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Operating instructions

A3G800-AG02-03

Translation of the original operating instructions

3.2 Nominal data

Motor

M3G150-FF

Phase

3~

Nominal voltage / VAC

400

Nominal voltage
range / VAC

380 .. 480

Frequency / Hz

50/60

Type of data definition

ml

Speed / min

-1

830

Power input / W

1350

Current draw / A

2.2

Max. back pressure / Pa

155

Min. ambient temperature
/ °C

-25

Max. ambient
temperature
/ °C

60

ml = Max. load · me = Max. efficiency · fa = Running at free air

cs = Customer specs · cu = Customer unit

Subject to alterations

3.3 Data according to ErP directive

Installation category

A

Efficiency category

Static

Variable speed drive

Yes

Specific ratio

*

1.00

*

Specific ratio = 1 + p

fs

/ 100 000 Pa

Actual

Request
2013

Request
2015

Overall efficiency η

es

/ %

45.9

30.3

34.3

Efficiency grade N

51.6

36

40

Power input P

ed

/ kW

1.24

Air flow q

v

/ m³/h

14305

Pressure increase total p

sf

/ Pa

133

Speed n / min

-1

835

Data definition with optimum efficiency.

The ErP data is determined using a motor-impeller combination in a standardised

measurement configuration.

3.4 Technical features

Mass

28 kg

Size

800 mm

Surface of rotor

Coated in black

Material of electronics
housing

Die-cast aluminium

Material of blades

Die-cast aluminium

Number of blades

5

Blade angle

Direction of air flow

"V"

Direction of rotation

Clockwise, seen on rotor

Type of protection

IP 54

Insulation class

"F"

Humidity class

F4-1

Mounting position

Shaft horizontal or rotor on bottom; rotor
on top on request

Condensate discharge
holes

Rotor-side

Operation mode

S1

Motor bearing

Ball bearing

Technical features

- PFC, passive
- Control input 0-10 VDC / PWM
- Over-temperature protected
electronics / motor
- Alarm relay
- Integrated PID controller
- Input for sensor 0-10 V or 4-20 mA
- Output for slave 0-10 V
- RS485 ebmBUS
- Motor current limit
- Soft start
- Line undervoltage / phase failure
detection
- Output 10 VDC, max. 10 mA
- Output 20 VDC, max. 50 mA

Touch current acc.
IEC 60990 (measuring
network Fig. 4, TN
system)

<= 3.5 mA

Electrical leads

Via terminal box

Motor protection

Reverse polarity and locked-rotor
protection

Protection class

I (if protective earth is connected by
customer)

Product conforming
to standard

EN 61800-5-1; CE

Approval

CSA C22.2 Nr.77; EAC; UL 2111; VDE

For cyclic speed loads, note that the rotating parts of the device
are designed for maximum one million load cycles. If you have
specific questions, contact ebm-papst for support.

3.5 Mounting data

;

Secure the mounting screws against accidentally coming loose (e.g.
by using self-locking screws).

Strength class for
mounting screws

8.8

You can obtain additional mounting data from the product drawing if
necessary.

3.6 Transport and storage conditions

;

Use the device in accordance with its protection type.

Max. permissible
ambient motor temp.
(transp./ storage)

+80 °C

Min. permissible
ambient motor temp.
(transp./storage)

-40 °C

Item no. 50415-5-9970 · Revision 82539 · Release 2014-05-08 · Page 5 / 12

ebm-papst Mulfingen GmbH & Co. KG · Bachmühle 2 · D-74673 Mulfingen · Phone +49 (0) 7938 81-0 · Fax +49 (0) 7938 81-110 · [email protected] · www.ebmpapst.com

Summary of Contents for A3G800-AG02-03

Page 1: ...rry out a test run and to perform work on the electrical installation 1 3 Basic safety rules 1 1 3 Basic safety rules Any safety hazards stemming from the device must be re evaluated once it is instal...

Page 2: ...DANGER Flying parts Missing safety devices may cause balancing weights or broken fan blades to be ejected at high speeds causing bodily harm Take appropriate safety measures WARNING Rotating device Lo...

Page 3: ...arly prohibited and may cause hazards Operating the device with an imbalance e g caused by dirt deposits or icing Operation in medical equipment with a life sustaining or lifesaving function Operation...

Page 4: ...1 Direction of air flow V 2 Cable diameter min 4 mm max 10 mm tightening torque 4 0 6 Nm 3 Depth of screw max 25 mm 4 Tightening torque 3 5 0 5 Nm Item no 50415 5 9970 Revision 82539 Release 2014 05...

Page 5: ...ttom rotor on top on request Condensate discharge holes Rotor side Operation mode S1 Motor bearing Ball bearing Technical features PFC passive Control input 0 10 VDC PWM Over temperature protected ele...

Page 6: ...ther Check the device for transport damage Damaged devices must no longer be installed Install the undamaged device according to your application 4 2 Connecting the electrical system DANGER Electric v...

Page 7: ...ross section VDE UL VDE mm AWG 3 PE AC 380 480 VAC 16 A 15 A C16A 1 5 16 3 PE AC 380 480 VAC 20 A 20 A C20A 2 5 14 3 PE AC 380 480 VAC 25 A 25 A C25A 4 0 12 3 PE AC 380 480 VAC 32 A 30 A C32A 6 0 10 A...

Page 8: ...nnecting the wires to terminals Seal the terminal box 4 3 3 Cable routing No water may penetrate along the cable in the direction of the cable gland Fans installed lying flat Make sure that the cable...

Page 9: ...quate to 100 level control coefficient KL3 2 8 GND Reference mass for control interface SELV KL3 3 7 0 10 V Use control actual value input 0 10 VDC impedance 100 k only as alternative to 4 20 mA input...

Page 10: ...remove any that are found Apply the nominal voltage to the voltage supply Start the device by changing the input signal 4 8 Switching off the device Switching off the device during operation Switch of...

Page 11: ...ge Switch off de energise and remove mechanical blockage Mains supply voltage faulty Check mains supply voltage restore power supply Important The error message resets automatically The device starts...

Page 12: ...tive casing against accidental contact for damage and to ensure that it is intact Visual inspection At least every 6 months Repair or replacement of the device Check the device for damage to blades an...

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