vault backup: 2026-04-24 14:08:10

2026-04-24 14:08:11 -04:00
parent 6762932131
commit b4b2904ac4
26 changed files with 366 additions and 291 deletions
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 title: 2009 Honda Civic
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  - type/property
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 # 2009 Honda Civic
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 title: 463 Davison Ave NE
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 # 463 Davison Ave NE
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 title: Carbon Monoxide Detection Takeoff
 up: "[[takeoff-scripts]]"
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 # Carbon Monoxide Detection Takeoff
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 title: Create Your Own Vault
-tags: []
+tags:
  - topic/meta
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 # Create Your Own Vault
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 aliases:
  - das
 title: Distributed Antenna Systems (DAS) Takeoff
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  - occupational/takeoff
  - status/draft
  - type/guide
-title: Distributed Antenna Systems (DAS) Takeoff
+up: "[[takeoff-scripts]]"
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 # Distributed Antenna Systems (DAS) Takeoff
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 title: _Einstellung_ Effect
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  - topic/psychology
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 # _Einstellung_ Effect
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 # Electrical Takeoff
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 title: Feeders Takeoff
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 # Feeders Takeoff
@@ -15,6 +16,11 @@ title: Feeders Takeoff
 ## Execution
 1. Primaries
 2. Secondaries
 3. Feeders
 4. Grounding
 ### Formatting
 All feeder takeoff descriptions should be prefixed with `<parent> TO <child>`
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 # Fire Alarm Takeoff
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 # Fixtures Takeoff
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 title: General Takeoff
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  - occupational/takeoff
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  - type/guide
-title: General Takeoff
+up: "[[takeoff-scripts]]"
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 # General Takeoff
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  - status/draft
  - type/guide
 title: Lighting Controls Takeoff
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 # Lighting Controls Takeoff
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 title: Lightning Protection Takeoff
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  - occupational/takeoff
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  - type/guide
-title: Lightning Protection
+up: "[[takeoff-scripts]]"
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 # Lightning Protection Takeoff
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 title: Low Voltage Takeoff
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 # Low Voltage Takeoff
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 title: Lucky Fools
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 # Lucky Fools
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  - occupational/takeoff
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 # Misc Budgets Takeoff
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 title: NECA Manual of Labor Units
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  - exclude-from-word-count
  - type/media/reference
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 # NECA Manual of Labor Units
 ## Foreword
 ## Labor Units Defined
 ## Adjusting Labor Units for Project Conditions
 * Section 01: Division 01---General Requirements
    * 01 51 00: Temporary Utilities
 * Section 02: Division 03---Concrete
    * 03 21 00: Reinforcement Bars
    * 03 22 00: Fabric and Grid Reinforcement
 * Section 03: Division 11---Equipment
    * 11 11 00: Vehicle Service Equipment
 * Section 04: Division 13---Special Construction
    * 13 46 00: Lighting Protection Systems
    * 13 47 00: Facility Protection
 * Section 05: Division 21---Fire Suppression
    * 21 05 00: Common Work Results for Fire Suspression
 * Section 06: Division 22---Plumbing
    * 22 05 00: Common Work Results for Plumbing
 * Section 07: Division 23---Heating, Ventilating and Air Conditioning (HVAC)
    * 23 05 00: Common Work Results for HVAC
    * 23 09 00: Instrumentation and Control for HVAC
    * 23 34 00: HVAC Fans
    * 23 82 00: Convection Heating and Cooling Units
    * 23 83 00: Radiant Heating and Cooling Units
 * Section 08: Division 26---Electrical
    * Scope of the Labor Units in Division 26
    * 26 05 00: Common Work Results for Electrical
    * 26 05 05: Selective Demolition for Electrical
    * 26 05 13: Medium-Voltage Cables
    * 26 05 19: Low-Voltage Electrical Power Conductors and Cables
    * 26 05 23: Control-Voltage Electrical Power Cables
    * 26 05 26: Grounding and Bonding for Electrical Systems
    * 26 05 29: Hangers and Supports for Electrical Systems
    * 26 05 33: Raceway and Boxes for Electrical Systems
    * 26 05 36: Cable Trays for Electrical Systems
    * 26 05 39: Underfloor Raceways for Electrical Systems
    * 26 05 43: Underground Ducts and Raceways for Electrical Systems
    * 26 05 44: Sleeves and Sleeve Seals for Electrical Raceways and Cabling
    * 26 05 53: Identification for Electrical Systems
    * 26 05 83: Wiring Connections
    * 26 06 00: Schedules for Electrical
    * 26 09 00: Instrumentation and Control for Electrical Systems
    * 26 12 00: Medium-Voltage Transformers
    * 26 13 00: Medium-Voltage Switchgear
    * 26 21 00: Low-Voltage Electrical Service Entrance
    * 26 22 00: Low-Voltage Transformers
    * 26 24 00: Switchboards and Panelboards
    * 26 25 00: Low-Voltage Enclosed Bus Assemblies
    * 26 27 00: Low-Voltage Distribution Equipment
    * 26 28 00: Low-Voltage Circuit Protection Devices
    * 26 29 00: Low-Voltage Controllers
    * 26 31 00: Photovoltaic Collectors
    * 26 32 00: Packaged Generator Assemblies
    * 26 33 00: Battery Equipment
    * 26 35 00: Power Filters and Conditioners
    * 26 36 00: Transfer Switches
    * 26 43 00: Surge Protective Devices
    * 26 51 00: Interior Lighting
    * 26 52 00: Safety Lighting
    * 26 54 00: Classified Location Lighting
    * 26 55 00: Special Purpose Lighting
    * 26 56 00: Exterior Lighting
 * Section 09: Division 27---Communications
    * 27 05 00: Common Work Results for Communications
    * 27 11 00: Communications Equipment Room Fittings
    * 27 13 00: Communications Backbone Cabling
    * 27 15 00: Communications Horizontal Cabling
    * 27 16 00: Communications Connecting Cords, Devices and Adapters
    * 27 21 00: Data Communications Network Equipment
    * 27 22 00: Data Communications Hardware
    * 27 24 00: Data Communications Peripheral Data Equipment
    * 27 31 00: Voice Communications Switching and Routing Equipment
    * 27 33 00: Voice Communications Messaging
    * 27 41 00: Audio-Video Systems
    * 27 51 00: Distributed Audio-Video Communications Systems
    * 27 51 29: Emergency Communications Systems
    * 27 52 00: Healthcare Communications and Monitoring Systems
    * 27 53 00: Distributed Systems
 * Section 10: Division 28---Electronic Safety and Security
    * 28 05 00: Common Work Results for Electronic Safety andSecurity
    * 28 05 37: Distributed Antenna System
    * 28 14 00: Access Control System Hardware
    * 28 15 00: Integrated Access Control Hardware Devices
    * 28 16 00: Access Control Interfaces
    * 28 20 00: Video Surveillance
 * Section 10: Division 28---Electronic Safety and Security28 21 00: Surveillance Cameras
    * 28 25 00: Video Surveillance Positioning Equipment
    * 28 31 00: Intrusion Detection
    * 28 46 00: Fire Detection and Alarm
 * Section 11: Division 31---Earthwork
    * 31 05 00: Common Work Results for Earthwork
    * 31 23 00: Excavation and Fill
    * 31 25 00: Erosion and Sedimentation Controls
    * 31 41 00: Shoring
 * Section 12: Division 32---Exterior Improvements
    * 32 17 00: Paving Specialties
 * Section 13: Division 33---Utilities
    * 33 05 00: Common Work Results for Utilities
    * 33 71 00: Electrical Utility Transmission and Distribution
    * 33 73 00: Utility Transformers
    * 33 77 00: Medium-Voltage Utility Switchgear and ProtectionDevices
    * 33 79 00: Site Grounding
 * Section 14: Division 34---Transportation
    * 34 41 00: Roadway Signaling and Control Equipment
    * 34 43 00: Airfield Signaling and Control Equipment
    * 34 71 00: Roadway Construction
 * Section 15: Division 48---Electrical Power Generation
    * 48 14 00: Solar Energy Electrical Power Generation Equipment
    * 48 15 00: Wind Energy Electrical Power Generation Equipment
    * 48 30 00: Combined Heat and Power Generation
 ## References
 * Construction Abbreviations
 * Construction Definitions
 * Appendix A: Technical Data Tables
 * Appendix B: Electrical Formulas
 * Appendix C: Additional Costs of Change Orders
 * Appendix D: Estimating the Cost of Supervision
 * Appendix E: Suggested Labor Factor % to use with Multiple Runs
 * Appendix F: Equipment Startup Checklist Resources
 * Appendix G: Additional NECA Resources
@@ -0,0 +1,13 @@
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 aliases:
  - nec-200
 title: Article 200 Use and Identification of Grounded Conductors
 tags:
  - authorship/other
  - destiny/uncertain
  - exclude-from-word-count
  - status/draft
  - topic/construction/electrical
  - type/media/reference
 ---
 # Article 200 Use and Identification of Grounded Conductors
@@ -54,110 +54,77 @@ Conductor application and insulation shall comply with Table 311.10(A).
 ##### Table 311.10(A) Conductor Application and Insulation Rated 2001 Volts and Higher
 |           Trade Name            |     Type Letter     | Maximum Operating Temperature | Application Provision |           Insulation           |      Outer Covering      |
-| ------------------------------- |:----------------:|:-----------------------------:| --------------------- | ------------------------------ | ------------------------ |
+|:-------------------------------:|:-------------------:|:-----------------------------:|:---------------------:|:------------------------------:|:------------------------:|
-| Medium voltage solid dielectric | MV-90<br>MV-105* |         90°C<br>105°C         | Dry or wet locations  | Thermoplastic or thermosetting | Jacket, sheath, or armor |
+| Medium voltage solid dielectric |        MV-90        |             90°C              | Dry or wet locations  | Thermoplastic or thermosetting | Jacket, sheath, or armor |
 |                                 | MV-105<sup>\*</sup> |             105°C             |                       |                                |                          |
-\*Where design conditions require maximum conductor temperatures above 90°C.
+<sup>\*</sup>Where design conditions require maximum conductor temperatures above 90°C.
 #### 311.10(B) Thickness of Insulation and Jacket for Nonshielded Insulated Conductors.
-Thickness of insulation and jacket for nonshielded solid dielectric insulated conductors rated 2001 volts to 5000 volts shall comply with Table 311.10(B).
+Thickness of insulation and jacket for nonshielded solid dielectric insulated conductors rated 2001 volts to 5000 volts
 shall comply with Table 311.10(B).
-##### Table 311.10(B) Thickness of Insulation and Jacket for Nonshielded Solid Dielectric Insulated Conductors
+##### Table 311.10(B) Thickness of Insulation and Jacket for Nonshielded Solid Dielectric Insulated Conductors Rated 2001 Volts to 5000 Volts
-Rated 2001 Volts to 5000 Volts
+				Overall	Insulation	Jacket
-Conductor
+Dry Locations	Single Conductor	Without Jacket	8	2.79mm (110mils)		
 Dry Locations	Single Conductor	Without Jacket	6	2.79mm (110mils)		
 Dry Locations	Single Conductor	Without Jacket	4–2	2.79mm (110mils)		
 Dry Locations	Single Conductor	Without Jacket	1–2/0	2.79mm (110mils)		
 Dry Locations	Single Conductor	Without Jacket	3/0–4/0	2.79mm (110mils)		
 Dry Locations	Single Conductor	Without Jacket	213–500	3.05mm (120mils)		
 Dry Locations	Single Conductor	Without Jacket	501–750	3.30mm (130mils)		
 Dry Locations	Single Conductor	Without Jacket	751–1000	3.30mm (130mils)		
 Dry Locations	Single Conductor	Without Jacket	1001–1250	3.56mm (140mils)		
 Dry Locations	Single Conductor	Without Jacket	1251–1500	3.56mm (140mils)		
 Dry Locations	Single Conductor	Without Jacket	1501–2000	3.56mm (140mils)		
 Dry Locations	Single Conductor		8		2.29mm (90mils)	0.76mm (30mils)
 Dry Locations	Single Conductor		6		2.29mm (90mils)	0.76mm (30mils)
 Dry Locations	Single Conductor		4–2		2.29mm (90mils)	1.14mm (45mils)
 Dry Locations	Single Conductor		1–2/0		2.29mm (90mils)	1.14mm (45mils)
 Dry Locations	Single Conductor		3/0–4/0		2.29mm (90mils)	1.65mm (65mils)
 Dry Locations	Single Conductor		213–500		2.29mm (90mils)	1.65mm (65mils)
 Dry Locations	Single Conductor		501–750		2.29mm (90mils)	1.65mm (65mils)
 Dry Locations	Single Conductor		751–1000		2.29mm (90mils)	1.65mm (65mils)
 Dry Locations	Single Conductor		1001–1250		2.92mm (115mils)	1.65mm (65mils)
 Dry Locations	Single Conductor		1251–1500		2.92mm (115mils)	2.03mm (80mils)
 Dry Locations	Single Conductor		1501–2000		2.92mm (115mils)	2.03mm (80mils)
 Wet or Dry Locations	Single Conductor		8		3.18mm (125mils)	2.03mm (80mils)
 Wet or Dry Locations	Single Conductor		6		3.18mm (125mils)	2.03mm (80mils)
 Wet or Dry Locations	Single Conductor		4–2		3.18mm (125mils)	2.03mm (80mils)
 Wet or Dry Locations	Single Conductor		1–2/0		3.18mm (125mils)	2.03mm (80mils)
 Wet or Dry Locations	Single Conductor		3/0–4/0		3.18mm (125mils)	2.41mm (95mils)
 Wet or Dry Locations	Single Conductor		213–500		3.56mm (140mils)	2.79mm (110mils)
 Wet or Dry Locations	Single Conductor		501–750		3.94mm (155mils)	3.18mm (125mils)
 Wet or Dry Locations	Single Conductor		751–1000		3.94mm (155mils)	3.18mm (125mils)
 Wet or Dry Locations	Single Conductor		1001–1250		4.32mm (170mils)	3.56mm (140mils)
 Wet or Dry Locations	Single Conductor		1251–1500		4.32mm (170mils)	3.56mm (140mils)
 Wet or Dry Locations	Single Conductor		1501–2000		4.32mm (170mils)	3.94mm (155mils)
 Wet or Dry Locations		Multiconductor Insulation*	8	2.29mm (90mils)		
 Wet or Dry Locations		Multiconductor Insulation*	6	2.29mm (90mils)		
 Wet or Dry Locations		Multiconductor Insulation*	4–2	2.29mm (90mils)		
 Wet or Dry Locations		Multiconductor Insulation*	1–2/0	2.29mm (90mils)		
 Wet or Dry Locations		Multiconductor Insulation*	3/0–4/0	2.29mm (90mils)		
 Wet or Dry Locations		Multiconductor Insulation*	213–500	2.29mm (90mils)		
 Wet or Dry Locations		Multiconductor Insulation*	501–750	2.29mm (90mils)		
 Wet or Dry Locations		Multiconductor Insulation*	751–1000	2.29mm (90mils)		
 Wet or Dry Locations		Multiconductor Insulation*	1001–1250	2.92mm (115mils)		
 Wet or Dry Locations		Multiconductor Insulation*	1251–1500	2.92mm (115mils)		
 Wet or Dry Locations		Multiconductor Insulation*	1501–2000	3.56mm (140mils)		
 Size
 (AWG or kcmil)
 Dry Locations, Single Conductor Wet or Dry Locations
 Without Jacket
 Insulation
 With Jacket Single Conductor Multiconductor
 Insulation*
 Insulation Jacket Insulation Jacket mm mils mm mils mm mils mm mils mm mils mm mils
 8 2.79 110 2.29 90 0.76 30 3.18 125 2.03 80 2.29 90
 6 2.79 110 2.29 90 0.76 30 3.18 125 2.03 80 2.29 90
 4–2 2.79 110 2.29 90 1.14 45 3.18 125 2.03 80 2.29 90
 Conductor
 Size
 (AWG or kcmil)
 Dry Locations, Single Conductor Wet or Dry Locations
 Without Jacket
 Insulation
 With Jacket Single Conductor Multiconductor
 Insulation*
 Insulation Jacket Insulation Jacket mm mils mm mils mm mils mm mils mm mils mm mils
 1–2/0 2.79 110 2.29 90 1.14 45 3.18 125 2.03 80 2.29 90
 3/0–4/0 2.79 110 2.29 90 1.65 65 3.18 125 2.41 95 2.29 90
 213–500 3.05 120 2.29 90 1.65 65 3.56 140 2.79 110 2.29 90
 501–750 3.30 130 2.29 90 1.65 65 3.94 155 3.18 125 2.29 90
 751–1000 3.30 130 2.29 90 1.65 65 3.94 155 3.18 125 2.29 90
 1001–1250 3.56 140 2.92 115 1.65 65 4.32 170 3.56 140 2.92 115
 1251–1500 3.56 140 2.92 115 2.03 80 4.32 170 3.56 140 2.92 115
 1501–2000 3.56 140 2.92 115 2.03 80 4.32 170 3.94 155 3.56 140
 *Under a common overall covering such as a jacket, sheath, or armor.
-Conductor
+Conductor Size (AWG or kcmil)
 Size
 (AWG or kcmil)
 25,001–28,000 Volts 28,001–35,000 Volts
-100
+100 Percent Insulation Level
-
+133 Percent Insulation Level
-Percent
+173 Percent Insulation Level
-
+100 Percent Insulation Level
-Insulation
+133 Percent Insulation Level
-
+173 Percent Insulation
 Level
 133
 Percent
 Insulation
 Level
 173
 Percent
 Insulation
 Level
 100
 Percent
 Insulation
 Level
 133
 Percent
 Insulation
 Level
 173
 Percent
 Insulation
 Level mm mils mm mils mm mils mm mils mm mils mm mils
 1 7.11 280 8.76 345 11.30 445 — — — — — —
@@ -169,11 +136,22 @@ Thickness of insulation for shielded solid dielectric insulated conductors rated
 ##### 311.10(C)(1) 100 Percent Insulation Level.
-Cables shall be permitted to be applied where the system is provided with relay protection such that ground faults will be cleared as rapidly as possible but, in any case, within 1 minute. These cables are applicable to cable installations that are on grounded systems and shall be permitted to be used on other systems provided the above clearing requirements are met in completely de-energizing the faulted section.
+Cables shall be permitted to be applied
 where the system is provided with relay protection
 such that ground faults will be cleared as rapidly as possible but, in any case, within 1 minute.
 These cables are applicable to cable installations that are on grounded systems
 and shall be permitted to be used on other systems
 provided the above clearing requirements are met
 in completely de-energizing the faulted section.
 ##### 311.10(C)(2) 133 Percent Insulation Level.
-Cables shall be permitted to be applied in situations where the clearing time requirements of the 100 percent level category cannot be met and the faulted section will be de-energized in a time not exceeding 1 hour. Cable shall be permitted to be used in 100 percent insulation level applications where the installation requires additional insulation.
+Cables shall be permitted to be applied
 in situations where the clearing time requirements
 of the 100 percent level category cannot be met
 and the faulted section will be de-energized in a time not exceeding 1 hour.
 Cable shall be permitted to be used in 100 percent insulation level applications
 where the installation requires additional insulation.
 ##### 311.10(C)(3) 173 Percent Insulation Level.
@@ -310,8 +288,7 @@ One or more of the methods in 311.16(B)(1) through (B)(4) shall be used for mark
 ##### 311.16(B)(1) Surface Marking.
-Cables shall be durably marked on the surface. The AWG size or circular mil area shall be repeated at intervals not exceeding 610 mm
+Cables shall be durably marked on the surface. The AWG size or circular mil area shall be repeated at intervals not exceeding 610 mm (24 in.). All other markings shall be repeated at intervals not exceeding 1.0 m (40 in.).
 (24 in.). All other markings shall be repeated at intervals not exceeding 1.0 m (40 in.).
 ##### 311.16(B)(2) Marker Tape.
@@ -450,24 +427,21 @@ Under engineering supervision, conductor ampacities shall be permitted to be cal
 ##### Equation 311.60(B)
-%% TODO %%
+$$
-
+I = \sqrt{ \frac{ T_{c} - ( T_{a} + \Delta T_{d} ) }{R_{dc} ( 1 + Y_{c}) R_{ca}} } \times 10^3~\text{amperes}
-T =
+$$
 T =
 ΔT =
 R =
 Y =
 R =
 where:
-conductor temperature (°C) ambient temperature (°C) dielectric loss temperature rise dc resistance of conductor at temperature, T component ac resistance resulting from skin effect and proximity effect effective thermal resistance between conductor and surrounding ambient c a d dc c c ca
+* $T_{c}$ conductor temperature (°C)
 * $T_{a}$ ambient temperature (°C)
 * $\Delta T_{d}$ dielectric loss temperature rise
 * $R_{dc}$ dc resistance of conductor at temperature, $T_{c}$
 * $Y_{c}$ component ac resistance resulting from skin effect and proximity effect
 * $R_{ca}$ effective thermal resistance between conductor and surrounding ambient
 > [!info] Informational Note:
-> The dielectric loss temperature rise (ΔT ) is negligible for single circuit extruded dielectric cables rated below 46 kilovolts.
+> The dielectric loss temperature rise ($\Delta T_{d}$)
 > is negligible for single circuit extruded dielectric cables rated below 46 kilovolts.
 #### 311.60(C) Tables.
@@ -518,8 +492,7 @@ MV-105
 750 750 835 730 820
 1000 880 980 850 950
-Note: Refer to 311.60(E) for the basis of ampacities, 311.10(A) for conductor maximum operating temperature and application, and
+Note: Refer to 311.60(E) for the basis of ampacities, 311.10(A) for conductor maximum operating temperature and application, and 311.60(D)(4) for the ampacity correction factors where the ambient air temperature is other than 40°C (104°F).
 311.60(D)(4) for the ampacity correction factors where the ambient air temperature is other than 40°C (104°F).
 ##### Table 311.60(C)(68) Ampacities of Insulated Single Aluminum Conductor Cables Triplexed in Air
@@ -577,8 +550,7 @@ MV-105
 750 600 665 590 660
 1000 715 800 700 780
-Note: Refer to 311.60(E) for basis of ampacities, 311.10(A) for conductor maximum operating temperature and application, and
+Note: Refer to 311.60(E) for basis of ampacities, 311.10(A) for conductor maximum operating temperature and application, and 311.60(D)(4) for the ampacity correction factors where the ambient air temperature is other than 40°C (104°F).
 311.60(D)(4) for the ampacity correction factors where the ambient air temperature is other than 40°C (104°F).
 ##### Table 311.60(C)(69) Ampacities of Insulated Single Copper Conductor Isolated in Air
@@ -629,8 +601,7 @@ Type MV-105
 1750 1495 1665 1470 1640 1430 1595
 2000 1605 1790 1575 1755 1535 1710
-Note: Refer to 311.60(E) for the basis of ampacities, 311.10(A) for conductor maximum operating temperature and application, and
+Note: Refer to 311.60(E) for the basis of ampacities, 311.10(A) for conductor maximum operating temperature and application, and 311.60(D)(4) for the ampacity correction factors where the ambient air temperature is other than 40°C (104°F).
 311.60(D)(4) for the ampacity correction factors where the ambient air temperature is other than 40°C (104°F).
 ##### Table 311.60(C)(70) Ampacities of Insulated Single Aluminum Conductor Isolated in Air
@@ -739,8 +710,7 @@ MV-105
 750 615 685 670 745
 1000 705 790 770 860
-Note: Refer to 311.60(E) for the basis of ampacities, 311.10(A) for conductor maximum operating temperature and application, and
+Note: Refer to 311.60(E) for the basis of ampacities, 311.10(A) for conductor maximum operating temperature and application, and 311.60(D)(4) for the ampacity correction factors where the ambient air temperature is other than 40°C (104°F).
 311.60(D)(4) for the ampacity correction factors where the ambient air temperature is other than 40°C (104°F).
 ##### Table 311.60(C)(72) Ampacities of an Insulated Three-Conductor Aluminum Cable Isolated in Air
@@ -778,8 +748,7 @@ MV-105
 750 495 550 540 600
 1000 585 650 635 705
-Note: Refer to 311.60(E) for the basis of ampacities, 311.10(A) for conductor maximum operating temperature and application, and
+Note: Refer to 311.60(E) for the basis of ampacities, 311.10(A) for conductor maximum operating temperature and application, and 311.60(D)(4) for the ampacity correction factors where the ambient air temperature is other than 40°C (104°F).
 311.60(D)(4) for the ampacity correction factors where the ambient air temperature is other than 40°C (104°F).
 ##### Table 311.60(C)(73) Ampacities of an Insulated Triplexed or Three Single-Conductor Copper Cables in Isolated Conduit in Air
@@ -837,8 +806,7 @@ MV-105
 750 600 665 585 655
 1000 690 770 675 755
-Note: Refer to 311.60(E) for the basis of ampacities, 311.10(A) for conductor maximum operating temperature and application, and
+Note: Refer to 311.60(E) for the basis of ampacities, 311.10(A) for conductor maximum operating temperature and application, and 311.60(D)(4) for the ampacity correction factors where the ambient air temperature is other than 40°C (104°F).
 311.60(D)(4) for the ampacity correction factors where the ambient air temperature is other than 40°C (104°F).
 ##### Table 311.60(C)(74) Ampacities of an Insulated Triplexed or Three Single-Conductor Aluminum Cables in Isolated Conduit in Air
@@ -873,8 +841,7 @@ MV-105
 750 490 545 485 540
 1000 580 645 565 640
-Note: Refer to 311.60(E) for the basis of ampacities, 311.10(A) for conductor maximum operating temperature and application, and
+Note: Refer to 311.60(E) for the basis of ampacities, 311.10(A) for conductor maximum operating temperature and application, and 311.60(D)(4) for the ampacity correction factors where the ambient air temperature is other than 40°C (104°F).
 311.60(D)(4) for the ampacity correction factors where the ambient air temperature is other than 40°C (104°F).
 ##### Table 311.60(C)(75) Ampacities of an Insulated Three-Conductor Copper Cable in Isolated Conduit in Air
@@ -930,8 +897,7 @@ MV-105
 750 525 585 570 635
 1000 590 660 650 725
-Note: Refer to 311.60(E) for the basis of ampacities, 311.10(A) for conductor maximum operating temperature and application, and
+Note: Refer to 311.60(E) for the basis of ampacities, 311.10(A) for conductor maximum operating temperature and application, and 311.60(D)(4) for the ampacity correction factors where the ambient air temperature is other than 40°C (104°F).
 311.60(D)(4) for the ampacity correction factors where the ambient air temperature is other than 40°C (104°F).
 ##### Table 311.60(C)(76) Ampacities of an Insulated Three-Conductor Aluminum Cable in Isolated Conduit in Air
@@ -991,9 +957,8 @@ MV-90
 MV-105
-One Circuit \[See Figure 311.60(D)(3),
+One Circuit \[See Figure 311.60(D)(3), Detail 1.\]
 Detail 1.\]
 8 64 69 — —
 6 85 92 90 97
 4 110 120 115 125
@@ -1009,9 +974,8 @@ Detail 1.\]
 750 585 630 565 610
 1000 670 720 640 690
-Three Circuits \[See Figure 311.60(D)(3),
+Three Circuits \[See Figure 311.60(D)(3), Detail 2.\]
 Detail 2.\]
 8 56 60 — —
 6 73 79 77 83
 4 95 100 99 105
@@ -1027,9 +991,7 @@ Detail 2.\]
 750 460 495 440 475
 1000 525 565 495 535
-Six Circuits \[See Figure 311.60(D)(3),
+Six Circuits \[See Figure 311.60(D)(3), Detail 3.\]
 Detail 3.\]
 Conductor
@@ -1085,9 +1047,7 @@ MV-90
 MV-105
-One Circuit \[See Figure 311.60(D)(3),
+One Circuit \[See Figure 311.60(D)(3), Detail 1.\]
 Detail 1.\]
 8 50 54 — —
 6 66 71 70 75
 4 86 93 91 98
@@ -1121,9 +1081,7 @@ MV-90
 MV-105
-Three Circuits \[See Figure 311.60(D)(3),
+Three Circuits \[See Figure 311.60(D)(3), Detail 2.\]
 Detail 2.\]
 8 44 47 — —
 6 57 61 60 65
 4 74 80 77 83
@@ -1139,9 +1097,7 @@ Detail 2.\]
 750 370 395 355 385
 1000 425 460 405 440
-Six Circuits \[See Figure 311.60(D)(3),
+Six Circuits \[See Figure 311.60(D)(3), Detail 3.\]
 Detail 3.\]
 8 38 41 — —
 6 48 52 50 54
 4 62 67 64 69
@@ -1197,9 +1153,7 @@ MV-90
 MV-105
-One Circuit \[See Figure 311.60(D)(3),
+One Circuit \[See Figure 311.60(D)(3), Detail 1.\]
 Detail 1.\]
 8 59 64 — —
 6 78 84 88 95
 4 100 110 115 125
@@ -1215,9 +1169,7 @@ Detail 1.\]
 750 530 570 545 585
 1000 600 645 615 660
-Three Circuits \[See Figure 311.60(D)(3),
+Three Circuits \[See Figure 311.60(D)(3), Detail 2.\]
 Detail 2.\]
 8 53 57 — —
 6 69 74 75 81
 4 89 96 97 105
@@ -1233,31 +1185,11 @@ Detail 2.\]
 750 430 465 430 465
 1000 485 520 485 515
-Six Circuits \[See Figure 311.60(D)(3),
+Six Circuits \[See Figure 311.60(D)(3), Detail 3.\]
 Detail 3.\]
 8 46 50 — —
 6 60 65 63 68
 4 77 83 81 87
 2 98 105 105 110
 Conductor
 Size
 (AWG or kcmil)
 Temperature Rating of Conductor
 2001–5000 Volts Ampacity 5001–35,000 Volts Ampacity
 90°C (194°F) Type MV90105°C
 (221°F) Type
 MV-105
 90°C (194°F) Type
 MV-90
 105°C (221°F) Type
 MV-105
 1 110 120 115 125
 1/0 125 135 130 145
 2/0 145 155 150 160
@@ -1309,28 +1241,8 @@ Detail 1.\]
 750 425 460 440 475
 1000 495 535 510 545
-Three Circuits \[See Figure 311.60(D)(3),
+Three Circuits \[See Figure 311.60(D)(3), Detail 2.\]
 Detail 2.\]
 8 41 44 — —
 Conductor
 Size
 (AWG or kcmil)
 Temperature Rating of Conductor
 2001–5000 Volts Ampacity 5001–35,000 Volts Ampacity
 90°C (194°F) Type MV90105°C
 (221°F) Type
 MV-105
 90°C (194°F) Type
 MV-90
 105°C (221°F) Type
 MV-105
 6 54 58 59 64
 4 70 75 75 81
 2 90 97 100 105
@@ -1385,8 +1297,7 @@ MV-90
 MV-105
-One Circuit, Three Conductors \[See Figure
+One Circuit, Three Conductors \[See Figure 311.60(D)(3), Detail 9.\]
 311.60(D)(3), Detail 9.\]
 Conductor
@@ -1420,8 +1331,7 @@ MV-105
 750 845 910 805 865
 1000 980 1055 930 1005
-Two Circuits, Six Conductors \[See Figure
+Two Circuits, Six Conductors \[See Figure 311.60(D)(3), Detail 10.\]
 311.60(D)(3), Detail 10.\]
 8 100 110 — —
 6 130 140 120 130
 4 165 180 160 170
@@ -1477,8 +1387,7 @@ MV-90
 MV-105
-One Circuit, Three Conductors \[See Figure
+One Circuit, Three Conductors \[See Figure 311.60(D)(3), Detail 9.\]
 311.60(D)(3), Detail 9.\]
 8 85 90 — —
 6 110 115 100 110
 4 140 150 130 140
@@ -1494,8 +1403,7 @@ One Circuit, Three Conductors \[See Figure
 750 665 720 635 680
 1000 780 840 740 795
-Two Circuits, Six Conductors \[See Figure
+Two Circuits, Six Conductors \[See Figure 311.60(D)(3), Detail 10.\]
 311.60(D)(3), Detail 10.\]
 8 80 85 — —
 6 100 110 95 100
 4 130 140 125 130
@@ -1555,9 +1463,7 @@ MV-90
 MV-105
-One Circuit \[See Figure 311.60(D)(3),
+One Circuit \[See Figure 311.60(D)(3), Detail 5.\]
 Detail 5.\]
 8 85 89 — —
 6 105 115 115 120
 4 135 150 145 155
@@ -1573,9 +1479,7 @@ Detail 5.\]
 750 650 700 665 720
 1000 730 785 750 810
-Two Circuits \[See Figure 311.60(D)(3),
+Two Circuits \[See Figure 311.60(D)(3), Detail 6.\]
 Detail 6.\]
 8 80 84 — —
 6 100 105 105 115
 4 130 140 135 145
@@ -1633,9 +1537,7 @@ MV-90
 MV-105
-One Circuit \[See Figure 311.60(D)(3),
+One Circuit \[See Figure 311.60(D)(3), Detail 5.\]
 Detail 5.\]
 8 65 70 — —
 6 80 88 90 95
 4 105 115 115 125
@@ -1651,9 +1553,7 @@ Detail 5.\]
 750 520 560 540 580
 1000 600 650 620 665
-Two Circuits \[See Figure 311.60(D)(3),
+Two Circuits \[See Figure 311.60(D)(3), Detail 6.\]
 Detail 6.\]
 8 60 66 — —
 6 75 83 80 95
 4 100 110 105 115
@@ -1708,8 +1608,7 @@ MV-90
 MV-105
-One Circuit, Three Conductors \[See Figure
+One Circuit, Three Conductors \[See Figure 311.60(D)(3), Detail 7.\]
 311.60(D)(3), Detail 7.\]
 8 90 95 — —
 6 120 130 115 120
 4 150 165 150 160
@@ -1725,8 +1624,7 @@ One Circuit, Three Conductors \[See Figure
 750 725 780 685 740
 1000 825 885 770 830
-Two Circuits, Six Conductors \[See Figure
+Two Circuits, Six Conductors \[See Figure 311.60(D)(3), Detail 8.\]
 311.60(D)(3), Detail 8.\]
 8 85 90 — —
 6 110 115 105 115
 4 140 150 140 150
@@ -1840,82 +1738,55 @@ Where the burial depth of direct burial or electrical duct bank circuits is modi
 ##### 311.60(D)(3) Electrical Ducts Entering Equipment Enclosures.
-At locations where electrical ducts enter equipment enclosures from underground, spacing between such ducts, as shown in Figure
+At locations where electrical ducts enter equipment enclosures from underground, spacing between such ducts, as shown in Figure 311.60(D)(3), shall be permitted to be reduced without requiring the ampacity of conductors therein to be reduced.
 311.60(D)(3), shall be permitted to be reduced without requiring the ampacity of conductors therein to be reduced.
-Figure 311.60(D)(3) Cable Installation Dimensions for Use with Table 311.60(C)(77) Through Table
+###### Figure 311.60(D)(3) Cable Installation Dimensions for Use with Table 311.60(C)(77) Through Table 311.60(C)(86).
 311.60(C)(86).
 ##### 311.60(D)(4) Ambient Temperature Correction.
 Ampacities for ambient temperatures other than those specified in the ampacity tables shall be corrected in accordance with Table
 311.60(D)(4) or shall be permitted to be calculated using the following equation:
 ###### Equation 311.60(D)(4)
 %% TODO %%
-I' =
+##### 311.60(D)(4) Ambient Temperature Correction.
-I =
+Ampacities for ambient temperatures other than those specified in the ampacity tables shall be corrected in accordance with Table 311.60(D)(4) or shall be permitted to be calculated using the following equation:
-T =
+###### Equation 311.60(D)(4)
-T ' =
+$$
 I^{\prime} = I \sqrt{\frac{ T_{c} -T_{a}^{\prime} }{ T_{c} - T_a }}
 $$
-T = where: ampacity corrected for ambient temperature ampacity shown in the table for T and T temperature rating of conductor (°C) new ambient temperature (°C) ambient temperature used in the table (°C)
+where:
 * $I\prime$ = ampacity corrected for ambient temperature
 * $I$ = ampacity shown in the tables
 * $T_{c}$ = temperature rating of conductor (°C)
 * $T_{a}^{\prime}$ = new ambient temperature (°C)
 * $T_a$ = ambient temperature used in the table (°C)
 ###### Table 311.60(D)(4) Ambient Temperature Correction Factors
 For ambient temperatures other than 40°C (104°F), multiply the allowable ampacities specified in the ampacity tables by the appropriate factor shown below.
-Ambient
+| Ambient Temperature °C (°F) | 90°C | 105°C |
-
+| --------------------------- | ---- | ----- |
-Temperature
+| 10 or less (50 or less)     | 1.26 | 1.21  |
-(°C)
+| 11–15 (51–59)               | 1.22 | 1.18  |
-
+| 16–20 (60–68)               | 1.18 | 1.14  |
-Temperature Rating of Conductor Ambient
+| 21–25 (69–77)               | 1.14 | 1.11  |
-
+| 26–30 (78–86)               | 1.10 | 1.07  |
-Temperature
+| 31–35 (87–95)               | 1.05 | 1.04  |
-(°F)
+| 36–40 (96–104)              | 1.00 | 1.00  | 
-90°C 105°C
+| 41–45 (105–113)             | 0.95 | 0.96  |
-10 or less 1.26 1.21 50 or less
+| 46–50 (114–122)             | 0.89 | 0.92  |
-11–15 1.22 1.18 51–59
+| 51–55 (123–131)             | 0.84 | 0.88  |
-16–20 1.18 1.14 60–68
+| 56–60 (132–140)             | 0.77 | 0.83  |
-21–25 1.14 1.11 69–77
+| 61–65 (141–149)             | 0.71 | 0.78  |
-26–30 1.10 1.07 78–86
+| 66–70 (150–158)             | 0.63 | 0.73  |
-31–35 1.05 1.04 87–95
+| 71–75 (159–167)             | 0.55 | 0.68  |
-36–40 1.00 1.00 96–104
+| 76–80 (168–176)             | 0.45 | 0.62  |
-41–45 0.95 0.96 105–113
+| 81–85 (177–185)             | 0.32 | 0.55  |
-46–50 0.89 0.92 114–122
+| 86–90 (186–194)             | —    | 0.48  |
-51–55 0.84 0.88 123–131
+| 91–95 (195–203)             | —    | 0.39  |
-56–60 0.77 0.83 132–140
+| 96–100 (204–212)            | —    | 0.28  |
 61–65 0.71 0.78 141–149
 66–70 0.63 0.73 150–158
 71–75 0.55 0.68 159–167
 76–80 0.45 0.62 168–176
 81–85 0.32 0.55 177–185
 86–90 — 0.48 186–194
 91–95 — 0.39 195–203
 96–100 — 0.28 204–212 c a c a a
 Ampacities for conductors and cables in underground electrical ducts and direct buried in earth shall be as specified in Table 311.60(C)
 * (77) through Table 311.60(C)(86). Ampacities shall be based on the following:
 * (1) Ambient earth temperature of 20°C (68°F)
 * (2) Arrangement in accordance with Figure 311.60(D)(3)
 * (3) 100 percent load factor
 * (4) Thermal resistance (Rho) of 90
 * (5) Conductor temperatures 90°C (194°F) and 105°C (221°F)
 * (6) Minimum burial depths to the top electrical ducts or cables shall be in accordance with 300.50.
 * (7) Maximum depth to the top of electrical duct banks shall be 750 mm (30 in.), and maximum depth to the top of direct-buried cables shall be 900 mm (36 in.).
 #### 311.60(E) Ampacity in Air.
@@ -1930,3 +1801,23 @@ Ampacities for conductors and cables in air shall be as specified in Table 311.6
 #### 311.60(F) Ampacity in Underground Electrical Ducts and Direct Buried in Earth.
 Ampacities for conductors and cables
 in underground electrical ducts and direct buried in earth
 shall be as specified in Table 311.60(C)(77) through Table 311.60(C)(86).
 Ampacities shall be based on the following:
 * (1) Ambient earth temperature of 20°C (68°F)
 * (2) Arrangement in accordance with Figure 311.60(D)(3)
 * (3) 100 percent load factor
 * (4) Thermal resistance (Rho) of 90
 * (5) Conductor temperatures 90°C (194°F) and 105°C (221°F)
 * (6) Minimum burial depths to the top electrical ducts or cables
    shall be in accordance with 300.50.
 * (7) Maximum depth to the top of electrical duct banks shall be 750 mm (30 in.),
    and maximum depth to the top of direct-buried cables shall be 900 mm (36 in.).
@@ -4,6 +4,7 @@ tags:
  - status/draft
  - type/guide
 title: Subfeeds
 up: "[[takeoff-scripts]]"
 ---
 # Subfeeds Takeoff
@@ -4,6 +4,7 @@ tags:
  - occupational/takeoff
  - status/draft
  - type/guide
 up: "[[takeoff-scripts]]"
 ---
 # Switchgear
@@ -1,11 +1,12 @@
 ---
 title: Telecom Takeoff
 tags:
  - occupational/takeoff
  - status/draft
  - type/guide
-title: Telecom
+up: "[[takeoff-scripts]]"
 ---
-# Telecom
+# Telecom Takeoff
 > [!info] Scope
 > * Telephone
@@ -4,6 +4,7 @@ tags:
  - occupational/takeoff
  - status/draft
  - type/guide
 up: "[[takeoff-scripts]]"
 ---
 # Temporary Power & Lighting Takeoff
@@ -1,13 +1,10 @@
 ---
-aliases:
+title: Two-Way Takeoff
  - 2-way-communication
  - area-of-rescue
  - two-way-communication
 tags:
  - occupational/takeoff
  - status/draft
  - type/guide
-title: Two-Way Takeoff
+up: "[[takeoff-scripts]]"
 ---
 # Two-Way Takeoff
@@ -4,6 +4,7 @@ tags:
  - occupational/takeoff
  - status/draft
  - type/guide
 up: "[[takeoff-scripts]]"
 ---
 # Unit Takeoff
@@ -1,5 +1,6 @@
 ---
 title: Vault Maintenance
-tags: []
+tags:
  - topic/meta
 ---
 # Vault Maintenance