O2R2 Connected Bluetooth LE Watch Test Report JOY

JOY Connected Bluetooth LE Watch

Page 1 of O2R2 Connected Bluetooth LE Watch Test Report  JOY
Page 2 of O2R2 Connected Bluetooth LE Watch Test Report  JOY
Page 3 of O2R2 Connected Bluetooth LE Watch Test Report  JOY
Page 4 of O2R2 Connected Bluetooth LE Watch Test Report  JOY
Page 5 of O2R2 Connected Bluetooth LE Watch Test Report  JOY
Page 6 of O2R2 Connected Bluetooth LE Watch Test Report  JOY
Page 7 of O2R2 Connected Bluetooth LE Watch Test Report  JOY
Page 8 of O2R2 Connected Bluetooth LE Watch Test Report  JOY
Page 9 of O2R2 Connected Bluetooth LE Watch Test Report  JOY
Page 10 of O2R2 Connected Bluetooth LE Watch Test Report  JOY
Page 11 of O2R2 Connected Bluetooth LE Watch Test Report  JOY
Page 12 of O2R2 Connected Bluetooth LE Watch Test Report  JOY
Page 13 of O2R2 Connected Bluetooth LE Watch Test Report  JOY
Page 14 of O2R2 Connected Bluetooth LE Watch Test Report  JOY
Page 15 of O2R2 Connected Bluetooth LE Watch Test Report  JOY
Page 16 of O2R2 Connected Bluetooth LE Watch Test Report  JOY
Page 17 of O2R2 Connected Bluetooth LE Watch Test Report  JOY
Page 18 of O2R2 Connected Bluetooth LE Watch Test Report  JOY
Page 19 of O2R2 Connected Bluetooth LE Watch Test Report  JOY
Page 20 of O2R2 Connected Bluetooth LE Watch Test Report  JOY
Page 21 of O2R2 Connected Bluetooth LE Watch Test Report  JOY
Page 22 of O2R2 Connected Bluetooth LE Watch Test Report  JOY
Page 23 of O2R2 Connected Bluetooth LE Watch Test Report  JOY
Page 24 of O2R2 Connected Bluetooth LE Watch Test Report  JOY
Page 25 of O2R2 Connected Bluetooth LE Watch Test Report  JOY
Page 26 of O2R2 Connected Bluetooth LE Watch Test Report  JOY
Page 27 of O2R2 Connected Bluetooth LE Watch Test Report  JOY
Page 28 of O2R2 Connected Bluetooth LE Watch Test Report  JOY
Page 29 of O2R2 Connected Bluetooth LE Watch Test Report  JOY
Page 30 of O2R2 Connected Bluetooth LE Watch Test Report  JOY
Page 31 of O2R2 Connected Bluetooth LE Watch Test Report  JOY
Page 32 of O2R2 Connected Bluetooth LE Watch Test Report  JOY
Page 33 of O2R2 Connected Bluetooth LE Watch Test Report  JOY
Page 34 of O2R2 Connected Bluetooth LE Watch Test Report  JOY
Page 35 of O2R2 Connected Bluetooth LE Watch Test Report  JOY
Page 36 of O2R2 Connected Bluetooth LE Watch Test Report  JOY
Page 37 of O2R2 Connected Bluetooth LE Watch Test Report  JOY
Page 38 of O2R2 Connected Bluetooth LE Watch Test Report  JOY
Page 39 of O2R2 Connected Bluetooth LE Watch Test Report  JOY
Page 40 of O2R2 Connected Bluetooth LE Watch Test Report  JOY
Page 41 of O2R2 Connected Bluetooth LE Watch Test Report  JOY

Rapport d’essais / Test Report
N° : 12497-FCC-IC-1
Page 1 / 41
FCC Test Firm Designation Number: FR0014
Industry Canada Test Firm Number: Site# 9545A-1 / 9545A-2
Matériel testé :
Equipment under test:
JOY / OCTOPUS WATCH (O2R2)
(Trademark / Marketing name or product reference)
Constructeur:
Manufacturer:
JOY
5 Allée du Belvédère
74940 Annecy-le-Vieux – France
Rapport délivré à :
Issued to:
JOY
M. Jean-Yves Bitterlich
5 Allée du Belvédère
74940 Annecy-le-Vieux – France
Référence de la proposition :
Proposal number:
042018-23011
Date de l’essai :
Date of test:
Du 5 au 6 Juillet 2018 / 4 septembre 2018
July 5th to 6th, 2018 / September 4th, 2018
Objectif des essais :
Test purpose:
EMC qualification accordingly to following standards:
- CFR 47, FCC Part 15, Subpart B & C
(Chapter 15.247 - Operation within the bands 902–928 MHz, 2400–2483.5 MHz,
and 5725–5850 MHz)
- Industry Canada ICES-003 Issue 6 & RSS-247, Issue 2
(Digital Transmission Systems Operating in the Bands 2400-2483.5 MHz)
Lieu du test:
Test location:
SMEE, Rue de Taille
38500 VOIRON - France
Test réalisé par :
Test realized by:
Laurent CHAPUS
Conclusion :
Conclusion:
L’équipement satisfait aux prescriptions des normes citées en référence.
The appliance complies with requirements of above mentioned standards.
Ed.
Date
Modifications
Pages
July 30th , 2018
September 4, 2018
Initial Edition
TCB review
(ATCB023002)
Written by :
Visa
Approved by:
Visa
Laurent CHAPUS
Régis ANCEL
Signature
numérique de
Chapus Laurent
La copie de ce document n'est permise que sous sa forme intégrale. Ce document est le résultat d’essais
effectués sur un échantillon. Il ne préjuge pas de la conformité de l’ensemble des produits fabriqués à l’objet
essayé.
This document shall not be reproduced, except in full. This document contains results related only to the item
tested. It does not imply the conformity of the whole production to the item tested.
COORDONNEES
SMEE
Rue de Taille – ZI Des Blanchisseries
38500 VOIRON - France
Signature
numérique de
Ancel Régis
Accréditation
N° 1-6356
Portée disponible sur :
Scope available on :
www.cofrac.fr
TEL : 04 76 65 76 50
FAX : 04 76 66 18 30
SAS au capital de 50 000 € / RC Grenoble B534 796 453 / SIRET 534 796 453 00015 / code APE 7490B / n° TVA : FR 59 534 796 453
Rapport d’essai / Test Report
N° : 12497-FCC-IC-1
Contents
1.
NORMATIVES REFERENCES .........................................................................................................3
2.
TEST SYNTHESIS ............................................................................................................................4
3.
EQUIPMENT UNDER TEST (EUT) ...................................................................................................5
4.
TEST CONDITIONS..........................................................................................................................5
5.
MODIFICATIONS OF THE EUT ........................................................................................................5
6.
SPECIAL ACCESSORY ....................................................................................................................5
7.
CONDUCTED EMISSION MEASUREMENT (150KHZ-30MHZ) ........................................................6
8.
RADIATED EMISSION MEASUREMENT (30MHZ-1GHZ) ................................................................9
9.
6DB BANDWIDTH ..........................................................................................................................13
10.
MAXIMUM PEAK OUTPUT POWER ...........................................................................................17
11.
MAXIMUM POWER SPECTRAL DENSITY LEVEL IN THE FUNDAMENTAL EMISSION ........... 20
12.
UNWANTED EMISSIONS IN NON-RESTRICTED FREQUENCY BANDS ..................................21
13.
UNWANTED EMISSIONS IN RESTRICTED FREQUENCY BANDS ...........................................26
14.
OCCUPIED BANDWIDTH (99%) .................................................................................................40
Page 2 / 41
Rapport d’essai / Test Report
N° : 12497-FCC-IC-1
1.
Normatives References
FCC qualification according to:
Standards
Applied
Title
ANSI C63.4
(2014)
American National Standard for Methods of Measurement of Radio-Noise
Emissions from Low-Voltage Electrical and Electronic Equipment in the
Range of 9 kHz to 40 GHz.
ANSI C63.10
(2013)
American National Standard for Testing Unlicensed Wireless Devices
CFR47, Part 15
Telecommunication – Federal Communication Commission – Radio
frequency devices,
Sections 15.107 / 15.109 / 15.207 / 15.209 / 15.247
Industry Canada qualification according to:
Standards
Applied
Title
ICES-003
(Issue 6/2016)
Information Technology Equipment (ITE) – Limits and methods of
measurement
RSS-Gen
(Issue 5/2018)
General Requirements and Information for the Certification of Radio
Apparatus
RSS-247
(Issue2/2017)
Digital Transmission Systems (DTSs), Frequency Hopping Systems
(FHSs) and Licence-Exempt Local Area Network (LE-LAN) Devices
Note: Following guidance are used
- DTS Measurement Guidance 558074 D01 v04
- Determining ERP and EIRP Guidance 412172 D01 v01r01
Page 3 / 41
Rapport d’essai / Test Report
N° : 12497-FCC-IC-1
2.
Test synthesis
TEST
Paragraph number
FCC Part 15 /
IC RSS-247 / RSS-GEN
15.207 (a)
RSS-Gen § 8.8
Spec.
FCC Part 15 /
IC RSS-247 / RSS-GEN
Table 15.107 (a)
Table 4 / RSS-Gen
Radiated emission test
15.209 (a)
ICES-003
Table 15.209 (a)
Table 5 , § 6.2
PASS [1]
6dB Bandwidth
15.247 (a) (2)
RSS-247 § 5.2 (a)
At least 500kHz
PASS
Maximum Peak Output
Power
15.247 (b) (3)
RSS-247 § 5.4 (d)
1W max / 30dBm (Conducted)
4W max / 36dBm (EIRP)
PASS
Maximum Power Spectral 15.247 (e)
RSS-247 § 5.2 (b)
Density
8dBm in a 3kHz band segment
PASS
Unwanted emissions into 15.247 (d) /
RSS-247 § 5.5
Non Restricted
Frequency Bands
-20dBc in any 100kHz outside
frequency band.
PASS
Unwanted emissions into 15.209 (a) / 15.247 (d) /
15.205 (a)
Restricted Frequency
RSS-GEN § 7.1, §8.9, §
Bands
8.10 / RSS-247 § 5.5
Measure at 300m
9-490kHz: 2400µV/m/F(kHz)
Measure at 30m
0.490-1.705: 24000µV/m/F(kHz)
1.705-30MHz: 30µV/m
Measure at 3m
30MHz-88MHz : 40 dBµV/m
88MHz-216MHz : 43.5 dBµV/m
216MHz-960MHz : 46.0 dBµV/m
Above 960MHz : 54.0 dBµV/m
BW at 99%
PASS
Conducted emissions
test
Occupied Bandwidwth
RSS-GEN § 6.7
RESULTS
(comments)
PASS [1]
PASS
N/A: Not Applicable
[1]: For battery charging mode only
• General conclusion:
Measures and tests performed on the sample of the product OCTOPUS O2R2 watch, in configuration and
description presented in this test report, show compliance with standards FCC CFR 47, PART 15, Subpart B
& C and Industry Canada ICES-003, RSS-Gen & RSS-247.
Page 4 / 41
Rapport d’essai / Test Report
N° : 12497-FCC-IC-1
3.
Equipment Under Test (EUT)
Nom /
Identification
OCTOPUS WATCH (O2R2)
Sn: N.C
FCC ID:
IC ID :
Model :
2AKSXO2R2
22301-O2R2
O2R2
Auxiliaires /
Auxiliaries
For battery charging mode:
- Companion device (JOY equipment)
- Standard power adapter Dong Guan AoHai Power Technology Co. Ldt,
model A18A-050100U-US2 (AC Mains to USB output)
Entrées-Sorties /
Input / Output
Câbles pour essai /
Blindé /
Cables for test
Shielded
USB cable (Companion) *
USB 2.0, 1.8m
Yes
* Note: Cable for battery charging only (no data transfer possible)
Version programme /
Firmware version
Prévu pour >3m /
Intended for >3m
No
N.C
Mode de fonctionnement /
Running mode
The tested sample is able to:
Transmit a carrier frequency on low, middle and high channels (Bluetooth Low
Energy) without battery charging mode
Transmit a carrier frequency on low, middle and high channels (Bluetooth Low
Energy) with battery charging mode on the Companion nightlight station
Be in Receiver mode (no transmission)
Be in standby mode (no transmission)
Programme de test /
Test program /
N.C
•
Equipment information:
- ISM Frequency band: 2400 to 2483.5 MHz (Tx & Rx, Wideband Data Transmission systems)
- Power Setting: Power is set at is maximum (+4dBm)
- Modulation: Bluetooth Low Energy
- Data rate: 250kb/s, 1Mb/s
- Antenna type: Integral (SMD ceramic, 0dBi peak gain)
- Powered by 3.7V DC from internal battery
- Equipment intended for use as a portable station
- Equipment designed for continuous operation
4.
Test conditions
Power supply voltage:
Equipment under test:
5.
3.7V DC from Li-battery (Fully charged)
5V DC from standard power adapter (Charging stand)
Modifications of the EUT
None
6.
Special accessory
None
Page 5 / 41
Rapport d’essai / Test Report
N° : 12497-FCC-IC-1
7.
Conducted Emission Measurement (150kHz-30MHz)
TEST: Limits for conducted disturbance 150kHz – 30MHz
Verdict
Method: The LISN is placed 0,8 m from the boundary of the unit under test and bonded to a ground reference
plane. This distance was between the closest points of the AMN and the EUT. All other units of the EUT and
associated equipment were at least 0,8 m from the AMN. All power was connected to the system through
Artificial Mains Network (AMN). Conducted voltage measurements on lines were made at the output of the LISN.
The EUT is 80cm above the ground reference plane and 40cm from the vertical ground plane.
The AC power cable is 1m length.
Pass
Laboratory Parameters:
Required prior to the test
During the test
Ambient Temperature
10 to 40 °C
23°C ± 2
Relative Humidity
10 to 90 %
58% ± 5
Frequency range on each side of line
Fully configured sample scanned over the
following frequency range
AC input ports
(110V on standard power
adapter)
150kHz to 30MHz
Running mode
Measurement Point
Battery Charging mode (On Companion device)
Limits
Limit dB (µV)
Frequency (MHz)
Quasi-Peak
Result
Average
Result
0.15 – 0.50
66 \ 56
Pass
56 \ 46
Pass
0.50 – 5
56
Pass
46
Pass
5 – 30
60
Pass
50
Pass
Supplementary information:
Test location: SMEE
Test date: July 6th, 2018. Tested by L. CHAPUS
Power supply voltage: 110V/60Hz to power adapter
Test Equipment Used
Description
Manufacturer
Model
Identifier
Cal. Date
Cal. Due
Attenuator / limiter
SMEE
ATT#2
ATT-171-010
2017/6
2018/6
Cable RF
Div
1m
CAB-101-021
2017/4
2018/4
LISN (50Ω / 50µH) (Meas.)
AFJ
LS16C
RSI-101-001
2017/6
2019/6
Measuring receiver
Rohde&Schwarz
ESRP
REC-151-002
2017/3
2019/3
EMC Software
NEXIO
BAT EMC V3.8
SOF-101-001
AC power supply
PACIFIC POWER
AMX-125
101-002
Page 6 / 41
Rapport d’essai / Test Report
N° : 12497-FCC-IC-1
Test Setup for conducted emission
Ground reference plane
Tabulated Results for Mains Terminal Disturbance Voltage on AC port
FREQ
(MHz)
Meas. PK
(dBµV)
Mes. QP LIMIT QP Margin QP Mes. AV
LIMIT AV Margin AV
Line
(dBµV)
(dBµV)
(dB)
(dBµV)
(dBµV)
(dB)
Levels are at least 20dB below limits
Line L1
Levels are at least 20dB below limits
Neutral
150kHz-30MHz
Frequency band investigated:
9kHz
RBW:
110V / 60Hz
Voltage:
FCC Part 15.107 / 15.207 / ICES-003
Limit:
Quasi-Peak and Average
Final measurement detector:
± 3.5dB (k=2)
Wide Measurement Uncertainty:
PASS
RESULT:
The measured value (level) is calculated by adding the Cable Factor, the
Measured value calculation:
Transient suppressor attenuation and LISN attenuation from the receiver
amplitude reading. The basic equation is as follow:
Meas. = RA + CF + ATTTRAN + ATTLISN
Where Meas. = Level (dBµV)
RA = Receiver Amplitude
CF = Cable Factor
ATTTRAN = Transient suppressor attenuation
ATTLISN = LISN attenuation
Margin value = Emission level – Limit value
Page 7 / 41
Rapport d’essai / Test Report
N° : 12497-FCC-IC-1
Graphical representation of Conducted Disturbance Measurement (Peak and Average detection)
AC port, Line L1 – Companion device with watch (Battery charging)
80
dBµV
70
60
50
40
30
20
10
150kHz
1M
10M
30MHz
Fréquence (MHz)
----: Peak
----: Average
Graphical representation of Conducted Disturbance Measurement (Peak and Average detection)
AC port, Line Neutral – Companion device with watch (Battery charging)
80
dBµV
70
60
50
40
30
20
10
150kHz
1M
10M
30MHz
Fréquence (MHz)
----: Peak
----: Average
Page 8 / 41
Rapport d’essai / Test Report
N° : 12497-FCC-IC-1
8.
Radiated Emission Measurement (30MHz-1GHz)
TEST: Limits for radiated disturbance 30 MHz – 1 GHz
Verdict
Method: Final measurements were made in a 3-meter Open Area Test Site (OATS).
Measurements were performed at an antenna to EUT separation distance of 3 meters. The EUT was
rotated 360° about its azimuth with the receive antenna located at various heights in horizontal and
vertical polarities. Final measurements (Peak, Quasi-peak) were then performed by rotating the EUT
360° and adjusting the receive antenna height from 1 to 4 m. All frequencies were investigated in both
horizontal and vertical antenna polarity, where applicable.
A pre-scan frequency identification of the EUT has been performed in a full anechoic chamber. The
measured radiated field of the EUT is realised at 3-meters of distance. Antenna is 1.25-meters high.
The pre-characterization graphs are obtained in PEAK detection with 360° continuous rotation of the
device under test.
Laboratory Parameters:
Pass
Required prior to the test
During the test
Ambient Temperature
20 to 30 °C
23°C ± 2
Relative Humidity
25 to 70 %
58% ± 5
Frequency range on each side of line
Measurement Point
30MHz – 1GHz
3 m measurement distance
Fully configured sample scanned
over the following frequency range
Running mode
Battery Charging mode (On Companion device)
Limits
Limit at 3m (dBµV/m)
Frequency (MHz)
Level / Detector
Results
30 to 88
40.0 (QP)
Pass
88 to 216
43.5 (QP)
Pass
216 to 960
46.0 (QP)
Pass
960 to 1000
54.0 (QP)
Pass
Above 1GHz
54.0 (AV)
74.0 (PK)
Pass
Supplementary information:
Test location: SMEE.
Test date: July 5th, 2018. Tested by L. CHAPUS
Page 9 / 41
Rapport d’essai / Test Report
N° : 12497-FCC-IC-1
Test Equipment Used
Description
Manufacturer
Model
Identifier
Cal. Date
Cal. Due
Log-periodic antenna
TDK
PLP3003
ANT-101-001
2017/5
2019/5
Biconnic antenna
COM-POWER
AB- 900
ANT-101-003
2017/5
2019/5
BiConiLog antenna
EMCO
3142B
ANT-101-010
2017/7
2019/7
RF cable
Div
OATS/25m
CAB-101-017
2018/4
2019/4
RF cable
HUBER+SUHNER
RG214U
CAB-141-026
2018/4
2019/4
RF cable
HUBER+SUHNER
RG214U
CAB-141-029
2018/4
2019/4
Anechoic chamber
COMTEST
214263
CAG-141-001
2017/6
2020/6
Antenna mast
Innco- Systems
MA4000EP
MAT-101-001
Turntable
Innco- Systems
DS1200S
PLA-101-001
Turntable
Innco- Systems
CT0800
PLA-141-001
Measuring receiver
Rohde&Schwarz
ESRP
REC-151-003
2017/3
2019/3
OATS
Div
10m
SIT-101-001
2017/7
2020/7
EMC Software
NEXIO
BAT EMC V3.8
SOF-101-001
Test Setup for radiated emission
Test setup for 30-1000MHz
Page 10 / 41
Rapport d’essai / Test Report
N° : 12497-FCC-IC-1
Tabulated Results for Radiated Disturbance
(3m measurement on Open Area Test Site, 30MHz-1GHz)
FREQ
MHz
Meter
reading
(QP)
dBµV
Meter
reading
(Pk)
dBµV
With Companion device
Total
Field
Field
Antenna
Pol
Factor
level
level
height
(QP)
(Pk)
dB
dBµV/m dBµV/m
cm
Levels are at least 10dB below limits
Table
angle
Degré
Limit
Margin
(QP)
dBµV/m
dB
Supplementary information:
Frequency list measured on the Open Area Test Site is created with pre-scan results.
Frequency band investigated:
RBW:
Measurement distance:
Limit:
Final measurement detector:
Wide Measurement Uncertainty:
RESULT:
Field Strength Calculation:
30MHz-1GHz
120kHz
3m
FCC Part 15.109 / 15.209 / ICES-003
Quasi-Peak
± 5.6dB (k=2)
PASS
The field strength (level) is calculated by adding the Antenna Factor
and Cable Factor, and subtracting the Amplifier Gain (if any) from the
measured reading. The basic equation is as follow:
FS = RA + AF + CF – AG
Where FS = Field Strength (Level)
RA = Receiver Amplitude (Meter reading)
AF = Antenna Factor
CF = Cable Factor
AG = Amplifier Gain
Total factor (dB) is AF + CF – AG
Margin value = Emission level – Limit value
Page 11 / 41
Rapport d’essai / Test Report
N° : 12497-FCC-IC-1
Graphical representation of Radiated Disturbance Measurement (Peak detection, Anechoic chamber
pre-scan, 30MHz-1GHz / 3m / Horizontal & Vertical) – Companion with Octopus watch (Battery
charging)
80
dBµV/m
70
60
50
40
30
20
10
30MHz
100M
1.0005GHz
Fréquence (MHz)
80
dBµV/m
70
60
50
40
30
20
10
30MHz
100M
1.0005GHz
Fréquence (MHz)
Note: Pre-scan graph only for identification purpose.
------ : Peak measure
------ : Class B limit (3m)
Page 12 / 41
Rapport d’essai / Test Report
N° : 12497-FCC-IC-1
9.
6dB Bandwidth
TEST: 6dB Bandwidth
Verdict
Method: The setup is in an anechoic chamber. The spectrum analyzer is connected to the measuring
antenna. A radiated measurement is performed.
The RBW is 100kHz, with VBW ≥ 3 x RBW.
The SPAN is wide enough to capture all products of the modulation process.
A MaxHold Peak detector is used.
The tested equipment is set to transmit operation with modulation on low, mid and high channels.
Laboratory Parameters:
Pass
Required prior to the test
During the test
Ambient Temperature
10 to 40 °C
23°C ± 2
Relative Humidity
10 to 90 %
58% ± 5
Limits – FCC Part 15.247 (a) / RSS-247 §5.2 (a)
Frequency (MHz)
Level for Bandwidth
Limit
6dB below the maximum output power
At least 500kHz
2402.0
2440.0
2480.0
Supplementary information:
Test location: SMEE.
Test date: July 5th, 2018. Tested by L. CHAPUS
Test Equipment Used
Description
Manufacturer
Model
Identifier
Cal. Date
Cal. Due
Horn antenna
ETS-LINDGREN
3115
ANT-141-013
2014/3
2019/3
RF cable
Pasternack RF
PE302-120
CAB-131-024
2018/4
2019/4
RF cable
HUBER+SUHNER
SF104
CAB-141-030
2018/4
2019/4
Anechoic chamber
COMTEST
214263
CAG-141-001
2017/6
2020/6
Turntable
Innco- Systems
CT0800
PLA-141-001
Measuring receiver
Rohde&Schwarz
ESRP
REC-151-003
2017/3
2019/3
Page 13 / 41
Rapport d’essai / Test Report
N° : 12497-FCC-IC-1
Test Setup for radiated emission
1.5m
1.5m
Test setup for 1-25GHz
Tabulated Results for Occupied Bandwidth
Frequency
(MHz)
6dB Bandwidth
(kHz)
Result
2402.0
2440.0
2480.0
505
550
580
Pass
Pass
Pass
Page 14 / 41
Rapport d’essai / Test Report
N° : 12497-FCC-IC-1
Graphical representation of 6dB Bandwidth
Low channel
Mid channel
Page 15 / 41
Rapport d’essai / Test Report
N° : 12497-FCC-IC-1
Graphical representation of 6dB Bandwidth
High channel
Frequency band investigated:
RBW :
Measurement detector :
Note :
2400MHz to 2483.5MHz
100kHz
Peak
Worst case measurement for standalone watch or Companion + watch
Page 16 / 41
Rapport d’essai / Test Report
N° : 12497-FCC-IC-1
10.
Maximum Peak Output power
TEST: Maximum peak conducted output power
Verdict
Method: A radiated measurement is performed.
The RBW is wide enough to capture the maximum amplitude level (1MHz).
The SPAN is wide enough to capture all products of the modulation process.
A MaxHold Peak detector is used.
Radiated field strength of RF Output Power is measured at 3m in a Full Anechoic Chamber (FAC) that
complies with ANSI C63.10.
Maximum field strength (Peak) is performed by rotating the EUT 360°. All frequencies were investigated
in both horizontal and vertical antenna polarity.
Three orthogonal axis measurements on EUT are performed to obtain the maximum peak field strength,
with a 60° rotation on each axis. (Clause 6.6.5 of ANSI C63.10).
The tested equipment is set to transmit operation with modulation on low, mid and high channels.
Laboratory Parameters:
Pass
Required prior to the test
During the test
Ambient Temperature
10 to 40 °C
23°C ± 2
Relative Humidity
10 to 90 %
58% ± 5
Limits – FCC Part 15.247 (b) / RSS-247 §5.4 (d)
Limits (dBµV/m)
Frequency (MHz)
Level / Detector
Results
2400 to 2483.5
36 dBm / Pk / 3m (Radiated)
Pass
2400 to 2483.5
30 dBm / Pk (Conducted)
Pass
Supplementary information:
Test location: SMEE.
Test date: July 5th, 2018. Tested by L. CHAPUS
Test Equipment Used
Description
Manufacturer
Model
Identifier
Cal. Date
Cal. Due
Horn antenna
ETS-LINDGREN
3115
ANT-141-013
2014/3
2019/3
RF cable
Pasternack RF
PE302-120
CAB-131-024
2018/4
2019/4
RF cable
HUBER+SUHNER
SF104
CAB-141-030
2018/4
2019/4
Anechoic chamber
COMTEST
214263
CAG-141-001
2017/6
2020/6
Turntable
Innco- Systems
CT0800
PLA-141-001
Measuring receiver
Rohde&Schwarz
ESRP
REC-151-003
2017/3
2019/3
Page 17 / 41
Rapport d’essai / Test Report
N° : 12497-FCC-IC-1
Test Setup for radiated emission
1.5m
1.5m
Test setup for 1-25GHz
Tabulated Results for Maximum peak output power (Radiated measurement)
Normal mode (Standalone)
FREQ
(MHz)
2402
2440
2480
Field Strength 3m
(dBµV/m)
91.6
96.2
94.4
Calculed EIRP
(dBm)
-3.7
0.9
-0.9
Limit
(dBm)
36.0
36.0
36.0
Result
Pass
Pass
Pass
Charge mode (Companion)
FREQ
(MHz)
2402
2440
2480
Field Strength 3m
Calculed EIRP
Limit
Result
(dBµV/m)
(dBm)
(dBm)
-4.5
Pass
90.8
36.0
0.7
Pass
96.0
36.0
-0.8
Pass
94.5
36.0
1MHz
RBW:
3m
Measurement distance:
FCC Part 15.247 / RSS-247
Limit:
Peak
Final measurement detector:
± 5.6dB (k=2)
Wide Measurement Uncertainty:
PASS
RESULT:
(1): The field strength (level) is calculated by adding the Antenna Factor and
Note:
Cable Factor, and subtracting the Amplifier Gain (if any) from the measured
reading. The basic equation is as follow:
FS = RA + AF + CF – AG
Where FS = Field Strength
RA = Receiver Amplitude
AF = Antenna Factor
CF = Cable Factor
AG = Amplifier Gain
Total factor (dB) is AF + CF – AG
Margin value = Emission level – Limit value
(2): EIRP is calculated using the following equation:
EIRP = E + 20xlog (D) – 104.8 – GR
Where EIRP = Equivalent Isotropic Radiated Power in dBm
E = Electric field strength in dBµV/m
D = Measuring distance in meter
GR = Ground reflection in dB (0dB above 1GHz)
Page 18 / 41
Rapport d’essai / Test Report
N° : 12497-FCC-IC-1
Tabulated Results for Maximum peak output power (Conducted)
FREQ
(MHz)
2402
2440
2480
Conducted power
Limit
Result
(dBm)
(dBm)
-3.7
Pass
30.0
0.9
Pass
30.0
-0.8
Pass
30.0
1MHz
RBW:
FCC Part 15.247 / IC RSS-247
Limit:
Peak
Final measurement detector:
PASS
RESULT:
(1): Maximum conducted Peak output power is calculated as follow:
Note:
Pc = EIRP – G
Where Pc = Conducted power dBm
EIRP = Equivalent Isotropic Radiated Power in dBm
G = Antenna gain in dBi (0dBi, as declared by the manufacturer)
(2): Worst case measurement for standalone watch and Companion + watch
Page 19 / 41
Rapport d’essai / Test Report
N° : 12497-FCC-IC-1
11.
Maximum Power Spectral Density Level in the fundamental emission
TEST: Maximum Peak Power Spectral Density
Verdict
Method: The PSD is derived from maximum peak output power (Conducted).
See chapter 10 for results.
Laboratory Parameters:
Pass
Required prior to the test
During the test
Ambient Temperature
10 to 40 °C
23°C ± 2
Relative Humidity
10 to 90 %
58% ± 5
Limits – FCC Part 15.247 (e) / RSS-247 §5.2 (b)
Frequency (MHz)
Level (Detector)
Limit
2441.75
8 dBm/3kHz (Pk)
Pass
Supplementary information:
Test location: SMEE.
Test date: July 5th, 2018. Tested by L. CHAPUS
Tabulated Results for Maximum Power Spectral Density
Frequency
(MHz)
2402
2440
2480
RBW:
Limit:
Final measurement detector:
RESULT:
Note:
PSD
(dBm/3kHz)
Limit
8dBm/3kHz
-3.7 [1]
8dBm/3kHz
0.9 [1]
8dBm/3kHz
-0.8 [1]
100kHz
FCC Part 15.247 / RSS-247
Peak
PASS
Result
Pass
Pass
Pass
[1]: Measured output power reported. Maximum Peak Output power complies with the PSD limit.
See Clause 11.10.1 of ANSI C63.10 (2013).
Page 20 / 41
Rapport d’essai / Test Report
N° : 12497-FCC-IC-1
12.
Unwanted emissions in Non-Restricted Frequency bands
TEST: Unwanted emissions in Non-Restricted Frequency Bands
Verdict
Method: Measurements were performed on a 3-meter Open Area Test Site (OATS) for frequency below
1GHz. The EUT was rotated 360° about its azimuth with the receive antenna located at various heights in
horizontal and vertical polarities. Final measurements (Peak) were then performed by rotating the EUT on
360° and adjusting the receive antenna height from 1 to 4 m
For frequency above 1GHz, final measurements were made at 3m in a Full Anechoic Chamber (FAC) that
complies with ANSI C63.10. Measurements were performed at an antenna to EUT separation distance of 3
meter. The EUT was rotated 360° about its azimuth with the receive antenna in horizontal and vertical
polarities.
Three orthogonal axis measurements on EUT are performed to obtain the maximum peak field strength, with
60° rotation on each axis. (Clause 6.6.5 of ANSI C63.10).
A pre-scan frequency identification of the EUT has been performed in full anechoic chamber. The measured
radiated field of the EUT is performed (or corrected) at 3-meters of distance. Antenna is 1.25-meters high.
The pre-characterization graphs are obtained in PEAK detection with 360° continuous rotation of the device
under test.
Laboratory Parameters:
Pass
Required prior to the test
During the test
Ambient Temperature
10 to 40 °C
23°C ± 2
Relative Humidity
10 to 90 %
58% ± 5
Frequency range on each side of line
Measurement Point
30MHz – 25GHz
3 m measurement distance
Fully configured sample scanned
over the following frequency range
Limits – FCC Part 15.247 (d) / RSS-247 § 5.5
Limits (dBµV/m)
Frequency (MHz)
Detector /
Analyser RBW
30 to 25000
Pk / 100kHz
Limit
Results
20dB below the
maximum Peak level
Pass
Supplementary information:
Test location: SMEE.
Test date: July 5th, 2018. Tested by L. CHAPUS
Test Equipment Used
Description
Manufacturer
Model
Identifier
Cal. Date
Cal. Due
Log-periodic antenna
TDK
PLP3003
ANT-101-001
2017/5
2019/5
Biconnic antenna
COM-POWER
AB- 900
ANT-101-003
2017/5
2019/5
Loop antenna
EMCO
6502
ANT-101-009
2017/8
2019/8
BiConiLog antenna
EMCO
3142B
ANT-101-010
2017/7
2019/7
Horn antenna
ETS-LINDGREN
3115
ANT-141-013
2014/3
2019/3
Horn antenna
ETS-LINDGREN
3116
ANT-161-014
2017/12
2022/12
Spectrum analyzer
Rohde&Schwarz
FSV40
ASP-171-004
2017/5
2019/5
RF cable
Div
OATS/25m
CAB-101-017
2018/4
2019/4
RF cable
Pasternack RF
PE302-120
CAB-131-024
2018/4
2019/4
RF cable
HUBER+SUHNER
RG214U
CAB-141-026
2018/4
2019/4
RF cable
HUBER+SUHNER
RG214U
CAB-141-029
2018/4
2019/4
Page 21 / 41
Rapport d’essai / Test Report
N° : 12497-FCC-IC-1
Test Equipment Used
Description
Manufacturer
Model
Identifier
Cal. Date
Cal. Due
RF cable
HUBER+SUHNER
SF104
CAB-141-030
2018/4
2019/4
RF cable
HUBER+SUHNER
SF102 (K/2m)
CAB-171-034
2017/5
2019/5
RF cable
HUBER+SUHNER
SF102 (K/3m)
CAB-171-034
2017/5
2019/5
Anechoic chamber
COMTEST
214263
CAG-141-001
2017/6
2020/6
Antenna mast
Innco- Systems
MA4000EP
MAT-101-001
Turntable
Innco- Systems
DS1200S
PLA-101-001
Turntable
Innco- Systems
CT0800
PLA-141-001
Pre-amplifier
PE
1524
PRE-101-002
2017/6
2018/6
Pre-amplifier
SMEE
18-40GHz
PRE-171-004
2017/12
2018/12
Measuring receiver
Rohde&Schwarz
ESRP
REC-151-003
2017/3
2019/3
OATS
Div
10m
SIT-101-001
2017/7
2020/7
EMC Software
NEXIO
BAT EMC V3.8
SOF-101-001
Test Setup for radiated emission
Test setup for 30-1000MHz
Page 22 / 41
Rapport d’essai / Test Report
N° : 12497-FCC-IC-1
Test Setup for radiated emission
1.5m
1.5m
Test setup for 1-25GHz
Tabulated Results for Peak Output Power Reference level
Normal mode (Standalone)
FREQ
(MHz)
2402.0
2440.0
2480.0
Field Strength 3m
(dBµV/m)
90.7
95.3
93.5
Charge mode (Companion)
FREQ
(MHz)
2402.0
2440.0
2480.0
RBW:
Measurement distance:
Limit:
Final measurement detector:
Wide Measurement Uncertainty:
Note:
Field Strength 3m
(dBµV/m)
90.9
95.1
93.6
100kHz
3m
Ref. level only – For 15.247 (d) / RSS-247 § 5.5
Peak
± 5.6dB (k=2)
(1): Only for identification of limit in non-restricted band
Limit is 70.7 dBµV/m Peak for out-of-band frequencies in NonRestricted bands (with a 100kHz RBW on the spectrum analyser)
Page 23 / 41
Rapport d’essai / Test Report
N° : 12497-FCC-IC-1
Tabulated Results for Unwanted emissions in Non-Restricted bands
FREQ
Field Strength 3m
Limit
Margin
Result
(MHz)
(dBµV/m)
(dBµV/m)
(dBµV/m)
(dBµV/m)
70.7
-16.0
Pass
2399.899
54.7
70.7
-13.4
Pass
4804.0
57.3
70.7
-13.6
Pass
4880.5
57.1
70.7
-12.8
Pass
4960.5
57.9
70.7
-14.9
Pass
7206.6
55.8
70.7
-14.4
Pass
7320.0
56.3
70.7
-10.8
Pass
9607.2
59.9
9921.0
60.0
70.7
-10.7
Pass
12010.8
60.8
70.7
-9.9
Pass
100kHz
RBW:
3m
Measurement distance:
15.247 / RSS-247
Limit:
Peak
Final measurement detector:
± 5.6dB (k=2)
Wide Measurement Uncertainty:
PASS
RESULT:
(1): The field strength (level) is calculated by adding the Antenna
Note:
Factor and Cable Factor, and subtracting the Amplifier Gain (if any)
from the measured reading. The basic equation is as follow:
FS = RA + AF + CF – AG
Where FS = Field Strength
RA = Receiver Amplitude
AF = Antenna Factor
CF = Cable Factor
AG = Amplifier Gain
Total factor (dB) is AF + CF – AG
Margin value = Emission level – Limit value
(2): Peak pre-scans not performed at 3-meters distance are corrected
as follow:
M@3m = M@Dm + 20 x log (Dm / 3m)
Where D is the measurement distance in meter
(3): All frequencies not specified have margin < -10dB
(4): Worst case between charge mode and normal used mode
(5): 3-axis measurement performed for device under test.
Page 24 / 41
Rapport d’essai / Test Report
N° : 12497-FCC-IC-1
Graphical representation of Band-edge compliance (LOW)
Low bandedge compliance
Radiated Peak level is 54.7dBµV/m (limit 70.7dBµV/m)
RESULT: PASS
Note: radiated measurement
Page 25 / 41
Rapport d’essai / Test Report
N° : 12497-FCC-IC-1
13.
Unwanted emissions in Restricted Frequency bands
TEST: Unwanted emissions into Restricted Frequency Bands
Verdict
Method: Measurements were performed on a 3-meter Open Area Test Site (OATS) for frequency below
1GHz. The EUT was rotated 360° about its azimuth with the receive antenna located at various heights in
horizontal and vertical polarities. Final measurements (Peak) were then performed by rotating the EUT on
360° and adjusting the receive antenna height from 1 to 4 m
For frequency above 1GHz, final measurements were made at 3m in a Full Anechoic Chamber (FAC) that
complies with ANSI C63.10. Measurements were performed at an antenna to EUT separation distance of 3
meter. The EUT was rotated 360° about its azimuth with the receive antenna in horizontal and vertical
polarities.
Three orthogonal axis measurements on EUT are performed to obtain the maximum peak field strength, with
60° rotation on each axis.(Clause 6.6.5 of ANSI C63.10).
A pre-scan frequency identification of the EUT has been performed in full anechoic chamber. The measured
radiated field of the EUT is performed (or corrected) at 3-meters of distance. Antenna is 1.25-meters high.
The pre-characterization graphs are obtained in PEAK detection with 360° continuous rotation of the device
under test.
Laboratory Parameters:
Pass
Required prior to the test
During the test
Ambient Temperature
10 to 40 °C
23°C ± 2
Relative Humidity
10 to 90 %
58% ± 5
Frequency range on each side of line
Measurement Point
9kHz – 30MHz
10 m measurement distance
30MHz – 25GHz
3 m measurement distance
Fully configured sample scanned
over the following frequency range
Limits – FCC Part 15.205, 15.209 (a), 15.247 (d) / RSS-GEN §8.9, §8.10, RSS-247 §5.5
Limits (dBµV/m)
Frequency (MHz)
Level / Detector / Distance
Results
0.009 to 0.090
107.6 – 87.6 / AV / 10m
127.6 – 107.6 / PK / 10m
Pass
0.090 to 0.110
87.6 – 85.9 / QP / 10m
Pass
0.110 to 0.490
85.7 – 72.9 / AV / 10m
105.7 – 92.9 / PK / 10m
Pass
0.490 to 1.705
52.9 – 42.1 / QP / 10m
Pass
1.705 to 30
48.6 / QP / 10m
Pass
30 to 88
40.0 / QP / 3m
Pass
88 to 216
43.5 / QP / 3m
Pass
216 to 960
46.0 / QP / 3m
Pass
960-1000
54.0 / QP / 3m
Pass
Above 1GHz
54.0 / AV / 3m
74.0 / PK / 3m
Pass
Supplementary information:
Test location: SMEE.
Test date: July 5th, 2018. Tested by L. CHAPUS
Page 26 / 41
Rapport d’essai / Test Report
N° : 12497-FCC-IC-1
Test Equipment Used
Description
Manufacturer
Model
Identifier
Cal. Date
Cal. Due
Log-periodic antenna
TDK
PLP3003
ANT-101-001
2017/5
2019/5
Biconnic antenna
COM-POWER
AB- 900
ANT-101-003
2017/5
2019/5
Loop antenna
EMCO
6502
ANT-101-009
2017/8
2019/8
BiConiLog antenna
EMCO
3142B
ANT-101-010
2017/7
2019/7
Horn antenna
ETS-LINDGREN
3115
ANT-141-013
2014/3
2019/3
Horn antenna
ETS-LINDGREN
3116
ANT-161-014
2017/12
2022/12
Spectrum analyzer
Rohde&Schwarz
FSV40
ASP-171-004
2017/5
2019/5
RF cable
Div
OATS/25m
CAB-101-017
2018/4
2019/4
RF cable
Pasternack RF
PE302-120
CAB-131-024
2018/4
2019/4
RF cable
HUBER+SUHNER
RG214U
CAB-141-026
2018/4
2019/4
RF cable
HUBER+SUHNER
RG214U
CAB-141-029
2018/4
2019/4
RF cable
HUBER+SUHNER
SF104
CAB-141-030
2018/4
2019/4
RF cable
HUBER+SUHNER
SF102 (K/2m)
CAB-171-034
2017/5
2019/5
RF cable
HUBER+SUHNER
SF102 (K/3m)
CAB-171-034
2017/5
2019/5
Anechoic chamber
COMTEST
214263
CAG-141-001
2017/6
2020/6
Antenna mast
Innco- Systems
MA4000EP
MAT-101-001
Turntable
Innco- Systems
DS1200S
PLA-101-001
Turntable
Innco- Systems
CT0800
PLA-141-001
Pre-amplifier
PE
1524
PRE-101-002
2017/6
2018/6
Pre-amplifier
SMEE
18-40GHz
PRE-171-004
2017/12
2018/12
Measuring receiver
Rohde&Schwarz
ESRP
REC-151-003
2017/3
2019/3
OATS
Div
10m
SIT-101-001
2017/7
2020/7
EMC Software
NEXIO
BAT EMC V3.8
SOF-101-001
Page 27 / 41
Rapport d’essai / Test Report
N° : 12497-FCC-IC-1
Test Setup for radiated emission
10m
Test setup for 9k-30MHz
Test setup for 30-1000MHz
1.5m
1.5m
Test setup for 1-25GHz
Page 28 / 41
Rapport d’essai / Test Report
N° : 12497-FCC-IC-1
FREQ
MHz
Tabulated Results for Unwanted emissions (9kHz-30MHz)
RF field @
Limit @
Antenna
Table
Margin
30m
30m
angle
angle
(QP)
(QP)
dB
Degree
Degree
dBµV/m
dBµV/m
Margin < -10dB
Correc. Fact.
(CF)
dB
Supplementary information:
Frequency list measured on the Open Area Test Site has been created with pre-scan results.
9kHz-30MHz
Frequency band investigated:
200Hz (9kHz-150kHz)
RBW:
9kHz (150kHz-30MHz)
10m
Measurement distance:
FCC Part 15.205 - 15.209 / RSS-GEN
Limit:
Peak / Quasi-Peak / Average
Final measurement detector:
± 3.5 dB (k=2)
Wide Measurement Uncertainty:
CF: Correction factor = Antenna factor + Cable loss
Note:
*1: Measure have been done at 10m distance and corrected
according to requirements of 15.209.e)
(M@30m = M@10m-19.1dB)
FREQ
MHz
Meter
reading
(QP)
dBµV
Tabulated Results for Unwanted emissions
(30MHz-1GHz)
Meter
Total
Field
Field
Antenna
Pol
reading
factor
level
level
height
(Pk)
(QP)
(Pk)
dBµV
dB
dBµV/m dBµV/m
cm
Margin < -10dB
Table
angle
Degré
Limit
Margin
(QP)
dBµV/m
dB
Supplementary information:
Frequency list measured on the Open Area Test Site has been created with pre-scan results.
Frequency band investigated:
RBW:
Measurement distance:
Limit:
Final measurement detector:
Wide Measurement Uncertainty:
RESULT:
Field Strength Calculation:
30MHz-1GHz
120kHz
3m
FCC Part 15.205 - 15.209 / RSS-GEN
Quasi-Peak
± 5.2dB (k=2)
PASS
The field strength (level) is calculated by adding the Antenna Factor
and Cable Factor, and subtracting the Amplifier Gain (if any) from the
measured reading. The basic equation is as follow:
FS = RA + AF + CF – AG
Where FS = Field Strength
RA = Receiver Amplitude
AF = Antenna Factor
CF = Cable Factor
AG = Amplifier Gain
Total factor (dB) is AF + CF – AG
Margin value = Emission level – Limit value
Page 29 / 41
Rapport d’essai / Test Report
N° : 12497-FCC-IC-1
Tabulated Results for Unwanted emissions
(1GHz-26GHz)
FREQ
Field Strength 3m
Limit
Margin
Detector
Result
(MHz)
(dBµV/m)
(dBµV/m)
(dBµV/m)
56.0
Pk
74
-18.0
Pass
2483.5
39.3
Avg
54
-14.7
Pass
2483.5
4804.0
57.3
Pk
74
-16.7
Pass
4804.0
44.2
Avg
54
-9.8
Pass
4880.0
Pk
74
-16.7
Pass
57.3
4880.0
Avg
54
-10.7
Pass
43.3
Pk
74
-16.0
Pass
4960.0
58.0
Avg
54
-9.3
Pass
4960.0
44.7
9608.0
58.9
Pk
74
-5.1
Pass
9608.0
46.3
Avg
54
-7.7
Pass
9760.0
58.2
Pk
74
-5.8
Pass
9760.0
44.6
Avg
54
-9.4
Pass
9920.0
59.5
Pk
74
-14.5
Pass
9920.0
46.2
Avg
54
-7.8
Pass
1MHz / 3MHz (Peak)
RBW / VBW
1MHz / 10Hz (AV)
3m
Measurement distance:
FCC Part 15.205, 15.209, 15.247 / RSS-Gen, RSS-247
Limit:
Peak / Average
Final measurement detector:
± 5.2dB (k=2)
Wide Measurement Uncertainty:
PASS
RESULT:
(1): The field strength (level) is calculated by adding the Antenna Factor
Notes:
and Cable Factor, and subtracting the Amplifier Gain (if any) from the
measured reading. The basic equation is as follow:
FS = RA + AF + CF – AG
Where FS = Field Strength
RA = Receiver Amplitude
AF = Antenna Factor
CF = Cable Factor
AG = Amplifier Gain
Total factor (dB) is AF + CF – AG
Margin value = Emission level – Limit value
(2): Peak pre-scans not performed at 3-meters distance are corrected as
follow:
M@3m = M@Dm + 20 x log (Dm / 3m)
Where D is the measurement distance in meter
(3): All frequencies not specified have margin < -10dB (for peak and
average detector)
(4): Worst case between charge mode and normal used mode
(5): 3-axis measurement performed for device under test.
Page 30 / 41
Rapport d’essai / Test Report
N° : 12497-FCC-IC-1
Graphical representation of Band-edge compliance (HIGH)
High bandedge compliance
Radiated Peak level is 56.0dBµV/m (limit 74dBµV/m)
Radiated Average level is 39.3dBµV/m (limit 54dBµV/m, CISPR Average detector measurement)
RESULT: PASS
Note: radiated measurement
Page 31 / 41
Rapport d’essai / Test Report
N° : 12497-FCC-IC-1
Graphical representation of Radiated Disturbance Measurement (Peak detection, Anechoic chamber
pre-scan, 30MHz-1GHz / 3m / Horizontal & Vertical/ Transmit mode) – Standalone
80
dBµV/m
70
60
50
40
30
20
10
30MHz
100M
1.0005GHz
Fréquence (MHz)
80
dBµV/m
70
60
50
40
30
20
10
30MHz
100M
1.0005GHz
Fréquence (MHz)
Note: Pre-scan graph only for identification purpose. Worst case results for low, mid and high channels.
Frequency band investigated:
Unit :
RBW :
Antenna polarization :
Voltage:
Limit:
Measurement detector:
Wide Measurement Uncertainty:
30MHz-1GHz
dBµV/m
100kHz
Horizontal & Vertical
3.7V DC (Internal battery)
FCC 15.209 / RSS-GEN
Peak
± 5.6dB (k=2)
Page 32 / 41
Rapport d’essai / Test Report
N° : 12497-FCC-IC-1
Graphical representation of Radiated Disturbance Measurement (Peak detection, Anechoic chamber
pre-scan, 30MHz-1GHz / 3m / Horizontal & Vertical / Transmit mode) – Companion
80
dBµV/m
70
60
50
40
30
20
10
30MHz
100M
1.0005GHz
Fréquence (MHz)
80
dBµV/m
70
60
50
40
30
20
10
30MHz
100M
1.0005GHz
Fréquence (MHz)
Note: Pre-scan graph only for identification purpose. Worst case between low, mid and high channels.
Frequency band investigated:
Unit :
RBW :
Antenna polarization :
Voltage:
Limit:
Measurement detector:
Wide Measurement Uncertainty:
30MHz-1GHz
dBµV/m
100kHz
Horizontal & Vertical
5V DC (From power adapter)
FCC 15.209 / RSS-GEN
Peak
± 5.6dB (k=2)
Page 33 / 41
Rapport d’essai / Test Report
N° : 12497-FCC-IC-1
Graphical representation of Radiated Disturbance Measurement (Peak detection, Anechoic chamber
pre-scan, 1GHz-18GHz / 3m / Horizontal & Vertical / Transmit mode) – Low channel
100
dBµV/m
2.402 G / 90.7
90
80
70
60
9.6078 G / 53
12.0108 G / 50.4
50
7.2066 G / 47.6
4.804 G / 45.2
1.897 G / 39.2
40
30
20
10
1GHz
10G
18GHz
Fréquence (MHz)
100
dBµV/m
90
80
2.402 G / 75.9
70
60
50
40
1.8975 G / 38.2
30
20
10
1GHz
10G
18GHz
Fréquence (MHz)
Note: Pre-scan graph only for identification purpose.
------ : Peak measure
Frequency band investigated:
Unit :
RBW :
Antenna polarization :
Voltage:
Limit:
Measurement detector:
Wide Measurement Uncertainty:
------ : Average measure
1GHz-18GHz
dBµV/m
1MHz
Horizontal & Vertical
3.7V DC (Standalone mode) / 5V DC (Charge mode) / Worst case
FCC 15.209 / RSS-GEN
Peak
± 5.6dB (k=2)
Page 34 / 41
Rapport d’essai / Test Report
N° : 12497-FCC-IC-1
Graphical representation of Radiated Disturbance Measurement (Peak detection, Anechoic
chamber pre-scan, 18GHz-26GHz / 3m / Horizontal & Vertical / Transmit mode) – Low channel
80
dBµV/m
70
60
50
40
30
20
10
18GHz
26GHz
Fréquence (MHz)
80
dBµV/m
70
60
50
40
30
20
10
26GHz
18GHz
Fréquence (MHz)
Note: Pre-scan graph only for identification purpose.
------ : Peak measure
Frequency band investigated:
Unit :
RBW :
Antenna polarization :
Voltage:
Limit:
Measurement detector:
Wide Measurement Uncertainty:
------ : Average measure
18GHz-26GHz
dBµV/m
1MHz
Horizontal & Vertical
3.7V DC (Standalone mode) / 5V DC (Charge mode) / Worst case
FCC 15.209 / RSS-GEN
Peak
± 5.6dB (k=2)
Page 35 / 41
Rapport d’essai / Test Report
N° : 12497-FCC-IC-1
Graphical representation of Radiated Disturbance Measurement (Peak detection, Anechoic chamber
pre-scan, 1GHz-18 GHz / 3m / Horizontal & Vertical / Transmit mode) – Mid channel
100
2.44 G / 95.4
dBµV/m
90
80
70
60
50
4.8805 G / 48.7
40
7.32 G / 48
1.8975 G / 37.3
30
20
10
1GHz
10G
18GHz
10G
18GHz
Fréquence (MHz)
100
dBµV/m
90
80
2.4395 G / 78.8
70
60
50
40
1.897 G / 37.9
30
20
10
1GHz
Fréquence (MHz)
Note: Pre-scan graph only for identification purpose.
------ : Peak measure
Frequency band investigated:
Unit :
RBW :
Antenna polarization :
Voltage:
Limit:
Measurement detector:
Wide Measurement Uncertainty:
------ : Average measure
1GHz-18GHz
dBµV/m
1MHz
Horizontal & Vertical
3.7V DC (Standalone mode) / 5V DC (Charge mode) / Worst case
FCC 15.209 / RSS-GEN
Peak
± 5.6dB (k=2)
Page 36 / 41
Rapport d’essai / Test Report
N° : 12497-FCC-IC-1
Graphical representation of Radiated Disturbance Measurement (Peak detection, Anechoic chamber prescan, 18GHz-26GHz / 3m / Horizontal & Vertcial / Transmit mode) – Mid channel
80
dBµV/m
70
60
50
40
30
20
10
18GHz
26GHz
Fréquence (MHz)
80
dBµV/m
70
60
50
40
30
20
10
18GHz
26GHz
Fréquence (MHz)
Note: Pre-scan graph only for identification purpose.
------ : Peak measure
Frequency band investigated:
Unit :
RBW :
Antenna polarization :
Voltage:
Limit:
Measurement detector:
Wide Measurement Uncertainty:
------ : Average measure
18GHz-26GHz
dBµV/m
1MHz
Horizontal & Vertical
3.7V DC (Standalone mode) / 5V DC (Charge mode) / Worst case
FCC 15.209 / RSS-GEN
Peak
± 5.6dB (k=2)
Page 37 / 41
Rapport d’essai / Test Report
N° : 12497-FCC-IC-1
Graphical representation of Radiated Disturbance Measurement (Peak detection, Anechoic chamber
pre-scan, 1GHz-18GHz / 3m / Horizontal & Vertical / Transmit mode) – High channel
100
dBµV/m
2.48 G / 92
90
80
70
60
9.9192 G / 53.8
50
4.9605 G / 47.2
40
1.897 G / 37.5
30
20
10
1GHz
10G
18GHz
10G
18GHz
Fréquence (MHz)
100
dBµV/m
90
80
2.4795 G / 74.1
70
60
50
40
1.897 G / 37.6
30
20
10
1GHz
Fréquence (MHz)
Note: Pre-scan graph only for identification purpose.
------ : Peak measure
Frequency band investigated:
Unit :
RBW :
Antenna polarization :
Voltage:
Limit:
Measurement detector:
Wide Measurement Uncertainty:
------ : Average measure
1GHz-18GHz
dBµV/m
1MHz
Horizontal & Vertical
3.7V DC (Standalone mode) / 5V DC (Charge mode) / Worst case
FCC 15.209 / RSS-GEN
Peak
± 5.6dB (k=2)
Page 38 / 41
Rapport d’essai / Test Report
N° : 12497-FCC-IC-1
Graphical representation of Radiated Disturbance Measurement (Peak detection, Anechoic chamber prescan, 18GHz-26GHz / 3m / Horizontal & Vertical / Transmit mode) – High channel
80
dBµV/m
70
60
50
40
30
20
10
18GHz
26GHz
Fréquence (MHz)
80
dBµV/m
70
60
50
40
30
20
10
18GHz
26GHz
Fréquence (MHz)
Note: Pre-scan graph only for identification purpose.
------ : Peak measure
Frequency band investigated:
Unit :
RBW :
Antenna polarization :
Voltage:
Limit:
Measurement detector:
Wide Measurement Uncertainty:
------ : Average measure
18GHz-26GHz
dBµV/m
1MHz
Horizontal & Vertical
3.7V DC (Standalone mode) / 5V DC (Charge mode) / Worst case
FCC 15.209 / RSS-GEN
Peak
± 5.6dB (k=2)
Page 39 / 41
Rapport d’essai / Test Report
N° : 12497-FCC-IC-1
14.
Occupied bandwidth (99%)
TEST: Occupied bandwidth (99%) / RSS-GEN
Verdict
Method: The setup is in an anechoic chamber. The spectrum analyzer is connected to the measuring
antenna. A radiated measurement is performed.
The RBW is set in the range of 1% to 5% of the occupied bandwidth, with VBW ≥ 3 x RBW.
The SPAN is wide enough to capture all products of the modulation process.
A MaxHold Peak detector is used.
Measure is performed with OBW 99% function of the spectrum analyser.
The tested equipment is set to transmit operation with modulation on low, mid and high channels.
Laboratory Parameters:
Pass
Required prior to the test
During the test
Ambient Temperature
10 to 40 °C
23°C ± 2
Relative Humidity
10 to 90 %
54% ± 5
Supplementary information:
Test location: SMEE.
Test date: September 4th, 2018. Tested by L. CHAPUS
Test Equipment Used
Description
Manufacturer
Model
Identifier
Cal. Date
Cal. Due
Horn antenna
ETS-LINDGREN
3115
ANT-141-013
2014/3
2019/3
RF cable
Pasternack RF
PE302-120
CAB-131-024
2018/4
2019/4
RF cable
HUBER+SUHNER
SF104
CAB-141-030
2018/4
2019/4
Anechoic chamber
COMTEST
214263
CAG-141-001
2017/6
2020/6
Turntable
Innco- Systems
CT0800
PLA-141-001
Measuring receiver
Rohde&Schwarz
ESRP
REC-151-003
2017/3
2019/3
Tabulated Results for Occupied Bandwidth
Frequency
(MHz)
99% Occupied Bandwidth
(kHz)
2402.0
2440.0
2480.0
970.539
932.216
954.491
Page 40 / 41
Rapport d’essai / Test Report
N° : 12497-FCC-IC-1
Graphical representation of Occupied Bandwidth
Low Channel
Mid Channel
High Channel
Frequency band investigated:
RBW :
Measurement detector:
2400MHz to 2483.5MHz
30kHz
Peak
Page 41 / 41
Download: O2R2 Connected Bluetooth LE Watch Test Report  JOY
Mirror Download [FCC.gov]O2R2 Connected Bluetooth LE Watch Test Report  JOY
Document ID3995399
Application IDsAGhMg395CtZXzOHLmDHDg==
Document DescriptionTest report
Short Term ConfidentialNo
Permanent ConfidentialNo
SupercedeNo
Document TypeTest Report
Display FormatAdobe Acrobat PDF - pdf
Filesize132.16kB (1651975 bits)
Date Submitted2018-09-07 00:00:00
Date Available2018-09-10 00:00:00
Creation Date2018-09-04 17:13:06
Producing SoftwareAdobe PDF Library 15.0
Document Lastmod2018-09-04 17:17:32
Document TitleTest report
Document CreatorAcrobat PDFMaker 18 pour Word
Document Author: SMEE

Source Exif Data [exif.tools]:
File Type                       : PDF
File Type Extension             : pdf
MIME Type                       : application/pdf
PDF Version                     : 1.6
Linearized                      : No
Author                          : SMEE
Company                         : SMEE
Create Date                     : 2018:09:04 17:13:06+02:00
Modify Date                     : 2018:09:04 17:17:32+02:00
Source Modified                 : D:20180904151236
Subject                         : 
Has XFA                         : No
Tagged PDF                      : Yes
XMP Toolkit                     : Adobe XMP Core 5.6-c015 84.159810, 2016/09/10-02:41:30
Metadata Date                   : 2018:09:04 17:17:32+02:00
Creator Tool                    : Acrobat PDFMaker 18 pour Word
Document ID                     : uuid:ed22c720-2eb5-4bd9-b5ab-abbe7773bfe1
Instance ID                     : uuid:9f9fae54-1f7f-4ee0-a45a-7b83c5b52e9a
Format                          : application/pdf
Title                           : 
Description                     : 
Creator                         : SMEE
Producer                        : Adobe PDF Library 15.0
Keywords                        : 
Page Layout                     : OneColumn
Page Count                      : 41