Vlt Hvac Basic Drive Fc 101

45
MAKING MODERN LIVING POSSIBLE Quick Guide VLT® HVAC Basic Drive FC 101 Downloaded from www.Manualslib.com manuals search engine

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Page 1: Vlt Hvac Basic Drive Fc 101

MAKING MODERN LIVING POSSIBLE

QQuick GuideVLT® HVAC Basic Drive FC 101

www.danfoss.com/drives

*MG18A402*132R0078 MG18A402 Rev. 2012-03-23

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Contents

1 Quick Guide 2

1.1 Safety 2

1.1.1 Warnings 2

1.1.2 Safety Instructions 2

1.2 Introduction 3

1.2.1 Available Literature 3

1.2.2 Approvals 3

1.2.3 IT Mains 3

1.2.4 Avoid Unintended Start 4

1.2.5 Disposal Instruction 4

1.3 Installation 4

1.3.1 Before Starting Repair Work 4

1.3.2 Side-by-Side Installation 4

1.3.3 Dimensions 5

1.3.4 Electrical Installation in General 6

1.3.5 Connecting to Mains and Motor 7

1.3.6 Fuses 13

1.3.7 EMC-Correct Electrical Installation 15

1.3.8 Control Terminals 17

1.3.9 Electrical Overview 18

1.4 Programming 19

1.4.1 Programming with the Local Control Panel (LCP) 19

1.4.3 The Start-up Wizard for Open Loop Applications 20

1.5.1 Main menu structure 30

1.6 Warnings and Alarms 32

1.7 General Specifications 34

1.7.1 Mains Supply 3x200-240 V AC 34

1.7.2 Mains Supply 3x380-480 V AC 35

1.7.3 Mains Supply 3x380-480 V AC 37

1.7.4 Mains Supply 3x525-600 V AC 39

1.8 Special Conditions 43

1.8.1 Derating for Ambient Temperature and Switching Frequency 43

1.8.2 Derating for Low Air Pressure 43

1.9 Options for VLT® HVAC Basic Drive FC 101 43

1.10 MCT 10 Support 43

Contents VLT® HVAC Basic Drive Quick Guide

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1 Quick Guide

1.1 Safety

1.1.1 Warnings

WARNINGHigh Voltage WarningThe voltage of the frequency converter is dangerouswhenever it is connected to mains. Incorrect installation ofthe motor or frequency converter may cause damage tothe equipment, serious injury or death. Consequently, it isessential to comply with the instructions in this manual aswell as local and national rules and safety regulations.

WARNINGDISCHARGE TIME!Frequency converters contain DC-link capacitors that canremain charged even when the frequency converter is notpowered. To avoid electrical hazards, disconnect AC mains,any permanent magnet type motors, and any remote DC-link power supplies, including battery backups, UPS andDC-link connections to other frequency converters. Wait forthe capacitors to fully discharge before performing anyservice or repair work. The amount of wait time is listed inthe Discharge Time table. Failure to wait the specified timeafter power has been removed before doing service orrepair could result in death or serious injury.

Voltage [V] Power range [kW] Minimum waiting time[min]

3x200 0.25–3.7 4

3x200 5.5–11 15

3x400 0.37–7.5 4

3x400 11–90 15

3x600 2.2–7.5 4

3x600 11–90 15

Table 1.1 Discharge Time

CAUTIONLeakage Current:The earth leakage current from the frequency converterexceeds 3.5 mA. According to IEC 61800-5-1 a reinforcedProtective Earth connection must be ensured with a min.10 mm² Cu or an additional PE wire - with the same cablecross section as the Mains wiring - must be terminatedseparately.Residual Current Device:This product can cause a DC current in the protectiveconductor. Where a residual current device (RCD) is usedfor extra protection, only an RCD of Type B (time delayed)shall be used on the supply side of this product. See alsoDanfoss Application Note on RCD, MN90G.Protective earthing of the frequency converter and the useof RCDs must always follow national and local regulations.

Motor thermal protection:Motor overload protection is possible by setting Parameter1-90 Motor thermal protection to the value ElectronicThermal Relay (ETR) trip.

WARNINGInstallation at high altitudesFor altitudes above 2 km, contact Danfoss regarding PELV.

1.1.2 Safety Instructions

• Make sure the frequency converter is properlyconnected to earth.

• Do not remove mains connections, motorconnections or other power connections whilethe frequency converter is connected to power.

• Protect users against supply voltage.

• Protect the motor against overloading accordingto national and local regulations.

• The earth leakage current exceeds 3.5 mA.

• The [Off/Reset] key is not a safety switch. It doesnot disconnect the frequency converter frommains.

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1.2 Introduction

1.2.1 Available Literature

This Quick Guide contains the basic information necessaryfor installing and running the frequency converter. If moreinformation is needed, literature can be found on theenclosed cd or downloaded from:www.danfoss.com/BusinessAreas/DrivesSolutions/Documen-tations/Technical+Documentation.htm

1.2.2 Approvals

Table 1.2

IP54 enclosure frequency converterdo not have UL approvals.

Table 1.3

1.2.3 IT Mains

CAUTIONIT MainsInstallation on isolated mains source, that is, IT mains.Max. supply voltage allowed when connected to mains:440 V (3x380-480 V units).

On IP20 200-240 V 0.25-11 kW and 380-480 V IP20 0.37-22kW, open the RFI switch by removing the screw on theside of the frequency converter when at IT grid.

130B

B612

.10

1

Illustration 1.1 IP20 200-240 V 0.25-11 kW, IP20 0.37-22 kW380-480 V.

1 EMC screw

Table 1.4

130B

C25

1.10

Illustration 1.2 IP54 400 V 0.75-18.5 kW

1 EMC screw

Table 1.5

On all units, set to [Off] when operating in IT mains.

CAUTIONIf reinserted, only use M3x12 screw.

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1.2.4 Avoid Unintended Start

While the frequency converter is connected to mains, themotor can be started/stopped using digital commands, buscommands, references or via the LCP.

• Disconnect the frequency converter from mainswhenever personal safety considerations make itnecessary to avoid unintended start of anymotors.

• To avoid unintended start, always press [Off/Reset] before changing parameters.

1.2.5 Disposal Instruction

Equipment containing electrical componentsmust not be disposed of together with domesticwaste.It must be separately collected with electricaland electronic waste according to local andcurrently valid legislation.

Table 1.6

1.3 Installation

1.3.1 Before Starting Repair Work

1. Disconnect FC 101 from mains (and external DCsupply, if present).

2. Wait as stated in Table 1.1 for discharge of theDC-link.

3. Remove motor cable.

1.3.2 Side-by-Side Installation

The frequency converter can be mounted side-by-side andrequires the clearance above and below for cooling.

Power [kW] Clearance above/below [mm/inch]

Frame IP class 3x200-240 V 3x380-480 V 3x525-600 V

H1 IP20 0.25-1.5 0.37-1.5 100/4

H2 IP20 2.2 2.2-4 100/4

H3 IP20 3.7 5.5-7.5 100/4

H4 IP20 5.5-7.5 11-15 100/4

H5 IP20 11 18.5-22 100/4

H6 IP20 15-18.5 30-45 18.5-30 200/7.9

H7 IP20 22-30 55-75 37-55 200/7.9

H8 IP20 37-45 90 75-90 225/8.9

H9 IP20 2.2-7.5 100/4

H10 IP20 11-15 200/7.9

Table 1.7

NOTEWith IP21/Nema Type1 option kit mounted, a distance of50 mm between the units is required.

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1.3.3 Dimensions

Aa

bB

C

0 D

130B

B614

.10

e

fa

d

e

130B

C205

.10

e

fa

e

130B

C246

.10

Table 1.8

Enclosure Power [kW] Height [mm] Width [mm] Depth[mm]

Mounting hole[mm]

Max.Weig

ht

Frame IP Class 3x200-240 V 3x380-480 V 3x525-600 V A "A incl De-coupling

Plate"

a B b C d e f kg

H1 IP20 0.25-1.5 0.37-1.5 195 273 183 75 56 168 9 4.5 5.3 2.1

H2 IP20 2.2 2.2-4.0 227 303 212 90 65 190 11 5.5 7.4 3.4

H3 IP20 3.7 5.5-7.5 255 329 240 100 74 206 11 5.5 8.1 4.5

H4 IP20 5.5-7.5 11-15 296 359 275 135 105 241 12.6 7 8.4 7.9

H5 IP20 11 18.5-22 334 402 314 150 120 255 12.6 7 8.5 9.5

H6 IP20 15-18.5 30-45 18.5-30 518 595/635(45 kW)

495 239 200 242 - 8.5 15 24.5

H7 IP20 22-30 55-75 37-55 550 630/690(75 kW)

521 313 270 335 - 8.5 17 36

H8 IP20 37-45 90 75-90 660 800 631 375 330 335 - 8.5 17 51

H9 IP20 2.2-7.5 269 374 257 130 110 205 11 5.5 9 6.6

H10 IP20 11-15 399 419 380 165 140 248 12 6.8 7.5 12

I2 IP54 0.75-4.0 332 - 318.5 115 74 225 11 5.5 9 5.3

I3 IP54 5.5-7.5 368 - 354 135 89 237 12 6.5 9.5 7.2

I4 IP54 11-18.5 476 - 460 180 133 290 12 6.5 9.5 13.8

I5 IP54 11-18.5 480 - 454 242 210 260 19 9 9 23

I6 IP54 22-37 650 - 624 242 210 260 19 9 9 27

I7 IP54 45-55 680 - 648 308 272 310 19 9 9.8 45

I8 IP54 75-90 770 - 739 370 334 335 19 9 9.8 65

Table 1.9

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The dimensions are only for the physical units, but wheninstalling in an application it is necessary to add space forfree air passage both above and below the units. Theamount of space for free air passage is listed in Table 1.10:

Enclosure Clearance needed for free air passage [mm]

Frame IP class Above unit Below unit

H1 20 100 100

H2 20 100 100

H3 20 100 100

H4 20 100 100

H5 20 100 100

H6 20 200 200

H7 20 200 200

H8 20 225 225

H9 20 100 100

H10 20 200 200

I2 54 100 100

I3 54 100 100

I4 54 100 100

I5 54 200 200

I6 54 200 200

I7 54 200 200

I8 54 225 225

Table 1.10 Clearance Needed for Free Air Passage [mm]

1.3.4 Electrical Installation in General

All cabling must comply with national and localregulations on cable cross-sections and ambienttemperature. Copper conductors required, (75 °C)recommended.

Power [kW] Torque [Nm]

Frame IP class 3x200-240 V 3x380-480 V Line Motor DCconnection

Controlterminals

Earth Relay

H1 IP20 0.25-1.5 0.37-1.5 1.4 0.8 0.8 0.5 0.8 0.5

H2 IP20 2.2 2.2-4 1.4 0.8 0.8 0.5 0.8 0.5

H3 IP20 3.7 5.5-7.5 1.4 0.8 0.8 0.5 0.8 0.5

H4 IP20 5.5-7.5 11-15 1.2 1.2 1.2 0.5 0.8 0.5

H5 IP20 11 18.5-22 1.2 1.2 1.2 0.5 0.8 0.5

H6 IP20 15-18 30-45 4.5 4.5 - 0.5 3 0.5

H7 IP20 22-30 55 10 10 - 0.5 3 0.5

H7 IP20 - 75 14 14 - 0.5 3 0.5

H8 IP20 37-45 90 242 242 - 0.5 3 0.5

Table 1.11

Power [kW] Torque [Nm]

Frame IP class 3x380-480 V Line Motor DC connection Controlterminals

Earth Relay

I2 IP54 0.75-4.0 1.4 0.8 0.8 0.5 0.8 0.5

I3 IP54 5.5-7.5 1.4 0.8 0.8 0.5 0.8 0.5

I4 IP54 11-18.5 1.4 0.8 0.8 0.5 0.8 0.5

I5 IP54 11-18.5 1.8 1.8 - 0.5 3 0.6

I6 IP54 22-37 4.5 4.5 - 0.5 3 0.6

I7 IP54 45-55 10 10 - 0.5 3 0.6

I8 IP54 75-90 14/241 14/241 - 0.5 3 0.6

Table 1.12

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Power [kW] Torque [Nm]

Frame IP class 3x525-600 V Line Motor DC connection Controlterminals

Earth Relay

H9 IP20 2.2-7.5 1.8 1.8 notrecommended

0.5 3 0.6

H10 IP20 11-15 1.8 1.8 notrecommended

0.5 3 0.6

H6 IP20 18.5-30 4.5 4.5 - 0.5 3 0.5

H7 IP20 37-55 10 10 - 0.5 3 0.5

H8 IP20 75-90 14/241 14/241 - 0.5 3 0.5

Table 1.13 Details of Tightening Torques

1 Cable dimensions ≤95 mm2

2 Cable dimensions >95 mm2

1.3.5 Connecting to Mains and Motor

The frequency converter is designed to operate allstandard three-phased asynchronous motors. Formaximum cross-section on wires see 1.6 General Specifi-cations.

• Use a shielded/armored motor cable to complywith EMC emission specifications, and connectthis cable to both the decoupling plate and themotor metal.

• Keep motor cable as short as possible to reducethe noise level and leakage currents.

• For further details on mounting of thedecoupling plate, see FC 101 De-coupling PlateMounting Instruction MI02Q.

• Also see EMC-Correct Installation in the VLT® HVACBasic Design Guide, MG18C.

1. Mount the earth wires to earth terminal.

2. Connect motor to terminals U, V and W.

3. Mount mains supply to terminals L1, L2 and L3and tighten.

130B

B634

.10

1

2

2

3

4

Motor

U V W -DC+DC

MAINS

Illustration 1.3 H1-H5 FrameIP20 200-240 V 0.25-11 kW and IP20 380-480 V 0.37-22 kW.

1 Line

2 Earth

3 Motor

4 Relays

Table 1.14

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1

95

99

L1 91 / L2 92 / L3 93

U 96 / V 97 / W 98

03 02 0106 05 04

2 3 413

0BB7

62.1

0Illustration 1.4 H6 FrameIP20 380-480 V 30-45 kWIP20 200-240 V 15-18.5 kWIP20 525-600 V 22-30 kW

1 Line

2 Motor

3 Earth

4 Relays

Table 1.15

1 2

3

4

130B

B763

.10

Illustration 1.5 H7 FrameIP20 380-480 V 55-75 kWIP20 200-240 V 22- 30 kWIP20 525-600 V 45-55 kW

1 Line

2 Relays

3 Earth

4 Motor

Table 1.16

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130B

B764

.10

1

2

3

4

989796

99

95939291

L1 L1 L1

U V w

Illustration 1.6 H8 FrameIP20 380-480 V 90 kWIP20 200-240 V 37-45 kWIP20 525-600 V 75-90 kW

1 Line

2 Relays

3 Earth

4 Motor

Table 1.17

MOTOR

MOTORU V W

99

130B

T302

.12

Illustration 1.7 H9 FrameIP20 600 V 2.2-7.5 kW

-DC+DC BR- BR+ U V W

99

M A I N S

95

RELA

Y 1

REL

AY 2

- LC

+

130B

A26

1.10

Illustration 1.8

130B

A26

2.10

M

I N S

+DCBR-

BR+U

V

W

RELA

Y 1

RELA

Y 295

Illustration 1.9

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130B

A26

3.10

95

MA

I NS

+DC BR- BR+U

VW

91 92 93

L1L2 L3 RE

LAY

1

REL

AY 2

Illustration 1.10

+DC BR- BR+U

VW

MA

I NS

L1 L2 L391 92 93

RELA

Y 1

R

ELAY

2

99

- LC

-

130B

A26

4.10

Illustration 1.1113

0BA

725.

10

Illustration 1.12 H10 FrameIP20 600 V 11-15 kW

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130B

C29

9.10

7

3

2

5

1

8

4

6

Illustration 1.13 I2 FrameIP54 380-480 V 0.75-4.0 kW

1 RS-485

2 Line in

3 Earth

4 Wire clamps

5 Motor

6 UDC

7 Relays

8 I/O

Table 1.1813

0BC

201.

10

Illustration 1.14 I3 FrameIP54 380-480 V 5.5-7.5 kW

1 RS-485

2 Line in

3 Earth

4 Wire clamps

5 Motor

6 UDC

7 Relays

8 I/O

Table 1.19

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130B

D01

1.10

Illustration 1.15 I4 FrameIP54 380-480 V 0.75-4.0 kW

1 RS-485

2 Line in

3 Earth

4 Wire clamps

5 Motor

6 UDC

7 Relays

8 I/O

Table 1.20

130B

C203

.10

Illustration 1.16 IP54 I2-I3-I4 frame

130B

T326

.10

Illustration 1.17 I6 FrameIP54 380-480 V 22-37 kW

130B

T325

.10

Illustration 1.18 I6 FrameIP54 380-480 V 22-37 kW

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311

130B

A21

5.10

RELAY 1RELAY 2

9

9

6

03 02 01

90 05 04

Illustration 1.19 I6 FrameIP54 380-480 V 22-37 kW

91L1

92L2

93L3

96U

97V

98W

88DC-

89DC+

81R-

8R+

9995

130B

A24

8.10

Illustration 1.20 I7, I8 FrameIP54 380-480 V 45-55 kWIP54 380-480 V 75-90 kW

1.3.6 Fuses

Branch circuit protectionIn order to protect the installation against electrical andfire hazard, all branch circuits in an installation, switchgear, machines etc., must be short-circuit and overcurrentprotected according to national/international regulations.

Short circuit protectionDanfoss recommends using the fuses mentioned in thefollowing tables to protect service personnel or otherequipment in case of an internal failure in the unit orshort-circuit on DC-link. The frequency converter providesfull short circuit protection in case of a short-circuit on themotor.

Overcurrent protectionProvide overload protection to avoid overheating of thecables in the installation. Overcurrent protection mustalways be carried out according to national regulations.Fuses must be designed for protection in a circuit capableof supplying a maximum of 100,000 Arms (symmetrical),480 V maximum.

Non UL complianceIf UL/cUL is not to be complied with, Danfoss recommendsusing the fuses mentioned in Table 1.21, which ensurescompliance with IEC 61800-5-1.In case of malfunction, not following the fuse recommen-dation may result in damage to the frequency converter.

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Circuit Breaker Fuse

UL Non UL UL Non UL Bussmann Bussmann Bussmann Bussmann Max fuse

Power [kW] Type RK5 Type RK1 Type J Type T Type G3x200-240 V IP20

0.25

FRS-R-10 KTN-R10 JKS-10 JIN-10 10

0.37 FRS-R-10 KTN-R10 JKS-10 JIN-10 10

0.75 FRS-R-10 KTN-R10 JKS-10 JIN-10 10

1.5 FRS-R-10 KTN-R10 JKS-10 JIN-10 10

2.2 FRS-R-15 KTN-R15 JKS-15 JIN-15 16

3.7 FRS-R-25 KTN-R25 JKS-25 JIN-25 25

5.5 FRS-R-50 KTN-R50 JKS-50 JIN-50 50

7.5 FRS-R-50 KTN-R50 JKS-50 JIN-50 50

11 FRS-R-80 KTN-R80 JKS-80 JIN-80 65

15 Cutler-HammerEGE3100FFG

Moeller NZMB1-A125

FRS-R-100 KTN-R100

125

18.5 FRS-R-100 KTN-R100 125

22 Cutler-HammerJGE3150FFG

Moeller NZMB1-A160

FRS-R-150 KTN-R150 160

30 FRS-R-150 KTN-R150 160

37 Cutler-HammerJGE3200FFG

Moeller NZMB1-A200

FRS-R-200 KTN-R200 200

45 FRS-R-200 KTN-R200 200

3x380-480 V IP20

0.37

FRS-R-10 KTS-R10 JKS-10 JJS-10 10

0.75 FRS-R-10 KTS-R10 JKS-10 JJS-10 10

1.5 FRS-R-10 KTS-R10 JKS-10 JJS-10 10

2.2 FRS-R-15 KTS-R15 JKS-15 JJS-15 16

3 FRS-R-15 KTS-R15 JKS-15 JJS-15 16

4 FRS-R-15 KTS-R15 JKS-15 JJS-15 16

5.5 FRS-R-25 KTS-R25 JKS-25 JJS-25 25

7.5 FRS-R-25 KTS-R25 JKS-25 JJS-25 25

11 FRS-R-50 KTS-R50 JKS-50 JJS-50 50

15 FRS-R-50 KTS-R50 JKS-50 JJS-50 50

18.5 FRS-R-80 KTS-R80 JKS-80 JJS-80 65

22 FRS-R-80 KTS-R80 JKS-80 JJS-80 65

30Cutler-Hammer

EGE3125FFGMoeller NZMB1-

A125

FRS-R-80 KTS-R80 JKS-R80 JJS-R80 80

37 FRS-R-100 KTS-R100 JKS-R100 JJS-R100 100

45 FRS-R-125 KTS-R125 JKS-R125 JJS-R125 125

55 Cutler-HammerJGE3200FFG

Moeller NZMB1-A200

FRS-R-150 KTS-R150 JKS-R150 JJS-R150 150

75 FRS-R-200 KTS-R200 JKS-R200 JJS-R200 200

90Cutler-Hammer

JGE3250FFGMoeller NZMB2-

A250FRS-R-250 KTS-R250 JKS-R250 JJS-R250 250

Table 1.21

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Circuit Breaker Fuse

UL Non UL UL Non UL Bussmann Bussmann Bussmann Bussmann Max fuse

Power [kW] Type RK5 Type RK1 Type J Type T Type G3x525-600 V IP20

2.2

KTS-R20

20

3 KTS-R20 20

3.7 KTS-R20 20

5.5 KTS-R20 20

7.5 KTS-R20 30

11

KTS-R30 35

15 KTS-R30 35

18.5Cutler-Hammer

EGE3080FFGCutler-Hammer

EGE3080FFG

FRS-R-80 KTN-R80 80

22 FRS-R-80 KTN-R80 80

30 FRS-R-80 KTN-R80 80

37Cutler-Hammer

JGE3125FFGCutler-Hammer

JGE3125FFG

FRS-R-125 KTN-R125 125

45 FRS-R-125 KTN-R125 125

55 FRS-R-125 KTN-R125 125

75 Cutler-HammerJGE3200FAG

Cutler-HammerJGE3200FAG

FRS-R-200 KTN-R200 200

90 FRS-R-200 KTN-R200 200

3x380-480 V IP54

0.75

1.5

2.2

3

4

5.5

7.5

11

15

18.5

22

Moeller NZMB1-A125

125

30 125

37 125

45Moeller NZMB2-A160

160

55 160

75Moeller NZMB2-A250

200

90 200

Table 1.22 Fuses

1.3.7 EMC-Correct Electrical Installation

General points to be observed to ensure EMC-correctelectrical installation.

• Use only screened/armoured motor cables andscreened/armoured control cables.

• Connect the screen to earth at both ends.

• Avoid installation with twisted screen ends(pigtails), since this ruins the screening effect at

high frequencies. Use the cable clamps providedinstead.

• It is important to ensure good electrical contactfrom the installation plate through the installationscrews to the metal cabinet of the frequencyconverter.

• Use starwashers and galvanically conductiveinstallation plates.

• Do not use unscreened/unarmoured motor cablesin the installation cabinets.

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Back

OK

Com.

On

Warn.

Alarm

HandOn

O�Reset

AutoOn

Menu Status QuickMenu

MainMenu

L1

L2L3

PE

Min. 16 mm2

Equalizing cable

Control cables

All cable entries in

one side of panel

Earthing rail

Cable insula-tion stripped

Output con-tactor etc.

Motor cable

Motor, 3 phases and

PLC etc. Panel

Mains-supply

Min. 200mmbetween control cable, mains cable and between mains motor cable

PLC

Protective earthReinforced protective earth

130B

B761

.11

Illustration 1.21 EMC-correct Electrical Installation

NOTEFor North America use metal conduits instead of shieldedcables.

Quick Guide VLT® HVAC Basic Drive Quick Guide

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1.3.8 Control Terminals

IP20 200-240 V 0.25-11 kW and IP20 380-480 V 0.37-22 kW:

130B

B622

.10

Illustration 1.22 Location of Control Terminals

1. Place a screwdriver behind the terminal cover toactivate snap.

2. Tilt the screwdriver outwards to open the cover.

130B

B624

.10

Illustration 1.23 IP20 380-480 V 30-90 kW

1. Place a screwdriver behind the terminal cover toactivate snap.

2. Tilt the screwdriver outwards to open the cover.

Digital input 18, 19 and 27 mode is set in 5-00 Digital InputMode (PNP is default value) and digital input 29 mode isset in 5-03 Digital Input 29 Mode (PNP is default value).

130B

C24

9.10

Illustration 1.24 IP54 400 V 0.75-7.5 kW

1. Remove the front cover.

Control terminalsIllustration 1.25 shows all control terminals of the frequencyconverter. Applying Start (term. 18), connection betweenterminal 12-27 and an analog reference (term. 53 or 54and 55) make the frequency converter run.

18 19

12 20 55

27 29 42 45 50 53 54

DIG

I IN

DIG

I IN

DIG

I IN

DIG

I IN

61 68 69

NPCOM

M. G

ND

+24V

0/4-20mA A OUT / DIG OUT 0/4-20mA A OUT / DIG OUT

GND

GND

10V/20mA

IN

10V/20mA

IN

10V OU

T

130B

B625

.10BUS TER.

OFF ON

Illustration 1.25 Control Terminals

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Page 19: Vlt Hvac Basic Drive Fc 101

1.3.9 Electrical Overview

L1L2L3

3 Phasepowerinput

PE PE

+10Vdc

0-10Vdc-

0-10Vdc-

50 (+10V OUT)

54 (A IN)

53 (A IN)

55 (COM A IN/OUT)

0/4-20 mA

0/4-20 mA

42 0/4-20mA A OUT / DIG OUT

45 0/4-20mA A OUT / DIG OUT

18 (DIGI IN)

19 (DIGI IN)

27 (DIGI IN)

29 (DIGI IN)

12 (+24V OUT)

24V (NPN)

20 (COM D IN)

OV (PNP)

24V (NPN)OV (PNP)

24V (NPN)OV (PNP)

24V (NPN)OV (PNP)

Bus ter.

Bus ter.

RS-485Interface RS-485(N PS-485) 69

(P RS-485) 68

(Com RS-485 ) 61

(PNP)-Source(NPN)-Sink

ON=TerminatedOFF=Unterminated

ON

12

240V AC 3A

Not present on all power sizes

Do not connect shield to61 on 116,117 and 118 unites

01

02

03relay1

relay2

UDC+

UDC-

Motor

UV

W

130B

B626

.10

06

05

04

240V AC 3A

Illustration 1.26

NOTEThere is no access to UDC- and UDC+ on the following units:IP20 380-480 V 30-90 kWIP20 200-240 V 15-45 kWIP20 525-600 V 2.2-90 kWIP54 380-480 V 22-90 kW

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Page 20: Vlt Hvac Basic Drive Fc 101

1.4 Programming

1.4.1 Programming with the Local ControlPanel (LCP)

NOTEThe frequency converter can also be programmed from aPC via RS-485 com-port by installing the MCT 10 Set-upSoftware. This software can either be ordered using codenumber 130B1000 or downloaded from the Danfoss Website: www.danfoss.com/BusinessAreas/DrivesSolutions/softwar-edownload

1.4.2 Local Control Panel (LCP)

The following instructions are valid for the FC 101 LCP. TheLCP is divided into four functional sections.

A. Alphanumeric display

B. Menu key

C. Navigation keys and indicator lights (LEDs)

D. Operation keys and indicator lights (LEDs)

130B

B765

.11

Back

Com.

1-20 Motor Power[5] 0.37kW - 0.5HPSetup 1

A

B

1

12

13 14 15

11

11

10

9

8

7

6

54

3

2

C

D

Status MainMenu

QuickMenu

HandOn

OK

Menu

O�Reset

AutoOn

Alarm

Warn.

On

11

Illustration 1.27

A. Alpha Numeric DisplayThe LCD-display is back-lit with 2 alpha-numeric lines. Alldata is displayed on the LCP.

Information can be read from the display.

1 Parameter number and name.

2 Parameter value.

3 Set-up number shows the active set-up and the edit set-up. If the same set-up acts as both active and edit set-up,only that set-up number is shown (factory setting). Whenactive and edit set-up differ, both numbers are shown inthe display (Setup 12). The number flashing, indicates theedit set-up.

4 Motor direction is shown to the bottom left of the display– indicated by a small arrow pointing either clockwise orcounterclockwise.

5 The triangle indicates if the LCP is in status, quick menu ormain menu.

Table 1.23

B. Menu keyUse the menu key to select between status, quick menu ormain menu.

C. Navigation keys and indicator lights (LEDs)

6 Com led: Flashes when bus communication is communi-cating.

7 Green LED/On: Control section is working.

8 Yellow LED/Warn.: Indicates a warning.

9 Flashing Red LED/Alarm: Indicates an alarm.

10 [Back]: For moving to the previous step or layer in thenavigation structure

11 [▲] [▼] [►]: For maneuvering between parameter groups,

parameters and within parameters. Can also be used forsetting local reference.

12 [OK]: For selecting a parameter and for accepting changes toparameter settings

Table 1.24

D. Operation keys and indicator lights (LEDs)

13 [Hand On]: Starts the motor and enables control of thefrequency converter via the LCP.

NOTETerminal 27 Digital Input (5-12 Terminal 27 DigitalInput) has coast inverse as default setting. This meansthat [Hand On] not starts the motor if there is no 24V to terminal 27. Connect terminal 12 to terminal 27.

14 [Off/Reset]: Stops the motor (Off). If in alarm mode thealarm will be reset.

15 [Auto On]: frequency converter is controlled either viacontrol terminals or serial communication.

Table 1.25

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At power-upAt the first power-up, select the preferred language. Onceselected, this screen never shows again in the followingpowerups, but language can still be changed in0-01 Language.

130B

B628

.10Select Language

[ 0 ] EnglishSetup 1

Illustration 1.28

1.4.3 The Start-up Wizard for Open LoopApplications

The built-in “wizard” menu guides the installer through thesetup of the frequency converter in a clear and structuredmanner to setup an open loop application. An open loopapplication is here an application with a start signal,analog reference (voltage or current) and optionally alsorelay signals (but no feed back signal from the processapplied).

FC+24V

DIG INDIG IN

DIG INDIG IN

COM DIG IN

A OUT / D OUTA OUT / D OUT

1819

2729

4255

505354

20

12

010203

040506

R2R1

+

-0-10V

Start

+10VA INA INCOM

130B

B674

.10

45

Reference

Illustration 1.29

The wizard will initially be shown after power up until anyparameter has been changed. The wizard can always beaccessed again through the quick menu. Press [OK] to startthe wizard. If [Back] is pressed, the FC 101 returns to thestatus screen.

130B

B629

.10Press OK to start Wizard

Push Back to skip itSetup 1

Illustration 1.30

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Setup 1Power kW/50 Hz

Setup 1

Set Motor Speed low LimitHz

Setup 1

Set Motor Speed high Limit Hz

Setup 1

Set Ramp 1 ramp-up time s

Setup 1

Set Ramp 1 ramp-down Times

Setup 1

Active Flying start? Disable

OK

5

Setup 1

Set Motor Power7

Setup 1

Set Motor Voltage8

Setup 1

Set Motor frequency9

Setup 1

Set Motor current10

Setup 1

Set Motor nominal speed 11

if

17

20

21

22

Select Regional Settings

... the HVAC FC 101 Wizard starts

Setup 1200-240V/50Hz/Delta

Grid Type

4

Asynchronous MotorSetup 1Asynchronous

Select Motor Type 6

Setup 1

Set Motor current12

Setup 1

Select Motor nominal speed13

Setup 1

Set Motor Cont. Rated Torque14

Setup 1

Stator resistance15

Setup 1

Motor poles16

Setup 1

Back EMF at 1000 rpm

18

Setup 1

d-axis inductance

19Setup 1

Set Max Output Frequency

23

24

Setup 1

Setup 1Setup 1

Setup 1

Set T53 low VoltageV

Set T53 high VoltageV

Set T53 Low CurrentA

Set T53 High CurrentA

Current Voltage

28

29

26

27

Setup 1

Setup 1 Setup 1 Setup 1

Setup 1

Setup 1

Setup 1

Setup 1

Setup 1

AMA Failed

0.0 Hz0.0 kW

Wizard completedPress OK to accept

Automatic Motor Adaption O�

Auto Motor Adapt OKPress OK

Select Function of Relay 2 No function

Select Function of Relay 1[0] No function

Set Max ReferenceHz

Set Min ReferenceHz

AMA running-----

AMA failed

Do AMA

(Do not AMA)

AMA OK

30

31

32

33

34

3738

39

35 36

[0]

[0]

[0]

Setup 1

Select T53 ModeCurrent 25

[0]

[0]

3.8 A

3000 RPM

5.4 Nm

0.65 Ohms

8

57 V

5 mH

0065 Hz

1.50 kW

0050 V

0050 Hz

04.66 A

1420 RPM

[0]

PM motor

Motor Type = Asynchronous

Motor Type = PM Motor

0000

0050

0003

0003

[0]

[0]

04.66

13.30

0050

0220

0000

0050

OK

Back

Status MainMenu

QuickMenu

HandOn

OK

Menu

O�Reset

AutoOn

Alarm

Warn.

On

Status Screen

The Wizard can always be

reentered via the Quick Menu!

Power Up Screen

At power up the user isasked to choose theprefered laguage.

Select language[1] English

0.0 Hz0.0 kW

Setup 1

Setup 1

Status MainMenu

QuickMenu

HandOn

OK

Menu

O�Reset Auto

On

Alarm

Warn.

On

Press OK to start WizardPress Back to skip it

Setup 1

Status MainMenu

QuickMenu

HandOn

OK

Menu

O�Reset

AutoOn

Alarm

Warn.

On

The next screen will be

the Wizard screen.

Wizard Screen

1

2

if

3

Back

Back

Back

Com.

Com.

Com.

130B

C244

.11

Illustration 1.31

Quick Guide VLT® HVAC Basic Drive Quick Guide

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Page 23: Vlt Hvac Basic Drive Fc 101

The FC 101 Start-up Wizard for Open Loop ApplicationsNo & Name Range Default Function0-03 Regional Settings [0] International

[1] US0

0-06 GridType [0] 200-240 V/50 Hz/IT-grid[1] 200-240 V/50 Hz/Delta[2] 200-240 V/50 Hz[10] 380-440 V/50 Hz/IT-grid[11] 380-440 V/50 Hz/Delta[12] 380-440 V/50 Hz[20] 440-480 V/50 Hz/IT-grid[21] 440-480 V/50 Hz/Delta[22] 440-480 V/50 Hz[30] 525-600 V/50 Hz/IT-grid[31] 525-600 V/50 Hz/Delta[32] 525-600 V/50 Hz[100] 200-240 V/60 Hz/IT-grid[101] 200-240 V/60 Hz/Delta[102] 200-240 V/60 Hz[110] 380-440 V/60 Hz/IT-grid[111] 380-440 V/60 Hz/Delta[112] 380-440 V/60 Hz[120] 440-480 V/60 Hz/IT-grid[121] 440-480 V/60 Hz/Delta[122] 440-480 V/60 Hz[130] 525-600 V/60 Hz/IT-grid[131] 525-600 V/60 Hz/Delta[132] 525-600 V/60 Hz

Size related Select operating mode for restart uponreconnection of the drive to mains voltage afterpower down

1-10 Motor Construction *[0] Asynchron[1] PM, non salient SPM

[0] Asynchron Setting the parameter value might change theseparameters:1-01 Motor Control Principle1-03 Torque Characteristics1-14 Damping Gain1-15 Low Speed Filter Time Const.1-16 High Speed Filter Time Const.1-17 Voltage filter time const.1-20 Motor Power [kW]1-22 Motor Voltage1-23 Motor Frequency1-24 Motor Current1-25 Motor Nominal Speed1-26 Motor Cont. Rated Torque1-30 Stator Resistance (Rs)1-33 Stator Leakage Reactance (X1)1-35 Main Reactance (Xh)1-37 d-axis Inductance (Ld)1-39 Motor Poles1-40 Back EMF at 1000 RPM1-66 Min. Current at Low Speed1-72 Start Function1-73 Flying Start4-19 Max Output Frequency4-58 Missing Motor Phase Function

1-20 Motor Power 0.12-110 kW/0.16-150 hp Size related Enter motor power from nameplate data

1-22 Motor Voltage 50.0-1000.0 V Size related Enter motor voltage from nameplate data

1-23 Motor Frequency 20.0-400.0 Hz Size related Enter motor frequency from nameplate data

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No & Name Range Default Function1-24 Motor Current 0.01-10000.00 A Size related Enter motor current from nameplate data

1-25 Motor NominalSpeed

100.0-9999.0 RPM Size related Enter motor nominal speed from nameplate data

1-26 Motor Cont. RatedTorque

0.1-1000.0 Size related This parameter is available only when 1-10 MotorConstruction Design is set to [1] PM, non-salientSPM .

NOTEChanging this parameter will affect settingsof other parameters

1-29 Automatic MotorAdaption (AMA)

See 1-29 Automatic Motor Adaption(AMA)

Off Performing an AMA optimizes motor performance

1-30 Stator Resistance(Rs)

0.000-99.990 Size related Set the stator resistance value

1-37 d-axis Inductance(Ld)

0-1000 Size related Enter the value of the d-axis inductance.Obtain the value from the permanent magnetmotor data sheet. The de-axis inductance cannotbe found by performing an AMA.

1-39 Motor Poles 2-100 4 Enter the number of motor poles

1-40 Back EMF at 1000RPM

10-9000 Size related Line-Line RMS back EMF voltage at 1000 RPM

1-73 Flying Start When PM is selected, Flying Start is enabled andcan not disable

1-73 Flying Start [0] Disabled[1] Enabled

0 Select [1] Enable to enable the drive to catch amotor spinning due to mains drop-out. Select [0]Disable if this function is not required. When isenabled 1-71 Start Delay and 1-72 Start Functionhave no function. is active in VVC+ mode only

3-02 Minimum Reference -4999-4999 0 The minimum reference is the lowest valueobtainable by summing all references

3-03 Maximum Reference -4999-4999 50 The maximum reference is the lowest obtainableby summing all references

3-41 Ramp 1 Ramp UpTime

0.05-3600.0 s Size related Ramp up time from 0 to rated 1-23 MotorFrequency if Asynchron motor is selected; ramp uptime from 0 to 1-25 Motor Nominal Speed if PMmotor is selected

3-42 Ramp 1 RampDown Time

0.05-3600.0 s Size related Ramp down time from rated 1-23 MotorFrequency to 0 if Asynchron motor is selected;ramp down time from 1-25 Motor Nominal Speedto 0 if PM motor is selected

4-12 Motor Speed LowLimit [Hz]

0.0-400 Hz 0 Hz Enter the minimum limit for low speed

4-14 Motor Speed HighLimit [Hz]

0.0-400 Hz 65 Hz Enter the maximum limit for high speed

4-19 Max OutputFrequency

0-400 Size related Enter the maximum output frequency value

5-40 Function Relay [0]Function relay

See 5-40 Function Relay Alarm Select the function to control output relay 1

5-40 Function Relay [1]Function relay

See 5-40 Function Relay Drive running Select the function to control output relay 2

6-10 Terminal 53 LowVoltage

0-10 V 0.07 V Enter the voltage that corresponds to the lowreference value

6-11 Terminal 53 HighVoltage

0-10 V 10 V Enter the voltage that corresponds to the highreference value

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Page 25: Vlt Hvac Basic Drive Fc 101

No & Name Range Default Function6-12 Terminal 53 LowCurrent

0-20 mA 4 Enter the current that corresponds to the lowreference value

6-13 Terminal 53 HighCurrent

0-20 mA 20 Enter the current that corresponds to the highreference value

6-19 Terminal 53 mode [0] Current[1] Voltage

1 Select if terminal 53 is used for current- or voltageinput

Table 1.26

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Page 26: Vlt Hvac Basic Drive Fc 101

Closed Loop Set-up Wizard

6-29 Terminal 54 Mode[1] Voltage

6-25 T54 high Feedback

0050 Hz20-94 PI integral time0020.00 s

Current Voltage

This dialog is forced to be set to [1] Analog input 54

27

28

29

30

31

32

33

34

20-00 Feedback 1 source[1] Analog input 54

3-10 Preset reference [0]0.00

3-03 Max Reference50.00

3-02 Min Reference0.00

Asynchronous Motor

1-73 Flying Start [0] No

1-22 Motor Voltage0050 V

1-24 Motor current04.66 A

1-25 Motor nominal speed1420 RPM

3-41 Ramp 1 ramp-up time0003 s

3-42 Ramp1 ramp-down time0003 s

5

6

7

8

9

18

19

20

21

22

22a

23

24

25

26

35

36

37

38

39

40

0-06 Grid Type

4-12 Motor speed low limit0016 Hz

4-13 Motor speed high limit0050 Hz

130B

C402

.10

1-20 Motor Power1.10 kW

1-23 Motor frequency0050 Hz

6-22 T54 Low Current A

6-24 T54 low Feedback0016 Hz

6-23 T54 high Current13.30 A

6-25 T54 high Feedback0050

0.01 s

20-81 PI Normal/Inverse Control[0] Normal

20-83 PI Normal/Inverse Control0050 Hz

20-93 PI Proportional Gain00.50

1-29 Automatic Motor Adaption[0] O�

6-20 T54 low Voltage0050 V

6-24 T54 low Feedback0016 Hz

6-21 T54 high Voltage0220 V

6-26 T54 Filter time const.

1-00 Con�guration Mode[3] Closed Loop3

0-03 Regional Settings[0] Power kW/50 Hz1

3-16 Reference Source 2[0] No Operation22b

1-10 Motor Type[0] Asynchronous4

2 [0] 200-240V/50Hz/Delta

1-30 Stator resistance0.65 Ohms

1-25 Motor nominal speed3000 RPM

1-24 Motor Current3.8 A

1-26 Motor Cont. Rated Torque5.4 Nm

1-37 d-axis inductance(Ld)5 mH

4-19 Max Ouput Frequency0065 Hz

1-40 Back EMF at 1000 rpm57 V

10

11

12

13

14

15

16

17

PM motor

1-39 Motor poles8

%

04.66

Hz

MotorType = Asynchronous

MotorType = PM Motor

Illustration 1.32

Quick Guide VLT® HVAC Basic Drive Quick Guide

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Closed Loop Set-up WizardNo & Name Range Default Function0-03 Regional Settings [0] International

[1] US0

0-06 GridType [0] -[[132] see start -up wizardfor open loop application

Size selected Select operating mode for restart uponreconnection of the frequency converter tomains voltage after power down

1-00 Configuration Mode [0] Open loop[3] Closed loop

0 Change this parameter to Closed loop

1-10 Motor Construction *[0] Motor construction[1] PM, non salient SPM

[0] Asynchron Setting the parameter value might changethese parameters:1-01 Motor Control Principle1-03 Torque Characteristics1-14 Damping Gain1-15 Low Speed Filter Time Const.1-16 High Speed Filter Time Const.1-17 Voltage filter time const.1-20 Motor Power [kW]1-22 Motor Voltage1-23 Motor Frequency1-25 Motor Nominal Speed1-26 Motor Cont. Rated Torque1-30 Stator Resistance (Rs)1-33 Stator Leakage Reactance (X1)1-35 Main Reactance (Xh)1-37 d-axis Inductance (Ld)1-39 Motor Poles1-40 Back EMF at 1000 RPM1-66 Min. Current at Low Speed1-72 Start Function1-73 Flying Start4-19 Max Output Frequency4-58 Missing Motor Phase Function

1-20 Motor Power 0.09-110 kW Size related Enter motor power from nameplate data

1-22 Motor Voltage 50.0-1000.0 V Size related Enter motor voltage from nameplate data

1-23 Motor Frequency 20.0-400.0 Hz Size related Enter motor frequency from nameplate data

1-24 Motor Current 0.0 -10000.00 A Size related Enter motor current from nameplate data

1-25 Motor Nominal Speed 100.0-9999.0 RPM Size related Enter motor nominal speed from nameplatedata

1-26 Motor Cont. Rated Torque 0.1-1000.0 Size related This parameter is available only when1-10 Motor Construction Design is set to [1]PM, non-salient SPM .

NOTEChanging this parameter affects settingsof other parameters

1-29 Automatic Motor Adaption(AMA)

Off Performing an AMA optimizes motorperformance

1-30 Stator Resistance (Rs) 0.000-99.990 Size related Set the stator resistance value

1-37 d-axis Inductance (Ld) 0-1000 Size related Enter the value of the d-axis inductance.Obtain the value from the permanent magnetmotor data sheet. The de-axis inductancecannot be found by performing an AMA.

1-39 Motor Poles 2-100 4 Enter the number of motor poles

1-40 Back EMF at 1000 RPM 10-9000 Size related Line-Line RMS back EMF voltage at 1000 RPM

Quick Guide VLT® HVAC Basic Drive Quick Guide

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No & Name Range Default Function1-73 Flying Start [0] Disabled

[1] Enabled0 Select [1] Enable to enable the frequency

converter to catch a spinning motor. I.e. fanapplications. When PM is selected, Flying Startis enabled.

3-02 Minimum Reference -4999-4999 0 The minimum reference is the lowest valueobtainable by summing all references

3-03 Maximum Reference -4999-4999 50 The maximum reference is the highest valueobtainable by summing all references

3-10 Preset Reference -100-100% 0 Enter the set point

3-41 Ramp 1 Ramp Up Time 0.05-3600.0 s Size related Ramp up time from 0 to rated 1-23 MotorFrequency if Asynchron motor is selected;ramp up time from 0 to 1-25 Motor NominalSpeed if PM motor is selected"

3-42 Ramp 1 Ramp Down Time 0.05-3600.0 s Size related Ramp down time from rated 1-23 MotorFrequency to 0 if Asynchron motor is selected;ramp down time from 1-25 Motor NominalSpeed to 0 if PM motor is selected

4-12 Motor Speed Low Limit [Hz] 0.0-400 Hz 0.0 Hz Enter the minimum limit for low speed

4-14 Motor Speed High Limit [Hz] 0-400 Hz 65 Hz Enter the minimum limit for high speed

4-19 Max Output Frequency 0-400 Size related Enter the maximum output frequency value

6-29 Terminal 54 mode [0] Current[1] Voltage

1 Select if terminal 54 is used for current- orvoltage input

6-20 Terminal 54 Low Voltage 0-10 V 0.07 V Enter the voltage that corresponds to the lowreference value

6-21 Terminal 54 High Voltage 0-10 V 10 V Enter the voltage that corresponds to the lowhigh reference value

6-22 Terminal 54 Low Current 0-20 mA 4 Enter the current that corresponds to the highreference value

6-23 Terminal 54 High Current 0-20 mA 20 Enter the current that corresponds to the highreference value

6-24 Terminal 54 Low Ref./Feedb.Value

-4999-4999 0 Enter the feedback value that corresponds tothe voltage or current set in 6-20 Terminal 54Low Voltage/6-22 Terminal 54 Low Current

6-25 Terminal 54 High Ref./Feedb.Value

-4999-4999 50 Enter the feedback value that corresponds tothe voltage or current set in 6-21 Terminal 54High Voltage/6-23 Terminal 54 High Current

6-26 Terminal 54 Filter TimeConstant

0-10 s 0.01 Enter the filter time comstant

20-81 PI Normal/ Inverse Control [0] Normal[1] Inverse

0 Select [0] Normal to set the process control toincrease the output speed when the processerror is positive. Select [1] Inverse to reducethe output speed.

20-83 PI Start Speed [Hz] 0-200 Hz 0 Enter the motor speed to be attained as astart signal for commencement of PI control

20-93 PI Proportional Gain 0-10 0.01 Enter the process controller proportional gain.Quick control is obtained at high amplifi-cation. However if amplification is too great,the process may become unstable

20-94 PI Integral Time 0.1-999.0 s 999.0 s Enter the process controller integral time.Obtain quick control through a short integraltime, though if the integral time is too short,the process becomes unstable. An excessivelylong integral time disables the integral action.

Table 1.27

Quick Guide VLT® HVAC Basic Drive Quick Guide

MG18A402 - VLT® is a registered Danfoss trademark 27

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Page 29: Vlt Hvac Basic Drive Fc 101

Motor Set-upThe Quick Menu Motor Set-up guides through the neededmotor parameters.

No & Name Range Default Function0-03 RegionalSettings

[0] Interna-tional[1] US

0

0-06 GridType [0] -[132] seestart -upwizard foropen loopapplication

Size selected Select operatingmode for restartuponreconnection ofthe drive tomains voltageafter powerdown

1-10 MotorConstruction

*[0] Motorconstruction[1] PM, nonsalient SPM

[0]Asynchron

1-20 MotorPower

0.12-110 kW/0.16-150 hp

Size related Enter motorpower fromnameplate data

1-22 MotorVoltage

50.0-1000.0 V Size related Enter motorvoltage fromnameplate data

1-23 MotorFrequency

20.0-400.0 Hz Size related Enter motorfrequency fromnameplate data

1-24 MotorCurrent

0.01-10000.00A

Size related Enter motorcurrent fromnameplate data

1-25 MotorNominalSpeed

100.0-9999.0RPM

Size related Enter motornominal speedfrom nameplatedata

1-26 MotorCont. RatedTorque

0.1-1000.0 Size related This parameter isavailable onlywhen 1-10 MotorConstructionDesign is set to[1] PM, non-salient SPM.

NOTEChanging thisparameteraffects settingsof otherparameters

1-30 StatorResistance (Rs)

0.000-99.990 Size related Set the statorresistance value

No & Name Range Default Function1-37 d-axisInductance(Ld)

0-1000 Size related Enter the valueof the d-axisinductance.Obtain the valuefrom thepermanentmagnet motordata sheet. Thede-axisinductancecannot be foundby performing anAMA.

1-39 MotorPoles

2-100 4 Enter the numberof motor poles

1-40 Back EMFat 1000 RPM

10-9000 Size related Line-Line RMSback EMF voltageat 1000 RPM

1-73 FlyingStart

[0] Disabled[1] Enabled

0 Select Enable toenable thefrequencyconverter tocatch a spinningmotor

3-41 Ramp 1Ramp UpTime

0.05-3600.0 s Size related Ramp up timefrom 0 to rated1-23 MotorFrequency

3-42 Ramp 1Ramp DownTime

0.05-3600.0 s Size related Ramp down timefrom rated1-23 MotorFrequency to 0

4-12 MotorSpeed LowLimit [Hz]

0.0-400 Hz 0.0 Hz Enter theminimum limitfor low speed

4-14 MotorSpeed HighLimit [Hz]

0.0-400 Hz 65 Enter themaximum limitfor high speed

4-19 MaxOutputFrequency

0-400 Size related Enter themaximum outputfrequency value

Table 1.28

Quick Guide VLT® HVAC Basic Drive Quick Guide

28 MG18A402 - VLT® is a registered Danfoss trademark

11

Downloaded from www.Manualslib.com manuals search engine

Page 30: Vlt Hvac Basic Drive Fc 101

Changes MadeChanges Made lists all parameters changed since factorysetting. Only the changed parameters in current edit-setupare listed in changes made.

If the parameters value is changed back to factory setting'svalue from another different value, the parameter will NOTbe listed in Changes Made.

1. Press [Menu] key to enter the Quick Menu untilindicator in display is placed above Quick Menu.

2. Press [▲] [▼] to select either FC 101 wizard,closed loop setup, motor setup or changes made,then press [OK].

3. Press [▲] [▼] to browse through the parametersin the Quick Menu.

4. Press [OK] to select a parameter.

5. Press [▲] [▼] to change the value of a parametersetting.

6. Press [OK] to accept the change.

7. Press either [Back] twice to enter “Status”, orpress [Menu] once to enter “Main Menu”.

The Main Menu accesses all parameters.

1. Press [Menu] key until indicator in display isplaced above “Main Menu”.

2. Press [▲] [▼] to browse through the parametergroups.

3. Press [Ok] to select a parameter group.

4. Press [▲] [▼] to browse through the parametersin the specific group.

5. Press [Ok] to select the parameter.

6. Press [▲] [▼] to set/change the parameter value.

Quick Guide VLT® HVAC Basic Drive Quick Guide

MG18A402 - VLT® is a registered Danfoss trademark 29

1 1

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Page 31: Vlt Hvac Basic Drive Fc 101

1.5.

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1-29

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MA

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Mai

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Mot

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at

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Hig

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1-62

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1-66

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at

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imit

[Hz]

4-14

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Hig

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4-18

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ent

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ence

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pass

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requ

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Term

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Ref

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put

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3 Lo

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3 H

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Vol

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Term

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53

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Cur

rent

6-13

Term

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53

Hig

h C

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3 H

igh

Ref

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Term

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Filte

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Cons

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Term

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g In

put

546-

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rmin

al 5

4 Lo

w V

olta

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4 H

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Vol

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Term

inal

54

Low

Cur

rent

6-23

Term

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54

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h C

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4 Lo

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4 H

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Ref

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db. V

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6-26

Term

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54

Filte

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Cons

tant

6-29

Term

inal

54

mod

e6-

7*A

nalo

g/D

igita

l Out

put

456-

70Te

rmin

al 4

5 M

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6-71

Term

inal

45

Ana

log

Out

put

6-72

Term

inal

45

Dig

ital O

utpu

t6-

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rmin

al 4

5 O

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t M

in S

cale

6-74

Term

inal

45

Out

put

Max

Sca

le6-

76Te

rmin

al 4

5 O

utpu

t Bu

s Co

ntro

l6-

9*A

nalo

g/D

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put

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rmin

al 4

2 M

ode

6-91

Term

inal

42

Ana

log

Out

put

6-92

Term

inal

42

Dig

ital O

utpu

t6-

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rmin

al 4

2 O

utpu

t M

in S

cale

6-94

Term

inal

42

Out

put

Max

Sca

le6-

96Te

rmin

al 4

2 O

utpu

t Bu

s Co

ntro

l6-

98D

rive

Type

8-**

Com

m. a

nd O

ptio

ns8-

0*G

ener

al S

ettin

gs8-

01Co

ntro

l Site

8-02

Cont

rol S

ourc

e8-

03Co

ntro

l Tim

eout

Tim

e8-

04Co

ntro

l Tim

eout

Fun

ctio

n8-

3*FC

Por

t Se

ttin

gs8-

30Pr

otoc

ol8-

31A

ddre

ss8-

32Ba

ud R

ate

8-33

Parit

y /

Stop

Bits

8-35

Min

imum

Res

pons

e D

elay

8-36

Max

imum

Res

pons

e D

elay

8-37

Max

imum

Inte

r-ch

ar d

elay

8-4*

FC M

C p

roto

col s

et8-

43PC

D R

ead

Con

figur

atio

n8-

5*D

igita

l/Bus

8-50

Coas

ting

Sel

ect

8-51

Qui

ck S

top

Sel

ect

8-52

DC

Bra

ke S

elec

t8-

53St

art

Sele

ct8-

54Re

vers

ing

Sel

ect

8-55

Set-

up S

elec

t8-

56Pr

eset

Ref

eren

ce S

elec

t8-

7*BA

Cnet

8-70

BACn

et D

evic

e In

stan

ce8-

72M

S/TP

Max

Mas

ters

8-73

MS/

TP M

ax In

fo F

ram

es8-

74"I

am

" Se

rvic

e8-

75In

tialis

atio

n P

assw

ord

8-8*

FC P

ort

Dia

gnos

tics

8-80

Bus

Mes

sage

Cou

nt8-

81Bu

s Er

ror

Coun

t8-

82Sl

ave

Mes

sage

s Rc

vd8-

83Sl

ave

Erro

r Co

unt

8-84

Slav

e M

essa

ges

Sent

8-85

Slav

e Ti

meo

ut E

rror

s8-

88Re

set

FC p

ort

Dia

gnos

tics

8-9*

Bus

Feed

back

8-94

Bus

Feed

back

113

-**

Smar

t Lo

gic

13-0

*SL

C S

ettin

gs13

-00

SL C

ontr

olle

r M

ode

13-0

1St

art

Even

t13

-02

Stop

Eve

nt13

-03

Rese

t SL

C13

-1*

Com

para

tors

13-1

0Co

mpa

rato

r O

pera

nd13

-11

Com

para

tor

Ope

rato

r13

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Com

para

tor

Valu

e13

-2*

Tim

ers

13-2

0SL

Con

trol

ler

Tim

er13

-4*

Logi

c Ru

les

13-4

0Lo

gic

Rule

Boo

lean

113

-41

Logi

c Ru

le O

pera

tor

113

-42

Logi

c Ru

le B

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an 2

13-4

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gic

Rule

Ope

rato

r 2

13-4

4Lo

gic

Rule

Boo

lean

313

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Stat

es13

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SL C

ontr

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r Ev

ent

13-5

2SL

Con

trol

ler

Act

ion

14-*

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ecia

l Fun

ctio

ns14

-0*

Inve

rter

Sw

itchi

ng14

-01

Switc

hing

Fre

quen

cy14

-03

Ove

rmod

ulat

ion

14-0

8D

ampi

ng G

ain

Fac

tor

14-1

*M

ains

On/

Off

14-1

0M

ains

Fai

lure

14-1

2Fu

nctio

n a

t M

ains

Imba

lanc

e14

-2*

Rese

t Fu

nctio

ns14

-20

Rese

t M

ode

14-2

1A

utom

atic

Res

tart

Tim

e14

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Ope

ratio

n M

ode

14-2

3Ty

peco

de S

ettin

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Act

ion

At

Inve

rter

Fau

lt14

-28

Prod

uctio

n S

ettin

gs14

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Serv

ice

Code

14-4

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ergy

Opt

imis

ing

14-4

0VT

Lev

el14

-41

AEO

Min

imum

Mag

netis

atio

n14

-5*

Envi

ronm

ent

14-5

0RF

I Filt

er14

-51

DC-

Link

Vol

tage

Com

pens

atio

n14

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Fan

Con

trol

14-5

3Fa

n M

onito

r14

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Out

put

Filte

r14

-6*

Aut

o D

erat

e14

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Min

Sw

itch

Fre

quen

cy15

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Driv

e In

form

atio

n15

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Ope

ratin

g D

ata

15-0

0O

pera

ting

hou

rs15

-01

Runn

ing

Hou

rs15

-02

kWh

Cou

nter

15-0

3Po

wer

Up'

s15

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Ove

r Te

mp'

s15

-05

Ove

r Vo

lt's

15-0

6Re

set

kWh

Cou

nter

Quick Guide VLT® HVAC Basic Drive Quick Guide

30 MG18A402 - VLT® is a registered Danfoss trademark

11

Downloaded from www.Manualslib.com manuals search engine

Page 32: Vlt Hvac Basic Drive Fc 101

15-0

7Re

set

Runn

ing

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rs C

ount

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Ala

rm L

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Ala

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Inte

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ype

15-4

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15-4

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15-4

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15-4

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15-4

6D

rive

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g N

o15

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ard

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g N

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LCP

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d15

-50

SW ID

Pow

er C

ard

15-5

1D

rive

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l Num

ber

15-5

3Po

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Car

d S

eria

l Num

ber

15-9

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ram

eter

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15-9

2D

efin

ed P

aram

eter

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App

licat

ion

Typ

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Driv

e Id

entif

icat

ion

16-*

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ata

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outs

16-0

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ener

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tatu

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16-0

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Refe

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]16

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Stat

us W

ord

16-0

5M

ain

Act

ual V

alue

[%]

16-0

9Cu

stom

Rea

dout

16-1

*M

otor

Sta

tus

16-1

0Po

wer

[kW

]16

-11

Pow

er [h

p]16

-12

Mot

or V

olta

ge16

-13

Freq

uenc

y16

-14

Mot

or c

urre

nt16

-15

Freq

uenc

y [%

]16

-18

Mot

or T

herm

al16

-3*

Driv

e St

atus

16-3

0D

C L

ink

Volta

ge16

-34

Hea

tsin

k Te

mp.

16-3

5In

vert

er T

herm

al16

-36

Inv.

Nom

. Cur

rent

16-3

7In

v. M

ax. C

urre

nt16

-38

SL C

ontr

olle

r St

ate

16-5

*Re

f. &

Fee

db.

16-5

0Ex

tern

al R

efer

ence

16-5

2Fe

edba

ck[U

nit]

16-6

*In

puts

& O

utpu

ts16

-60

Dig

ital I

nput

16-6

1Te

rmin

al 5

3 Se

ttin

g16

-62

Ana

log

Inpu

t A

I53

16-6

3Te

rmin

al 5

4 Se

ttin

g16

-64

Ana

log

Inpu

t A

I54

16-6

5A

nalo

g O

utpu

t A

O42

[mA

]16

-66

Dig

ital O

utpu

t16

-67

Puls

e In

put

#29

[Hz]

16-7

1Re

lay

Out

put

[bin

]16

-72

Coun

ter

A16

-73

Coun

ter

B

16-7

9A

nalo

g O

utpu

t A

O45

16-8

*Fi

eldb

us &

FC

Por

t16

-86

FC P

ort

REF

116

-9*

Dia

gnos

is R

eado

uts

16-9

0A

larm

Wor

d16

-91

Ala

rm W

ord

216

-92

War

ning

Wor

d16

-93

War

ning

Wor

d 2

16-9

4Ex

t. S

tatu

s W

ord

16-9

5Ex

t. S

tatu

s W

ord

218

-**

Info

& R

eado

uts

18-1

*Fi

re M

ode

Log

18-1

0Fi

reM

ode

Log:

Even

t20

-**

Driv

e Cl

osed

Loo

p20

-0*

Feed

back

20-0

0Fe

edba

ck 1

Sou

rce

20-0

1Fe

edba

ck 1

Con

vers

ion

20-8

*PI

Bas

ic S

ettin

gs20

-81

PI N

orm

al/

Inve

rse

Cont

rol

20-8

3PI

Sta

rt S

peed

[Hz]

20-8

4O

n R

efer

ence

Ban

dwid

th20

-9*

PI C

ontr

olle

r20

-91

PI A

nti W

indu

p20

-93

PI P

ropo

rtio

nal G

ain

20-9

4PI

Inte

gral

Tim

e20

-97

PI F

eed

For

war

d F

acto

r22

-**

App

l. Fu

nctio

ns22

-4*

Slee

p M

ode

22-4

0M

inim

um R

un T

ime

22-4

1M

inim

um S

leep

Tim

e22

-43

Wak

e-U

p S

peed

[Hz]

22-4

4W

ake-

Up

Ref

./FB

Diff

22-4

5Se

tpoi

nt B

oost

22-4

6M

axim

um B

oost

Tim

e22

-47

Slee

p S

peed

[Hz]

22-6

*Br

oken

Bel

t D

etec

tion

22-6

0Br

oken

Bel

t Fu

nctio

n22

-61

Brok

en B

elt

Torq

ue22

-62

Brok

en B

elt

Del

ay24

-**

App

l. Fu

nctio

ns 2

24-0

*Fi

re M

ode

24-0

0FM

Fun

ctio

n24

-05

FM P

rese

t Re

fere

nce

24-0

9FM

Ala

rm H

andl

ing

24-1

*D

rive

Bypa

ss24

-10

Driv

e By

pass

Fun

ctio

n24

-11

Driv

e By

pass

Del

ay T

ime

38-*

*D

ebug

onl

y -

see

PNU

142

9 (s

ervi

ce-

code

) al

so38

-0*

All

debu

g p

aram

eter

s38

-00

Test

Mon

itorM

ode

38-0

1Ve

rsio

n A

nd S

tack

38-0

2Pr

otoc

ol S

W v

ersi

on38

-06

LCPE

dit

Set-

up38

-07

EEPR

OM

Dda

taVe

rs38

-08

Pow

erD

ataV

aria

ntID

38-0

9A

MA

Ret

ry38

-10

DA

C s

elec

tion

38-1

2D

AC

sca

le

38-2

0M

OC_

Test

US1

638

-21

MO

C_Te

stS1

638

-23

Test

Moc

Func

tions

38-2

4D

C L

ink

Pow

er M

easu

rem

ent

38-2

5Ch

eckS

um38

-30

Ana

log

Inpu

t 53

(%)

38-3

1A

nalo

g In

put

54 (%

)38

-32

Inpu

t Re

fere

nce

138

-33

Inpu

t Re

fere

nce

238

-34

Inpu

t Re

fere

nce

Sett

ing

38-3

5Fe

edba

ck (%

)38

-36

Faul

t Co

de38

-37

Cont

rol W

ord

38-3

8Re

setC

ount

ersC

ontr

ol38

-39

Act

ive

Setu

p F

or B

ACn

et38

-40

Nam

e O

f A

nalo

g V

alue

1 F

or B

ACn

et38

-41

Nam

e O

f A

nalo

g V

alue

3 F

or B

ACn

et38

-42

Nam

e O

f A

nalo

g V

alue

5 F

or B

ACn

et38

-43

Nam

e O

f A

nalo

g V

alue

6 F

or B

ACn

et38

-44

Nam

e O

f Bi

nary

Val

ue 1

For

BA

Cnet

38-4

5N

ame

Of

Bina

ry V

alue

2 F

or B

ACn

et38

-46

Nam

e O

f Bi

nary

Val

ue 3

For

BA

Cnet

38-4

7N

ame

Of

Bina

ry V

alue

4 F

or B

ACn

et38

-48

Nam

e O

f Bi

nary

Val

ue 5

For

BA

Cnet

38-4

9N

ame

Of

Bina

ry V

alue

6 F

or B

ACn

et38

-50

Nam

e O

f Bi

nary

Val

ue 2

1 Fo

r BA

Cnet

38-5

1N

ame

Of

Bina

ry V

alue

22

For

BACn

et38

-52

Nam

e O

f Bi

nary

Val

ue 3

3 Fo

r BA

Cnet

38-5

3Bu

s Fe

edba

ck 1

Con

vers

ion

38-5

4Ru

n S

top

Bus

Con

trol

38-5

8In

vert

er E

TR c

ount

er38

-59

Rect

ifier

ETR

cou

nter

38-6

0D

B_Er

rorW

arni

ngs

38-6

1Ex

tend

ed A

larm

Wor

d38

-69

AM

A_D

ebug

S32

38-7

4A

OCD

ebug

038

-75

AO

CDeb

ug1

38-7

6A

O42

_Fix

edM

ode

38-7

7A

O42

_Fix

edVa

lue

38-7

8D

I_Te

stCo

unte

rs38

-79

Prot

ect

Func

. Cou

nter

38-8

0H

ighe

st L

owes

t Co

uple

38-8

1D

B_Se

ndD

ebug

Cmd

38-8

2M

axTa

skRu

nnin

gTim

e38

-83

Deb

ugIn

form

atio

n38

-85

DB_

Opt

ionS

elec

tor

38-8

6EE

PRO

M_A

ddre

ss38

-87

EEPR

OM

_Val

ue38

-88

Logg

er T

ime

Rem

ain

38-9

0LC

P F

C-Pr

otoc

ol s

elec

t38

-91

Mot

or P

ower

Inte

rnal

38-9

2M

otor

Vol

tage

Inte

rnal

38-9

3M

otor

Fre

quen

cy In

tern

al38

-94

Lsig

ma

38-9

5D

B_Si

mul

ateA

larm

War

ning

ExSt

atus

38-9

6D

ata

Logg

er P

assw

ord

38-9

7D

ata

Logg

ing

Per

iod

38-9

8Si

gnal

to

Deb

ug38

-99

Sign

ed D

ebug

Info

40-*

*D

ebug

onl

y -

Back

up40

-0*

Deb

ug p

aram

eter

s ba

ckup

40-0

0Te

stM

onito

rMod

e_Ba

ckup

Quick Guide VLT® HVAC Basic Drive Quick Guide

MG18A402 - VLT® is a registered Danfoss trademark 31

1 1

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Page 33: Vlt Hvac Basic Drive Fc 101

1.6 Warnings and Alarms

Faultnumber

Alarm/Warning

BitNumber Fault text Warning Alarm

Triplocked Cause of problem

2 16 Live zero error X X

Signal on terminal 53 or 54 is less than 50% of value set in6-10 Terminal 53 Low Voltage, 6-12 Terminal 53 Low Current,6-20 Terminal 54 Low Voltageor 6-22 Terminal 54 Low Current. Seealso parameter group 6-0*

4 14 Mains ph. loss X X XMissing phase on supply side or too high voltage imbalance. Checksupply voltage. See 14-12 Function at Mains Imbalance

7 11 DC over volt X X Intermediate circuit voltage exceeds limit.

8 10 DC under volt X X Intermediate circuit voltage drops below “voltage warning low”limit.

9 9Inverteroverload X X More than 100% load for too long.

10 8Motor ETRover X X

Motor is too hot due to more than 100% load for too long. See1-90 Motor Thermal Protection

11 7 Motor th over X X Thermistor or thermistor connection is disconnected. See1-90 Motor Thermal Protection.

13 5 Over Current X X X Inverter peak current limit is exceeded.

14 2 Earth Fault X X Discharge from output phases to ground.

16 12 Short Circuit X X Short-circuit in motor or on motor terminals.

17 4 Ctrl. word TO X X No communication to frequency converter. See parameter group8-0*

24 50 Fan Fault X X The fan is not working (Only on 400 V 30-90 kW units).

30 19 U phase loss X XMotor phase U is missing. Check the phase. See 4-58 Missing MotorPhase Function.

31 20 V phase loss X XMotor phase V is missing. Check the phase. See 4-58 Missing MotorPhase Function.

32 21 W phase loss X XMotor phase W is missing. Check the phase. See 4-58 Missing MotorPhase Function.

38 17 Internal fault X X Contact the local Danfoss supplier.

44 28 Earth Fault X X Discharge from output phases to ground.

47 23ControlVoltage Fault X X X 24 V DC may be overloaded.

48 25VDD1 SupplyLow X X Control voltage low. Contact the local Danfoss supplier

50 Calibrationfailed X Contact the local Danfoss supplier.

51 15 Unom,Inom X The setting of motor voltage, motor current and motor power ispresumably wrong. Check the settings.

52 low Inom X The motor current is too low. Check the settings.

53 big motor X The motor is too big for the to be carried out

54 small mot X The motor is too small for the to be carried out

55 par. range X The parameter values found from the motor are outside acceptablerange

56 user interrupt X The has been interrupted by the user

Quick Guide VLT® HVAC Basic Drive Quick Guide

32 MG18A402 - VLT® is a registered Danfoss trademark

11

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Page 34: Vlt Hvac Basic Drive Fc 101

Faultnumber

Alarm/Warning

BitNumber Fault text Warning Alarm

Triplocked Cause of problem

57 timeout X

Try to start the again a number of times, until the is carried out.

NOTERepeated runs may heat the motor to a level where theresistance Rs and Rr are increased. In most cases, however,this is not critical

58 internal X X Contact the local Danfoss supplier.

59 25 Current limit X The current is higher than the value in 4-18 Current Limit

60 44ExternalInterlock X

External interlock has been activated. To resume normal operation,apply 24 V DC to the terminal programmed for external interlockand reset the frequency converter (via serial communication, digitalI/O, or by pressing reset button on keypad).

66 26

Heat sinkTemperatureLow X

This warning is based on the temperature sensor in the IGBTmodule (Only on 400 V 30-90 kW units).

69 1Pwr. CardTemp X X X

The temperature sensor on the power card is either too hot or toocold.

79

Illegal powersection config-uration X X Internal fault. Contact the local Danfoss supplier.

80 29Driveinitialised X All parameter settings are initialized to default settings.

87 47Auto DCBraking X The drive is auto DC braking

95 40 Broken Belt X X Torque is below the torque level set for no load, indicating abroken belt. See parameter group 22-6*.

126 Motor Rotating X High back-emf voltage. Stop the motor of the PM motor.

200 Fire Mode X Fire mode has been activated

202

Fire ModeLimitsExceeded X Fire Mode has suppressed one or more warranty voiding alarms

250 New sparepart X XThe power or switch mode power supply has been exchanged.(Only on 400 V 30-90 kW units). Contact the local Danfoss supplier

251 New Typecode X XThe frequency converter has a new type code (Only on 400 V 30-90kW units). Contact the local Danfoss supplier.

Table 1.29

Quick Guide VLT® HVAC Basic Drive Quick Guide

MG18A402 - VLT® is a registered Danfoss trademark 33

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Page 35: Vlt Hvac Basic Drive Fc 101

1.7 General Specifications

1.7.1 Mains Supply 3x200-240 V AC

Frequency converter PK25

PK37

PK75

P1K5

P2K2 P3K7 P5K5 P7K5 P11K P15K P18K P22K P30K P37K P45K

Typical shaft output [kW] 0.25 0.37 0.75 1.5 2.2 3.7 5.5 7.5 11.0 15.0 18.5 22.0 30.0 37.0 45.0

Typical shaft output [hp] 0.33 0.5 1.0 2.0 3.0 5.0 7.5 10.0 15.0 20.0 25.0 30.0 40.0 50.0 60.0

IP20 frame H1 H1 H1 H1 H2 H3 H4 H4 H5 H6 H6 H7 H7 H8 H8

Max. cable size in terminals (mains,

motor) [mm2/AWG]

4/10 4/10 4/10 4/10 4/10 4/10 16/6 16/6 16/6 35/2 35/2 50/1 50/1 95/0 120/(4/0)

Output current

RELAY 2

130B

B632

.10 40 °C ambient temperature

Continuous(3x200-240 V) [A]

1.5 2.2 4.2 6.8 9.6 15.2 22.0 28.0 42.0 59.4 74.8 88.0 115.0 143.0 170.0

Intermittent(3x200-240 V) [A]

1.7 2.4 4.6 7.5 10.6 16.7 24.2 30.8 46.2 65.3 82.3 96.8 126.5 157.3 187.0

Max. input current

RELAY 2

130B

B633

.10 Continuous

(3x200-240 V) [A]1.1 1.6 2.8 5.6 8.6/

7.214.1/12.0

21.0/18.0

28.3/24.0

41.0/38.2

52.7 65.0 76.0 103.7 127.9 153.0

Intermittent(3x200-240 V) [A]

1.2 1.8 3.1 6.2 9.5/7.9

15.5/13.2

23.1/19.8

31.1/26.4

45.1/42.0

58.0 71.5 83.7 114.1 140.7 168.3

Max. mains fuses See 1.3.6 Fuses

Estimated powerloss [W], Best

case/typical1)

12/14

15/18

21/26

48/60

80/102

97/120

182/204

229/268

369/386

512 697 879 1149 1390 1500

Weight enclosureIP20 [kg]

2. 2.0 2.0 2.1 3.4 4.5 7.9 7.9 9.5 24.5 24.5 36.0 36.0 51.0 51.0

Efficiency [%],Best case/

Typical1)

97.0/

96.5

97.3/

96.8

98.0/

97.6

97.6/

97.0

97.1/96.3

97.9/97.4

97.3/97.0

98.5/97.1

97.2/97.1

97.0 97.1 96.8 97.1 97.1 97.3

Output current

50 °C ambient temperature

Continuous(3x200-240 V) [A]

1.5 1.9 3.5 6.8 9.6 13.0 19.8 23.0 33.0 53.5 66.6 79.2 103.5 128.7 153.0

Intermittent(3x200-240 V) [A]

1.7 2.1 3.9 7.5 10.6 14.3 21.8 25.3 36.3 58.9 73.3 87.1 113.9 141.6 168.3

Table 1.30

1) At rated load conditions

Quick Guide VLT® HVAC Basic Drive Quick Guide

34 MG18A402 - VLT® is a registered Danfoss trademark

11

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Page 36: Vlt Hvac Basic Drive Fc 101

1.7.2 Mains Supply 3x380-480 V ACFr

eque

ncy

conv

erte

rPK

37PK

75P1

K5P2

K2P3

K0P4

K0P5

K5P7

K5P1

1KP1

5KP1

8KP2

2KP3

0KP3

7KP4

5KP5

5KP7

5KP9

0KTy

pica

l sha

ft o

utpu

t [k

W]

0.37

0.75

1.5

2.2

3.0

4.0

5.5

7.5

11.0

15.0

18.5

22.0

30.0

37.0

45.0

55.0

75.0

90.0

Typi

cal s

haft

out

put

[hp]

0.5

1.0

2.0

3.0

4.0

5.0

7.5

10.0

15.0

20.0

25.0

30.0

40.0

50.0

60.0

70.0

100.

012

5.0

IP20

fram

eH

1H

1H

1H

2H

2H

2H

3H

3H

4H

4H

5H

5H

6H

6H

6H

7H

7H

8

Max

. cab

le s

ize

in t

erm

inal

s (m

ains

, mot

or)

[mm

2 /AW

G]

4/10

4/10

4/10

4/10

4/10

4/10

4/10

4/10

16/6

16/6

16/6

16/6

35/2

35/2

35/2

50/1

95/0

120/

250M

CM

Out

put

curr

ent

RELA

Y 2

130BB632.10

40 °C

am

bien

t te

mpe

ratu

re

Cont

inuo

us(3

x380

-440

V)

[A]

1.2

2.2

3.7

5.3

7.2

9.0

12.0

15.5

23.0

31.0

37.0

42.5

61.0

73.0

90.0

106.

014

7.0

177.

0

Inte

rmitt

ent

(3x3

80-4

40 V

)[A

]

1.3

2.4

4.1

5.8

7.9

9.9

13.2

17.1

25.3

34.0

40.7

46.8

67.1

80.3

99.0

116.

016

1.0

194.

0

Cont

inuo

us(3

x440

-480

V)

[A]

1.1

2.1

3.4

4.8

6.3

8.2

11.0

14.0

21.0

27.0

34.0

40.0

52.0

65.0

80.0

105.

013

0.0

160.

0

Inte

rmitt

ent

(3x4

40-4

80 V

)[A

]

1.2

2.3

3.7

5.3

6.9

9.0

12.1

15.4

23.1

29.7

37.4

44.0

57.2

71.5

88.0

115.

014

3.0

176.

0

Max

. inp

ut c

urre

nt

RELA

Y 2

130BB633.10

Cont

inuo

us(3

x380

-440

V)

[A]

1.2

2.1

3.5

4.7

6.3

8.3

11.2

15.1

22.1

29.9

35.2

41.5

57.0

70.0

84.0

103.

014

0.0

166.

0

Inte

rmitt

ent

(3x3

80-4

40 V

)[A

]

1.3

2.3

3.9

5.2

6.9

9.1

12.3

16.6

24.3

32.9

38.7

45.7

62.7

77.0

92.4

113.

015

4.0

182.

0

Cont

inuo

us(3

x440

-480

V)

[A]

1.0

1.8

2.9

3.9

5.3

6.8

9.4

12.6

18.4

24.7

29.3

34.6

49.2

60.6

72.5

88.6

120.

914

2.7

Inte

rmitt

ent

(3x4

40-4

80 V

)[A

]

1.1

2.0

3.2

4.3

5.8

7.5

10.3

13.9

20.2

27.2

32.2

38.1

54.1

66.7

79.8

97.5

132.

915

7.0

Max

. mai

ns fu

ses

See

1.3.

6 Fu

ses

Tabl

e 1.

31

Quick Guide VLT® HVAC Basic Drive Quick Guide

MG18A402 - VLT® is a registered Danfoss trademark 35

1 1

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Page 37: Vlt Hvac Basic Drive Fc 101

Freq

uenc

y co

nver

ter

PK37

PK75

P1K5

P2K2

P3K0

P4K0

P5K5

P7K5

P11K

P15K

P18K

P22K

P30K

P37K

P45K

P55K

P75K

P90K

Estim

ated

pow

er lo

ss [W

], Be

st c

ase/

typi

cal1)

13/1

516

/21

46/5

746

/58

66/8

395

/118

104/

131

159/

198

248/

274

353/

379

412/

456

475/

523

733

922

1067

1133

1733

2141

Wei

ght

encl

osur

e IP

20 [k

g]2.

02.

02.

13.

33.

33.

44.

34.

57.

97.

99.

59.

524

.524

.524

.536

.036

.051

.0

Effic

ienc

y [%

], Be

st c

ase/

Typi

cal 1

97.8

/97.

398

.0/9

7.6

97.7

/97

.298

.3/9

7.9

98.2

/97.

898

.0/9

7.6

98.4

/98

.098

.2/9

7.8

98.1

/97.

998

.0/9

7.8

98.1

/97.

998

.1/9

7.9

97.8

97.7

9898

.297

.897

.9

Out

put

curr

ent

50

°C a

mbi

ent

tem

pera

ture

Cont

inuo

us(3

x380

-440

V)

[A]

1.04

1.93

3.7

4.85

6.3

8.4

10.9

14.0

20.9

28.0

34.1

38.0

48.8

58.4

72.0

74.2

102.

912

3.9

Inte

rmitt

ent

(3x3

80-4

40 V

)[A

]

1.1

2.1

4.07

5.4

6.9

9.2

12.0

15.4

23.0

30.8

37.5

41.8

53.7

64.2

79.2

81.6

113.

213

6.3

Cont

inuo

us(3

x440

-480

V)

[A]

1.0

1.8

3.4

4.4

5.5

7.5

10.0

12.6

19.1

24.0

31.3

35.0

41.6

52.0

64.0

73.5

91.0

112.

0

Inte

rmitt

ent

(3x4

40-4

80 V

)[A

]

1.1

2.0

3.7

4.8

6.1

8.3

11.0

13.9

21.0

26.4

34.4

38.5

45.8

57.2

70.4

80.9

100.

112

3.2

Tabl

e 1.

32

Quick Guide VLT® HVAC Basic Drive Quick Guide

36 MG18A402 - VLT® is a registered Danfoss trademark

11

Downloaded from www.Manualslib.com manuals search engine

Page 38: Vlt Hvac Basic Drive Fc 101

1.7.3 Mains Supply 3x380-480 V ACFr

eque

ncy

conv

erte

rPK

75P1

K5P2

K2P3

K0P4

KOP5

K5P7

K5P1

1KP1

5KP1

8KP1

1KP1

5KP1

8KP2

2KP3

0KP3

7KP4

5KP5

5KP7

5KP9

0KTy

pica

l sha

ft o

utpu

t [k

W]

0.75

1.5

2.2

3.0

4.0

5.5

7.5

1115

18.5

1115

18.5

22.0

30.0

37.0

45.0

55.0

75.0

90.0

Typi

cal s

haft

out

put

[hp]

1.0

2.0

3.0

4.0

5.0

7.5

10.0

1520

2515

.020

25.0

30.0

40.0

50.0

60.0

70.0

100.

012

5.0

IP54

fram

eI2

I2I2

I2I2

I3I3

I4I4

I4I5

I5I5

I6I6

I6I7

I7I8

I8

Max

. cab

le s

ize

in t

erm

inal

s (m

ains

,

mot

or)

[mm

2 /AW

G]

4/10

4/10

4/10

4/10

4/10

4/10

4/10

16/6

16/6

16/6

10/7

10/7

10/7

35/2

35/2

35/2

50/1

50/1

95/

(3/0

)12

0/(4

/0)

Out

put

curr

ent

40

°C a

mbi

ent

tem

pera

ture

Cont

inuo

us(3

x380

-440

V)

[A]

2.2

3.7

5.3

7.2

9.0

12.0

15.5

23.0

31.0

37.0

2432

37.5

44.0

61.0

73.0

90.0

106.

014

7.0

177.

0

Inte

rmitt

ent

(3x3

80-4

40 V

)[A

]

2.4

4.1

5.8

7.9

9.9

13.2

17.1

25.3

34.0

40.7

26.2

35.2

41.3

48.4

67.1

80.3

99.0

116.

616

1.7

194.

7

Cont

inuo

us(3

x440

-480

V)

[A]

2.1

3.4

4.8

6.3

8.2

11.0

14.0

21.0

27.0

34.0

2127

3440

.052

.065

.080

.010

5.0

130.

016

0.0

Inte

rmitt

ent

(3x4

40-4

80 V

)[A

]

2.3

3.7

5.3

6.9

9.0

12.1

15.4

23.1

29.7

37.4

23.1

29.7

37.4

44.0

57.2

71.5

88.0

115.

514

3.0

176.

0

Max

. inp

ut c

urre

nt

Co

ntin

uous

(3x3

80-4

40 V

)[A

]

2.1

3.5

4.7

6.3

8.3

11.2

15.1

22.1

29.9

35.2

2229

3441

.857

.070

.384

.210

2.9

140.

316

5.6

Inte

rmitt

ent

(3x3

80-4

40 V

)[A

]

2.3

3.9

5.2

6.9

9.1

12.3

16.6

24.3

32.9

38.7

24.2

31.9

37.3

46.0

62.7

77.4

92.6

113.

115

4.3

182.

2

Cont

inuo

us(3

x440

-480

V)

[A]

1.8

2.9

3.9

5.3

6.8

9.4

12.6

18.4

24.7

29.3

1925

3136

.049

.260

.672

.588

.612

0.9

142.

7

Inte

rmitt

ent

(3x

440-

480

V)[A

]

2.0

3.2

4.3

5.8

7.5

10.3

13.9

20.2

27.2

32.2

20.9

27.5

34.1

39.6

54.1

66.7

79.8

97.5

132.

915

7.0

Max

. mai

ns fu

ses

See

1.3.

6 Fu

ses

Tabl

e 1.

33

Quick Guide VLT® HVAC Basic Drive Quick Guide

MG18A402 - VLT® is a registered Danfoss trademark 37

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Page 39: Vlt Hvac Basic Drive Fc 101

Freq

uenc

y co

nver

ter

PK75

P1K5

PK2K

2PK

3K OPK

4K OPK

5K 5PK

7K 5P1

1KP1

5KP1

8KPK

11 KPK

15 KP1

8KP2

2KP3

0KP3

7KP4

5KP5

5KP7

5KP9

0K

Estim

ated

pow

er lo

ss [W

], Be

st c

ase/

typi

cal1)

21/

1646

/57

46/

5866

/83

95/

118

104/

131

159/

198

248/

274

353/

379

412/

456

242

330

396

496

734

995

840

1099

1520

1781

Wei

ght

encl

osur

e IP

54 [k

g]5.

35.

35.

35.

35.

37.

27.

213

.813

.813

.823

2323

2727

2745

4565

65

Effic

ienc

y [%

], Be

st c

ase/

Typi

cal 1

98.0

/97

.697

.7/

97.2

98.3

/97

.998

.2/

97.8

98.0

/97

.698

.4/

98.0

98.2

/97

.898

.1/

97.9

98.0

/97

.898

.1/

97.9

98.0

98.0

98.0

98.0

97.8

97.6

98.3

98.2

98.1

98.3

Out

put

curr

ent

50

°C a

mbi

ent

tem

pera

ture

Cont

inuo

us(3

x380

-440

V)

[A]

1.93

3.7

4.85

6.3

7.5

10.9

14.0

20.9

28.0

33.0

19.2

25.6

3035

.248

.858

.463

.074

.210

2.9

123.

9

Inte

rmitt

ent

(3x3

80-4

40 V

) [A

]2.

14.

075.

46.

99.

212

.015

.423

.030

.836

.321

.228

.233

38.7

53.9

64.2

69.3

81.6

113.

213

6.3

Cont

inuo

us(3

x440

-480

V)

[A]

1.8

3.4

4.4

5.5

6.8

10.0

12.6

19.1

24.0

30.0

16.8

21.6

27.2

32.0

41.6

52.0

56.0

73.5

91.0

112.

0

Inte

rmitt

ent

(3x4

40-4

80 V

) [A

]2.

03.

74.

86.

18.

311

.013

.921

.026

.433

.018

.523

.830

35.2

45.8

57.2

61.6

80.9

100.

112

3.2

Tabl

e 1.

34

Quick Guide VLT® HVAC Basic Drive Quick Guide

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Page 40: Vlt Hvac Basic Drive Fc 101

1.7.4 Mains Supply 3x525-600 V AC

Frequency converter P2K2 P3K0 P3K7 P5K5 P7K5 P11K P15K P18K P22K P30K P37K P45K P55K P75K P90K

Typical shaft output [kW] 2.2 3.0 3.7 5.5 7.5 11.0 15.0 18.5 22.0 30.0 37 45.0 55.0 75.0 90.0

Typical shaft output [hp] 3.0 4.0 5.0 7.5 10.0 15.0 20.0 25.0 30.0 40.0 50.0 60.0 70.0 100.0

125.0

IP20 frame H9 H9 H9 H9 H9 H10 H10 H6 H6 H6 H7 H7 H7 H8 H8

Max. cable size in terminals (mains,

motor) [mm2/AWG]

4/10 4/10 4/10 4/10 4/10 10/8 10/8 35/2 35/2 35/2 50/1 50/1 50/1 95/0 120/(4/0)

Output current

RELAY 2

130B

B632

.10 40 °C ambient temperature

Continuous(3x525-550 V)[A]

4.1 5.2 6.4 9.5 11.5 19.0 23.0 28.0 36.0 43.0 54.0 65.0 87.0 105.0

137.0

Intermittent(3x525-550 V)[A]

4.5 5.7 7.0 10.5 12.7 20.9 25.3 30.8 39.6 47.3 59.4 71.5 95.7 115.5

150.7

Continuous(3x551-600 V)[A]

3.9 4.9 6.1 9.0 11.0 18.0 22.0 27.0 34.0 41.0 52.0 62.0 83.0 100.0

131.0

Intermittent(3x551-600 V)[A]

4.3 5.4 6.7 9.9 12.1 19.8 24.2 29.7 37.4 45.1 57.2 68.2 91.3 110.0

144.1

Max. input current

RELAY 2

130B

B633

.10 Continuous

(3x525-550 V)[A]

3.7 5.1 5.0 8.7 11.9 16.5 22.5 27.0 33.1 45.1 54.7 66.5 81.3 109.0

130.9

Intermittent(3x525-550 V)[A]

4.1 5.6 6.5 9.6 13.1 18.2 24.8 29.7 36.4 49.6 60.1 73.1 89.4 119.9

143.9

Continuous(3x551-600 V)[A]

3.5 4.8 5.6 8.3 11.4 15.7 21.4 25.7 31.5 42.9 52.0 63.3 77.4 103.8

124.5

Intermittent(3x551-600 V)[A]

3.9 5.3 6.2 9.2 12.5 17.3 23.6 28.3 34.6 47.2 57.2 69.6 85.1 114.2

137.0

Max. mains fuses See 1.3.6 Fuses

Estimated power loss [W], Best case/

typical1)

65 90 110 132 180 216 294 385 458 542 597 727 1092 1380 1658

Weight enclosure IP54 kg] 6.6 6.6 6.6 6.6 6.6 11.5 11.5 24.5 24.5 24.5 36.0 36.0 36.0 51.0 51.0

Efficiency [%], Best case/Typical 1 97.9 97 97.9 98.1 98.1 98.4 98.4 98.4 98.4 98.5 98.5 98.7 98.5 98.5 98.5

Output current

50 °C ambient temperature

Continuous(3x525-550 V)[A]

2.9 3.6 4.5 6.7 8.1 13.3 16.1 19.6 25.2 30.1 37.8 45.5 60.9 73.5 95.9

Intermittent(3x525-550 V)[A]

3.2 4.0 4.9 7.4 8.9 14.6 17.7 21.6 27.7 33.1 41.6 50.0 67.0 80.9 105.5

Continuous(3x551-600 V)[A]

2.7 3.4 4.3 6.3 7.7 12.6 15.4 18.9 23.8 28.7 36.4 43.3 58.1 70.0 91.7

Intermittent(3x551-600 V)[A]

3.0 3.7 4.7 6.9 8.5 13.9 16.9 20.8 26.2 31.6 40.0 47.7 63.9 77.0 100.9

Table 1.35

Quick Guide VLT® HVAC Basic Drive Quick Guide

MG18A402 - VLT® is a registered Danfoss trademark 39

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Page 41: Vlt Hvac Basic Drive Fc 101

1.7.5 EMC Test Results

The following test results have been obtained using asystem with a frequency converter, a screened controlcable, a control box with potentiometer, as well as a motorscreened cable.

RFI Filter Type Conduct emission. Maximum shielded cable length [m] Radiated emission

Industrial environmentHousing, trades and

light industriesIndustrial environment

Housing, trades andlight industries

EN 55011 Class A2 EN 55011 Class A1 EN 55011 Class B EN 55011 Class A1 EN 55011 Class B

Withoutexternal

filter

Withexternal

filter

Withoutexternal

filter

Withexternal

filter

Withoutexternal

filter

Withexternal

filter

Withoutexternal

filter

Withexternal

filter

Withoutexternal

filter

Withexternal

filter

H4 RFI filter (Class A1)

0.25-11 kW3x200-240 VIP20

25 50 20 Yes Yes No

0.37-22 kW3x380-480 VIP20

25 50 20 Yes Yes No

H2 RFI filter (Class A2)

1.5-45 kW3x200-240 VIP20

25 No No

30-90 kW3x380-480 VIP20

25 No No

0.75-18.5 kW3x380-480 VIP54

25 Yes

22-90 kW3x380-480 VIP54

25 No No

H3 RFI filter (Class A1/B)

1.5-45 kW3x200-240 VIP20

50 20 Yes No

30-90 kW3x380-480 VIP20

50 20 Yes No

0.75-18.5 kW3x380-480 VIP54

25 10 Yes

22-90 kW3x380-480 VIP54

50 10 Yes No

Table 1.36

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Page 42: Vlt Hvac Basic Drive Fc 101

Protection and features

• Electronic thermal motor protection motor protection against overload.

• Temperature monitoring of the heatsink ensures that the frequency converter trips in case of overtemperature.

• The frequency converter is protected against short-circuits between motor terminals U, V, W.

• If a motor phase is missing, the frequency converter trips and issues an alarm.

• If a mains phase is missing, the frequency converter trips or issues a warning (depending on the load).

• Monitoring of the intermediate circuit voltage ensures that the frequency converter trips if the intermediate circuitvoltage is too low or too high.

• The frequency converter is protected against earth faults on motor terminals U, V, W.

Mains supply (L1, L2, L3)Supply voltage 200-240 V ±10%Supply voltage 380-480 V ±10%Supply voltage 525-600 V ±10%Supply frequency 50/60 HzMax. imbalance temporary between mains phases 3.0% of rated supply voltageTrue Power Factor (λ) ≥ 0.9 nominal at rated loadDisplacement Power Factor (cosφ) near unity (>0.98)Switching on the input supply L1, L2, L3 (power-ups) enclosure frame H1-H5, I2, I3, I4 Max. 2 times/min.Switching on the input supply L1, L2, L3 (power-ups) enclosure frame H6-H8, I6-I8 Max. 1 time/min.Environment according to EN 60664-1 overvoltage category III/pollution degree 2The unit is suitable for use on a circuit capable of delivering not more than 100.000 RMS symmetrical Amperes, 240/480 Vmaximum.

Motor output (U, V, W)Output voltage 0-100% of supply voltageOutput frequency 0-200 Hz (VVCplus), 0-400 Hz (u/f)Switching on output UnlimitedRamp times 0.05-3600 s

Cable lengths and cross sectionsMax. motor cable length, screened/armoured (EMC correct installation) See 1.7.5 EMC Test ResultsMax. motor cable length, unscreened/unarmoured 50 mMax. cross section to motor, mains*Cross section DC terminals for filter feedback on enclosure frame H1-H3, I2, I3, I4 4 mm2/11 AWGCross section DC terminals for filter feedback on enclosure frame H4-H5 16 mm2/6 AWGMaximum cross section to control terminals, rigid wire 2.5 mm2/14 AWG)Maximum cross section to control terminals, flexible cable 2.5 mm2/14 AWG)Minimum cross section to control terminals 0.05 mm2/30 AWG*See 1.7.2 Mains Supply 3x380-480 V AC for moreinformation

Digital inputsProgrammable digital inputs 4Terminal number 18, 19, 27, 29Logic PNP or NPNVoltage level 0-24 V DCVoltage level, logic '0' PNP <5 V DCVoltage level, logic '1' PNP >10 V DCVoltage level, logic '0' NPN >19 V DCVoltage level, logic '1' NPN <14 V DCMaximum voltage on input 28 V DCInput resistance, Ri Approx. 4 kDigital input 29 as thermistor input Fault: >2.9 kΩ and no fault: <800 Ω

Quick Guide VLT® HVAC Basic Drive Quick Guide

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Analog inputsNumber of analog inputs 2Terminal number 53, 54Terminal 53 mode Parameter 6-19: 1=voltage, 0=currentTerminal 54 mode Parameter 6-29: 1=voltage, 0=currentVoltage level 0-10 VInput resistance, Ri approx. 10 kΩMax. voltage 20 VCurrent level 0/4 to 20 mA (scalable)Input resistance, Ri <500 ΩMax. current 29 mA

Analog outputNumber of programmable analog outputs 2Terminal number 42, 451)

Current range at analog output 0/4-20 mAMax. load to common at analog output 500 ΩMax. voltage at analog output 17 VAccuracy on analog output Max. error: 0.4% of full scaleResolution on analog output 10 bit

1) Terminal 42 and 45 can also be programmed as digital outputs.

Digital outputNumber of digital outputs 2Terminal number 42, 451)

Voltage level at digital output 17 VMax. output current at digital output 20 mAMax. load at digital output 1 kΩ

1) Terminals 42 and 45 can also be programmed as analog output.

Control card, RS-485 serial communicationTerminal number 68 (P, TX+, RX+), 69 (N, TX-, RX-)Terminal number 61 Common for terminals 68 and 69

Control card, 24 V DC outputTerminal number 12Max. load enclosure frame H1-H8, I2-I8 80 mA

Relay outputProgrammable relay output 2Relay 01 and 02 01-03 (NC), 01-02 (NO), 04-06 (NC), 04-05 (NO)Max. terminal load (AC-1)1) on 01-02/04-05 (NO) (Resistive load) 250 V AC, 3 AMax. terminal load (AC-15)1) on 01-02/04-05 (NO) (Inductive load @ cosφ 0.4) 250 V AC, 0.2 AMax. terminal load (DC-1)1) on 01-02/04-05 (NO) (Resistive load) 30 V DC, 2 AMax. terminal load (DC-13)1) on 01-02/04-05 (NO) (Inductive load) 24 V DC, 0.1 AMax. terminal load (AC-1)1) on 01-03/04-06 (NC) (Resistive load) 250 V AC, 3 AMax. terminal load (AC-15)1) on 01-03/04-06 (NC) (Inductive load @ cosφ 0.4) 250 V AC, 0.2 AMax. terminal load (DC-1)1) on 01-03/04-06(NC) (Resistive load)

30 V DC, 2 AMin. terminal load on 01-03 (NC), 01-02 (NO) 24 V DC 10 mA, 24 V AC 20 mA

Environment according to EN 60664-1 Overvoltage category III/pollution degree 21) IEC 60947 parts 4 and 5.

Control card, 10 V DC outputTerminal number 50Output voltage 10.5 V ±0.5 VMax. load 25 mA

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All inputs, outputs, circuits, DC supplies and relay contacts are galvanically isolated from the supply voltage (PELV) andother high-voltage terminals.

SurroundingsEnclosure IP20Enclosure kit available IP21, TYPE 1Vibration test 1.0 gMax. relative humidity 5%-95% (IEC 60721-3-3; Class 3K3 (non-condensing) during operationAggressive environment (IEC 60721-3-3), coated (standard) frame H1-H5 Class 3C3Aggressive environment (IEC 60721-3-3), non-coated frame H6-H10 Class 3C2Aggressive environment (IEC 60721-3-3), coated (optional) frame H6-H10 Class 3C3Test method according to IEC 60068-2-43 H2S (10 days)Ambient temperature See max. output current at 40/50 °C in the tables mains supply

Derating for high ambient temperature, see 1.7.6 Surroundings

Minimum ambient temperature during full-scale operation 0 °CMinimum ambient temperature at reduced performance, enclosure frame H1-H5 -20 °CMinimum ambient temperature at reduced performance, enclosure frame H6-H10 -10 °CTemperature during storage/transport -30 to +65/70 °CMaximum altitude above sea level without derating 1000 mMaximum altitude above sea level with derating 3000 mDerating for high altitude, see 1.7.6 SurroundingsSafety standards EN/IEC 61800-5-1, UL 508CEMC standards, Emission EN 61800-3, EN 61000-6-3/4, EN 55011, IEC 61800-3

EMC standards, ImmunityEN 61800-3, EN 61000-3-12, EN 61000-6-1/2, EN 61000-4-2, EN 61000-4-3, EN 61000-4-4, EN

61000-4-5, EN 61000-4-6

1.8 Special Conditions

1.8.1 Derating for Ambient Temperatureand Switching Frequency

The ambient temperature measured over 24 hours shouldbe at least 5°C lower than the max. ambient temperature.If the frequency converter is operated at high ambienttemperature, the continuous output current should bedecreased. For derating curve, see VLT® HVAC Basic DesignGuide MG18C.

1.8.2 Derating for Low Air Pressure

The cooling capability of air is decreased at low airpressure. For altitudes above 2000 m, contact Danfossregarding PELV. Below 1000 m altitude no de-rating isnecessary, but above 1000 m the ambient temperature orthe maximum output current should be decreased.Decrease the output by 1% per 100 m altitude above 1000m or reduce the max. ambient temperature by 1° per 200m.

1.9 Options for VLT® HVAC Basic Drive FC101

For options, see the VLT® HVAC Basic Design Guide MG18C.

1.10 MCT 10 Support

MCT 10 information is available at: www.danfoss.com/BusinessAreas/DrivesSolutions/fc101driveupdates

Quick Guide VLT® HVAC Basic Drive Quick Guide

MG18A402 - VLT® is a registered Danfoss trademark 43

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Page 45: Vlt Hvac Basic Drive Fc 101

MAKING MODERN LIVING POSSIBLE

QQuick GuideVLT® HVAC Basic Drive FC 101

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*MG18A402*132R0078 MG18A402 Rev. 2012-03-23

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