Spreadsheet Column Headings

Option Descriptions
Option	Default?	Description
Arc Fault Bus Name	Yes	This is the ID name of the buses faulted. You can have single or multiple (including all buses) faulted for arc flash analysis. MCC and panel schedules also are presented as buses; this represents the main bus within the MCC or panel.
Bus Area		The area of the electrical system in which the bus is located. This can be used to analyze the system in sections.
Bus Zone		The zone in the area of the electrical system in which the bus is located. This can be used to analyze the system in sections.
Arc Fault Bus kV	Yes	The voltage of the bus being faulted.
No. of Phases		The number of phases for the bus (1 or 3).
Phasing		The phase type for the bus—for example, AB, BC, CA, AN, BN, or CN.
Location Description		The name of the physical location where the equipment is located.
Location X		The X coordinate of the equipment location
Location Y		The Y coordinate of the equipment location.
Floor		The floor on which the equipment is located.
AC/DC		Indicates whether the equipment uses alternating current or direct current.
L-G Bus kV		The line-to-ground voltage of the bus being faulted.
Device Code		The QR (Quick Response) code for the device, which is available to print on arc flash labels.
Upstream Trip Device Name	Yes	When a bus is faulted, EasyPower checks every protective device for the current contribution to the fault. If the current passing through the protective device is significant, then the results corresponding to the trip time of that device are provided in the spreadsheet.
Upstream Bus Name		The name of the bus to which the reported upstream device is connected.
Upstream Function ID		If the trip device is a relay, then the relay function ID is provided in this column.
Upstream Trip Device Function	Yes	If the trip device is a relay, then the device function name is provided in this column. Examples of device functions are: 51/50, 51N, 50G, 49, and so on.
Equipment Type	Yes	Describes the type of enclosure specified in the Bus Data. The available types are Switchgear, MCC/Panel, Open Air and Conductor.
Gnd	Yes*	The “X” mark in this column indicates if the IEEE equation used the coefficient for solidly grounded systems. This only applies if the standard selected is something other than IEEE 1584-2018. The zero sequence impedances for cables and busways are typically higher than the positive sequence impedances. Therefore, the line to ground fault currents can be smaller than three phase faults at the end of a long line. When the line to ground fault current is much smaller than the three phase fault current then the system can be considered “not effectively grounded." To determine if the system is effectively grounded, the program first performs a single line to ground fault on A phase. The average per-unit voltage at B and C phases is compared with the threshold specified in the Arc Flash Gnd Vpu field in the Options - System dialog box. If the average per-unit voltage is less than the threshold, the system is considered to be effectively grounded.
Electrode Configuration	Yes	The electrode configuration on which the arc flash calculations are based. This takes into account whether the conductors are in an enclosure or in open air, as well as the orientation of the conductors and whether they terminate into an insulated barrier. This comes from the device library or it can be specified by the user in the equipment data. Electrode configurations are only applicable to the IEEE 1584-2018 standard. See Electrode Configuration for more information.
Height	Yes	The height of the enclosure, based on the electrode configuration. This comes from the device library or it can be specified by the user in the equipment data.This is applicable only when the IEEE 1584-2018 standard is used, and is otherwise left blank. The units displayed are dependent on the Units setting in Tools > Options > System.
Width	Yes	The width of the enclosure, based on the electrode configuration. This comes from the device library or it can be specified by the user in the equipment data. This is applicable only when the IEEE 1584-2018 standard is used, and is otherwise left blank. The units displayed are dependent on the Units setting in Tools > Options > System.
Depth	Yes	The depth of the enclosure, based on the electrode configuration. This comes from the device library or it can be specified by the user in the equipment data. This is applicable only when the IEEE 1584-2018 standard is used, and is otherwise left blank. The units displayed are dependent on the Units setting in Tools > Options > System.
Electrode Gap	Yes	Gap between the phase conductors. This comes from the device library or it can be specified by the user in the equipment data. The gap can be specified according to enclosure type and voltage. It is always expressed in millimeters. The text in this column is blue indicating you can change the values. If you change the value, other calculations in the spreadsheet are automatically updated based on the revised value.
Bus Bolted Fault (kA)	Yes	This is the total bolted fault current calculated at the faulted bus. The text in this column is blue indicating you can change the values. If you change the value, other calculations in the spreadsheet are automatically updated based on the revised value.
Bus Arc Fault (kA)	Yes	This is the total arcing current calculated at the faulted bus.
Branch Bolted Fault (kA)		The bolted fault current flowing through the upstream protective device. When there are multiple sources or motors feeding the fault, this value can be different from the total bolted fault current on the bus. Also, when the trip device is at different voltage than the bus, the values can be different. The text in this column is blue indicating you can change the values. If you change the value, other calculations in the spreadsheet are automatically updated based on the revised value.
Branch Arc Fault (kA)		The arcing current flowing through the upstream protective device. When there are multiple sources or motors feeding the fault, this value can be different from the total arc current on the bus. Also, when the trip device is at different voltage than the bus, the values can be different.
Trip Time (sec)		Trip time for the protective device at the estimated arc current.
Trip Time (branch bolted fault) (sec)	Yes	This column reports the upstream device trip time based on the momentary (1/2 cycle) branch current. This is in compliance with NEC (NFPA 70) 2017 version Article 110.16 (B).
Opening Time (sec)	Yes	Opening time for HV breakers or opening device after the relay trips. This column is applicable only for relays. After the relay trips, the HV breaker takes this amount of time to clear the fault. If the trip device is a fuse or LV breaker instead of a relay, the trip time already includes the opening time so this column will be blank. There are some exceptions that apply to this. Some relays already include the breaker opening time in their trip curves. These are referred to as SST Relays. Examples are: Cutler-Hammer Digitrip 1150V, Digitrip MCV, and so on. In the Relay Data dialog, you can specify which breaker, fuse or switch is opened when the relay trips. The opening time from the dialog of the switching device is used. If the ID name of the switching device is not specified, the opening time of the breaker right next to the relay is used. If there are no immediate switching devices, the program will traverse upstream to find the first switching device.
Arc Time (sec)	Yes	Total duration of arc fault. This is the sum of Trip Time and Opening Time. If an Aux Time is specified in the relay dialog, the Arc Time includes Aux Time, Trip Time, and Opening Time. The text in this column is blue indicating you can change the values. If you change the value, other calculations in the spreadsheet are automatically updated based on the revised value.
Clearing Time (branch bolted fault)	No	The sum of the Trip Time (branch bolted fault) and the Opening Time.
Estimated Arc Flash Boundary	Yes	The arc flash boundary distance in specified units. Units are specified in Short Circuit Options on the Arc Flash Hazards tab.
PPE Boundary		The PPE boundary distance in specified units. Units are specified in Short Circuit Options on the Arc Flash Hazards tab.
Limited Approach Boundary		Shock protection boundary based on equipment voltage according to NFPA 70E. Unqualified persons are not permitted to approach nearer than this distance.
Restricted Approach Boundary		Shock protection boundary based on equipment voltage according to NFPA 70E. When equipment is energized, qualified persons are not permitted to approach or take any conductor or circuit parts closer than the restricted approach boundary. Refer to NFPA 70E for exceptions.
		When you first open the Arc Flash Hazard Report window, only the first working distance appears in the spreadsheet. To view results for other working distances, click .
Working Distance	Yes	Approximate working distance in specified units. You can specify up to five different working distances in Short Circuit Options. The program calculates incident energy for each working distance.
Incident Energy	Yes	This is the incident energy from arc flash corresponding to the trip device. The trip time associated with the trip device is used in the calculation. However, the arc current or fault current used is the total fault current on the faulted bus and not the current seen by the trip device. The rating of personal protective equipment (PPE) worn by workers should be based on this value. The energy is reported in calories or joules per square centimeter based on settings in Short Circuit Options.
PPE Level		This displays the PPE level text based on the levels and text defined in the PPE Levels section of the device library.
PPE Description		This displays the PPE clothing description based on the levels and description defined in the PPE Levels section of the device library.
Comments/ PPE Level	Yes*	Comments generated by EasyPower–for example, "No Valid Trip Device Found Upstream or in Bus Dialog." or "Do not Work on Energized Equipment." If EasyPower is set to display the PPE level, this column is named PPE Level and it displays the PPE level. Note: This dual-purpose column was retained for backwards compatibility with earlier custom report configurations, but has been replaced with the separate PPE Level and Equipment Comments columns. It is no longer part of the default report configuration.
Comments		Comments generated by EasyPower–for example, "No Valid Trip Device Found Upstream or in Bus Dialog," "Do not Work on Energized Equipment," or "Out of IEEE 1584-2018 Range." See IEEE 1584-2018 Range of Model for more information on that message.
Equipment Label Comment		The arc flash label comment. This is defined on the Arc Flash Hazard tab of the equipment dialog box, but can be changed here, if needed.
Equipment Label Quantity		The number of arc flash labels to print. This is defined on the Arc Flash Hazard tab of the equipment dialog box, but can be changed here, if needed. Note: See also Device Label Quantity below.
Device Label Comment		When the Detailed output option is selected, feeder arc flash results are displayed along with bus and incomer results. Each row of the result can have its own user-specified comments. These comments are associated with the protective devices. The comments can be entered only through the arc flash hazard report. The comments are stored with the file. Note: The Detailed output option is set in Short Circuit Options > Arc Flash Hazard.
Device Label Quantity		This is the number of labels to print for each row that is created when the output option is set to Detailed. For this count to be used, the Equipment Label Quantity value must be 0. Note: The Detailed output option is set in Short Circuit Options > Arc Flash Hazard.
*For calculation methods other than IEEE 1584-2018.

Arc Fault Bus Name

Yes

This is the ID name of the buses faulted. You can have single or multiple (including all buses) faulted for arc flash analysis. MCC and panel schedules also are presented as buses; this represents the main bus within the MCC or panel.

Bus Area

The area of the electrical system in which the bus is located. This can be used to analyze the system in sections.

Bus Zone

The zone in the area of the electrical system in which the bus is located. This can be used to analyze the system in sections.

Arc Fault Bus kV

Yes

The voltage of the bus being faulted.

No. of Phases

The number of phases for the bus (1 or 3).

Phasing

The phase type for the bus—for example, AB, BC, CA, AN, BN, or CN.

Location Description

The name of the physical location where the equipment is located.

Location X

The X coordinate of the equipment location

Location Y

The Y coordinate of the equipment location.

Floor

The floor on which the equipment is located.

AC/DC

Indicates whether the equipment uses alternating current or direct current.

L-G Bus kV

The line-to-ground voltage of the bus being faulted.

Device Code

The QR (Quick Response) code for the device, which is available to print on arc flash labels.

Upstream Trip Device Name

Yes

When a bus is faulted, EasyPower checks every protective device for the current contribution to the fault. If the current passing through the protective device is significant, then the results corresponding to the trip time of that device are provided in the spreadsheet.

Upstream Bus Name

The name of the bus to which the reported upstream device is connected.

Upstream Function ID

If the trip device is a relay, then the relay function ID is provided in this column.

Upstream Trip Device Function

Yes

If the trip device is a relay, then the device function name is provided in this column. Examples of device functions are: 51/50, 51N, 50G, 49, and so on.

Equipment Type

Yes

Describes the type of enclosure specified in the Bus Data. The available types are Switchgear, MCC/Panel, Open Air and Conductor.

Gnd

Yes*

The “X” mark in this column indicates if the IEEE equation used the coefficient for solidly grounded systems. This only applies if the standard selected is something other than IEEE 1584-2018.

The zero sequence impedances for cables and busways are typically higher than the positive sequence impedances. Therefore, the line to ground fault currents can be smaller than three phase faults at the end of a long line. When the line to ground fault current is much smaller than the three phase fault current then the system can be considered “not effectively grounded." To determine if the system is effectively grounded, the program first performs a single line to ground fault on A phase. The average per-unit voltage at B and C phases is compared with the threshold specified in the Arc Flash Gnd Vpu field in the Options - System dialog box. If the average per-unit voltage is less than the threshold, the system is considered to be effectively grounded.

Electrode Configuration

Yes

The electrode configuration on which the arc flash calculations are based. This takes into account whether the conductors are in an enclosure or in open air, as well as the orientation of the conductors and whether they terminate into an insulated barrier. This comes from the device library or it can be specified by the user in the equipment data.

Electrode configurations are only applicable to the IEEE 1584-2018 standard. See Electrode Configuration for more information.

Height

Yes

The height of the enclosure, based on the electrode configuration. This comes from the device library or it can be specified by the user in the equipment data.This is applicable only when the IEEE 1584-2018 standard is used, and is otherwise left blank.

The units displayed are dependent on the Units setting in Tools > Options > System.

Width

Yes

The width of the enclosure, based on the electrode configuration. This comes from the device library or it can be specified by the user in the equipment data. This is applicable only when the IEEE 1584-2018 standard is used, and is otherwise left blank.

The units displayed are dependent on the Units setting in Tools > Options > System.

Depth

Yes

The depth of the enclosure, based on the electrode configuration. This comes from the device library or it can be specified by the user in the equipment data. This is applicable only when the IEEE 1584-2018 standard is used, and is otherwise left blank.

The units displayed are dependent on the Units setting in Tools > Options > System.

Electrode Gap

Yes

Gap between the phase conductors. This comes from the device library or it can be specified by the user in the equipment data. The gap can be specified according to enclosure type and voltage. It is always expressed in millimeters.

The text in this column is blue indicating you can change the values. If you change the value, other calculations in the spreadsheet are automatically updated based on the revised value.

Bus Bolted Fault (kA)

Yes

This is the total bolted fault current calculated at the faulted bus.

The text in this column is blue indicating you can change the values. If you change the value, other calculations in the spreadsheet are automatically updated based on the revised value.

Bus Arc Fault (kA)

Yes

This is the total arcing current calculated at the faulted bus.

Branch Bolted Fault (kA)

The bolted fault current flowing through the upstream protective device. When there are multiple sources or motors feeding the fault, this value can be different from the total bolted fault current on the bus. Also, when the trip device is at different voltage than the bus, the values can be different.

The text in this column is blue indicating you can change the values. If you change the value, other calculations in the spreadsheet are automatically updated based on the revised value.

Branch Arc Fault (kA)

The arcing current flowing through the upstream protective device. When there are multiple sources or motors feeding the fault, this value can be different from the total arc current on the bus. Also, when the trip device is at different voltage than the bus, the values can be different.

Trip Time (sec)

Trip time for the protective device at the estimated arc current.

Trip Time (branch bolted fault) (sec)

Yes

This column reports the upstream device trip time based on the momentary (1/2 cycle) branch current. This is in compliance with NEC (NFPA 70) 2017 version Article 110.16 (B).

Opening Time (sec)

Yes

Opening time for HV breakers or opening device after the relay trips. This column is applicable only for relays. After the relay trips, the HV breaker takes this amount of time to clear the fault. If the trip device is a fuse or LV breaker instead of a relay, the trip time already includes the opening time so this column will be blank. There are some exceptions that apply to this. Some relays already include the breaker opening time in their trip curves. These are referred to as SST Relays. Examples are: Cutler-Hammer Digitrip 1150V, Digitrip MCV, and so on.

In the Relay Data dialog, you can specify which breaker, fuse or switch is opened when the relay trips. The opening time from the dialog of the switching device is used. If the ID name of the switching device is not specified, the opening time of the breaker right next to the relay is used. If there are no immediate switching devices, the program will traverse upstream to find the first switching device.

Arc Time (sec)

Yes

Total duration of arc fault. This is the sum of Trip Time and Opening Time.

If an Aux Time is specified in the relay dialog, the Arc Time includes Aux Time, Trip Time, and Opening Time.

The text in this column is blue indicating you can change the values. If you change the value, other calculations in the spreadsheet are automatically updated based on the revised value.

Clearing Time (branch bolted fault)

No

The sum of the Trip Time (branch bolted fault) and the Opening Time.

Estimated Arc Flash Boundary

Yes

The arc flash boundary distance in specified units. Units are specified in Short Circuit Options on the Arc Flash Hazards tab.

PPE Boundary

The PPE boundary distance in specified units. Units are specified in Short Circuit Options on the Arc Flash Hazards tab.

Limited Approach Boundary

Shock protection boundary based on equipment voltage according to NFPA 70E. Unqualified persons are not permitted to approach nearer than this distance.

Restricted Approach Boundary

Shock protection boundary based on equipment voltage according to NFPA 70E. When equipment is energized, qualified persons are not permitted to approach or take any conductor or circuit parts closer than the restricted approach boundary. Refer to NFPA 70E for exceptions.

When you first open the Arc Flash Hazard Report window, only the first working distance appears in the spreadsheet. To view results for other working distances, click .

Working Distance

Yes

Approximate working distance in specified units. You can specify up to five different working distances in Short Circuit Options. The program calculates incident energy for each working distance.

Incident Energy

Yes

This is the incident energy from arc flash corresponding to the trip device. The trip time associated with the trip device is used in the calculation. However, the arc current or fault current used is the total fault current on the faulted bus and not the current seen by the trip device. The rating of personal protective equipment (PPE) worn by workers should be based on this value.

The energy is reported in calories or joules per square centimeter based on settings in Short Circuit Options.

PPE Level

This displays the PPE level text based on the levels and text defined in the PPE Levels section of the device library.

PPE Description

This displays the PPE clothing description based on the levels and description defined in the PPE Levels section of the device library.

Comments/

PPE Level

Yes*

Comments generated by EasyPower–for example, "No Valid Trip Device Found Upstream or in Bus Dialog." or "Do not Work on Energized Equipment."

If EasyPower is set to display the PPE level, this column is named PPE Level and it displays the PPE level.

Note: This dual-purpose column was retained for backwards compatibility with earlier custom report configurations, but has been replaced with the separate PPE Level and Equipment Comments columns. It is no longer part of the default report configuration.

Comments

Comments generated by EasyPower–for example, "No Valid Trip Device Found Upstream or in Bus Dialog," "Do not Work on Energized Equipment," or "Out of IEEE 1584-2018 Range." See IEEE 1584-2018 Range of Model for more information on that message.

Equipment Label Comment

The arc flash label comment. This is defined on the Arc Flash Hazard tab of the equipment dialog box, but can be changed here, if needed.

Equipment Label Quantity

The number of arc flash labels to print. This is defined on the Arc Flash Hazard tab of the equipment dialog box, but can be changed here, if needed.

Note: See also Device Label Quantity below.

Device Label Comment

When the Detailed output option is selected, feeder arc flash results are displayed along with bus and incomer results. Each row of the result can have its own user-specified comments. These comments are associated with the protective devices. The comments can be entered only through the arc flash hazard report. The comments are stored with the file.

Note: The Detailed output option is set in Short Circuit Options > Arc Flash Hazard.

Device Label Quantity

This is the number of labels to print for each row that is created when the output option is set to Detailed. For this count to be used, the Equipment Label Quantity value must be 0.

Note: The Detailed output option is set in Short Circuit Options > Arc Flash Hazard.

*For calculation methods other than IEEE 1584-2018.

Spreadsheet Column Headings

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