EMMYW163 WLAN/Bluetooth/NFC host-based multiradio module EMMY-W1 Test Report MDE_UBLOX_1551_FCCb_W163_FCC15_247_BT_DTS_Rev_1x u-blox AG

u-blox AG WLAN/Bluetooth/NFC host-based multiradio module EMMY-W1

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FCC Measurement/Technical Report on
Host-based multiradio module with
Wi-Fi, Bluetooth and NFC
EMMY-W163
in Bluetooth mode
FCC ID: XPYEMMYW163
IC: 8595A-EMMYW163
Te st Re por t Re fe r e n ce : MDE_UBLOX_1551_FCCb_Rev_1
Te st La bor a t or y :
7layers GmbH
Borsigstrasse 11
40880 Ratingen
Germany
Note:
The following test results relate only to the devices specified in this document. This report shall not be reproduced in parts
without the written approval of the test laboratory.
7 la ye r s Gm bH
Geschäftsführer/
Borsigstraße 11
Managing Directors:
Registergericht/registered:
a Bureau Verit as
40880 Ratingen, Germany
Frank Spiller
Düsseldorf HRB 75554
Gr oup Com pany
T +49 (0) 2102 749 0
Bernhard Retka
USt-Id.-Nr./VAT-No. DE203159652
F +49 (0) 2102 749 350
Alexandre Norré-Oudard
Steuer-Nr./TAX-No. 147/5869/0385
Commerzbank AG
Account No. 303 016 000 Bank Code 300 400 00
www.7layers.com
IBAN DE81 3004 0000 0303 0160 00 Swift Code COBADEFF
1
Applie d St a n da r ds a n d Te st Su m m a r y
1.1
Applied Standards
1.2
FCC-IC Correlation Table
1.3
Measurement Summary / Signatures
1.4
Revision History
Adm in ist r a t ive D a t a
2.1
Testing Laboratory
13
2.2
Project Data
13
2.3
Applicant Data
13
2.4
Manufacturer Data
13
Te st obj e ct D a t a
3.1
General EUT Description
14
3.2
EUT Main components
15
3.3
Ancillary Equipment
18
12
13
14
3.4
Auxiliary Equipment
18
3.5
EUT Setups
18
3.6
Operating Modes
19
3.7
Product labelling
19
Te st Re su lt s
20
4.1
Conducted Emissions at AC Mains
20
4.2
Occupied Bandwidth (6 dB)
22
4.3
Occupied Bandwidth (99%)
25
4.4
Peak Power Output
27
4.5
Spurious RF Conducted Emissions
30
4.6
Spurious RF Conducted Emissions in Restricted Bands
33
4.7
Transmitter Spurious Radiated Emissions
38
4.8
Band Edge Compliance Conducted
43
4.9
Band Edge Compliance Conducted at Restricted Band
46
4.10 Band Edge Compliance Radiated
49
4.11 Power Density
52
4.12 SIMULTANEOUS TRANSMISSION - SPURIOUS RADIATED EMISSIONS
55
4.13 Duty Cycle
61
Te st Equ ipm e n t
65
An t e n n a Fa ct or s, Ca ble Loss a n d Sa m ple Ca lcu la t ion s
70
6.1
LISN R&S ESH3-Z5 (150 kHz – 30 MHz)
70
6.2
Antenna R&S HFH2-Z2 (9 kHz – 30 MHz)
71
6.3
Antenna R&S HL562 (30 MHz – 1 GHz)
72
6.4
Antenna R&S HF907 (1 GHz – 18 GHz)
73
6.5
Antenna EMCO 3160-09 (18 GHz – 26.5 GHz)
74
6.6
Antenna EMCO 3160-10 (26.5 GHz – 40 GHz)
75
Se t u p D r a w in gs
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
76
Page 2 of 77
8
M e a su r e m e n t Un ce r t a in t ie s
77
Ph ot o Re por t
77
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
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1 Applie d St a n da r ds a n d Te st Su m m a r y
1 .1
Applie d St a n da r ds
Type of Aut h or iza t ion
Certification for an Intentional Radiator.
Applica ble FCC Ru le s
Prepared in accordance with the requirements of FCC Rules and Regulations as listed in 47 CFR
Ch.1 Parts 2 and 15 (10-1-15 Edition). The following subparts are applicable to the results in
this test report.
Part 2, Subpart J - Equipment Authorization Procedures, Certification
Part 15, Subpart C – Intentional Radiators
§ 15.201
Equipment authorization requirement
§ 15.207
Conducted limits
§ 15.209
Radiated emission limits; general requirements
§ 15.247
Operation within the bands 902-928 MHz, 2400-2483.5 MHz
Note 1:
The tests were selected and performed with reference to the FCC Public Notice “Guidance for
Performing Compliance Measurements on Digital Transmission Systems (DTS) Operating Under
§15.247, 558074 D01 DTS Meas Guidance v03r05, 2016-04-08”. ANSI C63.10–2013 is
applied.
Note 2:
The tests were selected and performed with reference to the FCC Public Notice DA 00-705,
released March 30, 2000. Instead of applying ANSI C63.4-1992 which is referenced in the FCC
Public Note, the newer ANSI C63.10-2013 is applied.
Note 3:
The EUT is classified in this test report as DTS-equipment.
Sum m a r y Te st Re su lt s:
Th e EUT com plie d w it h a ll pe r for m e d t e st s a s list e d in ch a pt e r 1 .3 M e a sur e m e n t
Sum m a r y / Sign a t u r e s.
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
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1 .2
FCC- I C Cor r e la t ion Ta ble
Cor r e la t ion of m e a su r e m e n t r e qu ir e m e nt s for
D TS e qu ipm e n t fr om FCC a nd I C
D TS e qu ipm e n t
M e a su r e m e n t
FCC r e fe r e n ce
I C r e fe r e n ce
Conducted emissions on AC Mains
§ 15.207
RSS-Gen Issue 4: 8.8
Occupied bandwidth
§ 15.247 (a) (2)
RSS-247 Issue 1: 5.2 (1)
Peak conducted output power
§ 15.247 (b) (3), (4)
RSS-247 Issue 1: 5.4 (4)
Transmitter spurious RF conducted
emissions
§ 15.247 (d)
RSS-Gen Issue 4: 6.13 / 8.9/8.10;
RSS-247 Issue 1: 5.5
Transmitter spurious radiated
emissions
§ 15.247 (d);
§ 15.209 (a)
RSS-Gen Issue 4: 6.13 / 8.9/8.10;
RSS-247 Issue 1: 5.5
Band edge compliance
§ 15.247 (d)
RSS-247 Issue 1: 5.5
Power density
§ 15.247 (e)
RSS-247 Issue 1: 5.2 (2)
Antenna requirement
§ 15.203 / 15.204
RSS-Gen Issue 4: 8.3
Receiver spurious emissions
–
–
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
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1 .3
M e a sur e m e n t Su m m a r y / Signa t u r e s
4 7 CFR CH APTER I FCC PART 1 5 Subpa r t C
§ 1 5 .2 0 7
§ 1 5 .2 4 7
Conducted Emissions at AC Mains
The measurement was performed according to ANSI C63.10
Fina l Re sult
OP- M ode
Se t up
FCC
IC
DE1015032
ca01
Passed
Passed
Operating mode
worst case
Remark: measured at lab power supply PeakTec
4 7 CFR CH APTER I FCC PART 1 5 Subpa r t C
§ 1 5 .2 4 7 ( a ) ( 2 )
§ 1 5 .2 4 7
Occupied Bandwidth (6 dB)
The measurement was performed according to ANSI C63.10
Fina l Re sult
OP- M ode
Se t up
FCC
IC
DE1015032
da01
Passed
Passed
DE1015032
da01
Passed
Passed
DE1015032
da01
Passed
Passed
DE1015032
da01
Passed
Passed
DE1015032
da01
Passed
Passed
DE1015032
da01
Passed
Passed
DE1015032
da01
Passed
Passed
DE1015032
da01
Passed
Passed
DE1015032
da01
Passed
Passed
Radio Technology, Operating Frequency
Bluetooth BDR, high
Remark: -
Bluetooth BDR, low
Remark: -
Bluetooth BDR, mid
Remark: -
Bluetooth EDR 2, high
Remark: -
Bluetooth EDR 2, low
Remark: -
Bluetooth EDR 2, mid
Remark: -
Bluetooth EDR 3, high
Remark: -
Bluetooth EDR 3, low
Remark: -
Bluetooth EDR 3, mid
Remark: -
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 6 of 77
4 7 CFR CH APTER I FCC PART 1 5 Subpa r t C
§ 1 5 .2 4 7
Occupied Bandwidth (99%)
The measurement was performed according to ANSI C63.10
Fina l Re sult
OP- M ode
Se t up
FCC
IC
Bluetooth BDR, high
DE1015032
db01
N/A
Tested
DE1015032
db01
N/A
Tested
DE1015032
db01
N/A
Tested
DE1015032
db01
N/A
Tested
DE1015032
db01
N/A
Tested
DE1015032
db01
N/A
Tested
DE1015032
db01
N/A
Tested
DE1015032
db01
N/A
Tested
DE1015032
db01
N/A
Tested
Remark: -
Bluetooth BDR, low
Remark: -
Bluetooth BDR, mid
Remark: -
Bluetooth EDR 2, high
Remark: -
Bluetooth EDR 2, low
Remark: -
Bluetooth EDR 2, mid
Remark: -
Bluetooth EDR 3, high
Remark: -
Bluetooth EDR 3, low
Remark: -
Bluetooth EDR 3, mid
Remark: -
Remark: No applicable limit. Measurement results for information purpose.
4 7 CFR CH APTER I FCC PART 1 5 Subpa r t C
§ 1 5 .2 4 7 ( b) ( 1 )
§ 1 5 .2 4 7
Peak Power Output
The measurement was performed according to ANSI C63.10
Fina l Re sult
OP- M ode
Se t up
FCC
IC
DE1015032
da01
Passed
Passed
DE1015032
da01
Passed
Passed
DE1015032
da01
Passed
Passed
DE1015032
da01
Passed
Passed
DE1015032
da01
Passed
Passed
DE1015032
da01
Passed
Passed
DE1015032
da01
Passed
Passed
DE1015032
da01
Passed
Passed
DE1015032
da01
Passed
Passed
Radio Technology, Operating Frequency, Measurement method
Bluetooth BDR, high, conducted
Remark: -
Bluetooth BDR, low, conducted
Remark: -
Bluetooth BDR, mid, conducted
Remark: -
Bluetooth EDR 2, high, conducted
Remark: -
Bluetooth EDR 2, low, conducted
Remark: -
Bluetooth EDR 2, mid, conducted
Remark: -
Bluetooth EDR 3, high, conducted
Remark: -
Bluetooth EDR 3, low, conducted
Remark: -
Bluetooth EDR 3, mid, conducted
Remark: -
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 7 of 77
4 7 CFR CH APTER I FCC PART 1 5 Subpa r t C
§ 1 5 .2 4 7 ( d)
§ 1 5 .2 4 7
Spurious RF Conducted Emissions
The measurement was performed according to ANSI C63.10
OP- M ode
Fina l Re sult
Se t up
FCC
IC
DE1015032
da01
Passed
Passed
DE1015032
da01
Passed
Passed
DE1015032
da01
Passed
Passed
DE1015032
da01
Passed
Passed
DE1015032
da01
Passed
Passed
DE1015032
da01
Passed
Passed
DE1015032
da01
Passed
Passed
DE1015032
da01
Passed
Passed
DE1015032
da01
Passed
Passed
Radio Technology, Operating Frequency
Bluetooth BDR, high
Remark: noise floor
Bluetooth BDR, low
Remark: noise floor
Bluetooth BDR, mid
Remark: noise floor
Bluetooth EDR 2, high
Remark: noise floor
Bluetooth EDR 2, low
Remark: noise floor
Bluetooth EDR 2, mid
Remark: noise floor
Bluetooth EDR 3, high
Remark: noise floor
Bluetooth EDR 3, low
Remark: noise floor
Bluetooth EDR 3, mid
Remark: noise floor
4 7 CFR CH APTER I FCC PART 1 5 Subpa r t C
§ 1 5 .2 4 7 ( d)
§ 1 5 .2 4 7
Spurious RF Conducted Emissions in restricted bands
The measurement was performed according to ANSI C63.10
Fina l Re sult
OP- M ode
Se t up
FCC
IC
DE1015032
db01
Passed
Passed
DE1015032
db01
Passed
Passed
DE1015032
db01
Passed
Passed
DE1015032
db01
Passed
Passed
DE1015032
db01
Passed
Passed
DE1015032
db01
Passed
Passed
DE1015032
db01
Passed
Passed
DE1015032
db01
Passed
Passed
DE1015032
db01
Passed
Passed
Radio Technology, Operating Frequency, Measurement range
Bluetooth BDR, high, 1 GHz - 24 GHz
Remark: conducted measurements in restricted bands
Bluetooth BDR, high, 30 MHz - 1 GHz
Remark: conducted measurements in restricted bands
Bluetooth BDR, low, 1 GHz - 24 GHz
Remark: conducted measurements in restricted bands
Bluetooth BDR, low, 30 MHz - 1 GHz
Remark: conducted measurements in restricted bands
Bluetooth BDR, mid, 1 GHz - 24 GHz
Remark: conducted measurements in restricted bands
Bluetooth BDR, mid, 30 MHz - 1 GHz
Remark: conducted measurements in restricted bands
Bluetooth EDR 2, high, 1 GHz - 24 GHz
Remark: conducted measurements in restricted bands
Bluetooth EDR 2, low, 1 GHz - 24 GHz
Remark: conducted measurements in restricted bands
Bluetooth EDR 2, mid, 1 GHz - 24 GHz
Remark: conducted measurements in restricted bands
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 8 of 77
4 7 CFR CH APTER I FCC PART 1 5 Subpa r t C
§ 1 5 .2 4 7 ( d)
§ 1 5 .2 4 7
Transmitter Spurious Radiated Emissions
The measurement was performed according to ANSI C63.10
OP- M ode
Fina l Re sult
Se t up
FCC
IC
DE1015032
ca01
Passed
Passed
DE1015032
ca01
Passed
Passed
DE1015032
ca01
Passed
Passed
DE1015032
ca01
Passed
Passed
DE1015032
ca01
Passed
Passed
DE1015032
ca01
Passed
Passed
DE1015032
ca01
Passed
Passed
DE1015032
ca01
Passed
Passed
DE1015032
ca01
Passed
Passed
DE1015032
ca01
Passed
Passed
Radio Technology, Operating Frequency, Measurement range
Bluetooth BDR, high, 1 GHz - 24 GHz
Remark: noise floor
Bluetooth BDR, high, 30 MHz - 1 GHz
Remark: noise floor
Bluetooth BDR, low, 1 GHz - 24 GHz
Remark: noise floor
Bluetooth BDR, low, 30 MHz - 1 GHz
Remark: noise floor
Bluetooth BDR, mid, 1 GHz - 24 GHz
Remark: noise floor
Bluetooth BDR, mid, 30 MHz - 1 GHz
Remark: noise floor
Bluetooth BDR, mid, 9 kHz - 30 MHz
Remark: noise floor
Bluetooth EDR 2, high, 1 GHz - 8 GHz
Remark: noise floor
Bluetooth EDR 2, low, 1 GHz - 8 GHz
Remark: noise floor
Bluetooth EDR 2, mid, 1 GHz - 8 GHz
Remark: noise floor
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 9 of 77
4 7 CFR CH APTER I FCC PART 1 5 Subpa r t C
§ 1 5 .2 4 7 ( d)
§ 1 5 .2 4 7
Band Edge Compliance Conducted
The measurement was performed according to ANSI C63.10
OP- M ode
Fina l Re sult
Se t up
FCC
IC
DE1015032
da01
Passed
Passed
DE1015032
da01
Passed
Passed
DE1015032
da01
Passed
Passed
DE1015032
da01
Passed
Passed
DE1015032
da01
Passed
Passed
DE1015032
da01
Passed
Passed
DE1015032
da01
Passed
Passed
DE1015032
da01
Passed
Passed
DE1015032
da01
Passed
Passed
DE1015032
da01
Passed
Passed
DE1015032
da01
Passed
Passed
DE1015032
da01
Passed
Passed
Radio Technology, Operating Frequency, Band Edge
Bluetooth BDR, high, high
Remark: -
Bluetooth BDR, hopping, high
Remark: -
Bluetooth BDR, hopping, low
Remark: -
Bluetooth BDR, low, low
Remark: -
Bluetooth EDR 2, high, high
Remark: -
Bluetooth EDR 2, hopping, high
Remark: -
Bluetooth EDR 2, hopping, low
Remark: -
Bluetooth EDR 2, low, low
Remark: -
Bluetooth EDR 3, high, high
Remark: -
Bluetooth EDR 3, hopping, high
Remark: -
Bluetooth EDR 3, hopping, low
Remark: -
Bluetooth EDR 3, low, low
Remark: -
4 7 CFR CH APTER I FCC PART 1 5 Subpa r t C
§ 1 5 .2 4 7 ( d)
§ 1 5 .2 4 7
Band Edge Compliance Conducted at Restricted Band
The measurement was performed according to ANSI C63.10
Fina l Re sult
OP- M ode
Se t up
FCC
IC
DE1015032
db01
Passed
Passed
DE1015032
db01
Passed
Passed
DE1015032
db01
Passed
Passed
Radio Technology, Operating Frequency, Band Edge
Bluetooth BDR, high, high
Remark: -
Bluetooth EDR 2, high, high
Remark: -
Bluetooth EDR 3, high, high
Remark: -
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 10 of 77
4 7 CFR CH APTER I FCC PART 1 5 Subpa r t C
§ 1 5 .2 4 7 ( d)
§ 1 5 .2 4 7
Band Edge Compliance Radiated
The measurement was performed according to ANSI C63.10
OP- M ode
Fina l Re sult
Se t up
FCC
IC
DE1015032
ca01
Passed
Passed
DE1015032
ca01
Passed
Passed
DE1015032
ca01
Passed
Passed
Radio Technology, Operating Frequency, Band Edge
Bluetooth BDR, high, high
Remark: -
Bluetooth EDR 2, high, high
Remark: -
Bluetooth EDR 3, high, high
Remark: -
4 7 CFR CH APTER I FCC PART 1 5 Subpa r t C
§ 1 5 .2 4 7 ( e )
§ 1 5 .2 4 7
Power Density
The measurement was performed according to ANSI C63.10
OP- M ode
Fina l Re sult
Se t up
FCC
IC
DE1015032
da01
Passed
Passed
DE1015032
da01
Passed
Passed
DE1015032
da01
Passed
Passed
DE1015032
da01
Passed
Passed
DE1015032
da01
Passed
Passed
DE1015032
da01
Passed
Passed
DE1015032
da01
Passed
Passed
DE1015032
da01
Passed
Passed
DE1015032
da01
Passed
Passed
Radio Technology, Operating Frequency
Bluetooth BDR, high
Remark: -
Bluetooth BDR, low
Remark: -
Bluetooth BDR, mid
Remark: -
Bluetooth EDR 2, high
Remark: -
Bluetooth EDR 2, low
Remark: -
Bluetooth EDR 2, mid
Remark: -
Bluetooth EDR 3, high
Remark: -
Bluetooth EDR 3, low
Remark: -
Bluetooth EDR 3, mid
Remark: -
4 7 CFR CH APTER I FCC PART 1 5 Subpa r t C
§ 1 5 .2 4 7 ( d)
§ 1 5 .2 4 7
Simultaneous Transmission - Spurious Radiated Emissions
The measurement was performed according to ANSI C63.10
Fina l Re sult
OP- M ode
Se t up
FCC
IC
DE1015032
cb01
Passed
Passed
Active Transmitters
NFC + Bluetooth BDR + WLAN 5 GHz
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 11 of 77
4 7 CFR CH APTER I FCC PART 1 5 Subpa r t C
§ 1 5 .2 4 7 ( d)
§ 1 5 .2 4 7
Duty Cycle
The measurement was performed according to ANSI C63.10
OP- M ode
Fina l Re sult
Se t up
FCC
IC
DE1015032
db01
Tested
Tested
DE1015032
db01
Tested
Tested
DE1015032
db01
Tested
Tested
Radio Technology, Operating Frequency
Bluetooth BDR, low
Remark: measured to calculate the duty cycle correction factor
Bluetooth EDR 2, low
Remark: measured to calculate the duty cycle correction factor
Bluetooth EDR 3, low
Remark: measured to calculate the duty cycle correction factor
WOLFGANG PETER
RICHTER
2016.09.02 11:54:13
+02'00'
MARCO KULLIK
2016.09.02
13:56:04 +02'00'
1 .4
(responsible for accreditation scope)
(responsible for testing and report)
Mr. Marco Kullik
Mr. Wolfgang Richter
Re vision H ist or y
Re por t ve r sion con t r ol
Ve r sion
initial
Rev_1
Re le a se
da t e
2016-07-07
2016-09-31
Ch a n ge D e scr ipt ion
--
3.1: EUT description changed for clarification from “test
vehicle” to “evaluation board”,
3.2: Sample cb01 added,
3.6: Duty cycle information added,
4.2.3: 6 dB Bandwidth values rounded also to one decimal
digit for 2-DH1 and 3-DH1
4.6: Spurious RF Conducted Emissions re-measured from
30 MHz to 1 GHz with other test system and other setting
to improve dynamic (lower noise floor)
4.12: Chapter Simultaneous Transmission added
4.13: Chapter Duty Cycle added
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Ve r sion
va lidit y
invalid
valid
Page 12 of 77
2 Adm in ist r a t ive D a t a
2 .1
Te st ing La bor a t or y
Company Name:
7layers GmbH
Address:
Borsigstr. 11
40880 Ratingen
Germany
This facility has been fully described in a report submitted to the FCC and accepted under
the registration number 96716.
This facility has been fully described in a report submitted to the IC and accepted under the
registration number: Site# 3699A-1.
The test facility is also accredited by the following accreditation organisation:
Laboratory accreditation no:
DAkkS D-PL-12140-01-01
Responsible for accreditation scope:
Mr. Marco Kullik
Report Template Version:
2016-05-12
2 .2
Pr oj e ct D a t a
Responsible for testing and report:
Mr. Wolfgang Richter
Employees who performed the tests:
documented internally at 7Layers
Date of Report:
2016-09-02
Testing Period:
2015-12-16 to 2016-08-19
2 .3
Applica n t D a t a
Company Name:
u-blox AG
Address:
Zürcherstrasse 68
8800 Thalwil
Switzerland
Contact Person:
Mr. Giulio Comar
2 .4
M a nufa ct ur e r D a t a
Company Name:
please see applicant data
Address:
Contact Person:
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 13 of 77
3 Te st obj e ct D a t a
3 .1
Ge n e r a l EUT D e scr ipt ion
Kind of Device
product description
WLAN 2.4 GHz, 5 GHz, BT, NFC, SRD (5.8 GHz)
Product name
Host-based multiradio module with Wi-Fi, Bluetooth and NFC
Type
EMMY-W163
D e cla r e d EUT da t a by t h e supplie r
Voltage Type
Voltage Level
DC
normal: 3,3 V DC
low: 3,0 V DC
high: 3,6 V DC
Tested Modulation Type
GFSK, pi/4-DQPSK, 8DPSK
General product
description
EMMY-W161 and EMMY-W163 are ultra-compact multi-radio modules
providing Wi-Fi, Classic Bluetooth, Bluetooth low energy and NFC
mode of operation.
It is designed for both simultaneous and independent operations of:
• Wi-Fi IEEE 802.11ac and a/b/g/n
• Dual-mode Bluetooth 4.2
• NFC
Specific product
description for the EUT
EMMY-W163: Shielded module, separate antenna pins for WLAN
802.11 ac/a/b/g/n and Bluetooth communication
The EUT provides the
following ports:
- DC power supply
- antenna ports (WLAN, Bluetooth, NFC)
- signal ports
Tested Bluetooth modes BDR, BT GFSK (1-DH1)
BDR, BT GFSK (1-DH5)
EDR 2, BT pi/4 DQPSK (2-DH1)
EDR 3, BT 8-DPSK (3-DH1)
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 14 of 77
3 .2
EUT M a in com pon e n t s
Sa m ple N a m e
DE1015032ca01
Sa m ple Code
ca01
Sa m ple Pa r a m e t e r
Integral Antenna 1
(WLAN)
Serial No.
HW Version
SW Version
Comment
Va lu e
Antenna on evaluation board (target platform):
Antenova, Type A10194, SMD chip antenna, 1.8 dBi Peak gain in
2.4 GHz band, 4.1 dBi Peak gain in 5 GHz band
Antenna on evaluation board (target platform):
Johanson Technology, Type 2450AT45A100 [2], SMD chip antenna
9.5x2x1.2 [mm] , 2.2 dBi Peak gain in 2.4 GHz band
03
N/A
Sa m ple N a m e
DE1015032cb01
Sa m ple Code
cb01
Sa m ple Pa r a m e t e r
Integral Antenna 1
(WLAN)
Va lu e
Antenna on evaluation board (target platform):
Antenova, Type A10194, SMD chip antenna, 1.8 dBi Peak gain in
2.4 GHz band, 4.1 dBi Peak gain in 5 GHz band
Antenna on evaluation board (target platform):
Johanson Technology, Type 2450AT45A100 [2], SMD chip antenna
9.5x2x1.2 [mm] , 2.2 dBi Peak gain in 2.4 GHz band
03
N/A
Integral Antenna 2
(Bluetooth)
Integral Antenna 2
(Bluetooth)
Serial No.
HW Version
SW Version
Comment
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
D e scr ipt ion
Radiated Sample "#3"
D e scr ipt ion
Radiated Sample "#3a"
Page 15 of 77
Sa m ple N a m e
DE1015032da01
Sa m ple Code
da01
Sa m ple Pa r a m e t e r
Antenna connector 1
(WLAN)
Va lu e
Antenna connector on evaluation board (target platform):
The following antennas are designated for 2.4 and 5 GHz WLAN
transmission on EMMY-W163, as well as Bluetooth on EMMY-W161 Table 2 of Test Object Specification:
Antenna connector 2
(Bluetooth)
Antenna connector on evaluation board (target platform):
The following antennas are designated for Bluetooth transmission
on EMMY-W163.
- Table 3 of Test Object Specification:
Serial No.
HW Version
SW Version
Comment
03
N/A
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
D e scr ipt ion
Conducted Sample "#4"
Page 16 of 77
Sa m ple N a m e
DE1015032db01
Sa m ple Code
db01
D e scr ipt ion
Conducted Sample "#4a"
Sa m ple Pa r a m e t e r
Antenna connector 1
(WLAN)
Va lu e
Antenna connector on evaluation board (target platform):
The following antennas are designated for 2.4 and 5 GHz WLAN
transmission on EMMY-W163, as well as Bluetooth on EMMY-W161.
- Table 2 of Test Object Specification:
Antenna connector 2
(Bluetooth)
Antenna connector on evaluation board (target platform):
The following antennas are designated for Bluetooth transmission
on EMMY-W163.
- Table 3 of Test Object Specification:
Serial No.
HW Version
SW Version
Comment
03
N/A
NOTE:The short description is used to simplify the identification of the EUT in this test report.
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 17 of 77
3 .3
An cilla r y Equ ipm e nt
For the purposes of this test report, ancillary equipment is defined as equipment which is used
in conjunction with the EUT to provide operational and control features to the EUT. It is
necessary to configure the system in a typical fashion, as a customer would normally use it.
But nevertheless Ancillary Equipment can influence the test results.
D e vice
D e t a ils
( M a nu fa ct u r e r , Type M ode l, OUT
Code )
D e scr ipt ion
target platform
u-blox , 03, -, -
u-blox EVB-W16
3 .4
Au x ilia r y Equ ipm e nt
For the purposes of this test report, auxiliary equipment is defined as equipment which is used
temporarily to enable operational and control features especially used for the tests of the EUT
which is not used during normal operation or equipment that is used during the tests in
combination with the EUT but is not subject of this test report. It is necessary to configure the
system in a typical fashion, as a customer would normally use it.
But nevertheless Auxiliary Equipment can influence the test results.
D e vice
D e t a ils
( M a nu fa ct u r e r , H W , SW , S/ N )
D e scr ipt ion
AC/DC power supply
(115 V 60 Hz)
PeakTech, -, -, 081062045
PeakTech 6005D
3 .5
EUT Se t u ps
This chapter describes the combination of EUTs and equipment used for testing. The rationale
for selecting the EUTs, ancillary and auxiliary equipment and interconnecting cables, is to test
a representative configuration meeting the requirements of the referenced standards.
Se t u p
DE1015032ca01
DE1015032cb01
DE1015032da01
DE1015032db01
Com bin a t ion of EUTs
DE1015032ca01,
evaluation board,
AC/DC power supply
DE1015032cb01,
evaluation board,
AC/DC power supply
DE1015032da01,
evaluation board,
AC/DC power supply
DE1015032db01,
evaluation board,
AC/DC power supply
D e scr ipt ion a n d Ra t ion a le
Setup for radiated measurement
Setup for radiated measurement
Setup for conducted measurement
Setup for conducted measurement
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 18 of 77
3 .6
Ope r a t ing M ode s
This chapter describes the operating modes of the EUTs used for testing.
BT Te st Cha n ne ls:
Ch a n n e l:
Fr e que ncy [ M H z]
2 .4 GH z I SM
2 4 0 0 - 2 4 8 3 .5 M H z
low
m id
h igh
39
78
2402
2441
2480
Bluetooth Power Class 1
Duty Cycle = 33,9 %
3 .7
Pr odu ct la be lling
3 .7 .1 FCC I D la be l
Please refer to the documentation of the applicant.
3 .7 .2 Loca t ion of t h e la be l on t he EUT
Please refer to the documentation of the applicant.
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 19 of 77
4 Te st Re su lt s
4 .1
Condu ct e d Em ission s a t AC M a in s
Standard
FCC Pa r t 1 5 Subpa r t C
Th e t e st w a s pe r for m e d a ccor din g t o:
ANSI C63.10
4 .1 .1 Te st D e scr ipt ion
The test set-up was made in accordance to the general provisions of ANSI C 63.10.
The Equipment Under Test (EUT) was setup in a shielded room to perform the conducted
emissions measurements in a typical installation configuration. The EUT was powered from
50µH || 50 Ohm Line Impedance Stabilization Network (LISN). The LISN’s unused connections
were terminated with 50 Ohm loads.
The measurement procedure consists of two steps. It is implemented into the EMI test
software EMC-32 from R&S.
St e p 1 : Pr e lim ina r y sca n
Intention of this step is, to determine the conducted EMI-profile of the EUT.
EMI receiver settings:
- Detector: Peak – Maxhold & Average
- Frequency range: 150 kHz – 30 MHz
- Frequency steps: 2.5 kHz
- IF–Bandwidth: 9 kHz
- Measuring time / Frequency step: 100 ms (FFT-based)
- Measurement on phase + neutral lines of the power cords
On basis of this preliminary scan the highest amplitudes and the corresponding frequencies
relative to the limit are identified. Emissions above the limit and emissions which are in the 10
dB range below the limit are considered.
St e p 2 : Fina l m e a su r e m e n t
Intention of this step is, to determine the highest emissions with the settings defined in the
test specification for the frequencies identified in step 1.
EMI receiver settings:
- Detector: Quasi-Peak
- IF Bandwidth: 9 kHz
- Measuring time: 1 s / frequency
At each frequency determined in step 1, four measurements are performed in the following
combinations:
1) Neutral lead - reference ground (PE grounded)
2) Phase lead - reference ground (PE grounded)
3) Neutral lead - reference ground (PE floating)
4) Phase lead - reference ground (PE floating)
The highest value is reported.
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 20 of 77
4 .1 .2 Te st Re qu ir e m e n t s / Lim it s
FCC Part 15, Subpart C, §15.207
Frequency Range (MHz)
QP Limit (dBµV)
AV Limit (dBµV)
0.15 – 0.5
66 to 56
56 to 46
0.5 – 5
56
46
5 – 30
60
50
Used conversion factor: Limit (dBµV) = 20 log (Limit (µV)/1µV).
4 .1 .3 Te st Pr ot ocol
Temperature:
Air Pressure:
Humidity:
Pow e r lin e
24 °C
992 hPa
34 %
Fr e qu e n cy
[ M H z]
M e a su r e d
va lue QP
[ dBµ V]
M e a su r e d
va lue AV
[ dBµ V]
QP
Lim it
[ dBµ V]
AV
Lim it
[ dBµ V]
M a r gin
QP [ dB]
M a r gin
AV [ dB]
> 20
> 20
> 20
> 20
Remark: Measured at 120 V 60 Hz input of lab power supply, BT BDR, CH39, WLAN 5 GHz CH149
4 .1 .4 M e a sur e m e n t Plot ( sh ow in g t he h ighe st va lu e , “w or st ca se ”)
80
70
Limit_15_207_QP
Level in dBµV
60
Limit_15_207_AV
50
40
30
20
10
150k
300 400 500
800 1M
2M
3M 4M 5M 6
8 10M
20M
30M
Frequency in Hz
4 .1 .5 Te st Equ ipm e n t u se d
Conducted Emissions
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 21 of 77
4 .2
Occu pie d Ba n dw idt h ( 6 dB)
Standard
FCC Pa r t 1 5 Subpa r t C
Th e t e st w a s pe r for m e d a ccor din g t o:
ANSI C63.10
4 .2 .1 Te st D e scr ipt ion
The Equipment Under Test (EUT) was set up to perform the occupied bandwidth
measurements.
The reference level is the level of the highest amplitude signal observed from the transmitter
at either the fundamental frequency or first-order modulation products in all typical modes of
operation, including the unmodulated carrier, even if atypical.
The results recorded were measured with the modulation which produces the worst-case
(smallest) emission bandwidth.
The EUT was connected to spectrum analyzer via a short coax cable with a known loss.
Analyzer settings:
Resolution Bandwidth (RBW): 100 kHz
Video Bandwidth (VBW): 300 kHz
Span: 3 MHz
Trace: Maxhold
Sweeps: 2000
Sweep time: 5 ms (auto couple)
Detector: Peak
4 .2 .2 Te st Re qu ir e m e n t s / Lim it s
FCC Part 15, Subpart C, §15.247 (a) (2)
Systems using digital modulation techniques may operate in the 902-928 MHz and 24002483.5 MHz bands. The minimum 6 dB bandwidth shall be at least 500 kHz.
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 22 of 77
4 .2 .3 Te st Pr ot ocol
Ambient
temperature:
Air Pressure:
Humidity:
BT GFSK (1-DH1)
Ba n d
23°C
1017 hPa
41%
Ch a n n e l
N o.
39
78
Fr e qu e n cy
[ M H z]
2402,0
2441,0
2480,0
6 dB Ba n dw idt h
[ kHz]
511,0
505,0
511,0
Lim it
[ kHz]
500,0
500,0
500,0
M a r gin t o Lim it
[ kHz]
11,0
5 ,0
11,0
BT π/4 DQPSK (2-DH1)
Ba n d
Ch a n n e l
N o.
2.4 GHz ISM
39
78
Fr e qu e n cy
[ M H z]
2402,0
2441,0
2480,0
6 dB Ba n dw idt h
[ kHz]
576,2
576,2
576,2
Lim it
[ kHz]
500,0
500,0
500,0
M a r gin t o Lim it
[ kHz]
76,2
76,2
76,2
BT 8-DPSK (3-DH1)
Ba n d
Ch a n n e l
N o.
2.4 GHz ISM
39
78
Fr e qu e n cy
[ M H z]
2402,0
2441,0
2480,0
6 dB Ba n dw idt h
[ kHz]
582,2
576,2
576,2
Lim it
[ kHz]
500,0
500,0
500,0
M a r gin t o Lim it
[ kHz]
82,2
76,2
76,2
2.4 GHz ISM
Remark: -
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 23 of 77
4 .2 .4 M e a sur e m e n t Plot ( sh ow in g t he h ighe st va lu e , “w or st ca se ”)
Delta 3 [T1]
Ref Lvl
20 dBm
-6.17 dB
420.84168337 kHz
RBW
100 kHz
VBW
300 kHz
SWT
5 ms
RF Att
Unit
30 dB
dBm
20
2.7 dB Offset
1 [T1]
10
3 [T1]
-6.17 dB
420.84168337 kHz
2 [T1]
2.44082866 GHz
9.36 dBm
-6.05 dB
-84.16833668 kHz
-10
1MAX
1MA
-20
EXT
-30
-40
-50
-60
-70
-80
Center 2.441 GHz
Date:
20.MAY.2016
300 kHz/
Span 3 MHz
11:12:22
4 .2 .5 Te st Equ ipm e n t u se d
Regulatory Bluetooth RF Test Solution
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 24 of 77
4 .3
Occu pie d Ba n dw idt h ( 9 9 % )
Standard
FCC Pa r t 1 5 Subpa r t C
Th e t e st w a s pe r for m e d a ccor din g t o:
ANSI C63.10
4 .3 .1 Te st D e scr ipt ion
The Equipment Under Test (EUT) was set up to perform the occupied bandwidth
measurements.
The reference level is the level of the highest amplitude signal observed from the transmitter
at either the fundamental frequency or first-order modulation products in all typical modes of
operation, including the unmodulated carrier, even if atypical.
The EUT was connected to spectrum analyzer via a short coax cable with a known loss.
Analyzer settings:
Resolution Bandwidth (RBW): 30 kHz
Video Bandwidth (VBW): 100 kHz
Span: 3 MHz
Trace: Maxhold
Sweeps: 2000
Sweep time: 8,5 ms
Detector: Sample
The 99 % measurement function of the spectrum analyser function was used to determine the
99 % bandwidth.
4 .3 .2 Te st Re qu ir e m e n t s / Lim it s
No applicable limit. Measurement results for information purpose.
4 .3 .3 Te st Pr ot ocol
BT GFSK (1-DH1)
Ba n d
2.4 GHz ISM
Ch a n n e l N o.
39
78
Fr e qu e n cy [ M H z]
2402,0
2441,0
2480,0
9 9 % Ba n dw idt h [ k H z]
820,5
824,9
829,2
BT pi/4 DQPSK (2-DH1)
Ba n d
Ch a n n e l N o.
2.4 GHz ISM
39
78
Fr e qu e n cy [ M H z]
2402,0
2441,0
2480,0
9 9 % Ba n dw idt h [ k H z]
1154,8
1 1 5 4 ,8
1154,8
BT 8-DPSK (3-DH1)
Ba n d
Ch a n n e l N o.
2.4 GHz ISM
39
78
Fr e qu e n cy [ M H z]
2402,0
2441,0
2480,0
9 9 % Ba n dw idt h [ k H z]
1154,8
1107,1
1154,8
Remark: -
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 25 of 77
4 .3 .4 M e a sur e m e n t Plot ( sh ow in g t he h ighe st va lu e )
Operating Conditions:
Bluetooth EDR 2, mid
4 .3 .5 Te st Equ ipm e n t u se d
R&S TS8997
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 26 of 77
4 .4
Pe a k Pow e r Ou t pu t
Standard
FCC Pa r t 1 5 Subpa r t C
Th e t e st w a s pe r for m e d a ccor din g t o:
ANSI C63.10
4 .4 .1 Te st D e scr ipt ion
The Equipment Under Test (EUT) was set up to perform the output power measurements. The
results recorded were measured with the modulation which produces the worst-case (highest)
output power. The reference level of the spectrum analyzer was set higher than the output
power of the EUT.
The EUT was connected to the spectrum analyzer via a short coax cable with a known loss.
Analyzer settings:
Resolution Bandwidth (RBW): 3 MHz
Video Bandwidth (VBW): 3 MHz
Trace: Maxhold
Sweeps: 2000
Sweep time: 5 ms
Detector: Peak
4 .4 .2 Te st Re qu ir e m e n t s / Lim it s
D TS de vice s:
FCC Part 15, Subpart C, §15.247 (b) (3)
For systems using digital modulation techniques in the 902-928 MHz, 2400-2483.5 MHz and
5725-5850 MHz bands: 1 watt.
==> Maximum conducted peak output power: 30 dBm (excluding antenna gain, if antennas
with directional gains that do not exceed 6 dBi are used).
Used conversion factor: Limit (dBm) = 10 log (Limit (W)/1mW)
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 27 of 77
4 .4 .3 Te st Pr ot ocol
Ambient
temperature:
Air Pressure:
Humidity:
BT GFSK (1-DH1)
Ba n d
23°C
1017 hPa
41 %
Ch a n n e l
N o.
39
78
Fr e qu e n cy
[ M H z]
2402,0
2441,0
2480,0
Pe a k Pow e r
[ dBm ]
1 1 ,1
10,9
11,0
Lim it
[ dBm ]
30,0
30,0
30,0
M a r gin t o Lim it
[ dB]
1 8 ,9
19,1
19,0
BT pi/4 DQPSK (2-DH1)
Ba n d
Ch a n n e l
N o.
2.4 GHz ISM
39
78
Fr e qu e n cy
[ M H z]
2402,0
2441,0
2480,0
Pe a k Pow e r
[ dBm ]
10,1
10,0
10,0
Lim it
[ dBm ]
30,0
30,0
30,0
M a r gin t o Lim it
[ dB]
19,9
20,0
20,0
Fr e qu e n cy
[ M H z]
2402,0
2441,0
2480,0
Pe a k Pow e r
[ dBm ]
10,1
10,0
10,1
Lim it
[ dBm ]
30,0
30,0
30,0
M a r gin t o Lim it
[ dB]
19,9
20,0
19,9
2.4 GHz ISM
BT 8-DPSK (3DH1)
Ba n d
2.4 GHz ISM
Ch a n n e l
N o.
39
78
Remark: -
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 28 of 77
4 .4 .4 M e a sur e m e n t Plot ( sh ow in g t he h ighe st va lu e , “w or st ca se ”)
Operating Conditions:
Bluetooth BDR, low
4 .4 .5 Te st Equ ipm e n t u se d
REGULATORY BLUETOOTH RF TEST SOLUTION
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 29 of 77
4 .5
Spu r ious RF Con du ct e d Em ission s
Standard
FCC Pa r t 1 5 Subpa r t C
Th e t e st w a s pe r for m e d a ccor din g t o:
ANSI C63.10
4 .5 .1 Te st D e scr ipt ion
The Equipment Under Test (EUT) was set up to perform the spurious emissions measurements.
The EUT was connected to spectrum analyzer via a short coax cable with a known loss.
Analyzer settings:
Frequency range: 30 – 25000 MHz
Resolution Bandwidth (RBW): 100 kHz
Video Bandwidth (VBW): 300 kHz
Trace: Maxhold
Sweeps: 2
Sweep Time: 330 s
Detector: Peak
The reference value for the measurement of the spurious RF conducted emissions is
determined during the test “band edge compliance conducted”. This value is used to calculate
the 20 dBc limit.
4 .5 .2 Te st Re qu ir e m e n t s / Lim it s
FCC Part 15, Subpart C, §15.247 (c)
In any 100 kHz bandwidth outside the frequency band in which the spread spectrum
intentional radiator is operating, the radio frequency power that is produced by the intentional
radiator shall be at least 20 dB below that in the 100 kHz bandwidth within the band that
contains the highest level of the desired power, based on either an RF conducted or a radiated
measurement, provided the transmitter demonstrates compliance with the peak conducted
power limits. If the transmitter complies with the conducted power limits based on the use of
RMS averaging over a time interval, as permitted under paragraph (b)(3) of this section, the
attenuation required under this paragraph shall be 30 dB instead of 20 dB.
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 30 of 77
4 .5 .3 Te st Pr ot ocol
Ambient temperature:
Air Pressure:
Humidity:
BT GFSK (1-DH1)
Ch a n n e l
Ch a n n e l
No
Ce n t e r
Fr e q.
[ M H z]
2402,0
39
2441,0
78
2480,0
BT pi/4 DQPSK (2-DH1)
Ch a n n e l
Ch a n n e l
No
Ce n t e r
Fr e q.
[ M H z]
2402,0
39
2441,0
78
2480,0
BT 8-DPSK (3-DH1)
Ch a n n e l
Ch a n n e l
No
Ce n t e r
Fr e q.
[ M H z]
2402,0
39
2441,0
78
2480,0
23 °C
1002 hPa
39 %
Spu r iou s
Fr e q.
[ M H z]
Spu r iou s
Le ve l
[ dBm ]
D e t e ct or
RBW
[ kHz]
Re f.
Le ve l
[ dBm ]
Lim it
[ dBm ]
M a r gin
t o Lim it
[ dB]
PEAK
PEAK
PEAK
100,0
100,0
100,0
10,9
10,6
10,8
-9,1
-9,4
-9,2
> 20
> 20
> 20
Spu r iou s
Fr e q.
[ M H z]
Spu r iou s
Le ve l
[ dBm ]
D e t e ct or
RBW
[ kHz]
Re f.
Le ve l
[ dBm ]
Lim it
[ dBm ]
M a r gin
t o Lim it
[ dB]
PEAK
PEAK
PEAK
100,0
100,0
100,0
8,1
7,9
7,9
-11,9
-12,1
-12,1
> 20
> 20
> 20
Spu r iou s
Fr e q.
[ M H z]
Spu r iou s
Le ve l
[ dBm ]
D e t e ct or
RBW
[ kHz]
Re f.
Le ve l
[ dBm ]
Lim it
[ dBm ]
M a r gin
t o Lim it
[ dB]
PEAK
PEAK
PEAK
100,0
100,0
100,0
7,9
7,8
7,8
-12,1
- 1 2 ,2
-12,2
> 20
> 20
> 20
Remark: -
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 31 of 77
4 .5 .4 M e a sur e m e n t Plot ( sh ow in g t he h ighe st va lu e , “w or st ca se ”)
Operating Conditions:
Bluetooth EDR 3, mid
4 .5 .5 Te st Equ ipm e n t u se d
REGULATORY BLUETOOTH RF TEST SOLUTION
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 32 of 77
4 .6
Spu r ious RF Con du ct e d Em ission s in Re st r ict e d Ba n ds
Standard
FCC Pa r t 1 5 Subpa r t C
Th e t e st w a s pe r for m e d a ccor din g t o:
ANSI C63.10
4 .6 .1 Te st D e scr ipt ion
The Equipment Under Test (EUT) was set up to perform the conducted spurious emissions
measurements. The antenna port of the EUT was connected to spectrum analyzer via a short
coax cable with a known cable loss CL. The measured voltage Umeas at the 50 Ohm input of the
analyser was used to calculate the EUT output power at the antenna port:
P = Umeas + CL – 107
where
P is the output power in dBm
Umeas is the measured voltage at the 50 Ohm input of the analyzer in dBµV
CL is the cable loss of the used cable.
The maximum transmit isotropically antenna gain Gi (in dBi) was added to the measured
output power P to determine the equivalent isotropically radiated power EIRP.
EIRP = P + Gi
where
P is the output power in dBm
Gi is maximum transmit antenna gain in dBi.
The resultant EIRP level was converted to an equivalent electric filed strength using the
following relationship:
E = EIRP - 20 log d + 104.8
where
E is the electric field strength in dBµV/m
EIRP is the equivalent isotropically radiated power in dBm
d is the specified measurement distance in m.
The appropriate maximum ground reflection factor was added to the EIRP:
6 dB for frequencies ≤ 30 MHz;
4.7 dB for frequencies between 30 MHz and 1000 MHz, inclusive; and
0 dB for frequencies > 1000 MHz).
Frequency range
[MHz]
0,009 – 0,49
0,49 – 30
30 – 1000
>1000
measurement
distance d
[m]
300
30
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
-20 log d
[dB]
-49,54
-29,54
-9,54
-9,54
ground reflection
factor
[dB]
4,7
Page 33 of 77
1 . M e a su r e m e n t u p t o 3 0 M H z
St e p 1 : pre measurement
This is a preliminary test to identify the highest amplitudes relative to the limit.
Detector: Peak-Maxhold/ Quasipeak (FFT-based)
Frequency range: 0.009 - 0.15 MHz and 0.15 – 30 MHz
Frequency steps: 0.05 kHz and 2.25 kHz
IF–Bandwidth: 0.2 kHz and 9 kHz
Measuring time / Frequency step: 100 ms (FFT-based)
Intention of this step is, to determine the EMI-profile of the EUT. Afterwards the relevant
emissions for the final measurement are identified.
St e p 2 : final measurement
EMI receiver settings:
Detector: Peak / Average / Quasi-Peak (depending on frequency)
Frequency range: 0.009 – 30 MHz
Frequency steps: measurement at frequencies detected in step 1
IF–Bandwidth: 0.2 - 10 kHz (depending on frequency)
Measuring time / Frequency step: 1 s
2 . M e a su r e m e n t a bove 3 0 M H z a n d u p t o 1 GH z
St e p 1 : pre measurement
This is a preliminary test to identify the highest amplitudes relative to the limit.
Settings:
 Detector: Peak-Maxhold / Quasipeak (FFT-based)
 Frequency range: 30 – 1000 MHz
 Frequency steps: 30 kHz
 IF–Bandwidth: 120 kHz
 Measuring time / Frequency step: 100 ms
St e p 2 : final measurement
EMI receiver settings:
 Detector: Quasi-Peak (< 1 GHz)
 Measured frequencies: in step 1 determined frequencies
 IF – Bandwidth: 120 kHz
 Measuring time: 1 s
3 . M e a sur e m e nt a bove 1 GH z
St e p 1 : pre measurement
Settings:
 Detector: Peak, Average
 IF Bandwidth = 1 MHz
St e p 2 : final measurement
Spectrum analyzer settings:
 Detector: Peak / Average
 Measured frequencies: in step 1 determined frequencies
 IF – Bandwidth: 1 MHz
 Measuring time: 1 s
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 34 of 77
4 .6 .2 Te st Re qu ir e m e n t s / Lim it s
FCC Part 15, Subpart C, §15.247 (d)
... In addition, radiated emissions which fall in the restricted bands, as defined in Section
15.205(a), must also comply with the radiated emission limits specified in Section 15.209(a)
(see Section 15.205(c)).
FCC Part 15, Subpart C, §15.209, Radiated Emission Limits
Frequency in MHz
Limit (µV/m)
0.009 – 0.49
0.49 – 1.705
1.705 – 30
2400/F(kHz)@300m
24000/F(kHz)@30m
30@30m
Frequency in MHz
Limit (µV/m)
30 – 88
88 – 216
216 – 960
960 - 26000
26000 - 40000
100@3m
150@3m
200@3m
500@3m
500@3m
Measurement distance
(m)
Measurement distance
(m)
Limits (dBµV/m)
(48,5 – 13,8)@300m
(33,8 – 23,0)@30m
29,5@30m
Limits (dBµV/m)
40,0@3m
43,5@3m
46,0@3m
54,0@3m
54,0@3m
§15.35(b) ..., there is also a limit on the radio frequency emissions, as measured using
instrumentation with a peak detector function, corresponding to 20 dB above the maximum
permitted average limit....
Used conversion factor: Limit (dBµV/m) = 20 log (Limit (µV/m)/1µV/m)
4 .6 .3 Te st Pr ot ocol
Ambient
temperature:
Air Pressure:
Humidity:
BT GFSK (1-DH1)
Ch .
Ch .
N o.
Ce n t e r
Fr e q.
[ M H z]
2402,0
39
2441,0
78
2480,0
21–25 °C
1002–1020 hPa
38–45 %
Spu r iou s
Fr e q.
[ M H z]
Spu r iou s
Le ve l
[ dBµ V/ m ]
D e t e ct or
RBW
[ kHz]
Lim it
[ dBµ V/ m ]
M a r gin
t o Lim it
[ dB]
Lim it
Type
4803,77
4882,2
2487,86
53,9
52,8
43,5
AV
AV
AV
1000
1000
1000
54,0
54,0
54,0
0 ,1
1,2
10,5
RB
RB
RB
Spu r iou s
Le ve l
[ dBµ V/ m ]
D e t e ct or
RBW
[ kHz]
Lim it
[ dBµ V/ m ]
M a r gin
t o Lim it
[ dB]
Lim it
Type
49,8
47,9
46,8
AV
AV
AV
1000
1000
1000
54,0
54,0
54,0
4,2
6,1
7,2
RB
RB
RB
BT pi/4 DQPSK (2-DH1)
Spu r iou s
Ch .
Ch .
Fr e q.
N o.
Ce n t e r
[ M H z]
Fr e q.
[ M H z]
2402,0
4804,2
39
2441,0
4882,42
78
2480,0
4960,42
Remark:
Duty cycle = 30,9 %, applied duty cycle correction for AV-Detector: 10,2 dB
No duty cycle correction used for AV-Detector for noise floor of test system.
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 35 of 77
4 .6 .4 M e a sur e m e n t Plot ( sh ow in g t he h ighe st va lu e , “w or st ca se ”)
Operating Conditions:
BT 1-DH1 CH0
130
120
Level in dBµV/m
100
80
60
FCC_15.209_QP
40
20
30M
50
60
80
100M
200
300
400
500
800
1G
Frequency in Hz
Fin a l_ Re su lt
Frequency
(MHz)
QuasiPeak
(dBµV/m)
Limit
(dBµV/m)
Margin
(dB)
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Meas.
Time
(ms)
Bandwidth
(kHz)
Corr.
(dB)
Comment
Noise floor
Page 36 of 77
Operating Conditions:
BT 1-DH1 CH0
120
100
Level in dBµV/m
80
FCC_15.247_PEAK
60
FCC_15.247
40
20
1G
2G
3G
4G
5G
10G
24G
Frequency in Hz
120
Level in dBµV/m
100
80
60
40
20
2300
2350
2400
2450
2500
Frequency in MHz
Fin a l_ Re su lt
Frequency
(MHz)
2337,920000
2337,920000
2364,613333
2364,613333
4 8 0 3 ,7 6 6 6 6 7
4803,766667
MaxPeak
(dBµV/m)
55,43
--57,23
----56,21
CAverage
(dBµV/m)
Limit
(dBµV/m)
--35,32
--30,16
4 3 ,7 1
---
74,00
54,00
74,00
54,00
5 4 ,0 0
74,00
Margin
(dB)
18,57
18,68
16,77
23,84
1 0 ,2 9
17,79
Meas.
Time
(ms)
1000,0
1000,0
1000,0
1000,0
1 0 0 0 ,0
1000,0
Bandwidth
(kHz)
1000,000
1000,000
1000,000
1000,000
1 0 0 0 ,0 0 0
1000,000
Corr.
(dB)
-5,8
-5,8
-5,8
-5,8
- 5 ,8
-5,8
Comment
add +10,2 dB
add +10,2 dB
a dd + 1 0 ,2 dB
4 .6 .5 Te st Equ ipm e n t u se d
Radiated Emissions
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 37 of 77
4 .7
Tr a n sm it t e r Spu r iou s Ra dia t e d Em ission s
Standard
FCC Pa r t 1 5 Subpa r t C
Th e t e st w a s pe r for m e d a ccor din g t o:
ANSI C63.10
4 .7 .1 Te st D e scr ipt ion
The test set-up was made in accordance to the general provisions of ANSI C63.10 in a typical
installation configuration. The Equipment Under Test (EUT) was set up on a non-conductive
table 1.0 x 2.0 m² in the semi-anechoic chamber. The influence of the EUT support table that
is used between 30–1000 MHz was evaluated.
The measurement procedure is implemented into the EMI test software EMC32 from R&S.
Exploratory tests are performed at 3 orthogonal axes to determine the worst-case orientation
of a body-worn or handheld EUT. The final test on all kind of EUTs is also performed at 3 axes.
A pre-check is performed while the EUT is powered from a DC power source.
1 . M e a su r e m e n t u p t o 3 0 M H z
The Loop antenna HFH2-Z2 is used.
St e p 1 : pre measurement
Anechoic chamber
Antenna distance: 3 m
Detector: Peak-Maxhold
Frequency range: 0.009 - 0.15 MHz and 0.15 – 30 MHz
Frequency steps: 0.05 kHz and 2.25 kHz
IF–Bandwidth: 0.2 kHz and 9 kHz
Measuring time / Frequency step: 100 ms (FFT-based)
Intention of this step is, to determine the radiated EMI-profile of the EUT. Afterwards the
relevant emissions for the final measurement are identified.
St e p 2 : final measurement
For the relevant emissions determined in step 1, an additional measurement with the following
settings will be performed. Intention of this step is to find the maximum emission level.
Open area test side
Antenna distance: according to the Standard
Detector: Quasi-Peak
Frequency range: 0.009 – 30 MHz
Frequency steps: measurement at frequencies detected in step 1
IF–Bandwidth: 0.2 - 10 kHz
Measuring time / Frequency step: 1 s
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 38 of 77
2 . M e a su r e m e n t a bove 3 0 M H z a n d u p t o 1 GH z
St e p 1 : Preliminary scan
This is a preliminary test to identify the highest amplitudes relative to the limit.
Settings for step 1:
- Antenna distance: 3 m
- Detector: Peak-Maxhold / Quasipeak (FFT-based)
- Frequency range: 30 – 1000 MHz
- Frequency steps: 30 kHz
- IF–Bandwidth: 120 kHz
- Measuring time / Frequency step: 100 ms
- Turntable angle range: –180° to 90°
- Turntable step size: 90°
- Height variation range: 1 – 3 m
- Height variation step size: 2 m
- Polarisation: Horizontal + Vertical
Intention of this step is, to determine the radiated EMI-profile of the EUT. Afterwards the
relevant emissions for the final measurement are identified.
St e p 2 : Adjustment measurement
In this step the accuracy of the turntable azimuth and antenna height will be improved. This is
necessary to find out the maximum value of every frequency.
For each frequency, which was determined the turntable azimuth and antenna height will be
adjusted. The turntable azimuth will slowly vary by ± 45° around this value. During this action,
the value of emission is continuously measured. The turntable azimuth at the highest emission
will be recorded and adjusted. In this position, the antenna height will also slowly vary by ±
100 cm around the antenna height determined. During this action, the value of emission is
also continuously measured. The antenna height of the highest emission will also be recorded
and adjusted.
- Detector: Peak – Maxhold
- Measured frequencies: in step 1 determined frequencies
- IF – Bandwidth: 120 kHz
- Measuring time: 100 ms
- Turntable angle range: ± 45 ° around the determined value
- Height variation range: ± 100 cm around the determined value
- Antenna Polarisation: max. value determined in step 1
St e p 3 : Final measurement with QP detector
With the settings determined in step 3, the final measurement will be performed:
EMI receiver settings for step 4:
- Detector: Quasi-Peak (< 1 GHz)
- Measured frequencies: in step 1 determined frequencies
- IF – Bandwidth: 120 kHz
- Measuring time: 1 s
After the measurement a plot will be generated this contains a diagram with the results of the
preliminary scan and a chart with the frequencies and values of the results of the final
measurement.
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 39 of 77
3 . M e a sur e m e nt a bove 1 GH z
The following modifications apply to the measurement procedure for the frequency range
above 1 GHz:
St e p 1 :
The Equipment Under Test (EUT) was set up on a non-conductive support (tilt device) at 1.5 m
height in the fully-anechoic chamber.
All steps were performed with one height (1.5 m) of the receiving antenna only.
The EUT is turned during the preliminary measurement across the elevation axis, with a step
size of 90 °.
The turn table step size (azimuth angle) for the preliminary measurement is 45 °.
St e p 2 :
Due to the fact, that in this frequency range the test is performed in a fully anechoic room, the
height scan of the receiving antenna instep 2 is omitted. Instead of this, a maximum search
with a step size ± 45° for the elevation axis is performed.
The turn table azimuth will slowly vary by ± 22.5°.
The elevation angle will slowly vary by ± 45°
EMI receiver settings (for all steps):
- Detector: Peak, Average
- IF Bandwidth = 1 MHz
St e p 3 :
Spectrum analyser settings for step 3:
- Detector: Peak / Average
- Measured frequencies: in step 1 determined frequencies
- IF – Bandwidth: 1 MHz
- Measuring time: 1 s
4 .7 .2 Te st Re qu ir e m e n t s / Lim it s
FCC Part 15, Subpart C, §15.247 (d)
... In addition, radiated emissions which fall in the restricted bands, as defined in Section
15.205(a), must also comply with the radiated emission limits specified in Section 15.209(a)
(see Section 15.205(c)).
FCC Part 15, Subpart C, §15.209, Radiated Emission Limits
Frequency in MHz
Limit (µV/m)
0.009 – 0,49
0,49 – 1,705
1,705 – 30
2400/F(kHz)@300m
24000/F(kHz)@30m
30@30m
Measurement distance
(m)
Limits (dBµV/m)
(48,5 – 13,8)@300m
(33,8 – 23,0)@30m
29,5@30m
The measured values are corrected with an inverse linear distance extrapolation factor
(40 dB/decade) according FCC 15.31 (2).
Frequency in MHz
Limit (µV/m)
30 – 88
88 – 216
216 – 960
960 - 26000
26000 - 40000
100@3m
150@3m
200@3m
500@3m
500@3m
Measurement distance
(m)
Limits (dBµV/m)
40,0@3m
43,5@3m
46,0@3m
54,0@3m
54,0@3m
The measured values above 26 GHz are corrected with an inverse linear distance extrapolation
factor (20 dB/decade).
§15.35(b) ..., there is also a limit on the radio frequency emissions, as measured using
instrumentation with a peak detector function, corresponding to 20 dB above the maximum
permitted average limit....
Used conversion factor: Limit (dBµV/m) = 20 log (Limit (µV/m)/1µV/m)
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 40 of 77
4 .7 .3 Te st Pr ot ocol
Ambient
temperature:
Air Pressure:
Humidity:
BT GFSK (1-DH1)
Ch .
Ch .
N o.
Ce n t e r
Fr e q.
[ M H z]
2402,0
39
2441,0
78
2480,0
21–25 °C
1002–1020 hPa
38–45 %
Spu r iou s
Fr e q.
[ M H z]
Spu r iou s
Le ve l
[ dBµ V/ m ]
D e t e ct or
RBW
[ kHz]
Lim it
[ dBµ V/ m ]
M a r gin
t o Lim it
[ dB]
Lim it
Type
noise
noise
noise
-------
>9
>9
>9
RB
RB
RB
Spu r iou s
Le ve l
[ dBµ V/ m ]
D e t e ct or
RBW
[ kHz]
Lim it
[ dBµ V/ m ]
M a r gin
t o Lim it
[ dB]
Lim it
Type
noise
noise
noise
-------
>9
>9
>9
RB
RB
RB
BT pi/4 DQPSK (2-DH1)
Spu r iou s
Ch .
Ch .
Fr e q.
N o.
Ce n t e r
[ M H z]
Fr e q.
[ M H z]
2402,0
39
2441,0
78
2480,0
Remark: No duty cycle correction used for AV-Detector for noise floor of test system.
4 .7 .4 M e a sur e m e n t Plot ( sh ow in g t he h ighe st va lu e , “w or st ca se ”)
Operating Conditions:
Bluetooth BDR, mid
70
60
50
40
FCC_15.209_Peak@300m_9kHz-490kHz
FCC_15.209_QP@300m@30m_90kHz-30
30
Level in dBµV/m
20
FCC_15.209_AV@300m_9kHz-490kHz
10
-10
-20
-30
-40
-50
-60
-70
90k
200
300
400 500
800 1M
2M
3M
4M 5M 6
10M
25.67M
Frequency in Hz
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 41 of 77
Operating Conditions:
Bluetooth BDR, low
65
60
FCC_15.247
Level in dBµV/m
50
40
30
20
10
37.5M
50
60
80
100M
200
300
400
500
800
1G
Frequency in Hz
80
FCC_15.247_PEAK
70
60
Level in dBµV/m
FCC_15.247
50
40
30
20
10
1G
2G
3G
4G
5G
10G
24G
Frequency in Hz
4 .7 .5 Te st Equ ipm e n t u se d
Radiated Emissions
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 42 of 77
4 .8
Ba n d Edge Com plia nce Con du ct e d
Standard
FCC Pa r t 1 5 Subpa r t C
Th e t e st w a s pe r for m e d a ccor din g t o:
ANSI C63.10
4 .8 .1 Te st D e scr ipt ion
For the conducted measurement, the Equipment Under Test (EUT) is placed in a shielded
room. The reference power was measured in the test case “Spurious RF Conducted Emissions”.
The EUT was connected to the spectrum analyzer via a short coax cable with a known loss.
Analyzer settings:
Frequency Range: Band Edge frequency +/- 3 MHz
Detector: Peak
Resolution Bandwidth (RBW): 100 kHz
Video Bandwidth (VBW): 300 kHz
Sweep time: 5 ms
Sweeps: 1000
Trace: Maxhold
4 .8 .2 Te st Re qu ir e m e n t s / Lim it s
FCC Part 15.247 (d)
“In any 100 kHz bandwidth outside the frequency band in which the spread spectrum or
digitally modulated intentional radiator is operating, the radio frequency power that is
produced by the intentional radiator shall be at least 20 dB below that in the 100 kHz
bandwidth within the band that contains the highest level of the desired power, based on
either an RF conducted or a radiated measurement, provided the transmitter demonstrates
compliance with the peak conducted power limits. ...
If the transmitter complies with the conducted power limits based on the use of RMS averaging
over a time interval, as permitted under paragraph (b)(3) of this section, the attenuation
required under this paragraph shall be 30 dB instead of 20 dB. Attenuation below the general
limits specified in Section 15.209(a) is not required. In addition, radiated emissions which fall
in the restricted bands, as defined in Section 15.205(a), must also comply with the radiated
emission limits specified in Section 15.209(a) (see Section 15.205(c)).”
For the conducted measurement the RF power at the band edge shall be “at least 20 dB below
that in the 100 kHz bandwidth within the band that contains the highest level of the desired
power...”
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 43 of 77
4 .8 .3 Te st Pr ot ocol
Ambient temperature:
Air Pressure:
Humidity:
BT GFSK (1-DH1)
Ch a n n e l
Ch a n n e l
N o.
Ce n t e r
Fr e qu e n cy
[ M H z]
2402,0
78
2480,0
hopping
hopping
hopping
hopping
23°C
1017 hPa
41 %
Ba n d
Edge
Fr e q.
[ M H z]
2400,0
2483,5
2400,0
2483,5
BT pi/4 DQPSK (2-DH1)
Ch a n n e l
Ch a n n e l
N o.
Ce n t e r
Fr e qu e n cy
[ M H z]
2402,0
78
2480,0
hopping
hopping
hopping
hopping
Ba n d
Edge
Fr e q.
[ M H z]
2400,0
2483,5
2400,0
2483,5
BT 8-DPSK (3-DH1)
Ch a n n e l
Ch a n n e l
N o.
Ce n t e r
Fr e qu e n cy
[ M H z]
2402,0
78
2480,0
hopping
hopping
hopping
hopping
Ba n d
Edge
Fr e q.
[ M H z]
2400,0
2483,5
2400,0
2483,5
Spu r iou s
Le ve l
[ dBm ]
D e t e ct or
RBW
[ kHz]
Re f.
Le ve l
[ dBm ]
Lim it
[ dBµ V/ m ]
-43,3
-43,1
-52,4
-51,6
PEAK
PEAK
PEAK
PEAK
100,0
100,0
100,0
100,0
11,1
11,1
9,6
9,6
-8,9
-9,9
-10,4
-10,4
Spu r iou s
Le ve l
[ dBm ]
D e t e ct or
RBW
[ kHz]
Re f.
Le ve l
[ dBm ]
Lim it
[ dBm ]
-42,5
-43,5
-47,4
-53,5
PEAK
PEAK
PEAK
PEAK
100,0
100,0
100,0
100,0
8,1
8,0
6,8
6,7
-11,9
-12,0
-13,2
-13,3
Spu r iou s
Le ve l
[ dBm ]
D e t e ct or
RBW
[ kHz]
Re f.
Le ve l
[ dBm ]
Lim it
[ dBm ]
-41,1
-43,2
-47,0
-53,2
PEAK
PEAK
PEAK
PEAK
100,0
100,0
100,0
100,0
8,0
7,9
6,7
6,5
-12,0
-12,1
-13,3
-13,5
M a r gin
to
Lim it
[ dB]
34,4
34,2
42,0
41,2
M a r gin
to
Lim it
[ dB]
30,6
31,5
34,2
40,2
M a r gin
to
Lim it
[ dB]
2 9 ,1
31,1
33,7
39,7
Remark: Please see next sub-clause for the measurement plot.
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 44 of 77
4 .8 .4 M e a sur e m e n t Plot ( sh ow in g t he h ighe st va lu e , “w or st ca se ”)
BT GFSK (3-DH1)
4 .8 .5 Te st Equ ipm e n t u se d
REGULATORY BLUETOOTH RF TEST SOLUTION
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 45 of 77
4 .9
Ba n d Edge Com plia nce Con du ct e d a t Re st r ict e d Ba nd
Standard
FCC Pa r t 1 5 Subpa r t C
Th e t e st w a s pe r for m e d a ccor din g t o:
ANSI C63.10
4 .9 .1 Te st D e scr ipt ion
Please see test description for the test case “Spurious RF Conducted Emissions in restricted
bands”
4 .9 .2 Te st Re qu ir e m e n t s / Lim it s
For band edges connected to a restricted band, the limits are specified in Section 15.209(a)
FCC Part 15, Subpart C, §15.209, Radiated Emission Limits
Frequency in MHz
Limit (µV/m)
0.009 – 0,49
0,49 – 1,705
1,705 – 30
2400/F(kHz)@300m
24000/F(kHz)@30m
30@30m
Frequency in MHz
Limit (µV/m)
30 – 88
88 – 216
216 – 960
960 - 26000
26000 - 40000
100@3m
150@3m
200@3m
500@3m
500@3m
Measurement distance
(m)
Measurement distance
(m)
Limits (dBµV/m)
(48,5 – 13,8)@300m
(33,8 – 23,0)@30m
29,5@30m
Limits (dBµV/m)
40,0@3m
43,5@3m
46,0@3m
54,0@3m
54,0@3m
§15.35(b) ..., there is also a limit on the radio frequency emissions, as measured using
instrumentation with a peak detector function, corresponding to 20 dB above the maximum
permitted average limit....
Used conversion factor: Limit (dBµV/m) = 20 log (Limit (µV/m)/1µV/m)
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 46 of 77
4 .9 .3 Te st Pr ot ocol
Ambient temperature:
21–24 °C
Air Pressure:
985–1007 hPa
Humidity:
39–45 %
BT GFSK (1-DH1)
Spu r iou s
Ba n d
Ch .
Ch .
Le ve l
Edge
N o.
Ce n t e r
[ dBµ V/ m ]
Fr e q.
Fr e q.
[ M H z]
[ M H z]
78
2480,0
2483,5
51,5
78
2480,0
2483,5
42,9
BT pi/4 DQPSK (2-DH1)
Ba n d
Ch .
Ch .
Edge
N o.
Ce n t e r
Fr e q.
Fr e q.
[ M H z]
[ M H z]
78
2480,0
2483,5
78
2480,0
2483,5
BT 8-DPSK (3-DH1)
Ba n d
Ch .
Ch .
Edge
N o.
Ce n t e r
Fr e q.
Fr e q.
[ M H z]
[ M H z]
78
2480,0
2483,5
78
2480,0
2483,5
D e t e ct or
RBW
[ kHz]
Lim it
[ dBµ V/ m ]
M a r gin
t o Lim it
[ dB]
Lim it
Type
PEAK
AV
1000,0
1000,0
74,0
54,0
22,5
11,1
BE
BE
Spu r iou s
Le ve l
[ dBµ V/ m ]
D e t e ct or
RBW
[ kHz]
Lim it
[ dBµ V/ m ]
M a r gin
t o Lim it
[ dB]
Lim it
Type
55,9
44,7
PEAK
AV
1000,0
1000,0
74,0
54,0
18,1
9 ,3
BE
BE
Spu r iou s
Le ve l
[ dBµ V/ m ]
D e t e ct or
RBW
[ kHz]
Lim it
[ dBµ V/ m ]
M a r gin
t o Lim it
[ dB]
Lim it
Type
59,4
41,8
PEAK
AV
1000,0
1000,0
74,0
54,0
1 4 ,6
12,2
BE
BE
Remark: Duty cycle = 30,9 %, applied duty cycle correction for AV-Detector: 10,2 dB
4 .9 .4 M e a sur e m e n t Plot ( sh ow in g t he h ighe st va lu e , “w or st ca se ”)
BT 3-DH1 CH78
120
Level in dBµV/m
100
80
60
FCC_15.247_PEAK
2.483753000 GHz
59.442 dBµV/m
FCC_15.247
40
20
2480
2485
2490
2495
2500
Frequency in MHz
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 47 of 77
BT 2-DH1 CH78
120
Level in dBµV/m
100
80
FCC_15.247_PEAK
2.483566000 GHz
57.283 dBµV/m
60
FCC_15.247
40
20
2480
2485
2490
2495
2500
Frequency in MHz
Fin a l_ Re su lt
Frequency
(MHz)
MaxPeak
(dBµV/m)
2 4 8 3 ,5 0 0 0 0 0
2483,500000
2483,566000
2483,566000
--55,89
--55,82
CAverage
(dBµV/m)
3 4 ,4 6
--34,28
---
Limit
(dBµV/m)
5 4 ,0 0
74,00
54,00
74,00
Margin
(dB)
1 9 ,5 4
18,11
19,72
18,18
Meas.
Time
(ms)
1 0 0 0 ,0
1000,0
1000,0
1000,0
Bandwidth
(kHz)
Corr.
(dB)
1 0 0 0 ,0 0 0
1000,000
1000,000
1000,000
4 .9 .5 Te st Equ ipm e n t u se d
Radiated Emissions
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 48 of 77
- 5 ,8
-5,8
-5,8
-5,8
4 .1 0 Ba n d Edge Com plia nce Ra dia t e d
Standard
FCC Pa r t 1 5 Subpa r t C
Th e t e st w a s pe r for m e d a ccor din g t o:
ANSI C63.10
4 .1 0 .1 Te st D e scr ipt ion
Please see test description for the test case “Spurious Radiated Emissions”
4 .1 0 .2 Te st Re qu ir e m e n t s / Lim it s
For band edges connected to a restricted band, the limits are specified in Section 15.209(a)
FCC Part 15, Subpart C, §15.209, Radiated Emission Limits
Frequency in MHz
Limit (µV/m)
0,009 – 0,49
0,49 – 1,705
1,705 – 30
2400/F(kHz)@300m
24000/F(kHz)@30m
30@30m
Measurement distance
(m)
Limits (dBµV/m)
(48,5 – 13,8)@300m
(33,8 – 23,0)@30m
29,5@30m
The measured values are corrected with an inverse linear distance extrapolation factor
(40 dB/decade) according FCC 15.31 (2).
Frequency in MHz
Limit (µV/m)
30 – 88
88 – 216
216 – 960
960 - 26000
26000 - 40000
100@3m
150@3m
200@3m
500@3m
500@3m
Measurement distance
(m)
Limits (dBµV/m)
40,0@3m
43,5@3m
46,0@3m
54,0@3m
54,0@3m
The measured values above 26 GHz are corrected with an inverse linear distance extrapolation
factor (20 dB/decade).
§15.35(b) ..., there is also a limit on the radio frequency emissions, as measured using
instrumentation with a peak detector function, corresponding to 20 dB above the maximum
permitted average limit....
Used conversion factor: Limit (dBµV/m) = 20 log (Limit (µV/m)/1µV/m)
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 49 of 77
4 .1 0 .3 Te st Pr ot ocol
Ambient temperature:
21–23 °C
Air Pressure:
980–1002 hPa
Humidity:
39–41 %
BT GFSK (1-DH1)
Spu r iou s
Ba n d
Ch .
Ch .
Le ve l
Edge
N o.
Ce n t e r
[ dBµ V/ m ]
Fr e q.
Fr e q.
[ M H z]
[ M H z]
78
2480,0
2483,5
51,7
78
2480,0
2483,5
50,1
BT pi/4 DQPSK (2-DH1)
Ba n d
Ch .
Ch .
Edge
N o.
Ce n t e r
Fr e q.
Fr e q.
[ M H z]
[ M H z]
78
2480,0
2483,5
78
2480,0
2483,5
BT 8-DPSK (3-DH1)
Ba n d
Ch .
Ch .
Edge
N o.
Ce n t e r
Fr e q.
Fr e q.
[ M H z]
[ M H z]
78
2480,0
2483,5
78
2480,0
2483,5
D e t e ct or
RBW
[ kHz]
Lim it
[ dBµ V/ m ]
M a r gin
t o Lim it
[ dB]
Lim it
Type
PEAK
AV
1000,0
1000,0
74,0
54,0
22,3
3,9
BE
BE
Spu r iou s
Le ve l
[ dBµ V/ m ]
D e t e ct or
RBW
[ kHz]
Lim it
[ dBµ V/ m ]
M a r gin
t o Lim it
[ dB]
Lim it
Type
53,1
51,8
PEAK
AV
1000,0
1000,0
74,0
54,0
2 0 ,9
2 ,2
BE
BE
Spu r iou s
Le ve l
[ dBµ V/ m ]
D e t e ct or
RBW
[ kHz]
Lim it
[ dBµ V/ m ]
M a r gin
t o Lim it
[ dB]
Lim it
Type
50,9
50,7
PEAK
AV
1000,0
1000,0
74,0
54,0
23,1
3,3
BE
BE
Remark: Duty cycle = 30,9 %, applied duty cycle correction for AV-Detector: 10,2 dB
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 50 of 77
4 .1 0 .4 M e a sur e m e n t Plot ( sh ow in g t he h ighe st va lu e , “w or st ca se ”)
BT GFSK (2-DH1)
77,6
75
FCC_15.247_PEAK
70
Level in dBµV/m
65
60
55
FCC_15.247
50
45
40
34,1
2479,5
2485
2490
2495
2500
2502
Frequency in MHz
Cr it ica l_ Fr e qs
Frequency
(MHz)
2484,160000
2483,665000
MaxPeak
(dBµV/m)
Average
(dBµV/m)
Limit
(dBµV/m)
Margin
(dB)
54,05
---
--43,77
74,00
54,00
19,95
12,23
MaxPeak
(dBµV/m)
Average
(dBµV/m)
Limit
(dBµV/m)
Margin
(dB)
5 3 ,0 6
---
--4 1 ,6 1
74,00
54,00
20,94
13,39
Meas.
Time
(ms)
-----
Bandwidth
(kHz)
Height
(cm)
-----
150,0
150,0
Pol
Azimuth
(deg)
Elevation
(deg)
19,0
22,0
-12,1
-12,0
Azimuth
(deg)
Elevation
(deg)
19,0
22,0
-12,3
-12,5
Fin a l_ Re su lt
Frequency
(MHz)
2484,160000
2483,665000
Meas,
Time
(ms)
1000,0
1000,0
Bandwidth
(kHz)
Height
(cm)
1000,000
1000,000
150,0
150,0
Pol
4 .1 0 .5 Te st Equ ipm e n t u se d
Radiated Emissions
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 51 of 77
4 .1 1 Pow e r D e nsit y
Standard
FCC Pa r t 1 5 Subpa r t C
Th e t e st w a s pe r for m e d a ccor din g t o:
ANSI C63.10
4 .1 1 .1 Te st D e scr ipt ion
The Equipment Under Test (EUT) was set up in a shielded room to perform the Power Density
measurements.
The results recorded were measured with the modulation which produces the worst-case
(highest) power density.
The EUT was connected to the spectrum analyzer via a short coax cable with a known loss.
Analyzer settings:
Resolution Bandwidth (RBW): 3 kHz
Video Bandwidth (VBW): 10 kHz
Trace: Maxhold
Sweeps: 2000
Sweep time: 420 ms
Detector: Peak
4 .1 1 .2 Te st Re qu ir e m e n t s / Lim it s
FCC Part 15, Subpart C, §15.247 (e)
For digitally modulated systems, the peak power spectral density conducted from the
intentional radiator to the antenna shall not be greater than 8 dBm in any 3 kHz band during
any time interval of continuous transmission.
…
The same method of determining the conducted output power shall be used to determine the
power spectral density.
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 52 of 77
4 .1 1 .3 Te st Pr ot ocol
Ambient temperature:
Air Pressure:
Humidity:
BT GFSK (1-DH1)
Ba n d
Ch a n n e l
N o.
2.4 GHz
ISM
23 °C
1017 hPa
41 %
Fr e qu e n cy
[ M H z]
Pow e r D e n sit y
[ dBm / 3 k H z]
Lim it
[ dBm / 3 k H z]
M a r gin t o Lim it
[ dB]
2402,0
7,7
8,0
0 ,3
39
78
2441,0
2480,0
7,4
7,5
8,0
8,0
0,6
0,5
Ch a n n e l
N o.
Fr e qu e n cy
[ M H z]
Pow e r D e n sit y
[ dBm / 3 k H z]
Lim it
[ dBm / 3 k H z]
M a r gin t o Lim it
[ dB]
2402,0
39
78
2441,0
2480,0
4,6
4,8
8,0
8,0
3,4
3,2
Ch a n n e l
N o.
Fr e qu e n cy
[ M H z]
Pow e r D e n sit y
[ dBm / 3 k H z]
Lim it
[ dBm / 3 k H z]
M a r gin t o Lim it
[ dB]
2402,0
39
78
2441,0
2480,0
BT pi/4 DQPSK (2-DH1)
Ba n d
2.4 GHz
ISM
5,0
8,0
3,0
BT 8-DPSK (3-DH1)
Ba n d
2.4 GHz
ISM
1,7
1,4
1,6
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
8,0
8,0
8,0
6,3
6,6
6,4
Page 53 of 77
4 .1 1 .4 M e a sur e m e n t Plot ( sh ow in g t he h ighe st va lu e , “w or st ca se ”)
Radio Technology = Bluetooth (1-DH1), Operating Frequency = low
RBW
3 kHz
Ref Lvl
Marker 1 [T1]
7.68 dBm
VBW
10 kHz
20 dBm
2.40199850 GHz
SWT
420 ms
RF Att
Unit
30 dB
dBm
20
2.7 dB Offset
10
-10
1MAX
1MA
-20
EXT
-30
-40
-50
-60
-70
-80
Center 2.402 GHz
Date:
20.MAY.2016
150 kHz/
Span 1.5 MHz
12:13:07
4 .1 1 .5 Te st Equ ipm e n t u se d
Regulatory Bluetooth RF Test Solution
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 54 of 77
4 .1 2 SI M ULTAN EOUS TRAN SM I SSI ON - SPURI OUS RAD I ATED EM I SSI ON S
Standard
FCC Pa r t 1 5 Subpa r t C
Th e t e st w a s pe r for m e d a ccor din g t o:
ANSI C63.10
4 .1 2 .1 Te st D e scr ipt ion
Please see test description for the test case “Transmitter Spurious Radiated Emissions”
4 .1 2 .2 Te st Re qu ir e m e n t s / Lim it s
Blu e t oot h:
Please see “Test Requirements / Limits” for the test case “Transmitter Spurious Radiated
Emissions”
Addit ion a l for N FC:
FCC §15.225 (d) The field strength of any emissions appearing outside of the 13.110-14.010
MHz band shall not exceed the general radiated emission limits in §15.209.
Addit ion a l for W LAN 5 GH z:
A) FCC
FCC Part 15 Subpart E, §15.407 (b)(1)
For transmitters operating in the 5150–5250 MHz band:
Limit: –27 dBm/MHz EIRP outside of the band 5150–5350 MHz.
FCC Part 15 Subpart E, §15.407 (b)(2)
For transmitters operating in the 5250–5350 MHz band:
Limit: –27 dBm/MHz EIRP outside of the band 5150–5350 MHz.
FCC Part 15 Subpart E, §15.407 (b)(3)
For transmitters operating in the 5470–5725 MHz band:
Limit: –27 dBm/MHz EIRP outside of the band 5470–5725 MHz.
FCC Part 15 Subpart E, §15.407 (b)(4)
For transmitters operating in the 5725–5850 MHz band:
Limit: –27 dBm/MHz EIRP outside of the band 5715–5860 MHz and additionally
Limit: –17 dBm/MHz EIRP within the frequency ranges 5715–5725 and 5850–5860 MHz.
B) I C
Different frequency bands and limits apply, as compared to the FCC requirements.
RSS-247, 6.2.1 (2), Emissions outside the band 5150-5250 MHz, indoor operation only:
Limit: –27 dBm/MHz EIRP outside of the band 5150–5250 MHz.
RSS-247, 6.2.2 (2), Emissions outside the band 5250-5350 MHz:
Limit: –27 dBm/MHz EIRP outside of the band 5250–5350 MHz.
RSS-247, 6.2.3 (2), Emissions outside the bands 5470-5600 MHz and 5650-5725 MHz:
Limit: –27 dBm/MHz EIRP outside of the band 5470–5725 MHz.
Note: No operation is permitted for the frequency range 5600–5650 MHz.
RSS-247, 6.2.4 (2), Emissions outside the band 5725-5825 MHz:
Limit: –27 dBm/MHz EIRP outside of the band 5715–5835 MHz and additionally
Limit: –17 dBm/MHz EIRP within the frequency ranges 5715–5725 and 5825–5835 MHz.
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 55 of 77
C) FCC & I C
FCC Part 15 Subpart E, §15.405
The provisions of §§ 15.203 and 15.205 are included.
§15.407 (b)(6)
Unwanted emissions below 1 GHz must comply with the general field strength limits set forth
in § 15.209.
§15.407 (b)(7)
The provisions of §15.205 apply to intentional radiators operating under this section
FCC Part 15, Subpart C, §15.209, Radiated Emission Limits
Frequency in MHz
Limit (µV/m)
0,009 – 0,49
0,49 – 1,705
1,705 – 30
2400/F(kHz)@300m
24000/F(kHz)@30m
30@30m
Measurement distance
(m)
Limits (dBµV/m)
(48,5 – 13.8)@300m
(33,8 – 23.0)@30m
29,5@30m
The measured values are corrected with an inverse linear distance extrapolation factor
(40 dB/decade) according FCC 15.31 (2).
Frequency in MHz
Limit (µV/m)
30 – 88
88 – 216
216 – 960
960 - 26000
26000 - 40000
100@3m
150@3m
200@3m
500@3m
500@3m
Measurement distance
(m)
Limits (dBµV/m)
40,0@3m
43,5@3m
46,0@3m
54,0@3m
54,0@3m
The measured values above 26 GHz are corrected with an inverse linear distance extrapolation
factor (20 dB/decade).
§15.35(b) ..., there is also a limit on the radio frequency emissions, as measured using
instrumentation with a peak detector function, corresponding to 20 dB above the maximum
permitted average limit....
Used conversion factor:
Limit (dBµV/m) = 20 log (Limit (µV/m)/1µV/m)
Limit (dBµV/m) = EIRP [dBm] – 20 log (d [m]) + 104.8
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 56 of 77
4 .1 2 .3 Te st Pr ot ocol
Possible simultaneous operating modes
according to applicant’s description
NFC + WLAN 2.4 GHz
NFC + BT
NFC + BT-LE
NFC + WLAN 5 GHz
NFC + BT + WLAN 5 GHz
Ambient temperature:
Air Pressure:
Humidity:
WLAN b-Mode; 20 MHz
M ode / Se t
Ch .
EUT t a r ge t
Ce n t e r
pow e r
Fr e q.
[ M H z]
BT BDR
(DH1, Ch.0) /
max. power
2402,0
WLAN 5 GHz
(a-Mode;
20 MHz;
6 Mbit/s) /
16 dBm
5240,0
NFC in
continuous
modulation
mode
BT BDR
(DH1, Ch.0) /
max. power
13,56
WLAN 5 GHz
(a-Mode;
20 MHz;
6 Mbit/s) /
16 dBm
5240,0
NFC in
continuous
modulation
mode
BT BDR
(DH1, Ch.0) /
max. power
13,56
WLAN 5 GHz
(a-Mode;
20 MHz;
6 Mbit/s) /
16 dBm
5240,0
NFC in
continuous
modulation
mode
13,56
2402,0
2402,0
Remark
Not part of this report
covered from worst case mode:
NFC + BT + WLAN 5 GHz
BT-LE covered from BT
covered from worst case mode:
NFC + BT + WLAN 5 GHz
Worst case operating mode,
Selected worst case operating modes: channels and modes
with highest output power
21–25 °C
1002–1020 hPa
38–45 %
Spu r iou s
Fr e q.
[ M H z]
Spu r iou s Le ve l
[ dBµ V/ m ]
D e t e ct or
RBW
[ kHz]
Lim it
[ dBµ V/ m ]
M a r gin
t o Lim it
[ dB]
0,009 to 30
noise
Peak,
AV
(13,56 MHz
excluded)
> 20
40.68
352,56
33,1
32,8
QP
120
40
46
6,9
13,2
2834,90
15721,025
39,1
44,1
AV
1000
54
54
14,9
9,9
(100 % duty cycle,
no duty cycle
correction
applicable)
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
(CF at
2402 MHz
and
5240 MHz
excluded)
Page 57 of 77
BT BDR
(DH1, Ch.0) /
max. power
2402,0
WLAN 5 GHz
(a-Mode;
20 MHz;
6 Mbit/s) /
16 dBm
5240,0
NFC in
continuous
modulation
mode
13,56
26000 to
40000
noise
Peak,
AV
74
54
> 20
Remark: Please see next sub-clause for the measurement plot.
4 .1 2 .4 M e a sur e m e n t Plot ( sh ow in g t he h ighe st va lu e , “w or st ca se ”)
70
Level in dBµV/m
50
13.560000 MHz
FCC_15.209_Peak@300m_9kHz-490kHz FCC_15.209_QP@300m@30m_90kHz-30MHz
16.455 dBµV/m
FCC_15.209_AV@300m_9kHz-490kHz
99.400 kHz
-31.026 dBµV/m
-50
9k
20 30
50
100k
200 300
500
1M
2M 3M
5M
10M
20 30M
Pol
Azimuth
(deg)
Frequency in Hz
Final_Result
Frequency
(MHz)
QuasiPeak
(dBµV/m)
Limit
(dBµV/m)
Margin
(dB)
Meas.
Time
(ms)
Bandwidth
(kHz)
Height
(cm)
Level in dBµV/m
60
Corr.
(dB)
FCC_15.209_30M-1GHz@3m
40
20
30M
50
60
80 100M
200
300
400
500
800
1G
Frequency in Hz
Final_Result
Frequency
(MHz)
40,680000
352,560000
QuasiPeak
(dBµV/m)
33,09
32,78
Limit
(dBµV/m)
40,00
46,00
Margin
(dB)
6,91
13,22
Meas.
Time
(ms)
1000,0
1000,0
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Bandwidth
(kHz)
120,000
120,000
Height
(cm)
103,0
103,0
Pol
Azimuth
(deg)
Corr.
(dB)
-162,0
-37,0
Page 58 of 77
13,3
15,1
120
110
2.401594000 GHz
106.101 dBµV/m
100
5.238750000 GHz
103.930 dBµV/m
Level in dBµV/m
90
80
FCC_15.407_PEAK_SUB1&2A
70
60
FCC_15.407_AV
50
40
30
20
1G
2G
3G
4G
5G
10G
20G
26G
Frequency in Hz
Critical_Freqs
Frequency
(MHz)
2834,900000
2834,900000
15721,025000
15721,025000
MaxPeak
(dBµV/m)
Average
(dBµV/m)
Limit
(dBµV/m)
Margin
(dB)
63,94
--57,90
---
--52,77
--46,48
74,00
54,00
74,00
54,00
10,06
1,23
16,10
7,52
Meas.
Time
(ms)
---------
Bandwidth
(kHz)
Height
(cm)
Pol
Azimuth
(deg)
Elevation
(deg)
---------
150,0
150,0
150,0
150,0
-125,0
-125,0
-8,0
6,0
74,8
82,8
74,8
95,8
Meas.
Time
(ms)
1000,0
1000,0
1000,0
1000,0
Bandwidth
(kHz)
Height
(cm)
Pol
Azimuth
(deg)
Elevation
1000,000
1000,000
1000,000
1000,000
150,0
150,0
150,0
150,0
-124,0
-124,0
6,0
-8,0
82,9
74,9
95,8
74,8
Final_Result
Frequency
(MHz)
2834,900000
2834,900000
15721,025000
15721,025000
MaxPeak
(dBµV/m)
CAverage
(dBµV/m)
Limit
(dBµV/m)
Margin
(dB)
--55,01
--52,40
39,06
--44,13
---
54,00
74,00
54,00
74,00
14,94
18,99
9,87
21,60
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
(deg)
Page 59 of 77
75
FCC_15.407_PEAK_SUB1&2A
70
65
Level in dBµV/m
60
FCC_15.407_AV
55
50
45
40
35
30
25
26
28
30
32
34
36
38
40
Frequency in GHz
Final_Result
Frequency
(MHz)
QuasiPeak
(dBµV/m)
Limit
(dBµV/m)
Margin
(dB)
Meas.
Time
(ms)
Bandwidth
(kHz)
Height
(cm)
Pol
Azimuth
(deg)
Corr.
(dB)
4 .1 2 .5 Te st Equ ipm e n t u se d
Radiated Emissions
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 60 of 77
4 .1 3 D u t y Cycle
Standard
FCC Pa r t 1 5 Subpa r t C
Th e t e st w a s pe r for m e d a ccor din g t o:
ANSI C63.10 with Zero span mode on a spectrum analyzer
4 .1 3 .1 Te st D e scr ipt ion
The Equipment Under Test (EUT) was set up to perform the duty cycle measurements. The
results recorded were measured at one channel with different modulations. The reference level
of the spectrum analyzer was set higher than the output power of the EUT.
The EUT was connected to the spectrum analyzer via a short coax cable with a known loss.
Analyzer settings:
Center frequency = center of channel frequency
Resolution Bandwidth (RBW) ≥ occupied bandwidth (OBW): 1 MHz
Video Bandwidth (VBW): 3 MHz
Trace: view
Sweeps: 1
Sweep time: 2 ms
Detector: Auto Peak
Trigger Video
Zero Span
4 .1 3 .2 Te st Re qu ir e m e n t s / Lim it s
D TS de vice s:
558074 D01 DTS Meas Guidance:
When continuous transmission cannot be achieved and sweep triggering/signal gating cannot
be implemented, alternate procedures are provided that can be used to measure the average
power; however, they will require an additional measurement of the transmitter duty cycle.
4 .1 3 .3 Sa m ple ca lcu la t ion
ton is the “on time” = delta marker D1 = 386 µs
T is the period of the pulse train = delta marker D2 = 1,25 ms = 1250 µs
Duty cycle = ton / T = 386 µs / 1250 µs = 0,3088 = 30,9 %
Duty cycle correction factor (applied to field strength) = 20 log (1/duty cycle) = 10,2 dB
The duty cycle correction value is added to the measured AV field strength value:
Measured @ 4803,766667 MHz with CISPR AV detector = 43,71 dBµV/m
Corrected with duty cycle correction factor = 43,7 dBµV/m + 10,2 dB = 53,9 dBµV/m
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 61 of 77
4 .1 3 .4 Te st Pr ot ocol
Ambient
temperature:
Air Pressure:
Humidity:
M odu la t ion
BT GFSK
(1-DH1)
BT pi/4 DQPSK
(2-DH1)
BT 8-DPSK
(3-DH1)
24°C
1018 hPa
46 %
Duty
cycle
[% ]
D u t y cycle
cor r e ct ion fa ct or
[ dB]
30,88
10,2
1,25
30,88
10,2
1,25
30,88
10,2
Fr e qu e n cy
[ M H z]
On t im e
t on
Pe r iod
2402,0
( Marker D1 )
[ µ s]
386
( Marker D2 )
[ m s]
1,25
2402,0
386
2402,0
386
Remark: -
4 .1 3 .5 M e a sur e m e n t Plot
Radio Technology = Bluetooth (1-DH1), Operating Frequency = low
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 62 of 77
Radio Technology = Bluetooth (2-DH1), Operating Frequency = low
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 63 of 77
Radio Technology = Bluetooth (3-DH1), Operating Frequency = low
4 .1 3 .6 Te st Equ ipm e n t u se d
R&S TS8997
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 64 of 77
5 Te st Equ ipm e n t
Condu ct e d Em ission s
Shielded Room 02
Re f.N o. D e vice N a m e
D e scr ipt ion
M a n u fa ct u r e r
Se r ia l N u m be r
La st
Ca libr a t ion
Ca libr a t ion D u e
ESH 3-Z5
Two-Line VNetwork
Rohde & Schwarz
828304/029
2015-03
2017-03
ESR 7
EMI Receiver / Rohde & Schwarz
Spectrum
Analyzer
101424
2014-11
2016-11
EP 1200/B,
NA/B1
Amplifier with
integrated
variable
Oscillator
Spitzenberger &
Spieß
B6278
2015-07
2018-07
ESIB 26
Spectrum
Analyzer
Rohde & Schwarz
830482/004
2015-12
2017-12
Opus10 THI
(8152.00)
ThermoHygro Lufft Mess- und
Datalogger 02 Regeltechnik
(Environ)
GmbH
7489
2015-02
2017-02
ESH 3-Z5
Two-Line VNetwork
829996/002
2015-03
2017-03
Opus10 TPR
(8253.00)
ThermoAirpres Lufft Mess- und
Regeltechnik
sure
Datalogger 13 GmbH
(Environ)
13936
2015-02
2017-02
CMD 55
Digital Radio
Rohde & Schwarz
Communication
Tester
831050/020
2014-12
2017-12
Chroma 6404
AC Power
Source
Chroma ATE INC.
64040001304
CMW 500
CMW 500
Rohde & Schwarz
107500
2015-07
2017-07
Rohde & Schwarz
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 65 of 77
2
Ra dia t e d Em ission s
Lab to perform radiated emission tests
Re f.N o. D e vice N a m e
3160-09
D e scr ipt ion
M a n u fa ct u r e r
Standard Gain EMCO Elektronic
GmbH
/ Pyramidal
Horn Antenna
26.5 GHz
Se r ia l N u m be r
00083069
WHKX 7.0/18G- High Pass Filter Wainwright
8SS
09
5HC3500/1800 High Pass Filter Trilithic
0-1.2-KK
200035008
2015-07
2018-07
2014-11
2016-11
none
2014-01
2017-01
830482/004
2015-12
2017-12
Fully Anechoic
Room
8.80m x 4.60m Albatross Projects P26971-647x 4.05m (l x w
001-PRB
x h)
AM 4.0
Antenna mast Maturo GmbH
AM4.0/180/1192
0513
ESR 7
EMI Receiver / Rohde & Schwarz
Spectrum
Analyzer
101424
TT 1.5 WI
Turn Table
Anechoic
Chamber
10.58 x 6.38 x Frankonia
6.00 m³
ESIB 26
Spectrum
Analyzer
Tilt device
Maturo
(Rohacell)
Antrieb TD1.5- Maturo GmbH
10kg
Maturo GmbH
Rohde & Schwarz
TD1.510kg/024/37907
09
5HC2700/1275 High Pass Filter Trilithic
0-1.5-KK
9942012
AS 620 P
620/37
Antenna mast HD GmbH
La st
Ca libr a t ion
Ca libr a t ion D u e
4HC1600/1275 High Pass Filter Trilithic
0-1.5-KK
9942011
ASP 1.2/1.8-10 Antenna Mast
kg
Maturo GmbH
JS4-18002600- Broadband
32-5P
Amplifier 18
GHz - 26 GHz
Miteq
849785
JS4-00101800- Broadband
35-5P
Amplifier 30
MHz - 18 GHz
Miteq
896037
HL 562
Ultralog new
biconicals
Rohde & Schwarz
GmbH & Co. KG
830547/003
2015-06
2018-06
Opus10 THI
(8152.00)
ThermoHygro Lufft Mess- und
Datalogger 12 Regeltechnik
(Environ)
GmbH
12482
2015-03
2017-03
2014-11
2017-11
JS4-00102600- Broadband
42-5A
Amplifier 30
MHz - 26 GHz
Miteq
619368
HFH2-Z2
Rohde & Schwarz
GmbH & Co. KG
829324/006
Loop Antenna
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 66 of 77
Re f.N o. D e vice N a m e
D e scr ipt ion
M a n u fa ct u r e r
Se r ia l N u m be r
La st
Ca libr a t ion
Ca libr a t ion D u e
FSW 43
Spectrum
Analyzer
Rohde & Schwarz
103779
2014-11
2016-11
Opus10 TPR
(8253.00)
ThermoAirpres Lufft Mess- und
Regeltechnik
sure
Datalogger 13 GmbH
(Environ)
13936
2015-02
2017-02
Chroma 6404
AC Power
Source
64040001304
3160-10
Standard Gain EMCO Elektronik
GmbH
/ Pyramidal
Horn Antenna
40 GHz
2016-04
2019-04
2015-05
2018-05
Chroma ATE INC.
00086675
HL 562 Ultralog Log.-per.
Antenna
Rohde & Schwarz
GmbH & Co. KG
100609
PAS 2.5 - 10 kg Antenna Mast
Maturo GmbH
HF 907
Double-ridged Rohde & Schwarz
horn
GmbH & Co. KG
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
102444
Page 67 of 77
3
Re gu la t or y Blu e t oot h RF Te st Solut ion
Regulatory Bluetooth RF Tests
Re f.N o. D e vice N a m e
D e scr ipt ion
M a n u fa ct u r e r
Se r ia l N u m be r
La st
Ca libr a t ion
Ca libr a t ion D u e
CBT
IL BT RF Test
Solution
Rohde & Schwarz
GmbH & Co. KG
100302
2015-08
2016-08
EX520
Extech Instruments 05157876
Digital
Multimeter 12 Corp
(Multimeter)
2016-02
2018-02
SMIQ03B
Options:
B5
Rohde & Schwarz
GmbH & Co. KG
832870/017
2013-07
2016-07
2016-08
2019-08
B11
B19
B20
B50
Battery Pack
Datum MFS
Rubidium
Frequency
Normal MFS
Datum GmbH
002
2015-08
2016-08
FSIQ26
IL BT RF Test
Solution
Ratingen
Rohde & Schwarz
GmbH & Co. KG
832695/007
2014-08
2016-08
Rohde & Schwarz
GmbH & Co. KG
832025/059
2015-08
2016-08
7 layers, Inc
040107
1119.6001.26
NRVD
Powermeter
TOCT Switching
Unit
Opus10 THI
(8152.00)
T/H Logger 15 Lufft Mess- und
Regeltechnik
GmbH
13985
2015-03
2017-03
NRV Z1 A
Power Sensor
832279/013
2015-08
2016-08
Rohde & Schwarz
GmbH & Co. KG
Ontrak Control
ADU 200 Relay used for
Systems Inc
Box 7
automated
testing (EMMI)
only
A04380
R&S CBT
Bluetooth
Rohde & Schwarz
Signalling Unit
100589
2015-01
2018-01
KWP 120/70
Weiss
Temperature
Chamber Weiss
01
5922601219001 2016-03
2018-03
NGSM 32/10
Power Supply
Rohde & Schwarz
GmbH & Co. KG
2725
2015-06
2017-06
SMP02
Signal
Generator
Rohde & Schwarz
GmbH & Co. KG
829076/017
2013-07
2016-07
2016-08
2019-08
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 68 of 77
4
R& S TS8 9 9 7
EN300328/301893 Test Lab
Re f.N o. D e vice N a m e
D e scr ipt ion
M a n u fa ct u r e r
Se r ia l N u m be r
La st
Ca libr a t ion
Ca libr a t ion D u e
2015-08
2016-08
OSP120
Switching Unit Rohde & Schwarz
with integrated GmbH & Co. KG
power meter
101158
A8455-4
4 Way Power
Divider (SMA)
Opus10 THI
(8152.00)
ThermoHygro Lufft Mess- und
Datalogger 03 Regeltechnik
(Environ)
GmbH
7482
2015-02
2017-02
SMB100A
Signal
Generator 9
kHz - 6 GHz
Rohde & Schwarz
GmbH & Co. KG
107695
2014-06
2017-06
VT 4002
Climatic
Chamber
Vötsch
5856600215001 2016-03
2018-03
FSV30
Signal Analyzer Rohde & Schwarz
10 Hz - 30 GHz
103005
2016-02
2018-02
SMBV100A
Vector Signal
Generator 9
kHz - 6 GHz
259291
2013-08
2016-08
Voltcraft M3860M
Digital
Voltcraft
Multimeter 01
(Multimeter)
1515 / 93459
Broadband
Power Divider
SMA (Aux)
2015-06
2016-06
2016-07
2017-07
Datum, Model: Rubidium
MFS
Frequency
Standard
Rohde & Schwarz
GmbH & Co. KG
IJ096055
Weinschel
Associates
LN673
Datum-Beverly
5489/001
The calibration interval is the time interval between “Last Calibration” and “Calibration Due”
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 69 of 77
6 An t e n n a Fa ct or s, Ca ble Loss a n d Sa m ple Ca lcu la t ion s
This chapter contains the antenna factors with their corresponding path loss of the used
measurement path for all antennas as well as the insertion loss of the LISN.
6 .1
LI SN R& S ESH 3 - Z5 ( 1 5 0 k H z – 3 0 M H z)
Frequency
MHz
0,15
10
12
14
16
18
20
22
24
26
28
30
Corr.
dB
10,1
10,3
10,5
10,5
10,7
10,7
10,8
10,9
10,9
11,1
11,1
11,2
11,2
11,3
LISN
insertion
loss
ESH3Z5
dB
0,1
0,1
0,2
0,2
0,3
0,3
0,4
0,4
0,4
0,5
0,5
0,5
0,5
0,5
cable
loss
(incl. 10
dB
attenuator)
dB
10,0
10,2
10,3
10,3
10,4
10,4
10,4
10,5
10,5
10,6
10,6
10,7
10,7
10,8
Sa m ple ca lcu la t ion
ULISN (dB µV) = U (dB µV) + Corr. (dB)
U = Receiver reading
LISN Insertion loss = Voltage Division Factor of LISN
Corr. = sum of single correction factors of used LISN, cables, switch units (if used)
Linear interpolation will be used for frequencies in between the values in the table.
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 70 of 77
6 .2
An t e n na R& S H FH 2 - Z2 ( 9 k H z – 3 0 M H z)
Frequency
MHz
0,009
0,01
0,015
0,02
0,025
0,03
0,05
0,08
0,1
0,2
0,3
0,49
0,490001
0,5
0,8
10
12
14
16
18
20
22
24
26
28
30
AF
HFH-Z2)
dB (1/m)
20,50
20,45
20,37
20,36
20,38
20,32
20,35
20,30
20,20
20,17
20,14
20,12
20,12
20,11
20,10
20,09
20,08
20,06
20,05
20,05
20,02
19,95
19,83
19,71
19,54
19,53
19,50
19,57
19,61
19,61
19,54
19,46
19,73
Corr.
dB
-79,6
-79,6
-79,6
-79,6
-79,6
-79,6
-79,6
-79,6
-79,6
-79,6
-79,6
-79,6
-39,6
-39,6
-39,6
-39,6
-39,6
-39,6
-39,5
-39,5
-39,5
-39,5
-39,4
-39,4
-39,4
-39,3
-39,3
-39,3
-39,3
-39,3
-39,3
-39,2
-39,1
cable
loss 1
(inside
chamber)
dB
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,2
0,2
0,2
0,2
0,2
0,2
0,2
0,3
0,3
0,3
0,3
0,3
0,3
0,3
0,4
cable
loss 2
(outside
chamber)
dB
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
cable
loss 3
(switch
unit)
dB
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,2
0,2
0,2
0,2
0,2
0,2
0,2
0,2
0,2
0,3
0,3
cable
loss 4
(to
receiver)
dB
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
0,1
distance
corr.
(-40 dB/
decade)
dB
-80
-80
-80
-80
-80
-80
-80
-80
-80
-80
-80
-80
-40
-40
-40
-40
-40
-40
-40
-40
-40
-40
-40
-40
-40
-40
-40
-40
-40
-40
-40
-40
-40
dLimit
(meas.
distance
(limit)
300
300
300
300
300
300
300
300
300
300
300
300
30
30
30
30
30
30
30
30
30
30
30
30
30
30
30
30
30
30
30
30
30
dused
(meas.
distance
(used)
Sa m ple ca lcu la t ion
E (dB µV/m) = U (dB µV) + AF (dB 1/m) + Corr. (dB)
U = Receiver reading
AF = Antenna factor
Corr. = sum of single correction factors of used cables, switch unit, distance correction, amplifier (if applicable)
distance correction = -40 * LOG (dLimit/ dused)
Linear interpolation will be used for frequencies in between the values in the table.
Table shows an extract of values
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 71 of 77
6 .3
An t e n na R& S H L5 6 2 ( 3 0 M H z – 1 GH z)
( d Lim it = 3 m )
Frequency
MHz
30
50
100
150
200
250
300
350
400
450
500
550
600
650
700
750
800
850
900
950
1000
AF
R&S
HL562
dB (1/m)
18,6
6,0
9,7
7,9
7,6
9,5
11,0
12,4
13,6
14,7
15,6
16,3
17,2
18,1
18,5
19,1
19,6
20,1
20,8
21,1
21,6
( d Lim it = 1 0 m )
30
50
100
150
200
250
300
350
400
450
500
550
600
650
700
750
800
850
900
950
1000
18,6
6,0
9,7
7,9
7,6
9,5
11,0
12,4
13,6
14,7
15,6
16,3
17,2
18,1
18,5
19,1
19,6
20,1
20,8
21,1
21,6
Corr.
dB
0,6
0,9
1,2
1,6
1,9
2,1
2,3
2,6
2,9
3,1
3,2
3,5
3,5
3,6
3,6
4,1
4,1
4,4
4,7
4,8
4,9
cable
loss 1
(inside
chamber)
dB
0,29
0,39
0,56
0,73
0,84
0,98
1,04
1,18
1,28
1,39
1,44
1,55
1,59
1,67
1,67
1,87
1,90
1,99
2,14
2,22
2,23
cable
loss 2
(outside
chamber)
dB
0,04
0,09
0,14
0,20
0,21
0,24
0,26
0,31
0,35
0,38
0,39
0,46
0,43
0,34
0,42
0,54
0,46
0,60
0,60
0,60
0,61
cable
loss 3
(switch
unit)
dB
0,23
0,32
0,47
0,59
0,70
0,80
0,89
0,96
1,03
1,11
1,20
1,24
1,29
1,35
1,41
1,46
1,51
1,56
1,63
1,66
1,71
cable
loss 4
(to
receiver)
dB
0,02
0,08
0,08
0,12
0,11
0,13
0,15
0,13
0,19
0,22
0,19
0,23
0,23
0,22
0,15
0,25
0,25
0,27
0,29
0,33
0,30
distance
corr.
(-20 dB/
decade)
dB
0,0
0,0
0,0
0,0
0,0
0,0
0,0
0,0
0,0
0,0
0,0
0,0
0,0
0,0
0,0
0,0
0,0
0,0
0,0
0,0
0,0
dLimit
(meas.
distance
(limit)
dused
(meas.
distance
(used)
-9,9
-9,6
-9,2
-8,8
-8,6
-8,3
-8,1
-7,9
-7,6
-7,4
-7,2
-7,0
-6,9
-6,9
-6,8
-6,3
-6,3
-6,0
-5,8
-5,6
-5,6
0,29
0,39
0,56
0,73
0,84
0,98
1,04
1,18
1,28
1,39
1,44
1,55
1,59
1,67
1,67
1,87
1,90
1,99
2,14
2,22
2,23
0,04
0,09
0,14
0,20
0,21
0,24
0,26
0,31
0,35
0,38
0,39
0,46
0,43
0,34
0,42
0,54
0,46
0,60
0,60
0,60
0,61
0,23
0,32
0,47
0,59
0,70
0,80
0,89
0,96
1,03
1,11
1,20
1,24
1,29
1,35
1,41
1,46
1,51
1,56
1,63
1,66
1,71
0,02
0,08
0,08
0,12
0,11
0,13
0,15
0,13
0,19
0,22
0,19
0,23
0,23
0,22
0,15
0,25
0,25
0,27
0,29
0,33
0,30
-10,5
-10,5
-10,5
-10,5
-10,5
-10,5
-10,5
-10,5
-10,5
-10,5
-10,5
-10,5
-10,5
-10,5
-10,5
-10,5
-10,5
-10,5
-10,5
-10,5
-10,5
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
10
Sa m ple ca lcu la t ion
E (dB µV/m) = U (dB µV) + AF (dB 1/m) + Corr. (dB)
U = Receiver reading
AF = Antenna factor
Corr. = sum of single correction factors of used cables, switch unit, distance correction, amplifier (if applicable)
distance correction = -20 * LOG (dLimit/ dused)
Linear interpolation will be used for frequencies in between the values in the table.
Tables show an extract of values.
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 72 of 77
6 .4
An t e n na R& S H F9 0 7 ( 1 GH z – 1 8 GH z)
Frequency
MHz
1000
2000
3000
4000
5000
6000
7000
Frequency
MHz
3000
4000
5000
6000
7000
Frequency
MHz
7000
8000
9000
10000
11000
12000
13000
14000
15000
16000
17000
18000
AF
R&S
HF907
dB (1/m)
24,4
28,5
31,0
33,1
34,4
34,7
35,6
AF
R&S
HF907
dB (1/m)
31,0
33,1
34,4
34,7
35,6
AF
R&S
HF907
dB (1/m)
35,6
36,3
37,1
37,5
37,5
37,6
38,2
39,9
40,9
41,3
42,8
44,2
Corr.
dB
-19,4
-17,4
-16,1
-14,7
-13,7
-12,7
-11,0
cable
loss 1
(relay +
cable
inside
chamber)
dB
0,99
1,44
1,87
2,41
2,78
2,74
2,82
cable
loss 2
(outside
chamber)
dB
0,31
0,44
0,53
0,67
0,86
0,90
0,86
cable
loss 3
(switch
unit,
attenuator &
pre-amp)
dB
-21,51
-20,63
-19,85
-19,13
-18,71
-17,83
-16,19
cable
loss 4 (to
receiver)
dB
0,79
1,38
1,33
1,31
1,40
1,47
1,46
cable
loss 5 (to
receiver)
dB
1,33
1,31
1,40
1,47
1,46
cable
loss 5
(outside
chamber)
dB
0,94
1,00
1,09
1,20
1,27
1,26
1,32
1,40
1,44
1,51
1,53
1,55
Corr.
dB
-23,4
-23,3
-21,7
-21,2
-19,8
cable
loss 1
(relay
inside
chamber)
dB
0,47
0,56
0,61
0,58
0,66
cable
loss 2
(inside
chamber)
dB
1,87
2,41
2,78
2,74
2,82
cable
loss 3
(outside
chamber)
dB
0,53
0,67
0,86
0,90
0,86
cable
loss 4
(switch
unit,
attenuator &
pre-amp)
dB
-27,58
-28,23
-27,35
-26,89
-25,58
Corr.
dB
-57,3
-56,3
-55,3
-56,2
-55,3
-53,7
-53,5
-56,3
-54,1
-54,1
-54,4
-54,7
cable
loss 1
(relay
inside
chamber)
dB
0,56
0,69
0,68
0,70
0,80
0,84
0,83
0,91
0,98
1,23
1,36
1,70
cable
loss 2
(High
Pass)
dB
1,28
0,71
0,65
0,54
0,61
0,42
0,44
0,53
0,54
0,49
0,76
0,53
cable
loss 3
(preamp)
dB
-62,72
-61,49
-60,80
-61,91
-61,40
-59,70
-59,81
-63,03
-61,05
-61,51
-62,36
-62,88
cable
loss 4
(inside
chamber)
dB
2,66
2,84
3,06
3,28
3,43
3,53
3,75
3,91
4,02
4,17
4,34
4,41
used
for
FCC
15.247
cable
loss 6
(to
receiver)
dB
1,46
1,53
1,60
1,67
1,70
1,73
1,83
1,77
1,83
1,85
2,00
1,91
Sa m ple ca lcu la t ion
E (dB µV/m) = U (dB µV) + AF (dB 1/m) + Corr. (dB)
U = Receiver reading
AF = Antenna factor
Corr. = sum of single correction factors of used cables, switch unit, distance correction, amplifier (if applicable)
Linear interpolation will be used for frequencies in between the values in the table.
Tables show an extract of values.
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 73 of 77
6 .5
An t e n na EM CO 3 1 6 0 - 0 9 ( 1 8 GH z – 2 6 .5 GH z)
Frequency
MHz
18000
18500
19000
19500
20000
20500
21000
21500
22000
22500
23000
23500
24000
24500
25000
25500
26000
26500
AF
EMCO
3160-09
dB (1/m)
40,2
40,2
40,2
40,3
40,3
40,3
40,3
40,3
40,3
40,4
40,4
40,4
40,4
40,4
40,4
40,5
40,5
40,5
Corr.
dB
-23,5
-23,2
-22,0
-21,3
-20,3
-19,9
-19,1
-19,1
-18,7
-19,0
-19,5
-19,3
-19,8
-19,5
-19,3
-20,4
-21,3
-21,1
cable
loss 1
(inside
chamber)
dB
0,72
0,69
0,76
0,74
0,72
0,78
0,87
0,90
0,89
0,87
0,88
0,90
0,88
0,91
0,88
0,89
0,86
0,90
cable
loss 2
(preamp)
dB
-35,85
-35,71
-35,44
-35,07
-34,49
-34,46
-34,07
-33,96
-33,57
-33,66
-33,75
-33,35
-33,99
-33,89
-33,00
-34,07
-35,11
-35,20
cable
loss 3
(inside
chamber)
dB
6,20
6,46
6,69
7,04
7,30
7,48
7,61
7,47
7,34
7,06
6,92
6,99
6,88
7,01
6,72
6,90
7,02
7,15
cable
loss 4
(switch
unit)
dB
2,81
2,76
3,15
3,11
3,07
3,12
3,20
3,28
3,35
3,75
3,77
3,52
3,88
3,93
3,96
3,66
3,69
3,91
cable
loss 5
(to
receiver)
dB
2,65
2,59
2,79
2,91
3,05
3,15
3,33
3,19
3,28
2,94
2,70
2,66
2,58
2,51
2,14
2,22
2,28
2,36
Sa m ple ca lcu la t ion
E (dB µV/m) = U (dB µV) + AF (dB 1/m) + Corr. (dB)
U = Receiver reading
AF = Antenna factor
Corr. = sum of single correction factors of used cables, switch unit, distance correction, amplifier (if applicable)
Linear interpolation will be used for frequencies in between the values in the table.
Table shows an extract of values.
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 74 of 77
6 .6
An t e n na EM CO 3 1 6 0 - 1 0 ( 2 6 .5 GH z – 4 0 GH z)
Frequency
GHz
26,5
27,0
28,0
29,0
30,0
31,0
32,0
33,0
34,0
35,0
36,0
37,0
38,0
39,0
40,0
AF
EMCO
3160-10
dB (1/m)
43,4
43,4
43,4
43,5
43,5
43,5
43,5
43,6
43,6
43,6
43,6
43,7
43,7
43,7
43,8
Corr.
dB
-11,2
-11,2
-11,1
-11,0
-10,9
-10,8
-10,7
-10,7
-10,6
-10,5
-10,4
-10,3
-10,2
-10,2
-10,1
cable
loss 1
(inside
chamber)
dB
4,4
4,4
4,5
4,6
4,7
4,7
4,8
4,9
5,0
5,1
5,1
5,2
5,3
5,4
5,5
cable
loss 2
(outside
chamber)
dB
cable
loss 3
(switch
unit)
dB
cable
loss 4
(to
receiver)
dB
distance
corr.
(-20 dB/
decade)
dB
-15,6
-15,6
-15,6
-15,6
-15,6
-15,6
-15,6
-15,6
-15,6
-15,6
-15,6
-15,6
-15,6
-15,6
-15,6
dLimit
(meas.
distance
(limit)
dused
(meas.
distance
(used)
0,5
0,5
0,5
0,5
0,5
0,5
0,5
0,5
0,5
0,5
0,5
0,5
0,5
0,5
0,5
Sa m ple ca lcu la t ion
E (dB µV/m) = U (dB µV) + AF (dB 1/m) + Corr. (dB)
U = Receiver reading
AF = Antenna factor
Corr. = sum of single correction factors of used cables, switch unit, distance correction, amplifier (if applicable)
Linear interpolation will be used for frequencies in between the values in the table.
distance correction = -20 * LOG (dLimit/ dused)
Linear interpolation will be used for frequencies in between the values in the table.
Table shows an extract of values.
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 75 of 77
7 Se t u p D r a w in gs
D r a w in g 1 : Setup in the anechoic chamber. For measurements below 1 GHz the ground was
replaced by a conducting groundplane.
Rubidium
Frequency
Standard
Spectrum
Analyser
Shielded RF cable
OUT
(object
under test)
D r a w in g 2 : Setup for conducted radio tests.
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 76 of 77
8 M e a su r e m e n t Un ce r t a in t ie s
Te st Ca se
Pa r a m e t e r
Un ce r t a int y
AC Power Line
Power
± 3,4 dB
Field Strength of spurious radiation
Power
± 5,5 dB
6 dB / 26 dB / 99% Bandwidth
Power
Frequency
± 2,9 dB
± 11,2 kHz
Conducted Output Power
Power
± 2,2 dB
Band Edge Compliance
Power
Frequency
± 2,2 dB
± 11,2 kHz
Frequency Stability
Frequency
± 25 Hz
Power Spectral Density
Power
± 2,2 dB
9 Ph ot o Re por t
Please see separate photo report.
TEST REPORT REFERENCE: MDE_UBLOX_1551_FCCb_Rev_1
Page 77 of 77
Download: EMMYW163 WLAN/Bluetooth/NFC host-based multiradio module EMMY-W1 Test Report MDE_UBLOX_1551_FCCb_W163_FCC15_247_BT_DTS_Rev_1x u-blox AG
Mirror Download [FCC.gov]EMMYW163 WLAN/Bluetooth/NFC host-based multiradio module EMMY-W1 Test Report MDE_UBLOX_1551_FCCb_W163_FCC15_247_BT_DTS_Rev_1x u-blox AG
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