Z Com 0XG880M Wireless CF Module User Manual FR660211 15 247 11bg

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SPORTON International Inc.
No. 52, Hwa Ya 1st Rd., Kwei-Shan Hsiang, TaoYuan Hsien, Taiwan, R.O.C.
Ph: 886-3-327-3456 / FAX: 886-3-327-0973 / www.sporton.com.tw
FCC RADIO TEST REPORT
Applicant’s company
Z-Com, Inc.
Applicant Address
7F-2, No. 9. Prosperity RD.I Science-Based Industrial, Park Hsinchu, 300
Taiwan
FCC ID
M4Y-0XG880M
Manufacturer’s company
Z-Com, Inc.
Manufacturer Address
7F-2, No. 9. Prosperity RD.I Science-Based Industrial, Park Hsinchu, 300
Taiwan
Product Name
Wireless CF Module
Brand Name
ZCOM
Model Name
XG-880M
Test Rule
47 CFR FCC Part 15 Subpart C § 15.247
Test Freq. Range
2400 ~ 2483.5MHz
Receive Date
Jun. 2, 2006
Final Test Date
Jun. 23, 2006
Submission Type
Original Equipment
Statement
Test result included is only for the 802.11b/g part of the product.
The test result in this report refers exclusively to the presented test model / sample.
Without written approval of SPORTON International Inc., the test report shall not be reproduced except in full.
The measurements and test results shown in this test report were made in accordance with the procedures
and found in compliance with the limit given in ANSI C63.4-2003 and 47 CFR FCC Part 15 Subpart C.
The test equipment used to perform the test is calibrated and traceable to NML/ROC.
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Table of Contents
1. CERTIFICATE OF COMPLIANCE ......................................................................................................................... 1
2. SUMMARY OF THE TEST RESULT .......................................................................................................................... 2
3. GENERAL INFORMATION .................................................................................................................................. 3
3.1.
Product Details....................................................................................................................................................................................3
3.2.
Accessories.........................................................................................................................................................................................3
3.3.
Table for Filed Antenna.......................................................................................................................................................................3
3.4.
Table for Carrier Frequencies .............................................................................................................................................................4
3.5.
Table for Test Modes ...........................................................................................................................................................................4
3.6.
Table for Testing Locations..................................................................................................................................................................5
3.7.
Table for Supporting Units ...................................................................................................................................................................5
3.8.
Table for Parameters of Test Software Setting .....................................................................................................................................6
3.9.
Test Configurations .............................................................................................................................................................................7
4. TEST RESULT ..................................................................................................................................................... 9
4.1.
AC Power Line Conducted Emissions Measurement...........................................................................................................................9
4.2.
Maximum Peak Output Power Measurement ...................................................................................................................................13
4.3.
Power Spectral Density Measurement ..............................................................................................................................................15
4.4.
6dB Spectrum Bandwidth Measurement ..........................................................................................................................................20
4.5.
Radiated Emissions Measurement ....................................................................................................................................................25
4.6.
Band Edge Emissions Measurement .................................................................................................................................................43
4.7.
Antenna Requirements .....................................................................................................................................................................50
5. LIST OF MEASURING EQUIPMENTS ................................................................................................................... 51
6. SPORTON COMPANY PROFILE ........................................................................................................................ 53
6.1.
Test Location.....................................................................................................................................................................................53
APPENDIX A. PHOTOGRAPHS OF EUT.......................................................................................................... A1 ~ A4
APPENDIX B. TEST PHOTOS.......................................................................................................................... B1 ~ B7
APPENDIX C. MAXIMUM PERMISSIBLE EXPOSURE......................................................................................... C1 ~C3
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Report No.: FR660211
History of This Test Report
Original Issue Date: Jun. 30, 2006
Report No.: FR660211
■ No additional attachment.
□ Additional attachment were issued as following record:
Attachment No.
Issue Date
Description
Turbo 6
2437 MHz
Further, this requirement does not apply to intentional radiators that must be professionally installed.
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2. SUMMARY OF THE TEST RESULT
Applied Standard: 47 CFR FCC Part 15 Subpart C
Part
Rule Section
Description of Test
Result
Under Limit
4.1
15.207
AC Power Line Conducted Emissions
Complies
14.74 dB
4.2
15.247(b)(3)
Maximum Peak Conducted Output Power
Complies
12.25 dB
4.3
15.247(e)
Power Spectral Density
Complies
18.97 dB
4.4
15.247(a)(2)
6dB Spectrum Bandwidth
Complies
4.5
15.247(d)
Radiated Emissions
Complies
3.02 dB
4.6
15.247(d)
Band Edge Emissions
Complies
3.10 dB
4.7
15.203
Antenna Requirements
Complies
Test Items
Uncertainty
Remark
AC Power Line Conducted Emissions
±2.26dB
Confidence levels of 95%
Maximum Peak Conducted Output Power
±0.5dB
Confidence levels of 95%
Power Spectral Density
±0.71dB
Confidence levels of 95%
6dB Spectrum Bandwidth
±6.25×10-7
Confidence levels of 95%
Radiated Emissions/ Band Edge Emissions
±3.72dB
Confidence levels of 95%
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3. GENERAL INFORMATION
3.1. Product Details
Items
Description
Power Type
Host (Notebook)
Modulation
DSSS for IEEE 802.11b ; OFDM for IEEE 802.11g
Data Modulation
DSSS (BPSK / QPSK / CCK) ; OFDM (BPSK / QPSK / 16QAM / 64QAM)
Data Rate (Mbps)
DSSS (1/ 2/ 5.5/11) ; OFDM (6/9/12/18/24/36/48/54)
Frequency Range
2400 ~ 2483.5MHz
Channel Number
11
Channel Band Width (99%)
11b: 13.91 MHz ; 11g: 16.44 MHz
Conducted Output Power
11b: 15.44 dBm ; 11g: 17.75 dBm
Carrier Frequencies
Please refer to section 3.4
Antenna
Please refer to section 3.3
3.2. Accessories
N/A
3.3. Table for Filed Antenna
Ant.
Brand
Model Name
Antenna Type
Connector
Gain (dBi)
WANSHIH
SAW-0008A
Dipole Antenna
Reversed-SMA
2.0
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3.4. Table for Carrier Frequencies
Freqeuncy Band
Channel No.
Frequency
Channel No.
Frequency
2412 MHz
2442 MHz
2417 MHz
2447 MHz
2422 MHz
2452 MHz
2427 MHz
10
2457 MHz
2432 MHz
11
2462 MHz
2437 MHz
2400~2483.5MHz
3.5. Table for Test Modes
Preliminary tests were performed in different data rate to find the worst radiated emission. The data rate
shown in the table below is the worst-case rate with respect to the specific test item. Investigation has been
done on all the possible configurations for searching the worst cases. The following table is a list of the test
modes shown in this test report.
Test Items
Mode
Data Rate
Channel
Antenna
AC Power Line Conducted Emissions
Normal Link
54 Mbps
Maximum Peak Conducted Output Power
11b/ BPSK
1 Mbps
1/6/11
NA
Power Spectral Density
11g/BPSK
6 Mbps
1/6/11
NA
Radiated Emissions 9kHz~1GHz
11g/BPSK
6 Mbps
Radiated Emissions 1GHz~10th Harmonic
11b/ BPSK
1 Mbps
1/6/11
11g/BPSK
6 Mbps
1/6/11
11b/ BPSK
1 Mbps
1/11
11g/BPSK
6 Mbps
1/11
6dB Spectrum Bandwidth
Band Edge Emissions
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3.6. Table for Testing Locations
Test Site No.
Site Category
Location
FCC Reg. No.
IC File No.
VCCI Reg. No
03CH03-HY
SAC
Hwa Ya
101377
IC 4088
CO04-HY
Conduction
Hwa Ya
101377
IC 4088
TH01-HY
OVEN Room
Hwa Ya
Open Area Test Site (OATS); Semi Anechoic Chamber (SAC); Fully Anechoic Chamber (FAC).
Please refer section 6 for Test Site Address.
3.7. Table for Supporting Units
Support Unit
Brand
Model
FCC ID
Notebook
IBM
1829
DoC
Printer
EPSON
LQ-300
DoC
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3.8. Table for Parameters of Test Software Setting
During testing, Channel & Power Controlling Software provided by the customer was used to control the
operating channel as well as the output power level. The RF output power selection is for the setting of RF
output power expected by the customer and is going to be fixed on the firmware of the final end product.
Power Parameters of IEEE 802.11b/g
Test Software Version
DutApiCf8385p
Frequency
2412 MHz
2437 MHz
2462 MHz
IEEE 802.11b
14
14
14
IEEE 802.11g
14
14
14
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3.9. Test Configurations
3.9.1. Radiation Emissions Test Configuration
Test Configuration: 9KHz~1GHz
AC Main
Adapter
USB x 2
DC
VGA
PS/2
LPT
Notebook
EUT
RJ-45
RJ-11
Antenna
Printer
Antenna
1. DC power line, 1.5m, No-shielding
2. LPT, 1.8m, Shielding
3. RF Cable, 7cm, Shielding
Test Configuration: above 1GHz
AC Main
EUT
Adapter
USB x 2
DC
VGA
PS/2
LPT
RJ-45
RJ-11
Antenna
Notebook
Antenna
1. DC power line, 1.5m, No-shielding
2. RF CABLE , 7cm , shielding
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3.9.2. AC Power Line Conduction Emissions Test Configuration
RJ-11
RJ-45
LPT
VGA
DC
ant
Adapter
Printer
EUT
Notebook
ant
1. DC power line, 1.5m, No-shielding
2. LPT, 1.8m, Shielding
3. RF Cable ,7 cm, Shielding
4. RF Cable ,7 cm, Shielding
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4. TEST RESULT
4.1. AC Power Line Conducted Emissions Measurement
4.1.1. Limit
For a Low-power Radio-frequency Device which is designed to be connected to the AC power line, the
radio frequency voltage that is conducted back onto the AC power line on any frequency or
frequencies within the band 150 kHz to 30 MHz shall not exceed below limits table.
Frequency (MHz)
QP Limit (dBuV)
AV Limit (dBuV)
0.15~0.5
66~56
56~46
0.5~5
56
46
5~30
60
50
4.1.2. Measuring Instruments and Setting
Please refer to section 5 in this report. The following table is the setting of the receiver.
Receiver Parameters
Setting
Attenuation
10 dB
Start Frequency
0.15 MHz
Stop Frequency
30 MHz
IF Bandwidth
9 KHz
4.1.3. Test Procedures
1.
Configure the EUT according to ANSI C63.4. The EUT or host of EUT has to be placed 0.4 meter far
from the conducting wall of the shielding room and at least 80 centimeters from any other
grounded conducting surface.
2.
Connect EUT or host of EUT to the power mains through a line impedance stabilization network (LISN).
3.
All the support units are connected to the other LISNs. The LISN should provide 50uH/50ohms
coupling impedance.
4.
The frequency range from 150 KHz to 30 MHz was searched.
5.
Set the test-receiver system to Peak Detect Function and Specified Bandwidth with Maximum Hold
Mode.
6.
The measurement has to be done between each power line and ground at the power terminal.
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4.1.4. Test Setup Layout
1. If cables, which hang closer than 40 cm to the horizontal metal groundplane, cannot be shortened
to appropriate length, the excess shall be folded back and forth forming a bundle 30 cm to 40 cm
long.
2. Excess mains cord shall be bundled in the centre or shortened to appropriate length.
3. EUT is connected to one artificial mains network (AMN). All AMNs and ISNs may alternatively be
connected to a vertical reference plane or metal wall.
4. All other units of a system are powered from a second AMN. A multiple outlet strip can be used for
multiple mains cords.
5. AMN and ISN are 80 cm from the EUT and at least 80 cm from other units and other metal planes.
6. Mains cords and signal cables shall be positioned for their entire lengths, as far as possible, at 40 cm
from the vertical reference plane.
7. Cables of hand operated devices, such as keyboards, mouses, etc. shall be placed as for normal
usage.
8. Peripherals shall be placed at a distance of 10 cm from each other and from the controller, except
for the monitor which, if this is an acceptable installation practice, shall be placed directly on the
top of the controller.
9. I/O signal cable intended for external connection.
10. The end of the I/O signal cables which are not connected to an AE may be terminated, if required,
using correct terminating impedance.
11. If used, the current probe shall be placed at 0,1 m from the ISN.
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4.1.5. Test Deviation
There is no deviation with the original standard.
4.1.6. EUT Operation during Test
The EUT was placed on the test table and programmed in normal function.
4.1.7. Results of AC Power Line Conducted Emissions Measurement
Temperature
26℃
Humidity
65%
Test Engineer
Rush Kao
Phase
Line
Configuration
Normal Link
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Temperature
26℃
Humidity
65%
Test Engineer
Rush Kao
Phase
Neutral
Configuration
Normal Link
Note:
Level = Read Level + LISN Factor + Cable Loss.
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4.2. Maximum Peak Output Power Measurement
4.2.1. Limit
For systems using digital modulation in the 2400-2483.5MHz, the limit for peak output power is 30dBm.
The limited has to be reduced by the amount in dB that the gain of the antenna exceed 6dBi. In case of
point-to-point operation, the limit has to be reduced by 1dB for every 3dB that the directional gain of the
antenna exceeds 6dBi.
4.2.2. Measuring Instruments and Setting
Please refer to section 5 in this report. The following table is the setting of the power meter.
Power Meter Parameter
Setting
Filter No.
Auto
Measurement time
0.135 s ~ 26 s
Used Peak Sensor
NRV-Z32 (model 04)
4.2.3. Test Procedures
1.
The transmitter output (antenna port) was connected to the power meter.
2.
Turn on the EUT and power meter and then record the peak power value.
3.
Repeat above procedures on all channels needed to be tested.
4.2.4. Test Setup Layout
4.2.5. Test Deviation
There is no deviation with the original standard.
4.2.6. EUT Operation during Test
The EUT was programmed to be in continuously transmitting mode.
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4.2.7. Test Result of Maximum Peak Output Power
Temperature
26℃
Humidity
65%
Test Engineer
Rush Kao
Configurations
802.11b/g
Configuration IEEE 802.11b
Channel
Frequency
Conducted Power
(dBm)
Max. Limit
(dBm)
Result
2412 MHz
15.44
30.00
Complies
2437 MHz
15.24
30.00
Complies
11
2462 MHz
15.02
30.00
Complies
Configuration IEEE 802.11g
Channel
Frequency
Conducted Power
(dBm)
Max. Limit
(dBm)
Result
2412 MHz
17.66
30.00
Complies
2437 MHz
17.71
30.00
Complies
11
2462 MHz
17.75
30.00
Complies
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4.3. Power Spectral Density Measurement
4.3.1. Limit
For digitally modulated systems, the power spectral density conducted from the intentional radiator to
the antenna shall not be greater than 8 dBm in any 3 kHz band during any time interval of continuous
transmission.
4.3.2. Measuring Instruments and Setting
Please refer to section 5 in this report. The following table is the setting of Spectrum Analyzer.
Spectrum Parameter
Setting
Attenuation
Auto
Span Frequency
1.5MHz
RB
3 kHz
VB
30 kHz
Detector
Peak
Trace
Max Hold
Sweep Time
500s
4.3.3. Test Procedures
1.
The transmitter output (antenna port) was connected to the spectrum analyser.
2.
Set RBW of spectrum analyzer to 3kHz and VBW to 30kHz. Set Detector to Peak, Trace to Max Hold.
3.
Mark the frequency with maximum peak power as the center of the display of the spectrum.
4.
Set the span to 1.5MHz and the sweep time to 500s and record the maximum peak value.
4.3.4. Test Setup Layout
4.3.5. Test Deviation
There is no deviation with the original standard.
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4.3.6. EUT Operation during Test
The EUT was programmed to be in continuously transmitting mode.
4.3.7. Test Result of Power Spectral Density
Temperature
26℃
Humidity
65%
Test Engineer
Rush Kao
Configurations
802.11b/g
Configuration IEEE 802.11b
Channel
Frequency
Power Density
(dBm)
Max. Limit
(dBm)
Result
2412 MHz
-12.17
8.00
Complies
2437 MHz
-11.13
8.00
Complies
11
2462 MHz
-10.97
8.00
Complies
Configuration IEEE 802.11g
Channel
Frequency
Power Density
(dBm)
Max. Limit
(dBm)
Result
2412 MHz
-14.73
8.00
Complies
2437 MHz
-15.03
8.00
Complies
11
2462 MHz
-13.38
8.00
Complies
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Report No.: FR660211
Power Density Plot on Configuration IEEE 802.11b / 2412 MHz
* RBW 3 kHz
Marker 1 [T1 ]
-12.17 dBm
2.410302885 GHz
* VBW 30 kHz
Ref
* Att
20 dBm
30 dB
* SWT 500 s
20
10
1 PK
VIEW
-10
-20
-30
-40
-50
-60
-70
-80
Center
2.410240385 GHz
Date: 20.JUN.2006
150 kHz/
Span
1.5 MHz
10:05:24
Power Density Plot on Configuration IEEE 802.11b / 2437 MHz
* RBW 3 kHz
Marker 1 [T1 ]
-11.13 dBm
2.436259615 GHz
* VBW 30 kHz
Ref
* Att
20 dBm
30 dB
* SWT 500 s
20
10
1 PK
VIEW
-10
-20
-30
-40
-50
-60
-70
-80
Center
2.435995192 GHz
Date: 20.JUN.2006
150 kHz/
Span
1.5 MHz
10:08:25
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Power Density Plot on Configuration IEEE 802.11b / 2462 MHz
* RBW 3 kHz
* VBW 30 kHz
Ref
* Att
20 dBm
30 dB
* SWT 500 s
Marker 1 [T1 ]
-10.97 dBm
2.462995192 GHz
20
10
1 PK
VIEW
-10
-20
-30
-40
-50
-60
-70
-80
Center
2.462596154 GHz
Date: 20.JUN.2006
150 kHz/
Span
1.5 MHz
10:10:40
Power Density Plot on Configuration IEEE 802.11g / 2412 MHz
* RBW 3 kHz
* VBW 30 kHz
Ref
* Att
20 dBm
30 dB
* SWT 500 s
Marker 1 [T1 ]
-14.73 dBm
2.415439103 GHz
20
10
1 PK
VIEW
-10
-20
-30
-40
-50
-60
-70
-80
Center
2.415763622 GHz
Date: 20.JUN.2006
150 kHz/
Span
1.5 MHz
09:55:14
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Power Density Plot on Configuration IEEE 802.11g / 2437 MHz
* RBW 3 kHz
* VBW 30 kHz
Ref
* Att
20 dBm
30 dB
* SWT 500 s
Marker 1 [T1 ]
-15.03 dBm
2.441060897 GHz
20
10
1 PK
VIEW
-10
-20
-30
-40
-50
-60
-70
-80
Center
2.44043109 GHz
Date: 20.JUN.2006
150 kHz/
Span
1.5 MHz
09:58:17
Power Density Plot on Configuration IEEE 802.11g / 2462 MHz
* RBW 3 kHz
* VBW 30 kHz
Ref
* Att
20 dBm
30 dB
* SWT 500 s
Marker 1 [T1 ]
-13.38 dBm
2.464468750 GHz
20
10
1 PK
VIEW
-10
-20
-30
-40
-50
-60
-70
-80
Center
2.463855769 GHz
Date: 20.JUN.2006
150 kHz/
Span
1.5 MHz
10:00:30
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4.4. 6dB Spectrum Bandwidth Measurement
4.4.1. Limit
For digital modulation systems, the minimum 6 dB bandwidth shall be at least 500 kHz.
4.4.2. Measuring Instruments and Setting
Please refer to section 5 in this report. The following table is the setting of the Spectrum Analyzer.
Spectrum Parameters
Setting
Attenuation
Auto
Span Frequency
> 6dB Bandwidth
RB
100 kHz
VB
100 kHz
Detector
Peak
Trace
Max Hold
Sweep Time
Auto
4.4.3. Test Procedures
1.
The transmitter output (antenna port) was connected to the spectrum analyser in peak hold mode.
2.
The resolution bandwidth of 100 kHz and the video bandwidth of 100 kHz were used.
3.
Measured the spectrum width with power higher than 6dB below carrier.
4.4.4. Test Setup Layout
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4.4.5. Test Deviation
There is no deviation with the original standard.
4.4.6. EUT Operation during Test
The EUT was programmed to be in continuously transmitting mode.
4.4.7. Test Result of 6dB Spectrum Bandwidth
Temperature
26℃
Humidity
65%
Test Engineer
Rush Kao
Configurations
802.11b/g
Configuration IEEE 802.11b
Channel
Frequency
6dB Bandwidth
(MHz)
99% Occupied
Bandwidth
(MHz)
Min. Limit
(kHz)
Test Result
2412 MHz
9.80
13.81
500
Complies
2437 MHz
9.58
13.87
500
Complies
11
2462 MHz
10.00
13.91
500
Complies
Configuration IEEE 802.11g
Channel
Frequency
6dB Bandwidth
(MHz)
99% Occupied
Bandwidth
(MHz)
Min. Limit
(kHz)
Test Result
2412 MHz
16.34
16.44
500
Complies
2437 MHz
16.34
16.44
500
Complies
11
2462 MHz
16.31
16.44
500
Complies
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6 dB Bandwidth Plot on Configuration IEEE 802.11b / 2412 MHz
* RBW 100 kHz
* VBW 100 kHz
Ref
* Att
20 dBm
30 dB
SWT 10 ms
OBW 13.814102564
Marker 1 [T1 ]
-4.57
2.407224359
Temp 1 [T1 OBW]
-12.74
2.405108974
Temp 2 [T1 OBW]
T2-12.70
2.418923077
20
10
1 PK
VIEW
D1 2.71 dBm
D2 -3.29 dBm
T1
-10
Delta 1 [T1 ]
1.34 dB
9.807692308 MHz
MHz
dBm
GHz
dBm
GHz
dBm
GHz
-20
-30
-40
-50
-60
-70
F2
F1
-80
Center
2.412 GHz
Date: 20.JUN.2006
2 MHz/
Span
20 MHz
10:04:18
6 dB Bandwidth Plot on Configuration IEEE 802.11b / 2437 MHz
* RBW 100 kHz
* VBW 100 kHz
Ref
* Att
20 dBm
30 dB
SWT 10 ms
OBW 13.878205128
Marker 1 [T1 ]
-2.06
2.432032051
Temp 1 [T1 OBW]
-8.53
2.430012821
Temp 2 [T1 OBW]
T2
-12.53
2.443891026
20
10
1 PK
VIEW
D1 3.11 dBm
Delta 1 [T1 ]
-0.81 dB
9.583333333 MHz
D2 -2.89 dBm
T1
-10
MHz
dBm
GHz
dBm
GHz
dBm
GHz
-20
-30
-40
-50
-60
-70
F2
F1
-80
Center
2.437 GHz
Date: 20.JUN.2006
2 MHz/
Span
20 MHz
10:07:22
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6 dB Bandwidth Plot on Configuration IEEE 802.11b / 2462 MHz
* RBW 100 kHz
* VBW 100 kHz
Ref
* Att
20 dBm
30 dB
SWT 10 ms
OBW 13.910256410
Marker 1 [T1 ]
-1.04
2.457000000
Temp 1 [T1 OBW]
-10.06
2.455044872
Temp 2 [T1 OBW]
T2
-12.03
2.468955128
20
10
1 PK
VIEW
Delta 1 [T1 ]
-2.08 dB
10.000000000 MHz
D1 2.53 dBm 1
D2 -3.47 dBm
T1
-10
MHz
dBm
GHz
dBm
GHz
dBm
GHz
-20
-30
-40
-50
-60
-70
F2
F1
-80
Center
2.462 GHz
Date: 20.JUN.2006
2 MHz/
Span
20 MHz
10:09:40
6 dB Bandwidth Plot on Configuration IEEE 802.11g / 2412 MHz
* RBW 100 kHz
* VBW 100 kHz
Ref
* Att
20 dBm
30 dB
SWT 10 ms
OBW 16.442307692
Marker 1 [T1 ]
-4.44
2.403826923
Temp 1 [T1 OBW]
-6.23
2.403794872
T2
Temp 2 [T1 OBW]
-6.63
2.420237179
20
10
1 PK
VIEW
D1 1.09 dBm
T1
D2 -4.91 dBm
Delta 1 [T1 ]
0.61 dB
16.346153846 MHz
-10
MHz
dBm
GHz
dBm
GHz
dBm
GHz
-20
-30
-40
-50
-60
-70
F2
F1
-80
Center
2.412 GHz
Date: 20.JUN.2006
2 MHz/
Span
20 MHz
09:54:12
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6 dB Bandwidth Plot on Configuration IEEE 802.11g / 2437 MHz
* RBW 100 kHz
* VBW 100 kHz
Ref
* Att
20 dBm
30 dB
SWT 10 ms
OBW 16.442307692
Marker 1 [T1 ]
-4.16
2.428858974
Temp 1 [T1 OBW]
-6.07
2.428794872
T2
Temp 2 [T1 OBW]
-6.99
2.445237179
20
10
1 PK
VIEW
D1 1.47 dBm
T1
D2 -4.53 dBm
Delta 1 [T1 ]
0.10 dB
16.346153846 MHz
-10
MHz
dBm
GHz
dBm
GHz
dBm
GHz
-20
-30
-40
-50
-60
-70
F2
F1
-80
Center
2.437 GHz
Date: 20.JUN.2006
2 MHz/
Span
20 MHz
09:57:28
6 dB Bandwidth Plot on Configuration IEEE 802.11g / 2462 MHz
* RBW 100 kHz
* VBW 100 kHz
Ref
* Att
20 dBm
30 dB
SWT 10 ms
OBW 16.442307692
Marker 1 [T1 ]
-4.34
2.453858974
Temp 1 [T1 OBW]
-6.12
2.453794872
T2
Temp 2 [T1 OBW]
-6.61
2.470237179
20
10
1 PK
VIEW
Delta 1 [T1 ]
0.91 dB
16.314102564 MHz
D1 1.49 dBm
T1
D2 -4.51 dBm
-10
MHz
dBm
GHz
dBm
GHz
dBm
GHz
-20
-30
-40
-50
-60
-70
F2
F1
-80
Center
2.462 GHz
Date: 20.JUN.2006
2 MHz/
Span
20 MHz
09:59:35
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4.5. Radiated Emissions Measurement
4.5.1. Limit
20dBc in any 100 kHz bandwidth outside the operating frequency band. In case the emission fall within
the restricted band specified on 15.205(a), then the 15.209(a) limit in the table below has to be
followed.
Frequencies
Field Strength
Measurement Distance
(MHz)
(micorvolts/meter)
(meters)
0.009~0.490
2400/F(KHz)
300
0.490~1.705
24000/F(KHz)
30
1.705~30.0
30
30
30~88
100
88~216
150
216~960
200
Above 960
500
4.5.2. Measuring Instruments and Setting
Please refer to section 5 in this report. The following table is the setting of spectrum analyzer and
receiver.
Spectrum Parameter
Setting
Attenuation
Auto
Start Frequency
1000 MHz
Stop Frequency
10th carrier harmonic
RB / VB (emission in restricted band)
1MHz / 1MHz for Peak, 1 MHz / 10Hz for Average
RB / VB (other emission)
100KHz / 100KHz for peak
Receiver Parameter
Setting
Attenuation
Auto
Start ~ Stop Frequency
9kHz~150kHz / RB 200Hz for QP
Start ~ Stop Frequency
150kHz~30MHz / RB 9kHz for QP
Start ~ Stop Frequency
30MHz~1000MHz / RB 120kHz for QP
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4.5.3. Test Procedures
1.
Configure the EUT according to ANSI C63.4. The EUT was placed on the top of the turntable 0.8
meter above ground. The phase center of the receiving antenna mounted on the top of a
height-variable antenna tower was placed 3 meters far away from the turntable.
2.
Power on the EUT and all the supporting units. The turntable was rotated by 360 degrees to
determine the position of the highest radiation.
3.
The height of the broadband receiving antenna was varied between one meter and four meters
above ground to find the maximum emissions field strength of both horizontal and vertical
polarization.
4.
For each suspected emissions, the antenna tower was scan (from 1 M to 4 M) and then the turntable
was rotated (from 0 degree to 360 degrees) to find the maximum reading.
5.
Set the test-receiver system to Peak or CISPR quasi-peak Detect Function with specified bandwidth
under Maximum Hold Mode.
6.
For emissions above 1GHz, use 1MHz VBW and RBW for peak reading. Then 1MHz RBW and 10Hz VBW
for average reading in spectrum analyzer.
7.
When the radiated emissions limits are expressed in terms of the average value of the emissions, and
pulsed operation is employed, the measurement field strength shall be determined by averaging
over one complete pulse train, including blanking intervals, as long as the pulse train does not
exceed 0.1 seconds. As an alternative (provided the transmitter operates for longer than 0.1
seconds) or in cases where the pulse train exceeds 0.1 seconds, the measured field strength shall
be determined from the average absolute voltage during a 0.1 second interval during which the
field strength is at its maximum value.
8.
If the emissions level of the EUT in peak mode was 3 dB lower than the average limit specified, then
testing will be stopped and peak values of EUT will be reported, otherwise, the emissions which do
not have 3 dB margin will be repeated one by one using the quasi-peak method for below 1GHz.
9.
For testing above 1GHz, the emissions level of the EUT in peak mode was lower than average limit
(that means the emissions level in peak mode also complies with the limit in average mode), then
testing will be stopped and peak values of EUT will be reported, otherwise, the emissions will be
measured in average mode again and reported.
10. In case the emission is lower than 30MHz, loop antenna has to be used for measurement and the
recorded data should be QP measured by receiver. High – Low scan is not required in this case.
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4.5.4. Test Setup Layout
For radiated emissions below 30MHz
For radiated emissions above 30MHz
3 or 1m
Above 10 GHz shall be extrapolated to the specified distance using an extrapolation factor of 20
dB/decade form 3m to 1m.
Distance extrapolation factor = 20 log (specific distanc [3m] / test distance [1m]) (dB);
Limit line = specific limits (dBuV) + distance extrapolation factor [9.54 dB].
4.5.5. Test Deviation
There is no deviation with the original standard.
4.5.6. EUT Operation during Test
The EUT was programmed to be in continuously transmitting mode.
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4.5.7. Results of Radiated Emissions (9kHz~30MHz)
Temperature
26℃
Humidity
65%
Test Engineer
Jordan Hsiao
Configurations
802.11g Channel 6
Freq.
(MHz)
Level
(dBuV)
Over Limit
(dB)
Limit Line
(dBuV)
Remark
See Note
Note:
The amplitude of spurious emissions which are attenuated by more than 20 dB below the permissible
value has no need to be reported.
Distance extrapolation factor = 40 log (specific distance / test distance) (dB);
Limit line = specific limits (dBuV) + distance extrapolation factor.
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4.5.8. Results of Radiated Emissions (30MHz~1GHz)
Temperature
26℃
Humidity
65%
Test Engineer
Jordan Hsiao
Configurations
802.11g Channel 6
Vertical
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Horizontal
Note:
The amplitude of spurious emissions which are attenuated by more than 20 dB below the permissible
value has no need to be reported.
Emission level (dBuV/m) = 20 log Emission level (uV/m).
Corrected Reading: Antenna Factor + Cable Loss + Read Level - Preamp Factor = Level.
Pol. : V is Vertical Polarization ; H is Horizontal Polarization.
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4.5.9. Results for Radiated Emissions (1GHz~10th Harmonic)
Temperature
26℃
Humidity
65%
Test Engineer
Jordan Hsiao
Configurations
802.11b Channel 1
Vertical
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Horizontal
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Report No.: FR660211
Temperature
26℃
Humidity
65%
Test Engineer
Jordan Hsiao
Configurations
802.11b Channel 6
Vertical
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: Jun. 30, 2006
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Horizontal
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Report No.: FR660211
Temperature
26℃
Humidity
65%
Test Engineer
Jordan Hsiao
Configurations
802.11b Channel 11
Vertical
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: Jun. 30, 2006
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Horizontal
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Report No.: FR660211
Temperature
26℃
Humidity
65%
Test Engineer
Jordan Hsiao
Configurations
802.11g Channel 1
Vertical
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: Jun. 30, 2006
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Horizontal
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: Jun. 30, 2006
Report No.: FR660211
Temperature
26℃
Humidity
65%
Test Engineer
Jordan Hsiao
Configurations
802.11g Channel 6
Vertical
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: Jun. 30, 2006
Report No.: FR660211
Horizontal
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: Jun. 30, 2006
Report No.: FR660211
Temperature
26℃
Humidity
65%
Test Engineer
Jordan Hsiao
Configurations
802.11g Channel 11
Vertical
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Horizontal
Note:
The amplitude of spurious emissions which are attenuated by more than 20 dB below the permissible
value has no need to be reported.
Emission level (dBuV/m) = 20 log Emission level (uV/m).
Corrected Reading: Antenna Factor + Cable Loss + Read Level - Preamp Factor = Level.
Pol. : V is Vertical Polarization ; H is Horizontal Polarization.
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4.6. Band Edge Emissions Measurement
4.6.1. Limit
20dBc in any 100 kHz bandwidth outside the operating frequency band. In case the emission fall within
the restricted band specified on 15.205(a), then the 15.209(a) limit in the table below has to be followed.
Frequencies
Field Strength
Measurement Distance
(MHz)
(micorvolts/meter)
(meters)
0.009~0.490
2400/F(KHz)
300
0.490~1.705
24000/F(KHz)
30
1.705~30.0
30
30
30~88
100
88~216
150
216~960
200
Above 960
500
4.6.2. Measuring Instruments and Setting
Please refer to section 5 in this report. The following table is the setting of the spectrum analyzer.
Spectrum Parameter
Setting
Attenuation
Auto
Span Frequency
100 MHz
RB / VB (emission in restricted band)
1MHz / 1MHz for Peak, 1 MHz / 10Hz for Average
RB / VB (other emission)
100 KHz /100 KHz for Peak
4.6.3. Test Procedures
1.
The test procedure is the same as section 4.5.3, only the freqeuncy range investigated is limited to
100MHz around bandedges.
2.
In case the emission is fail due to the used RB/VB is too wide, marker-delta method of FCC Public
Notice DA00-705 will be followed.
4.6.4. Test Setup Layout
This test setup layout is the same as that shown in section 4.5.4.
4.6.5. Test Deviation
There is no deviation with the original standard.
4.6.6. EUT Operation during Test
The EUT was programmed to be in continuously transmitting mode.
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4.6.7. Test Result of Band Edge and Fundamental Emissions
Temperature
26℃
Humidity
65%
Test Engineer
Jordan Hsiao
Configurations
802.11b Channel 1, 11
Channel 1
Item 3, 4 are the fundamental frequency at 2412 MHz.
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Channel 11
Item 1, 2 are the fundamental frequency at 2462 MHz.
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Report No.: FR660211
Temperature
26℃
Humidity
65%
Test Engineer
Jordan Hsiao
Configurations
802.11g Channel 1, 11
Channel 1
Item 3, 4 are the fundamental frequency at 2412 MHz.
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Channel 11
Item 1, 2 are the fundamental frequency at 2462 MHz.
Note:
Emission level (dBuV/m) = 20 log Emission level (uV/m).
Corrected Reading: Antenna Factor + Cable Loss + Read Level - Preamp Factor = Level.
Receiving maximum band edge emissions are Vertical Polarization.
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For Emission not in Restricted Band
Low Band Edge Plot on Configuration IEEE 802.11b / 2412 MHz
* RBW 100 kHz
* VBW 100 kHz
Ref
* Att
20 dBm
30 dB
SWT 10 ms
Marker 1 [T1 ]
-50.38 dBm
2.373653846 GHz
20
10
1 PK
VIEW
Delta 1 [T1 ]
54.44 dB
39.490384615 MHz
D1 4.06 dBm
-10
D2 -15.94 dBm
-20
-30
-40
-50
-60
-70
F2
F1
-80
Center
2.373240385 GHz
Date: 20.JUN.2006
10 MHz/
Span
100 MHz
10:06:09
High Band Edge Plot on Configuration IEEE 802.11b / 2462 MHz
* RBW 100 kHz
* VBW 100 kHz
Ref
* Att
20 dBm
30 dB
SWT 10 ms
Delta 1 [T1 ]
54.05 dB
-32.692307692 MHz
Marker 1 [T1 ]
-50.14 dBm
2.495583333 GHz
20
10
1 PK
VIEW
D1 3.92 dBm
-10
D2 -16.08 dBm
-20
-30
-40
-50
-60
-70
F2
F1
-80
Center
2.503596154 GHz
Date: 20.JUN.2006
10 MHz/
Span
100 MHz
10:11:30
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Low Band Edge Plot on Configuration IEEE 802.11g / 2412 MHz
* RBW 100 kHz
* VBW 100 kHz
Ref
* Att
20 dBm
30 dB
SWT 10 ms
Marker 1 [T1 ]
-42.85 dBm
2.389038462 GHz
20
10
1 PK
VIEW
Delta 1 [T1 ]
44.43 dB
24.270032051 MHz
D1 1.58 dBm
-10
D2 -18.42 dBm
-20
-30
-40
-50
-60
-70
F2
F1
-80
Center
2.372763622 GHz
Date: 20.JUN.2006
10 MHz/
Span
100 MHz
09:56:10
High Band Edge Plot on Configuration IEEE 802.11g / 2462 MHz
* RBW 100 kHz
* VBW 100 kHz
Ref
* Att
20 dBm
30 dB
SWT 10 ms
Marker 1 [T1 ]
-40.73 dBm
2.483500000 GHz
20
10
1 PK
VIEW
Delta 1 [T1 ]
42.38 dB
-20.304487179 MHz
D1 1.65 dBm
-10
D2 -18.35 dBm
-20
-30
-40
-50
-60
-70
F2
F1
-80
Center
2.500855769 GHz
Date: 20.JUN.2006
10 MHz/
Span
100 MHz
10:01:19
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4.7. Antenna Requirements
4.7.1. Limit
Except for special regulations, the Low-power Radio-frequency Devices must not be equipped with any
jacket for installing an antenna with extension cable. An intentional radiator shall be designed to ensure
that no antenna other than that furnished by the responsible party shall be used with the device. The use
of a permanently attached antenna or of an antenna that uses a unique coupling to the intentional
radiator shall be considered sufficient to comply with the provisions of this Section. The manufacturer
may design the unit so that the user can replace a broken antenna, but the use of a standard antenna
jack or electrical connector is prohibited. Further, this requirement does not apply to intentional radiators
that must be professionally installed.
4.7.2. Antenna Connector Construction
Please refer to section 3.3 in this test report, all antenna connectors comply with the requirements.
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5. LIST OF MEASURING EQUIPMENTS
Instrument
Model No.
Serial No.
SIDT FRANKONIA
SAC-3M
03CH03-HY
Amplifier
SCHAFFNER
CPA9231A
3565
9 kHz - 2 GHz
Jan. 18, 2006
Amplifier
Agilent
8449B
3008A02120
1 GHz - 26.5 GHz
May 29, 2006
Amplifier
MITEQ
AMF-6F-260400
923364
26.5 GHz - 40 GHz
Jan. 24, 2006*
R&S
FSP40
100004/040
9 kHZ - 40 GHz
Sep. 30, 2005
Biconical Antenna
SCHWARZBECK
VHBB 9124
301
30 MHz - 200 MHz
Jul. 22, 2005
Log Antenna
SCHWARZBECK
VUSLP 9111
221
200 MHz - 1 GHz
Jul. 22, 2005
Horn Antenna
EMCO
3115
6903
1GHz ~ 18GHz
Mar. 15, 2006
Horn Antenna
SCHWARZBECK
BBHA9170
BBHA9170154
15 GHz - 40 GHz
NCR
RF Cable-R03m
Jye Bao
RG142
CB021
30 MHz - 1 GHz
Dec.02, 2005
RF Cable-HIGH
SUHNER
SUCOFLEX 106
03CH03-HY
1 GHz - 40 GHz
Dec.02, 2005
Turn Table
HD
DS 420
420/650/00
0 – 360 degree
N/A
Antenna Mast
HD
MA 240
240/560/00
1m-4m
N/A
EMC Receiver
R&S
ESCS 30
100174
9kHz – 2.75GHz
Feb. 22, 2006
3m Semi Anechoic
Chamber
Spectrum
Analyzer
LISN
LISN
(Support Unit)
RF Cable-CON
Characteristics
Calibration
Date
Manufacturer
30 MHz - 1 GHz
3m
Jun. 15, 2006
MessTec
NNB-2/16Z
99079
9kHz – 30MHz
Dec. 19, 2005
EMCO
3810/2NM
9708-1839
9kHz – 30MHz
Mar. 18, 2006
UTIFLEX
3102-26886-4
CB049
9kHz – 30MHz
Apr. 20, 2006
EMI Filter
LINDGREN
LRE-2030
2651
< 450 Hz
N/A
Spectrum analyzer
R&S
FSP30
100023
9kHz ~ 30GHz
Nov. 26, 2005
Power meter
R&S
NRVS
100444
DC ~ 40GHz
Jun,10,2006
Power sensor
R&S
NRV-Z55
100049
DC ~ 40GHz
Jul. 06, 2005
Power Sensor
R&S
NRV-Z32
100057
30MHz ~ 6GHz
Jun,10,2006
AC power source
HPC
HPA-500W
HPA-9100024
AC 0 ~ 300V
Apr. 21, 2005*
DC power source
G.W.
GPC-6030D
C671845
DC 1V ~ 60V
Dec. 28, 2005
KSON
THS-C3L
612
N/A
Oct. 01, 2005
Temp. and Humidity
Chamber
RF CABLE-1m
Jye Bao
RG142
CB034-1m
20MHz ~ 7GHz
Dec. 30, 2005
Remark
Radiation
(03CH03-HY)
Radiation
(03CH03-HY)
Radiation
(03CH03-HY)
Radiation
(03CH03-HY)
Radiation
(03CH03-HY)
Radiation
(03CH03-HY)
Radiation
(03CH03-HY)
Radiation
(03CH03-HY)
Radiation
(03CH03-HY)
Radiation
(03CH03-HY)
Radiation
(03CH03-HY)
Radiation
(03CH03-HY)
Radiation
(03CH03-HY)
Conduction
(CO04-HY)
Conduction
(CO04-HY)
Conduction
(CO04-HY)
Conduction
(CO04-HY)
Conduction
(CO04-HY)
Conducted
(TH01-HY)
Conducted
(TH01-HY)
Conducted
(TH01-HY)
Conducted
(TH01-HY)
Conducted
(TH01-HY)
Conducted
(TH01-HY)
Conducted
(TH01-HY)
Conducted
(TH01-HY)
Report Format Version: RF-15.247-2006-6-16-e
Page No.
: 51 of 53
FCC ID: M4Y-0XG880M
Issued Date
: Jun. 30, 2006
Report No.: FR660211
Instrument
Manufacturer
Model No.
Serial No.
Characteristics
Calibration
Date
RF CABLE-2m
Jye Bao
RG142
CB035-2m
20MHz ~ 1GHz
Dec. 30, 2005
Oscilloscope
Tektronix
TDS1012
CO38515
100MHz / 1GS/s
Apr. 15, 2005*
Signal Generator
R&S
SMR40
100116
10MHz ~ 40GHz
Dec. 30, 2005
Data Generator
Tektronix
DG2030
063-2920-50
0.1Hz~400MHz
Jun. 16, 2006
Remark
Conducted
(TH01-HY)
Conducted
(TH01-HY)
Conducted
(TH01-HY)
Conducted
(TH01-HY)
Note: Calibration Interval of instruments listed above is one year.
Note: *Calibration Interval of instruments listed above is two year.
Report Format Version: RF-15.247-2006-6-16-e
Page No.
: 52 of 53
FCC ID: M4Y-0XG880M
Issued Date
: Jun. 30, 2006
Report No.: FR660211
6. SPORTON COMPANY PROFILE
SPORTON Lab. was established in 1986 with one shielded room: the first private EMI test facility, offering local
manufacturers an alternative EMI test familial apart from ERSO. In 1988, one 3M and 10M/3M open area test
site were setup and also obtained official accreditation from FCC, VCCI and NEMKO. In 1993, a Safety
laboratory was founded and obtained accreditation from UL of USA, CSA of Canada and TUV (Rhineland &
PS) of Germany. In 1995, one EMC lab, including EMI and EMS test facilities was setup. In 1997, SPORTON
Group has provided financial expense to relocate the headquarter to Orient Scientific Park in Taipei Hsien
to offer more comprehensive, more qualified and better service to local suppliers and manufactures. In
1999, Safety Group and Component Group were setup. In 2001, SPORTON has established 3M/10M
chamber in Hwa Ya Technology Park.
6.1. Test Location
SHIJR
HWA YA
LINKOU
DUNGHU
JUNGHE
NEIHU
JHUBEI
ADD
6Fl., No. 106, Sec. 1, Shintai 5th Rd., Shijr City, Taipei, Taiwan 221, R.O.C.
TEL
02-2696-2468
FAX
02-2696-2255
ADD
No. 52, Hwa Ya 1st Rd., Kwei-Shan Hsiang, Tao Yuan Hsien, Taiwan, R.O.C.
TEL
03-327-3456
FAX
03-318-0055
ADD
No. 30-2, Dingfu Tsuen, Linkou Shiang, Taipei, Taiwan 244, R.O.C
TEL
02-2601-1640
FAX
02-2601-1695
ADD
No. 3, Lane 238, Kangle St., Neihu Chiu, Taipei, Taiwan 114, R.O.C.
TEL
02-2631-4739
FAX
02-2631-9740
ADD
7Fl., No. 758, Jungjeng Rd., Junghe City, Taipei, Taiwan 235, R.O.C.
TEL
02-8227-2020
FAX
02-8227-2626
ADD
4Fl., No. 339, Hsin Hu 2nd Rd., Taipei 114, Taiwan, R.O.C.
TEL
02-2794-8886
FAX
02-2794-9777
ADD
No.8, Lane 728, Bo-ai St., Jhubei City, Hsinchu County 302, Taiwan, R.O.C.
TEL
03-656-9065
FAX
03-656-9085
Report Format Version: RF-15.247-2006-6-16-e
Page No.
: 53 of 53
FCC ID: M4Y-0XG880M
Issued Date
: Jun. 30, 2006

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