[Code of Federal Regulations]

[Title 30, Volume 1]

[Revised as of July 1, 2006]

From the U.S. Government Printing Office via GPO Access

[CITE: 30CFR18.68]



[Page 116-117]

 

                       TITLE 30--MINERAL RESOURCES

 

  CHAPTER I--MINE SAFETY AND HEALTH ADMINISTRATION, DEPARTMENT OF LABOR

 

PART 18_ELECTRIC MOTOR-DRIVEN MINE EQUIPMENT AND ACCESSORIES--Table of 

Contents

 

                     Subpart C_Inspections and Tests

 

Sec.  18.68  Tests for intrinsic safety.



    (a) General:

    (1) Tests for intrinsic safety will be conducted under the general 

concepts of ``intrinsically safe'' as defined in Subpart A of this part. 

Further tests or requirements may be added at any time if features of 

construction or use or both indicate them to be necessary. Some tests 

included in these requirements may be omitted on the basis of previous 

experience.

    (2) Intrinsically safe circuits and/or components will be subjected 

to tests consisting of making and breaking the intrinsically safe 

circuit under conditions judged to simulate the most hazardous probable 

faults or malfunctions. Tests will be made in the most easily ignitable 

mixture of methane or natural gas and air. The method of making and 

breaking the circuit may be varied to meet a particular condition.

    (3) Those components which affect intrinsic safety must meet the 

following requirements:

    (i) Current limiting components shall consist of two equivalent 

devices each of which singly will provide intrinsic safety. They shall 

not be operated at more than 50 percent of their ratings.

    (ii) Components of reliable construction shall be used and they 

shall be so mounted as to provide protection against shock and vibration 

in normal use.

    (iii) Semiconductors shall be amply sized. Rectifiers and 

transistors shall be operated at not more than two-thirds of their rated 

current and permissible peak inverse voltage. Zener diodes shall be 

operated at not more than one-half of their rated current and shall 

short under abnormal conditions.

    (iv) Electrolytic capacitors shall be operated at not more than two-

thirds of their rated voltage. They shall be designed to withstand a 

test voltage of 1,500 volts.

    (4) Intrinsically safe circuits shall be so designed that after 

failure of a single component, and subsequent failures resulting from 

this first failure, the circuit will remain intrinsically safe.

    (5) The circuit will be considered as intrinsically safe if in the 

course of testing no ignitions occur.

    (b) Complete intrinsically safe equipment powered by low energy 

batteries:



[[Page 117]]



    (1) Short-circuit tests shall be conducted on batteries at normal 

operating temperature. Tests may be made on batteries at elevated 

temperature if such tests are deemed necessary.

    (2) Resistance devices for limiting short-circuit current shall be 

an integral part of the battery, or installed as close to the battery 

terminal as practicable.

    (3) Transistors of battery-operated equipment may be subjected to 

thermal ``run-away'' tests to determine that they will not ignite an 

explosive atmosphere.

    (4) A minimum of 1,000 make-break sparks will be produced in each 

test for direct current circuits with consideration given to reversed 

polarity.

    (5) Tests on batteries shall include series and/or parallel 

combinations of twice the normal battery complement, and the effect of 

capacitance and inductance, added to that normally present in the 

circuit.

    (6) No ignition shall occur when approximately \1/2\-inch of a 

single wire strand representative of the wire used in the equipment or 

device is shorted across the intrinsically safe circuit.

    (7) Consideration shall be given to insure against accidental 

reversal of polarity.

    (c) Line-powered equipment and devices:

    (1) Line-powered equipment shall meet all applicable provisions 

specified for battery-powered equipment.

    (2) Nonintrinsically safe components supplying power for 

intrinsically safe circuits shall be housed in explosion-proof 

enclosures and be provided with energy limiting components in the 

enclosure.

    (3) Wiring for nonintrinsically safe circuits shall not be 

intermingled with wiring for intrinsically safe circuits.

    (4) Transformers that supply power for intrinsically safe circuits 

shall have the primary and secondary windings physically separated. They 

shall be designed to withstand a test voltage of 1,500 volts when rated 

125 volts or less and 2,500 volts when rated more than 125 volts.

    (5) The line voltage shall be increased to 120 percent of nominal 

rated voltage to cover power line voltage variations.

    (6) In investigations of alternating current circuits a minimum of 

5,000 make-break sparks will be produced in each test.

    (d) The design of intrinsically safe circuits shall preclude 

extraneous voltages caused by insufficient isolation or inductive 

coupling. The investigation shall determine the effect of ground faults 

where applicable.

    (e) Identification markings: Circuits and components of 

intrinsically safe equipment and devices shall be adequately identified 

by marking or labeling. Battery-powered equipment shall be marked to 

indicate the manufacturer, type designation, ratings, and size of 

batteries used.