Measurement Report
Kent
Measurement Report
STR201229002011E-NFC RADIO TEST REPORT
ETSI EN 300 330 V2.1.1 (2017-02)
Product Mobile Phone Trade Mark Blackview Model Name BV6600 Fmaily Model N/A Report No. STR201229002011E
Prepared for
DOKE COMMUNICATION (HK) LIMITED. RM 1902 EASEY COMM BLDG 253-261 HENNESSY ROAD WANCHAI HK
CHINA
Prepared by
Shenzhen NTEK Testing Technology Co., Ltd. 1/F, Building E, Fenda Science Park, Sanwei Community,Xixiang Street
Bao'an District, Shenzhen 518126 P.R. China Tel. 400-800-6106, 0755-3699 5508 Website: http://www.ntek.org.cn
�Page 2 of 28
Report No.: STR201229002011E
TEST RESULT CERTIFICATION
Applicant's name ................. : DOKE COMMUNICATION (HK) LIMITED Address ................................. : RM 1902 EASEY COMM BLDG 253-261 HENNESSY ROAD
WANCHAI HK CHINA Manufacturer's Name .......... : Shenzhen DOKE Electronic Co.,Ltd Address ................................. : Room 801, Building 3, 7th Industrial Zone, Yulv Community,
Yutang Street, Guangming District, Shenzhen,China Product description Product name ........................... : Mobile Phone Trademark ............................ : Blackview
Model Name ......................... : BV6600
Fmaily Model
N/A
Rating(s) ................................. DC 3.85V from battery or DC 5V from Adapter
Standards ............................. : ETSI EN 300 330 V2.1.1 (2017-02)
This device described above has been tested by NTEK, and the test results show that the equipment under test (EUT) is in compliance with the of article 3.1(b) of the Directive 2014/53/EU requirements. And it is applicable only to the tested sample identified in the report. This report shall not be reproduced except in full, without the written approval of NTEK, this document may be altered or revised by NTEK, personnel only, and shall be noted in the revision of the document. Date of Test ............................................:
Date (s) of performance of tests .............2: 9 Dec. 2020 ~ 19 Jan. 2021 Date of Issue...........................................1: 9 Jan. 2021 Test Result...............................................P: ass
Testing Engineer : Technical Manager : Authorized Signatory :
(Mary Hu) (Jason Chen)
(Alex Li)
�Page 3 of 28
Report No.: STR201229002011E
Table of Contents
Page
1 . GENERAL INFORMATION
5
1.1 GENERAL DESCRIPTION OF EUT
5
1.2 TEST CONDITIONS
6
1.3 DESCRIPTION OF TEST CONDITIONS
7
1.4 DESCRIPTION OF SUPPORT UNITS
8
1.5 EQUIPMENTS LIST FOR ALL TEST ITEMS
9
2 . SUMMARY OF TEST RESULTS
10
2.1 TEST FACILITY
11
3. TRANSMITTER PARAMETERS
12
3.1 PERMITTED RANGE OF OPERATING FREQUENCIES
12
3.1.1 APPLICABILITY& LIMITS
12
3.1.2 CONFORMANCE
12
3.1.3 RESULT
12
3.2. OPERATING FREQUENCY RANGES
13
3.2.1 APPLICABILITY& DESCRIPTION
13
3.2.2 LIMITS
13
3.2.3 TEST PROCEDURE
13
3.2.4 TEST SETUP
13
3.2.5 TEST RESULTS
14
3.3 TRANSMITTER CARRIER OUTPUT LEVELS (H-FIELD (RADIATED)
15
3.3.1 APPLICABILITY& DESCRIPTION
15
3.3.2 LIMITS
15
3.3.3 TEST PROCEDURE
16
3.3.4 TEST SETUP
16
3.3.5 TEST RESULTS
17
3.4. MODULATION BANDWIDTH
18
3.4.1 APPLICABILITY& DESCRIPTION
18
3.4.2 LIMITS
18
3.4.3 TEST PROCEDURE
19
3.4.4 TEST SETUP
19
3.4.5 TEST RESULTS
20
3.5. SPURIOUS DOMAIN EMISSION LIMITS
21
3.5.1 APPLICABILITY& DESCRIPTION
21
3.5.2 LIMITS
21
3.5.3 TEST PROCEDURE
21
3.5.4 TEST SETUP
23
3.5.5 TEST RESULTS
24
4. RECEIVER PARAMETERS
26
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Report No.: STR201229002011E
Table of Contents
4.1 RECEIVER SPURIOUS RADIATION 4.1.1 APPLICABILITY& DESCRIPTION 4.1.2 LIMITS 4.1.3 TEST PROCEDURE 4.1.4 TEST SETUP 4.1.5 TEST RESULTS
5. PHOTOGRAPHS OF THE TEST CONFIGURATION
SPURIOUS EMISSIONS MEASUREMENT PHOTOS
Page
26 26 26 26 26 27
28
28
�Page 5 of 28
1. GENERAL INFORMATION
1.1 GENERAL DESCRIPTION OF EUT
Report No.: STR201229002011E
Equipment Trade Mark Model Name. Fmaily Model Model Difference
Product Description
Adapter Battery I/O Ports Hardware Version Software Version
Mobile Phone
Blackview
BV6600
N/A
N/A The EUT is BV6600 Operation Frequency:
13.56 MHz
Number Of Channel 1CH
Modulation
ASK
Technologies
tagging systems systems in the 27 MHz range all others
Product ClassNote 3
Class 1
Antenna Designation: Induction coil
Model No.:203008611AH Input: 100-240V~50/60Hz 0.6A Output: 5V 3000mA
9V 2000mA 12V 1500mA 18.0W
DC 3.85V, 8580mAh, 33.03Wh
Refer to users manual
ZN128 MBB3 BOM10
BV6600_EEA_ZN128F_V1.0
NOTE: 1. The EUT belong to subclass 56 non-specific use devices. 2. All the tests were performed at 3m test sites. 3. The description of product classes please see the ETSI EN 300 330 V2.1.1
Annex B Table B.1. 4. For more information, please refer to User's Manual.
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Report No.: STR201229002011E
1.2 TEST CONDITIONS
Temperature Relative Humidity
Supply Voltage
Normal Test Conditions 15°C ~ 35°C 20% ~ 75% DC 3.85V
Extreme Test Conditions -10°C ~ +40°C Note: (1) N/A
DC 3.4V ~ DC 4.4V Note: (2)
Note: (1) The temperature range as declared by the manufacturer: -10°C ~ +40°C
(2) The High Voltage 4.4V and Low Voltage 3.6V was declarated by manufacturer.
�Page 7 of 28 1.3 DESCRIPTION OF TEST CONDITIONS
E-1 EUT
Report No.: STR201229002011E
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Report No.: STR201229002011E
1.4 DESCRIPTION OF SUPPORT UNITS
The EUT has been tested as an independent unit together with other necessary accessories or support units. The following support units or accessories were used to form a representative test configuration during the tests.
Item Equipment
Brand
E-1 Mobile Phone Blackview
Model/Type No. BV6600
Series No. N/A
Note EUT
Item Shielded Type Ferrite Core
Length
Note
Note:
(1) The support equipment was authorized by Declaration of Confirmation. (2) For detachable type I/O cable should be specified the length in cm inLengthcolumn.
�Page 9 of 28
Report No.: STR201229002011E
1.5 EQUIPMENTS LIST FOR ALL TEST ITEMS
Item
Kind of Equipment
Manufact urer
Type No.
1 Bilog Antenna TESEQ CBL6111D
2
Test Cable
N/A
R-01
3
Test Cable
4
EMI Test Receiver
5 Antenna Mast
N/A R&S EM
R-02 ESCI-7 SC100_1
6
Turn Table
EM
SC100
7
50 Switch
Anritsu Corp
MP59B
8
Triple Loop EVERFIN
Antenna
E
LLA-2
9
Spectrum Analyzer
R&S
FSV40
Serial No.
31216 N/A N/A
Calibra Last calibration Calibrated until tion
period Apr. 11, 2020 Apr. 10, 2021 1 year
Apr. 21, 2018 Apr. 20, 2021 3 year
Apr. 21, 2018 Apr. 20, 2021 3 year
101318 May. 11, 2020 May. 10, 2021 1 year
N/A
N/A
060531
N/A
N/A
N/A
N/A
N/A
6200983705 May. 11, 2020 May. 10, 2023 3 year
11020003 Jul. 13, 2020 Jul. 12, 2021 1 year
101417 Aug. 07, 2020 Aug. 06, 2021 1 year
Note: Each piece of equipment is scheduled for calibration once a year except the Test Cable which is scheduled for calibration every 3 years.
�Page 10 of 28
Report No.: STR201229002011E
2. SUMMARY OF TEST RESULTS
The EUT has been tested according to the following specifications: EN 300 330 V2.1.1
Clause
Test Item
TRANSMITTER PARAMETERS
4.3.1
Permitted range of operating frequencies
4.3.2
Operating frequency ranges
Results
Pass Pass
4.3.3
Modulation bandwidth
Pass
4.3.4
Transmitter H-field requirements
4.3.5 4.3.6 4.3.7 4.3.8&4. 3.9 4.3.10
4.4.2
Transmitter RF carrier current Transmitter radiated E-field
Transmitter conducted spurious emissions Transmitter radiated spurious domain emission
Transmitter Frequency stability RECEIVER PARAMETERS
Receiver spurious emissions
4.4.3
Adjacent channel selectivity
4.4.4
Receiver blocking or desensitization
NOTE: (1)" N/A" denotes test is not applicable in this Test Report
Pass N/A N/A N/A Pass N/A
Pass N/A N/A
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Report No.: STR201229002011E
2.1 TEST FACILITY
Shenzhen NTEK Testing Technology Co., Ltd. Add. : 1/F, Building E, Fenda Science Park, Sanwei Community, Xixiang Street, Bao'an District, Shenzhen 518126 P.R. China FCC Registered No.: 463705 IC Registered No.: 9270A-1 CNAS Registration No.: L5516 A2LA No.: 4298.01
2.2 MAXIMUM MEASUREMENT UNCERTAINTY
The interpretation of the results recorded in the test report for the measurements described in the present document shall be as follows: · the measured value related to the corresponding limit shall be used to decide whether an equipment meets the requirements of the present document; · the value of the measurement uncertainty for the measurement of each parameter shall be separately included in the test report; · the value of the measurement uncertainty shall be, for each measurement, equal to or less than the figures given below:
Items
Uncertainty
RF Frequency
±1 x 10-7
RF Power, Conducted
±1dB
RF power, radiated
±6dB
Temperature
±1°C
Humidity
±5 %.
For the test methods, according to the EN 300 330 V2.1.1 the uncertainty figures shall be calculated according to the methods described in the ETSI TR 100 028 [i.14] and shall correspond to an expansion factor (coverage factor) k = 1,96 or k = 2 (which provide confidence levels of respectively 95 % and 95,45 % in case where the distributions characterizing the actual measurement uncertainties are normal (Gaussian)). The measurement uncertainties given above are based on such expansion factors. The particular expansion factor used for the evaluation of the measurement uncertainty shall be stated.
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Report No.: STR201229002011E
3. TRANSMITTER PARAMETERS
3.1 PERMITTED RANGE OF OPERATING FREQUENCIES
3.1.1 APPLICABILITY& LIMITS This applies to all EUT. The permitted range of operating frequencies for intentional emissions shall be entirely within the frequency bands in ETSI EN 300330 table 1.
3.1.2 CONFORMANCE
The permitted range of operating frequencies used by the EUT shall be declared by the manufacturer. The operating frequency range(s) will be tested considered under in the test item Operating frequency ranges.
3.1.3 RESULT
Items
Notes
Result
Operational Frequency bands Nominal Operating Frequency or Frequencies
13,553 MHz to 13,567 MHz 13.56MHzNote 1
Compliance
Note 1:The operating frequency used by this EUT is declared by the manufacturer.
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Report No.: STR201229002011E
3.2. OPERATING FREQUENCY RANGES
3.2.1 APPLICABILITY& DESCRIPTION
This applies to all EUT.
The operating frequency range (OFR) is the frequency range over which the EUT is transmitting. The operating frequency range of the EUT is determined by the lowest (fL) and highest frequency (fH) as occupied by the power envelope. With the centre frequency of the OFR as: fC = (fH+fL)/2. An EUT could have more than one operating frequency range.
3.2.2 LIMITS
The operating frequency ranges for intentional emissions shall be entirely within the frequency bands in table 1 in EN 300 330 V2.1.1.
3.2.3 TEST PROCEDURE
The measurement antenna shall be placed at one point of the setup up. Alternatively, a current probe could be used. A spectrum analyser with the following settings is used as measuring receiver in the test set-up: · Start frequency: lower than the lower edge of the permitted frequency range. · Stop frequency: higher than the upper edge of the permitted frequency range. · Resolution Bandwidth: see table 11.
· Video Bandwidth: Resolution Bandwidth. · Detector mode: RMS. · Display mode: Maxhold. The 99 % OBW function shall be used to determine the operating frequency range: · fH is determined. fH is the frequency of the upper marker resulting from the OFR. · fL is determined. fL is the frequency of the lower marker resulting from the OFR. · fc is the centre frequency.
Alternatively, the recorded results from the H-field measurement described in clause 6.2.4 may be used.
3.2.4 TEST SETUP
The EUT was programmed to be in continuously transmitting mode.
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Report No.: STR201229002011E
3.2.5 TEST RESULTS
EUT
Mobile Phone
Temperature 26°C
Pressure 1012 hPa
Test Mode TX
Model Name Relative Humidity Test Voltage
BV6600 60 % DC 3.85V
99%OCCUPIED CHANNEL BANDWIDTH
(kHz)
Measured frequencies
FL (MHz)
FH (MHz)
FC (MHz)
13.56MHz
0.637
13.5597
13.5603
13.5600
Limit
PASS /FAIL
FL>13.553MHz and FH<13.567 PASS
MHz
Extreme condition
V max (V) 4.4
T min (°C)
-10.00 V nom (V) 3.87
V min (V) 3.4
V max (V) 4.4
T max (°C)
40.00 V nom (V) 3.87
V min (V) 3.4
Min. fL / Max. fH Band Edges
Indoor Use Limits
Result
Frequency range ( MHz )
FL 13.5598
FH 13.5602
13.5597
13.5603
13.5595
13.5606
13.5592
13.5607
13.5593
13.5603
13.5594
13.5605
13.5592
13.5607
FL 13.556 MHz FL 13.567 MHz Complies
Test Plot-Normal condition
�Page 15 of 28
Report No.: STR201229002011E
3.3 TRANSMITTER CARRIER OUTPUT LEVELS (H-FIELD (RADIATED)
3.3.1 APPLICABILITY& DESCRIPTION The Transmitter H-field requirements only applies for equipment under product class 1 and class 2
as defined in EN 300 330 clause 6.1.2 and clause B.2. In the case of a transmitter with an integral or dedicated antenna, the radiated H-field is defined in the direction of maximum field strength under specified conditions of measurement.
3.3.2 LIMITS The frequency ranges and limits of the present document are shown in table 2. The limits are based on the European Commission Decision for SRDs [i.10], CEPT/ERC/REC 70-03 [i.1].
Table 2: H-field limits at 10 m
Frequency range (MHz)
H-field strength limit (Hf) dBA/m at
10 m or specified in mW e.r.p.
13,553 f 13,567
42 (see note 2) or 60 (see notes 1 and 2)
NOTE 1: For RFID (incl. NFC) and EAS applications only.
NOTE 2: Spectrum mask limit, see ETSI EN 300 330 annex I.
The H-field limit in dBA/m at 3 m, H3m, is determined by the following equation:
H3m = H10m + C3 (F.2)
Where: H10m is the H-field limit in dBA/m at 10 m distance according to the present document; and C3 is a conversion factor in dB determined from figure F.2.
The limit at 10 m(H10m) is 60 dBµA/m. For 13.56MHz: Owing to the frequency EUT is 13.56MHz, so the C3 approach to 23dB.
Then the limit at 3m(H3m) = H10m + C3 = 60 + 23 =83 dBA/m.
The H Field Strength shall not exceed the values 83 dBuA/m 3m Distance under normal test conditions.
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Report No.: STR201229002011E
3.3.3 TEST PROCEDURE The measurements of the transmitter radiated H-field shall be made on an open field test site as specified in clause C.1.3. Any measured values shall be at least 6 dB above the ambient noise level. The H-field produced by the equipment shall be measured at standard distance of 10 m. Where this is not practical, e.g. due to physical size of the equipment including the antenna or with use of special field cancelling antenna, then other distances may be used. When another distance is used, the distance used and the field strength value measured shall be stated in the test report. In this case, the measured value at actual test distance shall be extrapolated to 10 m according to EN 300 330 annex H and these calculations shall be stated in the test report. The H-field is measured with a shielded loop antenna connected to a measurement receiver. The measuring bandwidth and detector type of the measurement receiver shall be in accordance with EN 300 330 clause 5.12. The equipment under test shall operate where possible, with modulation. Where this is not possible, it shall be stated in the test report. For transmitters using a continuous wideband swept carrier, the measurement shall be made with the sweep off. When it is not possible to turn the sweep off the measurements shall be made with the sweep on and this shall be stated in the test report. For measuring equipment calibrated in dBV/m, the reading should be reduced by 51,5 dB to be converted to dBA/m.
3.3.4 TEST SETUP
0.8 m
Loop Antenna
EUT
3m
1-4m Amplifier
Spectrum Analyzer
�Page 17 of 28
Report No.: STR201229002011E
3.3.5 TEST RESULTS
EUT
Mobile Phone
Temperature 26°C
Pressure 1012 hPa
Test Mode TX
Model Name BV6600 Relative Humidity 60 % Test Voltage DC 3.85V (Normal)
Test results tested at 3m test sites
Freq.
Antenna Factor
Reading Level@3m
Corrected Level@3m
Calculated Level@10m
Limit@10m
Margin@10m
(MHz) (dB) (dBuA/m) (dBuA/m) (dBuA/m) (dBuA/m)
(dB)
13.56 -32.35
70.56
38.21
15.21
60
-44.79
Remark: (1) Corrected Level (dBuA/m) = Reading Level + Antenna Factor; (2) For the calculated method, please refer to Annex H at EN 300330 V 2.1.1. (3)The EUT was pretested with 3 orientations placed on the table for the radiated emission
measurement X, Y, and Z-plane. The Y-plane results were found as the worst case and were shown in this report.
�Page 18 of 28
Report No.: STR201229002011E
3.4. MODULATION BANDWIDTH
3.4.1 APPLICABILITY& DESCRIPTION
This applies to all EUT.
The modulation bandwidth contains all associated side bands above the following level: a) For carrier frequencies below 135 kHz: - 23 dB below the carrier, for RFID within the transmitter emission boundary of figure I.1, and for RFID and EAS systems within the transmitter mask of figures I.2, I.3 and I.4, see CISPR 16-1-4 [2] or the appropriate spurious limit as defined in EN 300 330 clauses 4.3.7, 4.3.8, 4.3.9. b) For carrier frequencies in the range 135 kHz to 30 MHz: - 15 dB below the carrier or the appropriate spurious limit as defined in EN 300 330 clauses 4.3.7, 4.3.8, 4.3.9.
3.4.2 LIMITS The modulation bandwidth shall be within the assigned frequency band see table 1 or ±7,5 % of the carrier frequency whichever is the smallest. For RFID and EAS Systems, the modulation bandwidth shall be within the transmitter emission boundary of figures I.1, I.2, I.3 and I.4. For further information, see CEPT/ERC/REC 70-03 [i.1] or ERC/ECC/CEPT Decisions as implemented through National Radio Interfaces (NRI) and additional NRI as relevant.
For 13.56MHz:
Note: The limit is 60dBµA/m for 10m, Owing to the frequency EUT is 13.56MHz, so the C3 approach to 23dB. Then the limit at 3m(H3m) = H10m + C3 = 60 + 23 =83 dBA/m.
�Page 19 of 28
Report No.: STR201229002011E
3.4.3 TEST PROCEDURE
The transmitter shall be connected to an artificial antenna or if the transmitter has an integral antenna, a test fixture shall be used (see clause 5.10). The RF output of the equipment shall be connected to a spectrum analyser via a 50 variable attenuator. The transmitter shall be operated at the nominal carrier power or field strength measured under normal test conditions in clause 4.3.4. The attenuator shall be adjusted to an appropriate level displayed at the spectrum analyser screen. The transmitter shall be modulated with standard test modulation (see clauses 5.8.1 and 5.8.2). If the equipment cannot be modulated externally, the internal modulation shall be used.
For transmitters using a continuous wideband swept carrier the measurement shall be made with the sweep on. The output of the transmitter, with or without test fixture, shall be measured by using a spectrum analyser with a resolution bandwidth appropriate to accept all major side bands. The power level calibration of the spectrum analyser shall then be related to the power level or field strength measured in clause 4.3.3. The calculation will be used to calculate the absolute level of the sideband power. The test laboratory shall ensure that the spectrum analyser's span is sufficiently wide enough to ensure that the carrier and all its major side bands are captured.
3.4.4 TEST SETUP
0.8 m
Loop Antenna
EUT
3m
1-4m Amplifier
Spectrum Analyzer
�3.4.5 TEST RESULTS
EUT
Mobile Phone
Temperature 26°C
Pressure 1012 hPa
Test Mode TX
Page 20 of 28
Report No.: STR201229002011E
Model Name BV6600 Relative Humidity 60 % Test Voltage DC 3.85V
13.56MHZ TEST PLOT
�Page 21 of 28
Report No.: STR201229002011E
3.5. SPURIOUS DOMAIN EMISSION LIMITS
3.5.1 APPLICABILITY& DESCRIPTION
This applies to all EUT.
Spurious domain emission limits are limits on emissions at frequencies other than those of the carrier and sidebands associated with normal test modulation.
3.5.2 LIMITS
The radiated field strength of the spurious domain emissions below 30 MHz shall not exceed the generated H-field dBA/m at 10 m given in table 5& 6.
3m(H3m) = H10m + C3 = H10m + 23
3.5.3 TEST PROCEDURE
Transmitter radiated spurious domain emission limits < 30 MHz The field strength shall be measured for frequencies below 30 MHz. The equipment under test shall be measured at a distance of 10 m on an outdoor test site. The test antenna shall be a calibrated shielded magnetic field antenna. The equipment under test and test antenna shall be arranged as stated in EN 300 330 clause C.1. For Product Class 3 the transmitter antenna connector of the equipment under test shall be connected to an artificial antenna and the output connector terminated. The equipment under test shall be switched on with normal modulation. The characteristics of the modulation signal used shall be stated on the test report. The measuring receiver shall be tuned over the frequency range 9 kHz to 30 MHz, except for the frequency band on which the transmitter is intended to operate. At each frequency at which a relevant spurious signal is detected the equipment under test and the test antenna shall be rotated until maximum field strength is indicated on the measuring receiver. This level shall be noted. If the transmitter can be operated in the standby mode, then the measurements shall be repeated in the standby mode. For measuring equipment calibrated in dBV/m, the reading should be reduced by 51,5 dB to be converted to dBA/m.
Transmitter radiated spurious domain emission limits > 30 MHz
For EN 300 330 classes 1, 2 and 4 an appropriate test site selected from EN 300 330 annex C shall
be used. The equipment shall be placed at the specified height on a non-conducting support and in
the position closest to normal use as declared by the manufacturer.
�Page 22 of 28
Report No.: STR201229002011E
The test antenna shall be oriented for vertical polarization. The output of the test antenna shall be connected to a measuring receiver. The transmitter shall be switched on with normal modulation, and the measuring receiver shall be tuned over the frequency range 30 MHz to 1 000 MHz. At each frequency at which a relevant spurious component is detected, the test antenna shall be raised and lowered through the specified range of heights until a maximum signal level is detected on the measuring receiver. The transmitter shall then be rotated through 360°in the horizontal plane, until the maximum signal level is detected by the measuring receiver.
The maximum signal level detected by the measuring receiver shall be noted . The substitution antenna shall be oriented for vertical polarization and calibrated for the frequency of the spurious component detected.
The frequency of the calibrated signal generator shall be set to the frequency of the spurious component detected. The input attenuator setting of the measuring receiver shall be adjusted in order to increase the sensitivity of the measuring receiver, if necessary.
The test antenna shall be raised and lowered through the specified range of heights to ensure that the maximum signal is received.
When a test site according to EN 300 330 clause C.1.1 is used, there is no need to vary the height of the antenna. The input signal to the substitution antenna shall be adjusted until an equal or a known related level to that detected from the transmitter is obtained on the measuring receiver.
The input signal to the substitution antenna shall be recorded as a power level and corrected for any change of input attenuator setting of the measuring receiver.
The measure of the effective radiated power of the spurious components is the larger of the two power levels recorded for each spurious component at the input to the substitution antenna, corrected for the gain of the substitution antenna if necessary.
If an unmodulated carrier cannot be obtained then the measurements shall be made with the transmitter modulated by the normal test signal (see clause 5.8.2) in which case this fact shall be recorded in the test report.
If standby mode is available, the measurements shall be repeated in that mode.
�Page 23 of 28 3.5.4 TEST SETUP
FREQUENCY RANGE (9KHZ-30MHZ)
Loop Antenna
0.8 m
EUT
3m
Report No.: STR201229002011E
1-4m Amplifier Spectrum Analyzer
FREQUENCY RANGE (30MHZ~1GHZ)
�Page 24 of 28
Report No.: STR201229002011E
3.5.5 TEST RESULTS
EUT
Mobile Phone
Temperature 24
Pressure 1010 hPa
Test Mode TX
Model Name Relative Humidity Test Power
BV6600 54% DC 3.85V
Frequency
(MHz) 4.055 6.758 13.522 22.635
BELOW 30MHZ TEST RESULT
Operating Mode
Emission level@3m
Calculated Level@10m
Limit@10m
(dBuA/m)
(dBuA/m)
(dBuA/m)
-7.56
-38.96
0.55
18.35
-13.05
-1.66
-3.69
-35.09
-3.5
-2.18
-33.58
-3.5
Margin@10m
(dB) -39.51 -11.39 -31.59 -30.08
Frequency
(MHz) 2.644 5.458 17.022 22.748
Emission level@3m (dBuA/m)
3.65
4.52
-22.02
-22.35
Standby Mode
Calculated Level@10m
Limit@10m
(dBuA/m)
(dBuA/m)
-27.75
-19.10
-26.88
-22.23
-53.42
-25
-53.75
-25
Margin@10m
(dB) -5.87 -5.32 -28.42 -28.75
Remark:
(1)
The EUT was pretested with 3 orientations placed on the table for the radiated emission
measurement X, Y, and Z-plane. The Y-plane results were found as the worst case and
were shown in this report.
(2)
Measuring frequencies from 9KHz to the 30MHz.
�Page 25 of 28
Report No.: STR201229002011E
ABOVE 30 MHz TEST RESULT
EUT
Mobile Phone
Temperature 24
Pressure 1010 hPa
Test Mode TX
Model Name Relative Humidity Test Power
BV6600 54% DC 3.85V
Polar (H/V)
Frequency (MHz)
Meter Reading
(dBm)
Factor (dB)
Emission Level
(dBm)
Limits Margin (dBm) (dB)
V
37.005
V
115.621
V
182.922
V
354.627
V
645.522
H
36.276
H
115.032
H 206.301
H 413.667
H 670.174
Remark:
-68.76 -73.52 -71.53 -76.53 -69.53 -68.77 -70.28 -67.47 -73.87 -76.64
10.77
11.26 11.22 11.19 9.53 10.45 10.20 10.83 11.11 11.03
-57.99
-62.26 -60.31 -65.34 -60.00 -58.32 -60.08 -56.64 -62.76 -65.61
-36 -21.99
-54
-8.26
-54
-6.31
-36 -29.34
-54
-6.00
-36 -22.32
-54
-6.08
-54
-2.64
-36 -26.76
-54 -11.61
1. Emission Level= Meter Reading+ Factor, Margin= Emission Level Limit.
Remark
peak peak peak peak peak peak peak peak peak peak
�Page 26 of 28
4. RECEIVER PARAMETERS
The required Receiver Conformance tests are defined in table 7.
Report No.: STR201229002011E
4.1 RECEIVER SPURIOUS RADIATION 4.1.1 APPLICABILITY& DESCRIPTION These requirements does not apply to receivers used in combination with permanently co-located transmitters continuously transmitting. In these cases the receivers will be tested together with the transmitter in operating mode. Spurious radiation from receivers are emissions radiated from the antenna, the chassis and case of the receiver. It is specified as the radiated power of a discrete signal. 4.1.2 LIMITS The spurious components below 30 MHz shall not exceed the generated H-field dBA/m values at 10 m according to table 8.
3m(H3m) = H10m + C3 = H10m + 23 The spurious components above 30 MHz measured values shall not exceed 2 nW. 4.1.3 TEST PROCEDURE
Please refer to clause 3.5.3.
4.1.4 TEST SETUP Please refer to clause 3.5.4.
�Page 27 of 28
Report No.: STR201229002011E
4.1.5 TEST RESULTS
EUT
Mobile Phone
Temperature 24
Pressure 1010 hPa
Test Mode RX
Model Name Relative Humidity Test Power
BV6600 54% DC 3.85V
Frequency
(MHz) 2.855 6.418 15.445 23.548
Emission level@3m (dBuA/m)
Below 30MHz test result
Operating Mode
Calculated Level@10m
Limit@10m
(dBuA/m)
(dBuA/m)
3.54
-27.86
-19.43
5.26
-26.14
-22.93
-21.47
-52.87
-25
-21.36
-52.76
-25
Margin@10m
(dB) -8.43 -3.21 -27.87 -27.76
Remark:
(1)
Emission level = Total Factor + Reading Level; Margin= Emission level- Limit.
(2)
Measuring frequencies from 9KHz to the 30MHz.
Polar (H/V)
Frequency (MHz)
Meter Reading
(dBm)
Above 30M Test Result
Factor
Emission Level
(dB)
(dBm)
Limits (dBm)
Margin (dB)
V
40.51
-82.82
12.25
-70.57
-57
-13.57
V
117.84
-80.14
16.13
-64.01
-57
-7.01
V 205.071
-82.15
14.05
-68.10
-57
-11.10
V 350.218
-79.52
17.01
-62.51
-57
-5.51
V 625.669
-79.88
15.51
-64.37
-57
-7.37
H
34.152
-80.54
14.62
-65.92
-57
-8.92
H
90.909
-82.88
17.87
-65.01
-57
-8.01
H 230.603
-79.52
16.70
-62.82
-57
-5.82
H 350.061
-81.86
15.79
-66.07
-57
-9.07
H 585.507
-84.34
17.54
-66.80
-57
-9.80
Remark:
1. Emission Level = Meter Reading+ Factor, Margin= Emission Level- Limit.
Remark
peak peak peak peak peak peak peak peak peak peak
�Page 28 of 28
Report No.: STR201229002011E
5. PHOTOGRAPHS OF THE TEST CONFIGURATION SPURIOUS EMISSIONS MEASUREMENT PHOTOS
END OF REPORT
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