Product name
Eaton DG1 variable frequency drive
Product Length/Depth
265.1 millimetre
Product height
558 millimetre
Product width
204.6 millimetre
Product weight
22.2 kilogram
Certifications
Specification for general requirements: IEC/EN 61800-2
EAC
IEC/EN61800-3
CE
UkrSEPRO
UL File No.: E134360
UL Category Control No.: NMMS, NMMS7
IEC/EN 61800-3
CSA-C22.2 No. 274-13
Certified by UL for use in Canada
UL report applies to both US and Canada
RoHS, ISO 9001
C-Tick
IEC/EN61800-5
Safety requirements: IEC/EN 61800-5
CUL
UL508
UL
Product Type
Variable frequency drive
Catalog Notes
The brake resistors are assigned based on the maximum rated power of the variable frequency drive. Additional brake resistors and designs (e.g. different duty cycles) are available upon request.
Features
Tool-less swapping of fan
Parameterization: Fieldbus
Parameterization: Keypad
Parameterization: Power Xpert inControl
Functions
4-quadrant operation possible
Air volume capacity
144 m³/h
Cable length
150 m, screened, maximum permissible, Motor feeder
C3 ≤ 10 m, Radio interference level, maximum motor cable length
Degree of protection
IP54
NEMA 12
Electromagnetic compatibility
1st and 2nd environments (according to EN 61800-3)
Environmental class
3C2, 3S2 (Air quality)
Fitted with:
Internal DC link
Control unit
Additional PCB protection
Radio interference suppression filter
Multi-line graphic display
Brake chopper
PC connection
IGBT inverter
DC link choke
Breaking resistance
Mounting position
Vertical
Number of slots
2 (expansion)
Product Category
Variable frequency drives
Protection
Finger and back-of-hand proof, Protection against direct contact (BGV A3, VBG4)
Radio interference class
Optional external radio interference suppression filter for longer motor cable lengths and for use in different EMC environments
C2, C3: depending on the motor cable length, the connected load, and ambient conditions. External radio interference suppression filters (optional) may be necessary.
C1: with external filter, for conducted emissions only
Safety function/level
STO (Safe Torque Off, SIL1, PLc Cat 1)
Shock resistance
UPS drop test (for weights inside the UPS frame)
Mechanical, According to EN 61800-5-1, IEC/EN 60068-2-27
Storage and transportation: maximum 15 g, 11 ms (inside the packaging)
Suitable for
Branch circuits, (UL/CSA)
Vibration
Resistance: 5 - 15.8 Hz, Amplitude 1 mm (peak)
Resistance: 15.8 – 150 Hz, 1 g, Maximum acceleration amplitude
Resistance: 5 - 150 Hz, According to EN 61800-5-1, IEC/EN 60068-2-6
Climatic environmental conditions
Altitude
Max. 1000 m
Max. 2000 m
Above 1000 m with 1 % derating per 100 m
Ambient operating temperature - min
-10 °C
Ambient operating temperature - max
50 °C
Ambient operating temperature at 150% overload - min
-30 °C
Ambient operating temperature at 150% overload - max
50 °C
Ambient storage temperature - min
-40 °C
Ambient storage temperature - max
70 °C
Climatic proofing
< 95 average relative humidity (RH), no condensation, no corrosion
Current limitation
0.1 - 2 x IH (CT), motor, main circuit
Heat dissipation at current/speed
186 W at 25% current and 0% speed
210 W at 25% current and 50% speed
234 W at 100% current and 50% speed
282 W at 50% current and 50% speed
315 W at 50% current and 90% speed
340 W at 100% current and 0% speed
470 W at 50% current and 0% speed
549 W at 100% current and 90% speed
Input current ILN at 110% overload
38.2 A
Input current ILN at 150% overload
31.6 A
Leakage current at ground IPE - max
6.9 mA
Mains current distortion
36.3 %
Mains switch-on frequency
Maximum of one time every 60 seconds
Operating mode
U/f control
Torque regulation
Sensorless vector control (SLV)
Speed control with slip compensation
Output frequency - min
0 Hz
Output frequency - max
400 Hz
Output voltage (U2)
600 V AC, 3-phase
Overload current IL at 110% overload
45.1 A
Overload current IL at 150% overload
51 A
Rated conditional short-circuit current (Iq)
100 kA
Rated control supply voltage
10 V DC (Us, max. 10 mA)
Rated frequency - min
45 Hz
Rated frequency - max
66 Hz
Rated operational current (Ie) at 110% overload
41 A
Rated operational current (Ie) at 150% overload
34 A
Rated operational voltage
600 V AC, 3-phase
Resolution
0.01 Hz (Frequency resolution, setpoint value)
Short-circuit protection rating
50 A, UL (Class CC or J), Safety device (fuse or miniature circuit-breaker), Power Wiring
Starting current - max
200 %, IH, max. starting current (High Overload), For 2 seconds every 20 seconds, Power section
Switching frequency
1.5 kHz, 1 - 6 kHz adjustable, fPWM, Power section, Main circuit
System configuration type
TN-S, TN-C, TN-C-S, TT, IT
Assigned motor current IM at 525 V, 50 Hz, 110% overload
33 A
Assigned motor current IM at 525 V, 50 Hz, 150% overload
33 A
Assigned motor current IM at 600 V, 50 Hz, 110% overload
38.4 A
Assigned motor current IM at 600 V, 50 Hz, 150% overload
28.5 A
Apparent power at 600 V
42.6 kV·A
Braking torque
Max. 100 % of rated operational current Ie with external braking resistor - Main circuit
Adjustable to 150 % (I/Ie), DC - Main circuit
Max. 30 % MN, Standard - Main circuit
Adjustable to 150 %, DC - Main circuit
Switch-on threshold for the braking transistor
1050
Number of inputs (analog)
2
Number of inputs (digital)
8
Number of outputs (analog)
2
Number of outputs (digital)
1
Number of relay outputs
3 (parameterizable, 2 changeover contacts and 1 N/O, 6 A (240 V AC) / 6 A (24 V DC))
Rated control voltage (Uc)
24 V DC (external, max. 250 mA options incl.)
Communication interface
CANopen®, optional
PROFIBUS, optional
BACnet MS/TP, built in
DeviceNet, optional
SmartWire-DT, optional
Ethernet IP, built in
Modbus TCP, built in
Modbus RTU, built in
Connection to SmartWire-DT
In conjunction with DXG-NET-SWD SmartWire DT module
Yes
Protocol
TCP/IP
DeviceNet
CAN
MODBUS
Other bus systems
PROFINET IO
PROFIBUS
BACnet
EtherNet/IP
Equipment heat dissipation, current-dependent Pvid
633 W
Heat dissipation capacity Pdiss
0 W
Heat dissipation per pole, current-dependent Pvid
0 W
Rated operational current for specified heat dissipation (In)
34 A
Static heat dissipation, non-current-dependent Pvs
26.41 W
Heat dissipation details
Operation (with 150 % overload), allow for derating
10.2.2 Corrosion resistance
Meets the product standard's requirements.
10.2.3.1 Verification of thermal stability of enclosures
Meets the product standard's requirements.
10.2.3.2 Verification of resistance of insulating materials to normal heat
Meets the product standard's requirements.
10.2.3.3 Resist. of insul. mat. to abnormal heat/fire by internal elect. effects
Meets the product standard's requirements.
10.2.4 Resistance to ultra-violet (UV) radiation
Meets the product standard's requirements.
10.2.5 Lifting
Does not apply, since the entire switchgear needs to be evaluated.
10.2.6 Mechanical impact
Does not apply, since the entire switchgear needs to be evaluated.
10.2.7 Inscriptions
Meets the product standard's requirements.
10.3 Degree of protection of assemblies
Does not apply, since the entire switchgear needs to be evaluated.
10.4 Clearances and creepage distances
Meets the product standard's requirements.
10.6 Incorporation of switching devices and components
Does not apply, since the entire switchgear needs to be evaluated.
10.7 Internal electrical circuits and connections
Is the panel builder's responsibility.
10.8 Connections for external conductors
Is the panel builder's responsibility.
10.9.2 Power-frequency electric strength
Is the panel builder's responsibility.
10.9.3 Impulse withstand voltage
Is the panel builder's responsibility.
10.9.4 Testing of enclosures made of insulating material
Is the panel builder's responsibility.
10.10 Temperature rise
The panel builder is responsible for the temperature rise calculation. Eaton will provide heat dissipation data for the devices.
10.11 Short-circuit rating
Is the panel builder's responsibility. The specifications for the switchgear must be observed.
10.12 Electromagnetic compatibility
Is the panel builder's responsibility. The specifications for the switchgear must be observed.
10.13 Mechanical function
The device meets the requirements, provided the information in the instruction leaflet (IL) is observed.