Products Category
- FM Transmitter
- 0-50w 50w-1000w 2kw-10kw 10kw+
- TV Transmitter
- 0-50w 50-1kw 2kw-10kw
- FM Antenna
- TV Antenna
- Antenna Accessory
- Cable Connector Power Splitter Dummy Load
- RF Transistor
- Power Supply
- Audio Equipments
- DTV Front End Equipment
- Link System
- STL system Microwave Link system
- FM Radio
- Power Meter
- Other Products
- Special for Coronavirus
Products Tags
Fmuser Sites
- es.fmuser.net
- it.fmuser.net
- fr.fmuser.net
- de.fmuser.net
- af.fmuser.net ->Afrikaans
- sq.fmuser.net ->Albanian
- ar.fmuser.net ->Arabic
- hy.fmuser.net ->Armenian
- az.fmuser.net ->Azerbaijani
- eu.fmuser.net ->Basque
- be.fmuser.net ->Belarusian
- bg.fmuser.net ->Bulgarian
- ca.fmuser.net ->Catalan
- zh-CN.fmuser.net ->Chinese (Simplified)
- zh-TW.fmuser.net ->Chinese (Traditional)
- hr.fmuser.net ->Croatian
- cs.fmuser.net ->Czech
- da.fmuser.net ->Danish
- nl.fmuser.net ->Dutch
- et.fmuser.net ->Estonian
- tl.fmuser.net ->Filipino
- fi.fmuser.net ->Finnish
- fr.fmuser.net ->French
- gl.fmuser.net ->Galician
- ka.fmuser.net ->Georgian
- de.fmuser.net ->German
- el.fmuser.net ->Greek
- ht.fmuser.net ->Haitian Creole
- iw.fmuser.net ->Hebrew
- hi.fmuser.net ->Hindi
- hu.fmuser.net ->Hungarian
- is.fmuser.net ->Icelandic
- id.fmuser.net ->Indonesian
- ga.fmuser.net ->Irish
- it.fmuser.net ->Italian
- ja.fmuser.net ->Japanese
- ko.fmuser.net ->Korean
- lv.fmuser.net ->Latvian
- lt.fmuser.net ->Lithuanian
- mk.fmuser.net ->Macedonian
- ms.fmuser.net ->Malay
- mt.fmuser.net ->Maltese
- no.fmuser.net ->Norwegian
- fa.fmuser.net ->Persian
- pl.fmuser.net ->Polish
- pt.fmuser.net ->Portuguese
- ro.fmuser.net ->Romanian
- ru.fmuser.net ->Russian
- sr.fmuser.net ->Serbian
- sk.fmuser.net ->Slovak
- sl.fmuser.net ->Slovenian
- es.fmuser.net ->Spanish
- sw.fmuser.net ->Swahili
- sv.fmuser.net ->Swedish
- th.fmuser.net ->Thai
- tr.fmuser.net ->Turkish
- uk.fmuser.net ->Ukrainian
- ur.fmuser.net ->Urdu
- vi.fmuser.net ->Vietnamese
- cy.fmuser.net ->Welsh
- yi.fmuser.net ->Yiddish
dB and dBi and Antenna: What does Antenna Gain Actually Means?
"Choosing the right signal booster and supporting antenna with sufficient power gain to boost your cellular signal is the key. There are many things to consider and here we are going to discuss dB, dBi and gain and what all these mean to signal boosters. ----- FMUSER"
#What is Gain?
When the power coming out of an equipment is greater than the power coming into the equipment, it is said to have a gain in power. When you add a signal booster to your home or business, the device takes the existing signal and amplifies or boosts the power, thus making it possible for a stronger internet signal or connection. Measuring gain allows you to choose the perfect device for your needs. The amount of gain is measured in decibels.
See Also: >>Tips on Antenna Gain Measurement
#What is dB?
dB, or decibel, is how we measure the ratio of input to output power. This is a ratio and not an absolute value. This measures the intensity of the power level of an electrical signal by comparing it to a given scale. Amplifiers cause a gain in power measured in dB and it is indicated by a positive number. Cables can cause a loss of power. This is measured in negative dB.
#What is dBi?
As we continue to get into the more technical aspect of the cell phone booster and signal gain, we need to discuss dBi and its meaning. dBi stands for “decibel relative to isotrope”. Similar to dB, dBi is a ratio. Antenna manufacturers use dBi to measure antenna performance. Your signal booster comes with an antenna with a dBi value, so this is important to know.
See Also: >>What's the difference between "dB", "dBm", and "dBi"?
#Isotropic Antenna
The “i” stands for isotrope, which refers to an isotropic antenna pattern. This pattern is one which radiates power uniformly in all directions. The isotropic antenna is not a real antenna, but rather a model in which gain is measured against. This is a hypothetical antenna with a zero dB power rating, or no gain in and of itself. It is a representation of the pattern of radio waves reflected from the point source.
This is the graphical representation of an isotropic antenna pattern. The red dot in the middle is the point source and the grid is the pattern of the power from the center.
#How is dBi measured?
Antennas may have a rating measured in dBi. This is the amount of power an antenna can send or receive from a specific direction. To the end of the circle of this isotropic antenna is a gain of zero dB. Any gain outside of this circle is the gain of the antenna or “gain dBi”. Another way to put this is, the power in the strongest direction divided by the power that would be transmitted by an isotropic antenna emitting the same total power. Here is the related formula:
10 log10 =the standard logarithm measure of relative power (gets this into dB)
IX =the intensity of the antenna in a single direction at a certain distance
IZ =the electromagnetic intensity of an isotropic antenna at the same distance
Here’s a visual that illustrates this formula.
Signal boosters typically use a dipole antenna, which is an antenna that points signal in one direction. The typical gain of the dipole antenna is 2.15 dBi.
So the antenna’s power gain is important. Two measurements factor into this gain: the antenna’s electrical efficiency and its directionality. Knowing how well an antenna converts radio waves received from a specific direction into electrical power, or vice versa, will ensure you are installing a powerful enough antenna to pick up or transmit the radio waves from the signal booster to the nearest cell phone tower. If you have an indoor antenna, knowing the dBi will ensure you install an antenna which will cover the area you want from an amplifier system.
Another way is using an antenna with a higher dBi ratio. This will enhance your cell phone booster strength and efficiency.
You may also like: >>Basic Antenna Theory: dBi, dB, dBm dB(mW)
>>What is VSWR: Voltage Standing Wave Ratio
>>What is the Difference between AM and FM?