520577 FCC Report Edimax

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NVLAP LAB CODE: 200097-0-

REPORT NO. :E920706

FCC DoC TEST REPORT
According to
FCC Part 15
Test

Κ
Κ
Κ

Item

Model

No.

Responsible
Party

Subpart B

Print Server
PS-3103P V1.0, GP-303P
EDIMAX TECHNOLOGY CO., LTD.
7, LANE 116, WU-KUNG SECOND ROAD, WU-KU

Address

INDUSTRIAL PARK, TAIPEI HSIEN, TAIWAN, R. O. C.

Test Engineer :

STEVEN CHEN

Test Date

:

NOV. 28,

2003

Issued Date

:

DEC.

2003

NVLAP Signature :

03,

Peter Kao
Peter Kao / President

ΘThe test report shall not be reproduced except in full, without the written approval of
the laboratory.
ΘThe report must not be used by the client to claim product endorsement by NVLAP or any
agency of the United States government.
ΘThis report is only for item test which described in page 5.
ΘThe testing result in this report are traceable to national and international standard.
PEP

TESTING

LABORATORY

12-3Fl, No. 27-1, Lane 169, Kang-Ning St.,
Taipei Hsien, Taiwan, R. O. C.
TEL : 886-2-26922097
FAX : 886-2-26956236

Page 1 of 30

Hsi-Chih,

NVLAP LAB CODE: 200097-0-

REPORT NO. :E920706

Table of Contents
1.

SCOPE

3

2.

PRODUCT INFORMATION

4

3.

EUT DESCRIPTION AND TEST CONCLUSION

5

4.

MODIFICATION(S)

6

5.

TEST SOFTWARE USED

6

6.

SUPPORT EQUIPMENT USED

7

7.

DESCRIPTION OF CONDUCTED EMISSIONS TEST

9

8.

DESCRIPTION OF RADIATED EMISSIONS TEST

10

9.

CONDUCTED EMISSIONS TEST SETUP PHOTO

13

10.

CONDUCTED EMISSIONS TEST DATA

14

11.

RADIATED EMISSIONS TEST SETUP PHOTOS

19

12.

RADIATED EMISSIONS TEST DATA

20

13.

LIST OF MEASURED INSTRUMENTS

22

14.

DUTIES OF THE RESPONSIBLE PARTY

23

15.

LABELING REQUIREMENTS

24

16.

INFORMATION TO THE USER

25

17.

EUT PHOTOGRAPHS

26

Page 2 of 30

NVLAP LAB CODE: 200097-0-

REPORT NO. :E920706

1. Scope
Measurement and determination of electromagnetic emissions (EME) of radio frequency devices
including intentional and/or unintentional radiators for compliance with the technical rules and
regulations of the Federal Communications Commission under EUT Docket 95-19 Declaration of
Conformity(DoC).

Responsible Party*:

EDIMAX TECHNOLOGY CO., LTD.

Address:

7, LANE 116, WU-KUNG SECOND ROAD, WU-KU
INDUSTRIAL PARK, TAIPEI HSIEN, TAIWAN, R. O. C.

Contact Person:

TRACY CHENG / ASSISTANT

Phone No.:

886-2-22995648

Fax No.:

Regulation:

FCC Part 15 & Part 2; Docket 95-19

Limitation:

CISPR 22 CLASS B

Test Procedure:

ANSI C63.4(1992)

Test Item:

Print Server

Model No.:

PS-3103P V1.0, GP-303P

Serial No.:

N/A

Place of Test:

PEP Testing Laboratory

886-2-22995647

12-3Fl, No. 27-1, Lane 169, Kang-Ning St., Hsi-Chih.
Taipei Hsien, Taiwan, R. O. C.
TEL : 8862-2-6922097 FAX : 8862-2-6956236
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-A & QP-T-27-A
0.15 Д 30
30 Д 1000
Frequency ( MHz )
Expanded Uncertainty Ӵc
ϡʳ 95% Confidence Level; K=2

1.4 (dB)

Page 3 of 30

2.8 (dB)

NVLAP LAB CODE: 200097-0-

REPORT NO. :E920706

2. Product Information
a.

EUT Name:

b.

Model No.

Print Server

c.

Κ
CPU TypeΚ

d.

CPU Frequency

e.

Crystal/Oscillator(s)

f.

Chassis Used

g.

Port/Connector(s)

h.

Power Rating

Adapter ---Manufacturer : DVE
Model No. : DV-1280-3
Input : AC 120V 60Hz 16W
Output : DC 12V 1000mA

i.

Condition of the EUT :

ϭ Prototype Sample  Engineering Sample
ϭ Production Sample

j.

Test Item Receipt Date :

NOV 27, 2003

PS-3103P V1.0
N/A

Κ

Κ
Κ

N/A

Κ

25 MHz
PLASTIC (ABS V0)

Κ

ʳ

Parallel Port × 3, RJ-45 Port × 1

Page 4 of 30

NVLAP LAB CODE: 200097-0-

REPORT NO. :E920706

3. EUT Description and Test Conclusion
The equipment under test (EUT) is Print Server model PS-3103P V1.0 and GP-303P. These
two models have identical electrical design and construction except that they are different in
model number for marketing purpose. From technical point of view, we only test model
PS-3103P V1.0 that would have the same test performance to model GP-303P. Coming with
three Parallel ports and one RJ-45 port, the EUT provides multiple PCs access to three
printers on Local Area Network. AC-DC switching power adaptor supplies EUT DC 12V
from AC power source. For more detail specification about the EUT, please refer to the
user’s manual.
Test method: According to the major function designed, the EUT configuration was set up
by the following steps for test.
(A) Connect EUT RJ-45 port to PC LAN card.
(B) Install one printer to EUT one Parallel port.
(C) Plug the rest of EUT Parallel ports by data cables.
All corresponding peripherals to PC I/O ports and EUT were set to proceed
with test. The test was carried out on EUT operational condition and the
worst-case test result was recorded and provided in this report.
Conducted emission test:
The system was setup with the EMI diagnostic software running. The power line conducted
EMI tests were run on the line and neutral conductors of the power cord and the results were
recorded. The effect of varying the position of the interface cables has been investigated to
find the worst-case configuration that produces maximum emission.
At the frequencies where the peak values of the emission exceeded the quasi-peak limit, the
emissions were also measured with the quasi-peak detectors. The average detector also
measured the emission either (A) quasi-peak values were under quasi-peak limit but
exceeded average limit, or (B) peak values were under quasi-peak limit but exceeded
average limit.
Radiated emission test:
The maximum readings were found by varying the height of antenna and then rotating the
turntable. Both polarization of antenna, horizontal and vertical, are measured. The effect of
varying the position of the interface cables has been investigated to find the configuration
that produces maximum emission.
The highest emissions were also analyzed in details by operating the spectrum analyzer in
fixed tuned quasi-peak mode to determine the precise amplitude of the emissions.

Page 5 of 30

NVLAP LAB CODE: 200097-0-

REPORT NO. :E920706

4. Modification(s):
The applicant upon signing the Declaration of Conformity agrees to incorporate the following
modification(s) into all production units, please refer to the attached pages in this report.
(A) Add modification to EUT main board using copper foil shown as page 28.

5. Test Software Used
(A) EMITEST program that continuously generates a complete line of repeating “H” letter
was the software used during test.
(B) PSETUP program was the software used to operate EUT function during the test.

Page 6 of 30

NVLAP LAB CODE: 200097-0-

REPORT NO. :E920706

6. Support Equipment Used
1.Personal Computer (PC3)

CPU : Intel P4 Socket 478 1.6GHz
FCC ID Declaration of Conformity(DoC)
Manufacturer LEMEL
Model Number LMIH1A2
Power Supply Switching
Power Cord Non-Shielded, Detachable, 1.8m
Data Cable N/A

Κ

Κ

Κ
Κ
Κ
Κ
Κ

2.Keyboard (KBS1 PS/2)

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

3.Monitor (MON1 15”)

FCC ID Declaration of Conformity(DoC)
Manufacturer SAMSUNG
Model Number 550S
Power Supply Switching
Power Cord Non-Shielded, Detachable, 1.8m
Data Cable 1 > Shielded , Non-detachable,1.5m
2 > Back Shell : Metal

4.Printer (PRN1)

FCC ID Declaration of Conformity(DoC)
Manufacturer Hewlett-Packard
Model Number C2642E
Power Supply Linear, 30Vdc 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

Page 7 of 30

NVLAP LAB CODE: 200097-0-

REPORT NO. :E920706

5.Modem (MOD1)

ͪ2

Κ

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

6.Mouse (MOUS/1 PS/2)

FCC ID DZL211106
Manufacturer ACER
Model Number M-S42
Power Supply +5Vdc from PS2 of PC
Power Cord N/A
Data Cable 1 > Shielded , Non-detachable,1.8m
2 > Back Shell : Metal

7.Printer (PRN2)

FCC ID Declaration of Conformity(DoC)
Manufacturer Hewlett-Packard
Model Number 3820
Power Supply Switching
Power Cable Non-Shielded , Detachable,1.7m
Data Cable 1 > Shielded , Detachable,1m
2 > Back Shell : Metal

8.Lan Card (LC1)

FCC ID N/A
Manufacturer D-Link
Model Number DFE-530TX
Power Supply N/A
Power Cord N/A
Data Cable N/A

Κ

Κ

Κ
Κ
Κ
Κ
Κ

Κ
Κ
Κ
Κ
Κ

Κ
Κ
Κ
Κ
Κ

Page 8 of 30

NVLAP LAB CODE: 200097-0-

REPORT NO. :E920706

7. Description of Conducted Emissions Test
7.1 Conducted Emissions
A 1m x1.5m wooden table 80 cm high is placed 40cm away from the vertical wall. Two AMN
are bonded to the grounding plane. The EUT is powered from the designated AMN and the
support equipment is powered from another designated AMN. Powers to the AMN are filtered
by a high-current high insertion loss power line filters. All electrical cables are shielded by
braided tinned copper zipper tubing with inner diameter of 1/2”. All interconnecting cables
more than 1 meter were shortened by non-inductive bundling (serpentine fashion) to a 1-meter
length.
Sufficient time for the EUT, support equipment, and test equipment was allowed in order for
them to warm up to their normal operating condition. The RF output of the AMN was
connected to the spectrum analyzer to determine the frequency producing the maximum EME
from the EUT.
The spectrum was scanned from 150kHz to 30 MHz with1.5 sec sweep time. The frequency
producing the maximum level was re-examined using Quasi-Peak adapter. The detector
function was set to CISPR quasi-peak mode. The bandwidth of the receiver was set to 10kHz.
The EUT, support equipment, and interconnecting cables were re-arranged and manipulated to
maximize each EME emission. Each emission was maximized by: switching power lines;
varying the 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; whichever determined the worst-case
emission.

7.2 Conducted Emissions Limits
Frequency

Maximum RF Line Voltage dB(uV)
Class

A

Class

B

MHz

QUASI-PEAK

AVERAGE

QUASI-PEAK

AVERAGE

0.15 - 0.50

79

66

66-56

56-46

0.50 - 5.0

73

60

56

46

5.0 - 30

73

60

60

50

Remarks : In the above table, the tighter limit applies at the band edges.

Page 9 of 30

NVLAP LAB CODE: 200097-0-

REPORT NO. :E920706

8. Description of Radiated Emissions Test
8.1 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 antenna 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 10 of 30

NVLAP LAB CODE: 200097-0-

REPORT NO. :E920706

8.2 Test Configuration
10
cm

10
cm

EUT

NONCONDUCTIVE
TABLE 1.5 x 1 METER

5

5

6

80 cm TO
GROUND PLANE

7

4
2

1

8

3

40 cm

8

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

LEGEND
1.
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.
2.
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.
3.
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.
4.
Cables of hand-operated devices, such as keyboards, KEYPADs, etc., have to be placed as close as possible to the controller.
5.
Non-EUT components of EUT system being tested.
6.
The rear of all components of the system under test shall be located flush with the rear of the table.
7.
No vertical conducting wall used.
8.
Power cords drape to the floor and are routed over to receptacle.

Page 11 of 30

NVLAP LAB CODE: 200097-0-

REPORT NO. :E920706

8.3 Radiated Emission Limits
Limits for radiated disturbance of Class A ITE at
a measuring distance of 10 m
Frequency
MHz

Field Strength
dB(ӴV/m)

30

to

230

40

230

to

1 000

47

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 ITE at
a measuring distance of 10 m
Frequency
MHz

Field Strength
dB(ӴV/m)

30

to

230

30

230

to

1 000

37

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

Page 12 of 30

NVLAP LAB CODE: 200097-0-

REPORT NO. :E920706

9. Conducted Emissions Test Setup Photo

< FRONT VIEW >

Page 13 of 30

NVLAP LAB CODE: 200097-0-

REPORT NO. :E920706

10. Conducted Emissions Test Data

Model No.
Frequency range
Detector
Temperature
Humidity

Test Data :

#
#

: PS-3103P V1.0
: 150KHz to 30MHz
: Peak Value
: 19
: 55 %

к

35
40

#
#

25
30

ˏ ˟˜ˡ˘ʳˑ
ˏˡ˘˨˧˥˔˟ˑ

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

Page 14 of 30

NVLAP LAB CODE: 200097-0-

!
!

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!
!

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!
!

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!
!

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NVLAP LAB CODE: 200097-0-

REPORT NO. :E920706

11. Radiated Emissions Test Setup Photos
< FRONT VIEW >

< REAR VIEW >

Page 19 of 30

NVLAP LAB CODE: 200097-0-

REPORT NO. :E920706

12. Radiated Emissions Test Data

Model No.
: PS-3103P V1.0
Frequency range : 30MHz to 1GHz
Temperature
: 24o C

Detector
Humidity

Antenna polarization : HORIZONTAL

Freq.
(MHz)

Level
(dBuV/m)

66.796
124.964
249.964
374.956
499.942
624.947
749.945

21.21
17.97
27.72
29.89
28.71
28.91
30.96

Over
Limit
(dB)

-8.79
-12.03
-9.28
-7.11
-8.29
-8.09
-6.04

Limit
Read
Line
Level
(dBuV/m) (dB)

30.00
30.00
37.00
37.00
37.00
37.00
37.00

32.75
27.99
31.83
29.22
23.72
19.81
20.42

: Quasi-Peak Value
: 76 %

; Test distance :

Antenna Cable
Factor
Loss
(dB/m) (dB)

Preamp
Factor
(dB)

Azimuth
(̓angle)

6.90
7.54
12.77
16.87
20.10
23.28
24.05

20.09
19.82
20.16
20.34
20.25
20.23
19.94

194.0
132.0
208.0
176.0
262.0
147.0
233.0

1.65
2.26
3.28
4.14
5.14
6.05
6.43

Note :
1.
2.

10m ;

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

Page 20 of 30

Antenna
High(m)

4.0
4.0
3.3
2.7
1.3
1.0
1.0

NVLAP LAB CODE: 200097-0-

REPORT NO. :E920706

Model No.
: PS-3103P V1.0
Frequency range : 30MHz to 1GHz
Temperature
: 24o C

Antenna

polarization :

Over
Freq.
(MHz)

Level
(dBuV/m)

68.387
124.964
249.978
374.962
499.960
624.962
749.973

15.66
17.06
22.26
25.29
26.67
27.23
28.80

Limit
(dB)

-14.34
-12.94
-14.74
-11.71
-10.33
-9.77
-8.20

Limit

Detector : Quasi-Peak Value
Humidity : 76 %

VERTICAL

Read

Line
Level
(dBuV/m) (dB)

30.00
30.00
37.00
37.00
37.00
37.00
37.00

27.16
27.08
26.37
24.62
21.68
18.13
18.26

; Test distance :

Antenna Cable

Preamp

Factor
(dB/m)

Loss
(dB)

Factor
(dB)

Azimuth
(̓angle)

Antenna
High(m)

6.90
7.54
12.77
16.87
20.10
23.28
24.05

1.68
2.26
3.28
4.14
5.14
6.05
6.43

20.08
19.82
20.16
20.34
20.25
20.23
19.94

190.0
143.0
249.0
158.0
116.0
173.0
247.0

1.0
1.0
1.8
2.2
3.7
3.9
4.0

Note :
1.
2.

10m ;

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

Page 21 of 30

NVLAP LAB CODE: 200097-0-

REPORT NO. :E920706

13. List of Measured Instruments
Test Mode

Conduction
(No.2)

Instrument

Model No.

Serial No.

Next Cal. Date

Cal. Interval

HP
Spectrum

8591A

3225A03039

Jun. 10, 2004

1Year

R&S
LISN(EUT)

ESH2-Z5

831886/004

Apr. 25, 2004

1Year

Kyoritsu
LISN(2nd)

KNW-242

8-837-7

N/A

N/A

RF Cable

No.4

N/A

Feb. 19, 2004

1Year

R&S
Receiver

ESBI

845658/003

Jul. 29, 2004

1Year

Schaffner
Pre-Amp.

CPA-9232

1012

Aug. 21, 2004

1Year

VULB9161

D-69250

May 19, 2004

1Year

SCJWARZBECL

Radiation
(OP No.3)

Antenna
COM-Power
Horn Ant.

(1GHz~18GHz)

10095

May 25, 2004

1Year

RF Cable

No.2

N/A

Feb. 19, 2004

1Year

VHAP
(30MHz~1GHz)

970+971
953+954

Jun. 27, 2006

3Year

SMY01

829846/038

Feb. 16, 2005

2Year

SCHWARZBECK
Precision Dipole
Ant.

R&S
Signal Generator

AH-118

Page 22 of 30

NVLAP LAB CODE: 200097-0-

REPORT NO. :E920706

14. Duties of The Responsible Party
The responsible party upon signing or accepting the Declaration of Conformity as specified in
Section 2.906 of the FCC Rules hereby agrees to the duties listed below.

̺2.1073(a).

The responsible party warrants that each unit of equipment marketed under DoC is identical to the
unit tested and found acceptable with the standards and that the records maintained by the responsible
party continue to reflect the equipment being produced is within the variation that can be expected
due to quantity production and testing on a statistical bass.

̺2.1073(b).

The responsible party must have a written statement from the manufacturer or accredited test
laboratory that the equipment complies with the appropriate technical standards.

̺2.1073(c).

In case of transfer of control of equipment, as in the case of sale or merger, the new responsible party
shall bear the responsibility of continued compliance of the equipment.

̺2.1073(d).

Equipment shall be retested if any modifications or changes are made that could adversely affect the
emanation characteristics of the equipment.

̺2.1073(e).

If any modifications or changes made by anyone other than the responsible party, the party making the
modifications of changes, if located within the U.S., becomes the new responsible part. The new
responsible party must comply with all provisions for the DoC, including having test data on file
demonstrating that the product continues to comply with all of the applicable technical standards.

̺2.1075(a)(1).

The responsible party shall maintain records of the original design drawings and specifications and all
changes made to the product that may affect compliance.

̺2.1075(a)(2).

The responsible party shall maintain records of the procedures used for production inspection and
testing to insure the conformance with the FCC Rules.

̺2.946(a)(1).

The test report data shall be provided to the FCC within 14 days of delivery of request. The test
sample(s) shall be provided within 60 days of delivery of request.

̺2.946(b)

In case involving harmful interference or safety of life or property, the production sample must be
provided within 60 days, but not less than 14 days. Failure to comply with such a request with the
time frame shown may be cause for forfeiture, pursuant to Section 1.80 of Part 1 of the FCC Rules.

*The Responsible Party is the manufacturer, system integrator, or the importer as defined in Section
2.909 of the FCC Rules. The Rules. The Responsible Party for a DoC must be located within the
United States as specified in Section 2.1077.

Page 23 of 30

NVLAP LAB CODE: 200097-0-

REPORT NO. :E920706

15. Labeling Requirements

The sample label shown below shall be permanently affixed at a conspicuous location on
the device, instructions manual or pamphlet supplied to the user and be readily visible to the
purchaser at the time of purchase. However, when the device is so small wherein placement
of the label with specified statement is not practicable, only the trade name, model number,
and the FCC logo must be displayed on the device per Section ̺15.19 (b)(1)(i).

Trade Name
Model Number

Page 24 of 30

NVLAP LAB CODE: 200097-0-

REPORT NO. :E920706

16. Information To The User
For a Class B digital device or peripheral, the instructions furnished the user shall include the
following or similar statement, placed in a prominent location in the text of the manual:
Federal Communications Commission (FCC) Statement
This equipment has been tested and found to comply with the limits for a Class B digital
device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable
protection against harmful interference in a residential installation. This equipment generates,
uses and can radiate radio frequency energy and, if not installed and used in accordance with
the instructions, may cause harmful interference to radio communications. However, there is
no guarantee that interference will not occur in a particular installation. If this equipment
does cause harmful interference to radio or television reception, which can be determined by
turning the equipment off and on, the user is encouraged to try to correct the interference by
one or more of the following measures:

- Reorient or relocate the receiving antenna.
- Increase the separation between the equipment and receiver.
- Connect the equipment into an outlet on a circuit different from that
to which the receiver is connected.
- Consult the dealer or an experienced radio / TV technician for help.

Page 25 of 30

NVLAP LAB CODE: 200097-0-

REPORT NO. :E920706

17. EUT Photographs
Model No. : PS-3103P V1.0

Page 26 of 30

NVLAP LAB CODE: 200097-0-

REPORT NO. :E920706

Page 27 of 30

NVLAP LAB CODE: 200097-0-

REPORT NO. :E920706

Page 28 of 30

NVLAP LAB CODE: 200097-0-

REPORT NO. :E920706

Page 29 of 30

NVLAP LAB CODE: 200097-0-

REPORT NO. :E920706

Page 30 of 30

DECLARATION OF CONFORMITY CERTIFICATE

Responsible Party :

EDIMAX TECHNOLOGY CO., LTD.

Address :

7, LANE 116, WU-KUNG SECOND ROAD, WU-KU
INDUSTRIAL PARK, TAIPEI HSIEN, TAIWAN, R. O. C.

Contact Person :

TRACY CHENG /

Equipment :

Print Server

Model No.:

PS-3103P V1.0, GP-303P

Traceability:

FCC Part 15 & Part 2; Docket 95-19

Limitation:

CISPR 22 CLASS B

Date of issued:

DEC.

Report No.:

E920706

03,

ASSISTANT

2003

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 ANSI C63.4-1992. (See Test Report if any
modifications were made for compliance.)
PEP certifies that no party to this application has been denied the NVLAP benefits pursuant to
Section 5301 of the Anti-Drug Abuse Act of 1988, 21 U.S.C. 853(a).

Peter Kao/NVLAP Signatory

NVLAP LAB CODE: 200097-0

DECLARATION OF CONFORMITY
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 device must accept any interference received,
including interference that may cause undesired operation.

Responsible Party:

EDIMAX TECHNOLOGY CO., LTD.

Address:

7, LANE 116, WU-KUNG SECOND ROAD, WU-KU
INDUSTRIAL PARK, TAIPEI HSIEN, TAIWAN, R. O. C.

Contact Person:

TRACY CHENG /

ASSISTANT

Phone No.:

886-2-22995648

Fax No.: 886-2-22995647

Equipment
Model No.

:
:

Print Server
PS-3103P V1.0, GP-303P

We hereby declare that the equipment bearing the trade name and model number
specified above was tested conforming to the applicable FCC 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 Commission s requirements.ġ

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Signature

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Date



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Metadata Date                   : 2003:12:03 18:41:20+08:00

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