EN 55022: 2010 and CISPR 22

Issue Date:
Ref. Report No.
Product Name
Models
Brand
Responsible Party
Address
:
:
:
:
:
April 2, 2014
ISL-14HE084CE
POC-200 Series
POC-200; POC-210; POC-212; POC-222
Neousys
Neousys Technology Inc.
15F., No.868-3, Zhongzheng Rd., Zhonghe Dist., New Taipei City 23586,
Taiwan(R.O.C.)
We, International Standards Laboratory, hereby certify that:
The device bearing the trade name and model specified above has been shown to comply with the
applicable technical standards as indicated in the measurement report and was tested in accordance
with the measurement procedures specified in European Council Directive- EMC Directive
2004/108/EC. The device was passed the test performed according to :
Standards:
EN 55022: 2010 and CISPR 22: 2008 (modified)
EN 61000-3-2: 2006+A1:2009 +A2:2009 and IEC 61000-3-2: 2005+A1:2008 +A2:2009
EN 61000-3-3: 2008 and IEC 61000-3-3: 2008
EN 55024: 2010 and CISPR 24: 2010
EN 61000-4-2: 2009 and IEC 61000-4-2: 2008
EN 61000-4-3: 2006+A1: 2008 +A2: 2010 and
IEC 61000-4-3:2006+A1: 2007+A2: 2010
EN 61000-4-4: 2004 +A1:2010 and IEC 61000-4-4: 2004 +A1:2010
EN 61000-4-5: 2006 and IEC 61000-4-5: 2005
EN 61000-4-6: 2009 and IEC 61000-4-6: 2008
EN 61000-4-8: 2010 and IEC 61000-4-8: 2009
EN 61000-4-11: 2004 and IEC 61000-4-11: 2004
I attest to the accuracy of data and all measurements reported herein were performed by me or were
made under my supervision and are correct to the best of my knowledge and belief. I assume full
responsibility for the completeness of these measurements and vouch for the qualifications of all
persons taking them.
International Standards Laboratory
Jim Chu / Director
Hsi-Chih LAB:
No. 65, Gu Dai Keng Street, Hsi-Chih Dist.,
New Taipei City 221, Taiwan
Tel: 886-2-2646-2550; Fax: 886-2-2646-4641
CE MARK TECHNICAL FILE
AS/NZS EMC CONSTRUCTION FILE
of
Product Name
POC-200 Series
Models
POC-200; POC-210; POC-212; POC-222
Brand
Neousys
Contains:
1. Declaration of Conformity
2. EN55022/CISPR 22, AS/NZS CISPR 22 EMI test report
3. EN55024/CISPR 24, EN61000-3-2 / IEC 61000-3-2, and EN61000-3-3 /
IEC 61000-3-3 test report
4. Block Diagram and Schematics
5. Users’ manual
Page 1 of 2
Report No. ISL-14HE084CE
Declaration of Conformity
Name of Responsible Party:
Neousys Technology Inc.
Address of Responsible Party:
15F., No.868-3, Zhongzheng Rd., Zhonghe Dist., New
Taipei City 23586, Taiwan(R.O.C.)
Declares that product:
POC-200 Series
Models:
POC-200; POC-210; POC-212; POC-222
Brand:
Neousys
Assembled by:
Same as above
Address:
Same as above
Conforms to the EMC Directive 2004/108/EC as attested by conformity with the
following harmonized standards:
EN 55022:2010, CISPR 22:2008 (modified) and AS/NZS CISPR 22: 2009+A1:2010: Limits
and methods of measurement of Radio Interference characteristics of Information
Technology Equipment.
EN 55024:2010 and CISPR 24:2010: Information technology equipment-Immunity
characteristics - Limits and methods of measurement.
Standard
Description
Results
Criteria
EN 61000-4-2:2009
IEC 61000-4-2:2008
Electrostatic Discharge
Pass
B
EN 61000-4-3:2006+A1:2008 +A2:2010
IEC 61000-4-3:2006+A1:2007+A2:2010
Radio-Frequency, Electromagnetic
Field
Pass
A
EN 61000-4-4: 2004 +A1:2010
IEC 61000-4-4: 2004 +A1:2010
Electrical Fast Transient/Burst
Pass
B
EN 61000-4-5: 2006
IEC 61000-4-5: 2005
Surge
Pass
B
EN 61000-4-6:2009
IEC 61000-4-6:2008
Conductive Disturbance
Pass
A
EN 61000-4-8:2010
IEC 61000-4-8:2009
Power Frequency Magnetic Field
Pass
A
EN 61000-4-11: 2004
IEC 61000-4-11: 2004
Voltage Dips / Short Interruption
and Voltage Variation
>95% in 0.5 period
Pass
B
30% in 25 period
Pass
C
>95% in 250 period
Pass
C
<to be continued>
Page 2 of 2
Report No. ISL-14HE084CE
Standard
Description
Results
EN 61000-3-2: 2006 +A1:2009 +A2:2009
IEC 61000-3-2: 2005 +A1:2008 +A2:2009
Limits for harmonics current emissions
Pass
EN 61000-3-3: 2008
IEC 61000-3-3: 2008
Limits for voltage fluctuations and flicker in
low-voltage supply systems.
Pass
We, Neousys Technology Inc., hereby declare that the equipment bearing the trade name
and model number specified above was tested conforming to the applicable Rules under the
most accurate measurement standards possible, and that all the necessary steps have been
taken and are in force to assure that production units of the same equipment will continue to
comply with the requirements.
---------------------------
Neousys Technology Inc.
Date: April 2, 2014
Page 1 of 2
Report No. ISL-14HE084CE
Declaration of Conformity
Name of Responsible Party:
Neousys Technology Inc.
Address of Responsible Party:
15F., No.868-3, Zhongzheng Rd., Zhonghe Dist., New
Taipei City 23586, Taiwan(R.O.C.)
Declares that product:
POC-200 Series
Models:
POC-200; POC-210; POC-212; POC-222
Brand:
Neousys
Assembled by:
Same as above
Address:
Same as above
Conforms to the C-Tick Mark and EMI part of RCM Mark requirements as attested by
conformity with the following standards:
EN 55022:2010, CISPR 22:2008 (modified) and AS/NZS CISPR 22: 2009+A1:2010: Limits
and methods of measurement of Radio Interference characteristics of Information
Technology Equipment.
EN 55024:2010 and CISPR 24:2010: Information technology equipment-Immunity
characteristics - Limits and methods of measurement.
Standard
Description
Results
Criteria
EN 61000-4-2:2009
IEC 61000-4-2:2008
Electrostatic Discharge
Pass
B
EN 61000-4-3:2006+A1:2008 +A2:2010
IEC 61000-4-3:2006+A1:2007+A2:2010
Radio-Frequency, Electromagnetic
Field
Pass
A
EN 61000-4-4: 2004 +A1:2010
IEC 61000-4-4: 2004 +A1:2010
Electrical Fast Transient/Burst
Pass
B
EN 61000-4-5: 2006
IEC 61000-4-5: 2005
Surge
Pass
B
EN 61000-4-6:2009
IEC 61000-4-6:2008
Conductive Disturbance
Pass
A
EN 61000-4-8:2010
IEC 61000-4-8:2009
Power Frequency Magnetic Field
Pass
A
EN 61000-4-11: 2004
IEC 61000-4-11: 2004
Voltage Dips / Short Interruption
and Voltage Variation
>95% in 0.5 period
Pass
B
30% in 25 period
Pass
C
>95% in 250 period
Pass
C
<to be continued>
Page 2 of 2
Report No. ISL-14HE084CE
Standard
Description
Results
EN 61000-3-2: 2006 +A1:2009 +A2:2009
IEC 61000-3-2: 2005 +A1:2008 +A2:2009
Limits for harmonics current emissions
Pass
EN 61000-3-3: 2008
IEC 61000-3-3: 2008
Limits for voltage fluctuations and flicker in
low-voltage supply systems.
Pass
We, Neousys Technology Inc., hereby declare that the equipment bearing the trade name
and model number specified above was tested conforming to the applicable Rules under the
most accurate measurement standards possible, and that all the necessary steps have been
taken and are in force to assure that production units of the same equipment will continue to
comply with the requirements.
---------------------------
Neousys Technology Inc.
Date: April 2, 2014
CE TEST REPORT
of
EN55022 / CISPR 22 / AS/NZS CISPR 22
Class A
EN55024 / CISPR 24 / IMMUNITY
EN61000-3-2 / EN61000-3-3
Product : POC-200 Series
Models:
POC-200; POC-210; POC-212; POC-222
Brand:
Neousys
Applicant: Neousys Technology Inc.
Address: 15F., No.868-3, Zhongzheng Rd., Zhonghe
Dist., New Taipei City 23586, Taiwan(R.O.C.)
Test Performed by:
International Standards Laboratory
<Hsi-Chih LAB>
*Site Registration No.
BSMI:SL2-IN-E-0037; SL2-R1/R2-E-0037; TAF: 1178
FCC: TW1067; IC: IC4067A-1; NEMKO: ELA 113A
VCCI: <Conduction01>C-354, T-1749, <OATS01>R-341,
<Chamber01>G-443
*Address:
No. 65, Gu Dai Keng Street,
Hsi-Chih Dist., New Taipei City 221, Taiwan
*Tel: 886-2-2646-2550; Fax: 886-2-2646-4641
Report No.: ISL-14HE084CE
Issue Date : April 2, 2014
This report totally contains 55 pages including this cover page and contents page.
Test results given in this report apply only to the specific sample(s) tested and are
traceable to national or international standard through calibration of the equipment
and evaluating measurement uncertainty herein.
This test report shall not be reproduced except in full, without the written approval of
International Standards Laboratory.
-iContents of Report
1.
General............................................................................................................................. 1
1.1 Certification of Accuracy of Test Data ........................................................................ 1
1.2 Test Standards .............................................................................................................. 2
1.3 Description of EUT ...................................................................................................... 4
1.4 Description of Support Equipment ............................................................................... 6
1.5 Software for Controlling Support Unit......................................................................... 7
1.6 I/O Cable Condition of EUT and Support Units .......................................................... 8
2.
Power Main Port Conducted Emissions .......................................................................... 9
2.1 Test Setup and Procedure ............................................................................................. 9
2.2 Conduction Test Data: Configuration 1 ..................................................................... 10
2.3 Test Setup Photo......................................................................................................... 12
3.
Telecommunication Port Conducted Emissions ............................................................ 14
3.1 Test Setup and Procedure ........................................................................................... 14
3.2 Test Data: LAN--10M: Configuration 1..................................................................... 15
3.3 Test Data: LAN--100M: Configuration 1................................................................... 16
3.4 Test Data: LAN--10M: Configuration 2..................................................................... 17
3.5 Test Data: LAN--100M: Configuration 2................................................................... 18
3.6 Test Setup Photo......................................................................................................... 19
4.
Radiated Disturbance Emissions ................................................................................... 20
4.1 Test Setup and Procedure ........................................................................................... 20
4.2 Radiation Test Data: Configuration 1......................................................................... 22
4.3 Test Setup Photo......................................................................................................... 26
5.
Electrostatic discharge (ESD) immunity ....................................................................... 28
5.1 Test Specification ....................................................................................................... 28
5.2 Test Setup ................................................................................................................... 28
5.3 Test Result .................................................................................................................. 28
5.4 Test Point.................................................................................................................... 29
5.5 Test Setup Photo......................................................................................................... 30
6.
Radio-Frequency, Electromagnetic Field immunity...................................................... 31
6.1 Test Specification ....................................................................................................... 31
6.2 Test Setup ................................................................................................................... 31
6.3 Test Result .................................................................................................................. 31
6.4 Test Setup Photo......................................................................................................... 32
7.
Electrical Fast transients/burst immunity ...................................................................... 33
7.1 Test Specification ....................................................................................................... 33
7.2 Test Setup ................................................................................................................... 34
7.3 Test Result .................................................................................................................. 34
7.4 Test Setup Photo......................................................................................................... 35
8.
Surge Immunity ............................................................................................................. 36
8.1 Test Specification ....................................................................................................... 36
8.2 Test Setup ................................................................................................................... 36
8.3 Test Result .................................................................................................................. 36
Test Setup Photo................................................................................................................... 37
9.
Immunity to Conductive Disturbance............................................................................ 38
9.1 Test Specification ....................................................................................................... 38
9.2 Test Setup ................................................................................................................... 38
9.3 Test Result .................................................................................................................. 38
9.4 Test Setup Photo......................................................................................................... 39
International Standards Laboratory
Report Number: ISL-14HE084CE
-ii10. Power Frequency Magnetic Field immunity ................................................................. 40
10.1
Test Specification.................................................................................................... 40
10.2
Test Setup................................................................................................................ 40
10.3
Test Result............................................................................................................... 40
10.4
Test Setup Photo ..................................................................................................... 41
11. Voltage Dips, Short Interruption and Voltage Variation immunity .............................. 42
11.1
Test Specification.................................................................................................... 42
11.2
Test Setup................................................................................................................ 42
11.3
Test Result............................................................................................................... 42
11.4
Test Setup Photo ..................................................................................................... 43
12. Harmonics ...................................................................................................................... 44
12.1
Test Specification.................................................................................................... 44
12.2
Test Setup................................................................................................................ 44
12.3
Test Result............................................................................................................... 44
13. Voltage Fluctuations ...................................................................................................... 45
13.1
Test Specification.................................................................................................... 45
13.2
Test Setup................................................................................................................ 45
13.3
Test Result............................................................................................................... 45
13.4
Test Data ................................................................................................................. 46
13.5
Test Setup Photo ..................................................................................................... 47
14. Appendix........................................................................................................................ 48
14.1
Appendix A: Test Equipment.................................................................................. 48
14.2
Appendix B: Uncertainty of Measurement ............................................................. 51
14.3
Appendix C: Photographs of EUT Please refer to the File of ISL-14HE084P ..... 52
International Standards Laboratory
Report Number: ISL-14HE084CE
-11.
General
1.1 Certification of Accuracy of Test Data
Standards:
Please refer to 1.2
Equipment Tested:
POC-200 Series
Model:
POC-200; POC-210; POC-212; POC-222
Brand:
Neousys
Applicant:
Neousys Technology Inc.
Sample received Date:
March 18, 2014
Final test Date:
EMI: refer to the date of test data
EMS: April 1, 2014
Test Site:
International Standards Laboratory
OATS 01; Chamber 01; Conduction 01; Immunity01
Test Distance:
10M; 3M (above1GHz) (EMI test)
Temperature:
refer to each site test data
Humidity:
refer to each site test data
Input power:
Conduction input power: AC 230 V / 50 Hz
Radiation input power: AC 230 V / 50 Hz
Immunity input power: AC 230 V / 50 Hz
Test Result:
PASS
Report Engineer:
Winnie Huang
Test Engineer:
______________________
John Wu
Approved By:
______________________
Eddy Hsiung
International Standards Laboratory
Report Number: ISL-14HE084CE
-21.2 Test Standards
The tests which this report describes were conducted by an independent electromagnetic
compatibility consultant, International Standards Laboratory in accordance with the
following
EN 55022:2010, CISPR 22:2008 (modified) and AS/NZS CISPR 22: 2009+A1:2010: Class A:
Limits and methods of measurement of Radio Interference characteristics of Information
Technology Equipment.
EN 55024:2010 and CISPR 24:2010: Information technology equipment-Immunity
characteristics - Limits and methods of measurement.
Standard
Description
Results
Criteria
EN 61000-4-2:2009
IEC 61000-4-2:2008
Electrostatic Discharge
Pass
B
EN 61000-4-3:2006+A1:2008 +A2:2010
IEC 61000-4-3:2006+A1:2007+A2:2010
Radio-Frequency, Electromagnetic
Field
Pass
A
EN 61000-4-4: 2004 +A1:2010
IEC 61000-4-4: 2004 +A1:2010
Electrical Fast Transient/Burst
Pass
B
EN 61000-4-5: 2006
IEC 61000-4-5: 2005
Surge
Pass
B
EN 61000-4-6:2009
IEC 61000-4-6:2008
Conductive Disturbance
Pass
A
EN 61000-4-8:2010
IEC 61000-4-8:2009
Power Frequency Magnetic Field
Pass
A
EN 61000-4-11: 2004
IEC 61000-4-11: 2004
Voltage Dips / Short Interruption
and Voltage Variation
>95% in 0.5 period
Pass
B
30% in 25 period
Pass
C
>95% in 250 period
Pass
C
Standard
Description
Results
EN 61000-3-2: 2006 +A1:2009 +A2:2009
IEC 61000-3-2: 2005 +A1:2008 +A2:2009
Limits for harmonics current emissions
Pass
EN 61000-3-3: 2008
IEC 61000-3-3: 2008
Limits for voltage fluctuations and flicker in
low-voltage supply systems.
Pass
International Standards Laboratory
Report Number: ISL-14HE084CE
-31.2.1 Performance Criteria for Compliance: EN 55024
Performance criterion A
During and after the test the EUT shall continue to operate as intended without operator
intervention. No degradation of performance or loss of function is allowed below a minimum
performance level specified by the manufacturer when the EUT is used as intended. The
performance level may be replaced by a permissible loss of performance. If the minimum
performance level or the permissible performance loss is not specified by the manufacturer, then
either of these may be derived from the product description and documentation, and by what the
user may reasonably expect from the EUT if used as intended.
Performance criterion B
After the test, the EUT shall continue to operate as intended without operator intervention. No
degradation of performance or loss of function is allowed, after the application of the phenomena
below a performance level specified by the manufacturer, when the EUT is used as intended. The
performance level may be replaced by a permissible loss of performance. During the test,
degradation of performance is allowed. However, no change of operating state or stored data is
allowed to persist after the test. If the minimum performance level (or the permissible performance
loss) is not specified by the manufacturer, then either of these may be derived from the product
description and documentation, and by what the user may reasonably expect from the EUT if used
as intended.
Performance criterion C
During and after testing, a temporary loss of function is allowed, provided the function is
self-recoverable, or can be restored by the operation of the controls or cycling of the power to the
EUT by the user in accordance with the manufacturer’s instructions.
Functions, and/or information stored in non-volatile memory, or protected by a battery backup,
shall not be lost.
International Standards Laboratory
Report Number: ISL-14HE084CE
-41.3 Description of EUT
EUT
Description
POC-200 Series
Condition
Pre-Production
Models
POC-200; POC-210; POC-212; POC-222
Serial Number
N/A
CPU
INTEL\Atom E3845\1.91GHz\FCBGA1170
Power supply
Power Switch Button
Mean Well (Model: GS90A12-P1M)
INPUT:100-240V~ 2.0A 50-60Hz
OUTPUT: 12V--- 6.67A 80W Max
with CORE*1
One
Motherboard
Model:POC-200
2.5” SATA Solid State Disk
Phison (Model:SSB064GPTC0-S81) 64GB
DIMM Memory
DSL 8GB DDR3L-1333MHz
USB 2.0 Port
One 4-pins
USB 3.0 Port
Three 9-pins
RJ45 Port with POE Function
Two 8-pins (10/100bps)
DVI Connector
One 29-pins
COM Connector
Four 9-pins
Line-Out Port
One
DC power Port
One
Maximum Resolution
1920*1200
Maximum Operating
Frequency
1.91GHz
Conduction and Radiation Test Configuration
Configuration
Test Mode
1
DVI 1920*1200
Telecommunication Test Configuration
Configuration
RJ45 Port
Transmission rate
1
Port 1
10/100bps
Port
2
2
10/100bps
International Standards Laboratory
Report Number: ISL-14HE084CE
-5Model description of differences
Model
Model description of differences
POC-200
POC-210
Contains the maximal function set
With fewer functions or lower CPU frequency
POC-212
With fewer functions or lower CPU frequency
POC-222
With fewer functions or lower CPU frequency
EMI Noise Source:
Mother board 48MHz (SOSC1)
Crystal
25MHz (X2)
24MHz (Y1)
25MHz (X4)
25MHz (X3)
32.768MHz (X1)
The same as Photo EUT-11
The same as Photo EUT-12
The same as Photo EUT-13
The same as Photo EUT-14
The same as Photo EUT-15
The same as Photo EUT-16
EMI Solution:
Solution
Quantity
SPEC
Location
Core
King Core 35*15cm
The same as Photo EUT-17
1
International Standards Laboratory
Report Number: ISL-14HE084CE
-61.4 Description of Support Equipment
Unit
Notebook
Personal
Computer
LCD
Monitor
Modem*4
USB Mouse
USB
Keyboard
Headphone
USB Printer
Desktop
Switch with
4 PoE
USB3.0
External
HDD
Enclosure
Model
Serial No.
Latitude D400
S/N: N/A
U2413f
S/A:N/A
DM1414
S/N: 0301000557
0301000558
MO71KC
S/N: 511092011
SK-8115, S/N:
MY-05N456-38843-2BK-331
5
ST-304
LQ-300+II
S/N: G88Y109612
TL-SF1008P
BUF-HD-HXU3(B)
S/N: 15564900300407
International Standards Laboratory
Brand
Power Cord
FCC ID
DELL
Non-shielded, Detachable
FCC DOC
DELL
Non-Shielded, Detachable
FCC DOC
Aceex
Non-shielded, Without
Grounding Pin
IFAXDM1414
DELL
N/A
FCC DOC
DELL
N/A
FCC DOC
KOKA
EPSON
Non-shielded, Detachable
Non-shielded, Detachable
FCC DOC
FCC DOC
TP-Link
LEADER ELECTRONICS
(Model:NU60-F480125-I1
)
BUFFALO N/A
Report Number: ISL-14HE084CE
FCC DOC
FCC DOC
-71.5 Software for Controlling Support Unit
Test programs exercising various part of EUT were used. The programs were executed as follows:
A. Read and write to the disk drives.
B. Read and write data in the USB3.0 Hard Disk through EUT USB3.0 port.
C. Send audio signal to the HeadSet through Headphone port.
D. Send H pattern to the video port device (Monitor).
E. Send H pattern to the serial port device (Modem).
F. Send H pattern to the parallel port device (Printer).
G. Send\receive package from Notebook pc through Desktop Switch with 4 PoE to EUT’s RJ-45
Port.
H. Used Tfgen.exe or ping.exe to send signal to EUT RJ45 port through Desktop Switch with 4 PoE
from Notebook RJ45 Port.
I. Repeat the above steps.
Filename
Issued Date
RJ45
ping.exe
05/05/1999
RJ45
Tfgen.exe
06/23/1999
USB3.0 External HDD
Enclosure
InterEMC.exe
9/04/2000
Monitor
Intel EMCTEST.exe
09/04/2000
ATA Microphone and
HeadSet
EUT Hard Disk
Windows Media
player.exe
02/18/2006
Intel EMCTEST.exe
9/04/2000
Modem
Intel EMCTEST.exe
9/04/2000
Printer
Wordpad.exe
11/11/1999
International Standards Laboratory
Report Number: ISL-14HE084CE
-81.6 I/O Cable Condition of EUT and Support Units
Description
Path
Cable Length
AC Power Cord
110V (~240V) to
EUT SPS
1.8M
DC Power In cable
Power Adapter
DC Out to EUT
DC In Connector
1M
EUT’s RJ-45 Port
To Desktop
Switch with 4
PoE’s RJ-45 Port
10M
Non-shielded, Detachable RJ-45, with
Plastic Head
Desktop Switch
with 4 PoE’s
RJ-45 Port To
Notebook PC’s
RJ-45 Port
2M
Non-shielded, Detachable RJ-45, with
Plastic Head
RJ45 Data Cable*2
RJ45 Data Cable
LCD Monitor DVI
Port to EUT DVI
Port
USB Mouse Data
Cable
Mouse to EUT
USB2.0 port
2M
USB Keyboard
Data Cable
Keyboard to EUT
USB3.0 Port
2M
Headphone Data
Cable
Headphone to
EUT line Out port
2M
USB Printer Data
Cable
USB Printer to PC
USB3.0 Port
2M
Modem Data
Cable*4
Modem to EUT
COM Port
International Standards Laboratory
Connector Type
Non-shielded, Detachable Plastic Head
Non-shielded,
Metal Head
Un-detachable
LCD Monitor Data
Cable(DVI)
USB3.0 External
HDD Enclosure
USB3.0 Data Cable
USB 3.0Port to
EUT USB 3.0Port
Cable Type
1.8M
Shielded, Detachable
Metal Head
Non-Shielded,
Metal Head
Un-detachable
Non-Shielded,
Metal Head
Un-detachable
Non-shielded,
Un-detachable
Plastic Head
Shielded, Detachable
Metal Head
Non-shielded, Detachable Plastic Head
1.5M
2M
Shielded, Detachable
Metal Head
Report Number: ISL-14HE084CE
-92.
Power Main Port Conducted Emissions
2.1 Test Setup and Procedure
2.1.1 Test Setup
2.1.2 Test Procedure
The measurements are performed in a 3.5m x 3.4m x 2.5m shielded room, which referred as
Conduction 01 test site, or a 3m x 3m x 2.3m test site, which referred as Conduction 02 test site. The
EUT was placed on non-conduction 1.0m x 1.5m table, which is 0.8 meters above an
earth-grounded.
Power to the EUT was provided through the LISN which has the Impedance (50ohm/50uH) vs.
Frequency Characteristic in accordance with the standard. Power to the LISNs were filtered to
eliminate ambient signal interference and these filters were bonded to the ground plane. Peripheral
equipment required to provide a functional system (support equipment) for EUT testing was
powered from the second LISN through a ganged, metal power outlet box which is bonded to the
ground plane at the LISN.
The interconnecting cables were arranged and moved to get the maximum measurement. Both the
line of power cord, hot and neutral, were measured. All of the interface cables were manipulated
according to EN 55022 requirements.
The highest emissions were analyzed in details by operating the spectrum analyzer in fixed tuned
mode to determine the nature of the emissions and to provide information which could be useful in
reducing their amplitude.
2.1.3 EMI Receiver/Spectrum Analyzer Configuration (for the frequencies tested)
Frequency Range:
Detector Function:
Resolution Bandwidth:
150KHz--30MHz
Quasi-Peak / Average Mode
9KHz
International Standards Laboratory
Report Number: ISL-14HE084CE
-102.2 Conduction Test Data: Configuration 1
Table 2.2.1 Power Line Conducted Emissions (Line)
Note:
Margin = QP/AVG Emission - Limit
QP/AVG Emission = Receiver Reading + Correct Factor
Correct Factor = LISN Loss + Cable Loss
A margin of -8dB means that the emission is 8dB below the limit
The frequency spectrum graph is for final peak graph, and the attached table is for QP/AVG test result.
If peak data can pass, it will be shown in “QP/AVG Correct” column, if not, QP/AVG data will instead.
International Standards Laboratory
Report Number: ISL-14HE084CE
-11Table 2.2.2 Power Line Conducted Emissions (Neutral)
Note:
Margin = QP/AVG Emission - Limit
QP/AVG Emission = Receiver Reading + Correct Factor
Correct Factor = LISN Loss + Cable Loss
A margin of -8dB means that the emission is 8dB below the limit
The frequency spectrum graph is for final peak graph, and the attached table is for QP/AVG test result.
If peak data can pass, it will be shown in “QP/AVG Correct” column, if not, QP/AVG data will instead.
International Standards Laboratory
Report Number: ISL-14HE084CE
-122.3 Test Setup Photo
Front View
International Standards Laboratory
Report Number: ISL-14HE084CE
-13-
Back View
International Standards Laboratory
Report Number: ISL-14HE084CE
-143.
Telecommunication Port Conducted Emissions
3.1 Test Setup and Procedure
3.1.1 Test Setup
3.1.2 Test Procedure
The measurements are performed in a 3.5m x 3.4m x 2.5m shielded room, which referred as
Conduction 01 test site, or a 3m x 3m x 2.3m test site, which referred as Conduction 02 test site. The
EUT was placed on non-conduction 1.0m x 1.5m table, which is 0.8 meters above an
earth-grounded.
The EUT, any support equipment, and any interconnecting cables were arranged and moved to get
the maximum measurement. All of the interface cables were manipulated according to EN 55022
requirements.
The port of the EUT was connected to the support equipment through the ISN and linked in normal
condition.
AC input power for the EUT & the support equipment power outlets were obtained from the same
filtered source that provided input power to the LISN.
The highest emissions were analyzed in details by operating the spectrum analyzer in fixed tuned
mode to determine the nature of the emissions and to provide information could be useful in
reducing their amplitude.
3.1.3 EMI Receiver/Spectrum Analyzer Configuration (for the frequencies tested)
Frequency Range:
Detector Function:
Resolution Bandwidth:
150KHz--30MHz
Quasi-Peak / Average Mode
9KHz
International Standards Laboratory
Report Number: ISL-14HE084CE
-153.2 Test Data: LAN--10M: Configuration 1
Table 3.2.1 Telecommunication Port Conducted Emission
Note :
Margin = QP/AVG Emission - Limit
QP/AVG Emission = Receiver Reading + Correct Factor
Correct Factor = LISN Loss + Cable Loss
A margin of -8dB means that the emission is 8dB below the limit
The frequency spectrum graph is for final peak graph, and the attached table is for QP/AVG test result.
If peak data can pass, it will be shown in “QP/AVG Correct” column, if not, QP/AVG data will instead.
International Standards Laboratory
Report Number: ISL-14HE084CE
-163.3 Test Data: LAN--100M: Configuration 1
Table 3.3.1 Telecommunication Port Conducted Emission
Note :
Margin = QP/AVG Emission - Limit
QP/AVG Emission = Receiver Reading + Correct Factor
Correct Factor = LISN Loss + Cable Loss
A margin of -8dB means that the emission is 8dB below the limit
The frequency spectrum graph is for final peak graph, and the attached table is for QP/AVG test result.
If peak data can pass, it will be shown in “QP/AVG Correct” column, if not, QP/AVG data will instead.
International Standards Laboratory
Report Number: ISL-14HE084CE
-173.4 Test Data: LAN--10M: Configuration 2
Table 3.4.1 Telecommunication Port Conducted Emission
Note :
Margin = QP/AVG Emission - Limit
QP/AVG Emission = Receiver Reading + Correct Factor
Correct Factor = LISN Loss + Cable Loss
A margin of -8dB means that the emission is 8dB below the limit
The frequency spectrum graph is for final peak graph, and the attached table is for QP/AVG test result.
If peak data can pass, it will be shown in “QP/AVG Correct” column, if not, QP/AVG data will instead.
International Standards Laboratory
Report Number: ISL-14HE084CE
-183.5 Test Data: LAN--100M: Configuration 2
Table 3.5.1 Telecommunication Port Conducted Emission
Note :
Margin = QP/AVG Emission - Limit
QP/AVG Emission = Receiver Reading + Correct Factor
Correct Factor = LISN Loss + Cable Loss
A margin of -8dB means that the emission is 8dB below the limit
The frequency spectrum graph is for final peak graph, and the attached table is for QP/AVG test result.
If peak data can pass, it will be shown in “QP/AVG Correct” column, if not, QP/AVG data will instead.
International Standards Laboratory
Report Number: ISL-14HE084CE
-193.6 Test Setup Photo
Refer to the Setup Photos for Power Main Port Conducted Emissions
International Standards Laboratory
Report Number: ISL-14HE084CE
-204.
Radiated Disturbance Emissions
4.1 Test Setup and Procedure
4.1.1 Test Setup
4.1.2 Test Procedure
The radiated emissions test will then be repeated on the open site or chamber to measure the
amplitudes accurately and without the multiple reflections existing in the shielded room. The EUT
and support equipment are set up on the turntable of one of 10 meter open field sites or 10 meter
chamber. Desktop EUT are set up on a wooden stand 0.8 meter above the ground or floor-standing
arrangement shall be placed on the horizontal ground reference plane. The test volume for a height
of up to 30 cm may be obstructed by absorber placed on the ground plane.
For the initial measurements, the receiving antenna is varied from 1-4 meter height and is changed
in the vertical plane from vertical to horizontal polarization at each frequency. The highest
emissions between 30 MHz to 1000 MHz were analyzed in details by operating the spectrum
analyzer and/or EMI receiver in quasi-peak mode to determine the precise amplitude of the
emissions. The highest emissions between 1 GHz to 6 GHz were analyzed in details by operating
the spectrum analyzer in peak and average mode to determine the precise amplitude of the
emissions.
International Standards Laboratory
Report Number: ISL-14HE084CE
-21At the highest amplitudes observed, the EUT is rotated in the horizontal plane while changing the
antenna polarization in the vertical plane to maximize the reading. The interconnecting cables were
arranged and moved to get the maximum measurement. Once the maximum reading is obtained, the
antenna elevation and polarization will be varied between specified limits to maximize the readings.
All of the interface cables were manipulated according to EN 55022 requirements.
The highest internal source of an EUT is defined as the highest frequency generated or used within
the EUT or on which the EUT operates or tunes. If the highest frequency of the internal sources of
the EUT is less than 108 MHz, the measurement shall only be made up to 1 GHz. If the highest
frequency of the internal sources of the EUT is between 108 MHz and 500 MHz, the measurement
shall only be made up to 2 GHz. If the highest frequency of the internal sources of the EUT is
between 500 MHz and 1 GHz, the measurement shall only be made up to 5 GHz. If the highest
frequency of the internal sources of the EUT is above 1 GHz, the measurement shall be made up to
5 times the highest frequency or 6 GHz, whichever is less.
4.1.3 Spectrum Analyzer Configuration (for the frequencies tested)
Frequency Range:
Detector Function:
Resolution Bandwidth:
30MHz--1000MHz
Quasi-Peak Mode
120KHz
Frequency Range:
Detector Function:
Resolution Bandwidth:
Above 1 GHz to 6 GHz
Peak/Average Mode
1MHz
International Standards Laboratory
Report Number: ISL-14HE084CE
-224.2 Radiation Test Data: Configuration 1
Table 4.2.1 Radiated Emissions (Horizontal)
* Note:
Margin = Emission – Limit
Emission = Radiated Amplitude + Correct Factor
Correct Factor = Antenna Correction Factor + Cable Loss
A margin of -8dB means that the emission is 8dB below the limit
BILOG Antenna
Distance: 10 meters
Below 1GHz test, if the peak measured value meets the QP limit, it is unnecessary to perform the QP measurement.
measurement.
International Standards Laboratory
Report Number: ISL-14HE084CE
-23-
* Note:
Margin = Emission – Limit
Emission = Radiated Amplitude + Correct Factor
Correct Factor = Antenna Correction Factor + Cable Loss – Pre-Amplifier Gain
A margin of -8dB means that the emission is 8dB below the limit
Horn Antenna
Distance: 3 meters
Above 1GHz test, if the peak measured value meets the average limit, it is unnecessary to perform the average measurement.
International Standards Laboratory
Report Number: ISL-14HE084CE
-24Table 4.2.2 Radiated Emissions (Vertical)
* Note:
Margin = Emission – Limit
Emission = Radiated Amplitude + Correct Factor
Correct Factor = Antenna Correction Factor + Cable Loss
A margin of -8dB means that the emission is 8dB below the limit
BILOG Antenna
Distance: 10 meters
Below 1GHz test, if the peak measured value meets the QP limit, it is unnecessary to perform the QP measurement.
measurement.
International Standards Laboratory
Report Number: ISL-14HE084CE
-25-
* Note:
Margin = Emission – Limit
Emission = Radiated Amplitude + Correct Factor
Correct Factor = Antenna Correction Factor + Cable Loss – Pre-Amplifier Gain
A margin of -8dB means that the emission is 8dB below the limit
Horn Antenna
Distance: 3 meters
Above 1GHz test, if the peak measured value meets the average limit, it is unnecessary to perform the average measurement.
International Standards Laboratory
Report Number: ISL-14HE084CE
-264.3 Test Setup Photo
Front View (30MHz~1GHz)
Back View (30MHz~1GHz)
International Standards Laboratory
Report Number: ISL-14HE084CE
-27Front View (above 1GHz)
Back View (above 1GHz)
International Standards Laboratory
Report Number: ISL-14HE084CE
-285.
Electrostatic discharge (ESD) immunity
5.1 Test Specification
Port:
Basic Standard:
Enclosure
EN 61000-4-2/ IEC EN61000-4-2
(details referred to Sec 1.2)
Air
+/- 2 kV, +/- 4 kV, +/- 8 kV
Contact
+/- 2 kV, +/- 4 kV
B
refer to ISL QA -T4-E-S7
23 °C
50%
Test Level:
Criteria:
Test Procedure
Temperature:
Humidity:
Selected Test Point
Air:
discharges were applied to slots, aperture or insulating surfaces. 10 single air
discharges were applied to each selected points.
Contact: Total 200 discharges minimum were to the selected contact points.
Indirect Contact Points: 25 discharges were applied to center of one edge of VCP and each
EUT side of HCP with 10 cm away from EUT.
5.2 Test Setup
EUT is 1m from the wall and other metallic structure. When Battery test mode is needed, a cable
with one 470K resister at two rare ends is connected from metallic part of EUT and screwed to
HCP.
10cm
For battery
VCP: 0.5m x 0.5m
test mode
470K
EUT
0.5mm insulation
HCP: 1.6m x 0.8m
Non-Metallic Table
80cm
470K
470K
Ground reference Plane
5.3 Test Result
Performance of EUT complies with the given specification.
International Standards Laboratory
Report Number: ISL-14HE084CE
-295.4 Test Point
Red arrow lines indicate the contact points, and blue arrow lines indicate the air points.
International Standards Laboratory
Report Number: ISL-14HE084CE
-305.5 Test Setup Photo
International Standards Laboratory
Report Number: ISL-14HE084CE
-316.
Radio-Frequency, Electromagnetic Field immunity
6.1 Test Specification
Port:
Basic Standard:
Test Level:
Modulation:
Frequency range:
Frequency Step:
Dwell time:
Polarization:
EUT Azimuth Angle
Criteria:
Test Procedure
Temperature:
Humidity:
Enclosure
EN 61000-4-3/ IEC EN61000-4-3
(details referred to Sec 1.2)
3 V/m
AM 1KHz 80%
80 MHz~1 GHz
1% of last step frequency
3s
Vertical and Horizontal
0
90
180
270
A
refer to ISL QA -T4-E-S8
24°C
52%
6.2 Test Setup
The field sensor is placed at one calibration grid point to check the intensity of the established
fields on both polarizations. EUT is adjusted to have each side of EUT face coincident with the
calibration plane. A CCD camera and speakers are used to monitor the condition of EUT for
the performance judgment.
6.3 Test Result
Performance of EUT complies with the given specification.
International Standards Laboratory
Report Number: ISL-14HE084CE
-326.4 Test Setup Photo
International Standards Laboratory
Report Number: ISL-14HE084CE
-337.
Electrical Fast transients/burst immunity
7.1 Test Specification
Port:
Basic Standard:
Test Level:
Rise Time:
Hold Time:
Repetition Frequency:
Criteria:
Test Procedure
Temperature:
Humidity:
AC mains; Twisted Pair LAN Port
EN 61000-4-4/ IEC EN61000-4-4
(details referred to Sec 1.2)
AC Power Port: +/- 1 kV
Twisted Pair LAN Port (I/O Cables): +/0.5 kV
5ns
50ns
5KHz
B
refer to ISL QA -T4-E-S9
23 °C
50%
Test Procedure
The EUT was setup on a nonconductive table 0.1 m above a reference ground plane.
Test Points
Polarity
Result
Comment
Line
+
N
60 sec
N
60 sec
Neutral
+
N
60 sec
N
60 sec
Ground
+
N
60 sec
N
60 sec
Line to
+
N
60 sec
Neutral
N
60 sec
Line to
+
N
60 sec
Ground
N
60 sec
Neutral to
+
N
60 sec
Ground
N
60 sec
Line to Neutral
+
N
60 sec
to Ground
N
60 sec
Capacitive coupling
+
N
60 sec
clamp
60 sec
N
Note: ’N’ means normal, the EUT function is correct during the test.
International Standards Laboratory
Report Number: ISL-14HE084CE
-347.2 Test Setup
EUT is at least 50cm from the conductive structure.
7.3 Test Result
Performance of EUT complies with the given specification.
International Standards Laboratory
Report Number: ISL-14HE084CE
-357.4 Test Setup Photo
International Standards Laboratory
Report Number: ISL-14HE084CE
-368.
Surge Immunity
8.1 Test Specification
Port:
AC mains
Basic Standard: EN 61000-4-5/ IEC EN61000-4-5
(details referred to Sec 1.2)
Test Level:
Line to Line:
+/- 0.5 kV, +/- 1 kV
Line to Earth:
+/- 0.5 kV, +/- 1 kV, +/- 2kV
Rise Time:
1.2us
Hold Time:
50us
Repetition Rate: 30 seconds
0 90 180 270
Angle:
Criteria:
B
Remarks:
Test Procedure: refer to ISL QA -T4-E-S10
Temperature:
23°C
Humidity:
50%
8.2 Test Setup
EUT
To the Peripherals
To AC main Supply
Signal
Non-Metallic /
Non-Conducted Table
Test
Generator
80 cm
CDN
Metal Full Soldered Ground Plane
8.3 Test Result
When Eut during test,it will “Turn off” the system!
And it’s need to Rebooting the Eut and system by “Manual”.
Manufacturer claim that situation is “Normal”!
International Standards Laboratory
Report Number: ISL-14HE084CE
-37Test Setup Photo
International Standards Laboratory
Report Number: ISL-14HE084CE
-389.
Immunity to Conductive Disturbance
9.1 Test Specification
Port:
Basic Standard:
AC mains; Twisted Pair LAN Port
EN 61000-4-6/ IEC EN61000-4-6
(details referred to Sec 1.2)
3V
AM 1KHz 80%
0.15 MHz - 80MHz
1% of last Frequency
3s
A
CDN M2+M3, CDN T2, CDN T4, CDN
T8, EM Clamp
refer to ISL QA -T4-E-S11
23°C
50%
Test Level:
Modulation:
Frequency range:
Frequency Step:
Dwell time:
Criteria:
CDN Type:
Test Procedure
Temperature:
Humidity:
9.2 Test Setup
Test
Generator
6dB
Att.
10~30cm
EUT
50
To AE
CDN
To AC main
CDN
>3cm
0.1 m support
Reference Ground Plane
9.3 Test Result
Performance of EUT complies with the given specification.
International Standards Laboratory
Report Number: ISL-14HE084CE
-399.4 Test Setup Photo
International Standards Laboratory
Report Number: ISL-14HE084CE
-4010.
Power Frequency Magnetic Field immunity
10.1 Test Specification
Port:
Basic Standard:
Enclosure
EN 61000-4-8/ IEC EN61000-4-8
(details referred to Sec 1.2)
1A/m
X, Y, Z
A
refer to ISL QA -T4-E-S12
23°C
50%
Test Level:
Polarization:
Criteria:
Test Procedure
Temperature:
Humidity:
10.2 Test Setup
Induction Coil (1m x 1m)
EUT
To AC main
To AC main
Insulation
A
E
Non-Metallic Table
80cm
Test
Generator
10.3 Test Result
Performance of EUT complies with the given specification.
International Standards Laboratory
Report Number: ISL-14HE084CE
-4110.4 Test Setup Photo
International Standards Laboratory
Report Number: ISL-14HE084CE
-4211.
Voltage Dips, Short Interruption and Voltage Variation
immunity
11.1 Test Specification
Port:
Basic Standard:
AC mains
EN 61000-4-11/ IEC EN61000-4-11
(details referred to Sec 1.2)
>95% in 0.5 period
B
30% in 25 period
C
>95% in 250 period
C
0; 180
3 times with 10s each
refer to ISL QA -T4-E-S13
23°C
50%
Test Level:
Criteria:
Test Level:
Criteria:
Test Level:
Criteria:
Phase:
Test intervals:
Test Procedure
Temperature:
Humidity:
11.2 Test Setup
EUT AC supply
EUT
To AE
Non-Metallic Table
To AC main
80cm
Test
Generator
Ground Reference Plane
11.3 Test Result
Performance of EUT complies with the given specification.
International Standards Laboratory
Report Number: ISL-14HE084CE
-4311.4 Test Setup Photo
International Standards Laboratory
Report Number: ISL-14HE084CE
-4412.
Harmonics
12.1 Test Specification
Port:
Active Input Power:
Basic Standard:
Test Duration:
Class:
Test Procedure
Temperature:
Humidity:
AC mains
<75W
EN61000-3-2/IEC 61000-3-2
(details referred to Sec 1.2)
2.5min
D
refer to ISL QA -T4-E-S14
23°C
50%
Test Procedure
The EUT is supplied in series with shunts or current transformers from a source having the
same nominal voltage and frequency as the rated supply voltage and frequency of the EUT.
The EUT is configured to its rated current with additional resistive load when the testing is
performed.
Equipment having more than one rated voltage shall be tested at the rated voltage producing
the highest harmonics as compared with the limits.
12.2 Test Setup
12.3 Test Result
Active input power under 75W, no limit apply, declare compliance
International Standards Laboratory
Report Number: ISL-14HE084CE
-4513.
Voltage Fluctuations
13.1 Test Specification
Port:
Basic Standard:
Test Procedure
Observation period:
Temperature:
Humidity:
AC mains
EN61000-3-3/IEC61000-3-3
(details referred to Sec 1.2)
refer to ISL QA -T4-E-S14
For Pst 10min
For Plt 2 hours
23°C
50%
Test Procedure
The EUT is supplied in series with reference impedance from a power source with the voltage
and frequency as the nominal supply voltage and frequency of the EUT.
13.2 Test Setup
13.3 Test Result
Performance of EUT complies with the given specification.
International Standards Laboratory
Report Number: ISL-14HE084CE
-4613.4 Test Data
International Standards Laboratory
Report Number: ISL-14HE084CE
-4713.5 Test Setup Photo
International Standards Laboratory
Report Number: ISL-14HE084CE
-4814.
Appendix
14.1 Appendix A: Test Equipment
14.1.1 Test Equipment List
Location
CON01
Equipment Name
Brand
Model
S/N
Last Cal.
Date
Next Cal.
Date
Conduction
Coaxial Cable 1F-C1
RG214U
389942
10/25/2013
10/25/2014
Conduction
LISN 21
ENV216
101476
05/14/2013
05/14/2014
Conduction
LISN 22
ENV216
101478
05/14/2013
05/14/2014
Conduction
ISN T2 03
HUBER
SUHNER
ROHDE &
SCHWARZ
ROHDE &
SCHWARZ
FCC
20618
08/13/2013
08/13/2014
Conduction
ISN T4 05
FCC
20619
08/13/2013
08/13/2014
Conduction
Conduction
Conduction
INS T8 07
ISN T8 06 (Shielding)
EMI Receiver 15
Teseq GmbH
Teseq GmbH
ROHDE &
SCHWARZ
FCC-TLISN-T
2-02
FCC-TLISN-T
4-02
ISN T800
ISN ST08
ESCI
30834
33999
101166
06/01/2013
08/10/2013
04/30/2013
06/01/2014
08/10/2014
04/30/2014
Location
OATS01
Equipment Name
Brand
Model
S/N
Last Cal.
Date
Next Cal.
Date
Radiation
BILOG Antenna 10
JB1
A013004-1
07/10/2013
07/10/2014
CFD400-NL
ESCI
ISL-R001
101015
03/14/2014
02/26/2014
03/14/2015
02/26/2015
Model
S/N
Last Cal.
Date
Next Cal.
Date
Radiation
Radiation
Sumol
Sciences
Coaxial Cable 3F-10M EMCI
EMI Receiver 13
ROHDE &
SCHWARZ
Location
Equipment Name
Chamber 01
Brand
Rad. above
1Ghz
Rad. above
1Ghz
Rad. above
1Ghz
Rad. above
1Ghz
Rad. above
1Ghz
Rad. above
1Ghz
Rad. above
1Ghz
Rad. above
1Ghz
00114397
03/21/2014
03/21/2015
Horn Antenna 03
ETS-LINDGR 3117
EN
COM-Power AH-826
08010
04/01/2013
04/01/2015
Horn Antenna 05
Com-Power
AH-640
100A
01/09/2013
01/09/2015
Microwave Cable-16
HUBER
SUHNER
EMCI
SUCFLEX 104 345761/4
01/06/2014
01/06/2015
EMC051845
11/06/2013
11/06/2014
HUBER
SUHNER
EMCI
SUCFLEX 102 MY 2151/2
05/09/2013
05/09/2014
EMC184045
980124
04/02/2013
04/02/2014
ROHDE &
SCHWARZ
FSU43
101255
11/07/2013
11/07/2014
Horn Antenna 11
Preamplifier 20
Microwave Cable-19
Preamplifier 22
Spectrum Analyzer 23
International Standards Laboratory
980084
Report Number: ISL-14HE084CE
-49Location
Equipment Name
EN61K-3-2/3 DC Burn-In Load 02
EN61K-3-2/3 Harmonic/Flicker Test
System 03
EN61K-4-,4,5, TRANSIENT 2000 01
8,11
EN61K-4-2
ESD GUN 11
EN61K-4-3
BILOG Antenna 06
EN61K-4-3
Amplifier 80Mz~1GHz
250W
EN61K-4-3
Amplifier
800MHz~3.0GHz 60W
EN61K-4-3
Broadband coupler
10K~220Mhz
EN61K-4-3
Broadband Coupler
80M~1GHz
EN61K-4-3
Broadband Coupler
1~4GHz
EN61K-4-3
Coaxial Cable Chmb
04-3M-2
EN61K-4-3
Signal Generator 03
EN61K-4-4
Digital Oscilloscope
EN61K-4-4
EFT Clamp
Brand
Model
S/N
Last Cal.
Date
Next Cal.
Date
D-RAM
EMC Partner
2100-910027
178
N/A
03/21/2014
N/A
03/21/2015
950
12/18/2013
12/18/2014
TESEQ
Schaffner
AR
DBS-2100
HARMONICS
-1000
TRANSIENT2000
NSG 438
CBL6112B
250W1000A
1278
2754
312494
09/12/2013
N/A
N/A
09/12/2014
N/A
N/A
AR
60S1G3
312762
N/A
N/A
Amplifier
Research
Amplifier
Research
Werlatone
DC2500
19810
N/A
N/A
DC6180
20364
N/A
N/A
C5291
6516
N/A
N/A
Belden
RG-8/U
N/A
N/A
06/26/2013
N/A
N/A
06/26/2014
N/A
N/A
01/23/2014
01/21/2014
N/A
01/23/2015
01/21/2015
N/A
N/A
N/A
N/A
08/10/2013
08/10/2013
09/06/2013
N/A
08/10/2014
08/10/2014
09/06/2014
09/06/2013
09/06/2014
10/19/2013
N/A
N/A
10/19/2014
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
09/05/2013
09/05/2014
N/A
N/A
EMC Partner
Anritsu
Tektronix
Precision
EN61K-4-5
EN61K-4-5
EN61K-4-6
CDN-UTP8 01
SURGE-TESTER 01
6dB Attenuator
EN61K-4-6
Amplifier 4-6
EN61K-4-6
EN61K-4-6
EN61K-4-6
EN61K-4-6
Attenuator 6dB 4-6
CDN M2+M3
CDN T2 01
CDN T4 05
EMC Partner
EMC Partner
Weinschel
Corp
Amplifier
Research
BIRO
Frankonia
Frankonia
FCC Inc.
EN61K-4-6
CDN T8 01
FCC Inc.
EN61K-4-6
EN61K-4-6
EN61K-4-6
CDN RJ45/S 01
Frankonia
EM-Clamp 01
FCC
Coaxial Cable 4-6 01-1 Harbour
Industries
Coaxial Cable 4-6 01-2 Harbour
Industries
Coaxial Cable 4-6 01-3 Harbour
Industries
KAL-AD RJ45S
BIRO
KAL-AD T2
BIRO
Passive Impedance
FCC
Adaptor 4-6
Signal Generator 02
HP
EN61K-4-6
EN61K-4-6
EN61K-4-6
EN61K-4-6
EN61K-4-6
EN61K-4-6,
CISPR 13,
Antenna
EN61K-4-8
Magnetic Field Antenna Precision
Chmb
04-3M-2
MG3642A
6200162550
TDS 684A
B010761
1604242
CNEFT1000-1
03
CDN-UTP8
032
MIG0603IN3 778
33-6-34
BC5975
150A100
1-1-R-02157
100-A-FFN-06 0123
M2+M3
A3011016
T2
A3010003
FCC-801-T4-R 08020
J45
FCC-801-T8-R 08021
J45
CDN-RJ45/S A3150047
F-203I-23MM 539
M17/128-RG4 4-6 01-1
00
M17/128-RG4 4-6 01-2
00
M17/128-RG4 4-6 01-3
00
FCC-801-150- 9758;9759
50-CDN
8648B
3642U01040
TRAIZ44B
MF1000-23
PS: N/A => The equipment does not need calibration.
International Standards Laboratory
Report Number: ISL-14HE084CE
-5014.1.2 Software for Controlling Spectrum/Receiver and Calculating Test Data
Test Item
Filename
Version
EN61000-3-2
EMC Partner
4.20
EN61000-3-3
EMC Partner
4.20
EN61000-4-2
N/A
EN61000-4-3
i2
EN61000-4-4
EMC Partner
1.79
EN61000-4-5
EMC Partner
1.82
EN61000-4-6
EMC Partner
1.12
EN61000-4-8
EMC Partner
1.79
EN61000-4-11
EMC Partner
1.79
Site
Filename
Conduction/Radiation
4.130102g
EZ EMC
International Standards Laboratory
Version
Issue Date
ISL-03A2
3/6/2013
Report Number: ISL-14HE084CE
-5114.2 Appendix B: Uncertainty of Measurement
The measurement uncertainty refers to CISPR 16-4-2:2011. The coverage factor k = 2
yields approximately a 95 % level of confidence.
<Conduction 01>
AMN: ±3.28dB
ISN T2: ±3.86dB
ISN T4: ±4.27dB
ISN T8: ±3.86dB
<OATS 01 (10M)>
Horizontal
30MHz~200MHz: ±3.36dB
200MHz~1000MHz: ±4.08dB
Vertical
30MHz~200MHz: ±3.99dB
200MHz~1000MHz: ±4.16dB
<Chamber 01 (3M)>
1GHz~6GHz:
6GHz~18GHz:
18GHz~26.5GHz:
18GHz~26.5GHz:
±4.70dB
±4.91dB
±4.34dB
±4.38dB
<Immunity 01>
Test item
Uncertainty
EN61000-4-2 (ESD)
Test item
Uncertainty
EN61000-4-5 (Surge)
Rise time tr
≦ 15%
Time
± 1.16%
Peak current Ip
≦ 6.3%
Voltage
± 1.63%
current at 30 ns
≦ 6.3%
Current
± 1.28%
current at 60 ns
≦ 6.3%
EN61000-4-3 (RS)
±2.19dB
EN61000-4-4 (EFT)
EN61000-4-6 (CS)
CDN
± 1.36dB
EM Clamp
± 3.19dB
Time
± 1.43%
EN61000-4-8 (Magnetic)
Voltage
± 1.11%
EN61000-4-11 (Dips)
Current
± 1.85%
Test item
EN61000-3-2
(Harmonics)
Uncertainty
± 4.43 %
International Standards Laboratory
±1.12%
Time
± 1.16%
Voltage
± 0.10%
Test item
EN61000-3-3
(Fluctuations and Flicker)
Uncertainty
± 4.43 %
Report Number: ISL-14HE084CE
-5214.3 Appendix C: Photographs of EUT
Please refer to the File of ISL-14HE084P
International Standards Laboratory
Report Number: ISL-14HE084CE