TK65130 データシートの表示(PDF) - Toko America Inc
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TK65130 Datasheet PDF : 20 Pages
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SINGLE-CELL APPLICATION (CONT.)
HIGHER-ORDER DESIGN EQUATION
TK651xx
D
( )[ ] VBB2 D 2ƒ L
D
2
1- 2ƒ L (RS + RL + RSW)
IOUT =
( ) VOUT
+
ROFIOUT(TGT)
+
D
2ƒ
L(VBBRU)
+
VF
-
VBB
D
1 - 2ƒ L (RS+ RL)
ƒCS [VBB2+ (VOUT+ VF)2 + (VOUT + VF - VBB)2 ]
-
2(VOUT + VF)
The equation above was developed as a closed form approximation. In order to allow for a closed form, the design variable
that requires the least approximation was “IOUT,” as opposed to “L.”
The approximations made in the equation development have the primary consequence that error is introduced as
resistive losses become relatively large. As it is normally a practical design goal to ensure that resistive losses will be
relatively small, this seems acceptable. The variables used are:
IOUT
VOUT
VBB
f
RS
RSW
RU
Output current capability
Output voltage
Battery voltage, unloaded
Oscillator frequency
Source resistance (battery + filter)
Switch on-state resistance
ESR of upstream output capacitor
IOUT(TGT)
VF
D
L
RL
ROF
CS
Targeted output current capability
Diode forward voltage
Oscillating duty ratio of main switch
Inductance value
Inductor winding resistance
Output filter resistance
Snubber capacitance
Deriving a design solution with this equation is necessarily an iterative process. Use worst-case tolerances as described
for inductor selection, using different values for “L” to approximately achieve an “IOUT” equal to the targeted value. Then,
fine tune the parasitic values as needed and, if necessary, readjust “L” again and reiterate the process.
January 1999 TOKO, Inc.
Page 15
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