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Test report No. : 11306373S
Page : 1 of 107
Issued date : July 11, 2016
FCC ID : AK8DPTRP1
UL Japan, Inc.
Shonan EMC Lab.
1-22-3 Megumigaoka, Hiratsuka-shi, Kanagawa-ken, 259-1220 JAPAN
Telephone: +81 463 50 6400 / Facsimile: +81 463 50 6401
SAR TEST REPORT
Test Report No.: 11306373S
Applicant : Sony Corporation
Type of Equipment : Digital Paper
Model No. : DPT-RP1
FCC ID : AK8DPTRP1
Test Standard : FCC 47CFR §2.1093
Test Result : Complied
Highest Reporte
d
SAR(1g) Value Antenna No. Remarks Out
p
ut
p
ower (avera
g
e
)
Tune
-
up value (Measured) Ban
d
Fre
q
uenc
y
Mod
e
Measure
d
Maximu
m
0.34 W/k
Calculated Antenna B DTS 2480 MHz Bluetooth, Low energy - 9 dBm
1
.
43 W/k
1.25 W/kg Antenna B DTS 2462 MHz 11b (1Mbps, DSSS) 14.44 dBm 15 dBm
1.22 W/k
g
1.15 W/kg Antenna B UNII 5640 MHz 11a (6Mbps, OFDM) 11.96 dBm 12 dBm
*. Highest reported SAR of this device for body-worn and simultaneous transmission (Bluetooth + Wi-Fi on the Antenna B, 0.34+1.22=1.56
W/kg) are "1.43 W/kg” and "1.56 W/kg".
1. This test report shall not be reproduced in full or partial, without the written approval of UL Japan, Inc.
2. The results in this report apply only to the sample tested.
3. This sample tested is in compliance with the limits of the above regulation.
4. The test results in this test report are traceable to the national or international standards.
5. This test report must not be used by the customer to claim product certification, approval, or endorsement by any agency of the Federal
Government.
6. The opinions and the interpretations to the result of the description in this report are outside scopes where UL Japan has been accredited.
7. This test report covers Radio technical requirements. It does not cover administrative issues such as Manual or non-Radio test related
Requirements. (if applicable)
Date of test: June 3~21, 2016
Test engineer:
Hiroshi Naka
Engineer, Consumer Technology Division
Approved by:
Toyokazu Imamura
Leader, Consumer Technology Division
The testing in which "Non-accreditation" is displayed is outside the accreditation scopes in UL Japan.
There is no testing item of "Non-accreditation". RTL02610
13-EM-F0429
Revised date : July29, 2016 (-r02)
Test report No. : 11306373S
Page : 2 of 107
Issued date : July 11, 2016
FCC ID : AK8DPTRP1
UL Japan, Inc.
Shonan EMC Lab.
1-22-3 Megumigaoka, Hiratsuka-shi, Kanagawa-ken, 259-1220 JAPAN
Telephone: +81 463 50 6400 / Facsimile: +81 463 50 6401
REVISION HISTORY
Revisio
n
Test re
p
ort No. Dat
e
Pa
g
e revise
d
Content
s
Ori
g
ina
l
11306373
S
J
u
l
y
11, 2016 -
-
-r01 11306373
S
Jul
y
2
0
, 2016
p
1,2
,
3
,
11
,
12 (p3
,
11
,
12) Error correctio
n
.
-r
0
2 11306373
S
Jul
y
29, 2016
p
1,2
,
5
,
8
,
1
7
,18 (p5
,
8
,
1
7
,18) Error correctio
n
.
*. By issue of new revision report, the report of an old revision becomes invalid.
CONTENTS PAGE
REVISION HISTORY ................................................................................................................................................... 2
CONTENTS .................................................................................................................................................... 2
SECTION 1: Customer information ................................................................................... 3
SECTION 2: Equipment under test (EUT) ......................................................................... 3
2.1 Identification of EUT .......................................................................................................... 3
2.2 Product Description ............................................................................................................. 3
2.3 Maximum Tune-up Limit .................................................................................................... 4
SECTION 3: Test specification, procedures and results ................................................... 5
3.1 Test specification ................................................................................................................. 5
3.2 Exposure limit ..................................................................................................................... 5
3.3 Procedure and result ............................................................................................................ 5
3.4 Test location ........................................................................................................................ 6
3.5 Confirmation before SAR testing ........................................................................................ 6
3.6 Confirmation after SAR testing ........................................................................................... 6
3.7 Test setup of EUT and SAR measurement procedure ......................................................... 7
SECTION 4: Operation of EUT during testing .................................................................. 8
SECTION 5: Uncertainty assessment (SAR measurement) .............................................. 9
SECTION 6: Confirmation before testing .......................................................................... 10
6.1 SAR reference power measurement (antenna terminal conducted average power of EUT) ................ 10
SECTION 7: Measurement results ...................................................................................... 15
7.1 SAR test results (Wi-Fi, 2.4 GHz) ....................................................................................... 15
7.2 SAR test results (Wi-Fi, 5GHz) ........................................................................................... 16
7.3 SAR Measurement Variability ............................................................................................ 18
7.4 Simultaneous transmission evaluation ................................................................................ 18
Contents of appendixes
APPENDIX 1: Photographs of test setup .............................................................................. 20
Appendix 1-1 Photograph of EUT and antenna position ........................................................................... 20
Appendix 1-2 EUT and support equipment ................................................................................................ 21
Appendix 1-3 Photograph of test setup ...................................................................................................... 22
APPENDIX 2: SAR Measurement data ................................................................................. 24
Appendix 2-1 Evaluation procedure ........................................................................................................... 24
Appendix 2-2 SAR measurement data ....................................................................................................... 25
APPENDIX 3: Test instruments ............................................................................................. 63
Appendix 3-1 Equipment used ................................................................................................................... 63
Appendix 3-2 Configuration and peripherals ............................................................................................. 64
Appendix 3-3 Test system specification ..................................................................................................... 65
Appendix 3-4 Simulated tissues composition and parameter confirmation ............................................... 66
Appendix 3-5 Daily check results .............................................................................................................. 66
Appendix 3-6 Daily check measurement data ............................................................................................ 67
Appendix 3-7 Daily check uncertainty ....................................................................................................... 71
Appendix 3-8 Calibration certificate: E-Field Probe (EX3DV4) ............................................................... 72
Appendix 3-9 Calibration certificate: Dipole (D2450V2) .......................................................................... 83
Appendix 3-10 Calibration certificate: Dipole (D5GHzV2) ........................................................................ 91
Revised date : July29, 2016 (-r02)
Test report No. : 11306373S
Page : 3 of 107
Issued date : July 11, 2016
FCC ID : AK8DPTRP1
UL Japan, Inc.
Shonan EMC Lab.
1-22-3 Megumigaoka, Hiratsuka-shi, Kanagawa-ken, 259-1220 JAPAN
Telephone: +81 463 50 6400 / Facsimile: +81 463 50 6401
SECTION 1: Customer information
Company Nam
e
Sony Corporatio
n
Addres
s
1-7-1 Konan, Minato-ku, Tokyo 108-0075, Japa
n
SECTION 2: Equipment under test (EUT)
2.1 Identification of EUT
Type of Equipmen
t
Digital Pape
r
Model Numbe
r
DPT-RP1
Serial
N
umbe
r
90
0
2
505
Condition of EUT Engineering prototype (*. Not for sale: These samples are equivalent to mass-produced items.)
Country of Mass-production Ja
p
a
n
Receipt Date of Sampl
e
J
u
ne 2, 2016 *. No modification by the Lab.
Category Identified Portable device
*. Since EUT ma
y
contact and ver
y
close to a human bod
y
d
urin
g
Wi-Fi o
p
eration, the
p
artia
l
-
b
od
y
SAR
(
1
g)
shall be observe
d
.
Ratin
g
*. A wireless LAN module power supply is 3.3Vdc via power supply IC from Li-ion battery.
Feature of EUT The EUT is a Digital Paper which includes the Wireless LAN+Bluetooth+NFC module.
SAR Accessor
y
N
on
e
2.2 Product Description (Transmitter)
E
q
ui
p
ment t
ype
Transceive
r
E
q
ui
p
ment nam
e
IEEE 802.11 22 MIMO a/b/
g
/n/ac Wireless LAN + Bluetooth + NFC NGFF Modul
e
Model numbe
r
A
W
-CM389NF
Frequency
of
operation
Bluetoot
h
2.4GHz
b
an
d
: 2402-2480 MHz (BDR (Basic Data Rate), EDR (Enhanced Data Rate), LE (Low Energy mode)
WLAN
2.4GHz
b
an
d
: 2412-2462 MHz (b,g,
n
(HT20))
W52 (U-NII-1): 5180-5240 MHz (a,n(HT20),ac(VHT20)) / 5190-5230 MHz (n(HT40),ac(VHT40)) / 5210 MHz (ac(VHT80));
W53 (U-NII-2A): 5260-5320 MHz (a,n(HT20),ac(VHT20)) / 5270-5310 MHz (n(HT40),ac(VHT40)) / 5290 MHz (ac(VHT80));
W56 (U-NII-2C): 5500-5720 MHz (a,n(HT20),ac(VHT20)) / 5510-5710 MHz (n(HT40),ac(VHT40)) / 5530-5690 MHz (ac(VHT80))
W58
(U
-NII-3
)
: 5745-5825 MHz
(
a,
n
(HT20),ac(VHT20)
)
/ 5755-5795 MHz
(n
(HT40),ac(VHT40)
)
/ 5775 MHz
(
ac(VHT80)
)
O
p
eration mod
e
Wi-Fi Bluetoot
h
Channel spacin
g
5 MHz (2.4GHz band), 20 MHz (W52, W53, W56, W58) 1MHz (BDR, EDR), 2MHz (LE
)
Bandwidth 20 MHz (b,g,a,n(HT20),ac(VHT20)),
40 MHz (
n
(HT20),ac(VTH20)), 80 MHz (ac(VHT80)
)
79MHz
Type of modulation
DSSS: DBPSK, DQPSK, CC
K
OFDM: BPSK, QPSK, 16QAM, 64QAM, 256QAM(*1)
(*
1. 256QAM is onl
y
su
pp
orte
d
by
11ac mod
e
.
)
FHSS: GFSK
(*. EDR: GFSK+ /4-DQPSK, GFSK+ 8DPSK)
Antenn
a
a
ntenna
#
A (Wi-Fi)
a
n
tenna
#
B (Wi-Fi+Bluetooth)
Antenna quantity
2 pcs. (*. Separation distance between the antenna
#
A
and the antenna
#
B: approx.92.5 m
m
)
b,g,a: One selected Tx antenna operation.
n(HT20),n(HT40): One selected Tx antenna operation (MCS0~7) / Two Tx antenna operation (MCS8~13)
ac(VHT20),ac(VHT40),ac(VHT80): One selected Tx antenna o
p
eration (MCS0~8(9)) / Two Tx antenna o
p
eration (MCS0~8(9))
Antenna mode
l
ANT162442D
T
-2001A2
(
cable len
g
th: 100 mm
)
ANT162442D
T
-2001A2
(
cable len
g
th: 100 mm
)
Antenna t
ype
Loo
p
antenna / Connector; PCB side: MHF4, Antenna side: MHF
4
Antenna gai
n
(Peak) 3.75 dBi
(
2.4GHz
)
, 2.81 dBi
(
5GHz
)
(
*.includin
g
cable loss
)
1.38 dBi
(
2.4GHz
)
, 4.29 dBi
(
5GHz
)
(
*.includin
g
cable loss
)
Transmit power and
tolerance
(Manufacture
variation)
Mod
e
2.4GHz
U
-
NII
-
1
(
W52
)
UN
-
NII
-
2A
(
W53
)
U
-
NII
-
2C
(
W5
6
)
U
-
NII
-
3
(
W5
8
)
BD
R
2 2 dBm
ED
R
2 2 dB
m
L
E
7 2 dB
m
b
13 2 dB
m
g
13 2 dB
m
a 10
2 dB
m
10
2 dB
m
10 2 dB
m
9
2 dB
m
n
(HT20) 13 2 dB
m
10
2 dB
m
10
2 dB
m
1
0
2 dB
m
9
2 dB
m
n
(HT40) 10
2 dB
m
10
2 dB
m
10 2 dB
m
9
2 dB
m
ac(VHT20) 10
2 dB
m
10
2 dB
m
10 2 dB
m
9
2 dB
m
ac(VHT40) 10
2 dB
m
9
2 dBm (*.MCS8~9)
10
2 dB
m
9
2 dBm (*.MCS8~9)
10 2 dB
m
9
2 dBm (*.MCS8~9) 9 2 dBm
ac(VH
T
80) 8
2 dB
m
8
2 dB
m
8 2 dB
m
8
2 dB
m
*. The measured Tx out
p
ut
p
ower
(
conducted
)
refers to section 6 in this re
p
ort.
*. The EUT do not use the special transmitting technique such as “beam-forming” and “time-space code diversity.”
Revised date : July20, 2016 (-r01)
Test report No. : 11306373S
Page : 4 of 107
Issued date : July 11, 2016
FCC ID : AK8DPTRP1
UL Japan, Inc.
Shonan EMC Lab.
1-22-3 Megumigaoka, Hiratsuka-shi, Kanagawa-ken, 259-1220 JAPAN
Telephone: +81 463 50 6400 / Facsimile: +81 463 50 6401
2.3 Maximum Tune-up Limit
Mode (802.11x) / Band Average Power (dBm)
Bluetooth a b g n(HT20) n(HT40) ac(VTH20) ac(VHT40) ac(VHT80)
Bluetooth v2.1+EDR - Ant.B 4
Bluetooth v4.0 LE - Ant.B 9
WLAN 2.4 GHz band - Ant.A 15 15 15
WLAN 2.4 GHz band - Ant.B 15 15 15
WLAN 2.4 GHz band - Ant.A+B 18
WLAN 5.2 GHz band (W52) - Ant.A 12 12 12 12 12 10
WLAN 5.2 GHz band (W52) - Ant.B 12 12 12 12 12 10
WLAN 5.2 GHz band (W52) - Ant.A+B 15 15 15 15 13
WLAN 5.3 GHz band (W53) - Ant.A 12 12 12 12 12 10
WLAN 5.3 GHz band (W53) - Ant.B 12 12 12 12 12 10
WLAN 5.3 GHz band (W53) - Ant.A+B 15 15 15 15 13
WLAN 5.6 GHz band (W56) - Ant.A 12 12 12 12 12 10
WLAN 5.6 GHz band (W56) - Ant.B 12 12 12 12 12 10
WLAN 5.6 GHz band (W56) - Ant.A+B 15 15 15 15 13
WLAN 5.8 GHz band (W58) - Ant.A 11 11 11 11 11 10
WLAN 5.8 GHz band (W58) - Ant.B 11 11 11 11 11 10
WLAN 5.8 GHz band (W58) - Ant.A+B 14 14 14 14 13
Test report No. : 11306373S
Page : 5 of 107
Issued date : July 11, 2016
FCC ID : AK8DPTRP1
UL Japan, Inc.
Shonan EMC Lab.
1-22-3 Megumigaoka, Hiratsuka-shi, Kanagawa-ken, 259-1220 JAPAN
Telephone: +81 463 50 6400 / Facsimile: +81 463 50 6401
SECTION 3: Test specification, procedures and results
3.1 Test specification
The US Federal Communications Commission has released the report and order “Guidelines for Evaluating the Environmental Effects of RF
Radiation", ET Docket No. 93-62 in August 1996. The order requires routine SAR evaluation prior to equipment authorization of portable
transmitter devices, including portable telephones. For consumer products, the applicable limit is 1.6 mW/g for an uncontrolled environment and 8.0
mW/g for an occupational/controlled environment as recommended by the ANSI/IEEE standard C95.1-1992. The device should be evaluated at
maximum output power (radiated from the antenna) under “worst-case” conditions for normal or intended use, incorporating normal antenna
operating positions, device peak performance frequencies and positions for maximum RF energy coupling in accordance with the following
measurement procedures..
KDB 447498 D01 (v06): General RF ex
p
osure guidanc
e
KDB 248227 D01 (v02r02): SAR
G
uidance for IEEE 802.11
(
W
i
-Fi) transmitters
KDB 865664 D01 (v01r04): SAR measurement 100MHz to 6GH
z
KDB 616217 D04 (v01r02) SAR evaluation considerations for laptop, notebook, netbook and tablet computers
IEEE Std. 1528
-
2003: IEEE Recommended Practice fo
r
Determining the Peak Spatia
l
-Averag
e
Specific Absorption Rate (SAR) in
th
e
Human Head from Wireless Communications Devices: Measurement Techni
q
ues
IEEE Std. 1528
-
2013: IEEE Recommended Practice fo
r
Determining the Peak Spatia
l
-Averag
e
Specific Absorption Rate (SAR) in
the Human Head from Wireless Communications Devices: Measurement Techniques.
(
*.
T
he referenc
e
for Uncertaint
y
in SAR correction for deviations in
p
ermittivit
y
and conductivit
y
, in clause E.3.2.
)
3.2 Exposure limit
Environments of exposure limit Whole-Body
(
avera
g
ed over the entire bod
y)
Partial-Body
(
avera
g
ed over an
y
1
g
of tissue
)
Hands, Wrists, Feet and Ankles
(
avera
g
ed over an
y
10
g
of tissue
)
(A) Limits for Occu
p
ationa
l
/Controlled Ex
p
osure
(
W/k
g)
0.4 8.0 20.0
(B) Limits for General
p
o
p
ulatio
n
/Uncontrolled Ex
p
osure
(
W/k
g)
0.08 1.6 4.0
*. Occupational/Controlled Environments: are defined as locations where there is exposur
e
that may be incurred by people who are aware of the potential for
ex
p
osure,
(
i.e. as a result o
f
em
p
lo
y
ment or occu
p
ation
)
.
*. Genera
l
Population/Uncontrolled Environments: are defined as locations where there is the exposure of individuals who have no knowledge or control of their
exposure.
The limit applied in this test report is;
General population / uncontrolled exposure, Partial-Body (averaged over any 1g of tissue) limit: 1.6 W/kg
3.3 Procedures and Results
Bluetooth Wi-Fi Wi-Fi (W52) Wi-Fi (W53) W
i
-
F
i
(
W5
6
(<5.65GHz)
)
W
i
-
F
i
(W56 (>5.65GHz)
+W58 aggregate)
Frequency band
[MHz] 2402~2480 2412~2462 5180~5240 5260~5320 5500~5640 5660~5825
Test Procedure SAR measurement; KDB 447498, KDB 248227, KDB 865664, IEEE Std.1528
Cate
g
or
y
FCC 47CFR §2.1093 (Portable device) Limi
t
SAR(1
g
): 1.
6
W/k
g
Results (SAR(1g)) Complied Com
p
lie
d
Com
p
lie
d
Com
p
lie
d
Com
p
lie
d
Com
p
lie
d
Antenn
a
# an
t
.
Ban
t
.
A
an
t
.
Ban
t
.
A
an
t
.
Ban
t
.
A
an
t
.
Ban
t
.
A
an
t
.
B an
t
.
A
an
t
.
B
SAR
[W/kg]
Reported 0.34 1.17 1.43 Reduced
(*1)
1.05 0
.
62 1.10 0.72 1.22 0.80 1.17
Measured Estimated(*2) 0.793 1.25 0.992 0.485 0.986 0.656 1.15 0.722 1.11
Operation mode,
Fre
q
uenc
y
[MHz]
LE,
2402
LE,
2402
b(1Mbps),
2462
b(1Mbps),
2462 - n20(MCS8),
5300
a(6Mbps),
5300
a(6Mbps),
5300
a(6Mbps),
5640
a(6Mbps),
5640
a(6Mbps),
5660
Output
power
[dBm]
Time avera
ge
8.42 13.33 14.4
4
-
11.9
4
11.63 11.75 11.81 11.9
6
11.73 11.99
Max. powe
r
(
scaled factor
)
9
(1.14)
15
(1.47)
15
(1.14) - 12
(1.01)
12
(1.09)
12
(1.06)
12
(1.04)
12
(1.12)
12
(1.06)
12
(1.25)
Duty cycle [%] 63.6 63.6 99.8 99.8
-
90.5 95.
6
95.
6
95.
6
95.
6
95.
6
Dut
y
scaled factor
(
N/
A
)(*2)
(
N/
A
)(*3)
(
1.00)
(
1.00)
-
(
1.1
0
)
(
1.
0
5)
(
1.
0
5)
(
1.
0
5)
(
1.
0
5)
(
1.
0
5)
Bat
c
h
scale
d
(
*
4
)
-
1.0
0
1.0
0
1.0
0
1.0
0
1.
0
6
1.0
0
1.0
0
1.0
0
1.0
0
1.0
0
Note: UL Japan’s SAR Work Procedures No.13-EM-W0429 and 13-EM-W0430. No addition, deviation nor exclusion has been made from standards
*1. (KDB248227 D01 (v02r02), clause 5.3.1) Since highest reported SAR(1g) of W53 band was 1.2 W/kg, SAR measurement of W52 band was omitted.
*2. Since Bluetooth power of this EUT is enough small, SAR test for Bluetooth mode was reduced. (Refer to clause 3.7 and clause 7.5 in this report for more detail)
*3. Duty cycle of measured 63.2 % of BLE and 77.2 % of BDR&EDR was nearly equal to highest theory duty cycle. Therefore the duty scaled factor was "1.00".
*. (Calculating formula) Corrected SAR to max.power (W/kg) = (Measured SAR (W/kg)) (Duty scaled) (Tune-up factor)
where; Tune-up factor [-] = 1 / (10 ^ (max (max.power - burst average power), dB” / 10)), Duty scaled factor [-] = 100(%) / (duty cycle, %)
*4. Refer to Section 6 about "Batch scaled".
Revised date : July29, 2016 (-r02)
Test report No. : 11306373S
Page : 6 of 107
Issued date : July 11, 2016
FCC ID : AK8DPTRP1
UL Japan, Inc.
Shonan EMC Lab.
1-22-3 Megumigaoka, Hiratsuka-shi, Kanagawa-ken, 259-1220 JAPAN
Telephone: +81 463 50 6400 / Facsimile: +81 463 50 6401
3.4 Test Location
No.7 shielded room (2.76 m (Width) 3.76 m (Depth) 2.4 m (Height)) for SAR testing.
UL Japan, Inc., Shonan EMC Lab.
1-22-3 Megumigaoka, Hiratsuka-shi, Kanagawa-ken 259-1220 JAPAN
Telephone number: +81 463 50 6400 / Facsimile number: +81 463 50 6401
3.5 Confirmation before SAR testing
3.5.1 Average power for SAR tests
Before SAR test, the RF wiring for the sample had been switched to the antenna conducted power measurement line from the
antenna line and the average power was measured. The result is shown in Section 6.
*. The EUT transmission power was verified that it was within 2dB lower than the maximum tune-up tolerance limit when it was set the rated power. (Clause 4.1,
KDB447498 D01 (v06))
Step.1 Data rate check (*. The EUT supported the following data rate in each operation mode.)
802.11b
(
1SS
)
802.11
g
(
1SS
)
802.11
a
(
1
SS
)
802.11
a
(
1
SS
)
Modulatio
n
Data rate Modulatio
n
Data rate Modulati
o
n
Data rate T
yp
eModulatio
n
Packe
t
t
yp
e
D
BPS
K
/DSS
S
1 Mb
ps
BPS
K
/OFDM
6
Mb
ps
BPS
K
/OFDM
6
Mb
ps
BL
E
GFSK/FHS
S
BLE (1Mbps)
D
QPS
K
/DSS
S
2 Mb
ps
BPSK/OFDM 9 Mb
ps
BPSK/OFDM 9 Mb
ps
BDR GFSK/FHS
S
DH1 (1Mbps)
CCK/DSS
S
5.5 Mb
ps
QPS
K
/OFDM 12 Mb
ps
QPS
K
/OFDM 12 Mb
ps
G
F
SK/FHS
S
DH3 (1Mbps)
CCK/DSS
S
11 Mb
ps
QPS
K
/OFDM 18 Mb
ps
QPS
K
/OFDM 18 Mb
ps
GFSK/FHS
S
DH5 (1Mbps)
16QAM/OFDM 2
4
Mb
ps
16QAM/OFDM 2
4
Mb
ps
EDR2
/
4
-DQPSK/FHS
S
2DH1
(
2
Mbps)
16QAM/OFDM 3
6
Mb
ps
16QAM/OFDM 3
6
Mb
ps
/
4
-DQPSK/FHS
S
2DH3
(
2
Mbps)
64QAM/OFDM
4
8 Mb
ps
64QAM/OFDM 48 Mb
ps
/
4
-DQPSK/FHS
S
2DH5
(
2
Mbps)
64QAM/OFDM 5
4
Mb
ps
64QAM/OFDM 5
4
Mb
ps
EDR3 8DPSK/FSS
S
3DH1
(
3Mbps)
8DPSK/FSS
S
3DH3
(
3Mbps)
*. SS: S
p
atial Strea
m
8DPSK/FSS
S
3DH5
(
3Mbps)
802.11n
(
HT20
)
802.11n
(
HT4
0
)
802.11ac
(
VHT2
0
)
8
02.11ac
(
VHT4
0
)
802.11ac
(
VHT80
)
MCS SS Modulatio
n
MCS SS Modulatio
n
MCS SS Modulatio
n
MCS SS Modulatio
n
MCS SS Modulatio
n
0
1 BPS
K
/OFDM
0
1 BPS
K
/OFDM
0
1or 2 BPS
K
/OFDM
0
1or 2 BPS
K
/OFDM
0
1 or 2 BPS
K
/OFDM
1 1 QPS
K
/OFDM 1 1 QPS
K
/OFDM 1 1 or 2 QPS
K
/OFDM 1 1 or 2 QPS
K
/OFDM 1 1 or 2 QPS
K
/OFDM
2 1 QPS
K
/OFDM 2 1 QPS
K
/OFDM 2 1 or 2 QPS
K
/OFDM 2 1 or 2 QPS
K
/OFDM 2 1 or 2 QPS
K
/OFDM
3 1 16QAM/OFDM 3 1 16QAM/OFDM 3 1 or 2 16QAM/OFDM 3 1 or 2 16QAM/OFDM 3 1 or 2 16QAM/OFDM
4
1 16QAM/OFDM
4
1 16QAM/OFDM
4
1 or 2 16QAM/OFDM
4
1 or 2 16QAM/OFDM
4
1 or 2 16QAM/OFDM
5 1 64QAM/OFDM 5 1 64QAM/OFDM 5 1 or 2 64QAM/OFDM 5 1 or 2 64QAM/OFDM 5 1 or 2 64QAM/OFDM
6
1 64QAM/OFDM
6
1 64QAM/OFDM
6
1 or 2 64QAM/OFDM
6
1 or 2 64QAM/OFDM
6
1 or 2 64QAM/OFDM
7
1 64QAM/OFDM
7
1 64Q
A
M/OFDM
7
1 or 2 64QAM/OFDM
7
1 or 2 64QAM/OFDM
7
1 or 2 64QAM/OFDM
8 2 BPS
K
/OFDM 8 2 BPS
K
/OFDM 8 1 or 2 25
6
QAM/OFDM 8 1 or 2 25
6
QAM/OFDM 8 1 or 2 25
6
QAM/OFDM
9 2 QPS
K
/OFDM 9 2 QPS
K
/OFDM
-
-
-
91or 225
6
QAM/OFDM 9 1 or 2 25
6
QAM/OFDM
1
0
2 QPS
K
/OFDM 1
0
2 QPS
K
/OFDM
11 2 16QAM/OFDM 11 2 16QAM/OFDM
12 2 16QAM/OFDM 12 2 16QAM/OFDM
13 2 64QAM/OFDM 13 2 64QAM/OFDM
1
4
2 64QAM/OFDM 1
4
2 64QAM/OFDM
15 2 64QAM/OFDM 15 2 64QAM/OFDM
Step.2 Consideration of SAR test channel
For the SAR test reference, on each operation band, the average output power was measured on the low/middle/upper and specified
channels with the worst data rate condition in step 1 in the above.
3.6 Confirmation after SAR testing
It was checked that the power drift [W] is within ±5% in the evaluation procedure of SAR testing. The verification of power
drift during the SAR test is that DASY5 system calculates the power drift by measuring the e-filed at the same location at
beginning and the end of the scan measurement for each test position.
The result is shown in APPENDIX 2.
*. DASY5 system calculation Power drift value[dB] =20log(Ea)/(Eb) (where, Before SAR testing: Eb[V/m] / After SAR testing: Ea[V/m])
Limit of power drift[W] = 5%
Power drift limit (X) [dB] = 10log(P_drift)=10log(1.05/1)=10log(1.05)-10log(1)=0.21dB
from E-filed relations with power.
S=EH=E^2/=P/(4r^2) (: Space impedance) P=(E^24r^2)/η
Therefore, The correlation of power and the E-filed
Power drift limit (X) dB=10log(P_drift)=10log(E_drift)^2=20log(E_drift)
From the above mentioned, the calculated power drift of DASY5 system must be the less than 0.21dB.
Test report No. : 11306373S
Page : 7 of 107
Issued date : July 11, 2016
FCC ID : AK8DPTRP1
UL Japan, Inc.
Shonan EMC Lab.
1-22-3 Megumigaoka, Hiratsuka-shi, Kanagawa-ken, 259-1220 JAPAN
Telephone: +81 463 50 6400 / Facsimile: +81 463 50 6401
3.7 Test setup of EUT and SAR measurement procedure
3.7.1 Consideration of SAR test reduction by the antenna separation distance
After considering the outline of EUT, the SAR test was carried out on the following setup conditions.
Setup Explanation of EUT setup position
(*. Refer to Appendix 1 for test setup photographs.)
antenna #
A
antenna #B SAR
type
D#
A
[mm]
SA
R
Teste
d
/Reduced
D#B
[mm]
SA
R
Teste
d
/Reduced
Front The front surface (LCD) of EUT would be arranged so that it ma
y
touch to the Flat phanto
m
.
2.6 Reduced (*1) 2.6 Reduced (*1)
Body-
touch
Back The back surface of EUT was touched to the Flat phanto
m
.
3.3 Tested 3.3 Tested
Top The short edge (near antenna) of EUT was touched to the Flat phanto
m
.
1 Tested 1 Tested
Left The long edge (near antenna #A) of EU
T
was touched to the Flat phanto
m
.
12 Tested 141 Reduced (*2)
Right The long edge (near antenna #B) of EUT would be arranged so that it ma
y
touch to the Flat phanto
m
.
171 Reduced (*2) 53 Reduced (*2)
Bottom The short edge (far end of antenna) of EUT would be arranged so that it may touch to the Flat
p
hanto
m
. 287 Reduced
(>200 mm) 287 Reduced
(>200 mm)
*. D: Antenna separation distance. It is the distance from the antenna to the outer surface of EUT which an operator may touch.
*. Size of EUT (Digital Paper): 224.0 302.6 5.9 (thickness) [mm]
*1. SAR test was only applied to the back surface and edge surface of EUT in accordance of KDB616217 SAR test requirement guideline.
(KDB 616217 D04 (v1r02)) 4.3 Tablet host platform test requirements
Most recent tablets are designed with an interactive display that may not require a physical keyboard. Both configurations are used in similar manners and require
SAR evaluation for the back surface and edges of the tablet. For keyboards that can be unfolded like a laptop, the procedures for laptop platform should also be
applied. When the tablet keyboard can be detached from the display screen and also contains a wireless transmitter, SAR testing for the keyboard alone may be
required. The antennas in tablets are typically located near the back (bottom) surface and/or along the edges of the devices; therefore, SAR evaluation is required for
these configurations. Exposures from antennas through the front (top) surface of the display section of a full-size tablet, away from the edges, are generally limited to
the user’s hands. Exposures to hands for typical consumer transmitters used in tablets are not expected to exceed the extremity SAR limit; therefore, SAR evaluation
for the front surface of tablet display screens are generally not necessary, except for tablets that are designed to require continuous operations with the hand(s) next to
the antenna(s).
*2. KDB 447498 D01 (v06) was taken into consideration to reduce SAR test.
Consideration of SAR test reductio
n
b
y
the antenna se
p
aration distance (100MHz~6GHz, 50mm
)
Band,
Mode
Setup
Position
Minimum distance Upper
frequency
[GHz]
Max. tun
e
-u
p
p
owe
r
Calculatio
n
of exclusion
(
*3
)
Standalone SAR
test required?
(
if >3, test re
q
uired
)
Remarks
[mm] [mm]
(rounded) [dBm] [mW] [mW]
(rounded)
Bluetooth LE
Back (ant.A, ant.B) 3.3 3
(
5
)
2.48
0
97.9
4
8
2.5
3.
0
R
educed
-
To
p
(ant.A, ant.B) 1 1
(
5
)
2.48
0
97.9
4
8
2.5
3.
0
R
educed
Left (ant.A) 12 12 2.48
0
97.9
4
8
1.
0
3.
0
R
educed
WLAN 2.4GHz
Back (ant.A, ant.B) 3.3 3
(
5
)
2.462 15 31.62 32 10.
0
>3.
0
Re
q
uire
d
b,g,n(HT20) To
p
(ant.A, ant.B) 1 1
(
5
)
2.462 15 31.62 32 10.
0
>3.
0
Re
q
uire
d
Left (ant.A) 12 12 2.462 15 31.62 32 4.2 >3.
0
Re
q
uire
d
WLAN W52&53
Back (ant.A, ant.B) 3.3 3
(
5
)
5.32 12 15.85 1
6
7.4
>
3.
0
Re
q
uire
d
a, n(HT20/40), ac(VHT20/40)
To
p
(ant.A, ant.B) 1 1
(
5
)
5.32 12 15.85 1
6
7.4 >3.
0
Re
q
uire
d
Left (ant.A) 12 12 5.32 12 15.85 1
6
3.1 >3.
0
Re
q
uire
d
WLAN W56
Back (ant.A, ant.B) 3.3 3
(
5
)
5.72 12 15.85 1
6
7.7 >3.
0
Re
q
uire
d
a, n(HT20/40), ac(VHT20/40)
To
p
(ant.A, ant.B) 1 1
(
5
)
5.72 12 15.85 1
6
7.7 >3.
0
Re
q
uire
d
Left (ant.A) 12 12 5.72 12 15.85 1
6
3.2 >3.
0
Re
q
uire
d
WLAN W58
Back (ant.A, ant.B) 3.3 3
(
5
)
5.825 11 12.59 13 6.3 >3.
0
Re
q
uire
d
a, n(HT20/40), ac(VHT20/40)
To
p
(ant.A, ant.B) 1 1
(
5
)
5.825 11 12.59 13 6.3 >3.
0
Re
q
uire
d
Left (ant.A) 12 12 5.825 11 12.59 13 2.
6
3.
0
R
educed
Consideration of SAR test reduction b
y
the antenna se
p
aration distance (100MHz~6GHz, >50mm
)
Band, Mode Position
Minimum distance Upper
frequency
[GHz]
Max. tun
e
-u
p
p
owe
r
Calculation of test
exclusion thresholds
[mW] (*4)
Standalone
SAR test
re
q
uired
?
Remarks
[mm] [mm]
(rounded) [dBm] [mW] [mW]
(rounded)
Bluetooth L
E
Ri
g
ht (ant.B) 53 53 2.
4
8
0
97.9
4
8
13
6
R
educed -
W
LAN 2.4GH
z
Ri
g
ht (ant.B) 53 53 2.
4
62 15 31.62 32 164
R
educed
b
,g,n(HT20)
W
LAN W52&53 Ri
g
ht (ant.B) 53 53 5.32 12 15.85 1
6
105
R
educed a, n(HT20/40), ac(VHT20/40)
W
LAN W56 Ri
g
ht (ant.B) 53 53 5.72 12 15.85 1
6
103
R
educed a, n(HT20/40), ac(VHT20/40)
W
LAN W58 Ri
g
ht (ant.B) 53 53 5.825 11 12.59 13 102
R
educed a, n(HT20/40), ac(VHT20/40)
*3. KDB 447498 D01 (v06) gives the following formula to calculate the SAR(1g) test exclusion thresholds for 100MHz-6GHz at test separation distance 50mm.
[(max.power of channel, including tune-up tolerance, mW) / (min.test separation distance, mm)] [ f (GHz)] 3.0 (for SAR(1g)) ················
formula (1)
If power is calculated from the upper formula (1);
[SAR(1g) test exclusion thresholds, mW] = 3 [test separation distance, mm] / [f (GHz)] ···································································
formula (2)
[SAR(1g) test exclusion thresholds, mW] = 3 50 / SQRT(2.462) = 96mW, where test separation distance=50mm
*4. KDB 447498 D01 (v06) gives the following formula to calculate the SAR(1g) test exclusion thresholds for 1.5-6GHz at test separation distance >50mm.
[test exclusion thresholds, mW] = [(Power allowed at numeric threshold for 50mm in formula (1))] + [(test separation distance, mm) - (50mm)] 10 formula (3)
<Conclusion for consideration for SAR test reduction>
1) For antenna #A, Back, Top and Left setup conditions are required the body-touch SAR.
2) For antenna #B, Back and Top setup conditions are required the body-touch SAR.
By the determined test setup shown above, the SAR test was applied in the following procedures.
Ste
p
1 On 2.4GHz band, Worst SAR search
by
DSSS mode. Add test for OFDM mode, if it's necessar
y
.
Step 2
~ Step 4
On W58+W56(>5.65GHz
)
aggregate
b
and, Worst SAR search
b
y largest channel
b
andwidth mode with highest power.
Repeat test for W56(<5.65GHz) band (Step 3) and W53/52 band (Step 4).
*. Check SAR measurement variability, when if the measured SAR(1g) was 0.80 W/kg and on a highest measured SAR(1g) condition in 2.4GHz band
and in 5GHz band.
*. During SAR test, the radiated power is always monitored by Spectrum Analyzer.
Test report No. : 11306373S
Page : 8 of 107
Issued date : July 11, 2016
FCC ID : AK8DPTRP1
UL Japan, Inc.
Shonan EMC Lab.
1-22-3 Megumigaoka, Hiratsuka-shi, Kanagawa-ken, 259-1220 JAPAN
Telephone: +81 463 50 6400 / Facsimile: +81 463 50 6401
SECTION 4: Operation of EUT during testing
4.1 Operating modes for SAR testing
This EUT has Bluetooth (BER, EDR, LE) and IEEE 802.11b, g, a, n(HT20), n(HT40), ac(VHT20), ac(VTH40), ac(VHT80)
continuous transmitting modes. The frequency and the modulation used in the SAR testing are shown as a following.
W
i
-
F
i
Bluetoot
h
Operation mod
e
b
g
n
(HT20) BLE BD
R
EDR2 EDR3
Tx ban
d
[MHz] 2412
~
2
4
62 2
4
02
~
2
4
8
0
Bandwidt
h
[MHz] 2
0
2
0
2
0
79 79 79 79
SAR Tested/Reduced? Teste
d
Teste
d
Teste
d
Reduce
d
Reduce
d
Reduce
d
Reduce
d
Frequency tested [MHz] (*1) (*1) (*1)
-
-
-
-
Data rate [Mbps] 1
6
MCS0, 8 1 1 2 3
Operation mod
e
a
n
(HT20) a
c
(VHT20)
n
(HT40) a
c
(VHT40) a
c
(VHT80)
a
n
(HT20) a
c
(VHT20)
n
(HT40) a
c
(VHT40) a
c
(VHT80)
ban
d
W52
(U
-NI
I
-1
)
(*2) W53
(U
-NI
I
-2A
)
Tx ban
d
[MHz] 518
0
~
524
0
519
0
~
523
0
521
0
526
0
~532
0
527
0
~531
0
529
0
Bandwidt
h
[MHz] 2
0
2
0
2
0
4
0
4
0
8
0
2
0
2
0
2
0
4
0
4
0
8
0
SAR Tested/Reduced? Teste
d
Reduce
d
Reduce
d
Reduce
d
Reduce
d
Reduce
d
Teste
d
Reduce
d
Reduce
d
Reduce
d
Reduce
d
Reduce
d
Frequency tested [MHz] (*1) - - - - - (*1) (Section 7) - (*1) - -
Data rate [Mbps]
6
- - - - -
6
MCS8 - MCS
0
- -
Operation mod
e
a
n
(HT20) a
c
(VHT20)
n
(HT40) a
c
(VHT40) a
c
(VHT80)
a
n
(HT20) a
c
(VHT20)
n
(HT40) a
c
(VHT40) a
c
(VHT80)
ban
d
W56
(U
-NI
I
-2C
)
(<5.65GHz) W56
(U
-NI
I
-2C
)
(>5.65GHz)+
W
58
(U
-NI
I
-3
)
a
gg
re
g
at
e
Tx ban
d
[MHz] 5500
~
56
4
0
551
0
~
563
0
553
0
~
561
0
566
0
~5825 567
0
~5795 569
0
~
5775
Bandwidt
h
[MHz] 2
0
2
0
2
0
4
0
4
0
8
0
2
0
2
0
2
0
4
0
4
0
8
0
SAR Tested/Reduced? Teste
d
Reduce
d
Reduce
d
Reduce
d
Reduce
d
Reduce
d
Teste
d
Reduce
d
Reduce
d
Reduce
d
Reduce
d
Reduce
d
Frequency tested [MHz] (*1) (Section 7) - (*1) - -
(*1) (Section 7) - (*1) - -
Data rate [Mbps]
6
MCS8 - MCS0 - -
6
MCS8 - MCS
0
- -
Controlled software Dut-labtool (Ver.2.0.0.75); WiFi tool (for Wi-Fi test), BT tool (for Bluetooth test)
*1. SAR test reduction consideration
[Table. Output power and SAR test channel selection and Reported SAR(1g) [W/kg] (Results) and test reduction plan]
(*. Ch: Channel, Max: Maximum power in specification, AT: Antenna terminal conducted average power measured, SAR(1g): Reported SAR(1g) [W/kg] with tuned-up)
802.11 Mode
s
b
g
n
a
n(HT
)
ac(VHT
)
Ch. Bandwidth [MHz] 2
0
2
0
2
0
2
0
2
0
4
0
2
0
4
0
8
0
Lowest data rate [Mbps] 1
6
6.5 (MCS0)
6
6.5 (MCS0) 13 (MCS0) 7.2 (MCS0) 15.
0
(MCS0) 32.5 (MCS0)
2.4GHz Ch. 1/6/11 1/6/11 1 6/11
Max,mW 32/32/32 32/32/32 32/32/32
Ant.A A
T
,mW 23/22/22 27/25/28 25/2
4
/2
6
Rp.SAR1g 0.81/ 1.17 - (b,<1.2W/kg) - (b,<1.2W/kg)
Ant.B A
T
,mW 2
7
/25/28 2
7
/25/28 23/23/2
4
Rp.SAR1g 1.28 / 1.42 / 1.43 1.14 / 1.34 / 1.36 1.22 / 1.31 / 1.33
W52 Ch. 36/40/44/4
8
36/40/44/4
8
38/4
6
36/40/44/4
8
38/4
6
4
2
Max,mW 1
6
/1
6
/1
6
/1
6
1
6
/1
6
/1
6
/1
6
1
6
/1
6
1
6
/1
6
/1
6
/1
6
1
6
/1
6
13
Ant.A A
T
,mW 15/15/1
6
/15 1
4
/15/15/15 11/11 1
4
/15/15/15 11/11 lower power
Rp.SAR1g Reduced (*2) Reduced (*2) Reduced (*2) Reduced (*2) Reduced (*2) lower power
Ant.B A
T
,mW 15/16/1
6
/1
6
15/1
6
/15/15 11/11 1
6
/15/15/15 11/11 lower power
Rp.SAR1g 1.05 Reduced (*2) Reduced (*2) Reduced (*2) Reduced (*2) lower power
W53 Ch. 52/56/60/6
4
52/56/60/6
4
54/6
2
52/56/60/6
4
54/6
2
5
8
Max,mW 1
6
/1
6
/1
6
/1
6
1
6
/1
6
/1
6
/1
6
1
6
/1
6
1
6
/1
6
/1
6
/1
6
1
6
/1
6
13
Ant.A A
T
,mW 1
6
/15/15/1
4
15/15/14/1
4
11/11 15/14/14/1
4
11/11 lower power
Rp.SAR1g 0.55 / 0.59 - (a,<1.2W/kg) 0.56 - (a,<1.2W/kg) - (n40,<1.2W/kg) lower power
Ant.B A
T
,mW 1
6
/15/15/15 15/15/15/15 11/11 15/15/15/15 11/11 lower power
Rp.SAR1g 1.07 / 1.10 / 1.07 - (a,<1.2W/kg) 0.99 / 1.07 - (a,<1.2W/kg) - (n40,<1.2W/kg) lower power
W56(<5.65GHz) Ch. 100/112/116/12
8
100/112/116/12
8
102/110/118/12
6
100/112/116/12
8
10
2
/110/118/12
6
106/12
2
Max,mW 1
6
/1
6
/1
6
/1
6
1
6
/1
6
/1
6
/1
6
1
6
/16/1
6
1
6
/1
6
/1
6
/1
6
1
6
/1
6
/1
6
13
Ant.A A
T
,mW 15/15/15/15 15/15/15/15 11/11/11/11 15/15/15/15 11/11/11/11 lower power
Rp.SAR1g 0.68 / 0.72 - (a,<1.2W/kg) 0.61 - (a,<1.2W/kg) - (n40,<1.2W/kg) lower power
Ant.B A
T
,mW 1
6
/1
6
/1
6
/1
6
1
6
/15/1
6
/15 11/11/11/11 1
6
/15/1
6
/1
6
11/11/11/11 lower power
Rp.SAR1g 1.14 / 1.18 / 1.19 - (a,<1.2W/kg) 1.10 / 1.15 / 1.14 - (a,<1.2W/kg) - (n40,<1.2W/kg) lower power
W56(>5.65GHz)
+W58 aggregate
Ch. 132/149/165 132
/
149/165 134/142/151/15
9
132/149/165 134/142/151/15
9
138/155
Max,mW 1
6
/13/13 1
6
/13/13 1
6
/1
6
/13/13 1
6
/13/13 1
6
/1
6
/13/13 13
Ant.A A
T
,mW 15/1
0
/11 15/1
0
/11 11/11/11/11 15/1
0
/11 11/12/10/1
0
lower power
Rp.SAR1g 0.86 / 0.66 - (a,<1.2W/kg) 0.72 / 0.52 - (a,<1.2W/kg) - (n40,<1.2W/kg) lower power
Ant.B A
T
,mW 1
6
/12/12 1
6
/12/12 11/11/12/12 1
6
/12/12 11/11/11/12 lower power
Rp.SAR1g 1.17 / 1.10 / 1.14 - (a,<1.2W/kg) 1.10 / 1.16 / 0.99 / 1.07 - (a,<1.2W/kg) - (n40,<1.2W/kg) lower power
*1. (KDB248227 D01 (v02r02), clause 5.3.2) At same specified maximum output power mode, the largest channel bandwidth, the lower order modulation and lowest data
rate configuration was selected. However, lowest order modulation with 20MHz channel bandwidth mode (11a) was shown the higher SAR result. Therefore the
inspection of SAR test setup was performed by 11a mode in all 5GHz band.
*2. (KDB248227 D01 (v02r02), clause 5.3.1) Since highest reported SAR(1g) of U-NII-2A was 1.2 W/kg, SAR measurement of U-NII-1 band was omitted.
Revised date : July29, 2016 (-r02)
Test report No. : 11306373S
Page : 9 of 107
Issued date : July 11, 2016
FCC ID : AK8DPTRP1
UL Japan, Inc.
Shonan EMC Lab.
1-22-3 Megumigaoka, Hiratsuka-shi, Kanagawa-ken, 259-1220 JAPAN
Telephone: +81 463 50 6400 / Facsimile: +81 463 50 6401
SECTION 5: Uncertainty Assessment (SAR measurement)
Uncertainty of SAR measurement (2.4-6GHz) (*.&: 5%, DAK3.5, Tx: 100% duty cycle) (v08) 1g SAR 10g SAR
Combined measurement uncertainty of the measurement system (k=1) ± 13.7% ± 13.6%
Expanded uncertainty (k=2) ± 27.4% ± 27.2%
Error Description (2.4-6GHz) (v08) Uncertainty
Valu
e
Probability
distributio
n
Divisor
c
i
(
1
g
)
c
i
(
1
0
g
)
u
i
(1
g)
u
i
(
1
0
g)
Vi, veff
A
Measurement S
y
ste
m
(
DASY5
)
(std. uncertainty) (std. uncertainty)
1 Probe Ca
l
ibration Erro
r
±
6.55 % Normal 1 1 1
±
6.55 %
±
6.55 %
2 Axial isotro
py
Erro
r
±
4.7 % Rectangular 3 0.5 0.5
±
1.9 %
±
1.9 %
3 Hemis
p
herical isotro
py
Erro
r
±
9.6 % Rectangular 3 0.5 0.5
±
3.9 %
±
3.9 %
4
Linearit
y
Erro
r
±
4.7 % Rectangular 3 1 1
±
2.7 %
±
2.7 %
5 Probe modulation res
p
ons
e
±
2.
4
%Rectangular 3 1 1
±
1.4 %
±
1.
4
%
6 Sensitivit
y
Error
(
detection limit
)
±
1.0 % Rectangular 3 1 1
±
0.6 %
±
0.6 %
7
Boundar
y
effects Erro
r
±
4.3% Rectangular 3 1 1
±
2.5 %
±
2.5 %
8 Readout Electronics Er
r
or
(
DAE
)
±
0.3 % Rectangular 3 1 1
±
0.3 %
±
0.3 %
9 Res
p
onse Time Erro
r
±
0.8 % Normal 1 1 1
±
0.8 %
±
0.8 %
1
0
Inte
g
ration Time Erro
r
(
100% duty cycle)
±
0 % Rectangular 3 1 1 0 % 0 %
11 RF ambient condition
s
-nois
e
±
3.0 % Rectangular 3 1 1
±
1.7 %
±
1.7 %
12 RF ambient condition
s
-reflection
s
±
3.0 % Rectangular 3 1 1
±
1.7 %
±
1.7 %
13 Probe
p
ositioner mechanical toleranc
e
±
3.3 % Rectangular 3 1 1
±
1.9 %
±
1.9 %
1
4
Probe Positionin
g
with res
p
ect to
p
hantom shel
l
±
6.7 % Rectangular 3 1 1
±
3.9 %
±
3.9 %
15 Max. SAR evaluation
(
Post-
p
rocessin
g)
±
4
.0 % Rectangular 3 1 1
±
2.3 %
±
2.3 %
B Test Sam
p
le Relate
d
16 Device Holder or Positioner Toleranc
e
±
3.6 % Normal 1 1 1
±
3.6 %
±
3.6 % 5
1
7
Test Sam
p
le Positionin
g
Erro
r
±
5.0 % Normal 1 1 1
±
5.0 %
±
5.0 % 145
18 Power scalin
g
±
0
%Rectangular 3 1 1
±
0 %
±
0
%
19 Drift of out
p
ut
p
ower (measured, <0.2dB)
±
2.3% Rectangular 3 1 1
±
2.9 %
±
2.9 %
C Phantom and Setu
p
2
0
Phantom uncertaint
y
(shape, thickness tolerances)
±
7.5 % Rectangular 3 1 1
±
4.3 %
±
4.3 %
21 Al
g
orithm for correctin
g
SAR (e',σ: 5%)
±
1.2 % Normal 1 10.8
4
±
1.2 %
±
0.97 %
22 Measurement Li
q
uid Conductivit
y
Erro
r
(DAK3.5)
±
3.
0
%Normal 1 0.78 0.71
±
2.3 %
±
2.1 % 7
23 Measurement Li
q
uid Permittivit
y
Erro
r
(DAK3.5)
±
3.1 % Normal 1 0.23 0.26
±
0
.7 %
±
0.8 % 7
2
4
Li
q
uid Conductivit
y
-tem
p
.uncertaint
y
(
2deg.C.)
±
5.3 % Rectangular 3 0.78 0.71
±
2.4 %
±
2.2 %
25 Li
q
uid Permittivit
y
-tem
p
.uncertaint
y
(
2deg.C.)
±
0.9 % Rectangular 3 0.23 0.2
6
±
0.1 %
±
0.1 %
Combined Sta
n
dard Uncertainty
±
13.7 %
±
13.
6
%733
Expanded Uncertainty (k=2
)
±
27.4 %
±
27.2 %
*. Table of uncertainties are listed for ISO/IEC 17025.
*. This measurement uncertainty budget is suggested by IEEE Std.1528(2013) and determined by Schmid & Partner Engineering AG (DASY5 Uncertainty Budget).
Per KDB 865664 D01 (v01r04) SAR Measurement 100 MHz to 6 GHz Section 2.8.1., when the highest measured SAR(1g) within a frequency band is < 1.5W/kg,
the extensive SAR measurement uncertainty analysis described in IEEE Std.1528 (2013) is not required in SAR reports submitted for equipment approval.
Test report No. : 11306373S
Page : 10 of 107
Issued date : July 11, 2016
FCC ID : AK8DPTRP1
UL Japan, Inc.
Shonan EMC Lab.
1-22-3 Megumigaoka, Hiratsuka-shi, Kanagawa-ken, 259-1220 JAPAN
Telephone: +81 463 50 6400 / Facsimile: +81 463 50 6401
SECTION 6: Confirmation before testing
6.1 Assessment for the antenna terminal port conducted power of EUT (Worst data rate, worst channel determination)
Mode Freq. Data
rate
Power s
p
ec. Duty cycl
e
Antenna
A
(
wifi
)
p
owe
r
Antenna B
(
wifi+bt
)
p
owe
r
MIMO Ant.
A
+
B
p
owe
r
Typical Max. duty
cycle factor scaled
factor
Set
p
wr.
Time
avera
ge
Max.
Tune-up
facto
r
SAR
Tested?
Set
p
wr.
Time
avera
ge
Max.
Tune-up
facto
r
SAR
Tested?
MIMO
tar
g
e
t
MIMO
max.
SUM
Ave.
Max.
Powe
r
Tune
-up?
[MHz] [Mb
p
s] [dBm] [dBm] [%] [dB]
[
-] [dBm] [dBm] [dB]
[
-] [dBm] [dBm] [dB]
[
-] [dBm] [dBm] [dBm] [dB]
Blu
e
-
tooth
LE
2
4
02 1 7.
0
9.
0
63.
6
(
*1
)
1.
0
0
9 8.42
-
0.58
1.14 - Tun
e
-u
p
2
4
4
0
1 7.
0
9.
0
63.
6
(
*1
)
1.
0
0
9 8.29
-
0.71
1.18 - Tun
e
-u
p
2
4
8
0
1 7.
0
9.
0
63.
6
(
*1
)
1.
0
0
9 8.08
-
0.92
1.24 - Tun
e
-u
p
Blu
e
-
tooth
BDR
2
4
0
1 DH
5
2.
0
4.
0
78.5
(
*1
)
1.
0
0
0
2.47
-
1.53
1.42 - -
2
4
41 DH
5
2.
0
4.
0
78.5
(
*1
)
1.
0
0
0
2.47
-
1.53
1.42 - -
2
4
8
0
DH
5
2.
0
4.
0
78.5
(
*1
)
1.
0
0
0
2.44
-
1.56
1.43 - -
Blue-
tooth
EDR
2
4
01 2DH
5
2.
0
4.
0
78.5
(
*1
)
1.
0
0
0
3.76
-
0.24
1.06 - -
2
4
41 2DH
5
2.
0
4.
0
78.5
(
*1
)
1.
0
0
0
3.62
-
0.38
1.09 - -
2
4
8
0
2DH
5
2.
0
4.
0
78.5
(
*1
)
1.
0
0
0
3.43
-
0.57
1.14 - -
2
4
0
1 3DH
5
2.
0
4.
0
78.8
(
*1
)
1.
0
0
0
3.74
-
0.26
1.06 - -
2
4
41 3DH
5
2.
0
4.
0
78.8
(
*1
)
1.
0
0
0
3.61
-
0.39
1.09 - -
2
4
8
0
3DH
5
2.
0
4.
0
78.8
(
*1
)
1.
0
0
0
3.41
-
0.59
1.15 - -
11b
2412 1 13.0 15.0 99.8 0.01 1.00 13 13.60
-
1.40
1.38 Teste
d
13 14.28
-
0.72
1.18 Teste
d
-
2
4
3
7
1 13.0 15.0 99.8 0.01 1.00 13 13.34
-
1.66
1.47 -13 14.00
-
1.00
1.26 Teste
d
-
2
4
6
2 1 13.0 15.0 99.8 0.01 1.00 13 13.33
-
1.67
1.47 Teste
d
13 14.44
-
0.56
1.14 Teste
d
-
11g
2412
6
13.0 15.0 95.2 0.21 1.05 1
4
14.23
-
0.77
1.19 -1
4
13.74
-
1.26
1.34 Teste
d
Tun
e
-u
p
2
4
3
7
6
13.0 15.0 95.2 0.21 1.05 1
4
13.97
-
1.03
1.27 -1
4
13.62
-
1.38
1.37 Teste
d
Tun
e
-u
p
2
4
6
2
6
13.0 15.0 95.2 0.21 1.05 1
4
14.13
-
0.87
1.22 -1
4
13.76
-
1.24
1.33 Teste
d
Tun
e
-u
p
11n
(HT20)
(1Tx)
2412 MCS0 13.0 15.0 94.
6
0.24 1.06 1
4
14.04
-
0.96
1.25 -1
4
13.64
-
1.36
1.37 Teste
d
Tun
e
-u
p
2
4
3
7
MCS0 13.0 15.0 94.
6
0.24 1.06 1
4
13.88
-
1.12
1.29 -1
4
13.70
-
1.30
1.35 Teste
d
Tun
e
-u
p
2
4
62 MCS0 13.0 15.0 94.
6
0.24 1.06 1
4
14.23
-
0.77
1.19 -1
4
13.87
-
1.13
1.30 Teste
d
Tun
e
-u
p
11n
(HT20)
(2Tx)
2412 MCS8 13.0 15.0 91.2 0.40 1.10 1
4
14.13
-
0.87
1.22 -1
4
13.62
-
1.38
1.37 - 16.0 18.0 16.89
-
1.11 Tun
e
-u
p
2
4
3
7
MCS8 13.0 15.0 91.2 0.40 1.10 1
4
13.96
-
1.04
1.27 -1
4
13.53
-
1.47
1.40 - 16.0 18.0 16.76
-
1.24 Tun
e
-u
p
2
4
6
2 MCS8 13.0 15.0 91.2 0.40 1.10 1
4
14.08
-
0.92
1.24 Teste
d
1
4
13.66
-
1.34
1.36 Teste
d
16.0 18.0 16.89
-
1.11 Tun
e
-u
p
*1. Duty cycle of measured 63.2 % of BLE and 77.2 % of BDR&EDR was nearly equal to highest theory duty cycle. Therefore the duty scaled factor was "1.00".
11a
518
0
6
10.0 12.0 95.
6
0.20 1.05 11 11.74
-
0.26
1.06 -11 11.82
-
0.18
1.04 - Tun
e
-u
p
520
0
6
10.0 12.0 95.
6
0.20 1.05 11 11.76
-
0.24
1.06 -11 11.94
-
0.06
1.01 - Tun
e
-u
p
522
0
6
10.0 12.0 95.
6
0.20 1.05 11 11.93
-
0.07
1.02 -11 11.94
-
0.06
1.01 Teste
d
Tun
e
-u
p
524
0
6
10.0 12.0 95.
6
0.20 1.05 11 11.84
-
0.16
1.04 -11 11.92
-
0.08
1.02 - Tun
e
-u
p
526
0
6
10.0 12.0 95.
6
0.20 1.05 11 11.92
-
0.08
1.02 Teste
d
11 11.94
-
0.06
1.01 Teste
d
Tun
e
-u
p
528
0
6
10.0 12.0 95.
6
0.20 1.05 11 11.75
-
0.25
1.06 -11 11.78
-
0.22
1.05 - Tun
e
-u
p
530
0
6
10.0 12.0 95.
6
0.20 1.05 11 11.72
-
0.28
1.07 Teste
d
11 11.75
-
0.25
1.06 Teste
d
Tun
e
-u
p
532
0
6
10.0 12.0 95.
6
0.20 1.05 11 11.61
-
0.39
1.09 -11 11.73
-
0.27
1.06 Teste
d
Tun
e
-u
p
550
0
6
10.0 12.0 95.
6
0.20 1.05 11 11.70
-
0.30
1.07 -11 11.92
-
0.08
1.02 Teste
d
Tun
e
-u
p
556
0
6
10.0 12.0 95.
6
0.20 1.05 11 11.74
-
0.26
1.06 -11 11.95
-
0.05
1.01 - Tun
e
-u
p
558
0
6
10.0 12.0 95.
6
0.20 1.05 11 11.64
-
0.36
1.09 Teste
d
11 11.92
-
0.08
1.02 Teste
d
Tun
e
-u
p
564
0
6
10.0 12.0 95.
6
0.20 1.05 11 11.81
-
0.19
1.04 Teste
d
11 11.96
-
0.04
1.01 Teste
d
Tun
e
-u
p
566
0
6
10.0 12.0 95.
6
0.20 1.05 11 11.73
-
0.27
1.06 Teste
d
11 11.99
-
0.01
1.00 Teste
d
Tun
e
-u
p
5745
6
9.0 11.0 95.
6
0.20 1.05 1
0
10.21
-
0.79
1.20 -1
0
10.78
-
0.22
1.05 Teste
d
Tun
e
-u
p
5825
6
9.0 11.0 95.
6
0.20 1.05 1
0
10.57
-
0.43
1.10 Teste
d
1
0
10.96
-
0.04
1.01 Teste
d
Tun
e
-u
p
11n
(HT20)
(1Tx)
5180 MCS
0
10.0 12.0 94.
6
0.24 1.06 11 11.54
-
0.46
1.11 -11 11.89
-
0.11
1.03 - Tun
e
-u
p
52
0
0 MCS
0
10.0 12.0 94.
6
0.24 1.06 11 11.77
-
0.23
1.05 -11 11.99
-
0.01
1.00 - Tun
e
-u
p
5220 MCS
0
10.0 12.0 94.
6
0.24 1.06 11 11.73
-
0.27
1.06 -11 11.86
-
0.14
1.03 - Tun
e
-u
p
5240 MC
S
0
10.0 12.0 94.
6
0.24 1.06 11 11.73
-
0.27
1.06 -11 11.88
-
0.12
1.03 - Tun
e
-u
p
5260 MCS
0
10.0 12.0 94.
6
0.24 1.06 11 11.73
-
0.27
1.06 -11 11.80
-
0.20
1.05 - Tun
e
-u
p
5280 MCS
0
10.0 12.0 94.
6
0.24 1.06 11 11.68
-
0.32
1.08 -11 11.78
-
0.22
1.05 - Tun
e
-u
p
5300 MCS
0
10.0 12.0 94.
6
0.24 1.06 11 11.59
-
0.41
1.10 -11 11.72
-
0.28
1.07 - Tun
e
-u
p
5320 MCS
0
10.0 12.0 94.
6
0.24 1.06 11 11.60
-
0.40
1.10 -11 11.65
-
0.35
1.08 - Tun
e
-u
p
550
0
MCS
0
10.0 12.0 94.
6
0.24 1.06 11 11.75
-
0.25
1.06 -11 11.96
-
0.04
1.01 - Tun
e
-u
p
556
0
MCS
0
10.0 12.0 94.
6
0.24 1.06 11 11.75
-
0.25
1.06 -11 11.86
-
0.14
1.03 - Tun
e
-u
p
558
0
MCS
0
10.0 12.0 94.
6
0.24 1.06 11 11.78
-
0.22
1.05 -11 11.98
-
0.02
1.00 - Tun
e
-u
p
564
0
MCS
0
10.0 12.0 94.
6
0.24 1.06 11 11.69
-
0.31
1.07 -11 11.90
-
0.10
1.02 - Tun
e
-u
p
566
0
MCS
0
10.0 12.0 94.
6
0.24 1.06 11 11.75
-
0.25
1.06 -11 11.9
6
-
0.04
1.01 - Tun
e
-u
p
5745 MCS
0
9.0 11.0 94.
6
0.24 1.06 1
0
10.20
-
0.80
1.20 -1
0
10.77
-
0.23
1.05 - Tun
e
-u
p
5825 MCS
0
9.0 11.0 94.
6
0.24 1.06 1
0
10.46
-
0.54
1.13 -1
0
10.96
-
0.04
1.01 - Tun
e
-u
p
11ac
(VHT
20)
(1Tx)
5180 MCS
0
10.0 12.0 98.1 0.08 1.02 11 11.59
-
0.41
1.10 -11 11.99
-
0.01
1.00 - Tun
e
-u
p
52
0
0 MCS
0
10.0 12.0 98.1 0.08 1.02 11 11.67
-
0.33
1.08 -11 11.76
-
0.24
1.06 - Tun
e
-u
p
5220 MCS
0
10.0 12.0 98.1 0.08 1.02 11 11.78
-
0.22
1.05 -11 11.79
-
0.21
1.05 - Tun
e
-u
p
5240 MCS
0
10.0 12.0 98.1 0.08 1.02 11 11.81
-
0.19
1.04 -11 11.77
-
0.23
1.05 - Tun
e
-u
p
5260 MCS
0
10.0 12.0 98.1 0.08 1.02 11 11.81
-
0.19
1.04 -11 11.81
-
0
.19
1.04 - Tun
e
-u
p
5280 MCS
0
10.0 12.0 98.1 0.08 1.02 11 11.60
-
0.40
1.10 -11 11.73
-
0.27
1.06 - Tun
e
-u
p
5300 MCS
0
10.0 12.0 98.1 0.08 1.02 11 11.53
-
0.47
1.11 -11 11.75
-
0.25
1.06 - Tun
e
-u
p
5320 MCS
0
10.0 12.0 98.1 0.08 1.02 11 11.59
-
0.41
1.10 -11 11.77
-
0.23
1.05 - Tun
e
-u
p
550
0
MCS
0
10.0 12.0 98.1 0.08 1.02 11 11.65
-
0.35
1.08 -11 11.94
-
0.06
1.01 - Tun
e
-u
p
556
0
MCS
0
10.0 12.0 98.1 0.08 1.02 11 11.69
-
0.31
1.07 -11 11.81
-
0.19
1.04 - Tun
e
-u
p
558
0
MCS
0
10.0 12.0 98.1 0.08 1.02 11 11.75
-
0.25
1.06 -11 11.92
-
0.08
1.02 - Tun
e
-u
p
564
0
MCS
0
10.0 12.0 98.1 0.08 1.02 11 11.78
-
0.22
1.05 -11 11.96
-
0.04
1.01 - Tun
e
-u
p
566
0
MCS
0
10.0 12.0 98.1 0.08 1.02 11 11.74
-
0.26
1.06 -11 11.97
-
0.03
1.01 - Tun
e
-u
p
5745 MCS
0
9.0 11.0 98.1 0.08 1.02 1
0
10.21
-
0.79
1.20 -1
0
10.84
-
0.16
1.04 - Tun
e
-u
p
5825 MCS
0
9.0 11.0 98.1 0.08 1.02 1
0
10.37
-
0.63
1.16 -1
0
10.96
-
0.04
1.01 - Tun
e
-u
p
(cont'd)
Test report No. : 11306373S
Page : 11 of 107
Issued date : July 11, 2016
FCC ID : AK8DPTRP1
UL Japan, Inc.
Shonan EMC Lab.
1-22-3 Megumigaoka, Hiratsuka-shi, Kanagawa-ken, 259-1220 JAPAN
Telephone: +81 463 50 6400 / Facsimile: +81 463 50 6401
(cont'd)
Mode Freq. Data
rate
Power s
p
ec. Duty cycl
e
Antenna A
(
wifi
)
p
owe
r
Antenna B
(
wifi+bt
)
p
owe
r
MIMO Ant.
A
+
B
p
owe
r
Typical Max. duty
cycle factor scaled
factor
Set
p
wr.
Time
avera
ge
Max.
Tune-up
facto
r
SAR
Tested?
Set
p
wr.
Time
avera
ge
Max.
Tune-up
facto
r
SAR
Tested?
MIMO
tar
g
e
t
MIMO
max.
SUM
Ave.
Max.
Powe
r
Tune
-up?
[MHz] [Mb
p
s] [dBm] [dBm] [%] [dB]
[
-] [dBm] [dBm] [dB]
[
-] [dBm] [dBm] [dB]
[
-] [dBm] [dBm] [d
B
m] [dB]
11n
(HT40)
(1Tx)
5190 MCS
0
10.
0
12.
0
89.5 0.48 1.12 1
0
10.45
-
1.55 x1.43 -1
0
10.48
-
1.52 x1.42
-
-
5230 MCS
0
10.
0
12.
0
89.5 0.48 1.12 1
0
10.51
-
1.49 x1.41 -1
0
10.3
7
-
1.63 x1.4
6
-
-
52
7
0 MCS
0
10.
0
12.
0
89.5 0.48 1.12 1
0
10.58
-
1.42 x1.39
-
1
0
10.32
-
1.68 x1.4
7
Teste
d
-
5310 MCS
0
10.
0
12.
0
89.5 0.48 1.12 1
0
10.5
6
-
1.4
4
x1.39 Teste
d
1
0
10.3
4
-
1.6
6
x1.4
7
Teste
d
-
551
0
MCS
0
10.
0
12.
0
89.5 0.48 1.12 1
0
10.51
-
1.49 x1.41 -1
0
10.43
-
1.5
7
x1.4
4
Teste
d
-
555
0
MCS
0
10.
0
12.
0
89.5 0.48 1.12 1
0
10.42
-
1.58 x1.4
4
-
1
0
10.48
-
1.52 x1.42
-
-
559
0
MCS
0
10.
0
12.
0
89.5 0.48 1.12 1
0
10.4
4
-
1.5
6
x1.43 Teste
d
1
0
10.58
-
1.42 x1.39 Teste
d
-
563
0
MCS
0
10.
0
12.
0
89.5 0.48 1.12 1
0
10.3
7
-
1.63 x1.4
6
-
1
0
10.5
4
-
1.4
6
x1.4
0
Teste
d
-
567
0
MCS
0
10.
0
12.
0
89.5 0.48 1.12 1
0
10.4
4
-
1.5
6
x1.43
-
1
0
10.4
6
-
1.5
4
x1.43 Teste
d
-
571
0
MCS
0
10.
0
12.
0
89.5 0.48 1.12 1
0
10.49
-
1.51 x1.42 Teste
d
1
0
10.51
-
1.49 x1.41 Teste
d
5755 MCS
0
9.
0
11.
0
89.5 0.48 1.12 1
0
10.2
6
-
0
.7
4
x1.19 Teste
d
1
0
10.68
-
0
.32 x1.08 Teste
d
Tun
e
-u
p
5
7
95 MCS
0
9.
0
11.
0
89.5 0.48 1.12 1
0
10.28
-
0
.72 x1.18
-
1
0
10.8
4
-
0
.1
6
x1.0
4
Teste
d
Tun
e
-u
p
11ac
(VHT
40)
(1Tx)
5190 MCS
0
10.
0
12.
0
96.
4
0.1
6
1.0
4
1
0
10.3
7
-
1.63 x1.4
6
-1
0
10.3
7
-
1.63 x1.4
6
- -
5230 MCS
0
10.
0
12.
0
96.
4
0.1
6
1.0
4
1
0
10.5
0
-
1.5
0
x1.41 -1
0
10.25
-
1.75 x1.5
0
- -
52
7
0 MCS
0
10.
0
12.
0
96.
4
0.1
6
1.0
4
1
0
10.43
-
1.5
7
x1.4
4
-1
0
10.2
7
-
1.73 x1.49 - -
5310 MCS
0
10.
0
12.
0
96.
4
0.1
6
1.0
4
1
0
10.19
-
1.81 x1.52 -1
0
10.19
-
1.81 x1.52 - -
551
0
MCS
0
10.
0
12.
0
96.
4
0.1
6
1.0
4
1
0
10.43
-
1.5
7
x1.4
4
-1
0
10.23
-
1.7
7
x1.5
0
- -
555
0
MCS
0
10.
0
12.
0
96.
4
0.1
6
1.0
4
1
0
10.49
-
1.51 x1.42 -1
0
10.5
0
-
1.5
0
x1.41 - -
559
0
MCS
0
10.
0
12.
0
96.
4
0.1
6
1.0
4
1
0
10.35
-
1.65 x1.4
6
-1
0
10.42
-
1.58 x1.4
4
- -
563
0
MCS
0
10.
0
12.
0
96.
4
0.1
6
1.0
4
1
0
10.45
-
1.55 x1.43 -1
0
10.49
-
1.51 x1.42 - -
567
0
MCS
0
10.
0
12.
0
96.
4
0.1
6
1.0
4
1
0
10.33
-
1.6
7
x1.4
7
-1
0
10.42
-
1.58 x1.4
4
- -
571
0
MCS
0
10.
0
12.
0
96.
4
0.1
6
1.0
4
1
0
10.63
-
1.3
7
x1.3
7
-1
0
10.4
7
-
1.53 x1.42 -
5755 MCS
0
9.
0
11.
0
96.
4
0.1
6
1.0
4
1
0
10.0
6
-
0.9
4
x1.2
4
-1
0
10.5
7
-
0.43 x1.1
0
- Tun
e
-u
p
5
7
95 MCS
0
9.
0
11.
0
96.
4
0.1
6
1.0
4
1
0
10.2
0
-
0.8
0
x1.2
0
-1
0
10.85
-
0.15 x1.
0
4
- Tun
e
-u
p
11ac
(VHT
80)
(1Tx)
521
0
MCS
0
8.
0
10.
0
92.2 0.35 1.08 8 8.52
-
1.48 x1.41 -88.63
-
1.3
7
x1.3
7
- -
5290 MCS
0
8.
0
10.
0
92.2 0.35 1.08 8 8.72
-
1.28 x1.3
4
-88.52
-
1.48 x1.41 - -
553
0
MCS
0
8.
0
10.
0
92.2 0.35 1.08 8 8.71
-
1.29 x1.35 -88.7
6
-
1.2
4
x1.33 - -
561
0
MCS
0
8.
0
10.
0
92.2 0.35 1.08 8 8.5
7
-
1.43 x1.39 -88.6
4
-
1.3
6
x1.3
7
- -
569
0
MCS
0
8.
0
10.
0
92.2 0.35 1.08 8 8.6
4
-
1.3
6
x1.3
7
-88.58
-
1.42 x1.39 - -
5775 MCS
0
8.
0
10.
0
92.2 0.35 1.08 8 8.4
0
-
1.6
0
x1.45 -88.81
-
1.19 x1.32 - -
11n
(HT20)
(2Tx)
5180 MCS
0
10.0 12.0 90.5 0.43 x1.10 11 11.81
-
0.19 x1.04 -11 11.82
-
0.18 x1.04 - 13.0 15.0 14.83
-
0.17 Tun
e
-u
p
52
0
0 MCS
0
10.0 12.0 90.5 0.43 x1.10 11 11.88
-
0.12 x1.03 -11 11.84
-
0.16 x1.0
4
- 13.0 15.0 14.87
-
0.13 Tun
e
-u
p
5220 MCS
0
10.0 12.0 90.5 0.43 x1.10 11 11.94
-
0.06 x1.01 -11 11.90
-
0.10 x1.02 - 13.0 15.0 14.93
-
0.07 Tun
e
-u
p
5240 MCS
0
10.0 12.0 90.5 0.43 x1.10 11 11.96
-
0.04 x1.01 -11 11.94
-
0.06 x1.01 - 13.0 15.0 14.96
-
0.04 Tun
e
-u
p
5260 MCS
0
10.0 12.0 90.5 0.43 x1.10 11 11.93
-
0.07 x1.02 -11 11.95
-
0.05 x1.01 - 13.0 15.0 14.95
-
0.05 Tun
e
-u
p
5280 MCS
0
10.0 12.0 90.5 0.43 x1.10 11 11.85
-
0.15 x1.04 -11 11.84
-
0.16 x1.04 - 13.0 15.0 14.86
-
0.14 Tun
e
-u
p
5300 MCS
0
10.0 12.0 90.5 0.43 x1.10 11 11.63
-
0.37 x1.09 -11 11.98
-
0.02 x1.00 - 13.0 15.0 14.82
-
0.18 Tun
e
-u
p
5320 MCS
0
10.0 12.0 90.5 0.43 x1.10 11 11.61
-
0.39 x1.09 -11 11.79
-
0.21 x1.05 - 13.0 15.0 14.71
-
0.29 Tun
e
-u
p
550
0
MCS
0
10.0 12.0 90.5 0.43 x1.10 11 11.67
-
0.33 x1.08 -11 11.96
-
0.04 x1.01 - 13.0 15.0 14.83
-
0.17 Tun
e
-u
p
556
0
MCS
0
10.0 12.0 90.5 0.43 x1.10 11 11.62
-
0.38 x1.09 -11 11.98
-
0.02 x1.00 - 13.0 15.0 14.81
-
0.19 Tun
e
-u
p
558
0
MCS
0
10.0 12.0 90.5 0.43 x1.10 11 11.61
-
0.39 x1.09 -11 11.99
-
0.01 x1.00 - 13.0 15.0 14.81
-
0.19 Tun
e
-u
p
564
0
MCS
0
10.0 12.0 90.5 0.43 x1.10 11 11.75
-
0.25 x1.06 -11 11.96
-
0.0
4
x1.01 - 13.0 15.0 14.87
-
0.13 Tun
e
-u
p
566
0
MCS
0
10.0 12.0 90.5 0.43 x1.10 11 11.90
-
0.10 x1.02 -11 11.98
-
0.02 x1.00 - 13.0 15.0 14.95
-
0.05 Tun
e
-u
p
5
7
4
5 MCS
0
9.0 11.0 90.5 0.43 x1.10 1
0
10.18
-
0.82 x1.21 -1
0
10.77
-
0.23 x1.05 - 12.0 14.0 13.49
-
0.51 Tun
e
-u
p
5825 MCS
0
9.0 11.0 90.5 0.43 x1.10 1
0
10.42
-
0.58 x1.14 -1
0
10.96
-
0.04 x1.01 - 12.0 14.0 13.71
-
0.29 Tun
e
-u
p
11ac
(VHT
20)
(2Tx)
5180 MCS
0
10.0 12.0 96.2 0.17 x1.04 11 11.67
-
0.33 x1.
0
8 -11 12.07 0.07 x0.98 - 13.0 15.0 14.89
-
0.11 Tun
e
-u
p
52
0
0 MCS
0
10.0 12.0 96.2 0.17 x1.04 11 11.82
-
0.18 x1.04 -11 11.93
-
0.07 x1.02 - 13.0 15.0 14.89
-
0.11 Tun
e
-u
p
5220 MCS
0
10.0 12.0 96.2 0.17 x1.04 11 11.92
-
0.08 x1.02 -11 11.85
-
0.15 x1.04 - 13.0 15.0 14.90
-
0.10 Tun
e
-u
p
5240 MCS
0
10.0 12.0 96.2 0.17 x1.04 11 11.97
-
0.03 x1.01 -11 11.91
-
0.09 x1.02 - 13.0 15.0 14.95
-
0.05 Tun
e
-u
p
5260 MCS
0
10.0 12.0 96.2 0.17 x1.04 11 11.96
-
0.04 x1.01 -11 11.92
-
0.08 x1.02 - 13.0 15.0 14.95
-
0.05 Tun
e
-u
p
5280 MCS
0
10.0 12.0 96.2 0.17 x1.04 11 11.86
-
0.14 x1.03 -11 12.04 0.04 x0.99 - 13.0 15.0 14.96
-
0.04 Tun
e
-u
p
5300 MCS
0
10.0 12.0 96.2 0.17 x1.04 11 11.60
-
0.40 x1.10 -11 12.13 0.13 x0.97 - 13.0 15.0 14.88
-
0.12 Tun
e
-u
p
5320 MCS
0
10.0 12.0 96.2 0.17 x1.04 11 11.59
-
0.41 x1.10 -11 12.14 0.14 x0.97 - 13.0 15.0 14.88
-
0.12 Tun
e
-u
p
550
0
MCS
0
10.0 12.0 96.2 0.17 x1.04 11 11.67
-
0.33 x1.08 -11 12.08 0.08 x0.98 - 13.0 15.0 14.89
-
0.11 Tun
e
-u
p
556
0
MCS
0
10.0 12.0 96.2 0.17 x1.04 11 11.65
-
0.35 x1.08 -11 12.09 0.09 x0.98 - 13.0 15.0 14.89
-
0.11 Tun
e
-u
p
558
0
MCS
0
10.0 12.0 96.2 0.17 x1.04 11 11.80
-
0.20 x1.05 -11 12.12 0.12 x0.97 - 13.0 15.0 14.97
-
0.03 Tun
e
-u
p
564
0
MCS
0
10.0 12.0 96.2 0.17 x1.04 11 11.69
-
0.31 x1.07 -11 12.12 0.12 x0.97 - 13.0 15.0 14.92
-
0.08 Tun
e
-u
p
566
0
MCS
0
10.0 12.0 96.2 0.17 x1.04 11 11.86
-
0.14 x1.03 -11 12.09 0.09 x0.98 - 13.0 15.0 14.99
-
0.01 Tun
e
-u
p
57
4
5 MCS
0
9.0 11.0 96.2 0.17 x1.04 1
0
10.20
-
0.80 x1.20 -1
0
10.82
-
0.18 x1.04 - 12.0 14.0 13.53
-
0.47 Tun
e
-u
p
5825 MCS
0
9.0 11.0 96.2 0.17 x1.04 1
0
10.47
-
0.53 x1.13 -1
0
10.98
-
0.02 x1.00 - 12.0 14.0 13.74
-
0.26 Tun
e
-u
p
11n
(HT40)
(2Tx)
519
0
MCS8 10.0 12.0 84.
4
0.74 x1.19 1
0
10.45
-
1.55 x1.43 -1
0
10.48
-
1.52 x1.42 - 13.0 15.0 13.48
-
1.52 -
523
0
MCS8 10.0 12.0 84.
4
0.74 x1.19 1
0
10.60
-
1.40 x1.38 -1
0
10.43
-
1.57 x1.44 - 13.0 15.0 13.53
-
1.47 -
527
0
MCS8 10.0 12.0 84.
4
0.74 x1.19 1
0
10.59
-
1.41 x1.38 -1
0
10.41
-
1.59 x1.44 - 13.0 15.0 13.51
-
1.49 -
531
0
MCS8 10.0 12.0 84.
4
0.74 x1.19 1
0
10.57
-
1.43 x1.39 -1
0
10.38
-
1.62 x1.45 - 13.0 15.0 13.48
-
1.52 -
5510 MCS8 10.0 12.0 84.
4
0.74 x1.19 1
0
10.57
-
1.43 x1.39 -1
0
10.38
-
1.62 x1.45 - 13.0 15.0 13.48
-
1.52 -
555
0
MCS8 10.0 12.0 84.
4
0.74 x1.19 1
0
10.66
-
1.34 x1.36 -1
0
10.51
-
1.49 x1.41 - 13.0 15.0 13.60
-
1.40 -
559
0
MCS8 10.0 12.0 84.
4
0.74 x1.19 1
0
10.55
-
1.45 x1.40 -1
0
10.61
-
1.39 x1.38 - 13.0 15.0 13.59
-
1.41 -
5630 MCS8 10.0 12.0 84.
4
0.74 x1.19 1
0
10.56
-
1.44 x1.39 -1
0
10.66
-
1.34 x1.36 - 13.0 15.0 13.62
-
1.38 -
567
0
MCS8 10.0 12.0 84.
4
0.74 x1.19 1
0
10.50
-
1.50 x1.41 -1
0
10.58
-
1.42 x1.39 - 13.0 15.0 13.55
-
1.45 -
571
0
MCS8 10.0 12.0 84.
4
0.74 x1.19 1
0
10.56
-
1.44 x1.39 -1
0
10.51
-
1.49 x1.41 - 13.0 15.0 13.55
-
1.45 -
5755 MCS8 9.0 11.0 84.
4
0.74 x1.19 1
0
10.16
-
0.84 x1.21 -1
0
10.71
-
0.29 x1.07 - 12.0 14.0 13.46
-
0.54 Tun
e
-u
p
5795 MCS8 9.0 11.0 84.
4
0.74 x1.19 1
0
10.23
-
0.77 x1.19 -1
0
10.98
-
0.02 x1.00 - 12.0 14.0 13.63
-
0.37 Tun
e
-u
p
(cont'd)
Revised date : July20, 2016 (-r01)
Test report No. : 11306373S
Page : 12 of 107
Issued date : July 11, 2016
FCC ID : AK8DPTRP1
UL Japan, Inc.
Shonan EMC Lab.
1-22-3 Megumigaoka, Hiratsuka-shi, Kanagawa-ken, 259-1220 JAPAN
Telephone: +81 463 50 6400 / Facsimile: +81 463 50 6401
(cont'd)
Mode Freq. Data
rate
Power s
p
ec. Duty cycl
e
Antenna A
(
wifi
)
p
owe
r
Antenna B
(
wifi+bt
)
p
owe
r
MIMO Ant.
A
+
B
p
owe
r
Typical Max. duty
cycle factor scaled
factor
Set
p
wr.
Time
avera
ge
Max.
Tune-up
facto
r
SAR
Tested?
Set
p
wr.
Time
avera
ge
Max.
Tune-up
facto
r
SAR
Tested?
MIMO
tar
g
e
t
MIMO
max.
SUM
Ave.
Max.
Powe
r
Tune
-up?
[MHz] [Mb
p
s] [dBm] [dBm] [%] [dB]
[
-] [dBm] [dBm] [dB]
[
-] [dBm] [dBm] [dB]
[
-] [dBm] [dBm] [dBm] [dB]
11ac
(VHT
40)
(2Tx)
519
0
MCS0 10.0 12.0 93.5 0.29 x1.07 1
0
10.45
-
1.55 x1.43 -1
0
10.74
-
1.26 x1.34 - 13.0 15.0 13.61
-
1.39 -
523
0
MCS0 10.0 12.0 93.5 0.29 x1.07 1
0
10.55
-
1.45 x1.40 -1
0
10.54
-
1.46 x1.40 - 13.0 15.0 13.55
-
1.45 -
527
0
MCS0 10.0 12.0 93.5 0.29 x1.07 1
0
10.65
-
1.35 x1.36 -1
0
10.49
-
1.51 x1.42 - 13.0 15.0 13.58
-
1.42 -
531
0
MCS0 10.0 12.0 93.5 0.29 x1.07 1
0
10.51
-
1.49 x1.41 -1
0
10.49
-
1.51 x1.42 - 13.0 15.0 13.51
-
1.49 -
5510 MCS0 10.0 12.0 93.5 0.29 x1.0
7
1
0
10.55
-
1.45 x1.40 -1
0
10.47
-
1.53 x1.42 - 13.0 15.0 13.52
-
1.48 -
555
0
MCS0 10.0 12.0 93.5 0.29 x1.07 1
0
10.53
-
1.47 x1.40 -1
0
10.60
-
1.40 x1.38 - 13.0 15.0 13.58
-
1.42 -
559
0
MCS0 10.0 12.0 93.5 0.29 x1.07 1
0
10.45
-
1.55 x1.43 -1
0
10.73
-
1.27 x1.34 - 13.0 15.0 13.60
-
1.40 -
5630 MCS0 10.0 12.0 93.5 0.29 x1.07 1
0
10.43
-
1.57 x1.44 -1
0
10.58
-
1.42 x1.39 - 13.0 15.0 13.52
-
1.48 -
567
0
MCS0 10.0 12.0 93.5 0.29 x1.07 1
0
10.47
-
1.53 x1.
4
2 -1
0
10.51
-
1.49 x1.41 - 13.0 15.0 13.50
-
1.50 -
571
0
MCS0 10.0 12.0 93.5 0.29 x1.07 1
0
10.53
-
1.47 x1.40 -1
0
10.57
-
1.43 x1.39 - 13.0 15.0 13.56
-
1.44 -
5755 MCS0 9.0 11.0 93.5 0.29 x1.07 1
0
10.13
-
0.87 x1.22 -1
0
10.83
-
0.17 x1.04 - 12.0 14.0 13.50
-
0.50 Tun
e
-u
p
5795 MCS0 9.0 11.0 93.5 0.29 x1.07 1
0
10.24
-
0.76 x1.19 -1
0
10.98
-
0.02 x1.00 - 12.0 14.0 13.64
-
0.36 Tun
e
-u
p
11ac
(VHT
80)
(2Tx)
521
0
MCS
0
8.0 10.0 89.2 0.50 x1.12 8 8.66
-
1.34 x1.36 -8 8.82
-
1.18 x1.31 - 11.0 13.0 11.75
-
1.25 -
5290 MCS
0
8.0 10.0 89.2 0.50 x1.12 8 8.93
-
1.07 x1.28 -8 8.76
-
1.24 x1.33 - 11.0 13.0 11.86
-
1.14 -
553
0
MCS
0
8.0 10.0 89.2 0.50 x1.12 8 8.85
-
1.15 x1.30 -8 8.90
-
1.1
0
x1.29 - 11.0 12.5 11.88
-
0.62 -
561
0
MCS
0
8.0 10.0 89.2 0.50 x1.12 8 8.72
-
1.28 x1.34 -8 9.02
-
0.98 x1.25 - 11.0 12.5 11.88
-
0.62 -
569
0
MCS
0
8.0 10.0 89.2 0.50 x1.12 8 8.98
-
1.02 x1.26 -8 8.80
-
1.20 x1.32 - 11.0 12.5 11.90
-
0.60 -
5775 MCS
0
8.0 10.0 89.2 0.50 x1.12 8 8.61
-
1.39 x1.38 -8 8.89
-
1.11 x1.29 - 11.0 12.5 11.76
-
0.74 -
*. Freq.: Frequency, Max.: Maximum, Power spec.: Power specification, Set pwr: Setting power for the measurement, Ave.: Average
*. Calculating formula: Time average power (dBm) = (P/M Reading, dBm)+(Cable loss, dB)+(Attenuator, dB)+(duty factor, dB)
Duty cycle: (duty cycle, %) = (Tx on time, ms) / (1 cycle time, ms) 100; Duty factor: (duty factor, dBm) = 10 log (100/(duty cycle, %))
Duty scaled factor: Duty cycle correction factor for obtained SAR value, Duty scaled factor [-] = 100(%) / (duty cycle, %)
Max. (Deviation form maximum power, dB) = (results power (average, dBm)) - (Max.-specification output power (average, dBm))
Tune-up factor: Power tune-up factor for obtained SAR value, Tune-up factor [-] = 1 / (10 ^ (“Deviation from max., dB” / 10))
*. Date measured: June 3~9 and 20, 2016 / Measured by: Hiroshi Naka / Place: preparation room of No. 7 shielded room. (25 1 deg.C./50 10 %RH)
*. Uncertainty of antenna port conducted test; Power measurement uncertainty above 1GHz for this test was: (±) 0.76 dB(Average)/(±) 0.79 dB(Peak)
*. Uncertainty of antenna port conducted test; Duty cycle and time measurement: (±) 0.012 %.
*. Preliminary tests were performed in different data rate and data rate associated with the highest power were chosen for full test in following tables.
Data rate
(
D/R
)
vs Time avera
g
e
p
ower
(
add dut
y
factor
)
(
dBm
)
11b 11
g
11n
(
HT20
)(
1Tx
)
11n
(
HT20
)(
2Tx
)
11a
2412MHz 2412MHz 2412MHz 2412MHz 5500MHz
D/R Duty cycl
e
(
%
)
Ant.A Ant.B D/R Duty cycl
e
(
%
)
Ant.A Ant.B D/R Duty cycl
e
(
%
)
Ant.A Ant.B D/R Duty cycl
e
(
%
)
Ant.A Ant.B D/R Duty cycl
e
(
%
)
Ant.A Ant.B
1 99.8 13.60 14.28
6
95.2 14.23 13.74 MCS
0
94.
6
14.04 13.64 MCS8 91.2 14.13 13.62
6
95.
6
11.70 11.92
2 99.5 13.56 14.28 9 93.8 14.22 13.35 MCS1 90.5 13.92 13.40 MCS
9
84.9 13.89 13.27 9 93.3 11.68 11.86
5.5 95.9 13.01 13.31 12 91.
7
14.21 13.68 MCS
2
87.
7
13.80 13.35 MC
S
1
0
81.3 14.02 13.36 12 91.1 11.69 11.76
11 93.5 13.11 13.56 18 88.
6
13.81 13.26 MCS3 84.
7
13.84 13.48 MCS11 79.
6
13.88 13.40 18 87.9 11.61 11.71
2
4
85.5 14.06 13.62 MCS
4
81.5 13.77 13.46 MCS1
2
75.
7
13.92 13.45 2
4
84.5 11.69 11.83
3
6
80.8 13.74 13.33 MCS
5
79.3 13.90 13.41 MCS13 73.8 13.55 13.06 3
6
81.2 11.24 11.62
48 78.1 13.70 13.32 MCS
6
77.
4
13.89 13.41 MCS1
4
71.9 13.95 13.18 48 78.3 11.26 11.74
5
6
76.
6
13.68 13.28 MCS
7
76.
6
13.92 13.47 MCS1
5
7
1.
6
13.88 13.36 5
6
75.8 11.21 11.64
11n
(
HT20
)
(
1Tx
)
11n
(
HT40
)
(
1Tx
)
11ac
(
VHT20
)
(
1Tx
)
11ac
(
VHT40
)
(
1Tx
)
11ac
(
VHT80
)
(
1Tx
)
5500MHz 5510MHz 5500MHz 5510MHz 5530MHz
D/R Duty cycl
e
(
%
)
Ant.A Ant.B D/R Duty cycl
e
(
%
)
Ant.A Ant.B D/R Duty cycl
e
(
%
)
Ant.A Ant.B D/R Duty cycl
e
(
%
)
Ant.A Ant.B D/R Duty cycl
e
(
%
)
Ant.A Ant.B
MCS
0
94.
6
11.75 11.96 MCS
0
89.5 10.51 10.43 MCS
0
98.1 11.65 11.94 MCS
0
96.
4
10.43 10.23 MCS
0
92.2 8.71 8.76
MCS1 90.5 11.43 11.91 MCS1 83.
7
10.4
7
10.2
6
MCS1 96.
4
11.62 11.85 MC
S
193.1 10.4
0
10.1
0
MCS1 88.5 8.69 8.7
4
MCS
2
87.5 11.50 11.91 MCS
2
80.
0
10.35 10.32 MCS
2
95.3 11.61 11.73 MCS
2
91.2 10.3
6
10.19 MCS
2
86.
6
8.5
7
8.42
MCS3 86.3 11.44 11.73 MCS3 76.8 10.39 10.35 MCS3 94.
4
11.60 11.82 MCS3 89.5 10.3
7
10.2
0
MCS3 85.
6
8.6
4
8.59
MCS
4
81.
4
11.49 11.86 MCS
4
74.8 10.33 10.29 MCS
4
92.1 11.58 11.70 MCS
4
88.
4
10.2
6
10.18 MCS
4
84.
0
8.5
7
8.4
7
MCS
5
79.9 11.44 11.80 MCS
5
72.2 10.42 10.3
0
MCS
5
90.
7
11.57 11.69 MCS
5
87.3 10.2
7
10.2
0
MCS
5
83.2 8.6
4
8.58
MCS
6
77.5 11.41 11.75 MCS
6
71.3 10.4
0
10.31 MCS
6
90.
7
11.38 11.89 MCS
6
86.
7
10.29 10.12 MCS
6
83.2 8.6
0
8.5
6
MCS
7
75.8 11.51 11.56 MCS
7
71.1 10.45 10.31 MCS
7
90.
7
11.45 11.83 MCS
7
86.3 10.3
6
10.21 MCS
7
84.3 8.5
4
8.48
MC
S
889.3 11.15 11.80 MC
S
885.9 9.5
0
9.33 MC
S
8 82.
7
8.5
0
8.51
MC
S
9
85.9 9.51 9.3
4
MC
S
9
83.5 8.55 8.4
4
11n
(
HT20
)
(
2Tx
)
11n
(
HT40
)
(
2Tx
)
11ac
(
VHT20
)
(
2Tx
)
11ac
(
VHT40
)
(
2Tx
)
11ac
(
VHT80
)
(
2Tx
)
MCS8 90.5 11.67 11.96 MCS8 84.
4
10.57 10.38 MCS
0
96.2 11.67 12.08 MCS
0
93.5 10.55 10.47 MCS
0
89.2 8.85 8.90
MCS
9
85.3 11.44 11.94 MCS
9
80.5 10.22 10.28 MCS1 94.2 11.66 11.88 MCS1 90.5 10.51 10.46 MCS1 87.1 8.69 8.82
MCS1
0
81.
7
11.49 11.84 MCS1
0
77.
6
10.28 10.33 MCS
2
92.
4
11.53 11.94 MCS
2
89.
6
10.50 10.26 MCS
2
84.
6
8.
6
4 8.74
MCS11 79.
6
11.46 11.95 MCS11 76.3 10.39 10.18 MCS3 92.
4
11.47 11.93 MCS3 87.
7
10.43 10.27 MCS3 83.1 8.64 8.73
MCS1
2
76.
4
11.59 11.66 MCS1
2
74.1 10.30 10.23 MCS
4
90.1 11.38 11.83 MCS
4
87.1 10.35 10.30 MCS
4
83.3 8.62 8.62
MCS13 76.3 11.44 11.56 MCS13 70.1 10.37 10.28 MCS
5
89.
4
11.49 11.85 MCS
5
86.
7
10.44 10.17 MCS
5
83.3 8.71 8.56
MCS1
4
74.9 11.46 11.71 MCS1
4
69.
7
10.42 10.36 MCS
6
89.
4
11.42 11.86 MCS
6
86.3 10.36 10.32 MCS
6
84.9 8.66 8.61
MCS1
5
73.
6
11.45 11.71 MCS1
5
69.
7
10.3
4
10.36 MCS
7
88.
4
11.60 11.90 MCS
7
85.9 10.43 10.45 MCS
7
82.9 8.61 8.79
MC
S
887.
7
11.43 11.91 MC
S
885.2 9.61 9.50 MC
S
8 81.8 8.58 8.83
MC
S
9
86.3 9.60 9.44 MC
S
9
81.8 8.69 8.89
Revised date : July20, 2016 (-r01)
Test report No. : 11306373S
Page : 13 of 107
Issued date : July 11, 2016
FCC ID : AK8DPTRP1
UL Japan, Inc.
Shonan EMC Lab.
1-22-3 Megumigaoka, Hiratsuka-shi, Kanagawa-ken, 259-1220 JAPAN
Telephone: +81 463 50 6400 / Facsimile: +81 463 50 6401
*. Chart of the worst duty cycle for each operation mode.
Mod
e
Frequenc
y
Data rat
e
O
n
-tim
e
1 cycl
e
Duty cycl
e
Duty scale
d
Batc
h
Batch cycl
e
Batch cycl
e
Batch
scale
d
Remark
s
11
b
2412MH
z
1Mb
ps
2.493m
s
2.498m
s
99.8%
(
>85%
)
1.0
0
not detected not detected not detected - -
11
g
2412MH
z
6Mb
ps
410.8u
s
431.6u
s
95.2%
(
>85%
)
1.05 49.56m
s
49.99m
s
99.1%
100%
)
1.0
0
Add the duty
factor to measured
power.
Batch is regarded
as a continuous
transmission and
makes batch facto
r
1.0.
11n
(
HT20
)(
1Tx
)
2412MH
z
MCS
0
360.8u
s
381.3u
s
94.6%
(
>85%
)
1.06 49.34m
s
49.99m
s
98.7%
100%
)
1.0
0
11a 5500MH
z
6Mb
ps
410.8u
s
429.9u
s
95.6%
(
>85%
)
1.05 49.61m
s
50.2m
s
98.8%
100%
)
1.0
0
11n
(
HT20
)(
1Tx
)
5500MH
z
MCS
0
360.8u
s
381.3u
s
94.6%
(
>85%
)
1.06 49.32m
s
49.9m
s
98.8%
100%
)
1.0
0
11ac
(
VHT20
)(
1Tx
)
550
0
MH
z
MCS
0
371.8u
s
379.1u
s
98.1%
(
>85%
)
1.02 49.9m
s
50.1m
s
99.6%
100%
)
1.0
0
11n
(
HT40
)(
1Tx
)
5510MH
z
MCS
0
194.3u
s
217.0u
s
89.5%
(
>85%
)
1.12 49.4m
s
50.5m
s
97.8%
100%
)
1.0
0
11ac
(
VHT40
)(
1Tx
)
5510MH
z
MCS
0
201.6m
s
209.1m
s
96.4%
(
>85%
)
1.0
4
49.62m
s
50.
0
5m
s
99.1%
100%
)
1.0
0
11ac
(
VHT80
)(
1Tx
)
5530MH
z
MCS
0
116.5u
s
126.4u
s
92.2%
(
>85%
)
1.08 48.75m
s
50.05m
s
97.4%
100%
)
1.0
0
11n
(
HT20
)(
2Tx
)
2412MH
z
MCS8 207.0u
s
227.0u
s
91.2%
(
>85%
)
1.1
0
45.7m
s
49.7
7
m
s
91.8% 1.09 Add the duty
factor to measured
power.
Measured SAR is
corrected by the
batch factor.
11n
(
HT20
)(
2Tx
)
5500MH
z
MCS8 205.3u
s
226.8u
s
90.5%
(
>85%
)
1.1
0
47.11m
s
50.03m
s
94.2% 1.06
11ac
(
VHT20
)(
2Tx
)
5500MH
z
MCS
0
212.8u
s
221.2u
s
96.2%
(
>85%
)
1.0
0
47.17m
s
50.1m
s
94.2% 1.06
11n
(
HT40
)(
2Tx
)
551
0
MH
z
MCS8 123.2u
s
145.9u
s
94.4%
(
>85%
)
1.0
0
45.4m
s
49.62m
s
95.5% 1.05
11ac
(
VHT40
)(
2Tx
)
5510MH
z
MCS
0
126.1u
s
134.9u
s
93.5%
(
>85%
)
1.0
7
44.7
4
50.05 89.4% 1.12
11ac
(
VHT80
)(
2Tx
)
5530MH
z
MCS
0
84.7u
s
94.97u
s
99.8%
(
>85%
)
1.0
0
47.02 60.02 78.3% 1.28
2412MHz,11b(1Mbps); on: 2.493ms / 1 cycle: 2.498ms
Batch: (Not detected)
2412MHz, 11g(6Mbps); on: 410.8us / 1 cycle: 431.6us
Batch: 49.56ms / cycle: 49.99ms
2412MHz, n(HT20)(1Tx)(MCS0); on: 360.8us / 1 cycle: 381.3us
Batch: 49.34ms / cycle: 49.99ms
5500MHz, 11a(6Mbps); on: 410.8us / 1 cycle: 429.9us
Batch: 49.61ms / cycle: 50.2ms
5500MHz, n(HT20)(1Tx)(MCS0); on: 360.8us / 1 cycle: 381.3us
Batch: 49.32ms / cycle: 49.9ms
5500MHz, ac(HT20)(1Tx)(MCS0); on: 371.8us / 1 cycle: 379.1us
Batch: 49.9ms / cycle: 50.1ms
Test report No. : 11306373S
Page : 14 of 107
Issued date : July 11, 2016
FCC ID : AK8DPTRP1
UL Japan, Inc.
Shonan EMC Lab.
1-22-3 Megumigaoka, Hiratsuka-shi, Kanagawa-ken, 259-1220 JAPAN
Telephone: +81 463 50 6400 / Facsimile: +81 463 50 6401
5510MHz, n(HT40)(1Tx)(MCS0); on:194.3us / 1 cycle:217us
Batch: 49.4ms / cycle: 50.5ms
5510MHz, ac(HT20)(1Tx)(MCS0); on:201.6us / 1 cycle:209.2us
Batch: 49.62ms / cycle: 50.05ms
5530MHz, ac(HT80)(1Tx)(MCS0); on:116.5us / 1 cycle:126.4us
Batch: 48.75ms / cycle: 50.05ms
2412MHz, n(HT20)(2Tx)(MCS0); on:207us / 1 cycle:227us
Batch: 45.7ms / cycle: 49.77ms
5500MHz, n(HT20)(2Tx)(MCS8); on: 205.3us / 1 cycle: 226.8us
Batch: 47.11ms / cycle: 50.03ms
5500MHz, ac(HT20)(2Tx)(MCS0); on:212.8us / 1 cycle:221.2us
Batch: 47.17ms / cycle: 50.1ms
5510MHz, n(HT40)(2Tx)(MCS8); on:123.2us / 1 cycle:145.9us
Batch: 45.4ms / cycle: 49.62ms
5510MHz, ac(HT20)(2Tx)(MCS0); on:126.1us / 1 cycle:134.9us
Batch: 44.74ms / cycle: 50.05ms
5530MHz, ac(HT80)(2Tx)(MCS0); on:84.7us / 1 cycle:94.97us
Batch: 47.02ms / cycle: 60.02ms
Test report No. : 11306373S
Page : 15 of 107
Issued date : July 11, 2016
FCC ID : AK8DPTRP1
UL Japan, Inc.
Shonan EMC Lab.
1-22-3 Megumigaoka, Hiratsuka-shi, Kanagawa-ken, 259-1220 JAPAN
Telephone: +81 463 50 6400 / Facsimile: +81 463 50 6401
SECTION 7: SAR Measurement results
7.1 SAR test results (Wi-Fi, 2.4 GHz band)
Measurement date: June 20 and 21, 2016 Measurement by: Hiroshi Naka
[Liquid measurement]
Target
Frequency
[MHz]
Liquid
type
Li
q
uid
p
arameters (*a) ΔSAR Coefficients(
*
c)
Date measured
Permittivit
y
(
r)
[
-
] Conductivit
y
[S/m] Temp.
[deg.C.]
Depth
[mm]
ΔSAR
(1g) [%]
Correction
required?
Target Measure
d
Limit
(*b) Target Measure
d
Limit
(*b)
Meas.
Δ
r [%] Meas.
Δ
[%]
2412
Body
52.75 50.
7
8 -3.
7
-5%
r-meas.
0%
1.914 1.973
+
3.1 0%
-meas.
+5%
22.5 154
+
2.3
4
not required. June 20, 2016
before SAR test.
(June 21, 2016 (*1))
243
7
52.72 50.69 -3.9 1.938 2.010
+
3.
7
+
2.66 not required.
2462 52.68 50.62 -3.9 1.967 2.033
+
3.
4
+
2.49 not required.
*1. It was within 24 hours from measurement on June 20, 2016 and same liquid temperature, so measured parameters on June 20 were used on June 21 continuously.
[SAR measurement results]
*. Setup "Back" was worst by preliminary SAR test of 2.4GHz band, so SAR test had been begun from a setup "Back" with DSSS mode.
SAR measurement results Reported SAR (1g) [W/kg]
Remarks
Mode
Frequency
[MHz]
(Channel)
Data
rate
[Mbps]
EUT setup Power
drift
[dB]
SAR (1g) [W/kg] SAR
plot # in
Appendix
2-2
Duty cycle
correction
Output average
power correction SAR
Corrected
(*d)
Ant.
No. Position Gap
[mm]
BTY.
ID
Max.value of multi-peak
Meas. ΔSAR
[%]
ΔSAR
corrected
Duty
[%]
Duty
scaled
Batch
scaled
Meas.
[dBm].
Max.
[dBm]
Tune-up
factor
Step 1: 2.4GHz band
11b
2462(11)
1 B Back
0 #0 0.02 1.25 +2.49 n/a (*c) Plot 1-1 99.8 1.00 1.00 14.44 15 1.14 1.425 Higher, Ant.B.
2412(1) 0 #0 0 1.09 +2.34 n/a (*c) Plot 1-3 99.8 1.00 1.00 14.28 15 1.18 1.28
6
-
2437(6) 0 #0 0.02 1.13 +2.66 n/a (*c) Plot 1-4 99.8 1.00 1.00 14..00 15 1.26 1.424 -
2412(11) 1 A Back 0 #0 0.03 0.59 +2.34 n/a (*c) Plot 1-5 99.8 1.00 1.00 13.60 15 1.38 0.814 -
2462(11) 0 #1 0.02 0.793 +2.49 n/a (*c) Plot 1-2 95.2 1.00 1.00 13.33 15 1.47 1.16
6
Higher, Ant.A
11g
2462(11)
6 B Back
0 #0 0.02 0.975 +2.48 n/a (*c) Plot 1-6 95.2 1.05 1.00 13.76 15 1.33 1.362 -
2412(1) 0 #0 0.01 0.809 +2.34 n/a (*c) Plot 1-7 95.2 1.05 1.00 13.74 15 1.34 1.138 -
2437(6) 0 #0 0.03 0.933 +2.66 n/a (*c) Plot 1-8 95.2 1.05 1.00 13.62 15 1.37 1.342 -
11n
(HT20)
2462(11)
MCS0 B Back
0 #2 0.09 0.967 +2.48 n/a (*c) Plot 1-9 94.6 1.06 1.00 13.87 15 1.30 1.333 -
2437(6) 0 #2 -0.01 0.91
6
+2.66 n/a (*c) Plot 1-10 94.6 1.06 1.00 13.70 15 1.35 1.311 -
2412(1) 0 #2 0.02 0.837 +2.34 n/a (*c) Plot 1-11 94.6 1.06 1.00 13.64 15 1.37 1.215 -
11n
(HT20) 2462(11) MCS8
MIMO A+B Back 0 #2 -0.07 0.722 +2.48 n/a (*c) Plot 1-12 91.2 1.10 1.09 13.66 15 1.36 1.177 Ant.B.
-0.04 0.665 14.08 15 1.24 0.989 Ant.A.
11b
2462(11) 1 B Top 0 #2 -0.08 0.480 +2.49 n/a (*c) Plot 1-13 99.8 1.00 1.00 14.44 15 1.14 0.547 -
2412(11) 1 A Top 0 #2 -0.01 0.421 +2.34 n/a (*c) Plot 1-14 99.8 1.00 1.00 13.60 15 1.38 0.581 -
2462(11) 0 #2 -0.01 0.583 +2.49 n/a (*c) Plot 1-15 95.2 1.00 1.00 13.33 15 1.47 0.857 -
11n
(HT20) 2462(11) MCS8
MIMO A+B Top 0 #2 0.01 0.49
6
+2.48 n/a (*c) Plot 1-16 91.2 1.10 1.09 14.08 15 1.24 0.737 Ant.A.
-0.03 0.343 13.66 15 1.36 0.559 Ant.B.
11b 2412(1) 1 A Left 0 #0 0.03 0.105 +2.34 n/a (*c) Plot 1-17 99.8 1.00 1.00 13.60 15 1.38 0.145 -
11b 2462(11) 1 B Back 0 #1 -0.08 1.11 +2.49 n/a (*c) Plot 1-18 99.8 1.00 1.00 14.44 15 1.14 1.265 *. Repeat worst.
Note:
*. Gap: It is the separation distance between the nearest position of platform outer surface and the bottom outer surface of phantom;
Ant.: Antenna, BTY ID: Battery ID, Max.: maximum, Meas.: Measured value, n/a: not applied.
*. During test, the EUT was operated with full charged battery and without I/F cable. Battery ID No.#0, #1 and #2 were same model (Refer to Appendix 1).
*. Calibration frequency of the SAR measurement probe (and used conversion factors)
SAR test frequency Probe calibration frequency Validity Conversion factor Uncertainty
2412, 2437, 2462 MHz 2450MHz within 50MHz of calibration frequency 7.16 12.0%
*. The uncertainty is the RSS of the ConvF uncertainty at calibration frequency and the uncertainty for the indicated frequency band.
*a. The target value is a parameter defined in Appendix A of KDB865664 D01 (v01r04), the dielectric parameters suggested for head and body tissue simulating liquid
are given at 2000, 2450 and 3000 MHz. Parameters for the frequencies 2000-3000 MHz were obtained using linear interpolation.
*b. Refer to KDB865664 D01 (v01r04),, item 2), Clause 2.6; "When nominal tissue dielectric parameters are recorded in the probe calibration data; for example, only
target values and tolerance are reported, the measured εr and σ of the liquid used in routine measurements must be: the target εr and the target σ values and also
within 5% of the required target dielectric parameters."
*c. The coefficients are parameters defined in clause E.3.3.2, IEEE Std 1528(2013). Since the measured liquid parameters were the target εr and the target values
and also within 5% of the required target dielectric parameters, the measured SAR was not compensated by ΔSAR coefficients (*. Clause 2) of 2.6, KDB865664 D01
(v01r04)).
Calculating formula: ΔSAR(1g)= Cεr Δεr + C Δ, Cεr=-7.854E-4f3+9.402E-3f2-2.742E-2f-0.2026 / C =9.804E-3f3-8.661E-2f2+2.981E-2f+0.7829
SAR corrected SAR (1g) (W/kg) = (Meas. SAR(1g) (W/kg)) (100 - (SAR(%)) / 100
*d. Calculating formula: Reported SAR (1g) (W/kg) = (Measured SAR (1g) (W/kg)) (Duty scaled) (Batch scaled) (Tune-up factor)
Duty scaled = Duty scaled factor: Duty cycle correction factor for obtained SAR value, Duty scaled factor [-] = 100(%) / (duty cycle, %)
Tune-up factor: Power tune-up factor for obtained SAR value, Tune-up factor [-] = 1 / (10 ^ (“Deviation from max., dB” / 10))
Test report No. : 11306373S
Page : 16 of 107
Issued date : July 11, 2016
FCC ID : AK8DPTRP1
UL Japan, Inc.
Shonan EMC Lab.
1-22-3 Megumigaoka, Hiratsuka-shi, Kanagawa-ken, 259-1220 JAPAN
Telephone: +81 463 50 6400 / Facsimile: +81 463 50 6401
7.2 SAR test result (Wi-Fi, 5 GHz band)
Measurement date: June 10~17, 2016 Measurement by: Hiroshi Naka
[Liquid measurement]
Target
Frequency
[MHz]
Liquid
type
Li
q
uid
p
arameters (*a) ΔSAR Coefficients(
*
c)
Date measured
Permittivit
y
(
r)
[
-
] Conductivit
y
[S/m] Temp.
[deg.C.]
Depth
[mm]
ΔSAR
(1g) [%]
Correction
required?
Target Measure
d
Limit
(*b) Target Measure
d
Limit
(*b)
Meas.
Δ
r [%] Meas.
Δ
[%]
5660
Body
48.39 46.71 -3.5
-5%
r-meas.
0%
5.837 6.049 +3.6
0%
-meas.
+5%
23.5 150
+
0.52 not required.
June 10, 2016
before SAR test
5670 48.38 46.61 -3.7 5.848 6.048 +3.4
+
0.5
7
not required.
5710 48.32 46.60 -3.6 5.895 6.130
+
4.0 +0.53 not required.
5745 48.27 46.50 -3.7 5.936 6.170
+
4.0 +0.55 not required.
5755 48.26 46.51 -3.6 5.947 6.197 +4.2 +0.53 not required.
5795 48.21 46.43 -3.7 5.994 6.185 +3.2 +0.59 not required.
5825 48.17 46.43 -3.6 6.029 6.275
+
4.1 +0.5
4
not required.
5660
Body
48.39 46.36 -4.2
-5%
r-meas.
0%
5.837 5.994 +2.7
0%
-meas.
+5%
23.5 150
+0.71 not required.
June 13, 2016
before SAR test
5670 48.38 46.25 -4.4 5.848 6.010 +2.8 +0.75 not required.
5710 48.32 46.24 -4.3 5.895 6.043 +2.5 +0.7
4
not required.
5745 48.27 46.31 -4.1 5.936 6.136 +3.4 +0.66 not required.
5755 48.26 46.15 -4.4 5.947 6.122 +2.9 +0.7
4
not required.
5795 48.21 46.14 -4.3 5.994 6.174 +3.0 +0.72 not required.
5825 48.17 46.05 -4.4 6.029 6.201 +2.9 +0.75 not required.
5500
Body
48.61 46.88 -3.5
-5%
r-meas.
0%
5.650 5.816 +3.0
0%
-meas.
+5%
23.5 150
+0.58 not required.
June 14, 2016
before SAR test
(June 15, 2016 (*1))
5510 48.59 46.98 -3.3 5.661 5.847 +3.3 +0.53 not required.
5580 48.53 46.88 -3.4 5.720 5.897 +3.1 +0.5
4
not required.
5590 48.50 46.86 -3.4 5.743 5.931 +3.3 +0.53 not required.
5630 48.43 46.73 -3.5 5.801 5.982 +3.1 +0.56 not required.
5640 48.42 46.71 -3.5 5.813 6.061 +4.3 +0.51 not required.
5180
Body
49.04 47.63 -2.9
-5%
r-meas.
0%
5.276 5.440 +3.1
0%
-meas.
+5%
23.5 150
+0.51 not required.
June 16, 2016
before SAR test
(June 17, 2016 (*2))
5220 48.99 47.52 -3.0 5.323 5.487 +3.1 +0.52 not required.
5240 48.96 47.55 -2.9 5.346 5.521 +3.3 +0.49 not required.
5260 48.93 47.56 -2.8 5.369 5.544 +3.3 +0.4
7
not required.
5270 48.92 47.51 -2.9 5.381 5.574 +3.6 +0.4
7
not required.
5300 48.88 47.50 -2.8 5.416 5.555 +2.6 +0.48 not required.
5310 48.87 47.41 -3.0 5.428 5.609 +3.3 +0.49 not required.
5320 48.85 47.39 -3.0 5.439 5.606 +3.1 +0.5
0
not required.
Note:
*1. It was within 24 hours from measurement on June 14, 2016 and same liquid temperature, so measured parameters on June 14 were used on June 15 continuously.
*2. It was within 24 hours from measurement on June 16, 2016 and same liquid temperature, so measured parameters on June 16 were used on June 17 continuously.
*a. The target value is a parameter defined in Appendix A of KDB865664 D01 (v01r04), the dielectric parameters suggested for head and body tissue simulating liquid
are given at 3000 and 5800 MHz. Parameters for the frequencies 3000-5800 MHz were obtained using linear interpolation. Above 5800MHz were obtained using
linear extrapolation.
*b. Refer to KDB865664 D01 (v01r04), item 2), Clause 2.6; "When nominal tissue dielectric parameters are recorded in the probe calibration data; for example, only
target values and tolerance are reported, the measured εr and σ of the liquid used in routine measurements must be: the target εr and the target σ values and also
within 5% of the required target dielectric parameters."
*c. The coefficients are parameters defined in clause E.3.3.2, IEEE Std 1528(2013). Since the measured liquid parameters were the target εr and the target values
and also within 5% of the required target dielectric parameters, the measured SAR was not compensated by ΔSAR coefficients (*. Clause 2) of 2.6, KDB865664 D01
(v01r04)).
Calculating formula: ΔSAR(1g)= Cεr Δεr + C Δ, Cεr=-7.854E-4f3+9.402E-3f2-2.742E-2f-0.2026 / C =9.804E-3f3-8.661E-2f2+2.981E-2f+0.7829
SAR corrected SAR (1g) (W/kg) = (Meas. SAR(1g) (W/kg)) (100 - (SAR(%)) / 100
Test report No. : 11306373S
Page : 17 of 107
Issued date : July 11, 2016
FCC ID : AK8DPTRP1
UL Japan, Inc.
Shonan EMC Lab.
1-22-3 Megumigaoka, Hiratsuka-shi, Kanagawa-ken, 259-1220 JAPAN
Telephone: +81 463 50 6400 / Facsimile: +81 463 50 6401
[SAR measurement results]
*. Setup "Top" was worst by preliminary SAR test of 5GHz band, so SAR test had been begun from a setup "Top".
SAR measurement results Reported SAR (1g) [W/kg]
Remarks
Mode
Frequency
[MHz]
(Channel)
Data
rate
[Mbps]
EUT setup Power
drift
[dB]
SAR (1g) [W/kg] SAR
plot # in
Appendix
2-2
Duty cycle
correction
Output average
power correction SAR
Corrected
(*b)
Ant.
No. Position Gap
[mm]
BTY.
ID
Max.value of multi
-
p
ea
k
Meas. ΔSA
R
[%]
ΔSAR
corrected
Duty
[%]
Duty
scaled
Batch
scaled
Meas.
[dBm].
Max.
[dBm]
Tune-up
factor
Ste
p
2: W56(>5.65GHz) + W58 a
gg
re
g
at
e
ban
d
(*1
)
(*2
)
11n
(HT40)
5710(142)
MCS0 B Top
0
#2 -0.08 0.73
6
+0.74 n/a (*a) Plot 2-3 89.5 1.12 1.00 10.51 12 1.41 1.162 -
5670(134)
0
#0 -0.05 0.685 +0.75 n/a (*a) Plot 2-4 89.5 1.12 1.00 10.46 12 1.43 1.097 -
5755(151)
0
#0 0 0.815 +0.74 n/a (*a) Plot 2-5 89.5 1.12 1.00 10.68 11 1.08 0.98
6
-
5795(159)
0
#2 0 0.922 +0.72 n/a (*a) Plot 2-6 89.5 1.12 1.00 10.84 11 1.04 1.074 -
5710(142) MCS0 A Top
0
#0 -0.01 0.453 +0.74 n/a (*a) Plot 2-7 89.5 1.12 1.00 10.49 12 1.42 0.720 -
5755(151)
0
#0 -0.03 0.388 +0.74 n/a (*a) Plot 2-8 89.5 1.12 1.00 10.26 11 1.19 0.517 -
11a
(*2)
5660(132)
6 B Top
0
#1 -0.04 1.11 +0.52 n/a (*a) Plot 2-1 95.6 1.05 1.00 11.99 12 1.00 1.16
6
Higher, Ant.B.
5825(165)
0
#1 -0.03 1.07 +0.54 n/a (*a) Plot 2-9 95.6 1.05 1.00 10.96 11 1.01 1.135 -
5745(149)
0
#1 0.01 0.999 +0.55 n/a (*a) Plot 2-10 95.6 1.05 1.00 10.78 11 1.05 1.101 -
5660(132) 6 A Top 0 #0 0.02 0.722 +0.52 n/a (*a) Plot 2-2 95.6 1.05 1.00 11.73 12 1.06 0.804 Highest, Ant.A
5825(165)
0
#1 0.03 0.571 +0.54 n/a (*a) Plot 2-11 95.6 1.05 1.00 10.57 11 1.10 0.660 -
11n
(HT20) 5660(132) MCS8
MIMO A+B Top 0 #2 -0.02 0.944 +0.71 n/a (*a) Plot 2-12 90.5 1.10 1.06 11.98 12 1.00 1.101 Ant.B.
0.10 0.634 11.90 12 1.02 0.754 Ant.A.
11a
5660(132) 6 B Back
0
#0 -0.13 0.665 +0.71 n/a (*a) Plot 2-13 95.6 1.05 1.00 11.99 12 1.00 0.698 -
5825(165)
0
#0 -0.10 0.580 +0.75 n/a (*a) Plot 2-14 95.6 1.05 1.00 10.96 11 1.01 0.615 -
5660(132) 6 A Back
0
#0 -0.09 0.59
6
+0.71 n/a (*a) Plot 2-15 95.6 1.05 1.00 11.73 12 1.06 0.663 -
5825(165)
0
#0 -0.08 0.382 +0.75 n/a (*a) Plot 2-16 95.6 1.05 1.00 10.57 11 1.10 0.441 -
11n
(HT20) 5660(132) MCS8
MIMO A+B Back 0 #0 -0.05 0.595 +0.71 n/a (*a) Plot 2-17 90.5 1.10 1.06 11.98 12 1.00 0.694 Ant.B.
-0.10 0.495 11.90 12 1.02 0.589 Ant.A.
Ste
p
3: W56(<5.65GHz) band (*2
)
11n
(HT40)
5590(118)
MCS0 B Top
0
#0 0.03 0.73
6
+0.53 n/a (*a) Plot 3-3 89.5 1.12 1.00 10.58 12 1.39 1.14
6
-
5630(126)
0
#0 0 0.730 +0.56 n/a (*a) Plot 3-4 89.5 1.12 1.00 10.58 12 1.39 1.13
6
-
5510(102)
0
#0 -0.05 0.679 +0.53 n/a (*a) Plot 3-5 89.5 1.12 1.00 10.43 12 1.44 1.095 -
5590(118) MCS0 A Top
0
#0 -0.02 0.380 +0.53 n/a (*a) Plot 3-6 89.5 1.12 1.00 10.44 12 1.43 0.609 -
11a
(*2)
5580(116)
6 B Top
0
#0 0.01 1.1 +0.54 n/a (*a) Plot 3-7 95.6 1.05 1.00 11.92 12 1.02 1.178 -
5640(128)
0
#0 -0.01 1.12 +0.51 n/a (*a) Plot 3-8 95.6 1.05 1.00 11.96 12 1.01 1.188 Higher, Ant.B.
5500(100)
0
#0 0 1.0
6
+0.58 n/a (*a) Plot 3-9 95.6 1.05 1.00 11.92 12 1.02 1.135 -
5580(116) 6 A Top
0
#2 -0.04 0.593 +0.54 n/a (*a) Plot 3-10 95.6 1.05 1.00 11.64 12 1.09 0.679 -
5640(128)
0
#2 0.01 0.65
6
+0.51 n/a (*a) Plot 3-2 95.6 1.05 1.00 11.81 12 1.04 0.71
6
Higher, Ant.A
11n
(HT20) 5640(128) MCS8
MIMO A+B Top 0 #3 0.04 0.998 +0.51 n/a (*a) Plot 3-11 90.5 1.10 1.06 11.96 12 1.01 1.175 Ant.B.
0.03 0.563 11.75 12 1.06 0
.
69
6
Ant.A.
11a
5580(116) 6 B Back
0
#0 -0.04 0.882 +0.54 n/a (*a) Plot 3-12 95.6 1.05 1.00 11.96 12 1.02 0.945 -
5640(128)
0
#0 -0.06 0.828 +0.51 n/a (*a) Plot 3-13 95.6 1.05 1.00 11.92 12 1.01 0.878 -
5580(116) 6 A Back
0
#0 -0.01 0.589 +0.54 n/a (*a) Plot 3-14 95.6 1.05 1.00 11.64 12 1.09 0.674 -
5640(128)
0
#0 -0.09 0.691 +0.51 n/a (*a) Plot 3-15 95.6 1.05 1.00 11.81 12 1.04 0.755 -
11n
(HT20) 5580(116) MCS8
MIMO A+B Back 0 #1 0.11 0.807 +0.54 n/a (*a) Plot 3-16 90.5 1.10 1.06 11.99 12 1.00 0.941 Ant.B.
0.11 0.462 11.61 12 1.09 0.587 Ant.A.
11a 5580(116) 6 A Left
0
#1 0.19 0.167 +0.54 n/a (*a) Plot 3-17 95.6 1.05 1.00 11.64 12 1.09 0.191 -
11a 5640(128) 6 A Top 0 #1 -0.03 1.15 +0.51 n/a (*a) Plot 3-1 95.6 1.05 1.00 11.96 12 1.12 1.220 *. Repeat worst.
Hi
g
hest, Ant.B.
Ste
p
4: W53 + W52 band (*2
)
11n
(HT40)
5310(62) MCS0 B Top
0
#2 -0.07 0.649 +0.49 n/a (*a) Plot 4-3 89.5 1.12 1.00 10.34 12 1.47 1.069 -
5270(54)
0
#2 0 0.598 +0.47 n/a (*a) Plot 4-4 89.5 1.12 1.00 10.32 12 1.47 0.985 -
5310(62) MCS0 A Top
0
#2 -0.05 0.359 +0.49 n/a (*a) Plot 4-5 89.5 1.12 1.00 10.56 12 1.39 0.559 -
11a
(*2)
5260(52)
6 B Top
0
#1 -0.08 0.995 +0.47 n/a (*