Calculation of line of sight system gain
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I'm trying to calculate the overall gain of the transmitter-receiver system for a line-of-sight wireless transmission with the following properties:
- A carrier frequency of 0.5GHz
- A distance between the transmitter and receiver antennas of 2Km
- A parabolic antenna in the transmitter with a face area of 0.8m2
- An infinitesimal dipole in the receiver
From what I can understand/determine the equation for calculating gain is:
G = 4π*effective area/carrier wavelength/carrier wavelength OR
G = 4π*carrier frequency2*effective area/speed of light2
My question is how to calculate the overall gain of the system. Is it as simple as calculating the gain of the transmitter and receiver separately and then adding them together?
signal-analysis
New contributor
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add a comment |
$begingroup$
I'm trying to calculate the overall gain of the transmitter-receiver system for a line-of-sight wireless transmission with the following properties:
- A carrier frequency of 0.5GHz
- A distance between the transmitter and receiver antennas of 2Km
- A parabolic antenna in the transmitter with a face area of 0.8m2
- An infinitesimal dipole in the receiver
From what I can understand/determine the equation for calculating gain is:
G = 4π*effective area/carrier wavelength/carrier wavelength OR
G = 4π*carrier frequency2*effective area/speed of light2
My question is how to calculate the overall gain of the system. Is it as simple as calculating the gain of the transmitter and receiver separately and then adding them together?
signal-analysis
New contributor
$endgroup$
add a comment |
$begingroup$
I'm trying to calculate the overall gain of the transmitter-receiver system for a line-of-sight wireless transmission with the following properties:
- A carrier frequency of 0.5GHz
- A distance between the transmitter and receiver antennas of 2Km
- A parabolic antenna in the transmitter with a face area of 0.8m2
- An infinitesimal dipole in the receiver
From what I can understand/determine the equation for calculating gain is:
G = 4π*effective area/carrier wavelength/carrier wavelength OR
G = 4π*carrier frequency2*effective area/speed of light2
My question is how to calculate the overall gain of the system. Is it as simple as calculating the gain of the transmitter and receiver separately and then adding them together?
signal-analysis
New contributor
$endgroup$
I'm trying to calculate the overall gain of the transmitter-receiver system for a line-of-sight wireless transmission with the following properties:
- A carrier frequency of 0.5GHz
- A distance between the transmitter and receiver antennas of 2Km
- A parabolic antenna in the transmitter with a face area of 0.8m2
- An infinitesimal dipole in the receiver
From what I can understand/determine the equation for calculating gain is:
G = 4π*effective area/carrier wavelength/carrier wavelength OR
G = 4π*carrier frequency2*effective area/speed of light2
My question is how to calculate the overall gain of the system. Is it as simple as calculating the gain of the transmitter and receiver separately and then adding them together?
signal-analysis
signal-analysis
New contributor
New contributor
New contributor
asked 2 hours ago
Lily HaynesLily Haynes
61
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1 Answer
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You need to multiply the antenna gains, not add them. Specifically, if the free-space loss (attenuation) is $L_{FS}$, the transmitter antenna has gain $G_T$, and the receiver antenna has gain $G_R$, then the total system loss $L$ is $$ L = frac{L_{FS}}{G_T G_R}. $$ The system gain $G$ is $$G = frac{1}{L} = G_{FS}G _T G_R, $$ where $G_{FS}$ is the free-space gain.
Of course, if you're doing the calculation in decibels, then the antenna gains are added: $$ G_{dB} = G_{FS,dB} + G_{T,dB} + G_{R,dB}. $$
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$begingroup$
Thank you that's really helpful but I'm a bit confused as to how to calculate the free-space gain that you talked about. I understand how to calculate the free-space loss, but I can't seem to find any information about free-space gain?
$endgroup$
– Lily Haynes
58 mins ago
$begingroup$
I focused on the gain since that is what you mention in your question. The gain is just the reciprocal of the loss: $G = 1/L$. If all you need is the loss, you can use the first formula in my answer; in decibels, it'd be $L_{dB} = L_{FS,dB} - G_{T,dB} - G_{R,dB}$.
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– MBaz
21 mins ago
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Perfect, I understand now, thank you for your help!
$endgroup$
– Lily Haynes
19 mins ago
$begingroup$
You're welcome; glad to be of help!
$endgroup$
– MBaz
17 mins ago
add a comment |
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1 Answer
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1 Answer
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$begingroup$
You need to multiply the antenna gains, not add them. Specifically, if the free-space loss (attenuation) is $L_{FS}$, the transmitter antenna has gain $G_T$, and the receiver antenna has gain $G_R$, then the total system loss $L$ is $$ L = frac{L_{FS}}{G_T G_R}. $$ The system gain $G$ is $$G = frac{1}{L} = G_{FS}G _T G_R, $$ where $G_{FS}$ is the free-space gain.
Of course, if you're doing the calculation in decibels, then the antenna gains are added: $$ G_{dB} = G_{FS,dB} + G_{T,dB} + G_{R,dB}. $$
$endgroup$
$begingroup$
Thank you that's really helpful but I'm a bit confused as to how to calculate the free-space gain that you talked about. I understand how to calculate the free-space loss, but I can't seem to find any information about free-space gain?
$endgroup$
– Lily Haynes
58 mins ago
$begingroup$
I focused on the gain since that is what you mention in your question. The gain is just the reciprocal of the loss: $G = 1/L$. If all you need is the loss, you can use the first formula in my answer; in decibels, it'd be $L_{dB} = L_{FS,dB} - G_{T,dB} - G_{R,dB}$.
$endgroup$
– MBaz
21 mins ago
$begingroup$
Perfect, I understand now, thank you for your help!
$endgroup$
– Lily Haynes
19 mins ago
$begingroup$
You're welcome; glad to be of help!
$endgroup$
– MBaz
17 mins ago
add a comment |
$begingroup$
You need to multiply the antenna gains, not add them. Specifically, if the free-space loss (attenuation) is $L_{FS}$, the transmitter antenna has gain $G_T$, and the receiver antenna has gain $G_R$, then the total system loss $L$ is $$ L = frac{L_{FS}}{G_T G_R}. $$ The system gain $G$ is $$G = frac{1}{L} = G_{FS}G _T G_R, $$ where $G_{FS}$ is the free-space gain.
Of course, if you're doing the calculation in decibels, then the antenna gains are added: $$ G_{dB} = G_{FS,dB} + G_{T,dB} + G_{R,dB}. $$
$endgroup$
$begingroup$
Thank you that's really helpful but I'm a bit confused as to how to calculate the free-space gain that you talked about. I understand how to calculate the free-space loss, but I can't seem to find any information about free-space gain?
$endgroup$
– Lily Haynes
58 mins ago
$begingroup$
I focused on the gain since that is what you mention in your question. The gain is just the reciprocal of the loss: $G = 1/L$. If all you need is the loss, you can use the first formula in my answer; in decibels, it'd be $L_{dB} = L_{FS,dB} - G_{T,dB} - G_{R,dB}$.
$endgroup$
– MBaz
21 mins ago
$begingroup$
Perfect, I understand now, thank you for your help!
$endgroup$
– Lily Haynes
19 mins ago
$begingroup$
You're welcome; glad to be of help!
$endgroup$
– MBaz
17 mins ago
add a comment |
$begingroup$
You need to multiply the antenna gains, not add them. Specifically, if the free-space loss (attenuation) is $L_{FS}$, the transmitter antenna has gain $G_T$, and the receiver antenna has gain $G_R$, then the total system loss $L$ is $$ L = frac{L_{FS}}{G_T G_R}. $$ The system gain $G$ is $$G = frac{1}{L} = G_{FS}G _T G_R, $$ where $G_{FS}$ is the free-space gain.
Of course, if you're doing the calculation in decibels, then the antenna gains are added: $$ G_{dB} = G_{FS,dB} + G_{T,dB} + G_{R,dB}. $$
$endgroup$
You need to multiply the antenna gains, not add them. Specifically, if the free-space loss (attenuation) is $L_{FS}$, the transmitter antenna has gain $G_T$, and the receiver antenna has gain $G_R$, then the total system loss $L$ is $$ L = frac{L_{FS}}{G_T G_R}. $$ The system gain $G$ is $$G = frac{1}{L} = G_{FS}G _T G_R, $$ where $G_{FS}$ is the free-space gain.
Of course, if you're doing the calculation in decibels, then the antenna gains are added: $$ G_{dB} = G_{FS,dB} + G_{T,dB} + G_{R,dB}. $$
answered 1 hour ago
MBazMBaz
9,08041733
9,08041733
$begingroup$
Thank you that's really helpful but I'm a bit confused as to how to calculate the free-space gain that you talked about. I understand how to calculate the free-space loss, but I can't seem to find any information about free-space gain?
$endgroup$
– Lily Haynes
58 mins ago
$begingroup$
I focused on the gain since that is what you mention in your question. The gain is just the reciprocal of the loss: $G = 1/L$. If all you need is the loss, you can use the first formula in my answer; in decibels, it'd be $L_{dB} = L_{FS,dB} - G_{T,dB} - G_{R,dB}$.
$endgroup$
– MBaz
21 mins ago
$begingroup$
Perfect, I understand now, thank you for your help!
$endgroup$
– Lily Haynes
19 mins ago
$begingroup$
You're welcome; glad to be of help!
$endgroup$
– MBaz
17 mins ago
add a comment |
$begingroup$
Thank you that's really helpful but I'm a bit confused as to how to calculate the free-space gain that you talked about. I understand how to calculate the free-space loss, but I can't seem to find any information about free-space gain?
$endgroup$
– Lily Haynes
58 mins ago
$begingroup$
I focused on the gain since that is what you mention in your question. The gain is just the reciprocal of the loss: $G = 1/L$. If all you need is the loss, you can use the first formula in my answer; in decibels, it'd be $L_{dB} = L_{FS,dB} - G_{T,dB} - G_{R,dB}$.
$endgroup$
– MBaz
21 mins ago
$begingroup$
Perfect, I understand now, thank you for your help!
$endgroup$
– Lily Haynes
19 mins ago
$begingroup$
You're welcome; glad to be of help!
$endgroup$
– MBaz
17 mins ago
$begingroup$
Thank you that's really helpful but I'm a bit confused as to how to calculate the free-space gain that you talked about. I understand how to calculate the free-space loss, but I can't seem to find any information about free-space gain?
$endgroup$
– Lily Haynes
58 mins ago
$begingroup$
Thank you that's really helpful but I'm a bit confused as to how to calculate the free-space gain that you talked about. I understand how to calculate the free-space loss, but I can't seem to find any information about free-space gain?
$endgroup$
– Lily Haynes
58 mins ago
$begingroup$
I focused on the gain since that is what you mention in your question. The gain is just the reciprocal of the loss: $G = 1/L$. If all you need is the loss, you can use the first formula in my answer; in decibels, it'd be $L_{dB} = L_{FS,dB} - G_{T,dB} - G_{R,dB}$.
$endgroup$
– MBaz
21 mins ago
$begingroup$
I focused on the gain since that is what you mention in your question. The gain is just the reciprocal of the loss: $G = 1/L$. If all you need is the loss, you can use the first formula in my answer; in decibels, it'd be $L_{dB} = L_{FS,dB} - G_{T,dB} - G_{R,dB}$.
$endgroup$
– MBaz
21 mins ago
$begingroup$
Perfect, I understand now, thank you for your help!
$endgroup$
– Lily Haynes
19 mins ago
$begingroup$
Perfect, I understand now, thank you for your help!
$endgroup$
– Lily Haynes
19 mins ago
$begingroup$
You're welcome; glad to be of help!
$endgroup$
– MBaz
17 mins ago
$begingroup$
You're welcome; glad to be of help!
$endgroup$
– MBaz
17 mins ago
add a comment |
Lily Haynes is a new contributor. Be nice, and check out our Code of Conduct.
Lily Haynes is a new contributor. Be nice, and check out our Code of Conduct.
Lily Haynes is a new contributor. Be nice, and check out our Code of Conduct.
Lily Haynes is a new contributor. Be nice, and check out our Code of Conduct.
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