Section



[Code of Federal Regulations]
[Title 16, Volume 2]
[Revised as of January 1, 2003]
From the U.S. Government Printing Office via GPO Access
[CITE: 16CFR1204.4]

[Page 242-244]
 
                     TITLE 16--COMMERCIAL PRACTICES
 
             CHAPTER II--CONSUMER PRODUCT SAFETY COMMISSION
 
PART 1204--SAFETY STANDARD FOR OMNIDIRECTIONAL CITIZENS BAND BASE STATION ANTENNAS--Table of Contents
 
                         Subpart A--The Standard
 
Sec. 1204.4  Electric shock protection tests.

    (a) Safety precautions. For tests involving high voltage, the 
following recommended minimum safety precautions should be followed:
    (1) At least one test operator and one test observer (preferably one 
with cardiopulmonary resusitation (CPR) training) should be present at 
every test.
    (2) The test area (outdoors or indoors) should secure against 
accidental intrusion by other persons during tests.
    (3) Test areas located indoors should be ventilated to avoid buildup 
of potentially hazardous concentrations of gaseous byproducts which may 
result from the tests.
    (4) Fire extinguishers should be easily accessible in case materials 
on the test specimen ignite.
    (5) ``High Voltage Test'' warning devices should be activated before 
start of a test.
    (6) Emergency phone numbers should be posted.
    (b) Test conditions. (1) Specimens. All specimens shall be tested as 
supplied by the manufacturer, following assembly in accordance with the 
manufacturer's instructions except as provided in paragraph (e)(2) of 
this section.
    (2) Temperature. Ambient temperature shall be in the range from 32 
deg.F (0  deg.C) to 104  deg.F (40  deg.C)
    (3) Relative humidity. Ambient relative humidity shall be in the 
range of from 10 to 90 percent.
    (4) Voltage. Voltage, phase to ground, of the power line or test 
probe shall be 14.5 kilovolts rms, 60 hertz.
    (5) Conditioning. Prior to testing, all specimens shall be exposed 
for at least 4 hours to the ambient test area environment.
    (c) Test equipment. (1) High voltage source capable of delivering at 
least 15 mA rms at 14.5 kV rms, 60 Hz. The source should have an 
automatic internal cut-off actuated by a preset current level.
    (2) Instrumentation to measure the rms voltage applied to the 
antenna system.
    (3) Current monitoring device to indicate hazardous components of 
the total rms current flowing to ground through the mast. One 
configuration of the circuitry for the current monitoring device (shown 
in Figure 1) consists of three parallel branches as follows. One branch 
consists of a resistor in series with a true-rms milliammeter with a 
maximum error of 5% of the reading in the frequency range of 50Hz to 
10MHz (the total of the resistor and the internal resistance of the 
milliammeter is to be 1000 ohms). A parallel branch consists of a 1000 
ohm resistor in series with a 0.08 microfarad capacitor. Another 
parallel branch should consist of a spark gap rated at 50 to 100 volts 
as a meter protection device. A different current monitoring device may 
be used if the measured value of the rms current corresponds to that 
indicated by the configuration described above.
    (4) For the Insulating Material Effectiveness Test:

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    (i) High voltage electrode or test rod consisting of \1/4\ in. (6.4 
mm) diameter aluminum rod.
    (ii) Support jig, structure, or hanger made of insulating material 
which is capable of holding antenna system test specimens electrically 
isolated from all surrounding structures or ground.
    (5) For the Antenna-Mast System Test, a high voltage test facility, 
as shown in Figures 2 and 3, which includes a single power line spanning 
between two poles 95 to 105 feet (29 to 32 meters) apart, a tensioning 
device to adjust the cable sag to from 9 to 12 inches (23 to 30 cm), and 
a pivot fixture (Figure 2), for holding the base of an antenna-mast 
system, which can be moved horizontally to adjust the distance to the 
cable. The cable consists of \1/4\ in. diameter 7 by 19 galvanized steel 
aircraft cable. The low point of the cable shall be between 28 and 29 
feet (8.5 to 8.8 meters) above a horizontal plane through the pivot axis 
of the pivot fixture.
    (d) Insulating Material Effectiveness Test procedure. (1) A short 
piece of typical tubular mast shall be attached to the antenna system to 
be tested, in accordance with mounting instructions provided with the 
antenna system by the manufacturer.
    (2) If a feed cable is provided with the antenna system, it shall be 
used in the test. If no cable is provided with the antenna system, a RG-
213 cable shall be used in the test (Mil Spec. MIL-C-17/75C, 15 March 
1977). In either case, the cable shall be connected to the antenna 
system, installed parallel to the mast, and secured by taping or similar 
means at one point on the mast. The side of the bottom end of the cable 
also shall be secured to the mast.
    (3) With the antenna system properly supported and isolated from 
ground and with the current monitoring device connected to the mast, the 
test rod shall be connected to the high voltage source and brought into 
contact with the antenna system at any point within the protection zone 
(see Sec. 1204.2(k) of this subpart). For each contact point, the 
voltage shall be increased from 0 to 14.5 kV at a rate of at least 2 kV 
per second and held at 14.5 kV for 5.0 minutes. Current shall be 
monitored and the maximum recorded.
    (e) Antenna-Mast System Test procedure. (1) The antenna system to be 
tested shall be attached to a mast in accordance with mounting 
instructions provided by the manufacturer. The mast shall be assembled 
of commercially available 1\1/4\ inch outside diameter 16 gauge tubular 
steel sections, commonly sold for antenna-mast installations in 5 and 10 
feet lengths. The slip joints between the mast sections shall be secured 
(as with screws) to prohibit rotational or longitudinal movement at the 
joint. The length of the mast shall be such that when it is mounted in 
the pivot fixture of the high voltage test facility, the distance from 
the pivot to the uppermost point on the antenna system is 41.75 to 42.25 
feet (12.7 to 12.9 meters).
    (2) If a feed cable is provided with the antenna system, it shall be 
used in the test. If no cable is provided with the antenna system, a RG-
213 feed cable shall be used in the test for specification of an RG-213 
cable see (Mil. Spec. MIL-C-17/75C, 15 March 1977). In either case, the 
cable shall be connected to the antenna system, installed parallel to 
the mast, and secured by taping or similar means every two feet along 
the length of the mast. The side of the bottom end of the cable also 
shall be secured to the mast.
    (3) The antenna-mast system shall be mounted in the pivot fixture. 
The pivot fixture shall be adjusted so that the point of impact between 
the antenna and the power line takes place at any desired point within 
the antenna's protection zone. The antenna-mast system shall then be 
erected to a position of up to 5 deg. from the vertical, leaning toward 
the simulated power line (see Figure 4). The antenna-mast system shall 
then be released and allowed to fall against the power line. The test 
may be performed with different test positions such that the antenna 
system flexes after impact and slides off the power line and or so that 
it remains in contact with the power line for 5.0 minutes. Current flow 
from the antenna-mast system to ground shall be monitored and recorded 
for each test.
    (f) Interpretation of Results. An antenna shall pass the Insulating 
Material Effectiveness Test or the Antenna-Mast System Test if no 
electrical

[[Page 244]]

breakdown occurs and if no current reading exceeds 5 mA rms.