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Health Care Facilities
 

 

Topic - NEC
Subject - Health Care Facilities

March 9, 2009
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Health Care Facilities

By Mike Holt – a short summary of the requirements contained in the Understanding the 2008 NEC, Volume 2 Textbook.

 

Article 517 is the Rx for your work in health care facilities.

Article 517 provides the requirements for those parts of health care facilities involving examination and treatment of patients. Article 517 covers both permanent and movable facilities.

Parts Summary

Health care facilities differ from other types of facilities in many important ways. Consequently, Article 517 contains many specialized definitions that apply only to health care facilities (see Sidebar). These constitute nearly all of Part I.

The requirements in Parts II and III are highly detailed. They aren’t intuitive or obvious. But if you understand the key concepts, you can understand and correctly apply these requirements.

Parts II and III have three primary objectives:

  • Maximize the physical and electromagnetic protection of wiring. How? By requiring metal wiring methods.
  • Minimize electrical hazards. How? By minimizing the voltage potential between patients and medical equipment. This involves many specific steps, beginning with 517.11.
  • Minimize the negative effects of power interruptions. How? With specific requirements for essential electrical systems.

The main objective of Part IV is to prevent ignition of gases where flammable anesthetics are used.

Part V addresses X-ray installations and has two main objectives:

  • Provide adequate ampacity and protection for the branch circuits.
  • Address the safety issues inherent in high-voltage equipment installations.

Please note that Article 660 (X-Ray Equipment) does not apply to X-Ray equipment used for medical purposes [660.1].Part VI provides requirements for low-voltage communications systems, such as fire alarms and intercoms. Its main objective is to prevent compromising those systems with sources of interference.

Part VII provides requirements for isolated power systems. Its main objective is to ensure they are isolated.

Application of requirements

The requirements contained in Part II of Article 517 don’t apply to [517.10]:

  • Business offices, corridors, waiting rooms, or similar areas in clinics, medical and dental offices, and outpatient facilities.
  • Areas of nursing homes and limited-care facilities used exclusively for patient sleeping.

Requirements that don’t apply to these areas include:

  • 517.13—Grounding and Bonding Requirements
  • 517.18(B)—Hospital Grade Receptacles
  • 517.18(D)—Emergency Wiring Methods

Wiring methods must comply with Chapters 1 through 4, except as modified in this Article [517.12].

Equipment grounding

You have to provide each branch circuit serving a patient care area with an effective ground-fault current path [517.13, as described in 250.2]. But how?

One way is to install those circuits in metal raceway. Alternatively, you can install those circuits in a cable having a metallic armor or sheath that qualifies as an equipment grounding conductor (EGC) per 250.118. Figure 517–1

  • The metal outer sheath of AC cable is listed as an EGC because it contains an internal bonding strip in direct contact with the metal sheath of the cable [250.118(8)]. Figure 517–2
  • The metal outer sheath of interlocked Type MC cable is not listed as an EGC unless it contains a bare aluminum conductor that makes direct contact with the metal sheath of the cable [250.118(10)(a)]. Type MCAP® cable meets this condition, but traditional Type MC cable does not. Figure 517–3

In patient care areas, connect the grounding* terminals of receptacles as well as any conductive surfaces of fixed electrical equipment to an insulated copper EGC [57.13(B)]. Size the circuit EGC per 250.122, and use a wiring method that meets the requirements of 517.13(A). Figure 517–4

Two exceptions exist:

  • You can connect the metal faceplates for switches and receptacles to the EGC by the metal mounting screws that secure the faceplate to a metal outlet box or metal mounting yoke of switches [404.9(B)] and receptacles [406.3(C)]. Figure 517–5
  • If luminaires are more than 7½ ft above the floor, you can connect them to the equipment grounding return path complying with 517.13(A), without connecting them to an insulated EGC.

Isolated ground receptacles

By definition, isolated ground receptacles have insulated grounding (IG) terminals. If you install An IG receptacle in a patient care area, it must have an insulated EGC that meets the requirements of 517.13(B). Install this EGC in a metal raceway or listed metal cable that meets the requirements of 517.13(A). IG receptacles should be avoided if at all possible, because they circumvent the concept of having two equipment grounding conductors for all equipment in the patient care area [517.16 FPN].

The requirements for supplying an IG receptacle are location-dependent:

  • Patient care areas. Use EMT, Type AC cable, or Type MCAP® cable where the metallic armor or sheath qualifies as an EGC per with 250.118(10)(a). Figure 517–6
  • Nonpatient care areas. Use Type AC cable containing a single insulated EGC, traditional Type MC cable (where the metallic armor or sheath does not qualify as an EGC) with two EGCs, or Type MCAP with a single insulated EGC [250.118(8)]. Figure 517–7

Hospital grade receptacles

Receptacles for inpatient sleeping beds or procedure table beds used in a critical care area (patient bed location - 517.2) must be listed as “hospital grade” [517.18(B)] Figure 517–8

These aren’t required in treatment rooms of clinics, medical and dental offices, or outpatient facilities because these locations don’t have a “patient bed location” as defined in 517.2. Figure 517−9

Essential electrical systems for hospitals

Emergency system circuits in hospitals must be mechanically protected by one of the following methods [517.30(C)(3)]:

  • Nonflexible metal raceways or Schedule 80 PVC conduit, where not used to supply patient care area branch circuits [517.13(A)].
  • Schedule 40 PVC conduit or flexible nonmetallic raceways encased in not less than 2 in. of concrete, where not used to supply patient care area branch circuits [517.13(A)].
  • Listed flexible metal raceways or listed metal-sheathed cables when:

(a) Installed in listed prefabricated medical headwalls.

(b) Installed in listed office furnishings.

(c) Fished into existing walls or ceilings, and not subject to physical damage.

(d) Necessary for flexible connection to equipment.

  • Flexible power cords of appliances or other utilization equipment in raceways, if the equipment is connected to the emergency system
  • Secondary circuits of Class 2 or Class 3 communications or signaling circuits, with or without raceways.

You don’t have to enclose the secondary circuits of transformer-powered communications or signaling systems in raceways, unless otherwise required in Chapter 7 or 8 [517.80].

Prescription for success

As you apply Article 517, keep in mind the special requirements of health care facilities and why these requirements exist. For example, there’s a lot of sophisticated equipment and a malfunction of this equipment can result in tragedy.

You’ll also notice room after room of patients. In many of these rooms, patients’ lives hang in the balance because they depend on that sophisticated equipment. Consequently, a power interruption could still cause tragedy, and we don’t want electrocution or fire, either.

These considerations are behind the thinking of Code Making Panel 15, which developed the requirements contained in Article 517. Put these considerations behind your thinking when applying those requirements.

Article 517 Definitions.

The full glossary is in 517.2. Here’s a summary.

Health Care Facilities. Buildings or portions of buildings in which medical, dental, psychiatric, nursing, obstetrical, or surgical care is provided. Health care facilities include hospitals, nursing homes, limited-care facilities, supervisory care facilities, clinics, medical and dental offices, and ambulatory care facilities.

Hospital. An area (of a building) used for medical, psychiatric, obstetrical, or surgical care on a 24-hour basis of four or more inpatients.

Limited-Care Facility. An area of a building for housing (on a 24-hour basis) four or more persons who are incapable of self-preservation.

Nursing Home. An area (of a building) for the lodging, boarding, and nursing care (on a 24-hour basis) of four or more persons who may be unable to provide for their own needs and safety without assistance. This includes nursing and convalescent homes, skilled nursing facilities, intermediate care facilities, and infirmaries of homes for the aged.

Patient Bed Location. The location of an inpatient sleeping bed; or the bed or procedure table used in a critical care area.

Patient Care Area. The area (in a health care facility) designated for examining or treating patients. Business offices, corridors, lounges, day rooms, dining rooms, or similar areas aren’t classified as patient care areas. Areas where patient care is administered are classified as general care areas or critical care areas.

General Care Areas. Patient bedrooms, examining rooms, treatment rooms, clinics, and similar areas where patients come in contact with ordinary appliances.

Critical Care Areas. Special care units where patients are subjected to invasive procedures and are connected to electromedical devices. These areas include intensive care units, coronary care units, delivery rooms, and operating rooms.

 

To purchase Mike Holt’s Understanding the 2008 NEC, Volume 2 textbook, please click here, or call our office at 888-632-2633 for more information.

 

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Comments
  • Hi, i have been reading all your stuff and it's so great, i think that it's a powerfull tool for us.

    My best regards and keep working

    Juan Manuel Escobar
    Reply to this comment

  • Some hospitals are no longer using Line Isolation Panels (LIMS) in ICUs. The thinking is, there are no longer any flammable anaesthetics (these have been outlawed for years) , it is not a wet location, therefore the LIM does not provide any benefit. Grounding and Bonding are what protects the patient from microshock. Any opinions?

    LIMs and ICU's
    Reply to this comment

  • I have done medicaol facility wiring, but I joined the aluminum bonding strips of the type AC cable to the copper equipment grounds using silicon carbide abrasive paper, elbow grease, electrical grease, and classic scotchloks as extensively tested by Dr. Jesse Aronstein as an alternative to the Copalum method. Copalum does not work on 18 gauge aluminum anyways. The newer cables that have a #10 or larger bare aluminum conductor should have that aluminum conductor bonded to the box independently of the box connectors.

    I also insist on my jobs on using antishort bushings with type MC cable just to be extra safe. I have seen what happens to type AC cable when antishort bushings are NOT used. A ground fault in a system that has steel armor type AC or MC cable using the sheath and 18 gauge bonding strip as the only equipment ground heats the heck out of the steel sheath.

    I prefer to do my wiring a little bit better than Code requires such as fastening cables and conduits a liitle bit more often than required.

    Mom's first husband is a retired nurse anesthetist and he says that at the hospitals where he worked they had 1 operating room equipped for flammable anesthetics such as cyclopropane or diethyl ether. The issue is that every once in a while there is a patient who is allergic or otherwise sensitive to isofluorane or halothane. If there are a lot of hospitals in town then perhaps only 1/2 of them are equipped for flammable anesthetics.

    Diethyl ether also has a high degree of medical safety as long as sources of ignition are kept away. It actually takes quite a bit of it to transquilize a cat that does not want to ago to the vet. The expression on her face was, "Where are you taking me." That amount wore off very quickly, but the real reason for no longer using diethyl ether was that the amount needed for abdominal surgery in humans caused the patient to take 2 to 4 days to wake up and the insurance companies stopped paying for that.

    The reason why halothane was replaced with isofluorane for most surgeries is that halothane was damaging the livers of doctors and nurses even though a closed anesthesia system was used and not because of potential ozone depletion. Halothane is still used in a fewer instances where surgery creates enough pain that isofluorane is not good enough for the job.

    Michael R. Cole
    Reply to this comment


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