NEI ETSP 2 0909C206

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Neutron Engineering Inc.

EN 62311 TEST REPORT
Issued Date
Report No.
Equipment
Model Name
Applicant
Address

:
:
:
:
:
:

Jan. 19, 2010
0909C206
3G Portable Router with Battery
3G-6210N; 3G-210N
EDIMAX TECHNOLOGY CO., LTD.
No. 3, Wu Chuan 3rd Road, Wu-Ku
Industrial Park. Taipei Hsien, Taiwan

Tested by:
Neutron Engineering Inc. EMC Laboratory
Date of Test:
Nov. 13, 2009 ~ Nov. 24, 2009

Testing Engineer

:
(Rush Kao)

Technical Manager

:
(Jeff Yang)

Authorized Signatory :
(Andy Chiu)

Neutron Engineering Inc.
B1, No. 37, Lane 365, YangGuang St.,
NeiHu District 114, Taipei, Taiwan.
TEL: +886-2-2657-3299
FAX: +886-2-2657-3331

Report No.: NEI-ETSP-2-0909C206

Page 1 of 6

Neutron Engineering Inc.

1. CERTIFICATION
Equipment :
Brand Name :
Model Name :
Applicant :
Date of Test :
St a n d a r d s :

3G Portable Router with Battery
EDIMAX
3G-6210N; 3G-210N
EDIMAX TECHNOLOGY CO., LTD.
Nov. 13, 2009 ~ Nov. 24, 2009
EN 62311:2008

The above equipment has been tested and found compliance with the requirement of the relative
standards by Neutron Engineering Inc. EMC Laboratory.
The test data, data evaluation, and equipment configuration contained in our test report (Ref No.
NEI-ETSP-2-0909C206) were obtained utilizing the test procedures, test instruments, test sites
that has been accredited by the Authority of NVLAP and TAF according to the ISO-17025 quality
assessment standard and technical standard(s).

Report No.: NEI-ETSP-2-0909C206

Page 2 of 6

Neutron Engineering Inc.
2. GENERAL INFORMATION
2.1 GENERAL DESCRIPTION OF EUT

Equipment

3G Portable Router with Battery

Trade Name

EDIMAX

3G-6210N; 3G-210N
OEM Brand/Model Name Airlive/Traveler 3G
Intellinet/524803
PCI/ CQW-MRB
Models’ differences between each other only the changes of
model name which do not affect the EMI performance.
Model Difference
Model 3G-6210N was used for final testing and collecting
test data included in this report.
The EUT is 3G Portable Router with Battery.
Operation Frequency: 2412~2472 MHz
Modulation Type:
802.11b:CCK, DQPSK, DBPSK
802.11g:OFDM
802.11n:OFDM( 1 TX & 1 RX )
Bit Rate of Transmitter: 802.11b:
11/5.5/2/1 Mbps
802.11g:
54/48/36/24/18/12/9/6 Mbps
802.11n up to +150 Mbps
Number
Of
Channel
Please see Note 2.
Product Description
Antenna Designation: Please see Note 3.
Antenna Gain(Peak) Please see Note 3.
EIRP Power:
802.11b: 19.48 dBm (Max.)
802.11g: 19.59 dBm (Max.)
802.11n(20MHz): 19.63 dBm (Max.)
802.11n(40MHz): 19.71 dBm (Max.)
Based on the application, features, or specification exhibited
in User's Manual, the EUT is considered as an
ITE/Computing Device. More details of EUT technical
specification, please refer to the User's Manual.
Battery supplied & DC Voltage supplied from AC/DC adapter.
Power Source
Battery: DC 3.7V, 1800mAh, 6.7Wh
AC/DC adapter:
Power Rating
I/P: AC 100-240V~300mA, 50-60Hz, 21-28VA / O/P: DC 5V,
2A MAX.
Connecting I/O Port(s)
Please refer to the User's Manual
Battery: TPZLIB-100
Products Covered
AC/DC adapter: PSAA10R-050(ED)-R
Model Name

Note :
1. For a more detailed features description, please refer to the manufacturer’s specifications or
the User's Manual.

Report No.: NEI-ETSP-2-0909C206

Page 3 of 6

Neutron Engineering Inc.
2. CH 01 – CH 13 for 802.11b, 802.11g, 802.11n(20MHz)
CH 03 – CH 11 for 802.11n(40MHz)
Channel List
Frequency
Frequency
Channel
Channel
(MHz)
(MHz)
01
2412
06
2437
02
2417
07
2442
03
2422
08
2447
04
2427
09
2452
05
2432
10
2457

3. Table for Filed Antenna
Ant.
Brand
Model Name
1

N/A

Report No.: NEI-ETSP-2-0909C206

N/A

Channel
11
12
13

Frequency
(MHz)
2462
2467
2472

Antenna Type

Connector

Gain (dBi)

Printed

N/A

3.00

Page 4 of 6

Neutron Engineering Inc.
3. MAXIMUM PERMISSIBLE EXPOSURE
3.1 Applicable Standard
According to its specifications, the EUT must comply with the requirements of the following
standards:
EN 62311 –Assessment of electronic and electrical equipment related to human exposure
restrictions for electromagnetic fields (0 Hz - 300 GHz)
LIMIT
For frequency range 10 MHz to 10 GHz
The basic restriction at frequencies between 10 MHz and 100 GHz is on localized SAR in the
head. Any device with output power below 20 mW cannot produce an exposure exceeding this
restriction under the most pessimistic exposure conditions. The basic restriction is 2 W/kg so any
unit which supplies less than 20 mW (=2/100W) from its antenna port, averaged over 6 minutes,
will meet the basic restriction.
For frequency range 10 GHz to 300 GHz
The most conservative assumption is that all the transmitted power is absorbed within the
specified area, therefore any device which supplies less than 20 mW will meet the basic
restriction. The average time is equal to 68/f-1.05 munutes (where f is in GHz) In the frequency
range 10 GHz to 300 GHz, the basic restriction is 10 Wm-2 averaged over any 20 cm2 of exposed
area with a spatial maximum of 200 Wm-2 averaged over 1 cm2
2 MPE Calculation Method
E (V/m) = (30*P*G) 0.5/d
E = Electric Field (V/m)
P = Peak RF output Power (W)
G = EUT Antenna numeric gain (numeric)
d = Separation distance between radiator and human body (m)
From the peak EUT RF output power, the minimum mobile separation distance, d=0.2m, as well
as the gain of the used antenna, the RF power density can be obtained.

Report No.: NEI-ETSP-2-0909C206

Page 5 of 6

Neutron Engineering Inc.
4. CALCULATED RESULT AND LIMIT
802.11 b mode (Max.)

Antenna
Gain
(dBi)

Peak output
Power
(dBm)

Peak output
Power (W)

Electric
Field
(V/m)

Limit of Electric
Field
(V/m)

Result

1.85

19.44

0.0879

8.12

61

Pass

802.11 g mode (Max.)

Antenna
Gain
(dBi)

Peak output
Power
(dBm)

Peak output
Power (W)

Electric
Field
(V/m)

Limit of Electric
Field
(V/m)

Result

1.85

18.62

0.0728

7.39

61

Pass

802.11 n(20MHz) mode (Max.)

Antenna
Gain
(dBi)

Peak output
Power
(dBm)

Peak output
Power (W)

Electric
Field
(V/m)

Limit of Electric
Field
(V/m)

Result

1.85

1 8.78

0.0755

7.53

61

Pass

802.11 n(40MHz) mode (Max.)

Antenna
Gain
(dBi)

Peak output
Power
(dBm)

Peak output
Power (W)

Electric
Field
(V/m)

Limit of Electric
Field
(V/m)

Result

1.85

18.15

0.0653

7.00

61

Pass

RF exposure assessment has been performed below to prove that this unit will not generate the
harmful EM emission above the reference level as specified in EC Council Recommendation
(1999/519/EC)

Report No.: NEI-ETSP-2-0909C206

Page 6 of 6
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