. thermal actuator
Valve actuator
Thermal actuator
Control
24 V AC actuator, max 0.5 A
2 outputs
0…10 V DC, max 5 mA
24 V AC, max 2.0 A
Heating or cooling
Actuator exercise
FS = 23 hours interval
Terminal blocks Lift type for cable cross-section 2.1 mm2
Setpoint settings via Argus tool© or in the display
Basic heating setpoint
Basic cooling setpoint
Setpoint displacement
5...40°C
5...50°C
±0...10°C (FS = ±3°C)
85
86
| Variable air volume controllers
Wiring
Terminal
Designation
Operation
10
G
Supply voltage 24 V AC
11
G0
Supply voltage 0 V
12
DO1
Output for forced ventilation
13-14
No function
20
GDO
24 V AC out common for DO
21
G0
0 V common for UO (when 0...10 V actuator is used)
22
No function
23
UO1
Output for 0...10 V valve actuator alt. thermal actuator. Heating or cooling.
24
UO2
Output for 0...10 V valve actuator alt. thermal actuator. Heating or cooling.
30
AI1
Input for external sensor
31
UI1
Input for change-over sensor alt. potential-free contact
32
DI1
Input for occupancy detector
33
DI2/CI
Input for Argus’s condensation detector KG-A/1 alt. window contact
40
+C
24 V DC out common for UI and DI
41
AGnd
Analogue ground
42
A
RU-Bus A
43
B
RU-Bus B
Dimensions
60
95
68
28
Product documentation
Document
Argus Midi Manual
Type
Manual for the controllers from the Argus Midi series
Installation instruction Argus RC-CDO
Installation instruction for RC-CDO
Product sheet TG-R4/PT1000, TG-R5/PT...
Information about room sensors, outdoor sensors and
strap-on sensors suitable for RC-CDO
Product sheet TG-UH/PT...
Product sheet TG-A1/PT...
Product sheet IR24-P
Information about occupancy detector suitable for RC-CDO
Instruction IR24-P
Instruction for IR24-P
Product sheet KG-A/1
Information about condensation detector for the Argus controllers
Variable air volume controllers |
Argus-IR24-P
Presence detector
IR24-P is a presence detector designed for automatic
ventilation control of HVAC systems.
•
•
•
•
•
•
Detection pattern
Power supply 24 V AC or DC
Intended for wall or ceiling mounting
Unobtrusive design
Potentialfree, changeover relay
Both relay on-delay and/or relay off-delay, can
be individually set
Function
The IR24-P is a presence detector designed for automatic
ventilation control of HVAC systems. It saves money
and gives higher comfort in premises which require
forced ventilation for shorter periods of time, such as
conference rooms, assembly-halls etc. The unit provides
a changeover relay signal output for start/stop of fan or
similar equipment. It can be wall or corner mounted with
110°, 15m detection range.
Range adjustments
In order to suit different rooms or areas, the detection
range of IR24-P can be adjusted by changing the direction
of the sensor. To change the sensor direction, release the
screw on the mounting bracket and then carefully move
the sensor to the direction desired.
On / Off Delay
The ON and OFF delays are designed to provide smarter
energy management of HVAC systems. ON delay is the
time given to the sensor to certify the occupancy, before
it activates the output relay. OFF delay is the time that the
relay is activated after the last detection. Both ON and
OFF delays can be easily set by placing the jumper head
on the corresponding pins as following.
A
B
C
E
E
F
ON
0 sec.
10 sec.
30 sec.
1 min.
5 min
10 min.
OFF
10 sec.
1 min.
5 min.
10 min.
20 min.
30 min.
Technical data
•
•
•
•
•
•
•
•
•
•
•
•
Infrared sensor Dual element
Power supply 24 ± 2 V AC/DC
Detection range 15 x 15 m at 25°C
Output relay 24 V DC, 0.2 A max.
Consumption 5 mA @24 V AC
Mounting height 1.8...3.6 m
Mounting bracket MB-99
Detectable speed 0.1...3.0 m/sec.
RFI immunity Av. 20 V/m (10...1,000 MHz)
Ambient temperature -20°C...50°C
Ambient humidity 95% RH max.
Dimension 112 x 66 x 45 mm
87
88
| Variable air volume controllers
Operation
C. 1-minute Waiting
A. Standby
After the warm up time expires, the sensor enters into
standby mode. The detector will check whether both
delays are properly set. If not, the green LED will blink to
indicate.
When Relay ON delay expires, the sensor enters into a
1-minute waiting time. If no detection occurs within 1
minute, the sensor will return to standby mode. If any
detection occurs, then relay output will be activated and
Relay OFF delay will be started.
B. Relay ON Delay
D. Relay OFF Delay
Relay ON delay is the time given to sensor to verify true
occupancy before activating the relay output. Any further
detection during ON delay will NOT reset the timer.
Relay OFF delay is the time of relay activating. Every
detection during this period will reset the timer
Installation and Wiring
Walk Test
N.B. Do not install where the detector is exposed to direct
sunlight or directly above strong sources of heat. Make
sure the detection area does not have any obstruction
(plants, large pieces of furniture, curtains etc.) which may
block the detection.
Apply power supply and allows 25 seconds for sensor to
warm up. The green LED will blink during warm up period.
Walk across the detection zones (invisible) at normal
speed. The red LED will blink whenever the sensor detects
the motion.
Installation (see also picture beside)
1. Mount the base of mounting bracket on the selected
position. Lead the cable through the access tunnel of
mounting bracket or through the knockout openings
2. Open the front cover by loosening the locking screw
at the bottom. Lead the cable into the unit and
assemble the mounting bracket with the unit.
3. Connect the cable to the corresponding terminals
according to the instructions below.
4. Replace the front cover and then proceed with the
walk test.
(NC-COM-NO: Outputs for OnOff control of fan coil operation.)
Variable air volume controllers |
Argus-IR24-PC
Presence detector
On/Off delays
IR24-P is a presence detector designed for automatic
ventilation control of HVAC systems.
•
•
•
•
•
•
IR24-PC has individually settable On and Off delays.
The delays are designed to provide better energy
management of HVAC systems. The On delay is the
time given to the sensor to certify the occupancy before
it activates the fan coil controller. The Off delay is the
operating time for the fan coil after the last detection. The
On and Off delays are set by placing the jumper head on
the corresponding pins according to the table and figure
below.
Power supply 24 V AC/DC
Intended for ceiling mounting
360° detection
Individually settable On and Off delays
Change-over output
Unobtrusive design
IR24-PC is a 360° presence detector for automatic
ventilation control of HVAC systems. It uses infrared light.
The detector has a change-over output for activation/
deactivation of a fan coil controller.
A
B
C
E
E
F
ON
0
10
30
60
300
600
OFF
10
60
300
600
1200
1800
(Values in seconds)
Detection pattern
Top view 360°
Installation
Side view
2.4
3.0
3.6
4.2
6
4
2
0
2
4
6
Mounting
height
(m)
2.4
3.0
3.6
Diameter
coverage
6.0
7.5
9.0
10.5
4.2
Loosen the screw and remove the cover. Carefully lift
out the electronics cassette by bending the plastic clips
outwards. Lead the cable into the bottom part. Mount the
bottom part on the ceiling. Replace the electronics
cassette and connect the cable to the corresponding
terminals (see the section Wiring on the next page).
Finally, replace the front cover.
Note: Do not touch the infrared sensor in the middle of
the electronics cassette.
Testing the function
To test the function of the detector, apply power supply
and wait for the detector to warm up (~25 sec.). The LED
will blink (long and short) during the warm-up period.
Ensure that the jumper head connectors of the
On and Off delays are placed in the “A” position (the
shortest time). Walk across the detection zones at normal
speed. The LED will be lit when the sensor detects the
motion.
Note: The LED will blink if a jumper head connector is not
properly placed.
89
90
| Variable air volume controllers
Technical data
Power supply Power consumption Output Ambient humidity Temperature range Protection class Mounting Mounting height Infrared sensor Detection range On delay (selectable)
Off delay seconds (selectable)
24 +/- 2 V AC/DC
15 mA
200 mA, 24 V DC, change-over relay
Max. 95% RH
-20°C...+50°C
IP20
Ceiling mounting
2.4...4.2 m
Dual element
Height x 2.5 at 25°C
0, 10, 30, 60, 300 or 600 seconds
10, 60, 300, 600, 1200 or 1800
Wiring
Controller
On/Off input
24 VAC/DC
NC COM NO
24V
NC-COM-NO: Output for On-Off control.
Dimensions
110
44
mm
Product documentation
Document
Type
Instruction IR24-PC
Instruction for IR24-PC
Variable air volume controllers |
Compact or universal air volume control with Belimo.
The cost-efficient way to controlled room climate.
Human health
well-being and work performance are
crucially influenced by room climate.
Belimo room and system solutions
– a complete range of products
for cost-efficient motorisation and
control of zones and single rooms in
the comfort zone, industry, trade and
sensitive working areas – are proven
in countless installations all over the
world.
VAV-Compact – efficient room
control with a single unit
VAV-Universal – flexibility in
problematic environments
Actuator, controller and sensor in
one unit – VAV-Compact provides
an economical solution for variable
and constant air volume control
systems in office buildings, hotels,
hospitals, etc. Special rotary actuators
with a torque of 5, 10 or 20 Nm
and linear actuators with 150 Nm
can be supplied for a wide range of
VAV/CAV unit sizes and types. VAVCompact controllers can be controlled
conventionally or via the Belimo
MP-Bus®. The MP types can be
integrated in a higher-level system –
together with one sensor per device
– either via a DDC controller with
an MP interface or by means of a
gateway. The fans are incorporated
in an MP-Bus® based Fan Optimiser
to facilitate cost-optimised control
according to demand.
The ready-to-connect VAV-Universal
range encompasses rotary and safety
actuators as well as controllers with
dynamic and static pressure sensors.
These devices can be finely tuned
to exacting requirements in industry,
trade and public buildings. Digital,
self-adaptive VRP-M controllers
interact with fast-running actuators in
laboratories or production areas with
a severely polluted room atmosphere
to assure an instant supply of fresh
air. Depending on what is chosen, the
control systems can be integrated in
a higher-level fieldbus and equipped
– directly or over the MP-Bus® – with
the Belimo Fan Optimiser to cut fan
energy consumption by up to 50%.
91
92
| Variable air volume controllers
Increased convenience
a better working atmosphere, optimum energy efficiency.
VAV-Compact for convenient solutions
Individual room comfort
yy Wide range of potential applications
yy Adjustable to each application
yy Demand-based single-room application
yy Operation with Fan Optimiser
M
VAV-Universal with VRP-M controller and fast-runing actuators for sensitive working areas
VAV
VAV
Instant pure air
yy Extraction of polluted air
yy Ready-to-connect control system for
maximum safety
yy Integration in MP-Bus® network
yy Volumetric flow or pressure control STP
VAV-Compact with bus connection
Fieldbus
MP-Bus
Intelligent simplicity
yy System connection to DDC controller with
MP interface via MP-Bus®
yy Integration in higher-level systems such as LonWorks®,
Konnex, Ethernet TCP/IP, Profibus DP, etc. via MP
gateway
yy Convenient, cost-efficient wiring
yy Maximum flexibility in new, retrofitted,
converted or renovated buildings
t
MP gateway
Ethernet
VAV-Compact with Belimo Fan Optimiser for reduced energy consumption
Up to 50% fan energy saving
•
Optimised consumption and operating costs
•
Reduced flow noise thanks to lower supply
pressure in the air duct system
•
Reduced wiring expenses thanks to
MP-Bus® network
CAV
FU
MP1
Setpoint
Room
occupancy
VAV
MP2
–Cooling
requirement
– Volumetric flow
–Damper
position
VAV
MP8
Room
requirement
Variable air volume controllers |
Function
VAV-Compact
MODBUS types
VAV-Universal
LON types
MP types
VRP-M system solutions
Universal program
Sensors
VFP..
VFP..
VFD3
VFD3
Controller
VRD3
LMV-D3-MP
NMV-D3-MP
VRP
VRP-STP
VRP-M
Actuators
LMV-D3 MOD
NMV-D3 MOD
LMV-D3LON
NMV-D3LON
LM24A-V
NM24A-V
SM24A-V
LHV-D3-MP
Bus integration
LF24-V with
emergency
control function
LMQ24A-SRV-ST
NMQ24A-SRV-ST
NM24A-V-ST
SF24A-V-ST with
emergency control
function
SF24A-V with
emergency
control function
Into field bus systems via MPGateway
LonWorks®: Gateway UK24LON
Konnex: Gateway UK24EIB
Modbus RTU: Gateway
UK24MOD
BACnet MS/TP: Gateway
UK24BAC
Ventilator optimisation
via MP bus
Fan Optimiser
COU24-A-MP
Service tool
ZTH-GEN
Parameterisation and
Service software
PC-Tool MFT-P
Room controller
CR24..
CRA24..
Positioner
CRP24..
SG..
Information: Documents to VAV-Compact LON version, VRP-M system solution, VAV-Universal, single room controllers CR24, CRA24, CRP24,
Fan Optimiser COU24-A-MP and Tools and Interfaces are available as separate documents
93
94
| Variable air volume controllers
VAV-Compact
Functions
Master / slave connection
EXHAUST
SUPPLY
Room
T
M
1
S
2
Principle:
1. A reference signal, e.g. from a room temperature
controller, is connected to the master input. min and
max are set on the master controller.
2. The volumetric flow actual value signal from
the master acts as a reference signal for the slave
controller. The master is installed on the supply or
exhaust air side, depending on the application. See
Master
“Determination of the master controller“.
Slave
For connection diagram, see page 39-42
Reference signal Y
Example with
mode: 0 … 10 V
The ratio is set with the max
parameter on the slave
max
[V]
max
nom
10
Equal percentage
ratio
8
Room pressure ratio
In a master / slave connection, any changes in the air
system of the master (supply pressure too low, e.g. due to
a pressure control fault) are detected and reported to the
slave. This guarantees an equal percentage ratio of supply
air to exhaust air.
In a master / slave configuration, only one controller can
act as master. However, one master controller can control
several parallel slave controllers.
When are master / slave connections used?
yy In systems with air volume controllers in the supply
and exhaust air that are required to work sequentially
yy When an equal percentage ratio of supply air to exhaust air is specified.
Operating volumetric flow settings
The max- and min values used for the required
volumetric flow are set on the master and transferred to
the slave by means of a reference signal.
CAV application
In constant air volume applications, operating mode
control (CLOSED /
min etc.) is only set on the master controller.
Slave setting if the room pressure ratio is balanced
The min setting on the slave is always 0%. If the room
pressure ratio is 1:1 and all controllers are the same size,
the slave controller is set to max 100% / min 0%.
Slave setting if the room pressure ratio is unbalanced
The min setting on the slave is always 0%.
Setting with % scale on the ZTH-GEN hand-operated
device
The ratio of slave volume to master volume is set as
follows with the max value on the slave controller:
6
max S •
4
max S% =
nom M
•100
max M •
nom S
2
min
0
0
20
40
60
80
100
Volumetric flow
[% nom]
The slave min setting «0%» forms the pivot and intersection point
Determination of the master controller
If both units have:
yy N
on-identical
lower nom.
nom
settings, the controller with the
max S% =
nom M
= Nominal volume of the master unit in m3/h
max M
= Maximum volume of the master unit in m3/h
nom S
= Nominal volume of the slave unit in m3/h
max S
= Maximum volume of the slave unit in m3/h
Setting with PC-Tool / ZTH-GEN
These two setting tools can be used to enter the volumetric flow ratio
directly in m3/ h, ll/s or cfm, i.e. there is no need to calculate the setting
ratio.
yy Identical nom settings, the controller with the higher
air olume setting acts as master
Example
yy Positive pressure in the room
Master: Supply air unit
Slave: Exhaust air unit
–Exhaust air unit:
yy Negative pressure in the room
Master: Exhaust air unit Slave: Supply air unit
max value that must be set on the controller in %
Required:
Positive pressure in the room with 20% excess air
–Supply air unit:
Find:
nom 1600 m3/h /
nom 2400 m3/h /
max setting of the slave controller
53% =
1200 • 1600
1500 • 2400
•100
max 1500 m3/h
max 1200 m3/h
Variable air volume controllers |
VAV-Compact
Functions
Parallel connection
SUPPLY
Room pressure ratio
EXHAUST
Room
T
SUP.
In a parallel connection, the two VAV units are operated
independently of one another with a common reference
signal. The operating volumetric flows of the supply and
exhaust air units must be set according to the required room
pressure ratio.
EXH.
Principle:
The reference signal of the temperature controller is
connected in a parallel circuit with the reference value
inputs of the supply and exhaust air controllers. The
operating volumetric flows max and min are set on
both controllers.
For connection diagram, see page 39-42
Volumetric flow
actual value signal U5
Example with mode:
0 … 10 V
30
40
50
60
70
80
90
100%
max
[V]
max
10
9
8
The supply and exhaust air controllers work independently
of one another, i.e. if a fault occurs in the supply or exhaust
air system, the room pressure ratio is impaired for technical
reasons. In the worst case, the unit tolerances may be
accumulated. This circumstance must be taken into account
by the project planning engineer.
When are parallel connections used?
yy If air volume controllers operate with parallel supply
and exhaust air (controlled by a common reference
variable)
yy If the supply and exhaust air devices have different
sizes and different minimum and maximum volumetric
flow settings
yy If constant differential control is active between the
supply and exhaust air
yy In systems with several supply and exhaust air devices
yy In circulating air systems for airtight rooms.
7
Operating volumetric flow settings
6
Constant
supply /
exhaustair
difference
5
4
3
The max and min values used for the required volumetric
flow must be set on each VAV controller.
2
CAV application
1
In constant air volume applications, operating mode
control (CLOSED / min etc.) is set on both controllers.
0
min
Volumetric flow
[% nom]
0
10
20
min
30
40
50
60
70
80
90
100
Setting if the room pressure ratio is balanced
Owing to the proportional assignment of the reference
signal to the value ranges for max and min, it is possible
to operate VAV units with different nominal widths and
differentiated ranges parallel to one another.
Setting if the room pressure ratio is unbalanced
The operating volumetric flows of the supply and exhaust
air units must be set according to the difference:
yy Positive pressure ratio in the room Supply air volume >
exhaust air volume
yy Negative pressure ratio in the room Exhaust air volume > supply air volume
95
| Variable air volume controllers
VAV-Compact
Conventional application
Single-duct systems
IRC-VAV CAV room solution with motion detector
Function diagram
Room
unoccupied
Volumetric
flow max
min
Brief Description
Control solution for CAV single-room application
CAV single-duct system, occupancy-controlled Standalone operation or integrated in a building automation
system (I/O integration)
CAV single-duct system, occupancy-controlled
Wiring diagram
AC 24 V
~
Functions
min
The CAV controller is controlled by means of the motion
detector in two modes on the basis of room occupancy
min … max:
–
Room unoccupied: constant air volume min
–
Room occupied: constant air volume max
Motion detector
With switching output for low switching capacity (load
0.24 mA)
1
2
~
2
~
VAV-Compact control device
5
y
U5
Motion detector
CAV 1
1)
3
5
y
U5
CAV 2
1)Master-Slave
or
2)parallel
Notes
yy
Connection and terminal designations of the motion detector in accordance with the manufacturer‘s specification
yy
yy D
amper position feedback controlled via the MP-Bus
for demand based fan optimisation.
3
2)
1
..MV-D3-MP
VAV-Compact control device for supply air, exhaust air
or mixing units, comprising a sensor, VAV controller and
actuator for pressure-independent air volume controls.
max
Act. value sig.
Room
occupied
Act. value sig.
96
Mode setting on the CAV controller: 0 … 10 V oder 2 … 10 V
Variable air volume controllers |
VAV-Compact
Conventional application
IRC-VAV CAV room solution with 0....10V control
Single-duct systems
XP K
Y
[V]
ao1
10
Volumetric flow
max
0
tR
[°C]
WK
Brief Description
Control solution for VAV single-room application
Stand-alone operation or integrated in a building
automation system (I/O integration)
Anschlussschema
AC 24 V
~
Reference signal 0 … 10 V
Functions
Actual value signal 0 … 10 V *
WH
The 0 ... 10 V V single-room or DDC controller controls the
VAV controller with vaiable air volume in the range from
min … max, depending on the room cooling needs.
Single-room or DDC controller
Room / DDC controller
With The 0 ... 10 V output single (cooling sequence).
Controller functions in accordance with the manufacturer‘s
specification.
1
VAV-Compact control device
..MV-D3-MP
VAV-Compact control device for supply air, exhaust air
or mixing units, comprising a sensor, VAV controller and
actuator for pressure-independent air volume controls.
yy D
amper position controlled via the MP-Bus for demand based fan optimisation.
2
~
3
5
y
U5
2)
1
2
~
VAV 1
1)
3
5
y
U5
VAV 2
Notes
yy Connection and terminal designations in accordance with
the controller manufacturer’s specification
yy
Mode setting on the VAV controller: 0 … 10 V
97
| Variable air volume controllers
VAV-Compact
Conventional application
Brief description
Single-duct systems
Control solution for VAV single-room application,
VAV single-duct system, room temperature-controlled,
Stand-alone operation or integrated in a building
automation system (I/O integration)
Function diagram
XP K
Y
[V]
10
ao1
max
Functions
The CR24-B1 single-room controller controls the
connected VAV controllers with a variable air volume
in the range from min … max, depending on the
room cooling needs. Other functions can be optionally
connected (e.g. with a motion detector): energy hold off,
standby, etc.
min
2
EHO
0
CLOSED
tR
[°C]
WH
WK
IRC-VAV VAV room solution with CR 24 room controller
Room temperature controller
VAV singleduct system, room tempreture-controlled
Note
For technical data and a detailed description of functions, see CR24
product information.
Wiring diagram
AC 24 V
External
shift _
External
temperature
sensor
~
EHO
1
1
ao1
U5
6
7
2
2
~
1
2
~
U5
8
3
5
y
U5
2)
1
2
0...10V
98
VAV-Compact control device ..MV-D3-MP, VAV-Compact
control device for supply air, exhaust air or mixing units,
comprising a sensor, VAV controller and actuator for
pressure-independent air volume controls.
yy Damper position controlled via the MP-Bus for
demand based fan optimisation.
St-By
3
4
5
ai1/di1
di2
ai2
Input and output assignment
CR24-B1
VAV 1
1)
1)Master-Slave
3
5
y
U5
VAV 2
CR24-B1 (automatic) CR24-A1
Room temperature controller (15 … 36°C) with an
integrated or external temperature sensor
yy Mode selection with a pushbutton and three LEDs:
AUTO, ECO (reduced room temperature for standby or
night operation) and MAX (flushing operation with 15’
timer)
yy Room protection function (frost / excess temperature)
yy Inputs for energy hold off, standby operation, external
temperature sensor, summer / winter compensation
yy VAV system output
yy Self-resetting start-up and service function
yy Tool connection for diagnostics, settings and trend
recordings
or
2)parallel
Notes
yy Further VAV applications such as boost (fast heat up),
night
cool down (air heated with water or electrically), night cooling, combination available with chilled ceiling.
yy Mode setting for VAV controller for this application: 2 …
10 V
Functions
Description
Assignment
VAV
VAV system output (0) 2 ... 10 V
Output ao1
Optional
functions
Description
Assignment
EHO
Energy hold off (window)
Input di1
Sensor
External temperature sensor NTC 5K
Input ai1
Shift
External shift 0 ... 10 V
(Summer / Winter compensation)
Input ai2
Note
Terminal designations in accordance with the Belimo final controlling
element.
Configuration, settings
DIP switches
1
2
1
P-Band
normal
wide
2
di2
Stand by
Change over
Setpoint WH range: 15 … 36 °C
Variable air volume controllers |
VAV-Compact
Conventional application
Control solution for VAV single-room application
VAV dual-duct system, room temperature-controlled
Stand-alone operation or integrated in a building
automation system (I/O integration)
Dual-duct systems
Mixing Range
Heading
Supply air
temperature
Volumetric
Flow
Cooling
ht
max
Functions
max
cl
Hot air
Cold air
min
tR
P-band cooling
Wkü
[°C]
IRC-VAV VAV dual-duct solution with CR 24 room controller
The two air volume controllers mix the hot and cold air
supplied by the dual-duct air conditioning system to
obtain the condition requested by the CR24-B1 room
temperature controller. The constant air volume (CAV)
controller for the hot air adjusts to the set max volume
for heating. The variable air volume (VAV) controller for
the cold air adds the variable amount of cold air requested
by the room temperature controller. If cooling needs
exceed the hot air volume, the hot-air part is shut off and
only cold air is supplied.
Optional: The cold-air part can be shut off by means of a
switching contact at input d1.
Room temperature controller
VAV dual-duct system, room temperature-controlled
Note
For technical data and a detailed description of
functions, see CR24 product information.
AC 24 V
~
External temperature
sensor
Shift
Cold air
shut-off
ao1
1
1
1
2
2
~
2
~
6
U5 1 U5 2
7
3
5
y
U5
8
0...10V
Wiring diagram
_
VAV-Compact control device ..MV-D3-MP
VAV-Compact control device for supply air, exhaust air
or mixing units, comprising a sensor, VAV controller and
actuator for pressure-independent air volume controls.
St-By
3
4
5
ai1/di1
di2
ai2
Input and output assignment
CR24-B1
VAV contr. for adding cold air
3
5
y
U5
CR24-B1(automatic) CR24-A1
Room temperature controller (15 … 36°C) with an
integrated or external temperature sensor
yy Mode selection with a pushbutton and three LEDs:
AUTO, ECO (reduced room temperature for standby or
night operation) and MAX (flushing operation with 15’
timer)
yy Room protection function (frost / excess temperature)
yy Inputs for cold air shut-off, external temperature sensor, summer / winter compensation
yy VAV system output
yy Self-resetting start-up and service function
yy Tool connection for diagnostics, settings and trend
recordings
CAV controller for hot air
Note
yy Terminal descriptions correspond to the Belimo
actuator connection.
yy Mode setting for VAV controller for this application: 2
… 10 V
Functions
Description
Assignment
VAV
VAV system output (0) 2 ... 10 V
Output ao1
Optional
functions
Description
Assignment
Shut-off CA
Cold air shit-off
Input di1
Sensor
External temperature sensor NTC 5K
Input ai1
Shift
External shift 0 ... 10 V
(Summer / Winter compensation)
Input ai2
Configuration, settings
DIP switches
1
2
1
P-Band
normal
wide
2
di2
Stand by
Change over
Setpoint WH range: 15 … 36 °C
99
100
| Variable air volume controllers
BLC4, VAV-Compact Controller
VAV-Compact controller with integrated pressure sensor, VAV controller and damper actuator
for pressure-independent VAV and CAV applications in the comfort zone
•Control: DC 0/2 … 10 V
•Diagnostic socket for Service and PC-Tool
LMV-D3-MF
NMV-D3-MF
Brief description
Application
Pressure measurement
Actuator
Control function
Feedback
VAV – variable volumetric flow
CAV – constant volumetric flow
Operating and service devices
Assembly and connection
Test function / test display
OEM factory settings
The digital VAV-Compact has PI control characteristics and is used for pressureindependent control of VAV units in the comfort zone.
The integrated maintenance-free Belimo D3 differential pressure sensor is also
suitable for very small volumetric flows. It is for this reason that it covers versatile
applications in the comfort zone, e.g. in residential construction, offices, hospitals,
hotels, cruise ships, etc.
Two versions available, depending on the size of the VAV unit: 5 / 10 Nm.
– Rotary actuator, depending on the size
VAV-CAV or Open-Loop operation for integration in an external VAV control loop.
Current volumetric flow, damper position or differential pressure value.
For variable volumetric flow applications with a modulating reference variable, e.g.
room temperature controller or direct digital control, it enables demand-related,
energy-saving ventilation of individual rooms or zones. The operating range min
…max can be connected via selectable mode.
The following are available: DC 2 … 10 V / 0 … 10 V / adjustable range.
For constant volumetric flow applications, e.g. in step mode, controlled by means
of a switch. The following operating modes can be selected from: CLOSED / min /
(mid) / max / OPEN
Belimo PC-Tool or service tool ZTH-GEN, can be plugged into the VAV-Compact
(PP connection) or connection U5.
The VAV-Compact, which is assembled on the unit by the OEM, is connected using
the prefabricated connecting cable.
The VAV-Compact features two LEDs with a functional readiness display for
commissioning and functional checking. Extended information with ZTH-GEN.
The VAV-Compact is mounted on the VAV unit by the unit manufacturer, who
adjusts and tests it according to the application. The VAV-Compact is sold
exclusively via the OEM channel for this reason.
Type overview
Type
Torque
Power consumption
LMV-D3-MF
NMV-D3-MF
5 Nm
10 Nm
2W
3W
Dimensioning
Weight
4 VA (max. 8 A @ 5 ms)
5 VA (max. 8 A @ 5 ms)
Approx. 500 g
Approx. 700 g
Variable air volume controllers |
Technical data
Supply
Nominal voltage
Operating range
Differential pressure sensor
Type, principle of operation
Operating range
Overload capability
Installation position
Materials in contact with medium
Control function
Adjustment values
nom
∆p @ nom
max
min
mid
Classic control
VAV mode for reference value input Y
(Connection 3)
Mode for actual value signal U5
(Connection 5)
AC 24 V, 50/60 Hz
DC 24 V
AC 19.2 … 28.8 V
DC 21.6 … 28.8 V
Belimo D3 sensor, dynamic response
0 … 600 Pa
±3000 Pa
Any, no reset necessary
Glass, epoxy resin, PA, TPE
–VAV-CAV
– Open-loop operation
OEM-specific nominal volumetric flow setting, suitable for the VAV unit
38 ... 450 Pa
20 … 100% of nom
0 … 100% of nom
50% of min to max
– DC 2 … 10 V / (4 … 20 mA with 500 Ω resistance)
Input impedance min. 100
– DC 0 … 10 V / (0 … 20 mA with 500 Ω resistance)
kOhm
– Adjustable DC 0 … 10 V
– DC 2 … 10 V
– DC 0 … 10 V
max. 0.5 mA
– Adjustable: volumetric flow, damper position or differential pressure
CAV operating modes (constant volumetric flow)
CLOSED / min / (mid *) / max / OPEN * (* only with AC 24 V supply)
Operating and service
Push-button
LED display
Pluggable / PC-Tool (V3.6 or higher) / service tool ZTH-GEN
Adaption
– 24 V supply
–Status
Actuator
Direction of rotation
Adaption
Gear disengagement
Sound power level
Angle of rotation
Spindle driver
Brushless, non-blocking actuator with power-save mode
ccw / cw
Capture of setting range and resolution to control range
Push-button self-resetting without functional impairment
Max. 35 dB (A)
Connection
95° , adjustable mechanical or electronic limiting
– Clamp, spindle round 10 ... 20 mm / spindle square 8 ... 16 mm
– Form fit in various versions, e.g. 8 x 8 mm
Cable, 4 x 0.75 mm2
Safety
Protection class
Degree of protection
Electromagnetic compatibility
Mode of operation
Rated impulse voltage
Control pollution degree
Ambient temperature
Non-operating temperature
Ambient humidity
Maintenance
III Safety extra-low voltage
IP54
CE according to 89/336/EEC
Type 1 (in accordance with EN 60730-1)
0.5 kV (in accordance with EN 60730-1)
2 (in accordance with EN 60730-1)
0 … +50°C
–20 … +80°C
5 ... 95% r.h., non-condensing (in accordance with EN 60730-1)
Maintenance-free
Restrictions
Bus function MP
Fan Optimiser (Fan control)
Sensor integration
no MP Bus communication possible
no communication to BELIMO Fan Optimiser COU24-A-MP
no Sensor integration possible
101
| Variable air volume controllers
Connection
The connection is made using the connecting cable mounted to the VAV-Compact device.
Hinweise
!
–Supply via safety isolating transformer!
–Connections 1 and 2 (AC/DC 24 V) and 5 must be
routed to accessible terminals (room temperature
controller, floor distributor, control cabinet,
etc.) in order to enable access with the tool for
diagnostic and service work.
No. Designation
Wire colour
Function
1
–T
Connecting cable
–T
2
~ + red
~+
3
Y
white
5
U
orange
Reference signal VAV/CAV
– Actual value signal
–Tool communication
black
AC/DC 24 V supply
VAV – Variable operation min … max
Example 1:
Example 2:
VAV with analogue reference signal
VAV with shut-off (CLOSE), 2 ... 10 V mode
T
T
~
AC 24 V
+ DC 24 V
_
_
AC 24 V
+ DC 24 V
T
Wiring diagrams
~
T
VAV reference signal
2 … 10 V
CLOSED
VAV
VAV reference signal
0 … 10 V / 2 … 10 V
Switching CLOSED / VAV mode
Actual value signal
0 … 10 V / 2 … 10 V
Actual value signal
0 … 10 V / 2 … 10 V
2
3
5
T
~
Y
U
_
2
3
5
Y
U
_
..MV-D3-MF
+
1
T
1
~
..MV-D3-MF
+
PC-Tool
ZTH-GEN
PC-Tool
ZTH-GEN
CAV – Step mode CLOSED / min / mid / max / OPEN
Note
«Standard 0.5 V shut-off» not use at:
–Mode 2 ... 10 V and MP bus operation
–Mode 2 ... 10 V and CAV control
Wiring diagrams
Three options are available for the CAV control:
– Standard 0.1 V shut-off: CLOSED – min – max – OPEN (default setting)
– Standard 0.5 V shut-off: CLOSED – min – max – OPEN
– Old Generation (NMV-D2M): CLOSED – min – mid – max – OPEN
T
CAV control
~
AC 24 V
+ DC 24 V *
_
T
VAV reference signal
a b c d e
Actual value signal
0 … 10 V / 2 … 10 V
3
5
Y
U
_
..MV-D3-MF
+
PC-Tool
ZTH-GEN
Example:
CAV function: Standard
–
0 … 10 V 0 … 10 V 0 … 10 V 0 … 10 V
2 … 10 V 2 … 10 V 2 … 10 V 2 … 10 V 2 … 10 V
0 … 10 V
~
~
~
–
2 … 10 V
+
Mode
setting
T
Signal
CAV application CLOSED – min – max
(mode 2 … 10 V)
T
_
3
3
3
3
c) CLOSED
*
b) VAV
All open – min active **
a
d
e) OPEN
*
Actual value signal
d) max
Legend
Contact closed, function active
Contact closed, function active, only in 2 ... 10 V mode
Contact open
* Not available with DC 24 V supply
** the damper is closed when the 0.5 V shut-off level is used
1
2
3
5
Setting CAV function:
Standard (Default)
T
3
a) CLOSED
~
Function
Damper
CLOSED
min ... max
CAV – min
Damper
OPEN
CAV – max
AC 24 V
+ DC 24 V
Damper CLOSED
CAV step min
CAV step max
2
~
1
T
Note
The contacts are mutually interlocking!
~
102
Y
U
..MV-D3-MF
_
+
PC-Tool
ZTH-GEN
Variable air volume controllers |
Dimensioning of supply and connecting cable
General
In addition to the actual wire sizing, attention must also be paid to the surrounding
area and the cable routing.Signal cables must not be laid in the vicinity of load
cables, objects liable to cause EMC interference etc. if possible. Paired or layer
stranded cables improve immunity to interference.
24 V supply, dimensioning and cabling
The dimensioning and installation of the AC 24 V supply, the fuse protection and
the cables are dependent on the total operated load and local regulations. Account
must be taken of the following performance data, including the starting currents of
the actuators:
– Dimensioning values VAV-Compact controller, see Technical data
– Dimensioning values of further controlling elements etc. can be found in the
current data sheets and product information
– Other devices which are intended to be connected to the same 24 V supply
– Reserve capacity for subsequent expansion, if planned.
Tool connection
Settings and diagnostics
On-board service connection
The settings and diagnostics of the connected VAV-Compact controller can be
checked and adjusted easily and rapidly with the Belimo PC-Tool or with the ZTHGEN service tool.
The service connection integrated in the VAV-Compact enables a rapid connection
of the operating device used.
Belimo VAV operating and service devices
– Belimo PC-Tool with level converter ZIP-USB-MP
– Service tool ZTH-GEN
ZTH-GEN
◄ or ►
RJ12
ZK1-GEN
ZTH-GEN
▲ ▼ – + OK
BELIMO
PC-Tool
US B
GND
24 V
1
USB
2
ZK1-GEN
..MV-D3-MF
Tool connection (5)
The VAV-Compacts can also communicate with the Service tools via the
Tool connection (connection wire 5). The connection be set up during
operations on-site, i.e. in the connection socket, on the tool socket of the
Belimo room temperature controller CR24 or at the floor or control cabinet
terminals.
ZTH-GEN
~ T
AC 24 V
_ +
DC 24 V
RJ12
◄ or ►
▲ ▼ – + OK
ZK2-GEN
BELIMO
PC-Tool
MP
2
5
~ T
USB
24 V
U5
1
..MV-D3-MF
_ +
T
US B
GND
white = GND
green = MP
blue not connected
1
2
Y
3
U
5
ZTH-GEN
103
104
| Variable air volume controllers
BLC1, VAV-Compact Controller
LMV-D3-MP
VAV-Compact controller with integrated pressure sensor, VAV controller and damper
actuator for pressure-independent VAV and CAV applications in the comfort zone
•
Control: DC 0/2 … 10V / MP-Bus
•
Integration in bus systems
– DDC controller with MP interface
– LONWORKS® systems
– Fan optimiser systems
•
With additional switch-on option for sensors and switches
•
Diagnostic socket for Service and PC-Tool
NMV-D3-MP
Brief description
Application
Pressure measurement
The digital VAV-Compact has PI control characteristics and is used for pressure-independent
control of VAV units in the comfort zone.
The integrated maintenance-free Belimo D3 differential pressure sensor is also suitable for
very small volumetric flows. It is for this reason that it covers versatile applications in the
comfort zone, e.g. in residential construction, offices, hospitals, hotels, cruise ships, etc.
Actuator
Three versions available, depending on the size of the VAV unit: 5 / 10 / 20 Nm.
– Rotary actuator, depending on the size
– Linear actuator 150 N with 100, 200 or 300 mm linear movement
Control function
VAV-CAV or Open-Loop operation for integration in an external VAV control loop.
Feedback
Damper position for fan optimiser systems, current volumetric flow or pressure value.
VAV – variable volumetric flow
For variable volumetric flow applications with a modulating reference variable, e.g. room
temperature controller, direct digital control or bus system, it enables demand-related,
energy-saving ventilation of individual rooms or zones. The operating range min …max
can be connected via selectable mode.
The following are available: DC 2 … 10V / 0 … 10V / adjustable range / bus operation
CAV – constant volumetric flow
For constant volumetric flow applications, e.g. in step mode, controlled by means of a
switch. The following operating modes can be selected from: CLOSED / min / (mid) /
max / OPEN
Bus function
Operating and service devices
Assembly and connection
Test function / test display
OEM factory settings
Up to eight Belimo MP devices (VAV / damper actuator / valve actuator) can be connected
together over the MP-Bus and integrated into the following systems:
–LONWORKS® applications with Belimo UK24LON interface
– EIB Konnex applications with Belimo UK24EIB interface
– MODBUS RTU applications with Belimo UK24MOD interface
– BACnet applications with Belimo UK24BAC interface
– DDC controller with integrated MP-Bus protocol
– Fan optimiser applications with optimiser COU24-A-MP
A sensor (0...10V or passive), e.g. a temperature sensor or a switch, can optionally be
integrated into the higher-level DDC or bus system via the MP-Bus.
Belimo PC-Tool or service tool ZTH-GEN, can be plugged into the VAV-Compact
(PP connection) or via MP-Bus.
The VAV-Compact, which is assembled on the unit by the OEM, is connected using the
prefabricated connecting cable.
The VAV-Compact features two LEDs with a functional readiness display for commissioning
and functional checking. Extended information with ZTH-GEN.
The VAV-Compact is mounted on the VAV unit by the unit manufacturer, who adjusts and
tests it according to the application. The VAV-Compact is sold exclusively via the OEM
channel for this reason.
Type overview
Type
Torque
LMV-D3-MP
NMV-D3-MP
SMV-D3-MP
LHV-D3-MP
5 Nm
10 Nm
20 Nm
150 N
Power consumption Dimensioning
2W
3W
3W
2.5 W
4 VA (max. 8 A @ 5 ms)
5 VA (max. 8 A @ 5 ms)
5.5 VA (max. 8 A @ 5 ms)
4.5 VA (max. 8 A @ 5 ms)
Weight
Approx. 500 g
Approx. 700 g
Approx. 830 g
Approx. 550 g
Variable air volume controllers |
Technical data
Supply
Nominal voltage
Operating range
Differential pressure sensor
Type, principle of operation
Operating range
Overload capability
Installation position
Materials in contact with medium
Control function
Adjustment values
nom
∆p @ nom
max
min
mid
Classic control
VAV mode for reference value input Y
(Connection 3)
Mode for actual value signal U5
(Connection 5)
CAV operating modes (constant volumetric
flow)
MP-Bus function
Address in bus operation
LONWORKS® / EIB-Konnex / Modbus RTU /
BACnet
DDC controller
Fan optimiser (fan control)
Sensor integration
Operating and service
Communication
Push-button
LED display
Actuator
Direction of rotation
Adaption
Gear disengagement
Sound power level
Actuator - rotating
Angle of rotation
Position indication
Spindle driver
Actuator – linear
Stroke
Connection
Safety
Protection class
Degree of protection
Electromagnetic compatibility
AC 24V, 50/60 Hz, DC 24 V
AC 19.2 … 28.8V, DC 21.6 … 28.8V
Belimo D3 sensor, dynamic response
0 … 600 Pa
±3000 Pa
Any, no reset necessary
Glass, epoxy resin, PA, TPE
–VAV-CAV
– Open-loop operation
OEM-specific nominal volumetric flow setting, suitable for the VAV unit
50 ... 450 Pa
20 … 100% of nom
0 … 100% of nom
50% of min to max
– DC 2 … 10V / (4 … 20 mA with 500 Ω resistance)
Input impedance min. 100 kOhm
– DC 0 … 10V / (0 … 20 mA with 500 Ω resistance)
– Adjustable DC 0 … 10V
– DC 2 … 10V
max. 0.5 mA
– DC 0 … 10V
– Adjustable: volumetric flow, damper position or differential pressure
CLOSED / min / (mid *) / max / OPEN * (* only with AC 24V supply)
MP1 … 8 (classic operation: PP)
With BELIMO Interface UK24LON / UK24EIB / UK24MOD / UK24BAC
1 … 8 BELIMO MP devices (VAV / damper actuator / valve)
DDC controllers/programmable controller with an integrated MP interface from various
manufacturers
With BELIMO Fan Optimiser COU24-A-MP
Passive (Pt1000, Ni1000, etc.) and active sensors (0…10V), e.g. temperature, humidity
2-point signal (switching capacity 16 mA @ 24V), e.g. switches, occupancy switches
Pluggable / PC-Tool (V3.6 or higher) / service tool ZTH-GEN
PP/MP-Bus, max. DC 15V, 1200 baud
Adaption / addressing
– 24V supply
– Status / bus function
Brushless, non-blocking actuator with power-save mode
ccw / cw or ↑ / ↓
Capture of setting range and resolution to control range
Push-button self-resetting without functional impairment
Max. 35 dB (A), SMV-D3-MP max. 45 dB (A)
95° , adjustable mechanical or electronic limiting
Mechanical with pointer
– Clamp, spindle round 10 ... 20 mm / spindle square 8 ... 16 mm
– Form fit in various versions, e.g. 8 x 8 mm
100, 200 or 300 mm, adjustable mechanical or electronic limiting
Cable, 4 x 0.75 mm2
III Safety extra-low voltage
IP54
CE according to 89/336/EEC
105
| Variable air volume controllers
(continued)
Technical data
Safety
Mode of operation
Rated impulse voltage
Control pollution degree
Ambient temperature
Non-operating temperature
Ambient humidity
Maintenance
Type 1 (in acc. with EN 60730-1)
0.5 kV (in accordance with EN 60730-1)
2 (in accordance with EN 60730-1)
0 … +50°C
–20 … +80°C
5 ... 95% r.h., non-condensing (in accordance with EN 60730-1)
Maintenance-free
Connection
Connecting cable
No. Designation
!
Wire colour
Function
1
T–
Note
–Supply via safety isolating transformer!
–Connections 1 and 2 (AC/DC 24V) and
5 (MP signal) must be routed to accessible
terminals (room temperature controller,
floor distributor, control cabinet, etc.) in
order to enable access with the tool for
diagnostic and service work.
The connection is made using the connecting cable mounted to the VAV-Compact
device.
–T
black
2
+~
red
~+
3
Y
white
5
U
orange
Reference signal VAV/CAV
– Actual value signal
–MP-Bus connection
AC/DC 24V
supply
VAV – Variable operation min…max
Example 1:
VAV with analogue reference signal
~
AC 24 V
+ DC 24 V
_
AC 24 V
+ DC 24 V
T
VAV reference signal
0 … 10V / 2 … 10V
CLOSED
VAV
T
_
Example 2:
VAV with shut-off (CLOSE), 2 ... 10V mode
T
T
VAV reference signal
2 … 10V
Switching CLOSED / VAV mode
MP / Actual value signal
0 … 10V / 2 … 10V
3
5
T
~
Y
U
_
+
..MV-D3-MP
PC-Tool
ZTH-GEN
Example 3:
VAV with analogue reference signal
supply/exhaust air in parallel operation
2
3
5
Y
U
_
~
AC 24 V
+ DC 24 V
+
_
T
T
T
VAV reference signal
0 … 10V / 2 … 10V
5
T
~
Y
U
_
+
Supply air
..MV-D3-MP
PC-Tool
ZTH-GEN
1
2
3
5
T
3
VAV reference signal
0 … 10V / 2 … 10V
MP / Actual value signal
0...10V / 2...10V
~
2
PC-Tool
ZTH-GEN
AC 24 V
+ DC 24 V
MP / Actual value signal
0...10V / 2...10V
1
..MV-D3-MP
Example 4:
VAV with analogue reference signal,
in Master/Slave operation
T
_
1
~
2
T
1
MP / Actual value signal
0 … 10V / 2 … 10V
~
Y
U
_
+
Master
..MV-D3-MP
PC-Tool
ZTH-GEN
Reference signal Slave
MP / Actual value signal
0 … 10V / 2 … 10V
2
3
5
T
~
Y
U
_
+
Exhaust air
..MV-D3-MP
PC-Tool
ZTH-GEN
1
2
3
5
T
1
MP / Actual value signal
0 … 10V / 2 … 10V
~
Wiring diagrams
~
106
Y
U
_
+
Slave
..MV-D3-MP
PC-Tool
ZTH-GEN
Variable air volume controllers |
107
CAV – Step mode CLOSED / min / mid / max / OPEN
T
Wiring diagrams
Three options are available for the CAV control:
– Standard 0.1 V shut-off: CLOSED –min – max – OPEN (default setting)
– Standard 0.5 V shut-off: CLOSED – min – max – OPEN
– Old Generation (NMV-D2M): CLOSED – min – mid – max – OPEN
~
CAV control
AC 24 V
+ DC 24 V *
_
T
VAV reference signal
a b c d e
MP / Actual value signal
0 … 10V / 2 … 10V
5
T
~
Y
U
..MV-D3-MP
+
PC-Tool
ZTH-GEN
* Not available with DC 24 V supply.
CAV function: Standard
–
0 … 10 V
0 … 10 V
0 … 10 V 0 … 10 V
2 … 10 V 2 … 10 V
2 … 10 V
2 … 10 V 2 … 10 V
–
T
0 … 10 V
2 … 10 V
Function
3
3
Damper
CLOSED
a) CLOSED
Signal
min ... max
~
~
+
~
3
3
3
_
AC 24 V
+ DC 24 V
a
d
c) CLOSED *
MP / Actual value signal
b) VAV
CAV – min
All open – min active **
Damper
OPEN
e) OPEN *
CAV – max
d) max
1
2
3
5
T
Mode
setting
Example:
CAV application CLOSED – min – max
(mode 2 … 10 V)
~
_
Damper CLOSED
CAV step min
CAV step max
3
T
2
~
1
Y
U
_
+
Setting CAV function:
Standard (Default)
..MV-D3-MP
Legend
PC-Tool
ZTH-GEN
Contact closed, function active
Contact closed, function active, only in 2 ... 10 V mode
Contact open
* Not available with DC 24 V supply
** The damper is closed when the 0.5 V shut-off level is used.
0 … 10 V
0 … 10 V 0 … 10 V
2 … 10 V
2 … 10 V 2 … 10 V
–
T
0 … 10 V
2 … 10 V
~
~
+
~
Function
3
3
3
3
3
Damper
CLOSED
a) CLOSED
CAV – min
c d
MP / Actual value signal
b) VAV
All open – min active
Damper
OPEN
1
2
3
5
T
min ... max
AC 24 V
~
Signal
CAV step min
CAV step mid
CAV step max
0 … 10 V
2 … 10 V 2 … 10 V
T
Mode
setting
Example:
CAV application min – mid – max
(Mode 0 … 10 or 2 … 10 V)
~
CAV function: Old Generation (NMV-D2M)
–
Note
In order to use the CAV step mid, the Old
Generation (NMV-D2M) CAV function must
be selected.
Y
U
Setting CAV function:
Old Generation (NMV-D2M)
e) OPEN *
CAV – max
CAV – mid
d) max
c) mid *
Legend
Contact closed, function active
Contact closed, function active, only in 2 ... 10 V mode
Contact open
* Not available with DC 24 V supply
_
+
..MV-D3-MP
PC-Tool
ZTH-GEN
| Variable air volume controllers
MP-Bus operation – VAV / CAV operation
The connection to the MP-Bus is made using the connecting cable mounted to the
VAC-Compact device.
No. Designation
!
2
+~
red
3
Y
white
5
U
orange
Control via MP-Bus
For detailed information, see section «MPBus integration»
AC 24 V
+ DC 24 V
Function
~+
AC/DC 24V supply
Input for
–Sensor interface
–Override control
MP-Bus connection
MP-Bus control with integrated switch
For detailed information on sensor
integration, see section «MP-Bus
integration»
~
T
–
MP
–
AC 24 V
+ DC 24 V
MP
*)
MP address:
1…8
2
3
5
T
~
Y
U
_
+
..MV-D3-MP
PC-Tool
ZTH-GEN
1
2
3
5
T
1
MP address:
1…8
~
Note
– For further information about the connection,
override controls, MP-Bus cables, etc., see section
«MP-Bus integration»
– This is a connection description. Depending on the
application, the terminal allocation may vary. The
connection and commissioning must be carried out
by trained personnel.
black
T
Wiring diagrams
Wire colour
1
~
Note
– Supply via safety isolating transformer!
– Connections 1 and 2 (AC/DC 24V) and
5 (MP signal) must be routed to accessible
terminals (room temperature controller, floor
distributor, control cabinet, etc.) in order to enable
access with the tools for diagnostic and service
work.
T–
Connecting cable
–T
108
Y
U
_
+
..MV-D3-MP
PC-Tool
ZTH-GEN
*) e.g. window contact
Dimensioning of supply and connecting cable
General
24 V supply, dimensioning and cabling
MP-Bus integration – supply, dimensioning
and cabling
In addition to the actual wire sizing, attention must also be paid to the surrounding area and
the cable routing.Signal cables must not be laid in the vicinity of load cables, objects liable to
cause EMC interference etc. if possible. Paired or layer stranded cables improve immunity to
interference.
The dimensioning and installation of the AC 24V supply, the fuse protection and the cables
are dependent on the total operated load and local regulations. Account must be taken of
the following performance data, including the starting currents of the actuators:
– Dimensioning values VAV-Compact controller, see Technical data
– Dimensioning values of further controlling elements etc. can be found in the current data
sheets and product information
– Other devices which are intended to be connected to the same 24 V supply
– Reserve capacity for subsequent expansion, if planned.
See S4-VAV-Compact D3, MP-Bus integration
Variable air volume controllers |
BLC1-MOD, VAV-Compact Controller
A pressure sensor, digital VAV controller and damper actuator all in one, providing a VAV-Compact
solution with a communications capability for pressure-independent VAV systems in the comfort
zone
•Control function: VAV
• Communication via Modbus RTU (RS-485)
•Conversion of sensor signals
•Diagnostic socket for operating devices
NMV-D3-MOD
LMV-D3-MOD
Brief description
Application
Mode of operation
Converter for sensors
Parameterisable actuators
Pressure measurement
Actuator
The digital VAV-Compact has PI control characteristics and is used for pressure-independent
control of VAV units in the comfort zone.
The actuator is fitted with an integrated interface for Modbus RTU, receives its digital
positioning signal from the superordinate Modbus-Master and returns the current status.
Connection option for a sensor (passive or active sensor or switching contact). In this way,
the analogue sensor signal can be easily digitised and passed along to Modbus.
The factory settings cover the most common applications. As desired, individual parameters
can be adapted for specific systems or servicing with a service tool (e.g. ZTH-GEN).
The Modbus communication parameters (address, baud rate, …) are set with the ZTH-GEN.
Pressing push-button 3 while connecting the supply voltage resets the communication
parameters to the factory setting.
Quick addressing: The Modbus address can alternatively be set using push-buttons from
1 to 16. The value selected is added to the «Basic address» parameter and results in the
effective Modbus address. For example, with a basic address of 140, Modbus addresses
between 141 and 156 can be parameterised using quick addressing.
Maintenance-free, dynamic, differential pressure sensor, proven in a wide range of
applications, suitable for use in offices, hospital wards, alpine hotels or cruise liners.
Two versions are available, depending on the size of the VAV unit: 5 or 10 Nm.
VAV – variable volumetric flow
The VAV-Compact is supplied with its modulating setpoint by a room temperature controller
via Modbus. This facilitates demand-related, power-saving ventilation in individual rooms or
zones of air conditioning systems. The operating range (min and max) can be set either
locally with PC-Tool or ZTH-GEN or via Modbus.
Operating and service devices
Belimo PC-Tool or Service-Tool ZTH-GEN, pluggable on the VAV-Compact.
Assembly and connection
OEM factory settings
The VAV-Compact device, which is assembled on the unit by the OEM, is connected using the
prefabricated connecting cable.
The VAV-Compact is mounted on the VAV unit by the unit manufacturer, who adjusts and
tests it according to the application. The VAV-Compact is sold exclusively via the OEM
channel for this reason.
Type listing
Type
Torque
Power consumption For wire sizing
LMV-D3-MOD
5 Nm
2W
4 VA (max. 5 A @ 5 ms)
NMV-D3-MOD
10 Nm
3W
5 VA (max. 5 A @ 5 ms)
Weight
Approx.
500 g
Approx.
700 g
109
| Variable air volume controllers
Safety notes
!
• The actuator must not be used outside the specified field of application, especially in
aircraft or in any other airborne means of transport.
• It may only be installed by suitably trained personnel. Any legal regulations or regulations
issued by authorities must be observed during installation.
• The device may only be opened at the manufacturer's site. It does not contain any parts
that can be replaced or repaired by the user.
• The cable must not be removed from the device.
• When calculating the required torque, the specifications supplied by the damper manufac­
turers (cross-section, design, installation site), and the air flow conditions must be
observed.
• The device contains electrical and electronic components and is not permitted to be
disposed of as household refuse. All locally valid regulations and requirements must be
observed.
Modbus overview
In operation
Register
Service
110
No.
1
2
3
4
5
6
7
Adr
0
1
2
3
4
5
6
8
7
9
101
102
103
104
105
106
107
108
109
8
100
101
102
103
104
105
106
107
108
Register
Setpoint [%]
Override control
Command
Actuator type
Relative position [%]
Absolute position [°] [mm]
Relative volumetric flow [%]
(only for VAV/EPIV)
Absolute volumetric flow (pressure) [m3/h] [l/min] [Pa]
(only for VAV/EPIV)
Sensor value [mv] [Ω] [–]
Series number 1st part
Series number 2nd part
Series number 4th part
Firmware version (Modbus module)
Malfunction and service information
Min [%]
Max [%]
Sensor type
Bus fail position
• Registers in Bold can be written
• Registers <100 (In operation) which can be written are volatile and should therefore
be updated periodically
• Registers >100 which can be written are non-volatile
Commands
Note regarding Read Discrete Inputs
The command reads one or more bits and
can alternatively be used for register 105
(Malfunction and service information). The
start address to be used is 1664.
All data is arranged in a table and addressed by 1..n (register) or 0..n-1 (address). No
distinction is made between data types (Discrete Inputs, Coils, Input Registers, Holding
Registers). As a consequence, all data can be accessed with the two commands for
Holding Register. The commands for Discrete Inputs and Input Registers can be used as
an alternative.
Standard commands:
Read Holding Registers [3]
Write Single Register [6]
Optional commands:
Read Discrete Inputs [2]
Read Input Registers [4]
Write Multiple Registers [16]
Variable air volume controllers |
Modbus register description
Register 1: Setpoint
Register 2: Override control
Setpoint for actuator setting or volumetric flow in hundredths of one percent,
i.e. 0…10 000 corresponds to 0…100%
Overriding the setpoint with defined values
Override control
0
None
1
Open
2
Close
3
Min
5
Max
Register 3: Command
Initiation of actuator functions for service and test; the register is reset automatically.
Command
0
None
1
Adaption
2
Test run
3
Synchronisation
4
Reset actuator malfunctions
Register 4: Actuator type
Actuator type; the allocation may deviate from the basic category with some actuators.
Actuator type
0
Actuator not connected / not known
1
Air/water actuators with/without safety function
2
Volumetric flow controller VAV / EPIV
3
Fire damper actuator
Register 5: Relative position
Relative position in hundredths of one percent,
i.e. 0 … 10 000 correspond to 0 … 100%
Register 6: Absolute position
Absolute position
0 … 10 000 (65535 if not supported by the actuator)
The unit depends on the device:
[°] for actuators with rotary movement
[mm] for actuators with linear movement
Register 7: Relative volumetric flow
Relative volumetric flow in hundredths of one percent of Vnom,
i.e. 0 … 10 000 correspond to 0 … 100%
This value is available only for VAV controllers and EPIV devices (actuator type: 2).
For all other types, 65535 will be entered.
Register 8: Absolute volumetric flow
Absolute volumetric flow
This value is available only for VAV controllers and EPIV devices (actuator type: 2).
For all other types, 65535 will be entered.
The unit depends on the device:
[m3/h] for VAV controllers (or [Pa] for pressure applications)
[l/min] for EPIV devices
Register 9: Sensor value
Register 101, 103: Series number
Current sensor value; dependent on the setting in Register 108
The unit depends on the sensor type: [mv] [Ω] [-]
Each MP node has an unambiguous series number which is either impressed on or glued
to the node. The series number consists of 4 segments, although only parts 1, 2 and 4 are
displayed on Modbus.
Example: 00839-31324-064-008
Register 9
1st part
00839
Register 104: Firmware Version
Register 10
2nd part
31234
Firmware version of Modbus module (VX.XX)
e.g. 101  V1.01
Register 11
4th part
008
111
| Variable air volume controllers
Modbus register description
The status information is split into messages about the actuator (malfunctions) and other
service information.
Malfunctions (low byte)
Register 105:
Malfunction and service information
(continued)
Service (high byte)
112
Bit
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
Description
Excessive utilisation
Mechanical travel increased
Mechanical overload
–
Safety-relevant faults (fire protection only)
Damper test error (fire protection only)
Duct temperature too high (fire protection only)
Smoke detector tripped (fire protection only)
Internal activity (test run, adaption, …)
Gear disengagement active
Bus watchdog triggered
–
–
–
–
–
The malfunction bits can be reset with Register 3 (command 4) or with the Belimo PC-Tool.
Malfunctions 0 and 4 cannot be reset.
Register 106: Min / Vmin setting
Minimum limit (position or volumetric flow) in hundredths of one percent,
i.e. 0…10 000 correspond to 0…100%
Caution: Changing the setting may result in malfunctions.
Register 107: Max / Vmax setting
Minimum limit (position or volumetric flow) in hundredths of one percent,
i.e. 2000…10 000 correspond to 20…100%
Caution: Changing the setting may result in malfunctions.
Register 108: Sensor type
Note
After changing the sensor type, the actuator
must always be restarted in order for correct
sensor values to be read out.
Register 109: Bus fail position
Sensor type connected to the actuator; in the absence of sensor specification, the switching
at the Y input will have the effect of a local compulsion.
Sensor type
0
None
1
Active sensor (mV)
2
Passive sensor 1 k (Ω)
3
Passive sensor 1 … 20 k (Ω)
4
Switching contact (0 / 1)
Modbus communication is not monitored as standard. In the event of a breakdown in
communication, the actuator retains the current setpoint.
The bus monitoring controls the Modbus communication. If neither the setpoint (Register 1)
nor the override control (Register 2) is renewed within 120 seconds, the actuator controls to
the bus fail position (closed / open).
Triggered bus monitoring is indicated in Register 105.
Bus fail position
0
Last setpoint (no bus monitoring)
1
Fast close if time is exceeded
2
Fast open if time is exceeded
Variable air volume controllers |
113
Electrical installation
Connection without sensor
T
~
+
1
2
Power supply and communication are not
galvanically isolated.
Interconnect ground signal of the devices.
T
–
3
~
+
5
6
7
D+
Note
Modbus signal assignment:
C1 = D– = A
C2 = D+ = B
D–
Modbus (RS-485)
MFT
–
!
Connection with passive sensor, e.g. Pt1000, Ni1000, NTC
5
+
6
7
D+
3
D–
2
Modbus (RS-485)
MFT
T
–
+
~
T
1
~
–
Sensor
Temperature
range
Resistance
range
Resolution
Ni1000
–28 ... +98°C
850 ... 1600 �
1�
PT1000
–35 ... +155°C
850 ... 1600 �
1�
–10 ... +160°C
200 ... 50 k�
(depending on type)
1�
NTC
Connection with switching contact, e.g. ∆p-monitor
~
T
–
+
Modbus (RS-485)
∆p
2
T
~
–
3
+
5
6
7
D+
1
D–
Requirements for switching contact:
The switching contact must be able to
accurately switch a current of
16 mA at 24 V.
MFT
Connection with active sensor, e.g. 0 ... 10 V @ 0 ... 50°C
~
T
–
+
Modbus (RS-485)
1
2
T
~
–
+
3
5
6
7
D+
Possible input voltage range:
0 ... 32 V (resolution 30 mV)
D–
Note
Connection via safety isolating transformer.
MFT
Connection diagram for cable layout
| Variable air volume controllers
Tool connection
Setting and diagnostics
On-board service connection
Setting and the diagnostics of the connected VAV-Compact controller can be checked and set
quickly and easily with the Belimo PC-Tool or the Service-Tool ZTH-GEN.
The service connection integrated in the VAV-Compact allows the console used to be
connected quickly.
Belimo VAV operating and service devices
– Belimo PC-Tool, with level converter ZIP-USB-MP
– Service-Tool ZTH-GEN
ZTH-GEN
ZTH-GEN
◄ or ►
RJ12
ZK1-GEN
▲ ▼ – + OK
BELIMO
PC-Tool
US B
GND
24 V
ZK1-GEN
1
USB
2
..-D3-MP
..-D3LON
..-D3-MOD
MP connection (5)
The VAV-Compact can also communicate (connection wire 5) with the Service-Tools via
the MP connection. The connection can be established during operation on site, i.e. in the
connection socket, at the tool socket of the Belimo room temperature controller CR24 or on
the floor or control cabinet terminals.
~ T
AC 24 V
_ +
DC 24 V
RJ12
ZK2-GEN
BELIMO
PC-Tool
MP
▲ ▼ – + OK
1
..-D3-MP
..-D3LON
..-D3-MOD
ZTH-GEN
2
_ +
5
U5 / MP
24 V
T
US B
USB
ZTH-GEN
◄ or ►
GND
weiss = GND
grün = MP
blau nicht angeschlossen
~ T
114
1
2
Y
3
U
5
ZK2-GEN
Variable air volume controllers |
Operating controls and indicators
1
Push-button and LED display green
Off:
No power supply or fault
Illuminated:
In operation
Flashing:
Address mode: pulses according to set address (1 ... 16) when
starting: reset to factory setting (communication)
Press button:
in standard mode: switches on angle of rotation adaptation
in address mode: confirmation of set address (1 ... 16)
2
Push-button and LED display yellow
Off:
The actuator is ready
Illuminated:
Adaption or synchronising process active
or actuator in address mode (green LED indicator flashing)
Flickering:
Modbus communication active
Press button:
in operation (>3 s): switch address mode on and off
in address mode: address setting by pressing several times
when starting (>5 s): reset to factory setting (communication)
3
Gear disengagement button
Press button:
Gear disengaged, motor stops, manual override possible
Release button: Gear engaged, synchronisation starts, followed by standard operation
4
Service plug
For connecting parameterising and service tools
1
2
3
4
Dimensions [mm]
61
Dimensional drawings LMV-D3-MOD
66
116
22
116
41
62
Dimensional drawings NMV-D3-MOD
80
124
25
121
41
115
116
| Variable air volume controllers
ZTH-GEN
Service-Tool for parameterisable and communicative Belimo actuators
and VAV controllers. Connection via service socket on the device or
MP/PP connection.
Information
Belimo Automation AG reserves the right to implement supplements, changes and
improvementsatanytime,i.e.withoutpriornotification.
• version overview,
• release information,
• most up-to-date operating instruction, etc.
Technical data
Electrical data
Interface
Supported devices
Operating
Safety
Dimensions / Weight
Power supply
Operating range
Power
Operation
consumption
Dimensioning
Connection
Connecting cable
Communication
Belimo actuator/VAV controller
AC 24V, 50/60 Hz, DC 24V (from actuator)
AC 19.2 ... 28.8V/DC 21.6 ... 28.8V
1W
2 VA
Socket for Belimo PP connection, RJ12
see «Connection»
Point to Point (PP), no bus mode (MP)
with PP/MP connection, see «Supported devices»,
Scope of function dependent on type of device
LCD display
Keys
Quick start guide
2 x 16 characters, with background illumination
⇩ / ⇧ / – / + / OK
enclosed stickers, de/en
Protection class
Electromagnetic compatibility
Operating temperature
Non-operating temperature
III Safety extra-low voltage
CE in accordance with 2004/108/EC
0 ... 50°C, non-condensing
–20 ... 50°C, non-condensing
Dimensions
Weight
L x W x D: 85 x 65 x 23 mm
Approx. 260 g
Supported devices
Damper product range
..-MF / ..-MP / ..-MFT(2) / ..LON
Valve product range
..-MF / ..-MP / ..-MFT(2) / ..LON
EPIV – pressure-independent
characterised control valve
Fire damper actuator
VAV product range
P6..W..-C24E
available starting 2011
BF-TopLine with BKN230-24MP
VRD2 / VRD2-L
VRD3
VRP-M (VAV and STP applications)
NMV-D2..
LMV-D2M / NMV-D2M..
LMV-D2-MP / NMV-D2-MP / SMV-D2-MP.., LHV-D2-MP..
LMV-D2LON / NMV-D2LON
LMV-D3-MP / NMV-D3-MP / SMV-D3-MP.., LHV-D3-MP..
LMV-D3LON / NMV-D3LON
available 1992-2007
available starting 2008
available starting 2005
available 1992 to 2000
available 2000 to 2006
available 2006 to 2011
available 2006 to 2011
available starting 2011
available starting 2011
Safety notes
!
• The device must not be used outside the specified field of application, especially not in
aircraft or in any other airborne means of transport.
• Connection permitted only to Belimo devices with 24V safety extra-low voltage and PP/
MP interface.
• Changes of parameters, etc. may not be performed except after consultation/specification
of the OEM, device or mechanical/electrical contractor. Operating and adjustment
regulations must be observed.
Variable air volume controllers |
Versions, compatibilities
This document describes the function and handling of the new ZTH-GEN V4.xx.
The ZTH-GEN V4.xx contains the functionality of all previous versions of ZTH-GEN and
ZTH-VAV, in addition to those of the new VAV-Compact D3.
Current information regarding
• Upgrade ZTH-VAV → ZTH-GEN
• Firmware upgrade to V4.xx
• Version overview, documentation
Previous ZTH versions can be upgraded to a ZTH-GEN V4.xx by means of a simple firmware
download.
ZEV
The adjustment tool ZEV (1992 to 2007) is replaced by the ZTH-GEN V4.xx
ZTH-VAV
Will be replaced by the new ZTH-GEN V4.xx
ZTH-GEN V2.xx / V3.xx
Will be replaced by the new ZTH-GEN V4.xx
Connection and supply
The ZTH-GEN is supplied via the actuator/VAV controller. The connection is set up
• directly at the Service socket of the actuator/VAV controller or
• via the PP/MP connection (U5) e.g. connection socket, in the control cabinet, room
controller CR24
Connection
Local connection to service socket
Recommendation
Wire the PP connection (U5) to the
floor distributor/control cabinet.
This means there is no need for direct access
to the device.
Connection to
VAV: ..-D2-MP / LON
VAV: ..-D3-MP / LON
..-MF / MP / LON
EPIV: P6..W..-C24E
Cable type
ZK1-GEN (enclosed)
VAV: VRP-M 1)
F/S: BKN230-24MP (BFTop)
ZK4-GEN (Accessories)
VAV: VRD3
VAV: ..MV-D2M 1)
VAV via CR24-..
ZK6-GEN (Accessories)
ZK1-VAV (Accessories)
1)
Direction connection to terminals
Connection in the MP bus system
Connection
Direction connection to Service
socket
- plug in the plug
- set up contact with clockwise
rotation
ZK4-GEN
24 V
BKN..MP
~ /+
VRP-M
ZTH-GEN
ZTH-GEN connection in MP bus system: The MP connection should be separated from the
MP bus while the ZTH-GEN is operating.
Connection to
VAV: ..-D2-MP / LON
VAV: ..-D3-MP / LON
VAV: ..MV-D2M
VAV via CR24-..
..-MF / MP / LON
EPIV: P6..W..-C24E
VAV: VRP-M
VAV: VRD3
F/S: BKN230-24MP (BFTop)
Correct
MP6
MP7
Cable type
Connection
ZK2-GEN (Accessories)
GND
blue
2
ZTH-GEN
MP6
~ /+
green
MP7
MP / PP
ZTH - GEN
MP1
BEL IM O
MP8
MP5
OK
MP-Master
MP4
MP2
ZTH - GEN
MP1
white
1
MP3
Wrong
MP6
MP7
BEL IM O
ZTH - GEN
MP1
BEL IM O
MP8
MP8
MP5
OK
MP-Master
MP5
MP-Master
OK
MP4
MP4
MP2
MP2
MP3
MP3
Direct connection to the MP bus or MP master is not possible with the ZTH-GEN.
Solution: Use the service socket on the actuator/VAV controller or temporarily disconnect
the MP connection
of the MP device from the MP bus and connect the ZTH-GEN to the MP
MP6
connection.
MP7
ZTH - GEN
MP1
BEL IM O
MP8
MP5
MP4
MP2
MP3
MP-Master
OK
117
| Variable air volume controllers
Operating
The operating device is started and the data of the connected device is read out when the
ZTH-GEN is connected to the Belimo actuator/VAV controller.
The available adjustment and operating options are displayed in accordance with the device
type. The available setting parameters are listed in the respective product documentation
for the actuators/VAV controller.
Operating elements
LCD display
- Background illumination
- Display 2 x 16 characters
ZTH-GEN
LMV-D3-MP
Office 12 - SA
Key function
▼ and ▼ Forward/backward, abort entry
– and + Change value/status
OK Confirm entry
OK
CE
RJ12 tool socket
Supply 24V / PP communication
Operating instruction
A quick start guide and a sticker with the basic functions for the the rear of the unit are
enclosed with the ZTH-GEN.
Language setting, unit depiction
Operating
Menu structure, handling
Language and units can be set in the Configuration menu.
Operating is context-related, i.e. the user sees only the options available for the connected
device.
The corresponding Configuration table is read from the actuator for this purpose. In addition
to the parameter type, this table also contains the corresponding divisions, e.g.: minimally
adjustable running time/type. Non-relevant options are not displayed.
The operating menu can be run through from both sides ⇩⇧.
Device identification
Starting / ending
z1
Type
z2 Position
z2
Device specifications/Technical data
▼
Data, settings
Option 1
▼
Starting / ending
▼
118
▼
Option 2
Type
Designation
-
- +
- +
Type
Firmware
+
Option, Range
x ... y
x ... y
Type
Serial number
OK
RJ plugs
OK
OK
The connection to the actuator/VAV controller is started by plugging in the RJ plug and
terminated by unplugging it.
For a more detailed description, including setting parameters, we draw your attention to the
respective separate product information.
Variable air volume controllers |
Configuration
Start Configuration
1. Press the key (OK) while simultaneously plugging in the connecting cable
2. Configuration menu display appears
Configuration Menu
Option / Display
Setting
Product
range
HW Version Vx.x
FW Version Vx.x
Text
VAV unit
EPIV unit
Supply. …
AC … V VHW: … %
German / English
VAV
m3/h / l/s / cfm
m3/h / l/min / gpm Valves
Start MP tester
OK
-
PICCV function
0/1
Valves
Expert Mode 1)
0/1
VAV
Advanced Mode 2)
0/1
VAV
Fire
protection
Explanation
Display of the current hardware and
firmware version of the ZTH-GEN
Display of the current AC 24V
supply voltage, with direct
connection to terminals (ZK2-GEN)
MP bus diagnostics tool for system
integrators.
The MP tester is not part of this
documentation.
Belimo US
Enable PICCV Wizard function
Enable VAV settings:
– Switching mode,
–set min / max to original values
(call up OEM setting)
Enable settings:
– VAV: Direction of rotation,
– BF-Top: Adaption
Exit Configuration
OK
1)
2)
Activate options and only as needed and with the respective know-how; the adjustment of the
respective parameters requires special expertise.
Basic functions
Device-specific identification
Key Display examples (Read
only)
LMV-D3-MP
Office 2.12 Supply air
–
LMV-D3-MP
DN160 / xxx
+ LMV-D3-MP
FW: Vxx.xx.00
OK Address: xx
0073040033146142
Explanation
Type designation of the actuator/VAV controller
Position (16 characters) optional
Type designation of the actuator/VAV controller
Designation (16 characters) optional
Type designation of the actuator/VAV controller
Firmware version of the actuator/VAV controller
MP address MP1 … 8 / PP (PP: no bus operation)
Serial number of the actuator/VAV controller
Position and Designation (16 characters) optional.
These display options can be described with the PC-Tool if required.
Set the MP bus address
Key Display examples (Read/
write)
▲ MP address: PP
-new: MP1
Explanation
Active setting (PP: no bus operation)
Set the desired address MP1…8 (OK)
119
| Variable air volume controllers
Functions for VAV product range
Menu tree
The following menu tree corresponds to that of the new VAV-Compact D3 generation:
L/N/SMV-D3-MP, LHV-D3-MP, L/ NMV-D3LON
Device identification
z1
z2
Type
Position
z2
-
Type
Designation
+
Type
Firmware
Start
OK
Type
Serial number
Data, settings
▼
▼
▼
▼
Volume
Setpoint
∆p
▼
▼
Position
▼
▼
Step
▼
▼
▼
▼
Expert
Set to original
values?
min
– new
▼
▼
max
– new
▼
▼
nom
▼
▼
∆p @ nom
▼
Address
– new
▼
Deviations
z1
z2
z2
Option, range
z2
z2
Mode
2 ... 10V
0 ... 10V
– new
Direction of rotation
cw
– new open:
ccw
Expert
▼
▼
125 m3/h
124 m3/h
164 Pa
65%
>Auto<
Adv.
▼
▼
>No<
10 m3/h z1
25 m3/h z2
250 m3/h
200 m3/h
z1
z2
z1
z2
z1
z2
z1
z2
250 m3/h
z1
240 Pa
z1
PP
MP4
z1
z2
- +
Auto / Open / Closed / max / min / Stop
- +
0 ... 10 / 2 ... 10V
OK
- +
cw / ccw
OK
- +
No / Yes
OK
- +
0 ... max
OK
- +
min ... max
OK
- +
Display actual value/setpoint in [%
nom],
min in [% max], max in [% nom]
VRD3 (starting 2008) Display actual value/setpoint in [%
nom],
min in [% nom], max in [% nom]
OK
OK
PP / MP1 / MP2 / MP3 ... MP8
VRD2 (1992-2007)
Read only
PP
HW potentiometer setting
«Tool»
→ Read/write, otherwise →
Read only
PP
VRP-M VAV
VRP-M VAV / STP
up to V2.16 min in [% max], max
in [% nom]
starting with V3.0 min in [% nom], max
in [% nom]
PP /
MP1…8
NMV-D2 (1992 –
2000)
NMV-D2M (2000 –
2006)
Display actual value/setpoint in [%
nom],
min in [% max], max in [% nom]
PP
PP /
MP1…8
Information: VAV-Universal actuators
The V-actuators L/N/SM24A-V, L/NMQ24A-SRV-ST, which fit the VAV universal controllers
VRD3 / VRP-M (STP) / VRP / VRP-STP, have a tool connection but are nevertheless not tool-capable!
Functions for BF-TopLine fire protection actuators
The following menu tree shows the adjustment/display possibilities of a BF-TopLine.
Device identification
z1
z2
Type
Position
z2
Type
Designation
Data, settings
▼
▼
▼
Range A
– Adaption
Actual value
Setpoint
Address
– new
Adv.
▼
▼
Menu tree
▼
120
-
95°
>No<
100% z1
>Open< z2
PP z1
MP2 z2
Type
Firmware
z1
z2
- +
- +
- +
+
Start
Type
Serial number
OK
Option, range
Yes / No
OK
Open-close
OK
PP / MP1 / MP2 / MP3 ... MP8
OK
Variable air volume controllers |
Checking the power supply
Checking the power supply
The ZTH-GEN offers the possibility of checking the AC 24V power supply (III safety extra-low
voltage) of the Belimo devices. Voltages >30V are not permitted!
Application e.g. Commissioning, troubleshooting in the event of a malfunction.
Measurement procedure
Equipment: ZTH-GEN, ZK2-GEN
Connection: – connect free wires of the ZK2-GEN to AC 24V.
• white on GND
(connection 1 actuator/VAV controller)
• blue on ~
(connection 2 actuator/VAV controller)
• third wire (turquoise) do not connect
– Do not connect RJ11 plug to ZTH-GEN yet!
– Press the ZTH-GEN key (OK) while at the same time connecting the RJ12
Start: plug
– Select Supply function with arrow key (▼)
End: Disconnect ZTH-GEN RJ12 plug or end Configuration function (OK)
Display
Display
Supply
AC 24V
Quality: AC value: VHW: okay
VHW:
88%
okay: AC supply in the division 19.2 ... 28.8V
measured AC voltage (accuracy ±1.0V insofar as VHW >95%)
Relationship of positive to negative half-wave
The deviation of the positive half-wave value to the value of the negative halfwave may not be too large. As a rule: positive HW / negative HW x 100 should
be >80%.
Explanation VHW
positive HW
negative HW
Possible problems
The following items influence the half-wave load:
• Transformer too small in its dimensions
• long signal cable length from transformer to VAV controller
121
122
| Variable air volume controllers
Fan Optimizer
VAV / CAV system solution for energy- optimised fan regulation for
room ventilation.
Interfaces
–Room controller input DDC: 0 … 10 / 2 … 10 V / MP-Bus
–VAV controller input / output: MP-Bus
–Frequency converter output: 0 … 10 V
–LC display for settings and diagnostics
Technical data
Electrical data
Connection
Inputs / outputs
Nominal voltage
Power supply range
Power consumption
Switch-on current (actuators)
AC 24 V, 50/60 Hz / DC 24 V
AC ±20% / DC +20% / –10%
15 VA / 7.5 W (without connected VAV controller)
max. 8.3 A at 5 ms
Inputs and outputs 1 … 32
MP-Bus / supply 33 … 38
MP-Bus operating devices
Wire sizing
Screw terminals, 2.5 mm2
Screw terminals, 2.5 mm2
RJ12
See «Connections – topology and wire sizing»
Inputs IN A - CASC
Cascade input, 0 … 10 V,
internal resistance 200 kΩ
Override control input, 0 ... 10 V,
internal resistance 100 kΩ
Frequency converter control output
(protection class lll), 0 … 10 V, max. 10 mA
Reserve
Analogue setpoint input for VAV controllers 1 … 8,
0 … 10 / 2 … 10 V (switchable),
internal resistance 200 kΩ
Analogue actual volumetric flow output for VAV
controllers 1 … 8, 0 … 10 V / 2 … 10 V (switchable),
max. 10 mA
DDC MP interface, MP-Bus connection,
24 V AC/DC supply
MP-Bus service socket (PC-Tool)
VAV controllers 1 … 8, MP-Bus, 24 V AC/DC,
max. 5 A
IN B - IN
Outputs OUT A - FC
OUT B - OUT
Controller analogue IN 1 ... 8
OUT 1 ... 8
Controller MP MP
RJ12
Actuators MP
Operation
Optimiser Data input
Data display
VAV controllers Settings and display
Housing
Safety
Dimensions / weight
Colour
Installation
Menu-guided encoder operation
Acknowledge button
LC display, 2 x 16 characters
with LED back-lighting
Via MP-Bus Tool connection with Belimo PC-Tool
Flame Test
Grey RAL 7035
Control cabinet installation, snaps onto standard rail
DIN EN 50 022
UL94 V0
Protection class
Degree of protection
EMC
Mode of operation
Rated impulse voltage
Control pollution degree
Software class
Ambient temperature range
Storage conditions
Ambient humidity range
Maintenance
III Safety extra-low voltage
IP10 (IP20 with plugs connected)
CE according to 2004/108/EC
Type 1 (EN 60730-1)
0.8 kV (EN 60730-1)
2 (to EN 60730-1)
A (EN 60730-1)
0 … 50°C
–20 … +80°C non-condensating (EN 60730-1)
+5 … 95% r.H., non-condensating (EN 60730-1)
Maintenance-free
Dimensions
Weight
See «Dimensions» on page 8
Approx. 300 g
Variable air volume controllers |
123
Operating principle
The volumetric flow and its transport are
determining factors for the energy consumption
of the fans.
Fan
MP 1
VAV
FC
With conventional, pressure-controlled systems,
the supply pressure is selected to provide
enough air to the most unfavourably placed VAV
unit during full load operation.
The remaining oversupplied units have
to eliminate the excess energy, i.e. the
overpressure, by closing the dampers.
These units are often operated in the most
unfavourable range – for control characteristics,
noise and pressure loss.
The greatest energy loss occurs at partial load,
which often accounts for the largest share of the
operating time of a VAV system.
Room controller
Frequency
converter
Fan optimiser
MP 2
VAV
Setpoint (demand)
Volumetric flow
Damper position
Room controller
Fan optimisation: The nominal volume (space
requirement), actual volume and damper position
are recorded via the MP-Bus, analysed by the
optimiser and specified as a setpoint for the
frequency converter.
Result: The system is operated in the optimum
range – for control characteristics, noise and
energy consumption.
The greatest potential energy saving occurs at
partial load, which accounts for a considerable
share of the time of a VAV system.
Fields of application
Principle of operation
MP 3
VAV
Room controller
Variable and constant air volume systems for room ventilation applications with fans
controlled by a frequency converter.
The system is operated by the fan optimiser with optimum damper positions based on
current demand signals. The objective is to keep the pressure loss across the VAV units as
low as possible and thus permanently reduce operating costs by decreasing the fanoutput.
The damper position of each VAV unit is recorded and transferred to the fan optimiser
via the MP-Bus. These values are used there as a control variable for regulating the fan
controlled by the frequency converter. As a result of this technology – which is based on
the Belimo MP-Bus – an energy saving of up to fifty percent can be achieved compared to
conventional systems in which fans are controlled by air duct pressure.
Proportionality laws
Damper diagrams
The proportionality laws form the basis of the
volumetric flow transport.
.
• The volumetric flow is
V1
n1
. =
proportional to the speed
V2
n2
.
• Pressure increases change
p1
V1 2 n 1 2
= . =
to the second power with
V2
n2
p2
the volumetric flow ratio
• Pressure-controlled system Damper opening
• The power consumption
changes to the third power
with the volumetric flow
ratio
P1
P2
.
V1 3 n 1 3
= . =
V2
n2
Operating status
[%]
100
Optimum range
40
0
• Fan-optimised system
Damper opening
Unfavourable range
(for energy efficiency and control
characteristics)
Operating status
[%]
100
40
0
Optimum range
Unfavourable range
(for energy efficiency and control
characteristics)
| Variable air volume controllers
Operating principle
(continued)
Duct pressure diagram with system curve
1
Volume reduction
ma
x
∆p [Pa]
System curve
2
[U/
m
in]
Pressure-controlled
Optimiser operation
Pressure reduction
min
124
Volumetric flow
[m3/h, l/s]
n
mi
Optimiser operation
mi
[ U/
Energy saving
n]
ma
x
Pressure-controlled
3
P [kW]
V2
Volume reduction
1
1
2
Response of air duct pressure
2
3
3
1
2
Energy saving
3
V1
Pressure-controlled
Optimiser operation
VAV units: Dampers close until set volume
reached
VAV units: Dampers close until volume
setpoint is reached
– Air duct pressure rises
– Pressure control corrected to set constant
pressure, i.e. pressure at full load
– VAV dampers close in order to
compensate (eliminate) the excess air
duct pressure
– Increased flow noise
The optimiser determines the new
situation from the change in the damper
diagram and reduces the fan speed until
the dampers of the downstream VAV units
are operated in the optimum range
The fan is operated at a lower speed
owing to the reduced volumetric flow.
The downstream VAV units are not taken
into account and are operated in an
unfavourable range as a result of the
excess pressure.
The result:
– Unnecessary pressure loss in the air duct
system
– Unnecessarily high power consumption
– Fan operated with lower speed
-volumetric flow ratio
– Significantly lower air duct pressure than
with the air duct type due to the smaller
pressure drop in the air duct network
(optimum damper position)
Variable air volume controllers |
Customer benefits
Fan optimisation
• Is an effective measure to fulfil EU Directive
2002/91/EC on the overall efficiency of
buildings and derived implementation
measures, e.g. DE: DIN V 18599.
• Is an effective measure for
permanentlyreducing operating costs.
Short payoff period
• The massive potential energy savings
meanthat the initial costs of the fan
optimisation solution are quickly recovered
• Energy saving – up to fifty percent lower fan energy consumption due to the reduced
dropin pressure across the downstream VAV units.
• Lower costs – supply and exhaust air pressure controls are eliminated.
• Quicker installation – standard cable for the 3-pole MP-Bus.
• Easier commissioning – owing to the elimination of pressure controls.
• Greater system convenience thanks to the lower flow noise – the flow noise through
the units and in the air duct system is reduced by the lower supply pressure.
• Increased operational reliability – pressure losses due to filter contamination are
automatically compensated. Complaints such as «the system does not supply enough
air» are a thing of the past.
• Optimum cost-benefit ratio – the investment pays even with small and medium-sized
buildings.
• Flexible system designs – for example as:
– CAV system: volume changeover OFF / min / max via motion detector, etc.
– VAV system: demand-controlled via CR24-B1 room temperature controller
– VAV system: demand-controlled via room or DDC system controller or UK24LON/EIB
– Mixed VAV / CAV system
• Can be used for new systems, retrofitting for system optimisations and renovation
of existing systems – all VAV-Compacts (LMV-D2M / NMV-D2M from 2001 and later)
support the optimiser function!
• Simple engineering and efficient commissioning – thanks to pre-configuration, LC
display and self-adaptive control function.
Interfaces
Control
VAV controllers
Frequency converter
The energy requirements of the single-room or DDC controller are transferred to the
COU24-A-MP fan optimiser via analogue signals or the MP-Bus.
As a result of the MP-Bus technology, the VAV controllers provide access to all relevant
data such as the current actual volumetric flow, damper position, etc. Setting and control
functions are possible at any time with the Belimo PC-Tool.
The frequency converter is controlled via a 0 … 10 V analogue output. In the case of
mixed systems with VAV and mechanical CAV units, a minimum fan speed can be set.
System size
The system size is unlimited; more fan optimisers can be operated in a sequential circuit
via the optimiser’s cascade output.
Number of VAV / CAV units per fan optimiser: 1 to 8
Operation and display
All relevant information (overall / individual actual volumes, damper positions, frequency
converter setpoint, etc.) are shown on the LC display. There is a user-guided setting and
display menu for easy operation with an encoder button.
VAV controllers
The VAV controllers can be addressed and checked via the fan optimiser. In addition to
the actual volumetric flow and damper position information, the operating volumetric
flow settings min and max can be displayed and adjusted if necessary.
The PC-Tool can be used for service work, for example.
It is plugged into the central RJ12 connection.
125
126
| Variable air volume controllers
Optimiser for supply and exhaust air systems
Independent operation
The supply and exhaust air system must be operated by two separately
functioning optimisers.
Fan
FC
Fan
Frequency
converter
MP1
MP
BUS
®
MP8
Optimiser system with supply and exhaust air
units on the same MP bus
Frequency
converter
MP1
MP
BUS
®
MP8
The MP bus must be separately managed for the supply and exhaust air system.
The two lines cannot be connected.
Fan
Fan
Frequency
converter
MP1
MP1
Frequency
converter
FC
MP
BUS
MP
MP8
MP8
®
BUS
®
Note
Merging the VAV controllers for the supply and
exhaust air lines into one common MP line is not
permitted!
Optimiser system with one optimiser for the
supply and exhaust air fan
Controlling the supply and exhaust air fan using a common optimiser signal is not
permitted.
Fan
Fan
Frequency
converter
FC
MP1
MP
BUS
®
MP8
Note
Parallel control of the supply and exhaust air fan
with an optimiser is not permitted!
MP1
MP
MP8
Frequency
converter
BUS
®
Variable air volume controllers |
Interconnecting VAV controllers
Parallel or master slave connection
Note
Parallel connections have proven to be easier to
handle (ordering, parameter setting and wiring)
than a master-slave connection.
To simplify the system concept of an optimiser
system, we would therefore recommend
connecting the reference signal of e.g. a room
temperature sensor to the supply and exhaust air
VAV controller in parallel.
Parallel connection
The setpoint signals for the SUPPLY and EXHAUST AIR VAV controller can be
implemented in a VAV system as parallel or master-slave connections – also known
as a sequential circuit.
In the parallel connection, the reference signal min …. max, for example from a
room temperature controller 0 … 10 V output signal, is connected in parallel to the
supply and exhaust air controller.
min … max reference signal
VAV controller setting
Supply air unit
min
e.g. 250 m3/h
max
e.g. 500 m3/h
Supply air
Exhaust air
_
+
Exhaust air unit
min
e.g. 250 m3/h
max
e.g. 500 m3/h
Master-slave (M/S) connection
With a master-slave connection, the reference signal min …. max, for example
from a room temperature controller 0 … 10 V output signal, is connected to
the master controller. The resultant actual volumetric flow signal of the master
controller is the reference signal of the slave controller.
0 … 100% nom actual volumetric flow signal
min … max reference signal
Master unit
min
e.g. 250 m3/h
max
e.g. 500 m3/h
Master
Slave
_
Slave unit
min
0 m3/h
max
nom of master unit!
Reference signal
+
127
128
| Variable air volume controllers
Setpoint connection for an optimiser system
Principle
Setpoint connection to VAV controller –
parallel connection of supply and
exhaust air unit
In principle, the setpoint connection for an optimiser system functions as previously
described. Depending on the application, the reference signal is
– connected directly to the VAV controller or
– connected directly to the optimiser and transferred to the VAV controller.
To simplify the system concept of an optimiser system, we would therefore
recommend connecting e.g. the reference signal of a room temperature sensor to
the supply and exhaust air VAV controller in parallel.
Master-slave connections are always possible but more complex.
The actual volumetric flow signal is available at the OUT terminal (terminals for
analogue controller) as a 0 … 10 / 2 … 10 V analogue signal.
When connecting the supply and exhaust air VAV unit in parallel, the reference signal
is wired in parallel to the setpoint input of the two VAV control circuits.
Parallel connection: AiMP system solution with CR24-B..
Fan
Fan
CR24-..
MP1
Frequency
Frequency
converter FC
MP1
_
+
FC converter
MP
MP
BUS
®
BUS
®
Setting for both optimisers
COU24-A-MP
Setpoint input
Connection
AiMP 2 … 10 V
CR24-B..
1 2 6
VAV controller setting
Supply and exhaust air unit
min
according to room layout
max
Note
The actual volumetric flow signal (OUT terminal –
analogue controller) is available at the optimiser
as an analogue signal, irrespective of the optimiser
operating setting (setpoint input),
incl. Controller MP operation.
2 … 10 V
MP-Bus
MP-Bus
1 2 3 5
1 2 3 5
VAV-Compact
Exhaust air
VAV-Compact
Optimiser
Supply air
Optimiser
Variable air volume controllers |
Setpoint connection for an optimiser system
Setpoint connection to VAV controllers –
master-slave connection of supply and exhaust
air unit
Note
To simplify the system concept of an optimiser
system, we would recommend connecting the
reference signal of e.g. a room temperature
sensor to the supply and exhaust air VAV
controller in parallel.
Note
The actual volumetric flow signal of the VAV
control is available at the optimiser (OUT
terminal – analogue controller).
(continued)
When the supply and exhaust air VAV unit has a master-slave connection (M/S),
the reference signal is wired to the master’s setpoint input only (supply air
or exhaust air unit). The resultant actual volumetric flow signal of the master
controller is the reference signal for the slave controller.
Actual volumetric flow signal OUT
The actual volumetric flow signals of every connected VAV controller are available
at the OUT terminals of the «Analogue controller» optimiser connections. This
signal corresponds to the U5 signal e.g. of a Belimo VAV-Compact controller:
0 … 10 and/or 2 … 10 V correspond to 0 … 100% nominal volumetric flow.
Examples with 0 … 10 V mode:
– nom: 500 m3/h
– Terminal 3 (MP1): 3.4 V
– the resultant volumetric flow is (500 / 10) * 3.4 = 170 m3/hw
Master-slave circuit: AiMP system solution with CR24-B..
Master
Fan
Slave
Fan
CR24-..
Setting for «master» optimiser
COU24-A-MP
Setpoint input
Frequency
Frequency
converter FC
MP1
_
+
AiMP 2 … 10 V
Master unit
Mode
MP1
FC converter
MP
MP
BUS
®
BUS
®
2 … 10 V
min
2 … 10 V
according to room layout
max
Connection
Setting for «slave» optimiser
1 2 6
Ain 2 … 10 V
Mode
2 … 10 V
min
0 m3/s and/or l/s!
max
nom value of master unit!
MP-Bus
MP-Bus
1 2 3 5
1 2 3 5
VAV-Compact
VAV-Compact
Slave
Master
Optimiser
Optimiser
1 2 3
1 2 3
2 … 10 V
IN
Slave unit
OUT
COU24-A-MP
Setpoint input
CR24-B..
129
| Variable air volume controllers
Setpoint connection for an optimiser system
Setpoint connection to optimiser –
parallel connection of supply and
exhaust air unit
(continued)
When connecting the supply and exhaust air VAV unit in parallel, the reference
signal is wired in parallel to the two setpoint inputs of the supply and exhaust air
optimiser. The setpoint is converted into an MP command by the optimiser and
sent to the corresponding VAV controller.
Parallel connection: Ain – 0 … 10 V connection via optimiser input
Fan
Fan
Frequency
MP1
MP1
BUS
MP
Frequency
converter FC
FC converter
MP
®
BUS
®
0 … 10 V
Setting for both optimisers
COU24-A-MP
Setpoint input
Ain 0 … 10 V
Room 1
Connection
DDC
Supply and exhaust air unit
Mode
0 … 10 V
min
max
0 … 10 V
according to room layout
IN
VAV controller setting
IN
130
1 2 3
1 2
Optimiser
Optimiser
Supply air
3
Exhaust air
VAV-Compact
VAV-Compact
MP-Bus
MP-Bus
Variable air volume controllers |
Setpoint connection for an optimiser system
Setpoint connection to optimiser –
master-slave connection of supply and exhaust
air unit
Note
To simplify the system concept of an optimiser
system, we would recommend connecting the
reference signal in parallel.
Note
The actual volumetric flow signal of the VAV
control is available at the optimiser (OUT
terminal – analogue controller).
(continued)
When the supply and exhaust air VAV unit has a master-slave connection (M/S),
the reference signal is connected only to the optimiser’s setpoint input to which
the master is connected (supply air or exhaust air unit). The resultant actual
volumetric flow signal of the master controller, tapped at the OUT terminal of the
«master optimiser», is the reference signal for the slave controller.
Actual volumetric flow signal OUT
The actual volumetric flow signals of every connected VAV controller are available
at the OUT terminals of the «Analogue controller» optimiser connections. This
signal corresponds to the U5 signal e.g. of a Belimo VAV-Compact controller:
0 … 10 and/or 2 … 10 V correspond to 0 … 100% nominal volumetric flow.
Examples with 0 … 10 V mode:
– nom: 700 m3/h
– Terminal 3 (MP1): 5.0 V
– the resultant volumetric flow is (700 / 10) * 5.0 = 350 m3/h
Master-slave circuit: Ain – 0 … 10 V connection via optimiser input
Fan
Master
Frequency
converter
FC
MP
Slave
MP1
MP1
BUS
MP
®
Fan
Frequency
converter FC
BUS
®
Setting for «master» optimiser
COU24-A-MP
Setpoint input
0 … 10 V
Ain 0 … 10 V
VAV-Compact
Mode
0 … 10 V
min
according to room layout
max
Room 1
Connection
DDC
Setting for «slave» optimiser
Mode
0 … 10 V
min
0 m3/s and/or l/s!
max
nom value of master unit!
1 2 3
Optimiser
Master
VAV-Compact
MP-Bus
IN
VAV-Compact
OUT
Ain 0 … 10 V
IN
COU24-A-MP
Setpoint input
0 … 10 V
1 2
3
Optimiser
Slave
VAV-Compact
MP-Bus
131
132
| Variable air volume controllers
Setpoint connection for an optimiser system
Setpoint connection of an MP master
(DDC with MP interface or UK24LON/EIB)
(continued)
With an MP master system, the setpoints for the VAV controllers and the link
between the supply and exhaust air systems is generated by the corresponding
MP master (DDC or UK24LON/EIB).
MP 1
Fan
FC
Sensor integration
°C (Option)
Frequency
converter
MP
BUS
®
Sensor integration
°C (Option)
MP 8
Exhaust air
system
Setting
COU24-A-MP
Setpoint input
MP
BUS
®
MP 1
MP-Master
– DDC controller with MP interface
– UK24LON/EIB
MP
VAV-Compact
Mode
min
max
2 … 10 V / 0 … 10 V
according to room layout
MP master – sensor integration
The «sensor integration» function available with
an MP bus system is also available to an optimiser
with a connected MP master.
The optimiser has two MP interfaces:
– Controller MP
– Actuator MP
The MP master communicates with the MP slave (VAV controllers) via the
optimiser. All data points of the VAV controller integrated in the MP master are
available.
The optimiser makes a copy of the relevant data of the connected VAV controllers.
If data that are not managed in the copy are requested, the optimiser forwards the
corresponding commands to the addressed VAV controller.
In this operating mode, the frequency converter is controlled by the optimiser. If
additional control or safety functions are planned, these must be given appropriate
consideration (see planning, protective equipment on page 9+10).
Variable air volume controllers |
Accessories
CB
CBM
Electrical duct heater.............................................10
Duct heater..............................................................10
VBC
CWK
Water heating coil for circular ducts....................10
Water-cooling battery for circular ducts.............10
VBR
RB
Water-heating coil for rectangular ducts...........10
Duct heater for rectangular ducts........................10
PGK
DXRE
Cold water coil for rectangular ducts..................10
Rectangular duct cooling coil (DX)......................10
133
134
| Variable air volume controllers
CB
Electrical duct heater
Duct heater with spigot connection for standard spiral
ducts. Manufactured from Aluzinc-coated sheet steel
with a heating element in stainless steel. The heater
has integral overheating protection with a manual
reset function. The CB heater has rubber seals on
the connecting spigots. Suitable for control by room
thermostat or Pulser.
The minimum air volume is based on a minimum air
velocity of 1.5 m/s. These duct heaters are designed for
a maximum output air temperature of 50°C. The CB can
be installed in a horizontal or vertical duct. In a horizontal
duct, the connection box should be installed facing
upwards, or rotated 90° to one side. Installation with the
connection box facing downwards is not allowed.
ØD = connection diameter
Recommended installation positions
CB-1 230V~
CB-2 400V 2~
A = Heating elements
B = Over heat protection with automatic reset
CB-3 230V 3~ 400V 3~
C = Over heat protection with manual reset
E = Interlocking
CB-4 12kW, 400V 3~
F = All phase breaker
H = Thyristor type Pulser or TTC
Variable air volume controllers |
CBM
Duct heater
Description
Duct heater with integral control equipment
Duct heater with spigot connection for standard spiral
circular ducts. Manufactured from Aluzinc-coated sheet
steel with a heating element in stainless steel. The heater
has integral overheating protection with a manual reset
function. The CBM have rubber seals on the connecting
spigots. The temperature is set on the cover of the duct
heater. The unit is controlled by an integral electronic
temperature regulator, using so-called timeproportional
Pulse/Pause technology. This provides extremely precise
temperature control. As a thyristor is used for adjusting
the temperature, the unit has no moving parts. This
means that it is silent and not susceptible to wear and
tear. Terminals for interlocking the heater, via a pressureand airflow guard are available in the terminal box. The
minimum air volume is based on a minimum air velocity of
1.5 m/s. These duct heaters are designed for a maximum
output air temperature of 50°C.
All CBMs are delivered with duct sensor TG-K330 (0-30oC)
as standard.
Recommended installation positions
A = Heating elements
B = Over heat protection with automatic reset
C = Over heat protection with manual reset
E = Interlocking
F = All phase breaker
H = Thyristor type Pulse or TTC
J = Sensor
T = Air flow switch/Pressure switch
135
136
| Variable air volume controllers
ØD
P
U
I
Qmin
m
(mm)
(kw)
(v)
(A)
(m3/h)
(Kg)
Controlled
by
Wiring
diagram
100-0.4
100
0.4
230~
1.7
45
2
Pulser
CB-1
100-0.6
100
0.6
230~
2.6
45
2
Pulser
CB-1
125-0.6
125
0.6
230~
2.6
70
2.5
Pulser
CB-1
CB & CBM
125-1.2
125
1.2
230~
5.2
70
2.5
Pulser
CB-1
125-1.8
125
1.8
230~
7.8
65
2.5
Pulser
CB-1
150-1.2
150
1.2
230~
5.2
100
2.5
Pulser
CB-1
150-2.1
150
2.1
230~
9.1
100
3.2
Pulser
CB-1
150-2.7
150
2.7
230~
11.7
100
3.0
Pulser
CB-1
150-5.0
150
5.0
400 2~
12.5
100
3.8
Pulser
CB-2
160-1.2
160
1.2
230~
5.2
115
3
Pulser
CB-1
160-2.1
160
2.1
230~
9.1
115
3.2
Pulser
CB-1
160-2.7
160
2.7
230~
11.7
115
3.5
Pulser
CB-1
160-5.0
160
5.0
400 2~
12.5
115
4
Pulser
CB-2
200-2.1
200
2.1
230~
9.1
180
3.9
Pulser
CB-1
200-3.0
200
3.0
230~
13
180
4
Pulser
CB-1
200-5.0
200
5.0
400 2~
12.5
180
4.5
Pulser
CB-2
250-3.0
250
3.0
230~
13
280
4.8
Pulser
CB-1
250-6.0
250
6.0
400 2~
16
280
5.2
Pulser
CB-2
250-9.0
250
9.0
400 3~
13
280
6.2
TTC
CB-3
315-3.0
315
3.0
230
13
430
6
Pulser
CB-1
315-6.0
315
6.0
400 2~
15
430
6.3
Pulser
CB-2
315-9.0
315
9.0
400 3~
13
430
7.3
TTC
CB-3
315-12.0
315
12.0
400 3~
17.3
430
7.6
TTC
CB-4
355-6.0
355
6.0
400 2~
15
550
7
Pulser
CB-2
355-9.0
355
9
400 3~
13
550
8.2
TTC
CB-3
355-12.0
355
12
400 3~
17.3
550
8.5
TTC
CB-4
400-6.0
400
6
400 2~
15
700
8
Pulser
CB-2
400-9-0
400
9
400 3~
13
700
8.5
TTC
CB-3
400-12.0
400
12
400 3~
17.3
700
9.2
TTC
CB-4
Variable air volume controllers |
VBC
Water heating coil for circular ducts
The water-heating coil can be installed in a horizontal
duct. Max operating temperature 150°C. Max operating
pressure 1.6 MPa (16 Bar) 2- and 3-rows batteries.
Odvod vody
Prívod vody
F
H
ØD
H+8
Ødy
Water-heating coil for heating air in ventilation systems
with circular ducts. Aluzinc-coated casing, heat
transmission element with copper tubes and aluminium
fins. Removable cover for cleaning the unit.
B
G
K
G
L
VBC
ØD
B
H
Ødy
F
G
K
L
kg
100-2
100
179
225
10
137
40
300
380
3.8
100-3
100
180
238
10
100
40
276
356
3.9
125-2
125
179
225
10
137
40
300
380
3.8
125-3
125
255
313
10
175
40
276
356
5.8
160-2
160
253
300
10
212
40
300
380
5.7
160-3
160
255
313
10
175
40
276
356
5.8
200-2
200
253
300
10
212
40
300
380
5.7
200-3
200
330
398
22
250
40
276
356
8.6
250-2
250
328
385
22
250
40
300
380
8.2
250-3
250
405
473
22
325
40
276
356
11.5
315-2
315
403
460
22
325
40
300
380
10.6
315-3
315
504
557
22
400
40
276
356
14.6
400-2
400
479
534
22
400
65
300
430
13.5
400-3
400
539
707
22
425
65
330
460
20.0
500-2
500
529
707
22
425
65
330
460
17.2
Air flow
Pressure
drop
ΔT air at T
water
60/40°C
Water
flow
rate
Water
speed
Pressure
drop
Power
ΔT ait at
T water
90/70°C
Water
flow
rate
Water
speed
Pressure
drop
Power
(m3/h)
(Pa)
(K)
(l/s)
(m/s)
(kPa)
(kW)
(K)
(l/s)
(m/s)
(kPa)
(kW)
100-2
0.04
35
16
0.01
0.15
0.1
0.85
32.5
0.02
0.3
1
1.7
125-2
0.06
72
13
0.01
0.2
0.1
1
28.3
0.03
0.4
1
2.2
160-2
0.1
40
19.9
0.03
0.4
3
2.6
35.8
0.06
0.8
8
4.6
200-2
0.15
73
17.3
0.04
0.6
5
3.5
30.4
0.07
1.1
13
6.1
250-2
0.25
68
17.5
0.07
0.5
3
5.7
31.7
0.13
0.9
7
10.3
315-2
0.39
69
18.1
0.11
0.5
3
9.2
32
0.2
1
8
16.3
400-2
0.63
77
17.7
0.18
0.6
4
14.6
31
0.31
1.1
10
25.5
500-2
0.9
45
19.4
0.28
0.7
6.6
22.7
31
0.31
1.1
10
25.5
VBC
Coil calculation
137
138
| Variable air volume controllers
VBC
Air flow
Pressure
drop
ΔT air at T
water
60/40°C
Water
flow
rate
Water
speed
Pressure
drop
Power
ΔT ait at
T water
90/70°C
Water
flow
rate
Water
speed
Pressure
drop
Power
(m3/h)
(Pa)
(K)
(l/s)
(m/s)
(kPa)
(kW)
(K)
(l/s)
(m/s)
(kPa)
(kW)
100-3
0.04
39
25.9
0.02
0.24
0.85
1.35
47.4
0.03
0.45
2.65
2.46
125-3
0.06
17.2
33.4
0.03
0.47
5.33
2.6
56.2
0.05
0.8
14
4.38
160-3
0.1
41
29.3
0.05
0.68
11
3.8
49.7
0.08
1.17
29.5
6.46
200-3
0.15
29
30.7
0.07
0.54
5.36
6
52.1
0.13
0.92
14.1
10.17
250-3
0.25
31.2
30.5
0.12
0.59
6.23
9.93
51.6
0.21
1.02
16.2
16.8
315-3
0.39
35
30.2
0.19
0.69
8.28
15.3
51
0.32
1.17
21.4
25.87
400-3
0.63
36.3
30.3
0.03
0.74
10.10
24.74
50.8
0.51
1.26
26.1
41.6
Coil calculation 3 rows
Variable air volume controllers |
CWK
Water-cooling battery for circular ducts
øD
H
Connection sleeves with rubber seal.
F
H+8
ødy
Casing of galvanised sheet steel with copper tubes and
aluminium fins. Inspection covers for easy cleaning and
maintenance.
G½"
*
Max operating temperature 150 °C
B
G
K
L
Max operating pressure 1,6 MPa (16Bar)
G
* Condensate drain
CWK
øD
B
H
ødy
F
G
K
L
kg
100-3-2.5 100 251 180
10
100
40
276 356
4.4
125-3-2.5 125 326 255
10
175
40
276 356
6.5
160-3-2,5 160 326 255
10
175
40
276 356
6.7
200-3-2.5 200 411 330
22
250
40
276 356
9.4
250-3-2.5 250 486 405
22
325
40
276 356
11
315-3-2.5 315 560 504
22
400
40
276 356 14.3
400-3-2.5 400 710 529
22
425
65
330 460 19.5
139
140
| Variable air volume controllers
CWK
100-3-2.5
125-3-2.5
160-3-2.5
200-3-2.5
250-3-2.5
315-3-2.5
400-3-2.5
Air flow
Air speed
Pressure
drop
Air before
Air before
(m3/h)
m/s
(Pa)
(˚C)
54
2
7
25
54
2
7
Water
Flow
Water
Pressure
drop
(kW)
(l/s)
(kPa)
0.2
0.01
< 0.5
15.8
0.4
0.01
1
Air after
Capacity
(% RH)
(˚C)
50
14.3
30
45
100
3.5
22
25
50
16.4
0.3
0.01
1
100
3.5
22
30
45
18.5
0.5
0.02
2
145
5
58
25
50
17.5
0.4
0.02
1
145
5
58
30
45
20.0
0.6
0.02
3
85
2
3
25
50
12.6
0.5
0.02
3
85
2
3
30
45
13.5
0.7
0.03
5
150
3
9
25
50
14.5
0.7
0.03
5
150
3
9
30
45
15.7
1.1
0.04
10
215
4.5
18
25
50
15.6
0.8
0.03
7
215
4.5
18
30
45
17.0
1.4
0.05
16
145
2
9
25
50
14.4
0.7
0.03
4
145
2
9
30
45
15.6
1.0
0.04
10
250
3.5
24
25
50
16.1
0.9
0.04
8
250
3.5
24
30
45
17.4
1.5
0.06
20
355
5
45
25
50
17.0
1.1
0.04
11
355
5
45
30
45
18.4
1.3
0.08
32
225
2
6
25
50
14.1
1.0
0.05
2
225
2
6
30
45
15.3
1.6
0.06
5
390
3.5
17
25
50
15.9
1.4
0.06
4
390
3.5
17
30
45
17.3
2.3
0.09
9
555
5
33
25
50
16.9
1.7
0.07
5
555
5
33
30
45
18.4
3.1
0.12
15
360
2
6
25
50
14.2
1.6
0.06
2
360
2
6
30
45
15.4
2.5
0.10
5
630
3.5
18
25
50
16.0
2.2
0.09
4
630
3.5
18
30
45
17.3
3.8
0.15
10
900
5
34
25
50
17.0
2.7
0.11
6
900
5
34
30
45
18.2
5.1
0.20
17
560
2
7
25
50
14.5
2.4
0.10
3
560
2
7
30
45
15.4
3.9
0.16
7
985
3.5
20
25
50
16.1
3.4
0.13
5
985
3.5
20
30
45
17.2
6.1
0.24
14
1410
5
39
25
50
17.0
4.3
0.17
8
1410
5
39
30
45
18.1
8.3
0.33
25
900
2
9
25
50
15.2
3.4
0.14
2
900
2
9
30
45
16.3
5.8
0.23
5
1590
3.5
25
25
50
16.8
4.8
0.19
4
1590
3.5
25
30
45
17.8
9.3
0.37
12
2280
5
49
25
50
17.6
6.1
0.24
6
2280
5
49
30
45
18.6
12.8
0.51
22
Variable air volume controllers |
VBR
Water-heating coil for rectangular ducts
Water-heating coil for heating air in ventilation systems
with rectangular ducts. Hot dip galvanized casing, heat
transmission element with copper tubes and aluminium
fins. In cold conditions, a frost protection device with
sensor should be fitted to reduce the risk of damage
from freezing. The water-heating coil can be installed in
a horizontal duct.
G
H
I
J
K
F
G
H
I
J
K
Thread G 1/4
Airing
Water out
Connection for immersion sensor
Water in
Draining
VBR
A
c/c A
B
c/c B
E
kg
40-20-2
438
420
238
220
R¾‘‘
5.5
50-25-2
538
520
288
270
R¾‘‘
7
50-30-2
538
520
338
320
R¾‘‘
8
A
c/c A
B
c/c B
E
kg
40-20-4
438
420
238
220
R¾‘‘
7
50-25-4
538
520
288
270
R¾‘‘
9
60-35-4
638
620
388
370
R 1‘‘
13
A
c/c A
B
c/c B
E
kg
738
720
438
420
R 1‘‘
15.5
70-40-3
Max. operating temperature
Max. operating pressure, at water temp. 100°C 16 bar
Max. operating pressure, at water temp. 150°C 10 bar
VBR XX-XX-2 = Two pipe rows
VBR XX-XX-4 = Four pipe rows
VBR XX-XX-3 = Three pipe rows
141
142
| Variable air volume controllers
Water temp.
(in/out)
Air Flow
Air
Pressure drop
(ºC)
(m3/h)
40-20-2
60/40
400
40-20-2
60/40
1000
VBR
Water Flow
Water
Pressure drop
(kW)
(l/s)
(kPa)
2.7
0.03
0.5
4.6
0.06
1
ΔT
Capacity
(Pa)
(K)
9
18.5
48
12.7
40-20-4
60/40
400
18
29.5
4.3
0.05
0.5
40-20-4
60/40
1000
96
19.5
7.1
0.09
0.5
40-20-2
80/60
400
9
32.8
4.7
0.06
1
40-20-2
80/60
1000
48
24.5
8.9
0.11
2
40-20-4
80/60
400
18
46.3
6.7
0.08
0.5
40-20-4
80/60
1000
96
38.9
14.0
0.17
1
50-25-2
60/40
600
8
21.7
4.7
0.06
1
50-25-2
60/40
1200
29
18.2
7.9
0.10
2
50-25-4
60/40
600
16
33.1
7.2
0.09
0.5
50-25-4
60/40
1200
59
28.4
12.3
0.15
1
50-25-2
80/60
600
8
36.5
7.9
0.10
2
50-25-2
80/60
1200
29
28.6
12.4
0.15
4
50-25-4
80/60
600
16
54.5
11.8
0.14
1
50-25-4
80/60
1200
59
45.9
19.9
0.24
3
60-35-2
60/40
1200
11
18.7
8.1
0.10
0.5
60-35-2
60/40
3000
61
15.0
16.3
0.20
2
60-35-4
60/40
1200
23
34.2
14.8
0.18
1
60-35-4
60/40
3000
123
28.1
30.4
0.37
4
60-35-2
80/60
1200
11
33.9
14.7
0.18
1
60-35-2
80/60
3000
61
24.1
26.1
0.32
3
60-35-4
80/60
1200
23
53.6
23.2
0.28
3
60-35-4
80/60
3000
123
41.5
45.0
0.55
8
70-40-2
60/40
2000
31
20.1
14.5
0.18
1
70-40-2
60/40
4000
94
16.0
23.2
0.28
1
70-40-3
60/40
2000
46
24.7
17.8
0.22
0.5
70-40-3
60/40
4000
139
21.1
30.5
0.37
1
70-40-2
80/60
2000
31
34.7
25.1
0.31
1
70-40-2
80/60
4000
94
25.1
36.3
0.44
3
70-40-3
80/60
2000
46
45.4
32.8
0.40
1
70-40-3
80/60
4000
139
34.4
49.7
0.61
2
Coil calculation
Data based on supply air temperature of 0°C.
Variable air volume controllers |
RB
Duct heater for rectangular ducts
Manufactured from aluzinc coated sheet steel with
a heating element in stainless steel. The heater has
integral overheating protection with a manual reset
function. Suitable for control by room thermostat or TTC.
The minimum air volume is based on a minimum air
velocity of 1.5 m/s. These duct heaters are designed for
a maximum output air temperature of 40°C.
RB
Power Voltage Current
Min.
air flow
Weight
3
RB
B
H
D
(mm)
(kW)
(V)
(A)
(m /h)
(kg)
40-20/9-1
400
200
370
40-20/9
9
400
3~
13
450
9.2
40-20/15-1
400
200
500
40-20/15
15
400
3~
22
450
16
50-25/15-1
500
250
370
50-25/15
15
400
3~
22
700
12.7
50-25/22-2
500
250
500
50-25/22
22
400
3~
31.8
700
19.9
60-35/27-2
600
350
370
60-35/27
27
400
3~
39
1000
23.1
60-35/45-3
600
350
500
60-35/45
45
400
3~
65
1000
30.6
70-40/27-2
700
400
370
70-40/27
27
400
3~
39
1600
23.1
70-40/45-3
700
400
370
70-40/45
45
400
3~
65
1600
30.3
F1 Ochrana proti prehriatiu,
automatická (60°C)
F2 Ochrana proti prehriatiu,
ručná (120°C)
F2
15 14 13
400V 3~
15 14 13
15 kW
19,9 … 22,6
19,9 … 22,6 A
~
6 5 4 3 2 1
9 8 7
12 11 10
3
12 11 10
15 kW
19,9 … 22,6
19,9 … 22,6 A
V
0
0
4 ~
9 8 7
9 8 7
17 kW
12 11 10
13,5 kW
0
0
4
6 5 4 3 2 1
RB 70-40/45-3
RB 60-35/45-3
6 5 4 3 2 1
RB 60-30/34-2
6 5 4 3 2 1
RB 70-40/27-2
RB 60-35/27-2
6 5 4 3 2 1
RB 50-25/22-2
6 5 4 3 2 1
RB 50-25/15-1
RB 40-20/15-1
6 5 4 3 2 1
RB 40-20/9-1
17,5 … 19,9
22,5 … 25,6 A
9 8 7
13,5 kW
22,1 … 25,1
17,9 … 20,3 A
12 11 10
9 8 7
11 kW
11 kW
27,1 … 30,8
14,6 … 16,5 A
V
19,9 … 22,6 A
12 11 10
22,1 … 25,1
17,9 … 20,3 A
3
15 kW
19,9 … 22,6
17 kW
17,5 … 19,9
22,5 … 25,6 A
F1
27,1 … 30,8
14,6 … 16,5 A
9 8 7
15 kW
19,9 … 22,6
19,9 … 22,6 A
9 8 7
9 kW
33,1 … 37,6
11,9 … 13,5 A
143
| Variable air volume controllers
PGK
Cold water coil for rectangular ducts
58 90
B
9
ø1 0 (8 x)
9
9
9
H
N
R½”
35
Casing from galvanised sheet steel. Water-battery from
copper tubes and aluminium fins. Air vent and drain valve
included. Drip pan from stainless steel and condensate
connection (R½”). Max working pressure 1.6 MPa (16
bar). For water connection left or right, Two inspection
covers for cleaning and maintenance. Droplet separator DE
as an accessory regardless of air direction. Recommended
for air velocities from 3m/s
K
M
I
144
33 0
395
PGK
B
H
I
K
M
N
400x200-3-2.0
438
238
70
176
43
R 3/4
500x250-3-2.0
538
288
120
176
43
R 3/4
600x350-3-2
638
388
220
176
43
R 3/4
700x400-3-2.0
738
438
250
170
55
R1
Variable air volume controllers |
Air flow
Air
velocity
Air
Pressure
drop
Air
before
Air
before
Air
after
Capacity
Water
Flow
Water
Pressure
drop
(m3/h)
m/s
(Pa)
(˚C)
(% RH)
(˚C)
(kW)
(l/s)
(kPa)
576
2
31
25
50
17.0
1.53
0.06
1
576
2
36
30
45
19.0
2.50
0.10
3
PGK
400x200-3-2.0
500x250-3-2.0
600x350-3-2
700x400-3-2.0
864
3
66
25
50
18.4
1.89
0.08
2
864
3
72
30
45
20.2
3.26
0.13
5
1152
4
113
25
50
19.2
2.20
0.09
2
1152
4
119
30
45
20.8
4.15
0.17
7
900
2
31
25
50
17.0
2.38
0.09
2
900
2
36
30
45
18.6
4.27
0.17
5
1350
3
66
25
50
18.2
3.02
0.12
3
1350
3
72
30
45
19.4
6.16
0.25
9
1800
4
113
25
50
18.9
3.61
0.14
4
1800
4
119
30
45
19.8
8.34
0.33
15
1512
2
31
25
50
17.3
3.86
0.15
1
1512
2
36
30
45
19.0
6.64
0.26
3
2268
3
66
25
50
18.6
4.82
0.19
2
2268
3
72
30
45
19.8
9.48
0.38
6
3024
4
113
25
50
19.3
5.72
0.23
3
3024
4
119
30
45
20.1
13.05
0.52
11
1920
2
47
25
50
17.1
5.02
0.20
1
1920
2
55
30
45
18.1
8.66
0.35
3
2880
3
91
25
50
18.5
6.20
0.25
1
2880
3
100
30
45
18.8
12.94
0.52
4
3840
4
142
25
50
19.3
7.26
0.29
2
3840
4
151
30
45
19.0
18.41
0.73
8
Coil calculation, water temp 6/12°C
145
| Variable air volume controllers
DXRE
Rectangular duct cooling coil (DX)
9
ø10 (8x)
9
N
C
R½"
K
M
I
O
DXRE is recommended for central or decentral (zones)
cooling of individual rooms. The DXRE is intended for
installation in a horizontal duct, with the air flow in either
direction (reversible coil).
35
9
•
B
R S
9
•
Same model for left-hand or right-hand installation
(reversible coil)
Stainless steel condensate drip tray. A droplet
eliminator can be fitted regardless of the direction of
air flow
Easily removable drip tray to simplify cleaning and
inspection.
H
•
40
We recommend that a DE droplet eliminator (accessory)
should be installed on theoutlet side of the coil if the
air velocity is in excess of 2.5 m/s. This prevents water
droplets being entrained by the air flow out into the duct
system. Maximum operating pressure 2.4 MPa (24 Bar).
O
146
330
395
DE - Droplet separator
Droplet separator for duct cooling coils
Droplet separator DE must be ordered extra.
Recommended for air velocities from 2.5 m/s
DXRE
B
H
I
O
400x200-3-2.5
438
500x250-3-2.5
558
600x350-3-2.5
700x400-3-2.5
K
238
70
100
165
288
120
30
165
638
388
220
30
165
738
438
250
30
160
DXRE
M
N
S
R
C
400x200-3-2.5
60
19
90
105
1/2“
500x250-3-2.5
60
22
90
105
1/2“
600x350-3-2.5
60
22
90
105
5/8“
700x400-3-2.5
75
35
100
115
5/8“
Variable air volume controllers |
DXRE
400x200-3-2.5
500x250-3-2.5
600x350-3-2.5
700x400-3-2.5
Air flow
Air
pressure
drop
Air in
Air in
Air out
Output
Refrigerant
flow
Refrigerant
Pressure
drop
(m3/h)
(Pa)
(˚C)
(% RH)
(˚C)
(kW)
(kg/h)
(kPa)
575
32
25
50
15,8
2,2
51
3
575
36
30
50
18,8
3,2
75
6,1
865
60
25
50
16,9
2,7
63
4,3
865
68
30
50
20,4
3,9
90
8,7
1150
91
25
50
17,5
2,8
65
4,9
1150
107
30
50
21,2
4,4
104
11,3
900
32
25
50
15,8
3,4
80
3,2
900
36
30
50
18,7
5
118
6,6
1350
60
25
50
16,9
4,2
99
5
1350
69
30
50
20,1
6,3
147
9,8
1800
92
25
50
18
4,4
103
5,2
1800
108
30
50
21,2
7,1
165
12,1
1510
32
25
50
15,5
6
131
7,5
1510
36
30
50
18,4
8,7
192
12,8
2270
62
25
50
16,7
7,5
164
10,1
2270
70
30
50
19,8
11
242
18,6
3025
97
25
50
17,4
8,6
189
12,5
3025
110
30
50
21
12,4
272
22,6
2015
40
25
50
14,7
8,6
188
7,6
2015
44
30
50
17,4
12,5
274
13,3
3020
72
25
50
16,3
9,6
211
9
3020
83
30
50
19,3
14,7
323
17,4
4030
112
25
50
16,5
11,2
246
11,3
4030
130
30
50
20,2
16,9
370
20
Coil calculation
Refrigerant R407C, 5 ºC
Refrigerant
R 410A
R 134A
R 404A
R 507A
Factor
1,01
0,93
1,00
0,97
Pokles tlaku ΔP v Pa
Recalculation of the basic value with different refrigerants
Rýchlosť vzduchu v m/s
Pressure drop DE, droplet eliminator
147
148
| Variable air volume controllers
Return air
Balance-E
EFF
Optima-R
Optima R-I
NOVA-R
NOVA-E
Optima-S
TSF & TSFI
Series
PKI
Series
TUNE-R
Damper
IGC
IGK
PZ
External louvers for Exhaust air
Variable air volume controllers |
Supply air
Optima-R
Optima R-I
Optima-RS
Optima-S
PKI
Series
NOVA-L
NOVA-B
NOVA-A
Sinus-C
Series
CRS, CRS-T & CRSP
Series
TSO, TSOI
Series
Konika, Konika-A & Konika-AT
Series
Kvadra & ADQ
Series
EFD
Damper
VVKN & VVKR
Series
IGC
IGK
PZ
External louvers for Intake air
149
Systemair GmbH • Jan 2013 • E2284
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