Power, Voltage and EMF Equation of a DC Motor – Formulas

DC Motors Formulas and Back EMF Equation

EMF Equation of a DC Motor

The basic DC motor’s E.M.F equation is given below.

Eb = PΦNZ  / 60A

Voltage Equation of a DC Motor

Input Voltage provided to the motor armature performs the following two tasks:

• Controls the induced Back E.M.F “E_b” of the Motor.
• Provides supply to the Ohmic I_aR_a drop.

i.e.

V = E_b + I_aR_a        …..        (1)

Where

• E_b = Back E.M.F
• I_aR_a   = Armature Current X Armature Resistance

The above relation is known as “Voltage Equation of the DC Motor”.

Power Equation of a DC Motor

Multiplying both sides of Voltage Equation (1) by I_a , we get the power equation of a DC motor as follow.

VI_a= E_bI_a + I_a² R_a        …..        (2)

Where,

• VI_a = Input Power supply (Armature Input)
• E_bI_a = Mechanical Power developed in Armature (Armature Output)
• I_a² R_a = Power loss in armature (Armature Copper (Cu) Loss)

Related Posts:

• Motor Starter – Types of Motor Starters and Motor Starting Methods
• Direct Online Starter – DOL Starter Wiring Diagram for Motors
• Cable Size Calculation for LT & HT Motors

Shunt Motor:

Voltage Equation of Shunt Motor:

V = E_b + I_a x R_a

Where

• V is the terminal voltage
• E_b is the induced back e.m.f
• I_a is the armature current
• R­­­_a is the armature resistance

The Shunt Field Current:

I­_sh ­= V / R_sh

Where

• I_sh is the shunt field current
• R_{sh ­}is the shunt field resistance

Induced Back EMF:

The armature induced voltage E_b is proportional to the speed & it is given by:

E_b = k_fΦω

Where

• K_f is a constant based on machine construction
• Φ is the magnetic flux
• ω is the angular speed

Maximum Power Condition:

The output mechanical power is of shunt dc motor is maximum when the back e.m.f. produced is equal to the half of its terminal voltage i.e.

E_b = V/2

Torque & Speed:

And

Where

• N = speed of the motor in RPM
• P = No of poles
• Z = number of armature conductors
• A = number of armature parallel path

Related Posts:

• EMF Equation of a Transformer
• EMF Equation of an Alternator and AC Generator

Speed Regulation:

It is a term expressed in percentage that shows the change of motor speed when the load is changed.

Where

• N­_nl = No load speed of the motor
• N_fl = Full load speed of the motor

Input & Output Power:

P_in = VI_a

P_out = T ω

Where

• V = terminal voltage
• I­a = armature current
• T = torque of the motor
• ω = speed of the motor

Related Posts:

• Servo Motor – Types, Construction, Working, Controlling & Applications
• Brushless DC Motor (BLDC) – Construction, Working Principle & Applications
• Stepper Motor – Types, Construction, Operation & Applications

Series Motor:

Voltage Equation Of Series Motor:

V = E_a + I_a R_a + I_aR_se

V = E_a + I_a(R_a+R_se)

Where

• E­_a is the armature induced voltage
• I_a is the armature current
• R­­­_a is the armature resistance
• R_se is the series field resistance

Armature Induced Voltage & Torque:

The armature induced voltage E_a is proportional to the speed and armature current whereas the torque T_a of series motor is directly proportional to the square of armature current & it is given by:

E_a = k_fΦωI_a

T_a = k_f Φ I_a²

Where

• K_f is a constant based on machine construction
• Φ is the magnetic flux
• ω is the angular speed

Speed of Series Motor:

Input & Output Power

The input power of a series motor is given by:

P_in = VI_a

The output power is given by

P_out = ωT

Related Posts:

• AC Drive – Working and Types of Electrical Drives & VFD
• DC Drive – Working and Types of DC Drives

Efficiency Of DC Motor:

The different motor efficiencies can be found by the following formulas and equations

Electrical Efficiency:

η_e =  Converted power in armature / Input electrical Power

Mechanical Efficiency:

η_m = Converted power in armature / output mechanical power

Overall Efficiency:

η = Output mechanical Power / Input electrical Power
η = (Input Power – Total losses) / Input Power

Where

• P_out is the useful output power
• P_a ­­is the armature copper loss
• P_f is the field copper loss
• P_k is the constant losses that contains core losses & mechanical losses

Related Formulas and Equations Posts:

• Types of Electric Motors – Classification of AC, DC & Special Motors
• Applications of Electric Motors
• DC Machine – Construction, Working, Types and Applications
• Single-Phase Induction Motor – Construction, Working, Types & Applications
• Three-Phase Induction Motor – Construction, Working, Types & Applications
• Induction Motor & Linear Induction Motors Formulas & Equations
• Transformer Formulas and Equations
• Basic Electrical Engineering Formulas and Equations
• Basic Electrical Quantities Formulas
• Power Formulas in DC and AC Single-Phase & Three-Phase Circuits
• Electrical & Electronics Engineering Formulas & Equations
• Electric Motors Symbols