FCC Certification Aceex

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PEP Testing Laboratory

REPORT NO. : E970123

FCC TEST REPORT
According to
FCC Part 15 Class A
EUT NAME

Κ Powerline 200M Wireless AP, Powerline 200M Wireless Router,
Powerline 200M Router, Powerline/Cable 200M Wireless AP,
Powerline/Cable 200M Wireless Router, Powerline/Cable 200M
Router, Cable 200M Wireless AP, Cable 200M Wireless Router,
Cable 200M Router, Wireless Router, Broadband Router

MODEL NO.

Κ WPL200, NPL200, WPR200, NPR200, PR200, WPL200C,

NPL200C, WPR200C, NPR200C, PR200C, WCL200, NCL200,
WCR200, NCR200, CR200, WR, NR, BR

APPLICANT

ACEEX CORPORATION
2F, NO. 2, ALLEY 1, SZE-WEI LANE, (ABC FAREAST
INDUSTRIAL PARK) CHUNG-CHENG RD., HSINTIEN,
TAIPEI 23138, TAIWAN, R. O. C.

REVIEWED BY

NICK LEE

ISSUED DATE:

JULY 29, 2008

ΘThe test result refers exclusively to the test presented test model / sample.
ΘWithout the written authorization of the test lab., the Test Report may not be
copied.
PEP TESTING LABORATORY
NO. 9-6, Huzi, Hubei Village, Linkou Shiang, Taipei Hsien, Taiwan 244, R. O. C.
TEL : 886-2-26021042
FAX : 886-2-26021045

Page 1 of 37

PEP Testing Laboratory

REPORT NO. : E970123

Table of Contents
1. GENERAL

-------------------------

2. PRODUCT INFORMATION

-------------------------

3. EUT Description And Test Methods/ Test Software Used/
Modification(s)

-------------------------

4. SUPPORT EQUIPMENT USED

-------------------------

5. DESCRIPTION OF CONDUCTED EMISSIONS TEST

-------------------------

6. DESCRIPTION OF RADIATED EMISSIONS TEST

-------------------------

7. CONDUCTED EMISSIONS TEST SETUP PHOTO

-------------------------

8. CONDUCTED EMISSIONS TEST DATA

-------------------------

9. RADIATED EMISSIONS TEST SETUP PHOTOS

-------------------------

10. RADIATED EMISSIONS TEST DATA

-------------------------

11. LIST OF MEASURED INSTRUMENTS

-------------------------

12. LABELLING REQUIREMENTS

-------------------------

13. INFORMATION TO THE USER

-------------------------

14. EUT PHOTOGRAPHS

-------------------------

Page 2 of 37

PEP Testing Laboratory

REPORT NO. : E970123

1. General
1.1 General Information:
Applicant :
Address :

ACEEX CORPORATION

Manufacturer :
Address :

ACEEX CORPORATION

2F, NO. 2, ALLEY 1, SZE-WEI LANE, (ABC FAREAST
INDUSTRIAL PARK) CHUNG-CHENG RD., HSINTIEN,
TAIPEI 23138, TAIWAN, R. O. C.

Measurement Uncertainty :
The uncertainty of the testing result is given as below. The method of uncertainty
Calculation is provided in PEP Testing Lab document No. QP-T-28-B & QP-T-27-B
Frequency ( MHz )

0.15 ~ 30

30 ~ 1000

Expanded Uncertainty Ӵc

1.42 (dB)

2.76 (dB)

ϡʳ95% Confidence Level; K=2

1.2 Place of Measurement

ϡ PEP TESTING LABORATORY ϡ

NO. 9-6, Huzi, Hubei Village, Linkou Shiang, Taipei Hsien, Taiwan 244, R. O. C.
E-Mail : peplab@ms32.hinet.net
TEL : 886-2-26021042

FAX : 886-2-26021045

Accreditation --NVLAP LAB CODE 200097-0
FCC Registration No. : 90868
NEMKO Aut. No. : ELA133
BSMI Aut. No. : SL2-IN-E-11
VCCI Registration No. : C-493/R-477

(U. S. A.) (AUSTRALIA)
(U. S. A.)
(Europe)
(Taiwan)
(Japan)

Page 3 of 37

PEP Testing Laboratory

REPORT NO. : E970123

2. Product Information

a. EUT Name:

Powerline 200M Wireless AP

Κ
c. CPU TypeΚ
b. Model No.

WPL200
N/A

d. CPU Frequency

N/A

e. Crystal/Oscillator(s)

f. Chassis Used

g. Port/Connector(s)

37.5 MHz, 25.080 MHz, 40 MHz, 6.7584 MHz
ABS

Lan Cable * 1

h. Power Rating

AC 120V 6 0Hz

i. Condition of the EUT :

ϭʳ Prototype Sample
ϭʳ
9 Engineering Sample
ϭ ʳ Production Sample

j. Test Item Receipt Date :

MAY 08, 2008

k. Date(s) of performance of
MAY 08, 2008 – JULY 29, 2008
test:

Page 4 of 37

PEP Testing Laboratory

REPORT NO. : E970123

3. EUT Description/Test Software Used/ Modification(s)
Description about EUT
The EUT is Powerline 200M Wireless Router, model number is WPL200, which main
function shall be t a device of wireless router. EUT required AC 120V, 60Hz. For the
more details specification about EUT, please refer to the user’ s manual.
EUT Configuration
EUT

LAN Cable *1

Test Operation Mode and Procedure
According to the major function designed, operation modes of conducted and radiated
preliminary test are both Powerline Mode. The detail as follow: Connecting EUT and PC
with LAN Cable, then transfer data to remote PC through Powerline mode. After
preliminary test, the worst-case test result was recorded and provided in the report.
Test procedure:
1. EUT should conform to I/O connect peripheral specification to link, and set up on
the table according to regulation.
2. Turning on the EUT and peripheral power. Then execute EUT’ s main function
and enable peripheral which is EUT connection.
3. Play DVD Player and through EUT to show Color Bar on LCD TV.
4. Move EUT/ peripheral/ data cable to find the worst emission.
5. Starting to test.
Test Software(s) Used
EMCTEST program that continuously generates a complete line of repeating “ H” letter
was the software used during test.
Modification(s)
The applicant has been notified and agrees to incorporate the following modification(s)
into all production units. Please refer to the attached pages in this report.
1. C11 move to T1 (choke) input.
2. Change 47.2mH choke to T1.
3. R140ΕR141 add 22 ohm.
4. C59ΕC61 change 47p caps.

Page 5 of 37

PEP Testing Laboratory

REPORT NO. : E970123

4. Support Equipment Used
Personal Computer (PC4)

CPU : Intel Pentium 4 3.06GHz
FCC ID Declaration of Conformity(DoC)
Manufacturer ACER
Model Number Aspire T650
Power Supply Switching
Power Cord Non-Shielded, Detachable, 1.8m
Data Cable
N/A

Κ
Κ
Κ
Κ
Κ

LCD (LCD1 17”)

FCC ID Declaration of Conformity(DoC)
Manufacturer SAMSUNG
Model Number 740B
Power Supply Switch, 12Vdac
Power Cord Non-Shielded, Detachable, 1.8m
Data Cable 1 > Shielded , Detachable,1.7m
2 > Back Shell : Metal

Printer (PRN1)

FCC ID B94C2642X
Manufacturer Hewlett-Packard
Model Number C2642E
Power Supply Linear, 30Vdc O/P
Power Cable Non-Shielded , Detachable ,1.8m
Data Cable 1 > Shielded , Detachable,1.2m
2 > Back Shell : Metal

Mouse (MOUS/1 PS/2)

FCC ID DZL211106
Manufacturer LOGITECH
Model Number M-S43
Power Supply +5Vdc from PS2 of PC
Power Cord N/A
Data Cable 1 > Shielded , Non-detachable,1.8m
2 > Back Shell : Metal

Modem (MOD1)

FCC ID IFAXDM1414
Manufacturer ACEEX
Model Number 1414
Power Supply Linear, 9Vac O/P
Power Cable Non-Shielded , Detachable ,1.7m
Data Cable 1 > Shielded , Detachable,1m
2 > Back Shell : Metal

Κ
Κ
Κ
Κ
Κ
Κ
Κ
Κ
Κ
Κ
Κ
Κ
Κ
Κ
Κ
Κ
Κ
Κ
Κ
Κ

Page 6 of 37

PEP Testing Laboratory

Keyboard (KBS1 PS/2)

REPORT NO. : E970123

FCC ID E5XKB5121WTH0110
Manufacturer BTC
Model Number 5121W
Power Supply +5Vdc from PS2 of PC
Power Cord N/A
Data Cable 1 > Shielded , Non-detachable,1.6m
2 > Back Shell : Metal

Κ
Κ
Κ
Κ
Κ

Page 7 of 37

PEP Testing Laboratory

REPORT NO. : E970123

5. Conducted Disturbance Test Result and Data
Basic Standard

Model No.

Test Result

EN 55022

WPL200

PASS

Remark

For this EUT (Power Line Adaptor), we adopt CISPR/I/44/CD (committee Draft) issued on
2002-07-12 to perform the conducted disturbance test . Two testing modes are :
(A) EUT standby mode: EUT mains port connected to AMN (V-network), the test result and
configuration shown as Section 6.1.
(B) EUT data transmission mode: EUT mains port connected to T-ISN which provided by
our client (ACEEX CORPORATION) , the test result , configuration and more detail
information about T-ISN used shown as Section 6.2.

5.1 Conducted Emission Test Limits at Main Ports With the
AMN.
Test Mode :

Standby mode: no data transmitted which is applicable for limits of 5.1

Frequency Range

Limits

dB(uV)

Class

MHz

QUASI- PEAK

Average

0.15 – 0.5

0.5 – 5.0

5.0-30

Remarks: - If the average limit is met when a quasi-peak detector is used, the
EUT shall be deemed to meet both limits and measurement with the
average detector is unnecessary.
- The lower limit shall apply at the transition frequency
- The limit decreases linearly with the logarithm of the frequency in the
range 0.15MHz to 0.50 MHz.

Page 8 of 37

PEP Testing Laboratory

REPORT NO. : E970123

5.1a Test Setup (AMN)

AC Power
Source

AC Filter

AMN

EUT

EMI
Receiver

Page 9 of 37

PEP Testing Laboratory

REPORT NO. : E970123

5.2 Conducted Emission Test Limit at Main Ports With the T-ISN

Test Mode :

Data transmission mode: data transmitted which is applicable for limits of 5.2 .

Frequency Range
0.15 – 0.5 MHz
0.5 – 30 MHz

EN 55022 Class A
Quasi-peak
Average
97 bis 87
84 bis 74
87
74

The used T-ISN was provided by ACEEX CORPORATION, if any, T-ISN technical
question, please check ACEEX CORPORATION.

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PEP Testing Laboratory

REPORT NO. : E970123

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PEP Testing Laboratory

REPORT NO. : E970123

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PEP Testing Laboratory
REPORT NO. : E970123

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PEP Testing Laboratory
REPORT NO. : E970123

Page 14 of 37

PEP Testing Laboratory
REPORT NO. : E970123

5.2a Test Setup ( T-ISN )

AC Power
Source

AC Filter

AMN

T-ISN

EUT

EMI
Receiver

Page 15 of 37

PEP Testing Laboratory
REPORT NO. : E970123

5.3 Conducted Disturbance Test Limits at Telecommunication (ISN)
Limits of conducted common mode disturbance at telecommunication ports
Limits of conducted common mode (asymmetric mode) disturbance
At telecommunication ports in the frequency range 0.15 MHz to 30MHz
For class A equipment
Frequency range
MHz

Voltage limits
dB (µV)

Current limits
dB (µA)

Quasi-peak

Average

Quasi-peak

Average

0.15 to 0.5

97 to 87

84 to 74

53 to 43

40 to 30

0.5 to 30

NOTE 1 The limits decrease linearly with the logarithm of the frequency in to range
0.15 MHz to 0.5 MHz.
NNOTE 2 The current and voltage disturbance limits are derived for use with an
impedance stabilization network (ISN) which presents a common mode (asymmetric
mode) impedance of 150 ohm to the telecommunication port under test (conversion
factor is 20 log10 150/I=44dB).

Limits of conducted common mode (asymmetric mode) disturbance at telecommunication ports in the
frequency range 0.15 MHz to 30 MHz
for class B equipment
Frequency range
MHz

Voltage limits
dB (µV)

Current limits
dB (µA)

Quasi-peak

Average

Quasi-peak

Average

0.15 to 0.5

84 to 74

74 to 64

40 to 30

30 to 20

0.5 to 30

Page 16 of 37

PEP Testing Laboratory
REPORT NO. : E970123

6. Description of Radiated Emissions Test
6.1 Radiated Emissions
Preliminary measurements were made indoors chamber at 3 meter using
broadband antennas, broadband amplifier, and spectrum analyzer to determine the
frequency producing the maximum EME. Appropriate precaution was taken to
ensure that all EME from the EUT were maximized and investigated. The system
configuration, clock speed, mode of operation or video resolution, turntable azimuth
with respect to the antenna were noted for each frequency found. The spectrum
was scanned from 30 to 1000 MHz using logbicon antenna. Above 1GHz, linearly
polarized double ridge horn antenna was used.
Final measurements were made outdoors at 10-meter test range using logbicon
antenna and horn antenna. The test equipment was placed on a wooden bench
situated on a 1.5x1 meter area adjacent to the measurement area. Sufficient time
for the EUT, support equipment, and test equipment was allowed in order for them
to warm up to their normal operating condition. Each frequency found during
pre-scan measurements was re-examined and investigated using Quasi-Peak
Adapter. The detector function was set to CISPR quasi-peak mode and the
bandwidth of the receiver was set to 120KHz.
The turntable containing the system was rotated; the ante nna height was varied 1
to 4 meters and stopped at the azimuth or height producing the maximum emission.
Each emission was maximized by: varying mode of operation or resolution; clock or
data exchange speed; scrolling H pattern to the EUT and/or support equipment,
and powering the monitor from the floor mounted outlet box and the computer aux
AC outlet , if applicable; and changing the polarity of the antenna, whichever
determined the worst-case emission. Photographs of the worst-case emission can
be seen in radiated emission test photo.

Page 17 of 37

PEP Testing Laboratory
REPORT NO. : E970123

6.2 Test Configuration
10
cm

10
cm

EUT

NONCONDUCTIVE
TABLE 1.5 x 1 METER

80 cm TO
GROUND PLANE

4
2

40 cm

CONDUCTING GROUND
PLANE EXTENDS AT
LEAST 0.5m BEYOND
EUT SYSTEM
FOOTPRINT

LEGEND
1.
2.
3.
4.
5.
6.
7.
8.

Interconnecting cables which hang closer than 40 cm to the ground plane shall be folded back and forth
forming a bundle 30 to 40 cm long. hanging approximately in the middle between ground plane and table.
I/O cables which are connected to a peripheral hall be bundled in center. The end of the cable may b
terminated if required using correct terminating impedance. The total length shall not exceed 1 m.
If LISN are kept in the test setup for radiated emissions, it is preferred that they be installed under the
ground if requires receptacle flush with the ground plane.
Cables of hand-operated devices, such as keyboards, KEYPADs, etc., have to be placed as close as
possible to the controller.
Non-EUT components of EUT system being tested.
The rear of all components of the system under test shall be located flush with the rear of the table.
No vertical conducting wall used.
Power cords drape to the floor and are routed over to receptacle.

Page 18 of 37

PEP Testing Laboratory
REPORT NO. : E970123

6.3 Radiated Emission Limits

Limits

for

radiated disturbance of Class A
a measuring distance of 10 m

230

Field Strength
dB(ӴV/m)

Frequency
MHz
30 to

ITE

230

1000

NOTES
1 The lower limit shall apply at the transition frequency.
2 Additional provisions may be required for cases where interference
occurs.

Limits

for

radiated disturbance of Class B
a measuring distance of 10 m

230

Field Strength
dB(ӴV/m)

Frequency
MHz
30 to

ITE

230

1000

NOTES
1. The lower limit shall apply at the transition frequency.
2. Additional provisions may be required for cases where interference
occurs.

Page 19 of 37

PEP Testing Laboratory
REPORT NO. : E970123

7. Conducted Emissions Test Setup Photo
AMN, T-ISN
* FRONT VIEW *

ISN
* FRONT VIEW *

Page 20 of 37

PEP Testing Laboratory
REPORT NO. : E970123

8. Conducted Emission Test Data (AMN)

Model No.

WPL200

150kHz to 30MHz

Detector

Peak Value / Average Value

Temperature

Humidity

55 %

Frequency

Test Data :

range

#
#

55
56

#
#

17
18

< LINE >
< NEUTRAL >

Note 1. Level = Read Level + Cable Loss + Probe (LISN)
2. Over Limit = Level – Limit = Margin

Page 21 of 37

PEP Testing Laboratory
REPORT NO. : E970123

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PEP Testing Laboratory
REPORT NO. : E970123

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PEP Testing Laboratory
REPORT NO. : E970123

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PEP Testing Laboratory
REPORT NO. : E970123

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PEP Testing Laboratory
REPORT NO. : E970123

Conducted Emissions Test Data (T-ISN)

Model No.

WPL200

150kHz to 30MHz

Detector

Peak Value

Temperature

Humidity

44 %

Frequency

Test Data :

range

< Peak >

Note 1. Level = Read Level + Cable Loss + Probe (LISN)
2. Over Limit = Level – Limit = Margin

Page 26 of 27

PEP Testing Laboratory
REPORT NO. : E970123

!
!
!

Page 27 of 37

PEP Testing Laboratory
REPORT NO. : E970123

Page 28 of 37

PEP Testing Laboratory
REPORT NO. : E970123

Conducted Emissions Test Data (ISN)

Model No.

WPL200

150kHz to 30MHz

Detector

Peak Value

Temperature

Humidity

44 %

Frequency

Test Data :

range

< Peak >

Note 1. Level = Read Level + Cable Loss + Probe (LISN)
2. Over Limit = Level – Limit = Margin

Page 29 of 37

!
!
!

Page 30 of 37

Page 31 of 37

PEP Testing Laboratory
REPORT NO. : E970123

9. Radiated Emissions Test Setup Photos
* FRONT VIEW *

* REAR VIEW *

Page 32 of 37

PEP Testing Laboratory

REPORT NO. : E970123

10. Radiated Emissions Test Data
Model No.
Frequency range
Frequency range
Temperature

: WPL200
: 30MHz to 1GHz
: above 1GHz
: 29o C

Antenna polarization :
Over
Freq.
(MHz)

Level
Limit
(dBuV/m) (dB)

Limit

Detector
Detector
Humidity

: Quasi-Peak Value
: Quasi-Peak/Average Value
: 61 %

HORIZONTAL ; Test distance :
Read

Antenna Cable

Line
Level
Factor
(dBuV/m) (dBuV) (dB)

Loss
(dB)

10m ;

Preamp
Factor
(dB)

Azimuth Antenna
(̓angle) High(m)

!65/411!!!41/51!!!.!9/71!!!4:/11!!!49/76!!!!:/99!!!3/79!!!31/92!!!387!!!!5/1!!!!!
22:/::1!!!41/25!!!.24/47!!!54/61!!!47/82!!!21/9:!!!4/35!!!31/81!!!372!!!!5/1!!!!!
311/111!!!49/4:!!!.!6/22!!!54/61!!!55/42!!!21/75!!!4/85!!!31/41!!!36:!!!!5/1!!!!!
35:/::1!!!37/51!!!.31/11!!!57/51!!!42/:1!!!21/66!!!5/16!!!31/21!!!388!!!!5/1!!!!!
672/981!!!41/76!!!.26/86!!!57/51!!!38/15!!!29/13!!!6/65!!!2:/:6!!!377!!!!4/6!!!!!
986/221!!!45/35!!!.23/27!!!57/51!!!36/52!!!33/32!!!7/53!!!2:/91!!!371!!!!4/4!!!!!
Antenna polarization :
Over
Freq.
(MHz)

Level
Limit
(dBuV/m) (dB)

Limit

VERTICAL ; Test distance :
Read

Antenna Cable

Line
Level
Factor
(dBuV/m) (dBuV) (dB)

Loss
(dB)

10m

;

Preamp
Factor
(dB)

Azimuth Antenna
(̓angle) High(m)

!68/221!!!38/44!!!.22/78!!!4:/11!!!45/56!!!21/9:!!!3/85!!!31/86!!!299!!!!2/1!!!!!
231/161!!!43/19!!!.22/53!!!54/61!!!49/76!!!21/9:!!!4/35!!!31/81!!!285!!!!2/1!!!!!
311/121!!!48/1:!!!.!7/52!!!54/61!!!54/12!!!21/75!!!4/85!!!31/41!!!278!!!!2/1!!!!!
335/981!!!39/25!!!.29/37!!!57/51!!!44/:2!!!21/76!!!4/94!!!31/36!!!281!!!!2/1!!!!!
611/161!!!45/28!!!.23/34!!!57/51!!!42/98!!!27/86!!!6/47!!!2:/92!!!272!!!!2/5!!!!!
854/561!!!48/6:!!!.!9/92!!!57/51!!!3:/:3!!!31/94!!!7/36!!!2:/52!!!277!!!!2/6!!!!!
!
Note :
1.
2.

Level = Read Level + Antenna Factor + Cable Loss – Preamp Factor
Over Limit = Level – Limit Line

Page 33 of 37

PEP Testing Laboratory

REPORT NO. : E970123

11. The List of Test Instruments
Test Site

Conduction
(No.2)

Radiation
(OP No.3)

Instrument

Model No.

S/N

R&S
Spectrum

FSP 3

833387/010

Aug. 21, 2008

1 Year

R&S
Receiver

ESHS10

830223/008

Sep. 08, 2008

1 Year

R&S
LISN(EUT)

ESH2-Z5

831886/004

Apr. 14, 2009

1 Year

Kyoritsu
LISN(2nd)

KNW-242

8-837-7

N/A

RF Cable

No.4

N/A

Jan. 01, 2009

1 Year

R&S
Receiver

ESVS 30

863342/012

Aug. 19, 2008

1 Year

Schaffner
Pre-Amp.

CPA-9232

1012

Jan. 01, 2009

1 Year

SCHWARZBECK
Antenna

9161

9161-4077

July 19, 2009

1 Year

RF Cable

No.3

N/A

Jan. 01, 2009

1 Year

R&S
Signal Generator

SMY02

829846/038

Apr. 28, 2010

2 Years

Page 34 of 37

Next Cal. Date Cal. Interval

PEP Testing Laboratory

REPORT NO. : E970123

12. Labelling Requirement
A warning label with the following statement shall be permanently attached
and conspicuously located on the equipment :

This device complies with Part 15 of the FCC
Rules . Operation is subject to the following two
conditions : (1) This device may not cause harmful
interference , and (2) this devices must accept any
interference received , including interference that
may cause undesired operation .

Page 35 of 37

PEP Testing Laboratory

REPORT NO. : E970123

13. Information to The User
The following FCC statement should be declared in a conspicuous location in
the user’ s manual .
Federal Communications Commission (FCC) Statement
This equipment has been tested and found to comply with the limits for a Class
A digital device, pursuant to Part 15 of the FCC Rules. These limits are
designed to provide reasonable protection against harmful interference when
the equipment is operated in a commercial environment. This equipment
generates, uses, and can radiate radio frequency energy and, if not installed
and used in accordance with the instruction manual, may cause harmful
interference to radio communications. Operation of this equipment in a
residential area is likely to cause harmful interference in which case the user will
be required to correct the interference at his own expense.

Page 36 of 37

PEP Testing Laboratory

REPORT NO. : E970123

14.EUT Photographs
MODEL NO. :

WPL200

EUT FRONT VIEW

EUT REAR VIEW

Page 37 of 37

VERIFICATION
WE HEREBY VERIFY THAT:

The Equipment Under Test (EUT) listed below has completed RFI
testing by PEP Testing Laboratory and the interference emissions can
pass FCC Class A limitations .
The test report shall not be reproduced except in full, without the
written approval of the laboratory.
The estimate uncertainty of the test result is about +3dB. The test
result is only effect for the sample as below.

APPLICANT

ACEEX CORPORATION

EQUIPMENT : Powerline 200M Wireless AP, Powerline 200M Wireless Router,
Powerline 200M Router, Powerline/Cable 200M Wireless AP,
Powerline/Cable 200M Wireless Router, Powerline/Cable 200M
Router, Cable 200M Wireless AP, Cable 200M Wireless Router,
Cable 200M Router, Wireless Router, Broadband Router
MODEL NO. : WPL200, NPL200, WPR200, NPR200, PR200, WPL200C,
NPL200C, WPR200C, NPR200C, PR200C, WCL200, NCL200,
WCR200, NCR200, CR200, WR, NR, BR
REPORT NO. :

E970123

Date : JULY 29, 2008
M.

TSUI / Manager

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FCC Certification Aceex

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