Ventilation in balance technical data AML, AMP & CV RANGE
CONTENTS intelligent ventilation Ventilation in balance 4 AML and AMP series 6 CV series 8 Correct placing 10 Input principle 12 intelligent Ventilation Our philosophy is that our products should be the most energy efficient on the market.
intelligent Ventilation Intelligent ventilation t ac tr in le t ex ex t us ha f r h ai r es LOW ENERGY CONSUMPTION No draughts or cold air discomfort WITH HIGH HEAT RECOVERY Airmaster's decentralised ventilation units are all The decentralised unit with heat exchanger is fitted with motor-controlled air dampers for the placed in the room close to an outer wall. The very supply and exhaust air.
intelligent Ventilation AmL & AMP series Both series consist of a range of decentralised ventilation units, which are particularly suited to commercial buildings and institutions.
The CV series is an energy-efficient decentralised ventilation unit, designed for homes. The units are compact ventilation solutions, with a low noise level, low energy consumption and flexible installation. CV 80 R CV 80 L Inlet, extraction and intake are placed on the right side Inlet, extraction and intake are placed on the left side of of the unit. Exhaust is placed on the left side of the unit. the unit. Exhaust is placed on the right side of the unit.
3 such as light fittings installed directly in the ceiling, should be avoided. Light fittings should be lowered so that the inlet has free access to the room. To get the full benefit of the Airmaster units, the units must be located correctly according to the physical geometry of the room. 4 1 2 Where people will be located in close physical proximity to a unit, it is important to use wall-mounted or floor-mounted models using the mixing principle as this avoids the occurrence of draughts.
intelligent Ventilation Correct selection and location of the unit ensures optimum inlet. Airmaster's mixing principle The fresh inlet tends to run along the ceiling, before slowly descending - known as the Coanda effect. The Coanda effect means that fresh air is mixed with ambient air and then slowly descends into the room. Inlet stream The Coanda effect causes the stream to stick to the ceiling.
intelligent Ventilation Inlet for floor-mounted units The mixing principle is also used in Airmaster’s floor-mounted models (AMP 900, AMP 1200) where fresh air is supplied upwards in order to achieve the coanda effect. Adjustable supply The floor-mounted models, AMP 900 and AMP 1200, Floor-mounted AMP 900 – mixing ventilation. are equipped with adjustable grilles. The grilles can be adjusted as required to ensure the right throw, depending on the size of the room.
controls Airlinq intelligent control Airlinq's unique control functions: Airmaster focuses not only on the ventilation unit, but also on the control system software and operation. data log Airlinq PC Tools A new and unique function which logs Your unit can be monitored and adju- all major operating and room data, e.g.: sted from a PC, using the Airlinq User • Inlet temperature Tool.
controls Airlinq L control panel Control functions for Airlinq L Manual start, stop Setting air volume Display of warnings and standby. via touch function and alarms by red or on the front. yellow symbols. Automatic Child lock. Control using Airlinq L is designed to be perfect for any requirement for optimal ventilation with minimal manual control. Holiday mode - a function to ensure basic ventilation A operation lock. with reduced air volume.
controls L - Control system No draughts or cold air discomfort Sensors • Automatic bypass control to maintain • On-demand air volume according to air humi- inlet temperature. dity via electronic humidity sensors for outdoor • Control of motorised damper. and exhaust air, to ensure optimal air humidity indoors. The control functions for the L control system software are described below: • On-demand air volume linked to CO2 level, using a CO2 sensor. • Integrated 13.5 Volt power supply to sensors.
controls Airlinq P control panel Control functions for Airlinq P Operation using Airlinq P is perfect when more comprehensive and easier access is required to control normal ventilation operation. Manual start, stop and Setting of all major Setting air volume via standby. operating parameters touch function on the Manual start and stop of an using an automatic front. individual group or entire startup guide. system for Airlinq CTS.
controls P - Control system The control functions for the P control system software are described below: Night time cooling Sensors Independent, automatic • On-demand air volume linked to CO2 level, using a night time cooling. The pro- CO2 sensor. gram can be adapted to suit • Integrated 12 Volt power supply to multiple customer requirements. sensors. • Integrated 24 Volt power supply to single sensor. • 3 analogue and 3 digital inputs for sensors.
controls Network with Airmaster Digital BMS Network control can be performed using Airlinq CTS, with which up to 20 units can be controlled from a single control panel. Units with identical settings and the same control requirements can be grouped using sensors to increase flexibility and reduce costs. A BMS (Building Management System) net- The units can also run fully automatically, but work makes it possible to keep all the benefits it can be monitored using a BMS network.
controls control processes WITH SENSORS To follow is a look at the different advanced control processes. control via CO2 sensor A CO2 sensor measures the CO2 level in the room, and sends the reading to the control system. The control system then adjusts the rate of air replacement in the room according to the CO2 level, reducing the unit's energy consumption to the minimum.
controls control processes Dealing with condensate When heat recovery is running up to 95%, the exhaust air is cooled considerably in the counterflow heat We supply units all over Europe. Consequently, we know that our units have to function effectively under very different outdoor temperatures - ranging from -25°C and up to 35°C. control via a Hygrostat built-in electric humidity sensor It should be possible to regulate ventilation according exchanger.
controls control processes WITH heaters Controlled inlet temperature To achieve the highest level of heat recovery, Airmaster ventilation units are fitted with highly-efficient counterflow heat exchangers. A comfort heater (which can be fitted to all Airmaster units) is therefore only used to align minimal heat loss with ventilation. Balanced ventilation is maintained as long as the inlet temperature remains within acceptable limits as standard.
controls control processes for cooling AUTOMATIC BYPASS If the inlet temperature exceeds the level set, the Airlinq control system will gradually open the bypass. Cooler outdoor air will be allowed to bypass the counterflow heat exchanger, ensuring that the inlet temperature set is maintained. Airlinq will adjust the inlet temperature to achieve a higher cooling effect. If the room temperature exceeds the level set, e.g. as a result of strong sunshine, the bypass will open automatically.
technical DATA The AML 100 is the smallest Max. capacity at 30 dB(A) 75 m³/h Max. capacity at 35 dB(A) 100 m³/h Throw (0,2 m/s) 3.5 m at 75 m³/h of our decentralised ventila- 5.5 m at 100 m³/h tion units with heat recovery. The AML 100 is dimensioned for an air volume of up to ap- Electrical connection 1 ~ 230 V + N + PE / 50 Hz prox.
capacity (%) SCHEMATIC DIAGRAM - left Sound pressure level (dB(A)) 100 35 90 33 30 dBA 80 31 35 dBA 70 29 60 27 50 25 40 23 30 21 20 19 10 20 30 40 50 60 70 80 90 RT EXTRACTION F1 30 40 50 60 Airflow (m3/h) 70 80 90 100 ET EXHAUST SFP W/(m3/s) 1300 28 BP 26 24 FT 1200 22 20 INTAKE 1100 18 16 IF OT CT F2 MD ET CH IT Exhaust temperature sensor Comfort heating surface Inlet temperature sensor CP BP 1000 14 Inlet EF Airflow (m3/h) Power consum
AML 100 hr AMl 100 hl 40 aml 100 vr product information amL 100 AML 100 aml 100 vl 41
Once the temperature and CO2 level of the room become too high, the sense of well-being decreases and productivity drops. There is also an increased risk of absence through illness. technical DATA Max. capacity at 30 dB(A) 240 m³/h Max. capacity at 35 dB(A) 300 m³/h Throw (0,15 m/s) 4.8 m at 160 m³/h This ventilation unit is ideal for office buildings and institutions. 5.7 m at 220 m³/h A Virtual Preheater (VPH) can 6.5 m at 300 m³/h be used.
product information amL 300 / AMP 300 AML 300 / AMP 300 capacity (%) Sound pressure level (dB(A)) SCHEMATIC DIAGRAM 40 100 30 dBA 80 35 35 dBA EXHAUST T=0,9 s 60 30 INTAKE T=0,6 s 40 25 20 with cooling module 20 0 60 100 140 180 220 260 140 300 160 180 200 Airflow (m /h) 220 240 260 280 IF ED 300 Airflow (m /h) 3 3 SD F2 Power consumption (W) OT SFP W/(m3/s) 140 1600 120 1400 PE BP ET 1200 100 80 EF BP HE 1000 800 60 EXTRACTION 600 40 400 20 200
cc 300 cooling unit AML 300 HT / AMP 300 HT cooling capacity (W) TECHNICAL DATA AML 300 VT / AMP 300 vT 46 2400 Maximum cooling capacity 2314 W Refrigerant R407c 2000 Filling 0,575 kg 1800 Operating current 3,6 A Power consumption 868 W Electrical connection 1x230 V AC 50 Hz Duct connection Ø200 mm Condensate drain Ø16 mm De-icing interval 2h De-icing period 5°C or 10 min.
technical DATA Investigations repeatedly confirm that poor indoor climate inhibits learning – as do noisy ventilation systems. This ventilation unit is desig- Max. capacity at 30 dB(A) 430 m³/h Max. capacity at 35 dB(A) 550 m³/h Throw (0,15 m/s) 5 m at 350 m³/h ned for medium-sized rooms. Horizontal or vertical models will be used depending on the 5.9 m at 450 m³/h room and location of the unit.
capacity (%) Sound pressure level (dB(A)) 100 SCHEMATIC DIAGRAM 40 80 EXHAUST 35 35 dBA 30 dBA 60 INTAKE T=0,9 s 35 dBA 30 40 T=0,6 s 25 20 + with cooling module ED 20 0 50 100 150 200 250 300 350 400 450 500 200 550 250 300 350 400 450 500 550 3 Luftmængde (m3/h) Airflow (m /h) Airflow (m3/h) Power consumption (W) SFP W/(m3/s) 160 1400 120 1200 100 1000 80 800 60 600 40 400 20 0 50 150 250 350 450 BP EF BP HE EXTRACTION RT with cooling modu
cc 500 cooling unit aml 500 ht / amP 500 ht Technical data aml 500 vT / aml 500 vT 52 Cooling capacity (W) Maximum cooling capacity 4065 W Refrigerant R407c Filling 0.700 kg Operating current 4.4 A Power consumption 1033 W Electrical connection 1x230 V AC 50 Hz Duct connection Ø250 mm Condensate drain Ø16 mm De-icing interval 2h De-icing period 5°C or 10 minutes Weight 71,4 kg COP value 4.
technical DATA Human beings are sensitive to changes in the air: There has to be a natural equilibrium between the temperature, oxygen and CO2 content for us to feel comfortable. This ventilation unit is de- Max. capacity at 30 dB(A) 650 m³/h Max. capacity at 35 dB(A) 725 m³/h Throw (0,15 m/s) 6.5 m at 500 m³/h thus perfect for classrooms. 7.4 m at 600 m³/h Horizontal or vertical models 8.
capacity (%) SCHEMATIC DIAGRAM Sound pressure level (dB(A)) 40 100 35 dBA 80 35 35 dBA 60 30 dBA INTAKE T=0,9 s EXHAUST 30 T=0,6 s 40 25 20 + PHS with cooling module 20 0 150 200 250 300 350 400 450 500 550 600 650 700 750 400 450 500 550 Airflow (m3/h) 600 650 700 Airflow (m3/h) Power consumption (W) ED IF 750 F1 PI SD OT SFP W/(m3/s) F2 PE 800 750 700 160 140 120 BP 650 600 100 EXTRACTION 550 500 80 60 HE 450 400 40 20 BP 350 300 0 200 250 3
cc 800 cooling unit aml 800 ht / amp 800 ht Cooling capacity (W) TECHNICAL DATA aml 800 Vt / amP 800 vt 58 Maximum cooling capacity 5622 W Refrigerant R407c Filling 0.950 kg Operating current 10.8 A Power consumption 1991 W Electrical connection 1x230 V AC 50 Hz Duct connection Ø315 mm Condensate drain Ø16 mm De-icing interval 2h De-icing period 5°C or 10 minutes Weight 86 kg COP value 2.
Decentralised ventilation gives you the freedom to change your mind. The ventilation can be easily reconfigured if the rooms are to be used for a different purpose. technical DATA The AMP 900 is available in two main models: mixer and Normal capacity, mixing Normal capacity, displacement Mixing, throw (0.15 m/s) 690 m³/h at 30 dB(A) forced ventilation.
Standard and options AMp 900 vm Mixing amp 900 HM Mixing AMp 900 vd Displacement amp 900 Hd Displacement Bypass • • • • Electric preheating surface • • • • Electric comfort heating surface • • • • Water heating surface (comfort heating) • • – – CO2-sensor (wall-mounted) • • • • CO2-sensor (integrated) • • • • PIR/motion sensor • • • • Hygrostat • • • • Condensate pump • • • • Cooling module – – – – Motorised exhaust damper x x x x Motorised main da
64 amp 900 hm amp 900 Hd amp 900 vm amp 900 vd product information amP 900 AMP 900 65
Throw - Mixing (0,15 m/s) roof cap 0m 12m The Airmaster units provide different air throw lengths depending on inlet volume. The blue tones on the illustration on the left show the airflow at different throws. 1 Throw viewed from above product information amP 900 AMP 900 The throw and distribution of the inlet in the room can be adapted to the geometry of the room by adjusting the supply opening. min. 7 m max.
AMP 1200 product information amP 1200 The wide range of options function and design Ventilation should not always just be a technical necessity. It can also play a part in the function of a room. The AMP 1200 is a concept within decentralised ventilation which combines fresh air with elegant design, which can be used for a lot more than you might believe. The AMP 1200 is a floormounted unit, available in horizontal and vertical models.
product information amP 1200 AMP 1200 technical DATA Capacity: Water heating surface (option) 35 dB(A) 30 dB(A) Horizontal model right/left 1180 m3/h 930 m3/h centre 1310 m3/h 1050 m3/h Vertical model, Ø400 mm right/left 1130 m3/h 870 m3/h centre 1260 m3/h 980 m3/h right/left 1060 m3/h 820 m3/h centre 1170 m3/h 920 m3/h Max. operating temperature 90° C Max.
product information amP 1200 AMP 1200 Variants SCHEMATIC DIAGRAM LF2 LF3 LF2 LF3 EXHAUST CF3 CF4 CF3 CF4 ED INTAKE PH IF RF2 RF2 RF3 RF3 SD F2 AMP 1200 VRF2 (right, with 2 open sides) AMP 1200HRF2 (right, with 2 open sides) PE AMP 1200 VRF3 (right, with 3 open sides) AMP 1200HRF3 (right, with 3 open sides) AMP 1200 VCF3 (centre, with 3 open sides) AMP 1200HCF3 (centre, with 3 open sides) ET AMP 1200 VCF4 (centre, with 4 open sides) AMP 1200HCF4 (centre, with 4 open sides) AMP
v capacity (%) - Ø400 mm h capacity (%) 100 100 90 90 80 80 70 70 60 60 Centre 35 dBA 50 400 500 600 700 800 900 1000 1100 1200 Centre 30 dBA 30 Right/left 30 dBA 20 Right/left 35 dBA 40 Centre 30 dBA 30 Centre 35 dBA 50 Right/left 35 dBA 40 300 h External pressure drop (Pa) - fresh air 1300 20 300 Right/left 30 dBA 400 500 600 700 Airflow (m3/h) 90 80 70 60 Centre 35 dBA 50 Right/left 35 dBA 40 Centre 30 dBA 30 Right/left 30 dBA 20 500 600 700 800 900
amp 1200 hc amp 1200 hr product information amP 1200 AMP 1200 amp 1200 hl 76 77
amp 1200 vc amp 1200 vr amp 1200 vl Roof cap Ø315 product information amP 1200 AMP 1200 A panel box is available to conceal the intake and exhaust for the roof cap module. Standard colour: white.
technical DATA The CV 80 is for use in small Normal capacity at 30 dB(A) 80 m³/h Electrical connection 1 ~ 230 V + N + PE / 50 Hz Duct connection Ø125 mm Weight 30 kg Heat exchanger Countercurrent exchanger (alu) Use of the F7 fresh air filter Filter F5 standard, F7 option provides balanced ventilation Colour RAL 9010 (white) thanks to parameter adjust- Current 0.16 A Supply cable 1.5 mm² Max. power consumption 19.
capacity (%) Sound pressure level (dB(A)) 100 NOISE EFFECT LEVEL Average frequency (Hz) Case* Standard flow 80 m3/h 32 Pa back pressure MAXIMUM FLOW 90 m3/h 42 Pa back pressure LpA/ 1 m distance 70 250 500 1000 2000 4000 8000 dB(A) dB(A) 60 28 31 32 25 27.4 21.4 19.6 18.5 36.7 29.8 50 45 49 49 39 41.6 31.1 23 16.4 53.3 36 42 42 36 29 12.1 0.1 -6.8 45.9 Intake** 43 48 48 33 26.1 12.3 6.63 4.02 51.8 Exhaust** 39 50 52 46 47.7 39.8 31.5 20.
The CV 80 is installed above the ceiling in the bathroom. Bathroom Hall Livingroom Kitchen Intake Inlet Exhaust Extraction Bedroom Intake and exhaust through the wall grille in the exterior wall. product information CV 80 Installation of CV 80 TWO BEDROOM APARTMENT Livingroom Kitchen one BEDROOM APARTMENT Balcony The CV 80 is installed above the ceiling in the bathroom. Bathroom Intake and exhaust through the wall grille in the exterior wall.
FOR ORDERING Type Flow CV Extraction Intake R 80 B (right side) (back) L T (left side) (top) Exhaust Grille G0 B (standard) 2 x Ø125 (back) G1 T (extraction grille) Ø125 + grille (top) One verison from each column S can be selected.
88 RTT Extraction right - intake top - exhaust top Rss Extraction right - intake side - exhaust side LTT Extraction left - intake top - exhaust top lss Extraction left - intake side - exhaust side product information CV 80 cv 80 89
Technical data Capacity: CV 200 R CV 200 L CV 200 C Maximum capacity at 50 Pa external pressure drop 250 m3/h 342 m3/h 342 m3/h Maximum capacity at 50 Pa external pressure drop and 1000 SFP W/(m3/s) 250 m /h 273 m /h 285 m /h The CV 200 is the perfect ventilation unit for ventilating large apartments or homes of up to approx. 150 m2.
product information CV 200 cv 200 1: According to: EN308 (without condensation) Temperature efficiency (%) 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 SCHEMATIC DIAGRAM RT EHS EXTRACTION F1 IT Conditions: Outdoor air: 50 % RH Conditions: 1 100 150 200 250 Balanced operation Indoor air: 25 °C 55 % RH Outdoor air: -10 °C 50 % RH Inlet ET SOUND ENERGY LEVEL - cabinet Sound energy level - cabinet (dB(A)) 140 BP 120 FT OT EHS IF INTAKE 28 % RH 5 °C 2: With condensation
product information CV 200 Examples of use for four room apartment Intake and exhaust pass Bedroom through the outer wall, and are covered by a facade grille. CV 200 Livingroom Bedroom Bedroom Kitchen Bathroom CV 200 The CV 200 is the perfect ventilation unit for ventilating large apartments or homes of up to approx. 150 m 2.
cv 200 R CV 200 C product information CV 200 cv 200 CV200 L 96 97
Technical data The CV 1000 is a compact, Capacity: CV 1000 Maximum capacity at 50 Pa external pressure drop 1100 m3/h Maximum capacity at 50 Pa external pressure drop and 1000 SFP W/(m3/s) 1011 m3/h Electrical connection without comfort heating surface 1 ~ 230 V + N + PE / 50 Hz either vertical or horizontal Electrical connection with comfort heating surface 3 ~ 230 V + N + PE / 50 Hz type of ceiling and space Duct connection Ø315 mm Condensate drain Ø16 mm Weight 210 kg Heat exchanger C
product information CV 1000 cv 1000 SFP W/(m3/s)* 400 SCHEMATIC DIAGRAM 2400 350 Add extra pressure loss for F7 inlet filter. 2200 300 CT PI CP PE F1 CH IT P = SFP ∙ q v/3600 [W]; 1000 800 100 (SFP from diagram and q v = flow i m 3/h) 600 50 0 200 300 400 500 600 700 800 900 1000 1100 1200 RT 1: According to: EN308 (without condensation) Temperature efficiency ratio (%) 96 BP IF Conditions: 94 EF INTAKE * Specific electricity consumption for air transport.
cv 1000 CV 1000 H CV 1000 The CV 1000 is the perfect ventilation unit for ventilating large buildings, such as office buildings, schools or fitness centres. product information CV 1000 Examples of use for office building CV 1000 mounted on the ceiling in a plant room. Intake runs through a facade grille in the outer wall, with exhaust above roof level. Air supplied to canteen, offices and changing rooms, and extraction from offices, canteen, showers and toilets.
Ød Ød Roof flashing product information Roof penetration sheathing and fittings Ød AML 100 / CV 80 250 CV 200 260 AML 300 / AMP 300 315 AML 500 / AMP 500 355 AML 800 / AMP 800 AMP 900 / AMP 1200 CV1000 450 AMP 1200 500 Ød = internal diameter Roof flashing is available in galvanised metal or as grey Perform sheeting; both come with a galvanised metal pipe collar Also available in black, at extra charge. Sound absorber used if there are special requirements for sound-proofing, e.g.
H roof penetration kit product information Exhaust cap Ød Ød ØD H AML 100 / CV 80 125 250 230 CV 200 160 260 310 AML 300 / AMP 300 200 315 380 AML 500 / AMP 500 250 355 437 AML 800 / AMP 800 AMP 900 CV 1000 315 450 540 AMP 1200 400 500 700 ØD A full roof penetration kit consists of 2 pieces of insulated penetration ducting, 2 roof flashing items, 1 exhaust cap, 1 louvred cap, 2 connectors and 3 metres of spiral pipe.
product information technical data summary AM L 100 300 500 800 AM P 300 500 800 900 1200 Capacity at 35 dB(A) (max.) m 3/h 100 300 550 725 Capacity at 35 dB(A) (max.) m 3/h 300 550 725 830 1310 Capacity at 30 dB(A) (max.) m 3/h 75 240 430 650 Capacity at 30 dB(A) (max.) m 3/h 240 430 650 690 1050 Throw (max.) m 5.5 6.5 7.5 8.1 Throw (max.) m 6.5 7.5 8.1 12 9.5 Weight (ventilation unit without options) kg 42 49.8 100.
CV 80 200 1000 Capacity at 30 dB(A) (max.) m 3/h 80 R:250, L&C: 342 1100 Weight (ventilation unit without options) kg 30 R&L: 72, C: 66 210 Colour, case RAL 9010 9010 9010 Dimensions (L/H/D) mm 1170x275x560 R&L: 1222x303x861 C: 1336x303x656 H:1498x424x1384 S:1512x501x1385 Voltage (unit) V 1~230 1~230 1~230 Frequency Hz 50 50 50 Power consumption (max.) W 19.5 160 333 Current A 0.16 1.2 2.6 0.60 0.60 0.60 Power factor Leakage current (max.
Industrivej 59 Tel. +45 98 62 48 22 DK - 9600 Aars Fax. +45 98 62 57 77 Denmark info@airmaster.dk SAV United Kingdom Ltd. Tel. Woking, Surrey GU21 5BX +44 (0) 1483 771 910 +44 (0) 1483 227 519 info@sav-systems.com www.sav-systems.com Errors, omissions and changes excepted. Go to www.airmaster.dk for updated documentation, sales and delivery terms. Scandia House, Boundary Road Fax. www.airmaster.
