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Report No.: EM201300471-1 Application No.:
ZJ00032008 Page 45 of 57
4.7 TRANSMITTER SPURIOUS EMISSIONS
4.7.1 LIMITS
Frequency range
Limit when operating
Limit when in standby
30 MHz to 1 GHz
-36 dBm
-57 dBm
above 1 GHz to 12,75 GHz
-30 dBm
-47 dBm
1,8 GHz to 1,9 GHz
5,15 GHz to 5,3 GHz
-47 dBm
-47 dBm
4.7.2 TEST PROCEDURE
EIRP emission test method as below
1. The EUT shall be performed at the highest power level at which the transmitter is
intended to operate.and Interface cables, loads, and devices should be connected to at
least one of each type of the interface ports of the EUT and, where practical, each
cable shall be terminated in a device typical for its actual use. EUT shall be placed at
the 1.5m support on the turntable.
least one of each type of the interface ports of the EUT and, where practical, each
cable shall be terminated in a device typical for its actual use. EUT shall be placed at
the 1.5m support on the turntable.
2. The test antenna at a horizontal distance of 3 m .It shall be raised and lowered from 1m
to 4m until a maximum signal level is detected by the measuring receiver. Then the
turntable should be rotated through 360° in the horizontal plane, until the maximum
signal level is detected by the measuring receiver. in both the vertical and the
horizontal polarization. Record the reading level, antenna position, polarization and
turntable position.
turntable should be rotated through 360° in the horizontal plane, until the maximum
signal level is detected by the measuring receiver. in both the vertical and the
horizontal polarization. Record the reading level, antenna position, polarization and
turntable position.
3. Remove the transmitter and replace it with a substitution antenna (the antenna should
be half-wavelength for each frequency involved). The center of the substitution
antenna should be approximately at the same location as the center of the transmitter.
For frequencies of 80 MHz and above, the dipoles should have their arm lengths set for
resonance at the frequency of test. Below 80 MHz, shortened arm lengths are
recommended. For measurements above 1 000 MHz, a waveguide horn is
recommended. The centre of this antenna should coincide with either the phase centre
or volume centre.
antenna should be approximately at the same location as the center of the transmitter.
For frequencies of 80 MHz and above, the dipoles should have their arm lengths set for
resonance at the frequency of test. Below 80 MHz, shortened arm lengths are
recommended. For measurements above 1 000 MHz, a waveguide horn is
recommended. The centre of this antenna should coincide with either the phase centre
or volume centre.
4. Feed the substitution antenna at the transmitter end with a signal generator connected
to the antenna by a cable. With the antennas at both ends vertically polarized, and with
the signal generator tuned to a particular test frequency, raise and lower the test
antenna to obtain a maximum reading at the spectrum analyzer. Adjust the level of the
signal generator output until the previously recorded maximum reading for this set of
conditions is obtained. This should be done carefully repeating the adjustment of the
test antenna and generator output.
the signal generator tuned to a particular test frequency, raise and lower the test
antenna to obtain a maximum reading at the spectrum analyzer. Adjust the level of the
signal generator output until the previously recorded maximum reading for this set of
conditions is obtained. This should be done carefully repeating the adjustment of the
test antenna and generator output.
EIRP(dBm) = Pg(dBm) – cable loss (dB) + antenna gain (dBd)
where:
Pg is the generator output power into the substitution antenna.
where:
Pg is the generator output power into the substitution antenna.
Pre-test the 3 modulation to find 8DPSK is worse case, so only record 8DPSK test data.
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