RT8270 RICHTEK [Richtek Technology Corporation], RT8270 Datasheet - Page 8
RT8270
Manufacturer Part Number
RT8270
Description
2A, 22V, 1.2MHz Step-Down Converter
Manufacturer
RICHTEK [Richtek Technology Corporation]
Datasheet
1.RT8270.pdf
(12 pages)
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Part Number:
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RT8270
Application Information
The RT8270 is an asynchronous high voltage buck
converter that can support the input voltage range from
4.75V to 22V and the output current can be up to 2A.
Output Voltage Setting
The resistive divider allows the FB pin to sense the output
voltage as shown in Figure 1.
The output voltage is set by an external resistive divider
according to the following equation :
Where V
External Bootstrap Diode
Connect a 10nF low ESR ceramic capacitor between the
BOOT pin and SW pin. This capacitor provides the gate
driver voltage for the high side MOSFET.
It is recommended to add an external bootstrap diode
between an external 5V and the BOOT pin for efficiency
improvement when input voltage is lower than 5.5V or duty
ratio is higher than 65%. The bootstrap diode can be a
low cost one such as 1N4148 or BAT54.
The external 5V can be a 5V fixed input from system or a
5V output of the RT8270.
www.richtek.com
8
V
OUT
= V
FB
FB
is the feedback reference voltage (1.222V typ.).
Figure 1. Output Voltage Setting
⎛
⎜
⎝
1
+
R2
R1
RT8270
RT8270
⎞
⎟
⎠
BOOT
GND
Figure 2
FB
SW
V
5V
OUT
10nF
R1
R2
Soft-Start
The RT8270 contains an internal soft-start clamp that
gradually raises the output voltage. The soft-start time is
designed by the internal capacitor. The typical soft-start
time is 2ms.
Inductor Selection
The inductor value and operating frequency determine the
ripple current according to a specific input and output
voltage. The ripple current ΔI
and decreases with higher inductance.
Having a lower ripple current reduces not only the ESR
losses in the output capacitors but also the output voltage
ripple. High frequency with small ripple current can achieve
highest efficiency operation. However, it requires a large
inductor to achieve this goal.
For the ripple current selection, the value of
will be a reasonable starting point. The
current occurs at the highest V
ripple current stays below the specified maximum, the
inductor value should be chosen according to the following
equation :
Inductor Core Selection
The inductor type must be selected once the value for L
is known. Generally speaking, high efficiency converters
can not afford the core loss found in low cost powdered
iron cores. So, the more expensive ferrite or
mollypermalloy cores will be a better choice.
The selected inductance rather than the core size for a
fixed inductor value is the key for actual core loss. As the
inductance increases, core losses decrease. Unfortunately,
increase of the inductance requires more turns of wire
and therefore the copper losses will increase.
Ferrite designs are preferred at high switching frequency
due to the characteristics of very low core losses. So,
design goals can focus on the reduction of copper loss
and the saturation prevention.
L =
Δ
I =
L
⎡
⎢
⎣
f
⎡
⎢
⎣
× Δ
V
V
f L
OUT
×
OUT
I
L(MAX)
⎤ ⎡
⎥ ⎢
⎦ ⎣
×
⎤ ⎡
⎥ ⎢
⎦ ⎣
1
×
−
V
1
V
−
OUT
IN
V
IN(MAX)
V
⎤
⎥
⎦
OUT
L
increases with higher V
IN
⎤
⎥
⎦
DS8270-01 March 2011
. To guarantee that the
ΔI
largest ripple
L
= 0.4(I
MAX
IN
)
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