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TRANSCRIPT
REGISTRATION #6844A-1
Testing Laboratory
Certificate # 2555.01
R-2621
C-2864
REG#612361
Page 1 of 63 Report issued:
6/7/2010
GEMC File #: GEMC-CEFCC-19672R1
© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc.
This report is based on GEMC report template „CISPR22_24_EMC-EMI_Rev4”
Global EMC Labs
EMC / EMI Test Report
As per
CISPR 22:2006/EN55022:2006 (Class B)
& CISPR 24:1997/EN55024:1998 (+A1 +A2)
Emissions & Immunity for
Information Technology Equipment
on the
B601DE and B601E
Testing produced for
Sangoma Technologies
See appendix A for full customer & EUT details.
Min Xie Project Engineer
Global EMC Inc.
180 Brodie Dr, Unit 2 Richmond Hill, ON L4B 3K8 CANADA
Ph: (905) 883-8189
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
Page 2 of 63 Report issued: 6/7/2010 GEMC File #: GEMC-CEFCC-19672R1
© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Table of Contents
Table of Contents ................................................................................................................... 2
Report Scope .......................................................................................................................... 3
Summary ................................................................................................................................ 4
Test Results Summary ....................................................................................................... 5 Justifications or Deviations ................................................................................................ 6
Applicable Standards, Specifications and Methods ............................................................... 7
Document Revision Status ................................................................................................. 8
Definitions and Acronyms ..................................................................................................... 9
Testing Facility .................................................................................................................... 10
Calibrations and Accreditations ....................................................................................... 10 Testing Environmental Conditions and Dates ................................................................. 11
Detailed Test Result Section ................................................................................................ 12
Power Line Conducted Emissions ................................................................................... 13 Telecom Line Conducted Emissions ............................................................................... 22
Radiated Emissions .......................................................................................................... 31 Electro-Static Discharge .................................................................................................. 37
Radiated Field Immunity ................................................................................................. 40 Electrical Fast Transients / Bursts .................................................................................... 43 Conducted RF Immunity.................................................................................................. 45
Appendix A – Client Provided Details ................................................................................ 48
Appendix B – EUT & Test Setup Photos ............................................................................ 51
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
Page 3 of 63 Report issued: 6/7/2010 GEMC File #: GEMC-CEFCC-19672R1
© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Report Scope
This report addresses the EMC verification testing and test results of the B601DE and
B601E, herein referred to as EUT (Equipment under test). The EUT was tested for
emission and immunity compliance against the following standards:
ICES – 003 Issue 4: 2004 / FCC Part 15 Subpart B: 2010
CISPR 22:2006
CISPR 24:1997
For a more detailed list of the standards and the revision used, see the “Applicable
Standards, Specifications and Methods” section of this report.
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
Page 4 of 63 Report issued: 6/7/2010 GEMC File #: GEMC-CEFCC-19672R1
© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Summary
The results contained in this report relate only to the item(s) tested. This report does not
imply product endorsement by any government, or Global EMC.
Equipment under test B601DE & B601D
EUT Passed all tests performed. Yes
Tests conducted by Min Xie
For testing dates see „Testing Environmental Conditions‟.
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
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© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Test Results Summary
Standard/Method Description Criteria Class / Level Result
CISPR 22 Mains Conducted Emissions N/A Class B Pass
CISPR 22 Telecom port conducted
emissions N/A Class B Pass
CISPR 22 Radiated Emissions N/A Class B Pass
IEC 61000-4-2 Electrostatic Discharge B 4kV Contact
8kV Air Pass
IEC 61000-4-3 Radiated Susceptibility A 3 V/m Pass
IEC 61000-4-4 Electrical Fast Transients B 500 V I/O Pass
IEC 61000-4-6 Conducted Susceptibility A 3 Vrms Pass
Overall Result PASS
If the product as tested complies with the specification or requirement, the EUT is deemed
to comply and is issued a „PASS‟ grade. If not „FAIL‟ grade will be issued. A pass
requiring modifications is denoted with a „*‟, and the modifications are listed in „Appendix
A – Client Provided Details‟.
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
Page 6 of 63 Report issued: 6/7/2010 GEMC File #: GEMC-CEFCC-19672R1
© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Justifications or Deviations
The following justifications for tests not performed or deviations from the above listed
specifications apply:
Surges are not performed on the EUT; as per manufacturer, telecommunication ports do not
connect directly to outdoor cable.
Power Frequency Magnetic field test was not performed on the EUT because the EUT does
not contain any devices susceptible to magnetic fields.
A later revision of the standard may have been substituted in place of the previous dated
referenced revision. The year of the specification used are listed under applicable
standards. Using the later revision accomplishes the goal of ensuring compliance to the
intent of the previous specification, while allowing the laboratory to incorporate the
extensions and clarifications made available by a later revision.
The B601D and B601DE are PCI and PCIe analog telephony cards respectively; they
belong to the B600 series of analog voice PCI and/PCIe cards. The “1” in the model name
denotes that the B600 has a T1/E1 daughter card and the D denotes that it has an echo
cancellation daughter card.
This report documents the testing of B601D and B601DE for tests listed in “Test Results
Summary.”
The following are other models representing the family:
B600
B600D
B601
B601D
B600E
B600DE
B601E
B601DE
The samples mentioned above were chosen as a representative sample of a fully configured
B600 analog voice card.
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
Page 7 of 63 Report issued: 6/7/2010 GEMC File #: GEMC-CEFCC-19672R1
© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Applicable Standards, Specifications and Methods
ANSI C63.4:2003 - Methods of Measurement of Radio-Noise Emissions from Low-Voltage
Electrical and Electronic Equipment in the Range of 9 kHz to 40 GHz
CFR 47 FCC 15: 2010 Code of Federal Regulations – Radio Frequency Devices
ICES – 003: 2004 Digital Apparatus – Spectrum Management and Telecommunications Policy
Interference Causing Equipment Standard
CISPR22:2006 - Information technology equipment – Radio disturbance characteristics – Limits
and methods of measurement
CISPR24:1997 -- Information technology equipment – Immunity characteristics – Limits and
methods of measurement
IEC 61000-3-2:2005 Limits for harmonic current emissions (equipment input current ≤16 A per phase)
IEC 61000-3-3:1995+A1:2001+A2:2005
Limits – Limitation of voltage changes, voltage fluctuations and flicker in public
low-voltage supply systems, for equipment with rated current ≤16 A per phase and
not subject to conditional connection
IEC 61000-4-2:2001 Testing and measurement techniques –Electrostatic discharge immunity test
IEC 61000-4-3:2002 Testing and measurement techniques – Radiated, radio-frequency, electromagnetic
field immunity test
IEC 61000-4-4:2004 Testing and measurement techniques – Electrical fast transient/burst immunity test
IEC 61000-4-5:2004 Testing and measurement techniques - Surge immunity test
IEC 61000-4-6:2003 Testing and measurement techniques – Immunity to conducted disturbances,
induced by radio-frequency fields
IEC 61000-4-8:2001 Testing and measurement techniques – Power frequency magnetic field immunity
test
IEC 61000-4-11:2004 Testing and measurement techniques – Voltage dips, short interruptions and
voltage variations immunity tests
ISO 17025:2005 - General Requirements for the competence of testing and calibration laboratories
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
Page 8 of 63 Report issued: 6/7/2010 GEMC File #: GEMC-CEFCC-19672R1
© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Document Revision Status
Revision 1 -June-07, 2009
- First Release
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
Page 9 of 63 Report issued: 6/7/2010 GEMC File #: GEMC-CEFCC-19672R1
© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Definitions and Acronyms
The following definitions and acronyms are applicable in this report.
See also ANSI C63.14.
AE – Auxiliary Equipment.
Class A device – A device that is marketed for use in a commercial, industrial or business
environment. A „Class A‟ device should not be marketed for use by the general public . A
„Class A‟ device should contain the following warning in it‟s user manual: “Warning:
This is a Class A product. In a domestic environment this product may cause radio
interference, in which case the user may be required to take adequate measures.”
Class B device – A device that is marketed for use in a residential environment and may
also be used in a commercial, business or industrial environments. A „Class B‟ device may
also be defined as a device to which a broadcast radio or television receivers would be
expected within a distance of 10 m of the device concerned.
EMC – Electro-Magnetic Compatibility
EMI – Electro-Magnetic Immunity
EUT – Equipment Under Test
ITE – Information Technology Equipment - has a primary function of entry, storage,
display, retrieval, transmission, processing, switching, or control, of data and of
telecommunication messages and which may be equipped with one or more terminal ports
typically operated for information transfer.
LISN – Line impedance stabilization network
NCR – No calibration required
RF – Radio Frequency
Test Plan – See „Appendix B – Client Provided Details‟. This should be made available
prior to testing.
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
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© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Testing Facility
Testing for EMC on the EUT was carried out at Global EMC labs in Toronto, Ontario,
Canada. The testing lab consists of a 3m semi-anechoic chamber calibrated to be able to
allow measurements on an EUT with a maximum width or length of up to 2m and height
up to 3m. The chamber is equipped with a turn table that is capable of testing devices up to
3300lb in weight. This facility is capable of testing products that are rated for 120 Vac and
240Vac single phase, or 208 Vac 3 phase input. DC capability is also available. The
chamber is equipped with an antenna mast that controls polarization and height from the
control room adjoining the shielded chamber. Radiated emissions measurements are
performed using a Bilog, and Horn antenna where applicable. Conducted emissions, unless
otherwise stated, are performed using a LISN and using the Vertical Ground plane.
Calibrations and Accreditations
The 3m semi-anechoic chamber is registered with Federal Communications Commission
(FCC, 612361), Industry Canada (IC, 6844A-1) and VCCI (R-2621 and C-2864). This
chamber was calibrated for Normalized Site Attenuation (NSA) using test procedures
outlined in ANSI C63.4 “Methods of Measurement of Radio-Noise Emissions from Low-
Voltage Electrical and Electronic Equipment in the Range of 9 kHz to 40 GHz”. The
chamber is lined with ferrite tiles and absorption cones to minimize any undesired
reflections. The NSA data is kept on file at Global EMC. For radiated susceptibility
testing, a 16 point field calibration has been performed on the chamber. The field
uniformity data is kept on file at Global EMC. Global EMC Inc is accredited to ISO 17025
by A2LA with Testing Certificate #2555.01. The laboratories current scope of
accreditation listing can be found as listed on the A2LA website. All measuring equipment
is calibrated on an annual or bi-annual basis as listed for each respective test.
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
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© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Testing Environmental Conditions and Dates
Following environmental conditions were recorded in the facility during time of testing –
Date Test Init. Temperature
(ºC)
Humidity
(%)
Pressure
(kPa)
Apr-16 – 28,
2010
RE MX 21-23 ºC 45 – 49 % 100 - 102
Apr-16 – 28,
2010
CE MX 21-23 ºC 45 – 49 % 100 - 102
Apr-16 – 28,
2010
ESD MX 21-23 ºC 45 – 49 % 100 - 102
Apr-16 – 28,
2010
RS MX 21-23 ºC 45 – 49 % 100 - 102
Apr-16 – 28,
2010
EFT MX 21-23 ºC 45 – 49 % 100 - 102
Apr-16 – 28,
2010
CS MX 21-23 ºC 45 – 49 % 100 - 102
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
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© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Detailed Test Result Section
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
Page 13 of 63 Report issued: 6/7/2010 GEMC File #: GEMC-CEFCC-19672R1
© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Power Line Conducted Emissions
Purpose The purpose of this test is to ensure that the RF energy unintentionally emitted from the
EUT‟s power line does not exceed the limits listed below as defined in the applicable test
standard, as measured from a LISN. This helps protect lower frequency radio services such
as AM radio, shortwave radio, amateur radio operators, maritime radio, CB radio, and so
on, from unwanted interference.
Limits & Method The limits and method are as defined in CISPR 22 and EN55022
Average Limits QuasiPeak Limits
150 kHz – 500 kHz 56 to 46 dBuV 150 kHz – 500 kHz 66 to 56 dBuV
500 kHz – 5 MHz 46 dBuV 500 kHz – 5 MHz 56 dBuV
5 MHz – 30 MHz 50 dBuV 5 MHz – 30 MHz 60 dBuV The limit decreases linearly with the logarithm of the frequency in the range 0.15 MHz to 0.50 MHz.
Note: If the Peak or Quasi Peak detector measurements do not exceed the Average limits,
then the EUT is deemed to have passed the requirements.
Both limits are applicable, and each is specified as being measured with a 9 kHz
measurement bandwidth.
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
Page 14 of 63 Report issued: 6/7/2010 GEMC File #: GEMC-CEFCC-19672R1
© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Typical Setup Diagram
Measurement Uncertainty The expanded measurement uncertainty is calculated in accordance with CISPR 16-4-2 and
is +/-3.6 dB with a „k=2‟ coverage factor and a 95% confidence level.
Preliminary Graphs Note the graphs shown below are for graphical illustration only. For final measurements
with the appropriate detector where applicable, please refer to the table. The graph shown
below is a peak measurement graph, measured with a resolution bandwidth greater than or
equal to the final required detector. These graphs are performed as a worst case
measurement to enable the detection of frequencies of concern and for considerable time
savings.
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
Page 15 of 63 Report issued: 6/7/2010 GEMC File #: GEMC-CEFCC-19672R1
© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
L1 (Line)
120Vac @ 60Hz
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
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© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
L2 (Neutral)
120Vac @ 60Hz
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
Page 17 of 63 Report issued: 6/7/2010 GEMC File #: GEMC-CEFCC-19672R1
© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
L1 (Line)
230Vac @ 50Hz
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
Page 18 of 63 Report issued: 6/7/2010 GEMC File #: GEMC-CEFCC-19672R1
© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
L2 (Neutral)
230Vac @ 50Hz
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
Page 19 of 63 Report issued: 6/7/2010 GEMC File #: GEMC-CEFCC-19672R1
© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Final Measurements Product Category Class B
Product B601
Supply 120Vac @ 60Hz
L1 (Line) - Quasi-Peak
Frequency (MHz)
Raw (dBuV)
Atten Factor (dB)
Cable Loss (dB)
LISN Factor (dB)
Level (dBuV)
Limit (dB)
Margin (dB)
Pass/Fail
4.02043 29.1 10 0.2 0.2 39.5 56 16.5 Pass
4.5783 28.3 10 0.2 0.2 38.7 56 17.3 Pass
3.78716 28.2 10 0.2 0.2 38.6 56 17.4 Pass
0.63072 28.9 10 0.1 0.2 39.2 56 16.8 Pass
3.04719 27.8 10 0.1 0.2 38.1 56 17.9 Pass
2.94297 27.4 10 0.1 0.2 37.7 56 18.3 Pass
L1 (Line) - Average
4.02043 19.7 10 0.2 0.2 30.1 46 15.9 Pass
4.5783 20.4 10 0.2 0.2 30.8 46 15.2 Pass
3.78716 18.5 10 0.2 0.2 28.9 46 17.1 Pass
0.63072 16.5 10 0.1 0.2 26.8 46 19.2 Pass
3.04719 16.2 10 0.1 0.2 26.5 46 19.5 Pass
2.94297 16.1 10 0.1 0.2 26.4 46 19.6 Pass
L2 (Neutral ) - Quasi-Peak
1.24132 24.2 10 0.1 0.2 34.5 56 21.5 Pass
1.05539 23.8 10 0.1 0.2 34.1 56 21.9 Pass
3.50598 23 10 0.1 0.2 33.3 56 22.7 Pass
0.64097 23.4 10 0.1 0.2 33.7 56 22.3 Pass
3.76612 22.1 10 0.2 0.2 32.5 56 23.5 Pass
2.33415 14.7 10 0.1 0.2 25 56 31 Pass
L2 (Neutral ) - Average
1.24132 9.4 10 0.1 0.2 19.7 46 26.3 Pass
1.05539 9.5 10 0.1 0.2 19.8 46 26.2 Pass
3.50598 11.1 10 0.1 0.2 21.4 46 24.6 Pass
0.64097 10.9 10 0.1 0.2 21.2 46 24.8 Pass
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
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© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
3.76612 13.1 10 0.2 0.2 23.5 46 22.5 Pass
2.33415 8.9 10 0.1 0.2 19.2 46 26.8 Pass
Product Category Class B
Product B601
Supply 230Vac @ 50 Hz
L1 (Line) - Quasi-Peak
Frequency (MHz)
Raw (dBuV)
Atten Factor (dB)
Cable Loss (dB)
LISN Factor (dB)
Level (dBuV)
Limit (dB)
Margin (dB)
Pass/Fail
0.87675 30.3 10 0.1 0.2 40.6 56 15.4 Pass
0.35536 30.8 10 0.1 0.3 41.2 58.8 17.6 Pass
1.04978 29.4 10 0.1 0.2 39.7 56 16.3 Pass
1.56073 28.6 10 0.1 0.2 38.9 56 17.1 Pass
0.99272 29.9 10 0.1 0.2 40.2 56 15.8 Pass
4.22008 29.2 10 0.2 0.2 39.6 56 16.4 Pass
L1 (Line) - Average
0.87675 18.3 10 0.1 0.2 28.6 46 17.4 Pass
0.35536 19.6 10 0.1 0.3 30 48.8 18.8 Pass
1.04978 18.7 10 0.1 0.2 29 46 17 Pass
1.56073 17.7 10 0.1 0.2 28 46 18 Pass
0.99272 18.6 10 0.1 0.2 28.9 46 17.1 Pass
4.22008 18.3 10 0.2 0.2 28.7 46 17.3 Pass
L2 (Neutral ) - Quasi-Peak
3.60362 25.4 10 0.1 0.2 35.7 56 20.3 Pass
0.43607 26.3 10 0.1 0.2 36.6 57.1 20.5 Pass
2.76322 24.3 10 0.1 0.2 34.6 56 21.4 Pass
1.2419 24.5 10 0.1 0.2 34.8 56 21.2 Pass
2.48999 25.4 10 0.1 0.2 35.7 56 20.3 Pass
2.30617 23.9 10 0.1 0.2 34.2 56 21.8 Pass
L2 (Neutral ) - Average
3.60362 10.9 10 0.1 0.2 21.2 46 24.8 Pass
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
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© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
0.43607 9.7 10 0.1 0.2 20 47.1 27.1 Pass
2.76322 9 10 0.1 0.2 19.3 46 26.7 Pass
1.2419 9.1 10 0.1 0.2 19.4 46 26.6 Pass
2.48999 10 10 0.1 0.2 20.3 46 25.7 Pass
2.30617 8.9 10 0.1 0.2 19.2 46 26.8 Pass
Note: See „Appendix B – EUT & Test Setup Photographs‟ for photos showing the test set-
up for the highest line conducted emission
Test Equipment List
Equipment Model No. Manufacturer
Last
calibration
date
Next
calibration
due date
Asset #
IFR Spectrum Analyzer AN940 IFR 12/29/2009 12/29/2011
GEMC 6350
LISN
FCC-LISN-50/250-16-2-
01 FCC 2009-02-11 2011-02-11 GEMC 65
RF Cable 7m
LMR-400-7M-50OHM-MN-
MN LexTec NCR NCR GEMC 28
RF Cable 1m
LMR-400-1M-50OHM-MN-
MN LexTec NCR NCR GEMC 29
Attenuator 10 dB FP-50-10 Trilithic NCR NCR GEMC 42
This report module is based on GEMC template “CISPR22 – Power Line Conducted Emissions Class B_Rev1”
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
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© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Telecom Line Conducted Emissions
Purpose The purpose of this test is to ensure that the RF energy unintentionally emitted from the
EUT‟s telecom line does not exceed the limits listed below as defined in the applicable test
standard, as measured from a Telcom LISN. This helps protect lower frequency radio
services such as AM radio, shortwave radio, amateur radio operators, maritime radio, CB
radio, and so on, from unwanted interference. This also protects other telecom equipment
from unwanted emissions which may degrade the overall performance of the network.
Limits & Method The voltage limits and method are as defined in CISPR 22 and EN55022
Average Limits Quasi-Peak Limits
150 kHz – 500 kHz 74 to 64 dBuV 150 kHz – 500 kHz 84 to 74 dBuV
500 kHz – 30 MHz 64 dBuV 500 kHz – 30 MHz 74 dBuV The limit decreases linearly with the logarithm of the frequency in the range 0.15 MHz to 0.50 MHz.
Shield Cable Limits
Current Limits
Average Limits Quasi-Peak Limits
150 kHz – 500 kHz 30 to 20 dBuV 150 kHz – 500 kHz 40 to 30 dBuV
500 kHz – 30 MHz 20 dBuV 500 kHz – 30 MHz 30 dBuV
Voltage Limits
Average Limits Quasi-Peak Limits
150 kHz – 500 kHz 74 to 64 dBuV 150 kHz – 500 kHz 84 to 74 dBuV
500 kHz – 30 MHz 64 dBuV 500 kHz – 30 MHz 74 dBuV The limit decreases linearly with the logarithm of the frequency in the range 0.15 MHz to 0.50 MHz.
Note: If the Peak or Quasi Peak detector measurements do not exceed the Average limits,
then the EUT is deemed to have passed the requirements. Current measurements were not
required as this measurement was performed with a T-LISN offering 150 ohm impedance.
Both limits are applicable, and each is specified as being measured with a 9 kHz
measurement bandwidth.
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
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© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Typical Setup Diagram
Measurement Uncertainty The expanded measurement uncertainty is calculated in accordance with CISPR 16-4-2 and
is +/-3.1 dB with a „k=2‟ coverage factor and a 95% confidence level.
Preliminary Graphs Note the graphs shown below are for graphical illustration only. For final measurements
with the appropriate detector where applicable, please refer to the table. The graph shown
below is a peak measurement graph, measured with a resolution bandwidth greater then or
equal to the final required detector. The graph measurements are performed as a worst case
measurement to enable the detection of frequencies of concern and for considerable time
savings.
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
Page 24 of 63 Report issued: 6/7/2010 GEMC File #: GEMC-CEFCC-19672R1
© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Telecom Line (RJ11)
FXS Port
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
Page 25 of 63 Report issued: 6/7/2010 GEMC File #: GEMC-CEFCC-19672R1
© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Telecom Line (RJ11)
FX0 Port
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
Page 26 of 63 Report issued: 6/7/2010 GEMC File #: GEMC-CEFCC-19672R1
© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Telecom Line (RJ45)
PRI Port – Current Measurement
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
Page 27 of 63 Report issued: 6/7/2010 GEMC File #: GEMC-CEFCC-19672R1
© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Telecom Line (RJ45)
PRI Port – Voltage Measurement
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
Page 28 of 63 Report issued: 6/7/2010 GEMC File #: GEMC-CEFCC-19672R1
© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Final Measurements
Product Category Class B
Product B601
Supply 230Vac @ 50Hz
Port RJ11, FXS
Quasi-Peak
Frequency (MHz)
Raw (dBuV)
Atten Factor (dB)
Cable Loss (dB)
LISN Factor (dB)
Level (dBuV)
Limit (dB)
Margin (dB)
Pass/Fail
0.63031 41 10 0.1 9.9 61 74 13 Pass
0.62702 41.2 10 0.1 9.9 61.2 74 12.8 Pass
1.25513 39.8 10 0.1 9.8 59.7 74 14.3 Pass
0.2045 42.1 10 0.1 10 62.2 81.4 19.2 Pass
1.25413 38.5 10 0.1 9.8 58.4 74 15.6 Pass
23.85304 37.2 10 0.4 10.3 57.9 74 16.1 Pass
Average
0.63031 37.8 10 0.1 9.9 57.8 64 6.2 Pass
0.62702 38.5 10 0.1 9.9 58.5 64 5.5 Pass
1.25513 38.7 10 0.1 9.8 58.6 64 5.4 Pass
0.2045 34.3 10 0.1 10 54.4 71.4 17 Pass
1.25413 38.2 10 0.1 9.8 58.1 64 5.9 Pass
23.85304 35.6 10 0.4 10.3 56.3 64 7.7 Pass
Product Category Class B
Product B601
Supply 230Vac @ 50Hz
Port RJ11, FX0
Quasi-Peak
Frequency (MHz)
Raw (dBuV)
Atten Factor (dB)
Cable Loss (dB)
LISN Factor (dB)
Level (dBuV)
Limit (dB)
Margin (dB)
Pass/Fail
1.25664 44.7 10 0.1 9.8 64.6 74 9.4 Pass
1.88384 42.5 10 0.1 9.8 62.4 74 11.6 Pass
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
Page 29 of 63 Report issued: 6/7/2010 GEMC File #: GEMC-CEFCC-19672R1
© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
0.62833 40.2 10 0.1 9.9 60.2 74 13.8 Pass
23.85343 37.4 10 0.4 10.3 58.1 74 15.9 Pass
18.20366 37.1 10 0.3 10.2 57.6 74 16.4 Pass
24.48276 37.1 10 0.4 10.3 57.8 74 16.2 Pass
Average
1.25664 30.8 10 0.1 9.8 50.7 64 13.3 Pass
1.88384 30.4 10 0.1 9.8 50.3 64 13.7 Pass
0.62833 30.2 10 0.1 9.9 50.2 64 13.8 Pass
23.85343 32.9 10 0.4 10.3 53.6 64 10.4 Pass
18.20366 28 10 0.3 10.2 48.5 64 15.5 Pass
24.48276 31.6 10 0.4 10.3 52.3 64 11.7 Pass
Product Category Class B
Product B601
Supply 230Vac @ 50Hz
Port PRI, RJ45 with shield cable
Peak with respect to Quasi-Peak Limit – Current Measurement
Frequency (MHz)
Raw (dBuV)
Atten Factor (dB)
Cable Loss (dB)
LISN Factor (dB)
Level (dBuV)
Limit (dB)
Margin (dB)
Pass/Fail
2.9105 19.8 10 0.1 0 29.9 30 0.1 Pass
9.7835 19.1 10 0.2 -0.1 29.2 30 0.8 Pass
0.5762 18.5 10 0.1 0.1 28.7 30 1.3 Pass
27.1523 17.9 10 0.5 -0.2 28.2 30 1.8 Pass
21.4082 17.9 10 0.4 -0.2 28.1 30 1.9 Pass
0.443 18.8 10 0.1 0.1 29 31 2 Pass
Average – Current Measurement
3.144 4.81 10 0.1 0 14.91 20 5.09 Pass
9.856 4.03 10 0.2 -0.1 14.13 20 5.87 Pass
0.5568 5.01 10 0.1 0.1 15.21 20 4.79 Pass
27.13 4.42 10 0.5 -0.2 14.72 20 5.28 Pass
21.353 5.48 10 0.4 -0.2 15.68 20 4.32 Pass
0.46584 4.62 10 0.1 0.1 14.82 20.6 5.78 Pass
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
Page 30 of 63 Report issued: 6/7/2010 GEMC File #: GEMC-CEFCC-19672R1
© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Peak with respect to Average Limit – Voltage Measurement
28.211 18.2 10 0.5 10.4 39.1 64 24.9 Pass
19.54 18.5 10 0.4 10.2 39.1 64 24.9 Pass
6.797 18.5 10 0.2 10 38.7 64 25.3 Pass
23.716 17.9 10 0.4 10.3 38.6 64 25.4 Pass
22.454 17.9 10 0.4 10.2 38.5 64 25.5 Pass
29.743 17.6 10 0.5 10.4 38.5 64 25.5 Pass
Note: See „Appendix B – EUT & Test Setup Photographs‟ for photos showing the test set-
up for the highest line conducted emission
Test Equipment List
Equipment Model No. Manufacturer
Last
calibration
date
Next
calibration
due date
Asset #
IFR Spectrum Analyzer AN940 IFR 12/29/2009 12/29/2011
GEMC 6350
LISN
FCC-LISN-50/250-16-2-
01 FCC 2009-02-11 2011-02-11 GEMC 65
TLISN T8-02 FCC 2009-06-22 2011-06-22 GEMC 126
TLISN Ethernet adapter T8-ALCL-1 FCC 2009-06-22 2011-06-22 GEMC 126
RF Cable 7m
LMR-400-7M-50OHM-MN-
MN LexTec NCR NCR GEMC 28
RF Cable 1m
LMR-400-1M-50OHM-MN-
MN LexTec NCR NCR GEMC 29
Attenuator 10 dB FP-50-10 Trilithic NCR NCR GEMC 42
This report module is based on GEMC template “CISPR22 – Telecom Line Conducted Emissions Class A_Rev2”
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
Page 31 of 63 Report issued: 6/7/2010 GEMC File #: GEMC-CEFCC-19672R1
© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Radiated Emissions
Purpose The purpose of this test is to ensure that the RF energy unintentionally emitted from the
EUT does not exceed the limits listed below as defined in the applicable test standard, as
measured from a receiving antenna. This helps protect broadcast radio services such as
television, FM radio, pagers, cellular telephones, emergency services, and so on, from
unwanted interference.
Limit(s) and Method The limits and method are as defined in CISPR 22 and EN55022
30 MHz – 230 MHz , 30 dBuV/m at 10m, 40.5 dBuV/m at 3m
230 MHz – 1000 MHz, 37 dBuV/m at 10m, 47.5 dBuV/m at 3m
Measurements above 1 GHz are not required as the device did not have clocks exceeding
108 MHz as listed in Appendix A.
This limit is specified as being measured with a 120 kHz measurement bandwidth and a
using a Quasi Peak detector.
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
Page 32 of 63 Report issued: 6/7/2010 GEMC File #: GEMC-CEFCC-19672R1
© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Typical Radiated Emissions Setup
Note: In accordance with CISPR 22 section 10.3.1, testing was performed at a 3 meter test
distance and an extrapolation factor of 10.5 dB was applied.
Measurement Uncertainty The expanded measurement uncertainty is calculated in accordance with CISPR 16-4-2 and
is +/-4.4 dB with a „k=2‟ coverage factor and a 95% confidence level.
Preliminary Graphs Note the graphs shown below are for graphical illustration only. For final measurements
with the appropriate detector, please refer to the final measurement table where applicable.
The graph shown below is a maximized peak measurement graph, measured with a
resolution bandwidth greater then the final required detector and over a full 0-360 rotation.
This peaking process is done as a worst case measurement. This process enables the
detection of frequencies of concern for final measurement, and provides considerable time
savings.
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
Page 33 of 63 Report issued: 6/7/2010 GEMC File #: GEMC-CEFCC-19672R1
© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Vertical – Peak Emissions Graph
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
Page 34 of 63 Report issued: 6/7/2010 GEMC File #: GEMC-CEFCC-19672R1
© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Horizontal – Peak Emissions Graph
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
Page 35 of 63 Report issued: 6/7/2010 GEMC File #: GEMC-CEFCC-19672R1
© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Final Measurements Product Category Class B
Product Name B601
Supply 230Vac 50Hz
Quasi-Peak Emissions Table - Vertical
Frequency (MHz)
Raw (dBuV)
Antenna Factor (dB/m)
Cable RE Factor (dB)
Pre-Amp (dB )
Level (dBuV/m)
Limit (dB)
Margin (dB) Pass/Fail
100.456 57.2 8.8 0.5 -32 34.5 40.5 6 Pass
122.856 55.9 7.4 0.5 -31.9 31.9 40.5 8.6 Pass
229.348 54.2 11.6 0.6 -31.7 34.7 40.5 5.8 Pass
155.621 50.3 9.1 0.5 -31.9 28 40.5 12.5 Pass
167.468 52.5 9 0.5 -31.8 30.2 40.5 10.3 Pass
106.479 50.9 8.7 0.5 -32 28.1 40.5 12.4 Pass
Quasi Peak Emissions Table - Horizontal
167.392 58.2 9 0.5 -31.8 35.9 40.5 4.6 Pass
155.653 52.1 9.1 0.5 -31.9 29.8 40.5 10.7 Pass
163.82 58.1 9 0.5 -31.8 35.8 40.5 4.7 Pass
352.331 61 15.9 0.6 -31.4 46.1 47.5 1.4 Pass
172.024 50.5 9.2 0.5 -31.8 28.4 40.5 12.1 Pass
360.422 58.3 16.1 0.6 -31.3 43.7 47.5 3.8 Pass
Note: See „Appendix B – EUT & Test Setup Photographs‟ for photos showing the test set-
up for the highest line radiated emission
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
Page 36 of 63 Report issued: 6/7/2010 GEMC File #: GEMC-CEFCC-19672R1
© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Test Equipment List
Equipment Model
No. Manufacturer
Last
calibration
date
Next
calibration
due date
Asset #
IFR Spectrum Analyzer AN940 IFR 12/29/2009 12/29/2011 GEMC 6350
BiLog Antenna 3142-C ETS 2009-02-12 2011-02-12 GEMC 8
Attenuator 3 dB FP-50-3 Trilithic NCR NCR GEMC 40
Schaffner Preamp 9kHz -
2 GHz CPA9231A Schaffner 8/26/2008 8/26/2010 GEMC 116
RF Cable 7m
LMR-400-7M-50OHM-MN-
MN LexTec NCR NCR GEMC 28
RF Cable 1m
LMR-400-1M-50OHM-MN-
MN LexTec NCR NCR GEMC 29
RF Cable 0.5M
LMR-400-0.5M-
50OHM-MN-MN LexTec NCR NCR GEMC 31
This report module is based on GEMC template “CISPR22 – Radiated Emissions Class B_Rev1”
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
Page 37 of 63 Report issued: 6/7/2010 GEMC File #: GEMC-CEFCC-19672R1
© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Electro-Static Discharge
Purpose The purpose of this immunity test is to apply a static electricity discharge from the operator
to the EUT, or create a nearby discharge field. An example of can be seen in low humidity
when a person touches an object and creates is a small spark. This spark may be
potentially harmful to the operation of the EUT. Most real life discharges are „air‟ as
shown in the previous example. The „contact‟ method, with related reduced voltages, has
been shown to be roughly equivalent „air‟ in it is severity. „Contact‟ is the preferred
method due to its reproducibility. Contact method will be performed unless the discharge
point is significantly insulated and the insulation can not be easily broken through. This
test ensures a minimum level of immunity which is likely to occur. This test does not
guarantee that the EUT will not experience a higher level which may cause it to fail.
Application Level Requirement This test is performed in accordance with the methodology defined in IEC 61000-4-2. 25
hits in negative and positive polarity will be performed at each defined discharge point on
the EUT. These are called direct discharges, irrespective of contact or air being applied.
Also, Horizontal Coupling Plane (HCP) and the Vertical Coupling Plane(VCP) discharges
will be performed. These are called indirect discharges. For a picture representation of the
EUT discharge points, see Appendix B - EUT and Test Setup Photos. For a text
description of the EUT discharge points, see Appendix A - Client Provided Details. For a
EUT criteria description, see Appendix A - Client Provided Details.
A level of 4kV contact, or 8kV air where applicable, was applied to each defined discharge
point. Each level was ramped up by applying the lower levels first. Criteria level „B‟ as
defined in “Appendix A - Client Provided Details” was applied to this test, however all
anomalies are noted.
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
Page 38 of 63 Report issued: 6/7/2010 GEMC File #: GEMC-CEFCC-19672R1
© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Typical ESD Setup
Application Level Accuracy Contact discharge: +/- 15% as measured at tip.
Test Results The EUT passed the requirements. The EUT met Criteria B as defined in “Appendix A –
Client Provided Details”. No anomalies observed.
Location Test Voltage Discharge Type Pass / Fail
1. Expansion Slot
Cover +/- 4kV Contact Pass
2. RJ11
Connectors +/- 4kV Contact Pass
3. HCP & VCP +/- 4kV Contact Pass
4. FX0 & FXS
Cables +/- 8kV Air Pass
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
Page 39 of 63 Report issued: 6/7/2010 GEMC File #: GEMC-CEFCC-19672R1
© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Test Equipment List
Equipment Model No. Manufacturer
Last
calibration
date
Next
calibration
due date
Asset #
Minizap ESD Simulator
Minizap Thermo Electron Corp
Feb. 11, 2009
Feb. 11, 2011
GEMC 1
ESD HCP 80CMX160CM Global EMC NCR NCR GEMC 50
ESD VCP 50CMX50CM1 Global EMC NCR NCR GEMC 51
ESD 470K A 2X470KOHM100CM Global EMC NCR NCR GEMC 52
ESD 470K B 2X470KOHM100CM Global EMC NCR NCR GEMC 53 This report module is based on GEMC report template „IEC61000-4-2_ESD_Rev1‟
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
Page 40 of 63 Report issued: 6/7/2010 GEMC File #: GEMC-CEFCC-19672R1
© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Radiated Field Immunity
Purpose The EUT will likely be exposed to intentional sources of RF energy during the EUTs
application. Sources of such radiations can be cellular phones, FM radio, television, remote
car alarms, garage door openers, and other broadcast transmissions. These sources of
radiations are licensed or certified for broadcast; hence the EUT should be immune to their
RF energy. This test gives the test levels that the EUT should be immune to in order to
assure the EUTs operation in expected field strengths. This test does not guarantee that the
EUT will not experience a higher level field during its‟ operation, which may cause the
EUT to fail.
Application Level Requirement This test is performed in accordance with the methodology defined in IEC 61000-4-3. The
immunity test is performed over the frequency range of 80 MHz to 1.0 GHz range.
Frequency steps used were calculated at 1% step size of the previous frequency, rounded
down to the nearest kHz, as the frequency range is ramped up. Known clock frequencies,
local oscillators, etc, shall be analyzed separately, these are defined in “Appendix B –
Client Provided Details”. The level applied to the EUT was calibrated at 3 V/m. A
modulation of 80% AM 1 kHz sine wave was applied during the application of the RF
energy at each frequency. Both horizontal and vertical polarization was applied. 4 sides of
the EUT were subjected to RF field. The dwell time used was 3.0 seconds. Forward power
was monitored, and kept on file at Global EMC Inc. An isotropic field probe was placed in
near proximity of the EUT to verify the application of the field. Criteria level „A‟ as
defined in “Appendix A – Client Provided Details” was applied to this test.
Input Voltage and Frequency 230V @ 50 Hz
Frequency range and signal strength 80 MHz – 1 GHz – 3 V/m (80% AM)
Sweep step 1% of fundamental.
Dwell time 3 s
EUT type Table top
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
Page 41 of 63 Report issued: 6/7/2010 GEMC File #: GEMC-CEFCC-19672R1
© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Typical Test Setup
Application Level Accuracy As per IEC61000-4-3, the RF field is specified as 0 to +6 dB for at least 12 of the 16
calibration points. For a 10 V/m field, this allows for the EUT to be subjected to a field of
10 V/m to 20 V/m with at least 75% coverage at this level.
Test Results The EUT passed the requirements of 3 V/m. The EUT met Criteria A as defined in
“Appendix A – Client Provided Details”. No anomalies were observed.
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
Page 42 of 63 Report issued: 6/7/2010 GEMC File #: GEMC-CEFCC-19672R1
© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Test Equipment List
Equipment Model No. Manufacturer Last
calibration date
Next calibration due date
Asset #
Signal Generator
SMT 03 Rhode and Schwarz
July 1, 2009 July 1, 2010 GEMC 2
BiLog Antenna
3142-C ETS Feb. 12, 2009 Feb. 12, 2011 GEMC 8
Horn Antenna
1 – 4.2GHz AT 4510 AR NCR NCR GEMC 26
Power Amplifier
150W1000 AR NCR NCR GEMC 23
Power Amplifier
10S1G4A AR Feb. 11, 2009 Feb. 11, 2011 GEMC 24
Power Head PH 2000 AR Feb. 11, 2009 Feb. 11, 2011 GEMC 15
Power meter PM 2002 AR Feb. 9, 2009 Feb. 9, 2011 GEMC 16
Field probe FL 7006 AR 2008-07-17 2010-07-17 GEMC 25
Field Mon. FM7004 AR NCR NCR GEMC 13 This report is based upon GEMC report template „IEC61000-4-3_RadiatedImmunity_Rev1‟
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
Page 43 of 63 Report issued: 6/7/2010 GEMC File #: GEMC-CEFCC-19672R1
© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Electrical Fast Transients / Bursts
Purpose
Electronic fast transients / bursts are simulated in this test on the supply and I/O lines of the
EUT. In a typical application environment, fast voltage disturbances may be injected into
these ports of the EUT. These signals usually arise from nearby switching circuitry such as
a light switch, relay bounces, electric motor noise, or other such electrical phenomenon.
The EUT should be immune to such disturbances. This test does not guarantee that the
EUT will not experience a higher level field during its operation, which may cause the
EUT to fail.
Application Level Requirement This test is performed in accordance with the methodology defined in IEC 61000-4-4. The
voltage waveform applied has the following characteristics:
Pulse rise time 5 ns ± 30%
Pulse duration (to 50% value) 50ns ± 30%
Pulse repetition frequency 5kHz (75 pulses per burst train)
Burst duration should be 15 ms ± 20%
Burst period should be 300 ms ± 20%
Bursts are applied for 1 minute each at positive and negative for each I/O line tested.
A test level of 500 V was applied to I/O lines via a capacitive coupling clamp. Lower levels
were evaluated by ramping up to the required level. Criteria level „B‟ as defined in
“Appendix A – Client Provided Details” was applied to this test.
Test Voltage Repetition rate Coupling Lines Result
+/- 0.5 kV 5 kHz FX0 Line Pass
+/- 0.5 kV 5 kHz FXS Line Pass
+/- 0.5 kV 5 kHz PRI Line Pass
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
Page 44 of 63 Report issued: 6/7/2010 GEMC File #: GEMC-CEFCC-19672R1
© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Typical Test Setup
Application Level Accuracy As per IEC61000-4-4, the level is specified as being within +/- %20. For an application
level of 1kV, this allows for the EUT to be subjected to 980 V to 1.2 kV.
Test Results The EUT passed the requirements. The EUT met Criteria B as defined in “Appendix A –
Client Provided Details”. No anomalies were observed.
Test Equipment List
Equipment Model No. Manufacturer
Last
calibration
date
Next
calibration
due date
Asset #
Immunity generator
EMC Pro Plus
Keytek Thermo Corp
Feb. 13, 2009 Feb. 13, 2011 GEMC 4
CCL Clamp EMC Pro
Plus Keytek Thermo
Corp NCR NCR GEMC 5
This report module is based on GEMC report template „IEC61000-4-4_EFTB_Rev1‟
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
Page 45 of 63 Report issued: 6/7/2010 GEMC File #: GEMC-CEFCC-19672R1
© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Conducted RF Immunity
Purpose The EUT will likely be exposed to low frequency intentional sources of RF energy during
the EUTs application. Sources of such radiations can be AM radio, shortwave radio, CB
transmissions, and other low frequency broadcast transmissions. These sources of
radiations are licensed or certified for broadcast; hence the EUT should be immune to their
RF energy. Due to the properties of radio, the power or I/O lines on the EUT would likely
be the passive receiving antenna that induces the disturbance to the EUT. Since this is the
main method of coupling at this frequency range, the direct application of the RF energy to
the line being tested is used. At this frequency range and level, this method is easier to
produce and reproduce in a laboratory environment then subjecting the EUT to an
equivalent RF field.
Application Level Requirement This test is performed in accordance with the methodology defined in
IEC 61000-4-6. I/O cables were performed using a bulk current injection probe, and power
lines were tested using a CDN. The immunity test is performed over the frequency range of
150 kHz to 80 MHz. Frequency steps used were calculated at 1% step size of the previous
frequency, rounded down to the nearest kHz, as the frequency range is ramped up. Known
clock frequencies, local oscillators, etc, shall be analyzed separately, these are defined in
“Appendix B – Client Provided Details”. The level applied to the EUT was calibrated at 3
Vrms. A modulation of 80% AM 1kHz sine wave was applied during the application of the
RF energy at each frequency. The dwell time used was 3.0 seconds. A current probe was
placed between the coupling device and the EUT to verify the application of the RF energy.
Criteria level „A‟ as defined in “Appendix A – Client Provided Details” was applied to this
test.
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
Page 46 of 63 Report issued: 6/7/2010 GEMC File #: GEMC-CEFCC-19672R1
© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Typical Test Setup
Application Level Accuracy As per IEC 61000-4-6, the CDN must meet a common mode impedance |ZCE| = 150 Ω ± 20
Ω for 150 kHz to 26 MHz and |ZCE| = 150 Ω + 60 Ω or 150 Ω - 45 Ω for 26 MHz 80
MHz. During tests using the bulk current injection probe, the impedance of each cable will
affect the current injected, so current was monitored. The calibration performed according
to IEC 61000-4-6 allows for +/- 2dB.
Test Results The EUT passed the requirements. The EUT met Criteria A as defined in “Appendix A –
Client Provided Details”. No anomalies were observed.
Input Voltage and Frequency 230V @ 50 Hz
Frequency range and signal strength 150 kHz – 80 MHz – 1 Vrms (80% AM)
Sweep step 1% of fundamental.
Dwell time 3 s
EUT type Table top
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
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© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Test Equipment List
Equipment Model No. Manufacturer Last calibration date
Next calibration due date
Asset #
CDN CDN-M3 Vican Feb. 11, 2009 Feb. 11, 2011 GEMC 11
Power Amplifier 75A250A AR NCR NCR GEMC 14
RF Current probe
F-33-2 FCC Feb. 11, 2009 Feb. 11, 2011 GEMC 19
Bulk Current Injection Probe
F-120-9A FCC Feb. 11, 2009 Feb. 11, 2011 GEMC 20
Signal Generator
SMT 03 Rhode and Schwarz
July 1, 2009 July 1, 2011 GEMC 2
Power Attenuator 6 dB
100-A-FFN-06
Bird NCR NCR GEMC 48
This report module is based on GEMC report template „IEC61000-4-6_ConductedImmunity_Rev1‟
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
Page 48 of 63 Report issued: 6/7/2010 GEMC File #: GEMC-CEFCC-19672R1
© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Appendix A – Client Provided Details
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
Page 49 of 63 Report issued: 6/7/2010 GEMC File #: GEMC-CEFCC-19672R1
© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
General Information
Manufacturer / Client Sangoma Technologies Inc.
EUT Model number B601D and B601DE
Equipment Category Residential
Basic EUT Functionality
Provide telephony connectivity
Input Voltage and
Frequency
PCI Voltage, DC
Connectors available on
EUT
3 RJ11 Connectors
1 RJ45 Connector
Peripherals Required for
Test
Loop Back Cables
PC running CentOS (Linux) to exercise the unit.
Release type Prototype
I/O cable description
Specify Type and length
Telephone wires
Ethernet Cable
Modes of operation
1. ON
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
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© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
EUT Functional Description
EUT Configuration
Please see Appendix B for a picture of the unit running in normal conditions.
Cables and earthing were connected as per manufacturer‟s specification.
Operational Setup
These devices are required to be attached to the EUT for its normal operation.
One sample each of B601D and B601DE PCI and PCIe cards are plugged in client
provided computer.
Loop back cables are connected to each B601D and B601DE ports.
Modifications for Compliance
The following modifications were made during testing for the sample to achieve
compliance with the testing requirements:
Standard telephone wires are used to perform telecommunication line conducted emissions.
Client also provided telephone wires with ferrites near RJ11 jack; these wires with ferrites
and additional ferrites on the FX0 ports, Steward 28A2024-0A0, with four turns are used to
meet Class B radiated emission limits. See Figure 8 in Appendix B for photo of setup.
Criteria Description
Performance criterion A: During testing, normal performance as specified by the
manufacturer.
Performance criterion B: During testing, temporary degradation, or loss of function or
performance which is self-recovering.
Performance criterion C: During testing, temporary degradation, or loss of function or
performance which requires operator intervention or system reset occurs. This performance
criterion was not used during the application of immunity on this product.
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
Page 51 of 63 Report issued: 6/7/2010 GEMC File #: GEMC-CEFCC-19672R1
© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Appendix B – EUT & Test Setup Photos
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
Page 52 of 63 Report issued: 6/7/2010 GEMC File #: GEMC-CEFCC-19672R1
© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Figure 1: Power Line Conducted Emission Setup – Photo 1
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
Page 53 of 63 Report issued: 6/7/2010 GEMC File #: GEMC-CEFCC-19672R1
© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Figure 2: Power Line Conducted Emission Setup – Photo 2
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
Page 54 of 63 Report issued: 6/7/2010 GEMC File #: GEMC-CEFCC-19672R1
© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Figure 3: Telecommunication Conducted Emission Setup – RJ11
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
Page 55 of 63 Report issued: 6/7/2010 GEMC File #: GEMC-CEFCC-19672R1
© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Figure 4: Telecommunication Conducted Emission Setup – RJ45 Shield Cable
Current Measurement
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
Page 56 of 63 Report issued: 6/7/2010 GEMC File #: GEMC-CEFCC-19672R1
© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Figure 5: Telecommunication Conducted Emission Setup – RJ45 Shield Cable
Voltage Measurement
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
Page 57 of 63 Report issued: 6/7/2010 GEMC File #: GEMC-CEFCC-19672R1
© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Figure 6: Radiated Emission Setup – Photo 1
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
Page 58 of 63 Report issued: 6/7/2010 GEMC File #: GEMC-CEFCC-19672R1
© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Figure 7: Radiated Emission Setup – Photo 2
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
Page 59 of 63 Report issued: 6/7/2010 GEMC File #: GEMC-CEFCC-19672R1
© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Figure 8: Radiated Emission with additional ferrite setup – Photo 3
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
Page 60 of 63 Report issued: 6/7/2010 GEMC File #: GEMC-CEFCC-19672R1
© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Figure 9: ESD Setup
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
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© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Figure 10: Radiated Susceptibility Setup
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
Page 62 of 63 Report issued: 6/7/2010 GEMC File #: GEMC-CEFCC-19672R1
© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Figure 11: Electronic Fast Transient / Burst Setup – I/O Line
Client Sangoma Technologies
Product B601DE and B601E
Standard(s) FCC 15 Subpart B, ICES 003, CISPR 22/EN55022
& CISPR 24/EN55024
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© Global EMC Inc. This test report shall not be reproduced except in full, without written approval of Global EMC Inc
Figure 12: Conducted Susceptibility Setup