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意大利GIVI MISURE ? AGS 光栅尺
意大利GIVI MISURE AGS T Serial interface SSI - BiSS 光栅尺
意大利GIVI MISURE 电磁尺
意大利GIVI MISURE ? MTS 电磁尺
意大利GIVI MISURE MTS M Pole pitch 2+2 mm Pr 电磁尺
意大利GIVI MISURE MTS P Pole pitch 1+1 mm Pr 电磁尺
意大利GIVI MISURE MTS I Pole pitch 2.54+2.54 mm Pr 电磁尺
意大利GIVI MISURE MTS H Pole pitch 5+5 mm Pr 电磁尺
意大利GIVI MISURE MTS E Pole pitch 10+10 mm Pr 电磁尺
意大利GIVI MISURE MTS S Pole pitch 6.25+6.25 mm Pr 电磁尺
意大利GIVI MISURE MTS C Pole pitch 20+20 mm Pr 电磁尺
意大利GIVI MISURE ? MTR 电磁尺
意大利GIVI MISURE MTR P Pole pitch 1+1 mm Pr 电磁尺
意大利GIVI MISURE MTR M Pole pitch 2+2 mm Pr 电磁尺
VI733L - VI734L With 3 displays and LCD
Display 7 high-efficiency digits h = 17 mm
Encoder input signals 2 square waves with phase displacement
of 90° ± 5° and synchronized index
5 Vdc
Available resolutions 200 - 100 - 50 - 20 - 10 - 5 - 2 - 1 - 0.5 μm
1° - 0.5° - 0.2° - 0.1° - 0.05° - 0.02° - 0.01°
0.005° - 0.002° - 0.001°
Protection class keyboard IP 67 rear panel IP 42
Input axes 3 - 4
Applicable to lathe - milling machine - boring machine - etc.
Power supply 230 Vac ± 10% - 50/60 Hz 50 mA
110 Vac ± 10% - 60 Hz 100 mA
24 Vac ± 10% - 50/60 Hz 450 mA
Version standard or flush-mounted
VI900 Touch-screen color LCD display
Display 5.7'' color, LED-backlit LCD TFT
Incremental encoder input signals 2 square waves with phase displacement
of 90° ± 5° + synchronized index 5 Vdc
Absolute (SSI) encoder input signals RS-422: Clock+, Clock-, Data+, Data-
Available resolutions 1,000 - 500 - 200 - 100 - 50 - 20 - 10 - 5 - 2 - 1 -
0.5 - 0.2 - 0.1 μm
1° - 0.5° - 0.2° - 0.1° - 0.05° - 0.02° - 0.01° -
0.005° - 0.002° - 0.001°
Protection class IP 40 IP 54 with plastic cover provided
Input axes 2 - 3 - 4
Applicable to lathe - milling machine - boring machine - etc.
Power supply 230 Vac ± 10% - 50/60 Hz 60 mAMAX
110 Vac ± 10% - 60 Hz 120 mAMAX
24 Vac ± 10% - 50/60 Hz 500 mAMAX
Version standard or flush-mounted
Options CAN interface
RB900 I/O Digital remote board - Up to 8 relay outputs New
Power supply from VI900 5 Vdc ± 10%
External power supply (PWS) 12 - 24 Vac ± 10% - 50/60 Hz
12 - 24 Vdc ± 10%
Power 1.5 WMAX意大利GIVI MISURE AGS T Serial interface SSI - BiSS 光栅尺泵
Current consumption 240 mAMAX (5 Vdc from VI900)
60 mAMAX (24 Vdc from external power supply PWS)
Inputs VinHIGH= 4.5 ÷ 30 Vdc VinLOW= 0 ÷ 2 Vdc
tMIN= 100 ms
optoisolated and independent
Digital outputs static N.O. relay contacts, 60 Vac/dcMAX, 0.6 AMAX,
0.36 WMAX
protected against overload and overcurrent
Connections D-SUB 15p M (COM1)
terminal block 3p M (external power supply PWS)
terminal block 12p M (input/output)
Protection class IP 20
RB900 CSS Analog remote board - Constant surface speed New
Power supply from VI900 5 Vdc ± 10%
External power supply (PWS) 12 - 24 Vac ± 10% - 50/60 Hz
12 - 24 Vdc ± 10%
Power 1.5 WMAX
Current consumption 240 mAMAX (5 Vdc from VI900)
60 mAMAX (24 Vdc from external power supply PWS)
Analog output 0 - 10 Vdc
Connections D-SUB 15p M (COM1)
terminal block 3p M (external power supply PWS)
terminal block 12p M (input/output)
Protection class
IP 20
MOD. 1 Vertical fixing
MOD. 2 Vertical fixing with single hinged arm
MOD. 3 Wall fixing with single hinged arm
MOD. 4 Surface fixing with single hinged arm
MOD. 5 Wall fixing with double hinged arm
MOD. 6 Surface fixing with double hinged arm
MOD. 7 Surface fixing
MOD. ARGO Vertical fixing on round bar ? 25 mm
THESI 320 DI With relay outputs (digital)
Display POSITION: 6 high-efficiency digits
h = 13 mm and negative sign
CYCLES / PROGRAMS:
2+2 high-efficiency digits h = 13 mm
Encoder input signals 2 square waves with phase displacement
of 90° ± 10° and zero ref.
5 Vdc or 12 Vdc
Axes input frequency 20 kHzMAX
Linear resolution 200 - 100 - 50 - 20 - 10 - 5 - 2 - 1 μm
Protection class keyboard IP 65 rear panel IP 40
Power 10 WMAX意大利GIVI MISURE AGS T Serial interface SSI - BiSS 光栅尺泵
Power supply 90 to 230 Vac ± 10% - 50/60 Hz
24 Vac ± 10% - 50/60 Hz
Digital outputs N.O. relay contacts
Inputs optoisolated
Connections by removable terminal block
Dimensions front panel: 193x100 mm – depth: 135.5 mm
THESI 320 AN With analog outputs
Display POSITION: 6 high-efficiency digits
h = 13 mm and negative sign
CYCLES / PROGRAMS:
2+2 high-efficiency digits h = 13 mmmm/s
Hz
Nicotra Gebhardt offers software and hardware especially
developed to match the high
demands for a perfect clean
room system.
What flowrate/
air velocity do
you need?
What are your
noise criteria?
Sound pressure level at
octave frequencies at
1.5 m distance (below
filter)
Any required flow of air can be
achieved by adjusting the fan
size or its rotating speed.
Uneven air flow distribution can
be caused by a poorly designed
ventilation system or by the uneven flow of air through the filter.
transducer
vibration results
5. Aerodynamics
duty point
nominal air
volume/(m3/h) velocity: (m/s)
flowrate:
external static total
pressure: (Pa) pressure: (Pa)
filter
losses: (Pa)
6. Audible noise
(single unit)
sound power level
dB (A)
sound pressure level
(measured at
1.5 m below filter) NC criteria:
dB (A) NC value
example: vibration less than 2 mm/s
7
Fans
Noise measurement chamber class 2意大利GIVI MISURE AGS T Serial interface SSI - BiSS 光栅尺泵
DIN 45635
Fan testing in
accordance with
ISO 5801 chamber to measure
volumetric air
flow, pressure difference and power
consumption
The demands of air flow uniformity
are magnified with the increased
requirements of higher room
cleanliness classifications and
more end users are specifying
reduced variation of velocity
profiles.
FFU longterm study
Low noise
High efficiency includes low
noise levels.
Special sound measuring facilities make it possible to detect
every peak in frequency bands
and to improve a spectrum by
designing new noise patterns.
Air distribution
measurement
Air velocity with the
filter in 36 square
sections of same size
below the filter.
No measurement point
exceeded 30 %.
More than 80 % have
been less than ±20 %
deviation.
8
This design feature places the
motor directly in the air stream
and the cooling for the motor
cannot be better.
External rotor motors integrate
exceptionally well into a centrifugal fan impeller.
They don’t take up extra space
because they are entirely built in
the impeller without creating major disturbances to the air stream
through the impeller.
Asynchronous motor
A Established and proven technology
A Not affected by external radio
interference
A Individual speed easily and
directly adjustable with voltage
control unit
A Various possibilities
(options) for control:
- Voltage control unit
- Single phase AC converter
- Single phase or 3-phases
power supply
Comparison of efficiency
AC - Brushless DC - unit with a power rating Pn= 200 W
7. Electrical requirements /
power supply
7.1 Asynchronous
voltage:
VAC 1-phase
VAC 3-phases
frequency:
Hz
motor protection:
PTC / Therm.
Contact
What about the
power supply?
Asynchronous motor
This type of motor permits a
speed control by simple voltage
variation.
9
Asynchronous motors
This allows the motor to operate
more efficiently and therefore
the motor size can be slightly
smaller than that of a standard
IEC motor.
High-voltage test rig
Automatic winding-machine
Nicotra Gebhardt motors comply
with EN 60034-1 according to
thermal class B resp. F.
Motors for UL-FFUs in accordance with UL 1004 resp.
UL 2111, thermal class A.
10
A Outstanding efficiency because of permanent magnets
A High torque over a wide speed
range
A High power factor (> 0.9)
A Low harmonic distortion of
power supply current through
PFC
A Compact control device
Brushless DC motor
A High efficiency over
wide range of speed
A BUS compatible
A Independent of
mains frequency
A Integrated speed control
A Flexible in case of change in
installation situation
A drive unit consisting of an
electronically commutated motor
differs from the former DC motors as there are no collector or
carbon brushes.
These wearing components
have been replaced in an electronic commutated motor with
maintenance-free electronics
(control unit).
7.2 Brushless DC
voltage:
VAC 1-phase
frequency:
Hz
motor protection:
electronically
monitored
What about the
electronics?
Brushless DC motor
(Brushless DC motor)
11
This is how it works:
The Brushless DC motor has
three winding circuits, which are
controlled by the electronic commutation unit with a changing
current impulse.
The electric current results in a
magnetic field which interacts
with the field of the permanent
magnets of the rotor. This generates a torque for the motor.
Brushless
DC Motors
Control unit
To create a continuous rotating movement of the rotor, the
electric current must now be
switched relative to the position of the rotating permanent
magnet rotor field.
The position of the permanent
magnet is detected by hall effect
sensors and as a result of this
signal the control electronics
carry out the commutation.
Without Power-Factor-Controller (PFC) Nicotra Gebhardt electronic with PFC
Total harmonic distortion (according to EN 61800-1:1998, EN 61800-3:1996)
Quality
management
motor control
Harmonic number
current
12
FFU
Gateway
Router
Repeater
Digital Input Module
Temperature Sensor
Network Terminator
Fire Alarm
Dry Contact
Printer SMS
Paging
Control
Client
OPC
Client
Ethernet, 10/100 Mbps
FFU Control Centre
Ethernet, 10/100 Mbps
Ethernet, 10 Mbps
RS485, 9600 bps
Handheld
service tool
Worldwide
Remote
Access
Lonworks FTT-10 A, 78 kbps
Hub/Switch
LONWORKS? G BUS
8. Controls
adjustable adjustable
unit group
(analogue) (digital)
voltage computer
converter controlled
network
frequency
converter
phase loop
controller
Network Topology:
The Nicotra Gebhardt FFU Monitoring and Control System consists of a FFU control network
connected to a computerised
FFU Control centre. This FFU
System is especially made for
the high demands of clean room
applications.
The FFU Control centre allows
control of a large quantity of
FFUs in a very flexible and future
oriented way.
At the heart of the system is a
control centre (server) which
contains network management,
process control and web server
as main parts.
Several clients, running under a
conventional Internet browser
like Microsoft? Internet Explorer? serve as visualisation and
operating console (user interface).
An optional implementation and
setup tool is available as well as
an OPC access.
These figures give an overview
of the Nicotra Gebhardt FFU
Monitoring and Control System.
The keypoint of the clean room
is the FFU, which can be selected in different performance /
efficiency / configuration and
used in different places in the
process or ventilating system.
Monitoring
and
Controlling
13
FMCS
OPC Client
Control
Clients
Facility Management
System
Fire Alarm
System
Printer
Main
FFU Server
Redundant
FFU Server
Ethernet
Switch
Bridge 1
I/O Station
incl. Watchdog
Function
I/O Station
incl. Watchdog
Function
Server 1 Status Server 2 Status
Zone Control
Zone Alarm Zone Alarm
Bridge 2
Network
Card 2a
Network
Card 2b
Network
Card 1b
FFU Monitoring (Control and OPC Clients)
Data
Synchronization
FFU Control Box
Ethernet,
10Mbps
RS485
5 Lines × 100 FFUs
Network
Card 1a
Ethernet
Switch
Network
Card 2c
Network
Card 1c
Ethernet Ring Topology
(up to 254 Ethernet-RS485-Gateways)
Legend
Customer Access (Ethernet)
FFU Communication (Ethernet)
FFU Communication (RS485)
I/O Communication (LON)
Server Status (Dry Contact)
Zone Alarm (Dry Contact)
Zone Control (24Vdc Input)
Monitoring
Sample of a GBUS
control network
with redundant
server and redundant ring topology
Topology Overview
This Figure shows the complete
FFU G BUS control network
topology as recommended by
Nicotra Gebhardt.
The field bus section uses
G BUS technology in ring topology for the Ethernet part and
line topology for the RS485 part.
The G BUS is structured with
gateways with a redundant
Ethernet backbone and several
FFU lines.
Additional I/O modules for
connection to the server are also
available.
The FFU Server can be provided
with a redundancy server in hotstandby configuration.
14
Benefits of of the
communication
systems
Zoom-in view with:
A One FFU selected
A Navigation tree
A Control-Panel
A Status-Panel
User interface overview showing:
A Main plan with background picture
A Icons for FFUs, digital input and temperature sensor
A Navigation tree
User interface:
A Example for background picture with a
large amount of FFUs
Software & controlling
A Ethernet, IP network, HTTP
protocol, HTML/XML, Internet
Browsers (MicrosoftTM Internet
ExplorerTM)
A Registration of each FFU run
time for preventive filter maintenance
A Remote maintenance and
configuration via Internet
connection
A Freely programmable time
scheduler for automated FFU
control (speed-up or speeddown of single FFUs or groups)
A Event logging (status- and
change logfile)
G BUS
based system
A Low system cost
A Easy and fast commissioning
at jobsite
A Fast multiple command response
A Fast multiple error response
A Complete project engineering
and programming at design
phase
A Low effort for components
change
LONWORKS?
based system
A Fast single command
response
A Fast single error response
A FFU calibration from
cleanroom
A Handheld service tool
A Free network topology
A Digital input modules available
A Temperature sensors available
A Extensible system
Modbus RTU
A Easy integration into a customers network through standardised interface possible
Analogue
A Analogue interface available for
using without network system
(0-5 V, 0-10 V, nmin, nmax,
error contact)
Monitoring
15
Compare one system to the other
System Features LONWORKS? G BUS Modbus RTU
Hardware
FFU Server PC + + provided by the customer
User client local or remote via Ethernet + + provided by the customer
Multiple clients + + provided by the customer
Network topology Free Topology Line Topology Line Topology
Backbone FTT-10A Ethernet Modbus RTU
Field Bus FTT-10A RS485 RS485
Physical Repeater/Ethernet Gateway 2 or 3 way1 5 lines2 –
Nodes per Segment 60 100 247
Maximum number of FFUs at the network 32,000 127,000 –
Network Terminator + not needed not needed
8 Digital Input Module + – –
Digital I/0 Station + + –
Temperature Sensor Module + – –
Handheld Service Tool + not needed –
Communication
Communication Principle Multi-Master Master-Slave Master-Slave
Heartbeat (Send-On-Change) +3 – –
Polling +4 +5 +
Addressing Neuron-ID6 Hardware7 Hardware
Server Software
Import FFUs8 + + provided by the customer
FFUs organized in building structures + + provided by the customer
Free definable FFU groups + + provided by the customer
2 control modes (% of Maxspeed, Air Speed) + + provided by the customer
Integrated scheduler9 + + provided by the customer
3 different FFU error priorities + + provided by the customer
FFU runtime counter + + provided by the customer
Digital input event handler + + provided by the customer
Handling of temperature sensors + – provided by the customer
Global emergency input10 + + provided by the customer
Printing of error messages + + provided by the customer
ing, Paging, SMS11 + + provided by the customer
Log files (Error, Change, Speed Logs) + + provided by the customer
OPC Server12 + + provided by the customer
User Interface (Client)
User management with graduated authorisation13 + + provided by the customer
Optimized for MICROSOFT? Internet Explorer? + + provided by the customer
Colours and operator rights customizable + + provided by the customer
Background drawing for each structure element + + provided by the customer
Project navigation tree + + provided by the customer
Alarm sound customizable + + provided by the customer
Help function + + provided by the customer
1
can drive 1 or 2 segments with 60 nodes each
2 can drive 5 lines with 100 nodes each
3 in case of error, speed change and time-out
4 only if no heartbeat could be received by the server
5 parallel polling of max. 500 FFUs by each gateway
6 subnet/node addressing after FFU installation
7 node address set by hardware switch
8 from MICROSOFT? EXCEL? *.csv format
9 weekly programmable (start, stop, set speed)
10 one dry contact, configurable functions: "Shutdown All FFUs" or "Display Only"
11 external service provider required
12 optional
13 "Viewer", "Operator", "Administrator" as soon as self provided user profiles
Monitoring
16
FFU Control Group 1
RS485
FFU Control Group 15
0 ... 10V ~ V 0 ... 10V ~ ?p
The device offers easy commissioning and operating assisted
by a clear menu structure and
the single control element.
Additional features like an automatic day/night shift (controlled
by external input or by included
clock), 3-level operator rights
and non-volatile error storage
downloadable to a PC make the
FANCommander 200 a smart
monitoring and control solution
for small fan systems.
Properties
Fan control and parametrization A Single, groups, line, total of up to 200 fans
Addressing A GBus-Fan address 0…99 at 2 lines R 200 Fans
Display A lighted LCD: 4 lines, 20 characters
Control elements A One element (turn and push button)
Operation and navigation A Menu controlled
Fan parameter control A Day speed
A Night speed
A ON/OFF
A Maximum speed
A Restart delay
A Wink function
A Reset errors
Error handling A non-volatile error storage
A download error storage to PC (serial interface)
A separate error indication of:
- present errors
- new (unconfirmed) errors
A error indication by:
- Display
- LED
- dry contact output
Automatic day/night shift A external control (24V DC input)
A internal control (clock controlled)
Additional features A Internal clock
A automatic fan registration (scan function)
A UL-Listed (UL 508C)
Supply voltage A 115/230V AC
FANCommander 200
The FANCommander 200 is a
stand-alone monitoring and control unit for up to 200 fans. Fans
can be controlled and monitored
individually or by groups.
How would you
like to control
your FFUs?
17
Fan Filter Unit
15DZ
File E235903 UL507
This makes the FFU system
(Brushless DC motors)
offered by Nicotra Gebhardt
so attractive:
A Only 1 person for implementing or maintenance needed
A Client and server run at one
PC or at two separated PCs
connected via Ethernet link
A Any desired number of FFUs
can be handled
A Graduated authorisation levels
("view only", "operate" or
"administration")
A Freely definable FFU groups
(structural and logical groups)
A OPC option for master station
access (WonderwareTM, InlutionTM or other OPC capable
clients)
Summary of the fan curves
RHA 1212-240-6D01-A AC, 3ph, 50 Hz Page 18
RHP 1212-240-EC00-A BLDC, 1ph, 50/60 Hz, Page 19
RHA 0912-335-4D00-A AC, 3ph, 50 Hz Page 20
RHP 0912-231-EC01-A BLDC, 1ph, 50/60 Hz, Page 21
RHA 0612-331-4D00-A AC, 3ph, 50 Hz Page 22
RHP 0612-331-EC04-A BLDC, 1ph, 50/60 Hz, Page 23
RHA 1212-240-6E12-BAS AC, 1ph, 50 Hz Page 24
RHA 1212-240-6E42-BAS AC, 1ph, 60 Hz Page 25
RHA 0912-231-4E11-BAS AC, 1ph, 50 Hz Page 26
RHA 0912-231-6E41-BAS AC, 1ph, 60 Hz Page 27
RHA 0612-331-4E11-BAS AC, 1ph, 50 Hz Page 28
RHA 0612-231-6E41-BAS AC, 1ph, 60 Hz Page 29
RHA 1212-240-6DB4-A AC, 3ph, 60 Hz, Page 30
RHA 1212-240-6E45-BAS AC. 1ph, 60 Hz, Page 31
RHA 0912-231-6DB3-A AC, 3ph, 60 Hz, Page 32
RHA 0912-231-6E43-BAS AC, 1ph, 60 Hz, Page 33
RHA 0612-331-4DB4-A AC, 3ph, 60 Hz, Page 34
RHA 0612-231-6E43-BAS AC, 1ph, 60 Hz, Page 35
Properties
Fan control and parametrization A Single, groups, line, total of up to 200 fans
Addressing A GBus-Fan address 0…99 at 2 lines R 200 Fans
Display A lighted LCD: 4 lines, 20 characters
Control elements A One element (turn and push button)
Operation and navigation A Menu controlled
Fan parameter control A Day speed
A Night speed
A ON/OFF
A Maximum speed
A Restart delay
A Wink function
A Reset errors
Error handling A non-volatile error storage
A download error storage to PC (serial interface)
A separate error indication of:
- present errors
- new (unconfirmed) errors
A error indication by:
- Display
- LED
- dry contact output
Automatic day/night shift A external control (24V DC input)
A internal control (clock controlled)
Additional features A Internal clock
A automatic fan registration (scan function)
A UL-Listed (UL 508C)
Supply voltage A 115/230V AC
18
Filter Fan Units
RHA 1212-240-6D01-A
Air density = 1.15 kg/m3
0
50
100
150
200
250
0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1
Air velocity v
Pa
Fan static pressure psF (Unit without filter)
m/s
0 1000 2000 3000 4000 5000
Volume flowrate qv m3/h
0 1000 1500 2000 2500 3000
Volume flowrate qv ft3/min
500
500 1500 2500 3500 4500
300
0
0.2
0.4
0.6
0.8
1.0
in. wg
Fan static pressure psF (Unit without filter)
1.2 Data for duty point:
Air velocity v 0.35 m/s (qv = 1815 m3/h)
Fan static pressure psF 170 Pa (unit without filter, with inlet guard)
Voltage U 251 V
Speed N 846 1/min (on request)
Input Power Pe 215 W
Current I 0.65 A (on request)
Sound pressure level LpA1.5 47 dB (with filter, A-weighted)
Sound pressure levels at octave frequencies (on request)
Octave frequency 63 125 250 500 1000 2000 4000 8000 Hz
Sound pressure level 64 54 47 45 43 34 25 18 dB
unweighted
280
210
190
P
e = 240 W
170
140
50
49
47
46
44
52
L
pA1.5 = 50 dB
46
45
43
40
50
49
47
44
41
52
48
U = 400 V
280
230
200
150
170
170
0.35
Filter Fan Units
RHA 1212-240-6D01-A
1200×1200
(4’×4’)
Fan Data
Asynchronous motor
3ph, 50Hz
Fan type RLA 21-0400-6D-S
Motor type MFA F0-1112-6D-K3-00
U Voltage V
Pe Input power W
LpA1.5 A-weighted sound pressure level at 1.5m distance (mid filter) dB
LwA6 A-weighted sound power level = LpA1.5 + 10 dB
Fan weight (steel) m 55 kg (without filter)
Fan weight (aluminium) m 38 kg (without filter)
Voltage U 400 V (Y), 3~
Frequency f 50 Hz
Max. input power Pe, max 0.29 kW
Max. current I
max 0.85 A
Speed N 940 1/min
19
Air density = 1.15 kg/m3
Filter Fan Units
RHP 1212-240-EC00-A
0
0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1
Air velocity v
Pa
Fan static pressure psF (Unit without filter)
m/s
0 1000 2000 3000 4000 5000
Volume flowrate qv m3/h
0 1000 1500 2000 2500 3000
Volume flowrate qv ft3/min
500
500 1500 2500 3500 4500
50
100
150
200
250
300
350
400
0
in. wg
Fan static pressure psF (Unit without filter)
0.2
0.4
0.6
0.8
1.0
1.2
1.4
1.6 Data for duty point:
Air velocity v 0.35 m/s (qv = 1815 m3/h)
Fan static pressure psF 170 Pa (unit without filter, with inlet guard)
Speed N 847 1/min (on request)
Input Power Pe 173 W
Current I 0.78 A (on request)
Sound pressure level LpA1.5 48 dB (with filter, A-weighted)
Sound pressure levels at octave frequencies (on request)
Octave frequency 63 125 250 500 1000 2000 4000 8000 Hz
Sound pressure level 65 54 46 45 44 38 29 22 dB
unweighted
350
300
P 250
e = 200 W
150
55
53
50
47
L
pA1.5 = 56 dB
54
50
47
57
55
52
49
N = 1070 1/min
1000
900
800
170
0.35
45
41
38
44
40 45
37 41
38
100
50
700
600
500
?
Filter Fan Units
RHP 1212-240-EC00-A
1200×1200
(4’×4’)
Fan Data - - - = speed limit for UL-version
Brushless
DC motor
1ph, 50/60 Hz
Fan type RLP 21-0400-EC
Motor type MFA FP-0817-EC-K0-02
N Speed 1/min
Pe Input power W
LpA1.5 A-weighted sound pressure level at 1.5m distance (mid filter) dB
LwA6 A-weighted sound power level = LpA1.5 + 10 dB
Fan weight (steel) m 55 kg (without filter)
Fan weight (aluminium) m 38 kg (without filter)
Voltage U 230 V, 1~
Frequency f 50 Hz
Max. input power Pe, max 0.37 kW
Max. current Imax 1.62 A
Max. speed Nmax 1070 1/min
20
Filter Fan Units
RHA 0912-335-4D00-A
Air density = 1.15 kg/m3
0
50
100
150
200
250
0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1
Air velocity v
Pa
Fan static pressure psF (Unit without filter)
m/s
0 1000 2000 3000
Volume flowrate qv m3/h
0 1000 1500 2000
Volume flowrate qv ft3/min
500
500 1500 2500 3500
300
350
0
0.2
0.4
0.6
0.8
1.0
in. wg
Fan static pressure psF (Unit without filter)
1.2
1.4 Data for duty point:
Air velocity v 0.35 m/s (qv = 1360 m3/h)
Fan static pressure psF 170 Pa (unit without filter, with inlet guard)
Voltage U 217 V
Speed N 1126 1/min (on request)
Input Power Pe 218 W
Current I 0.71 A (on request)
Sound pressure level LpA1.5 52 dB (with filter, A-weighted)
Sound pressure levels at octave frequencies (on request)
Octave frequency 63 125 250 500 1000 2000 4000 8000 Hz
Sound pressure level 63 60 51 49 45 43 33 22 dB
unweighted
320
280
250
220
P
e = 190 W
160
130
100
57
55
53
49
44
L
pA1.5 = 57 dB
54
51
46
41
59
56
52
46
39
U = 400 V
330
280
245
215
190
150
170
130
170
0.35
Filter Fan Units
RHA 0912-335-4D00-A
900×1200
(3’×4’)
Asynchronous motor
3ph, 50 Hz
Fan weight (steel) m 49 kg (without filter)
Fan weight (aluminium) m 35 kg (without filter)
Voltage U 400 V (Y), 3~
Frequency f 50 Hz
Max. inputpower Pe,max 0.33 kW
Max. current Imax 0.76 A
Speed N 1390 1/min
Fan type RLA 31-3135-4D
Motor type MFA F0-0911-4D-K3-00
U Voltage V
Pe Input power W
LpA1.5 A-weighted sound pressure level at 1.5m distance (mid filter) dB
LwA6 A-weighted sound power level = LpA1.5 +10 dB
Fan Data
21
?
Air density = 1.15 kg/m3
Filter Fan Units
RHP 0912-231-EC01-A
0
0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0
Air velocity v
Pa
Fan static pressure psF (Unit without filter)
m/s
50
100
150
200
250
300
350
450
0
in. wg
Fan static pressure psF (Unit without filter)
0.2
0.4
0.6
0.8
1.0
1.2
1.4
1.8
0 1000 2000 3000
Volume flowrate qv m3/h
0 1000 1500 2000
Volume flowrate qv ft3/min
500
500 1500 2500 3500
400
1.6
2500
4000
1.1
Data for duty point:
Air velocity v 0.35 m/s (qv = 1360 m3/h)
Fan static pressure psF 170 Pa (unit without filter, with inlet guard)
Speed N 960 1/min (on request)
Input Power Pe 128 W
Current I 0.59 A (on request)
Sound pressure level LpA1.5 49 dB (with filter, A-weighted)
Sound pressure levels at octave frequencies (on request)
Octave frequency 63 125 250 500 1000 2000 4000 8000 Hz
Sound pressure level 60 55 50 47 43 39 30 21 dB
unweighted
250
150
110
80
300
57
55
53
52
50
48
L
pA1.5 = 58 dB
54
52
49
47
45
59
56
54
51
48
46
N = 1350 1/min
1200
1100
1000
900
800
170
0.35
P
e = 200 W
57
1300
350
58
60
Filter Fan Units
RHP 0912-231-EC01-A
900×1200
(3’×4’)
Brushless
DC motor
1ph, 50/60 Hz
Fan Data
Fan type RLP 21-0315-EC-S
Motor type MFA FP-0817-EC-K0-07
N Speed 1/min
P
e Input power W
L
pA1.5 A-weighted sound pressure level at 1.5m distance (mid filter) dB
L
wA6 A-weighted sound power level = LpA1.5 + 10 dB
Fan weight (steel) m 49 kg (without filter)
Fan weight (aluminium) m 35 kg (without filter)
Voltage U 230 V, 1~
Frequency f 50 Hz
Max. input power Pe, max 0.365 kW
Max. current I
max 1.60 A
Max. Speed Nmax 1350 1/min
22
Filter Fan Units
RHA 0612-331-4D00-A
Air density = 1.15 kg/m3
0
50
100
150
200
250
0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1
Air velocity v
Pa
Fan static pressure psF (Unit without filter)
m/s
0 500 1000 1500 2000 2500
Volume flowrate qv m3/h
0 1000 1500
Volume flowrate qv ft3/min
500
300
0
0.2
0.4
0.6
0.8
1.0
in. wg
Fan static pressure psF (Unit without filter)
1.2 Data for duty point:
Air velocity v 0.35 m/s (qv = 910 m3/h)
Fan static pressure psF 170 Pa (unit without filter, with inlet guard)
Voltage U 268 V
Speed N 1240 1/min (on request)
Input Power Pe 128 W
Current I 0.35 A (on request)
Sound pressure level LpA1.5 47 dB (with filter, A-weighted)
Sound pressure levels at octave frequencies (on request)
Octave frequency 63 125 250 500 1000 2000 4000 8000 Hz
Sound pressure level 61 58 48 45 38 35 29 21 dB
105 unweighted
160
120 P
e = 140 W
90
70
51
50
49
48
46
44
L
pA1.5 = 50 dB
48
47
45
43
41
52
51
49
46
44
40
U = 400 V
330
280
240
210
180
150
170
0.35
37
38
41
Filter Fan Units
RHA 0612-331-4D00-A
600×1200
(2’×4’)
Asynchronous motor
3ph, 50 Hz
Fan weight (steel) m 43 kg (without filter)
Fan weight (aluminium) m 32 kg (without filter)
Voltage U 400 V (Y), 3~
Frequency f 50 Hz
Max. inputpower Pe,max 0.19 kW
Max. current Imax 0.44 A
Speed N 1340 1/min
Fan type RLA 31-2831-4D
Motor type MFA F0-0810-4D-K3-01
U Voltage V
P
e Input power W
LpA1.5 A-weighted sound pressure level at 1.5m distance (mid filter) dB
LwA6 A-weighted sound power level = LpA1.5 +10 dB
Fan Data
23
?
Air density = 1.15 kg/m3
Filter Fan Units
RHP 0612-331-EC04-A
0
50
100
150
200
250
0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1
Air velocity v
Pa
Fan static pressure psF (Unit without filter)
m/s
m3/h
Volume flowrate qv ft3/min
300
350
450
1.1 1.2
0 1000 2000 3000
0 500 1000 1500
Volume flowrate qv
500 1500 2500
0
in. wg
Fan static pressure psF (Unit without filter)
0.2
0.4
0.6
0.8
1.0
1.2
1.4
1.8
1.6 400
Data for duty point:
Air velocity v 0.35 m/s (qv = 910 m3/h)
Fan static pressure psF 170 Pa (unit without filter, with inlet guard)
Speed N 1213 1/min (on request)
Input Power Pe 105 W
Current I 0.48 A (on request)
Sound pressure level LpA1.5 47 dB (with filter, A-weighted)
Sound pressure levels at octave frequencies (on request)
Octave frequency 63 125 250 500 1000 2000 4000 8000 Hz
Sound pressure level 60 59 46 44 37 33 25 20 dB
unweighted
P
e = 250 W
150
100
80
50
200
300
53
52
50
49
45
40
52
49
47
43
37
56
54
52
50
45
40
L
pA1.5= 56 dB
54
54
48
42
39
42
46
48
57
N = 1750 1/min
1500
1400
1300
1200
1100
1000
900
1600
170
0.35
55
55
58
1700
Filter Fan Units
RHP 0612-331-EC04-A
600×1200
(2’×4’)
Brushless
DC motor
1ph, 50/60 Hz
Fan type RLP 31-2831-EC-S
Motor type MFA FP-0817-EC-K0-08
N Speed 1/min
Pe Input power W
L
pA1.5 A-weighted sound pressure level at 1.5m distance (mid filter) dB
L
wA6 A-weighted sound power level = LpA1.5 + 10 dB
Fan Data
Fan weight (steel) m 43 kg (without filter)
Fan weight (aluminium) m 32 kg (without filter)
Voltage U 230 V, 1~
Frequency f 50 Hz
Max. input power Pe, max 0.33 kW
Max. current Imax 1.45 A
Max. Speed Nmax 1750 1/min
24
Filter Fan Units
RHA 1212-240-6E12-BAS
Air density = 1.15 kg/m3
0
50
100
150
200
250
0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1
Air velocity v
Pa
Fan static pressure psF (Unit without filter)
m/s
300
0
0.2
0.4
0.6
0.8
1.0
in. wg
Fan static pressure psF (Unit without filter)
1.2
0 1000 2000 3000 4000 5000
Volume flowrate qv m3/h
0 1000 1500 2000 2500 3000
Volume flowrate qv ft3/min
500
500 1500 2500 3500 4500
Data for duty point:
Air velocity v 0.35 m/s (qv = 1815 m3/h)
Fan static pressure psF 170 Pa (unit without filter, with inlet guard)
Voltage U 154 V
Speed N 845 1/min (on request)
Input Power Pe 234 W
Current I 1.56 A (on request)
Sound pressure level LpA1.5 53 dB (with filter, A-weighted)
Sound pressure levels at octave frequencies (on request)
Octave frequency 63 125 250 500 1000 2000 4000 8000 Hz
Sound pressure level 61 55 49 50 48 45 37 25 dB
unweighted
280
220
190
P
e = 250 W
160
130
56
55
54
53
52
49
L
pA1.5 = 55 dB
54
53
51
49
44
57
56
54
52
49
42
U = 220 V
180
155
140
130
120
110
100
170
0.35
Filter Fan Units
RHA 1212-240-6E12-BAS
1200×1200
(4’×4’)
Asynchronous motor
1ph, 50 Hz
Fan Data
Fan weight (steel) m 55 kg (without filter)
Fan weight (aluminium) m 38 kg (without filter)
Voltage U 220 V, 1~
Frequency f 50 Hz
Max. inputpower Pe,max 0.32 kW
Max. current I
max 1.53 A
Speed N 940 1/min
Fan type RLA 21-0400-6E-S
Motor type MFA F0-1112-6E-K3-C0-S
Operating capacitor 8 μF
U Voltage V
Pe Input power W
LpA1.5 A-weighted sound pressure level at 1.5m distance (mid filter) dB
LwA6 A-weighted sound power level = LpA1.5 +10 dB
25
Filter Fan Units
RHA 1212-240-6E42-BAS
Air density = 1.15 kg/m3
0
50
100
150
200
250
0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1
Air velocity v
Pa
Fan static pressure psF (Unit without filter)
m/s
300
350
0
0.2
0.4
