Home
Add Document
Sign In
Register
python Code for Transmission Line
Home
python Code for Transmission Line
Python CodeDescripción completa...
Author:
Mark Mercado
9 downloads
296 Views
60KB Size
Report
DOWNLOAD .PDF
Recommend Documents
transmission line
about transmission
Transmission Line Manual
Transmission Line ManualFull description
Transmission Line Manual
Transmission Line Manual
Transmission Line Protection
Transmission line 101
EST
Transmission Line Design
mechanical and electrical design of 80mw 100km transmission line
Practical Transmission Line Calculation
Transmission Line calculationDescripción completa
Transmission Line Design Manual
A guide for the investigation, development, and design of power transmission lines.Deskripsi lengkap
Transmission Line Constants
power system: transmission parameters
CBIP-TRANSMISSION LINE MANUAL.pdf
TRANSMISSION LINE MANUALFull description
Transmission Line Protection
Practical Transmission Line Calculation
Descripción: Transmission Line calculation
Transmission Line Loadability
TRANSMISSION_LINE_LOADABILITY.docx
Transmission Line BOQ
11KV transmission line bill of quantity
Transmission Line Manual
Descripción: Transmission Line Manual
Transmission Line Manual
Transmission Line ManualFull description
Transmission Line Loadability
TRANSMISSION_LINE_LOADABILITY.docx
Pengenalan Transmission Line
Deskripsi lengkap
Transmission Line Design Manual
A guide for the investigation, development, and design of power transmission lines.Descripción completa
Transmission Line MCQ
MCQ - Transmission line with answer
Practical Transmission Line Calculation
Transmission Line calculationFull description
Design of Stub for Transmission Line Towers
Describes step-by-step method for anchoring stub for transmission towerFull description
Method Statement for Transmission Line Lanco
Method Statement for Transmission Line Lanco
Design of Stub for Transmission Line Towers
Describes step-by-step method for anchoring stub for transmission tower
from from from from
math import * numpy import * tkinter import * tkinter import ttk
def calculate1(*args): try: vr = float(voltage.get()) mw = float(megaw.get()) pf = float(pfactor.get()) z = float(impe.get()) zan = float(zang.get()) y = float(admi.get()) yan = float(yang.get()) x = float(dist.get()) pfl = (lela.get()) if pfl == lagging or !lag!: ang = "acos(pf#1$$) num1 = mw*1$$$$$$*exp(1%*ang) den1 = vr*pf*1$ &uo = num1#den1 zt = z*exp(1%*deg'rad(zan)) vs = vr*1$$$ &uo*zt*x vsang = angle(vs) ps = (as(vs)#1$$$$$$*as(&uo)*c (as(vs)#1$$$$$$*as(&uo)*cos(vsang os(vsang " ang))
vsend.set(( round(as(vs#1$$$) +))) vsang'.set(round(rad'deg(angle(vs))+)) is1.set(round(as(&uo # 1.,+'$-$$) +)) psend.set(round(as(vs)#1$$$$$$*as(&uo)*cos(vsang psend.set(round(as(vs)#1$$$ $$$*as(&uo)*cos(vsang " ang)+)) eff.set(round( mw*1$$#ps+)) print(as(vs)) elif pfl == leading or lead: ang = acos(pf#1$$) num1 = mw * 1$$$$$$ * exp(1% * ang) den1 = vr * pf * 1$ &uo = num1 # den1 zt = z * exp(1% * deg'rad(zan)) vs = vr * 1$$$ &uo * zt * x vsang = angle(vs) ps = (as(vs) # 1$$$$$$ * as(&uo) * cos(vsang " ang))
vsend.set((round(as(vs)#1$$ $ +))) vsend.set((round(as(vs)#1$$$ vsang'.set(round(rad'deg(angle(vs))+)) is1.set(round(as(&uo#1.,+'$-$$)+)) psend.set(round(as(vs) # 1$$$$$$ * as(&uo) * cos(vsang " ang) +)) eff.set(round( mw*1$$#ps+)) except /alue0rror: pass
def calculate'(*args): try: vr = float(voltage.get()) mw = float(megaw.get())
pf = float(pfactor.get()) z = float(impe.get()) zan = float(zang.get()) y = float(admi.get()) yan = float(yang.get()) x = float(dist.get()) pfl = (lela.get()) if pfl == lagging or !lag!: ang = "acos(pf#1$$) num1 = mw*1$$$$$$*exp(1%*ang) den1 = vr*pf*1$ &uo = num1#den1 zt = z*exp(1%*deg'rad(zan)) vs = vr*1$$$ &uo*zt*x vsang = angle(vs) ps = (as(vs)#1$$$$$$*as(&uo)*cos(vsang " ang))
vsend.set(( round(as(vs#1$$$) +))) vsang'.set(round(rad'deg(angle(vs))+)) is1.set(round(as(&uo # 1.,+'$-$$) +)) psend.set(round(as(vs)#1$$$$$$*as(&uo)*cos(vsang " ang)+)) eff.set(round( mw*1$$#ps+)) print(as(vs)) elif pfl == leading or lead: ang = acos(pf#1$$) num1 = mw * 1$$$$$$ * exp(1% * ang) den1 = vr * pf * 1$ &uo = num1 # den1 zt = z * exp(1% * deg'rad(zan)) vs = vr * 1$$$ &uo * zt * x vsang = angle(vs) ps = (as(vs) # 1$$$$$$ * as(&uo) * cos(vsang " ang))
vsend.set((round(as(vs)#1$$$ +))) vsang'.set(round(rad'deg(angle(vs))+)) is1.set(round(as(&uo#1.,+'$-$$)+)) psend.set(round(as(vs) # 1$$$$$$ * as(&uo) * cos(vsang " ang) +)) eff.set(round( mw*1$$#ps+)) except /alue0rror: pass
def calculate+(*args): try: vr = float(voltage.get()) mw = float(megaw.get()) pf = float(pfactor.get()) z = float(impe.get()) zan = float(zang.get()) y = float(admi.get()) yan = float(yang.get()) x = float(dist.get()) pfl = (lela.get()) if pfl == lagging or !lag!: ang = "acos(pf#1$$) num1 = mw*1$$$$$$*exp(1%*ang)
den1 = vr*pf*1$ &uo = num1#den1 zt = z*exp(1%*deg'rad(zan)) vs = vr*1$$$ &uo*zt*x vsang = angle(vs) ps = (as(vs)#1$$$$$$*as(&uo)*cos(vsang " ang))
vsend.set(( round(as(vs#1$$$) +))) vsang'.set(round(rad'deg(angle(vs))+)) is1.set(round(as(&uo # 1.,+'$-$$) +)) psend.set(round(as(vs)#1$$$$$$*as(&uo)*cos(vsang " ang)+)) eff.set(round( mw*1$$#ps+)) print(as(vs)) elif pfl == leading or lead: ang = acos(pf#1$$) num1 = mw * 1$$$$$$ * exp(1% * ang) den1 = vr * pf * 1$ &uo = num1 # den1 zt = z * exp(1% * deg'rad(zan)) vs = vr * 1$$$ &uo * zt * x vsang = angle(vs) ps = (as(vs) # 1$$$$$$ * as(&uo) * cos(vsang " ang))
vsend.set((round(as(vs)#1$$$ +))) vsang'.set(round(rad'deg(angle(vs))+)) is1.set(round(as(&uo#1.,+'$-$$)+)) psend.set(round(as(vs) # 1$$$$$$ * as(&uo) * cos(vsang " ang) +)) eff.set(round( mw*1$$#ps+)) except /alue0rror: pass
root = k() root.title(!23456755784!) 9root.geometry(!'$x$!)
mainframe = ttk.;rame(root padding=!< < 1' 1'!) mainframe.grid(column=$ row=$ sticky=(4 0 5)) mainframe.columnconfigure($ weight=1) mainframe.rowconfigure($ weight=1) root.rowconfigure($ weight=1) root.columnconfigure($ weight=1) 9rows = $ 9while rows > -$: 9 root.rowconfigure(rows weight=1) 9 root.columnconfigure(rows weight=1) 9 rows = 1 n = ttk.4oteook(root padding = !1' 1' 1' 1'!) n.grid(column=$ row=$ sticky=(4 0 5)) n.columnconfigure($ weight=1) n.rowconfigure($ weight=1)
9 3dds ta 1 of the noteook page1 = ttk.;rame(n) n.add(page1 text=a1) 9 3dds ta ' of the noteook page' = ttk.;rame(n) n.add(page' text=a')
parent=5tring/ar() voltage = 5tring/ar() megaw = 5tring/ar() pfactor = 5tring/ar() impe = 5tring/ar() zang = 5tring/ar() dist = 5tring/ar() lela = 5tring/ar() admi = 5tring/ar() yang = 5tring/ar() vsend = 5tring/ar() vsang' = 5tring/ar() is1 = 5tring/ar() psend = 5tring/ar() eff = 5tring/ar() voltage?entry = ttk.0ntry(page1 width=< textvariale=voltage) voltage?entry.grid(column=' row=' sticky=( 0)) megaw?entry = ttk.0ntry(page1 width=' textvariale=megaw) megaw?entry.grid(column=' row=+ sticky=( 0)) pfactor?entry = ttk.0ntry(page1 width=' textvariale=pfactor) pfactor?entry.grid(column=' row= sticky=( 0)) lela?entry = ttk.0ntry(page1 width=' textvariale=lela) lela?entry.grid(column=' row=- sticky=( 0)) impe?entry = ttk.0ntry(page1 width=' textvariale=impe) impe?entry.grid(column=' row=< sticky=( 0)) zang?entry = ttk.0ntry(page1 width=' textvariale=zang) zang?entry.grid(column=' row=, sticky=( 0)) admi?entry = ttk.0ntry(page1 width=' textvariale=admi) admi?entry.grid(column=' row= sticky=( 0)) yang?entry = ttk.0ntry(page1 width=' textvariale=yang) yang?entry.grid(column=' row=@ sticky=( 0)) dist?entry = ttk.0ntry(page1 width=' textvariale=dist) dist?entry.grid(column=' row=1$ sticky=( 0)) ttk.Aael(page' textvariale=vsend).grid(column=+ row=1' columnspan=- sticky=) ttk.Aael(page' textvariale=vsang').grid(column=+ row=1+ sticky=0) ttk.Aael(page' textvariale=is1).grid(column=+ row=1 sticky=0) ttk.Aael(page' textvariale=psend).grid(column=+ row=1- sticky=0) ttk.Aael(page' textvariale=eff).grid(column=+ row=1< sticky=0) ttk.Button(page1 text=!Calculate! command=calculate1).grid(column=+ row=1' columnspan=1 sticky=0)
ttk.Aael(page1 text=! 74DE F7/04!).grid(column=' row=1columnspan = ' sticky=( 0)) ttk.Aael(page1 text=!/oltage 2eceiving (in k/)!).grid(column=+ row=' sticky=) ttk.Aael(page1 text=!Dower 2eceiving (in 6)!).grid(column=+ row=+ sticky=) ttk.Aael(page1 text=!Dower ;actor (in G)!).grid(column=+ row= sticky=) ttk.Aael(page1 text=!Aeading or Aagging!).grid(column=+ row=- sticky=) ttk.Aael(page1 text=!7mpedance (r)!).grid(column=+ row=< sticky=) ttk.Aael(page1 text=!7mpedance 3ngle (H)!).grid(column=+ row=, sticky=) ttk.Aael(page1 text=!3dmittance (r)!).grid(column=+ row= sticky=) ttk.Aael(page1 text=!3dmittance 3ngle (H)!).grid(column=+ row=@ sticky=) ttk.Aael(page1 text=!Iistance (m)!).grid(column=+ row=1$ sticky=)
ttk.Aael(page' text=! 5J82 23456755784 A740 !).grid(column=' row=1 columnspan = + sticky=) ttk.Aael(page' text=! !).grid(column= row=' sticky=) ttk.Aael(page' text=!/oltage 5ending!).grid(column=' row=1' sticky=0) ttk.Aael(page' text=!Current 5ending!).grid(column=' row=1 sticky=0) ttk.Aael(page' text=!/oltage 5ending 3ngle!).grid(column=' row=1+ sticky=0) ttk.Aael(page' text=!Dower 5ending!).grid(column=' row=1- sticky=0) ttk.Aael(page' text=!0fficiency!).grid(column=' row=1< sticky=0) ttk.Aael(page' text=!k/!).grid(column= row=1' sticky=) ttk.Aael(page' text=!degrees!).grid(column= row=1+ sticky=) ttk.Aael(page' text=!3mpere!).grid(column= row=1 sticky=) ttk.Aael(page' text=!6!).grid(column= row=1- sticky=) ttk.Aael(page' text=!G!).grid(column= row=1< sticky=)
for child in page1.winfo?children(): child.grid?configure(padx=- pady=-) for child in page'.winfo?children(): child.grid?configure(padx=- pady=-) voltage?entry.focus() root.ind(>2eturnK calculate1) root.mainloop()
×
Report "python Code for Transmission Line"
Your name
Email
Reason
-Select Reason-
Pornographic
Defamatory
Illegal/Unlawful
Spam
Other Terms Of Service Violation
File a copyright complaint
Description
×
Sign In
Email
Password
Remember me
Forgot password?
Sign In
Our partners will collect data and use cookies for ad personalization and measurement.
Learn how we and our ad partner Google, collect and use data
.
Agree & close