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Spectrum Research & Testing Lab., Inc. No. 101-10, Ling 8, Shan-Tong Li, Chung-Li City, Taoyuan, Taiwan

TEST REPORT Reference No.: C05111709 Report No.: RADC05070702-2Page:2 of 68 Date: Dec. 13, 2005

TABLE OF CONTENTS 1. DOCUMENT POLICY AND TEST STATEMENT................................................. 5 1.1 DOCUMENT POLICY......................................................................................... 5 1.2 TEST STATEMENT ............................................................................................ 5 1.3 EUT MODIFICATION.......................................................................................... 5 2. DESCRIPTION OF EUT AND TEST MODE ....................................................... 6 2.1 GENERAL DESCRIPTION OF EUT ................................................................... 6 2.2 DESCRIPTION OF EUT INTERNAL DEVICE .................................................... 6 2.3 DESCRIPTION OF TEST MODE ....................................................................... 7 2.4 DESCRIPTION OF SUPPORT UNIT.................................................................. 7 2.5 EUT OPERATING CONDITION.......................................................................... 7 3. DESCRIPTION OF APPLIED STANDARDS....................................................... 8 4 TECHNICAL CHARACTERISTICS TEST FOR TRANSMITTER PART................. 9 4.1 EFFECTIVE RADIATED POWER....................................................................... 9 4.1.1 EFFECTIVE RADIATED POWER LIMIT ............................................................ 9 4.1.2 TEST EQUIPMENT............................................................................................ 9 4.1.3 TEST SETUP ................................................................................................... 10 4.1.4 TEST PROCEDURE ........................................................................................ 10 4.1.5 TEST RESULT ................................................................................................. 11 4.2 PEAK POWER DENSITY ................................................................................. 13 4.2.1 PEAK POWER DENSITY LIMIT....................................................................... 13 4.2.2 TEST EQUIPMENT.......................................................................................... 13 4.2.3 TEST SETUP ................................................................................................... 14 4.2.4 TEST PROCEDURE ........................................................................................ 14 4.2.5 TEST RESULT ................................................................................................. 15 4.3 FREQUENCY RANGE ..................................................................................... 16 4.3.1 FREQUENCY RANGE LIMIT ........................................................................... 16 4.3.2 TEST EQUIPMENT.......................................................................................... 16 4.3.3 TEST PROCEDURES...................................................................................... 16 4.3.4 TEST SETUP ................................................................................................... 17 4.3.5 TEST RESULT ................................................................................................. 18 4.4 SPURIOUS EMISSION FROM TRANSMITTER............................................... 22 4.4.1 LIMIT ................................................................................................................ 22 4.4.2 TEST EQUIPMENT.......................................................................................... 23 4.4.3 TEST SETUP ................................................................................................... 24 4.4.4 TEST PROCEDURE ........................................................................................ 25 4.4.5 TEST RESULT ................................................................................................. 26 5. TECHNICAL CHARACTERISTICS TEST FOR RECEIVER PART..................... 32 5.1 RECEIVER SPURIOUS EMISSION ................................................................. 32 5.1.1 LIMIT ................................................................................................................ 32 5.1.2 TEST EQUIPMENT.......................................................................................... 32 5.1.3 TEST PROCEDURE ........................................................................................ 33 5.1.4 TEST SETUP ................................................................................................... 33 5.1.5 TEST RESULT ................................................................................................. 35 6. ELECTROMAGNETIC COMPATIBILITY (EMC) TEST....................................... 36



6.1 CONDUCTED EMISSION TEST FOR POWER PORT .................................... 36 6.1.1 LIMIT ................................................................................................................ 36 6.1.2 TEST EQUIPMENT.......................................................................................... 36 6.1.3 TEST PROCEDURE ........................................................................................ 37 6.1.4 TEST SETUP ................................................................................................... 37 6.1.5 TEST RESULT ................................................................................................. 38 7. ELECTROSTATIC DISCHARGE ........................................................................ 40 7.1 TEST EQUIPMENT............................................................................................. 40 7.2 TEST PROCEDURE ........................................................................................... 40 7.3 TEST SET-UP ..................................................................................................... 41 7.4 TEST CONDITION AND PERFORMANCE......................................................... 42 7.5 GENERAL PERFORMANCE CRITERIA DESCRIPTION.................................... 42 7.6 TEST RESULT .................................................................................................... 45 8. RADIATED IMMUNITY TEST ............................................................................. 46 8.1 TEST EQUIPMENT............................................................................................. 46 8.2 TEST PROCEDURE ........................................................................................... 47 8.3 TEST SETUP ...................................................................................................... 47 8.4 TEST CONDITION .............................................................................................. 48 8.5 GENERAL PERFORMANCE CRITERIA DESCRIPTION.................................... 48 8.6 TEST RESULT .................................................................................................... 50 9. ELECTRICAL FAST TRANSIENT / BURST IMMUNITY TEST ........................... 51 9.1 TEST EQUIPMENT............................................................................................. 51 9.2 TEST PROCEDURE ........................................................................................... 51 9.3 TEST SET-UP................................................................................................... 52 9.4 TEST CONDITION/PERFORMANCE CRITERIA ............................................. 53 9.5 SUMMARY OF TEST RESULT......................................................................... 53 10. SURGE TEST (POWER LINE) ......................................................................... 54 10.1 TEST EQUIPMENT ........................................................................................ 54 10.2 TEST PROCEDURE....................................................................................... 54 10.3 TEST SET-UP................................................................................................. 54 10.4 DESCRIPTION OF SUPPORT UNIT.............................................................. 54 10.5 EUT OPERATING CONDITION...................................................................... 54 10.6 TEST CONDITION / PERFORMANCE CRITERIA ......................................... 55 10.7 SUMMARY OF TEST RESULT....................................................................... 55 11. INDUCED RF FIELDS (CONDUCTED SUSCEPTIBILITY) TEST....................... 56 11.1 TEST EQUIPMENT......................................................................................... 56 11.2 TEST PROCEDURE....................................................................................... 56 11.3 TEST SET-UP................................................................................................. 57 11.4 TEST CONDITION / PERFORMANCE CRITERIA ......................................... 58 11.5 SUMMARY OF TEST RESULT....................................................................... 58 12. VOLTAGE DIPS, INTERRUPTS, VARIATIONS TEST...................................... 59 12.1 TEST EQUIPMENT ........................................................................................ 59 12.2 TEST PROCEDURE....................................................................................... 59 13.3 TEST SET-UP................................................................................................. 59 12.4 DESCRIPTION OF SUPPORT UNIT.............................................................. 59 12.5 EUT OPERATING CONDITION...................................................................... 59



12.6 TEST CONDITION / PERFORMANCE CRITERIA ......................................... 60 12.7 SUMMARY OF TEST RESULT....................................................................... 60 13. PHOTOS OF TESTING .................................................................................. 61 14. TERMS OF ABRIVATION ................................................................................. 68



1. DOCUMENT POLICY AND TEST STATEMENT

1.1 DOCUMENT POLICY

- The report shall not be reproduced except in full, without the written approval of SRT Lab, Inc.

- The report must not be used by the applicant to claim that the product is endorsed by NVLAP, TÜV, NEMKO and SRT.

- The NVLAP logo applies only to the applicable standards specified in this report.

1.2 TEST STATEMENT - The test results in the report apply only to the unit tested by SRT Lab.

- There was no deviation from the requirements of test standards during the test.

- AC power source, 230 VAC/50 Hz, was used during the test.

- The EN 61000-3-2 edition 2:2000 (Harmonic test) and EN 61000-3-3:1995 +A1:2001(Flicker test) are not included in the scope of NVLAP logo usage.

- The EN 61000-3-2 edition 2:2000 (Harmonic test) and EN 61000-3-3:1995 +A1:2001(Flicker test) are included in the scope of TÜV, NEMKO and SRT logo usage.

1.3 EUT MODIFICATION - No modification in SRT Lab.



2. DESCRIPTION OF EUT AND TEST MODE 2.1 GENERAL DESCRIPTION OF EUT

PRODUCT MEGA BOOK

MODEL NO. L720, MS-1035, L725, N1006, SIM 2050, MS-1047, N980, SIM 2040, MD95559, MD95597

POWER SUPPLY DC 3.3V, 410mA FREQUENCY BAND 2.4 ~ 2.4835 GHz NUMBER OF CHANNEL 14 CHANNEL SPACING 20MHz RATED RF OUTPUT POWER EIRP≤ 20 dBm I.F. & L.O. I.F.: 374 MHz; L.O.: 2730-2900MHz MODULATION TYPE CCK, DQPSK, DBPSK, OFDM BIT RATE OF TRANSMISSION 1Mbps DUTY CYCLE 10% MODE OF OPERATION duplex

BIT RATE/SPEED OF TRANSMISSION 11B: 1, 2, 5.5, 11Mbps; 11G: 6, 9, 12, 18, 24, 36, 48, 54Mbps

ANTENNA TYPE Dipole NOTE : For more detailed information, please refer to the EUT’s specification or user’s manual provided by manufacturer.

2.2 DESCRIPTION OF EUT INTERNAL DEVICE

DEVICE BRAND / MAKER MODEL REMARK



2.3 DESCRIPTION OF TEST MODE 13 channels are provided by EUT. The 3 channels of lower, medium and higher were chosen for test. There are test modes for each test configuration as below:

Mode Modulation Type Channel Frequency (MHz)1 CH1 2412 2 CH6 2442 3

IEEE 802.11g

OFDM

CH13 2472 4 CH1 2412 5 CH6 2442 6

IEEE 802.11b

CCK

CH13 2472 NOTE : 1. Below 1 GHz, the channel 1, 7 and 13 were pre-tested in chamber. The channel 13, worst case one,

was chosen for conducted and radiated emission test. 2. Above 1 GHz, the channel 1, 7 and 13 were tested individually

2.4 DESCRIPTION OF SUPPORT UNIT

The EUT was configured by the requirement of EN 55022:1998+A1:2000+A2:2003. All interface ports were connected to the appropriate support units via specific cables. The support units and cables are listed below. NO DEVICE BRAND MODEL CABLE

1 PRINTER HP N/A 1.5m unshielded power cord 1.5m shielded data cord

2 USB HD TeraSys F12-UF 1.5m unshielded data cord

3 LCD TV TECO N/A 1.5m shielded power cord

4 VGA SANGSUNG N/A 1.5m unshielded power cord 1.5m shielded data cord

5 Wireless AP PRISM NCP600 1.5m unshielded power cord

6 Mouse COMPAQ 62U4X 1.5m unshielded data cord

NOTE : For the actual test configuration, please refer to the photos of testing. 2.5 EUT OPERATING CONDITION 1. Under Windows XP ran “EMI TEST” program and PC sent "H" pattern or accessed the following peripherals directly or via EUT:

- Color Monitor - RS232 - Printer - FDD - HDD



3. DESCRIPTION OF APPLIED STANDARDS The EUT is a kind of wireless product. According to the specifications provided by the applicant, it must comply with the requirements of the following standards:

All tests have been performed and recorded as the above standards.

ETSI EN 300 328 V1.6.1:2004 EN 301 489-1 V1.5.1:2004 EN 301 489-17 V1.2.1:2002 - EN 55022:1998+A1:2000+A2:2003, Class B - EN 61000-3-2 edition 2:2000 - EN 61000-3-3:1995+A1:2001 - IEC 61000-4-2:1995+A1:1998+A2:2001 - IEC 61000-4-3:2002+A1:2002 - IEC 61000-4-4:1995+A1:2001+A2:2001 - IEC 61000-4-5:1995+A1:2001 - IEC 61000-4-6:1996+A1:2001 - IEC 61000-4-11:1994+A1:2001



4 TECHNICAL CHARACTERISTICS TEST FOR TRANSMITTER PART 4.1 EFFECTIVE RADIATED POWER 4.1.1 EFFECTIVE RADIATED POWER LIMIT

DSSS FHSS PK. 200mW(23dBm) 200mW(23dBm) AV. 100mW(20dBm) 100mW(20dBm)

Note: The “(dBm)’” was calculated from power(mW).

Formula: (0) dBm=10 log 1 mW 4.1.2 TEST EQUIPMENT The following test equipment was used for the test:

EQUIPMENT/ FACILITIES

SPECIFICATIONS MANUFACTURERMODEL#/ SERIAL#

DUE DATE OF CAL. & CAL. CENTER

TEMPERATURE & HUMIDITY CHAMBER

-70 to 180°C 0 to 100%

KSON THS-D4H+-150/ 1801

MAR. 2006 ETC

HORN ANTENNA 1GHz to 18GHz EMCO 3115/ 9012-3619

JAN. 2006 ETC


DEC. 2006 ETC

POWER METER N/A BOOTON 4232A/ 29001

MAY 2006 ETC

POWER SENSOR DC-18GHz 0.3 µW-100mW 50 Ω

BOOTON 51011EMC/ 31181

NOV. 2006 ETC

DETECTOR 2GHz-18GHz OMNIYIG DT9A4P/ 7917-0236

SEP. 2006 SRT

OSCILLOSCOPE 100MHz, 400V HP 54645A/ US39151317

APR. 2006 ETC

DC POWER SUPPLY 0 to 20Vdc 0 to 50A

LURICH RPS-1512MB/ 910054

Calibrated by multimeter

NOTE : The calibration interval of the above test equipment is one year and the calibrations are traceable to NML/ROC and NIST/USA.



4.1.3 TEST SETUP The EUT was placed on a turntable at a fully anechoic chamber (see configure below). It was adjusted to the maximum output power during the test.

The tested unit was stayed in a Temperature & Humidity chamber and supplied with a power source for extreme condition (see configure below). It was adjusted to the maximum output power during the test.

4.1.4 TEST PROCEDURE

Please refer to Subclause 5.7.2.1 and 5.7.2.2 of EN 300 328 V1.6.1:2004.

Temperature & Humidity Chamber Power meter

EUT

Power supply

DetectorOscilloscope

Power meter

DetectorOscilloscope



4.1.5 TEST RESULT

Temperature: 25°C Humidity: 56%RH Tested By: Nick Hsieh Tested Mode: IEEE 802.11g Tested Date: Nov. 20, 2005 Modulation Type: OFDM

CHANNEL

FREQUENCY(MHz)

CH1

2412MHZ

CH7

2442MHz

CH10

2457MHz CH13

2472MHz

Temperature

(°C)

Voltage

(V)

PK

(dBm)

AV

(dBm)

PK

(dBm)

AV

(dBm)

PK

(dBm)

AV

(dBm)

PK

(dBm)

AV

(dBm)

Norm 20 Norm 230 12.63 11.2 12.18 11.1 12.21 11.5 12.43 11.5

Low 207 12.72 11.4 12.77 11.4 12.22 11.6 12.33 11.7 Low 0

High 253 12.71 11.4 12.79 11.4 12.24 11.6 12.31 11.7

Low 207 12.56 11.4 12.62 11.4 12.03 11.1 12.21 11.1 High 55

High 253 12.51 11.4 12.60 11.4 12.08 11.2 12.12 11.1

Measurement uncertainty +/-1.5dB

Note: The duty cycle is 34%(x). Average power’s formula as follow:

Average power=P+10log(1/x)

P: power meter measurement value

X: Duty cycle



Temperature: 25°C Humidity: 56%RH Tested By: Nick Hsieh Tested Mode: IEEE 802.11b Tested Date: Nov. 20, 2005 Modulation Type: CCK

CHANNEL

FREQUENCY(MHz)

CH1

2412MHZ

CH7

2442MHz

CH10

2457MHz CH13

2472MHz

Temperature

(°C)

Voltage

(V)

PK

(dBm)

AV

(dBm)

PK

(dBm)

AV

(dBm)

PK

(dBm)

AV

(dBm)

PK

(dBm)

AV

(dBm)

Norm 20 Norm 230 15.26 14.2 15.56 14.5 15.67 14.5 15.2 14.2

Low 207 15.42 14.4 15.33 14.3 15.34 14.2 15.35 14.2 Low 0

High 253 15.44 14.5 15.34 14.3 15.44 14.2 15.37 14.2

Low 207 15.12 14.2 15.36 14.4 15.51 14.4 15.44 14.3 High 55

High 253 15.11 14.1 15.37 14.4 15.51 14.4 15.45 14.3

Measurement uncertainty +/-1.5dB

Note: The duty cycle is 34%(x). Average power’s formula as follow:

Average power=P+10log(1/x)

P: power meter measurement value

X: Duty cycle



4.2 PEAK POWER DENSITY

4.2.1 PEAK POWER DENSITY LIMIT

DSSS FHSS LIMIT 10mW/1MHz(10dBm/1MHz) 100mW/100kHz(20dBm/100kHz)

NOTE : The “(dBm)’” was calculated from power(mW). Formula: (0) dBm=10 log 1 mW

4.2.2 TEST EQUIPMENT The following test equipment was used for the test:




SPECTRUM 9KHz TO 26.5GHz HP 8953E/ 3710A03220

MAY 2006 ETC

HORN ANTENNA 1GHz TO 18GHz EMCO 3115/ 9012-3619

JAN. 2006 ETC


DEC. 2006 ETC

POWER METER N/A BOOTON 4232A/ 29001

MAY 2006 ETC

POWER SENSOR DC-18GHz 0.3 µW-100mW 50 Ω

BOOTON 51011EMC/ 31181

NOV. 2006 ETC

PRE-AMPLIFIER 1GHz-26.5GHz Gain:30dB

HP 8449B/ 3008A01019

NOV. 2006 ETC




4.2.3 TEST SETUP The tested unit was placed on the turntable at a fully anechoic chamber and supplied with nominated power source. It was adjusted to the maximum output power during the test.


Please refer to Subclause 5.7.3 of EN 300 328 V1.6.1:2004

Spectrum Power meter

IF OUTPUT



4.2.5 TEST RESULT

Temperature: 27°C Humidity: 56%RH Tested By: Nick Hsieh Tested Mode: IEEE 802.11g Tested Date: Nov. 20, 2005 Modulation Type: OFDM

CHANNEL FREQUENCY(MHZ)

POWER (dBm)/kHz Antenna

polarization Limit

(dBm/kHz) CH1: 2412MHz -3.58/1MHz H 10/1MHz

CH7: 2442MHz -3.30/1MHz H 10/1MHz

CH10: 2457MHz -3.22/1MHz H 10/1MHz

CH13: 2472MHz -3.44/1MHz H 10/1MHz

Measurement uncertainty

+/-3dB

Temperature: 27°C Humidity: 56%RH Tested By: Nick Hsieh Tested Mode: IEEE 802.11b Tested Date: Nov. 20, 2005 Modulation Type: CCK

CHANNEL FREQUENCY(MHZ)

POWER (dBm)/kHz Antenna

polarization Limit

(dBm/kHz) CH1: 2412MHz 2.22/1MHz H 10/1MHz CH7: 2442MHz 2.34/1MHz H 10/1MHz CH10: 2457MHz 2.17/1MHz H 10/1MHz CH13: 2472MHz 2.14/1MHz H 10/1MHz Measurement uncertainty

+/-3dB



4.3 FREQUENCY RANGE

4.3.1 FREQUENCY RANGE LIMIT

COUNTRY LIMIT (MHz)

European Union 2400~2483.5

FRANCE 2446.5~2483.5





SPECTRUM 9kHz-7GHz ROHDE & SCHWARZ

FSP7/ 839511/010

APR. 2006 R&S

TEMPERATURE & HUMIDITY CHAMBER

-70 to 180°C 0 to 100%

KSON THS-D4H+-150/ 1801

MAR. 2006 ETC

MULTIMETER N/A HP E2377A/ 2927J05810

AUG. 2006 ETC

DC POWER SUPPLY 0 to 20Vdc 0 to 50A

LURICH RPS-1512MB/ 910054

Calibrated by multimeter


4.3.3 TEST PROCEDURES Please refer to Subclause 5.7.4.2 of EN 300 328 V1.6.1:2004.



4.3.4 TEST SETUP The EUT was s placed on a turntable at a fully anechoic chamber (see configure below). It was adjusted to the maximum output power during the test.

Then tested unit was stayed in a Temperature & Humidity chamber and supplied with power source for extreme condition(see configure below). It was adjusted to the maximum output power during the test.

Temperature & Humidity Chamber

EUT

Receiver or Spectrum

Power supply

Spectrum



4.3.5 TEST RESULT Temperature: 26°C Humidity: 55%RH Tested By: Nick Hsieh Tested Mode: IEEE 802.11g Tested Date: Nov. 20, 2005 Modulation Type: OFDM For European Union: Temperature

(°C) Voltage

(V) Frequency lower(FL)

(MHz) Frequency higher(FH)

(MHz)

Norm 20 Norm 230 2402.12 2481.61

Low 207 2402.15 2481.33 Low 0

High 253 2402.42 2481.44

Low 207 2402.23 2481.28 High 35

High 253 2402.38 2481.87

Result 2402.12 2481.87

Measurement uncertainty +/- 1x10-5



Temperature: 25°C Humidity: 56%RH Tested By: Nick Hsieh Tested Mode: IEEE 802.11g Tested Date: Nov. 20, 2005 Modulation Type: OFDM For France: Temperature

(°C) Voltage



(MHz)

Norm 20 Norm 230 2447.34 2482.12

Low 207 2447.27 2482.10 Low 0

High 253 2447.14 2482.45

Low 207 2447.11 2482.34 High 35

High 253 2446.93 2482.32

Result 2446.93 2482.45




Temperature: 26°C Humidity: 55%RH Tested By: Nick Hsieh Tested Mode: IEEE 802.11b Tested Date: Nov. 20, 2005 Modulation Type: CCK For European Union: Temperature

(°C) Voltage



(MHz)

Norm 20 Norm 230 2402.23 2481.61

Low 207 2402.13 2481.33 Low 0

High 253 2402.48 2481.44

Low 207 2402.37 2481.28 High 35

High 253 2402.58 2481.87

Result 2402.13 2481.87




Temperature: 25°C Humidity: 56%RH Tested By: Nick Hsieh Tested Mode: IEEE 802.11b Tested Date: Nov. 20, 2005 Modulation Type: CCK For France: Temperature

(°C) Voltage



(MHz)

Norm 20 Norm 230 2447.74 2482.12

Low 207 2447.12 2482.10 Low 0

High 253 2447.04 2482.45

Low 207 2446.88 2482.34 High 35

High 253 2446.92 2482.32

Result 2446.88 2482.45




4.4 SPURIOUS EMISSION FROM TRANSMITTER 4.4.1 LIMIT Narrowband spurious emission:

Frequency Range Limit

in operating Limit

in standby 30MHz to 1GHz -36dBm -57dBm

Above 1GHz to 12.75GHz -30dBm -47dBm 1.8GHz to 1.9GHz

5.15GHz to 5.3GHz -47dBm -47dBm

Wideband spurious emission

Frequency Range Limit

in operating Limit

in standby 30MHz to 1GHz -86dBm/Hz -107dBm/Hz

Above 1GHz to 12.75GHz -80dBm/Hz -97dBm/Hz 1.8GHz to 1.9GHz 5.15GHz to 5.3GHz

-97dBm/Hz -97dBm/Hz

NOTE : For measuring emissions that exceed the level of 6 dB below the applicable limit, the

resolution bandwidth shall be switched to 30 kHz and the span shall be adjusted accordingly. If the level

does not change by more than 2 dB, it is a narrowband emission; the observed value shall be recorded

in the test report. If the level changes by more than 2 dB, the emission is a wideband emission and its

level shall be measured and recorded in the test report. The limit in standby mode is same as receiver

mode.







SPECTRUM 9kHz to 7GHz ROHDE & SCHWARZ

FSP7/ 839511/010

APR. 2006 ETC

SPECTRUM 9KHz-26.5GHz HP 8593E/ 3322A00670

APR. 2006 AGILENT


JAN. 2006 ETC

BI-LOG ANTENNA

26MHz to 2GHz EMCO 3142/ 9701-1124

FEB. 2006 SRT

PRE-AMPLIFIER 1GHz-26.5GHz Gain:30dB(typ.)

HP 8449B/ 3008A01019

NOV. 2006 ETC

PRE-AMPLIFIER 0.1MHz to1.3GHz HP 8447D/ 1937A02970

SEP. 2006 ETC




4.4.3 TEST SETUP The tested unit was placed on a turntable at an open area test site and supplied with nominated power source, when the emission frequency was tested lower than 1GHz (see configure below). It was adjusted to the maximum output power during the test. EMI Receiver

EUT

Ground Plane

3m

1.5 m

Coaxial

Cable

Turn Table

1m – 4m



The EUT was placed on a turntable at a fully anechoic chamber when the emission frequency was tested above 1GHz (see configure below). It was adjusted to the maximum output power during the test.


Please refer to Subclause 5.7.5 of EN 300 328 V1.6.1:2004.

Pre-amplifier Spectrum



4.4.5 TEST RESULT Temperature: 27°C Humidity: 56%RH Tested By: Nick Hsieh Tested Mode: IEEE 802.11g Tested Date: Nov. 20, 2005 Modulation Type: OFDM Tested Result: Pass Tested Channel: CH1: 2412MHz

Frequency (MHz)

Factor (dB)

Reading Antenna

Polarization

Level (dBm)

Limit (dBm)

175.5840 -6.70 -62.5 H -69.2 -36.0 451.4350 0.71 -67.6 H -66.9 -36.0 500.4350 1.38 -69.4 H -68.0 -36.0 600.3240 2.12 -68.3 H -66.2 -36.0 666.6667 4.06 -69.6 H -65.5 -36.0 931.2930 9.83 -72.7 H -62.9 -36.0 175.5825 -2.80 -65.4 V -68.2 -36.0 451.3220 1.99 -69.8 V -67.8 -36.0 500.3315 2.68 -68.2 V -65.5 -36.0 600.4240 3.92 -70.0 V -66.1 -36.0 666.6600 5.47 -70.2 V -64.7 -36.0 930.2940 12.02 -73.8 V -61.8 -36.0 2400.00 1.37 -57.4 H -56.0 -30.0 2393.20 1.01 -61.3 H -60.3 -30.0 2425.63 1.47 -57.8 H -56.3 -30.0 2400.00 0.67 -52.6 V -51.9 -30.0 2398.35 0.23 -51.7 V -51.5 -30.0 2427.80 0.78 -52.9 V -52.1 -30.0 4824.00 4.18 -70.6 H -66.4 -30.0 7236.00 7.63 -69.8 H -62.2 -30.0 4824.00 4.23 -68.3 V -64.1 -30.0 7236.00 8.32 -68.1 V -59.8 -30.0

Measurement uncertainty +/-6dB



Temperature: 27°C Humidity: 55%RH Tested By: Nick Hsieh Tested Mode: IEEE 802.11g Tested Date: Nov. 20, 2005 Modulation Type: OFDM Tested Result: Pass Tested Channel: CH7: 2442MHz

Frequency (MHz)

Factor (dB)

Reading Antenna

Polarization

Level (dBm)

Limit (dBm)





Temperature: 27°C Humidity: 55%RH Tested By: Nick Hsieh Tested Mode: IEEE 802.11g Tested Date: Nov. 20, 2005 Modulation Type: OFDM Tested Result: Pass Tested Channel: CH13: 2472MHz

Frequency (MHz)

Factor (dB)

Reading Antenna

Polarization

Level (dBm)

Limit (dBm)





Temperature: 27°C Humidity: 56%RH Tested By: Nick Hsieh Tested Mode: IEEE 802.11b Tested Date: Nov. 20, 2005 Modulation Type: CCK Tested Result: Pass Tested Channel: CH1: 2412MHz

Frequency (MHz)

Factor (dB)

Reading Antenna

Polarization

Level (dBm)

Limit (dBm)






Frequency (MHz)

Factor (dB)

Reading Antenna

Polarization

Level (dBm)

Limit (dBm)





5. TECHNICAL CHARACTERISTICS TEST FOR RECEIVER PART 5.1 RECEIVER SPURIOUS EMISSION 5.1.1 LIMIT Narrowband spurious emission:

Frequencies Range Limit 30MHz to 1GHz -57dBm

above 1GHz to 12.75GHz -47dBm Wideband spurious emission

Frequencies Range Limit 30MHz to 1GHz -107dBm/Hz

above 1GHz to 12.75GHz -97dBm/Hz NOTE : For measuring emissions that exceed the level of 6 dB below the applicable limit, the

resolution bandwidth shall be switched to 30 kHz and the span shall be adjusted accordingly. If the level

does not change by more than 2 dB, it is a narrowband emission; the observed value shall be recorded

in the test report. If the level changes by more than 2 dB, the emission is a wideband emission and its

level shall be measured and recorded in the test report.





SPECTRUM 9kHz to 7GHz ROHDE & SCHWARZ

FSP7/ 839511/010

APR. 2006 ETC

SPECTRUM 9KHz-26.5GHz HP 8593E/ 3322A00670

APR. 2006 ETC


JAN. 2006 ETC

BI-LOG ANTENNA

26MHz to 2GHz EMCO 3142/ 9701-1124

FEB. 2006 SRT

PRE-AMPLIFIER 1GHz-26.5GHz Gain:30dB(typ.)

HP 8449B/ 3008A01019

NOV. 2006 ETC

PRE-AMPLIFIER 0.1MHz to1.3GHz HP 8447D/ 1937A02970

SEP. 2005 ETC

NOTE : The calibration interval of the above test equipment is one year and the calibrations are

traceable




Please refer to Subclause 5.7.6 of EN 300 328 V1.6.1:2004. 5.1.4 TEST SETUP The tested unit was placed on a turntable at an open area test site and supplied with nominated power source, when the emission frequency was tested lower than 1GHz (see configure below). It was adjusted to the maximum output power during the test. EMI Receiver

EUT

Ground Plane

3m

1.5 m

Coaxial

Cable

Turn Table

1m – 4m



The EUT was placed on a turntable at a fully anechoic chamber when the emission frequency was tested above 1GHz (see configure below). It was adjusted to the maximum output power during the test.

Spectrum Power meter



5.1.5 TEST RESULT Temperature: 27°C Humidity: 56%RH Tested By: Nick Hsieh Tested Mode: RX Tested Result: Pass Tested Date: Nov. 20, 2005

Frequency (MHz)

Factor (dB)

Reading Antenna

Polarization

Level (dBm)

Limit (dBm)

175.5840 -6.70 -62.5 H -69.2 -57.0 451.4350 0.71 -67.6 H -66.9 -57.0 500.4350 1.38 -69.4 H -68.0 -57.0 600.3240 2.12 -68.3 H -66.2 -57.0 666.6667 4.06 -69.6 H -65.5 -57.0 931.2930 9.83 -72.7 H -62.9 -57.0 175.5825 -2.80 -65.4 V -68.2 -57.0 451.3220 1.99 -69.8 V -67.8 -57.0 500.3315 2.68 -68.2 V -65.5 -57.0 600.4240 3.92 -70.0 V -66.1 -57.0 666.6600 5.47 -70.2 V -64.7 -57.0 930.2940 12.02 -73.8 V -61.8 -57.0




6. ELECTROMAGNETIC COMPATIBILITY (EMC) TEST 6.1 CONDUCTED EMISSION TEST FOR POWER PORT 6.1.1 LIMIT

Class A (dBµV) Class B (dBµV) Frequency (MHz) Quasi-peak Average Quasi-peak Average 0.15 - 0.5 79 66 66 - 56 56 - 46 0.50 - 5.0 73 60 56 46 5.0 - 30.0 73 60 60 50

NOTE :

1. The lower limit shall apply at the transition frequencies.

2. The limit decreases in line with the logarithm of the frequency in the range of 0.15 to 0.50 MHz.





EMI TEST RECEIVER

9 kHz TO 2750 MHz

ROHDE & SCHWARZ

ESCS30/ 830245/012

OCT. 2006 ETC

LISN (for EUT) 50 µH, 50 ohm FCC FCC-LISN-50-25-2 / 01017

NOV. 2006 ETC

LISN (for Peripheral) 50µH, 50 ohm FCC FCC-LISN-50-25-2

/ 01018 NOV. 2006 ETC

50 ohm TERMINATOR

50 ohm HP 11593A/ 4

MAR. 2006 ETC

COAXIAL CABLE

3m SUNCITY J400/ 3M

AUG. 2006 SRT

ISOLATION TRANSFORMER

N/A APC AFC-11015/ F102040016

N/A

FILTER 2 LINE, 30A FIL.COIL FC-943/ 771

N/A

GROUND PLANE 2.3M (H) x 2.4M (W)

SRT N/A N/A

GROUND PLANE 2.4M (H) x 2.4M (W)

SRT N/A N/A

NOTE: The calibration interval of the above test equipment is one year and the calibrations are traceable to NML/ROC and NIST/USA.




According to EN 55022:1998+A1:2000+A2:2003, EN 301 489-17 V1.2.1:2002.

6.1.4 TEST SETUP

NOTE: 1. The EUT was put on a wooden table with 0.8m heights above ground plane, and 0.4m away from reference ground plane (> 2mx2m). 2. For the actual test configuration, please refer to the photos of testing. 3. The serial no. of the LISN connected to EUT is 01017. 4. The serial no. of the LISN connected to support units is 01018.

Isolation Transformer

Filter LISN

LISN

EUT

Support Units

EMI TEST Receiver

To Utility

Power

Coaxial Cable



6.1.5 TEST RESULT Temperature: 26 °C Humidity: 50 %RH Ferquency Range: 0.15 – 30 MHz Tested Mode: IEEE 802.11g Receiver Detector: Q.P. and AV. Modulation Type: OFDM Tested By: Nick Hsieh Tested Date: Nov. 20, 2005

Power Line Measured : Line

Reading Value(dBµV)

Emission Level(dBµV)

Limit (dBµV)

Margin (dB)

Freq. (MHz)

Correct. Factor (dB) Q.P. AV. Q.P. AV. Q.P. AV. Q.P. AV.

0.471 0.25 27.98 25.79 28.23 26.04 56.48 46.48 -28.25 -20.441.172 0.14 27.56 18.90 27.70 19.04 56.00 46.00 -28.30 -26.964.526 0.21 24.10 16.10 24.31 16.31 56.00 46.00 -31.69 -29.694.606 0.21 25.84 17.90 26.05 18.11 56.00 46.00 -29.95 -27.895.000 0.22 30.12 24.99 30.34 25.21 56.00 46.00 -25.66 -20.795.081 0.22 35.16 32.15 35.38 32.37 60.00 50.00 -24.62 -17.63

Power Line Measured : Neutral



Limit (dBµV)

Margin (dB)

Freq. (MHz)


0.243 0.28 34.82 32.03 35.10 32.31 61.98 51.98 -26.87 -19.661.172 0.14 33.10 32.29 33.24 32.43 56.00 46.00 -22.76 -13.574.150 0.20 36.74 34.30 36.94 34.50 56.00 46.00 -19.06 -11.504.229 0.20 37.86 36.63 38.06 36.83 56.00 46.00 -17.94 -9.175.010 0.22 33.80 28.77 34.02 28.99 60.00 50.00 -25.98 -21.015.091 0.22 38.20 36.59 38.42 36.81 60.00 50.00 -21.58 -13.19

NOTE :

1. Measurement uncertainty is +/-1.32dB 2. Emission level = Reading valus + Correction factor 3. Correction Factor = Cable loss + Insertion loss of LISN 4. Margin value = Emission level - Limit 5. The emission of other frequencies were very low against the limit. 6. "-": The Quasi-peak reading value also meets average limit and measurement with the average detector is unnecessary.



Temperature: 26 °C Humidity: 50 %RH Ferquency Range: 0.15 – 30 MHz Tested Mode: IEEE 802.11b Receiver Detector: Q.P. and AV. Modulation Type: CCK Tested By: Nick Hsieh Tested Date: Nov. 20, 2005

Power Line Measured : Line



Limit (dBµV)

Margin (dB)

Freq. (MHz)


0.150 0.30 46.08 33.50 46.38 33.80 65.98 55.98 -19.60 -22.180.153 0.30 45.50 33.11 45.80 33.41 65.82 55.82 -20.02 -22.411.018 0.14 33.98 21.40 34.12 21.54 56.00 46.00 -21.88 -24.464.229 0.20 34.64 22.06 34.84 22.26 56.00 46.00 -21.16 -23.744.309 0.21 35.94 23.36 36.15 23.57 56.00 46.00 -19.85 -22.435.010 0.22 25.92 13.34 26.14 13.56 60.00 50.00 -33.86 -36.44

Power Line Measured : Neutral



Limit (dBµV)

Margin (dB)

Freq. (MHz)


0.153 0.30 45.76 33.18 46.06 33.48 65.82 55.82 -19.76 -22.340.156 0.30 44.32 33.72 44.62 34.02 65.66 55.66 -21.04 -21.640.500 0.24 33.04 16.75 33.28 16.99 55.98 45.98 -22.71 -29.004.160 0.20 32.98 29.13 33.18 29.33 56.00 46.00 -22.82 -16.674.863 0.22 25.50 19.19 25.72 19.41 56.00 46.00 -30.28 -26.595.102 0.22 30.42 25.61 30.64 25.83 60.00 50.00 -29.36 -24.17

NOTE :

1. Measurement uncertainty is +/-1.32dB 2. Emission level = Reading valus + Correction factor 3. Correction Factor = Cable loss + Insertion loss of LISN 4. Margin value = Emission level - Limit 5. The emission of other frequencies were very low against the limit. 6. "-": The Quasi-peak reading value also meets average limit and measurement with the average detector is unnecessary.



7. ELECTROSTATIC DISCHARGE

7.1 TEST EQUIPMENT

EQUIPMENT / FACILITIES

MANUFACTURERMODEL # / SERIAL #


ESD SIMULATOR NOISEKEN ESS-100L(A)/TC-815P/ 8099C02238/7099C02

OCT. 2006 ETC

HCP (1.6M x 0.8M) SRT WITH TWO 470k OHM CABLE

N/A

VCP (0.5M x 0.5M) SRT WITH TWO 470k OHM CABLE

N/A

GROUND PLANE (3.4M x 2.4M)

SRT N/A N/A


7.2 TEST PROCEDURE

According to IEC/EN 61000-4-2:1995+A1:1998+A2:2001, EN 301 489-3 V1.4.1:2002.



7.3 TEST SET-UP

NOTE : 1. The wooden table should be 0.8m high for table top EUT and 01.m for floor-standing EUT. 2. For the actual test configuration, please refer to the photos of testing. 3. A distance of 1m minimum was provided between EUT and walls / other metallic structure.

Insulating Support

ESD Gun

Return

Cable

EUT System

Vertical Coupling Plane

Ground Reference Plane

Horizontal Coupling

Plane

Wooden Table

470kΩ

470kΩ

10 cm



7.4 TEST CONDITION AND PERFORMANCE

1. Test condition: (1) R-C Network: 330ohm, 150pF (2) Test level: Air Discharge: ±2kV, ±4kV, ±8kV

Contact discharge: ±2kV, ±4kV Hcp discharge : ±2kV, ±4kV Vcp discharge : ±2kV, ±4kV

(3) Discharge mode : Single discharge (4) Discharge period: at least 1 second (5) Discharge polarity : Postive and Negative (6) Number of discharge: Minimum 50 times at each test point of contact

disdarge and at least 200 times of contact discharge to EUT in total. Minimum 10 times at each test area of air discharge selected.

2. Standard requirement: Criterion B

7.5 GENERAL PERFORMANCE CRITERIA DESCRIPTION

CLASSIFICATION OF SRD EQUIPMET Class of SRD

equipment Risk assessment of receiver performance

1 Highly reliable SRD communication media; e.g. serving human life inherent systems(may result in a physical risk to a person)

2 Medium reliable SRD communication media; e.g. causing inconvenience to persons, which cannot simply be overcome by other means.

3 Standard reliable SRD communication media; e.g. inconvenience to persons, which can simply be overcome by other means (e.g. manual)



The Requirement of Performance Criteria

1

Performance criteria for continuous phenomena applied to transmitters (CT)

Criterion A of the applicable class shall apply

2 Performance criteria for transient phenomena applied to transmitters (TT)

Criterion B of the applicable class shall apply

3 Performance criteria for continuous phenomena applied to receivers (CR)


4 Performance criteria for transient phenomena applied to receivers (TR)


The phenomena allowed during and after test in each criterion are clearly stated in the following table

Class 1 SRD equipment

Criteria During test After test

A

Operate as intended. No loss of function. For equipment type II the minimum performance shall be 12dB SINAD No unintentional responses

Operate as intended. For equipment type II the communication link shall be maintained No loss of function No degradation of performance No loss of stored data or user programmable functions

B

May be loss of function (one or more)No unintentional responses

Operate as intended Lost function(s) shall be self-recoverable No degradation of performance No loss of stored data or user programmable functions





A



B May be loss of function (one or more)No unintentional responses




A and B May be loss of function (one or more)No unintentional responses

Operate as intended, for equipment type II the communication link may be lost, but shall be recoverable by user No degradation of performance Lost functions shall be self-recoverable



7.6 TEST RESULT

Temperature: 25 °C Humidity: 55% RH Tested Mode: NB+VGA Tested By: Nick Hsieh Atmospheric Air Pressure: 101.2 kPa Tested Date: Nov. 21, 2005

Test Result: Criterion A pass COUPLING MODE & TEST OBSERVATION SEVERITY

LEVEL AIR DISCHARGE

CONTACT DISCHARGE HCP VCP

±2kV A A A A

±4kV A A A A

±8kV A NR NR NR NOTE: Description of test observation: A: There was no change compared with initial operation during the test. NR: No requirement Description of test points:

1. HCP 2. VCP 3. Seams of Left 4. Seams of Right 5. Seams of Front 6. Seams of Rear 7. Seams of LED 8. USB Ports 9. PCMCIA 10. VGA Ports 11. S Video Ports 12. Seams of Power Switch



8. RADIATED IMMUNITY TEST

8.1 TEST EQUIPMENT

EQUIPMENT / FACILITIES MANUFACTURER MODEL # /

SERIAL # DUE DATE OF CAL.

& CAL. CENTER SIGNAL GENERATOR HP 8648D/

3847M00637 MAY 2006 ETC

ANTENNA SCHAFFNER CHASE

CBL6111 / 1188

SEP. 2006 SRT

FIELD SENSOR AMPLIFIER RESEARCH

FP2000/ 28499

DEC. 2006 ETC

POWER AMPLIFIER

AMPLIFIER RESEARCH

100W1000M1/ 19509

MAY 2006 ETC

AMPLIFIER A.R. 50S1G4A/ 308703

MAY 2006 ETC

DUAL DIRECTIONAL COUPLER A.R. DC7420 /

308626 MAR. 2006 ETC.

ISOTROPIC“E” FIELD PROBE A.R. FP4080 KIT MAR. 2006

A.R.

POWER SENSOR BOONTON 51011EMC / 31181 NOV. 2006 ETC

POWER SENSOR BOONTON 51011EMC / 31184 AUG. 2006 ETC

DUAL DIRECTIONAL COUPLER A.R. DC6080 /

310289 NOV. 2006 ETC

ANECHOIC CHAMBER SRT A05/

SRT005 OCT. 2006 SRT

V/M MONITOR A.R. FM2000/ 15970 N/A

MONITOR SHIN SI-609/ 905130 N/A

CCD TOPVIEW N/A/ 95113762 N/A

ABSORBER ETS N/A N/A

COAXIAL CABLE

SUNCITY J400/ 30CM

APR. 2006 SRT

COAXIAL CABLE

TIME LMR-400/ 4M

APR. 2006 SRT




8.2 TEST PROCEDURE According to IEC/EN 61000-4-3:2002+A1:2002, EN 301 489-3 V1.4.1:2002. 8.3 TEST SETUP NOTE : 1. The wooden table should be 0.8m high for table top EUT and 0.1m for floor-standing EUT. 2. For the actual test configuration, please refer to the photos of testing. 1.1m door balun to Absorber/Tile

Ant. 2.75m Absorber Location 1.5m 2.2m 1.85m 0.24m chamber (7m x 3m x 3m)

Absorber

Optical Fiber

Coaxial Cable

Power

Amplifier Signal Generator

V/M

MonitorMonitor

3 m

Sensor

Wooden

table

EUTCCD

Absorber

1.5m

0.8 m



8.4 TEST CONDITION 1. Test condition

(1) Source voltage and frequency : 230V/50Hz, single phase (2) Sweeping frequency : 80MHz – 1GHz

1.4GHz – 2GHz (3) Test level : 3V/m, the frequncy step is 10% (4) The four sides of EUT are tested : front, rear, left, right (5) Modulation : 80%AM, 1kHz Dwell time for each

frequency at least 3sec.. (6) Standard requirement : Criterion A

8.5 GENERAL PERFORMANCE CRITERIA DESCRIPTION

The Requirement of Performance Criteria

1

Performance criteria for continuous phenomena applied to transmitters (CT)


2 Performance criteria for transient phenomena applied to transmitters (TT)


3 Performance criteria for continuous phenomena applied to receivers (CR)


4 Performance criteria for transient phenomena applied to receivers (TR)




The phenomena allowed during and after test in each criterion are clearly stated in the following table



A



B

May be loss of function (one or more)No unintentional responses




A



B May be loss of function (one or more)No unintentional responses






A and B May be loss of function (one or more)No unintentional responses

Operate as intended, for equipment type II the communication link may be lost, but shall be recoverable by user No degradation of performance Lost functions shall be self-recoverable

8.6 TEST RESULT

Temperature: 24 °C Humidity: 58% RH Tested Mode: NB+VGA Tested By: Nick Hsieh Tested Date: Nov. 25, 2005 Test Result : Criterion A pass

FREQUENCY LEVEL MODULATION DIRECTION TEST RESULT(CRITERION)

80MHz – 1GHz 3V/m 80%AM, 1kHz FRONT A

80MHz – 1GHz 3V/m 80%AM, 1kHz REAR A

80MHz – 1GHz 3V/m 80%AM, 1kHz LEFT A

80MHz – 1GHz 3V/m 80%AM, 1kHz RIGHT A

1.4GHz – 2GHz 3V/m 80%AM, 1kHz FRONT A

1.4GHz – 2GHz 3V/m 80%AM, 1kHz REAR A

1.4GHz – 2GHz 3V/m 80%AM, 1kHz LEFT A

1.4GHz – 2GHz 3V/m 80%AM, 1kHz RIGHT A NOTE: Description of test observation: A: There was no change compared with initial operation during the test.



9. ELECTRICAL FAST TRANSIENT / BURST IMMUNITY TEST 9.1 TEST EQUIPMENT


MANUFACTURER MODEL # / SERIAL #

DUE DATE OF CAL &CAL CENTER

EFT GENERATOR HAEFELY PEFT-JUNIOR / 583-333-122

APR. 2006 ETC

CLAMP HAEFELY TRENCH / 080421-12

N/A

GROUND PLANE 2M x 3M

SRT N/A N/A

9.2 TEST PROCEDURE According to IEC/EN 61000-4-4:1995+A1:2001+A2:2001, EN 301 489-3 V1.4.1:2002.



9.3 TEST SET-UP

NOTE : 1. The EUT system was put on a wooden table with 0.8m heights for table top EUT and 0.1m for floor-standing EUT above ground reference plane. 2. For the actual test configuration, please refer to the photos of testing. 3. The minimum distance between the EUT and all other conductive structure was more than 0.5m. 4. The minimum distance between the coupling plates of the coupling clamps (if used) and all over conductive structures, except the ground plane beneath the coupling clamp and beneath the EUT was more than 0.5m. 5. The power cable connecting EUT was controlled under 1m.

Auxiliary

Equipment

Auxiliary

Equipment

Clamp

EUT

Power

EFT Wave

Generator I/O and communication ports

Auxiliary

Equipment

Load EUT EFT Wave

Generator Power Cable

Power supply ports



9.4 TEST CONDITION/PERFORMANCE CRITERIA 1. Test condition

(1) Source voltage and frequency : 230V/50Hz, single phase (2) Pulse risetime and duration : 5ns / 50ns (3) Pulse repetition : 5kHz (4) Polarity : Positive Polarization and Negative

Polarization (5) Burst duration and period : 15ms / 300ms (6) Test duration : 61sec each line (7) Time between test : 10Sec (8) Severity levels : Power Line ±1kV

Signal/Control Line ±0.5kV (9) Standard requirement : Criterion B

2. Performance criterion (1) Criterion A : Normal performance during test (2) Criterion B : Temporary degradation or loss of function or

performance which is self-recoverable. (3) Criterion C : Temporary degradation or loss of function

or performance which requires operator intervention system reset.

9.5 SUMMARY OF TEST RESULT Temperature: 24 °C Humidity: 58% RH Tested Mode: NB+VGA Tested By: Nick Hsieh Atmospheric Air Pressure: 101.2 kPa Tested Date: Nov. 23, 2005 Test Result : Criterion A pass

Voltage 0.5kV 1kV Polarity + - + -

L1 A A A A

L2 A A A A

GND N/A N/A N/A N/A Test

Result Signal/Control

Line N/A N/A N/A N/A

NOTE: Description of test observation: A: There was no change compared with initial operation during the test. N/A: Not applicable, as the signal/control line used in typical is less than 3 m.



10. SURGE TEST (POWER LINE)

10.1 TEST EQUIPMENT



& CAL. CENTER SURGE TEST (System Mainframe)

SCHAFFNER NSG 2050 / 199904-057SC

JUL. 2006 SCHAFFNER

SURGE TEST (Impulse Network)

SCHAFFNER PNW 2050 / 256

JUN. 2006 SCHAFFNER

SURGE TEST (Pulse Coupling Network)

SCHAFFNER CDN 131/133 / 520

JUL. 2006 SCHAFFNER

10.2 TEST PROCEDURE

According to IEC/EN 61000-4-5:1995+A1:2001, EN 301 489-3 V1.4.1:2002.

10.3 TEST SET-UP

NOTE : 1. The EUT system was put on a wooden table with 0.8m heights above ground reference plane. 2. For the actual test configuration, please refer to the photos of testing.


Same as section 2.2 of this report.

10.5 EUT OPERATING CONDITION


Auxiliary

Equipment SURGE

GENERATOREUT



10.6 TEST CONDITION / PERFORMANCE CRITERIA

1. Test condition (1) Test level : Common mode : ±0.5kV, ±1kV, ±2kV

Differential mode : ±0.25kV, ±0.5kV, ±1kV (2) Number of Pulse : 5 (3) Phase : 0°, 90°, 180°, 270° (4) Polarity : Positive and Negative polarization (5) Repetition : 60 s (6) Waveform : 1.2/50 µs (open circuit) (7) Standard requirement : Criterion B

2. Performance criterion (1) Criterion A : Normal performance during test (2) Criterion B : Temporary degradation or loss of function

or performance which is self-recoverable (3) Criterion C : Temporary degradation or loss of function

or performance which requires operator intervention system reset

10.7 SUMMARY OF TEST RESULT

Temperature: 24 °C Humidity: 58% RH Test Mode: NB+VGA Tested By: Nick Hsieh Atmospheric Air Pressure: 101.2 kPa Tested Date: Nov. 21, 2005 Test Result : Criterion A pass

Phase Mode Coupling Voltage 0° 90° 180° 270°

+/-0.5kV N/A N/A N/A N/A

+/-1kV N/A N/A N/A N/ACommon L + PE N + PE

+/-2kV N/A N/A N/A N/A+/-0.25kV A A A A

+/-0.5kV A A A A Differential L + N

+/-1kV A A A A NOTE: Description of test observation: A: There was no change compared with initial operation during the test. N/A: Not applicable.



11. INDUCED RF FIELDS (CONDUCTED SUSCEPTIBILITY) TEST 11.1 TEST EQUIPMENT



& CAL. CENTER

FINAL TEST BE

USED EM INJECTION CLAMP FCC F-203I-23mm/

110 MAY 2006 ETC

POWER LINE CDN FCC FCC-801-M5-32A/ 9812

MAY 2006 ETC


MAY 2006 ETC

SIGNAL LINE CDN FCC FCC-801-T2/ 9830

MAY 2006 ETC


MAY 2006 ETC


AUG 2006 ETC


OCT. 2005 ETC V

SIGNAL GENERATOR R&S SMY01

841104/019 JUN. 2006 ETC V

POWER AMPLIFIER A.R. 150A100A/ 19553

OCT. 2005 ETC V

DUAL DIRECTION COULPER A.R. DC2600/

25893 SEP. 2005 ETC V

POWER METER BOONTPN 4232A/ 105302

NOV. 2006 ETC V

POWER METER BOONTPN 51011EMC / 31181 NOV. 2006 ETC V

POWER METER BOONTPN 51011EMC / 31745 NOV. 2006 ETC V

SIGNAL LINE CDN FCC FCC-801-S25/ 9845

MAY 2006 ETC V


MAY 2006 ETC V

T2 EM-TEST ATT6/75/ 1001-40 N/A V

COAXIAL CABLE ALPHA RG-214/U/ # 1M

AUG. 2006 SRT

V

COAXIAL CABLE TIME LMR-400 / # 2M

AUG. 2006 SRT

V

COAXIAL CABLE TIME LMR-400 / 2M

AUG. 2006 SRT

V

11.2 TEST PROCEDURE According to IEC/EN 61000-4-6:2004, EN 301 489-3 V1.4.1:2002.



11.3 TEST SET-UP (1) For CDN injection : (2) For Clamp injection : NOTE : 1. The EUT system was put on a wooden table with 0.1m heights above ground. 2. For the actual test configuration, please refer to the photos of testing. 3. The distance between CDN(Clamp) and EUT was controlled between 0.1m and 0.3m. 4. The model no. of the CDN connected to EUT is FCC-801-M3-32A.

Power

Amplifier

CDN T2

EUT

Auxiliary Equipment

SIGNAL

GENERATOR

Coaxial

Cable

SIGNAL

GENERATOR

Power

AmplifierT2 Injection

Clamp

Monitoring Probe

EUT

Auxiliary Equipment

Receiver

Coaxial

Cable



11.4 TEST CONDITION / PERFORMANCE CRITERIA 1. Test condition

(1) Source voltage and frequency : 230 V/ 50 Hz, single phase (2) Sweeping frequency : 150 kHz – 80 MHz (3) Test level : 3 V, the frequency step is 1% (4) Modulation : AM 80%, 1 kHz (5) Dwell time for each frequency : 3 sec (6) Standard requirement : Criterion A

2. Performance criterion (1) Criterion A : Normal performance during test (2) Criterion B : Temporary degradation or loss of function

or performance which is self-recoverable (3) Criterion C : Temporary degradation or loss of function

or performance which requires operator intervention system reset

11.5 SUMMARY OF TEST RESULT Temperature: 24°C Humidity: 58% RH Tested Mode: NB+VGA Tested By: Nick Hsieh Tested Result : Criterion A pass Tested Date: Nov. 22, 2005

NOTE: Description of test observation: A: There was no change compared with initial operation during the test.

FREQUENCY LEVEL MODULATION INJECTION METHOD

TEST RESULT (CRITERION)

150kHz - 80MHz 3V 80% AM, 1 kHz M3 A



12. VOLTAGE DIPS, INTERRUPTS, VARIATIONS TEST

12.1 TEST EQUIPMENT


MANUFACTURER MODEL # / SERIAL #

DUE DATE OF CAL.& CAL. CENTER

INTERFERENCE SIMULATOR

HAEFELY PLINE 1610/ 083-732-05

JAN. 2006 HAEFELY

12.2 TEST PROCEDURE

According to IEC/EN 61000-4-11:1994+A1:2001, EN 301 489-3 V1.4.1:2002.

13.3 TEST SET-UP

NOTE : 1. The EUT system was put on a wooden table with 0.8m heights above ground. 2. For the actual test configuration, please refer to the photos of testing.



12.5 EUT OPERATING CONDITION


Frequency

Converter

Interference

Simulator EUT Auxiliary Equipment

Power cable



12.6 TEST CONDITION / PERFORMANCE CRITERIA

1. Test condition (1) Source voltage and frequency : 230V/50Hz, single phase (2) Test level : Dip depth 30%, 0.5 period

60%, 5 period Interrupt 95%, 250 period

(3) Phase : 0°, 180° (4) Test duration : 2min each phase (5) Time between test : 10 sec (6) Standard requirement : Dip 30% : Criterion B;

Dip 60% : Criterion C; Interrupt > 95%: Criterion C

2. Performance criterion

(1) Criterion A : Normal performance during test (2) Criterion B : Temporary degradation or loss of function

or performance which is self-recoverable. (3) Criterion C : Temporary degradation or loss of function

or performance which requires operator intervention system reset.

12.7 SUMMARY OF TEST RESULT

Temperature: 24°C Humidity: 58% RH Test Mode: NB+VGA Tested By: Nick Hsieh Tested Date: Nov. 21, 2005 Tested Result :

NOTE: 1. The power voltage range: 100 V to 240V range 140V is 140% of the lowest voltage or the power

voltage is 230 V. 2. Description of test observation:

A: There was no change compared with initial operation during the test. 3.The frequency of source: 50Hz

AC POWER

DIP DEPTH INTERVAL DIP TIME TEST TIME PHASE

TEST RESULT

(Criterion) 0° A 30% 10 sec 0.5 period 2 min

180° A 0° A 60% 10 sec 5 period 2 min

180° A 0° A

230V/50Hz

95% (interrupt) 10 sec 250 period 2 min

180° A



13. PHOTOS OF TESTING - Conducted test (power port)



- Radiated test: Below 1GHz



- Radiated test: Above 1GHz



Electrostatic discharge immunity test

- Electrical fast transient / burst immunity test



- Inducted RF fields (conducted susceptibility) test

-Surge test (Power Line)



- Radiated immunity test



- Voltage dips, interrupts, variations test



14. TERMS OF ABRIVATION AV. Average detection AZ(°) Turn table azimuth Correct. Correction EL(m) Antenna height (meter) EUT Equipment Under Test Horiz. Horizontal direction LISN Line Impedance Stabilization Network NSA Normalized Site Attenuation Q.P. Quasi-peak detection SRT Lab Spectrum Research & Testing Laboratory, Inc. Vert. Vertical direction

spectrum research - faenl.msi.comfaenl.msi.com/ftp/ce documents/notebook/archive/ms-1035(l725)/wlan...

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