Texas Instruments TPA2014D1 Evaluation Module (EVM) TPA2014D1EVM TPA2014D1EVM 데이터 시트
제품 코드
TPA2014D1EVM
I
L
+
I
CC
ǒ
V
CC
V
DD
0.8
Ǔ
(2)
L
+
V
DD
ǒ
V
CC
*
V
DD
Ǔ
D
I
L
f
boost
V
CC
(3)
2.2.4
Changing the Boost Capacitor
C
+
2
I
CC
ǒ
V
CC
*
V
DD
Ǔ
D
V
f
boost
V
CC
(4)
C
+
I
CC
ǒ
V
CC
*
V
DD
Ǔ
D
V
f
boost
V
CC
(5)
Operation
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The minimum working inductance is 2.2
µ
H. A lower value may cause instability.
Ripple current,
ΔI
L
, is peak-to-peak variation in inductor current. Smaller ripple current reduces core losses
in the inductor as well as the potential for EMI. Use
to determine the value of the inductor, L.
This equation shows the relationships among inductance L, V
DD
, V
CC
, the switching frequency, f
boost
, and
ΔI
L
. Insert the maximum acceptable ripple current into
to solve for L.
ΔI
L
is inversely proportional to L. Minimize
ΔI
L
as much as is necessary for a specific application. Increase
the inductance to reduce the ripple current. Note that making the inductance too large prevents the boost
converter from responding properly to fast load changes. Typical inductor values for the TPA2014D1 are
4.7
converter from responding properly to fast load changes. Typical inductor values for the TPA2014D1 are
4.7
µ
H to 6.8
µ
H.
Select an inductor with a small dc resistance, DCR. DCR reduces the output power due to the voltage
drop across the inductor.
drop across the inductor.
The value of the boost capacitor is determined by the minimum value of working capacitance required for
stability and the maximum voltage ripple allowed on V
stability and the maximum voltage ripple allowed on V
CC
in the application. The minimum value of working
capacitance is 10
µ
F. Do not use any component with a working capacitance less than 10
µ
F.
For X5R or X7R ceramic capacitors,
shows the relationships among the boost capacitance, C,
to load current, load voltage, ripple voltage, input voltage, and switching frequency (I
CC
, V
CC
,
ΔV, V
DD
,
f
boost
respectively). Insert the maximum allowed ripple voltage into
to solve for C. A factor of
about 2 is included to implement the rules and specifications listed in the "Surface Mount Capacitors"
section of the TPA2014D1 data sheet (
section of the TPA2014D1 data sheet (
).
For aluminum or tantalum capacitors,
shows the relationships among the boost capacitance,
C, to load current, load voltage, ripple voltage, input voltage, and switching frequency (I
CC
, V
CC
,
ΔV, V
DD
,
f
boost
respectively). Insert the maximum allowed ripple voltage into
to solve for C. Solve this
equation assuming ESR is zero.
Capacitance of aluminum and tantalum capacitors is normally insensitive to applied voltage; so, no factor
of 2 is included in
of 2 is included in
. However, the ESR in aluminum and tantalum capacitors can be significant.
Choose an aluminum or tantalum capacitor with an ESR around 30 m
Ω
. For best performance with
tantalum capacitors, use at least a 10-V rating. Note that tantalum capacitors must generally be used at
voltages of half their ratings or less.
voltages of half their ratings or less.
TPA2014D1EVM
4
SLOU211 – May 2008