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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

Report Format Version: 01

CE RADIO TEST REPORT

Applicant’s company Realtek Semiconductor Corp.

Applicant Address No. 2, Innovation Road II, Hsinchu Science Park, Hsinchu 300, Taiwan

Manufacturer’s company Realtek Semiconductor Corp.

Manufacturer Address No. 2, Innovation Road II, Hsinchu Science Park, Hsinchu 300, Taiwan

Product Name 802.11b/g RTL8187SE miniCard

Brand Name Realtek

Model Name RTL8187SE

Test Standard(s) ETSI EN 300 328 V1.7.1 (2006-10)

Test Freq. Range 2400 ~ 2483.5MHz

Received Date Dec. 18, 2007

Final Test Date Jan. 24, 2008

Submission Type Original Equipment

Statement Test result included in this report 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 ETSI EN 300 328 V1.7.1 (2006-10).

The test equipment used to perform the test is calibrated and traceable to NML/ROC.

Report No.: ER7D1808

Report Format Version: 01 Page No. : i of ii

Issued Date : Feb. 01, 2008

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.......................................................................................................................................................................4 3.4. Table for Carrier Frequencies .............................................................................................................................................................6 3.5. Table for Test Modes...........................................................................................................................................................................6 3.6. Table for Testing Locations..................................................................................................................................................................7 3.7. Table for Supporting Units ...................................................................................................................................................................7 3.8. Table for Parameters of Test Software Setting .....................................................................................................................................7 3.9. Test Configurations .............................................................................................................................................................................7

4. TEST RESULT ..................................................................................................................................................... 8 4.1. Equivalent Isotropic Radiated Power Measurement...........................................................................................................................8 4.2. Maximum Spectral Power Density Measurement..............................................................................................................................10 4.3. Frequency Range Measurement......................................................................................................................................................13 4.4. Transmitter Spurious Emissions Measurement ....................................................................................................................................16 4.5. Receiver Spurious Emissions Measurement.......................................................................................................................................28

5. LIST OF MEASURING EQUIPMENTS ................................................................................................................... 36 6. TEST LOCATION.............................................................................................................................................. 37 APPENDIX A. PHOTOGRAPHS OF EUT.......................................................................................................... A1 ~ A7

APPENDIX B. TEST PHOTOS.......................................................................................................................... B1 ~ B3


Report Format Version: 01 Page No. : ii of ii


History of This Test Report

Original Issue Date: Feb. 01, 2008


■ No additional attachment.

□ Additional attachment were issued as following record:

Attachment No. Issue Date Description

230 207 253

20 0 55


Report Format Version: 01 Page No. : 2 of 37


2. SUMMARY OF THE TEST RESULT

Applied Standard: ETSI EN 300 328 V1.7.1 (2006-10)

Part Standard Clause Description of Test Result Under Limit

4.1 5.7.2 Equivalent Isotropic Radiated Power Complies 0.07 dB

4.2 5.7.3 Power Spectral Density Complies 0.25 dB

4.3 5.7.4 Frequency Range Complies -

4.4 5.7.5 Transmitter Spurious Emissions Complies 19.16 dB

4.5 5.7.6 Receiver Spurious Emissions Complies 1.33 dB

Test Items Uncertainty Remark

Equivalent Isotropic Radiated Power (Conducted) ±0.8dB Confidence levels of 95%

Power Spectral Density (Conducted) ±1.0dB Confidence levels of 95%

Frequency Range ±8.5×10-8 Confidence levels of 95%

Spurious Emissions – 30MHz~1000MHz (Radiated) ±2.6dB Confidence levels of 95%

Spurious Emissions – 1GHz~18GHz (Radiated) ±2.6dB Confidence levels of 95%

Temperature ±0.7℃ Confidence levels of 95%

Humidity ±3.2% Confidence levels of 95%

DC / AC Power Source ±1.4% Confidence levels of 95%




3. GENERAL INFORMATION

3.1. Product Details

Items Description

Power Type From Host System

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 Band 2400 ~ 2483.5MHz

Channel Number 13

EIRP Output Power 11b: 19.93 dBm ; 11g: 19.70 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. Type PIFA PK Gain(dBi) 3.95 Ant. Type PIFA PK

Gain(dBi) 2.11 1.

Connector IPEX Model No. DQ661500301

2.Connector IPEX Model

No. DQ661500115


Gain(dBi) 2.11 3.

Connector IPEX Model No. AR830WIPI02A


No. AR320WIPI02B


Gain(dBi) 2.41 5.

Connector IPEX Model No. ARW62WIP101G


No. ARUMPWIPI02


Gain(dBi) 0.78 7.

Connector IPEX Model No. WDAN-GQMA6001-DF


No. WDAN-GQMA6002-DF


Gain(dBi) 3.25 9.

Connector IPEX Model No. 021020168NC3587


No. 021020168NC3586


Gain(dBi) 0.64 11.

Connector IPEX Model No. AAFQ5050001LK0


No. HFT40-IV17


Gain(dBi) 1.34 13.

Connector IPEX Model No. 81.EE215.016.


No. ASAW001


Gain(dBi) 0.61 15.

Connector IPEX Model No. B1425050G0003


No. ASAT001


Gain(dBi) 1.12 17.

Connector IPEX Model No. ASAA001


No. HFT40

Ant. Type PIFA PK Gain(dBi) -0.92 Ant. Type PIFA PK

Gain(dBi) 2.24 19.

Connector IPEX Model No. HFT60


No. HTL008


Gain(dBi) 3.45 21

Connector IPEX Model No. HTL017

22Connector IPEX Model

No. TBN001


Gain(dBi) 0.87 23

Connector IPEX Model No. TBN003


No. TIAN01


Gain(dBi) 1.75 25

Connector IPEX Model No. WNC001


No. WNC002


Gain(dBi) -0.65 27

Connector IPEX Model No. U40


No. U40





Gain(dBi) 0.94 29

Connector IPEX Model No. U50


No. U50


Gain(dBi) 2.04 31

Connector IPEX Model No. MA-8 (06-941-03)


No. MA-8 (50-88-03)


Gain(dBi) 2.75 33

Connector IPEX Model No. SA-1(06-926-11)


No. WDAN-GQMA3004-DF


Gain(dBi) 0.95 35

Connector IPEX Model No. L45II-WLAN


No. L55II-ID1 & ID2


Gain(dBi) 2.14 37

Connector IPEX Model No. L55II-ID3


No. L55II-ID4


Gain(dBi) 2.21 39

Connector IPEX Model No. L55 RI


No. UM700-L


Gain(dBi) -1.18 41

Connector IPEX Model No. W351


No. W651


Gain(dBi) 0.7 43

Connector IPEX Model No. W815UI1


No. NB0040-K


Gain(dBi) 1.68 45

Connector IPEX Model No. TFF-A011MPXX-361


No. L45

Ant. Type PIFA PK Gain(dBi) 2.83

47 Connector IPEX Model

No. MCA50

Note: (1) Due to Ant.1 ~ Ant. 47 are the same type antenna, only the higher gain antenna “Ant.1” was

tested and recorded in this report.

(2) The EUT has diversity function; It supports both transmit and receive Antenna Diversity.




3.4. Table for Carrier Frequencies

Frequency Band Channel No. Frequency

1 2412 MHz

2 2417 MHz

3 2422 MHz

4 2427 MHz

5 2432 MHz

6 2437 MHz

7 2442 MHz

8 2447 MHz

9 2452 MHz

10 2457 MHz

11 2462 MHz

12 2467 MHz

2400~2483.5MHz

13 2472 MHz

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

11b/BPSK 1 Mbps 1/7/13 1 Equivalent Isotropic Radiated Power

Power Spectral Density 11g/BPSK 6 Mbps 1/7/13 1

11b/BPSK 1 Mbps 1/13 1 Frequency Range

11g/BPSK 6 Mbps 1/13 1

Transmitter/ Receiver Spurious Emissions

(30MHz~1GHz)

11g/BPSK 6 Mbps 13 1

11b/BPSK 1 Mbps 1/13 1 Transmitter Spurious Emissions

(1GHz~12.75GHz) 11g/BPSK 6 Mbps 1/13 1

11b/BPSK 1 Mbps 1 1 Receiver Spurious Emissions

(1GHz~12.75GHz) 11g/BPSK 6 Mbps 13 1

Note: The product is restricted for indoor use only.




3.6. Table for Testing Locations

Test Site No. Site Category Location Test Site No. Site Category Location

05CH01-HY FAC Hwa Ya 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 ASUS A8H PPD-AR5BXB61

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 Realtek

Frequency 2412 MHz 2442 MHz 2472 MHz

IEEE 802.11b 11 10 9

IEEE 802.11g 31 28 27

3.9. Test Configurations

1. Power line, 1.8m Non-shielded2 Antenna cable, 0.72m Non-shielded3. Antenna cable, 0.53m Non-shielded

1

Notebook

RS232

VG

A

LPT

RJ-45

RJ-11

USB

x 2

DC

EXPRESS CARDEUT

Ant Ant

3 2




4. TEST RESULT

4.1. Equivalent Isotropic Radiated Power Measurement

4.1.1. Limit

The equivalent isotropic radiated power is defined as the total power of the transmitter. The equivalent

isotropic radiated power shall be equal to or less than -10dBW (100 mW) e.i.r.p. This limit shall apply for

any combination of power level and intended antenna assembly.

4.1.2. Measuring Instruments and Setting

Please refer to section 5 of equipments list 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 Average Sensor NRV-Z55

4.1.3. Test Procedures

1. Since a temporary antenna connector can be attached on the RF output port, so conducted

measurement method was used in this case.

2. A wide band power meter with a matched thermocouple detector was used to directly measure the

output power from the RF output port of the EUT in continuously transmitting mode.

3. The EIRP = A+G+10*log(1/x), where A is the power measured in (2), G is the gain of the antenna of

the EUT in dBi and x is the duty cycle of the EUT in continuously transmitting mode.

4. The measurement shall be repeated at the lowest, the middle, and the highest channel of the stated

frequency range. These measurements shall also be performed at normal and extreme test

conditions.

4.1.4. Test Setup Layout




4.1.5. Test Deviation

There is no deviation with the original standard.

4.1.6. EUT Operation during Test

The EUT was programmed to be in continuously transmitting mode.

4.1.7. Test Result

Temperature 26℃ Humidity 56%

Test Engineer Roy Huang Configurations 802.11b/g

Test Date Jan. 24, 2008

Configuration IEEE 802.11b

Average EIRP mean power (dBm) Test Conditions

CH 1 CH 7 CH 13

T nom (°C) 20 V nom (V) 230 17.51 18.01 16.97

V max (V) 253 18.94 19.93 18.65 T min (°C) 0

V min (V) 207 18.94 19.93 18.65

V max (V) 253 16.93 17.87 16.83 T max (°C) 55

V min (V) 207 16.93 17.87 16.83

Max mean Power 19.93

Limits 20dBm (-10dBW)

Result Complies

Configuration IEEE 802.11g

Average EIRP mean power (dBm) Test Conditions

CH 1 CH 7 CH 13

T nom (°C) 20 V nom (V) 230 17.43 17.32 17.28

V max (V) 253 19.60 19.62 19.70 T min (°C) 0

V min (V) 207 19.60 19.62 19.70

V max (V) 253 17.26 17.23 17.16 T max (°C) 55

V min (V) 207 17.26 17.23 17.16

Max mean Power 19.70

Limits 20dBm (-10dBW)

Result Complies




4.2. Maximum Spectral Power Density Measurement

4.2.1. Limit

The maximum spectral power density is defined as the highest level of power in Watts per Hertz

generated by the transmitter within the power envelope. For wide band modulations other than FHSS

(e.g. DSSS, OFDM, etc.), the maximum spectrum power density is limited to 10 mW per MHz e.i.r.p.


Please refer to section 5 of equipments list in this report. The following table is the setting of the spectrum

analyzer and power meter.

Spectrum Analyzer Setting

Attenuation 20~30dB

Span Frequency 0 MHz

RB 1 MHz

VB 1 MHz

Detector Positive Peak

Trace Max Hold

Sweep Time Auto

Power Meter Parameter Setting

Filter No. Auto

Measurement time 0.135 s ~ 26 s

Used Average Sensor NRV-Z55


1. Pre-calibration for the spectrum analyzer has to be done first through a CW signal of the measured

carrier frequency with 10dBm power strength.

2. A power meter is connected on the IF output port of the spectrum analyzer.

3. Adjust the spectrum analyzer to have the center frequency the same with the measured carrier.

RBW=VBW=1MHz, detector mode is positive peak. Turn off the averaging function and use zero

span.

4. The calibrating signal power shall be reduced to 0 dBm and it shall be verified that the power meter

reading also reduces by 10 dB.

5. Connect the equipment to be measured. Using the following settings of the spectrum analyzer in

combination with "max hold" function, find the frequency of highest power output in the power

envelope: center frequency equal to operating frequency; RBW & VBW: 1 MHz; detector mode:

positive peak; averaging: off; span: 3 times the spectrum width; amplitude: adjust for middle of the

instrument's range. The frequency found shall be recorded.

6. Set the center frequency of the spectrum analyzer to the found frequency and switch to zero span.




The power meter indicates the measured power density (D). The maximum spectral power density

e.i.r.p. is calculated from the above measured power density (D), the observed duty cycle factor(x),

and the applicable antenna assembly gain "G" in dBi, according to the formula: PD = D + G + 10

log (1/x).

7. The measurement shall be repeated at the lowest, the middle, and the highest channel of the stated

frequency range.









4.2.7. Test Result





Maximum EIRP Spectral Power Density (dBm / MHz) Test Conditions

CH 1 CH 7 CH 13

T nom (°C) 20 V nom (V) 230 9.65 9.75 8.55

Limits 10dBm / MHz

Result Complies


Maximum EIRP Spectral Power Density (dBm / MHz) Test Conditions

CH 1 CH 7 CH 13

T nom (°C) 20 V nom (V) 230 8.55 8.15 8.05

Limits 10dBm / MHz

Result Complies




4.3. Frequency Range Measurement

4.3.1. Limit

The frequency range of the equipment is determined by the lowest and highest frequencies occupied

by the power envelope. fH is the highest frequency of the power envelope: it is the frequency furthest

above the frequency of maximum power where the output power drops below the level of -80 dBm/Hz

e.i.r.p. spectral power density (-30 dBm if measured in a 100 kHz bandwidth). fL is the lowest frequency of

the power envelope; it is the frequency furthest below the frequency of maximum power where the

output power drops below the level equivalent to -80 dBm/Hz e.i.r.p. spectral power density (or -30 dBm if

measured in a 100 kHz bandwidth). The frequency range is determined by the lowest value of fL and the

highest value of fH resulting from the adjustment of the equipment to the lowest and highest operating

frequencies.

For all equipment, the frequency range shall lie within the band 2.4 GHz to 2.835 GHz (fL > 2.4 GHz and fH

< 2.4835 GHz).


Please refer to section 5 of equipments list in this report. The following table is the setting of Spectrum

Analyzer.


Attenuation 20~30dB

Span Frequency 40MHz

RB 100 kHz

VB 100 kHz

Detector Average

Trace Average 50 sweeps


1. The transmitter output (antenna port) was connected to the spectrum analyzer.

2. Added [x] dBi of antenna gain was on the spectrum analyzer.

3. Place the spectrum analyzer in detector averaging mode with a minimum of 50 sweeps selected

and activate transmitter with modulation applied.

4. Select lowest operating frequency of the equipment under test.

5. Find lowest frequency below the operating frequency at which spectral power density drops below

-80 dBm/Hz e.i.r.p. (-30 dBm if measured in a 100 kHz bandwidth). This frequency shall be recorded

(fL).

6. Select the highest operating frequency of the equipment under test.

7. Find the highest frequency at which the spectral power density drops below-80 dBm/Hz e.i.r.p. (-30

dBm if measured in a 100 kHz bandwidth). This frequency shall be recorded (fH).

8. These measurements shall also be performed at normal and extreme test conditions.









4.3.7. Test Result





Frequency range (MHz) Test Conditions

fL CH 1 fH CH 13

T nom (°C) 20 V nom (V) 230 2403.2660 2481.2147

V max (V) 253 2402.7852 2481.6153 T min (°C) 0

V min (V) 207 2402.7852 2481.6153

V max (V) 253 2403.2660 2481.2147 T max (°C) 55

V min (V) 207 2403.2660 2481.2147

Min. fL / Max. fH Band Edges 2402.7852 2481.6153

Limits fL ＞ 2400.0 MHz fH ＜ 2483.5 MHz

Result Complies





Frequency range (MHz) Test Conditions

fL CH 1 fH CH 13

T nom (°C) 20 V nom (V) 230 2403.2660 2480.8141

V max (V) 253 2403.0919 2481.2147 T min (°C) 0

V min (V) 207 2403.0919 2481.2147

V max (V) 253 2403.2660 2480.8141 T max (°C) 55

V min (V) 207 2403.2660 2480.8141

Min. fL / Max. fH Band Edges 2403.0919 2481.2147

Limits fL ＞ 2400.0 MHz fH ＜ 2483.5 MHz

Result Complies




4.4. Transmitter Spurious Emissions Measurement

4.4.1. Limit

Transmitter spurious emissions are emissions outside the frequency range(s) of the equipment as defined

in 2.4~2.4835GHz when the equipment is in Transmit mode and/or in Standby mode.

The spurious emissions of the transmitter shall not exceed the values in tables 1 and 2 in the indicated

bands.

Table 1 Transmitter limits for narrowband spurious emissions

Frequency Range (MHz) Transmit Mode (dBm) Standby Mode (dBm)

30~1000 -36 -57

1000~12750 -30 -47

1800~1900 / 5150~5300 -47 -47

Table 2 Transmitter limits for wideband spurious emissions

Frequency Range (MHz) Transmit Mode (dBm/Hz) Standby Mode (dBm/Hz)

30~1000 -86 -107

1000~12750 -80 -97

1800~1900 / 5150~5300 -97 -97



analyzer.


Attenuation Auto

Start Frequency 30 MHz

Stop Frequency 12750 MHz


Span 100 MHz

Sweep Time 1s

RB / VB 100 kHz / 30 kHz


1. The EUT was placed on the top of the turntable in fully anechoic chamber.

2. The test shall be made in the transmitting mode. The turntable was rotated by 360 degrees to

determine the position of the highest radiation.

3. This measurement shall be repeated with the transmitter in standby mode where applicable.

4. For 30~1000MHz spurious emissions measurement, the broad band bi-log receiving antenna was

placed 3 meters far away from the turntable. For 1~12.75GHz measurement, the receiving Horn

antenna was placed 1.5 meters far away from the turntable.




5. The broadband receiving antenna was fixed on the same height with the EUT to find each

suspected emissions of both horizontal and vertical polarization. Each recorded suspected value is

indicated as Read Level (Raw).

6. Replace the EUT by standard antenna and feed the RF port by signal generator.

7. Adjust the frequency of the signal generator to the suspected emission and slightly rotate the

turntable to locate the position with maximum reading.

8. Adjust the power level of the signal generator to reach the same reading with Read Level (Raw).

9. The level of the spurious emission is the power level of (8) plus the gain of the standard antenna in

dBi and minus the loss of the cable used between the signal generator and the standard antenna.

10. If the level calculated in (9) is higher than limit by more than 6dB, then lower the RBW of the spectrum

analyzer to 30KHz. If the level of this emission does not change by more than 2dB, then it is taken as

narrowband emission, otherwise, wideband emission.

11. The measurement shall be repeated at the lowest and the highest channel of the stated frequency

range.









4.4.7. Results of Standby Mode Spurious Emissions

In the initial investigation on standby mode and receiving mode, no significant differences in spurious

emissions were observed between these 2 modes. Therefore, test data for standby mode was omitted in

this section.

4.4.8. Results of Transmitter Spurious Emissions Below 1GHz


Test Engineer Roy Huang Configurations 802.11g / CH 13

Horizontal




Vertical

Note:

The amplitude of spurious emissions that is lower by more than 6dB below the permissible value need not

to be reported. Except fundamental harmonic emissions, other emissions listed have been verified as

narrow band spurious emissions.




4.4.9. Results of Transmitter Spurious Emissions Above 1GHz


Test Engineer Roy Huang Configurations 802.11b / CH 1

Horizontal




Vertical

Note:









Horizontal




Vertical

Note:









Horizontal




Vertical

Note:









Horizontal




Vertical

Note:







4.5. Receiver Spurious Emissions Measurement

4.5.1. Limit

Receiver spurious emissions are emissions at any frequency when the equipment is in received mode.

The spurious emissions of the reviver shall not exceed the values in tables 1 and 2 in the indicated bands.

Table 1 Receiver limits for narrowband spurious emissions

Frequency Range (MHz) Limit (dBm)

30~1000 -57

1000~12750 -47

Table 2 Receiver limits for wideband spurious emissions

Frequency Range (MHz) Limit (dBm)

30~1000 -107

1000~12750 -97



analyzer.


Attenuation Auto

Start Frequency 30 MHz

Stop Frequency 12750 MHz


Span 100 MHz

Sweep Time 1s

RB / VB 100 kHz / 30 kHz


1. The EUT was placed on the top of the turntable in fully anechoic chamber.

2. The test shall be made in the transmitting mode. The turntable was rotated by 360 degrees to

determine the position of the highest radiation.

3. For 30~1000MHz spurious emissions measurement, the broad band bi-log receiving antenna was

placed 3 meters far away from the turntable. For 1~12.75GHz measurement, the receiving Horn

antenna was placed 1.5 meters far away from the turntable.

4. The broadband receiving antenna was fixed on the same height with the EUT to find each

suspected emissions of both horizontal and vertical polarization. Each recorded suspected value is

indicated as Read Level (Raw).

5. Replace the EUT by standard antenna and feed the RF port by signal generator.

6. Adjust the frequency of the signal generator to the suspected emission and slightly rotate the




turntable to locate the position with maximum reading.

7. Adjust the power level of the signal generator to reach the same reading with Read Level (Raw).

8. The level of the spurious emission is the power level of (7) plus the gain of the standard antenna in

dBi and minus the loss of the cable used between the signal generator and the standard antenna.

9. The measurement shall be repeated at the lowest and the highest channel of the stated frequency

range.





The EUT was programmed to be in continuously receiving mode.




4.5.7. Results of Receiver Spurious Emissions Below 1GHz



Horizontal




Vertical

Note:







4.5.8. Results of Receiver Spurious Emissions Above 1GHz



Horizontal




Vertical

Note:









Horizontal




Vertical

Note:







5. LIST OF MEASURING EQUIPMENTS

Instrument Manufacturer Model No. Serial No. Characteristics Calibration Date Remark

Spectrum analyzer R&S FSEK30 100189 9kHz ~ 30GHz Oct. 03, 2007 Radiation

(05CH01-HY)

Amplifier ADVANTEST BB525C CH100002 100kHz ~ 3GHz Dec. 13, 2007 Radiation

(05CH01-HY)

Amplifier Agilent 8449B 3008A02096 1GHz ~ 26.5GHz Mar. 07, 2007 Radiation

(05CH01-HY)

Amplifier COM-POWER PA-103 161073 1MHz~1MHz Jul. 26, 2007 Radiation

(05CH01-HY)

Bilog Antenna SCHAFFNER CBL6111C 2737 25MHz ~ 2GHz Jul. 19, 2007 Radiation

(05CH01-HY)

Horn Antenna COM-POWER AH-118 10094 1GHz ~ 18GHz Dec. 20, 2007 Radiation

(05CH01-HY)

Horn Antenna COM-POWER AH-118 10091 1GHz ~ 18GHz Jul. 30, 2007 Radiation

(05CH01-HY)

Signal Generator R&S SMR40 100116 10MHz ~ 40GHz Mar. 07, 2007 Radiation

(05CH01-HY)

RF Cable-R03m Jye Bao RG142 CB031 30MHz ~1GHz Oct. 01, 2007 Radiation

(05CH01-HY)

RF Cable-HIGH SUHNER SUCOFLEX 106 05CH01-HY 1GHz~26.5GHz Jan. 03, 2008 Radiation

(05CH01-HY)

Horn Antenna SCHWARZBECK BBHA9170 BBHA9170154 15GHz ~ 40GHz Jan. 18, 2008 Radiation

(05CH01-HY)

Horn Antenna SCHWARZBECK BBHA9170 BBHA9170221 15GHz ~ 40GHz Jan. 16, 2008 Radiation

(05CH01-HY)

Amplifier MITEQ AMF-6F-260400 923364 26.5 GHz - 40 GHz Jan. 22, 2007* Radiation

(05CH01-HY)

Turn Table HD DS 420 420/655/12 0 ∼ 360 degree N/A Radiation

(05CH01-HY)

Antenna Mast HD MA 240 240/569/12 1 m ~ 4 m N/A Radiation

(05CH01-HY)

Spectrum Analyzer R&S FSP30 100023 9kHz ~ 30GHz Jan. 10, 2008 Conducted (TH01-HY)

Power Meter R&S NRVS 100444 DC ~ 40GHz Jun. 27, 2007 Conducted (TH01-HY)

Power Sensor R&S NRV-Z51 100458 DC ~ 30GHz Jun. 27, 2007 Conducted (TH01-HY)

Power Sensor R&S NRV-Z32 100057 30MHz ~ 6GHz Jun. 27, 2007 Conducted (TH01-HY)

AC Power Source HPC HPA-500W HPA-9100024 AC 0 ~ 300V May 04, 2007* Conducted (TH01-HY)

DC Power Source G.W. GPC-6030D C671845 DC 1V ~ 60V Mar. 03, 2007 Conducted (TH01-HY)

Temp. and Humidity Chamber

KSON THS-C3L 612 N/A Jan. 14, 2008 Conducted (TH01-HY)

RF CABLE-1m Jye Bao RG142 CB034-1m 20MHz ~ 7GHz Jan. 04, 2008 Conducted (TH01-HY)

RF CABLE-2m Jye Bao RG142 CB035-2m 20MHz ~ 1GHz Jan. 04, 2008 Conducted (TH01-HY)

Vector Signal Generator

R&S SMU200A 102098 100kHz ~ 6GHz Nov. 14, 2007 Conducted (TH01-HY)

Signal Generator R&S SMR40 100116 10MHz ~ 40GHz Mar. 07, 2007 Conducted (TH01-HY)

Note: Calibration Interval of instruments listed above is one year.

Note: * Calibration Interval of instruments listed above is two year.




6. TEST LOCATION

SHIJR ADD : 6Fl., No. 106, Sec. 1, Shintai 5th Rd., Shijr City, Taipei, Taiwan 221, R.O.C.

TEL : 886-2-2696-2468

FAX : 886-2-2696-2255

HWA YA ADD : No. 52, Hwa Ya 1st Rd., Kwei-Shan Hsiang, Tao Yuan Hsien, Taiwan, R.O.C.

TEL : 886-3-327-3456

FAX : 886-3-318-0055

LINKOU ADD : No. 30-2, Dingfu Tsuen, Linkou Shiang, Taipei, Taiwan 244, R.O.C

TEL : 886-2-2601-1640

FAX : 886-2-2601-1695

DUNGHU ADD : No. 3, Lane 238, Kangle St., Neihu Chiu, Taipei, Taiwan 114, R.O.C.

TEL : 886-2-2631-4739

FAX : 886-2-2631-9740

JUNGHE ADD : 7Fl., No. 758, Jungjeng Rd., Junghe City, Taipei, Taiwan 235, R.O.C.

TEL : 886-2-8227-2020

FAX : 886-2-8227-2626

NEIHU ADD : 4Fl., No. 339, Hsin Hu 2nd Rd., Taipei 114, Taiwan, R.O.C.

TEL : 886-2-2794-8886

FAX : 886-2-2794-9777

JHUBEI ADD : No.8, Lane 724, Bo-ai St., Jhubei City, HsinChu County 302, Taiwan, R.O.C.

TEL : 886-3-656-9065

FAX : 886-3-656-9085

SPORTON International Inc. PAGE NUMBER : A1 OF A7 TEL : 886-2-2696-2468 ISSUED DATE :

FAX : 886-2-2696-2255

APPENDIX A. Photographs of EUT


FAX : 886-2-2696-2255


Page No. : B1 of B3

Appendix B. Test Photos


Page No. : B2 of B3

1. Photographs of Radiated Emissions Test Configuration

FRONT VIEW

REAR VIEW


Page No. : B3 of B3

SIDE VIEW

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