Post on 16-Apr-2018
9
Analysis of VR Stepper
• Voltage Equations
• Flux Linkage Equations
• Torque Equation
• Mechanical Dynamics
10
VR Stepper Voltage Equations
• Voltage Equations
• In Matrix Form
dt
dirv asassas
λ+=
dt
dirv bsbssbs
λ+=
dt
dirv cscsscs
λ+=
abcs s abcs abcsp= +v r i λ
] [)( csbsasT
abcs fff=f
15
Flux Linkage Equations
• For any multi-stack VR stepper
• For this machine
=
cs
bs
as
cscs
bsbs
asas
cs
bs
as
i
i
i
L
L
L
00
00
00
λ
λ
λ
rmBAlsasas LLLL θ2cos++=
)32
(2cos πθ −++= rmBAlsbsbs LLLL
)34
(2cos πθ −++= rmBAlscscs LLLL
19
Flux Linkage Equations(Figure 8.2-3)
• We have…
• Or …
rmBAlsasas LLLL θ4cos++=
)31
(4cos πθ −++= rmBAlsbsbs LLLL
)32
(4cos πθ −++= rmBAlscscs LLLL
21
Flux Linkage Equations(Figure 8.2-4)
• We have…
• Or …
rmBAlsasas LLLL θ8cos++=
)3
1(8cos πθ −++= rmBAlsbsbs LLLL
)3
2(8coscscs πθ −++= rmBAls LLLL
22
Generalized Flux Linkage Eqns
• Thus in general, we have
• Or
)cos( rmBAlsasas RTLLLL θ++=
)](cos[ SLRTLLLL rmBAlsbsbs +++= θ
)](cos[ SLRTLLLL rmBAlscscs −++= θ
)cos( rmBAlsasas RTLLLL θ++=
)](cos[ SLRTLLLL mBAlsbsbs −++= θ)](cos[ SLRTLLLL rmBAlscscs +++= θ
26
Electromagnetic Torque
• Thus
{}
2 2
2cs
sin( ) sin[ ( )]2
i sin[ ( )]
e B as rm bs rm
rm
RTT L i RT i RT SL
RT SL
θ θ
θ
= − + ±
+ ∓
2 2
2cs
2 2sin sin
2 3
2 i sin
3
e B as rm bs rm
rm
RT TPT L i i
TP TP
TP
TP
π πθ θ
π θ
= − + ±
+ ∓
30
Example
• Consider a VR stepper with the following parameters�Rs: 2 Ohms�LA=12 mH�LB=10 mH�RT=8�N=3
• Suppose 6 V applied to a-phase with load torque of 0.25 Nm. Compute position.
37
Derivation of Advance Torque
• Start with
−+
++
−=
32
sin
32
sin2
sin2
22
TP
TPi
TP
TPi
TPiL
RTT
rm2cs
rmbsrmasBe
θπ
θπθπ
44
Example
• Consider a multistack VR stepper motor with N=3 and 8 rotor teeth being fed from a single transistor per stack circuit. If the dc voltage is 12 V, the transistor drop is 1 V, and the diode drop is 2 V, sketch the a-phase voltage waveform if the machine is traveling at 20 rad/s (average speed).