Page: 1 /26
(FCC : Part 15 Subpart B / ANSI C63.4-2003)
Product
Trade Name
Model No.
Applicant
Applicant Address
Report Number: MLT1305P15003
: Industrial Dual Single RF in Wifi AP
Cellular Router with
2x10/100/1000Base-T(x)
: Oring
: IGAP-6620(The other see Appendix I)
: ORing Industrial Networking Corp.
: 3F., No.542-2, Jhongjheng Rd., Sindian
District, New Taipei City 231, Taiwan
Page: 2 /26
Report Number
MLT1305P15003
Applicant
ORing Industrial Networking Corp.
Product
Industrial Dual Single RF in Wifi AP Cellular Router with
2x10/100/1000Base-T(x)
Sample Received Date
Sample Tested Date
2013/5/15
2013/5/15 ～ 2013/5/30
Report Prepared By
Jesse Tien
Signature
Date Prepared
2013/5/30
Report Authorized By
Roger Chen
Signature
Date Authorized
2013/5/30
Test By
Max Light Technology Co., Ltd.
Room 5, 8F, No.125, Section 3 Roosevelt Road,
Taipei, Taiwan., R.O.C.
Office : Tel: 886-2-2363-2447 Fax: 886-2-2363-2597
Lab. : Tel: 886-2-2663-3486 Fax: 886-2-2663-3582
It may be duplicated completely for legal use with the allowance of the applicant.
It shall not be reproduced except in full, without the written approval of our
laboratory.
Report Number: MLT1305P15003
Page: 3 /26
Table of Contents :
History of Test Report ------------------------------------------------------------------------------------------- 4
1. General -------------------------------------------------------------------------------------------------------- 6
1.1.
Introduction : ---------------------------------------------------------------------------------------- 6
1.2.
Customer Details : --------------------------------------------------------------------------------- 6
1.3.
Technical data of EUT : -------------------------------------------------------------------------- 6
1.4.
Description of Support Equipment : ----------------------------------------------------------- 7
1.5.
Configuration of System Under Test : -------------------------------------------------------- 7
1.6.
Test Procedure and Test Condition :---------------------------------------------------------- 8
2. Conducted Emissions Requirements ------------------------------------------------------------------ 9
2.1.
General & Setup :---------------------------------------------------------------------------------- 9
2.2.
Test Equipment List : ----------------------------------------------------------------------------- 9
2.3.
Test Condition :------------------------------------------------------------------------------------10
2.4.
Conducted Emissions Limits : -----------------------------------------------------------------10
2.5.
Measurement Data Of Conducted Emissions :--------------------------------------------11
3. Radiated Emissions Requirements--------------------------------------------------------------------13
3.1.
General Configuration :--------------------------------------------------------------------------13
3.2.
Test Equipment List : ----------------------------------------------------------------------------14
3.3.
Test Condition :------------------------------------------------------------------------------------14
3.4.
Radiated Emissions Limits : --------------------------------------------------------------------15
3.5.
Measurement Data Of Radiated Emissions: -----------------------------------------------16
4. EUT Test Setup --------------------------------------------------------------------------------------------20
Appendix I - Brand / Trade Name & Model No. Multiple Listee --------------------------------------22
Appendix II - EUT Photographs ------------------------------------------------------------------------------26
Report Number: MLT1305P15003
Page: 4 /26
History of Test Report
Original Report Issue Date: 2013/5/30
■ No additional attachment
□ Additional attachments were issued as in the following record:
Attachment No.
Issue Date
MLT1305P15003
2013/5/30
Report Number: MLT1305P15003
Description
Original report
Page: 5 /26
CERTIFICATION
We here by verify that :
The test data, data evaluation, test procedures and equipment configurations shown in
this report were made in accordance with the procedures given in ANSI C63.4: 2003. All test
were conducted by
MLT (Max Light Technology Co., Ltd) Room 5, 8F, No.125, Section 3 Roosevelt Road,
Taipei, Taiwan, R.O.C Also, we attest to the accuracy of each.
We further submit that the energy emitted by the sample EUT tested as described in the
report is in compliance with Class A radiated and conducted emission limit of FCC Rules Part
15 Subpart B.
Equipment
Industrial Dual Single RF in Wifi AP Cellular Router with
2x10/100/1000Base-T(x)
Applicant Name
ORing Industrial Networking Corp.
Applicant Address
3F., No.542-2, Jhongjheng Rd., Sindian District, New Taipei
City 231, Taiwan
Manufacturer Name
Anoma Electric Co., Ltd.
Manufacturer Address
6F, No.880, Zhongzheng Rd., Zhonghe Dist., New Taipei
City, 235, Taiwan, R.O.C
Model No
IGAP-6620(The other see Appendix I)
Report Number: MLT1305P15003
Page: 6 /26
1. General
1.1. Introduction :
The following measurement report is submitted on behalf of ORing Industrial Networking
Corp.. In support of a Class A Digital Device certification in accordance with Part2 Subpart J
and Part 15 Subpart A And B of the Commission’s and Regulations.
Measurement Uncertainty: The uncertainty of measurement is calculated in accordance
with NAMAS NIS 81, providing a level of confidence of approximately 95%.The total
uncertainty for these tests is as follows
PARAMETER
Conducted emissions
Radiated emissions (30MHz ～ 1GHz)
Radiated emissions (1GHz ～ 6GHz)
UNCERTAINTY
2.24 dB
3.96 dB
3.74 dB
1.2. Customer Details :
Applicant Name
ORing Industrial Networking Corp.
Applicant Address
3F., No.542-2, Jhongjheng Rd., Sindian District, New Taipei
City 231, Taiwan
Manufacturer Name
Anoma Electric Co., Ltd.
Manufacturer Address
6F, No.880, Zhongzheng Rd., Zhonghe Dist., New Taipei
City, 235, Taiwan, R.O.C
1.3. Technical data of EUT :
Equipment
Industrial Dual Single RF in Wifi AP Cellular Router with
2x10/100/1000Base-T(x)
Model No
IGAP-6620(The other see Appendix I)
Power Type
Input : AC100 - 240V , 50/60Hz , 0.4A
Output : DC12V , 1A
Report Number: MLT1305P15003
Page: 7 /26
1.4. Description of Support Equipment :
In order to construct the minimum system which required by the ANSI C63.4-2003 /
ICES-003: 2004, all the peripheral equipments were located in the far end.
1.5. Configuration of System Under Test :
Far end
PC
PC
Near end
Power Supply
EUT
Antenna
Antenna
Ethernet Cable
Report Number: MLT1305P15003
Page: 8 /26
1.6. Test Procedure and Test Condition :
All measurements contained in this report were performed according to the techniques
described in Measurement procedure ANSI C63.4-2003 "Measurement of un-Intentional
Radiators.
The conditions under which the EUT operates were varied to determine their effect on the
equipment's emission characteristics. The final configuration of the test system and the mode
of operation used during these tests were chosen as that which produced the highest emission
levels. However, only those conditions which the EUT was considered likely to encounter in
normal use were investigated. The systems radiated and conducted emissions were
investigated while the computer alternately transferred data to the EUT as well as to the
monitor and printer. Using a test program which sent a continuous data and transferred data to
and from the EUT was proven to worst case emissions. The system's physical layout and
cabling was randomly arranged to ensure that maximum emission levels were attained.
The maximum operating frequency of the EUT is 5GHz, the measurement of radiated
emissions frequency shall be made up to 6GHz.
Report Number: MLT1305P15003
Page: 9 /26
2. Conducted Emissions Requirements
2.1. General & Setup :
The power line conducted emission measurements were performed in a shielded
enclosure. The EUT was assembled on a wooden table which is 80 centimeters high, was
placed 40 centimeters from the back wall and at least 1 meter from the sidewall.
Power was fed to the EUT from the public utility power grid through a line filter and EMCO
Model 3825/2 Line Impedance Stabilization Networks (LISN). The LISN housing, measuring
instrumentation case, ground plane, etc., were electrically bonded together at the same RF
potential. The Spectrum analyzer was connected to the AC line through an isolation
transformer. The 50-ohm output of the LISN was connected to the spectrum analyzer directly.
Conducted emission levels were in the CISPR quasi-peak detection mode. The analyzer's 6
dB bandwidth was set to 9 KHz. No post-detector video filter was used.
The spectrum was scanned from 150 KHz to 30 MHz. The physical arrangement of the
test system and associated cabling was varied (within the scope of arrangements likely to be
encountered in actual use) to determine the effect on the unit's emanations in amplitude and
frequency. All spurious emission frequencies were observed. The highest emission
amplitudes relative to the appropriate limit were measured and have been recorded in
paragraph 2.5.
2.2. Test Equipment List :
Item Mfr/Brand
1.
2.
3.
HP
Instruments
Serial No.
Spectrum Analyzer 73412A00110
Model/Type
No.
Calibrated
Date
Next Cal.
Date
8591EM
2013/03/21
2014/03/21
EMCO
LISN
2658
3825/2
2013/03/01
2014/03/01
TESEQ
ISN
24801
ISN T8
2013/05/22
2014/05/22
Report Number: MLT1305P15003
Page: 10 /26
2.3. Test Condition :
EUT tested in accordance with the specifications given by the manufacturer, and
exercised in the most unfavorable manner.
2.4. Conducted Emissions Limits :
FCC Part 15
Limits (dBuV)
Frequency range (MHz)
Class A
Class B
QP
Avg.
QP
Avg.
0.15 to 0.50
79
66
66 to 56
56 to 46
0.50 to 5.0
73
60
56
46
5.0 to 30
73
60
60
50
Report Number: MLT1305P15003
Page: 11 /26
2.5. Measurement Data Of Conducted Emissions :
2.5.1 Conducted Emissions
The following table shown a summary of the highest emissions of power line conducted
emissions to the HOT and NEUTRAL conductor of the EUT power.
Test Mode
: All Run Ping
Conducted Emissions (Class A)
Limits
Frequency Read(dBuV)
Conductor
Factor
(dBuV)
(MHz)
QP
AV
QP
AV
0.157
53.48
-1.05
79
66
1.016
46.49
-1.30
73
60
1.352
52.29
-1.32
73
60
L1
2.178
45.03
-1.76
73
60
3.528
44.04
-1.99
73
60
12.384
38.73
-2.01
73
60
19.428
36.24
-2.18
73
60
0.163
52.22
-0.93
79
66
0.232
44.08
-1.09
79
66
1.338
51.57
-1.32
73
60
L2
2.055
44.34
-1.71
73
60
3.565
43.00
-1.89
73
60
6.024
41.17
-1.95
73
60
11.807
42.05
-1.93
73
60
Amplitude
(dBuV)
QP
AV
54.53
-47.79
-53.61
-46.79
-46.03
-40.74
-38.42
-53.15
-45.17
-52.89
-46.05
-44.89
-43.12
-43.98
--
Notes : 1.L1: One end & Ground L2: The other end & Ground
2.Height of table on which the EUT was placed : 0.8 m.
3.The Quasi-Peak Value have already met the Average Value Limit showed on
above limits.
4.The above test results are obtained under the normal condition.
5. Amplitude = Read + Factor
Report Number: MLT1305P15003
Page: 12 /26
Test Port : L1
Test Port : L2
Report Number: MLT1305P15003
Page: 13 /26
3. Radiated Emissions Requirements
3.1. General Configuration :
Prior to open-field testing, the EUT was placed in a shielded enclosure and scanned at a
close distance to determine its emission characteristics. The physical arrangement of the EUT
was varied (within the scope of arrangements likely to be encountered in actual use) to
determine the effect on the unit's emanations in amplitude, directivity, and frequency. The
exact system configuration which produced the highest emissions was noted so it could be
reproduced later during the open-field tests. This was done to ensure that the final
measurements would demonstrate the worst-case interference potential of the EUT. The
radiated emissions test is made at a 10 meters open site from 30MHz to 1GHz. The radiated
emissions test is made at a 3 meters open site from 1GHz to 6GHz. The EUT system was
placed on a nonconductive turntable which is 0.8 meters height, top surface 1.0 x 1.5 meter.
The spectrum was examined from 30 MHz to 6GHz using an Hewlett Packard E7403A
Spectrum Analyzer, EMCO Biconilog Antenna (Model 3142C ) for 30MHz -1GHz ,
SCHWARZBECK Home Antenna (Model BBHA 9120D ) for 1GHz-6GHz At each frequency,
the EUT was rotated 360 degrees, and the antenna was raised and lowered from one to four
meters to find the maximum emission levels. Measurements were taken using both horizontal
and vertical antenna polarization. Appropriate preamplifiers were used for improving sensitivity
and precautions were taken to avoid overloading or desensitizing the spectrum analyzer. No
post-detector video filters were used in the test. The spectrum analyzer's 6 dB bandwidth was
set to 120 KHz, and the analyzer was operated in the quasi-peak detection mode. The highest
emission amplitudes relative to the appropriate limit were measured and recorded in paragraph
3.5.
Shown in § 15.35 (b) Above 1000 MHz, the radiated emission limits are based on the use
of measurement instrumentation employing an average detector function. measurements
above 1000 MHz shall be performed using a minimum resolution bandwidth of 1 MHz. When
average radiated emission measurements are specified in this part, there also is a limit on the
peak level of the radio frequency emissions. limit on peak radio frequency emissions is 20 dB
above the maximum permitted average emission limit applicable to the equipment under test.
This peak limit applies to the total peak emission level radiated by the device,
Report Number: MLT1305P15003
Page: 14 /26
Highest frequency generated or used in
the device or on which the device
operates or tunes (MHz)
Below 1.705
1.705–108
108–500
500–1000
Above 1000
Upper frequency of measurement range
(MHz)
30
1000
2000
5000
5th harmonic of the highest frequency or 40
GHz, whichever is lower.
3.2. Test Equipment List :
Model/Type
No.
Calibrated
Date
Next Cal.
Date
E7403A
2013/01/30
2014/01/30
20110301
PREAMP6G-02
2013/03/01
2014/03/01
Biconilog Antenna
00059739
3142C
2012/09/06
2013/09/06
SCHWARZBECK
Home Antenna
304
BBHA 9120D
2012/10/15
2013/10/15
MLT
Pre Amplifier
TA010-190-30
RF03
2012/07/20
2013/07/20
Item
Mfr/Brand
Instruments
1.
Agilent
2.
MLT
Pre Amplifier
3.
EMCO
4.
5.
Serial No.
Spectrum Analyzer US40240137
3.3. Test Condition :
EUT tested in accordance with the specifications given by the manufacturer, and
exercised in the most unfavorable manner.
Report Number: MLT1305P15003
Page: 15 /26
3.4. Radiated Emissions Limits :
CISPR 22
Below 1GHz
Limits (dBuV)
Class A
Frequency range (MHz)
30 to 230
230 to 1000
Class B
Distance
(Meter)
Limits
(dBuV/m)
Distance
(Meter)
Limits
(dBuV/m)
10
10
40
47
10
10
30
37
Above 1GHz
Limits (dBuV) Distance at 3m
Frequency range( GHz)
1 to 3
3 to 6
Class A
Average
Peak
56
60
Class B
Average
Peak
76
80
50
54
70
74
FCC Part 15
Below 1GHz
Limits (dBuV)
Class A
Frequency range (MHz)
30 to 88
88 to 216
216 to 960
Above 960
Class B
Distance
(Meter)
Limits
(dBuV/m)
Distance
(Meter)
Limits
(dBuV/m)
10
10
10
10
39
43.5
46.5
49.5
3
3
3
3
40
43.5
46
54
Above 1GHz
Limits (dBuV) Distance at 3m
Frequency range( GHz)
1 to 6
Report Number: MLT1305P15003
Class B
Average
Peak
54
74
Page: 16 /26
3.5. Measurement Data Of Radiated Emissions:
3.5.1 Open Field Radiated Emissions (Below 1GHz)
The highest peak values of radiated emissions from the EUT at various antenna heights,
antenna polarization, EUT orientation, etc. are recorded on the following
Test Mode
:
All Run Ping
Radiated Emissions (VERTICAL)Class A
Frequency
Read
Ant.
Table Amplitude Limits
Margin
Factor
(MHz)
(dBuV/m)
(cm) (Degree) (dBuV/m) (dBuV/m)
(dB)
30.27
56.81
-20.70 100
255
36.11
40
-3.89
37.02
59.66
-24.01 100
120
35.65
40
-4.35
48.90
59.74
-28.84 100
237
30.90
40
-9.10
78.06
61.65
-32.50 100
69
29.15
40
-10.85
100.47
58.22
-30.75 100
158
27.47
40
-12.53
125.00
67.31
-31.95 100
268
35.36
40
-4.64
250.00
62.92
-25.79 100
298
37.13
47
-9.87
375.00
57.22
-22.11 100
87
35.11
47
-11.89
875.00
44.15
-9.78
400
299
34.37
47
-12.63
Radiated Emissions (HORIZONTAL)Class A
Frequency
Read
Ant.
Table Amplitude Limits
Margin
Factor
(MHz)
(dBuV/m)
(cm) (Degree) (dBuV/m) (dBuV/m)
(dB)
97.77
55.22
-30.98 400
185
24.24
40
-15.76
125.00
58.04
-31.75 400
173
26.29
40
-13.71
161.76
55.22
-28.91 400
316
26.31
40
-13.69
215.76
53.56
-27.77 400
154
25.79
40
-14.21
250.00
59.43
-25.79 400
265
33.64
47
-13.36
375.00
54.11
-22.30 300
263
31.81
47
-15.19
625.00
46.11
-14.97 400
31
31.14
47
-15.86
750.00
43.84
-11.80 100
257
32.04
47
-14.96
875.00
45.72
-9.90
100
251
35.82
47
-11.18
Notes : 1.Margin= Amplitude - Limits
2.Distance of Measurement : 10 Meter
3.Height of table for EUT placed: 0.8 Meter.
4.Amplitude= Reading Amplitude + Factor .
Report Number: MLT1305P15003
Page: 17 /26
Test Mode : VERTICAL
Test Mode : HORIZONTAL
Report Number: MLT1305P15003
Page: 18 /26
3.5.2 Open Field Radiated Emissions (Above 1GHz)
The highest peak values of radiated emissions from the EUT at various antenna heights,
antenna polarization, EUT orientation, etc. are recorded on the following
Test Mode
Frequency
(MHz)
1875.0
3215.0
3280.0
Frequency
(MHz)
1640.0
3215.0
4825.0
:
All Run Ping
Radiated Emissions (VERTICAL)
Read
Amplitude
Limits
Factor
(dBuV/m)
(dBuV/m)
(dBuV/m)
PK
AV
PK
AV
PK
AV
42.21
41.00
-3.13
39.08
37.87
74.00
54.00
41.01
38.63
2.21
43.22
40.84
74.00
54.00
46.05
44.21
2.39
48.44
46.60
74.00
54.00
Margin
(dB)
PK
AV
-34.92 -16.13
-30.78 -13.16
-25.56
-7.40
Radiated Emissions (HORIZONTAL)
Read
Amplitude
Limits
Factor
(dBuV/m)
(dBuV/m)
(dBuV/m)
PK
AV
PK
AV
PK
AV
43.41
39.89
-3.82
39.59
36.07
74.00
54.00
38.16
34.11
2.21
40.37
36.32
74.00
54.00
41.58
37.54
7.25
48.83
44.79
74.00
54.00
Margin
(dB)
PK
AV
-34.41 -17.93
-33.63 -17.68
-25.17
-9.21
Notes : 1.Margin= Amplitude - Limits
2.Distance of Measurement : 3 Meter
3.Height of table for EUT placed: 0.8 Meter.
4.Amplitude= Reading Amplitude + Factor .
Report Number: MLT1305P15003
Page: 19 /26
Test Mode : VERTICAL
Test Mode : HORIZONTAL
Report Number: MLT1305P15003
Page: 20 /26
4. EUT Test Setup
MEASUREMENT OF POWER LINE CONDUCTED RFI VOLTAGE
EUT
0.8M
0.8M
LISN
Metal floor surfaced with 30mm of insulating material
Report Number: MLT1305P15003
Page: 21 /26
MEASUREMENT OF RADIATED EMISSION
Antenna
Tower
4.0M
10.0M
Receiver
Antenna
0.8M
Ground Plane
000
RF Test
Receiver
Report Number: MLT1305P15003
Page: 22 /26
Appendix I - Brand / Trade Name & Model No. Multiple Listee
Brand /Trade Name
N/A
Model Name
IGAP-420_US
IGAR-2442-3G_US
IGAP-420+_US
IGAR-2442+-3G_US
IGAP-620_US
IGAR-2662-3G_US
IGAP-620+_US
IGAR-2662+-3G_US
IGAP-6620_US
IGAR-1042-4G_US
IGAP-6620+_US
IGAR-1042+-4G_US
IGAP-4420_US
IGAR-1062-4G_US
IGAP-4420+_US
IGAR-1062+-4G_US
IGAR-1042-3G_US
IGAR-2042-4G_US
IGAR-1042+-3G_US
IGAR-2042+-4G_US
IGAR-1062-3G_US
IGAR-2062-4G_US
IGAR-1062+-3G_US
IGAR-2062+-4G_US
IGAR-2042-3G_US
IGAR-1442-4G_US
IGAR-2042+-3G_US
IGAR-1442+-4G_US
IGAR-2062-3G_US
IGAR-1662-4G_US
IGAR-2062+-3G_US
IGAR-1662+-4G_US
IGAR-1442-3G_US
IGAR-2442-4G_US
IGAR-1442+-3G_US
IGAR-2442+-4G_US
IGAR-1662-3G_US
IGAR-2662-4G_US
IGAR-1662+-3G_US
IGAR-2662+-4G_US
Report Number: MLT1305P15003
Page: 23 /26
Desctription of Multiple Listee
Model Name
IGAP-420_US
IGAP-420+_US
IGAP-620_US
IGAP-620+_US
IGAP-6620_US
IGAP-6620+_US
IGAP-4420_US
IGAP-4420+_US
Description
Industrial IEEE 802.11 b/g/n wireless access point with 2x10/100/1000Base
-T(X), US Band
Industrial IEEE 802.11 b/g/n wireless access point with 2x10/100/1000
Base-T(X), 1 port PoE P.D., US Band
Industrial IEEE 802.11 a/b/g/n wireless access point with 2x10/100/1000Ba
se-T(X), US Band
Industrial IEEE 802.11 a/b/g/n wireless access point with 2x10/100/1000
Base-T(X), 1 port PoE P.D., US Band
Industrial Dual RF in IEEE 802.11 a/b/g/n wireless access point with 2x10/
100/1000Base-T(X), US Band
Industrial Dual RF in IEEE 802.11 a/b/g/n wireless access point with
2x10/100/1000Base-T(X), 1 port PoE P.D., US Band
Industrial Dual RF in IEEE 802.11 b/g/n wireless access point with 2x10/10
0/1000Base-T(X), US Band
Industrial Dual RF in IEEE 802.11 b/g/n wireless access point with
2x10/100/1000Base-T(X), 1 port PoE P.D., US Band
Industrial IEEE 802.11 b/g/n 3G Cellular Router with 2x10/100/1000Base-T(X),
IGAR-1042-3G_US
US Band
Industrial IEEE 802.11 b/g/n 3G Cellular Router with 2x10/100/1000Base-T(X),
IGAR-1042+-3G_US
1-port PoE P.D., US Band
Industrial IEEE 802.11 a/b/g/n 3G Cellular Router with 2x10/100/1000Base-T(X),
IGAR-1062-3G_US
US Band
Industrial IEEE 802.11 a/b/g/n 3G Cellular Router with 2x10/100/1000Base-T(X),
IGAR-1062+-3G_US
1-port PoE P.D., US Band
Industrial
IGAR-2042-3G_US
IGAR-1662+-3G_US
Router
with
IEEE
802.11
b/g/n
Dual
3G
Cellular
Router
with
IEEE
802.11
a/b/g/n
Dual
3G
Cellular
Router
with
IEEE
802.11
a/b/g/n
Dual
3G
Cellular
Router
with
Dual
IEEE
802.11
b/g/n
3G
Cellular
Router
with
Dual
IEEE
802.11
b/g/n
3G
Cellular
Router
with
2x10/100/1000Base-T(X), 1-port PoE P.D., US Band
Industrial
IGAR-1662-3G_US
Cellular
2x10/100/1000Base-T(X), US Band
Industrial
IGAR-1442+-3G_US
3G
2x10/100/1000Base-T(X), 1-port PoE P.D., US Band
Industrial
IGAR-1442-3G_US
Dual
2x10/100/1000Base-T(X), US Band
Industrial
IGAR-2062+-3G_US
b/g/n
2x10/100/1000Base-T(X), 1-port PoE P.D., US Band
Industrial
IGAR-2062-3G_US
802.11
2x10/100/1000Base-T(X), US Band
Industrial
IGAR-2042+-3G_US
IEEE
Dual
IEEE
802.11
a/b/g/n
3G
Cellular
Router
with
a/b/g/n
3G
Cellular
Router
with
2x10/100/1000Base-T(X), US Band
Industrial
Dual
Report Number: MLT1305P15003
IEEE
802.11
Page: 24 /26
2x10/100/1000Base-T(X), 1-port PoE P.D., US Band
Industrial
IGAR-2442-3G_US
b/g/n
Dual
3G
Cellular
Router
with
Dual
IEEE
802.11
b/g/n
Dual
3G
Cellular
Router
with
Dual
IEEE
802.11
a/b/g/n
Dual
3G
Cellular
Router
with
Dual
3G
Cellular
Router
with
2x10/100/1000Base-T(X), US Band
Industrial
IGAR-2662+-3G_US
802.11
2x10/100/1000Base-T(X), 1-port PoE P.D., US Band
Industrial
IGAR-2662-3G_US
IEEE
2x10/100/1000Base-T(X), US Band
Industrial
IGAR-2442+-3G_US
Dual
Dual
IEEE
802.11
a/b/g/n
2x10/100/1000Base-T(X), 1-port PoE P.D., US Band
Industrial IEEE 802.11 b/g/n 4G Cellular Router with 2x10/100/1000Base-T(X),
IGAR-1042-4G_US
US Band
Industrial IEEE 802.11 b/g/n 4G Cellular Router with 2x10/100/1000Base-T(X),
IGAR-1042+-4G_US
1-port PoE P.D., US Band
Industrial IEEE 802.11 a/b/g/n 4G Cellular Router with 2x10/100/1000Base-T(X),
IGAR-1062-4G_US
US Band
Industrial IEEE 802.11 a/b/g/n 4G Cellular Router with 2x10/100/1000Base-T(X),
IGAR-1062+-4G_US
1-port PoE P.D., US Band
Industrial
IGAR-2042-4G_US
IGAR-2662-4G_US
802.11
b/g/n
Dual
4G
Cellular
Router
with
IEEE
802.11
a/b/g/n
Dual
4G
Cellular
Router
with
IEEE
802.11
a/b/g/n
Dual
4G
Cellular
Router
with
Dual
IEEE
802.11
b/g/n
4G
Cellular
Router
with
Dual
IEEE
802.11
b/g/n
4G
Cellular
Router
with
Dual
IEEE
802.11
a/b/g/n
4G
Cellular
Router
with
Dual
IEEE
802.11
a/b/g/n
4G
Cellular
Router
with
Dual
IEEE
802.11
b/g/n
Dual
4G
Cellular
Router
with
b/g/n
Dual
4G
Cellular
Router
with
Cellular
Router
with
2x10/100/1000Base-T(X), US Band
Industrial
IGAR-2442+-4G_US
IEEE
2x10/100/1000Base-T(X), 1-port PoE P.D., US Band
Industrial
IGAR-2442-4G_US
with
2x10/100/1000Base-T(X), US Band
Industrial
IGAR-1662+-4G_US
Router
2x10/100/1000Base-T(X), 1-port PoE P.D., US Band
Industrial
IGAR-1662-4G_US
Cellular
2x10/100/1000Base-T(X), US Band
Industrial
IGAR-1442+-4G_US
4G
2x10/100/1000Base-T(X), 1-port PoE P.D., US Band
Industrial
IGAR-1442-4G_US
Dual
2x10/100/1000Base-T(X), US Band
Industrial
IGAR-2062+-4G_US
b/g/n
2x10/100/1000Base-T(X), 1-port PoE P.D., US Band
Industrial
IGAR-2062-4G_US
802.11
2x10/100/1000Base-T(X), US Band
Industrial
IGAR-2042+-4G_US
IEEE
Dual
IEEE
802.11
2x10/100/1000Base-T(X), 1-port PoE P.D., US Band
Industrial
Dual
Report Number: MLT1305P15003
IEEE
802.11
a/b/g/n
Dual
4G
Page: 25 /26
2x10/100/1000Base-T(X), US Band
Industrial
IGAR-2662+-4G_US
Dual
IEEE
802.11
a/b/g/n
Dual
4G
2x10/100/1000Base-T(X), 1-port PoE P.D., US Band
Report Number: MLT1305P15003
Cellular
Router
with
Page: 26 /26
Appendix II - EUT Photographs
See Next Page
Report Number: MLT1305P15003
Photograph of Conducted Measurement
Front View of The Test Configuration
Rear View of The Test Configuration
Report Number: MLT1305P15003
Photograph of Radiated Measurement
Front View of The Test Configuration
Rear View of The Test Configuration
Report Number: MLT1305P15003
Photograph of EUT
Report Number: MLT1305P15003
Report Number: MLT1305P15003
Report Number: MLT1305P15003