CSP 6 Lesson 1-8

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L4Q13: A 3-phase, 750-kVA, 5.75% impedance transformer in an unsupervised location, with a primary voltage of 4,160 volts and a secondary voltage of 480 volts, would have a secondary circuit breaker sized at a maximum of ? .

1,200 A Sec FLC = 903 A Sec circuit breaker = 903.18 × 1.25 = 1,128.98 A 1,200-ampere circuit breaker is the next higher standard size per Table 450.3(A) Note 1 and 240.6(A)

L5Q1: NEC ? covers interrupting rating requirements for equipment.

110.9

L3Q8: The minimum ampacity rating and size of the copper THW branch-circuit conductors for a 3-phase, 125-horsepower, 460-volt squirrel cage induction motor is ? and a ? conductor. The terminals are rated 75°C.

195 A / 3/0 AWG Table 430.250

L3Q5: When determining the conductor ampacity and motor branch-circuit short-circuit and ground-fault protective device ampere rating, ? is the full-load current used for the calculation for a 7 1/2-horsepower, 3-phase, 208-volt induction-type squirrel cage motor.

24.2 A Table 430.250

L5Q2: Identify the NEC section where the following provision is located: A circuit breaker is used on a circuit having an available fault current higher than its marked interrupting rating by being connected on the load side of an acceptable overcurrent protective device having a higher rating. In this section, the circuit breaker shall meet the requirements specified in (A) or (B), and (C).

240.86

L4Q21: A 600-volt or less transformer equipped with coordinated thermal overload protection by the manufacturer and arranged to interrupt the primary current shall be permitted to have primary overcurrent protection rated or set at a current value that is not more than ? times the rated current of the transformer for transformers having not more than 6% impedance and not more than ? times the rated current of the transformer for transformers having more than 6% but not more than 10% impedance.A

6 / 4 Note: See Table 450.3(B) Note 3.

L3Q7: The minimum size copper THW conductor for branch-circuit conductors supplying a 10-horsepower, 230-volt, single-phase AC motor is ? . The terminals are rated at 75°C.

6 AWG Table 310.16

L3Q13: For a part-winding connected motor, the ampacity of the branch-circuit conductors on the line side of the controller shall not be less than 125% of the motor full-load current as determined by 430.6(A)(1). The ampacity of the conductors between the controller and the motor shall not be less than ? of the motor full-load current rating as determined by 430.6(A)(1).

62.5% 430.22(D) Note: The multiplier of 62.5% is obtained by multiplying 50% by 1.25.

L4Q2: Article 450 covers the installation of transformers dedicated to supplying power to a fire pump installation as modified by Article ? .

695 450.1

L4Q12: A 3-phase, 750-kVA, 5.75% impedance transformer in an unsupervised location, with a primary voltage of 4,160 volts and a secondary voltage of 480 volts, could have a primary circuit breaker sized at a maximum of ? .

700 A Pri FLC = 104.21A Pri circuit breaker = 104.21 × 6.0 = 625.26A This assumes that a 700-ampere circuit breaker is the next higher commercially available size per Table 450.3(A) Note 1

L3Q4: For a wye-start, delta-run connected motor, the ampacity of the branch-circuit conductors on the line side of the controller shall not be less than 125% of the motor full-load current as determined by 430.6(A)(1). The ampacity of the conductors between the controller and the motor shall not be less than ? of the motor full-load current rating as determined by 430.6(A)(1).

72% 430.22(C)

L1Q10: The voltage rating of the OCPD must be equal to but never greater than the circuit voltage.

False

L1Q11: A 600-volt AC fuse or circuit breaker is considered to have a 600-volt DC rating, even if it is not marked with a DC voltage rating.

False

L1Q16: For motor branch-circuit applications, the motor branch-circuit short-circuit and ground-fault protective device can be located anywhere on the motor branch circuit since fault currents stay within the normal conducting path.

False

L1Q23: NEC 240.10 permits a supplementary fuse to be used where a branch-circuit OCPD is required.

False

L2Q9: A motor switch listed to UL 508 can be used as the motor branch-circuit disconnect.

False

L1Q12: A 480/277-volt, 3-pole circuit breaker can be applied on a 480-volt corner-grounded delta.

False 240.85

L1Q14: Only standard ampere rated fuses and circuit breakers found in 240.6 are permitted to be used in services, feeders, and branch circuits.

False Note: NEC 240.6(A) permits the use of nonstandard ampere ratings.

L1Q13: Branch-circuit fuses do not have to be marked with their ampere rating.

False Note: NEC 240.60(C) requires fuses to be marked with their ampere rating, and 240.83(A) requires circuit breakers to be marked with their ampere rating.

L4Q8: When determining the overcurrent protection requirements for transformers in a circuit, other requirements from Article(s) ? may also need to be investigated.

I. 230 II. 240 III. 408

L4Q24: For transformers covered by the scope of Article 450, the nameplate must provide which of the following that are vital information for calculating the available fault current on the transformer secondary?

I. Impedance of transformers 25 kVA and larger II. kVA III. Primary and secondary voltage

L3Q20: Part ? of Article 430 covers the requirements for the motor disconnecting means.

IX

L3Q27: Determine the maximum overload protection trip or rating for a 3-phase, 75-horsepower, 240-volt squirrel cage motor with a nameplate current of 188 amperes, a temperature rise of 40°C, and a marked service factor of 1.15 when starting current is not a problem.

Max. overload protection for marked service factor of 1.15 or marked temperature rise of 40°C is 125% of the nameplate rating per 430.32(A)(1). Overload protection = 188 × 1.25 = 235 A

L1Q19: Which statement about supplementary protectors is not correct?

They are suitable for branch-circuit protection

L1Q20: Molded case circuit breakers (MCCBs) are the most prevalent circuit breakers in use for 15 amperes to 2,500 amperes.

True

L4Q23: The transformer primary overcurrent protective device supplying a fire pump must be rated to carry the sum of the locked-rotor current of the fire and pressure pump motors plus the full-load current of the accessory equipment.

True

L4Q3: Overcurrent protective devices on a transformer primary may require increased sizing due to the magnetizing inrush current.

True

L4Q6: The two tables of concern for transformer protection are Table 450.3(A) for transformers over 1,000 volts, nominal and Table 450.3(B) for transformers 1,000 volts or less.

True

L5Q3: A fully rated system is one in which all of the overcurrent protective devices have an individual interrupting rating at least as great as the available fault current at their point of application.

True

L3Q31: Size the copper THW conductors needed to feed one 25-horsepower, 480-volt, 3-phase motor-compressor with a rated load current of 42 amperes and a branch-circuit selection current (BCSC) of 45 amperes when starting current is not a problem. The terminals are rated 75°C.

Use the BCSC per 440.32 Conductor ampacity = BCSC × 125% = 45 × 1.25 = 56.25 A Table 310.16 requires 6 AWG conductors

L3Q19: Part ? of Article 430 covers the requirements for motor controllers.

VII

L2Q2: Which of the following is a motor circuit function discussed in this lesson?

a. "At the motor" or "in sight from the motor" disconnect b. Motor branch-circuit and controller disconnect c. Motor controller

L3Q18: Each motor used in a continuous-duty application and rated more than one horsepower is required to be protected against overload. Which of the following is permitted to protect such motors from overload?

a. A thermal protector integral with the motor, approved for use with the motor it protects on the basis that it will prevent dangerous overheating of the motor due to overload and failure to start b. A protective device integral with a motor that will protect the motor against damage due to failure to start if the motor is part of an approved assembly that does not normally subject the motor to overloads Note: See 430.32(A)(2) and 430.32(A)(3).

L3Q1: The values given in Table 430.247, Table 430.248, Table 430.249, and Table 430.250 are generally used to determine which of the following for motor branch circuits?

a. Ampacity of conductors b. Branch-circuit short-circuit and ground-fault protection 430.6(A)(1)

L2Q13: Magnetic motor starters listed to UL 508 are suitable for use ? .

b. as motor controllers c. as motor overload protection

L1Q17: Molded case circuit breakers, insulated case circuit breakers, and low-voltage power circuit breakers are ? .

branch-circuit overcurrent protective devices

L3Q2: Separate motor overload protection shall be based upon the motor nameplate ? rating.

current 430.6(A)(2)

L1Q7: A ? overcurrent protective device is one that clears a fault current in one half cycle or less and reduces the amount of fault current let-through.

current-limiting

L1Q3: Fault current ? the normal conducting path.

flows outside

L3Q11: Where the value for a branch-circuit short-circuit and ground-fault protective device determined by Table 430.52 for a dual-element fuse or inverse time circuit breaker does not correspond to a standard ampere rating, a ? ampere rating or setting that does not exceed the next higher standard ampere rating shall be permitted.

higher 430.52(C)(1)

L1Q4: Because of the ? impedance path, a 3-phase bolted short-circuit condition is typically assumed to be the highest level of fault current.

low

L1Q1: Fuses and circuit breakers are intended to protect conductors and equipment from the effects of potentially harmful ? .

overcurrents

L3Q6: The minimum ampacity for branch-circuit conductors supplying a 75-horsepower, 3-phase, induction-type squirrel cage motor that operates at 460 volts is ? .

120 A

L3Q15: A separate motor overload device for a continuous-duty motor more than one horsepower with a 1.15 service factor must be selected to trip or be rated at no more than ? of the motor nameplate full-load current rating. Assume the motor starts and runs continuously without nuisance tripping for this selection.

125%

L3Q3: Conductors that supply a single motor used in a continuous-duty application shall have an ampacity of not less than ? of the motor full-load current rating, as determined by 430.6(A)(1), or not less than specified in 430.22(A) through (G).

125% 430.22

L4Q20: For a transformer 1,000 volts or less, with a secondary current of five amperes, the secondary overcurrent protective device could be sized up to ? of the transformer-rated current where both primary and secondary protection is provided.

167% Table 450.3(B)

L3Q29: The motor-compressor branch-circuit short-circuit and ground-fault protective device shall be capable of carrying the starting current of the motor. A protective device having a rating or setting not exceeding 175% of the motor-compressor rated load current or branch-circuit selection current, whichever is greater, shall be permitted, provided that where the protection specified is not sufficient for the starting current of the motor, the rating or setting shall be permitted to be increased, but shall not exceed ? of the motor rated load current or branch-circuit selection current, whichever is greater.

225% 440.22(A) Note: Review the Exception to 440.22(A) indicating that the rating of the branch circuit short-circuit and ground-fault protective device shall not be required to be less than 15 amperes.

L3Q10: Determine the maximum standard size rating of the motor branch-circuit short-circuit and ground-fault protective device for a five-horsepower, 208-volt, 3-phase, squirrel cage induction motor using dual-element fuses when starting current of the motor is not an issue.

30 A 240.6(A)

L4Q15: Overcurrent protection for panelboards supplied through a transformer 1000 volts, nominal, or less is specifically addressed in ? .

Article 408, Part III 408.36(B)

L1Q5: Which one of the following statements is NOT correct per the Article 100 definition of branch-circuit overcurrent protective device?

Branch-circuit overcurrent protective devices must be listed in combination with the specific devices they are intended to protect.

L1Q6: Supplementary overcurrent protective devices are permitted to be used as a substitute for a branch-circuit OCPD or where a branch-circuit OCPD is required (per 240.10).

False

L2Q11: A mini-circuit breaker (UL 1077 supplemental protector) or supplemental fuses are suitable for use as motor branch-circuit short-circuit and ground-fault protection.

False

L2Q12: A motor is located 100 feet from the motor control center that houses the motor branch-circuit disconnect. An instantaneous-trip circuit breaker can be used for the "within-sight" motor disconnect. This would entail the instantaneous-trip circuit breaker being installed alone in a separate enclosure.

False

L2Q16: Since the 1971 edition of the NEC, 3-phase motors only need two phases protected with properly sized overload protection.

False

L4Q7: When increased sizing of the overcurrent protective device is utilized on the secondary side of a transformer, overcurrent protection on the primary side, sized closer to the load, is typically required.

False

L4Q9: The maximum rating or setting of overcurrent protection for transformers under 1,000 volts per 450.3 is different for circuit breakers compared to fuses.

False

L1Q15: When the conductor ampacity does not correspond to a standard OCPD ampere rating, the next standard OCPD ampere rating is permitted if that rating does not exceed 800 amperes, and if the conductors are not supplying a circuit with more than one receptacle for cord-and-plug portable loads.

True

L4Q19: For transformers 1,000 volts or less, the secondary overcurrent protection device can be split into up to six devices, provided the sum of the ampere ratings does not exceed that permitted if it were only a single secondary overcurrent protective device and the conditions of Article 240 and Article 408 are satisfied.

True Note: Review Note 2 to Table 450.3(B).

L1Q22: Which fuse type is not a branch-circuit OCPD?

UL-recognized high-speed fuse

L3Q32: Size the overcurrent protective device needed to feed one 25-horsepower, 480-volt, 3-phase motor-compressor with a rated load current of 42 amperes and a branch-circuit selection current (BCSC) of 45 amperes when starting current is not a problem.

Use BCSC per 440.22(A) for OCPD size. OCPD ampacity = BCSC × 175% = 45 × 1.75 = 78.75 A ANSWER = 70 Time-delay fuses or inverse-time circuit breakers must be rated no more than 70 amperes, which is the next smaller standard size per 240.6(A).

L2Q3: Overcurrent protection for motor circuits is segmented into which of the following?

a. Motor branch-circuit short-circuit and ground-fault protection c. Motor and branch-circuit overload protection

L4Q18: A transformer utilizing primary and secondary protection with a primary current of 100 amperes at 480 volts and a secondary current of 200 amperes at 240 volts would have the primary overcurrent protection sized at a maximum of ? and the secondary overcurrent protection sized at a maximum of ? .

250 A / 250 A Table 450.3(B)

L4Q16: For a 7% impedance transformer over 1,000 volts in a supervised location and without coordinated thermal overload protection, a primary fuse could be sized up to ? (or the next commercially available ampere rating) without secondary protection.

250% Note: This would be from the "any" impedance row of the Table 450.3(A) where secondary protection is not required with 250% fuse protection on the primary. Note that Note 5 also addresses where secondary protection can be omitted.

L3Q12: Determine the maximum rating of the motor branch-circuit short-circuit and ground-fault protective device when starting current is a problem for a three-horsepower, 230-volt, single-phase capacitor motor using time-delay fuses.

35 A 240.6(A) Table 430.248 = 17 amperes 430.52 (C)(1) Ex. No. 2 = 225% 17 A × 2.25 = 38.3 A (next smaller standard size is the largest permitted) 240.6(A) = 35 ampere OCPD is next lowest standard size

L4Q14: A 3-phase, 750-kVA, 5.75% impedance transformer in an unsupervised location, with a primary voltage of 4,160 volts and a secondary voltage of 480 volts, could have a maximum primary fuse size of ? .

350 A Note: The fuse rating is 300%, compared to 600% for a circuit breaker. This assumes 350 amperes is the next higher commercially available size fuse above the calculated value, which is permitted per Table 450.3(A) Note 1.

L3Q21: NEC ? covers the requirements for the motor controller disconnecting means.

430.102(A)

L3Q22: The type of motor disconnecting means is covered by NEC ? .

430.109

L3Q23: A horsepower-rated switch or circuit breaker is permitted as both the motor controller and disconnecting means in accordance with NEC ? .

430.111

L3Q24: The requirements for motor-circuit overcurrent protection for motors over 1,000 volts are covered in what section of Article 430?

430.225

L3Q17: Overload protection for continuous-duty motors one horsepower or less, automatically started, is covered by NEC ? .

430.32(B)

L1Q18: MCPs are recognized devices (not listed) and are permitted by ? to provide motor branch-circuit short-circuit and ground-fault protection, if used as part of a listed combination with a starter.

430.52(C)(3)

L3Q28: Which NEC article applies to electric motor-driven air-conditioning and refrigerating equipment and to the branch circuits and controllers for such equipment?

440

L4Q5: What section of Article 450 details the basic ampere rating sizing requirements for overcurrent protection of transformers?

450.3

L4Q17: Overcurrent protection for motor control circuits that protect control circuit transformers where the control circuit transformer primary is rated less than 2 amperes shall be permitted in the primary circuit where an overcurrent device is rated or set at not more than ? of the rated primary current.

500% 430.72(C)(4)

L3Q30: Branch-circuit conductors supplying a single motor compressor shall have an ampacity not less than 125% of either the motor-compressor rated load current or the branch-circuit selection current, whichever is greater. For a wye-start, delta-run connected motor-compressor, the selection of branch-circuit conductors between the controller and the motor-compressor shall be permitted to be based upon ? of either the motor-compressor rated-load current or the branch-circuit selection current, whichever is greater.

72% 440.32

L4Q1: The scope of Article 450 indicates that this article covers the installation of all transformers. There are ? exceptions that modify this Article 450 scope statement.

8

L1Q25: The internal parts of fuses require maintenance.

False

L2Q4: A disconnecting means "in sight from the motor" is intended and used only as an emergency disconnecting means.

False Note: A disconnecting means "in sight from the motor" is used for isolating the motor circuit for maintenance and serves as an emergency disconnecting means.

L2Q1: Which of the following characteristics of motor branch circuits make them unique branch circuits?

I. Circuit components such as starters, overload heaters, and contactors that have low short-circuit withstands or SCCRs II. Higher probability to incur short-circuit conditions III. The desire for various levels of functionality, such as remote push-button control and automatic control IV. The harsh demand of motor loads, such as inrush and locked rotor currents V. The multitude of potential devices that may be used in motor circuits

L3Q25: Determine the branch-circuit conductor size (copper, THW) needed for a 3-phase, 75-horsepower, 240-volt squirrel cage motor with a nameplate current of 188 amperes, a temperature rise of 40°C, and a marked service factor of 1.15 when starting current is not a problem. The terminals are rated 75°C.

Table 430.250 shows full-load current to be 192 amperes for the 75-horsepower motor. Conductor ampacity = Table amperes × 125% = 192 × 1.25 = 240 A Table 310.16 requires 250 kcmil conductors

L3Q26: Determine the maximum rating of time-delay fuses needed for a 3-phase, 75-horsepower, 240-volt squirrel cage motor with a nameplate current of 188 amperes, a temperature rise of 40°C, and a marked service factor of 1.15 when starting current is not a problem. Assume the motor will start with this selection.

Table 430.250 shows full-load current to be 192 amperes for the 75-horsepower motor. Max. time-delay fuse size = Table amperes × 175% = 192 × 1.75 = 336 A 430.52(C)(1) Ex. No. 1 allows the next higher standard rating. Max. Fuse size = 350 A

L1Q21: A circuit breaker with an arc reduction maintenance switch (ARMS) provides an option where lower arc flash hazard levels can be achieved when it is necessary to do energized work.

True

L1Q24: Each class of current-limiting fuse has its own unique physical dimensions so that fuses of a different class are not interchangeable. For instance, Class R fuses cannot be installed in Class J fuse equipment.

True

L1Q2: Overload current is confined to the normal conductive path provided by the conductors, circuit devices, and loads of the distribution system.

True

L1Q8: When fault current is within the current-limiting range of a current-limiting OCPD, the thermal energy and magnetic (mechanical) forces can be greatly reduced. The levels of both thermal energy and magnetic forces are proportional to the square of the fault current that flows.

True

L1Q9: A 600-volt or less branch-circuit OCPD can be identified as being current limiting by being marked "current limiting."

True

L2Q10: A motor branch-circuit disconnect listed to UL 98 or UL 489 can be used as a within sight of the motor disconnect.

True

L2Q14: For a motor branch circuit where the motor is within 50 feet and within sight of the branch-circuit disconnect, branch-circuit fuses (if properly sized) in conjunction with a UL 98 disconnect can be suitable for these four functions: motor branch-circuit disconnect, motor branch-circuit short-circuit and ground-fault protection, motor controller, and within-sight motor disconnect.

True

L2Q15: Generally, a fully-loaded 3-phase motor protected by three properly sized overload protective devices will be protected against single-phasing.

True

L2Q5: Motor controllers serve as the motor ON/OFF function.

True

L2Q6: Motor current devices, other than supplemental protectors, are permitted to perform more than one motor circuit function.

True

L2Q7: Section 110.3 provides criteria and considerations for the evaluation of equipment and recognizes listing or labeling as a means of establishing suitability.

True

L2Q8: Listed or labeled equipment must be installed and used in accordance with any instructions included in the listing or labeling.

True

L3Q14: Each motor used in a continuous-duty application and rated more than one horsepower is required to be protected against overload. A separate overload device that is responsive to motor current is one of four options permitted to protect against overload.

True

L4Q10: Table 450.3(A) provides provisions for both "any location" and "supervised locations only."

True

L4Q11: For the purposes of the application of Table 450.3(A), a "supervised location" is a location where conditions of maintenance and supervision ensure that only qualified persons monitor and service the transformer installation.

True

L4Q22: A transformer supplying a fire pump is not permitted to have secondary overcurrent protection.

True

L4Q4: Primary inrush current characteristics can vary by transformer design.

True

L3Q9: The motor branch-circuit short-circuit and ground-fault protective device shall be capable of carrying the starting current of the motor.

True 430.52(B)

L3Q16: Motor branch-circuit short-circuit and ground-fault protection and motor overload protection shall be permitted to be combined in a single protective device where the rating or setting of the device provides the overload protection specified in 430.32.

True 430.55


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