Shakespeare 5411-XT 4' Cellular Antenna

Shakespeare 5411-XT 4' Cellular Antenna
List Price
Your Price
Usually ships in 1-2 weeks

Shipping Information
Return Policy
Why Buy From Fondriest?


Shakespeare Galaxy 5411-XT LITTLE GIANT™
4' Dual Band Cellular 3dB Gain
800/900 MHz and 1900 MHz Cellular

Same as the 5410-XT in an exclusive black Galaxy finish.

This compact, extra sturdy antenna covers the digital, analog and PCS cellular bands. For quality and reliability, the antennas connections are hand-soldered, and its hand finished. Use one of Shakespeares CPA Series adapters (sold separately) to connect your portable cell phone.

  • Brass and copper elements to maximize range
  • Stainless steel ferrule with standard 1"-14 thread
  • Includes 25' of Shakespeare exclusive Lo-Max® low-loss cable and a "TNC" connector
  • Suggested mount: Shakespeare Style 4187 Ratchet Mount
  • One section
  • Black Galaxy finish
  • Shakespeare Limited Warranty: 5 years

All Galaxy® Dual Band Cellular antennas feature Shakespeares exclusive Lo-Max® Cable. This flexible, UV stable coax provides low-loss characteristics near that of larger RG-8 A/U and RG-213, but without the extra bulk and rigidity.

Technical Specifications:

Frequency:Dual Band 800-890 MHz and 1800-1900 MHz
Bandwidth:96 MHz within 2.0:1 VSWR (analog cellular band)
140 MHz within 2.0:1 VSWR at (PCS cellular band)
SWR:nominally less than 1.5:1 at 852.65 MHz;
nominally less than 1.5:1 at 1918.7 MHz
Gain:3 dB
Height (feet):4

Image Part # Product Description Price Stock Order
Shakespeare 5411-XT 4' Cellular Antenna 5411-XT SHAKESPEARE CELL 4FT 5411-XT 3DB BLACK
Usually ships in 1-2 weeks

Shakespeare 5411-XT 4' Cellular Antenna Reviews

| Write a Review

Be the first to write a review

In The News

First Environmental Monitoring System For Baltimore’s Inner Harbor

Baltimore’s Inner Harbor and the rivers that flow into it are important sources of water to Chesapeake Bay, popular recreation sites and the targets of an ambitious clean-up plan. But the city has for some time lacked an environmental monitoring system for tracking water quality in the harbor continuously. That is about to change, thanks to a collaboration between the U.S. Geological Survey (USGS) and Environmental Protection Agency (EPA). It will lead to the new installation of a suite of sensors that will provide the public and scientists with the first comprehensive, real time look at water quality in the harbor.

Read More

Parasite Behind Yellowstone River Fish Kill Found In Other Rivers

A parasite that caused a massive fish kill in Montana’s Yellowstone River has been found in at least seven other rivers in the state, according to the Bozeman Daily Chronicle . Scientists with the Montana Fish, Wildlife and Parks department made the find. So far, the parasite has been confirmed in the upper and lower Madison, East Gallatin, Bighorn, Stillwater, and Boulder Rivers. It had already been confirmed in the Jefferson and Shields Rivers. The microscopic parasite causes proliferative kidney disease, one of the most serious diseases to impact whitefish and trout. The effect of the disease on Yellowstone’s fish populations is exacerbated by other stressors like near-record low flows, consistent high temperatures and the disturbance caused by recreational activities.

Read More

ESPniagara Tracks Algal Toxins In Lake Erie, Protects Drinking Water

It may have taken 20 years and $20 million to develop, but Lake Erie researchers working to fight harmful algal blooms (HABs) now have a new tool to safeguard drinking water: ESPniagara. The advanced sampler has been called a “lab in a can” for its ability to sample microcystins, the most common algal toxin these days, in almost real time. The big gadget’s name is a mashup between “ESP,” for environmental sample processor, and the name of Admiral Oliver Hazard Perry’s ship during the War of 1812. “We wanted to name it something that was significant to Lake Erie,” said Tim Davis, molecular biologist and lead HABs researcher at the National Oceanic and Atmospheric Administration’s Great Lakes Environmental Research Lab (NOAA GLERL) in Ann Arbor, Mich.

Read More