About Me

transformer design calculation excel

Bachelor's degree in Software Engineering, College of Computer & Information Sciences - King Saud University with second class honors.

Frontend Software Engineer with 4+ years of experience building high-quality ReactJS applications across Tech, Startup, and R&D sectors. Certified Agile Project Manager and IT Service Management Specialist, skilled in aligning technical execution with project goals using Scrum. Blending technical expertise and strategic project management to deliver impactful software.

Certifications & Achievements

PMP PMI-ACP CSM ITIL COBIT JSE META
transformer design calculation excel

Secured Second Place in the Quran Apps Challenge Hackathon

transformer design calculation excel

Secured Third Place in the ALLaM Challenge Hackathon

transformer design calculation excel

Secured Second Place in the ROSHN Challenge Hackathon

Transformer Design Calculation Excel Info

Current Density (J) = I rms / A wire (A/mm²)

=1 / (4.44 * Frequency * Flux_Density * (Core_Area / 10000)) Primary Turns =ROUND(Primary_Voltage * TPV, 0) Secondary Turns ( Nscap N sub s ) Secondary Turns =ROUND(Secondary_Voltage * TPV * 1.05, 0) Primary Wire Size Pri Wire Area (mm²) =Primary_Current / Current_Density 4. Optimization, Losses, and Efficiency Calculations transformer design calculation excel

): = ROUND((Primary_Volt_Vp) / (4.44 * Frequency_f * Flux_Density_Bmax * (A_e / 10000)), 0) = N_p / Primary_Volt_Vp Secondary Turns ( Nscap N sub s Current Density (J) = I rms / A wire (A/mm²) =1 / (4

Turns Per Volt (TPV)=14.44⋅f⋅Bm⋅AcTurns Per Volt (TPV) equals the fraction with numerator 1 and denominator 4.44 center dot f center dot cap B sub m center dot cap A sub c end-fraction TPVcap T cap P cap V by the target voltages to find total turns: Secondary Turns ( Nscap N sub s ): transformer design calculation excel

Using the EMF equation in your spreadsheet:

=4.44 * Frequency * Flux_Density * Net_Core_Area Caution: Ensure Accap A sub c is converted to square meters ( m2m squared ) for this formula ( Number of Primary Turns ( N1cap N sub 1

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Major Skills



HTMLHTML
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ReactJSReactJS
FirebaseFirebase
FigmaFigma
ChakraChakra
SassSass
TailwindTailwind
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NextJSNextJS
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JQueryJQuery

Current Density (J) = I rms / A wire (A/mm²)

=1 / (4.44 * Frequency * Flux_Density * (Core_Area / 10000)) Primary Turns =ROUND(Primary_Voltage * TPV, 0) Secondary Turns ( Nscap N sub s ) Secondary Turns =ROUND(Secondary_Voltage * TPV * 1.05, 0) Primary Wire Size Pri Wire Area (mm²) =Primary_Current / Current_Density 4. Optimization, Losses, and Efficiency Calculations

): = ROUND((Primary_Volt_Vp) / (4.44 * Frequency_f * Flux_Density_Bmax * (A_e / 10000)), 0) = N_p / Primary_Volt_Vp Secondary Turns ( Nscap N sub s

Turns Per Volt (TPV)=14.44⋅f⋅Bm⋅AcTurns Per Volt (TPV) equals the fraction with numerator 1 and denominator 4.44 center dot f center dot cap B sub m center dot cap A sub c end-fraction TPVcap T cap P cap V by the target voltages to find total turns: Secondary Turns ( Nscap N sub s ):

Using the EMF equation in your spreadsheet:

=4.44 * Frequency * Flux_Density * Net_Core_Area Caution: Ensure Accap A sub c is converted to square meters ( m2m squared ) for this formula ( Number of Primary Turns ( N1cap N sub 1