DOCUMENTTYPE
MP/HW/Oulu
Anssi Laitinen
06.06.2006
TEST SPECIFICATION
Spurious Emissions
Owner (Function):
Responsible person:
Approver:
Filename:
MP / HW / RF
Anssi Laitinen
4.4.1.4 SpuriousEmissions.doc
Change History
Version
Status
Date
Responsible person
Comments
01
Proposal
06-Jun-2006
Anssi Laitinen
0. Test Classification
Feature Group = RF
Feature = RX
Sub-Feature = WCDMA
HW Test Type = Performance
Execution -Type = TRX or Manual
1 (6)
DOCUMENTTYPE
MP/HW/Oulu
Anssi Laitinen
2 (6)
06.06.2006
1. PURPOSE
The spurious emissions power is the power of emissions generated or amplified in a receiver that
appear at the UE antenna connector.
Purpose is to verify that the UE spurious emission meets the specifications described in tables 1
and 2. Excess spurious emissions increase the interference to other systems.
2. ORIGINAL REQUIREMENT & REFERENCES
The power of any narrow band CW spurious emission shall not exceed the maximum level
specified in table 1 and table 2.
Table 1 General receiver spurious emissions requirements
Frequency Band
30MHz  f < 1GHz
1GHz  f  12.75 GHz
Measurement
Bandwidth
100 kHz
1 MHz
Table 2 Additional receiver spurious emissions requirements
Maximum
level
-57 dBm
-47 dBm
DOCUMENTTYPE
MP/HW/Oulu
Anssi Laitinen
06.06.2006
Band
Frequency Band
I
860 MHz  f  895 MHz
921 MHz  f < 925 MHz
Measurement
Bandwidth
3.84 MHz
100 kHz
100 kHz
3.84MHz
100 kHz
100 kHz
3.84 MHz
3.84 MHz
Maximum
level
-60 dBm
-60 dBm *
-67 dBm *
-60 dBm
-79 dBm *
-71 dBm *
-60 dBm
-60 dBm
2110 MHz  f  2170 MHz
2620 MHz  f  2690 MHz
869 MHz  f  894 MHz
1850 MHz  f  1910 MHz
3.84 MHz
3.84 MHz
3.84 MHz
3.84 MHz
-60 dBm
-60 dBm
-60 dBm
-60 dBm
1930 MHz  f  1990 MHz
2110 MHz  f  2155 MHz
921 MHz  f < 925 MHz
935 MHz < f  960 MHz
1710 MHz  f  1785 MHz
3.84 MHz
3.84 MHz
100 kHz
100 kHz
3.84 MHz
100 kHz
3.84 MHz
-60 dBm
-60 dBm
-60 dBm*
-67 dBm*
-60 dBm
-79 dBm*
-60 dBm
1805 MHz  f  1880 MHz
2110 MHz  f  2170 MHz
2620 MHz  f  2690 MHz
869 MHz  f < 894 MHz
1710 MHz  f < 1755 MHz
3.84 MHz
3.84 MHz
3.84 MHz
3.84 MHz
3.84 MHz
-60 dBm
-60 dBm
-60 dBm
-60 dBm
-60 dBm
V
1930 MHz  f  1990 MHz
2110 MHz f  2155 MHz
824 MHz  f  849 MHz
3.84 MHz
3.84 MHz
3.84 MHz
-60 dBm
-60 dBm
-60 dBm
VI
869 MHz  f < 894 MHz
1930 MHz  f  1990 MHz
2110 MHz  f  2155 MHz
815 MHz  f  850 MHz
3.84 MHz
3.84 MHz
3.84 MHz
3.84 MHz
-60 dBm
-60 dBm
-60 dBm
-60 dBm
860 MHz  f  895 MHz
3.84 MHz
-60 dBm
1844.9 MHz  f  1879.9 MHz
2110 MHz  f  2170 MHz
921 MHz  f < 925 MHz
3.84 MHz
3.84 MHz
100 kHz
100 kHz
-3.84 MHz
100 kHz
100 kHz
3.84 MHz
3.84 MHz
-60 dBm
-60 dBm
-60 dBm *
-67 dBm *
-60 dBm
-79 dBm *
-71 dBm *
-60 dBm
-60 dBm
3.84 MHz
3.84 MHz
100 kHz
100 kHz
3.84 MHz
100 kHz
3.84 MHz
3.84 MHz
3.84 MHz
-60 dBm
-60 dBm
-60 dBm *
-67 dBm *
-60 dBm
-79 dBm *
-60 dBm
-60 dBm
-60 dBm
925 MHz f 935 MHz
935 MHz < f  960 MHz
1805 MHz  f  1880 MHz
1844.9 MHz  f  1879.9 MHz
1920 MHz  f  1980 MHz
II
III
925 MHz f 935 MHz
IV
VII
925 MHz f 935 MHz
935 MHz < f  960 MHz
1805 MHz  f  1880 MHz
2110 MHz  f  2170 MHz
2500 MHz  f  2570 MHz
VIII
3 (6)
2620 MHz  f  2690 MHz
880 MHz f 915 MHz
921 MHz  f < 925 MHz
925 MHz f  MHz
935 MHz < f  960 MHz
1805 MHz < f  1880 MHz
2110 MHz  f  2170 MHz
2620 MHz  f  2690 MHz
Note
UE transmit band in URA_PCH,
Cell_PCH and idle state
UE receive band
UE transmit band in URA_PCH,
Cell_PCH and idle state
UE receive band
UE transmit band in URA_PCH,
Cell_PCH and idle state
UE receive band
UE transmit band in URA_PCH,
Cell_PCH and idle state
UE receive band
UE transmit band in URA_PCH,
Cell_PCH and idle state
UE receive band
UE in URA_PCH, Cell_PCH and
idle state
UE in URA_PCH, Cell_PCH and
idle state
UE transmit band in URA_PCH,
Cell_PCH and idle state
UE receive band
UE in URA_PCH, Cell_PCH and
idle state
DOCUMENTTYPE
MP/HW/Oulu
Anssi Laitinen
IX
860 MHz  f  895 MHz
1749.9 MHz  f  1784.9 MHz
4 (6)
06.06.2006
3.84 MHz
3.84 MHz
-60 dBm
-60 dBm
UE transmit band in URA_PCH,
Cell_PCH and idle state
UE receive band
3.84 MHz
-60 dBm
1844.9 MHz  f  1879.9 MHz
3.84 MHz
-60 dBm
2110 MHz  f  2170 MHz
Note *
The measurements are made on frequencies which are integer multiples of 200 kHz. As exceptions,
up to five measurements with a level up to the applicable requirements defined in Table 1 are
permitted for each UARFCN used in the measurement
3. EQUIPMENT
Dongle Nokia PKD-1RD
Power supply for Mobile
Universal radio communication tester
Spectrum analyzer
Temperature chamber
Shielded Box or EMC room
Combiner 6026 or compatible
FBUS or USB cable
Batery dummy (JIG)
Test Sim Card
4. VARIABLE CONDITIONS AND PARAMETERS
4.1
Imported Test Director Parameters and Fields:
4.1.1 Parameters
N/A
4.1.2 Fields
<<Network>>
<<Phone_Mode>>
<<HWID>>
<<PSN>>
<<SW Version>>
4.2
All specified WCDMA bands (BAND I, BAND II, BAND V, …)
Normal Mode
Exported Test Director Parameters and Fields
4.2.1 Parameters
N/A
4.2.2 Fields
<<Temperature>>
<<Samples>>
(recommendet temp. values)
(recommended no. of samples to test)
5. FIXED CONDITIONS AND PARAMETERS
Supply Voltage:
Temperature:
Channels:
Power levels:
Nominal
Nominal (+15 ºC - + 35 ºC)
Low, Mid and High ranges
N/A
DOCUMENTTYPE
MP/HW/Oulu
Anssi Laitinen
5 (6)
06.06.2006
6. DESCRIPTION OF TEST
6.1
Test Setup
1.) TRX stack, test case 6.8 or
2.) Manual testing
It shall be verified that the RRC connection release at the end of the procedure described in
34.108 clause 7.3.5.3 shall be completed successfully indicating that the UE has stayed in
CELL_FACH state during the measurement of the spurious emissions.
1) Sweep the spectrum analyzer (or equivalent equipment) over a frequency range and measure
the average power of spurious emission.
7. TEST AUTOMATION
None
8. TEST LIMITS
See Section 2.
9. JUSTIFICATION FOR TEST LIMITS
Limits are taken from 3GPP TS 34.121 (6.3.0) and 3GPP TS 25.101 (v7.3.0).
10.
APPROVAL CRITERIA
The test is passed if the results are within the defined limits.
10.1
Test Case Version Info: v01
10.2
Generic configuration information to be reported (defined test director fields):
(If test director fields exist, filling this values here is optional. Filling it to testdirector is mandatory.)
HWID
SNR
____
____
10.3
Phone
Mode
____
Vbat
____
Network:
Band
____
SW
______
Other configuration information to be reported (test case specific):
DOCUMENTTYPE
MP/HW/Oulu
Anssi Laitinen
10.4
6 (6)
06.06.2006
Pictures to be stored:
The level of conducted spurious emission [in dBm] of a number of channels is plotted against the
frequency.