enclosure design handbook rev. 1
DESCRIPTION
Electrical Enclosure Design Guidelines For Industrial Control PanelsTRANSCRIPT
ENCLOSURE DESIGN
HANDBOOK 1.1
Cristóbal Guerrero 2014
Enclosure Design Handbook
A) Enclosure Denomination System:
Type Array Number of
Motors
VFD Brand
Drive Option
Frame Size
Voltage NEMA Rating
Size of
Enclosure
1 2 3 4 5 6 7 8 9
1. - Type:
S = Standard Enclosure Model
C = Custom Enclosure Model
2. - Array:
SM = Single Motor
MM = Multiple Motors
3. - Number of Motors
Standard enclosures consider a maximum of 4 motors wired to a single VFD, above that number it will
become a custom enclosure model.
4. - VFD Brand
ABB = ABB
DAN = Danfoss
YAS = Yaskawa
5. - Drive Option
BD = Bare Drive Wired To Disconnect
BO = Bare Drive Without Disconnect
ID = Drive With Integral Disconnect
EM = Drive With Electromechanical Bypass by ELI
IB = Drive With Integrated Bypass.
RD = Drive With Redundant Circuit by ELI.
IR = Drives With Integrated Redundant Package.
6. – Frame
Name of VFD frame size (e.g. ABB drives are named R1 thru R6)
7. - Voltage
Incoming nominal voltage for power: 460V, 230V, 208V.
8. - NEMA Rating
National Electrical Manufactures Association rating of electrical enclosures for protection against
designated environmental conditions (e.g. NEMA 3R).
9. - Size
Nominal size of the electrical enclosure (Wide x Height X Depth).
Example:
S-MM-4-ABB-BD-R3-460V-3R-00Wx00Hx00D.
Standard enclosure with multiple motors (4), ABB Bare Drive with Disconnect R3 Frame, 460V, NEMA
3R.
Note: For multiple VFDs and common circuits in a single enclosure please refer to “B) General
considerations” under section 4 “Estimating an enclosure size based in a standard enclosure”.
B) General Considerations.
1. – Electrical Schematics.
The panel layout will always be based of the electrical schematic, in order to determine how a panel will
be assembled, the electrical schematic has to be finished first, that is to accurately know the number of
devices, required clearance for objects and routing, in addition to this our software tool (Eplan Pro Panel)
bases all its routing logic of the schematic.
2. – Compliance.
All of the panels made by energy labs must comply with the following:
UL 508A: UL Standard for Safety for Industrial Panels.
UL 1995: UL for Safety for Heating and Cooling Equipment.
NFPA 70 – NEC 2014 (National Electrical Code 2014).
3. – Device Placement.
3.1 Disconnects, circuit breakers and switches: a good place to start for the layout of an enclosure is
placing the disconnect means, standard sizes that ELI uses for disconnects switches (or breakers) are 100A,
250A, 400A, 800A, 1000A. By NEC article 110.26 (see internal standard CS-036-005 also) the requirement
for maximum height of working space is 6 ½ ft (Figure 3.1.0).
Fig. 3.1.0 Maximum height of the switch handle.
When placing a disconnect inside a tall enclosure, or with large incoming cable gauges (1/0 AWG or 150A
and larger), the disconnect must be placed in the bottom of the enclosure, to facilitate wire handling and
avoid surpassing the maximum working height (Figure 3.1.1).
Fig. 3.1.1 Large fused disconnect placed near the bottom of the enclosure.
Note: If the vestibule or enclosure requires louvers on the door for ventilation and the disconnect has
been placed near the bottom, louvers must be placed on the upper front or side walls of the enclosure to
evade interfering with the placement of the shaft and handle mechanism (Figure 3.1.2).
Fig. 3.1.2 Louvers placed in the upper front on the door of an electrical compartment.
For regular enclosures circuit breakers or disconnect switches should be mounted to the right of and/or
above the corresponding regulator module in a position which minimizes cable or bus bar length and
bends. Switch or CB handles should mount on the right most cabinet door. CB power connections should
be on top or right side.
3.2 Fuses: The recommended mounting position for fuses is vertical. Power must be applied at the top
and load connected to the bottom of the fuse. If the fuse has to be mounted horizontally, power should
be applied to the left side of the fuse.
3.3 Contactors: Contactors should be grouped together and preferably mounted in a horizontal manner.
Number contactors left to right and top to bottom.
3.4 Motor Circuit Protectors and Overload Relays: MCPs should be grouped together, the recommended
position is horizontal, but they can be mounted in a vertical manner as well. Overload relays are usually
mounted directly beneath contactors, if not they must be place close as to avoid excessive cable length,
since both MCPs and OR are directly upstream of motors, they are typically mounted in the lowest part
or border of an enclosure.
3.5 Relays: Relays should be grouped together and mounted with sockets vertical. Common connections
at bottom or right side of coil. Number relays left to right and top to bottom.
3.6 Terminals: The preferred location for terminals is mounted in a vertical line on the left or right edge
of panel. Separate control signal voltages (below 50 VAC or DC) from other voltages. Leave a minimum
1.25” between terminal and wire way or nearest component. Leave a minimum of 3” between terminals
and cabinet walls. Consider using a bracket to elevate terminals above panel to avoid mixing voltages
(Class 1 from Class 2) and evade skirting connections thru raceways (Figure 3.4.0). Where possible, place
terminals between 36” and 72” from floor level and in no case less than 12” off the floor.
Figure 3.4.0 Rail placed above brackets.
3.7 Variable-speed drive (VFDs): Drives are placed commonly on the corners of an electrical panel, the
installation manual (provided by the drive manufacturer), specifies the required clearance of each frame,
this clearance is required for heat dissipation, servicing and troubleshooting purposes, even if the drive
does not require side or front clearance, for handling and service, there must be a provision of at least
1.5” to the sides, and 4” to the front (if the VFD is surface mounted on the machine, it must have a
clearance of at least 46”).
3.8 Heavy Items: Transformers and other heavy objects should be mounted to panel with a bolt through
if weight is greater than 50 lbs. extremely heavy items (above 100 lbs.) may require additional bracing of
the sub panel. When mounting extremely heavy items (above 100 lbs.) use tapped holes with screws
run in from the back.
3.9 Cooling:
4. - Estimating an enclosure size based in a standard enclosure.
Appendix B contains standard enclosures models, based in the most common circuit configurations Energy
Labs offers.
When in need for a quick dimension of the area needed for an enclosure, pick a model that mostly
resembles the configuration needed, and elaborate on what components are going to be added to that
enclosure, below are some guidelines for common devices.
Control Circuits:
Relays and terminals are placed on rail in a vertical manner, adding an extra redundant or bypass circuit
to an enclosure, will increase its height by approximately 10”.
Power Circuits:
Drives: VFDs are preferably placed side by side, they can be stacked, but in between them a deflector
must be added, evade this configuration to avoid overheating, when adding drives consider the width of
the frame of the drive plus the side clearance (1.5-2.5” for small drives, 2.5-3” for larger drives 40 HP and
above), and add the result to the width of the enclosure.
Fuses, contactors and motor circuit protectors, can add up to 5Wx5H per device, usually these
components will be place side by side, when adding an extra redundant or bypass circuit these
components space requirements must be added to the width and height of the enclosure.
Miscellaneous Circuits:
Lighting loads and service circuits, usually need extra components like transformers, terminals, fuses and
circuit breakers, these usually increase the height to the enclosure, to determine how much space is going
to be needed please consult the electrical department, as they do not have a standard value for the space
required.
Appendix A. Electrical Templates.
Electrical Templates are schematics that represent the most common arrays and options energy labs
offers to its clients, the electrical department created them to standardize labeling and representation of
components and devices, in addition electrical templates are created as macro projects (smart blocks)
which contain databases (place holder objects) that make the drafting process easier.
The current templates in use can be located on Eplan under project names:
Electrical Templates 2014.elk
Electrical Templates II - 2014.elk
DESCRIPTION PROJECT NAME FILE HYPERLINK
MOTOR STARTER Electrical Templates 2014.elk MSET2014
MOTOR TO J-BOX Electrical Templates 2014.elk MTJBET2014
MOTOR TO DANFOSS VFD Electrical Templates 2014.elk MTDVET2014
MOTOR TO YASKAWA VFD Electrical Templates 2014.elk MTYVET2014
MOTOR TO ABB VFD Electrical Templates 2014.elk MTAVET2014
MOTOR TO DANFOSS VFD W/ BYPASS Electrical Templates 2014.elk MTDVEMBET2014
MOTOR TO YASKAWA VFD W/ BYPASS Electrical Templates 2014.elk MTYVEMBET2014
MOTOR TO ABB VFD W/ BYPASS Electrical Templates 2014.elk MTAVEMBET2014
REDUNDANT DANFOSS SYSTEM Electrical Templates 2014.elk RDVSET2014
REDUNDANT YASKAWA SYSTEM Electrical Templates 2014.elk RYVSET2014
REDUNDANT ABB SYSTEM Electrical Templates 2014.elk RAVSET2014
MULTIPLE MOTORS TO DANFOSS VFD Electrical Templates II - 2014.elk MMDVET2014
MULTIPLE MOTORS TO YASKAWA VFD Electrical Templates II - 2014.elk MMYVET2014
MULTIPLE MOTORS TO ABB VFD Electrical Templates II - 2014.elk MMAVET2014
MULTIPLE MOTORS TO DANFOSS VFD WITH BYPASS Electrical Templates II - 2014.elk MMDVEMET2014
MULTIPLE MOTORS TO YASKAWA VFD WITH BYPASS Electrical Templates II - 2014.elk MMYVEMET2014
MULTIPLE MOTORS TO ABB VFD WITH BYPASS Electrical Templates II - 2014.elk MMAVEMET2014
REDUNDANT DANFOSS SYSTEM MULTIPLE MOTORS Electrical Templates II - 2014.elk RDSMMET2014
REDUNDANT YASKAWA SYSTEM MULTIPLE MOTORS Electrical Templates II - 2014.elk RYSMMET2014
REDUNDANT ABB SYSTEM MULTIPLE MOTORS Electrical Templates II - 2014.elk RASMMET2014
Appendix B. Standard Enclosures.
All enclosures were created using as a basis the largest load each VFD frame can handle, so in some cases
the enclosure can have smaller sizes, the last digits of the mounting panel 3D model indicate the required
dimensions. Enclosures models are contained inside the following Eplan projects:
ABB Standard Enclosures Part I.elk (ABB Drives to Single Motor Arrangements)
ABB Standard Enclosures Part II.elk (ABB Drives to Multiple 4 Motor Arrangements)
Danfoss Standard Enclosures Part I.elk (Danfoss Drives to Single Motor Arrangements)
Danfoss Standard Enclosures Part II.elk (Danfoss Drives to Multiple 4 Motor Arrangements)
Yaskawa Standard Enclosures Part I.elk (Yaskawa Drives to Single Motor Arrangements)
Yaskawa Standard Enclosures Part II.elk (Yaskawa Drives to Multiple 4 Motor Arrangements)
Note: Appendix D contains a quick reference guide for the frame sizes and ratings of each manufacturer.
For enclosures highlighted in yellow, an electrical compartment for large drives, devices and cable gauges
is preferred, consult with electrical engineering before applying them, it is recommended that anything
above 42Wx70H is turned in to a vestibule, doors for an enclosure or compartment should not exceed
42W and 72H.
ENCLOSURE DESIGNATION
DESCRIPTION MOUNTING PANEL 3D MODEL
SSM1ABBBOR1 ABB R1 Bare Drive With Out Disconnect S-SM-1-ABB-BO-R1-XXXV-XX-12Wx32Hx12D
SSM1ABBBOR2 ABB R2 Bare Drive With Out Disconnect S-SM-1-ABB-BO-R2-XXXV-XX-12Wx36Hx12D
SSM1ABBBOR3 ABB R3 Bare Drive With Out Disconnect S-SM-1-ABB-BO-R3-XXXV-XX-16Wx40Hx14D
SSM1ABBBOR4 ABB R4 Bare Drive With Out Disconnect S-SM-1-ABB-BO-R4-XXXV-XX-16Wx44Hx14D
SSM1ABBBOR5 ABB R5 Bare Drive With Out Disconnect S-SM-1-ABB-BO-R5-XXXV-XX-18Wx46Hx16D
SSM1ABBBOR6 ABB R6 Bare Drive With Out Disconnect S-SM-1-ABB-BO-R6-XXXV-XX-28Wx56Hx20D
SSM1ABBBDR1 ABB R1 Bare Drive With Disconnect S-SM-1-ABB-BD-R1-XXXV-XX-22Wx32Hx12D
SSM1ABBBDR2 ABB R2 Bare Drive With Disconnect S-SM-1-ABB-BD-R2-XXXV-XX-22Wx36Hx12D
SSM1ABBBDR3 ABB R3 Bare Drive With Disconnect S-SM-1-ABB-BD-R3-XXXV-XX-26Wx40Hx14D
SSM1ABBBDR4 ABB R4 Bare Drive With Disconnect S-SM-1-ABB-BD-R4-XXXV-XX-28Wx44Hx14D
SSM1ABBBDR5 ABB R5 Bare Drive With Disconnect S-SM-1-ABB-BD-R5-XXXV-XX-32Wx46Hx16D
SSM1ABBBDR6 ABB R6 Bare Drive With Disconnect S-SM-1-ABB-BD-R6-XXXV-XX-48Wx72Hx20D
SSM1ABBEMR1 ABB R1 Drive With EM Bypass By ELI S-SM-1-ABB-EM-R1-XXXV-XX-22Wx50Hx12D
SSM1ABBEMR2 ABB R2 Drive With EM Bypass By ELI S-SM-1-ABB-EM-R2-XXXV-XX-24Wx54Hx12D
SSM1ABBEMR3 ABB R3 Drive With EM Bypass By ELI S-SM-1-ABB-EM-R3-XXXV-XX-30Wx58Hx14D
SSM1ABBEMR4 ABB R4 Drive With EM Bypass By ELI S-SM-1-ABB-EM-R4-XXXV-XX-36Wx66Hx14D
SSM1ABBEMR5 ABB R5 Drive With EM Bypass By ELI S-SM-1-ABB-EM-R5-XXXV-XX-40Wx68Hx16D
SSM1ABBEMR6 ABB R6 Drive With EM Bypass By ELI S-SM-1-ABB-EM-R6-XXXV-XX-52Wx78Hx20D
SSM1ABBRDR1 ABB R1 Drive With Redundant Circuit S-SM-1-ABB-RD-R1-XXXV-XX-28Wx54Hx12D
SSM1ABBRDR2 ABB R2 Drive With Redundant Circuit S-SM-1-ABB-RD-R2-XXXV-XX-28Wx58Hx12D
SSM1ABBRDR3 ABB R3 Drive With Redundant Circuit S-SM-1-ABB-RD-R3-XXXV-XX-38Wx64Hx14D
SSM1ABBRDR4 ABB R4 Drive With Redundant Circuit S-SM-1-ABB-RD-R4-XXXV-XX-40Wx68Hx14D
SSM1ABBRDR5 ABB R5 Drive With Redundant Circuit S-SM-1-ABB-RD-R5-XXXV-XX-40Wx80Hx16D
SSM1ABBRDR6 ABB R6 Drive With Redundant Circuit S-SM-1-ABB-RD-R6-XXXV-XX-50Wx88Hx20D
SSM1DANBOA2 Danfoss A2 Bare Drive With Out Disconnect S-SM-1-DAN-BO-A2-XXXV-XX-12Wx24Hx12D
SSM1DANBOA3 Danfoss A3 Bare Drive With Out Disconnect S-SM-1-DAN-BO-A3-XXXV-XX-14Wx24Hx12D
SSM1DANBOB1 Danfoss B1 Bare Drive With Out Disconnect S-SM-1-DAN-BO-B1-XXXV-XX-16Wx36Hx14D
SSM1DANBOB2 Danfoss B2 Bare Drive With Out Disconnect S-SM-1-DAN-BO-B2-XXXV-XX-16Wx44Hx14D
SSM1DANBOC1 Danfoss C1 Bare Drive With Out Disconnect S-SM-1-DAN-BO-C1-XXXV-XX-20Wx44Hx16D
SSM1DANBOC2 Danfoss C2 Bare Drive With Out Disconnect S-SM-1-DAN-BO-C2-XXXV-XX-22Wx50Hx18D
SSM1DANBDA2 Danfoss A2 Bare Drive With Disconnect S-SM-1-DAN-BD-A2-XXXV-XX-20Wx26Hx12D
SSM1DANBDA3 Danfoss A3 Bare Drive With Disconnect S-SM-1-DAN-BD-A3-XXXV-XX-22Wx26Hx12D
SSM1DANBDB1 Danfoss B1 Bare Drive With Disconnect S-SM-1-DAN-BD-B1-XXXV-XX-28Wx36Hx14D
SSM1DANBDB2 Danfoss B2 Bare Drive With Disconnect S-SM-1-DAN-BD-B2-XXXV-XX-28Wx44Hx14D
SSM1DANBDC1 Danfoss C1 Bare Drive With Disconnect S-SM-1-DAN-BD-C1-XXXV-XX-34Wx44Hx16D
SSM1DANBDC2 Danfoss C2 Bare Drive With Disconnect S-SM-1-DAN-BD-C2-XXXV-XX-44Wx50Hx18D
SSM1DANEMA2 Danfoss A2 Drive With EM Bypass By ELI S-SM-1-DAN-EM-A2-XXXV-XX-20Wx44Hx12D
SSM1DANEMA3 Danfoss A3 Drive With EM Bypass By ELI S-SM-1-DAN-EM-A3-XXXV-XX-22Wx44Hx12D
SSM1DANEMB1 Danfoss B1 Drive With EM Bypass By ELI S-SM-1-DAN-EM-B1-XXXV-XX-32Wx50Hx14D
SSM1DANEMB2 Danfoss B2 Drive With EM Bypass By ELI S-SM-1-DAN-EM-B2-XXXV-XX-32Wx58Hx14D
SSM1DANEMC1 Danfoss C1 Drive With EM Bypass By ELI S-SM-1-DAN-EM-C1-XXXV-XX-42Wx62Hx16D
SSM1DANEMC2 Danfoss C2 Drive With EM Bypass By ELI S-SM-1-DAN-EM-C2-XXXV-XX-48Wx78Hx18D
SSM1DANRDA2 Danfoss A2 Drive With Redundant Circuit S-SM-1-DAN-RD-A2-XXXV-XX-26Wx46Hx12D
SSM1DANRDA3 Danfoss A3 Drive With Redundant Circuit S-SM-1-DAN-RD-A3-XXXV-XX-30Wx46Hx12D
SSM1DANRDB1 Danfoss B1 Drive With Redundant Circuit S-SM-1-DAN-RD-B1-XXXV-XX-42Wx60Hx14D
SSM1DANRDB2 Danfoss B2 Drive With Redundant Circuit S-SM-1-DAN-RD-B2-XXXV-XX-42Wx66Hx14D
SSM1DANRDC1 Danfoss C1 Drive With Redundant Circuit S-SM-1-DAN-RD-C1-XXXV-XX-52Wx68Hx16D
SSM1DANRDC2 Danfoss C2 Drive With Redundant Circuit S-SM-1-DAN-RD-C2-XXXV-XX-56Wx86Hx18D
SSM1YASBOF1 Yaskawa F1 Bare Drive With Out Disconnect S-SM-1-YAS-BO-F1-XXXV-XX-12Wx26Hx12D
SSM1YASBOF2 Yaskawa F2 Bare Drive With Out Disconnect S-SM-1-YAS-BO-F2-XXXV-XX-12Wx28Hx14D
SSM1YASBOF3 Yaskawa F3 Bare Drive With Out Disconnect S-SM-1-YAS-BO-F3-XXXV-XX-14Wx30Hx14D
SSM1YASBOF4 Yaskawa F4 Bare Drive With Out Disconnect S-SM-1-YAS-BO-F4-XXXV-XX-18Wx34Hx14D
SSM1YASBOF5 Yaskawa F5 Bare Drive With Out Disconnect S-SM-1-YAS-BO-F5-XXXV-XX-20Wx40Hx16D
SSM1YASBOF6 Yaskawa F6 Bare Drive With Out Disconnect S-SM-1-YAS-BO-F6-XXXV-XX-28Wx50Hx20D
SSM1YASBDF1 Yaskawa F1 Bare Drive With Disconnect S-SM-1-YAS-BD-F1-XXXV-XX-22Wx26Hx12D
SSM1YASBDF2 Yaskawa F2 Bare Drive With Disconnect S-SM-1-YAS-BD-F2-XXXV-XX-22Wx28Hx14D
SSM1YASBDF3 Yaskawa F3 Bare Drive With Disconnect S-SM-1-YAS-BD-F3-XXXV-XX-30Wx30Hx14D
SSM1YASBDF4 Yaskawa F4 Bare Drive With Disconnect S-SM-1-YAS-BD-F4-XXXV-XX-32Wx36Hx14D
SSM1YASBDF5 Yaskawa F5 Bare Drive With Disconnect S-SM-1-YAS-BD-F5-XXXV-XX-38Wx44Hx16D
SSM1YASBDF6 Yaskawa F6 Bare Drive With Disconnect S-SM-1-YAS-BD-F6-XXXV-XX-44Wx64Hx20D
SSM1YASEMF1 Yaskawa F1 Drive With EM Bypass By ELI S-SM-1-YAS-EM-F1-XXXV-XX-22Wx44Hx12D
SSM1YASEMF2 Yaskawa F2 Drive With EM Bypass By ELI S-SM-1-YAS-EM-F2-XXXV-XX-24Wx46Hx14D
SSM1YASEMF3 Yaskawa F3 Drive With EM Bypass By ELI S-SM-1-YAS-EM-F3-XXXV-XX-30Wx48Hx14D
SSM1YASEMF4 Yaskawa F4 Drive With EM Bypass By ELI S-SM-1-YAS-EM-F4-XXXV-XX-38Wx56Hx14D
SSM1YASEMF5 Yaskawa F5 Drive With EM Bypass By ELI S-SM-1-YAS-EM-F5-XXXV-XX-42Wx64Hx16D
SSM1YASEMF6 Yaskawa F6 Drive With EM Bypass By ELI S-SM-1-YAS-EM-F6-XXXV-XX-54Wx76Hx20D
SSM1YASRDF1 Yaskawa F1 Drive With Redundant Circuit S-SM-1-YAS-RD-F1-XXXV-XX-28Wx48Hx12D
SSM1YASRDF2 Yaskawa F2 Drive With Redundant Circuit S-SM-1-YAS-RD-F2-XXXV-XX-28Wx52Hx14D
SSM1YASRDF3 Yaskawa F3 Drive With Redundant Circuit S-SM-1-YAS-RD-F3-XXXV-XX-36Wx54Hx14D
SSM1YASRDF4 Yaskawa F4 Drive With Redundant Circuit S-SM-1-YAS-RD-F4-XXXV-XX-44Wx60Hx14D
SSM1YASRDF5 Yaskawa F5 Drive With Redundant Circuit S-SM-1-YAS-RD-F5-XXXV-XX-46Wx72Hx16D
SSM1YASRDF6 Yaskawa F6 Drive With Redundant Circuit S-SM-1-YAS-RD-F6-XXXV-XX-54Wx82Hx20D
SMM4ABBBOR1 ABB R1 Bare Drive With Out Disconnect & Multiple Motors
S-MM-4-ABB-BO-R1-XXXV-XX-14Wx42Hx12D
SMM4ABBBOR2 ABB R2 Bare Drive With Out Disconnect & Multiple Motors
S-MM-4-ABB-BO-R2-XXXV-XX-14Wx48Hx12D
SMM4ABBBOR3 ABB R3 Bare Drive With Out Disconnect & Multiple Motors
S-MM-4-ABB-BO-R3-XXXV-XX-16Wx56Hx14D
SMM4ABBBOR4 ABB R4 Bare Drive With Out Disconnect & Multiple Motors
S-MM-4-ABB-BO-R4-XXXV-XX-16Wx74Hx14D
SMM4ABBBOR5 ABB R5 Bare Drive With Out Disconnect & Multiple Motors
S-MM-4-ABB-BO-R5-XXXV-XX-34Wx48Hx16D
SMM4ABBBOR6 ABB R6 Bare Drive With Out Disconnect & Multiple Motors
S-MM-4-ABB-BO-R6-XXXV-XX-22Wx92Hx20D
SMM4ABBBDR1 ABB R1 Bare Drive With Disconnect & Multiple Motors
S-MM-4-ABB-BD-R1-XXXV-XX-24Wx36Hx12D
SMM4ABBBDR2 ABB R2 Bare Drive With Disconnect & Multiple Motors
S-MM-4-ABB-BD-R2-XXXV-XX-24Wx38Hx12D
SMM4ABBBDR3 ABB R3 Bare Drive With Disconnect & Multiple Motors
S-MM-4-ABB-BD-R3-XXXV-XX-28Wx44Hx14D
SMM4ABBBDR4 ABB R4 Bare Drive With Disconnect & Multiple Motors
S-MM-4-ABB-BD-R4-XXXV-XX-30Wx72Hx14D
SMM4ABBBDR5 ABB R5 Bare Drive With Disconnect & Multiple Motors
S-MM-4-ABB-BD-R5-XXXV-XX-32Wx76Hx16D
SMM4ABBBDR6 ABB R6 Bare Drive With Disconnect & Multiple Motors
S-MM-4-ABB-BD-R6-XXXV-XX-48Wx92Hx20D
SMM4ABBEMR1 ABB R1 Drive With EM Bypass By ELI Multiple Motors
S-MM-4-ABB-EM-R1-XXXV-XX-24Wx52Hx12D
SMM4ABBEMR2 ABB R2 Drive With EM Bypass By ELI Multiple Motors
S-MM-4-ABB-EM-R2-XXXV-XX-24Wx54Hx12D
SMM4ABBEMR3 ABB R3 Drive With EM Bypass By ELI Multiple Motors
S-MM-4-ABB-EM-R3-XXXV-XX-30Wx58Hx14D
SMM4ABBEMR4 ABB R4 Drive With EM Bypass By ELI Multiple Motors
S-MM-4-ABB-EM-R4-XXXV-XX-36Wx78Hx14D
SMM4ABBEMR5 ABB R5 Drive With EM Bypass By ELI Multiple Motors
S-MM-4-ABB-EM-R5-XXXV-XX-42Wx72Hx16D
SMM4ABBEMR6 ABB R6 Drive With EM Bypass By ELI Multiple Motors
S-MM-4-ABB-EM-R6-XXXV-XX-52Wx88Hx20D
SMM4ABBRDR1 ABB R1 Drive With Redundant Circuit & Multiple Motors
S-MM-4-ABB-RD-R1-XXXV-XX-28Wx54Hx12D
SMM4ABBRDR2 ABB R2 Drive With Redundant Circuit & Multiple Motors
S-MM-4-ABB-RD-R2-XXXV-XX-30Wx58Hx12D
SMM4ABBRDR3 ABB R3 Drive With Redundant Circuit & Multiple Motors
S-MM-4-ABB-RD-R3-XXXV-XX-40Wx64Hx14D
SMM4ABBRDR4 ABB R4 Drive With Redundant Circuit & Multiple Motors
S-MM-4-ABB-RD-R4-XXXV-XX-40Wx82Hx14D
SMM4ABBRDR5 ABB R5 Drive With Redundant Circuit & Multiple Motors
S-MM-4-ABB-RD-R5-XXXV-XX-40Wx92Hx16D
SMM4ABBRDR6 ABB R6 Drive With Redundant Circuit & Multiple Motors
S-MM-4-ABB-RD-R6-XXXV-XX-50Wx110Hx20D
SMM4DANBOA2 Danfoss A2 Bare Drive With Out Disconnect & Multiple Motors
S-MM-4-DAN-BO-A2-XXXV-XX-16Wx36Hx12D
SMM4DANBOA3 Danfoss A3 Bare Drive With Out Disconnect & Multiple Motors
S-MM-4-DAN-BO-A3-XXXV-XX-16Wx36Hx12D
SMM4DANBOB1 Danfoss B1 Bare Drive With Out Disconnect & Multiple Motors
S-MM-4-DAN-BO-B1-XXXV-XX-16Wx48Hx14D
SMM4DANBOB2 Danfoss B2 Bare Drive With Out Disconnect & Multiple Motors
S-MM-4-DAN-BO-B2-XXXV-XX-18Wx58Hx14D
SMM4DANBOC1 Danfoss C1 Bare Drive With Out Disconnect & Multiple Motors
S-MM-4-DAN-BO-C1-XXXV-XX-34Wx48Hx16D
SMM4DANBOC2 Danfoss C2 Bare Drive With Out Disconnect & Multiple Motors
S-MM-4-DAN-BO-C2-XXXV-XX-38Wx52Hx18D
SMM4DANBDA2 Danfoss A2 Bare Drive With Disconnect & Multiple Motors
S-MM-4-DAN-BD-A2-XXXV-XX-22Wx34Hx12D
SMM4DANBDA3 Danfoss A3 Bare Drive With Disconnect & Multiple Motors
S-MM-4-DAN-BD-A3-XXXV-XX-24Wx34Hx12D
SMM4DANBDB1 Danfoss B1 Bare Drive With Disconnect & Multiple Motors
S-MM-4-DAN-BD-B1-XXXV-XX-30Wx40Hx14D
SMM4DANBDB2 Danfoss B2 Bare Drive With Disconnect & Multiple Motors
S-MM-4-DAN-BD-B2-XXXV-XX-30Wx44Hx14D
SMM4DANBDC1 Danfoss C1 Bare Drive With Disconnect & Multiple Motors
S-MM-4-DAN-BD-C1-XXXV-XX-34Wx72Hx16D
SMM4DANBDC2 Danfoss C2 Bare Drive With Disconnect & Multiple Motors
S-MM-4-DAN-BD-C2-XXXV-XX-38Wx84Hx18D
SMM4DANEMA2 Danfoss A2 Drive With EM Bypass By ELI Multiple Motors
S-MM-4-DAN-EM-A2-XXXV-XX-22Wx52Hx12D
SMM4DANEMA3 Danfoss A3 Drive With EM Bypass By ELI Multiple Motors
S-MM-4-DAN-EM-A3-XXXV-XX-24Wx52Hx12D
SMM4DANEMB1 Danfoss B1 Drive With EM Bypass By ELI Multiple Motors
S-MM-4-DAN-EM-B1-XXXV-XX-32Wx52Hx14D
SMM4DANEMB2 Danfoss B2 Drive With EM Bypass By ELI Multiple Motors
S-MM-4-DAN-EM-B2-XXXV-XX-32Wx68Hx14D
SMM4DANEMC1 Danfoss C1 Drive With EM Bypass By ELI Multiple Motors
S-MM-4-DAN-EM-C1-XXXV-XX-46Wx72Hx16D
SMM4DANEMC2 Danfoss C2 Drive With EM Bypass By ELI Multiple Motors
S-MM-4-DAN-EM-C2-XXXV-XX-54Wx88Hx18D
SMM4DANRDA2 Danfoss A2 Drive With Redundant Circuit & Multiple Motors
S-MM-4-DAN-RD-A2-XXXV-XX-26Wx46Hx12D
SMM4DANRDA3 Danfoss A3 Drive With Redundant Circuit & Multiple Motors
S-MM-4-DAN-RD-A3-XXXV-XX-30Wx46Hx12D
SMM4DANRDB1 Danfoss B1 Drive With Redundant Circuit & Multiple Motors
S-MM-4-DAN-RD-B1-XXXV-XX-42Wx60Hx14D
SMM4DANRDB2 Danfoss B2 Drive With Redundant Circuit & Multiple Motors
S-MM-4-DAN-RD-B2-XXXV-XX-42Wx66Hx14D
SMM4DANRDC1 Danfoss C1 Drive With Redundant Circuit & Multiple Motors
S-MM-4-DAN-RD-C1-XXXV-XX-46Wx86Hx16D
SMM4DANRDC2 Danfoss C2 Drive With Redundant Circuit & Multiple Motors
S-MM-4-DAN-RD-C2-XXXV-XX-56Wx104Hx18D
SMM4YASBOF1 Yaskawa F1 Bare Drive With Out Disconnect & Multiple Motors
S-MM-4-YAS-BO-F1-XXXV-XX-14Wx36Hx12D
SMM4YASBOF2 Yaskawa F2 Bare Drive With Out Disconnect & Multiple Motors
S-MM-4-YAS-BO-F2-XXXV-XX-14Wx42Hx14D
SMM4YASBOF3 Yaskawa F3 Bare Drive With Out Disconnect & Multiple Motors
S-MM-4-YAS-BO-F3-XXXV-XX-16Wx46Hx14D
SMM4YASBOF4 Yaskawa F4 Bare Drive With Out Disconnect & Multiple Motors
S-MM-4-YAS-BO-F4-XXXV-XX-34Wx38Hx14D
SMM4YASBOF5 Yaskawa F5 Bare Drive With Out Disconnect & Multiple Motors
S-MM-4-YAS-BO-F5-XXXV-XX-40Wx42Hx16D
SMM4YASBOF6 Yaskawa F6 Bare Drive With Out Disconnect & Multiple Motors
S-MM-4-YAS-BO-F6-XXXV-XX-24Wx86Hx20D
SMM4YASBDF1 Yaskawa F1 Bare Drive With Disconnect& Multiple Motors
S-MM-4-YAS-BD-F1-XXXV-XX-22Wx36Hx12D
SMM4YASBDF2 Yaskawa F2 Bare Drive With Disconnect & Multiple Motors
S-MM-4-YAS-BD-F2-XXXV-XX-22Wx38Hx14D
SMM4YASBDF3 Yaskawa F3 Bare Drive With Disconnect & Multiple Motors
S-MM-4-YAS-BD-F3-XXXV-XX-30Wx42Hx14D
SMM4YASBDF4 Yaskawa F4 Bare Drive With Disconnect & Multiple Motors
S-MM-4-YAS-BD-F4-XXXV-XX-34Wx58Hx14D
SMM4YASBDF5 Yaskawa F5 Bare Drive With Disconnect & Multiple Motors
S-MM-4-YAS-BD-F5-XXXV-XX-38Wx70Hx16D
SMM4YASBDF6 Yaskawa F6 Bare Drive With Disconnect & Multiple Motors
S-MM-4-YAS-BD-F6-XXXV-XX-44Wx86Hx20D
SMM4YASEMF1 Yaskawa F1 Drive With EM Bypass By ELI Multiple Motors
S-MM-4-YAS-EM-F1-XXXV-XX-24Wx52Hx12D
SMM4YASEMF2 Yaskawa F2 Drive With EM Bypass By ELI Multiple Motors
S-MM-4-YAS-EM-F2-XXXV-XX-26Wx58Hx14D
SMM4YASEMF3 Yaskawa F3 Drive With EM Bypass By ELI Multiple Motors
S-MM-4-YAS-EM-F3-XXXV-XX-30Wx56Hx14D
SMM4YASEMF4 Yaskawa F4 Drive With EM Bypass By ELI Multiple Motors
S-MM-4-YAS-EM-F4-XXXV-XX-42Wx66Hx14D
SMM4YASEMF5 Yaskawa F5 Drive With EM Bypass By ELI Multiple Motors
S-MM-4-YAS-EM-F5-XXXV-XX-42Wx76Hx16D
SMM4YASEMF6 Yaskawa F6 Drive With EM Bypass By ELI Multiple Motors
S-MM-4-YAS-EM-F6-XXXV-XX-54Wx86Hx20D
SMM4YASRDF1 Yaskawa F1 Drive With Redundant Circuit & Multiple Motors
S-MM-4-YAS-RD-F1-XXXV-XX-28Wx48Hx12D
SMM4YASRDF2 Yaskawa F2 Drive With Redundant Circuit & Multiple Motors
S-MM-4-YAS-RD-F2-XXXV-XX-30Wx52Hx14D
SMM4YASRDF3 Yaskawa F3 Drive With Redundant Circuit & Multiple Motors
S-MM-4-YAS-RD-F3-XXXV-XX-38Wx54Hx14D
SMM4YASRDF4 Yaskawa F4 Drive With Redundant Circuit & Multiple Motors
S-MM-4-YAS-RD-F4-XXXV-XX-44Wx76Hx14D
SMM4YASRDF5 Yaskawa F5 Drive With Redundant Circuit& Multiple Motors
S-MM-4-YAS-RD-F5-XXXV-XX-46Wx86Hx16D
SMM4YASRDF6 Yaskawa F6 Drive With Redundant Circuit & Multiple Motors
S-MM-4-YAS-RD-F6-XXXV-XX-54Wx102Hx20D
Special Devices Enclosures.
ENCLOSURE DESIGNATION
DESCRIPTION MOUNTING PANEL 3D MODEL
Ebtron Transmitter with Cover 14Wx24Hx6D
Ebtron Transmitter without Cover 14Wx16Hx6D
Appendix C. Parts Management (3D Macros) for Eplan Pro Panel.
For implementing the 3D design of enclosures, parts had to be uploaded to Eplan Pro Panel, these parts
are called “Macros” and they are created in macro projects, the following table shows a brief list (with
the name) of the projects, and what kind of devices were created in those projects.
PROJECT NAME DESCRIPTION
ABB Drive Macros ABB Drives Frames R1 thru R6.
Circuit Breakers And Switches Macros Molded Case Circuit Breakers, Automated Molded Case Switches and Other Disconnect Means.
Contactor Macros Contactors and Accessories.
Danfoss VFDs Macros Danfoss Drives Frames A2 thru C2.
Fuses Macros Fuses, Fuse Covers & Fuse Blocks.
Miniature Circuit Breakers Miniature Circuit Breakers & Protectors.
Motor Circuit Protectors Macros MCPs and Accessories.
Overload Relay Macros Overload Relays And Accessories.
PDB Macros Power Distribution Blocks.
Pilot Devices Macros Pilot Lights, Switches, Buttons, Selectors.
Relay Macros Relays and Accessories.
Terminal Macros Terminals and Accessories.
Transformer Macros Control and Power Transformers.
Yaskawa VFDS Macros Yaskawa Drives Frame 1 thru 6.
Appendix D. Drive Frame Sizes By Manufacturer
Appendix E. Enclosure Formulas.
Legend
c = Clearance
w = Width
h = Height
d = Depth
VFD = Variable Frequency Drive
K = Contactor
R = Relay (Coil and Soquet)
F = Fuse (Complete Assembly, Fuse Block, Fuse Covers, Fuses)