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Obtaining Documentation Overview The 4G-ANTM-OM-CM antenna is a ceiling-mount omnidirectional antenna that operates in any of the 3G or 4G bands. These bands cover the following frequencies: 700, 800, 900, 1700, 1800, 1900, 2100,and 2600 MHz. This antenna is designed for use with Cisco 3G cellular Enhanced High-Speed WAN Interface Cards (EHWICs) and is compatible with Cisco 3G cellular products using a threaded Neill-Concelman (TNC) Male connector.
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Running H/F 1 Running H/F 2 Figure 1 shows a front view of the 4G-ANTM-OM-CM antenna. The green circle around the Cisco logo means that this is a 4G antenna. Figure 1 Cisco 4G-ANTM-OM-CM Antenna (Front View)
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Running H/F 1 Running H/F 2 Figure 2 shows a side view of the 4G-ANTM-OM-CM antenna. Figure 2 Cisco 4G-ANTM-OM-CM Antenna (Side View) Mounting screws and anchors (#6 x 1-1/4”) for Mounting nut mounting on a hard ceiling Self-adhesive screw covers...
Running H/F 1 Running H/F 2 Figure 3 shows a top view of the 4G-ANTM-OM-CM antenna. Figure 3 Cisco 4G-ANTM-OM-CM Antenna (Top View) Technical Specifications The following table lists the technical specifications for the 4G-ANTM-OM-CM antenna.
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Running H/F 1 Running H/F 2 Figure 4 shows the azimuth plane patterns for the 700 MHz band for the 4G-ANTM-OM-CM antenna. Figure 4 Azimuth Plane Patterns for the 700 MHz Band...
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Running H/F 1 Running H/F 2 Figure 5 shows the azimuth plane patterns for the 800 MHz band for the 4G-ANTM-OM-CM antenna. Figure 5 Azimuth Plane Patterns for the 800 MHz Band...
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Running H/F 1 Running H/F 2 Figure 6 shows the azimuth plane patterns for the 900 MHz band for the 4G-ANTM-OM-CM antenna. Figure 6 Azimuth Plane Patterns for the 900 MHz Band...
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Running H/F 1 Running H/F 2 Figure 7 shows the azimuth plane patterns for the 1700 MHz band for the 4G-ANTM-OM-CM antenna. Figure 7 Azimuth Plane Patterns for the 1700 MHz Band...
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Running H/F 1 Running H/F 2 Figure 8 shows the azimuth plane patterns for the 1800 MHz band for the 4G-ANTM-OM-CM antenna. Figure 8 Azimuth Plane Patterns for the 1800 MHz Band...
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Running H/F 1 Running H/F 2 Figure 9 shows the azimuth plane patterns for the 1900 MHz band for the 4G-ANTM-OM-CM antenna. Figure 9 Azimuth Plane Patterns for the 1900 MHz Band...
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Running H/F 1 Running H/F 2 Figure 10 shows the azimuth plane patterns for the 2100 MHz band for the 4G-ANTM-OM-CM antenna. Figure 10 Azimuth Plane Patterns for the 2100 MHz Band...
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Running H/F 1 Running H/F 2 Figure 11 shows the azimuth plane patterns for the 2600 MHz band for the 4G-ANTM-OM-CM antenna. Figure 11 Azimuth Plane Patterns for the 2600 MHz Band...
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Running H/F 2 Figure 12 shows the elevation plane patterns (Phi = 0 degree plane cut) for the 700 MHz band for the 4G-ANTM-OM-CM antenna. Figure 12 Elevation Plane Patterns (Phi = 0 degree Plane Cut) for the 700 MHz Band...
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Running H/F 2 Figure 13 shows the elevation plane patterns (Phi = 0 degree plane cut) for the 800 MHz band for the 4G-ANTM-OM-CM antenna. Figure 13 Elevation Plane Patterns (Phi = 0 degree Plane Cut) for the 800 MHz Band...
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Running H/F 2 Figure 14 shows the elevation plane patterns (Phi = 0 degree plane cut) for the 900 MHz band for the 4G-ANTM-OM-CM antenna. Figure 14 Elevation Plane Patterns (Phi = 0 degree Plane Cut) for the 900 MHz Band...
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Running H/F 2 Figure 15 shows the elevation plane patterns (Phi = 0 degree plane cut) for the 1700 MHz band for the 4G-ANTM-OM-CM antenna. Figure 15 Elevation Plane Patterns (Phi = 0 degree Plane Cut) for the 1700 MHz Band...
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Running H/F 2 Figure 16 shows the elevation plane patterns (Phi = 0 degree plane cut) for the 1800 MHz band for the 4G-ANTM-OM-CM antenna. Figure 16 Elevation Plane Patterns (Phi = 0 degree Plane Cut) for the 1800 MHz Band...
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Running H/F 2 Figure 17 shows the elevation plane patterns (Phi = 0 degree plane cut) for the 1900 MHz band for the 4G-ANTM-OM-CM antenna. Figure 17 Elevation Plane Patterns (Phi = 0 degree Plane Cut) for the 1900 MHz Band...
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Running H/F 2 Figure 18 shows the elevation plane patterns (Phi = 0 degree plane cut) for the 2100 MHz band for the 4G-ANTM-OM-CM antenna. Figure 18 Elevation Plane Patterns (Phi = 0 degree Plane Cut) for the 2100 MHz Band...
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Running H/F 2 Figure 19 shows the elevation plane patterns (Phi = 0 degree plane cut) for the 2600 MHz band for the 4G-ANTM-OM-CM antenna. Figure 19 Elevation Plane Patterns (Phi = 0 degree Plane Cut) for the 2600 MHz Band...
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Running H/F 2 Figure 20 shows the elevation plane patterns (Phi = 90 degree plane cut) for the 700 MHz band for the 4G-ANTM-OM-CM antenna. Figure 20 Elevation Plane Patterns (Phi = 90 degree Plane Cut) for the 700 MHz Band...
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Running H/F 2 Figure 21 shows the elevation plane patterns (Phi = 90 degree plane cut) for the 800 MHz band for the 4G-ANTM-OM-CM antenna. Figure 21 Elevation Plane Patterns (Phi = 90 degree Plane Cut) for the 800 MHz Band...
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Running H/F 2 Figure 22 shows the elevation plane patterns (Phi = 90 degree plane cut) for the 900 MHz band for the 4G-ANTM-OM-CM antenna. Figure 22 Elevation Plane Patterns (Phi = 90 degree Plane Cut) for the 900 MHz Band...
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Running H/F 2 Figure 23 shows the elevation plane patterns (Phi = 90 degree plane cut) for the 1700 MHz band for the 4G-ANTM-OM-CM antenna. Figure 23 Elevation Plane Patterns (Phi = 90 degree Plane Cut) for the 1700 MHz Band...
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Running H/F 2 Figure 24 shows the elevation plane patterns (Phi = 90 degree plane cut) for the 1800 MHz band for the 4G-ANTM-OM-CM antenna. Figure 24 Elevation Plane Patterns (Phi = 90 degree Plane Cut) for the 1800 MHz Band...
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Running H/F 2 Figure 25 shows the elevation plane patterns (Phi = 90 degree plane cut) for the 1900 MHz band for the 4G-ANTM-OM-CM antenna. Figure 25 Elevation Plane Patterns (Phi = 90 degree Plane Cut) for the 1900 MHz Band...
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Running H/F 2 Figure 26 shows the elevation plane patterns (Phi = 90 degree plane cut) for the 2100 MHz band for the 4G-ANTM-OM-CM antenna. Figure 26 Elevation Plane Patterns (Phi = 90 degree Plane Cut) for the 2100 MHz Band...
Running H/F 2 Figure 27 shows the elevation plane patterns (Phi = 90 degree plane cut) for the 2600 MHz band for the 4G-ANTM-OM-CM antenna. Figure 27 Elevation Plane Patterns (Phi = 90 degree Plane Cut) for the 2600 MHz Band System Requirements The 4G-ANTM-OM-CM antenna requires a Cisco 3G EHWIC that uses a TNC-Male connector.
Running H/F 1 Running H/F 2 — Paper and vinyl walls have very little effect on signal penetration. — Solid and precast concrete walls limit signal penetration to one or two walls without degrading coverage. — Concrete and wood block walls limit signal penetration to three or four walls. —...
To extend the coaxial cable included with your antenna, we recommend an ultra-low-loss coaxial cable for installation flexibility without a significant loss in range. The following table lists insertion loss information about ULL extension coaxial cables available from Cisco. Cisco Product Number...
Installation Instructions for the Cisco 4G-ANTM-OM-CM Antenna Router Obtaining Documentation Cisco documentation and additional literature are available on Cisco.com. Cisco also provides several ways to obtain technical assistance and other technical resources. These sections explain how to obtain technical information from Cisco Systems. Cisco.com...
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