http://catalog.moeller.net Frequency inverters DF Vector frequency inverters DV Frequency inverters allow an infinitely variable speed control of three-phase motors through the continuous control of the voltage/frequency ratio (U/f inverter) or through sensorless flow control (vector inverter). DV51 - Sensorless vector inverter - System device with direct surface mounting possibility for optional operator control and communication modules (DE…) - Rating range 1.6…16 A, 0.25…7.5 kW (at 400 V) Page 15/12 DV6 - Flow-controlled vector inverter - Closed-loop/open-loop (sensorless) - Parameterizable and communication-capable - Rating range 2.5…260 A, 0.75…132 kW (at 400 V) Page 15/23 DF51 - U/f inverter - Compact device with built-in keypad - Rating range 1.4…16 A, 0.25…7.5 kW (at 400 V) Page 15/6 DF6 - U/f inverter - Parameterizable and communication-capable - Rating range 22…253 A, 11…132 kW (at 400 V) Page 15/18 Page Overview of frequency inverters 15/2 System overview Frequency inverters DF51 15/4 Frequency inverters DF6 15/16 Description Frequency inverters DF51 15/5 Frequency inverters DF6 15/17 Ordering Frequency inverters DF51 15/6 Frequency inverters DF6 15/18 Engineering Assigned switching and protective elements DF51 15/7 Connection example DF51 15/8 Assigned switching and protective elements DF6 15/19 Connection example DF6 15/20 Technical data Frequency inverters DF51 15/39 Frequency inverters DF6 15/46 Dimensions Frequency inverters DF51 15/61 Frequency inverters DF6 15/62 Page Overview of frequency inverters 15/3 System overview Vector frequency inverters DV51 15/10 Vector frequency inverters DV6 15/21 Description Vector frequency inverters DV51 15/11 Vector frequency inverters DV6 15/22 Ordering Vector frequency inverters DV51 15/12 Vector frequency inverters DV6 15/23 Engineering Assigned switching and protective elements DV51 15/13 Connection example DV51 15/14 Assigned switching and protective elements DV6 15/24 Connection example DV6 15/25 Technical data Vector frequency inverters DV51 15/42 Vector frequency inverters DV6 15/50 Dimensions Vector frequency inverters DV51 15/61 Vector frequency inverters DV6 15/62 Page Description Keypads 15/26 Accessories 15/27 Interface modules 15/28 Reactors 15/30 Braking units, braking resistances 15/31 Engineering Connection examples 15/32 Ordering Accessories 15/33 Interface modules 15/34 Radio interference suppression filter 15/35 Mains chokes 15/36 Motor reactors, braking units, braking resistances 15/37 Technical data Radio interference suppression filter 15/57 Line reactors, motor reactors 15/59 Dimensions Accessories 15/62 Radio interference suppression filter 15/64 Line reactors, motor reactors 15/65 Frequency inverters DF, Vector frequency inverters DV Accessories DEV, DEX Vector frequency inverters DV51/DV6 Frequency inverters DF51/DF6 Contents Moeller HPL0211-2007/2008 15/1
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http://catalog.moeller.net
Frequency inverters DFVector frequency inverters DV
Frequency inverters allow an infi nitely variable speed control of three-phase motors through the continuous control of the voltage/frequency ratio (U/f inverter) or through sensorless fl ow control (vector inverter).
DV51- Sensorless vector inverter- System device with direct
surface mounting possibility for optional operator control and communication modules (DE…)
- Rating range 1.6…16 A, 0.25…7.5 kW (at 400 V)
Page 15/12
DV6- Flow-controlled vector
inverter- Closed-loop/open-loop
(sensorless)- Parameterizable and
communication-capable- Rating range 2.5…260 A,
0.75…132 kW (at 400 V)
Page 15/23
DF51- U/f inverter- Compact device with built-in
keypad- Rating range 1.4…16 A,
0.25…7.5 kW (at 400 V)
Page 15/6
DF6 - U/f inverter - Parameterizable and
communication-capable - Rating range 22…253 A,
11…132 kW (at 400 V)
Page 15/18
Page
Overview of frequency inverters 15/2
System overview
Frequency inverters DF51 15/4
Frequency inverters DF6 15/16
Description
Frequency inverters DF51 15/5
Frequency inverters DF6 15/17
Ordering
Frequency inverters DF51 15/6
Frequency inverters DF6 15/18
Engineering
Assigned switching and protective elements DF51
15/7
Connection example DF51 15/8
Assigned switching and protective elements DF6
15/19
Connection example DF6 15/20
Technical data
Frequency inverters DF51 15/39
Frequency inverters DF6 15/46
Dimensions
Frequency inverters DF51 15/61
Frequency inverters DF6 15/62
Page
Overview of frequency inverters 15/3
System overview
Vector frequency inverters DV51 15/10
Vector frequency inverters DV6 15/21
Description
Vector frequency inverters DV51 15/11
Vector frequency inverters DV6 15/22
Ordering
Vector frequency inverters DV51 15/12
Vector frequency inverters DV6 15/23
Engineering
Assigned switching and protective elements DV51
15/13
Connection example DV51 15/14
Assigned switching and protective elements DV6
15/24
Connection example DV6 15/25
Technical data
Vector frequency inverters DV51 15/42
Vector frequency inverters DV6 15/50
Dimensions
Vector frequency inverters DV51 15/61
Vector frequency inverters DV6 15/62
Page
Description
Keypads 15/26
Accessories 15/27
Interface modules 15/28
Reactors 15/30
Braking units, braking resistances 15/31
Engineering
Connection examples 15/32
Ordering
Accessories 15/33
Interface modules 15/34
Radio interference suppression fi lter 15/35
Mains chokes 15/36
Motor reactors, braking units, braking resistances
15/37
Technical data
Radio interference suppression fi lter 15/57
Line reactors, motor reactors 15/59
Dimensions
Accessories 15/62
Radio interference suppression fi lter 15/64
Line reactors, motor reactors 15/65
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DVAccessories DEV, DEXVector frequency inverters DV51/DV6Frequency inverters DF51/DF6
Product standard EN 50178, IEC 61800-3Approvals CE, UL, c-UL, cTick CE, UL, c-UL,CSA, cTickDegree of protection IP20
Ambient temperatureOperating temperature °C -10 to +40 with rated current Ie at a clock frequency of 5 kHz; up to +50 °C at a reduced clock frequency of 2 kHz
and reduced output current of 80 % Ie.Storage °C –25…+70
Mechanical shock resistance Vibration and impact, max. 5.9 m/s2 (0.6 g) at 10 to 55 HzPollution degree VDE 0110 Part 2, pollution degree 2Climatic proofing Class 3K3 according to EN 50178 (non-condensing, average relative humidity 20 to 90 %)Altitude m 0 to 1000 m a.s.l., above 1000 m with reduced current (2.5 %/100 m)Mounting position Vertically suspendedFree surrounding areas 100 mm above and below deviceEmitted interference IEC/EN 61800-3 (EN 55011 group 1 class B)Noise immunity IEC/EN 61800-3, industrial environmentInsulation resistance Overvoltage category III according to VDE 0110Leakage current to PE mA < 3.5 (to EN 50178)Contact protection Finger and back-of-hand proofProtective isolation from switching circuitry
Safe isolation from the mains. Double basic isolation (to EN 50178)
Protective measures Overcurrent, earth fault, overvoltage, undervoltage, overload, overtemperature, electronic overload protection: I2t monitoring and PTC input (thermistor or thermostat)
Notes If the frequency inverter is to be installed in an enclosure, control panel or similar housing, the ambient temperature Ta is taken to be the temperature inside this enclosure or control panel.All rating data of the power section is based on a switching frequency of 5 kHz (default setting) and an ambient temperature of +40 °C, for operation of a four-pole three-phase asynchronous motor.
Product standard EN 50178, IEC 61800-3Approvals CE, UL, c-UL, cTick CE, UL, c-UL,CSA, cTickDegree of protection IP20
Ambient temperatureOperating temperature °C -10 to +40 with rated current Ie at a clock frequency of 5 kHz; up to +50 °C at a reduced clock frequency of 2 kHz
and reduced output current of 80 % Ie.Storage °C –25…+70
Mechanical shock resistance Vibration and impact, max. 5.9 m/s2 (0.6 g) at 10 to 55 HzPollution degree VDE 0110 Part 2, pollution degree 2Climatic proofing Class 3K3 according to EN 50178 (non-condensing, average relative humidity 20 to 90 %)Altitude m 0 to 1000 m a.s.l., above 1000 m with reduced current (2.5 %/100 m)Mounting position Vertically suspendedFree surrounding areas 100 mm above and below deviceEmitted interference IEC/EN 61800-3 (EN 55011 group 1 class B)Noise immunity IEC/EN 61800-3, industrial environmentInsulation resistance Overvoltage category III according to VDE 0110Leakage current to PE mA < 3.5 (to EN 50178)Contact protection Finger and back-of-hand proofProtective isolation from switching circuitry
Safe isolation from the mains. Double basic isolation (to EN 50178)
Protective measures Overcurrent, earth fault, overvoltage, undervoltage, overload, overtemperature, electronic overload protection: I2t monitoring and PTC input (thermistor or thermostat)
Notes If the frequency inverter is to be installed in an enclosure, control panel or similar housing, the ambient temperature Ta is taken to be the temperature inside this enclosure or control panel.All rating data of the power section is based on a switching frequency of 5 kHz (default setting) and an ambient temperature of +40 °C, for operation of a four-pole three-phase asynchronous motor.
Frequency inverters 1 Communication modules 6 Radio interference suppression filter 2DF51-322-... CANopen interface a page 15/35Mains: 230 V single-phase/3-phase PROFIBUS-DP interface Mains reactors 3Motor rating from 0.25 to 2.2 kW (230 V) a page 15/34 a page 15/36a page 15/6 Mounting frame 5 Motor reactor 3
for commumication modules a page 15/37DF51-320-... 1 a page 15/34 Connection cable 4Mains: 230 V 3-phase Connection cable for external LCD keypadMotor ratingsfrom 4 to 7.5 kW (230 V)
a page 15/33
a page 15/6 Keypads 7, 8External LCD keypad with/without memory function
DF51-340-... 1 a page 15/33Mains: 400 V 3-phase Mounting frame 9Motor ratingfrom 0.37 to 7.5 kW (400 V)
The frequency inverters of the DF51 series provide infinitely variable speed control of three-phase motors. They are especially suitable for applications where simple operation and economic efficiency are important.The assigned performance range for four-pole three-phase asynchronous motors ranges from:
• 0.25 to 2.2 kW with single-phase power supply (230 V)• 0.25 to 7.5 kW with three-phase power supply (230 V)• 0.37 to 7.5 kW with three-phase power supply (400 V)
The frequency inverter DF51 can be used as a stand-alone drive or incorporated in automation systems. With its / (voltage/frequency) characteristic control, it can be used in wide range of applications, from simple pump and fan drives through standard transportation and conveying applications to flexible use the machine tool and packaging machine industry.
• Compact construction due to highly-integrated module technology• Integrated keypad with four-character seven-segment display, LEDs, six
function keys and a setpoint value potentiometer• Serial interface (RS 485, Modbus RTU)• Five digital inputs (24 V DC)• Two digital outputs (24 V DC)• Two analog inputs (0 to +10 V, 4 to 20 mA)• One analog output (0 to +10 V)• A relay (changeover contact: 24 V DC/230 V AC)• Thermistor input• User-friendly direct operation without prior configuration.• Conformance to global standards CE, UL, c-UL and cTick
Comprehensive protective functions guarantee safe operation and protect frequency inverters and motors:
Additional operational functions:• > 100 % starting torque from about 6 Hz• PID controller• Automatic voltage control (boost)• Min./max. frequency limitation• Electronic motor potentiometer function• Frequency hopping (frequency masking)• DC braking to motor standstill• Up to 16 fixed speeds• PLC functionality: Linkage of digital in- and outputs
• Each DF51 vector frequency inverter is supplied with installation instructions and a CD.
• The AWA contains a short description with illustrations and information about correct handling, installation and electrical connection of the device. The information supplied is printed in seven languages (English, Chinese, French, German, Italian, Russian, and Spanish).
• The CD contains a detailed manual (at least English, German) and configuration software with help text.
• Documentation and parameterization software are also available for download from the Internet:www.moeller.net/support
Note:The software on the CD can be run on PCs with the current Windows operating systems (from 98 to XP). For connecting a PC (RS 232) to a DF51 frequency inverter, you will need the connection cable DEX-CBL-2M0-PC.
Frequency Inverters DF51Frequency inverters 0.25 kW to 2.2 kW at 230 V, one- and three-phase connection
1 AC 180…264 V g 0 %3 AC 180…264 V g 0 %
1.4 0.25 DF51-322-025289102
1 off
1 AC 180…264 V g 0 %3 AC 180…264 V g 0 %
2.6 0.37 DF51-322-037289103
1 AC 180…264 V g 0 %3 AC 180…264 V g 0 %
3 0.55 DF51-322-055289104
1 AC 180…264 V g 0 %3 AC 180…264 V g 0 %
4 0.75 DF51-322-075289105
1 AC 180…264 V g 0 %3 AC 180…264 V g 0 %
5 1.1 DF51-322-1K1289106
1 AC 180…264 V g 0 %3 AC 180…264 V g 0 %
7.1 1.5 DF51-322-1K5289107
1 AC 180…264 V g 0 %3 AC 180…264 V g 0 %
10 2.2 DF51-322-2K2289108
Frequency inverters 4 kW to 7 kW at 230 V, three-phase connection1)
3 AC 180…264 V g 0 % 15.9 4 DF51-320-4K0289109
1 off
3 AC 180…264 V g 0 % 24 5.5 DF51-320-5K5289120
3 AC 180…264 V g 0 % 32 7.5 DF51-320-7K5289121
Frequency inverters 0.37 kW to 7.5 kW at 400 V, three-phase connection3 AC 342…528 V g 0 % 1.5 – DF51-340-037
2891221 off
3 AC 342…528 V g 0 % 2.5 – DF51-340-075289123
3 AC 342…528 V g 0 % 3.8 – DF51-340-1K5289124
3 AC 342…528 V g 0 % 5.5 – DF51-340-2K2289125
3 AC 342…528 V g 0 % 7.8 – DF51-340-3K0289126
3 AC 342…528 V g 0 % 8.6 – DF51-340-4K0289127
3 AC 342…528 V g 0 % 13 – DF51-340-5K5289128
3 AC 342…528 V g 0 % 16 – DF51-340-7K5289129
Notes 1) All rating data of the power section is based on a switching frequency of 5 kHz (default setting) and an ambient temperature of +40 °C, for operation of a four-pole three-phase asynchronous motor.
Notes: 1) Mains chokes reduce the line currents by up to 30 % and extend the frequency inverters’ lifespan.2) No device assigned yet.3) Where single-phase frequency inverters are used on mains without line reactor (for example with reactive-power compensation equipment or UPS),
current peaks can occur when the mains contactor is switched on, and these can cause the FAZ-B... to trip prematurely. Remedy: fit a mains reactor upstream or use a FAZ-C…
Line protection with FAZ, PKM or PKZM (PKZM0 can be used instead of PKM0) a section 12, 8 Mains contactors DIL a section 5 Main chokes DEX-LN… a page15/36Motor chokes DEX-LM3-… a page 15/37SFB400/... sine-wave filters please enquire
In their default configuration, the DF51 frequency inverters can be used at their assigned supply voltage and motor rating (four-pole, three-phase asynchronous motor) without any parameter changes. Their acceleration and deceleration times are set to 15 seconds. The control signal inputs and outputs have the following assigned functions:Terminal 1: FWD = Clockwise rotating field enable (Forward)Terminal 2: REV = Anticlockwise rotating field enable (Reverse)Terminal 3: FF1 = Fixed frequency 1
Terminal 4: FF2 = Fixed frequency 2Terminal 5: RST = Reset, can be configured as thermistor input with
parameter C005.Terminal 11: FA1 = Frequency arrival, type 1 (output frequency actual value
= reference input)Terminal 12: RUN = Running Terminals K11-K12:
Relay, fault signal (K11-K14 ready for operation)
Through the built-in keypad, all parameters and functions can be adapted to the application.
a Connection option for single-phase connection of a 2.2 kW drive (DF51-322-2K2) required!
Connection example for a 0.75 kW motor with the ratings plate illustrated below. Variant A: Motor connected in a delta circuit, DF51 with single-phase
mains supply (230 V).Variant B: Motor connected in a star circuit, DF51 with three-phase mains
supply (400 V).
Motor: P = 0.75 kW The 0.75 kW motor described below can be delta-connected to a single-phase 230 V mains (version A) or star-connected to a 400 V mains.Depending on the mains voltage, a DF5-322 frequency inverter is selected for 230 V single-phase AC, or a DF5-340 for 400 V 3-phase AC, together with the corresponding accessories.
Mains: 3/N/PE 400 V, 50/60 HzEMC-conformant connection examples: power section
Basic devicesVector frequency inverters 1DV51-322-...Mains: 230 V single-phase/3-phaseMotor rating vfrom 0.25 to 2.2 kW (230 V)a page 15/12DV51-320-... 1Mains: 230 V 3-phaseMotor ratingfrom 4 to 7.5 kW (230 V)a page 15/12DV51-340-... 1Mains: 400 V 3-phaseMotor ratingfrom 0.37 to 7.5 kW (400 V)a page 15/12
POWERALARMRUN
6
9
10
11
7
4
8
7 1
3
5
2Hz
A
RUN
PRG
PRGENTER
POWER
ALARM
POWERALARM
RUN
1 2
OFF
OPERBUS
COPY
POWER
RUNPRG
REVFWD
ALARM
READCOPY
ENTERPRG
MNT
RMT
System accessoriesCommunication modules 6RS 485 T adapter modulea page 15/33Communication modules 7CANopen interfacePROFIBUS DP interfacea page 15/34Mounting frames 8Adapter for LCD keypad DEX-KEY-6… in combination with the communication modules a page 15/34Mounting frames 11For external LCD keypada page 15/33
AccessoriesRadio interference suppression filter 2a page 15/35Line reactors 3a page 15/36Motor reactors 3a page 15/37Braking resistor 4Enclosed (IP 20) high-capacity resistors with temperature switch, for connecting to the DV51’s braking transistora page 15/37Connection cables 5Connection cable for external display and control unitsa page 15/33Keypad 9, 10External keypad with/withoutmemory function a page 15/33
With their sensorless vector control, the DV51 frequency inverters offer excellent torque levels for three-phase motors with cage rotors. They are especially suitable for demanding applications in which maximum torque and smooth running are required at the lower speed range. The assigned performance range for four-pole three-phase asynchronous motors ranges from:
• 0.25 to 2.2 kW with single-phase power supply (230 V)• 0.25 to 7.5 kW with three-phase power supply (230 V)• 0.37 to 7.5 kW with three-phase power supply (400 V)
The vector frequency inverters DV51 can be used as a stand-alone drive or incorporated in automation systems. The adaptable modules allow flexible communication. With the sensorless vector control, applications in the plastics and metal processing, textile, paper and printing industries and in crane and lift installations are possible.
• Compact construction due to highly-integrated module technology• Internal braking transistor• Optional keypads DEX-KEY-6…• Optional fieldbus module (CAN, PROFIBUS DP)• Serial interface (RS 485, Modbus RTU)• Six digital inputs (24 V DC)• Two digital outputs (24 V DC)• Two analog inputs (0 to +10 V, 4 to 20 mA)• One analog output (0 to +10 V)• A relay (changeover contact: 24 V DC/230 V AC)• Thermistor input• User-friendly direct operation without prior configuration.• Conformance to global standards CE, UL, c-UL and cTick
Comprehensive protective functions guarantee safe operation and protect frequency inverters and motors:
Additional operational functions:• Sensorless Vector Control• 200 % starting torque from approx 1 Hz• Dynamic braking (external braking resistor)• Electronic motor potentiometer function• PID controller• Automatic voltage control (boost)• Min./max. frequency limitation• Frequency hopping (frequency masking)• DC braking to motor standstill• Up to 16 fixed speeds• PLC functionality: Linkage of digital in- and outputs
• Each vector frequency inverter DV51 is supplied with an installation instruction (AWA) and a CD.
• The installation instruction contains a short description with illustrations and information about correct handling, installation and electrical connection of the device. The information supplied is printed in seven languages (English, Chinese, French, German, Italian, Russian, and Spanish).
• The CD contains a detailed manual (at least English, German) and configuration software with help text.
• Documentation and parameterization software are also available for download from the Internet:www.moeller.net/support
Note:The software on the CD can be run on PCs with the current Windows operating systems (from 98 to XP). For connecting a PC (RS 232) to a vector frequency inverter DV51, you will need the connection cable DEX-CBL-2M0-PC (with integrated interface converter).
The DV51 vector frequency inverters are supplied without LCD keypad. Order keypad DEX-KEY-6… separately.Vector frequency inverters 0.25 kW to 2.2 kW at 230 V, single- and three-phase connection
1 AC 180…264 V g 0 %3 AC 180…264 V g 0 %
1.6 0.25 DV51-322-025285016
1 off
1 AC 180…264 V g 0 %3 AC 180…264 V g 0 %
2.6 0.37 DV51-322-037285017
1 AC 180…264 V g 0 %3 AC 180…264 V g 0 %
3 0.55 DV51-322-055285018
1 AC 180…264 V g 0 %3 AC 180…264 V g 0 %
4 0.75 DV51-322-075285019
1 AC 180…264 V g 0 %3 AC 180…264 V g 0 %
5 1.1 DV51-322-1K1285030
1 AC 180…264 V g 0 %3 AC 180…264 V g 0 %
8 1.5 DV51-322-1K5285031
1 AC 180…264 V g 0 %3 AC 180…264 V g 0 %
11 2.2 DV51-322-2K2285032
Vector frequency inverters 4 kW to 7.5 kW at 230 V, three-phase connection1)
3 AC 180…264 V g 0 % 17.5 4 DV51-320-4K0285033
1 off
3 AC 180…264 V g 0 % 24 5.5 DV51-320-5K5285034
3 AC 180…264 V g 0 % 32 7.5 DV51-320-7K5285035
Vector frequency inverters 0.37 kW to 7.5 kW at 400 V, three-phase connection3 AC 342…528 V g 0 % 1.5 – DV51-340-037
2850361 off
3 AC 342…528 V g 0 % 2.5 – DV51-340-075285037
3 AC 342…528 V g 0 % 3.8 – DV51-340-1K5285038
3 AC 342…528 V g 0 % 5.5 – DV51-340-2K2285039
3 AC 342…528 V g 0 % 7.8 – DV51-340-3K0285040
3 AC 342…528 V g 0 % 8.6 – DV51-340-4K0285041
3 AC 342…528 V g 0 % 13 – DV51-340-5K5285042
3 AC 342…528 V g 0 % 16 – DV51-340-7K5285043
Notes All rating data of the power section is based on a switching frequency of 5 kHz (default setting) and an ambient temperature of +40 °C, for operation of a four-pole three-phase asynchronous motor.
Notes: 1)Mains chokes reduce the line currents by up to 30 % and extend the frequency inverters’ lifespan.2)No device assigned yet.3)Where single-phase frequency inverters are used on mains without mains choke (for example with reactive-power compensation equipment or UPS), current peaks can occur when the mains contactor is switched on, and these can cause the FAZ-B… to trip prematurely. Remedy: fit a mains reactor upstream or use a FAZ-C…Line protection with FAZ, PKM or PKZM (PKZM0 can be used instead of PKM0) a section 8 or 16DIL mains contactors a section 5Main chokes DEX-LN… a page 15/36Motor chokes DEX-LM3-… a page 15/37SFB400/… sine-wave filters please enquire
In their default configuration, the DV51 vector frequency inverters can be used at their assigned supply voltage and motor rating (four-pole, three-phase asynchronous motor) without any parameter changes. Their acceleration and deceleration times are set to 15 seconds. The control signal inputs and outputs have the following assigned functions:Terminal 1: FWD = Clockwise rotating field enable (Forward)Terminal 2: REV = Anticlockwise rotating field enable (Reverse)Terminal 3: FF1 = Fixed frequency 1Terminal 4: FF2 = Fixed frequency 2
Terminal 5: RST = Reset, can be configured as thermistor input with parameter C005.
Terminal 6: 2CH = Second parameter setTerminal 11: FA1 = Frequency arrival, type 1 (output frequency actual value
= reference input)Terminal 12: RUN = Running Terminals K11-K12:
Relay, fault signal (K11-K14 ready for operation)
Through optional keypad DEX-KEY-..., all parameters and functions can be adapted to the application.
Braking resistor 4Enclosed (IP 20) high-capacity resistors with temperature switch, for connecting to the braking transistora page 15/37Connection cable for external display and control unitsa page 15/33
Communication modules 6PROFIBUS DP interfaceEncoder interfacing assemblya page 15/34
The DF6 frequency inverters provide economic speed control of three-phase motors in standard applications with square-law load characteristics (pumps, fans).The assigned performance range for four-pole three-phase asynchronous motors ranges from 11 kW to 132 kW at 400 V.The DF6 units can be used as stand-alone drives or incorporated in automation systems. Their U/f(voltage/frequency) characteristic control allows their use in a broad range of applications in pump, fan, heating and air conditioning systems as well as all areas of process engineering with flow control.
segment display, six function keys and a setpoint value potentiometer• RS 485 and RS 422 serial interface• Six digital inputs (24 V DC)• 3 analog inputs (0 to +10 V, g10 V, 4 to 20 mA)• Three relays (a changeover contact, two make contacts: 24 V DC/230 V AC)• Thermistor input• Bus interface (PROFIBUS DP) can be integrated.• Global standards conforming to CE, UL, cUL, CSA and cTick
Note:The DF6-340-11K and DF6-340-15K frequency inverters have an integrated braking chopper and allow direct connection to the braking resistors DE4-BR1-…. For more than 15 kW the braking device DE4-BU4-1 is necessary for actuating the braking resistors.
Comprehensive protective functions guarantee safe operation and protect frequency inverters and motors:
Two parameter sets with a wide range of functions:• PID controller• Automatic energy saving mode• Motor synchronization and flying restart circuit• User macro storage• Automatic restart after a power failure• Electronic motor potentiometer function• 16 fixed frequencies• Min./max. frequency limitation
• Each DF6 vector frequency inverter is supplied with installation instructions and a CD.
• The AWA contains a short description with illustrations and information about correct handling, installation and electrical connection of the device. The information supplied is printed in seven languages (English, Chinese, French, German, Italian, Russian, and Spanish).
• The CD contains a detailed manual (at least English, German) and configuration software with help text.
• Documentation and parameterization software are also available for download from the Internet:www.moeller.net/support
Note:The software on the CD can be run on PCs with the current Windows operating systems (from 98 to XP). For connecting a PC (RS 232) to a DF6 frequency inverter (RS 422), you will need the DEX-CBL-2M0-PC connection cable.
Notes 1) Mains chokes reduce the harmonic currents by up to 30 % and extend the frequency inverters’ lifespan.2) Short-circuit protection for mounting in control panel (no overload release required).3) Applications without electronic overload release: set Ir = infinite.4) Switching capacity (kA) according to power supply rating.5) At continuous, 100 percent motor load, the DEX-LN3-200 must be used here.
Line protection through NZM a section 10Line protection through PKZ a section 8Mains contactors DIL a section 5 Line reactors DEX-LN-… a page 15/36
In their default configuration, the DF6 frequency inverters can be used at their assigned supply voltage and motor rating (four-pole, three-phase asynchronous motor) without any parameter changes. Their acceleration and deceleration times are set to 30 seconds. The control signal inputs and outputs have the following assigned functions:
Terminal 1: RST = ResetTerminal 2: AT = change over to analog input OITerminal 3: FF2 = Fixed frequency 2Terminal 4: FF1 = Fixed frequency 1Terminal 5: REV = Anticlockwise rotating field
enable (Reverse) Terminal FW: FWD = Clockwise rotating field
enable (Forward)Terminal FM: Output frequency (PWM signal)Terminal AMI: Output frequency (analog signal
4...20 mA)Terminal AM: Output frequency (analog signal
0...10 V)Terminal 11: FA1 = frequency reaches set pointTerminals K11-K12: Relay, fault signal (K11-K14 ready
for operation)Terminal K23-K24: Rela, FA1, reference frequency
reachedTerminal K33-K34: Relay, RUN, in operationNote:Terminal BR*: Brake resistor, for DF6-320-11K,
DF6-340-11K and DF6-340-15K onlyThrough the built-in keypad, all parameters and functions can be adapted to the application.
The DV6 is the most powerful vector control frequency inverter of its class, with more than 200 % starting torque and virtually full static torque without feedback (sensorless). It guarantees the highest levels of smooth operation and is particularly suited to highly-dynamic applications in the packaging, printing and textile industries, for machine tools, and in material handling with elevator systems and hoists.The DV6 can be used as a stand-alone drive or incorporated in complex automation systems.The assigned performance range for four-pole three-phase asynchronous motors ranges from 0.75 kW to 132 kW at 400 V.
• Sensorless Vector Control (closed/open loop)• Motor autotuning (online/offline)• Built-in braking transistor (DV6-340-075 to DV6-340-11K)• 32-bit processor• Plug-in keypad (external installation possible) with four-character seven-
segment display, six function keys and a setpoint value potentiometer• RS 485 and RS 422 serial interface• Nine digital inputs (24 V DC)• 3 analog inputs (0 to +10 V, g10 V, 4 to 20 mA)• Thermistor input• Five digital outputs (24 V DC)• Two analog outputs (0/+10 V, 4 – 20 mA)• Relay (changeover contact: 24 V DC/230 V AC)• Bus interface (PROFIBUS DP) can be integrated.• Global standards conforming to CE, UL, cUL, CSA and cTick
Note:The DV6-340-075 to DV6-340-15K frequency inverters have an integrated braking chopper and allow direct connection to the braking resistors DE4-BR1-…. Over 15 KW the DE4-BU4-1 braking unit is necessary to actuate the braking resistors.
Comprehensive protective functions guarantee safe operation and protect frequency inverters and motors:
• Overcurrent, earth fault• Overload, electronic motor protection• Overtemperature• Overvoltage, undervoltage• Phase failure• Configurable delay with emergency-off and voltage failure
Three parameter sets with a wide range of functions:• P/PI controller and PID closed-loop controller• Automatic voltage regulation• Motor synchronization and flying restart circuit• Rapid stop function• User macro storage• Electronic motor potentiometer function• 16 fixed frequencies (bit/binary)• Min./max. frequency limitation
• Each vector frequency inverter DV6 is supplied with an installation instruction (AWA) and a CD.
• The AWA contains a short description with illustrations and information about correct handling, installation and electrical connection of the device. The information supplied is printed in seven languages (English, Chinese, French, German, Italian, Russian, and Spanish).
• The CD contains a detailed manual and configuration software with help text. • Documentation and parameterisation software is also available for download
from the Internet:www.moeller.net/support
Note:The software on the CD can be run on PCs with the current Windows operating systems (from 98 to XP). For connecting a PC (RS 232) to a DV6 frequency inverter (RS 422), you will need the DEX-CBL-2M0-PC connection cable.
Notes 1) Mains chokes reduce the harmonic currents by up to 30 % and extend the frequency inverters’ lifespan. 2) Short-circuit protection for mounting in control panel (no overload release required).3) Applications without electronic overload release: set Ir = infinite.
4) Switching capacity (kA) according to power supply rating.5) When using with DEX-LN3-160 mains choke, you can use NZM...2-S160.
Line protection through NZM a section 10Line protection through PKZ a section 8Mains contactors DIL a section 5 Line reactors DEX-LN-… a page 15/36
In their default configuration, the DV6 vector frequency inverters can be used at their assigned supply voltage and motor rating (four-pole, three-phase asynchronous motor) without any parameter changes. Their acceleration and deceleration times are set to 30 seconds. The control signal inputs and outputs have the following assigned functions:
Terminal 1: RST = ResetTerminal 2: AT = change over to analog input
OITerminal 3: JOG = inching dutyTerminal 4: FRS = free run stop of motor
(controller inhibit)Terminal 5: 2CH = Second parameter setTerminal 6: FF2 = Fixed frequency 2Terminal 7: FF1 = Fixed frequency 1Terminal 8: REV = Anticlockwise rotating field
enable (Reverse) Terminal FW: FWD = Clockwise rotating field
enable (Forward)Terminal FM: Output frequency (PWM signal)Terminal AMI: Output frequency (analog signal
4...20 mA)Terminal AM: Output frequency (analog signal
0...10 V)Terminal 11: FA1 = frequency reaches set pointTerminal 12: RUN = RunningTerminal 13: OL = overload signalTerminal 14: QTQ = torque reached (exceeded)Terminal 15: IP = mains failure; immediate stop
signalTerminals K11-K12: Relay, fault signal (K11-K14 ready
for operation)Note:Terminal BR*: Brake resistor; for DV6-320-11K
and DV6-340-075K to DV6-340-15K only
Through the built-in keypad, all parameters and functions can be adapted to the application.
• Operating unit with set point potentiometer (valid for DEX-KEY 6 only)• Remote keypad for the DF51, DF6, DV51 and DV6 frequency inverters.• Instead of the LED display, these keypads can be slotted into the DV51
frequency inverters or, with adapter DEV51-MNT-K60, snapped onto interface modules DE51-NET-CAN and DE51-NET-DP.
Note:For remote flush mounting in an enclosure (e.g. control panel door), mounting frame DEX-MNT-K6 and connection cable DEX-CBL-...-ICS or DNW-PC... are required.
• Four-digit digital display assembly• 7 LED function messages (applies to DEX-KEY 6)• 6 LED function messages (applies to DEX-KEY 61)• START/STOP and 4 configuration keys• Set point potentiometer (applies to DEX-KEY 6)
The LCD keypad allows all parameters of the DF51, DF6, DV51 and DV6 frequency inverters and to be set as well as their operation through the START/STOP buttons. The reference input can be made through the Up/Down buttons (motor potentiometer function) and through an analog setpoint potentiometer.
Installation instructions are supplied with each keypad. For notes about parameterisation, see the frequency inverter’s manual. They can be found on the CD supplied with every frequency inverter. The documentation is also available on the Internet at www.moeller.net/support.
Optional keypad with non-volatile configuration memory for the DF51, DV51, DF6 and DV6 frequency inverters as well as the RA-SP speed control unit.DEX-KEY-10 can be mounted in a control panel enclosure or fitted instead of the standard keypad of the DF6 and DV6 frequency inverters.The frequency inverter is connected via the RJ 45 interface.
Note:The connectors must be connected and disconnected only under no-voltage conditions.For external mounting, a connection cable with RJ 45 plugs (DEX-CBL-...-ICS or DNW-PC respectively) is required.
• Two-line, background-lit LCD display• LED function messages• Plain text display, in one of six languages (English, French, German, Italian,
Portuguese, Spanish) with DF6 and DV6, and in English with DF51 and DV51.• START/STOP buttons and function keys for parameterisation• Degree of protection: operating side (front) IP 54, NEMA 12
With the DEX-KEY-10 keypad, all parameters can be edited. They can be saved and transferred to frequency inverters of the same type (copy function, non-volatile memory).Parameters, setpoint values and actual values are displayed in English on a single line with the DF51, DV51 and RA-SP frequency inverters. With the DF6 and DV6 devices, two display lines are used The languages can be selected.
Installation instructions are supplied with each keypad.For notes about parameterisation, see manual AWB8240-1416 on the CD supplied with every frequency inverter of the series DF51, DF6 and DV51, DV6.The documentation is also available on the Internet: www.moeller.net/support.
Part no. overview
DEX-KEY-6DEX-KEY-61
Application
Features
Functions
Documentation
Part no. overview
DEX-KEY-10External keypad with configuration memory
Connection and extension of the system interface for frequency inverters DF51, DF6, DV51 and DV6, and speed control unit RA-SP.
Prefabricated for immediate use.
• The DEV51-NET-TC T-adapter doubles the RJ 45 connector of the DV51 (T piece). It is required to connect multiple DV51 frequency inverters as slaves to a system with the open RS 485 and Modbus RTU communication protocol.
• The connection cable allows the point-to-point connection of the RJ-45 slot.• Interface converter DEX-CLB-2MO-PC allows a direct point-to-point connection
of a PC with 9-pin RS232 (Sub-D) socket to the RJ-45 interface (RS 422/RS 485) of a DF51, DF6, DV51 or DV6 frequency inverter or on RA-SP.
• Adapter DEV51-MNT-K60 allows the installation and connection of keypad DEX-KEY-6… in combination with a fieldbus module DE51-NET-CAN or DE51-NET-DP and DV51 frequency inverters.
• Mounting frame DEX-MNT-K6 allows the seperate mounting of DEX-KEY-6 and DEX-KEY61 keypads in an enclosure (e.g. control panel door)
Adapter DV51-MNT-K60 and mounting frame DEX-MNT-K6 are supplied with all accessories required for application, such as self-adhesive rubber seals and connectors.
• Mounting frame and cover are purely mechanical components without separate functionality.
The mounting frame can be fitted as follows:• A: in a control panel door or enclosure with standard punching tool (square
67 x 67 mm)• B: Flush mounting in a water-resistant enclosure (IP 54, NEMA 4). Permissible
only with DEX-KEY-61 keypad without potentiometer.
Installation and mounting are described in the installation instructions of keypad DEX-KEY-6... They are described in the XSoft manual (AWB2700-1437GB). The documentation is contained on the CD supplied with each frequency inverter. The documentation is also available on the Internet: www.moeller.net/support
Part no. overview
DEV51-NET-TCT adapter for RS 485/Modbus connection
DEX-CBL-…-ICSDWN-PC-…Connecting cable with RS 45 plug
DEX-CBL-2M0-PCInterface converter with connection cable
Application
Features
Functions
Part no. overview
DEV51-MNT-K60Adapter for the operating unit DEX-KEY 6…
DEX-MNT-K6Mounting frame for the operating unit DEX-KEY 6…
DE51-NET-… allows the connection of DF51 and DV51 series frequency inverters as slaves to systems with standardised field bus (CANopen, PROFIBUS-DP).On the DV51 the interface modules can be front-mounted; on the DF51, they are mounted separately in mounting frame DEX-MNT-NET. A prefabricated connecting cable (DEX-CBL... or DWN-PC...) is required to connect the DF51.
DE51-NET-CAN• Communications protocol: DS-301 V4.01• Device profile: DS-402 V2.0• Bus address: 1 to 127• Max. cable length: 5000 m• Data transfer rate: 10 kbit/s to 1 Mbit/s, depending on cable length and amplifier• Isolated interface• address and baud rate adjustable through DIP switches• Five status LEDs• Clip-on to DV51, remote connection to DF51 (connection cable DEX-CBL-…-ICS
required).
DE51-NET-DP• Network topology: PROFIBUS DP line (DIN 19245 part 1 and 3)• DRIVECOM profile drive control technology 20• Bus address: 1 to 127• max. cable length: 10 000 m• Data transfer rate: 93.7 kbit/s to 12 Mbit/s, depending on cable length and
amplifier• Isolated interface• address and baud rate adjustable through DIP switches• Five status LEDs• Clip-on to DV51, remote connection to DF51 (connection cable DEX-CBL-…-ICS
required).
Installation instructions are supplied with each module. Further documentation for this module is also available on the Internet at: www.moeller.net/support.
PRGENTER
I O
POWER
ALARM
Part no. overview
DE51-NET-DPInterface for connecting to PROFIBUS DP
DE51-NET-CANInterface for connecting to CANopen
DEX-MNT-NETMounting frame for the external arrangement of interface modules
• Installation in slot 2 of DF6 or DV6 frequency inverter• Intelligent modules with their own processor and with potential isolation• RS 485 interface (9-pin, D-SUB socket)• Device address set with two rotary switches• Data transfer: 9.6 Kbit/s (at 1,200 m) to 12 Mbit/s (at 100 m) with automatic
baud rate detection• PROFIDrive profile, drive engineering version 2
Each PROFIBUS-DP module DE6-NET-DP comes with installation instructions (AWA 8240-1942). For notes about parameterizing these modules, see manual AWB8240-1418, which is contained on the CD supplied with each DF6 and DV6 series frequency inverter. The documentation is also available on the Internet: www.moeller.net/support
The DE6-IOM-ENC card can be used in conjunction with the DV6 vector frequency inverters and enables speed control of three-phase motors with a directly connected encoder.Further application features are:
• Synchro control and ratio control• Motor standstill recognition• Torque regulation
• Simply plugs into a slot in the DV6 frequency inverter
Note:The card must be fitted and pulled only under no-voltage conditions.• Parameterization via the DV6 frequency inverter’s menu.• Encoder connection via screw terminals.
• Output voltage (power supply) for the encoder: 5 V DC, 150 mA.• Max. number of input pulses: 65,000• Input: two TTL signals offset by 90° (5 V DC, RS 422 standard) with zero pulse
and inverted signals.
Installation instructions are supplied with each encoder module. The manual for the encoder card (AWB8240-1431) is contained on the CD supplied with every DV6 frequency inverter.The documentation is also available on the Internet: www.moeller.net/support
Part no. overview
DE6-NET-DPInterface for PROFIBUS DP networks
Application
Features
Documentation
Part no. overview
DE6-IOM-ENCEncoder card for DV6 frequency inverters
Mains chokes – also called commutating chokes – are connected in series on the mains input side of electronic equipment e.g. frequency inverters.
Mains chokes limit the inrush current and dampen current harmonics and any additional current peaks. By dampening the harmonic currents, the r.m.s value of the input current can be reduced by up to 30 %. In addition, they allow the often mandatory short-circuit voltage (k value) of about 4 % to the mains.Mains chokes extend components’ lifespan (rectifier diodes, DC link capacitors) on equipment with input-side DC link (frequency inverters, UPS).
The mains chokes are vacuum-impregnated for low-noise operation. They offer low-fatigue, magnetically and metallically neutral air-gap bypasses.Because of their flux distribution, the clearance to metal parts and neighbouring components must be at least 50 mm.
Motor chokes are used on the output of the frequency inverters in series with the motor.
Motor chokes reduce the slew rate of the output voltage (/ < 500 V/ms) as well as motor noise and heating.The use of motor chokes enables the permissible motor cable lengths to be extended up to 200 m.With parallel operation of several motors from the output of a frequency inverter the use of motor chokes is recommended. They reduce the higher capacitive reactive currents.
The motor chokes are vacuum-impregnated for low-noise operation. They offer low-fatigue, magnetically and metallically neutral air-gap bypasses.Because of their flux distribution, the clearance to metal parts and neighbouring components must be at least 50 mm.
Installation instructions are supplied with each choke. The documentation is also available on the Internet:www.moeller.net/support
Braking units with assigned braking resistors are used for rapid braking of frequency-controlled three-phase drives.With its integrated synchronization, the DE4-BU4-1 allows several braking units to be operated in parallel, for example for large loads (lifting gear).
• Braking transistor with automatic control (adjustable response value)• Braking resistors (DE4-BR1...) are not supplied with the device. The lowest
permissible resistance is: 18 Ω• Synchronization for parallel operation of several DE4-BU... at high braking
power.• Continuous braking power up to 18 kW• Maximum braking power 30 kW, with 15 s make time and 150 s pause time
With short braking times, the frequency controlled motor operates in regenerative (oversynchronous) mode. In this mode, it feeds power into the frequency inverter’s DC link, which results in an increased DC bus voltage. If the voltage exceeds the permitted limit value, the frequency inverter control logic disables the frequency inverter’s power inverter and the motor coasts to a stop.If one or more braking units are connected in parallel to the internal DC link, the recovered energy can be diverted through the assigned braking resistors, where it is dissipated as heat.
Installation instructions are supplied with each braking unit. The documentation is also available on the Internet: www.moeller.net/support
An external braking resistor is required when braking large moments of inertia or when operating in extended regenerative mode. It converts the mechanical braking energy to heat.
The integral braking transistor of the frequency inverter automatically diverts energy to the connected braking resistor when the threshold value of the DC bus voltage is exceeded. This prevents overvoltages in the DC link, which would otherwise cause an “overvoltage” fault message and activate the pulse inhibitor of the frequency inverter. The drive coasts to a stop.
The resistors are built into a perforated sheet-metal enclosure and are fitted with an overtemperature protection switch (230 V, 1A, AC-1). The enclosure is made from galvanized perforated sheet metal, The enclosures are open at the bottom and fullfil protection IP20 only when mounted.By combining several resistances in series and/or parallel higher braking capacities can be obtained.The braking resistors can be directly connected to the brake chopper of the frequency inverter DV51, DF6-340-11K, DF6-340-15K, DV6-340-075…11K and the braking unit DE4-BU4-1.
Installation instructions are supplied with each braking unit. The documentation is also available on the Internet:www.moeller.net/support
Part no. overview
DE4-BU... braking unitBraking unit for controlling external braking resistors
KeypadsLCD keypad with potentiometer. Flush mounting in DV51 frequency inverters possible. For separate application, a connection cable (DEX-CBL-…ICS, DNW-PC…) is required.
DF51-…DF6-...DV51-...DV6-...
DEX-KEY-6289943
1 off
LCD keypad. Flush mounting in DV51 frequency inverters possible. For separate application, a connection cable (DEX-CBL-…ICS, DNW-PC…) is required.
DF51-…DF6-...DV51-...DV6-...
DEX-KEY-61289944
1 off
Mounting frame for DEX-KEY-6… LCD keypadMounting frame for DEX-KEY-6… LCD keypad DEX-KEY-6… DEX-MNT-K6
2899451 off
DEX-KEY-10LCD keypad with non-volatile memory. Flush mounting in DF6 and DV6 frequency inverters possible. For remote operation, a connection cable (DEX-CBL-…ICS, DNW-PC...) is required.
DF51-...DF6-...DV51-...DV6-...RA-SP
DEX-KEY-10231421
1 off
Interface modulesT adapter DEV51-NET-TC
T adapter. Flush mounting in DV51 frequency inverters possible. Interface (T connector) with RJ45 sockets for the built-in RS 485/Modbus RTU interface.
DV51-… DEV51-NET-TC289948
1 off
Connection cablesInterface converter RS332/RJ45 with connection cable (2 m) with RJ45 plug and 9-pin Sub-D plug
DF51-...DF6-...DV51-...DV6-...RA-SP
DEX-CBL-2M0-PC233184
1 off
Connection cablesConnection cable (1.0 m) with RJ-45 plugs DEX-KEY-10
CANopen interface for DV51 frequency inverters and for external connection for DF51 (connection cable DEX-CBL-…ICS or DNW-PC… required)
DF51-…DV51-...
DE51-NET-CAN289947
1 off
PROFIBUS-DP interface card DE51-NET-DPPROFIBUS DP interface for DV51 frequency inverters and for external connection for DF51 (connection cable DEX-CBL-…ICS required)
DF51-…DV51-...
DE51-NET-DP289946
1 off
DE6-NET-DP PROFIBUS DP interfacing modulePROFIBUS-DP interfacing for DF6 frequency inverter and DV6 vector frequency inverter. This card is installed in the devices.
DF6-.../DV6-... DE6-NET-DP232369
1 off
DE6-IOM-ENC encoder interfacing moduleEncoder interface module for speed control and synchronous speed control. The module is installed in vector frequency inverter DV6.
DV6-... DE6-IOM-ENC232365
1 off
Mounting framesMounting frame with connection cable for the external arrangement of interface modules DE51-NET-CAN and DE51-NET-DP
DF51...DV51...
DEX-MNT-NET106265
1 off
Mounting frame for LCD keypads DEX-KEY-6… on interface modules DE51-NET-CAN and DE51-NET-DP for vector frequency inverters DV51…
Three-phase motor chokes• Max. permissible mains voltage 750 V + 0 %
2 5 24 DEX-LM3-005269538
1 off Motor reactors reduce the du/dt value of the output voltage and therefore the motor noise and heating.Motor chokes have larger dimension than mains chokes with the same rated current.
4.1 8 54 DEX-LM3-008269539
3 11 71 DEX-LM3-011269541
1.5 16 78 DEX-LM3-016269542
1 35 116 DEX-LM3-035269543
0.6 50 168 DEX-LM3-050269544
0.5 63 193 DEX-LM3-063269545
0.5 80 206 DEX-LM3-080269546
0.45 100 294 DEX-LM3-100269547
0.35 150 424 DEX-LM3-150269548
0.3 180 439 DEX-LM3-180269549
0.2 220 517 DEX-LM3-220269560
0.15 260 520 DEX-LM3-260269561
Frequency inverter Braking unit Part no.Article no.
Pricesee price list
Std. pack
Mains supply voltage (50/60 Hz)
Minimum braking resistance
Maximum brake current
Continuous braking rating at ULN
Maximum braking rating
ULN Rmin I at 230 V at 400 V PmaxV O A DC P P kW
W W
Braking unit DE4-BU4-1
for more rapid braking of frequency-controlled three-phase drivessetting of the braking rating via external braking resistance possible via:exchange of the existing braking resistance, series or parallel connection of a further resistor
2194851 off The braking resistors are designed for a load
cycle of:• max. 15 s braking at peak braking power• min. 150 s recovery time after brakingThe resistors are built into a perforated sheet-metal enclosure and are fitted with an overtemperature protection switch (230 V, 1A, AC-1).Enclosure: galvanized perforated brass, open bottom.Degree of protection IP20 is achieved only in installed state.
GeneralHeat dissipation with rated operational current Ie W 19 29 32 41 51 79 107 0 0 0
Dimensions (W x x D) mm 80 x 120 x 105 80 x 120 x 119 80 x 120 x 142 110 x 130 x 127 110 x 130 x 127 110 x 130 x 127 110 x 130 x 127 110 x 130 x 127 180 x 220 x 155 180 x 220 x 155Weight kg 0.8 0.95 0.95 1.4 1.4 1.9 1.9 1.9 5.5 5.7
Power sectionRated operating voltage V AC 230 230 230 230 230 230 230 230 230 230Rated voltage Ue V 1 AC 180…264 V g 0 %
3 AC 180…264 V 0 %1 AC 180…264 V 0 %3 AC 180…264 V 0 %
ted between 2 and 14 kHz3 AC e 3 AC e 3 AC e 3 AC e 3 AC e
oint values, maximum frequency/1000 with analog setpoint valuesum frequency for digital reference values, 0.2 % of maximum frequency for analog reference values
7.1 10 15.9 24 32ry 600 sr higher with torque boost activated
2.9 4.1 6.6 9.9 13.2
1.5 2.2 4 5.5 7.5m
ct, 230 V AC, 0.2 A inductive load, 2.5 A resistive load; or 24 V DC, 0.7 A inductive load, 3 A resistive load
RS485 RS485 RS485 RS485 RS485
+10 DC, 10 mA +10 DC, 10 mA +10 DC, 10 mA +10 DC, 10 mA +10 DC, 10 mA+24 DC, 30 mA +24 DC, 30 mA +24 DC, 30 mA +24 DC, 30 mA +24 DC, 30 mA
figurable (input impedance 10 kO, 4 to 20 mA (load impedance 250 O), resolution 10 bit
stor (open-collector, configurable), 1 mA (configurable), resolution 10 bit
4 4 2.5 4 412 12 14 12 12
1.5 1.5 1.5 1.5 1.56 6 6 6 6
1.5 1.5 1.5 1.5 1.56 6 6 6 6
15/39
DF51 DF51
i
i = 230 V AC triph. A 1.8 3.4 3.9 5.2 6.5Alternative DC supply DC V DC 260…370 0 % 260…370 0 % 260…370 0 % 260…370 0 % 260…370 0 %Modulation method sinusoidal pulse-width modulation (PWM), /f characteristic control sinusoidal pulse-wi
Switching frequency 5 kHz, can be selected between 2 and 14 kHz 5 kHz, can be selecOutput voltage V 3 AC e 3 AC e 3 AC e 3 AC e 3 AC e
Output frequency Hz 0 to 50, max. 400 0 to 50, max. 400Frequency resolution kHz 0.1 with digital setpoint values, maximum frequency/1000 with analog setpoint values 0.1 with digital setpFrequency error limit at 20 C 10 K 0.01 % of maximum frequency for digital reference values, 0.2 % of maximum frequency for
analog reference values 0.01 % of maxim
Max. rated operational current e A 1.4 2.6 3 4 5Permissible overcurrent 150 % for 60 s, every 600 s 150 % for 60 s, eveTorque during start From 6 Hz 100 % or higher with torque boost activated From 6 Hz 100 % oApparent power at 240 V kVA 0.5 1 1.2 1.6 2Standard operation at 150 % overload Assigned motor rating (4-pole ASM)
230 V kW 0.25 0.37 0.55 0.75 1.1240 V HP k m o m
Control circuit1 changeover contact, 230 V AC, 0.2 A inductive load, 2.5 A resistive load; or 24 V DC, 0.7 A inductive load, 3 A resistive load
1 changeover conta
Serial interface RS485 RS485 RS485 RS485 RS485Control voltage
Output setpoint voltage V +10 DC, 10 mA +10 DC, 10 mA +10 DC, 10 mA +10 DC, 10 mA +10 DC, 10 mAOutput control voltage V +24 DC, 30 mA +24 DC, 30 mA +24 DC, 30 mA +24 DC, 30 mA +24 DC, 30 mA
Parameterization 1 parameter set (online/offline parameterization), parameter protection (programmable) 1 parameter set (on
Inputsdigital (parameters can be defined) 5 +24 V DC, configurable 5 +24 V DC, conAnalog Inputs Amount 2 0 to +10 V DC (input impedance 10 kO, 4 to 20 mA (load impedance 250 O), resolution 10
bit2 x 0 to +10 V DC
OutputsDigital 2 x 24 V DC transistor (open-collector, configurable) 2 x 24 V DC transianalog (parameters can be defined) 1 x 0 to +10 V DC, 1 mA (configurable), resolution 10 bit 1 x 0 to +10 V DC
NotesTa is taken to be the temperature inside this enclosure or control panel.
All rating data of the power section is based on a switching frequency of 5 kHz (default setting) and an ambient temperature of +40 °C, for operation of a four-pole three-phase asynchronous motor.
GeneralHeat dissipation with rated operational current Ie
W 32 44 65 92 138 151 219 261
Dimensions (W x H x D) mm 110 x 130 x 141 110 x 130 x 168 110 x 130 x 168 110 x 130 x 168 110 x 130 x 168 110 x 130 x 168 180 x 220 x 167 180 x 220 x 167Weight kg 1.4 1.8 1.9 1.9 1.9 1.9 5.5 5.7
Power sectionRated operating voltage V AC 400 400 400 400 400 400 400 400Rated voltage Ue V 3 AC 342…528 V g 0 % 3 AC 342…528 V g 0 %Supply frequency Hz 50/60 (47…63 g 0 %) 50/60 (47…63 g 0 %)Mains current
11 16.5 20480…740 g 0 % 480…740 g 0 % 480…740 g 0 %
th modulation (PWM), U/f characteristic controled between 2 and 14 kHz
3 AC Ue 3 AC Ue 3 AC Ue
oint values/maximum frequency/1000 with analog setpoint valuesm frequency for digital reference values, g 0.2 % of maximum frequency for analog reference values
8.6 13 16ry 600 s 150 % for 60 s, every 600 s 150 % for 60 s, every 600 s 150 % for 60 s, every 600 s
higher with torque boost activated6.6 10.3 12.7
4 5.5 7.55 7 m 10
ct, 230 V AC, 0.2 A inductive load, 2.5 A resistive load; or 24 V DC, 0.7 A inductive load, 3 A resistive load
RS485 RS485 RS485
+10 DC, 10 mA +10 DC, 10 mA +10 DC, 10 mA+24 DC, 30 mA +24 DC, 30 mA +24 DC, 30 mA
igurable(input impedance 10 kO, 4 to 20 mA (load impedance 250 O), resolution 10 bit
tor (open-collector, configurable) 1 mA (configurable), resolution 10 bit
4 4 412 12 12
1.5 1.5 1.56 6 6
1.5 1.5 1.56 6 6
15/41
DF51 DF51
Ui = 3-phase, 400 V AC I A 2 3.3 5 7 10Alternative DC supply UDC V DC 480…740 g 0 % 480…740 g 0 % 480…740 g 0 % 480…740 g 0 % 480…740 g 0 %
Modulation method sinusoidal pulse-width modulation (PWM), U/f characteristic control sinusoidal pulse-widSwitching frequency 5 kHz, can be selected between 2 and 14 kHz 5 kHz, can be selectOutput voltage V 3 AC Ue 3 AC Ue 3 AC Ue 3 AC Ue 3 AC Ue
Output frequency Hz 0 to 50, max. 400 0 to 50, max. 400Frequency resolution Hz 0.1, with digital setpoint values/maximum frequency/1000 with analog setpoint values 0.1, with digital setpFrequency error limit at 20 C g 10 K g 0.01 % of maximum frequency for digital reference values, g 0.2 % of maximum frequency for analog
reference valuesg 0.01 % of maximu
Max. rated operational current Ie A 1.5 2.5 3.8 5.5 7.8Permissible overcurrent 150 % for 60 s, every
600 s150 % for 60 s, every 600 s
150 % for 60 s, every 600 s
150 % for 60 s, every 600 s
150 % for 60 s, eve
Torque during start From 6 Hz 100 % or higher with torque boost activated From 6 Hz 100 % orApparent power at 460 V kVA 1.1 1.9 2.9 4.2 6.2Resistor R B at 100 % c.d.f.
400 V kW 0.37 0.75 1.5 2.2 3460 V HP m 1 2 3 4
Control circuitRelay 1 changeover contact, 230 V AC, 0.2 A inductive load, 2.5 A resistive load; or 24 V DC, 0.7 A inductive
load, 3 A resistive load1 changeover conta
Serial interface RS485 RS485 RS485 RS485 RS485Control voltage
Output setpoint voltage V +10 DC, 10 mA +10 DC, 10 mA +10 DC, 10 mA +10 DC, 10 mA +10 DC, 10 mAOutput control voltage V +24 DC, 30 mA +24 DC, 30 mA +24 DC, 30 mA +24 DC, 30 mA +24 DC, 30 mA
Parameterization 1 parameter set (online/offline parameterization), parameter protection (programmable) 1 parameter set (onInputsdigital (parameters can be defined) 5 x +24 V DC, configurable 5 x +24 V DC, conf
Analog Inputs Amount 2 x 0 to +10 V DC (input impedance 10 kO, 4 to 20 mA (load impedance 250 O), resolution 10 bit 2 x 0 to +10 V DC Outputs
Digital 2 x 24 V DC transistor (open-collector, configurable) 2 x 24 V DC transisanalog (parameters can be defined) 1 x 0 to +10 V DC, 1 mA (configurable), resolution 10 bit 1 x 0 to +10 V DC,
Notes If the frequency inverter is to be installed in an enclosure, control panel or similar housing, the ambient temperature Ta is taken to be the temperature inside this enclosure or control panel.All rating data of the power section is based on a switching frequency of 5 kHz (default setting) and an ambient temperature of +40 °C, for operation of a four-pole three-phase asynchronous motor.
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Technical Data Technical DataVector frequency inverters Vector frequency inverters
DV51-322-025 DV51-322-037 DV51-322-055 DV51-322-075 DV51-322-1K1 DV51-322-1K5 DV51-322-2K2 DV51-320-4K0 DV51-320-5K5 DV51-320-7K5GeneralHeat dissipation with rated operational current Ie W 21 26 29 41 55 90 105 0 0 0
Rated operating voltage V AC 230 230 230 230 230 230 230 230 230 230Rated voltage e V 1 AC 180…264 V 0 %
3 AC 180…264 V 0 %1 AC 180…264 V 0 %3 AC 180…264 V 0 %
3 AC 180…264 V 0 %
Supply frequency Hz 50/60 (47…63 0 %) 50/60 (47…63 0 %)Mains current
i = 230 V AC monoph. A 3.5 5.8 6.7 9 11.2 17.5 24 – – –10 14 22 30 40260…370 0 % 260…370 0 % 260…370 0 % 260…370 0 % 260…370 0 %
ntrol, pulse width modulation (PWM)ed between 2 and 14 kHz
3 AC e 3 AC e 3 AC e 3 AC e 3 AC e
oint values/maximum frequency/1000 with analog setpoint valuesm frequency for digital reference values, 0.2 % of maximum frequency for analog reference values
8 11 17.5 24 32y 600 sn 200 % with sensorless vector control
3.3 4.5 7.2 9.9 13.3
1.5 2.2 4 5.5 7.52 3 5 7.5 10
380 380 380 380 38070 70 70 70 7040 36 40 36 36
t, 230 V AC, 0.2 A inductive load, 2.5 A resistive load; or 24 V DC, 0.7 A inductive load, 3 A resistive load
RS485 RS485 RS485 RS485 RS485
+10 DC, 10 mA +10 DC, 10 mA +10 DC, 10 mA +10 DC, 10 mA +10 DC, 10 mA+24 DC, 30 mA +24 DC, 30 mA +24 DC, 30 mA +24 DC, 30 mA +24 DC, 30 mA
igurableinput impedance 10 k , 4 to 20 mA (load impedance 250 ), resolution 10 bit
tor (open-collector, configurable)1 mA (configurable), resolution 10 bit
4 4 2.5 4 412 12 14 12 12
1.5 1.5 1.5 1.5 1.56 6 6 6 6
1.5 1.5 1.5 1.5 1.56 6 6 6 6
DV51 DV51
i = 230 V AC triph. A 2 3.4 3.9 5.2 6.5Alternative DC supply DC V DC 260…370 0 % 260…370 0 % 260…370 0 % 260…370 0 % 260…370 0 %Modulation method Sensorless vector control, pulse width modulation (PWM) Sensorless vector coSwitching frequency 5 kHz, can be selected between 2 and 14 kHz 5 kHz, can be selectOutput voltage V 3 AC e 3 AC e 3 AC e 3 AC e 3 AC e
Output frequency Hz 0 to 50, max. 400 0 to 50, max. 400Frequency resolution Hz 0.1, with digital setpoint values/maximum frequency/1000 with analog setpoint values 0.1, with digital setpFrequency error limit at 20 C 10 K 0.01 % of maximum frequency for digital reference values, 0.2 % of maximum frequency for
analog reference values 0.01 % of maximu
Max. rated operational current e A 1.6 2.6 3 4 5Permissible overcurrent 150 % for 60 s, every 600 s 150 % for 60 s, everTorque during start From 1 Hz: more than 200 % with sensorless vector control From 1 Hz: more thaApparent power at 240 V kVA 0.6 1 1.2 1.6 2Standard operation at 150 % overload Assigned motor rating (4-pole ASM)
230 V kW 0.25 0.37 0.55 0.75 1.1240 V HP 1 1
Brake transistorSwitching threshold DC V DC 380 380 380 380 380Lowest impedance B 100 100 100 100 70Duty factor % DF 40 54 36 53 44
Relay 1 changeover contact, 230 V AC, 0.2 A inductive load, 2.5 A resistive load; or 24 V DC, 0.7 A inductive load, 3 A resistive load
1 changeover contac
Serial interface RS485 RS485 RS485 RS485 RS485Control voltage
Output setpoint voltage V +10 DC, 10 mA +10 DC, 10 mA +10 DC, 10 mA +10 DC, 10 mA +10 DC, 10 mAOutput control voltage V +24 DC, 30 mA +24 DC, 30 mA +24 DC, 30 mA +24 DC, 30 mA +24 DC, 30 mA
Parameterization 2 2Inputs
digital (parameters can be defined) 6 +24 V DC, configurable 6 +24 V DC, confAnalog Inputs Amount 2 0 to +10 V DC (input impedance 10 k , 4 to 20 mA (load impedance 250 ), resolution 10 bit 2 0 to +10 V DC (
OutputsDigital 2 24 V DC transistor (open-collector, configurable) 2 24 V DC transisanalog (parameters can be defined) 1 0 to +10 V DC, 1 mA (configurable), resolution 10 bit 1 0 to +10 V DC,
If the frequency inverter is to be installed in an enclosure, control panel or similar housing, the ambient temperature a is taken to be the temperature inside this enclosure or control panel.All rating data of the power section is based on a switching frequency of 5 kHz (default setting) and an ambient temperature of +40 °C, for operation of a four-pole three-phase asynchronous motor.
GeneralHeat dissipation with rated operational current Ie
W 26 42 70 95 130 150 219 261
Dimensions (W x H x D) mm 110 x 130 x 139 110 x 130 x 166 110 x 130 x 166 110 x 130 x 166 110 x 130 x 166 110 x 130 x 166 180 x 220 x 155 180 x 220 x 155Weight kg 1.3 1.7 1.8 1.8 1.8 1.8 5.5 5.7
Power sectionRated operating voltage V AC 400 400 400 400 400 400 400 400Rated voltage Ue V 3 AC 342…528 V g 0 % 3 AC 342…528 V g 0 %Supply frequency Hz 50/60 (47…63 g 0 %) 50/60 (47…63 g 0 %)Mains current
Ui = 3-phase, 400 V AC I A 2 3.3 5 7 10 11 16.5 20480…740 g 0 % 480…740 g 0 % 480…740 g 0 %
ntrol, pulse width modulation (PWM)d between 2 and 14 kHz
3 AC Ue 3 AC Ue 3 AC Ue
oint values/maximum frequency/1000 with analog setpoint valuesm frequency for digital reference values, g 0.2 % of maximum frequency for analog reference values
8.6 13 16y 600 sn 200 % with sensorless vector control
6.6 10.3 12.2
4 5.5 7.55 7 m 10
760 760 760100 70 70
100 70 7040 36 37
t, 230 V AC, 0.2 A inductive load, 2.5 A resistive load; or 24 V DC, 0.7 A inductive load, 3 A resistive load
RS485 RS485 RS485
+10 DC, 10 mA +10 DC, 10 mA +10 DC, 10 mA+24 DC, 30 mA +24 DC, 30 mA +24 DC, 30 mA
igurableinput impedance 10 kO, 4 to 20 mA (load impedance 250 O), resolution 10 bit
tor (open-collector, configurable)1 mA (configurable), resolution 10 bit
4 4 412 12 12
1.5 1.5 1.56 6 6
1.5 1.5 1.56 6 6
15/45
DV51 DV51
Alternative DC supply UDC V DC 480…740 g 0 % 480…740 g 0 % 480…740 g 0 % 480…740 g 0 % 480…740 g 0 %
Modulation method Sensorless vector control, pulse width modulation (PWM) Sensorless vector coSwitching frequency 5 kHz, can be selected between 2 and 14 kHz 5 kHz, can be selecteOutput voltage V 3 AC Ue 3 AC Ue 3 AC Ue 3 AC Ue 3 AC Ue
Output frequency Hz 0 to 50, max. 400 0 to 50, max. 400Frequency resolution Hz 0.1, with digital setpoint values/maximum frequency/1000 with analog setpoint values 0.1, with digital setpFrequency error limit at 20 C g 10 K g 0.01 % of maximum frequency for digital reference values, g 0.2 % of maximum frequency for analog reference
valuesg 0.01 % of maximu
Max. rated operational current Ie A 1.5 2.5 3.8 5.5 7.8Permissible overcurrent 150 % for 60 s, every 600 s 150 % for 60 s, everTorque during start From 1 Hz: more than 200 % with sensorless vector control From 1 Hz: more thaApparent power at 460 V kVA 1.1 1.9 2.9 4.2 6.2Resistor R B at 100 % c.d.f.
400 V kW 0.37 0.75 1.5 2.2 3460 V HP m 1 2 3 4
Brake transistorSwitching threshold UDC V DC 760 760 760 760 760Standard operation at 150 % overload Assigned motor rating (4-pole ASM)
Control circuitRelay 1 changeover contact, 230 V AC, 0.2 A inductive load, 2.5 A resistive load; or 24 V DC, 0.7 A inductive load, 3 A
resistive load1 changeover contac
Serial interface RS485 RS485 RS485 RS485 RS485Control voltage
Output setpoint voltage V +10 DC, 10 mA +10 DC, 10 mA +10 DC, 10 mA +10 DC, 10 mA +10 DC, 10 mAOutput control voltage V +24 DC, 30 mA +24 DC, 30 mA +24 DC, 30 mA +24 DC, 30 mA +24 DC, 30 mA
Parameterization 2 2Inputsdigital (parameters can be defined) 6 x +24 V DC, configurable 6 x +24 V DC, conf
Analog Inputs Amount 2 x 0 to +10 V DC (input impedance 10 kO, 4 to 20 mA (load impedance 250 O), resolution 10 bit 2 x 0 to +10 V DC (Outputs
Digital 2 x 24 V DC transistor (open-collector, configurable) 2 x 24 V DC transisanalog (parameters can be defined) 1 x 0 to +10 V DC, 1 mA (configurable), resolution 10 bit 1 x 0 to +10 V DC,
Notes If the frequency inverter is to be installed in an enclosure, control panel or similar housing, the ambient temperature Ta is taken to be the temperature inside this enclosure or control panel.All rating data of the power section is based on a switching frequency of 5 kHz (default setting) and an ambient temperature of +40 °C, for operation of a four-pole three-phase asynchronous motor.
Power lossat 100 % e W 600 800 975 1150 1550 1900at 70 % e W 435 575 698 820 1100 1345
Efficiency % 94.8 94.8 95 95 95 95.1Dimensions (W x H x D) mm 216 x 266 x 190.5 216 x 266 x 190.5 256 x 396 x 210.5 256 x 396 x 210.5 256 x 396 x 210.5 316 x 546 x 215.5Weight kg 5 5 12 12 12 20
Power sectionRated operating voltage V AC 400 400 400 400 400 400Rated voltage e V 342 – 528 V g 0 % 3-phase AC 342 – 528 V g 0 % 3-phase AC 342 – 528 V g 0 % 3-phase AC 342 – 528 V g 0 % 3-phase AC 342 – 528 V g 0 % 3-phase AC 342 – 528 V g 0 % 3-phase AC Supply frequency Hz 50/60 (47 -0 %…63 +0 %) 50/60 (47 -0 %…63 +0 %) 50/60 (47 -0 %…63 +0 %) 50/60 (47 -0 %…63 +0 %) 50/60 (47 -0 %…63 +0 %) 50/60 (47 -0 %…63 +0 %)Mains current
= 3-phase, 400 V AC A 24 32 41 47 63 77420…760 420…760
ation (PWM), / -predetermined controlted between 0.5 and 12 kHz
3 AC e 3 AC e
0.5 – 50, max. 400 0.5 – 50, max. 400tpoint values/maximum frequency/1000 with analog setpoint valuesximum frequency with digital setpoint values, g0.2 % of the maximum frequency with analog setpoint values
57 70 % for 0.5 s, every 600 sad characteristic (base frequency 30 – 400 Hz)
39.4 48.447.3 58.1
30 3740 50
– –– –– –– –
r, temperature switchntact, 230 V AC/0.2 A inductive load/2.5 A resistive load or 24 V DC/0.7 A inductive load/3 A resistive load,2 x make contacts, 230 V AC/1 A resistive load or 24 V DC/1 A inductive load/5 A resistive load
RS 422, RS 485 RS 422, RS 485
+10 DC, 20 mA +10 DC, 20 mA+24 DC, 100 mA +24 DC, 100 mA
parameterizable, 1 x FWD) (clockwise rotating field)put impedance 10 kO, 4 – 20 mA (load impedance 100 O)
mA 1 x 0/+10 V DC, 2 mA 1 x 0/+10 V DC, 2 mApedance max. 250 O)
mA 0…10 V, max. 1.2 mA 0…10 V, max. 1.2 mA
25 353 1
0.14…1.5 0.14…1.526…16 26…16
0.14…1.5 0.14…1.516… 6 16… 6
15/47
DF6 DF6
i
Alternative DC supply DC V DC 420…760 420…760 420…760 420…760Modulation method Pulse width modulation (PWM), / -predetermined control Pulse width modulSwitching frequency 5 kHz, can be selected between 0.5 and 12 kHz 5 kHz, can be selecOutput voltage V 3 AC e 3 AC e 3 AC e 3 AC e
Output frequency Hz 0.5 – 50, max. 400 0.5 – 50, max. 400 0.5 – 50, max. 400 0.5 – 50, max. 400Frequency resolution Hz 0.1, with digital setpoint values/maximum frequency/1000 with analog setpoint values 0.1, with digital seFrequency error limit at 20 C g 10 K g0.01 % of the maximum frequency with digital setpoint values, g0.2 % of the maximum frequency
with analog setpoint valuesg0.01 % of the ma
Max. rated operational current e A 22 29 37 43Permissible overcurrent 120 % for 60 s/150 % for 0.5 s, every 600 s 120 % for 60 s/150Torque during start Quadratic, linear load characteristic (base frequency 30 – 400 Hz) Quadratic, linear loApparent power at 400 V kVA 15.2 20 25.6 29.7Apparent power at 480 V kVA 18.2 24.1 30 35.7Standard operation with 120 % overload. Assigned motor rating (4-pole ASM)
400 V kW 11 15 18.5 22460 V HP 15 20 25 30
Brake transistorSwitching threshold DC V DC 740 740 – –Resistor B at 100 % c.d.f. O 150 150 – –Lowest impedance B O 50 50 – –Max. duty factor (c.d.f.) with lowest impedance B
% DF 10 10 – –
Control circuitThermistor input 1 x PTC thermistor, temperature switch 1 x PTC thermistoRelay 1 x changeover contact, 230 V AC/0.2 A inductive load/2.5 A resistive load or 24 V DC/0.7 A inductive
load/3 A resistive load,2 x make contacts, 230 V AC/1 A inductive load/5 A resistive load or 24 V DC/1 A inductive load/5 A resistive load
1 x changeover coinductive load/5 A
Serial interface RS 422, RS 485 RS 422, RS 485 RS 422, RS 485 RS 422, RS 485Control voltage
Output setpoint voltage V +10 DC, 20 mA +10 DC, 20 mA +10 DC, 20 mA +10 DC, 20 mAOutput control voltage V +24 DC, 100 mA +24 DC, 100 mA +24 DC, 100 mA +24 DC, 100 mA
Inputsdigital (parameters can be defined) 6 x +24 V DC (5 x parameterizable, 1 x FWD) (clockwise rotating field) 6 x +24 V DC (5 xanalog, 8 bit resolution Amount 2 x 0/+10 V DC (input impedance 10 kO, 4 – 20 mA (load impedance 100 O) 2 x 0/+10 V DC (in
Outputsanalog (parameters can be defined), 8 bit resolution
1 x 0/+10 V DC, 2 mA 1 x 0/+10 V DC, 2 mA 1 x 0/+10 V DC, 2 mA 1 x 0/+10 V DC, 24 – 20 mA (load impedance max. 250 O) 4 – 20 mA (load im
PWM (parameters can be defined) 0…10 V, max. 1.2 mA 0…10 V, max. 1.2 mA 0…10 V, max. 1.2 mA 0…10 V, max. 1.2
Notes If the frequency inverter is to be installed in a control panel, enclosure or similar installation, the prevalent ambient within these enclosuresor control panels is considered to be the ambient temperature a.All rating data of the power section are based on a switching frequency of 5 kHz (default setting) and an ambient temperature of +40 °C, with operation of a four pole three-phase asynchronous motor.
Power lossat 100 % e W 2300 2800 3800 4800 5500 6650at 70 % e W 1625 1975 2675 3375 3900 4670
Efficiency % 95.1 95.1 95.2 95.2 95.2 95.2Dimensions (W x H x D) mm 396 x 556 x 270.5 396 x 556 x 270.5 396 x 556 x 270.5 396 x 706 x 290.5 396 x 706 x 290.5 486 x 746 x 282Weight kg 30 30 30 60 60 80
Power sectionRated operating voltage V AC 400 400 400 400 400 400Rated voltage e V 342 – 528 V g 0 % 3-phase AC 342 – 528 V g 0 % 3-phase AC 342 – 528 V g 0 % 3-phase AC 342 – 528 V g 0 % 3-phase AC 342 – 528 V g 0 % 3-phase AC 342 – 528 V g 0 % 3-phase AC Supply frequency Hz 50/60 (47 -0 %…63 +0 %) 50/60 (47 -0 %…63 +0 %) 50/60 (47 -0 %…63 +0 %) 50/60 (47 -0 %…63 +0 %) 50/60 (47 -0 %…63 +0 %) 50/60 (47 -0 %…63 +0 %)
215 253420…760 420…760
ion (PWM), / -predetermined controld between 0.5 and 8 kHz
3 AC e 3 AC e
0.5…50, max. 360 0.5…50, max. 360oint values/maximum frequency/1000 with analog setpoint valuesimum frequency with digital setpoint values, g0.2 % of the maximum frequency with analog setpoint values
195 230 for 0.5 s, every 600 s
d characteristic (base frequency 30 – 400 Hz)135 159162 191
110 132150 175
– –– –– –– –
temperature switchtact, 230 V AC/0.2 A inductive load/2.5 A resistive load or 24 V DC/0.7 A inductive load/3 A resistive load,2 x make contacts, 230 V AC/1 A sistive load or 24 V DC/1 A inductive load/5 A resistive load
RS 422, RS 485 RS 422, RS 485
+10 DC, 20 mA +10 DC, 20 mA+24 DC, 100 mA +24 DC, 100 mA
parameterizable, 1 x FWD) (clockwise rotating field)ut impedance 10 kO, 4 – 20 mA (load impedance 100 O)
A 1 x 0/+10 V DC, 2 mA 1 x 0/+10 V DC, 2 mAedance max. 250 O)A 0…10 V, max. 1.2 mA 0…10 V, max. 1.2 mA
2 x 50 2 x 702 x 1/0 2 x 1/0
0.14…1.5 0.14…1.526…16 26…16
0.14…1.5 0.14…1.516… 6 16… 6
15/49
DF6 DF6
Mains current
i = 3-phase, 400 V AC A 94 116 149 176Alternative DC supply DC V DC 420…760 420…760 420…760 420…760Modulation method Pulse width modulation (PWM), / -predetermined control Pulse width modulatSwitching frequency 5 kHz, can be selected between 0.5 and 12 kHz 5 kHz, can be selecteOutput voltage V 3 AC e 3 AC e 3 AC e 3 AC e
Output frequency Hz 0.5 – 50, max. 400 0.5 – 50, max. 400 0.5 – 50, max. 400 0.5 – 50, max. 400Frequency resolution Hz 0.1, with digital setpoint values/maximum frequency/1000 with analog setpoint values 0.1, with digital setpFrequency error limit at 20 C g 10 K g0.01 % of the maximum frequency with digital setpoint values, g0.2 % of the maximum frequency
with analog setpoint valuesg0.01 % of the max
Max. rated operational current e A 85 105 135 160Permissible overcurrent 120 % for 60 s/150 % for 0.5 s, every 600 s 120 % for 60 s/150 %Torque during start Quadratic, linear load characteristic (base frequency 30 – 400 Hz) Quadratic, linear loaApparent power at 400 V kVA 58.8 72.7 93.5 111Apparent power at 480 V kVA 70.1 87.1 112 133Standard operation with 120 % overload. Assigned motor rating (4-pole ASM)
400 V kW 45 55 75 90460 V HP 60 75 100 125
Brake transistorSwitching threshold DC V DC – – – –Resistor B at 100 % c.d.f. O – – – –Lowest impedance B O – – – –Max. duty factor (c.d.f.) with lowest impedance B
% DF – – – –
Control circuitThermistor input 1 x PTC thermistor, temperature switch 1 x PTC thermistor, Relay 1 x changeover contact, 230 V AC/0.2 A inductive load/2.5 A resistive load or 24 V DC/0.7 A inductive
load/3 A resistive load,2 x make contacts, 230 V AC/1 A inductive load/5 A resistive load or 24 V DC/1 A inductive load/5 A resistive load
1 x changeover coninductive load/5 A re
Serial interface RS 422, RS 485 RS 422, RS 485 RS 422, RS 485 RS 422, RS 485Control voltage
Output setpoint voltage V +10 DC, 20 mA +10 DC, 20 mA +10 DC, 20 mA +10 DC, 20 mAOutput control voltage V +24 DC, 100 mA +24 DC, 100 mA +24 DC, 100 mA +24 DC, 100 mA
digital (parameters can be defined) 6 x +24 V DC (5 x parameterizable, 1 x FWD) (clockwise rotating field) 6 x +24 V DC (5 x analog, 8 bit resolution Amount 2 x 0/+10 V DC (input impedance 10 kO, 4 – 20 mA (load impedance 100 O) 2 x 0/+10 V DC (inp
Outputsanalog (parameters can be defined), 8 bit resolution 1 x 0/+10 V DC, 2 mA 1 x 0/+10 V DC, 2 mA 1 x 0/+10 V DC, 2 mA 1 x 0/+10 V DC, 2 m
4 – 20 mA (load impedance max. 250 O) 4 – 20 mA (load impPWM (parameters can be defined) 0…10 V, max. 1.2 mA 0…10 V, max. 1.2 mA 0…10 V, max. 1.2 mA 0…10 V, max. 1.2 m
Notes If the frequency inverter is to be installed in a control panel, enclosure or similar installation, the prevalent ambient within these enclosuresor control panels is considered to be the ambient temperature a.All rating data of the power section are based on a switching frequency of 5 kHz (default setting) and an ambient temperature of +40 °C, with operation of a four pole three-phase asynchronous motor.
Power lossat 100 % e W 88 125 1650 235 325 425 600 800 975at 70 % e W 72.6 102 127 179 242 312 435 575 698
Efficiency % 91.5 92.3 93.2 94 94.4 94.5 94.5 94.6 94.7Dimensions (W x H x D) mm 159 x 260,5 x 152 159 x 260,5 x 152 159 x 260,5 x 152 159 x 260,5 x 152 159 x 260,5 x 152 216 x 266 x 182 216 x 266 x 182 256 x 396 x 210 256 x 396 x 210Weight kg 3.5 3.5 3.5 3.5 3.5 5 5 12 12
Power sectionRated operating voltage V AC 400 400 400 400 400 400 400 400 400Rated voltage e V 342 – 528 V g 0 % 3-
or (open-collector, configurable)ax. 2 mA), 4…20 mA (max. load impedance 250 O)
.2 mA
15/51
DV6 DV6
Supply frequency Hz 50/60 (47 -0 %…63 +0 %) 50/60 (47 -0 %…63 Mains current
i = 3-phase, 400 V AC A 2.8 4.2 5.8 9.5Alternative DC supply DC V DC 420…760 420…760 420…760 420…760Modulation method Sensorless vector control, pulse width modulation (PWM) Sensorless vector con
Switching frequency 5 kHz, can be selected between 0.5 and 15 kHz 5 kHz, can be selecteOutput voltage V 3 AC e 3 AC e 3 AC e 3 AC e
Output frequency Hz 0.5…50, max. 400 0.5…50, max. 400 0.5…50, max. 400 0.5…50, max. 400Frequency resolution Hz 0.1, with digital setpoint values/maximum frequency/1000 with analog setpoint
values0.1, with digital setp
Frequency error limit at 20 C g 10 K g0.01 % of the maximum frequency with digital setpoint values, g0.2 % of the maximum frequency with analog setpoint values
g0.01 % of the maxi
Max. rated operational current e A 2.5 3.8 5.3 8.6Permissible overcurrent 150 % for 60 s/200 % for 0.5 s, every 600 s 150 % for 60 s/200 %Torque during start 200 % at 0.5 Hz (sensorless vector control mode) 200 % at 0.5 Hz (senApparent power at 400 V kVA 1.7 2.6 3.6 5.9Apparent power at 480 V kVA 2 3.1 4.4 7.1Standard operation with 150 % overload. Assigned motor rating (4-pole ASM)
400 V kW 0.75 1.5 2.2 4460 V HP 1 2 3 5
Brake transistorSwitching threshold DC V DC 740 740 740 740Resistor B at 100 % c.d.f. O 300 300 300 200Lowest impedance B O 100 100 100 70Max. duty factor (c.d.f.) with lowest impedance B
% DF 10 10 10 10
OutputsDigital 5 x 24 V DC transistor (open-collector, configurable) 5 x 24 V DC transistanalog (parameters can be defined), 8 bit resolution
3 x 0…+10 V DC (max. 2 mA), 4…20 mA (max. load impedance 250 O) 3 x 0…+10 V DC (m
PWM (parameters can be defined) 1 x 0…10 V, max. 1.2 mA 1 x 0…10 V, max. 1
Notes If the frequency inverter is to be installed in a control panel, enclosure or similar installation, the prevalent ambient within these enclosuresor control panels is considered to be the ambient temperature a. All rating data of the power section are based on a switching frequency of 5 kHz (default setting) and an ambient temperature of +40 °C, with operation of a four pole three-phase asynchronous motor.
Control circuitRelay 1 x changeover contact, 230 V AC/0.2 A inductive load/2.5 A resistive load or 24
V DC/0.7 A inductive load/3 A resistive load1 x changeover contact, 230 V AC/0.2 A inductive load/2.5 A resistive load or 24 V DC/0.7 A inductive load/3 A resistive load
Output setpoint voltage V +10 DC, 20 mA +10 DC, 20 mA +10 DC, 20 mA +10 DC, 20 mA +10 DC, 20 mA +10 DC, 20 mA +10 DC, 20 mA +10 DC, 20 mA +10 DC, 20 mAOutput control voltage V +24 DC, 100 mA +24 DC, 100 mA +24 DC, 100 mA +24 DC, 100 mA +24 DC, 100 mA +24 DC, 100 mA +24 DC, 100 mA +24 DC, 100 mA +24 DC, 100 mA
Thermistor input 1 x PTC thermistor, temperature switch 1 x PTC thermistor, Clockwise rotating field enable (FWD) 1 x +24 V DC (input impedance 4.7 kO) 1 x +24 V DC (inputdigital (parameters can be defined) 8 x +24 V DC (input impedance 4.7 kO) 8 x +24 V DC (inputanalog, 12 bit resolution Amount 3 x 0 – +10 V DC, g10 V DC (input impedance 10 kO), 4…20 mA (load
impedance 100 O)3 x 0 – +10 V DC, g
OutputsDigital 5 x 24 V DC transistor (open-collector, configurable) 5 x 24 V DC transistanalog (parameters can be defined), 8 bit resolution
3 x 0…+10 V DC (max. 2 mA), 4…20 mA (max. load impedance 250 O) 3 x 0…+10 V DC (m
PWM (parameters can be defined) 1 x 0…10 V, max. 1.2 mA 1 x 0…10 V, max. 1
Control circuitmm2 0.14…1.5 0.14…1.5 0.14…1.5 0.14…1.5AWG 26…16 26…16 26…16 26…16
Notes 1) If the frequency inverter is to be installed in a control panel, enclosure or similar installation, the prevalent ambient within these enclosuresor control panels is considered to be the ambient temperature a. All rating data of the power section are based on a switching frequency of 5 kHz (default setting) and an ambient temperature of +40 °C, with operation of a four pole three-phase asynchronous motor.
Power lossat 100 % e W 1150 1550 1900 2300 2800 3750 4500 5500 6500at 70 % e W 820 1100 1345 1625 1975 2600 3100 3800 4500
Efficiency % 94.8 94.8 94.9 94.9 94.9 95 95 95 95.1Dimensions (W x H x D) mm 256 x 396 x 210 310 x 540 x 202,2 390 x 550 x 255,2 390 x 550 x 255,2 390 x 550 x 255,2 390 x 700 x 275,2 390 x 700 x 275,2 480 x 740 x 293,2 480 x 740 x 293,2Weight kg 12 20 30 30 30 60 60 80 80Power sectionRated operating voltage V AC 400 400 400 400 400 400 400 400 400Rated voltage e V 342 – 528 V g 0 % 3-phase AC 342 – 528 V g 0 % 3-phase AC
Supply frequency Hz 50/60 (47 -0 %…63 +0 %) 50/60 (47 -0 %…63Mains current
i = 3-phase, 400 V AC A 53 63 83 99Alternative DC supply DC V DC 420…760 420…760 420…760 420…760Modulation method Sensorless vector control, pulse width modulation (PWM) Sensorless vector co
Switching frequency 5 kHz, can be selected between 0.5 and 15 kHz 5 kHz, can be selecteOutput voltage V 3 AC e 3 AC e 3 AC e 3 AC e
Output frequency Hz 0.5…50, max. 400 0.5…50, max. 400 0.5…50, max. 400 0.5…50, max. 400Frequency resolution Hz 0.1, with digital setpoint values/maximum frequency/1000 with analog setpoint
values0.1, with digital setp
Frequency error limit at 20 C g 10 K g0.01 % of the maximum frequency with digital setpoint values, g0.2 % of the maximum frequency with analog setpoint values
g0.01 % of the max
Max. rated operational current e A 48 58 75 90Permissible overcurrent 150 % for 60 s/200 % for 0.5 s, every 600 s 150 % for 60 s/200 %Torque during start 200 % at 0.5 Hz (sensorless vector control mode) 200 % at 0.5 Hz (senApparent power at 400 V kVA 33.2 40.1 51.9 62.3Apparent power at 480 V kVA 39.9 48.2 62.3 74.8Standard operation with 150 % overload. Assigned motor rating (4-pole ASM)
400 V kW 22 30 37 45460 V HP 30 40 50 60
Control circuitRelay 1 x changeover contact, 230 V AC/0.2 A inductive load/2.5 A resistive load or 24
V DC/0.7 A inductive load/3 A resistive load1 x changeover con
Serial interface RS 422, RS 485 RS 422, RS 485 RS 422, RS 485 RS 422, RS 485Control voltage
Output setpoint voltage V +10 DC, 20 mA +10 DC, 20 mA +10 DC, 20 mA +10 DC, 20 mAOutput control voltage V +24 DC, 100 mA +24 DC, 100 mA +24 DC, 100 mA +24 DC, 100 mA
InputsThermistor input 1 x PTC thermistor, temperature switch 1 x PTC thermistor,Clockwise rotating field enable (FWD) 1 x +24 V DC (input impedance 4.7 kO) 1 x +24 V DC (inpudigital (parameters can be defined) 8 x +24 V DC (input impedance 4.7 kO) 8 x +24 V DC (inpuanalog, 12 bit resolution Amount 3 x 0 – +10 V DC, g10 V DC (input impedance 10 kO), 4…20 mA (load
impedance 100 O)3 x 0 – +10 V DC, g
OutputsDigital 5 x 24 V DC transistor (open-collector, configurable) 5 x 24 V DC transisanalog (parameters can be defined), 8 bit resolution 3 x 0…+10 V DC (max. 2 mA), 4…20 mA (max. load impedance 250 O) 3 x 0…+10 V DC (mPWM (parameters can be defined) 1 x 0…10 V, max. 1.2 mA 1 x 0…10 V, max.
Control circuitmm2 0.14…1.5 0.14…1.5 0.14…1.5 0.14…1.5AWG 26…16 26…16 26…16 26…16
Notes 1) If the frequency inverter is to be installed in a control panel, enclosure or similar installation, the prevalent ambient within these enclosuresor control panels is considered to be the ambient temperature a. All rating data of the power section are based on a switching frequency of 5 kHz (default setting) and an ambient temperature of +40 °C, with operation of a four pole three-phase asynchronous motor.
GeneralStandards EN 50178, IEC 61800-3, EN 61800-3 incl. A11 EN 50178, IEC 61800-3, EN 61800-3 incl. A11Environmental conditions
Operating temperature °C –25…+85 –25…+85 –25…+85 –25…+85 –25…+85 –25…+85 –25…+85 – –25…+85Altitude m 0…1000 a.s.l., derating above 1000: e…2 %/1000 m 0…1000 a.s.l., derating above 1000: e…2 %/1000 mMounting position As required, vertically suspended preferred As required, vertically suspended preferredFree surrounding areas In connection area (cable, terminals): 100 mm In connection area (cable, terminals): 100 mmHumidity class C C C C C C C C CClimatic class (IEC) – – – – – –
70 x 440 x 110 70 x 440 x 110 130 x 525 x 94 130 x 525 x 94 142 x 620 x 1166.4 6.7 8.8 9.3 13.7
2064 2064 2064 2064 20642064 2064 2064 2064 2064
30 30 30 30 30750 750 380 380 600
400 400 400 400 4000 % 3 AC 342…528 V g 0 % 3 AC 342…528 V g 0 % 3 AC 342…528 V g 0 % 3 AC 342…528 V g 0 % 3 AC 342…528 V g 0 %+0 %)
– – – – –115 125 150 220 260
s 150 % for 10 minutes 150 % for 10 minutes 150 % for 10 minutes 150 % for 10 minutes 150 % for 10 minutes
38 45 40 60 50
50 50 95 95 9550 50 95 95 953 x 35 3 x 35 3 x 50 3 x 70 3 x 95
M10 M10 M10 M10 M12
15/57
DE6-LZ3... DE6-LZ3...
Protection type IP20 (terminal) IP20 (terminal)Dimensions (W x H x D) mm 143 x 255 x 29 203 x 260 x 43 244 x 390 x 45 60 x 400 x 87Weight kg 1.4 2.5 4.5 4.3
Electrical dataTest voltage in V DC, 2 s
Phase/neutral pole V 2064 2064 2064 2064Phase/PE V 2064 2064 2064 2064
Leakage currentMax. leakage current in operation mA 30 30 30 30Max. leakage current PE and 2 external conductors disconnected
mA 180 280 550 690
Rated operating voltage V AC 400 400 400 400Rated voltage e V 3 AC 342…528 V g 0 % 3 AC 342…528 V g 0 % 3 AC 342…528 V g 0 % 3 AC 342…528 V g Supply frequency Hz 50/60 (47 -0 %…63 +0 %) 50/60 (47 -0 %…63 Rated operational current
i = 1-phase, 230 V AC A – – – –
i = 3-phase, 400 V AC A 13 32 64 80Permissible overcurrent 150 % for 10 minutes 150 % for 10 minutes 150 % for 10 minutes 150 % for 10 minute
Heat dissipation with rated operational current e W 12 14 36 32
Terminal capacitiesSolid mm2 4 10 25 35flexible mm2 4 6 16 25Cables to frequency inverter mm2 3 x 2.5 3 x 6 3 x 16 3 x 16
AWGPE stud M5 M5 M8 M8
Notes 1) All rating data is based on an ambient temperature of +40°C.
GeneralStandards EN 50178, IEC 61800-3, EN 61800-3 incl. A11Environmental conditions
Operating temperature °C –25…+100Altitude m 0…1000 a.s.l., derating above 1000: Ie…2 %/1000 mMounting position As required, vertically suspended preferredFree surrounding areas In connection area (cable, terminals): 80 mmHumidity class CClimatic class (IEC) 25/085/21
Protection type IP 20 (terminals)Dimensions (W x H x D) mm 80 x 170 x 27 110 x 180 x 35 110 x 180 x 35 110 x 285 x 40Weight kg 0.45 0.5 0.67 0.7 0.75 1.2
Electrical dataTest voltage in V DC, 2 s
Phase/neutral pole V 1100 1100 1100 2100 2100 2100Phase/PE V 2550 2550 2550 2650 2650 2650
Leakage currentMax. leakage current in operation mA < 6 < 6 < 6 < 11 < 35 < 46Max. leakage current when PE disconnected
mA < 25 < 26 < 24 < 4 < 5 < 5.5
Max. leakage current when PE and N disconnected
mA < 47 < 51 < 48 – – –
Max. leakage current PE and 2 external conductors disconnected
mA – – – < 156 < 198 < 210
Rated operating voltage V AC 230 230 230 400 400 400Rated voltage Ue V 1 AC 250 V 3 AC 480 VSupply frequency Hz 50/60 (47…63 g 0 %)Rated operational current
Ui = 1-phase, 230 V AC I A 7 12 24 – – –Ui = 3-phase, 400 V AC I A – – – 7 11 20
Permissible overcurrent 150 % for 60 s, every 30 minutesHeat dissipation with rated operational current Ie
W 5 7 12 4 7 12
Terminal capacitiesSolid mm2 0.2…4flexible mm2 0.2…4Cables to frequency inverter mm2 2 x 1.5, 180 mm 2 x 2.5, 250 mm
AWG 18 16 12 18 16 12PE stud M5 x 15
Notes All rating data is based on an ambient temperature of +40°C.
Mains chokes DEX-LN1-… Mains choke DEX-LN3-… Motor chokes DEX-LM3-…
General
Standards IEC/EN 61558-2-20-2000, VDE 0570 Part 2-20/04-2001, UL, CSAOperating temperature °C –25…+40, up to 70 with current reduction (see notes)Storage temperature °C –25…+85 –25…+85 –25…+85Shock resistance 11 ms2/15 g, 3 impacts 11 ms2/15 g, 3 impacts 11 ms2/15 g, 3 impactsVibration resistance g 1 (at 0…150 Hz) 1 (at 0…150 Hz) 1 (at 0…150 Hz)Vibration 0.35 mm at 10…55 Hz 0.35 mm at 10…55 Hz 0.35 mm at 10…55 HzPollution degree 1 (VDE 0160) 1 (VDE 0160) 1 (VDE 0160)Altitude m 0 to 1000 above sea level, up to 5000 with current derating (see notes)Mounting position Standing vertically, suspended horizontallyFree surrounding areas < 50 < 50 < 50Degree of protection (terminals) IP20 IP20 up to 40 A
IP 00 from 50 AIP20 up to 50 AIP20 from 63 A
Rated duty factor % DF 100 100 100
Overload cycle 1.5 x Ie for 60 s every 600 s 1.5 x Ie for 60 s every 600 s 1.5 x Ie for 60 s every 600 s (< 24 A)1.2 x Ie for 60 s every 600 s (> 24 A)
Weight kg 0.7 1.5 1.5
Electrical dataRated voltage Ue V AC 230 400 400
Max. supply voltage UL V AC 260 g 0 % 550 g 0 % 750 g 0 %
Operating frequency Hz 50/60 50/60 0…200Insulation class B B B (100 A) F (150 A)
Electrical connectionTerminations K K (40 A) K (50 A)Connection lugs – K (50 A) K (63 A)PE stud K K K
Notes 1) The following applies for the installation altitude: Derating with respect to the rated current Ie:
A) Tolerance dependant upon air-gapThe position of connection lugs U2-V2-W2 depends on the coil material and can deviate from the position illustrated here.
c ±
5
b ± 5
b2
b1� d
a
a1
PE
1 2
c1 ±
5
Part no. a a1 b b1 b2 c c1 d Weightmm mm mm mm mm mm mm mm kg