pascal und vav -...
TRANSCRIPT
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Lindab
Komfort und Design
Produktüberblick und Symbole
Grundlagen
Deckenauslässe
Deckenauslässe - sichtbar
Anschlusskästen
Wandauslässe
Düsen
Düsenrohr Ventiduct
Gitter
Verdrängungsauslässe
Pascal und VAV
Luftströmungsregler
Steuerventile
Außenluftventile und Überströmeinheiten
Reinraumdurchlässe
Inhalte
Pascal und VAV
l indab | pascal und vav
© 12.2014 Lindab GmbH. Jede Form der Vervielfältigung ohne schriftliche Genehmigung ist untersagt. ist eingetragene Marke von Lindab AB.Produkte, Systeme, Produktgruppen und Produktbezeichnungen von Lindab sind durch gewerbliche Schutz- und Urheberrechte geschützt.
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Lindab PascalRegula Master
Lindab Pascal System
Technische Dokumentation
l indab | pascal
© 12.2014 Lindab GmbH. Jede Form der Vervielfältigung ohne schriftliche Genehmigung ist untersagt. ist eingetragene Marke von Lindab AB.Produkte, Systeme, Produktgruppen und Produktbezeichnungen von Lindab sind durch gewerbliche Schutz- und Urheberrechte geschützt.
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Systemüberblick Pascal
Inhaltsverzeichnis
Funktionen SeiteProdukt
Systemeinführung
Systembeschreibung
Entwurfsanleitung
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Regula Master
Änderungen vorbehalten
Vereinfachte VAV-Lösung
Lindab Pascal ist eine Systemlösung, mit der die Bedürfnisse eines funktionierenden VAV-Systems einfa-cher erfüllt werden. Die Lösung basiert prinzipiell auf der Volumenstromregulierung und wird dadurch zu einem variablen Drucksystem. Im Gegensatz zu konstanten Drucksystemen, ist die Rohrauslegung von geringerer Bedeutung und es sind weniger Regeleinrichtigungen erforderlich. Bei einem variablen Drucksystem ist es möglich, in allen Teilen des Systems sowie unter allen Laufzeitbedingungen die richtige Luftmenge zu errei-chen. Der MBBV-Kasten ist das Herzstück von Pascal und reguliert jeden Luftdurchlass im System mit der rich-tigen Luftmenge. Die einzigartige lineare Kegeldrossel-Technologie des MBBV erlaubt einen Betrieb mit bis zu 200 Pa bei geringem Geräuschniveau. Zudem sind in Kombination mit einem integrierten Stellantrieb mit präziser Volumenstrommessung keine weiteren Regeleinrichtungen zwischen Ventilator und dem MBBV erforderlich. Das System wird durch Regeleinheiten vom Typ "Regula Combi" geregelt, die eine präzise Anpassung der Einstellungen sowie Parameter erlauben. Alle im System eingesetzten Komponenten verfügen ab Werk über eine Standardeinstellung und können nach der Installation leicht angepasst und in Betrieb genom-men werden. Aufgrund weniger Standardkomponenten, keinen speziellen Anforderungen bei der Rohrauslegung sowie einem flexiblen Systemaufbau, fällt der Entwurf sowie die Installation und Inbetriebnahme von Pascal viel einfacher aus, als bei herkömmlichen Systemen.
Lösung zur Energieeinsparung
Die Anforderungen an VAV-Systeme in modernen Gebäuden nehmen zu und das aus gutem Grund. VAV-Systeme im Allgemeinen sparen bereits viel Energie beim Transport sowie der Kühlung von Luft. Mit einer Pascal-Lösung kann der Energieverbrauch noch weiter gesenkt werden. Anstatt einer traditionellen Druckrege-lung des Ventilators, verfügt Pascal über eine Ventila-tor-Optimierungsfunktion, die die Ventilatorleistung von sowohl Zuluft- als auch Abluftventilator regelt. Das Sys-tem gewährleistet, dass mindestens ein VAV-Regler im System zu 85 % geöffnet ist. Somit wird sichergestellt, dass in allen Teilen des Systems ausreichend Luft ver-fügbar ist und dass der Ventilator nicht mehr Druck als erforderlich leistet. Für eine optimale Ventilatorkontrolle erfasst Pascal alle Klappenpositionen im Raum.
Studien von modernen Bürogebäuden zeigen, dass Mit-arbeiter nur 70 % ihrer Arbeitszeit in ihren Büros verbrin-gen. Pascal verfügt daher über eine Bedarfskontrollfunk-tion, die über einen Präsenz-sensor die Abwesenheit im Raum erkennen kann, und schaltet dann entsprechend auf ein niedriges Luft men-genniveau, um noch mehr Energie zu sparen.
Systemeinführung
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Änderungen vorbehalten
Systembeschreibung Pascal
Systembeschreibung
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Änderungen vorbehalten
Regelbare Luftdurchlasslösung• Deckenbündig montierter Luftdurchlass• Verwendung in Kombination mit dem motorbetriebenen Anschlusskasten MBBV• Arbeitsbereich 0 – 100 % Luftmenge• Geringe Luftmengen mit hoher Untertemperatur ohne Zugluft• Integrierter Anwesenheitssensor für Bedarfskontrolle
Bedarfskontrolle• Integrierter Anwesenheitssensor im Luftdurchlass• Standby-Volumenstrom bei Abwesenheit im Raum• Lichtkontrolle bei Abwesenheit ist über eine Relaisfunktion möglich
Volumenstromregulierung• Variables Drucksystem gewährleistet zu jeder Zeit die richtigen Luftmengen• Volumenstrommessung und -regelung mittels MBBV und VRU• Anschlusskasten MBBV ermöglicht Betrieb mit bis zu 200 Pa bei geringem Geräuschniveau• Keine zusätzlichen Einregulierklappen zwischen Ventilator und Zuluftdurchlässen notwendig• Einfache Verdrahtung mit Regula Connect am MBBV
Raumregelung• Temperatursteuerung mit fl exiblen Parametern• CO2-Kontrolle möglich• Anwesenheitskontrolle möglich
Abluftsteuerung• Regula Master regelt die Abluft-VRU, um einen Abgleich zu erreichen• Eine Volumenstrommessung in den Rohren ist für die Master-/ Slave-Funktion nicht erforderlich• Ein konstanter Volumenstromanteil kann ergänzt werden• Eine Volumenstromdiff erenz kann programmiert werden für Unter-/Überdruck• ERC wandelt das Exoline-Signal in ein 0 – 10 V Volumenstromsignal für die Abluftdrossel um
Kommunikation• Exoline BUS-Kommunikation zwischen Regula Combi und Regula Master• Exoline BUS-Kommunikation mit der Gebäudeleittechnik (GLT)• Eine Kommunikation mit anderen Teilen der GLT ist über eine OPC Lösung (GLT Integration) möglich.
Ventilator-Optimierer• Regula Master registriert alle Klappenpositionen im System • Optimiert die Ventilatorleistung, um den Energieverbrauch zu senken• Gewährleistet, dass mindestens ein Regler zu 85 % geöffnet ist Laufzeitkontrolle
Betriebskontrolle• Regula Master registriert die Klappenbewegungen im System• Regula Master warnt, wenn keine Klappenbewegung erfolgt
Systembeschreibung Pascal
Typ Produkt Funktion
LCP-PLuftdurchlass mit integri-ertem Präsenzsensor
• Regelbarer Luftdurchlass zur Regelung einer Luftmenge von 0 – 100 % ohne Zuglufterscheinung• Erkennt Abwesenheit im Raum, um die Luftmenge zu reduzieren
LCP Luftdurchlass • Regelbarer Luftdurchlass zur Regelung einer Luftmenge von 0 – 100 % ohne Zuglufterscheinung
SRC Zuluft-Regula Combi
• Raumsteuerung mit Temperaturregelung• Regelung der Zuluftvolumenströme mittels MBBV oder VRU• Kommuniziert Luftmengen und Klappenpositionen an den LRM• Max. 26 pro SRM/LRM
ERC Abluft-Regula Combi• Regelung der Abluftvolumenströme mittels VRU• Kommuniziert Klappenpositionen an den LRM• Max. 8 pro SRM/LRM
MBBVAktiverAnschlusskasten mitLuftmengeneinstellung
• Von SRC geregelte Luftmenge• Reguliert die Luftmenge unabhängig vom Druck• Ermöglicht Betrieb mit bis zu 200 Pa bei geringem Geräuschniveau• Max. 10 pro Regula Combi
MBBPassiver Anschlusskasten
• Manueller Ausgleich der Luftmenge• Ermöglicht Betrieb mit bis zu 200 Pa bei geringem Geräuschniveau
VRU Volumenstromregler• Von SRC/ERC geregelte Luftmenge• Max. 10 pro Regula Combi
SLU Schalldämpfer • Dämpft die im VRU entstehenden Geräusche
LRM Lokaler Regula Master
• Erfasst die Luftmengen und Klappenpositionen von der SRC• Regelt die ERC-Luftmenge auf Basis der SRC-Werte• Kommuniziert alle Klappenstellungen an den GRM• Führt eine Laufzeitkontrolle durch
GRM Globaler Regula Master• Erfasst die Klappenpositionen von allen LRM• Regelt die Ventilatorleistung, um den Energieverbrauch zu senken
Exoline BUS-Kommunikation • Kommuniziert die Parameter zwischen SRC/ERC und LRM/GRM
0-10 V Volumenstrom
Volumenstromsignal • Regelt die Luftmenge von SRC/ERC zu MBBV/VRU
2-10 V Position Klappenpositionssignal • Übermittelt die Klappenposition von MBBV/VRU an SRC/ERC
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Änderungen vorbehalten
Entwurf eines Pascal Systems
Schritt-für-Schritt-EntwurfDer Entwurf eines Pascal Systems ist einfach und kann prinzipi-ell in wenigen Schritten durchgeführt werden, wie nachfolgend aufgeführt. Auf dieser Seite werden zu jedem Schritt Details genannt und auf den nachfolgenden Seiten zeigen wir einige Entwurfsprinzipien.
1. Definition der Raumlösung • Wählen Sie die Anzahl der Zuluft-Regula Combi • Wählen Sie, ob eine Bedarfskontrolle verwendet werden soll • Wählen Sie den Typ der Zuluftregulierung • Wählen Sie den Typ des Zuluftdurchlasses, die Abmessung und die Position
2. Definition der Abluftlösung • Wählen Sie das Abluftprinzip • Wählen Sie den Typ des Abluftdurchlasses, die Abmessung und die Position • Definieren Sie die Abluftsteuerung und platzieren Sie VRU Regler • Gewährleisten Sie einen Abluftabgleich im gleichen Geschoss
3. Definition des Systemlayouts • Bestimmen Sie die Systemgröße • Wählen Sie die Anzahl und Position der einfachen oder lokalen Regula Master • Wählen Sie die Anzahl der globalen Regula Master
Voraussetzungen für das SystemUm mit Pascal ein einwandfrei funktionierendes VAV-System zu erreichen, sind ein paar Voraussetzungen zu erfüllen:
• Ein Volumenstromregler muss im System zwischen Ventilator und Luftdurchlass sitzen, nicht mehr und nicht weniger• Der Arbeitsdruck im System muss unter 200 Pa liegen (berechnet nach den AHU-Schalldämpfern)• Bei Systemen mit einem Arbeitsdruck über 200 Pa muss eine Druckbegrenzung in diesem Bereich hergestellt werden
RaumlösungZuluft-Regula CombiDas Pascal System basiert auf der Temperaturregelung des Raums unter Verwendung einer standardmäßigen Zuluft-Regula Combi Raumsteuerung in jedem Raum. Für größere Räume können auch mehr als eine Zuluft-Regula Combi ausgewählt werden, wenn verschiedene Temperaturzonen erforderlich sind.
BedarfskontrolleOptional kann eine Anwesenheitskontrolle oder CO2-Kontrolle gewählt werden. Luftdurchlässe mit integriertem Anwesenheits-sensor sind verfügbar (z. B. LCP-P). Es kann auch ein externer Anwesenheitssensor verwendet werden. Für die CO2-Kon-trolle kann ein externer CO2-Sensor zum Einsatz kommen. Bedarfskontrollsensoren werden mit der Zuluft-Regula Combi verbunden – normalerweise über die Regula Connect-Karte am MBBV-Kasten.
ZuluftregulierungBei einzelnen Büros, kleinen Großraumbüros und ähnlichen Raumarten kommt eine Lösung zum Einsatz, bei der die Regu-lierung direkt mittels MBBV-Anschlusskasten erfolgt. In grö-ßeren Büros oder sonstigen Räumen mit einer großen Anzahl an Zuluftdurchlässen kann eine Lösung mit VRU-Regulierung gewählt werden. Beachten Sie, dass bei einer VRU-Lösung die Installation eines Schalldämpfers nach dem VRU erforderlich ist.
ZuluftdurchlassWählen Sie den gewünschten Pascal Luftdurchlasstyp, z. B. mit integriertem Anwesenheitssensor, sowie die richtige Abmessung, gemäß den technischen Daten. Die Luftdurchlässe müssen angemessen im Raum platziert werden, um die vorhan-denen Komfortansprüche für den Raum zu erfüllen. Raumbe-rechnungen sollten mit lindQST, der Online-Auslegungssoftware von Lindab unter www.lindQST.com, durchgeführt werden.
AbluftlösungAbluftprinzipDie Abluft in den Räumen kann durch eine zentrale Abluftre-gulierung erfolgen. Hierfür werden Überströmventile oder ein Abluftdurchlass im Raum positioniert. Für eine ausgeglichene Raumlösung können in den Rohren der Räume Abluftregler platziert werden, die entweder über ein paralleles Signal von der Zuluft-Regula Combi oder vom Regula Master geregelt werden. Ein Regula Master kann bis zu 8 Abluftgeräte steuern.
AbluftdurchlassWählen Sie den gewünschten Abluftdurchlasstyp, entsprechend des gewünschten Abluftprinzips, sowie die richtige Abmessung, gemäß den technischen Daten.
AbluftsteuerungDefinieren Sie, welche Zuluftgeräte welche Abluftgeräte beein-flussen sollen und platzieren Sie die erforderlichen VRU-Regler. Die Regula Master wird die tatsächlichen Zuluftvolumenströme in allen ausgewählten Räumen registrieren und die entspre-chenden Abluftgeräte regeln.
AbluftabgleichFür einen absoluten Abgleich bei Zu- und Abluft im gleichen Geschoss müssen Bereiche mit konstantem Abluftvolumen-strom berücksichtigt werden. Normalerweise wird die Nach-strömluft angrenzenden Räumen entnommen, daher kann dies in der Abluftregulierung der entsprechenden Räume korrigiert werden, um einen gezielten Abgleich zu gewährleisten.
SystemlayoutSystemgrößeBei kleinen Systemen (bis zu 26 Räume) kann eine einzelne Regula Master die Steuerung des Systems übernehmen. Bei größeren Systemen muss die obere Kontrolleinheit eine globale Regula Master sein, die bis zu 5 lokale Regula Master (bis zu 5 x 26 Räume) regelt. Und bei noch größeren Systemen können mehrere globale Regula Master zu einer Kaskade geschaltet werden, um eine unbegrenzte Anzahl an Räumen zu regeln.
Lokale Regula MasterIIn Systemen mit lokalen Regula Master sollte die Einheit in der Nähe der zu regelnden Komponenten platziert werden. Bei der Wahl der Anzahl sowie der Platzierung der lokalen Regula Master muss jedoch auch eine entsprechende Verdrahtung berücksichtigt werden. Lokale Regula Master sollten daher im gleichen Geschoss, normalerweise in einem Nebenraum, posi-tioniert werden.
Global Regula MasterGlobale Regula Master müssen in der Nähe des Ventilators plat-ziert werden, da sie die Ventilatorleistung regeln muss.
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Änderungen vorbehalten
• SRC misst die tatsächliche Raumtemperatur und übermittelt ein 0 – 10 V Volumenstromsignal an MBBV• MBBV reguliert die richtige Luftmenge unabhängig vom Druck • Mehrere, von der gleichen SRC geregelte MBBV können parallel geschaltet werden• MBBV übermittelt die tatsächliche Klappenposition mit einem 2 – 10 V Positionssignal an die SRC• SRC kommuniziert die tatsächliche Luftmenge und Klappenposition an den LRM• Abluft wird zentral im Flur geregelt• Abluft aus Raum über Überströmventil
• SRC misst die tatsächliche Raumtemperatur und übermittelt ein 0 – 10 V Volumenstromsignal an MBBV• MBBV reguliert die richtige Luftmenge unabhängig vom Druck• Mehrere, von der gleichen SRC geregelte MBBV können parallel geschaltet werden• MBBV übermittelt die tatsächliche Klappenposition mit einem 2 – 10 V Positionssignal an die SRC• SRC kommuniziert die tatsächliche Luftmenge und Klappenposition an den LRM• Abluft wird zentral im Flur geregelt• Abluft aus Raum über Abluftdurchlass
Zuluft: Temperaturregelung mit MBBVAbluft: Zentralregelung mit Überströmventil
Entwurfsanleitung Pascal
Zuluft: Temperaturregelung mit MBBVAbluft: Zentralregelung mit Abluftdurchlass
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Änderungen vorbehalten
Zuluft: Bedarfskontrolle mit MBBVAbluft: Zentralregelung mit Überdruckventil
Zuluft: Temperaturregelung mit MBBVAbluft: Ausgleich mit Parallelsignal
Entwurfsanleitung Pascal
• SRC misst die tatsächliche Raumtemperatur• Externer CO2-Sensor misst den CO2-Gehalt im Raum• Integrierter Anwesenheitssensor registriert Anwesenheit im Raum• SRC übermittelt ein 0 – 10 V Volumenstromsignal an MBBV, unter Berücksichtigung von Raumtemperatur und CO2-Gehalt• Bei Abwesenheit im Raum, schaltet die SRC den MBBV in den „Standby-Modus“• MBBV übermittelt die tatsächliche Klappenposition mit einem 2 – 10 V Positionssignal an die SRC• SRC kommuniziert die tatsächliche Luftmenge und Klappenposition an den LRM• Abluft wird zentral im Flur geregelt• Abluft aus Raum über Überdruckventil
• SRC misst die tatsächliche Raumtemperatur und übermittelt ein 0 – 10 V Volumenstromsignal an MBBV• MBBV reguliert die richtige Luftmenge unabhängig vom Druck• MBBV übermittelt die tatsächliche Klappenposition mit einem 2 – 10 V Positionssignal an die SRC• SRC kommuniziert die tatsächliche Luftmenge und Klappenposition an den LRM• SRC übermittelt ein 0 – 10 V Volumenstromsignal an Abluft-VRU, um Raumeinstellung zu erreichen• Parallelsignal benötigt gleiche Größe und Anzahl an MBBV und VRU• Vom Abluft-VRU wird keine Klappenposition an den LRM kommuniziert• Keine Optimierungsfunktion bei Abluftventilator• Abluftventilator muss daher per Slave-Funktion vom Zuluftventilator geregelt werden
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l indab | pascal
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
0 -
10 V
flo
w
2 -
10 V
po
siti
on LCP
ERC
SRC
VRU
LCPLCP
MBBV MBBV MBB
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
0 -
10 V
flo
w
2 -
10 V
po
siti
on LCP
ERC
SRC
VRU
VRU
LCPLCP
MBB MBB MBB
Änderungen vorbehalten
Zuluft: Temperaturregelung mit MBBVAbluft: Ausgleich mit Regula Master Steuerung
Zuluft: Temperaturregelung mit VRUAbluft: Ausgleich mit Regula Master Steuerung
Entwurfsanleitung Pascal
• SRC misst die tatsächliche Raumtemperatur und übermittelt ein 0 – 10 V Volumenstromsignal an MBBV• MBBV reguliert die richtige Luftmenge unabhängig vom Druck• Mehrere, von der gleichen SRC geregelte MBBV können parallel geschaltet werden• MBBV übermittelt die tatsächliche Klappenposition mit einem 2 – 10 V Positionssignal an die SRC• SRC kommuniziert die tatsächliche Luftmenge und Klappenposition an den LRM• ERC empfängt tatsächliche Luftmenge von LRM und reguliert VRU mit einem 0 – 10 V Volumenstromsignal, um Raumeinstellung zu erreichen• VRU übermittelt die tatsächliche Klappenposition mit einem 2 – 10 V Positionssignal an die ERC• ERC kommuniziert Klappenposition an den LRM• Max. 8 ERC pro LRM
• SRC misst die tatsächliche Raumtemperatur und übermittelt ein 0 – 10 V Volumenstromsignal an den VRU• VRU reguliert die richtige Luftmenge unabhängig vom Druck• VRU übermittelt die tatsächliche Klappenposition mit einem 2 – 10 V Positionssignal an die ERC• SRC kommuniziert die tatsächliche Luftmenge und Klappenposition an den LRM• ERC empfängt die tatsächliche Luftmenge von LRM und reguliert Abluft-VRU mit einem 0 – 10 V Volumenstromsignal, um Raumeinstellung zu erreichen• VRU übermittelt die tatsächliche Klappenposition mit einem 2 – 10 V Positionssignal an die ERC• ERC kommuniziert Klappenposition an den LRM• Max. 8 ERC pro LRM
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l indab | pascal
›
COOLHEAT
STANDBYSERVICE
OFF
Pas
cal 70
- 10
V f
low
2 -
10 V
po
siti
on
ERC
VRU
KSU KSU KSU
Änderungen vorbehalten
Entwurfsanleitung Pascal
Zuluft: Überdruck aus anderen RäumenAbluft: Konstant mit Kommunikation
• Ein konstanter Abluftvolumenstrom wird der ERC im LRM zugewiesen• VRU reguliert den konstanten Abluftvolumenstrom unabhängig vom Druck• VRU übermittelt die tatsächliche Klappenposition mit einem 2 – 10 V Positionssignal an die ERC• ERC kommuniziert Klappenposition an den LRM• Die konstante Abluft aus diesem Raum muss auf der ERC in anderen Räumen kompensiert werden• Max. 8 ERC pro LRM
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l indab | pascal
Änderungen vorbehalten
›
COOLHEAT
STANDBYSERVICE
OFF
P1
RxT
x
P2
RxT
x
P/B
B 5
0
A 5
1
N 5
2
E 5
3
P 1 P 2
1 G
+
2 G
0 -
3 4 +
C
10 G
DO
11 D
O1
12 D
O2
13 D
O3
14 D
O4
15 D
O5
16 D
O6
17 D
O7
30 A
gnd
31 A
I1
32 A
I2
33 A
gnd
34 A
I3
35 A
I4
40 A
gnd
41 U
I1
42 U
I2
43 A
gnd
44 U
I3
45 U
I4
B 6
0
A 6
1
N 6
2
E 6
3
DI1
71
DI2
72
DI3
73
DI4
74
DI5
75
DI6
76
DI7
77
DI8
78
Agn
d 90
AO
1 91
AO
2 92
AO
3 93
AO
4 94
AO
5 95Ext.
Disp.
REGULA MASTER
Lindab PascalLocal RM
11:09:21 11:33
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
0 -
10 V
flo
w
VRU SLU
2 -
10 V
po
siti
on
2 -
10 V
po
siti
on
0 -
10 V
flo
w
0 -
10 V
flo
w
0 -
10 V
flo
w
A
B C
2 -
10 V
po
siti
on
2 -
10 V
po
siti
on
1 1 1 2 3
Abluftlösung mit zentraler Regulierung und Abluftdurchlass in Räumen
Entwurfsanleitung Pascal
• SRC reguliert den Zuluftvolumenstrom im MBBV und kommuniziert diese Luftmenge an den LRM• LRM reguliert die Abluft mittels VRU über die ERC (A) in den Räumen (1) minus dem konstanten Abluftvolumenstrom in Raum (3)• LRM reguliert die Abluft mittels VRU über die ERC (B) in Raum (2), um die Raumeinstellung zu gewährleisten• LRM reguliert die Abluft mittels VRU über die ERC (C) in Raum (3), um einen konstan ten Volumenstrom sicherzustellen• SRC und ERC kommunizieren Klappenposition an den LRM• Klappenpositionen für Zuluft und Abluft werden zur Ventilator-Optimierungsfunktion verwendet
LRM
ERC
VRU
VRU VRU ERCERC
SRC SRC SRC SRC
MBBV LCP
MBBV LCP
MBBV LCP
MBBV LCP
MBBV LCP
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510
l indab | pascal
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STANDBYSERVICE
OFF
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COOLHEAT
STANDBYSERVICE
OFF
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COOLHEAT
STANDBYSERVICE
OFF
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COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
P1
RxT
x
P2
RxT
x
P/B
B 5
0
A 5
1
N 5
2
E 5
3
P 1 P 2
1 G
+
2 G
0 -
3 4 +
C
10 G
DO
11 D
O1
12 D
O2
13 D
O3
14 D
O4
15 D
O5
16 D
O6
17 D
O7
30 A
gnd
31 A
I1
32 A
I2
33 A
gnd
34 A
I3
35 A
I4
40 A
gnd
41 U
I1
42 U
I2
43 A
gnd
44 U
I3
45 U
I4
B 6
0
A 6
1
N 6
2
E 6
3
DI1
71
DI2
72
DI3
73
DI4
74
DI5
75
DI6
76
DI7
77
DI8
78
Agn
d 90
AO
1 91
AO
2 92
AO
3 93
AO
4 94
AO
5 95Ext.
Disp.
REGULA MASTER
Lindab PascalLocal RM
11:09:21 11:33
0 -
10 V
flo
w
2 -
10 V
po
siti
on
2 -
10 V
po
siti
on
0 -
10 V
flo
w
0 -
10 V
flo
w
0 -
10 V
flo
w
2 -
10 V
po
siti
on
2 -
10 V
po
siti
on
A
B C
1 1 1 2 3
VRU
VRU VRU
LRM
ERC
SRCSRC SRC SRC
ERC ERCMBBV LCP
MBBV LCP
MBBV LCP
MBBV LCP
MBBV LCP
Änderungen vorbehalten
Abluftlösung mit zentraler Regulierung und Überströmventilen in Räumen
Entwurfsanleitung Pascal
• SRC reguliert den Zuluftvolumenstrom im MBBV und kommuniziert diese Luftmenge an den LRM• LRM reguliert die Abluft mittels VRU über die ERC (A) in den Räumen (1) minus dem konstanten Abluftvolumenstrom in Raum (3)• LRM reguliert die Abluft mittels VRU über die ERC (B) in Raum (2), um die Raumeinstellung zu gewährleisten• LRM reguliert die Abluft mittels VRU über die ERC (C) in Raum (3), um einen konstanten Volumenstrom sicherzustellen• SRC und ERC kommunizieren Klappenposition an den LRM• Klappenpositionen für Zuluft und Abluft werden zur Ventilator-Optimierungsfunktion verwendet
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l indab | pascal
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COOLHEAT
STANDBYSERVICE
OFF
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COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
P1
RxT
x
P2
RxT
x
P/B
B 5
0
A 5
1
N 5
2
E 5
3
P 1 P 2
1 G
+
2 G
0 -
3 4 +
C
10 G
DO
11 D
O1
12 D
O2
13 D
O3
14 D
O4
15 D
O5
16 D
O6
17 D
O7
30 A
gnd
31 A
I1
32 A
I2
33 A
gnd
34 A
I3
35 A
I4
40 A
gnd
41 U
I1
42 U
I2
43 A
gnd
44 U
I3
45 U
I4
B 6
0
A 6
1
N 6
2
E 6
3
DI1
71
DI2
72
DI3
73
DI4
74
DI5
75
DI6
76
DI7
77
DI8
78
Agn
d 90
AO
1 91
AO
2 92
AO
3 93
AO
4 94
AO
5 95Ext.
Disp.
REGULA MASTER
Lindab PascalLocal RM
11:09:21 11:33
0 -
10 V
flo
w
2 -
10 V
po
siti
on
2 -
10 V
po
siti
on
0 -
10 V
flo
w
0 -
10 V
flo
w
0 -
10 V
flo
w
2 -
10 V
po
siti
on
2 -
10 V
po
siti
on
BA A A
C
1 1 1 2 3
VRU VRU VRU
VRU VRU
LRM
SRC SRCSRCSRC
ERC ERCMBBV LCP
MBBV LCP
MBBV LCP
MBBV LCP
MBBV LCP
Änderungen vorbehalten
Abluftlösung mit Raumeinstellung über Parallelsignal
Entwurfsanleitung Pascal
• SRC reguliert den Zuluftvolumenstrom im MBBV und kommuniziert diese Luftmenge an den LRM• SRC reguliert den VRU (A) mit einem Parallelsignal, um einen Ausgleich in den Räumen (1) zu gewährleisten. Benötigt gleiche Größe, Anzahl und Luftmenge an MBBV und VRU• LRM reguliert Abluft mittels VRU über die ERC (B) in Raum (2) minus dem konstanten Abluftvolumenstrom in Raum (3)• LRM reguliert die Abluft mittels VRU über die ERC (C) in Raum (3), um einen konstanten Volumenstrom sicherzustellen• SRC kommuniziert die Zuluft-Klappenpositionen an den LRM• Klappenpositionen für Zuluft werden zur Ventilator-Optimierungsfunktion verwendet• Beachten Sie, dass die Klappenpositionen für die Abluft nicht kommuniziert werden. Die Abluftventilatorsteuerung kann als Slave-Funktion über einen Zuluftventilator erfolgen
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512
l indab | pascal
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
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COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
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COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
P1
RxT
x
P2
RxT
x
P/B
B 5
0
A 5
1
N 5
2
E 5
3
P 1 P 2
1 G
+
2 G
0 -
3 4 +
C
10 G
DO
11 D
O1
12 D
O2
13 D
O3
14 D
O4
15 D
O5
16 D
O6
17 D
O7
30 A
gnd
31 A
I1
32 A
I2
33 A
gnd
34 A
I3
35 A
I4
40 A
gnd
41 U
I1
42 U
I2
43 A
gnd
44 U
I3
45 U
I4
B 6
0
A 6
1
N 6
2
E 6
3
DI1
71
DI2
72
DI3
73
DI4
74
DI5
75
DI6
76
DI7
77
DI8
78
Agn
d 90
AO
1 91
AO
2 92
AO
3 93
AO
4 94
AO
5 95Ext.
Disp.
REGULA MASTER
Lindab PascalLocal RM
11:09:21 11:33
P1
RxT
x
P2
RxT
x
P/B
B 5
0
A 5
1
N 5
2
E 5
3
P 1 P 2
1 G
+
2 G
0 -
3 4 +
C
10 G
DO
11 D
O1
12 D
O2
13 D
O3
14 D
O4
15 D
O5
16 D
O6
17 D
O7
30 A
gnd
31 A
I1
32 A
I2
33 A
gnd
34 A
I3
35 A
I4
40 A
gnd
41 U
I1
42 U
I2
43 A
gnd
44 U
I3
45 U
I4
B 6
0
A 6
1
N 6
2
E 6
3
DI1
71
DI2
72
DI3
73
DI4
74
DI5
75
DI6
76
DI7
77
DI8
78
Agn
d 90
AO
1 91
AO
2 92
AO
3 93
AO
4 94
AO
5 95Ext.
Disp.
REGULA MASTER
Lindab PascalLocal RM
11:09:21 11:33
P1
RxT
x
P2
RxT
x
P/B
B 5
0
A 5
1
N 5
2
E 5
3
P 1 P 2
1 G
+
2 G
0 -
3 4 +
C
10 G
DO
11 D
O1
12 D
O2
13 D
O3
14 D
O4
15 D
O5
16 D
O6
17 D
O7
30 A
gnd
31 A
I1
32 A
I2
33 A
gnd
34 A
I3
35 A
I4
40 A
gnd
41 U
I1
42 U
I2
43 A
gnd
44 U
I3
45 U
I4
B 6
0
A 6
1
N 6
2
E 6
3
DI1
71
DI2
72
DI3
73
DI4
74
DI5
75
DI6
76
DI7
77
DI8
78
Agn
d 90
AO
1 91
AO
2 92
AO
3 93
AO
4 94
AO
5 95Ext.
Disp.
REGULA MASTER
Lindab PascalSingle RM
11:09:21 11:33
P1
RxT
x
P2
RxT
x
P/B
B 5
0
A 5
1
N 5
2
E 5
3
P 1 P 2
1 G
+
2 G
0 -
3 4 +
C
10 G
DO
11 D
O1
12 D
O2
13 D
O3
14 D
O4
15 D
O5
16 D
O6
17 D
O7
30 A
gnd
31 A
I1
32 A
I2
33 A
gnd
34 A
I3
35 A
I4
40 A
gnd
41 U
I1
42 U
I2
43 A
gnd
44 U
I3
45 U
I4
B 6
0
A 6
1
N 6
2
E 6
3
DI1
71
DI2
72
DI3
73
DI4
74
DI5
75
DI6
76
DI7
77
DI8
78
Agn
d 90
AO
1 91
AO
2 92
AO
3 93
AO
4 94
AO
5 95Ext.
Disp.
REGULA MASTER
Lindab PascalGlobal RM
11:09:21 11:33
Exhaust fan
Supply fan
Exoline
SRC SRC SRC SRC
ERC ERC ERC ERC
0-10V
0-10V
Exhaust fan
GRM
SRM
Supply fan
SRC SRC SRC SRC
ERC ERCERCERC
0-10V
0-10V
LRM
LRM
SRC SRC SRC SRC
ERCERCERCERC
Exoline
Up to 26 SRC
Up to 8 ERC
Up to 8 ERC
Up to 8 ERC
Exoline Up to 26 SRC
Exoline Up to 26 SRC
Up to 5 LRM
›
COOLHEAT
STANDBYSERVICE
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COOLHEAT
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COOLHEAT
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COOLHEAT
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OFF
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COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
P1
RxT
x
P2
RxT
x
P/B
B 5
0
A 5
1
N 5
2
E 5
3
P 1 P 2
1 G
+
2 G
0 -
3 4 +
C
10 G
DO
11 D
O1
12 D
O2
13 D
O3
14 D
O4
15 D
O5
16 D
O6
17 D
O7
30 A
gnd
31 A
I1
32 A
I2
33 A
gnd
34 A
I3
35 A
I4
40 A
gnd
41 U
I1
42 U
I2
43 A
gnd
44 U
I3
45 U
I4
B 6
0
A 6
1
N 6
2
E 6
3
DI1
71
DI2
72
DI3
73
DI4
74
DI5
75
DI6
76
DI7
77
DI8
78
Agn
d 90
AO
1 91
AO
2 92
AO
3 93
AO
4 94
AO
5 95Ext.
Disp.
REGULA MASTER
Lindab PascalLocal RM
11:09:21 11:33
P1
RxT
x
P2
RxT
x
P/B
B 5
0
A 5
1
N 5
2
E 5
3
P 1 P 2
1 G
+
2 G
0 -
3 4 +
C
10 G
DO
11 D
O1
12 D
O2
13 D
O3
14 D
O4
15 D
O5
16 D
O6
17 D
O7
30 A
gnd
31 A
I1
32 A
I2
33 A
gnd
34 A
I3
35 A
I4
40 A
gnd
41 U
I1
42 U
I2
43 A
gnd
44 U
I3
45 U
I4
B 6
0
A 6
1
N 6
2
E 6
3
DI1
71
DI2
72
DI3
73
DI4
74
DI5
75
DI6
76
DI7
77
DI8
78
Agn
d 90
AO
1 91
AO
2 92
AO
3 93
AO
4 94
AO
5 95Ext.
Disp.
REGULA MASTER
Lindab PascalLocal RM
11:09:21 11:33
P1
RxT
x
P2
RxT
x
P/B
B 5
0
A 5
1
N 5
2
E 5
3
P 1 P 2
1 G
+
2 G
0 -
3 4 +
C
10 G
DO
11 D
O1
12 D
O2
13 D
O3
14 D
O4
15 D
O5
16 D
O6
17 D
O7
30 A
gnd
31 A
I1
32 A
I2
33 A
gnd
34 A
I3
35 A
I4
40 A
gnd
41 U
I1
42 U
I2
43 A
gnd
44 U
I3
45 U
I4
B 6
0
A 6
1
N 6
2
E 6
3
DI1
71
DI2
72
DI3
73
DI4
74
DI5
75
DI6
76
DI7
77
DI8
78
Agn
d 90
AO
1 91
AO
2 92
AO
3 93
AO
4 94
AO
5 95Ext.
Disp.
REGULA MASTER
Lindab PascalSingle RM
11:09:21 11:33
P1
RxT
x
P2
RxT
x
P/B
B 5
0
A 5
1
N 5
2
E 5
3
P 1 P 2
1 G
+
2 G
0 -
3 4 +
C
10 G
DO
11 D
O1
12 D
O2
13 D
O3
14 D
O4
15 D
O5
16 D
O6
17 D
O7
30 A
gnd
31 A
I1
32 A
I2
33 A
gnd
34 A
I3
35 A
I4
40 A
gnd
41 U
I1
42 U
I2
43 A
gnd
44 U
I3
45 U
I4
B 6
0
A 6
1
N 6
2
E 6
3
DI1
71
DI2
72
DI3
73
DI4
74
DI5
75
DI6
76
DI7
77
DI8
78
Agn
d 90
AO
1 91
AO
2 92
AO
3 93
AO
4 94
AO
5 95Ext.
Disp.
REGULA MASTER
Lindab PascalGlobal RM
11:09:21 11:33
Exhaust fan
Supply fan
Exoline
SRC SRC SRC SRC
ERC ERC ERC ERC
0-10V
0-10V
Exhaust fan
GRM
SRM
Supply fan
SRC SRC SRC SRC
ERC ERCERCERC
0-10V
0-10V
LRM
LRM
SRC SRC SRC SRC
ERCERCERCERC
Exoline
Up to 26 SRC
Up to 8 ERC
Up to 8 ERC
Up to 8 ERC
Exoline Up to 26 SRC
Exoline Up to 26 SRC
Up to 5 LRM
Änderungen vorbehalten
Systemlayout – kleine AHU
Systemlayout – mittlere AHU
Entwurfsanleitung Pascal
513
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l indab | pascal
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
›
COOLHEAT
STANDBYSERVICE
OFF
P1
RxT
x
P2
RxT
x
P/B
B 5
0
A 5
1
N 5
2
E 5
3
P 1 P 2
1 G
+
2 G
0 -
3 4 +
C
10 G
DO
11 D
O1
12 D
O2
13 D
O3
14 D
O4
15 D
O5
16 D
O6
17 D
O7
30 A
gnd
31 A
I1
32 A
I2
33 A
gnd
34 A
I3
35 A
I4
40 A
gnd
41 U
I1
42 U
I2
43 A
gnd
44 U
I3
45 U
I4
B 6
0
A 6
1
N 6
2
E 6
3
DI1
71
DI2
72
DI3
73
DI4
74
DI5
75
DI6
76
DI7
77
DI8
78
Agn
d 90
AO
1 91
AO
2 92
AO
3 93
AO
4 94
AO
5 95Ext.
Disp.
REGULA MASTER
Lindab PascalLocal RM
11:09:21 11:33
P1
RxT
x
P2
RxT
x
P/B
B 5
0
A 5
1
N 5
2
E 5
3
P 1 P 2
1 G
+
2 G
0 -
3 4 +
C
10 G
DO
11 D
O1
12 D
O2
13 D
O3
14 D
O4
15 D
O5
16 D
O6
17 D
O7
30 A
gnd
31 A
I1
32 A
I2
33 A
gnd
34 A
I3
35 A
I4
40 A
gnd
41 U
I1
42 U
I2
43 A
gnd
44 U
I3
45 U
I4
B 6
0
A 6
1
N 6
2
E 6
3
DI1
71
DI2
72
DI3
73
DI4
74
DI5
75
DI6
76
DI7
77
DI8
78
Agn
d 90
AO
1 91
AO
2 92
AO
3 93
AO
4 94
AO
5 95Ext.
Disp.
REGULA MASTER
Lindab PascalGlobal RM
11:09:21 11:33
P1
RxT
x
P2
RxT
x
P/B
B 5
0
A 5
1
N 5
2
E 5
3
P 1 P 2
1 G
+
2 G
0 -
3 4 +
C
10 G
DO
11 D
O1
12 D
O2
13 D
O3
14 D
O4
15 D
O5
16 D
O6
17 D
O7
30 A
gnd
31 A
I1
32 A
I2
33 A
gnd
34 A
I3
35 A
I4
40 A
gnd
41 U
I1
42 U
I2
43 A
gnd
44 U
I3
45 U
I4
B 6
0
A 6
1
N 6
2
E 6
3
DI1
71
DI2
72
DI3
73
DI4
74
DI5
75
DI6
76
DI7
77
DI8
78
Agn
d 90
AO
1 91
AO
2 92
AO
3 93
AO
4 94
AO
5 95Ext.
Disp.
REGULA MASTER
Lindab PascalLocal RM
11:09:21 11:33
P1
RxT
x
P2
RxT
x
P/B
B 5
0
A 5
1
N 5
2
E 5
3
P 1 P 2
1 G
+
2 G
0 -
3 4 +
C
10 G
DO
11 D
O1
12 D
O2
13 D
O3
14 D
O4
15 D
O5
16 D
O6
17 D
O7
30 A
gnd
31 A
I1
32 A
I2
33 A
gnd
34 A
I3
35 A
I4
40 A
gnd
41 U
I1
42 U
I2
43 A
gnd
44 U
I3
45 U
I4
B 6
0
A 6
1
N 6
2
E 6
3
DI1
71
DI2
72
DI3
73
DI4
74
DI5
75
DI6
76
DI7
77
DI8
78
Agn
d 90
AO
1 91
AO
2 92
AO
3 93
AO
4 94
AO
5 95Ext.
Disp.
REGULA MASTER
Lindab PascalGlobal RM
11:09:21 11:33
P1
RxT
x
P2
RxT
x
P/B
B 5
0
A 5
1
N 5
2
E 5
3
P 1 P 2
1 G
+
2 G
0 -
3 4 +
C
10 G
DO
11 D
O1
12 D
O2
13 D
O3
14 D
O4
15 D
O5
16 D
O6
17 D
O7
30 A
gnd
31 A
I1
32 A
I2
33 A
gnd
34 A
I3
35 A
I4
40 A
gnd
41 U
I1
42 U
I2
43 A
gnd
44 U
I3
45 U
I4
B 6
0
A 6
1
N 6
2
E 6
3
DI1
71
DI2
72
DI3
73
DI4
74
DI5
75
DI6
76
DI7
77
DI8
78
Agn
d 90
AO
1 91
AO
2 92
AO
3 93
AO
4 94
AO
5 95Ext.
Disp.
REGULA MASTER
Lindab PascalLocal RM
11:09:21 11:33
P1
RxT
x
P2
RxT
x
P/B
B 5
0
A 5
1
N 5
2
E 5
3
P 1 P 2
1 G
+
2 G
0 -
3 4 +
C
10 G
DO
11 D
O1
12 D
O2
13 D
O3
14 D
O4
15 D
O5
16 D
O6
17 D
O7
30 A
gnd
31 A
I1
32 A
I2
33 A
gnd
34 A
I3
35 A
I4
40 A
gnd
41 U
I1
42 U
I2
43 A
gnd
44 U
I3
45 U
I4
B 6
0
A 6
1
N 6
2
E 6
3
DI1
71
DI2
72
DI3
73
DI4
74
DI5
75
DI6
76
DI7
77
DI8
78
Agn
d 90
AO
1 91
AO
2 92
AO
3 93
AO
4 94
AO
5 95Ext.
Disp.
REGULA MASTER
Lindab PascalGlobal RM
11:09:21 11:33
Exhaust fan
GRM LRM
Supply fan
Exoline
SRC SRC SRC SRC
ERC ERC ERC ERC
0-10V
0-10V
Exoline
GRM
Exoline
SRC SRC SRC SRC
ERC ERC ERC ERC
LRM
Exoline
GRM
Exoline
SRC SRC SRC SRC
ERC ERC ERC ERC
LRM
Exoline
0-10V 0-10V
0-10V0-10V
Up to 26 SRC
Up to 8 ERC
Up to 8 ERC
Up to 8 ERC
Up to 5 LRM
Up to 5 LRM
Up to 26 SRC
Up to 5 LRM
Up to 26 SRC
Unlimited no. of GRM
Änderungen vorbehalten
Systemlayout – große AHU
Entwurfsanleitung Pascal
l indab | pascal
We reserve the right to make changes without prior notice 51505-05-2014
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Pascal diffuser LCP / LCP-P
DescriptionLCP is a flush mounted square diffuser with a circular unper-forated face plate for installation in ceiling systems. LCP issuitable for horizontal supply of cooled air and has a largedynamic range. This ability makes it is possible to regulatedown to low airflows with high undertemperature withoutthe risk of drafts. This makes it possible to do the VAV regu-lation before the diffuser itself and for supply this is done ina MBBV box with integrated volume flow regulation. Forexhaust the diffuser is used with a standard MBB box andthe VAV regulation is done in the duct system with a VRUvolume flow regulator.
LCP-P is identical with LCP, but has a discrete presencesensor integrated in the face plate. The presence sensor canregister activity in a room and in case if non-occupancy theairflow will be regulated to a stand-by minimum airflow tosave energy.
• Simple and aesthetic appearance • Large dynamic range 0-100% without the risk of drafts• Integrated presence sensor for demand control• Suitable for both supply and exhaust air• Can be adapted to most ceiling systems
Quick selection, supply air
Technical dataFor full documentation including sound diagrams, Kok-values and dimensions, see LCP in the Integra chapter.
MaintenanceThe faceplate can be removed to enable cleaning of internalparts or to gain access to the plenum box. The visible partsof the diffuser can be wiped with a damp cloth.
Materials and finishUpper part: Galvanised steelFace plate: AluminiumFace plate finish: Powder coatedStandard colour: RAL 9003, 9010, gloss 30
Other colours are available. Please contact Lindab's salesdepartment for futher information.
Order codeProduct LCP aaa bTypeLCP
Connection dim.Ød 160-315Ceiling system1 - 14
Example: LCP-160-1
LCP + MBBV Max. airflow Max. airflow
duct LCP
LWA 30 dB(A) LWA 35 dB(A)
l/s m3/h l/s m3/h125 160 56 202 66 238
125 200 61 220 73 263
160 200 79 284 99 356
160 250 95 342 113 407
200 250 105 378 122 439
200 315 118 425 145 522
250 315 131 472 168 605
Order codeProduct LCP aaa bb PTypeLCP
Connection dim.Ød 160-315Ceiling system1 - 14Sensor typePresence sensor
Example: LCP-160-1-P
516 We reserve the right to make changes without prior notice05-05-2014
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Pascal diffuser LKP / LKP-P
DescriptionLKP is a flush mounted square diffuser with a square unper-forated face plate for installation in ceiling systems. LKP issuitable for horizontal supply of cooled air and has a largedynamic range. This ability makes it is possible to regulatedown to low airflows with high undertemperature withoutthe risk of drafts. This makes it possible to do the VAV regu-lation before the diffuser itself and for supply this is done ina MBBV box with integrated volume flow regulation. Forexhaust the diffuser is used with a standard MBB box andthe VAV regulation is done in the duct system with a VRUvolume flow regulator.
LKP-P is identical with LKP, but has a presence sensor inte-grated in the face plate. The presence sensor can registeractivity in a room and in case if non-occupancy the airflowwill be regulated to a stand-by minimum airflow to saveenergy.
• Simple and aesthetic appearance • Large dynamic range 0-100% without the risk of drafts• Integrated presence sensor for demand control• Suitable for both supply and exhaust air• Can be adapted to most ceiling systems
Quick selection, supply air
Technical dataFor full documentation including sound diagrams, Kok-val-ues and dimensions, see LKP in the Integra chapter.
MaintenanceThe face plate can be removed to enable cleaning of internalparts or to gain access to the plenum box. The visible partsof the diffuser can be wiped with a damp cloth.
Materials and finishUpper part: Galvanised steelFace plate: Galvanised steelFace plate finish: Powder coatedStandard colour: RAL 9003, 9010 Gloss 30
The diffuser is available in other colours. Please contactLindab's sales department for futher information.
Order codeProduct LKP aaa bTypeLKP
Connection dim.Ød 160-315Ceiling system1 - 14
Example: LKP-160-1
LKP + MBBV Max. airflow Max. airflow
duct LKP
LWA 30 dB(A) LWA 35 dB(A)
l/s m3/h l/s m3/h125 160 56 202 66 238
125 200 61 220 73 263
160 200 79 284 99 356
160 250 95 342 113 407
200 250 105 378 122 439
200 315 118 425 145 522
250 315 131 472 168 605
Order codeProduct LKP aaa bb PTypeLKP
Connection dim.Ød 160-315Ceiling system1 - 14Sensor typePresence sensor
Example: LKP-160-1-P
l indab | pascal
We reserve the right to make changes without prior notice 51705-05-2014
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Pascal diffuser LCC / LCC-P
DescriptionLCC is a flush mounted circular diffuser with a circularunperforated face plate for installation in ceiling systems.LCC is suitable for horizontal supply of cooled air and has alarge dynamic range. This ability makes it is possible to reg-ulate down to low airflows with high undertemperature with-out the risk of drafts. This makes it possible to do the VAVregulation before the diffuser itself and for supply this isdone in a MBBV box with integrated volume flow regulation.For exhaust the diffuser is used with a standard MBB boxand the VAV regulation is done in the duct system with aVRU volume flow regulator.
LCC-P is identical with LCC, but has a presence sensorintegrated in the face plate. The presence sensor can regis-ter activity in a room and in case if non-occupancy the air-flow will be regulated to a stand-by minimum airflow to saveenergy.
• Simple and aesthetic appearance • Large dynamic range 0-100% without the risk of drafts• Integrated presence sensor for demand control• Suitable for both supply and exhaust air
MaintenanceThe faceplate can be removed to enable cleaning of internalparts or to gain access to the plenum box. the visible partsof the diffuser can be wiped with a damp cloth.
Quick selection, supply air
Technical dataFor full documentation including sound diagrams, Kok-values and dimensions, see LCP in the Integra chapter.
Materials and finishUpper part: Galvanised steelFace plate: AluminiumFace plate finish: Powder coatedStandard colour: RAL 9003, 9010, gloss 30
Other colours are available. Please contact Lindab's salesdepartment for futher information.
Order codeProduct LCC aaaTypeLCC
Connection dim.Ød 125-315
Example: LCC-160
LCC + MBBV Max. airflow Max. airflow
duct LCC
LWA 30 dB(A) LWA 35 dB(A)
l/s m3/h l/s m3/h125 160 56 202 66 238
125 200 61 220 73 263
160 200 79 284 99 356
160 250 95 342 113 407
200 250 105 378 122 439
200 315 118 425 145 522
250 315 131 472 168 605
Order codeProduct LCC aaa PTypeLCC
Connection dim.Ød 160-315Sensor typePresence sensor
Example: LCC-160-P
518 We reserve the right to make changes without prior notice13-05-2014
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Pascal plenum box MBBV
DescriptionMBBV is a plenum box with integrated volume flow regulatorused for VAV regulation of supply air diffusers. MBBV isequipped with a unique linear cone damper technologywhich makes it possible to regulate in the full operationalarea 0-100% up to 200 pa with low sound level.The built-in VAV actuator is delivered pre-programmed withdamper characteristic and in combination with a stable flowmeasurement over the damper, it makes the VAV regulationvery accurate and reliable.In Pascal system MBBV is controlled by a Regula Combiroom controller where all room settings is to be done afterinstallation. This means that no factory settings or specificroom labeling is needed for MBBV. MBBV must be used in combination with a suitable diffuserthat can handle low airflows, in Pascal system this is LCP,LKP or LCC.MBBV is as standard delivered with a special designed Reg-ula Connect card, for easy and simple wiring.
• Plenum box with integrated volume flow regulator• Accurate and reliable VAV regulation• Large operational area 0-100%• Up to 200 pa with low sound level• No factory settings needed• Settings to be done in Regula Combi after installation• Used in combination with LCP/LKP/LCC diffuser• Includes Regula Connect for easy wiring
Variants
Technical dataFor full documentation including sound diagrams, Kok-val-ues and dimensions for pascal diffusers + MBBV plenumbox, see LCP / LKP + MBB data in the Integra chapter.These values are valid for LCP / LKP / LCC +MBBV.
Motorized damper unit
MaintenanceThe motorized damper-unit can be removed to enablecleaning of internal parts of the plenum box and givesaccess to the duct as well.
Order codeProduct MBBV aaa bbb STypeMBBV
Duct connection Ød1
Ø125-250
Diffuser dimension Ød2
Ø160-315
FunctionS = Supply air
Example: MBBV- 160-200-S
Available MBBV sizesMBBV-125-160-S
MBBV-125-200-S
MBBV-160-200-S
MBBV-160-250-S
MBBV-200-250-S
MBBV-200-315-S
MBBV-250-315-S
Materials and finishMaterial: Galvanised steelStandard Colour: Galvanized steel
l indab | pascal
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Controller Regula Master
DescriptionRegula Master is a small and compact preprogrammed con-troller with internal display. The display is backlit and themenus are easy accessible and controlled by pushbuttonson the front together with two LED indicators for alarm andwrite indication. The controller has 2 ports for EXOline com-munication via RS485 and has digital and analog I/O´s usedfor fan optimization.The software in Regula Master is specially designed for thePascal system, and contains three different set up configu-rations in the same standard unit: Single Regula Master(SRM), Local Regula Master (LRM) and Global Regula Mas-ter (GRM).
MaintenanceThe visible parts of the device can bewiped with a dampcloth.
Dimensions
FunctionsRegula Master is capable of handling three basic functionsin the Pascal system: Exhaust control, fan optimization andoperating control.
Exhaust control (SRM/LRM)• Regula Master is able to sum up supply air flow from
rooms via Regula Combi and control an exhaust vol-ume flow regulator.
• A constant flow can be assigned to the exhaust vol-ume flow regulator.
• A factor for more or less exhaust can be assigned to the volume flow regulator.
Fan optimization (SRM/GRM)• Secures that at least one damper is open to a fixed
value (default 85%).• If the damper is more than 85% open, the fan is accel-
erated – if less it is slowed down.• The function is working down to room level - in all
rooms the damper position of a volume flow regulator is communicated to Regula Master via Regula Combi.
Operating control (SRM/LRM)• Regula Master is monitoring damper behaviour in the
system.• Indicates alarm if a damper does not move over time.• Indicates alarm if communication with Regula Combi
is lost.Order codeProduct Regula MasterTypeRegula Master
148 58
120
100
P1
RxT
x
P2
RxT
x
P/B
B 5
0
A 5
1
N 5
2
E 5
3
P 1 P 2
B 6
0
A 6
1
N 6
2
E 6
3
DI1
71
DI2
72
DI3
73
DI4
74
DI5
75
DI6
76
DI7
77
DI8
78
Agn
d 90
AO
1 91
AO
2 92
AO
3 93
AO
4 94
AO
5 95Ext.
Disp.
REGULA MASTER
1 G
+
2 G
0 -
3 4 +
C
10 G
DO
11 D
O1
12 D
O2
13 D
O3
14 D
O4
15 D
O5
16 D
O6
17 D
O7
30 A
gnd
31 A
I1
32 A
I2
33 A
gnd
34 A
I3
35 A
I4
40 A
gnd
41 U
I1
42 U
I2
43 A
gnd
44 U
I3
45 U
I4
520 We reserve the right to make changes without prior notice27-11-2014
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Controller Regula Combi Pascal
DescriptionRegula Combi is a room controller for integrated installationin products or directly on the wall. Regula Combi has a buil-tin temperature sensor and can use input from presencesensor, CO2 sensor and an external temperature sensor.The display has indications for heating/cooling state, actualtemperature and set point temperature when pressingincrease/decrease buttons, and icons for the operatingmodes.
Regula Combi has 8 predefined programs which can beselected in the Service parameter menu in the display. Threeof them are specially designed for Pascal VAV system.
FunctionsThe three Pascal programs in Regula Combi are called pro-gram 6 Pascal VAV supply (SRC), program 7 Pascal VAVexhaust (ERC) and program 8 Pascal VAV water (SRC).
Program 6 Pascal VAV supply (SRC)The regulation of temperature takes place in sequences withheating and cooling by signals from the universal outputsUO1 (heating) and UO2 (cooling), and the volume flow regu-lator (MBBV or VRU-2) must be connected to the coolingoutput.
For easy commissioning all air flow settings for ventilation inthe room are set in Regula Combi (and not in the volumeflow regulator). The cooling part of the temperaturesequence will then result in variable output signals, whichdepend on four different air flow settings:
Minimum air flow at presence/occupied (AirflowMinOcc)
Maximum air flow at presence/occupied (AirflowMaxOcc)
Standby air flow (AirflowStandby) when there is no pres-ence.
A size dependable air flow (AirflowNominal). Normally Air-flowNominal should not be changed manually.
Program 7 Pascal VAV exhaust (ERC)The Pascal VAV exhaust program is quite simple, sincethere is no regulation of room temperature. This programsimply collects the exhaust air flow value sent by RegulaMaster via EXOline and translates it to a corresponding 2-10V air flow control signal for the exhaust volume flow regu-lator at UO2.
In program 7 there is no temperature regulation.
The controller serves as a translator for the exhaust flow sig-nal that is send from Regula Master (via EXOline). Theexhaust flow signal is converted and transmitted to the cool-ing output depending on number of dampers (P138) and thechosen volume flow regulator size (P139). Every volume flowregulator size has predefined default values for AirflowNom-inal (P143). This value can be changed, but is reset todefault value if the parameter for size is changed.
The exhaust damper position is registered (via EXOline) andused in Regula Master for fan optimization.
Program 8 Pascal VAV waterThe Pascal VAV water program is identical with program 6but with the cooling sequence split in two, with the first half(UO2) for VAV and the second half (UO3) for cooling actua-tor.
The program is designed to make it possible to combinePascal VAV functionality with an active chilled beam, andmaking sure that there will be full (max.) air flow on theactive chilled beam before the cooling water is active.
The cooling actuator for the chilled beam on UO3 must befor 0-10V. Order code
Product Regula CombiTypeRegula Combi
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Volume flow regulator VRU
DescriptionVRU is a circular volume flow regulator for VAV regulation induct systems and consists of a measuring unit and adamper. VRU is used for volume flow regulation in circularducts controlled from e.g. a room controller or BMS.VRU is as standard supplied with MF actuator without com-munication, but can on request be delivered for Belimo MP,LON or ModBus communication. Further documentation onthe actuator can be requested from Lindab.VRU is equipped with LindabSafe for connection to the ductand is prepared for insulation up to 50 mm.VRU can be installed in any position without adjustmentrequired. To avoid contamination of the measuring cross,VRU should only be used for clean air.
• Requires minimal initial pressure (<20 Pa at Vnom)• Simple adjustment of settings with ZTH or PC tool• Damper tightness class 3• Standard delivered with 2-10 V control signal• Standard delivered with 2-10 V damper position feed-
back signal *• Can be supplied with attenuation shield on request• Can be supplied with actuator for several BUS sys-
tems• Standard MF actuator is used in Pascal systems
DimensionsVRU-250 (MF, MP, LON, MOD)
VRU-250 (MF-D, MP-D, LON-D, MOD-D)
VRU-250 (UNI)
Motor type table
* VRU with attenuation shield.
Order code - VRU
* Valid for MF and MP. UNI and SPR only available with airflow feedback signal.
Product VRU bbb ccccTypeVRU
Dimension Ød 100 - 630
Motor typeMF, MP, LON, MOD, UNI, SPR, MF-D, MP-D, LON-D, MOD-D
Example: VRU - 250 - MF
Factory settingsStandard On request
Min. airflow 0 Other min. flow
Max. airflow Vnom (7m/s) Other max. flow
Control signal 2-10 V 0-10 V
Feedback signal Damper position * Air flow
Ødnom L hnom MF / MP / LON/
MOD / UNIMF-D / MP-D /
LON-D / MOD-D SPR
100 400 225 262 241
125 400 250 287 266
160 400 285 322 301
200 400 325 358 341
250 500 375 407 391
315 500 440 471 455
400 510 526 557 560
500 610 626 657 660
630 660 756 787 790
MotorType Ød 100 - 315 Ød 400 - 630
MF (Standard) LMV-D3-MF-F NMV-D3-MF-F
MP LMV-D3-MP-F NMV-D3-MP-F
LON LMV-D3-LON-F NMV-D3-LON-F
MOD LMV-D3-MOD-F NMV-D3-MOD-F
UNI VRD3+LM24A-V-F VRD3+NM24A-V-F
SPR VRD3+LF24-MFT VRD3-NF24A-V-F
MF-D * LMV-D3-MF-F NMV-D3-MF-F
MP-D * LMV-D3-MP-F NMV-D3-MP-F
LON-D * LMV-D3-LON-F NMV-D3-LON-F
MOD-D * LMV-D3-MOD-F NMV-D3-MOD-F
L
Ødnom
hnom
L
Ødnom
hnom
50
L
Ødnom
hnom
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Volume flow regulator VRU
Technical dataSettingsVnom indicates the measuring range for the actuator. Astandard VRU is calibrated to a Vnom of 7 m/s according tothe table below.
In special cases the VRU can be set to a higher Vnom , e.g.10 m/s.
For VRU, Vmax and Vmin indicate the limits for the actuatorsworking range.
There is linearity between Vmin to Vmax and the input signal.Vmax can be set in the range 20-100% of Vnom , Vmin in therange of 0-100% of Vnom ; however, air velocities below 0,7m/s corresponds to a measuring pressure of less than 1 Pa,which makes the flow regulation less accurate.
Volume flow measurementThe accuracy of volume flow measurement depends on theflow conditions in front of the measuring cross.
It is preferable to have a long straight duct section in front ofthe measuring point, according to the table below.
If these recommendations are not followed, it will cause anunstable flow measurement and therefore higher inaccuracyin the regulation of the required airflow.
ComponentsRecommended straight duct before
unitBend 3 x d
Tee-piece 2 x d
Damper 6 x d
VRUnom flow and measuring limit
SizeØd mm
Measuring limit (0,7 m/s) (Standard) Vnom (7m/s) Vnom (10m/s)m3/h l/s m3/h l/s m3/h l/s
100 20 6 198 55 283 79
125 31 9 309 86 442 123
160 51 14 506 141 723 201
200 79 22 791 220 1130 314
250 124 34 1236 343 1766 491
315 196 54 1963 545 2804 779
400 317 88 3165 879 4522 1256
500 495 138 4946 1374 7065 1963
630 785 218 7851 2181 11216 3116
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Volume flow regulator VRU
Technical dataPressure drop diagram and sound data for dimension-ing. The solid curves indicate the total pressure drop Δpt overthe damper as a function of the volume flow q and the bladeangle α.
The broken curves indicate the A-weighted sound effectlevel LWA, in dB to the duct.
Example:Dimension: Ø100Volume flow: 60 l/sPressure drop: 200 Pa
The following can be obtained from the diagram:Blade angle α: 32°Sound effect level: 63 dB(A)
DimensioningWhen dimensioning the dampers inherent noise from thedampers and their regulating properties (damper character-istics) must be taken into consideration.
If excessively large dampers are used, the working area(angle of rotation) at given Vmin and Vmax may be so limitedthat regulation does not function satisfactorily.
Efforts must be made to use damper dimensions that resultin the largest possible working areas (angles of rotation).
Due to regulation accuracy, working areas with damperangles < 15° should be avoided.
Measuring method for sound:Sound data has been measured by the Swedish NationalTesting and Research Institute (SP) with reference to ISO5135 and EN/ISO 3741.
Blade angle:0° = open damper.90°= closed damper.
Ød 125
Pre
ssur
e d
rop
Setting angle α [°]
v
q
[Pa] α [°]
Δ p t
500
100
200
300
50
20
30
12 15 20 30 40 50 100 180
1 2 3 4 5 10 15
0
70 60 50 40
10
20
30
[l/s]
[m/s]
40
75
45
50
55
60
65
70
L WA [d
B]
Sound power levelLWA [dB]
Ød 100
Pre
ssur
e d
rop
Setting angle α [°]
v
q
[Pa] α [°]
Δ p t
500
100
200
300
50
20
30
8 10 20 30 40 50 120
1 2 3 4 5 10 15
0
60 50 40
10
20
30
[l/s]
[m/s]
403530
75
45
50
55
60
65
70
L WA [d
B]
60
Sound power levelLWA [dB]
Ød 160
Pre
ssur
e d
rop
Setting angle α [°]
v
q
[Pa] α [°]
Δ p t
500
100
200
300
50
20
30
20 100 20030 40 50 300
1 2 3 4 5 10 15
70 60 50 40
10
0
20
30
[l/s]
[m/s]
4035
30
80
45
50
55
60
65
70
75
L WA [d
B]
Sound power levelLWA [dB]
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Volume flow regulator VRU
Technical data
Ød 250
Pre
ssur
e d
rop
Setting angle α [°]
v
q
[Pa] α [°]
Δ p t
500
100
200
300
50
20
30
50 100 200 300 500 750
1 2 3 4 5 10 15
0
60 50 40
10
20
30
[l/s]
[m/s]
4035
80
45
50
55
60
6570
75
L WA [d
B]
Sound power levelLWA [dB]
Ød 500
Pre
ssur
e d
rop
Setting angle α [°]
v
q
[Pa] α [°]
Δ p t
500
100
200
300
50
20
30
200 1000 2000300 500 3000
1 2 3 4 5 10 15
0
70 60 50 40
10
20
30
[l/s]
[m/s]
4035
80 85
45
50
55
60
65
70
75
L WA [d
B]
Sound power levelLWA [dB]
Ød 315
Pre
ssur
e d
rop
Setting angle α [°]
v
q
[Pa] α [°]
Δ p t
500
100
200
300
50
20
30
80 100 200 300 500 1200
1 2 3 4 5 10 15
0
70 60 50 40
10
20
30
[l/s]
[m/s]
4030 35
80
45
50
55
60
65
70
L WA
[dB]
Sound power levelLWA [dB]
Ød 630
Pre
ssur
e d
rop
Setting angle α [°]
v
q
[Pa] α [°]
Δ p t
500
100
200
300
50
20
30
300 500 1000 2000 3000 4700
1 2 3 4 5 10 15
0
70 60 50 40
10
20
30
[l/s]
[m/s]
40
8580
45
50
55
60
65
7075
L WA [d
B]
Sound power levelLWA [dB]
Ød 400
Pre
ssur
e d
rop
Setting angle α [°]
v
q
[Pa] α [°]
Δ p t
500
100
200
300
50
20
30
130 1000200 300 500 1900
1 2 3 4 5 10 15
0
70 60 50 40
10
20
30
[l/s]
[m/s]
4035
80
45
50
55
60
6570
75
L WA [d
B]
Sound power levelLWA [dB]
Ød 200
Pre
ssur
e d
rop
Setting angle α [°]
v
q
[Pa] α [°]
Δ p t
500
100
200
300
50
20
30
30 100 20040 50 475300
1 2 3 4 5 10 15
0
70 60 50 40
10
20
30
[l/s]
[m/s]
40
35
75 80
45
50
55
60
65
70
L WA [d
B]
Sound power levelLWA [dB]
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Volume flow regulator VRU
Technical dataSound dataBelow sound effect levels for ducts (flow noise) with refer-ence to ISO 5135 as a function of volume flow and pressuredifference. The necessary minimum prepressure is 20 Pa forall sizes, equivalent to the pressure loss over VRU at nomi-nal volume flow and with fully open damper.
dimØd
Pressure drop[Pa]
Velocity app. 1 [m/s] Velocity app. 3 [m/s] Velocity app. 6 [m/s]Centre frequency [Hz] Centre frequency [Hz] Centre frequency [Hz]
63 125 250 500 1k 2k 4k 8k 63 125 250 500 1k 2k 4k 8k 63 125 250 500 1k 2k 4k 8k
100
Flow 8 [l/s] / 29 [m³/h] Flow 25 [l/s] / 90 [m³/h] Flow 50 [l/s] / 180 [m³/h]5002001005020
60 60 59 52 50 44 44 4453 51 53 43 42 35 32 3251 46 44 38 35 28 21 2048 42 38 33 26 19 16 1443 35 30 23 17 9 7 6
67 64 64 57 54 48 48 4859 58 58 50 48 40 37 3758 55 53 46 41 34 26 2455 53 48 42 35 26 22 1850 49 42 37 28 17 15 14
72 69 69 62 59 52 52 5266 65 64 57 54 45 42 4265 64 62 54 48 40 31 2964 63 60 53 44 33 28 2262 61 57 51 41 27 25 15
Flow 12 [l/s] / 43 [m³/h] Flow 40 [l/s] / 144 [m³/h] Flow 75 [l/s] / 270 [m³/h]
125
5002001005020
66 63 61 55 52 46 47 4459 53 49 44 38 34 33 3258 49 43 40 31 28 22 2257 42 41 31 29 20 17 1556 32 39 29 27 11 15 11
71 68 65 59 56 50 50 4765 62 57 51 46 41 38 3864 59 53 47 39 34 29 2763 54 50 41 36 27 25 2062 48 48 34 34 20 22 15
76 73 70 63 60 53 53 5072 71 65 59 53 47 43 4371 70 63 55 47 40 35 3270 68 60 51 43 34 32 2468 65 56 47 39 29 28 17
Flow 20 [l/s] / 72 [m³/h] Flow 60 [l/s] / 216 [m³/h] Flow 120 [l/s] / 432 [m³/h]
160
5002001005020
62 63 61 56 52 51 50 4952 52 51 44 43 38 37 3647 43 39 37 32 27 27 2542 36 33 28 25 20 17 1637 30 30 26 19 16 11 10
68 67 64 59 55 53 52 5161 58 56 50 48 42 40 4059 54 50 45 40 35 33 3154 50 46 37 33 29 25 2549 46 43 35 27 24 19 18
73 71 68 62 59 55 54 5371 65 62 56 53 47 44 4470 64 60 53 48 42 39 3869 63 58 48 42 37 32 3268 61 55 44 36 32 27 23
Flow 30 [l/s] / 108 [m³/h] Flow 100 [l/s] / 360 [m³/h] Flow 200 [l/s] / 720 [m³/h]
200
5002001005020
65 60 56 52 49 47 44 4255 52 51 43 40 37 38 3846 43 41 34 32 29 29 2940 38 33 30 28 27 23 2234 31 26 25 25 23 18 16
70 64 61 55 52 52 55 5562 57 55 47 44 42 42 4257 52 48 41 39 36 34 3451 45 41 36 32 32 28 2844 37 33 29 27 25 21 19
75 69 65 59 55 55 59 5971 65 61 53 50 48 47 4769 64 58 50 47 44 42 4263 56 51 44 39 39 34 3456 47 43 36 29 27 24 22
Flow 50 [l/s] / 180 [m³/h] Flow 150 [l/s] / 540 [m³/h] Flow 300 [l/s] / 1080 [m³/h]
250
5002001005020
67 65 57 50 47 52 51 5055 54 49 43 42 38 42 4252 48 40 37 34 33 31 2844 41 35 32 29 24 22 2033 35 29 29 25 15 12 10
69 66 59 53 50 54 53 5259 57 52 46 44 41 44 4456 52 45 41 38 36 34 3152 48 40 38 34 30 28 2447 44 37 35 31 25 22 17
71 67 61 56 53 56 55 5463 60 55 49 46 44 46 4662 57 51 46 43 40 38 3561 56 47 45 40 38 33 2859 54 46 42 38 36 30 24
Flow 80 [l/s] / 288 [m³/h] Flow 250 [l/s] / 900 [m³/h] Flow 500 [l/s] / 1800 [m³/h]
315
5002001005020
63 60 53 49 47 46 45 4450 44 42 38 38 33 37 3442 39 33 31 30 25 30 2334 34 30 26 22 21 19 1526 30 27 21 16 15 13 11
68 65 59 53 50 50 53 5060 55 50 45 43 40 43 4054 52 45 41 38 36 36 3149 49 43 38 34 32 30 2444 46 41 35 30 27 25 18
74 71 65 58 55 55 58 5570 65 58 52 49 48 49 4666 64 56 50 47 46 44 3964 63 55 49 45 42 40 3262 61 54 48 43 37 34 24
Flow 130 [l/s] / 468 [m³/h] Flow 400 [l/s] / 1440 [m³/h] Flow 800 [l/s] / 2880 [m³/h]
400
5002001005020
76 71 66 59 55 58 57 5661 58 50 44 43 44 45 4150 45 40 34 36 35 35 2942 37 31 29 28 27 25 2040 34 27 25 24 23 21 11
79 73 67 62 57 60 59 5867 62 56 50 48 48 48 4561 56 49 44 42 39 39 3457 52 44 39 37 35 34 2655 50 40 35 34 32 30 20
82 75 68 65 59 62 61 6074 68 62 56 53 52 52 4972 67 58 53 49 47 46 4071 66 56 50 47 44 44 3370 65 54 47 44 40 38 28
Flow 200 [l/s] / 720 [m³/h] Flow 600 [l/s] / 2160 [m³/h] Flow 1200 [l/s] / 4320 [m³/h]
500
5002001005020
82 76 69 63 62 61 60 5966 60 55 48 45 44 46 4355 50 47 38 38 36 34 3146 40 36 33 32 29 29 2541 33 29 27 26 19 18 20
84 77 70 64 63 62 61 6071 65 59 53 50 50 50 4763 58 53 47 46 44 42 3759 52 47 44 42 38 38 3156 47 42 40 38 32 30 26
85 78 71 65 64 63 62 6177 70 64 58 56 55 54 5172 66 60 55 53 51 49 4371 63 57 54 51 46 46 3770 60 54 52 49 44 40 32
Flow 300 [l/s] / 1080 [m³/h] Flow 900 [l/s] / 3240 [m³/h] Flow 1800 [l/s] / 6480 [m³/h]
630
5002001005020
86 77 71 67 64 61 61 6076 70 63 60 56 53 52 4865 61 52 49 45 43 41 3754 49 45 39 34 36 30 2645 35 38 30 29 29 26 20
88 80 73 69 66 64 63 6278 72 65 62 59 55 55 4971 66 59 54 50 46 45 4066 58 53 48 43 40 39 3061 50 47 43 38 36 33 25
90 83 75 71 68 67 65 6480 74 67 64 60 57 57 5078 71 66 59 56 49 48 4477 68 62 57 51 45 47 3676 65 57 55 46 42 39 30
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About Lindab
Comfort and Design
Product overview / symbols
Theory
Ceiling diffusers
Ceiling diffusers - visible
Plenum boxes
Wall diffusers
Nozzles
Ventiduct
Grilles
Displacement diffusers
Pascal and VAV
Constant- / variable flow dampers
Air valves
Fresh air valves/overflow units
Cleanroom diffusers
Contents
l indab | vav
VAV
© 10.2013 Lindab Ventilation A/S. All forms of copying without written permission are forbidden. is Lindab AB’s registered trademark.Lindab’s products, systems and product group and product designations are protected by intellectual property rights (IPR).
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VAV
VAV units
Functions PageProduct
PKV
LKV
535
547
PCV
LCV
541
553
LKPV
LCPV
559
565
PCSVLCSV
571
General information on VAV 525
REGULACOMBI
574
VRUFRU
575
VRAFRA
576
PR 578
DCT 579
DJP 583
FMI 586
VAV
Optimized usage
Ventilation makes up considerable part of energy costs in the daily usage of the building. At the same time authori-ties have several requirements concerning how much energy is to be spent on ventilation. In pretty much all types of systems, it consequently makes good sense to use some sort of VAV, making it possible to reduce the air volume depending on the need in each individual room. The reduction of air volume in connection with transport of the air, in addition to the energy needed to cool/heat the outer air, will reduce costs. Besides saving money on the energy, it also makes it possible to maintain a desired temperature in the indi-vidual room at varying loads. Through documented research and testing, it has turned out that there is a specific connection between the operative tempera-ture in the room and the people’s productivity. If the temperature in the room is not right, the productiv-ity will fall, which in many instances will mean an eco-nomical loss to the individual users of the construction.
With these parameters taken into consideration, there is no doubt that VAV, despite the more expensive one-off investment, will pay for itself in the long run.
Complete programme
Lindab’s series of VAV products include several types of supply air diffusers with motorized dampers, in order to reduce the air volume from 100% to 0 %. At the same time a constant air throw is ensured, in order to maintain the Coanda effect and avoid the risk of the air dropping in the occupied zone. Likewise, air flow regula-tors are available to regulate zones, in addition to motor-ized dampers for pressure regulation in the distribution ducts. Furthermore room regulator REGULA Combi and pressure regulator PR are available as well.
VRU / FRU
LKPV, IBM, Aarhus.
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General information on VAV
VAV is short for ”Variable Air Volume”. VAV is a demand-controlled ventilation, to be used when the loads in a building vary. In rooms with changing numbers of people, a more satisfactory air quality can be ensured by regulat-ing the air flow in relation to CO2 concentration, which is a good indicator of air quality. It is however often the heat load, such as people, computers and sun, that is dimen-sioning the ventilation need in a room. These heat loads will almost always vary throughout the day and the night. By maintaining a constant supply air temperature, lower than the room temperature and instead regulate the air flow in ratio to the desired room temperature, the de-mand-controlled ventilation will cancel out the heat load.
The variations in airflow are brought about by a duct-damp-er or by motorized supply air diffusers with a damper func-tion. VAV-units can be produced for both with displacement ven-tilation and mixed ventilation.
Description of regulation types
In VAV-units, it is a pre-requisite that the fans can be speed- controlled.Furthermore the VAV-unit must be divided into zones, typi-cally one zone for each distribution air duct. These zones can be identified from two different principles. The airflow regulation or pressure regulation.
Airflow regulation
With airflow regulation, it is the airflow / air volume in the distribution air duct which is measured and regulated. The airflow is set to be able to vary between a pre-programmed minimum and maximum airflow. An electronic signal from a sensor (temperature, CO2, movement) or BMS regulates the airflow within the set minimum and maximum airflow limits.
In airflow regulation, the right airflow will be achieved even when the pressure conditions in the air duct are changing, since the airflow regulator is independent of the pressure (and only requires a minimum pre-pressure).
This type of regulation is usually used for zone-regulation in connection with diffusers without dampers in mixed- or displacement systems. If mixed ventilation units without dampers are used, and the temperature difference is high.(∆T = -8 to 10 K) between supply air and room air, the at-tention should turn to the risk of cold-drops from the supply air diffusers.
Since the airflow should be measured, there is a minimum limit on the airflow regulator. The minimum airflow must not be set lower than the measurement limit for the velocity of approx. 0.7 m/s. Airflow regulation can be used in the distri-bution air duct both for supply air and exhaust, either with a parallel signal from a sensor or BMS or with a Master/Slave function. If for example an over- or under pressure in a room is desired, with respect to the surroundings, a Master/Slave function is advisable.
Pressure regulation Normally it is the distribution air duct on the supply air side which is regulated for pressure. A pressure regulation en-tails that a constant static pressure is maintained in the air duct. The static pressure is measured by a probe mounted inside the air duct. The probe is connected by a pipe to an electronic unit (pressure regulator) which registers the static pressure in the air duct with a membrane sensor unit.
For units with motorized supply air diffusers there should be a pressure regulation in the distribution air duct, since the diffusers are set and calibrated for a certain airflow vari-ation at a given pressure. Furthermore the pressure regula-tion ensures that the correct pressure loss over the diffusers is reached, and consequently unwanted diffuser noise is avoided at a minimum airflow.
If instead, un-motorized diffusers are used, and airflow vari-ations are made from motorized dampers in the air duct, a pressure regulation in the distribution air duct will ensure stable pressure conditions in the zone, and therefore good conditions for controlling these air duct dampers.
No matter the unit type however, the pressure loss in the zones distribution air duct has to be taken into considera-tion, in order to obtain a similar if not identical pressure at all branches to the connection ducts. As a general rule, the pressure loss in the distribution air duct from the first branch to the last branch should not exceed approx. 40 % of the static pressure.
In principle it is possible to obtain an airflow variation from 0-100% using air pressure regulation. The variation is sole-ly dependent on which dampers or VAV-units are being used.
Pressure regulation of a distribution air duct using the sup-ply air diffuser can be combined with an airflow regulation of the exhaust air. Using the Master/Slave principle and meas-uring the airflow /air volume, in the supply air, the signal for the measured airflow can be used as a signal to the airflow regulator on the exhaust air. That way it is definite that the same volume of air will be removed from a VAV-zone as the volume supplied.
A more simple, but less precise method to secure the same volume of air in and out of the VAV-zone, is to use a me-chanical slave-control of the exhaust-damper, which takes the same position as the supply air-damper. Regulation of the exhaust-damper happens by a simple electronic adjust-ment, when the turning angle has been determined.
VAV
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Choice of regulation type In smaller zones, with a clear pressure conditions (not too long supply air ducts) both in supply air and exhaust air, a VAV-system with a pressure regulation of the distribution air ducts is preferable. If motorized VAV-diffusers are required, a pressure regulation of the zone is necessary.
For units with widely varying pressure conditions, we in-stead recommend an airflow regulation of each zone.
In zones with longer distribution air ducts, eg. big office spaces, where not much variety happens in the thermal loads, airflow regulation will be preferable.
Airflow regulation
+ full control over airflow+ measuring of actual airflow+ signal to BMS about airflow+ no airflow variations at pressure variations in the air duct system- minimum airflow limited to 0,7 m/s- demands special equipment to change settings (compact model)
Pressure regulation
+ very low minimum airflow+ can be set without the help of tools+ levels pressure variations from the system in the VAV-zone+ ensures a low noise level for diffuser and dampers+ possibility of combination with CAV - no airflow control- small pressure loss in distribution air duct is important
Choice of diffuser
Mixed ventilation
1) Motorized supply air diffusers Advantages:Built-in damper function, and no extra dampers necessary. Constant air throw despite varying airflow, resulting in good mix even at minimum airflow. Also suitable for supply air at cooling temperature.
Limitations:Owing to sound generation in the diffuser, the duct pressure must be maintained at a constant (relatively low) level.
2) Non-motorized supply air diffusers
Advantages:Simple diffusers without moveable parts.Low sound level particularly at reduced air flow.
Existing systems can be changed to VAV without change of diffuser. No electrical installations needed for diffusers.More diffusers can be controlled by one motor damper.Shut-off is possible with duct damper or airflow regulator.
Limitations:Minimum airflow should not be chosen less than 50% for perforated or unperforated diffusers, and 40% for swirl dif-fusers, if cooling supply air is used at a temperature differ-ence of (∆T = -8 to -10 K) between supply air and room air.
Displacement ventilation
All displacement units are suitable for VAV-systems. The units should be dimensioned for the maximum airflow, where the biggest near-zones and the highest sound levels arise. When the airflow is reduced, so is the near-zone and the sound level. Consequently there is no lower limit to the size of minimum airflow, which is why an airflow variation from 0-100% is possible.
Possible consequences should be evaluated in each case.
VAV
Component qualities
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SUPPLY AIRAirflow control Pressure control
VRU VAV-unit Damper
Measurement of airflow - airflow signal to CTS yes no no
Linear functions yes no no
Reliability of airflow yes dependent on pressure variation
dependent on pressure variation
Limitation of airflowmax: yes (standard up to 7 m/s) pressure dependent pressure dependent
min: yes (standard of 0,7 m/s) approx. 20% of max. (standard) damper angle
Shut-off possible yes no yes
Constant airthrow (only mixed ven-tilation) no yes no
Balancing not necessary (diffusers are controlled)
by setting of static pressure or damper-position
by setting of static pressure or damper-position
EXHAUST AIRAirflow control Mechanical slave control
VRU Dampers
Requirements for supply air VRU/FRU motor for slave control
Measurement airflow (exhaust) - air flow signal to CTS yes no
Reliability of airflow yes highly pressure dependent, therefore inaccurate
Control of over pressure, under pressure or pressure balance in room
yes no
Balancing not necessary(diffuser controls) by setting of static pressure or damper-position
VAV
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System descriptions
DCT-SU(L/NM24A-SR-F)
°C °C
FRU(VRD3)
DCT-RU(L/NM24-A-V-F)
PKV(LH24A-MF)
VRU-2(L/NMV-D3-MP-F)
°C
VRU-2 (L/NMV-D3-MP-F)
VRU-2 (L/NMV-D3-MP-F)
PR(VRP-STP)
(VFP-300)
DCT-SU(L/NM24A-SR-F)
°C°C
DJP-RP(NM24A-MF)
PKV(LH24A-MF)
DJP-SP(NM24A-MF)
°C
DCT-SU(L/NM24A-SR-F)
DCT-SP(L/NM24A-MF-F)
PR(VRP-STP)
(VFP-300)
VRU-2(L/NMV-D3-MP-F)
VRU-2(L/NMV-D3-MP-F)
°C
Explanations of units
PR: Pressure regulation incl. pressure sensor DCT-RU: Regulator controlled motorized damper
FRU: Measuring device DCT-SU: Modulating motorized damper
VRU-2: Airflow regulator (compact model) DCT-SP: Modulating motorized damper, to be programmed
PKV-TM: Motorized VAV-unit DJP-RP: Regulator controlled motorized damper, to be programmed
ºC: Regula Combi DJP-SP: Modulating motorized damper, to be programmed
VAV
1 2 3
4 5 6
7
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System 1
The supply air in the zone is pressure regulated. For details, see section “Pres-sure regulation”, page 526, under “Description of regulation types”.The supply air to the rooms is carried through motorized VAV-units controlled by Regula Combi.Exhaust in the zone is regulated with an airflow regulator, connected by a Mas-ter/Slave connection to a measuring device in the supply air, which measures the airflow. That way the same airflow is ensured going in or out of the zone, or a percentage difference if desired.
System 2
The supply air in the zone is pressure regulated. For details, see section “Pres-sure regulation”, page 526 under “Description of regulation types”. The supply air to the rooms is carried through non-motorized diffusers. The air flow variation is obtained by Regula Combi controlling the damper in the dis-tribution ducts, so that more diffusers can be controlled by a single motorized damper. The exhaust air in the zone is regulated by an air flow regulator connected to a Master/Slave connection to a measuring device in the supply air duct, which measures the air flow. That way the same airflow is ensured going in or out of the zone, or a percentage difference if desired.
°C °C
FRU(VRD3)
DCT-RU(L/NM24A-V-F)
PKV(LH24A-MF)
PKV(LH24A-MF)
PR(VRP-STP)
(VFP-300)
VRU-2(L/NMV-D3-MP-F)
°C°C
FRU(VRD3)
DCT-RU(L/NM24A-V-F)
DCT-SU(L/NM24A-SR-F)
DCT-SU(L/NM24A-SR-F)
PR(VRP-STP)
(VFP-300)
VRU-2(L/NMV-D3-MP-F)
NM24-V 1 2 3 5
LM24A-SR 1 2 3 5
xx 1 2 3 5
LM24A-SR 1 2 3 5
xx 1 2 3 5
VRD2 1 2 3 4 5 6 7
24V
VRP-STP 1 2 3 4 5 6 7 VFP-300
NMV-D2M 1 2 3 5
°C
°C
PR
DCT-RU
FRU
VRU-2
DCT-SU
DCT-SU
L / NM24A-V-F1 2 3
LH24A-MF1 2 3 5
Regula Combi20 21
LH24A-MF1 2 3 5
Regula Combi
VRD31 2 3 4 5 6 7
24V
VRP-STP1 2 3 4 5 6 7 VFP-300
L / NMV-D3-MP-F1 2 3 5
°C
°C
DCT-RU
FRU
PR
VRU-2
PKV
PKV
20 21
24
24
Plug
L / NM24A-V-F1 2 3
L / NM24A-SR-F1 2 3 5
L / NM24A-SR-F1 2 3 5
VRD31 2 3 4 5 6 7
24V
VRP-STP1 2 3 4 5 6 7 VFP-300
L / NMV-D3-MP-F1 2 3 5
°C
PR
DCT-RU
FRU
VRU-2
DCT-SU
DCT-SU
Regula Combi20 21 24
°CRegula Combi20 21 24
Plug
VAV
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System 3
The supply air in the zone is pressure regulated. For details, see section “Pres-sure regulation”, page 526 under “Description of regulation types”.Supply air to the rooms is carried by non-motorized diffusers. In the right-hand room the air flow variation is obtained by the Regula Combi controlling the air-flow regulators in the distribution duct for both supply air and exhaust. In the left-hand room there is a constant air flow (CAV), which is possible due to the supply air duct being pressure regulated. Possible pressure changes caused by the air flow regulators in the right room will be regulated in the supply air duct.Exhaust air in the zone is regulated by an airflow regulator, connected to a Mas-ter/Slave connection to a measuring device in the supply air, measuring the airflow. That way the same airflow is ensured going in or out of the zone, or a percentage difference if desired.
L / NM24A-V-F1 2 3
L/NMV-D3-MP-F1 2 3 5
VRD31 2 3 4 5 6 7
24V
VRP-STP1 2 3 4 5 6 7 VFP-300
L / NMV-D3-MP-F1 2 3 5
°C
PR
DCT-RU
FRU
VRU-2
VRU-2
L/NMV-D3-MP-F1 2 3 5VRU-2
L/NMV-D3-MP-F1 2 3 5
L/NMV-D3-MP-F1 2 3 5
Master/Slave
Regula Combi20 21 24
Plug
°C
FRU(VRD3)
DCT-RU(L/NM24A-V-F)
VRU-2(L/NMV-D3-MP-F)
VRU-2(L/NMV-D3-MP-F)
PR(VRP-STP)
(VFP-300)
VRU-2(L/NMV-D3-MP-F)
CAV
System 4
The supply air in the zone is pressure regulated. For details, see section “Pres-sure regulation”, page 526 under “Description of regulation types”. The pressure regulation damper is supplied with a motor to be programmed, whose signal gives information about the damper position.The supply air to the rooms is carried through motorized VAV-units, controlled by Regula Combi.The exhaust in the zone is controlled by a damper by “mechanical slave control” which means that the exhaust damper takes the same position as the supply air damper. Regulation of the exhaust air flow happens by simple electronic control, when the turning angle has been set.
°C °C
DJP-RP(NM24A-MF)
PKV(LH24A-MF)
PKV(LH24A-MF)
PR(VRP-STP)
(VFP-300)
DJP-SP(NM24A-MF)
LH24A-MF1 2 3 5
LH24A-MF1 2 3 5
24V
VRP-STP1 2 3 4 5 6 7 VFP-300
NM24A-MF1 2 3 5
NM24A-MF1 2 3 5
PR
DJP-SP
PKV
PKV
DJP-RP Programmed as “V-motor”
°CRegula Combi20 21 24
°CRegula Combi20 21 24
VAV
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System 5
Supply air in the zone is pressure regulated. For details, see section “Pressure regulation”, page 526 under “Description of regulation types”. The pressure regulation damper is supplied with a motor to be programmed, and whose signal gives information about the damper position. Supply air to the rooms is carried through non-motorized diffusers. The airflow variation is obtained by the Regula Combi controlling the damper in the distri-bution ducts, so that more diffusers can be controlled by a single motorized damper. The exhaust in the zone is controlled by a “mechanical slave control”, which means that the exhaust damper takes the same position as the supply air damper. Regulation of the exhaust airflow happens by simple electronic control, when the turning angle has been set.
System 6
The supply air in the zone is pressure regulated. For details, see section “Pres-sure regulation”, page 526 under “Description of regulation types”. The pressure regulation damper is supplied with a motor to be programmed, whose signal gives information about the damper position. Supply air to the rooms is carried by non-motorized diffusers. The airflow varia-tion is obtained by the Regula Combi controlling the damper in the distribution ducts, so that more diffusers can be controlled by a single motorized damper. Parallel to this the Regula Combi controls dampers in the exhaust, to be regu-lated with a simple electronic control, when the turning angle has been set. The exhaust air in the zone is controlled by a damper by “mechanical slave con-trol”, which means the exhaust damper takes the same position as the supply air damper. Regulation of the exhaust airflow happens by a simple electronic control when the turning angle has been set.
°C °C
DJP-RP(NM24A-MF)
DCT-SU(L/NM24A-SR-F)
DCT-SU(L/NM24A-SR-F)
PR(VRP-STP)
(VFP-300)
DJP-SP(NM24A-MF)
°C°C
DCT-SU(L/NM24A-SR-F)
DCT-SP(L/NM24A-MF-F)
DCT-SU(L/NM24A-SR-F)
DCT-SP(L/NM24A-MF-F)
LM24A-SR 1 2 3 5
xx 1 2 3 5
LM24A-MF 1 2 3 5
xx 1 2 3 5
°C
°C
DCT-SU
LM24A-MF 1 2 3 5 DCT-SP
DCT-SP
LM24A-SR 1 2 3 5 DCT-SU
DJP-RP(NM24A-MF)
DJP-SP(NM24A-MF)
PR(VRP-STP)
(VFP-300)
24V
VRP-STP 1 2 3 4 5 6 7 VFP-300
NM24A-MF 1 2 3 5
NM24A-MF 1 2 3 5
PR
DJP-SP
DJP-RP Programmeret som “V-motor”
L / NM24A-SR-F1 2 3 5
24V
VRP-STP1 2 3 4 5 6 7 VFP-300
NM24A-MF1 2 3 5
NM24A-MF1 2 3 5
PR
DJP-SP
DJP-RP
DCT-SU
L / NM24A-SR-F1 2 3 5DCT-SU
Programmed as “V-motor”
°CRegula Combi20 21 24
°CRegula Combi20 21 24
L / NM24A-SR-F1 2 3 5
L / NM24A-MF-F1 2 3 5
DCT-SU
L / NM24A-MF-F1 2 3 5DCT-SP
DCT-SP
L / NM24A-SR-F1 2 3 5DCT-SU
24V
VRP-STP1 2 3 4 5 6 7 VFP-300
NM24A-MF1 2 3 5
NM24A-MF1 2 3 5
PR
DJP-SP
DJP-RP Programmed as “V-motor”
°CRegula Combi20 21 24
°CRegula Combi20 21 24
VAV
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System 7
Both supply air and exhaust air in the zone are airflow regulated. For details see section “Airflow regulation”, page 526 under “Description of regulation types”. Diffusers for supply air and exhaust air are normal diffusers. The temperature in the zone is maintained by the signal from Regula Combi which is used as a parallel signal to the airflow regulators in supply and exhaust air.Using this connection, the same airflow can be ensured in and out of the zone or with a constant difference between supply and exhaust air. If instead a percent-age difference is wanted, a Master/Slave connection must be used.
L / NMV-D3-MP-F1 2 3 5VRU-2
L / NMV-D3-MP-F1 2 3 5VRU-2
24V
VRU-2
L / NMV-D3-MP-F1 2 3 5
L / NMV-D3-MP-F1 2 3 5
VRU-2
Parallel
Master/Slave
Slave
Master
24V
°CRegula Combi20 21 24
°CRegula Combi20 21 24
°C
VRU-2(L/NMV-D3-MP-F)
VRU-2(L/NMV-D3-MP-F)
xx 1 2 3 5
AC/DC24V
NMV-D2M 1 2 3 5
°C
VRU-2
NMV-D2M 1 2 3 5 VRU-2
- +
xx 1 2 3 5
AC/DC24V
NMV-D2M 1 2 3 5
°C
VRU-2
NMV-D2M 1 2 3 5 VRU-2
- +
Parallel
Master/Slave
Slave
Master
VAV
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VAV diffuser PKV
DescriptionPKV is a square PKA type diffuser with integrated motor forsupply air of variable air volume (VAV). The integratedmotorized damper ensures a constant throw so the Coandaeffect always is maintained. The damper setting can be con-trolled by a room regulator, BMS or other 2-10 V control sig-nal.
• Can vary the volume flow between 0-100 %• Min. flow preset from factory *)• Max. flow to be set in MBB box based on k-value• Settings can be changed with ZTH-GEN or Belimo
PC-tool• VAV zone pressure must be controlled • The diffuser must be installed together with a MBB-S
type plenum box• For exhaust PKA can be used
*) Min. setting and k-value are made from a pre-defined,available constant pressure in the air duct immediatelybefore the diffuser. The diffuser is typically used at a con-stant pressure of 30-50 Pa.
Dimensions
* U x U = Ceiling grid opening
MaintenanceThe face plate and damper insert can be removed to enablecleaning of internal parts or to gain access to the duct orbox. The visible parts of the diffuser can be wiped with adamp cloth.
Order codeProduct PKV aaa bb cc ddTypePKV
Dimension Ø160-315
Flow settingsMin. airflow
Max. airflow
Pressure
Example: PKV-200- 15 l/s - 60 l/s - 40 Pa
When ordering, MBB plenum type must be specified.
PKV Ød A U * Weight ( kg )
mm mm mm (with Motor)160 295 260 3,3
200 395 360 4,3
250 495 460 5,7
315 595 560 7,2
A x A
U x U
Ød
3822 50
Materials and finishDiffuser: Galvanised steelDiffuser finish: Powder-coated Standard colour: RAL 9010, gloss 30Motor: Manufact. Belimo type LH24A-MF
Other colours are available. Please contact Lindab’s salesdepartment for further information.
536 We reserve the right to make changes without prior notice
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VAV diffuser PKV
Accessories
Order code MBZ
When PKV is used with small MBB plenums:
For the following MBB sizes, the MBZ extension piecemust be used to ensure full movement of motor-rack.
Size: MBB-100-160-SMBB-125-160-SMBB-125-200-S
For other PKV accessories, see the section on Formo ceilingdiffusers, PKA accessories.
MBB - Plenum box
PKV+MBB-S
* Using accessory MBZ the H dimension will increase:Ød2 = 160 - 200 mm => H + 40 mmØd2 = 250 - 315 mm => H + 60 mm
Product MBZ aaaTypeMBZ
Dimension Ø160-315
Example: MBZ-200
MBZ - Extension piece
PKV + MBB
duct PKV B C E F H* L
Ød1 mm Ød2 mm mm mm mm mm mm mm100 160 260 159 216 50 180-220 310
125 160 310 184 262 50 205-245 376
125 200 310 184 262 50 205-245 376
160 160 380 220 323 50 239-279 459
160 200 380 220 323 50 239-279 459
160 250 380 220 323 50 239-279 459
200 200 460 259 396 70 280-320 565
200 250 460 259 396 70 280-320 565
200 315 460 259 396 70 280-320 565
250 250 540 309 486 70 330-370 698
250 315 540 309 486 70 330-370 698
315 315 540 373 646 70 395-435 858
L x B
E
Ød
1
10
10
H
Ød2
C
F
Order codeProduct MBB aaa bbb STypeMBB
Duct connection Ød1
Ø100-315
Diffuser dimension Ød2
Ø160-315
FunctionS = Supply air
Example: MBB-160-200-S
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VAV diffuser PKV
Technical data
Diagrams on this page apply to PKV supply. For exhaust airand supplementary technical exhaust data, see the sectionon Formo ceiling diffusers.
CapacityMax. volume flow qv [l/s], [m3/h], total pressure drop Δpt[Pa], throw l02 [m] and sound effect level LWA [dB(A)] can beseen in the diagrams.
Quick selection, supply airQuick selection 30 dB(A)
Quick selection 35 dB(A)
Sound attenuationSound attenuation of the diffuser ΔL from duct to room,including end reflection, see table below.
ThrowThe throw is specified at a terminal velocity of 0.2 m/s.
PKV + MBB 30 dB(A)
30 Pa 35 Pa 40 Pa
duct PKV qv qv qv
Ød1 Ød2 l/s m3/h l/s m3/h l/s m3/h100 160 28 100 28 100 29 104
125 160 37 133 37 133 37 133
125 200 45 162 48 172 49 176
160 160 42 151 42 151 42 151
160 200 64 230 62 223 62 223
160 250 73 262 73 262 73 262
200 200 67 241 66 237 65 234
200 250 85 306 84 302 83 298
200 315 99 356 100 360 99 356
250 250 91 327 91 327 91 327
250 315 112 403 112 403 112 403
315 315 115 414 112 403 110 396
PKV + MBB 35 dB(A)
30 Pa 35 Pa 40 Pa
duct PKV qv qv qv
Ød1 Ød2 l/s m3/h l/s m3/h l/s m3/h100 160 28 100 30 108 32 115
125 160 39 140 42 151 43 154
125 200 45 162 49 176 52 187
160 160 48 172 49 176 49 176
160 200 64 230 70 252 75 270
160 250 73 262 79 284 84 302
200 200 75 270 78 280 78 280
200 250 95 342 97 349 98 352
200 315 108 388 115 414 116 417
250 250 104 374 104 374 105 378
250 315 126 453 128 460 129 464
315 315 139 500 137 493 135 486
PKV + MBB
duct PKV Centre frequency Hz
Ød1 Ød2 63 125 250 500 1K 2K 4K 8K100 160 12 13 8 19 13 16 17 19
125 160 12 13 8 19 13 16 17 19
125 200 16 11 5 16 13 15 15 17
160 160 17 17 11 19 18 17 20 20
160 200 14 14 7 21 15 16 18 19
160 250 15 15 5 17 13 15 16 18
200 200 15 10 6 16 17 15 19 18
200 250 12 9 5 14 17 15 17 17
200 315 12 7 4 11 15 14 16 15
250 250 14 8 8 14 16 17 17 18
250 315 12 6 6 15 15 15 16 17
315 315 7 9 8 14 17 16 17 21
5
678
10l0.2 [m] PKV 160
200250315
2
3
4
5
20 30 40 50 60 70 80 100 150 200 300qV [l/s]
1
80 100 150 200 300 500 700 1000qV [m3/h]
l0.2 [m]
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VAV diffuser PKV
Technical dataSetting range for max. volume flow.
PKV-160 + MBB - Supply air PKV-200 + MBB - Supply air
Hz 63 125 250 500 1K 2K 4K 8K
Kok 7 9 -1 -5 -4 -11 -23 -32
Hz 63 125 250 500 1K 2K 4K 8K
Kok 10 5 -1 -4 -3 -11 -22 -30
Hz 63 125 250 500 1K 2K 4K 8K
Kok 6 4 0 -5 -4 -8 -20 -25
25 30 40 50 60 80qV [l/s]
10
15
20
30
50
70
100pt [Pa]
100 150 200 300qV [m3/h]
PKV-160+MBB-160-160-S
LWA dB(A)20
25
30
35
40
45
50
20 25 30 40 50 60 80qV [l/s]
10
15
20
30
50
70
100pt [Pa]
80 100 150 200qV [m3/h]
PKV-160+MBB-125-160-S
LWA dB(A)
20
25
30
35
40
45
50
15 20 25 30 40 50qV [l/s]
10
15
20
30
50
70
100pt [Pa]
60 70 80 100 150qV [m3/h]
PKV-160+MBB-100-160-S
LWA dB(A)
20
25
30
35
40
45
Hz 63 125 250 500 1K 2K 4K 8K
Kok 12 9 0 -4 -4 -12 -22 -32
Hz 63 125 250 500 1K 2K 4K 8K
Kok 10 8 0 -5 -4 -11 -20 -26
Hz 63 125 250 500 1K 2K 4K 8K
Kok 11 7 0 -4 -4 -11 -17 -23
40 50 60 80 100qV [l/s]
10
15
20
30
50
70
100pt [Pa]
150 200 300 400 500qV [m3/h]
PKV-200+MBB-200-200-S
LWA dB(A)20
25
30
35
40
45
50
40 50 60 70 80 90 100 110 120qV [l/s]
10
15
20
30
40
50
70
100pt [Pa]
150 200 300 400qV [m3/h]
PKV-200+MBB-160-200-S
LWA dB(A)
20
25
30
35
40
45
50
25 30 40 50 60 70 80 90qV [l/s]
10
15
20
30
40
50
70
100pt [Pa]
100 150 200 300qV [m3/h]
PKV-200+MBB-125-200-S
LWA dB(A)
20
25
30
35
40
45
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VAV diffuser PKV
Technical dataSetting range for max. volume flow.
PKV-250 + MBB - Supply air PKV-315 + MBB - Supply air
Hz 63 125 250 500 1K 2K 4K 8K
Kok 10 6 -2 -3 -4 -11 -23 -31
Hz 63 125 250 500 1K 2K 4K 8K
Kok 11 8 -2 -3 -4 -11 -22 -29
Hz 63 125 250 500 1K 2K 4K 8K
Kok 9 7 -1 -4 -4 -11 -18 -22
60 70 80 90 100 120 140 160qV [l/s]
10
15
20
30
40
50
70
100pt [Pa]
300 400 500qV [m3/h]
PKV-250+MBB-250-250-S
LWA dB(A)20
25
30
35
40
45
50
50 60 70 80 90 100 120 140 160 180qV [l/s]
10
15
20
30
50
70
100pt [Pa]
200 300 400 500qV [m3/h]
PKV-250+MBB-200-250-S
LWA dB(A)20
25
30
35
40
45
50
40 50 60 70 80 90 100 120 140qV [l/s]
10
15
20
30
50
70
100pt [Pa]
150 200 300 400 500qV [m3/h]
PKV-250+MBB-160-250-S
LWA dB(A)
20
25
30
35
40
45
Hz 63 125 250 500 1K 2K 4K 8K
Kok 10 4 -2 -2 -4 -11 -23 -32
Hz 63 125 250 500 1K 2K 4K 8K
Kok 13 7 -2 -2 -4 -12 -22 -30
Hz 63 125 250 500 1K 2K 4K 8K
Kok 12 9 -2 -4 -5 -10 -18 -26
70 80 90 100 120 140 160 180 200 220qV [l/s]
10
15
20
30
40
50
70
100pt [Pa]
300 400 500 700qV [m3/h]
PKV-315+MBB-315-315-S
LWA dB(A)20
25
30
35
40
45
50
70 80 90 100 120 140 160 180 200 220qV [l/s]
10
15
20
30
40
50
70
100pt [Pa]
300 400 500 700qV [m3/h]
PKV-315+MBB-250-315-S
LWA dB(A)20
25
30
35
40
45
50
50 60 70 80 90 100 120 140 160 180 200qV [l/s]
10
15
20
30
40
50
70
100pt [Pa]
200 300 400 500 700qV [m3/h]
PKV-315+MBB-200-315-S
LWA dB(A)20
25
30
35
40
45
50
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VAV diffuser PCV
DescriptionPCV is a circular PCA type diffuser with integrated motor forsupply air of variable air volume (VAV). The integratedmotorized damper ensures a constant throw so the Coandaeffect always is maintained. The damper setting can be con-trolled by a room regulator, BMS or other 2-10 V control sig-nal.
• Can vary the volume flow between 0-100 %• Min. flow preset from factory *)• Max. flow to be set in MBB box based on k-value• Settings can be changed with ZTH-GEN or Belimo
PC-tool• VAV zone pressure must be controlled • The diffuser must be installed together with a MBB-S
type plenum box• For exhaust PCA can be used
*) Min. setting and k-value are made from a pre-defined,available constant pressure in the air duct immediatelybefore the diffuser. The diffuser is typically used at a con-stant pressure of 30-50 Pa.
Dimensions
* ØU = Ceiling grid opening.
MaintenanceThe face plate and damper insert can be removed to enablecleaning of internal parts or to gain access to the duct orbox. The visible parts of the diffuser can be wiped with adamp cloth.
Order codeProduct PCV aaa bb cc ddTypePCV
Dimension Ø160-315
Flow settingsMin. airflow
Max. airflow
Pressure
Example: PCV-200 - 15 l/s - 60 l/s - 40 Pa
When ordering, MBB plenum type must be specified.
PCV Ød ØA ØU * Weight ( kg )
mm mm mm (with Motor)160 300 260 3.0
200 360 320 3.8
250 460 420 4.9
315 540 500 6.1
ØA
ØU
Ød
3822 50
Materials and finishDiffuser: Galvanised steelDiffuser finish: Powder-coated Standard colour: RAL 9010, gloss 30Motor: Manufact. Belimo type LH24A-MF
Other colours are available. Please contact Lindab’s salesdepartment for further information.
542 We reserve the right to make changes without prior notice
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VAV diffuser PCV
Accessories
Order code MBZ
When PCV is used with small MBB plenums:
For the following MBB sizes, the MBZ extension piecemust be used to ensure full movement of motor-rack.
Size: MBB-100-160-SMBB-125-160-SMBB-125-200-S
For other PCV accessories, see the section on Formo ceilingdiffusers, PCA accessories.
MBB - Plenum box
PCV+MBB-S
* Using accessory MBZ, the H-dimension will increase:Ød2 = 160 - 200 mm => H + 40 mmØd2 = 250 - 315 mm => H + 60 mm
Product MBZ aaaTypeMBZ
Dimension Ø160-315
Example: MBZ-200
MBZ - Extension piece
PCV + MBB
duct PCV B C E F H* L
Ød1 mm Ød2 mm mm mm mm mm mm mm100 160 260 159 216 50 180-220 310
125 160 310 184 262 50 205-245 376
125 200 310 184 262 50 205-245 376
160 160 380 220 323 50 239-279 459
160 200 380 220 323 50 239-279 459
160 250 380 220 323 50 239-279 459
200 200 460 259 396 70 280-320 565
200 250 460 259 396 70 280-320 565
200 315 460 259 396 70 280-320 565
250 250 540 309 486 70 330-370 698
250 315 540 309 486 70 330-370 698
315 315 540 373 646 70 395-435 858
L x B
E
Ød
1
10
H
Ød2
C
10
F
Order codeProduct MBB aaa bbb STypeMBB
Duct connection Ød1
Ø100-315
Diffuser dimension Ød2
Ø160-315
FunctionS = Supply air
Example: MBB-160-200-S
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VAV diffuser PCV
Technical data
Diagrams on this page apply to PCV supply. For exhaust airand supplementary technical exhaust data, see the sectionon Formo ceiling diffusers.
CapacityMax. volume flow qv [l/s], [m3/h], total pressure drop Δpt[Pa], throw l02 [m] and sound effect level LWA [dB(A)] can beseen in the diagrams.
Quick selection, supply airQuick selection 30 dB(A)
Quick selection 35 dB(A)
Sound attenuationSound attenuation of the diffuser ΔL from duct to room,including end reflection, see table below.
ThrowThe throw is specified at a terminal velocity of 0.2 m/s.
PCV + MBB 30 dB(A)
30 Pa 35 Pa 40 Pa
duct PCV qv qv qv
Ød1 Ød2 l/s m3/h l/s m3/h l/s m3/h100 160 28 100 28 100 29 104
125 160 37 133 37 133 37 133
125 200 45 162 48 172 49 176
160 160 42 151 42 151 42 151
160 200 64 230 62 223 62 223
160 250 73 262 73 262 73 262
200 200 67 241 66 237 65 234
200 250 85 306 84 302 83 298
200 315 99 356 100 360 99 356
250 250 91 327 91 327 91 327
250 315 112 403 112 403 112 403
315 315 115 414 112 403 110 396
PCV + MBB 35 dB(A)
30 Pa 35 Pa 40 Pa
duct PCV qv qv qv
Ød1 Ød2 l/s m3/h l/s m3/h l/s m3/h100 160 28 100 30 108 32 115
125 160 39 140 42 151 43 154
125 200 45 162 49 176 52 187
160 160 48 172 49 176 49 176
160 200 64 230 70 252 75 270
160 250 73 262 79 284 84 302
200 200 75 270 78 280 78 280
200 250 95 342 97 349 98 352
200 315 108 388 115 414 116 417
250 250 104 374 104 374 105 378
250 315 126 453 128 460 129 464
315 315 139 500 137 493 135 486
PCV + MBB
duct PCV Centre frequency Hz
Ød1 Ød2 63 125 250 500 1K 2K 4K 8K100 160 21 16 5 15 17 18 16 19
125 160 12 13 8 19 13 16 17 19
125 200 16 11 5 16 13 15 15 17
160 160 17 17 11 19 18 17 20 20
160 200 14 14 7 21 15 16 18 19
160 250 15 15 5 17 13 15 16 18
200 200 15 10 6 16 17 15 19 18
200 250 12 9 5 14 17 15 17 17
200 315 12 7 4 11 15 14 16 15
250 250 14 8 8 14 16 17 17 18
250 315 12 6 6 15 15 15 16 17
315 315 7 9 8 14 17 16 17 21
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10l0.2 [m] PCV 160
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4
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1
80 100 150 200 300 500 700 1000qV [m3/h]
l0.2 [m]
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VAV diffuser PCV
Technical dataSetting range for max. volume flow.
PCV-160 + MBB - Supply air PCV-200 + MBB - Supply air
Hz 63 125 250 500 1K 2K 4K 8K
Kok 7 9 -1 -5 -4 -11 -23 -32
Hz 63 125 250 500 1K 2K 4K 8K
Kok 10 5 -1 -4 -3 -11 -22 -30
Hz 63 125 250 500 1K 2K 4K 8K
Kok 6 4 0 -5 -4 -8 -20 -25
25 30 40 50 60 80qV [l/s]
10
15
20
30
50
70
100pt [Pa]
100 150 200 300qV [m3/h]
PCV-160+MBB-160-160-S
LWA dB(A)20
25
30
35
40
45
50
20 25 30 40 50 60 80qV [l/s]
10
15
20
30
50
70
100pt [Pa]
80 100 150 200qV [m3/h]
PCV-160+MBB-125-160-S
LWA dB(A)
20
25
30
35
40
45
50
15 20 25 30 40 50qV [l/s]
10
15
20
30
50
70
100pt [Pa]
60 70 80 100 150qV [m3/h]
PCV-160+MBB-100-160-S
LWA dB(A)
20
25
30
35
40
45
Hz 63 125 250 500 1K 2K 4K 8K
Kok 12 9 0 -4 -4 -12 -22 -32
Hz 63 125 250 500 1K 2K 4K 8K
Kok 10 8 0 -5 -4 -11 -20 -26
Hz 63 125 250 500 1K 2K 4K 8K
Kok 11 7 0 -4 -4 -11 -17 -23
40 50 60 80 100qV [l/s]
10
15
20
30
50
70
100pt [Pa]
150 200 300 400 500qV [m3/h]
PCV-200+MBB-200-200-S
LWA dB(A)20
25
30
35
40
45
50
40 50 60 70 80 90 100 110 120qV [l/s]
10
15
20
30
40
50
70
100pt [Pa]
150 200 300 400qV [m3/h]
PCV-200+MBB-160-200-S
LWA dB(A)
20
25
30
35
40
45
50
25 30 40 50 60 70 80 90qV [l/s]
10
15
20
30
40
50
70
100pt [Pa]
100 150 200 300qV [m3/h]
PCV-200+MBB-125-200-S
LWA dB(A)
20
25
30
35
40
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VAV diffuser PCV
Technical dataSetting range for max. volume flow.
PCV-250 + MBB - Supply air PCV-315 + MBB - Supply air
Hz 63 125 250 500 1K 2K 4K 8K
Kok 10 6 -2 -3 -4 -11 -23 -31
Hz 63 125 250 500 1K 2K 4K 8K
Kok 11 8 -2 -3 -4 -11 -22 -29
Hz 63 125 250 500 1K 2K 4K 8K
Kok 9 7 -1 -4 -4 -11 -18 -22
60 70 80 90 100 120 140 160qV [l/s]
10
15
20
30
40
50
70
100pt [Pa]
300 400 500qV [m3/h]
PCV-250+MBB-250-250-S
LWA dB(A)20
25
30
35
40
45
50
50 60 70 80 90 100 120 140 160 180qV [l/s]
10
15
20
30
50
70
100pt [Pa]
200 300 400 500qV [m3/h]
PCV-250+MBB-200-250-S
LWA dB(A)20
25
30
35
40
45
50
40 50 60 70 80 90 100 120 140qV [l/s]
10
15
20
30
50
70
100pt [Pa]
150 200 300 400 500qV [m3/h]
PCV-250+MBB-160-250-S
LWA dB(A)
20
25
30
35
40
45
Hz 63 125 250 500 1K 2K 4K 8K
Kok 10 4 -2 -2 -4 -11 -23 -32
Hz 63 125 250 500 1K 2K 4K 8K
Kok 13 7 -2 -2 -4 -12 -22 -30
Hz 63 125 250 500 1K 2K 4K 8K
Kok 12 9 -2 -4 -5 -10 -18 -26
70 80 90 100 120 140 160 180 200 220qV [l/s]
10
15
20
30
40
50
70
100pt [Pa]
300 400 500 700qV [m3/h]
PCV-315+MBB-315-315-S
LWA dB(A)20
25
30
35
40
45
50
70 80 90 100 120 140 160 180 200 220qV [l/s]
10
15
20
30
40
50
70
100pt [Pa]
300 400 500 700qV [m3/h]
PCV-315+MBB-250-315-S
LWA dB(A)20
25
30
35
40
45
50
50 60 70 80 90 100 120 140 160 180 200qV [l/s]
10
15
20
30
40
50
70
100pt [Pa]
200 300 400 500 700qV [m3/h]
PCV-315+MBB-200-315-S
LWA dB(A)20
25
30
35
40
45
50
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VAV diffuser LKV
DescriptionLKV is a square LKA type diffuser with integrated motor forsupply air of variable air volume (VAV). The integratedmotorized damper ensures a constant throw so the Coandaeffect always is maintained. The damper setting can be con-trolled by a room regulator, BMS or other 2-10 V control sig-nal.
• Can vary the volume flow between 0-100 %• Min. flow preset from factory *)• Max. flow to be set in MBB box based on k-value• Settings can be changed with ZTH-GEN or Belimo
PC-tool• VAV zone pressure must be controlled • The diffuser must be installed together with a MBB-S
type plenum box• For exhaust LKA can be used
*) Min. setting and k-value are made from a pre-defined,available constant pressure in the air duct immediatelybefore the diffuser. The diffuser is typically used at a con-stant pressure of 30-50 Pa.
Dimensions
* U x U = Ceiling grid opening.
MaintenanceThe face plate and damper insert can be removed to enablecleaning of internal parts or to gain access to the duct orbox. The visible parts of the diffuser can be wiped with adamp cloth.
Order codeProduct LKV aaa bb cc ddTypeLKV
Dimension Ø160-315
Flow settingsMin. airflow
Max. airflow
Pressure
Example: LKV-200 -15 l/s - 60 l/s - 40 Pa
When ordering, MBB plenum type must be specified.
LKV Ød A U * Weight ( kg )
mm mm mm (with Motor)160 295 260 3,3
200 395 360 4,3
250 495 460 5,7
315 595 560 7,2
A x A
U x U
Ød
3822 50
Materials and finishDiffuser: Galvanised steelDiffuser finish: Powder-coated Standard colour: RAL 9010, gloss 30Motor: Manufact. Belimo type LH24A-MF
Other colours are available. Please contact Lindab’s salesdepartment for further information.
548 We reserve the right to make changes without prior notice
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VAV diffuser LKV
Accessories
Order code MBZ
When LKV is used with small MBB plenums:
For the following MBB sizes, the MBZ extension piecemust be used to ensure full movement of motor-rack.
Size: MBB-100-160-SMBB-125-160-SMBB-125-200-S
For other LKV accessories, see the section on Formo ceilingdiffusers, LKA accessories.
MBB - Plenum box
LKV+MBB-S
* Using accessory MBZ, the H-dimension will increase:Ød2 = 160 - 200 mm => H + 40 mmØd2 = 250 - 315 mm => H + 60 mm
Product MBZ aaaTypeMBZ
Dimension Ø160-315
Example: MBZ-200
MBZ - Extension piece
LKV + MBB
duct LKV B C E F H* L
Ød1 mm Ød2 mm mm mm mm mm mm mm100 160 260 159 216 50 180-220 310
125 160 310 184 262 50 205-245 376
125 200 310 184 262 50 205-245 376
160 160 380 220 323 50 239-279 459
160 200 380 220 323 50 239-279 459
160 250 380 220 323 50 239-279 459
200 200 460 259 396 70 280-320 565
200 250 460 259 396 70 280-320 565
200 315 460 259 396 70 280-320 565
250 250 540 309 486 70 330-370 698
250 315 540 309 486 70 330-370 698
315 315 540 373 646 70 395-435 858
L x B
E
Ød
1
10
10
H
Ød2
C
F
Order codeProduct MBB aaa bbb STypeMBB
Duct connection Ød1
Ø100-315
Diffuser dimension Ød2
Ø160-315
FunctionS = Supply air
Example: MBB-160-200-S
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VAV diffuser LKV
Technical data
Diagrams on this page apply to LKV supply. For exhaust airand supplementary technical exhaust data, see the sectionon Formo ceiling diffusers.
CapacityMax. volume flow qv [l/s], [m3/h], total pressure drop Δpt[Pa], throw l02 [m] and sound effect level LWA [dB(A)] can beseen in the diagrams.
Quick selection, supply airQuick selection 30 dB(A)
Quick selection 35 dB(A)
Sound attenuationSound attenuation of the diffuser ΔL from duct to room,including end reflection, see table below.
ThrowThe throw is specified at a terminal velocity of 0.2 m/s.
LKV + MBB 30 dB(A)
30 Pa 35 Pa 40 Pa
duct LKV qv qv qv
Ød1 Ød2 l/s m3/h l/s m3/h l/s m3/h100 160 27 97 29 104 30 108
125 160 37 133 39 140 40 144
125 200 46 165 49 176 51 183
160 160 42 151 42 151 42 151
160 200 63 226 62 223 61 219
160 250 74 266 77 277 77 277
200 200 65 234 65 234 65 234
200 250 84 302 84 302 84 302
200 315 104 374 101 363 102 367
250 250 90 324 90 324 90 324
250 315 110 396 111 399 112 403
315 315 115 414 115 414 114 410
LKV + MBB 35 dB(A)
30 Pa 35 Pa 40 Pa
duct LKV qv qv qv
Ød1 Ød2 l/s m3/h l/s m3/h l/s m3/h100 160 27 97 29 104 31 111
125 160 37 133 40 144 43 154
125 200 46 165 49 176 53 190
160 160 49 176 50 180 50 180
160 200 63 226 68 244 73 262
160 250 74 266 80 288 85 306
200 200 74 266 76 273 77 277
200 250 93 334 101 363 100 360
200 315 106 381 115 414 121 435
250 250 105 378 106 381 106 381
250 315 122 439 127 457 129 464
315 315 135 486 135 486 136 489
LKV + MBB
duct LKV Centre frequency Hz
Ød1 Ød2 63 125 250 500 1K 2K 4K 8K100 160 21 17 5 12 19 20 18 21
125 160 13 13 9 18 18 18 18 20
125 200 14 12 7 15 16 18 17 19
160 160 18 17 11 16 21 19 20 21
160 200 15 14 9 20 21 20 20 20
160 250 16 16 7 17 13 18 19 20
200 200 14 11 8 15 21 18 20 18
200 250 13 10 8 16 20 17 19 17
200 315 15 9 6 14 17 17 18 17
250 250 16 9 9 17 20 19 19 19
250 315 15 8 9 16 18 16 18 18
315 315 8 10 10 16 20 19 18 23
5
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10l0.2 [m] LKV 160
200250315
2
3
4
5
20 30 40 50 60 70 80 100 150 200 300qV [l/s]
1
80 100 150 200 300 500 700 1000qV [m3/h]
l0.2 [m]
550 We reserve the right to make changes without prior notice
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VAV diffuser LKV
Technical dataSetting range for max. volume flow.
LKV-160 + MBB - Supply air LKV-200 + MBB - Supply air
Hz 63 125 250 500 1K 2K 4K 8K
Kok 12 9 -1 -2 -5 -14 -22 -32
Hz 63 125 250 500 1K 2K 4K 8K
Kok 10 6 -1 -1 -5 -12 -21 -29
Hz 63 125 250 500 1K 2K 4K 8K
Kok 6 6 0 -1 -6 -10 -19 -26
25 30 40 50 60 80 100qV [l/s]
10
15
20
30
50
70
100pt [Pa]
100 150 200 300qV [m3/h]
LKV-160+MBB-160-160-S
LWA dB(A)20
25
30
35
40
45
50
20 25 30 40 50 60 80qV [l/s]
10
15
20
30
50
70
100pt [Pa]
80 100 150 200qV [m3/h]
LKV-160+MBB-125-160-S
LWA dB(A)
20
25
30
35
40
45
15 20 25 30 40 50qV [l/s]
10
15
20
30
50
70
100pt [Pa]
60 70 80 100 150qV [m3/h]
LKV-160+MBB-100-160-S
LWA dB(A)
20
25
30
35
40
Hz 63 125 250 500 1K 2K 4K 8K
Kok 10 8 -1 -1 -5 -15 -24 -32
Hz 63 125 250 500 1K 2K 4K 8K
Kok 11 9 -1 -2 -5 -15 -20 -26
Hz 63 125 250 500 1K 2K 4K 8K
Kok 9 8 0 -2 -5 -13 -16 -22
40 50 60 70 80 90 100 110 120qV [l/s]
10
15
20
30
40
50
70
100pt [Pa]
150 200 300 400qV [m3/h]
LKV-200+MBB-200-200-S
LWA dB(A)20
25
30
35
40
45
50
30 40 50 60 80 100qV [l/s]
10
15
20
30
50
70
100pt [Pa]
150 200 300 400qV [m3/h]
LKV-200+MBB-160-200-S
LWA dB(A)20
25
30
35
40
45
50
25 30 40 50 60 80 100qV [l/s]
10
15
20
30
50
70
100pt [Pa]
100 150 200 300qV [m3/h]
LKV-200+MBB-125-200-S
LWA dB(A)
20
25
30
35
40
45
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VAV diffuser LKV
Technical dataSetting range for max. volume flow.
LKV-250 + MBB - Supply air LKV-315 + MBB - Supply air
Hz 63 125 250 500 1K 2K 4K 8K
Kok 12 6 -3 -2 -4 -17 -24 -30
Hz 63 125 250 500 1K 2K 4K 8K
Kok 11 7 -2 -2 -4 -16 -21 -27
Hz 63 125 250 500 1K 2K 4K 8K
Kok 10 8 -1 -3 -4 -13 -17 -20
50 60 70 80 90 100 120 140 160 180qV [l/s]
10
15
20
30
50
70
100pt [Pa]
200 300 400 500 700qV [m3/h]
LKV-250+MBB-250-250-S
LWA dB(A)20
25
30
35
40
45
50
50 60 70 80 90 100 120 140 160qV [l/s]
10
15
20
30
40
50
70
100pt [Pa]
200 300 400 500qV [m3/h]
LKV-250+MBB-200-250-S
LWA dB(A)20
25
30
35
40
45
50
40 50 60 70 80 90 100 120 140qV [l/s]
10
15
20
30
40
50
70
100pt [Pa]
150 200 300 400 500qV [m3/h]
LKV-250+MBB-160-250-S
LWA dB(A)
20
25
30
35
40
45
Hz 63 125 250 500 1K 2K 4K 8K
Kok 12 4 -2 0 -5 -18 -25 -33
Hz 63 125 250 500 1K 2K 4K 8K
Kok 12 6 -3 -1 -5 -18 -23 -27
Hz 63 125 250 500 1K 2K 4K 8K
Kok 12 8 -2 -2 -5 -14 -20 -25
70 80 90 100 120 140 160 180 200 220qV [l/s]
10
15
20
30
40
50
70
100pt [Pa]
300 400 500 700qV [m3/h]
LKV-315+MBB-315-315-S
LWA dB(A)20
25
30
35
40
45
50
70 80 90 100 120 140 160 180 200 220qV [l/s]
10
15
20
30
40
50
70
100pt [Pa]
300 400 500 700qV [m3/h]
LKV-315+MBB-250-315-S
LWA dB(A)20
25
30
35
40
45
50
60 70 80 90 100 120 140 160 180 200qV [l/s]
10
15
20
30
40
50
70
100pt [Pa]
300 400 500 700qV [m3/h]
LKV-315+MBB-200-315-S
LWA dB(A)
20
25
30
35
40
45
50
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VAV diffuser LCV
DescriptionLCV is a circular LCA type diffuser with integrated motor forsupply air of variable air volume (VAV). The integratedmotorized damper ensures a constant throw so the Coandaeffect always is maintained. The damper setting can be con-trolled by a room regulator, BMS or other 2-10 V control sig-nal.
• Can vary the volume flow between 0-100 %• Min. flow preset from factory *)• Max. flow to be set in MBB box based on k-value• Settings can be changed with ZTH-GEN or Belimo
PC-tool• VAV zone pressure must be controlled • The diffuser must be installed together with a MBB-S
type plenum box• For exhaust LCA can be used
*) Min. setting and k-value are made from a pre-defined,available constant pressure in the air duct immediatelybefore the diffuser. The diffuser is typically used at a con-stant pressure of 30-50 Pa.
Dimensions
* ØU = Ceiling grid opening.
MaintenanceThe face plate and damper insert can be removed to enablecleaning of internal parts or to gain access to the duct orbox. The visible parts of the diffuser can be wiped with adamp cloth
Order codeProduct LCV aaa bb cc ddTypeLCV
Dimension Ø160-315
Flow settingsMin. airflow
Max. airflow
Pressure
Example: LCV-200- 15 l/s - 60 l/s - 40 Pa
When ordering, MBB plenum type must be specified.
LCV Ød ØA ØU * Weight ( kg )
mm mm mm (with Motor)160 300 260 1.50
200 360 320 2.30
250 460 420 3.40
315 540 500 4.60
ØA
ØU
Ød
3822 50
Materials and finishDiffuser: Galvanised steelDiffuser finish: Powder-coated Standard colour: RAL 9010, gloss 30Motor: Manufact. Belimo type LH24A-MF
Other colours are available. Please contact Lindab’s salesdepartment for further information.
554 We reserve the right to make changes without prior notice
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VAV diffuser LCV
Accessories
Order code MBZ
When LCV is used with small MBB plenums:
For the following MBB sizes, the MBZ extension piecemust be used to ensure full movement of motor-rack.
Size: MBB-100-160-SMBB-125-160-SMBB-125-200-S
For other LCV accessories, see the section on Formo ceilingdiffusers, LCA accessories.
MBB - Plenum box
LCV+MBB-S
* Using accessory MBZ, the H-dimension will increase:Ød2 = 160 - 200 mm => H + 40 mmØd2 = 250 - 315 mm => H + 60 mm
Product MBZ aaaTypeMBZ
Dimension Ø160-315
Example: MBZ-200
MBZ - Extension piece
LCV + MBB
duct LCV B C E F H* L
Ød1 mm Ød2 mm mm mm mm mm mm mm100 160 260 159 216 50 180-220 310
125 160 310 184 262 50 205-245 376
125 200 310 184 262 50 205-245 376
160 160 380 220 323 50 239-279 459
160 200 380 220 323 50 239-279 459
160 250 380 220 323 50 239-279 459
200 200 460 259 396 70 280-320 565
200 250 460 259 396 70 280-320 565
200 315 460 259 396 70 280-320 565
250 250 540 309 486 70 330-370 698
250 315 540 309 486 70 330-370 698
315 315 540 373 646 70 395-435 858
L x B
E
Ød
1
10
H
Ød2
C
10
F
Order codeProduct MBB aaa bbb STypeMBB
Duct connection Ød1
Ø100-315
Diffuser dimension Ød2
Ø160-315
FunctionS = Supply air
Example: MBB-160-200-S
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VAV diffuser LCV
Technical data
Diagrams on this page apply to LCV supply. For exhaust airand supplementary technical exhaust data, see the sectionon Formo ceiling diffusers.
CapacityMax. volume flow qv [l/s], [m3/h], total pressure drop Δpt[Pa], throw l02 [m] and sound effect level LWA [dB(A)] can beseen in the diagrams.
Quick selection, supply air
Quick selection 30 dB(A)
Quick selection 35 dB(A)
Sound attenuationSound attenuation of the diffuser ΔL from duct to room,including end reflection, see table below.
ThrowThe throw is specified at a terminal velocity of 0.2 m/s.
LCV + MBB 30 dB(A)
30 Pa 35 Pa 40 Pa
duct LCV qv qv qv
Ød1 Ød2 l/s m3/h l/s m3/h l/s m3/h100 160 27 97 29 104 30 108
125 160 37 133 39 140 40 144
125 200 46 165 49 176 51 183
160 160 42 151 42 151 42 151
160 200 63 226 62 223 61 219
160 250 74 302 77 277 77 277
200 200 65 234 65 234 65 234
200 250 84 302 84 302 84 302
200 315 106 381 101 363 102 367
250 250 90 324 90 324 90 324
250 315 110 396 111 399 112 403
315 315 115 414 115 414 114 410
LCV + MBB 35 dB(A)
30 Pa 35 Pa 40 Pa
duct LCV qv qv qv
Ød1 Ød2 l/s m3/h l/s m3/h l/s m3/h100 160 27 97 29 104 31 111
125 160 37 133 40 144 43 154
125 200 46 165 49 176 53 190
160 160 49 176 50 180 50 180
160 200 63 226 68 244 73 262
160 250 74 266 80 288 85 306
200 200 74 266 76 273 77 277
200 250 93 334 101 363 100 360
200 315 106 381 115 414 121 435
250 250 105 378 106 381 106 381
250 315 122 439 127 457 129 464
315 315 135 486 135 486 136 489
LCV + MBB
duct LCV Centre frequency Hz
Ød1 Ød2 63 125 250 500 1K 2K 4K 8K100 160 21 17 5 12 19 20 18 21
125 160 13 13 9 18 18 18 18 20
125 200 14 12 7 15 16 18 17 19
160 160 18 17 11 16 21 19 20 21
160 200 15 14 9 20 21 20 20 20
160 250 16 16 7 17 13 18 19 20
200 200 14 11 8 15 21 18 20 18
200 250 13 10 8 16 20 17 19 17
200 315 15 9 6 14 17 17 18 17
250 250 16 9 9 17 20 19 19 19
250 315 15 8 9 16 18 16 18 18
315 315 8 10 10 16 20 19 18 23
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20 30 40 50 60 70 80 100 150 200 300qV [l/s]
1
80 100 150 200 300 500 700 1000qV [m3/h]
l0.2 [m]
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VAV diffuser LCV
Technical dataSetting range for max. volume flow.
LCV-160 + MBB - Supply air LCV-200 + MBB - Supply air
Hz 63 125 250 500 1K 2K 4K 8K
Kok 12 9 -1 -2 -5 -14 -22 -32
Hz 63 125 250 500 1K 2K 4K 8K
Kok 10 6 -1 -1 -5 -12 -21 -29
Hz 63 125 250 500 1K 2K 4K 8K
Kok 6 6 0 -1 -6 -10 -19 -26
25 30 40 50 60 80 100qV [l/s]
10
15
20
30
50
70
100pt [Pa]
100 150 200 300qV [m3/h]
LCV-160+MBB-160-160-S
LWA dB(A)20
25
30
35
40
45
50
20 25 30 40 50 60 80qV [l/s]
10
15
20
30
50
70
100pt [Pa]
80 100 150 200qV [m3/h]
LCV-160+MBB-125-160-S
LWA dB(A)
20
25
30
35
40
45
15 20 25 30 40 50qV [l/s]
10
15
20
30
50
70
100pt [Pa]
60 70 80 100 150qV [m3/h]
LCV-160+MBB-100-160-S
LWA dB(A)
20
25
30
35
40
Hz 63 125 250 500 1K 2K 4K 8K
Kok 10 8 -1 -1 -5 -15 -24 -32
Hz 63 125 250 500 1K 2K 4K 8K
Kok 11 9 -1 -2 -5 -15 -20 -26
Hz 63 125 250 500 1K 2K 4K 8K
Kok 9 8 0 -2 -5 -13 -16 -22
40 50 60 70 80 90 100 110 120qV [l/s]
10
15
20
30
40
50
70
100pt [Pa]
150 200 300 400qV [m3/h]
LCV-200+MBB-200-200-S
LWA dB(A)20
25
30
35
40
45
50
30 40 50 60 80 100qV [l/s]
10
15
20
30
50
70
100pt [Pa]
150 200 300 400qV [m3/h]
LCV-200+MBB-160-200-S
LWA dB(A)20
25
30
35
40
45
50
25 30 40 50 60 80 100qV [l/s]
10
15
20
30
50
70
100pt [Pa]
100 150 200 300qV [m3/h]
LCV-200+MBB-125-200-S
LWA dB(A)
20
25
30
35
40
45
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VAV diffuser LCV
Technical dataSetting range for max. volume flow.
LCV-250 + MBB - Supply air LCV-315 + MBB - Supply air
Hz 63 125 250 500 1K 2K 4K 8K
Kok 12 6 -3 -2 -4 -17 -24 -30
Hz 63 125 250 500 1K 2K 4K 8K
Kok 11 7 -2 -2 -4 -16 -21 -27
Hz 63 125 250 500 1K 2K 4K 8K
Kok 10 8 -1 -3 -4 -13 -17 -20
50 60 70 80 90 100 120 140 160 180qV [l/s]
10
15
20
30
50
70
100pt [Pa]
200 300 400 500 700qV [m3/h]
LCV-250+MBB-250-250-S
LWA dB(A)20
25
30
35
40
45
50
50 60 70 80 90 100 120 140 160qV [l/s]
10
15
20
30
40
50
70
100pt [Pa]
200 300 400 500qV [m3/h]
LCV-250+MBB-200-250-S
LWA dB(A)20
25
30
35
40
45
50
40 50 60 70 80 90 100 120 140qV [l/s]
10
15
20
30
40
50
70
100pt [Pa]
150 200 300 400 500qV [m3/h]
LCV-250+MBB-160-250-S
LWA dB(A)
20
25
30
35
40
45
Hz 63 125 250 500 1K 2K 4K 8K
Kok 12 4 -2 0 -5 -18 -25 -33
Hz 63 125 250 500 1K 2K 4K 8K
Kok 12 6 -3 -1 -5 -18 -23 -27
Hz 63 125 250 500 1K 2K 4K 8K
Kok 12 8 -2 -2 -5 -14 -20 -25
70 80 90 100 120 140 160 180 200 220qV [l/s]
10
15
20
30
40
50
70
100pt [Pa]
300 400 500 700qV [m3/h]
LCV-315+MBB-315-315-S
LWA dB(A)20
25
30
35
40
45
50
70 80 90 100 120 140 160 180 200 220qV [l/s]
10
15
20
30
40
50
70
100pt [Pa]
300 400 500 700qV [m3/h]
LCV-315+MBB-250-315-S
LWA dB(A)20
25
30
35
40
45
50
60 70 80 90 100 120 140 160 180 200qV [l/s]
10
15
20
30
40
50
70
100pt [Pa]
300 400 500 700qV [m3/h]
LCV-315+MBB-200-315-S
LWA dB(A)
20
25
30
35
40
45
50
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VAV diffuser LKPV
DescriptionLKPV is an unperforated flush-mounted LKP type diffuserwith integrated motor for supply air of variable air volume(VAV). The integrated motorized damper ensures a constantthrow so the Coanda effect always is maintained. Thedamper setting can be controlled by a room regulator, BMSor other 2-10 V control signal.
• Can vary the volume flow between 0-100 %• Min. flow preset from factory *)• Max. flow to be set in MBB box based on k-value• Settings can be changed with ZTH-GEN or Belimo
PC-tool• VAV zone pressure must be controlled• The diffuser must be installed together with a MBB-S
type plenum box• For exhaust LKP can be used
*) Min. settings and k-value are made from a pre-defined,available constant pressure in the air duct immediatelybefore the diffuser. The diffuser is typically used at a con-stant pressure of 30-50 Pa.
Dimensions
* Ceiling system 1, other ceiling systems, see Integra chap-ter page 122 - 123. No moduleplate, upper part adapted to ceiling systems.
MaintenanceThe face plate and damper insert can be removed to enablecleaning of internal parts or to gain access to the duct orbox. The visible parts of the diffuser can be wiped with adamp cloth.
Order codeProduct LKPV aaa bbb cc dd eeTypeLKPV
Dimension Ø160-315
Flow settingsMin. airflow
Max. airflow
Pressure
Ceiling system
1 - 14
Example: LKPV-200- 15 l/s - 60 l/s - 40 Pa -1
When ordering, MBB plenum type must be specified.
LKPV Ød A * Weight ( kg )
mm mm (with Motor)160 595 6,8
200 595 6,8
250 595 6,8
315 595 6,8
A x A
Ød
39
50
Materials and finishDiffuser: Galvanised steelDiffuser finish: Powder-coated Standard colour: RAL 9010, gloss 30Motor: Manufact. Belimo type LH24A-MF
Other colours are available. Please contact Lindab’s salesdepartment for further information.
560 We reserve the right to make changes without prior notice
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VAV diffuser LKPV
Accessories
Order code MBZ
When LKPV is used with small MBB plenums:
For the following MBB sizes, the MBZ extension piecemust be used to ensure full movement of motor-rack.
Size: MBB-100-160-SMBB-125-160-SMBB-125-200-S
MBB - Plenum box
LKPV+MBB-S
* Using accessory MBZ the H dimension will increase:Ød2 = 160 - 200 mm => H + 40 mmØd2 = 250 - 315 mm => H + 60 mm
Product MBZ aaaTypeMBZ
Dimension Ø160-315
Example: MBZ-200
MBZ - Extension piece
LKPV + MBB
duct LKPV B C E F H* L
Ød1 mm Ød2 mm mm mm mm mm mm mm100 160 260 159 216 50 198-238 310
125 160 310 184 262 50 223-263 376
125 200 310 184 262 50 223-263 376
160 160 380 220 323 50 257-297 459
160 200 380 220 323 50 257-297 459
160 250 380 220 323 50 257-297 459
200 200 460 259 396 70 298-338 565
200 250 460 259 396 70 298-338 565
200 315 460 259 396 70 298-338 565
250 250 540 309 486 70 348-388 698
250 315 540 309 486 70 348-388 698
315 315 540 373 646 70 413-453 858
L x B
E
Ød
1
10
10
HC
F
Ød2
Order codeProduct MBB aaa bbb STypeMBB
Duct connection Ød1
Ø100-315
Diffuser dimension Ød2
Ø160-315
FunctionS = Supply air
Example: MBB-160-200-S
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VAV diffuser LKPV
Technical data
Diagrams on this page apply to LKPV supply. For exhaustair and supplementary technical exhaust data, see the sec-tion on Integra ceiling diffusers.
CapacityMax. volume flow qv [l/s], [m3/h], total pressure drop Δpt[Pa], throw l02 [m] and sound effect level LWA [dB(A)] can beseen in the diagrams.
Quick selection, supply airQuick selection 30 dB(A)
Quick selection 35 dB(A)
Sound attenuationSound attenuation of the diffuser ΔL from duct to room,including end reflection, see table below.
ThrowThe throw is specified at a terminal velocity of 0.2 m/s.
LKPV + MBB 30 dB(A)
30 Pa 35 Pa 40 Pa
duct LKPV qv qv qv
Ød1 Ød2 l/s m3/h l/s m3/h l/s m3/h100 160 26 93 28 100 29 104
125 160 31 111 31 111 31 111
125 200 40 144 41 147 41 147
160 160 31 111 31 111 31 111
160 200 46 165 45 162 45 162
160 250 56 201 53 190 52 187
200 200 46 165 45 162 45 162
200 250 63 226 63 226 63 226
200 315 74 266 74 266 74 266
250 250 64 230 63 226 62 223
250 315 77 277 75 270 73 262
315 315 80 288 80 288 79 284
LKPV + MBB 35 dB(A)
30 Pa 35 Pa 40 Pa
duct LKPV qv qv qv
Ød1 Ød2 l/s m3/h l/s m3/h l/s m3/h100 160 26 93 28 100 30 108
125 160 32 115 35 126 36 129
125 200 40 144 43 154 46 165
160 160 37 133 37 133 37 133
160 200 50 180 54 194 54 194
160 250 58 208 63 226 68 244
200 200 54 194 54 194 54 194
200 250 67 241 72 259 75 270
200 315 81 291 88 316 88 316
250 250 71 255 76 273 76 273
250 315 87 313 93 334 91 327
315 315 91 327 94 338 94 338
LKPV + MBB
duct LKPV Centre frequency Hz
Ød1 Ød2 63 125 250 500 1K 2K 4K 8K100 160 18 13 9 20 16 24 22 24
125 160 18 13 9 20 16 24 22 24
125 200 20 15 8 18 14 19 20 23
160 160 18 13 9 20 16 24 22 24
160 200 18 13 9 16 20 17 20 22
160 250 18 13 7 15 20 15 18 21
200 200 19 15 11 18 18 17 20 21
200 250 18 14 9 17 15 15 19 21
200 315 16 12 6 16 14 14 18 19
250 250 15 11 8 17 15 19 22 22
250 315 10 7 7 15 8 14 17 21
315 315 10 7 7 15 8 14 17 21
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10l0.2 [m] LKPV 160
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3
4
5
20 30 40 50 60 70 80 100 150 200 300qV [l/s]
1
80 100 150 200 300 500 700 1000qV [m3/h]
l0.2 [m]
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VAV diffuser LKPV
Technical dataSetting range for max. volume flow.
LKPV-160 + MBB - Supply air LKPV-200 + MBB - Supply air
Hz 63 125 250 500 1K 2K 4K 8K
Kok 10 8 0 -5 -4 -11 -26 -34
Hz 63 125 250 500 1K 2K 4K 8K
Kok 8 5 -1 -5 -3 -11 -23 -29
Hz 63 125 250 500 1K 2K 4K 8K
Kok 9 4 -2 -2 -5 -9 -19 -26
25 30 40 50 60 80 100qV [l/s]
10
15
20
30
50
70
100pt [Pa]
100 150 200 300qV [m3/h]
LKV-160+MBB-160-160-S
LWA dB(A)20
25
30
35
40
45
50
20 25 30 40 50 60 80qV [l/s]
10
15
20
30
50
70
100pt [Pa]
80 100 150 200qV [m3/h]
LKV-160+MBB-125-160-S
LWA dB(A)
20
25
30
35
40
45
15 20 25 30 40 50qV [l/s]
10
15
20
30
50
70
100pt [Pa]
60 70 80 100 150qV [m3/h]
LKV-160+MBB-100-160-S
LWA dB(A)
20
25
30
35
40
Hz 63 125 250 500 1K 2K 4K 8K
Kok 9 5 -2 -4 -2 -16 -24 -29
Hz 63 125 250 500 1K 2K 4K 8K
Kok 7 8 -1 -4 -3 -16 -24 -28
Hz 63 125 250 500 1K 2K 4K 8K
Kok 9 5 -2 -5 -2 -15 -20 -26
30 40 50 60 70 80 90 100qV [l/s]
10
15
20
30
40
50
70
100pt [Pa]
150 200 300qV [m3/h]
LKPV-200+MBB-200-200-S
LWA dB(A)20
25
30
35
40
45
50
25 30 40 50 60 70 80 90 100qV [l/s]
10
15
20
30
40
50
70
100pt [Pa]
100 150 200 300qV [m3/h]
LKPV-200+MBB-160-200-S
LWA dB(A)20
25
30
35
40
45
50
20 25 30 40 50 60 80qV [l/s]
10
15
20
30
50
70
100pt [Pa]
80 100 150 200qV [m3/h]
LKPV-200+MBB-125-200-S
LWA dB(A)
20
25
30
35
40
45
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VAV diffuser LKPV
Technical dataSetting range for max. volume flow.
LKPV-250 + MBB - Supply air LKPV-315 + MBB - Supply air
Hz 63 125 250 500 1K 2K 4K 8K
Kok 12 7 -1 -2 -4 -18 -33 -47
Hz 63 125 250 500 1K 2K 4K 8K
Kok 7 8 -1 -4 -3 -15 -24 -31
Hz 63 125 250 500 1K 2K 4K 8K
Kok 9 6 -3 -5 -2 -15 -23 -29
40 50 60 70 80 90 100 120 140qV [l/s]
10
15
20
30
40
50
70
100pt [Pa]
150 200 300 400 500qV [m3/h]
LKPV-250+MBB-250-250-S
LWA dB(A)20
25
30
35
40
45
50
40 50 60 70 80 90 100 120qV [l/s]
10
15
20
30
40
50
70
100pt [Pa]
150 200 300 400qV [m3/h]
LKPV-250+MBB-200-250-S
LWA dB(A)
20
25
30
35
40
45
30 40 50 60 70 80 90 100 110 120qV [l/s]
10
15
20
30
40
50
70
100pt [Pa]
150 200 300 400qV [m3/h]
LKPV-250+MBB-160-250-S
LWA dB(A)
20
25
30
35
40
45
Hz 63 125 250 500 1K 2K 4K 8K
Kok 11 8 1 -3 -4 -14 -25 -34
Hz 63 125 250 500 1K 2K 4K 8K
Kok 11 8 1 -3 -5 -14 -25 -31
Hz 63 125 250 500 1K 2K 4K 8K
Kok 10 8 1 -4 -4 -13 -23 -32
50 60 70 80 90 100 120 140 160 180qV [l/s]
10
15
20
30
50
70
100pt [Pa]
200 300 400 500qV [m3/h]
LKPV-315+MBB-315-315-S
LWA dB(A)20
25
30
35
40
45
50
40 50 60 70 80 90 100 120 140 160qV [l/s]
10
15
20
30
40
50
70
100pt [Pa]
150 200 300 400 500qV [m3/h]
LKPV-315+MBB-250-315-S
LWA dB(A)20
25
30
35
40
45
50
40 50 60 70 80 90 100 120 140qV [l/s]
10
15
20
30
40
50
70
100pt [Pa]
150 200 300 400 500qV [m3/h]
LKPV-315+MBB-200-315-S
LWA dB(A)20
25
30
35
40
45
50
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VAV diffuser LCPV
DescriptionLCPV is an unperforated flush-mounted LCP type diffuserwith integrated motor for supply air of variable air volume(VAV). The integrated motorized damper ensures a constantthrow so the Coanda effect always is maintained. Thedamper setting can be controlled by a room regulator, BMSor other 2-10 V control signal.
• Can vary the volume flow between 0-100 %• Min. flow preset from factory *)• Max. flow to be set in MBB box based on k-value• Settings can be changed with ZTH-GEN or Belimo
PC-tool• VAV zone pressure must be controlled• The diffuser must be installed together with a MBB-S
type plenum box• For exhaust LCP can be used
*) Min. settings and k-value are made from a pre-defined,available constant pressure in the air duct immediatelybefore the diffuser. The diffuser is typically used at a con-stant pressure of 30-50 Pa.
Dimensions
* Ceiling system 1, other ceiling systems, see Integra chap-ter page 122 - 123. No moduleplate, upper part adapted to ceiling systems.
MaintenanceThe face plate and damper insert can be removed to enablecleaning of internal parts or to gain access to the duct orbox. The visible parts of the diffuser can be wiped with adamp cloth.
Order codeProduct LCPV aaa bbb cc dd eeTypeLCPV
Dimension Ø160-315
Flow settingsMin. airflow
Max. airflow
Pressure
Ceiling system
1 - 14
Example: LCPV-200- 15 l/s - 60 l/s - 40 Pa -1
When ordering, MBB plenum type must be specified.
LCPV Ød A * Weight ( kg )
mm mm (with Motor)160 595 6,8
200 595 6,8
250 595 6,8
315 595 6,8
A x A
Ød
47
50
Materials and finishUpper part: Galvanised steelFace plate: AluminiumFace plate finish: Powder-coated Standard colour: RAL 9010, gloss 30Motor: Manufact. Belimo type LH24A-MF
Other colours are available. Please contact Lindab’s salesdepartment for further information.
566 We reserve the right to make changes without prior notice
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VAV diffuser LCPV
Accessories
Order code MBZ
When LCPV is used with small MBB plenums:
For the following MBB sizes, the MBZ extension piecemust be used to ensure full movement of motor-rack.
Size: MBB-100-160-SMBB-125-160-SMBB-125-200-S
MBB - Plenum box
LCPV+MBB-S
* Using accessory MBZ the H dimension will increase:Ød2 = 160 - 200 mm => H + 40 mmØd2 = 250 - 315 mm => H + 60 mm
Product MBZ aaaTypeMBZ
Dimension Ø160-315
Example: MBZ-200
MBZ - Extension piece
LCPV + MBB
duct LCPV B C E F H* L
Ød1 mm Ød2 mm mm mm mm mm mm mm100 160 260 159 216 50 206-246 310
125 160 310 184 262 50 231-271 376
125 200 310 184 262 50 231-271 376
160 160 380 220 323 50 265-305 459
160 200 380 220 323 50 265-305 459
160 250 380 220 323 50 265-305 459
200 200 460 259 396 70 306-346 565
200 250 460 259 396 70 306-346 565
200 315 460 259 396 70 306-346 565
250 250 540 309 486 70 356-396 698
250 315 540 309 486 70 356-396 698
315 315 540 373 646 70 421-461 858
L x B
E
Ød
1
10
10
HC
F
Ød2
Order codeProduct MBB aaa bbb STypeMBB
Duct connection Ød1
Ø100-315
Diffuser dimension Ød2
Ø160-315
FunctionS = Supply air
Example: MBB-160-200-S
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VAV diffuser LCPV
Technical data
Diagrams on this page apply to LCPV supply. For exhaustair and supplementary technical exhaust data, see the sec-tion on Integra ceiling diffusers.
CapacityMax. volume flow qv [l/s], [m3/h], total pressure drop Δpt[Pa], throw l02 [m] and sound effect level LWA [dB(A)] can beseen in the diagrams.
Quick selection, supply airQuick selection 30 dB(A)
Quick selection 35 dB(A)
Sound attenuationSound attenuation of the diffuser ΔL from duct to room,including end reflection, see table below.
ThrowThe throw is specified at a terminal velocity of 0.2 m/s.
LCPV + MBB 35 dB(A)
30 Pa 35 Pa 40 Pa
duct LCPV qv qv qv
Ød1 Ød2 l/s m3/h l/s m3/h l/s m3/h100 160 26 93 28 100 29 104
125 160 36 129 36 129 36 129
125 200 42 151 44 158 45 162
160 160 39 140 39 140 39 140
160 200 53 190 55 198 54 194
160 250 64 230 69 248 69 248
200 200 53 190 53 190 52 187
200 250 75 270 74 266 74 266
200 315 91 327 91 327 90 324
250 250 79 284 80 288 80 288
250 315 99 356 97 349 96 345
315 315 105 378 106 381 106 381
LCPV + MBB 35 dB(A)
30 Pa 35 Pa 40 Pa
duct LCPV qv qv qv
Ød1 Ød2 l/s m3/h l/s m3/h l/s m3/h100 160 26 93 28 100 30 108
125 160 36 129 39 140 41 147
125 200 42 151 46 165 49 176
160 160 42 151 46 165 46 165
160 200 53 190 57 205 61 219
160 250 64 230 69 248 74 266
200 200 64 230 64 230 64 230
200 250 78 280 84 302 89 320
200 315 91 327 98 352 105 378
250 250 84 302 91 327 93 334
250 315 99 356 107 385 115 414
315 315 109 392 118 424 124 446
LCPV + MBB
duct LCPV Centre frequency Hz
Ød1 Ød2 63 125 250 500 1K 2K 4K 8K100 160 17 16 6 10 18 18 18 21
125 160 15 14 10 17 16 17 18 21
125 200 13 12 7 13 13 16 17 18
160 160 17 15 12 21 19 19 21 21
160 200 17 16 10 20 17 17 19 20
160 250 16 14 7 17 15 16 19 20
200 200 13 11 10 17 18 15 19 18
200 250 14 11 8 15 19 15 18 17
200 315 14 9 7 13 18 14 17 17
250 250 15 10 9 17 18 18 19 19
250 315 15 8 9 16 18 16 18 18
315 315 8 10 10 17 18 17 18 24
5
678
10l0.2 [m] LCPV 160
200250315
2
3
4
5
20 30 40 50 60 70 80 100 150 200 300qV [l/s]
1
80 100 150 200 300 500 700 1000qV [m3/h]
l0.2 [m]
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VAV diffuser LCPV
Technical dataSetting range for max. volume flow.
LCPV-160 + MBB - Supply air LCPV-200 + MBB - Supply air
Hz 63 125 250 500 1K 2K 4K 8K
Kok 11 10 1 -4 -5 -13 -22 -28
Hz 63 125 250 500 1K 2K 4K 8K
Kok 7 6 0 -3 -4 -12 -23 -30
Hz 63 125 250 500 1K 2K 4K 8K
Kok 7 5 -1 -1 -5 -11 -20 -26
25 30 40 50 60 80qV [l/s]
10
15
20
30
50
70
100pt [Pa]
100 150 200qV [m3/h]
LCPV-160+MBB-160-160-S
LWA dB(A)20
25
30
35
40
45
50
20 25 30 40 50 60 80qV [l/s]
10
15
20
30
50
70
100pt [Pa]
80 100 150 200qV [m3/h]
LCPV-160+MBB-125-160-S
LWA dB(A)
20
25
30
35
40
45
15 20 25 30 40 50 60qV [l/s]
10
15
20
30
50
70
100pt [Pa]
60 70 80 100 150 200qV [m3/h]
LCPV-160+MBB-100-160-S
LWA dB(A)
20
25
30
35
40
Hz 63 125 250 500 1K 2K 4K 8K
Kok 8 6 -2 -4 -2 -16 -26 -31
Hz 63 125 250 500 1K 2K 4K 8K
Kok 13 10 0 -4 -5 -14 -22 -29
Hz 63 125 250 500 1K 2K 4K 8K
Kok 9 6 -2 -4 -3 -13 -18 -24
40 50 60 80 100qV [l/s]
10
15
20
30
50
70
100pt [Pa]
150 200 300 400qV [m3/h]
LCPV-200+MBB-200-200-S
LWA dB(A)20
25
30
35
40
45
50
25 30 40 50 60 80 100qV [l/s]
10
15
20
30
50
70
100pt [Pa]
100 150 200 300qV [m3/h]
LCPV-200+MBB-160-200-S
LWA dB(A)
20
25
30
35
40
45
25 30 40 50 60 80qV [l/s]
10
15
20
30
50
70
100pt [Pa]
100 150 200qV [m3/h]
LCPV-200+MBB-125-200-S
LWA dB(A)
20
25
30
35
40
45
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VAV diffuser LCPV
Technical dataSetting range for max. volume flow.
LCPV-250 + MBB - Supply air LCPV-315 + MBB - Supply air
Hz 63 125 250 500 1K 2K 4K 8K
Kok 11 7 0 -3 -4 -15 -26 -31
Hz 63 125 250 500 1K 2K 4K 8K
Kok 11 10 1 -3 -5 -16 -25 -32
Hz 63 125 250 500 1K 2K 4K 8K
Kok 10 9 0 -4 -4 -13 -18 -22
45 50 60 70 80 90 100 120 140 160qV [l/s]
10
15
20
30
40
50
70
100pt [Pa]
200 300 400 500qV [m3/h]
LCPV-250+MBB-250-250-S
LWA dB(A)
20
25
30
35
40
45
50
40 50 60 70 80 90 100 120 140qV [l/s]
10
15
20
30
40
50
70
100pt [Pa]
150 200 300 400 500qV [m3/h]
LCPV-250+MBB-200-250-S
LWA dB(A)
20
25
30
35
40
45
40 50 60 70 80 90 100 110 120qV [l/s]
10
15
20
30
40
50
70
100pt [Pa]
150 200 300 400qV [m3/h]
LCPV-250+MBB-160-250-S
LWA dB(A)
20
25
30
35
40
45
Hz 63 125 250 500 1K 2K 4K 8K
Kok 9 6 1 -1 -5 -14 -25 -32
Hz 63 125 250 500 1K 2K 4K 8K
Kok 10 9 1 -2 -5 -13 -24 -32
Hz 63 125 250 500 1K 2K 4K 8K
Kok 10 9 0 -3 -5 -13 -20 -25
60 70 80 90 100 120 140 160 180 200qV [l/s]
10
15
20
30
40
50
70
100pt [Pa]
300 400 500 700qV [m3/h]
LCPV-315+MBB-315-315-S
LWA dB(A)
20
25
30
35
40
45
50
50 60 70 80 90 100 120 140 160qV [l/s]
10
15
20
30
40
50
70
100pt [Pa]
200 300 400 500qV [m3/h]
LCPV-315+MBB-250-315-S
LWA dB(A)
20
25
30
35
40
45
50
40 50 60 70 80 90 100 120 140 160qV [l/s]
10
15
20
30
40
50
70
100pt [Pa]
150 200 300 400 500qV [m3/h]
LCPV-315+MBB-200-315-S
LWA dB(A)
20
25
30
35
40
45
50
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VAV diffuser PCSV/LCSV
DescriptionPCSV/LCSV is a circular PCS/LCS type diffuser with inte-grated motor for supply air of varying volume flow (VAV).The integrated motorized damper ensures a constant throwso the Coanda effect always is maintained. The damper set-ting can be controlled by a room regulator, BMS or other 2-10 V control signal.
• Can vary the volume flow between 0-100 %• Pre-set min. and max. volume flow *)• Settings can be changed with ZTH-GEN and Belimo
PC-tool• VAV zone pressure must be controlled • For exhaust PCS / LCS can be used
*) Settings are made from a pre-defined, available constantpressure in the air duct immediately before the diffuser. Thediffuser is typically used at a constant pressure of 30-50 Pa.
DimensionsLCSV / PCSV
MaintenanceThe face plate and damper insert can be removed to enablecleaning of internal parts or to gain access to the duct orbox. The visible parts of the diffuser can be wiped with adamp cloth.
Order codeProduct PCSV/LCSV aaa bb cc ddTypePCSV/LCSV
Dimension Ø160-315
Flow settingsMin. airflow
Max. airflow
Pressure
Example: PCSV-200- 15 l/s - 60 l/s - 40 Pa
PCSV/LCSV is supplied as standard with a 2-10 V modulat-ing motor. Can be supplied with another form of control onrequest.
PCSV/LCSV Ød ØD Ød1 L H Weight ( kg )
mm mm mm mm mm (with Motor)160 300 160 372 260 6.1
200 360 200 415 300 8.4
250 460 250 445 350 11.1
315 540 315 445 420 12.9
L
ØD
H
30Ø
d1
Materials and finishMaterial: Galvanised steelStandard finish: Powder-coated Standard colour: RAL 9010, gloss 30Motor: Manufact. Belimo type LH24A-MF
Other colours are available. Please contact Lindab’s salesdepartment for further information.
572 We reserve the right to make changes without prior notice
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VAV diffuser PCSV/LCSV
Technical data
Diagrams on this page apply to PCSV / LCSV supply air. Forexhaust air and supplementary technical exhaust data, seethe section on ceiling diffusers -visible, PCS and LCS.
CapacityMax. volume flow qv [l/s], [m3/h], total pressure drop Δpt[Pa], throw l02 [m] and sound effect level LWA [dB(A)] can beseen in the diagrams.
Quick selection
Sound attenuationSound attenuation of the diffuser ΔL from duct to room,including end reflection, see table below.
ThrowThe throw is specified at a terminal velocity of 0.2 m/s as afunction of the total pressure drop.
PCSV/LCSV
Ød1 30 Pa 35 Pa 40 Pa
Size qv LWA qv LWA qv LWA
mm l/s m3/h dB(A) l/s m3/h dB(A) l/s m3/h dB(A)160 35 128 28 38 138 31 41 148 33
200 55 199 29 59 215 31 63 230 33
250 91 327 29 98 354 31 105 378 33
315 127 457 32 137 494 34 146 528 36
PCSV/LCSV Centre frequency Hz
Ød1 63 125 250 500 1K 2K 4K 8K160 15 11 9 21 15 12 13 16
200 12 8 6 15 15 9 11 14
250 19 15 12 17 12 9 11 14
315 16 13 11 14 12 9 12 13
3.5
4
4.55
l0.2 [m] PCSV/LCSV
1.5
2
2.5
3
160
200
250315
20 25 30 35 40 45 50 55 60pt [Pa]
1l0.2 [m]
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VAV diffuser PCSV/LCSV
Technical data
LCSV / PCSV-160
LCSV / PCSV-200
LCSV / PCSV-250
LCSV / PCSV-315
Hz 63 125 250 500 1K 2K 4K 8K
Kok 0 4 0 -1 -5 -14 -22 -27
Hz 63 125 250 500 1K 2K 4K 8K
Kok 7 3 -1 -1 -4 -13 -23 -28
10 15 20 30 40 50 60 70 80 100qV [l/s]
7
10
15
20
30
50
70
100
150
200250
pt [Pa]
30 40 50 60 70 80 100 150 200 300qV [m3/h]
LCSV/PCSV-160
LWA dB(A)
20
25
30
35
40
45
50
10 15 20 30 40 50 60 70 80 100 150qV [l/s]
7
10
15
20
30
50
70
100
150
200250
pt [Pa]
30 40 50 60 70 80 100 150 200 300 400 500qV [m3/h]
LCSV/PCSV-200
LWA dB(A)
20
25
30
35
40
45
50
Hz 63 125 250 500 1K 2K 4K 8K
Kok 2 0 -4 -2 -2 -15 -22 -37
Hz 63 125 250 500 1K 2K 4K 8K
Kok 3 -1 -5 -1 -3 -15 -28 -41
10 15 20 30 40 50 60 70 100 150 200 250qV [l/s]
7
10
15
20
30
50
70
100
150
200250
pt [Pa]
30 40 50 60 70 100 150 200 300 400 500 700qV [m3/h]
LCSV/PCSV-250
LWA dB(A)
20
25
30
35
40
45
50
10 15 20 30 40 50 60 70 100 150 200 300qV [l/s]
7
10
15
20
30
50
70
100
150
200250
pt [Pa]
30 40 50 60 70 100 150 200 300 400 500 700 1000qV [m3/h]
LCSV/PCSV-315
LWA dB(A)
20
25
30
35
40
45
50
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Controller Regula Combi
DescriptionRegula Combi is a microprocessor-based controller with 7predefined programs.
The controller can control both water and air-borne indoorclimate systems. One of the programs have been speciallydesigned for air systems with VAV.
PI regulation with either 24 V on/off or 0-10 V control.
Internal temperature sensor and three inputs for controllingthe indoor climate, with external sensors for:
• Temperature• CO2• Movement (PIR)
Technical dataThe regulation of temperature takes place in sequences withheating and cooling by signals from the universal outputsUO1 (heating) and UO2 (cooling). The universal output UO3(forced cooling ventilation) will be activated with 100% sig-nal by pressing the Occupancy button (Bypass operatingmode).
As default the UO2 signal will also change to 100% whenpressing the Occupancy button.
The basic airflow is set to 20% (default), so the coolingsequence will result in signals from 2-10 V. By pressing theOccupancy button for more than 5 seconds operating modeOff will occur, that will change the UO2 signal to 0 V regard-less of cooling or heating demands. This match Lindab vol-ume flow regulator functions.
A heating function for UO2 can be activated (by changingparameter 11 to value 5 instead of 4). This will allow UO2 tofollow the heating signal UO1 to a free chosen max level(parameter 49) when there is heating demand. This shouldonly be used when having heated air (above room tempera-ture) in the duct e.g. by connecting UO1 to a duct heater. Ifthe heating function on UO2 is activated forced cooling ven-tilation by pressing the Occupancy button will not lead to100% signal on UO2.
Operating mode Standby occurs after 30 min (adjustable) ifa presence sensor is connected and signal is given, then theneutral zone increases with +/- 2°C (to heating set point19°C and cooling set point 24°C).
If a CO2 sensor is connected the universal output signalUO2 will be affected according to the CO2 sequence. Themajor requirement from the cooling sequence and the CO2sequence will control the UO2 signal.
Bypass operating mode with UO2 and UO3 = 100% signalwill be activated for 45 min (changeable) by pressing theoccupancy button once (for less than 5 seconds).
Regula Combi in detail, go to:
www.lindQST.com
-> documentfinder -> Regulation -> Regula Combi
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Volume flow regulator VRU
DescriptionVRU is a circular volume flow regulator for VAV regulation in
duct systems and consists of a measuring unit and a
damper. VRU is used for volume flow regulation in circular
ducts controlled from e.g. a room controller or BMS.
VRU is as standard supplied with MF actuator without com-
munication, but can on request be delivered for Belimo MP,
LON or ModBus communication. Further documentation on
the actuator can be requested from Lindab.
VRU is equipped with LindabSafe for connection to the duct
and is prepared for insulation up to 50 mm.
VRU can be installed in any position without adjustment
required. To avoid contamination of the measuring cross,
VRU should only be used for clean air.
• Requires minimal initial pressure (<20 Pa at Vnom)• Simple adjustment of settings with ZTH or PC tool• Damper tightness class 3• Standard delivered with 2-10 V control signal• Standard delivered with 2-10 V damper position feed-
back signal *• Can be supplied with attenuation shield on request• Can be supplied with actuator for several BUS sys-
tems• Standard MF actuator is used in Pascal systems
DimensionsVRU-250 (MF, MP, LON, MOD)
VRU-250 (MF-D, MP-D, LON-D, MOD-D)
VRU-250 (UNI)
Motor type table
* VRU with attenuation shield.
Order code - VRU
* Valid for MF and MP. UNI and SPR only available with airflow feedback signal.
Product VRU bbb ccccTypeVRU
Dimension Ød 100 - 630
Motor typeMF, MP, LON, MOD, UNI, SPR, MF-D, MP-D, LON-D, MOD-D
Example: VRU - 250 - MF
Factory settingsStandard On request
Min. airflow 0 Other min. flow
Max. airflow Vnom (7m/s) Other max. flow
Control signal 2-10 V 0-10 V
Feedback signal Damper position * Air flow
Ødnom L hnom MF / MP / LON/
MOD / UNIMF-D / MP-D /
LON-D / MOD-D SPR
100 400 225 262 241
125 400 250 287 266
160 400 285 322 301
200 400 325 358 341
250 500 375 407 391
315 500 440 471 455
400 510 526 557 560
500 610 626 657 660
630 660 756 787 790
MotorType Ød 100 - 315 Ød 400 - 630
MF (Standard) LMV-D3-MF-F NMV-D3-MF-F
MP LMV-D3-MP-F NMV-D3-MP-F
LON LMV-D3-LON-F NMV-D3-LON-F
MOD LMV-D3-MOD-F NMV-D3-MOD-F
UNI VRD3+LM24A-V-F VRD3+NM24A-V-F
SPR VRD3+LF24-MFT VRD3-NF24A-V-F
MF-D * LMV-D3-MF-F NMV-D3-MF-F
MP-D * LMV-D3-MP-F NMV-D3-MP-F
LON-D * LMV-D3-LON-F NMV-D3-LON-F
MOD-D * LMV-D3-MOD-F NMV-D3-MOD-F
L
Ødnom
hnom
L
Ødnom
hnom
50
L
Ødnom
hnom
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Volume flow regulator VRU
Technical dataSettingsVnom indicates the measuring range for the actuator. Astandard VRU is calibrated to a Vnom of 7 m/s according tothe table below.
In special cases the VRU can be set to a higher Vnom , e.g.10 m/s.
For VRU, Vmax and Vmin indicate the limits for the actuatorsworking range.
There is linearity between Vmin to Vmax and the input signal.Vmax can be set in the range 20-100% of Vnom , Vmin in therange of 0-100% of Vnom ; however, air velocities below 0,7m/s corresponds to a measuring pressure of less than 1 Pa,which makes the flow regulation less accurate.
Volume flow measurementThe accuracy of volume flow measurement depends on theflow conditions in front of the measuring cross.
It is preferable to have a long straight duct section in front ofthe measuring point, according to the table below.
If these recommendations are not followed, it will cause anunstable flow measurement and therefore higher inaccuracyin the regulation of the required airflow.
ComponentsRecommended straight duct before
unitBend 3 x d
Tee-piece 2 x d
Damper 6 x d
VRUnom flow and measuring limit
SizeØd mm
Measuring limit (0,7 m/s) (Standard) Vnom (7m/s) Vnom (10m/s)m3/h l/s m3/h l/s m3/h l/s
100 20 6 198 55 283 79
125 31 9 309 86 442 123
160 51 14 506 141 723 201
200 79 22 791 220 1130 314
250 124 34 1236 343 1766 491
315 196 54 1963 545 2804 779
400 317 88 3165 879 4522 1256
500 495 138 4946 1374 7065 1963
630 785 218 7851 2181 11216 3116
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Volume flow regulator VRU
Technical dataPressure drop diagram and sound data for dimension-ing. The solid curves indicate the total pressure drop Δpt overthe damper as a function of the volume flow q and the bladeangle α.
The broken curves indicate the A-weighted sound effectlevel LWA, in dB to the duct.
Example:Dimension: Ø100Volume flow: 60 l/sPressure drop: 200 Pa
The following can be obtained from the diagram:Blade angle α: 32°Sound effect level: 63 dB(A)
DimensioningWhen dimensioning the dampers inherent noise from thedampers and their regulating properties (damper character-istics) must be taken into consideration.
If excessively large dampers are used, the working area(angle of rotation) at given Vmin and Vmax may be so limitedthat regulation does not function satisfactorily.
Efforts must be made to use damper dimensions that resultin the largest possible working areas (angles of rotation).
Due to regulation accuracy, working areas with damperangles < 15° should be avoided.
Measuring method for sound:Sound data has been measured by the Swedish NationalTesting and Research Institute (SP) with reference to ISO5135 and EN/ISO 3741.
Blade angle:0° = open damper.90°= closed damper.
Ød 125
Pre
ssur
e d
rop
Setting angle α [°]
v
q
[Pa] α [°]
Δ p
t
500
100
200
300
50
20
30
12 15 20 30 40 50 100 180
1 2 3 4 5 10 15
0
70 60 50 40
10
20
30
[l/s]
[m/s]
40
75
45
50
55
60
65
70
L WA [d
B]
Sound power levelLWA [dB]
Ød 100
Pre
ssur
e d
rop
Setting angle α [°]
v
q
[Pa] α [°]
Δ p
t
500
100
200
300
50
20
30
8 10 20 30 40 50 120
1 2 3 4 5 10 15
0
60 50 40
10
20
30
[l/s]
[m/s]
403530
75
45
50
55
60
65
70
L WA [d
B]
60
Sound power levelLWA [dB]
Ød 160
Pre
ssur
e d
rop
Setting angle α [°]
v
q
[Pa] α [°]
Δ p
t
500
100
200
300
50
20
30
20 100 20030 40 50 300
1 2 3 4 5 10 15
70 60 50 40
10
0
20
30
[l/s]
[m/s]
40
35
30
80
45
50
55
60
65
70
75
L WA [d
B]
Sound power levelLWA [dB]
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Volume flow regulator VRU
Technical data
Ød 250
Pre
ssur
e d
rop
Setting angle α [°]
v
q
[Pa] α [°]
Δ p
t
500
100
200
300
50
20
30
50 100 200 300 500 750
1 2 3 4 5 10 15
0
60 50 40
10
20
30
[l/s]
[m/s]
4035
80
45
50
55
60
65
70
75
L WA [d
B]
Sound power levelLWA [dB]
Ød 500
Pre
ssur
e d
rop
Setting angle α [°]
v
q
[Pa] α [°]
Δ p
t
500
100
200
300
50
20
30
200 1000 2000300 500 3000
1 2 3 4 5 10 15
0
70 60 50 40
10
20
30
[l/s]
[m/s]
4035
80 85
45
50
55
60
65
70
75
L WA [d
B]
Sound power levelLWA [dB]
Ød 315
Pre
ssur
e d
rop
Setting angle α [°]
v
q
[Pa] α [°]
Δ p
t
500
100
200
300
50
20
30
80 100 200 300 500 1200
1 2 3 4 5 10 15
0
70 60 50 40
10
20
30
[l/s]
[m/s]
4030 35
80
45
50
55
60
65
70
L WA
[dB]
Sound power levelLWA [dB]
Ød 630
Pre
ssur
e d
rop
Setting angle α [°]
v
q
[Pa] α [°]
Δ p
t
500
100
200
300
50
20
30
300 500 1000 2000 3000 4700
1 2 3 4 5 10 15
0
70 60 50 40
10
20
30
[l/s]
[m/s]
40
85
80
45
50
55
60
65
70
75
L WA [d
B]
Sound power levelLWA [dB]
Ød 400
Pre
ssur
e d
rop
Setting angle α [°]
v
q
[Pa] α [°]
Δ p
t
500
100
200
300
50
20
30
130 1000200 300 500 1900
1 2 3 4 5 10 15
0
70 60 50 40
10
20
30
[l/s]
[m/s]
4035
80
45
50
55
60
65
70
75
L WA [d
B]
Sound power levelLWA [dB]
Ød 200
Pre
ssur
e d
rop
Setting angle α [°]
v
q
[Pa] α [°]
Δ p
t
500
100
200
300
50
20
30
30 100 20040 50 475300
1 2 3 4 5 10 15
0
70 60 50 40
10
20
30
[l/s]
[m/s]
40
35
7580
45
50
55
60
65
70
L WA [d
B]
Sound power levelLWA [dB]
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Volume flow regulator VRU
Technical dataSound dataBelow sound effect levels for ducts (flow noise) with refer-ence to ISO 5135 as a function of volume flow and pressuredifference. The necessary minimum prepressure is 20 Pa forall sizes, equivalent to the pressure loss over VRU at nomi-nal volume flow and with fully open damper.
dimØd
Pressure drop[Pa]
Velocity app. 1 [m/s] Velocity app. 3 [m/s] Velocity app. 6 [m/s]
Centre frequency [Hz] Centre frequency [Hz] Centre frequency [Hz]
63 125 250 500 1k 2k 4k 8k 63 125 250 500 1k 2k 4k 8k 63 125 250 500 1k 2k 4k 8k
100
Flow 8 [l/s] / 29 [m³/h] Flow 25 [l/s] / 90 [m³/h] Flow 50 [l/s] / 180 [m³/h]
5002001005020
60 60 59 52 50 44 44 4453 51 53 43 42 35 32 3251 46 44 38 35 28 21 2048 42 38 33 26 19 16 1443 35 30 23 17 9 7 6
67 64 64 57 54 48 48 4859 58 58 50 48 40 37 3758 55 53 46 41 34 26 2455 53 48 42 35 26 22 1850 49 42 37 28 17 15 14
72 69 69 62 59 52 52 5266 65 64 57 54 45 42 4265 64 62 54 48 40 31 2964 63 60 53 44 33 28 2262 61 57 51 41 27 25 15
Flow 12 [l/s] / 43 [m³/h] Flow 40 [l/s] / 144 [m³/h] Flow 75 [l/s] / 270 [m³/h]
125
5002001005020
66 63 61 55 52 46 47 4459 53 49 44 38 34 33 3258 49 43 40 31 28 22 2257 42 41 31 29 20 17 1556 32 39 29 27 11 15 11
71 68 65 59 56 50 50 4765 62 57 51 46 41 38 3864 59 53 47 39 34 29 2763 54 50 41 36 27 25 2062 48 48 34 34 20 22 15
76 73 70 63 60 53 53 5072 71 65 59 53 47 43 4371 70 63 55 47 40 35 3270 68 60 51 43 34 32 2468 65 56 47 39 29 28 17
Flow 20 [l/s] / 72 [m³/h] Flow 60 [l/s] / 216 [m³/h] Flow 120 [l/s] / 432 [m³/h]
160
5002001005020
62 63 61 56 52 51 50 4952 52 51 44 43 38 37 3647 43 39 37 32 27 27 2542 36 33 28 25 20 17 1637 30 30 26 19 16 11 10
68 67 64 59 55 53 52 5161 58 56 50 48 42 40 4059 54 50 45 40 35 33 3154 50 46 37 33 29 25 2549 46 43 35 27 24 19 18
73 71 68 62 59 55 54 5371 65 62 56 53 47 44 4470 64 60 53 48 42 39 3869 63 58 48 42 37 32 3268 61 55 44 36 32 27 23
Flow 30 [l/s] / 108 [m³/h] Flow 100 [l/s] / 360 [m³/h] Flow 200 [l/s] / 720 [m³/h]
200
5002001005020
65 60 56 52 49 47 44 4255 52 51 43 40 37 38 3846 43 41 34 32 29 29 2940 38 33 30 28 27 23 2234 31 26 25 25 23 18 16
70 64 61 55 52 52 55 5562 57 55 47 44 42 42 4257 52 48 41 39 36 34 3451 45 41 36 32 32 28 2844 37 33 29 27 25 21 19
75 69 65 59 55 55 59 5971 65 61 53 50 48 47 4769 64 58 50 47 44 42 4263 56 51 44 39 39 34 3456 47 43 36 29 27 24 22
Flow 50 [l/s] / 180 [m³/h] Flow 150 [l/s] / 540 [m³/h] Flow 300 [l/s] / 1080 [m³/h]
250
5002001005020
67 65 57 50 47 52 51 5055 54 49 43 42 38 42 4252 48 40 37 34 33 31 2844 41 35 32 29 24 22 2033 35 29 29 25 15 12 10
69 66 59 53 50 54 53 5259 57 52 46 44 41 44 4456 52 45 41 38 36 34 3152 48 40 38 34 30 28 2447 44 37 35 31 25 22 17
71 67 61 56 53 56 55 5463 60 55 49 46 44 46 4662 57 51 46 43 40 38 3561 56 47 45 40 38 33 2859 54 46 42 38 36 30 24
Flow 80 [l/s] / 288 [m³/h] Flow 250 [l/s] / 900 [m³/h] Flow 500 [l/s] / 1800 [m³/h]
315
5002001005020
63 60 53 49 47 46 45 4450 44 42 38 38 33 37 3442 39 33 31 30 25 30 2334 34 30 26 22 21 19 1526 30 27 21 16 15 13 11
68 65 59 53 50 50 53 5060 55 50 45 43 40 43 4054 52 45 41 38 36 36 3149 49 43 38 34 32 30 2444 46 41 35 30 27 25 18
74 71 65 58 55 55 58 5570 65 58 52 49 48 49 4666 64 56 50 47 46 44 3964 63 55 49 45 42 40 3262 61 54 48 43 37 34 24
Flow 130 [l/s] / 468 [m³/h] Flow 400 [l/s] / 1440 [m³/h] Flow 800 [l/s] / 2880 [m³/h]
400
5002001005020
76 71 66 59 55 58 57 5661 58 50 44 43 44 45 4150 45 40 34 36 35 35 2942 37 31 29 28 27 25 2040 34 27 25 24 23 21 11
79 73 67 62 57 60 59 5867 62 56 50 48 48 48 4561 56 49 44 42 39 39 3457 52 44 39 37 35 34 2655 50 40 35 34 32 30 20
82 75 68 65 59 62 61 6074 68 62 56 53 52 52 4972 67 58 53 49 47 46 4071 66 56 50 47 44 44 3370 65 54 47 44 40 38 28
Flow 200 [l/s] / 720 [m³/h] Flow 600 [l/s] / 2160 [m³/h] Flow 1200 [l/s] / 4320 [m³/h]
500
5002001005020
82 76 69 63 62 61 60 5966 60 55 48 45 44 46 4355 50 47 38 38 36 34 3146 40 36 33 32 29 29 2541 33 29 27 26 19 18 20
84 77 70 64 63 62 61 6071 65 59 53 50 50 50 4763 58 53 47 46 44 42 3759 52 47 44 42 38 38 3156 47 42 40 38 32 30 26
85 78 71 65 64 63 62 6177 70 64 58 56 55 54 5172 66 60 55 53 51 49 4371 63 57 54 51 46 46 3770 60 54 52 49 44 40 32
Flow 300 [l/s] / 1080 [m³/h] Flow 900 [l/s] / 3240 [m³/h] Flow 1800 [l/s] / 6480 [m³/h]
630
5002001005020
86 77 71 67 64 61 61 6076 70 63 60 56 53 52 4865 61 52 49 45 43 41 3754 49 45 39 34 36 30 2645 35 38 30 29 29 26 20
88 80 73 69 66 64 63 6278 72 65 62 59 55 55 4971 66 59 54 50 46 45 4066 58 53 48 43 40 39 3061 50 47 43 38 36 33 25
90 83 75 71 68 67 65 6480 74 67 64 60 57 57 5078 71 66 59 56 49 48 4477 68 62 57 51 45 47 3676 65 57 55 46 42 39 30
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Flow measuring unit FRU
DescriptionFRU is a measuring unit with a measuring cross, which isused for measuring volume flow in circular ducts.
FRU is equipped with Belimo VRD3, providing an outputsignal that is proportional to the volume flow. FRU can beused to monitor the actual airflow or can be used to controla volume flow regulator.
FRU is equipped with Lindab Safe in the front for connectionto the duct and a female coupling in the back, and is readyfor insulation up to 50 mm.
FRU can be installed in any position without requiringadjustment. To avoid contamination of the measuring cross, FRU shouldonly be used for clean air.
FRU needs a certain distance of straight duct before the unitand this has to be observed to obtain a stable and accurateairflow regulation.
• Requires minimal initial pressure (<20 Pa at Vnom)• Output signal indicates actual volume flow
Dimensions
Technical dataVolume flow measurementThe accuracy of volumeflow measurement depends on theflow conditions in front of the measuring cross. It is prefera-ble to have a long straight duct section in front of the meas-uring point, according to the table below.
SettingsVnom indicates the measuring range for the actuator. Astandard FRU is calibrated to Vnom of 7 m/s according to thetable below.In special cases the FRU can be set to a higher Vnom, e.g. 10m/s.The output signal from VRD3 is linear between 2-10 V whichcorresponds to a flow between 0 and Vnom.Air flows corresponding to air velocities below 0,7 m/s willresult in a 2 V signal. (Zero flow).
FRU nominal flow
Order code - FRUProduct FRU aaaTypeFRU
Dimension Ød 100 - 630
Example: FRU - 250
Ødnom L hnom100 300 202
125 300 227
160 300 262
200 300 302
250 400 352
315 400 417
400 400 504
500 510 604
630 560 734
ComponentsRecommended straight duct
before unitBend 3 x d
Tee-piece 2 x d
Damper 6 x d
Size Ødnom (Standard) Vnom (7m/s)mm m3/h l/s100 198 55
125 309 86
160 506 141
200 791 220
250 1236 343
315 1963 545
400 3165 879
500 4946 1374
630 7851 2181
L
Ødnom
hnom
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Volume flow regulator VRA/FRA
DescriptionFRA is a measuring unit with a measuring cross, which isused for measuring volume flow in rectangular ducts. FRA isequipped with Belimo VRD3, which provides an output sig-nal that is proportional to the volume flow. VRA consists of a FRA measuring unit and a DJP typedamper put together to form a complete unit. VRA is usedfor volume flow regulation in rectangular ducts, either forconstant volume flow with step control, e.g. controlled by aswitch or clock, or for variable volume flow, where the vol-ume flow varies between a defined minimum and maximumlimit. The actual volume flow is determined by a control sig-nal from, for example, Regula Combi, BMS or another FRA/VRA. VRA-0 consists of a regulator (Belimo VRD3) with amanual setting and motor. VRA-2 is equipped with a regula-tor and motor in one unit (Belimo NMV-D3-MP), which isprogrammable and has MP bus. VRA-3 consists of a regula-tor (Belimo VRD3) with a manual setting and motor with aspring return. Further documentation on the diffusers can berequested from Lindab.VRA/FRA is equipped with LS flanges and is supplied readyfor insulation up to 50 mm. VRA/FRA can be installed in anyposition without requiring adjustment. To avoid dirtying themeasuring cross and sensor, VRA/FRA should only be usedfor clean air.
Advantages of VRA/FRA• Requires minimal initial pressure (<20 Pa at Vnom)• Has large regulation range• Simple adjustment of volume flow• Parallel or slave operation of several terminals• Shut-off to damper tightness class 3 (VRA only)• Establishment of over/underpressure or pressure bal-
ance in the ventilated zones• Output signal indicates actual volume flow• Is compatible with all types of automatic equipment
with control voltage 2-10 V or 0-10 V• VRA-2 can communicate with BMS systems via MP bus
Dimensions
Motor overview
Standard sizes
400 x 200 500 x 200 600 x 200600 x 300 800 x 300
VRA-0 / FRA
Order codeProduct VRA a A x B cc ddTypeVRA
Motor type0 = Universal2 = Compact model3 = With spring return
Dimension 400x200 - 800x300
Flow settingsMin. airflow
Max. airflow
Example: VRA - 2 - 500 x 200 - 55 l/s - 220 l/s
VRA is as standard delivered with 2-10 V control signal. Onrequest it can be delivered with 0-10 V .
Type MotorVRA-0 VRD3 + NM24-V
VRA-2 NMV-D3-MP
VRA-3 VRD3 + NF24A-MF
FRA VRD3
LFRA 345
LVRA 460
LDJP 115
Order code - FRAProduct FRA A x BTypeFRA
Dimension 400x200 - 800x300
Example: FRA - 500x200
Other sizes are available on request. Please contactLindab’s sales department for further information.
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Volume flow regulator VRA/FRAVRU/FRU
Technical dataSizes and volume flowsVRU/FRU and VRA/FRA are calibrated and set as standardto a nominal volume flow (Vnom) of 7 m/s according to thetables below. In special circumstances they can be set to ahigher Vnom, e.g. 10 m/s. Vnom indicates the measuringrange for the regulator, and the linear output signal (2-10 Vor 0-10 V) is an expression of the volume flow between 0 –Vnom.For VRU/VRA, Vmax and Vmin indicate the limits for the regu-lator’s working range. Similarly there is a linear connectionbetween Vmin - Vmax and the input signal (2-10 V or 0-10V ).Vmax can be set in the range 20-100% of Vnom, Vmin in therange 0-100% of Vnom ; however, air velocities below 0,7 m/s corresponds to a measuring pressure of less than 1 Pa,which makes the flow regulation less accurate.
Vmax, Vmin and mode (2-10 V / 0-10 V) for VRU/VRA andmode (2-10 V / 0-10 V) for FRU/FRA can be set using theadjustment tool Belimo ZTH-GEN. For VRU-2 (with L/NMV-D3-MP-F) there are several programming options for usingBelimo PC-Tool . See the Belimo documentation for furtherdetails.
VRU/VRA works with almost no initial pressure. Pressureloss over VRU/VRA at nominal volume flow and with a fullyopen damper is less than 20 Pa.
VRU/VRA or FRU+DCT/FRA+DJPThe choice between VRU/VRA or FRU+DCT-Rx / FRA+DJP-Rx depends on the installation features of the duct system.VRU/VRA should be used where it can be positioned so thatthe flow to the measuring cross ensures a good volume flowmeasurement. If you wish to position the damper close to ajoint or bend, a DCT type duct damper should be used. Inthat case, volume flow regulator FRU with measuring crossis positioned after the damper with a suitably straight sec-tion of duct in front of it.
Volume flow measurementThe accuracy of volume flow measurement depends on theflow conditions in front of the measuring cross. It is prefera-ble to have a long straight duct section in front of the meas-uring point, according to the table below.
In poor flow conditions the absolute volume flow measure-ment will be less accurate (i.e. min. and max. volume flowwith greater inaccuracy), while the VAV function will not nor-mally change (i.e. any temperature control in the room willstill function).
ComponentsRecommended straight duct section
in front of measuring cross
Bend 3 x d
Tee-piece 2 x d
Damper 6 x d
VRU capacity, - max.
VRA capacity, - max.
Sizeød1 mm
(Standard ) Vnom (7m/s) Vnom (10m/s)
m3/h l/s m3/h l/s
125 309 86 442 123
160 506 141 723 201
200 791 220 1130 314
250 1236 343 1766 491
315 1963 545 2804 779
400 3165 879 4522 1256
500 4946 1374 7065 1963
630 7851 2181 11216 3116
SizeA
mm
SizeB
mm
(Standard) Vnom (7m/s) Vnom (10m/s)
m3/h l/s m3/h l/s
400 200 2016 560 2880 800
500 200 2520 700 3600 1000
600 200 3024 840 4320 1200
600 300 4536 1260 6480 1800
800 300 6048 1680 8640 2400
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Pressure regulator PR
DescriptionPressure regulator PR consists of a static pressure probe forinstallation in circular or square ducts, a pressure sensor(Belimo VFP) and a regulator (Belimo VRP-STP).
The regulator has an outlet for measuring static pressureand controls a damper of type DCT-Rx or DJP-Rx and pro-grammable motors.
Pressure regulator PR is used together with an adjustmentdamper type DCT or DJP to maintain a constant static pres-sure in distribution ducts to a VAV zone.
The pressure regulator is supplied with a 2 m long pressurehose for the pressure probe.
PR can be supplied with the following pressure ranges (Pa):
100 - 300 - 600 – 1,000 – 1,500 – 3,000.
• Has large regulation range• Simple adjustment of set point
Dimensions
Ordering exampleProduct PR aaaaTypePressure range
213
152
140
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Damper - circular DCT
DescriptionDCT is a circular control and shut-off damper.
The damper can be used for pressure or volume flow regula-tion with external control options (open, closed, min., max.)depending on the form of control/regulation.
DCT is available with a spring return motor. The damper canbe controlled by an FRU (as a VRU) or a PR regulator, by aBMS system or Regula Combi (with modulating signal) or asa slave for another damper (mechanical slave operation withthe same damper position).
When ordering, it is important to specify the form of control,and whether the damper motor must be programmable. AllDCT dampers are supplied with Belimo motors.
Dimensions
Motor overview
RUUsed only with PR ( and FRU) and is preset to a VAV input signal: 6 ± V,
RP Has a programmable motor, is used together with PRand is preprogrammed for a VAV input signal: 6 ± V.Has modulating output signal indicating damperposition for mechanical control of a slave damper.
SU Has a motor, which is controlled by modulating inputsignal (2-10V). Also has a modulating output signal indicating damper position.
SP Has a programmble motor, which can be controlled by optional input signal (Standard modulating).Also has a modulating output signal indicating damperposition for mechanical control of a slave damper.
Order code - DCTProduct DCT a bbb c dTypeDCT
Motor typeStandard 0Spring return 3
Dimension Ød1 100 - 630
Form of controlR: Regulator-controlledS: Parallel signal (modulating)
ProgrammingU: Without programmingP: Programmable
Example: DCT - 0 - 315 - R - U
Type Bmm
Cmm
Dmm
Hmm
Lmm
DCT-0-RU/SU 80 40 140 112 165
DCT-0-RP/SP 80 40 162 112 187
DCT-3 96 48 204 130,5 236
Type0
Ød1 100-315Motor
0 (Standard)
Ød1 400-630Motor
0 (Standard)DCT-RU LM24A-V-F NM24A-V-F
DCT-RP LM24A-MF-F NM24A-MF-F
DCT-SU LM24A-SR-F NM24A-SR-F
DCT-SP LM24A-MF-F NM24A-MF-F
Type3
Ød1 100-315Motor
3 (Spring-return)
Ød1 400-630Motor
3 (Spring-return)DCT-RU LF24A-MFT NF24A-MF
DCT-RP LF24A-MFT NF24A-MF
DCT-SU LF24-SR NF24A-SR
DCT-SP LF24A-MFT NNF24-MF
H
50
Ød
1
100
D
L
C
B
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Damper - circular DCT
Technical dataPressure drop diagram and sound data for dimensioning. The solid curves indicate the total pressure drop Δpt overthe damper as a function of the volume flow q and the bladeangle α.
The broken curves indicate the A-weighted sound effectlevel LWA, in dB to the duct.
Example:Dimension: Ø100Volume flow: 60 l/sPressure drop: 200 Pa
The following can be obtained from the diagram:Blade angle α: 32°Sound effect level: 63 dB(A)
Measuring method for sound:Sound data has been measured by the Swedish NationalTesting and Research Institute (SP) with reference to ISO5135 and EN/ISO 3741.
Blade angle α:0° = open damper.90° = closed damper.
Ø80
Pre
ssur
e d
rop
Setting angle α [°]
v
q
[Pa] α [°]
Δ p t
500
100
200
300
50
20
30
5 10 20 30 40 50 75
1 2 3 4 5 10 15
0
60 50 40
10
20
30
[l/s]
[m/s]
4035
75
45
50
55
60
65
70
L WA
[dB]
Sound power levelLWA [dB]
Ø125
Pre
ssur
e d
rop
Setting angle α [°]
v
q
[Pa] α [°]
Δ p t
500
100
200
300
50
20
30
12 15 20 30 40 50 100 180
1 2 3 4 5 10 15
0
70 60 50 40
10
20
30
[l/s]
[m/s]
40
75
45
50
55
60
65
70
L WA [d
B]
Sound power levelLWA [dB]
Ø100
Pre
ssur
e d
rop
Setting angle α [°]
v
q
[Pa] α [°]
Δ p t
500
100
200
300
50
20
30
8 10 20 30 40 50 120
1 2 3 4 5 10 15
0
60 50 40
10
20
30
[l/s]
[m/s]
403530
75
45
50
55
60
65
70
L WA [d
B]
60
Sound power levelLWA [dB]
Ø160
Pre
ssur
e d
rop
Setting angle α [°]
v
q
[Pa] α [°]
Δ p t
500
100
200
300
50
20
30
20 100 20030 40 50 300
1 2 3 4 5 10 15
70 60 50 40
10
0
20
30
[l/s]
[m/s]
4035
30
80
45
50
55
60
65
70
75
L WA [d
B]
Sound power levelLWA [dB]
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Damper - circular DCT
Technical data
Ø250
Pre
ssur
e d
rop
Setting angle α [°]
v
q
[Pa] α [°]
Δ p t
500
100
200
300
50
20
30
50 100 200 300 500 750
1 2 3 4 5 10 15
0
60 50 40
10
20
30
[l/s]
[m/s]
4035
80
45
50
55
60
6570
75
L WA [d
B]
Sound power levelLWA [dB]
Ø500
Pre
ssur
e d
rop
Setting angle α [°]
v
q
[Pa] α [°]
Δ p t
500
100
200
300
50
20
30
200 1000 2000300 500 3000
1 2 3 4 5 10 15
0
70 60 50 40
10
20
30
[l/s]
[m/s]
4035
80 85
45
50
55
60
65
70
75
L WA [d
B]
Sound power levelLWA [dB]
Ø315
Pre
ssur
e d
rop
Setting angle α [°]
v
q
[Pa] α [°]
Δ p t
500
100
200
300
50
20
30
80 100 200 300 500 1200
1 2 3 4 5 10 15
0
70 60 50 40
10
20
30
[l/s]
[m/s]
4030 35
80
45
50
55
60
65
70
L WA
[dB]
Sound power levelLWA [dB]
Ø630
Pre
ssur
e d
rop
Setting angle α [°]
v
q
[Pa] α [°]
Δ p t
500
100
200
300
50
20
30
300 500 1000 2000 3000 4700
1 2 3 4 5 10 15
0
70 60 50 40
10
20
30
[l/s]
[m/s]
40
8580
45
50
55
60
65
7075
L WA [d
B]
Sound power levelLWA [dB]
Ø400
Pre
ssur
e d
rop
Setting angle α [°]
v
q
[Pa] α [°]
Δ p t
500
100
200
300
50
20
30
130 1000200 300 500 1900
1 2 3 4 5 10 15
0
70 60 50 40
10
20
30
[l/s]
[m/s]
4035
80
45
50
55
60
6570
75
L WA [d
B]
Sound power levelLWA [dB]
Ø200
Pre
ssur
e d
rop
Setting angle α [°]
v
q
[Pa] α [°]
Δ p t
500
100
200
300
50
20
30
30 100 20040 50 475300
1 2 3 4 5 10 15
0
70 60 50 40
10
20
30
[l/s]
[m/s]
40
35
75 80
45
50
55
60
65
70
L WA [d
B]
Sound power levelLWA [dB]
582 We reserve the right to make changes without prior notice27-03-2014
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Damper - circular DCT
Technical dataSound dataThe following pages give sound effect levels for ducts (flownoise) with reference to ISO 5135 as a function of volumeflow and pressure difference. The necessary minimum pre-pressure difference is 20 Pa for all sizes, equivalent to thepressure loss over VRU at nominal volume flow and with afully open damper.
ØdPressure
drop[Pa]
Velocity app. 1 [m/s] Velocity app. 3 [m/s] Velocity app. 6 [m/s]Centre frequency [Hz] Centre frequency [Hz] Centre frequency [Hz]
63 125 250 500 1k 2k 4k 8k 63 125 250 500 1k 2k 4k 8k 63 125 250 500 1k 2k 4k 8k
100
Flow 8 [l/s] / 29 [m³/h] Flow 25 [l/s] / 90 [m³/h] Flow 50 [l/s] / 180 [m³/h]5002001005020
60 60 59 52 50 44 44 4453 51 53 43 42 35 32 3251 46 44 38 35 28 21 2048 42 38 33 26 19 16 1443 35 30 23 17 9 7 6
67 64 64 57 54 48 48 4859 58 58 50 48 40 37 3758 55 53 46 41 34 26 2455 53 48 42 35 26 22 1850 49 42 37 28 17 15 14
72 69 69 62 59 52 52 5266 65 64 57 54 45 42 4265 64 62 54 48 40 31 2964 63 60 53 44 33 28 2262 61 57 51 41 27 25 15
Flow 12 [l/s] / 43 [m³/h] Flow 40 [l/s] / 144 [m³/h] Flow 75 [l/s] / 270 [m³/h]
125
5002001005020
66 63 61 55 52 46 47 4459 53 49 44 38 34 33 3258 49 43 40 31 28 22 2257 42 41 31 29 20 17 1556 32 39 29 27 11 15 11
71 68 65 59 56 50 50 4765 62 57 51 46 41 38 3864 59 53 47 39 34 29 2763 54 50 41 36 27 25 2062 48 48 34 34 20 22 15
76 73 70 63 60 53 53 5072 71 65 59 53 47 43 4371 70 63 55 47 40 35 3270 68 60 51 43 34 32 2468 65 56 47 39 29 28 17
Flow 20 [l/s] / 72 [m³/h] Flow 60 [l/s] / 216 [m³/h] Flow 120 [l/s] / 432 [m³/h]
160
5002001005020
62 63 61 56 52 51 50 4952 52 51 44 43 38 37 3647 43 39 37 32 27 27 2542 36 33 28 25 20 17 1637 30 30 26 19 16 11 10
68 67 64 59 55 53 52 5161 58 56 50 48 42 40 4059 54 50 45 40 35 33 3154 50 46 37 33 29 25 2549 46 43 35 27 24 19 18
73 71 68 62 59 55 54 5371 65 62 56 53 47 44 4470 64 60 53 48 42 39 3869 63 58 48 42 37 32 3268 61 55 44 36 32 27 23
Flow 30 [l/s] / 108 [m³/h] Flow 100 [l/s] / 360 [m³/h] Flow 200 [l/s] / 720 [m³/h]
200
5002001005020
65 60 56 52 49 47 44 4255 52 51 43 40 37 38 3846 43 41 34 32 29 29 2940 38 33 30 28 27 23 2234 31 26 25 25 23 18 16
70 64 61 55 52 52 55 5562 57 55 47 44 42 42 4257 52 48 41 39 36 34 3451 45 41 36 32 32 28 2844 37 33 29 27 25 21 19
75 69 65 59 55 55 59 5971 65 61 53 50 48 47 4769 64 58 50 47 44 42 4263 56 51 44 39 39 34 3456 47 43 36 29 27 24 22
Flow 50 [l/s] / 180 [m³/h] Flow 150 [l/s] / 540 [m³/h] Flow 300 [l/s] / 1080 [m³/h]
250
5002001005020
67 65 57 50 47 52 51 5055 54 49 43 42 38 42 4252 48 40 37 34 33 31 2844 41 35 32 29 24 22 2033 35 29 29 25 15 12 10
69 66 59 53 50 54 53 5259 57 52 46 44 41 44 4456 52 45 41 38 36 34 3152 48 40 38 34 30 28 2447 44 37 35 31 25 22 17
71 67 61 56 53 56 55 5463 60 55 49 46 44 46 4662 57 51 46 43 40 38 3561 56 47 45 40 38 33 2859 54 46 42 38 36 30 24
Flow 80 [l/s] / 288 [m³/h] Flow 250 [l/s] / 900 [m³/h] Flow 500 [l/s] / 1800 [m³/h]
315
5002001005020
63 60 53 49 47 46 45 4450 44 42 38 38 33 37 3442 39 33 31 30 25 30 2334 34 30 26 22 21 19 1526 30 27 21 16 15 13 11
68 65 59 53 50 50 53 5060 55 50 45 43 40 43 4054 52 45 41 38 36 36 3149 49 43 38 34 32 30 2444 46 41 35 30 27 25 18
74 71 65 58 55 55 58 5570 65 58 52 49 48 49 4666 64 56 50 47 46 44 3964 63 55 49 45 42 40 3262 61 54 48 43 37 34 24
Flow 130 [l/s] / 468 [m³/h] Flow 400 [l/s] / 1440 [m³/h] Flow 800 [l/s] / 2880 [m³/h]
400
5002001005020
76 71 66 59 55 58 57 5661 58 50 44 43 44 45 4150 45 40 34 36 35 35 2942 37 31 29 28 27 25 2040 34 27 25 24 23 21 11
79 73 67 62 57 60 59 5867 62 56 50 48 48 48 4561 56 49 44 42 39 39 3457 52 44 39 37 35 34 2655 50 40 35 34 32 30 20
82 75 68 65 59 62 61 6074 68 62 56 53 52 52 4972 67 58 53 49 47 46 4071 66 56 50 47 44 44 3370 65 54 47 44 40 38 28
Flow 200 [l/s] / 720 [m³/h] Flow 600 [l/s] / 2160 [m³/h] Flow 1200 [l/s] / 4320 [m³/h]
500
5002001005020
82 76 69 63 62 61 60 5966 60 55 48 45 44 46 4355 50 47 38 38 36 34 3146 40 36 33 32 29 29 2541 33 29 27 26 19 18 20
84 77 70 64 63 62 61 6071 65 59 53 50 50 50 4763 58 53 47 46 44 42 3759 52 47 44 42 38 38 3156 47 42 40 38 32 30 26
85 78 71 65 64 63 62 6177 70 64 58 56 55 54 5172 66 60 55 53 51 49 4371 63 57 54 51 46 46 3770 60 54 52 49 44 40 32
Flow 300 [l/s] / 1080 [m³/h] Flow 900 [l/s] / 3240 [m³/h] Flow 1800 [l/s] / 6480 [m³/h]
630
5002001005020
86 77 71 67 64 61 61 6076 70 63 60 56 53 52 4865 61 52 49 45 43 41 3754 49 45 39 34 36 30 2645 35 38 30 29 29 26 20
88 80 73 69 66 64 63 6278 72 65 62 59 55 55 4971 66 59 54 50 46 45 4066 58 53 48 43 40 39 3061 50 47 43 38 36 33 25
90 83 75 71 68 67 65 6480 74 67 64 60 57 57 5078 71 66 59 56 49 48 4477 68 62 57 51 45 47 3676 65 57 55 46 42 39 30
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Damper - rectangular DJP
DescriptionDJP is a rectangular control and shut-off damper.
DJP has opposing aerodynamic damper blades that arerotated via a lever device. The damper is supplied with anLS connection system for rectangular ducts. The dampercan be used for pressure or volume flow regulation withexternal control options (open, closed, min., max.) depend-ing on the form of control/regulation.
DJP is available with a spring return motor, so the dampercan be used as a smoke damper. The damper can be con-trolled by an FRA (as a VRA) or a PR regulator, directly by atemperature sensor or BMS system (2–10 V modulating) oras a slave for another damper (mechanical slave operationwith the same damper position).
When ordering, it is important to specify the form of control,and whether the damper motor must be programmable. AllDJP dampers have Belimo motors installed.
Dimensions
Motor overview
RU Used only with PR (and FRU) and is preset to a VAVinput signal: 6 ± 4 V.
RP Has a programmable motor, is used together with PRand is preprogrammed for a VAV input signal: 6 ± 4 V.Has a modulating output signal indicating damper position for mechanical control of a slave damper.
SU Has a motor, which is controlled by a modulating input signal (2-10 V). Also has a modulating output signal indicatingdamper position.
SP Has a programmable motor, which can be controlledby an optional input signal (standard modulating).Also has a modulating output signal indicatingdamper position for mechanical control of a slavedamper.
Ordering exampleProduct DJP a A x B c dType
Standard 0Spring return 3SizeA (Width)B (Height)Form of controlR: Regulator-controlledS: Slave or sensor-controlledProgramming U: Without programmingP: Programmable
Type Motor Motor
0 3DJP-RU NM24A-V NF24A-MF
DJP-RP NM24A-MF NF24A-MF
DJP-SU NM24A-SR NF24A-SR
DJP-SP NM24A-MF NF24A-MF
A 105
20 20
20
20
110
50
10
0
B
584 We reserve the right to make changes without prior notice
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Damper - rectangular DJP
Technical data
Frequency-related sound effect level
Correction of sound effect level for other damper sizes
DJP-1m2 Sound power level [Lw] [dB]
Duct velocity Pressure dif-ference [Pa]
Centre frequency [Hz] [LWA (A)][dB(A)]125 250 500 1000 2000 4000 8000
2m/s 50 62 60 59 53 50 45 42 60
100 66 64 62 59 57 54 52 65
200 71 65 63 65 65 61 58 70
400 81 80 79 81 81 78 76 86
4m/s 50 65 63 62 56 53 48 45 63
100 69 67 65 62 60 57 54 68
200 74 68 67 68 68 64 60 73
400 84 83 82 84 84 81 79 89
6m/s 50 67 65 63 57 54 49 45 64
100 72 68 67 65 63 58 49 70
200 75 69 68 70 71 66 63 76
400 85 84 83 86 85 83 80 91
8m/s 50 68 66 63 59 56 51 48 65
100 74 73 71 67 65 59 56 73
200 80 80 79 75 75 70 65 82
400 87 86 85 87 87 84 81 92
Area [m²] 0,1 0,2 0,4 0,6 0,8 1,0 1,5 2,0
dB correction -10 -7 -4 -2 -1 0 +2 +3
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Damper - rectangular DCT/DJP
Technical dataDimensioningWhen dimensioning the dampers inherent noise from thedampers and their regulating properties (damper character-istics) must be taken into consideration.If excessively large dampers are used, the working area(angle of rotation) at given Vmin and Vmax may be so limitedthat regulation does not function satisfactorily. Efforts mustbe made to use damper dimensions that result in the largestpossible working areas (angles of rotation).Due to regulation accuracy, working areas with damperangles > 75° should be avoided. The diagram shows thedamper position at given pressure losses and volume flows.
ExampleThe example shows the working area for a Ø250 mmdamper, which works between
Vmax =1,236 m3/h; Δp = 50 Pa
and
Vmin =309 m3/h ; Δp = 100 Pa.
The diagram shows damper positions 31° and 69°.
Correction of sound effect level for other damper sizes
Pressure drop Pa DCT Cirkular damper
Air volume Turning angle
Pressure drop Pa Louvre damper DJP
Air volume Turning angle
α001
α521
α061
α002
α052
α513
α004
α005
0 10 20 30 40 50 60 70 80 90
1000
700
500
400
300
200
150
100
70
50
40
30
20
150 20050 30070 100 500 700 2000 30001000 5000
30 40 50 70 100 150 200 300 500 700 1000l/s
m /h32015
m 50,0
2m 01,0
2m 52,0
2m 05,0
2m 00,1
2
0 10 20 30 40 50 60 70 80 90
1000
700
500
400
300
200
150
100
70
50
40
30
20400150
500
200
700
300
1000 2000
5000500 2000700 1000 3000
5000010000 200005000
10000
3000
l/s
m /h3
586 We reserve the right to make changes without prior notice
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Insert flow gauge FMI
DescriptionInsert flow gauge FMI is a calibrated orifice plate that can beinstalled in circular ducts where it is necessary to measurethe volume flow. The pressure over the gauge is taken fromthe two nipples, and the volume flow is determined usingthe diagram or the accompanying curve constants.
FMI can be installed after duct installation and also in exist-ing systems.
Dimensions
Technical dataThe Volumeflow (q) can be calculated from the following for-mulas:
Order codeProduct FMI aaaTypeFMI
Dimension Ød180 - 630
Example: FMI - 250
Ød1 Ød2 A
mm mm mm80 35 90
100 43 90
125 53 90
160 63 90
200 83 145
250 103 145
315 116 145
400 151 180
500 191 265
630 241 265
Ød1 K1 K2
mm [ m3/h ] [ l/s ]80 11,4 3,18
100 18,7 5,20
125 29,7 8,25
160 51,1 14,20
200 80,3 22,30
250 124,0 34,50
315 211,0 58,50
400 346,0 96,00
500 544,0 151,00
630 875,0 243,00
FLOW
70
A
50
Ød
2
Ød
1
q = k1√ Δp [m3/h] q = k
2 √ Δp [l/s]
Materials and finish:Materials: Galvanised steel and aluminium
Other colours are available. Please contact Lindab’s sales department for further information.
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Insert flow gauge FMI
Velocity app. 5 m/s Velocity app. 7,5 m/s Velocity app. 10 m/sdim
Ød1
Centre frequency [Hz] Centre frequency [Hz] Centre frequency [Hz]125 250 500 1K 2K 4K 8K 125 250 500 1K 2K 4K 8K 125 250 500 1K 2K 4K 8K
Flow 90 m3/h (25 l/s) Flow 135 m3/h (37,5 l/s) Flow 180 m3/h (50 l/s)
80 45 42 37 28 18 13 12 53 48 44 37 27 21 19 59 53 50 44 36 31 27Flow 140 m3/h (39 l/s) Flow 210 m3/h (58 l/s) Flow 280 m3/h (78 l/s)
100 43 40 35 27 19 14 9 53 48 44 36 28 23 18 62 55 51 44 37 33 30Flow 220 m3/h (61 l/s) Flow 330 m3/h (92 l/s) Flow 440 m3/h (122 l/s)
125 47 41 34 27 20 15 13 55 50 44 36 30 26 21 62 57 52 45 41 38 31Flow 360 m3/h (100 l/s) Flow 540 m3/h (150 l/s) Flow 720 m3/h (200 l/s)
160 46 39 33 27 21 16 13 55 48 42 36 31 26 21 62 56 51 44 40 37 30Flow 540 m3/h (150 l/s) Flow 810 m3/h (225 l/s) Flow 1080 m3/h (300 l/s)
200 42 36 31 24 18 20 12 49 46 41 34 29 29 23 55 55 49 44 40 37 35Flow 880 m3/h (244 l/s) Flow 1320 m3/h (367 l/s) Flow 1760 m3/h (488 l/s)
250 47 38 31 28 24 22 18 51 46 40 37 34 32 29 57 52 47 45 43 42 42Flow 1400 m3/h (389 l/s) Flow 2100 m3/h (583 l/s) Flow 2800 m3/h (778 l/s)
315 42 35 31 28 24 22 15 50 43 39 37 33 32 26 55 50 46 45 42 42 39Flow 2200 m3/h (610 l/s) Flow 3300 m3/h (920 l/s) Flow 4400 m3/h (1220 l/s)
400 45 41 34 33 30 26 16 54 48 43 41 39 36 28 61 53 50 48 46 45 42Flow 3500 m3/h (792 l/s) Flow 5200 m3/h (1444 l/s) Flow 7000 m3/h (1944 l/s)
500 38 34 31 30 28 25 17 48 44 41 40 38 35 27 58 54 51 50 48 45 37Flow 5600 m3/h (1556 l/s) Flow 8400 m3/h (2333 l/s) Flow 11200 m3/h (3111 l/s)
630 38 33 31 31 28 26 22 48 43 41 41 38 36 32 58 53 51 51 48 46 42
Technical dataPressure loss – Sound effectThe diagram shows the current pressure loss as a functionof the volume flow and A-weighted sound effect level LWAdB(A) at duct. Frequency-related sound effect at duct isshown in the table below.
4540
35
30
25LA dB(A)
125100 160 200 250 31580 400500
630
2001501007050403020151075432
1
200
50
30 40 50
1510
70 100 150
20 30 40
300
100
500 700
15070l/s
m3/h1000
200 300
2000
500 700 1000
3000 5000 10000 15000
2000 3000
Pressure drop Δpt
LWAdB(A)
Measurement accuracyThe length of the straight section of ducting required as aminimum to limit the method error to 5% or 10% respec-tively is shown in the chart, (d1 is nom. duct dimension).
*) “Tee-Piece” here means a circular joint consisting of a Tee-piece or an attachment.
Components: 5% 10%Bend 6 x d1 0 x d1
Tee-piece * 5 x d1 0 x d1
Damper 6 x d1 4 x d1