uZW - Synthesize/Analyze microstrip transmission line

Japanese edition is here.

Usage

Synthesize : XEQ W
Analyze    : XEQ Z

Input

MEM E : relative permittivity
MEM H : dielectric height           [mm]
MEM T : conductor thickness         [mm]
REG x : line impedance              [Ω]  (Synthesize)
      | microstrip line width       [mm] (Analyze)

Resources used

MEM E : relative permittivity
MEM H : dielectric height           [mm]
MEM R : velocity of propagation
MEM T : conductor thickness         [mm]
MEM W : Microstrip line width       [Ω]
MEM Z : characteristic impedance    [Ω]

Output

MEM R : velocity of propagation
MEM W : Microstrip line width       [Ω]  (Synthesized)
MEM Z : characteristic impedance    [Ω]  (Analyzed)

REG t : rightangle bend compensation
REG z : open end compensation       [mm]
REG y : velocity of propagation
REG χ : microstrip line width       [mm] (Synthesized)
    | : characteristic impedance    [Ω]  (Analyzed)

Program list

μZW ‐ Rev. 1.76 : Jan. 24, 2012

LBL W STO Z 8 RCL× H 1 RCL+ E SQRT RCL× Z 72 ÷ eχ ÷ STO W FN= X SOLVE W STO W XEQ Y RCL W RTN

LBL X 4 RCL× H RCL H 11 10 ÷ RCL× T RCL+ W π × ÷ χ² 1 + SQRT RCL× T ÷ LN 1 + RCL× T π ÷ RCL E 1/χ 1 + 2 ÷ × LASTχ π χ² 4 R↑ RCL+ W

÷ RCL× H ENTER R↓ R↓ × 8 RCL÷ E 14 + 11 ÷ R↑ × ENTER R↓ χ² + SQRT R↑ + × 1 + LN 42.397056 1 RCL+ E SQRT ÷ × RCL- Z RTN

LBL Y 1 χ<> E STO R XEQ X RCL+ Z RCL÷ Z 1/χ χ<> R STO E

103 250 ÷ RCL× H 3 10 ÷ RCL+ E × 0.262 RCL W RCL÷ H + LASTχ 0.813 + -0.258 RCL+ E × 1/χ × ×

-27 RCL× W 20 RCL× H ÷ eχ 65 × 52 + 100 ÷ χ≤0? CLχ RCL R RTN

LBL Z STO W CLχ STO Z XEQ X STO Z XEQ Y RCL Z RTN

• W (CK=2624 028.5) : Synthesize
  
• X (CK=5C87 113.0) : Effective width
  
• Y (CK=96BA 104.0) : Velocity of propagation, Open-end compensation, and
  Rightangle bend compensation (valid for 0.25 ≤ W/H ≤ 2.75, 2.5 ≤ ε_r ≤ 25, VSWR ≤ 1.1 [2](i.e. S₁₁ ≤ -26dB))
  
• Z (CK=1EFC 013.5) : Analyze (Characteristic impedance error ≤ 2% [1])
  

Formulas used

Micro strip line impedance

where,

Right bend compensation

Example (Synthesize)

Input

3.5 STO E 0.400 STO H 0.018 STO T 50 XEQ W

Output

MEM R : 608.477373E-3 MEM W : 877.596205E-3 MEM Z : 50.00000000E0 REG t : 157.769272E-3 REG z : 553.618791E-3 REG y : 608.477373E-3 REG χ : 877.596205E-3

REFERENCES

1. H. A. Wheeler, "Transmission-line properties of a strip on a dielectric sheet on a plane",
   IEEE Trans. Microwave Theory Tech., vol. MTT-25, pp.631-647, Aug. 1977.
   
   
2. R. J. Douville and D. S. James, "Experimental study of symmetric microstrip bends and their compensation",
   IEEE Trans. Microwave Theory Tech., vol. MTT-26, pp. 175-182, Mar. 1978
   

SEE ALSO

Online calculator - Synthesize/Analyze microstrip transmission line
for the HP 42S - Synthesize/Analyze microstrip transmission line
for the HP 15C - Synthesize/Analyze microstrip transmission line
Ostrowski's method