Please solve this but using the
value ZL = (100 + j50)
Thank you
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Please solve this but using the value ZL = (100 + j50) Thank you A 50 Q lossless line is to be matched to an antenna wit...
6.6. A lossless 100-12 transmission line is to be matched with a 100 +j100- 12 load...
6.6. A lossless 100-12 transmission line is to be matched with a 100 +j100- 12 load using a double-stub tuner (Figure P6.6). Separation between the two stubs is 1/8 and the characteristic impedance is 100S2. A load is connected right at the location of the first stub. Determine the shortest possible lengths of the two stubs to obtain the matched condition, and find the VSWR between the two stubs. 228 IMPEDANCE-MATCHING NETWORKS 100 +j1002 10022 W/8 Figure P6.6
A 50 ohm lossless coaxial cable ( Er=4) is connected to a 100 ohm antenna operated...
A 50 ohm lossless coaxial cable ( Er=4) is connected to a 100 ohm antenna operated at 5 GHz. If the cable length is 40 cm, find the input impedance by using the ZY Smith Chart.
In a radio frequency circuit, a resistance of 175 Ω serves as a load at the end of a 50 Ω transmi...
In a radio frequency circuit, a resistance of 175 Ω serves as a
load at the end of a 50 Ω transmission line. We want to use a
shorted stub in parallel to achieve maximum power transfer. Use the
Smith Chart Diagram
Determine the minimum distance in wavelengths from the charge,
that the stub must be connected.
Determine the minimum length of the stub in wavelengths.
Please write clearly to see it right
Smith Chart
Smith Chart
pleas sole this Q Q. A lossless line has Zo= 100 1 and ZL= (x +j...
pleas sole this Q
Q. A lossless line has Zo= 100 1 and ZL= (x +j y) 12. Wherex & y are from the last 6 digits of your UQU-ID. Also, if the ID is an even number, reactive part is positive and if it is an odd number, reactive part is negative. For example, if your UQU-ID is 437654321 then Zu= 654 - j 321) 2.( NOTE my ID IS 436017076) The line operates at 300 MHz and speed...
SET 1 1. A lossless transmission line of length 1-0.3? is terminated with complex load impedance...
SET 1 1. A lossless transmission line of length 1-0.3? is terminated with complex load impedance ZL- 30 + j20 ? and characteristic impedance Z0-75 ?. Using formulae, calculate (7 Marks) (4 Marks) (5 Marks) (14 Marks) i. The input impedance to the line Zin in ?; The input admittance to the line Yin in S; i The distance to first minimum from the load; Use Smith Chart to all above parameters iv.
Q1. (20pts) Consider a lossless transmission line with characteristic impedance Zo=50 Q is used to connect...
Q1. (20pts) Consider a lossless transmission line with characteristic impedance Zo=50 Q is used to connect a sinusoidal source with internal resistance Rs=50 2, and 10 Volts peak value to feed a load of ZL=300 Q. At an operating signal wavelength of do, the length of the transmission line is L=2.25o. Determine the followings: a) Standing wave ratio on the line b) Average power delivered to the load in dBm. c) The voltage and current phasor expressions on the transmission...
2) Solve this question using Smith Chart ONLY. Attach your chart with your submission. A single s...
2) Solve this question using Smith Chart ONLY. Attach your chart with your submission. A single short circuited series stub tuner is used to match a 100 Ω transmission line to a load impedance "Z, 40 - j 40". Determine: a) The distance of the stub from the load "d1 and d2". (Find two solutions) b) The length of the stub "l1 and 12". c) If a lumped element (inductor or capacitor) is used instead of the stub, find the...
Really appreciate any help. Thank you in advance! 1. Use the Smith chart to find the...
Really appreciate any help. Thank you in advance! 1. Use the Smith chart to find the reflection coefficient corresponding to the load impedance ZL =30−j80Ω. 2. Use the Smith chart to find the impedance corresponding to a reflection coefficient of Γ = ◦ 0.5̸ −45. 3. A transmission line is terminated with a load ZL = 80 + j120 Ω. Use the Smith chart to find (a) the load reflection coefficient, (b) the standing wave ratio, (c) the input impedance...
1) You have a transmission line with Zo = 500 that you wish to match to...
1) You have a transmission line with Zo = 500 that you wish to match to a (100-j150) load. The phase velocity on the line is 2.0x108 m/s and the frequency of operation is 91.9MHz (KSDB-FM). Use the Smith chart to find: a. The shortest distance from the load that you can insert a quarter wave transformer to match the line to the load. b. The characteristic impedance and length of the quarter wave transformer from part a. C. The...
Could you solve a part. Please please could you please solve i and ii could please clearly and co...
Could you solve a part. Please please could you please solve i and
ii could please clearly and correctly
Length of plunger h Magnetie plunger Lossless N-turn coil Magnetic core Figure 2: Figure for Question 3. 3. (60 points) In the magnetic circuit in Figure 2, the moveable plunger of height h noves between two parallel core columns of width d, creating air gaps of lengths gi and 92 as shown (h 9.9 f the plunger position z where 0...
6.6. A lossless 100-12 transmission line is to be matched with a 100 +j100- 12 load using a double-stub tuner (Figure P6.6). Separation between the two stubs is 1/8 and the characteristic impedance is 100S2. A load is connected right at the location of the first stub. Determine the shortest possible lengths of the two stubs to obtain the matched condition, and find the VSWR between the two stubs. 228 IMPEDANCE-MATCHING NETWORKS 100 +j1002 10022 W/8 Figure P6.6
In a radio frequency circuit, a resistance of 175 Ω serves as a
load at the end of a 50 Ω transmission line. We want to use a
shorted stub in parallel to achieve maximum power transfer. Use the
Smith Chart Diagram
Determine the minimum distance in wavelengths from the charge,
that the stub must be connected.
Determine the minimum length of the stub in wavelengths.
Please write clearly to see it right
Smith Chart
Smith Chart
pleas sole this Q
Q. A lossless line has Zo= 100 1 and ZL= (x +j y) 12. Wherex & y are from the last 6 digits of your UQU-ID. Also, if the ID is an even number, reactive part is positive and if it is an odd number, reactive part is negative. For example, if your UQU-ID is 437654321 then Zu= 654 - j 321) 2.( NOTE my ID IS 436017076) The line operates at 300 MHz and speed...
SET 1 1. A lossless transmission line of length 1-0.3? is terminated with complex load impedance ZL- 30 + j20 ? and characteristic impedance Z0-75 ?. Using formulae, calculate (7 Marks) (4 Marks) (5 Marks) (14 Marks) i. The input impedance to the line Zin in ?; The input admittance to the line Yin in S; i The distance to first minimum from the load; Use Smith Chart to all above parameters iv.
Q1. (20pts) Consider a lossless transmission line with characteristic impedance Zo=50 Q is used to connect a sinusoidal source with internal resistance Rs=50 2, and 10 Volts peak value to feed a load of ZL=300 Q. At an operating signal wavelength of do, the length of the transmission line is L=2.25o. Determine the followings: a) Standing wave ratio on the line b) Average power delivered to the load in dBm. c) The voltage and current phasor expressions on the transmission...
2) Solve this question using Smith Chart ONLY. Attach your chart with your submission. A single short circuited series stub tuner is used to match a 100 Ω transmission line to a load impedance "Z, 40 - j 40". Determine: a) The distance of the stub from the load "d1 and d2". (Find two solutions) b) The length of the stub "l1 and 12". c) If a lumped element (inductor or capacitor) is used instead of the stub, find the...
1) You have a transmission line with Zo = 500 that you wish to match to a (100-j150) load. The phase velocity on the line is 2.0x108 m/s and the frequency of operation is 91.9MHz (KSDB-FM). Use the Smith chart to find: a. The shortest distance from the load that you can insert a quarter wave transformer to match the line to the load. b. The characteristic impedance and length of the quarter wave transformer from part a. C. The...
Could you solve a part. Please please could you please solve i and
ii could please clearly and correctly
Length of plunger h Magnetie plunger Lossless N-turn coil Magnetic core Figure 2: Figure for Question 3. 3. (60 points) In the magnetic circuit in Figure 2, the moveable plunger of height h noves between two parallel core columns of width d, creating air gaps of lengths gi and 92 as shown (h 9.9 f the plunger position z where 0...
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