Siemens RF210R RFID Reader User Manual II

Siemens AG RFID Reader II

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user manual II

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January 24, 2011
Page 1 of 59
Prüfbericht / Test Report
Applicant:
Siemens AG
Type of equipment:
RFID Reader
Type designation:
RF210R
Nr. / No. 14912-03335-1 (Edition 1)
Order No.:
Test standards:
FCC Code of Federal Regulations,
CFR 47, Part 15,
Sections 15.205, 15.207, 15.215 and 15.225
Industry Canada Radio Standards Specifications
RSS-Gen Issue 3, Section 7.2.2, 7.2.4, 7.2.5 and
RSS-210 Issue 8, Section A2.6 (Category I Equipment)
Note:
The test data of this report is related only to the individual item which has been tested. This report shall not
be reproduced except in full extent without the written approval of the testing laboratory.
Trade Register Straubing HRB 9302
V.A.T. DE 131457658
Information pursuant to Section 2(1)
DL-InfoV (Germany) at
www.tuev-sued.com/imprint
Managing Director:
Johann Roidt
Phone: +49 9421 55 22-0
Fax: +49 9421 55 22-99
www.tuev-sued.de/senton
TÜV SÜD SENTON GmbH
Äußere Frühlingstraße 45
94315 Straubing
Germany
TÜV SÜD SENTON GmbH
Äußere Frühlingstraße 45
94315 Straubing
Germany
Phone:
Fax:
Web:
eMail:
+49 9421 5522-0
+49 9421 5522-99
www.tuev-sued.de/senton
senton@tuev-sued.de
Table of Contents
Description of the Equipment Under Test (EUT)............................................................ 3
Administrative Data ........................................................................................................ 4
Identification of the Test Laboratory............................................................................... 5
Summary........................................................................................................................ 6
Operation Mode and Configuration of EUT .................................................................... 7
Measurement Procedures .............................................................................................. 8
6.1
Bandwidth Measurements ....................................................................................... 8
6.2
Conducted AC Powerline Emission ......................................................................... 9
6.3
Radiated Emission Measurement 9 kHz to 30 MHz............................................... 11
6.4
Radiated Emission at Alternative Test Site............................................................ 13
6.5
Carrier Frequency Stability..................................................................................... 15
Photographs Taken During Testing.............................................................................. 17
Test Results ................................................................................................................. 23
8.1
Occupied Bandwidth .............................................................................................. 25
8.2
Bandwidth of the Emission..................................................................................... 29
8.3
Designation of Emissions....................................................................................... 31
8.4
Conducted Powerline Emission Measurement 150 kHz to 30 MHz...................... 32
8.5
Spectrum Mask ...................................................................................................... 35
8.6
Radiated Emission Measurement 9 kHz to 30 MHz.............................................. 37
8.7
Radiated Emission Measurement 30 MHz to 1 GHz............................................. 39
8.8
Carrier Frequency Stability..................................................................................... 41
8.9
Exposure of Humans to RF Fields ......................................................................... 44
Referenced Regulations............................................................................................... 46
10
Revision History ........................................................................................................... 48
11
Charts taken during testing .......................................................................................... 49
12
Calibration Data ........................................................................................................... 58
Test Report No. 14912-03335-1 (Edition 1)
Page 2 of 59 Pages
Phone:
Fax:
Web:
eMail:
TÜV SÜD SENTON GmbH
Äußere Frühlingstraße 45
94315 Straubing
Germany
+49 9421 5522-0
+49 9421 5522-99
www.tuev-sued.de/senton
senton@tuev-sued.de
Description of the Equipment Under Test (EUT)
General data of EUT
Type designation1:
RF210R
Parts2:
Serial number(s):
LB AN 0000020
Manufacturer:
Siemens AG
Type of equipment:
RFID Reader
Version:
FCC ID:
Additional parts/accessories:
Technical data of EUT
Application frequency range:
13.110 - 14.010 MHz
Frequency range:
13.56 MHz
Operating frequency:
13.56 MHz
Type of modulation:
ASK
Pulse train:
---
Pulse width:
---
Number of RF-channels:
Channel spacing:
---
Designation of emissions3:
10K0A1D
Type of antenna:
Integrated loop antenna
Size/length of antenna:
Ø 1.5 cm
Connection of antenna:
detachable
Type of power supply:
DC supply
Specifications for power supply:
nominal voltage:
minimum voltage:
maximum voltage:
not detachable
24.0 V
20.4 V
27.6 V
Type designation of the system if EUT consists of more than one part.
Type designations of the parts of the system, if applicable.
3 Also known as "Class of Emission".
Test Report No. 14912-03335-1 (Edition 1)
Page 3 of 59 Pages
Phone:
Fax:
Web:
eMail:
TÜV SÜD SENTON GmbH
Äußere Frühlingstraße 45
94315 Straubing
Germany
+49 9421 5522-0
+49 9421 5522-99
www.tuev-sued.de/senton
senton@tuev-sued.de
Administrative Data
Application details
Applicant (full address):
Siemens AG
Siemensstraße 2-4
D-90766 Fürth
Contact person:
Mr. Norbert Wluka
Order number:
Receipt of EUT:
December 21, 2010
Date(s) of test:
December 21, 2010 – January 20, 2011
Note(s):
Mr. Clemens Bopp representing the applicant attended testings on
December 21, 2010 and December 22, 2010.
Report details
Report number:
14912-03335-1
Edition:
Issue date:
January 24, 2011
Test Report No. 14912-03335-1 (Edition 1)
Page 4 of 59 Pages
TÜV SÜD SENTON GmbH
Äußere Frühlingstraße 45
94315 Straubing
Germany
Phone:
Fax:
Web:
eMail:
+49 9421 5522-0
+49 9421 5522-99
www.tuev-sued.de/senton
senton@tuev-sued.de
Identification of the Test Laboratory
Details of the Test Laboratory
Company name:
TÜV SÜD SENTON GmbH
Address:
Aeussere Fruehlingstrasse 45
D-94315 Straubing
Germany
Laboratory accreditation:
DAR-Registration No. DAT-PL-171/94-03
FCC test site registration number
90926
Industry Canada test site registration:
3050A-2
Contact person:
Mr. Johann Roidt
Phone: +49 9421 5522-0
Fax:
+49 9421 5522-99
Test Report No. 14912-03335-1 (Edition 1)
Page 5 of 59 Pages
Phone:
Fax:
Web:
eMail:
TÜV SÜD SENTON GmbH
Äußere Frühlingstraße 45
94315 Straubing
Germany
+49 9421 5522-0
+49 9421 5522-99
www.tuev-sued.de/senton
senton@tuev-sued.de
Summary
Summary of test results
The tested sample complies with the requirements set forth in the
Code of Federal Regulations CFR 47, Part 15, Sections 15.205, 15.207, 15.215 and 15.225
of the Federal Communication Commission (FCC) and the
Radio Standards Specifications
RSS-Gen Issue 3, Section 7.2.2, 7.2.4, 7.2.5 and
RSS-210 Issue 8, Section A2.6 (Category I Equipment)
of Industry Canada (IC).
Personnel involved in this report
Laboratory Manager:
Mr. Johann Roidt
Responsible for testing:
Mr. Martin Steindl
Responsible for test report:
Test Report No. 14912-03335-1 (Edition 1)
Mr. Martin Steindl
Page 6 of 59 Pages
TÜV SÜD SENTON GmbH
Äußere Frühlingstraße 45
94315 Straubing
Germany
Phone:
Fax:
Web:
eMail:
+49 9421 5522-0
+49 9421 5522-99
www.tuev-sued.de/senton
senton@tuev-sued.de
Operation Mode and Configuration of EUT
Operation Mode(s)
Reading tag continuously.
Configuration(s) of EUT
The EUT was configured as I/O-device of an SIEMENS S7 system. For conducted emission tests the EUT
was configurated with an RS-422-RS-232-interface convertor with external DC supply
List of ports and cables
Port
Description
Classification4
Cable type
Cable length
AC supply of S7
ac power
Unshielded
1m
DC 24 V voltage supply of ASM
over Profi-BUS
dc power
signal/control port
Shielded
2m
RS-422-interface
signal/control port
Shielded
2m
Type Designation
Serial no. or ID
Manufacturer
Item Description
Type Designation
Serial no. or ID
Manufacturer
S7 AC/DC adapter
PS307
Siemens
S7 CPU- module
CPU316-2
Siemens
S7 Input-Module
SM3222
Siemens
S7 Output Module
SM374
Siemens
S7 Interface Module
MOBY ASM 456
Siemens
Tag
List of devices connected to EUT
Item Description
---
List of support devices
Siemens
Ports shall be classified as ac power, dc power or signal/control port
Test Report No. 14912-03335-1 (Edition 1)
Page 7 of 59 Pages
Phone:
Fax:
Web:
eMail:
TÜV SÜD SENTON GmbH
Äußere Frühlingstraße 45
94315 Straubing
Germany
Measurement Procedures
6.1
Bandwidth Measurements
+49 9421 5522-0
+49 9421 5522-99
www.tuev-sued.de/senton
senton@tuev-sued.de
Measurement Procedure:
Rules and specifications:
CFR 47 Part 2, section 2.202(a)
CFR 47 Part 15, section 15.215(c)
IC RSS-Gen Issue 3, sections 4.6.1 and 4.6.2
IC RSS-210 Issue 8, section A1.1.3
ANSI C63.4, annex H.6
Guide:
ANSI C63.4 / IC Gen Issue 3, sections 4.6.1 and 4.6.2
Measurement setup:
Conducted: See below
Radiated:
Radiated Emission Measurement 9 kHz to 30 MHz (6.3)
If antenna is detachable bandwidth measurements shall be performed at the antenna connector (conducted
measurement) when the transmitter is adjusted in accordance with the tune-up procedure, if applicable. The
RF output terminals are connected to a spectrum analyzer. If required, a resistive matching network equal to
the impedance specified or employed for the antenna is used as well as dc block and appropriate attenuators
(50 Ohms). The electrical characteristics of the radio frequency load attached to the output terminals shall be
stated, if applicable.
If radiated measurements are performed the same test setups and instruments are used as with radiated
emission measurements for the appropriate frequency range.
The analyzer settings are specified by the test description of the appropriate test record(s).
Test Report No. 14912-03335-1 (Edition 1)
Page 8 of 59 Pages
Phone:
Fax:
Web:
eMail:
TÜV SÜD SENTON GmbH
Äußere Frühlingstraße 45
94315 Straubing
Germany
6.2
+49 9421 5522-0
+49 9421 5522-99
www.tuev-sued.de/senton
senton@tuev-sued.de
Conducted AC Powerline Emission
Measurement Procedure:
Rules and specifications:
CFR 47 Part 15, section 15.207
IC RSS-Gen Issue 3, section 7.2.4
Guide:
ANSI C63.4 / CISPR 22
Conducted emission tests in the frequency range 150 kHz to 30 MHz are performed using Line Impedance
Stabilization Networks (LISNs). To simplify testing with quasi-peak and average detector the following
procedure is used:
First the whole spectrum of emission caused by the equipment under test (EUT) is recorded with detector set
to peak using CISPR bandwidth of 10 kHz. After that all emission levels having less margin than 10 dB to or
exceeding the average limit are retested with detector set to quasi-peak.
If average limit is kept with quasi-peak levels no additional scan with average detector is necessary. In cases
of emission levels between quasi-peak and average limit an additional scan with detector set to average is
performed.
According to ANSI C63.4, section 13.1.3.1, testing of intentional radiators with detachable antenna shall be
performed using a suitable dummy load connected to the antenna output terminals. Otherwise, the tests shall
be made with the antenna connected and, if adjustable, fully extended.
Testing with dummy load may be necessary to distinguish (unintentional) conducted emissions on the supply
lines from (intentional) emissions radiated by the antenna and coupling directly to supply lines and/or LISN.
Usage of dummy load has to be stated in the appropriate test record(s) and notes should be added to clarify
the test setup.
Shielded room
EMI receiver
EUT
EUT
LISN
Wooden
table
Test Report No. 14912-03335-1 (Edition 1)
Page 9 of 59 Pages
TÜV SÜD SENTON GmbH
Äußere Frühlingstraße 45
94315 Straubing
Germany
Phone:
Fax:
Web:
eMail:
+49 9421 5522-0
+49 9421 5522-99
www.tuev-sued.de/senton
senton@tuev-sued.de
Test instruments used:
Type
Designation
Inv.-no.
Serial No. or ID
Manufacturer
Test receiver
V-network
V-network
Artificial mains network
Shielded room
Shielded room
ESHS 10
ESH 3-Z5
ESH 3-Z5
ESH 2-Z5
No. 1
No. 4
1028
1059
1218
1536
1451
1454
860043/016
894785/005
830952/025
842966/004
--3FD 100 544
Rohde & Schwarz
Rohde & Schwarz
Rohde & Schwarz
Rohde & Schwarz
Albatross
Euroshield
Test Report No. 14912-03335-1 (Edition 1)
Page 10 of 59 Pages
TÜV SÜD SENTON GmbH
Äußere Frühlingstraße 45
94315 Straubing
Germany
6.3
Phone:
Fax:
Web:
eMail:
+49 9421 5522-0
+49 9421 5522-99
www.tuev-sued.de/senton
senton@tuev-sued.de
Radiated Emission Measurement 9 kHz to 30 MHz
Measurement Procedure:
Rules and specifications:
CFR 47 Part 15, sections 15.205, 15.215(b) and 15.225(a)-(d)
IC RSS-Gen Issue 3, section 7.2.5 / IC RSS-210 Issue 8, section A2.6
Guide:
ANSI C63.4
Radiated emission in the frequency range 9 kHz to 30 MHz is measured using an active loop antenna. First
the whole spectrum of emission caused by the equipment is recorded at a distance of 3 meters in a fully or
semi anechoic room with the detector of the spectrum analyzer or EMI receiver set to peak. This configuration
is also used for recording the spectrum of intentional radiators.
Hand-held or body-worn devices are rotated through three orthogonal axes to determine which attitude and
configuration produces the highest emission relative to the limit and therefore shall be used for final testing.
EUT is rotated all around to find the maximum levels of emissions. Equipment and cables are placed and
moved within the range of position likely to find their maximum emissions.
If worst case emission of the EUT cannot be recorded with EUT in standard position and loop antenna in
vertical polarization the EUT (or the radiating part of the EUT) is rotated by 90 degrees instead of changing the
loop antenna to horizontal polarization. This procedure is selected to minimize the influence of the
environment (e.g. effects caused by the floor especially with longer distances).
Final measurement is performed at a test distance D of 30 meters using an open field test site. In case the
regulation requires testing at other distances, the result is extrapolated by either making measurements at an
additional distance D of 10 meters to determine the proper extrapolation factor or by using the square of an
inverse linear distance extrapolation factor (40 dB/decade). In cases of very low emissions measurements are
performed at shorter distances and results are extrapolated to the required distance. The provisions of
CFR 47 Part 15 sections 15.31(d) and (f)(2) apply. According to CFR 47 Part 15 section 15.209(d) final
measurement is performed with detector function set to quasi-peak except for the frequency bands 9 to 90
kHz and 110 to 490 kHz where, for non-pulsed operation, average detector is employed.
If the radiated emission limits are expressed in terms of the average value of the emission there also is a peak
limit corresponding to 20 dB above the maximum permitted average limit. Additionally, if pulsed operation is
employed, the average field strength is determined by averaging over one complete pulse train, including
blanking intervals, as specified in CFR 47 Part 15 section 15.35(c). If the pulse train exceeds 0.1 second that
0.1 second interval during which the value of the emission is at its maximum is selected for calculation. The
pulse train correction is added to the peak value of the emission to get the average value.
Loop antenna
EUT
Test distance D
EMI receiver
Test Report No. 14912-03335-1 (Edition 1)
Page 11 of 59 Pages
TÜV SÜD SENTON GmbH
Äußere Frühlingstraße 45
94315 Straubing
Germany
Phone:
Fax:
Web:
eMail:
+49 9421 5522-0
+49 9421 5522-99
www.tuev-sued.de/senton
senton@tuev-sued.de
Test instruments used:
Type
Designation
Inv.-no.
Serial No. or ID
Manufacturer
Spectrum analyzer
EMI test receiver
FSP30
ESMI
1666
1569
Rohde & Schwarz
Rohde & Schwarz
Test receiver
EMI test receiver
Preamplifier
Cabin no. 2
Loop antenna
Fully anechoic room
Semi anechoic room
Semi anechoic room
ESHS 10
ESU8
CPA9231A
HFH2-Z2
No. 2
No. 3
No. 8
1028
2044
1651
1016
1452
1453
2057
100036
839379/013
839587/006
860043/016
100232
3393
882964/1
-------
Test Report No. 14912-03335-1 (Edition 1)
Rohde & Schwarz
Rohde & Schwarz
Schaffner
Rohde & Schwarz
Albatross
Siemens
Albatross
Page 12 of 59 Pages
TÜV SÜD SENTON GmbH
Äußere Frühlingstraße 45
94315 Straubing
Germany
6.4
Phone:
Fax:
Web:
eMail:
+49 9421 5522-0
+49 9421 5522-99
www.tuev-sued.de/senton
senton@tuev-sued.de
Radiated Emission at Alternative Test Site
Measurement Procedure:
Rules and specifications:
CFR 47 Part 15, sections 15.205(b) and 15.225(d)
IC RSS-Gen Issue 3, section 7.2.5 / IC RSS-210 Issue 8, section A2.6
Guide:
ANSI C63.4
Radiated emission in the frequency range 30 MHz to 1 GHz is measured within a semi-anechoic room with
groundplane complying with the NSA requirements of ANSI C63.4 for alternative test sites. A linear polarized
logarithmic periodic antenna combined with a 4:1 broadband dipole ("Trilog broadband antenna") is used. The
measurement bandwidth of the test receiver is set to 120 kHz with quasi-peak detector selected.
If the radiated emission limits are expressed in terms of the average value of the emission there also is a peak
limit corresponding to 20 dB above the maximum permitted average limit. Additionally, if pulsed operation is
employed, the average field strength is determined by averaging over one complete pulse train, including
blanking intervals, as specified in CFR 47 Part 15 section 15.35(c). If the pulse train exceeds 0.1 second that
0.1 second interval during which the value of the emission is at its maximum is selected for calculation. The
pulse train correction is added to the peak value of the emission to get the average value.
Hand-held or body-worn devices are tested in the position producing the highest emission relative to the limit
as verified by prescans in fully anechoic room.
If no prescan in a fully anechoic room is used first a peak scan is performed in four positions to get the whole
spectrum of emission caused by EUT with the measuring antenna raised and lowered from 1 to 4 m to find
table position, antenna height and antenna polarization for the maximum emission levels.
Data reduction is applied to these results to select those levels having less margin than 10 dB to or exceeding
the limit using subranges and limited number of maximums. Further maximization is following.
With detector of the test receiver set to quasi-peak final measurements are performed immediately after
frequency zoom (for drifting disturbances) and maximum adjustment.
Equipment and cables are placed and moved within the range of position likely to find their maximum
emissions.
In cases where prescans in a fully anechoic room are taken (e. g. if EUT is operating for a short time only or
battery is dircharged quickly) final measurements with quasi-peak detector are performed manually at
frequencies indicated by prescan with EUT rotating all around and receiving antenna raising and lowering
within 1 meter to 4 meters to find the maximum levels of emission.
Equipment and cables are placed and moved within the range of position likely to find their maximum
emissions.
For measuring emissions of intentional radiators and receivers a test distance D of 3 meters is selected.
Testing of unintentional radiators is performed at a distance of 10 meters. If limits specified for 3 meters shall
be used for measurements performed at 10 meters distance the limits are calculated according to CFR 47
Part 15 section 15.31(d) and (f)(1) using an inverse linear-distance extrapolation factor of 20 dB/decade.
Test Report No. 14912-03335-1 (Edition 1)
Page 13 of 59 Pages
Phone:
Fax:
Web:
eMail:
TÜV SÜD SENTON GmbH
Äußere Frühlingstraße 45
94315 Straubing
Germany
+49 9421 5522-0
+49 9421 5522-99
www.tuev-sued.de/senton
senton@tuev-sued.de
EMI test receiver
Test
antenna
EUT
Test distance D
Preamplifier
(if applicable)
Wooden
Table
Alternate test site (semi anechoic room)
Test instruments used:
Type
Designation
Inv.-no.
Serial No. or ID
Manufacturer
EMI test receiver
Trilog antenna
Cabin no. 8
Semi anechoic room
ESU8
VULB 9163
No. 8
2044
1802
2057
100232
9163-214
---
Rohde & Schwarz
Schwarzbeck
Albatross
Test Report No. 14912-03335-1 (Edition 1)
Page 14 of 59 Pages
TÜV SÜD SENTON GmbH
Äußere Frühlingstraße 45
94315 Straubing
Germany
6.5
Phone:
Fax:
Web:
eMail:
+49 9421 5522-0
+49 9421 5522-99
www.tuev-sued.de/senton
senton@tuev-sued.de
Carrier Frequency Stability
Measurement Procedure:
Rules and specifications:
CFR 47 Part 15, section 15.225(e)
IC RSS-Gen Issue 3, section 4.7 and IC RSS-210 Issue 8, section A2.6
Guide:
ANSI C63.4
The frequency tolerance of the carrier signal is measured over a temperature variation of -20 °C to +50 °C at
normal supply voltage, and for a variation in the primary supply voltage from 85% to 115% of the rated supply
voltage at a temperature of 20 °C.
If the EUT provides an antenna connector the spectrum analyzer is connected to this port. If required, a
resistive matching network equal to the impedance specified or employed for the antenna is used as well as
dc block and appropriate attenuators (50 Ohms). In cases where the EUT does not provide an antenna
connector a test fixture is used.
For battery operated equipment, the test is performed using a new battery. Alternatively, an external supply
voltage can be used and is at least set to:
•
•
•
•
the maximum battery voltage as delivered by a new battery or 115% of the battery nominal voltage
the battery nominal voltage
85% of the battery nominal voltage
the battery operating end point voltage which shall be specified by the equipment manufacturer
The EUT is operating providing an unmodulated carrier. The peak detector of the spectrum analyzer is
selected and resolution as well as video bandwidth are set to values appropriate to the shape of the spectrum
of the EUT. The frequency counter mode of the spectrum analyzer is used to maximize the accuracy of the
measured frequency tolerance.
If an unmodulated carrier is not available a significant and stable point on the spectrum is selected and the
span is reduced to a value that delivers an accuracy which shall be better than 1% of the maximum frequency
tolerance allowed for the carrier signal. This method may be performed as long as the margin to the frequency
tolerance allowed is larger than the uncertainty of the measured frequency tolerance.
Spectrum analyzer
Temperature test chamber
External
power source
Test Report No. 14912-03335-1 (Edition 1)
Attenuator
(if applicable)
Wooden
support
Test fixture
DC-Block
(if applicable)
EUT
Page 15 of 59 Pages
TÜV SÜD SENTON GmbH
Äußere Frühlingstraße 45
94315 Straubing
Germany
Phone:
Fax:
Web:
eMail:
+49 9421 5522-0
+49 9421 5522-99
www.tuev-sued.de/senton
senton@tuev-sued.de
Test instruments used:
Type
Designation
Inv.-no.
Serial No. or ID
Manufacturer
Spectrum analyzer
EMI test receiver
EMI test receiver
FSP30
ESPI7
ESMI
1666
1711
1569
Rohde & Schwarz
Rohde & Schwarz
Rohde & Schwarz
DC-block
Attenuator
Attenuator
Test probe
Multimeter
Multimeter
Multimeter
Multimeter
Multimeter
Multimeter
DC power supply
Isolating transformer
Isolating transformer
Temperature test chamber
7006
4776-10
4776-20
TP 01
21 III
21 III
Fluke 77 III
Fluke 77 IV
Fluke 177
Fluke 177
NGSM 32/10
RT 5A
RT 5A
HT 4010
1636
1638
1639
1628
1653
1654
1975
1976
2025
2026
1267
1127
1128
1271
100036
836914/0002
839379/013
839587/006
A2798
9412
9503
001
76530546
76381229
92370108
93090238
96720024
96720025
203
10387
10416
07065550
Test Report No. 14912-03335-1 (Edition 1)
Weinschel
Narda
Narda
Senton
Fluke
Fluke
Fluke
Fluke
Fluke
Fluke
Rohde & Schwarz
Grundig
Grundig
Heraeus
Page 16 of 59 Pages
TÜV SÜD SENTON GmbH
Äußere Frühlingstraße 45
94315 Straubing
Germany
Phone:
Fax:
Web:
eMail:
+49 9421 5522-0
+49 9421 5522-99
www.tuev-sued.de/senton
senton@tuev-sued.de
Photographs Taken During Testing
Test Report No. 14912-03335-1 (Edition 1)
Page 17 of 59 Pages
TÜV SÜD SENTON GmbH
Äußere Frühlingstraße 45
94315 Straubing
Germany
Phone:
Fax:
Web:
eMail:
+49 9421 5522-0
+49 9421 5522-99
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senton@tuev-sued.de
Test setup for conducted AC powerline emission measurement
Test Report No. 14912-03335-1 (Edition 1)
Page 18 of 59 Pages
TÜV SÜD SENTON GmbH
Äußere Frühlingstraße 45
94315 Straubing
Germany
Phone:
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senton@tuev-sued.de
Test setup for conducted AC powerline emission measurement
- continued -
Test Report No. 14912-03335-1 (Edition 1)
Page 19 of 59 Pages
TÜV SÜD SENTON GmbH
Äußere Frühlingstraße 45
94315 Straubing
Germany
Phone:
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Test setup for radiated emission measurement 9 kHz – 30 MHz
Test Report No. 14912-03335-1 (Edition 1)
Page 20 of 59 Pages
TÜV SÜD SENTON GmbH
Äußere Frühlingstraße 45
94315 Straubing
Germany
Phone:
Fax:
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Test setup for radiated emission measurement
(alternate test site)
Test Report No. 14912-03335-1 (Edition 1)
Page 21 of 59 Pages
TÜV SÜD SENTON GmbH
Äußere Frühlingstraße 45
94315 Straubing
Germany
Phone:
Fax:
Web:
eMail:
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senton@tuev-sued.de
Test setup for radiated emission measurement
(alternate test site) - continued -
Test Report No. 14912-03335-1 (Edition 1)
Page 22 of 59 Pages
TÜV SÜD SENTON GmbH
Äußere Frühlingstraße 45
94315 Straubing
Germany
Phone:
Fax:
Web:
eMail:
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Test Results
FCC CFR 47 Parts 2 and 15
Section(s)
Test
Page
Result
2.1046(a)
Conducted output power
---
Not applicable
2.202(a)
Occupied bandwidth
25
Recorded
15.215(c)
Bandwidth of the emission
29
Test passed
2.201, 2.202
Class of emission
31
Calculated
15.35(c)
Pulse train measurement for pulsed operation
---
Not applicable
15.205(a)
15.205(d)(7)
Restricted bands of operation
---5
Test passed
15.207
Conducted AC powerline emission
150 kHz to 30 MHz
32
Test passed
15.225(a)-(d)
Spectrum Mask
35
Test passed
15.205(b)
15.215(b)
15.225(a)(d)
Radiated emission
9 kHz to 30 MHz
37
Test passed
15.205(b)
15.225(d)
Radiated emission
30 MHz to 1 GHz
39
Test passed
15.225(e)
Carrier frequency stability
41
Test passed
See "Spectrum Mask" for the 13.36 to 13.41 MHz band. For all other restricted bands see "Radiated
Emission".
Test Report No. 14912-03335-1 (Edition 1)
Page 23 of 59 Pages
TÜV SÜD SENTON GmbH
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94315 Straubing
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IC RSS-Gen Issue 3
Section(s)
Test
Page
Result
4.8
Transmitter output power (conducted)
---
Not applicable
4.6.1
Occupied Bandwidth
25
Recorded
Designation of emissions
31
Calculated
4.5
Pulsed operation
---
Not applicable
7.2.2
Restricted bands and unwanted emission frequencies
---6
Test passed
7.2.4
Transmitter AC power lines conducted emissions
150 kHz to 30 MHz
32
Test passed
7.2.5
Unwanted emissions
9 kHz to 30 MHz
37
Test passed
7.2.5
Unwanted emissions
30 MHz to 1 GHz
39
Test passed
5.5
Exposure of Humans to RF Fields
44
Exempted from
SAR and RF
evaluation
Page
Result
IC RSS-210 Issue 8
Section(s)
Test
A2.6
Spectrum Mask
35
Test passed
A.2.6
Unwanted emissions
9 kHz to 30 MHz
37
Test passed
A2.6
Unwanted emissions
30 MHz to 1 GHz
39
Test passed
A2.6
Carrier frequency stability
41
Test passed
See "Spectrum Mask" and "Unwanted emissions".
Test Report No. 14912-03335-1 (Edition 1)
Page 24 of 59 Pages
Phone:
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Occupied Bandwidth
Rules and specifications:
CFR 47 Part 2, section 2.202(a)
ANSI C63.4, annex H.6
Guide:
ANSI C63.4
Description:
The occupied bandwidth according to CFR 47 Part 2, section 2.202(a), is
measured as the 99% emission bandwidth, i.e. below its lower and above its
upper frequency limits, the mean powers radiated are each equal to 0.5% of
the total mean power radiated by a given emission.
The occupied bandwidth according to ANSI C63.4, annex H.6; is measured
as the frequency range defined by the points that are 26 dB down relative to
the maximum level of the modulated carrier.
The resolution bandwidth of the spectrum analyzer shall be set to a value
greater than 5.0% of the allowed bandwidth. If no bandwidth specifications
are given, the following guidelines are used:
Fundamental frequency
Minimum resolution bandwidth
9 kHz to 30 MHz
1 kHz
30 MHz to 1000 MHz
10 kHz
1000 MHz to 40 GHz
100 kHz
The video bandwidth shall be at least three times greater than the resolution
bandwidth.
Measurement procedure:
Bandwidth Measurements (6.1)
Comment:
Date of test:
Test site:
December 22, 2010
Fully anechoic room, cabin no. 2
Test Report No. 14912-03335-1 (Edition 1)
Page 25 of 59 Pages
Phone:
Fax:
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eMail:
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senton@tuev-sued.de
Occupied Bandwidth (99 %):
* RBW 1 kHz
VBW 10 kHz
Ref
70
* Att
70 dBµV
Offset
* SWT 10 s
0 dB
20 dB
OBW 14.680000000 kHz
Temp 1 [T1 OBW]
12.68 dBµV A
SGL
13.552040000 MHz
Temp 2 [T1 OBW]
13.12 dBµV LVL
13.566720000 MHz
60
1 RM *
CLRWR
Marker 1 [T1 ]
39.23 dBµV
13.559280000 MHz
50
40
PS
30
20
T2
T1
3DB
DC
10
-10
-20
-30
Center 13.55944 MHz
Date: 22.DEC.2010
Occupied Bandwidth (99 %):
2 kHz/
Span 20 kHz
13:46:20
14.68 kHz
Test Report No. 14912-03335-1 (Edition 1)
Page 26 of 59 Pages
TÜV SÜD SENTON GmbH
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Occupied Bandwidth (continued)
Rules and specifications:
IC RSS-Gen Issue 3, section 4.6.1
Guide:
IC RSS-Gen Issue 3, section 4.6.1
Description:
If not specified in the applicable RSS the occupied bandwidth is measured as
the 99% emission bandwidth.
The span of the analyzer shall be set to capture all products of the
modulation process, including the emission skirts. The resolution bandwidth
shall be set to as close to 1% of the selected span as is possible without
being below 1%. The video bandwidth shall be set to 3 times the resolution
bandwidth.
The trace data points are recovered and are directly summed in linear terms.
The recovered amplitude data points, beginning at the lowest frequency, are
placed in a running sum until 0.5% of the total is reached and that frequency
recorded. The process is repeated for the highest frequency data points. This
frequency is also recorded. The span between the two recorded frequencies
is the occupied bandwidth.
Measurement procedure:
Bandwidth Measurements (6.1)
Comment:
Date of test:
Test site:
December 22, 2010
Fully anechoic room, cabin no. 2
Test Report No. 14912-03335-1 (Edition 1)
Page 27 of 59 Pages
Phone:
Fax:
Web:
eMail:
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senton@tuev-sued.de
Occupied Bandwidth (99 %):
* RBW 1 kHz
VBW 10 kHz
Ref
70
* Att
70 dBµV
Offset
* SWT 10 s
0 dB
20 dB
OBW 14.680000000 kHz
Temp 1 [T1 OBW]
12.68 dBµV A
SGL
13.552040000 MHz
Temp 2 [T1 OBW]
13.12 dBµV LVL
13.566720000 MHz
60
1 RM *
CLRWR
Marker 1 [T1 ]
39.23 dBµV
13.559280000 MHz
50
40
PS
30
20
T2
T1
3DB
DC
10
-10
-20
-30
Center 13.55944 MHz
Date: 22.DEC.2010
Occupied Bandwidth (99 %):
2 kHz/
Span 20 kHz
13:46:20
14.68 kHz
Test Report No. 14912-03335-1 (Edition 1)
Page 28 of 59 Pages
TÜV SÜD SENTON GmbH
Äußere Frühlingstraße 45
94315 Straubing
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8.2
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Bandwidth of the Emission
Rules and specifications:
CFR 47 Part 15, section 15.215(c)
Guide:
ANSI C63.4
Description:
The 20 dB bandwidth of the emission is measured as the frequency range
defined by the points that are 20 dB down relative to the maximum level of
the modulated carrier.
For intentional radiators operating under the alternative provisions to the
general emission limits the requirement to contain the 20 dB bandwidth of
the emission within the specified frequency band includes the effects from
frequency sweeping, frequency hopping and other modulation techniques
that may be employed as well as the frequency stability of the transmitter
over expected variations in temperature and supply voltage. If a frequency
stability is not specified in the regulations, it is recommended that the
fundamental emission be kept within at least the central 80% of the
permitted band in order to minimize the possibility of out-of-band
operation.
The resolution bandwidth of the spectrum analyzer shall be set to a value
greater than 5.0% of the allowed bandwidth. If no bandwidth specifications
are given, the following guidelines are used:
Fundamental frequency
Minimum resolution bandwidth
9 kHz to 30 MHz
1 kHz
30 MHz to 1000 MHz
10 kHz
1000 MHz to 40 GHz
100 kHz
The video bandwidth shall be at least three times greater than the
resolution bandwidth.
Measurement procedure:
Bandwidth Measurements (6.1)
Comment:
Date of test:
Test site:
December 22, 2010
Fully anechoic room, cabin no. 2
Test Report No. 14912-03335-1 (Edition 1)
Page 29 of 59 Pages
Phone:
Fax:
Web:
eMail:
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Germany
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senton@tuev-sued.de
* RBW 1 kHz
Ref
70
* Att
70 dBµV
Offset
VBW 3 kHz
SWT 200 ms
0 dB
20 dB
Marker 1 [T1 ]
40.19 dBµV
13.559600000 MHz A
Marker 2 [T1 ]
19.37 dBµV
13.556800000 MHz LVL
60
1 PK
VIEW
Marker 3 [T1 ]
19.20 dBµV
13.562800000 MHz
50
40
PS
30
2 3
20
D1 20.11 dBµV
3DB
DC
10
-10
-20
-30
Center 13.56 MHz
Date: 22.DEC.2010
20 kHz/
Span 200 kHz
13:45:20
Permitted frequency band:
13.110 - 14.010 MHz
20 dB bandwidth:
6.0 kHz
Carrier frequency stability:
Maximum frequency tolerances:
specified
+0.095 kHz
-0.077 kHz
Bandwidth of the emission:
6.2 kHz
not specified
within permitted frequency band7:
yes
Test Result:
no
Test passed
If a frequency stability is not specified, it is recommended that the fundamental emission is kept within at least
the central 80% of the permitted band in order to minimize the possibility of out-of-band operation.
Test Report No. 14912-03335-1 (Edition 1)
Page 30 of 59 Pages
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senton@tuev-sued.de
Designation of Emissions
Rules and specifications:
CFR 47 Part 2, sections 2.201 and 2.202
IC RSS-Gen Issue 3, section 8
Guide:
ANSI C63.4 / TRC-43
Type of modulation:
Amplitude Modulation
Bn = Necessary Bandwidth
Bn = 2BK
B = Modulation rate
B = 5 kHz
K = Overall numerical factor
K=1
Calculation:
Bn = 2 · (5 kHz) · 1 = 10 kHz
Designation of Emissions:
10K0A1D
Test Report No. 14912-03335-1 (Edition 1)
Page 31 of 59 Pages
TÜV SÜD SENTON GmbH
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8.4
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Conducted Powerline Emission Measurement 150 kHz to 30 MHz
Rules and specifications:
CFR 47 Part 15, section 15.207
IC RSS-Gen Issue 3, section 7.2.4
Guide:
ANSI C63.4 / CISPR 22
Limit:
Frequency of Emission
(MHz)
0.15 - 0.5
0.5 - 5
5 - 30
Conducted Limit (dBµV)
Quasi-peak
Average
66 to 56
56
60
56 to 46
46
50
Measurement procedure:
Conducted AC Powerline Emission (6.2)
Test Result:
Test passed
Test Report No. 14912-03335-1 (Edition 1)
Page 32 of 59 Pages
Phone:
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senton@tuev-sued.de
Comment:
Date of test:
Test site:
Reading tag continuously
December 21, 2010
Shielded room, cabin no. 4
Test Result:
Test passed - Carrier frequency excluded
Tested on:
Plus
Frequency
Detector
(MHz)
13.560
18.145
21.380
Quasi-Peak
Quasi-Peak
Quasi-Peak
Tested on:
Frequency
(MHz)
13.560
18.955
21.840
Reading
Value
(dBµV)
66.3
32.1
36.7
Correction
Factor
(dB)
0.0
0.0
0.0
Final
Value
(dBµV)
66.3
32.1
36.7
Correction
Factor
(dB)
0.0
0.0
0.0
Final
Value
(dBµV)
66.8
32.2
38.6
Limit
Margin
(dBµV)
60.0
60.0
60.0
(dB)
-6.3
27.9
23.3
Limit
Margin
(dBµV)
60.0
60.0
60.0
(dB)
-6.8
27.8
21.4
Minus
Detector
Quasi-Peak
Quasi-Peak
Quasi-Peak
Reading
Value
(dBµV)
66.8
32.2
38.6
Sample calculation of final values:
Final Value (dBµV) = Reading Value (dBµV) + Correction Factor (dB)
Test Report No. 14912-03335-1 (Edition 1)
Page 33 of 59 Pages
Phone:
Fax:
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Comment:
+49 9421 5522-0
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www.tuev-sued.de/senton
senton@tuev-sued.de
Date of test:
Test site:
Transmitting continuously.
Internal antenna connector terminated with 50 Ohms
December 21, 2010
Shielded room, cabin no. 4
Test Result:
Test passed
Tested on:
Plus
Frequency
(MHz)
13.560
13.560
23.305
27.120
27.120
Detector
Quasi-Peak
Average
Average
Quasi-Peak
Average
Tested on:
Frequency
(MHz)
13.560
13.560
23.325
27.120
27.120
Reading
Value
(dBµV)
48.5
48.9
31.5
38.5
38.4
Correction
Factor
(dB)
0.0
0.0
0.0
0.0
0.0
Final
Value
(dBµV)
48.5
48.9
31.5
38.5
38.4
Correction
Factor
(dB)
0.0
0.0
0.0
0.0
0.0
Final
Value
(dBµV)
49.8
48.1
31.0
35.6
38.0
Limit
Margin
(dBµV)
60.0
50.0
50.0
60.0
50.0
(dB)
11.5
1.1
18.5
21.5
11.6
Limit
Margin
(dBµV)
60.0
50.0
50.0
60.0
50.0
(dB)
10.2
1.9
19.0
24.4
12.0
Minus
Detector
Quasi-Peak
Average
Average
Quasi-Peak
Average
Reading
Value
(dBµV)
49.8
48.1
31.0
35.6
38.0
Sample calculation of final values:
Final Value (dBµV) = Reading Value (dBµV) + Correction Factor (dB)
Test Report No. 14912-03335-1 (Edition 1)
Page 34 of 59 Pages
TÜV SÜD SENTON GmbH
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8.5
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Spectrum Mask
Rules and specifications:
CFR 47 Part 15, section 15.225(a)-(d)
IC RSS-210 Issue 8, section A2.6
Guide:
ANSI C63.4
Description:
Compliance with the spectrum mask is tested using a spectrum analyzer with
resolution bandwidth set to a 1 kHz for the band 13.553 to 13.567 MHz and to
10 kHz outside this band. The video bandwidth shall be at least three times
greater than the resolution bandwidth.
Limit:
Frequency of
Emission
(MHz)
Field
Strength
(µV/m)
Field
Strength
(dBµV/m)
Measurement
Distance d
(meters)
1.705 - 13.110
13.110 - 13.410
13.410 - 13.553
13.553 - 13.567
13.567 - 13.710
13.710 - 14.010
14.010 - 30.000
30
106
334
15848
334
106
30
29.5
40.5
50.5
84.0
50.5
40.5
29.5
30
30
30
30
30
30
30
Measurement procedure:
Radiated Emission Measurement 9 kHz to 30 MHz (6.3)
Comment:
Date of test:
Test site:
December 22, 2010
Fully anechoic room, cabin no. 2
Test distance:
3 meters
Extrapolation Factor:
40 dB/decade
Test Report No. 14912-03335-1 (Edition 1)
Page 35 of 59 Pages
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Test Result:
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Test passed
* RBW 10 kHz
Ref
* Att
107 dBµV
Offset
FCC225_3
VBW 30 kHz
SWT 10 ms
0 dB
Marker 1 [T1 ]
41.99 dBµV
13.560000000 MHz
20 dB
100
1 PK
MAXH
90
LVL
80
70
PS
60
3DB
DC
50
40
30
20
10
Center 13.56 MHz
Date: 22.DEC.2010
100 kHz/
13:41:21
* RBW 1 kHz
Ref
* Att
107 dBµV
Offset
FCC225_3
Span 1 MHz
VBW 3 kHz
SWT 1 s
0 dB
Marker 1 [T1 ]
40.11 dBµV
13.560000000 MHz
20 dB
100
1 PK
MAXH
90
LVL
80
70
PS
60
3DB
DC
50
40
30
20
10
Center 13.56 MHz
Date: 22.DEC.2010
100 kHz/
Span 1 MHz
13:41:56
Test Report No. 14912-03335-1 (Edition 1)
Page 36 of 59 Pages
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Radiated Emission Measurement 9 kHz to 30 MHz
Rules and specifications:
CFR 47 Part 15, sections 15.205 and 15.225(a)-(d)
IC RSS-Gen Issue 3, section 7.2.5 / IC RSS-210 Issue 8, section A2.6
Guide:
ANSI C63.4
Limit:
Frequency of
Emission
(MHz)
Field
Strength
(µV/m)
Field
Strength
(dBµV/m)
Measurement
Distance d
(meters)
0.009 - 0.490
2400/F(kHz)
300
0.490 - 1.705
24000/F(kHz)
67.6 - 20 ⋅ log(F(kHz))
87.6 - 20 ⋅ log(F(kHz))
1.705 - 13.110
13.110 - 13.410
13.410 - 13.553
13.553 - 13.567
13.567 - 13.710
13.710 - 14.010
14.010 - 30.000
30
106
334
15848
334
106
30
29.5
40.5
50.5
84.0
50.5
40.5
29.5
30
30
30
30
30
30
30
30
Additionally, the level of any unwanted emissions shall not exceed the level of
the fundamental emission.
Measurement procedure:
Radiated Emission Measurement 9 kHz to 30 MHz (6.3)
Comment:
Date of test:
Test site:
December 22, 2010
Open field test site
Test Result:
Test passed
Extrapolation factor:
Frequency
(MHz)
0.35700
13.56000
Detector
Average
Quasi-Peak
-40 dB/decade
Distance
Reading Correction Extrapolation Pulse Train
d1
Value
Factor
Factor
Correction
(m)
10
10
(m)
300
30
(dBµV)
27.8
9.1
(dB/m)
20.0
20.0
(dB)
-59.1
-19.1
(dB)
Test Report No. 14912-03335-1 (Edition 1)
Final
Limit
Margin
Value
(dBµV/m) (dBµV/m)
-11.3
16.6
10.0
84.0
(dB)
27.9
74.0
Page 37 of 59 Pages
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Sample calculation of final values:
Extrapolation Factor (dB)
(Log(d) - Log(d1)) · Extrapolation Factor (dB/decade)
Final Value (dBµV/m)
Reading Value d1 (dBµV) + Correction Factor (dB/m)
+ Extrapolation Factor (dB) + Pulse Train Correction (dB)
Note:
Extrapolation factor (dB) and final value (dBµV/m) are relating to distance d.
Test Report No. 14912-03335-1 (Edition 1)
Page 38 of 59 Pages
TÜV SÜD SENTON GmbH
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Radiated Emission Measurement 30 MHz to 1 GHz
Rules and specifications:
CFR 47 Part 15, sections 15.205(b) and 15.225(d)
IC RSS-Gen Issue 3, section 7.2.5 / IC RSS-210 Issue 8, section A2.6
Guide:
ANSI C63.4
Limit:
Frequency of Emission
(MHz)
Field Strength
(µV/m)
Field Strength
(dBµV/m)
30 - 88
88 - 216
216 - 960
Above 960
100
150
200
500
40.0
43.5
46.0
54.0
Additionally, the level of any unwanted emissions shall not exceed the level of
the fundamental emission.
Measurement procedures:
Radiated Emission at Alternative Test Site (6.4)
Comment:
Date of test:
Test site:
December 22, 2010
Test distance:
3 meters
Test Result:
Test passed
Frequencies ≤ 1 GHz: Semi-anechoic room, cabin no. 8
Frequencies > 1 GHz: Fully anechoic room, cabin no. 2
Test Report No. 14912-03335-1 (Edition 1)
Page 39 of 59 Pages
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Frequency
(MHz)
40.700
43.180
94.900
101.960
108.460
122.020
162.700
189.820
216.940
338.980
366.100
488.140
989.840
Antenna
Polarization
vertical
vertical
horizontal
horizontal
horizontal
horizontal
horizontal
horizontal
horizontal
horizontal
horizontal
vertical
horizontal
Detector
Quasi-Peak
Quasi-Peak
Quasi-Peak
Quasi-Peak
Quasi-Peak
Quasi-Peak
Quasi-Peak
Quasi-Peak
Quasi-Peak
Quasi-Peak
Quasi-Peak
Quasi-Peak
Quasi-Peak
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Receiver Correction Pulse Train
Final
Reading
Factor
Correction
Value
(dBµV)
(dB/m)
(dB)
(dBµV/m)
22.8
14.4
37.2
11.0
14.5
25.5
23.9
12.6
36.5
7.0
13.1
20.1
12.5
12.9
25.4
16.9
11.2
28.1
18.2
10.1
28.3
18.0
11.9
29.9
22.0
12.6
34.6
16.4
15.9
32.3
15.1
16.4
31.5
14.6
18.4
33.0
10.3
25.2
35.5
Limit
Margin
(dBµV/m)
40.0
40.0
43.5
43.5
43.5
43.5
43.5
43.5
46.0
46.0
46.0
46.0
54.0
(dB)
2.8
14.5
7.0
23.4
18.1
15.4
15.2
13.6
11.4
13.7
14.5
13.0
18.5
Sample calculation of final values:
Final Value (dBµV/m)
Test Report No. 14912-03335-1 (Edition 1)
Reading Value (dBµV) + Correction Factor (dB/m)
+ Pulse Train Correction (dB)
Page 40 of 59 Pages
TÜV SÜD SENTON GmbH
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Carrier Frequency Stability
Rules and specifications:
CFR 47 Part 15, section 15.225(e)
IC RSS-Gen Issue 3, section 4.7 and IC RSS-210 Issue 8, section A2.6
Guide:
ANSI C63.4
Limit:
The frequency tolerance of the carrier signal shall be maintained within ±0.01
% (±100 ppm) of the carrier frequency under nominal conditions.
Temperature range:
Voltage range:
-20°C to +50°C (at normal supply voltage)
85% to 115% of the rated supply voltage (at a temperature of +20°C)
Measurement procedure:
Carrier Frequency Stability (6.5)
Comment:
Date of test:
January 18, 2011
Test Report No. 14912-03335-1 (Edition 1)
Page 41 of 59 Pages
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Carrier Frequency Stability vs. Temperature
Frequency Tolerance
Upper Limit
Lower Limit
Frequency Tolerance (ppm)
150.0
100.0
50.0
0.0
-50.0
-100.0
-150.0
-20
-10
±0
+10
+20
+30
+40
+50
Temperature (°C)
Supply voltage:
Temperature
(°C)
-20
-10
±0
+10
+20
+30
+40
+50
Test Result:
24 V
Frequency
(MHz)
13.559511
13.559524
13.559503
13.559474
13.559429
13.559393
13.559360
13.559352
13.559429 MHz
Nominal frequency:
Frequency Tolerance
(Hz)
(ppm)
82
6.0
95
7.0
74
5.5
45
3.3
0.0
-36
-2.7
-69
-5.1
-77
-5.7
Upper Limit
(ppm)
+100.0
+100.0
+100.0
+100.0
+100.0
+100.0
+100.0
+100.0
Lower Limit
(ppm)
-100.0
-100.0
-100.0
-100.0
-100.0
-100.0
-100.0
-100.0
Margin
(ppm)
94.0
93.0
94.5
96.7
100.0
97.3
94.9
94.3
Test passed
Test Report No. 14912-03335-1 (Edition 1)
Page 42 of 59 Pages
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Carrier Frequency Stability vs. Supply Voltage
Frequency Tolerance
Upper Limit
Lower Limit
Frequency Tolerance (ppm)
150.0
100.0
50.0
0.0
-50.0
-100.0
-150.0
28
26
25
24
23
22
20
Supply Voltage (V)
Temperature:
Nominal frequency:
Supply Voltage
(V)
28
26
25
24
23
22
20
Test Result:
+20 °C
13.559429 MHz
Frequency
(MHz)
13.559429
13.559429
13.559429
13.559429
13.559429
13.559430
13.559430
Frequency Tolerance
(Hz)
(ppm)
0.0
0.0
0.0
0.0
0.0
0.1
0.1
Battery End Point:
Upper Limit
(ppm)
+100.0
+100.0
+100.0
+100.0
+100.0
+100.0
+100.0
1V
Lower Limit
(ppm)
-100.0
-100.0
-100.0
-100.0
-100.0
-100.0
-100.0
Margin
(ppm)
100.0
100.0
100.0
100.0
100.0
99.9
99.9
Test passed
Test Report No. 14912-03335-1 (Edition 1)
Page 43 of 59 Pages
Phone:
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Guide:
IC RSS-102 Issue 4, section 2.5
Exposure of Humans to RF Fields
Exemption
IC RSS-Gen Issue 3, section 5.5
Measured
Rules and specifications:
Declared by
applicant
Exposure of Humans to RF Fields
Applicable
8.9
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The antenna is
detachable
The conducted output power (CP in watts) is measured at the antenna
connector:
CP = ................ W
The effective isotropic radiated power (EIRP in watts) is calculated using
G = ................
the numerical antenna gain:
EIRP = G ⋅ CP ⇒ EIRP = ................ W
the field strength8 in V/m:
FS = ................ V/m
EIRP =
( FS ⋅ D)
⇒ EIRP = ................ W
30
with:
D = ................ m
Distance between the antennas in m:
not detachable
A field strength measurement is used to determine the effective isotropic
radiated power (EIRP in watts) given by8:
EIRP =
( FS ⋅ D) 2
⇒ EIRP = 2.92 nW
30
with:
Field strength in V/m:
Distance between the two antennas in m:
FS = 98.86 µV/m
D =3m
Selection of output power
The output power TP is the higher of the conducted or effective isotropic radiated
power (e.i.r.p.):
TP = 2.92 nW
The conversion formula is valid only for properly matched antennas. In other cases the transmitter output
power may have to be measured by a terminated measurement when applying the exemption clauses.
If an open area test site is used for field strength measurement, the effect due to the metal ground reflecting
plane should be subtracted from the maximum field strength value in order to reference it to free space, before
calculating TP.
Test Report No. 14912-03335-1 (Edition 1)
Page 44 of 59 Pages
Exemption
Exposure of Humans to RF Fields (continued)
Measured
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Declared by
applicant
Phone:
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Applicable
TÜV SÜD SENTON GmbH
Äußere Frühlingstraße 45
94315 Straubing
Germany
Separation distance between the user and the transmitting device is
less than or equal to 20 cm
greater than 20 cm
Transmitting device is
in the vicinity of the human head
body-worn
SAR evaluation
SAR evaluation is required if the separation distance between the user and the
device is less than or equal to 20 cm.
The device operates from 3 kHz up to 1 GHz inclusively and with output power
(i.e. the higher of the conducted or equivalent isotropically radiated power
(e.i.r.p.) source-based, time-averaged output power) that is less than or equal to
200 mW for general public use and 1000 mW for controlled use.
The device operates above 1 GHz and up to 2.2 GHz inclusively and with output
power (i.e. the higher of the conducted or radiated (e.i.r.p.) source-based, timeaveraged output power) that is less than or equal to 100 W for general public
use and 500 W for controlled use.
The device operates above 2.2 GHz and up to 3 GHz inclusively and with output
power (i.e. the higher of the conducted or radiated (e.i.r.p.) source-based, timeaveraged output power) that is less than or equal to 20 mW for general public
use and 100 mW for controlled use.
The device operates above 3 GHz and up to 6 GHz inclusively and with output
power (i.e. the higher of the conducted or radiated (e.i.r.p.) source-based, timeaveraged output power) that is less than or equal to 10 mW for general public
use and 50 mW for controlled use.
SAR evaluation is documented in test report no. ............................
RF exposure evaluation
RF exposure evaluation is required if the separation distance between the user and
the device is greater than 20 cm.
The device operates below 1.5 GHz and the maximum e.i.r.p. of the device is
equal to or less than 2.5 W.
The device operates at or above 1.5 GHz and the maximum e.i.r.p. of the
device is equal to or less than 5 W.
RF exposure evaluation is documented in test report no. ............................
Test Report No. 14912-03335-1 (Edition 1)
Page 45 of 59 Pages
Phone:
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Referenced Regulations
All tests were performed with reference to the following regulations and standards:
CFR 47 Part 2
Code of Federal Regulations Part 2 (Frequency
October 1, 2010
allocation and radio treaty matters; General rules and
regulations) of the Federal Communication
Commission (FCC)
CFR 47 Part 15 Code of Federal Regulations Part 15 (Radio
Frequency Devices) of the Federal Communication
Commission (FCC)
October 1, 2010
ANSI C63.4
American National Standard for Methods of
Measurement of Radio-Noise Emissions from LowVoltage Electrical and Electronic Equipment in the
Range of 9 kHz to 40 GHz
December 11, 2003
(published on
January 30, 2004)
RSS-Gen
Radio Standards Specification RSS-Gen Issue 3
December 2010
containing General Requirements and Information for
the Certification of Radiocommunication Equimpment,
published by Industry Canada
RSS-210
Radio Standards Specification RSS-210 Issue 8 for
Low Power Licence-Exempt Radiocommunication
Devices (All Frequency Bands): Category I
Equipment, published by Industry Canada
RSS-310
Radio Standards Specification RSS-310 Issue 3 for
December 2010
Low-power Licence-exempt Radiocommunication
Devices (All Frequency Bands):
Category II Equipment, published by Industry Canada
RSS-102
Radio Standards Specification RSS-102 Issue 4:
Radio Frequency (RF) Exposure Compliance of
Radiocommunication Apparatus (All Frequency
Bands), published by Industry Canada
March 2010
ICES-003
Interference-Causing Equipment Standard ICES-003
Issue 4 for Digital Apparatus, published by Industry
Canada
February 7, 2004
CISPR 22
Third Edition of the International Special Committee
1997
on Radio Interference (CISPR), Pub. 22, “Information
Technology Equipment – Radio Disturbance
Characteristics – Limits and Methods of
Measurement”
Test Report No. 14912-03335-1 (Edition 1)
December 2010
Page 46 of 59 Pages
TÜV SÜD SENTON GmbH
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CAN/CSACEI/IEC
CISPR 22
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Limits and Methods of Measurement of Radio
Disturbance Characteristics of Information
Technology Equipment
2002
CAN/CSA CISPR 22-10
Information technology equipment Radio disturbance characteristics Limits and methods of measurement
(Adopted IEC CISPR 22:2008, sixth edition, 2008-09)
CAN/CSA
CISPR 22-10
Information technology equipment 2010
Radio disturbance characteristics Limits and methods of measurement
(Adopted IEC CISPR 22:2008, sixth edition, 2008-09)
TRC-43
Notes Regarding Designation of Emissions (Including October, 2008
Necessary Bandwidth and Classification), Class of
Station and Nature of Service, published by Industry
Canada
Test Report No. 14912-03335-1 (Edition 1)
Page 47 of 59 Pages
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Revision History
Revision History
Edition
Date
Issued by
Modifications
24.01.11
M. Steindl (cj)
First Edition
Test Report No. 14912-03335-1 (Edition 1)
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Charts taken during testing
Test Report No. 14912-03335-1 (Edition 1)
Page 49 of 59 Pages
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100
90
80
70
Level in dBµV/m
60
50
40
30
20
10
-10
-20
9k
20
30
50
100k
200 300
500
1M
2M 3M
5M
10M
20 30M
Frequency in Hz
EN 300 330 tx mag
FCC 15.209 mag (10 m)
MaxPeak-ClearWrite-PK+
Final Result 1-QPK
Test Report No. 14912-03335-1 (Edition 1)
Page 56 of 59 Pages
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80
75
70
65
60
55
Level in dBµV/m
50
45
40
35
30
25
20
15
10
30M
50
60
80
100M
200
300
400
500
800
1G
Frequency in Hz
FCC 15.209
MaxPeak-MaxHold-PK+
MaxPeak-MaxHold-PK+
Final Result 1-QPK
Test Report No. 14912-03335-1 (Edition 1)
Page 57 of 59 Pages
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Calibration Data
Test Report No. 14912-03335-1 (Edition 1)
Page 58 of 59 Pages
Page 59 of 59
1028
1711
2044
1666
1059
1016
1802
1653
EMI test receiver
EMI test receiver
EMI test receiver
Spectrum analyser
V-network
Loop antenna
TRILOG Broadband Antenna
Multimeter
21 III
VULB 9163
HFH2-Z2
ESH3-Z5
FSP30
ESU8
ESPI7
ESHS10
Type Designation
Note: Date of next calibration contains maximum tolerance if applicable.
Inv.-No.
Type
Test report number(s):14912-03335-1
Schwarzbeck
Fluke
76530546
Rohde & Schwarz
Rohde & Schwarz
Rohde & Schwarz
Rohde & Schwarz
Rohde & Schwarz
Rohde & Schwarz
Manufacturer
9163-214
882964/0001
894785/005
100063
100232
836914/0002
860043/016
Serial Number
ZMK
Schwarzbeck
Rohde & Schwarz
Rohde & Schwarz
Rohde & Schwarz
Rohde & Schwarz
Rohde & Schwarz
Rohde & Schwarz
Calibration Organization
December 2010 / January 2011
Date of test:
Test Equipment List with Calibration Data
11/2010
11/2009
09/2009
11/2010
11/2009
12/2010
09/2009
10/2010
Last
11/2012
05/2011
03/2011
11/2012
05/2011
06/2012
03/2011
04/2012
Next
Date of Calibration

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