1. Scope
advertisement
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
GSM900 and DCS1800
Radio Terminal Equipment
Technical Specifications
NATIONAL COMMUNICATIONS COMMISSION
GSM(English)-i
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
NATIONAL COMMUNICATIONS COMMISSION
Contents
1.
1.1
1.2
1.3
Scope ................................................................................................... 1
Accordance ........................................................................................... 1
Application ........................................................................................... 1
Contents and Reference ....................................................................... 1
2.
2.1
Abbreviations ...................................................................................... 2
Abbreviations ........................................................................................ 2
3.
Required Test Items ............................................................................ 3
4.
4.1
4.2
4.3
4.3.1
4.3.2
4.4
Frequency Range ................................................................................ 9
Test purpose.......................................................................................... 9
Conformance requirement..................................................................... 9
Method of measurement ....................................................................... 9
Initial conditions..................................................................................... 9
Procedure ........................................................................................ 10
Test requirement ................................................................................. 11
5.
5.1
5.2
5.3
5.3.1
5.3.2
5.4
Maximum Transmitter Output Power ............................................... 12
Test purpose........................................................................................ 12
Conformance requirement................................................................... 12
Method of measurement ..................................................................... 14
For equipment with a permanent antenna connector .......................... 14
For equipment with an integral antenna .............................................. 16
Test requirement ................................................................................. 18
6.
6.1
6.2
Duplex Spacing ................................................................................. 22
Test purpose........................................................................................ 22
Conformance requirement................................................................... 23
6.3
6.3.1
6.3.2
6.4
Method of measurement ..................................................................... 23
Initial conditions................................................................................... 23
Procedure…………………………………………………………………...23
Test requirement ................................................................................. 24
7.
7.1
7.2
Channel Spacing ............................................................................... 24
Test purpose........................................................................................ 24
Conformance requirement................................................................... 25
GSM(English)-ii
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
7.3
7.3.1
7.3.2
7.4
Method of measurement ..................................................................... 25
Initial conditions................................................................................... 25
Procedure ………………………………………………………………….25
Test requirement ................................................................................. 26
8.
8.1
8.1.1
8.1.2
8.2
Spurious Emissions .......................................................................... 26
Conducted spurious emissions ........................................................... 26
MS allocated a channel ....................................................................... 26
MS allocated a channel ....................................................................... 29
Radiated spurious emissions .............................................................. 31
8.2.1 MS in allocated a channel ................................................................... 31
8.2.2 MS in idle mode .................................................................................. 35
9.
9.1
9.1.1
9.1.2
9.1.3
9.1.4
9.2
Frequency Error ................................................................................ 38
Frequency error due to modulation ..................................................... 38
Test purpose........................................................................................ 38
Conformance requirement................................................................... 38
Method of measurement ..................................................................... 39
Test requirement ................................................................................. 42
Frequency error under multipath and interference conditions ............. 42
9.2.1
9.2.2
9.2.3
9.2.4
Test purpose........................................................................................ 42
Conformance requirement................................................................... 43
Method of measurement ..................................................................... 43
Test requirement ................................................................................. 45
10.
Output RF spectrum ......................................................................... 45
10.1 Test purpose........................................................................................ 45
10.2 Conformance requirement................................................................... 46
10.3 Method of measurement ..................................................................... 48
10.3.1 Initial conditions................................................................................... 48
10.3.2 Procedure ………………………………………………………………….49
10.4 Test requirement……………………………………………………………51
Annex A Test conditions ………………...….……….………….…...Annex-1
Annex B Test equipment ……………………...……….……….……Annex-4
Annex C Declaration of Conformity of Test Items by Applicant Annex-8
GSM(English)-iii
1.
Scope
1.1
Accordance
The specification is issued pursuant to paragraph 1 of Article 42 of the
Telecommunications Acts.
1.2
Application
This specifications applies to GSM and DCS mobile radio terminal
within 900MHz band (TX from 890MHz to 915MHz and RX from
935MHz to 960MHz) and within 1800MHz band (TX from 1710MHz to
1785MHz and RX from 1805MHz to 1880MHz)。
1.3
Contents and Reference
The normative reference of the test items, conformance requirement,
method of tests and relevant requirements for use in the specifications
of GSM 900 and DCS1800 mobile radio terminals are based on the
ETSI ETS 300 607-1 (GSM 11.10-1). These limits have been chosen
to comply with the international standards for a complete technical
regulation.
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
2.
Abbreviations
2.1
Abbreviations
The abbreviations of these requirements are as follows,
AB
ARFCN
BCCH
BS
CCCH
FCCH
MAX
MS
RX
SAR
SDCCH
TCH
TDMA
TX
TXPWR
Access Burst
Absolute Radio Frequency Channel Number
Broadcast Control Channel
Base Station
Common Control Channel
Frequency Correction Channel
Maximum
Mobile Station
Receiving
Specific Absorption Rate
Stand-alone Dedicated Control Channel
Traffic Channel
Time Division Multiple Access
Transmitting
Transmission Power
GSM(English)-2
3.
Required Test Items
Items
1
2
3
4
5
Test Items
7
8
9
10
GSM900
TX: 890 + 0.2 × n MHz
RX: 935 + 0.2 × n MHz
(1 ≤ n ≤ 124)
DCS1800
TX: 1710.2 + 0.2 × (n512) MHz
RX: 1805.2 + 0.2 × (n512) MHz
(512 ≤ n ≤ 885)
GSM900
8W (Power class 2)
5W (Power class 3)
2W (Power class 4)
0.8W (Power class 5)
DCS1800
1W ( Power class 1)
0.25W ( Power class 2)
4W (Power class 3)
Frequency
Range
Maximum
Transmitter
Output Power
Duplex Spacing GSM900: 45MHz
DCS1800:95MHz
Channel
200KHz
Spacing
Spurious
Emissions
6
Conformance requirement
Frequency Error
As Table 1-1 measurement ≤-36 dBm
As Table 1-2 measurement:
9KHz ~
1GHz: ≤-36 dBm
1GHz ~ 12.75GHz: ≤-30 dBm
In idle﹐100KHz bandwidth measurement﹕
9KHz ~ 880 MHz: ≤-57 dBm
880MHz ~ 915 MHz: ≤-59 dBm
915MHz ~ 1,000 MHz: ≤-57 dBm
1,000MHz ~ 1,710 MHz: ≤-47 dBm
1,710MHz ~ 1,785 MHz: ≤-53 dBm
1,785MHz ~ 12.75GHz: ≤-47 dBm
GSM900: ≤ 90Hz
DCS1800: ≤ 180Hz
Output RF
As Table 2-1, Table 2-2, Table 2-3
Spectrum
Rate of
Absorption
Electromagnetic
Head and Trunk SAR: ≤ 1.6 W/Kg(1g)
Energy SAR
Limits
(Handset Only)
Warning:
”For Reducing RF Influence, Use Properly “
RF Exposure
Warning Label Labeling method:
Label accordingly on handset, carton, or in
user’s manual.
SAR label content:
SAR Label
“ SAR limit 1.6 W/Kg; after testing value:
Test Compliance
result
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
11
12
Annex C
Declaration of
Conformity of
Test Items by
Applicant
unique IMEI
number”
W/Kg”
Labeling method:
Label accordingly on handset, carton, or in
user’s manual.
A copy of certificate of approval (e.g., issued
by TAA)
A copy of “unique IMEI number” guarantee
letter
Note:1. For test items 2, 3, 4, 5, 6 and 7, the MS should be operated at low
frequency, mid frequency and high frequency.
2. For test items 8, 9, 10, 11and 12, the documents specified by DGT
mentioned above are regulated in compliance with the subparagraph 5
of paragraph 1 of Article 11「Compliance Approval Regulations of
Telecommunications Terminal Equipment」to.
Table 1-1:
Frequency band
Offset from carrier
Measurement bandwidth
900MHz relevant TX: 890 ~ 915MHz
1800MHz relevant TX: 1710 ~ 1785MHz
I.8MHz
6MHz
30KHz
100KHz
Note: Allocated a channel
Table 1-2:
Frequency band
100MHz50MHz
50MHz500MHz
500MHz, outside Table 1-1 related TX
band
Offset from relevant
Measurement bandwidth
TX edge
10KHz
—
100KHz
—
2MHz
30KHz
5MHz
100KHz
300KHz
10MHz
1MHz
20MHz
3MHz
30MHz
Note: Allocated a channel
GSM(English)-4
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
Table 2-1: Spectrum due to the modulation:
Frequency Offset from the Carrier (KHz) the Maximum Allowed Level (dB)
Power level
(dBm)
30KHz (Measurement bandwidth)
100
200
250
400
600~
100KHz (measurement
bandwidth)
1200~ 1800~ 3000~
6000
1200 1800 3000 6000
39 +0.5
30
33
60
66
66
69
71
77
37
+0.5
30
33
60
64
64
67
69
75
35
+0.5
30
33
60
62
62
65
67
73
33 +0.5
30
33
60
60
60
63
65
71
36 +0.5
30
33
60
60
60
71
79
34
+0.5
30
33
60
60
60
69
77
32
+0.5
30
33
60
60
60
67
75
30
+0.5
30
33
60
60
60
65
73
28
+0.5
30
33
60
60
60
63
71
26
+0.5
30
33
60
60
60
61
69
24 +0.5
30
33
60
60
60
59
67
GSM900
DCS1800
The following exceptions and minimum measurement levels shall apply; all
absolute levels in dBm shall be measured using the same bandwidth as that
used in the tables 2-1 above:
(a) in the combined range 600KHz to 6MHz above and below the carrier, in up
to three bands of 200KHz width centered on a frequency which is an
integer multiple of 200KHz, exceptions at up to –36dBm
(b) above 6MHz offset from the carrier in up to 12 bands of 200KHz width
centered on a frequency which is an integer multiple of 200KHz,
exceptions at up to -36dBm are allowed. For the BTS only one
transmitter is active for this test.
(c) for EUT measured below 600KHz from the carrier, if the limit according to
the above table is below –36dBm, a value of –36dBm shall be used
instead. For 600KHz up to less than 1800KHz this limit shall be –56dBm
for DCS1800, and –51dBm for GSM900. At 1800KHz and beyond, this
limit shall be –51dBm for DCS1800, and –46dBm for GSM900.
GSM(English)-5
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
Table 2-2: Spectrum due to switching transients for GSM900:
Power level
Maximum level measured for various carrier frequencies
400KHz
600KHz
1200KHz
1800KHz
39dBm
–13dBm
–21dBm
–21dBm
–24dBm
37dBm
–15dBm
–21dBm
–21dBm
–24dBm
35dBm
–17dBm
–21dBm
–21dBm
–24dBm
33dBm
–19dBm
–21dBm
–21dBm
–24dBm
31dBm
–21dBm
–23dBm
–23dBm
–26dBm
29dBm
–23dBm
–25dBm
–25dBm
–28dBm
27dBm
–23dBm
–26dBm
–27dBm
–30dBm
25dBm
–23dBm
–26dBm
–29dBm
–32dBm
23dBm
–23dBm
–26dBm
–31dBm
–34dBm
–23dBm
–26dBm
–32dBm
–36dBm
21dBm
Table 2-3: Spectrum due to switching transients for DCS1800:
Power level
Maximum level measured for various carrier frequencies
400KHz
600KHz
1200KHz
1800KHz
36dBm
–16dBm
–21dBm
–21dBm
–24dBm
34dBm
–18dBm
–21dBm
–21dBm
–24dBm
32dBm
–20dBm
–22dBm
–22dBm
–25dBm
30dBm
–22dBm
–24dBm
–24dBm
–27dBm
28dBm
–23dBm
–25dBm
–26dBm
–29dBm
26dBm
–23dBm
–26dBm
–28dBm
–31dBm
24dBm
–23dBm
–26dBm
–30dBm
–33dBm
22dBm
–23dBm
–26dBm
–31dBm
–35dBm
–23dBm
–26dBm
–32dBm
–36dBm
20dBm
GSM(English)-6
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
Note:
Standard for safety level with respect to human exposure to RF
electromagnetic fields
1. FCC PART 2.1093 and ANSI/IEEE C95.3-1992, in normal conditions
of RF electromagnetic fields (the distance of MS and human body
shall be within 20cm), the standard values of Specific Absorption
Rate (SAR) is as described in the following Table 3.
2. ANSI/IEEE C95.1-1999 Edition – “IEEE Standard for Safety Level
with respect to Human Exposure to Radio Frequency
Electromagnetic Fields, 3KHz~300GHz.〞 for Maximum Permissible
Exposure (MPE) to prevent harmful effects in human beings
exposed to in the RF range is as described in the following Table 4
and Table 5.
Table 3:
Specific Absorption Rate (SAR) limits
Human Body
Whole-body
Head & Trunk
Limbs
SAR
0.08 W/Kg
1.6 W/Kg
4 W/Kg
Table 4:
Maximum Permissible Exposure (MPE) (controlled environments)
Frequency range
(MHz)
Electric field
strength (E)
(V/m)
Magnetic field
strength (H) (A/m)
Power density (S)
E-field, H-field
(mW/cm2)
Averaging
time (E)2, (H)2
or S(min)
0.003~0.1
614
163
(100, 1000000)
6
0.1~3.0
614
16.3/f
(100, 10000/f2)
6
3~30
1842/f
16.3/f
(900/f2, 10000/f2)
6
30~100
61.4
16.3/f
(1.0, 10000/f2)
6
100~300
61.4
0.163
1.0
6
300~3,000
f/300
6
3,000~15,000
10
6
15,000~30,0000
10
616000/f1.2
Note: f is the frequency in MHz.
GSM(English)-7
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
Table 5:
environments)
Frequency range
(MHz)
Maximum
Permissible
Electric field Magnetic
strength (E) field strength
(V/m)
(H) (A/m)
Exposure(MPE)
Power density (S)
E-field, H-field
(mW/cm2)
(uncontrolled
Averaging time (E) 2, (H) 2 or
S(min)
0.003~0.1
614
163
(100,1000000)
6
6
0.1~3.0
614
16.3/f
(100, 10000/f2)
6
6
3~30
823.8/f
16.3/f
(180/f2, 10000/f2)
6
6
30~100
823.8/f
16.3/f
(0.2,
940000/f3.336)
6
6
100~300
27.5
158.3/f1.668
0.2
6
0.0636f1.337
300~3,000
27.5
0.0729
f/1500
6
30
3,000~15,000
f/1500
6
15,000~300,000
10
616000/f1.2
Note: f is the frequency in MHz.
GSM(English)-8
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
4.
Frequency Range
4.1
Test purpose
To verify that MS TX frequency from 890MHz to 915MHz and RX
frequencies 935MHz to 960MHz which carrier spacing is 200KHz to
extend band in the future. Each carrier occupied 200kHz starts from
channel 0. And, that MS TX frequency from 1710MHz to 1785MHz
and RX frequencies 1805MHz to 1880MHz which carrier spacing is
200KHz to extend band in the future. Each carrier occupied 200KHz
starts from channel 512.
4.2
Conformance requirement
GSM900 TX frequency band shall be within 890 n 0.2MHz (where
n=1 to 124) range and RX frequencies shall be within 935 + n
0.2MHz (where n=1 to 124) range, where n is Absolute Radio
Frequency Channel Number (ARFCN).
DCS1800 TX frequency band shall be within 1710.2+0.2(n512)MHz
(where n=512 to 885) range and RX frequency shall be within
1805.2+0.2 (n-512)MHz (where n=512 to 885) range, where n is
Absolute Radio Frequency Channel Number(ARFCN).
4.3
Method of measurement
4.3.1
Initial conditions
(a) A call is set up by the System Simulator (SS) according to the
generic call set up procedure on a channel in the Mid ARFCN
range.
(b) The SS commands the MS to loop back its channel decoder output
to channel encoder input.
GSM(English)-9
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
(c) The SS sends Standard Test Signal C1.
(d) The SS sets the MS to operate at its maximum output power.
4.3.2
Procedure
(a) Initially the test antenna is closely coupled to the MS, and at any
frequency produced by the MS will be detected by the test antenna
and receiver in the range 30MHz to 2GHz.
NOTE: This is a qualitative step to identify the frequencies
which are to be measured in subsequent steps.
(b) The settings of tuned spectrum analyzer are set as follows:
-
Zero frequency scan
Resolution bandwidth:
Video bandwidth:
30KHz
30KHz
(c) By tuning the spectrum analyzer center frequency to the
measurement frequencies and measuring the following MS RX
frequencies.
The SS sends Standard Test Signal C1, the frequency is the MS
receiver main frequency for
900MHz band:
TX + n 0.2MHz, TX is 890MHz
RX + n 0.2MHz, RX is 935MHz
1 n 124
1800MHz band:
TX + 0.2 (n512)MHz, TX is 1710.2MHz
RX + 0.2 (n512)MHz, RX is 1805.2MHz
512 n 885
Note: Frequency offsets are only correct for measuring of MS
receiving channel in the ARFCN range.
(d) By tuning the spectrum analyzer center frequency to the
measurement frequencies and measuring the following MS TX
frequencies.
The SS sends Standard Test Signal C1, the frequency is the MS
transmitter main frequencies
GSM(English)-10
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
900MHz band:
TX + n 0.2MHz, TX is 890MHz
1 n 124
1800MHz band:
TX + 0.2 (n512)MHz, TX is 1710.2MHz
512 n 885
4.4
Test requirement
Measurement of any frequencies in 900MHz band shall comply with
the following table:
Frequency range
TX: 890MHz~915MHz
RX: 935MHz~960MHz
Operating frequency
890+n0.2MHz
935+n0.2MHz
Channel number
1 n 124
1 n 124
Measurement of any frequencies in 1800MHz band shall meet the
following table:
Frequency range
Operating frequency
Channel number
TX:1710MHz~1785MHz 1710.2+(n512)0.2MHz
512 n 885
RX:1805MHz~1880MHz 1805.2+(n512)0.2MHz
512 n 885
GSM(English)-11
5.
Maximum Transmitter Output Power
5.1
Test purpose
To verify that the maximum transmitter output power of the MS shall
comply with the required operating frequency range.
5.2
Conformance requirement
a. The MS maximum output power shall be as defined in the following
table:
GSM900
Power
Nominal Maximum
class
output power
Tolerance for conditions (dB)
normal
extreme
1
2
8W(39dBm)
2
2.5
3
5W(37dBm)
2
2.5
4
2W(33dBm)
2
2.5
5
0.8W(29dBm)
2
2.5
Note: The lowest nominal output power for all classes of GSM900
MS is 5dBm
DCS1800
Power
Nominal Maximum
class
output power
Tolerance for conditions (dB)
normal
1
2
3
extreme
1W(30dBm)
2
2.5
0.25W(24dBm)
2
2.5
4W(36dBm)
2
2.5
Note: The lowest nominal output power for all classes of
DCS1800 MS is 0dBm.
Note: A multi-band MS has a combination of the power class
in each band of operation from the table above.
GSM(English) -12
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
b. The transmitter power level relative to time for a normal burst shall be
within the power/time template as shown in the following figure:
+4 dB
+1 dB
0 dB
- 1dB
(**)
(***)
(*)
-6dB
-30dB
(147 bits)
lowest
limt
10
10 8 10
(s)
7056/13=542.8s
Power / time template for normal bursts (NB, FB, DB & SB)
8
(*)GSM900 MS
(*)DCS1800 MS
(**)GSM900 MS
(**)DCS1800 MS
10
-59dBc or -54dBm, whichever is the highest, except for
the time slot preceding the active slot, for which the
allowed value is equal to -59dBc or –36dBm, whichever
is the highest.
-48dBc or -48dBm whichever is the higher
-4dBc for power control level 16
-2dBc for power control level 17
-1dBc for power control level 18 and 19
-4dBc for power control level 11
-2dBc for power control level 12
-1dBc for power control level 13, 14 and 15
(***)GSM900 MS
(***)DCS1800 MS
-30dBc or -17dBm, whichever is the higher
-30dBc or -20dBm, whichever is the higher
(Refer to ETSI EST 300 607-1,
13.3.2 Conformance requirement)
GSM(English)-13
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
5.3
Method of measurement
Two methods of test are described, separately for:
a. equipment fitted with a permanent antenna connector and for
b. equipment fitted with an integral antenna, and which cannot be
connected to an external antenna except by the fitting of a
temporary test connector as a test fixture.
NOTE: The behavior of the MS in the system is determined to a high
degree by the antenna, and this is the only transmitter test in
this ETS using the integral antenna.
(Refer to ETSI EST 300 607-1, 13.3.4 Methods of test)
5.3.1
For equipment with a permanent antenna connector
5.3.1.1 Initial conditions
A call is set up by the SS according to the generic call set up procedure
on a channel with ARFCN in the Mid ARFCN range, power control level
set to the maximum power. MS TXPWR_MAX_CCH is set to the
maximum value supported by the Power Class of the MS under test.
5.3.1.2 Procedure
a) Measurement of normal burst transmitter output power
The SS takes power measurement samples evenly distributed over
the duration of one burst with a sampling rate of at least 2/T, where
T is the bit duration. The samples are identified in time with
respect to the modulation on the burst. The SS identifies the
center of the useful 147 transmitted bits, i.e. the transition from bit
13 to bit 14 of the midamble, as the timing reference.
The transmitter output power is calculated as the average of the
samples over the 147 useful bits.
GSM(English)-14
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
This is also used as the 0dB reference for the power/time template.
b) Measurement of normal burst timing delay
The burst timing delay is the difference in time between the timing
reference identified in a) and the corresponding transition in the
burst received by the MS immediately prior to the MS transmit burst
sampled.
c) Measurement of normal burst power/time relationship
The array of power samples measured in a) are referenced in time
to the center of the useful transmitted bits and in power to the 0 dB
reference, both identified in a).
d) Steps a) to c) are repeated with the MS commanded to operate on
each of the power control levels defined, even those not supported
by the MS.
e) The SS commands the MS to the maximum power control level
supported by the MS and steps a) to c) are repeated for ARFCN in
the Low and High ranges.
f) Measurement of access burst transmitter output power
The SS causes the MS to generate an Access Burst on an ARFCN
in the Mid ARFCN range, this could be either by a handover
procedure or a new request for radio resource. In the case of a
handover procedure the Power Level indicated in the HANDOVER
COMMAND message is the maximum power control level
supported by the MS. In the case of an Access Burst the MS shall
use the Power Level indicated in the MS_TXPWR_MAX_CCH
parameter. If the power class of the MS is DCS1800 Class 3, the
MS shall also use the POWER_OFFSET parameter.
The SS takes power measurement samples evenly distributed over
the duration of the access burst as described in a). However, in
this case the SS identifies the center of the useful bits of the burst
by identifying the transition from the last bit of the synch sequence.
The center of the burst is then five data bits prior to this point and is
used as the timing reference.
The transmitter output power is calculated as the average of the
samples over the 87 useful bits of the burst. This is also used as
GSM(English)-15
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
the 0dB reference for the power/time template.
g) Measurement of access burst timing delay
The burst timing delay is the difference in time between the timing
reference identified in f) and the MS received data on the common
control channel.
h) Measurement of access burst power/time relationship
The array of power samples measured in f) are referenced in time
to the center of the useful transmitted bits and in power to the 0dB
reference, both identified in f).
i) Depending on the method used in step f) to cause the MS to send
an Access Burst, the SS sends either a HANDOVER COMMAND
with power control level set to 10 or it changes the System
Information elements MS_TXPWR_MAX_CCH and for DCS1800
the POWER_OFFSET on the serving cell BCCH in order to limit the
MS transmit power on the Access Burst to power control level 10
(+23 dBm for GSM 900 or +10 dBm for DCS1800) and then steps f)
to h) are repeated.
j) Steps a) to i) are repeated under extreme test conditions (annex 1,
TC2.2) except that the repeats at step d) are only performed for
power control level 10 and the minimum power control level of the
MS.
(Refer to ETSI EST 300 607-1, 13.3.4.1 Method of test for equipment
with a permanent antenna connector)
5.3.2
For equipment with an integral antenna
NOTE: If the MS is equipped with a permanent connector, such that the
antenna can be disconnected and the SS be connected directly,
then the method of section 5.3.1.2 will be applied.
The tests in this section are performed on an unmodified test sample.
GSM(English)-16
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
5.3.2.1 Initial conditions
The MS is placed in the anechoic shielded chamber or on the outdoor
test site, on an isolated support, in the position for normal use, at a
distance of at least 3 meters from a test antenna, connected to the SS.
NOTE: The test method described has been written for measurement in
an anechoic shielded chamber. If an outdoor test site is used
then, in addition, it is necessary to raise/lower the test antenna
through the specified height range to maximize the received
power levels from both the test sample and the substitution
antenna.
A call is set up by the SS according to the generic call set up procedure
on a channel with ARFCN in the Mid ARFCN range, power control level
set to Max power. MS_TXPWR_MAX_CCH is set to the maximum
value supported by the Power Class of the Mobile under test.
5.3.2.2 Procedure
a) With the initial conditions, when measurements are done at
maximum power for ARFCN in the Low, Mid and High range, the
measurement is made eight times with the MS rotated by n45
degrees for all values of n in the range 0 to 7.
The measurements taken are received transmitter output power
measurements rather than transmitter output power measurements,
the output power measurement values can be derived as follows.
b) Assessment of test site loss for scaling of received output power
measurements.
The MS is replaced by a half-wave dipole, resonating at the center
frequency of the transmit band, connected to a RF generator.
The frequency of the RF signal generator is set to the frequency of
the ARFCN used for the 24 measurements in step a), the output
power is adjusted to reproduce the received transmitter output
GSM(English)-17
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
power averages recorded in step a).
For each indication the power, delivered by the generator (in Watts)
to the half-wave dipole, is recorded. These values are recorded in
the form Pnc, where n = MS rotation and c = channel number.
For each channel number used compute:
Pac(Watts into dipole)
1 n 7
* Pnc
8 n0
from which: Pac(TX dBm) = 10log10(Pac)+30+2.15
The difference, for each of the three channels, between the actual
transmitter output power averaged over the 8 measurement
orientations and the received transmitter output power at orientation
n = 0 is used to scale the received measurement results to actual
transmitter output powers for all measured power control levels and
ARFCN, which can then be checked against the requirements.
c) Temporary antenna connector calibration factors (transmit)
A modified test sample equipped with a temporary antenna
connector is placed in a climatic test chamber and is linked to the
SS by means of the temporary antenna connector.
NOTE:
The values noted here are related to the output
transmitter carrier power levels under normal test
conditions, which are known after step b). Therefore
frequency dependent calibration factors that account for
the effects of the temporary antenna connector can be
determined.
(Refer to ETSI EST 300 607-1, 13.3.4.2 Method of test for equipment
with an integral antenna)
5.4
Test requirement
a. The transmitter output power, under every combination of normal
and extreme test conditions, for normal bursts and access bursts, at
each frequency and for each power control level applicable to the
MS power class, shall be at the relevant level shown in following
GSM(English)-18
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
table within the tolerances also shown in following table
GSM900 transmitter output power for different power classes
Power class
2
3
4
5
Power control Transmitter
Tolerances for conditions
level
output power
dBm
normal (dB) extreme (dB)
2
39
2
2.5
3
37
3 *)
4*)
4
35
3
4
5
33
3 *)
4 *)
6
31
3
4
7
29
3 *)
4 *)
8
27
3
4
9
25
3
4
10
23
3
4
11
21
3
4
12
19
3
4
13
17
3
4
14
15
3
4
15
13
3
4
16
11
5
6
17
9
5
6
18
7
5
6
19
5
5
6
*) When the power control level corresponds to the power class of the MS, then the tolerances
shall be 2.0 dB under normal test conditions and 2.5 dB under extreme test conditions.
DCS1800 transmitter output power for different power classes
Power class
1
2
3
Power control Transmitter
Tolerances for conditions
level
output power
dBm
normal (dB) extreme (dB)
29
36
2
2.5
30
34
3
4
31
32
3
4
0
30
3*)
4*)
1
28
3
4
2
26
3
4
3
24
3*)
4*)
4
22
3
4
5
20
3
4
6
18
3
4
7
16
3
4
8
14
3
4
9
12
4
5
GSM(English)-19
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
10
11
12
13
14
15
10
8
6
4
2
0
4
4
4
4
5
5
5
5
5
5
6
6
*) When the power control level corresponds to the power class of the MS, then the tolerances
shall be 2.0 dB under normal test conditions and 2.5 dB under extreme test conditions.
b. The difference between the transmitter output power at two adjacent
power control levels, measured at the same frequency, shall not be
less than 0.5 dB and not be more than 3.5 dB.
c. The power/time relationship of the measured samples for normal
bursts shall be within the limits of the power time template at each
frequency, under every combination of normal and at each power
control level measured.
+4 dBc
+1 dBc
0 dBc
- 1dBc
(*)
-6dBc
(**)
-30dBc
(87 bits)
10
8
10
7056/13=542.8μs
10
8
10
(μs)
Power / time template for normal bursts
(*) For GSM900 MS:
For DCS1800 MS:
(**) For GSM900 MS:
-4dBc for power control level 16
-2dBc for power control level 17
-1dBc for power control levels 18 and 19
-4dBc for power control level 11
-2dBc for power control level 12
-1dBc for power control levels 13, 14 and 15
-30dBc or -17dBm, whichever is the higher
GSM(English)-20
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
For DCS1800 MS:
-30dBc or -20dBm, whichever is the higher
Lowest measurement limit for power / time template
GSM900
DCS1800
lowest limit
-59dBc or -54dBm whichever is the highest,
except for the timeslot preceding the active
slot, for which the allowed level is equal to
-59dBc or -36dBm, whichever is the highest
-48dBc or -48dBm whichever is the highest
d. All the power control levels, for the type and power class of the MS
as stated by the manufacturer, shall be implemented in the MS.
e. When the transmitter is commanded to a power control level outside
of the capability corresponding to the type and power class of the
MS as stated by the Applicant, then the transmitter output power
shall be within the tolerances for the closest power control level
corresponding to the type and power class as stated by the
Applicant.
f. The center of the transmitted normal burst as defined by the
transition of bits 13,14 of the midamble shall be 3 timeslot periods
(1731s) 1 bit period ( 3.69 s) after the center of the
corresponding received burst.
g. The power/time relationship of the measured samples for access
bursts shall be within the limits of the power time template at each
frequency, under every combination of normal and at each power
control level measured.
GSM(English)-21
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
+4 dBc
+1 dBc
0 dBc
- 1dBc
(*)
-6dBc
(**)
-30dBc
(87 bits)
10
8
10
4176/13=321.2μs
10
8
10
(μs)
Power / time template for access burst
(*) For GSM900 MS:
-4dBc for power control level 16
For DCS1800 MS:
(**) For GSM900 MS:
For DCS1800 MS:
-2dBc for power control level 17
-1dBc for power control levels 18 and 19
-4dBc for power control level 11
-2dBc for power control level 12
-1dBc for power control levels 13, 14 and 15
-30dBc or -17dBm, whichever is the higher
-30dBc or -20dBm, whichever is the higher
h. The center of the transmitted access burst shall be an integer
number of timeslot periods less 30 bit periods relative to any CCCH
midamble center with a tolerance of 1 bit period (3.69s).
(Refer to ETSI EST 300 607-1, 13.3.5 Test requirements)
6.
Duplex Spacing
6.1
Test purpose
To verify that when MS is allocated a channel, the duplex space
between carrier frequency of TX and RX shall be 45MHz in 900MHz
band and 95MHz in 1800MHz band respectively to ensure the
transmitter not interfere the receiver.
GSM(English)-22
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
6.2
Conformance requirement
Duplex space between carrier frequency of TX and RX shall be 45MHz
in 900MHz band.
Duplex space between carrier frequency of TX and RX shall be 95MHz
in 1800MHz band.
6.3
Method of measurement
6.3.1
Initial conditions
A call is set up by the SS according to the generic call set up procedure
on a channel in the Mid ARFCN range.
The SS commands the MS to loop back its channel decoder output to
channel encoder input.
The SS sends Standard Test Signal C1.
The SS sets the MS to operate at its maximum output power.
6.3.2
Procedure
(a) Initially the test antenna is closely coupled to the MS and any
frequency produced by the MS is detected by the test antenna and
receiver in the range 30MHz to 2GHz.
NOTE: This is a qualitative step to identify the frequencies which are
measured in subsequent steps.
(b) The settings of tuned spectrum analyzer are set as follows:
Zero frequency scan
Resolution bandwidth:
30KHz
Video bandwidth:
30KHz
(c) When MS is allocated a channel, the SS sends Standard Test Signal
C1 and MS responses and performs frequency hopping mode to
GSM(English)-23
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
establish an ARFCN channel.
Frequency hopping mode includes tree channel in low ARFCN,
middle ARFCN and high ARFCN respectively.
By tuning the spectrum analyzer center frequency to the
measurement frequencies and measuring the following frequencies:
900MHz band:
(RX+n×0.2MHz)(TX+n×0.2MHz)= 45MHz
1 n 124
1800MHz band:
RX+0.2×(n512)MHzTX+0.2×(n512)MHz= 95MHz
512 n 885
6.4
Test requirement
Measurement of any frequencies in 900MHz band shall meet the
following table:
Frequency range
Operating frequency
Channel number
TX: 890MHz~915MHz
890+n×0.2MHz
1 n 124
RX: 935MHz~960MHz
935+n×0.2MHz
1 n 124
RX carrier center frequency TX carrier center frequency = 45MHz
Measurement of any frequencies in 1800MHz band shall meet the
following table:
Frequency range
Operating frequency
Channel number
TX:1710MHz~1785MHz 1710.2+(n512)×0.2MHz
512 n 885
RX:1805MHz~1880MHz 1805.2+(n512)×0.2MHz
512 n 885
RX carrier center frequency TX carrier center frequency = 95MHz
7.
Channel Spacing
7.1
Test purpose
To verify that when MS is allocated a channel, the channel space is
200KHz to avoid the adjacent channel interference.
GSM(English)-24
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
7.2
Conformance requirement
The adjacent channel space of above and below shall be 200KHz.
7.3
Method of measurement
7.3.1
Initial conditions
A call is set up by the SS according to the generic call set up procedure
on a channel in the Mid ARFCN range.
The SS commands the MS to loop back its channel decoder output to
channel encoder input.
The SS sends Standard Test Signal C1.
The SS sets the MS to operate at its maximum output power.
7.3.2
Procedure
(a) Initially the test antenna is closely coupled to the MS and any
frequency produced by the MS is detected by the test antenna and
receiver in the range 30MHz to 2GHz
NOTE: This is a qualitative step to identify the frequencies which are
to be measured in subsequent steps.
(b) The settings of tuned spectrum analyzer are set as follows:
Zero frequency scan
-
Resolution bandwidth:
Video bandwidth:
30KHz
30KHz
(c) When MS is allocated a channel, the SS sends Standard Test Signal
C1 and MS responses and performs frequency hopping mode to
establish an ARFCN channel.
Frequency hopping mode includes tree channels in low ARFCN,
middle ARFCN and high ARFCN respectively.
GSM(English)-25
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
By tuning the spectrum analyzer center frequency to the
measurement frequencies and measuring the following frequencies:
900MHz band:
(FT+n×0.2MHz)FT+(n-1)×0.2MHz= 0.2MHz
1 n 124
1800MHz band:
FT+(n511)×0.2MHzFT+(n-512)×0.2MHz= 0.2MHz
512 n 885
Note: FT is equal to the hop pattern center frequency of ARFCN in
the low Mid and High ARFCN ranges respectively.
7.4
Test requirement
Measurement of any frequencies in 900MHz band shall meet the
following table:
Frequency range
Channel space
Channel number
TX: 890MHz~915MHz
200KHz
1 n 124
RX:935MHz~960MHz
200KHz
1 n 124
(FT+n×0.2MHz)FT+(n1)×0.2MHz= 200KHz
Measurement of any frequencies in 1800MHz band shall meet the
following table:
Frequency range
Channel space
Channel number
TX:1710MHz~1785MHz
200KHz
512 n 885
RX:1805MHz~1880MHz
200KHz
512 n 885
FT+(n511)×0.2MHzFT+(n-512)×0.2MHz= 200kHz
8.
Spurious Emissions
8.1
Conducted spurious emissions
8.1.1
MS allocated a channel
GSM(English)-26
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
Conducted spurious emissions, when the MS has been allocated a
channel, are emissions from the antenna connector at frequencies other
than those of the carrier and sidebands associated with normal
modulation.
8.1.1.1 Test purpose
To verify that conducted spurious emissions, in the frequency band
100KHz to 12.75GHz excluding the GSM900 and DCS1800 receive
bands, from the MS when allocated a channel shall not exceed the
conformance requirements.
NOTE: The band 9~100KHz is not tested, because of test
implementation problems.
(Refer to ETSI EST 300 607-1, 12.1.1.3 Test purpose)
8.1.1.2 Conformance requirement
The conducted spurious power emitted by the MS, when allocated a
channel, under normal voltage conditions, shall be no more than the
levels in following table.
Frequency range
100 kHz to1GHz
1GHz to12.75GHz
1GHz to1710MHz
1710MHz to 1785MHz
1785MHz to 12.75GHz
Power level in dBm
GSM900
DCS1800
-36
-36
-30
-30
-36
-30
The requirements and this test apply to all types of GSM900 and
DCS1800 MS with a permanent antenna connector.
(Refer to ETSI EST 300 607-1, 12.1.1.2 Conformance requirement)
8.1.1.3 Method of measurement
8.1.1.3.1 Initial conditions
A call is set up by the SS according to the generic call set up
GSM(English)-27
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
procedure on a channel in the Mid ARFCN range.
The SS commands the MS to loop back its channel decoder output to
channel encoder input.
The SS sends Standard Test Signal C1.
The SS sets the MS to operate at its maximum output power.
8.1.1.3.2 Procedure
Measurements are made in the frequency range 100 kHz to
12,75GHz. Spurious emissions are measured at the connector of the
transceiver, as the power level of any discrete signal, higher than the
requirement minus 6 dB, delivered into a 50Ohm load.
The measurement bandwidth based on a 5 pole synchronously tuned
filter. The power indication is the peak power detected by the
measuring system.
The measurement on any frequency shall be performed for at least
one TDMA frame period with the exception of the idle frame.
Frequency
range
100KHz to 50MHz
50 to 500MHz
500MHz to12.75GHz
excl. relevant TX band:
P-GSM:890 to 915MHz
DCS:1710 to 1785MHz
and the RX bands:
925 to 960MHz
1805to 1880MHz
Frequency
Filter
Approx. video
offset
bandwidth bandwidth
10KHz
30KHz
100KHz
300KHz
0 to10MHz 100KHz
300KHz
1MHz
10MHz 300KHz
1MHz
3MHz
20MHz
3MHz
3MHz
30MHz
(offset from edge
of relevant TX
band)
relevant TX band:
P-GSM:890 to 915MHz
1.8 to 6.0MHz
DCS:1710 to 1785MHz (offset from carrier)
30kHz
100kHz
NOTE 1: The frequency ranges 925MHz to 960MHz and 1805MHz to
1880MHz are excluded as these ranges are tested.
NOTE 2: The filter and video bandwidths, and frequency offsets are only
correct for measurements on an MS transmitting on a channel
GSM(English)-28
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
in the Mid ARFCN range.
NOTE 3: Due to practical implementation, the video bandwidth is
restricted to a maximum of 3MHz.
(Refer to ETSI EST 300 607-1, 12.1.1.4 Method of test)
8.1.1.4 Test Requirement
The power of any spurious emission shall not exceed the levels given
in following table.
Frequency range
100KHz to1GHz
1GHz to12.75GHz
1GHz to1710MHz
1710MHz to 1785MHz
1785MHz to 12.75GHz
Power level in dBm
GSM900
DCS1800
-36
-36
-30
-30
-36
-30
(Refer to ETSI EST 300 607-1, 12.1.1.5 Test requirement)
8.1.2
MS allocated a channel
Conducted spurious emissions are any emissions from the antenna
connector, when the MS is in idle mode.
The requirements and this test apply to all types of GSM900 and
DCS1800 MS with a permanent antenna connector.
(Refer to ETSI EST 300 607-1, 12.1.2 MS allocated a channel)
8.1.2.1 Test purpose
To verify that conducted spurious emissions, in the frequency band
100KHz to 12.75GHz from the MS when in idle mode do not exceed
the conformance requirements.
NOTE: The band 9 ~100KHz is not tested, because of test
implementation problems.
(Refer to ETSI EST 300 607-1, 12.1.2.3 Test purpose)
GSM(English)-29
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
8.1.2.2 Conformance requirement
The conducted spurious power emitted by the MS, when in idle mode,
under normal voltage conditions shall be no more than the levels in
following table.
Frequency range
9KHz to 880MHz
880MHz to 915MHz
915MHz to 1GHz
1GHz to 1710MHz
1710MHz to 1785MHz
1785MHz to 12.75GHz
Power level in dBm
-57
-59
-57
-47
-53
-47
The requirements and this test apply to all types of GSM900 and
DCS1800 MS with a permanent antenna connector.
(Refer to ETSI EST 300 607-1, 12.1.2.2 Conformance requirement)
8.1.2.3 Method of measurement
8.1.2.3.1 Initial conditions
The BCCH message content from the serving cell shall ensure that
Periodic Location Updating is not used and that page mode is
continuously set to Paging Reorganization and BS_AG_BLKS_RES
is set to 0 so that the MS receiver will operate continually.
The CCCH_CONF shall be set to 000. 1 basic physical channel used
for CCCH not combined with SDCCHs.
The BCCH allocation shall either be empty or contain only the serving
cell BCCH.
NOTE: This is to ensure that the receiver does not scan other ARFCN.
Scanning other ARFCN could lead to a moving in frequency of
the spurious and therefore to the possibility of either not
measuring a spurious emission or measuring it more than
once.
The MS is in MM state "idle, updated".
GSM(English)-30
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
8.1.2.3.2 Procedure
Measurements are made in the frequency range 100KHz to 12.75GHz.
Spurious emissions are measured as the power level of any discrete
signal, higher than the requirement in table 12.4 minus 6 dB, delivered
into a 50Ohm load.
The measurement bandwidth based on a 5 pole synchronously tuned
filter is set according to table 12.5. The power indication is the peak
power detected by the measuring system.
The measurement time on any frequency shall be such that it includes
the time during which the MS receives a TDMA frame containing the
paging channel.
Frequency range
100KHz to 50MHz
50MHz to 12.75GHz
Filter bandwidth
10KHz
100KHz
Video bandwidth
30KHz
300KHz
(Refer to ETSI EST 300 607-1, 12.1.2.4 Method of test)
8.1.2.4 Test requirement
The power of any spurious emission shall not exceed the levels given
in following table.
Frequency range
Power level in dBm
100kHz to 880MHz
-57
880MHz to 915MHz
-59
915MHz to 1000MHz
-57
1GHz to 1710MHz
-47
1710MHz to 1785MHz
-53
1785MHz to 12.75GHz
-47
(Refer to ETSI EST 300 607-1, 12.1.2.5 Test requirement)
8.2
Radiated spurious emissions
8.2.1
MS in allocated a channel
GSM(English)-31
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
Radiated spurious emissions, when the MS has been allocated a
channel, are any emissions radiated by the cabinet and structure of the
mobile station, including all interconnecting cables.
This is also known as "cabinet radiation".
The requirements apply to all types of GSM900 and DCS1800 MS. The
test applies to all types of GSM900 and DCS1800 MS with the
exception of the test at extreme voltages for an MS where a practical
connection, to an external power supply, is not possible.
NOTE: A "practical connection" shall be interpreted to mean it is
possible to connect extreme voltages to the MS without
interfering with the configuration of the MS in a way which could
invalidate the test.
(Refer to ETSI EST 300 607-1, 12.2.1 MS in allocated a channel)
8.2.1.1 Test purpose
To verify that radiated spurious emissions from the MS when allocated a
channel shall not exceed the conformance requirements under normal
voltage conditions.
(Refer to ETSI EST 300 607-1, 12.2.1.3 Test purpose)
8.2.1.2 Conformance requirement
The radiated spurious power emitted by the MS, when allocated a
channel, under normal voltage conditions, shall be no more than the
levels in following table:
Frequency range
30KHz to1GHz
1GHz to 4GHz
1GHz to1710MHz
1710MHz to 1785MHz
1785MHz to 4GHz
Power level in dBm
GSM900
DCS1800
-36
-36
-30
-30
-36
-30
The requirements apply to all types of GSM900 and DCS1800 MS. The
test applies to all types of GSM900 and DCS1800 MS with the
exception of the test at extreme voltages for an MS where a practical
GSM(English)-32
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
connection, to an external power supply, is not possible.
(Refer to ETSI EST 300 607-1, 12.2.1.2 Conformance requirement)
8.2.1.3 Method of measurement
8.2.1.3.1 Initial conditions
A call is set up by the SS according to the generic call set up
procedure on a channel in the Mid ARFCN range.
NOTE: The power supply shall be connected to the MS such that the
physical configuration does not change in a way that could
have an effect on the measurement. In particular, the battery
pack of the MS should not normally be removed. In cases
where no practical connection can be made to the power
supply, the MS's intended battery source shall be used.
The SS commands the MS to loop back its channel decoder output to
its channel encoder input.
The SS sends Standard Test Signal C1.
The SS sets the MS to operate at its maximum output power.
8.2.1.3.2 Initial conditions
Initially the test antenna is closely coupled to the MS and any spurious
emission radiated by the MS is detected by the test antenna and
receiver in the range 30MHz to 4GHz.
NOTE:
This is a qualitative step to identify the frequency and
presence of spurious emissions which are to be measured in
subsequent steps.
The test antenna separation is set to the appropriate measurement
distance and at each frequency at which an emission has been
detected, the MS shall be rotated to obtain maximum response and
the effective radiated power of the emission determined by a
substitution measurement. In case of an anechoic shielded chamber
pre-calibration may be used instead of a substitution measurement.
The measurement bandwidth, based on a 5 pole synchronously tuned
filter, is set according to following table. The power indication is the
GSM(English)-33
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
peak power detected by the measuring system.
The measurement on any frequency shall be performed for at least
one TDMA frame period, with the exception of the idle frame.
NOTE 1: This ensures that both the active times (MS transmitting) and
the quiet times are measured.
NOTE2: For these filter bandwidths some difficulties may be
experienced with noise floor above required measurement
limit. This will depend on the gain of the test antenna, and
adjustment of the measuring system bandwidth is
permissible. Alternatively, for test frequencies above 900
MHz, the test antenna separation from the MS may be
reduced to 1 meter.
The measurements are repeated with the test antenna in the
orthogonal polarization plane.
Frequency
range
30 to 50MHz
50 to 500MHz
500MHz to 4GHz,
excl. relevant TX band:
P-GSM: 890 to 915MHz
DCS: 1710 to 1785MHz
Frequency
offset
0 to 10MHz
10MHz
20MHz
30MHz
(offset from edge
of relevant TX
band)
relevant TX band:
P-GSM: 890 to 915MHz
1.8 to 6.0MHz
DCS: 1710 to 1785MHz (offset from
carrier)
Filter
bandwidth
10KHz
100KHz
100KHz
300KHz
1MHz
3MHz
Approx. video
bandwidth
30KHz
300KHz
300KHz
1MHz
3MHz
3MHz
30MHz
100KHz
NOTE 1: The filter and video bandwidths, and frequency offsets are
only correct for measurements on an MS transmitting on a
channel in the Mid ARFCN range.
NOTE 2: Due to practical implementation of a SS, the video bandwidth
is restricted to a maximum of 3MHz.
(Refer to ETSI EST 300 607-1, 12.2.1.4 Method of test)
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8.2.1.4 Test requirement
The power of any spurious emission shall not exceed the levels given in
following table.
(Refer to ETSI EST 300 607-1, 12.2.1.5 Test requirement)
8.2.2
MS in idle mode
Radiated spurious emissions, when the MS is in idle mode, are any
emissions radiated by the cabinet and structure of the mobile station,
including all interconnecting cables.
This is also known as "cabinet radiation".
The requirements apply to all types of GSM900 and DCS1800 MS. The
test applies to all types of GSM900 and DCS1800 MS with the
exception of the test at extreme voltages for an MS where a practical
connection, to an external power supply, is not possible.
NOTE:
A "practical connection" shall be interpreted to mean it is
possible to connect extreme voltages to the MS without
interfering with the configuration of the MS in a way which
could invalidate the test.
(Refer to ETSI EST 300 607-1, 12.2.2 MS in idle mode)
8.2.2.1 Test purpose
To verify that radiated spurious emissions from the MS when in idle
mode do not exceed the requirements under normal voltage conditions.
(Refer to ETSI EST 300 607-1, 12.2.2.3 Test purpose)
8.2.2.2 Conformance requirement
a) The radiated spurious power emitted by the MS, when in idle mode,
under normal voltage conditions, shall be no more than the levels in
following table.
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b) The radiated spurious power emitted by the MS, when in idle mode,
shall be no more than the levels in following table.
Frequency range
30KHz to 880MHz
880MHz to 915MHz
915MHz to 1GHz
1GHz to 1710MHz
1710MHz to 1785MHz
1785MHz to 12.75GHz
Power level in dBm
-57
-59
-57
-47
-53
-47
The requirements apply to all types of GSM900 and DCS1800 MS. The
test applies to all types of GSM900 and DCS1800 MS with the
exception of the test at extreme voltages for an MS where a practical
connection, to an external power supply, is not possible.
(Refer to ETSI EST 300 607-1, 12.2.2.2 Conformance requirement)
8.2.2.3 Method of measurement
8.2.2.3.1 Initial conditions
NOTE: The power supply shall be connected to the MS such that the
physical configuration does not change in a way that could
have an effect on the measurement. In particular, the battery
pack of the MS should not normally be removed. In cases
where no practical connection can be made to the power
supply, the MS's intended battery source shall be used.
The BCCH message content from the serving cell shall ensure that
Periodic Location Updating is not used and that page mode is
continuously set to Paging Reorganization and BS_AG_BLKS_RES
is set to 0 so that the MS receiver will operate continually.
The CCCH_CONF shall be set to 000. 1 basic physical channel used
for CCCH not combined with SDCCHs.
The BCCH allocation shall either be empty or contain only the serving
cell BCCH.
NOTE: This is to ensure that the receiver does not scan other ARFCN.
Scanning other ARFCN could lead to a moving in frequency of
the spurious and therefore to the possibility of either not
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measuring a spurious emission or measuring it more than
once.
The MS is in MM state "idle, updated".
8.2.2.3.2 Procedure
Initially the test antenna is closely coupled to the MS and any spurious
emission radiated by the MS are detected by the test antenna and
receiver in the range 30MHz to 4GHz.
NOTE: This is a qualitative step to identify the frequency and
presence of spurious emissions which are to be measured in
subsequent steps.
The test antenna separation is set to the appropriate measurement
distance and at each frequency at which a spurious emission has
been detected the MS is rotated to obtain a maximum response.
The effective radiated power of the emission is determined by a
substitution measurement. In case of an anechoic shielded chamber
pre-calibration may be used instead of a substitution measurement.
The measurement bandwidth based on a 5 pole synchronously tuned
filter shall be according to following table. The power indication is the
peak power detected by the measuring system.
The measurement time on any frequency shall be such that it includes
the time during which the MS receives a TDMA frame containing the
paging channel.
NOTE: For these filter bandwidths some difficulties may be
experienced with noise floor above required measurement
limit. This will depend on the gain of the test antenna, and
adjustment of the measuring system bandwidth is
permissible. Alternatively, for test frequencies above 900MHz,
the test antenna separation from the MS may be reduced to
1 meter.
Frequency range
30MHz to 50MHz
50MHz to 4GHz
Filter bandwidth
10KHz
100KHz
Video bandwidth
30KHz
300KHz
The measurements are repeated with the test antenna in the
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orthogonal polarization plane.
(Refer to ETSI EST 300 607-1, 12.2.2.4 Method of test)
8.2.2.4 Test requirement
The power of any spurious emission shall not exceed the levels given in
following table.
(Refer to ETSI EST 300 607-1, 12.2.2.5 Test requirement)
9.
Frequency Error
9.1
Frequency error due to modulation
The frequency error is the difference in frequency, after adjustment for
the effect of the modulation and phase error, between the RF
transmission from the MS and either the RF transmission from the BS or
the nominal frequency for the ARFCN used.
9.1.1
Test purpose
To verify that the MS carrier frequency error does not exceed 0,1 ppm:
(a) Under normal conditions.
(b) When the MS is being vibrated.
NOTE: The transmit frequency accuracy of the SS is expected to be
sufficient to ensure that the difference between 0.1ppm absolute
and 0.1ppm compared to signals received from the BS would be
small enough to be considered insignificant.
(Refer to ETSI EST 300 607-1, 13.1.3 Test purpose)
9.1.2
Conformance requirement
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The MS carrier frequency shall be accurate to within 0.1ppm, or
accurate to within 0.1ppm compared to signals received from the BS.
(a) Under normal conditions.
(b) Under vibration conditions.
The requirements and this test apply to all types of GSM900 and
DCS1800 MS.
(Refer to ETSI EST 300 607-1, 13.1.2 Conformance requirement)
9.1.3
Method of measurement
NOTE: In order to measure the accuracy of the frequency and phase
error a sampled measurement of the transmitted phase
trajectory is obtained. This is compared with the theoretically
expected phase trajectory. The regression line of the difference
between the expected trajectory and the measured trajectory is
an indication of the frequency error (assumed constant through
the burst), whilst the departure of the phase differences from
this trajectory is a measure of the phase error. The peak phase
error is the value furthest from the regression line and the RMS
phase error is the root mean square average of the phase error
of all samples.
9.1.3.1 Initial conditions
A call is set up according to the Generic call setup procedure.
The SS commands the MS to hopping mode.
NOTE: It is not necessary to test in hopping mode but is done here as a
simple means of making the MS change channel, it would be
sufficient to test in non hopping mode and to make sure bursts
are taken from a few different channels.
The SS activates ciphering mode.
NOTE: Ciphering mode is active during this test to give a
pseudo-random bit stream to the modulator.
The SS commands the MS to complete the traffic channel loop back
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without signaling of erased frames.
The SS generates Standard Test Signal C1.
9.1.3.2 Procedure
a)
For one transmitted burst, the SS captures the signal as a series
of phase samples over the period of the burst. These samples are
evenly distributed over the duration of the burst with a minimum
sampling rate of 2/T, where T is the modulation symbol period.
The received phase trajectory is then represented by this array of
at least 294 samples.
b)
c)
The SS then calculates, from the known bit pattern and the formal
definition of the modulator contained in GSM 05.04, the expected
phase trajectory.
From a) and b) the phase trajectory error is calculated, and a
linear regression line computed through this phase trajectory error.
The slope of this regression line is the frequency error of the
mobile transmitter relative to the simulator reference. The
difference between the regression line and the individual sample
points is the phase error of that point.
c.1) The sampled array of at least 294 phase measurements is
represented by the vector:
m=m(0)…m(n)
where the number of samples in the array n+1 >= 294.
c.2) The calculated array, at the corresponding sampling instants,
is represented by the vector:
c=c(0)…c(n).
c.3) The error array is represented by the vector:
e={m(0) - c(0)}…{m(n) - c(n)}= e(0)…e(n)
c.4) The corresponding sample numbers form a vector t =
t(0)...t(n).
c.5) By regression theory the slope of the samples with respect to
t is k where:
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Specifications
j n
k
t j * j
e
j 0
j n
t j
2
j 0
c.6) The frequency error is given by k/(360 * ), where is the
sampling interval in s and all phase
samples are measured in degrees.
c.7) The individual phase errors from the regression line are given
by:
e(j) – k*t(j).
c.8) The RMS valueψe of the phase errors is given by:
j n
2
{ e j k * t j}
j0
e RMS
n 1
1
2
d)
Steps a) to c) are repeated for 20 bursts, not necessarily
contiguous.
e)
The SS instructs the MS to its maximum power control level, all
other conditions remaining constant. Steps a) to d) are repeated.
The SS instructs the MS to the minimum power control level, all
other conditions remaining constant. Steps a) to d) are repeated.
The MS is hard mounted on a vibration table and vibrated at the
frequency/amplitudes.
f)
g)
During the vibration steps a) to f) are repeated.
NOTE: If the call is terminated when mounting the MS to the
vibration table, it will be necessary to establish the initial
conditions again before repeating steps a) to f).
h)
The MS is re-positioned on the vibration table in the two
orthogonal planes to the plane used in step g). For each of the
orthogonal plane step g) is repeated.
NOTE: The series of samples taken to determine the phase
trajectory could also be used, with different
post-processing, to determine the transmitter burst
characteristics.
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(Refer to ETSI EST 300 607-1, 13.1.4 Method of test)
9.1.4
Test requirement
For all measured bursts, the frequency error, derived in step c.6), shall
be less than 0.1ppm.
(Refer to ETSI EST 300 607-1, 13.1.5 Test requirement)
9.2
Frequency error under multipath and interference conditions
The frequency error under multipath and interference conditions is a
measure of the ability of the MS to maintain frequency synchronization
with the received signal under conditions of Doppler shift, multipath
reception and interference.
9.2.1
Test purpose
(a) To verify that the MS carrier frequency error at reference sensitivity,
under conditions of multipath and Doppler shift shall not exceed
0.1ppm plus the frequency error due to the Doppler shift of the
received signal and the assessment error in the MS.
NOTE: Although the conformance requirement states that frequency
synchronization should be maintained for input signals 3 dB
below reference sensitivity. Due to the Radio Link Failure
counter this test condition cannot be established. Hence all
tests in this section are conducted at reference sensitivity
level.
(b) To verify that the MS carrier frequency error, under interference
conditions and TU low fading profile, shall not exceed 0.1ppm plus
the frequency error due to the Doppler shift of the received signal
and the assessment error in the MS.
NOTE:The test adds the effect of Doppler shift to the requirements
as the conformance requirement refers to signals input to the
MS receiver whereas the frequency reference for
measurement will not take account of the Doppler shift.
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(Refer to ETSI EST 300 607-1, 13.2.3 Test purpose)
9.2.2
Conformance requirement
(a) The MS carrier frequency error for each burst shall be accurate to
within 0.1ppm, or 0.1ppm compared to signals received from the BS
for signal levels down to 3 dB below the reference sensitivity level.
(b) The MS carrier frequency error for each burst shall be accurate to
within 0.1ppm, or 0.1ppm compared to signals received from the BS
for 3 dB less carrier to interference ratio than the reference
interference ratios.
The requirements and this test apply to all types of GSM900 and
DCS1800 MS.
(Refer to ETSI EST 300 607-1, 13.2.2 Conformance requirement)
9.2.3
Method of measurement
This test uses the same measurement process as above test 9.1 for the
MS operating under various RF conditions.
NOTE: The BA list sent on the BCCH and the SACCH will indicate at
least six surrounding cells with at least one near to each band
edge. It is not necessary to generate any of these BCCH but if
they are provided none will be within 5 channels of the ARFCN
used for the serving BCCH or TCH.
9.2.3.1 Initial conditions
The MS is brought into the idle updated state on a serving cell with
BCCH in the mid ARFCN range.
9.2.3.2 Procedure
a)
The level of the serving cell BCCH is set to 10 dB above the
reference sensitivity level( ) and the fading function set to RA.
The SS waits 30 s for the MS to stabilize to these conditions. The
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SS is set up to capture the first burst transmitted by the MS during
call establishment. A call is initiated by the SS on a channel in
the mid ARFCN range as described for the generic call set up
procedure but to a TCH at level 10dB above the reference
sensitivity level( ) and fading function set to RA.
b)
The SS calculates the frequency accuracy of the captured burst.
c)
The SS sets the serving cell BCCH and TCH to the reference
sensitivity level( ) applicable to the type of MS, still with the fading
function set to RA and then waits 30s for the MS to stabilize to
these conditions.
d)
The SS shall capture subsequent bursts from the traffic channel.
NOTE: Due to the very low signal level at the MS receiver input
the MS receiver is liable to error. The "looped back" bits
are therefore also liable to error, and hence the SS does
not know the expected bit sequence. The SS will have
to demodulate the received signal to derive (error free)
the transmitter burst bit pattern. Using this bit pattern
the SS can calculate the expected phase trajectory.
e)
The SS calculates the frequency accuracy of the captured burst.
f)
Steps d) and e) are repeated for 5 traffic channel bursts spaced
over a period of not less than 20s.
g)
The initial conditions are established again and steps a) to f) are
repeated but with the fading function set to HT100.
h)
The initial conditions are established again and steps a) to f) are
repeated but with the fading function set to TU50.
i)
The initial conditions are established again and steps a) and b)
are repeated but with the following differences:
- the levels of the BCCH and TCH are set to 18dB above
reference sensitivity level( ).
- two further independent interfering signals are sent on the same
nominal carrier frequency as the BCCH and TCH and at a level
10 dB below the level of the TCH and modulated with random
data, including the midamble.
- the fading function for all channels is set to TU low.
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j)
The SS waits 100s for the MS to stabilize to these conditions.
k)
Repeat steps d) to f), except that at step f) the measurement
period must be extended to 200s and the number of
measurements increased to 20.
l)
The initial conditions are established again and steps a) to k) are
repeated for ARFCN in the Low ARFCN range.
m) The initial conditions are established again and steps a) to k) are
repeated for ARFCN in the High ARFCN range.
(Refer to ETSI EST 300 607-1, 13.2.4 Method of test)
9.2.4
Test requirement
The frequency error, with reference to the SS carrier frequency as
measured in repeats of step e), for each measured burst shall be less
than the values shown in following table.
Requirements for frequency error under multipath, Doppler shift and interference conditions
GSM900
Propagation
Permitted
condition
frequency error
RA250
300Hz
HT100
180Hz
TU50
160Hz
TU3
230Hz
DCS1800
Propagation
Permitted frequency
condition
error
RA130
400Hz
HT100
350Hz
TU50
260Hz
TU1.5
320Hz
(Refer to ETSI EST 300 607-1, 13.2.5 Test requirement)
10.
Output RF spectrum
10.1
Test purpose
a. To verify that the output RF spectrum due to modulation does not
exceed the following conformance requirement a.
b. To verify that the output RF spectrum due to switching transients
does not exceed the following conformance requirement b when a
reasonable margin is allowed for the effect of spectrum due to
modulation.
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Specifications
c. To verify that the MS spurious emissions in the MS receive band do
not exceed the following conformance requirement c.
The requirements and this test apply to all types of GSM900 and
DCS1800 MS.
(Refer to ETSI EST 300 607-1, 13.4.3 Test purpose)
10.2
Conformance requirement
a. The level of the output RF spectrum due to modulation shall be no
more than that given the following lowest measurement limits:
-
36dBm below 600KHz offset from the carrier,
51dBm for GSM900 or 56dBm for DCS1800 from 600KHz out
to less than 1800KHz offset from the carrier,
-
46dBm for GSM900 or 51dBm for DCS1800 at and beyond
1800KHz offset from the carrier,
but with the following exceptions at up to 36dBm:
- up to three bands of 200KHz width centered on a frequency which
is an integer multiple of 200KHz in the combined range 600 kHz to
6000KHz above and below the carrier,
- up to 12 bands of 200KHz width centered on a frequency which is
an integer multiple of 200KHz at more than 6000KHz offset from
the carrier.
Spectrum due to the modulation
Maximum carrier power level tolerance in (dB)
relative to carrier frequency offset (KHz)
Power level in
Measurement bandwidth
Measurement bandwidth
dBm
30KHz
100KHz
100
GSM
900
200 250 400
600~
1200~
1800~
3000~ 6000
1200
1800
3000
6000
39
+0.5
30 33 60
66
66
69
71
77
37
+0.5
30 33 60
64
64
67
69
75
35
+0.5
30 33 60
62
62
65
67
73
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DCS
1800
33
+0.5
30 33 60
60
60
63
65
71
36
+0.5
30 33 60
60
60
71
79
34
+0.5
30 33 60
60
60
69
77
32
+0.5
30 33 60
60
60
67
75
30
+0.5
30 33 60
60
60
65
73
28
+0.5
30 33 60
60
60
63
71
26
+0.5
30 33 60
60
60
61
69
24
+0.5
30 33 60
60
60
59
67
b. The level of the output RF spectrum due to switching transients shall
be no more than given in the following table:
GSM 900 RF spectrum due to switching transients
Power level
39dBm
37dBm
35dBm
33dBm
31dBm
29dBm
27dBm
25dBm
23dBm
21dBm
Maximum power level for different carrier frequency offsets
400KHz
13dBm
15dBm
17dBm
19dBm
21dBm
23dBm
23dBm
23dBm
23dBm
23dBm
600KHz
21dBm
21dBm
21dBm
21dBm
23dBm
25dBm
26dBm
26dBm
26dBm
26dBm
1200KHz
21dBm
21dBm
21dBm
21dBm
23dBm
25dBm
27dBm
29dBm
31dBm
32dBm
1800KHz
24dBm
24dBm
24dBm
24dBm
26dBm
28dBm
30dBm
32dBm
34dBm
36dBm
DCS1800Spectrum due to switching transients
Power level
36dBm
34dBm
32dBm
30dBm
Maximum power level for different carrier frequency offsets
400KHz
16dBm
18dBm
20dBm
22dBm
600KHz
21dBm
21dBm
22dBm
24dBm
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1200KHz
21dBm
21dBm
22dBm
24dBm
1800KHz
24dBm
24dBm
25dBm
27dBm
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Specifications
28dBm
26dBm
24dBm
22dBm
20dBm
23dBm
23dBm
23dBm
23dBm
23dBm
25dBm
26dBm
26dBm
26dBm
26dBm
26dBm
28dBm
30dBm
31dBm
32dBm
29dBm
31dBm
33dBm
35dBm
36dBm
c. When allocated a channel, the power emitted by the MS, in the band
935 to 960MHz shall be no more than -79dBm; in the band 925 to
935MHz shall be no more than -67dBm; and in the band 1805 to
1880MHz shall be no more than -71dBm except in five
measurements, in each of the bands 925 to 960MHz and 1805 to
1880MHz where exceptions at up to -36dBm are permitted.
(Refer to ETSI EST 300 607-1, 13.4.2 Conformance requirement)
10.3
Method of measurement
10.3.1 Initial conditions
A call is set up according to the generic call set up procedure.
The SS commands the MS to hopping mode. The hopping pattern
includes only three channels, namely one with an ARFCN in the Low
ARFCN range, a second one with an ARFCN in the Mid ARFCN range
and the third one with an ARFCN in the High ARFCN range.
NOTE 1: Although the measurement is made whilst the MS is in
hopping mode, each measurement is on one single channel.
NOTE 2: This test is specified in hopping mode as a simple means of
making the MS change channel, it would be sufficient to test
in non hopping mode and to handover the MS between the
three channels tested at the appropriate time.
The SS commands the MS to complete the traffic channel loop back
without signalling of erased frames. This is to set a defined random
pattern for the transmitter.
The SS sends Standard Test Signal C1 to the MS at a level of 23
dBVemf( ).
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10.3.2 Procedure
NOTE: When averaging is in use during frequency hopping mode, the
averaging only includes bursts transmitted when the hopping
carrier corresponds to the nominal carrier of the measurement.
(a) In following steps (b) to (h) the FT is equal to the hop pattern ARFCN
in the Mid ARFCN range.
(b) The other settings of the spectrum analyzer are set as follows:
- Zero frequency scan
- Resolution bandwidth: 30 kHz
- Video bandwidth:
- Video averaging:
30 kHz
may be used, depending on the
implementation of the test
The video signal of the spectrum analyzer is "gated" such that the
spectrum generated by at least 40 of the bits 87 to 132 of the burst is
the only spectrum measured. This gating may be analogue or
numerical, dependent upon the design of the spectrum analyzer.
Only measurements during transmitted bursts on the nominal carrier
of the measurement are included. The spectrum analyzer averages
over the gated period and over 200 or 50 such bursts, using
numerical and/or video averaging.
The MS is commanded to its maximum power control level.
(c) By tuning the spectrum analyzer center frequency to the
measurement frequencies the power level is measured over 50
bursts at all multiples of 30KHz offset from FT to < 1800KHz.
(d) The resolution and video bandwidth on the spectrum analyzer are
adjusted to 100KHz and the measurements are made at the
following frequencies:
on every ARFCN from 1800KHz offset from the carrier to the edge of
the relevant transmit band for each measurement over 50 bursts.
at 200KHz intervals over the 2MHz either side of the relevant
transmit band for each measurement over 50 bursts.
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at 200KHz intervals over the band 925 ~ 960MHz for each
measurement over 50 bursts.
at 200KHz intervals over the band 1805 ~1880MHz for each
measurement over 50 bursts.
(e) The MS is commanded to its minimum power control level. The
spectrum analyzer is set again as in (b).
(f) By tuning the spectrum analyzer center frequency to the
measurement frequencies the power level is measured over 200
bursts at the following frequencies:
FT
FT + 100KHz
FT 100KHz
FT + 200KHz
FT 200KHz
FT + 250KHz
FT 250KHz
FT + 200KHz N
FT 200KHz N
where N = 2, 3, 4, 5, 6, 7, and 8
and FT = RF channel nominal center frequency.
(g) The spectrum analyzer settings are adjusted to:
- Zero frequency scan
- Resolution bandwidth: 30KHz
- Video bandwidth:
100KHz
- Peak hold
The spectrum analyzer gating of the signal is switched off.
The MS is commanded to its maximum power control level.
(h) By tuning the spectrum analyzer center frequency to the
measurement frequencies the power level is measured at the
following frequencies:
FT + 400KHz
FT 400KHz
FT + 600KHz
FT 600KHz
FT + 1.2MHz
FT 1.2MHz
FT + 1.8MHz
FT 1.8MHz
where FT = RF channel nominal center frequency.
The duration of each measurement (at each frequency) will be
such as to cover at least 10 burst transmissions at FT.
(i) Step (h) is repeated for power control levels 7 and 11.
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(j) Steps (b), (f), (g) and (h) are repeated with FT equal to the hop
pattern ARFCN in the Low ARFCN range except that in step (g) the
MS is commanded to power control level 11 rather than maximum
power.
(k) Steps (b), (f), (g) and (h) are repeated with FT equal to the hop
pattern ARFCN in the High ARFCN range except that in step (g) the
MS is commanded to power control level 11 rather than maximum
power.
(Refer to ETSI EST 300 607-1, 13.4.4 Method of test)
10.4
Test requirement
For absolute measurements, performed on a temporary antenna
connector, in the frequency band 880 to 915MHz or 1710 to 1785MHz,
the temporary antenna connector coupling factor, for the nearest
relevant frequency, will be used.
For absolute measurements, performed on a temporary antenna
connector, in the frequency band 925 to 960MHz, the temporary
antenna connector coupling factor for GSM900 MS.
MS 0dB will be assumed.
For a DCS1800
For absolute measurements, performed on a temporary antenna
connector, in the frequency band 1805 to 1880MHz, the temporary
antenna connector coupling factor for DCS1800 MS. For GSM900 MS
0dB will be assumed.
The figures in the tables below, at the listed frequencies from the carrier
(KHz), are the maximum level (dB) relative to a measurement in 30KHz
bandwidth on the carrier.
a. For the modulation sidebands out to less than 1800KHz offset from
the carrier frequency (FT) measured in step c, f, h, j, k and l the
measured power level in dB relative to the power level measured at
FT, for all types of MS, shall not exceed the limits derived from the
values shown in following table for GSM900 or for DCS1800
according to the actual transmit power and frequency offset from FT.
However any failures in the combined range 600KHz to less than
1800KHz above and below the carrier may be counted towards the
GSM(English)-51
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
exceptions allowed in test requirements c below.
GSM900 Spectrum due to modulation out to less than 1800KHz offset
Power
level
Power levels in dB relative to the measurement at FT
(dBm)
Frequency offset (KHz)
0 ~100
+0.5
+0.5
+0.5
+0.5
39
37
35
33
200
30
30
30
30
250
33
33
33
33
400
60
60
60
60
600 ~1800
66
64
62
60
The values above are subject to the minimum absolute levels (dBm) below.
36
36
36
36
51
DCS1800 Spectrum due to modulation out to less than 1800KHz offset
Power
level
Power levels in dB relative to the measurement at FT
(dBm)
Frequency offset (KHz)
33
0 ~100
+0.5
200
30
250
33
400
60
600 ~1800
60
The values above are subject to the minimum absolute levels (dBm) below.
36
36
36
36
56
NOTE 1: For frequency offsets between 100KHz and 600KHz the
requirement is derived by a linear interpolation between the
points identified in the table with linear frequency and
power in dB relative.
b. For the modulation sidebands from 1800KHz offset from the carrier
frequency (FT) and out to 2MHz beyond the edge of the relevant
transmit band, measured in step d, the measured power level in dB
relative to the power level measured at FT, shall not exceed the
values shown in following table according to the actual transmit
power, frequency offset from FT and system on which the MS is
designed to operate. However any failures in the combined range
1800KHz to 6MHz above and below the carrier may be counted
towards the exceptions allowed in test requirements c below, and
any other failures may be counted towards the exceptions allowed in
GSM(English)-52
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
test requirements d below.
Spectrum due to modulation from 1800 kHz offset to the edge of the transmit
band (wideband noise)
Power
level
(dBm)
39
37
35
33
Power level in dB relative to the measurement at FT
GSM900
DCS1800
Frequency offset
Power
Frequency offset
KHz
level
KHz
1800 ~
3000 ~
(dBm)
1800
~
6000
6000
6000
6000
6000
36
69
71
77
71
79
34
67
69
75
69
77
32
65
67
73
67
75
30
63
65
71
65
73
28
63
71
26
61
69
24
59
67
The values above are subject to the minimum absolute levels (dBm) below.
46
46
46
51
51
c. Any failures from a and b above in the combined range 600KHz to
6MHz above and below the carrier should be re-checked for allowed
spurious emissions. For each of the three ARFCN used, spurious
emissions are allowed in up to three 200KHz bands centered on an
integer multiple of 200KHz so long as no spurious emission exceeds
36dBm. Any spurious emissions measured in a 30KHz bandwidth
which spans two 200KHz bands can be counted towards either
200KHz band, whichever minimizes the number of 200KHz bands
containing spurious exceptions.
d. Any failures (from b) above) beyond 6MHz offset from the carrier
should be re-checked for allowed spurious emissions. For each of
the three ARFCN used, up to twelve spurious emissions are allowed
so long as no spurious emission exceeds 36dBm.
e. The MS spurious emissions in the bands 925~935MHz,
935~960MHz and 1805~1880MHz, measured in step d, for all types
of MS, shall not exceed the values in the following table except in up
to five measurements in the band 925~960MHz and five
measurements in the band 1805~1880MHz where a level up to
GSM(English)-53
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
36dBm is permitted.
Spurious emissions in the MS receive bands
Frequency band (MHz)
925 to 935
935 to 960
1805 to 1880
Spurious emissions level
(dBm)
67
79
71
f. For the power ramp sidebands of steps h and i the power levels
must not exceed the values shown in following table for GSM900 or
for DCS1800.
GSM Spectrum due to switching transients
Power
level
39dBm
37dBm
35dBm
33dBm
31dBm
29dBm
27dBm
25dBm
23dBm
≦21dBm
Maximum level for various offsets from carrier frequency
400KHz
13dBm
15dBm
17dBm
19dBm
21dBm
23dBm
23dBm
23dBm
23dBm
23dBm
600KHz
21dBm
21dBm
21dBm
21dBm
23dBm
25dBm
26dBm
26dBm
26dBm
26dBm
1200KHz
21dBm
21dBm
21dBm
21dBm
23dBm
25dBm
27dBm
29dBm
31dBm
32dBm
1800KHz
24dBm
24dBm
24dBm
24dBm
26dBm
28dBm
30dBm
32dBm
34dBm
36dBm
DCS 1 800 Spectrum due to switching transients
Power
level
36dBm
34dBm
32dBm
30dBm
28dBm
26dBm
24dBm
22dBm
Maximum level for various offsets from carrier frequency
400KHz
16dBm
18dBm
20dBm
22dBm
23dBm
23dBm
23dBm
23dBm
600KHz
21dBm
21dBm
22dBm
24dBm
25dBm
26dBm
26dBm
26dBm
GSM(English)-54
1200KHz
21dBm
21dBm
22dBm
24dBm
26dBm
28dBm
30dBm
31dBm
1800KHz
24dBm
24dBm
25dBm
27dBm
29dBm
31dBm
33dBm
35dBm
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
≦20dBm
23dBm
26dBm
32dBm
36dBm
NOTE 1: These figures are different because at higher power levels
it is the modulation spectrum which is being measured by
using a peak hold measurement. This allowance is given in
the table.
NOTE 2: The figures for above table assume that, using the peak
hold measurement, the lowest level measurable is 8 dB
above the level of the modulation specification using the
30kHz bandwidth gated average technique for 400KHz
offset from the carrier. At 600 and 1200KHz offset the
level is 6dB above and at 1800KHz offset the level is 3dB
above. The figures for 1800KHz have assumed the 3KHz
bandwidth spectrum due to modulation specification at
<1800KHz.
(Refer to ETSI EST 300 607-1, 13.4.5 Test requirement)
GSM(English)-55
Annex A. Test conditions
A.1
Anechoic shielded chamber(GC5)
As an alternative to the above mentioned outdoor test site an indoor test
site, being a well shielded anechoic chamber simulating free space
environment may be used. If such a chamber is used, this shall be
recorded in the test report.
NOTE: The anechoic shielded chamber is the preferred test site for
testing to this specification.
The measurement site may be an electrically shielded anechoic
chamber being 10m long, 5m broad and 5m high. Walls and ceiling
should be coated with RF absorbers of 1m height. The ground should
be covered with absorbing material 1m thick able to carry test
equipment and operators. A measuring distance of 3 to 5m in the long
middle axis of the chamber can be used for measurements up to at
least 10GHz.
The test antenna, test receiver, substitution antenna and calibrated
signal generator are used in a way similar to that of the outdoor test site
method with the exception that, because the floor absorbers reject floor
reflections, the antenna height need not be changed and shall be at the
same height as the test sample. In the range between 30MHz and
100MHz some additional calibration may be necessary.
A.2
Normal Test Conditions(TC)
A.2.1 Power sources and ambient temperatures(TC2)
During tests the power source of the equipment shall be replaced by a
test power source, capable of producing normal test voltages. The
internal impedance of the test power source shall be low enough for its
effect on the test results to be negligible. For the purpose of tests, the
voltage of the power source shall be measured at the input terminals of
the equipment. If the equipment is provided with a permanently
connected power cable, the test voltage shall be that measured at the
point of connection of the power cable to the equipment. In equipment
with incorporated batteries the test power source shall be applied as
close to the battery terminals as practicable.
During tests the power source voltages shall be maintained within a
tolerance of 3 % relative to the voltage at the beginning of each test.
GSM(English) Annex-1
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
A.2.2 Normal test conditions(TC2.1)
The normal temperature and humidity conditions for tests shall be any
convenient combination of temperature and humidity within the following
ranges:
Temperature:
+15℃ to +35℃ (degrees Celsius)
Relative humidity:
20 % to 75 %
NOTE: When it is impracticable to carry out the tests under the
conditions stated above, the actual temperature and relative
humidity during the tests shall be recorded in the test report.
The normal test voltage for equipment to be connected to the mains
shall be the nominal main voltage.
For the purpose of these specifications, the nominal voltage shall be the
declared voltage or any of the declared voltages for which the
equipment was designed. The frequency of the test power source
corresponding to the mains shall be within 1Hz of the nominal main
frequency.
When the radio equipment is intended for operation from the usual
types of regulated lead-acid battery power source of vehicles, the
normal test voltage shall be 1.1 times the nominal voltage of the battery
(6 volts, 12 volts etc.).
For operation from other power sources or types of battery (primary or
secondary) the normal test voltage shall be that declared by the
equipment manufacturer.
A.3
Testing of host-connected equipment and plug-in modules
For equipment for which connection to or integration with host
equipment is required to offer functionality, two alternative approaches
are permitted. The applicant shall declare which alternative shall be
used.
A.3.1 Alternative A: combined equipment
GSM(English) Annex-2
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
Under alternative A, a combination of GSM Mobile Station and a specific
type of host equipment shall be for testing according to this
specification.
Where more than one such combination is intended, testing shall not be
repeated for combinations of GSM Mobile Station and other host
equipment where the latter are substantially similar, in particular such
that host models are unlikely to significantly influence the emission to
the MS.
Where more than one such combination is intended and host equipment
are not substantially similar, one combination shall be tested against the
full set of requirements of this specification; other combinations shall be
tested separately for radiated emissions only.
A.3.2 Alternative B: use of a test jig
Under alternative B, where the GSM MS is intended for use with a
variety of host equipment, the applicant shall supply a suitable test jig
that is representative of the range of host equipment in which the GSM
MS may be used in particular, the test jig shall be designed such that
any alternation of the GSM MS’s emissions is minimized. The test jig
shall allow the GSM MS part to be powered and stimulated in a way
similar to the way it would be powered and stimulated when connected
to or inserted into the host equipment.
The GSM MS shall be tested against the full set of requirements of this
specification.
GSM(English) Annex-3
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
Annex B. Test Equipment
B.1
Introduction
B.1.1 General
The test equipment is either an equipment or assembly of equipment
which enables the tests described in this specification to be conducted.
This annex describes requirements for the test equipment which cannot
be derived from and which are assumed in, the conformance test
descriptions described in this specification.
Specifically stimulus setting and measurement uncertainties are defined.
B.1.2 Test equipment terms
The term "System Simulator" (SS) is used to describe the complete
suite of test equipment required to perform the tests in this specification
when interacting with the following MS interfaces:
- Antenna (Connector or radiated);
- Acoustic;
- Data Port(s);
- Power supply;
- DAI.
B.1.3 Confidence level
All uncertainty values stated in this annex are quoted for a Confidence
Level of 95 %.
B.2
Standard test signals
The Cx signals represent the wanted signals and the Ix signals
represent the unwanted signals.
Signal C0
Unmodulated continuous carrier.
Signal C1
A standard GSM signal with the modulation derived by
applying a data reversals signal to the input of a channel
coder. The channel coder will depend on the test and
the cipher mode shall be selectable by the test method.
GSM(English) Annex-4
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
When using this signal in the non hopping mode, the
unused seven time slots shall also contain dummy bursts,
with power levels variable with respect to the used
timeslot.
Signal I1
A GMSK modulated carrier following the structure of the
GSM signals, but with all modulating bits (including the
midamble period) derived directly from a random or
pseudo random data stream.
Signal I2
A standard GSM signal with valid midamble, different from
C1. The data bits (including bits 58 and 59) shall be
derived from a random or pseudo random data stream.
B.3
SS functional requirements
B.3.1 Level setting range
It is assumed that the SS is capable of setting stimulus levels, at the MS
interface, to those required in the test specification extended by the
measurement uncertainty defined in this Annex.
NOTE: This ensures that the SS is able adequately to stimulate the MS
performance at and just beyond the limit requirement under all
conditions.
B.3.2 Level Measurement / operation range
It is assumed that the SS is capable of performing measurements,
within the uncertainty defined in this Annex, over a level range, at the
MS interface, as required in the test specification extended by the SS
measurement uncertainty defined in this annex and extended by a
further 3dB on the MS conformity requirement.
NOTE: This ensures that the SS is able adequately to measure the MS
performance at and just beyond the limit requirement under all
conditions.
B.3.3 MS power supply interface
Test DC power supply for MS:
GSM(English) Annex-5
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
Voltage setting uncertainty < 1 %.
Ripple < 10 mV RMS, 50 mV peak to peak.
Test AC power supply for MS:
Voltage setting uncertainty
< 1 %.
B.3.4 MS antenna interface
The SS is assumed to offer a nominal 50ohm impedance to the MS.
VSWR
GSM/DCS band
1.3
4GHz
1.3
10GHz
1.3
12.75GHz
1.3
B.3.4.1 Power versus time measurements
Measurement uncertainty of peak transmitter carrier power: 1dB
Measurement uncertainty of power level (relative to peak transmitter
carrier power):
Power level
Measurement uncertainty
+ 6 dB to 7 dB
0,25 dB
7 dB to 20 dB
1,0 dB
20 dB to 32 dB
2,0 dB
32 dB to 45 dB
5,0 dB
45 dB to 71 dB
1,0 dB
< 71 dB
2,0 dB
GSM(English) Annex-6
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
B.3.5 Block diagram of test equipment
GSM Test Set
HPT-GTS2
2nd.Adj Cell
信 號Generator
產生器
Signal
RF Output
HP8657B/OP022
HP8657B/OP022
C lock Data
RF IN/OUT
Serv.Cell
GSM Test
綜 合Set
測試儀
GSM
HP8922H
HP8922H
Aux RF IN
Aux RF
RFOUT
O ut
AUX
RF Input
Input
RF
Attenuator
衰減器
WS Fading
Simulator
1st.Adj Cell
射頻頻
道Channel
模擬器
RF
HP11759C
Fading
Simulator
utput
RFO
RF OUT
HP11759C
HP11713A
綜合測試儀
GSM
GSM TEST SET
HP8922F
HP8922F
RF IN/OUT
Aux
AuxIn
In
AuxOut
O ut Aux
DCS
DCS
E待
測 ANT
U
設
T
備
2nd.Interf.
Specturm
DCS TEST SET
HP 83220E
RF IN
RF Output
Signal
信 號Generator
產生器
RF Input
Spectrum
頻譜分析儀
Analyzer
HP8664A
HP8664A
HP8593E
HP8593E
GSM MS
CRT
GSM
GSM
待
測設備
EUT
ANT
ANT
System
Controller
GSM(English) Annex-7
CRT
Fading Simulator
Controller
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
Annex C. Declaration of Conformity of Test Items by Applicant
Test items by
Test Reference
manufacturer’s Declaration
GSM 11.10-1
of Conformity
ETS 300 607-15
Transmitter
Intermodulation attenuation
Compliance
(Yes/No)
13.5
Receiver
Bad frame indication
14.1
Reference sensitivity
14.2
Usable receiver input level range 14.3
Co-channel rejection
14.4
Adjacent channel rejection
14.5
Intermodulation rejection
14.6
Blocking and spurious response 14.7
AM suppression
14.8
Paging performance at high input 14.9
levels
Other tests of the layer 1
Timing advance and absolute 15
delay
Reception time tracking speed
16
Access times during handover
17
Temporary reception gaps
18
Channel
release
after 19
unrecoverable errors
GSM(English) Annex-8
Remark
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
Cell selection and reselection
20
Received signal measurements
21
Transmit power control timing 22
and confirmation
Single frequency reference
23
Tests of the layer 2
Initialization
Normal Initialization
25.2.1.1.1
Loss of UA frame
25.2.1.1.2.1
UA frame with different
25.2.1.1.2.2
information field
Information frame and supervisory
frames in response to an SABM 25.2.1.1.2.3
frame
Initialization denial
25.2.1.1.3
Total initialization failure
25.2.1.1.4
Normal initialization without
contention resolution
25.2.1.2
Initialization failure
25.2.1.2.2
Initialization denial
25.2.1.2.3
Total initialization failure
25.2.1.2.4
Normal information transfer
Sequence counting and 1 frame
25.2.2.1
acknowledges
Receipt of an 1 frame in the timer
25.2.2.2
recovery state
Segmentation and concatenation 25.2.2.3
Normal layer 2 disconnection
25.2.3
Test of link failure
1 frame loss (MS to SS)
25.2.4.1
RR response frame loss (MS to
SS)
25.2.4.3
Test of frame transmission with incorrect C/R values
1 frame with C bit set to zero
25.2.5.1
SABM frame with C bit set to zero 25.2.5.2
Test of errors in the control field
N(S) sequence error
25.2.6.1
N(R)sequence error
25.2.6.2
GSM(English) Annex-9
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
Improper F bit
25.2.6.3
Test on receipt of Invalid frames
25.2.7
Tests of the layer 3
Initial Tests
Channel request / initial time
26.2.1.1
Channel request / repetition time
26.2.1.2.1
Channel request / random
reference
26.2.1.3
IMSI detach and IMSI attach
26.2.2
Sequenced MM / CM message
transfer
26.2.3
Establishment cause
26.2.4
Test of MS functions in idle mode
MS indication of available PLMNs 26.3.2
MS will send only if BSS is “on
air”
26.3.3
Manual mode of PLMN selection 26.3.4
Handling of unknown, unforeseen, and erroneous protocol data, and of
parallel transactions
TI and skip indicator / RR / Idle
Mode
TI and skip indicator / RR /
RR-Connection established
26.5.2.1.1
26.5.2.1.2
TI and skip indicator / MM
26.5.2.2
TI and skip indicator / CC
26.5.2.3
Undefined or unexpected
message type / undefined
message type / CC
Undefined or unexpected
message type / undefined
message type / MM
Undefined or unexpected
message type / undefined
message type / RR
Undefined or unexpected
message type / unexpected
message type / CC
Unforeseen information elements
in the non-imperative message
part / duplicated information
Non-semantical mandatory IE
errors / RR / missing mandatory
IE error / special case
Non-semantical mandatory IE
errors / RR / missing mandatory
IE error / general case
26.5.3.1
26.5.3.2
26.5.3.3
26.5.3.4
26.5.4.1
26.5.5.1.1.1
26.5.5.1.1.2
GSM(English) Annex-10
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
Non-semantical mandatory IE
errors / RR / comprehension
required
Non-semantical mandatory IE
errors / MM / syntactically
incorrect mandatory IE
Non-semantical mandatory IE
errors / MM / syntactically
incorrect mandatory IE
Non-semantical mandatory IE
errors / MM / comprehension
required
Non-semantical mandatory IE
errors / CC / missing mandatory
IE / disconnect message
Non-semantical mandatory IE
errors / CC / missing mandatory
IE / general case
Non-semantical mandatory IE
errors / CC / comprehension
required
Unknown IE, comprehension not
required/ MM / IE unknown in the
message
Unknown information elements in
the non-imperative message part /
CC / Call establishment
Unknown information elements in
the non-imperative message part /
CC / release
Unknown information elements in
the non-imperative message part /
CC / release complete
26.5.5.1.2
26.5.5.2.1
26.5.5.2.2
26.5.5.2.3
26.5.5.3.1.1
26.5.5.3.1.2
26.5.5.3.2
26.5.6.1.2
26.5.6.2.1
26.5.6.2.3
26.5.6.2.4
Spare bits / RR / paging channel
26.5.7.1.1
Spare bits / RR / BCCH
26.5.7.1.2
Spare bits / RR / AGCH
26.5.7.1.3
Spare bits / RR / Connected Mode 26.5.7.1.4
Spare bits / MM
26.5.7.2
Spare bits / CC
26.5.7.3
Test of the elementary procedures for radio resource management
Immediate assignment / SDCCH
or TCH assignment
Immediate assignment / extended
assignment
Immediate assignment /
assignment rejection
Immediate assignment / Ignore
assignment
Immediate assignment after
immediate assignment reject
Paging / normal / type 1
26.6.1.1
26.6.1.2
26.6.1.3
26.6.1.4
26.6.1.5
26.6.2.1.1
GSM(English) Annex-11
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
Paging / normal / type 2
26.6.2.1.2
Paging / normal / type 3
26.6.2.1.3
Paging / extended
26.6.2.2
Paging / reorganization /
procedure 1
Paging / reorganization /
procedure 2
26.6.2.3.1
26.6.2.3.2
Paging / same as before
26.6.2.4
Paging / multislot CCCH
26.6.2.5
Measurement / no neighbours
26.6.3.1
Measurement / all neighbours
present
Measurement / barred cells and
non-permitted NCCs
Measurement / DTX
Measurement / Frequency
Formats
Measurement / multiband
environment
Dedicated assignment /
successful case
Dedicated assignment / failure /
failure during active state
Dedicated assignment / failure /
general case
Handover / successful / active call
/ non-synchronized
Handover / successful / call under
establishment / non-synchronized
Handover/ successful / active call
/ finely synchronized
Handover / successful / call under
establishment / finely
synchronized
Handover / successful / active call
/ pre-synchronized / Timing
Advance IE not included
Handover / successful / call being
established / pre-synchronized /
timing advance IE is included /
reporting of observed time
difference requested.
Handover / successful / active call
/ pseudo synchronized
Handover / successful / active call
/ non-synchronized / reporting of
observed time difference
requested
26.6.3.2
26.6.3.3
26.6.3.4
26.6.3.5
26.6.3.6
26.6.4.1
26.6.4.2.1
26.6.4.2.2
26.6.5.1
26.6.5.2
26.6.5.3
26.6.5.4
26.6.5.5.1
26.6.5.5.2
26.6.5.6
26.6.5.7
Handover / layer 3 failure
26.6.5.8
Handover / layer 1 failure
26.6.5.9
GSM(English) Annex-12
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
Frequency redefinition
Test of the channel mode modify
procedure / full rate
Test of the channel mode modify
procedure / half rate
26.6.6.1
26.6.7.1
26.6.7.2
Ciphering mode / start ciphering
26.6.8.1
Ciphering mode / no ciphering
26.6.8.2
Ciphering mode / old cipher key
26.6.8.3
Ciphering mode / change of
mode, algorithm and key
26.6.8.4
Ciphering mode / IMEISV request 26.6.8.5
Classmark change
26.6.11.1
Classmark interrogation
26.6.11.2
Channel release / SDCCH
26.6.12.1
Channel release / SDCCH - no L2
26.6.12.2
ACK
Channel release / TCH-F
26.6.12.3
Channel release / TCH-F - no L2
26.6.12.4
ACK
Dedicated assignment with
starting time / successful case /
26.6.13.1
time not elapsed
Dedicated assignment with
starting time / successful case /
26.6.13.2
time elapsed
Dedicated assignment with
starting time and frequency
26.6.13.3
redefinition / failure case / time not
elapsed
Dedicated assignment with
starting time and frequency
26.6.13.4
redefinition / failure case / time
elapsed
Handover with starting time /
successful case / time not
26.6.13.5
elapsed
Handover with starting time /
26.6.13.6
successful case / time elapsed
Handover with starting time and
frequency redefinition / failure
26.6.13.7
case / time not elapsed
Handover with starting time and
frequency redefinition / failure
26.6.13.8
case / time elapsed
Immediate assignment with
starting time / successful case /
26.6.13.9
time not elapsed
Immediate assignment with
starting time / successful case /
26.6.13.10
time elapsed
GSM(English) Annex-13
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
Elementary procedures of mobility management
TMSI reallocation
26.7.1
Authentication accepted
26.7.2.1
Authentication rejected
26.7.2.2
General Identification
26.7.3.1
Location updating / accepted
26.7.4.1
Location updating / rejected /
26.7.4.2.1
IMSI invalid
Location updating / rejected /
26.7.4.2.2
PLMN not allowed
Location updating / rejected /
26.7.4.2.3
location area not allowed
Location updating / rejected /
roaming not allowed in this
26.7.4.2.4
location area
Location updating / abnormal
26.7.4.3.1
cases / random access fails
Location updating / abnormal
cases / attempt counter less or
26.7.4.3.2
equal to 4, LAI different
Location updating / abnormal
26.7.4.3.3
cases / attempt counter equal to 4
Location updating / abnormal
cases / attempt counter lesequal
26.7.4.3.4
to 4, stored LAI equal to
broadcast LAI
Location updating / release /
26.7.4.4
expiry of T3240
Location updating / periodic
26.7.4.5.1
spread
Location updating / periodic
26.7.4.5.2
normal / test 1
Location updating / periodic
26.7.4.5.3
normal / test 2
Location updating / periodic
26.7.4.5.4.1
HPLMN search / MS waits time T
Location updating / periodic
HPLMN search / MS in manual
26.7.4.5.4.2
mode
Location updating / periodic
HPLMN search / MS waits at least
26.7.4.5.4.3
two minutes and at most T
minutes
Location updating / interworking
26.7.4.6
of attach and periodic
MM connection / establishment
26.7.5.2
with cipher
MM connection / establishment
26.7.5.3
without cipher
MM connection / establishment
26.7.5.4
rejected
MM connection / establishment
26.7.5.5
rejected cause 4
GSM(English) Annex-14
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
MM connection / expiry T3230
MM connection / abortion by the
network / cause #6
MM connection / abortion by the
network / cause not equal to #6
MM connection / follow-on
request pending / test 1
MM connection / follow-on
request pending / test 2
MM connection / follow-on
request pending / test 3
26.7.5.6
26.7.5.7.1
26.7.5.7.2
26.7.5.8.1
26.7.5.8.2
26.7.5.8.3
Tests related to circuit switched call control
Outgoing call / U0 null state / MM
connection requested
Outgoing call / U0.1 MM
connection pending
Outgoing call / U0.1 MM
connection pending / CM service
accepted
Outgoing call / U0.1 MM
connection pending / lower layer
failure
Outgoing call / U1 call initiated /
receiving CALL PROCEEDING
Outgoing call / U1 call initiated /
rejecting with RELEASE
COMPLETE
Outgoing call / U1 call initiated /
T303 expiry
Outgoing call / U1 call initiated /
lower layer failure
Outgoing call / U1 call initiated /
receiving ALERTING
Outgoing call / U1 call initiated /
entering state U10
Outgoing call / U1 call initiated /
unknown message received
Outgoing call / U3 MS originating
call proceeding / ALERTING
received
Outgoing call / U3 MS originating
call proceeding / CONNECT
received
Outgoing call / U3 MS originating
call proceeding / PROGRESS
received without in band
information
Outgoing call / U3 MS originating
call proceeding / PROGRESS
with in band information
Outgoing call / U3 MS originating
call proceeding / DISCONNECT
with in band tones
Outgoing call / U3 MS originating
call proceeding / DISCONNECT
without in band tones
26.8.1.2.1.1
26.8.1.2.2.1
26.8.1.2.2.2
26.8.1.2.2.3
26.8.1.2.3.1
26.8.1.2.3.2
26.8.1.2.3.3
26.8.1.2.3.4
26.8.1.2.3.5
26.8.1.2.3.6
26.8.1.2.3.7
26.8.1.2.4.1
26.8.1.2.4.2
26.8.1.2.4.3
26.8.1.2.4.4
26.8.1.2.4.5
26.8.1.2.4.6
GSM(English) Annex-15
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
Outgoing call / U3 MS originating
call proceeding / RELEASE
received
Outgoing call / U3 MS originating
call proceeding / termination
requested by user
Outgoing call / U3 MS originating
call proceeding / traffic channel
allocation
Outgoing call / U3 MS originating
call proceeding / timer T310
time-out
Outgoing call / U3 MS originating
call proceeding / lower layer
failure
Outgoing call / U3 MS originating
call proceeding / unknown
message received
Outgoing call / U3 MS originating
call proceeding / internal alerting
indication
Outgoing call / U4 call delivered /
CONNECT received
Outgoing call / U4 call delivered /
termination requested by user
Outgoing call / U4 call delivered /
DISCONNECT with in band tones
Outgoing call / U4 call delivered /
DISCONNECT without in band
tones
Outgoing call / U4 call delivered /
RELEASE received
Outgoing call / U4 call delivered /
lower layer failure
Outgoing call / U4 call delivered /
traffic channel allocation
Outgoing call / U4 call delivered /
unknown message received
U10 call active / termination
requested by the user
U10 call active / RELEASE
received
U10 call active / DISCONNECT
with in band tones
U10 call active / DISCONNECT
without in band tones
U10 call active / RELEASE
COMPLETE received
26.8.1.2.4.7
26.8.1.2.4.8
26.8.1.2.4.9
26.8.1.2.4.10
26.8.1.2.4.11
26.8.1.2.4.12
26.8.1.2.4.13
26.8.1.2.5.1
26.8.1.2.5.2
26.8.1.2.5.3
26.8.1.2.5.4
26.8.1.2.5.5
26.8.1.2.5.6
26.8.1.2.5.7
26.8.1.2.5.8
26.8.1.2.6.1
26.8.1.2.6.2
26.8.1.2.6.3
26.8.1.2.6.4
26.8.1.2.6.5
U10 call active / SETUP received 26.8.1.2.6.6
U11 disconnect request / clear
collision
U11 disconnect request /
RELEASE received
U11 disconnect request / timer
T305 time-out
26.8.1.2.7.1
26.8.1.2.7.2
26.8.1.2.6.3
GSM(English) Annex-16
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
U11 disconnect request / lower
layer failure
U11 disconnect request /
unknown message received
U12 disconnect indication / call
releasing requested by the user
U12 disconnect indication /
RELEASE received
U12 disconnect indication / lower
layer failure
U12 disconnect indication /
unknown message received
Outgoing call / U19 release
request / timer T308 time-out
Outgoing call / U19 release
request / 2nd timer T308 time-out
Outgoing call / U19 release
request / RELEASE received
Outgoing call / U19 release
request / RELEASE COMPLETE
received
Outgoing call / U19 release
request / lower layer failure
Incoming call / U0 null state /
SETUP received with a non
supported bearer capability
Incoming call / U6 call present /
automatic call rejection
Incoming call / U9 mobile
terminating confirmed / alerting or
immediate connecting
Incoming call / U9 mobile
terminating confirmed / TCH
assignment
Incoming call / U9 mobile
terminating confirmed /
termination requested by the user
Incoming call / U9 mobile
terminating confirmed /
DISCONNECT received
Incoming call / U9 mobile
terminating confirmed / RELEASE
received
Incoming call / U9 mobile
terminating confirmed / lower
layer failure
Incoming call / U9 mobile
terminating confirmed / unknown
message received
Incoming call / U7 call received /
call accepted
Incoming call / U7 call received /
termination requested by the user
Incoming call / U7 call received /
DISCONNECT received
Incoming call / U7 call received /
RELEASE received
26.8.1.2.6.4
26.8.1.2.7.5
26.8.1.2.8.1
26.8.1.2.8.2
26.8.1.2.8.3
26.8.1.2.8.4
26.8.1.2.9.1
26.8.1.2.9.2
26.8.1.2.9.3
26.8.1.2.9.4
26.8.1.2.9.5
26.8.1.3.1.1
26.8.1.3.2.1
26.8.1.3.3.1
26.8.1.3.3.2
26.8.1.3.3.3
26.8.1.3.3.4
26.8.1.3.3.5
26.8.1.3.3.6
26.8.1.3.3.7
26.8.1.3.4.1
26.8.1.3.4.2
26.8.1.3.4.3
26.8.1.3.4.4
GSM(English) Annex-17
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
Incoming call / U7 call received /
26.8.1.3.4.5
lower layer failure
Incoming call / U7 call received /
26.8.1.3.4.6
unknown message received
Incoming call / U7 call received /
26.8.1.3.4.7
TCH assignment
Incoming call / U7 call received /
26.8.1.3.4.8
RELEASE COMPLETE received
Incoming call / U8 connect
request / CONNECT
26.8.1.3.5.1
acknowledged
Incoming call / U8 connect
26.8.1.3.5.2
request / timer T313 time-out
Incoming call / U8 connect
request / termination requested by 26.8.1.3.5.3
the user
Incoming call / U8 connect
request / DISCONNECT received
with in-band information
Incoming call / U8 connect
request / DISCONNECT received
without in-band information
Incoming call / U8 connect
request / RELEASE received
Incoming call / U8 connect
request / lower layer failure
Incoming call / U8 connect
request / TCH assignment
Incoming call / U8 connect
request / unknown message
received
In-call functions / DTMF
information transfer / basic
procedures
In-call functions / User notification
/ MS terminated
In-call functions / channel
changes / a successful channel
change in active state / Handover
and Assignment Command
In-call functions / channel
changes / an unsuccessful
channel change in active mode /
Handover and Assignment
command
In-call functions / MS terminated
in-call modification / modify when
new mode is not supported
In-call functions / MS originated
in-call modification / a successful
case of modifying
In-call functions / MS originated
in-call modification / modify
rejected
In-call functions / MS originated
in-call modification / an abnormal
26.8.1.3.5.4
26.8.1.3.5.5
26.8.1.3.5.6
26.8.1.3.5.7
26.8.1.3.5.8
26.8.1.3.5.9
26.8.1.4.1.1
26.8.1.4.2.1
26.8.1.4.3.1
26.8.1.4.3.2
26.8.1.4.4.1
26.8.1.4.5.1
26.8.1.4.5.2
26.8.1.4.5.3
GSM(English) Annex-18
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
case of acceptance
In-call functions / MS originated
in-call modification / an abnormal
case of rejection
In-call functions / MS originated
in-call modification / time-out of
timer T323
In-call functions / MS originated
in-call modification / a successful
channel change in state mobile
originating modify
In-call functions / MS originated
in-call modification / an
unsuccessful channel change in
state mobile originating modify
In-call functions / MS originated
in-call modification / unknown
message received
In-call functions / MS originated
in-call modification / a release
complete received
Call Re-establishment / call
present, re-establishment allowed
Call Re-establishment / call
present, re-establishment not
allowed
Call Re-establishment / call under
establishment, transmission
stopped
User to user signalling
26.8.1.4.5.4
26.8.1.4.5.5
26.8.1.4.5.6
26.8.1.4.5.7
26.8.1.4.5.8
26.8.1.4.5.9
26.8.2.1
26.8.2.2
26.8.2.3
26.8.3
Structured Procedures
Structured procedures / MS
originated call / early assignment
Structured procedures / MS
originated call / late assignment
Structured procedures / MS
terminated call / early assignment
Structured procedures / MS
terminated call / late assignment
Structured procedures /
emergency call / idle updated /
preferred channel rate
Structured procedures /
emergency call / idle, no IMSI /
accept case
Structured procedures /
emergency call / idle, no IMSI /
reject case
26.9.2
26.9.3
26.9.4
26.9.5
26.9.6.1.1
26.9.6.2.1
26.9.6.2.2
Multiband Signalling
Multiband signalling / RR /
26.11.2.1
Immediate assignment procedure
Multiband signalling / RR /
Handover / successful / active call 26.11.2.2.1
/ non-synchronized
Multiband signalling / RR /
26.11.2.2.2
Handover / layer 1 failure
GSM(English) Annex-19
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
Multiband signalling / RR /
Measurement reporting
26.11.2.3
Location updating / accepted
26.11.3.1.1
Location updating / periodic
26.11.3.1.2
Multiband signalling / Structured
procedures / MS originated call /
early assignment
Structured procedures / MS
terminated call / late assignment
26.11.5.1
26.11.5.2
Testing of the SIM/ME interface
MS identification by short IMSI Normal case
MS identification by short IMSI Phase 1 DCS SIM
27.1.1
27.1.2
MS identification by short TMSI
27.2
MS identification by long TMSI
27.3
MS identification by long IMSI,
TMSI updating and cipher key
sequence number assignment
Forbidden PLMNs, location
updating and undefined cipher
key
27.4
27.5
MS updating forbidden PLMNs
27.6
MS deleting forbidden PLMNs
27.7
MS updating the PLMN selector
list
MS recognizing the priority order
of the PLMN selector list
MS access control management
Bit/character duration during the
transmission from the ME to the
SIM
Bit/character duration during the
transmission from the SIM
simulator to the ME
Inter-character delay
Error handling during the
transmission from the ME to the
SIM simulator
Error handling during the
transmission from the SIM
simulator to the ME
Acceptance of SIMs with internal
RST
Acceptance of SIMs with active
low RST
27.8
27.9
27.10
27.11.1.1
27.11.1.2
27.11.1.3
27.11.1.4
27.11.1.5
27.11.2.1
27.11.2.2
Characters of the answer to reset 27.11.2.3
GSM(English) Annex-20
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
PTS procedure
27.11.2.4
Reset repetition
27.11.2.5
Command processing, procedure
27.11.3
bytes
Operating speed in authentication
27.12.1
procedure
Clock stop
27.12.2
Contact pressure
27.13.1
Shape of contacts for IC card SIM
27.13.2
card reader
Entry of PIN
27.14.1
Change of PIN
27.14.2
Disabling the PIN
27.14.3
PUK entry
27.14.4
Entry of PIN2
27.14.5
Change of PIN2
27.14.6
PUK2 entry
27.14.7
Abbreviated Dialling Numbers
27.15
MMI reaction to SIM status
encoding
27.16
Phase preceding ME power on
27.17.1.1
Phase during SIM power on
27.17.1.2
Phase during ME power off with
clock stop forbidden
Phase during ME power off with
clock stop allowed
Reaction of 3V only MEs on SIM
type recognition failure
Reaction of 3V only MEs on type
recognition of 5V only SIMs
Reaction of 3V technology MEs
on type recognition of 5V only
SIMs
Reaction of 3V technology MEs
on type recognition of 3V
technology SIMs
Electrical tests on contact C1,
Test 1
Electrical tests on contact C1,
Test 2
27.17.1.3
27.17.1.4
27.17.1.5.1
27.17.1.5.2
27.17.1.5.3
27.17.1.5.4
27.17.2.1.1
27.17.2.1.2
Electrical tests on contact C2
27.17.2.2
Electrical tests on contact C3
27.17.2.3
Electrical tests on contact C7
27.17.2.5
GSM(English) Annex-21
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
ME and SIM with FND activated
ME and SIM with FND
deactivated
Enabling, disabling and updating
of FND
27.18.1
27.18.2
27.18.3
Phase identification
27.19
SIM presence detection
27.20
AoC not supported by SIM
27.21.1
Maximum frequency of ACM
updating
Call terminated when ACM
greater than ACMmax
Response codes of increase
command
27.21.2
27.21.3
27.21.4
Tests of autocalling restrictions
Constraining the access to a
single number
28.2
(GM 02.27 category 3)
Constraining the access to a
single number
28.3
(GSM 02.07 categories 1 and 2)
Behaviour of the MS when its list
28.4
of blacklisted numbers is full
Tests of bearer services
Verification of synchronization
Filtering of channel control
information for transparent BCs
Negotiation of Radio Channel
Requirement (RCR)
Negotiation of Connection
Element (CE)
Negotiation of Number of Stop
Bits, Number of Data bits, and
Parity
29.2.1
29.2.2
29.2.3.1
29.2.3.2
29.2.3.3
Negotiation of Modem Type
29.2.3.4
Negotiation of Intermediate Rate
29.2.3.5
Negotiation of User Information
Layer 2 Protocol
Negotiation between TS 61 and
TS 62:
Mobile Originated call.
Negotiation between TS 61 and
TS 62:
Mobile Terminated call.
Data Rate Adaptation for
Synchronous Transparent Bearer
Capabilities
29.2.3.6
29.2.3.7
29.2.3.8
29.2.4
GSM(English) Annex-22
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
Data Rate Adaptation
29.2.6.1
Passage of the Break Signal
29.2.6.2
Overspeed/Underspeed Handling
(Local Terminal)
Overspeed/Underspeed Handling
(Remote Terminal)
Interchange circuit mapping for
transparent bearer capabilities
Normal initialization done by the
MS
29.2.6.3
29.2.6.4
29.2.7
29.3.1.1
Loss of UA frame
29.3.1.2.1
Total loss of UA frame
29.3.1.2.2
N(S) sequence number
29.3.2.2.1
Transmission window
29.3.2.2.2
Busy condition
29.3.2.2.3
N(R) sequence number
29.3.2.3.1
Busy condition
29.3.2.3.2
REJ Frame
29.3.2.4.1
SREJ Frame
29.3.2.4.2
I+S reject frame
29.3.2.4.3
Rejection with REJ or SREJ
supervisory frames
Retransmission of REJ or SREJ
frames
29.3.2.5.1
29.3.2.5.2
I+S reject frame
29.3.2.5.3
SS in checkpoint recovery mode
29.3.2.6.1
End of the window
29.3.2.6.2
End of a sequence
29.3.2.6.3
Time-out of one frame
29.3.2.6.4
No response to checkpointing
29.3.2.6.5
Incorrect response to
checkpointing
Total loss of response to
checkpointing
Retransmission of a sequence
29.3.2.6.6
29.3.2.6.7
29.3.2.6.8
N2 retransmission of a sequence 29.3.2.6.9
Negotiation initiated by the SS
29.3.3.1
Negotiation initiated by the MS
29.3.3.2
Collision of XID frames
29.3.3.3
GSM(English) Annex-23
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
Loss of XID frames
29.3.3.4
Total loss of XID frames
29.3.3.5
Mobile originated call, Call
establishment procedure,
Alternate speech / facsimile
Mobile originated call, Call
establishment procedure,
Automatic facsimile
29.4.2.1.1
29.4.2.1.2
Pre-message procedure
29.4.2.2
Message procedure
29.4.2.3
Post-message procedure
29.4.2.4
Call release procedure
29.4.2.5
CTC processing - 4th PPR for the
29.4.2.6
same block
Transition from Facsimile to
Speech - Procedure interrupt
29.4.2.7
generated by receiving station
Transition from Facsimile to
Speech - Procedure interrupt
29.4.2.8
generated by transmitting station
Quality check
29.4.2.9
Mobile terminated call, Call
Establishment Procedure,
29.4.3.1.1.1
Alternate Speech/Facsimile, DCD
Mobile Terminated
Mobile terminated call, Call
establishment Procedure,
29.4.3.1.1.3
Alternate Speech/Facsimile DCD
mobile originated
Mobile terminated call, Call
Establishment Procedure,
29.4.3.1.2
Automatic Facsimile
Pre-message procedure
29.4.3.2
Message Procedure
29.4.3.3
Post-message procedure
29.4.3.4
Call release procedure
29.4.3.5
Speed conversion factor
29.4.3.6
Speech Teleservices
Sending sensitivity/frequency
response
30.1
Sending loudness rating
30.2
Receiving sensitivity/frequency
response
30.3
Receiving loudness rating
30.4
GSM(English) Annex-24
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
Side Tone Masking Rating
(STMR)
30.5.1
Listener Side Tone Rating (LSTR) 30.5.2
Echo Loss (EL)
30.6.1
Stability margin
30.6.2
Distortion, Sending
30.7.1
Distortion, Receiving
30.7.2
Sidetone Distortion
30.8
Out-of-band signals, Sending
30.9.1
Out-of-band signals, Receiving
30.9.2
Idle channel noise, Sending
30.10.1
Idle channel noise, Receiving
30.10.2
Test of Supplementary services
Call forwarding supplementary
services, Registration accepted
Call forwarding supplementary
services, Registration rejected
Call forwarding supplementary
services, Erasure accepted
Call forwarding supplementary
services, Erasure rejected
Call forwarding supplementary
services, Activation
Call forwarding supplementary
services, Deactivation
Call forwarding supplementary
services, interrogation accepted
Call forwarding supplementary
services, Interrogation rejected
Call forwarding supplementary
services, Notification during an
incoming call
Call forwarding supplementary
services, Notification during an
outgoing call
Call forwarding supplementary
services, Forwarded-to mobile
subscriber side
AOC time related charging / MS
originated call
AOC time related charging / MS
terminated call
Change in charging information
during a call
Different formats of charging
information
AOC on a Call Hold Call
31.2.1.1.1
31.2.1.1.2
31.2.1.2.1
31.2.1.2.2
31.2.1.3
31.2.1.4
31.2.1.6.1
31.2.1.6.2
31.2.1.7.1.1
31.2.1.7.1.2
31.2.1.7.2
31.6.1.1
31.6.1.2
31.6.1.5
31.6.1.6
31.6.1.7
GSM(English) Annex-25
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
AOC on a Multi-party call
Removal of SIM during an active
call
Interruption of power supply
during an active call
MS going out of coverage during
an active AOCC call
ACMmax operation / Mobile
Origination
ACMmax operation / Mobile
Terminating
31.6.1.8
31.6.2.1
31.6.2.2
31.6.2.3
31.6.2.4
31.6.2.5
Registration of a password
31.8.1
Registration accepted
31.8.1.1
Rejection after invoke of the
Register Password operation
Rejection after password check
with negative result
Rejection after new password
mismatch
Activation accepted
31.8.1.2.1
31.8.1.2.2
31.8.1.2.3
31.8.3.1
Rejection after invoke of Activate
31.8.3.2.1
SS operation
Deactivation accepted
31.8.4.1
Rejection after invoke of
Deactivate SS operation
Rejection after use of Password
procedure
31.8.4.2.1
31.8.4.2.2
Interrogation accepted
31.8.6.1
Interrogation rejected
31.8.6.2
Normal operation
31.8.7
Process Unstructured
SS-request/accepted
Process Unstructured
SS-request/cross phase
compatibility and error handling
31.9.1.1
31.9.1.2
Unstructured SS-Notify/accepted 31.9.2.1
Unstructured SS-Notify/rejected
on user busy
Unstructured
SS-Request/accepted
Unstructured
SS-Request/rejected on user
busy
MMI input for USSD
31.9.2.2
31.9.2.3
31.9.2.4
31.10
Testing of speech transcoding functions
Full Rate Downlink speech
transcoding
32.1
GSM(English) Annex-26
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
Full Rate Downlink receiver DTX
functions
Full Rate Uplink speech
transcoding
Full Rate Uplink transmitter DTX
functions
Full Rate Speech channel
transmission delay
Downlink processing delay
Downllink coding delay
Uplink processing delay
Uplink coding delay
Half Rate Downlink speech
transcoding
Half Rate Downlink receiver DTX
functions
Half Rate Uplink speech
transcoding
Half Rate Uplink speech
transmitter DTX functions
Half Rate Speech channel
transmission delay
Downlink processing delay
Downlink coding delay
Uplink processing delay
Uplink coding delay
Intra cell channel change from a
TCH/HS to a TCH/FS
Intra cell channel change from a
TCH/FS to a TCH/HS
32.2
32.3
32.4
32.5
32.5.4
32.5.5
32.5.6
32.5.7
32.6
32.7
32.8
32.9
32.10
32.10.4
32.10.5
32.10.6
32.10.7
32.11
32.12
Mobile Station Features
Entry and display of called
number
Ringing tone
Busy tone
Congestion tone
Authentication failure tone
Number uinobtainable tone
Call dropped tone
Network selection / indication
Invalid and blocked PIN indicators
Service indicator
Subscription identify management
Barring of outgoing calls
Prevention of unauthorised calls
33.1
33.2.4
33.2.5
33.2.6
33.2.7
33.2.8
33.2.9
33.3
33.4
33.5
33.6
33.7
33.8
Short Message Sevices (SMS)
SMS mobile terminated
SMS mobile originated
Test of memory full condition and
memory available notification:
Test of the status report
capabilities and of
34.2.1
34.2.2
34.2.3
34.2.4
GSM(English) Annex-27
PLMN01
November 17,2003
Revise July 20,2007
Telecom Technical
Specifications
SMS-Command:
Short message class 0
Test of class 1 short messages
Test of class 2 short messages
Test of the replace mechanism for
SM type 1-7
Test of the reply path scheme
Short message service cell
broadcast
Low battery voltage detection
34.2.5.1
34.2.5.2
34.2.5.3
34.2.7
34.2.8
34.3
35
Testing of GPRS and End-to-End Capabilities
Test items by
manufacturer’s Declaration
of Conformity
X.25 QoS Requirement
CLNS QoS Requirement
IP QoS Requirement
Maximum Service Delay
Refer to TR101 186 Compliance
V6.0.0 (1998-04)
3.3.1.1
3.3.1.2
3.3.1.3
3.3.2
GSM(English) Annex-28
(Yes/No)
Remark
