參數(shù)資料
型號: RT8805CPQV
廠商: Richtek Technology Corporation
英文描述: Two Phase General Purpose PWM Controller
中文描述: 兩相通用PWM控制器
文件頁數(shù): 15/18頁
文件大?。?/td> 391K
代理商: RT8805CPQV
RT8805C
Preliminary
15
DS8805C-03 August 2007
www.richtek.com
operated under or over maximum (~125
°
C) operation
rating.
Layout Considerations
Layout is very important in high frequency switching
converter design. If designed improperly, the PCB could
radiate excessive noise and contribute to the converter
instability.
First, place the PWM power stage components. Mount
all the power components and connections in the top layer
with wide copper areas. The MOSFETs of Buck, inductor,
and output capacitor should be as close to each other as
possible. This can reduce the radiation of EMI due to the
high frequency current loop. If the output capacitors are
placed in parallel to reduce the ESR of capacitor, equal
sharing ripple current should be considered. Place the
input capacitor directly to the drain of high-side MOSFET.
In multi-layer PCB, use one layer as power ground and
have a separate control signal ground as the reference of
the all signal. To avoid the signal ground is effect by noise
and have best load regulation, it should be connected to
the ground terminal of output. Furthermore, follows below
guidelines can get better performance of IC :
1. A multi-layer printed circuit board is recommended.
2. Use a middle layer of the PC board as a ground plane
and making all critical component ground connections
through vias to this layer.
3. Use another solid layer as a power plane and break this
plane into smaller islands of common voltage levels.
4. Keep the metal running from the PHASE terminal to
the output inductor short.
5. Use copper filled polygons on the top and bottom circuit
layers for the phase node.
6. The small signal wiring traces from the LGATE and
UGATE pins to the MOSFET gates should be kept
short and wide enough to easily handle the several
Amperes of drive current.
7. The critical small signal components include any bypass
capacitors, feedback components, and compensation
components. Position those components close to their
pins with a local GND connection, or via directly to the
ground plane.
board space is the limiting constraint, current can be
pushed as high as 40A per phase, but these designs
require heat sinks and forced air to cool the MOSFETs,
inductors and heat dissipating surfaces.
MOSFETs
The choice of MOSFETs depends on the current each
MOSFET will be required to conduct, the switching
frequency, the capability of the MOSFETs to dissipate
heat, and the availability and nature of heat sinking and
air flow.
Package Power Dissipation
When choosing MOSFETs it is important to consider the
amount of power being dissipated in the integrated drivers
located in the controller. Since there are a total of two
drivers in the controller package, the total power dissipated
by both drivers must be less than the maximum allowable
power dissipation for the VQFN package. Calculating the
power dissipation in the drivers for a desired application
is critical to ensure safe operation. Exceeding the
maximum allowable power dissipation level will push the
IC beyond the maximum recommended operating junction
temperature of 125
°
C. The maximum allowable IC power
dissipation for the 3x3 VQFN package is approximately
1.47W at room temperature.
According below equations at two phases operation, it
s
clear to describe that the junction temperature of the chip
is directly proportional to the total C
ISS
(including C
UGATE
and C
LGATE
) of all external MOSFETs.
P
D
= ( C
UGATE
x V
BOOT-PHASE2
x f ) + ( C
LGATE
x V
CC2
x f ) +
χ
T
J
= T
A
+ (
θ
JA
x P
D
)
(
χ
is the minor factor and could be ignored)
For example, according to the application we evaluated
on board, the C
UGATE
= 1nF, C
LGATE
= 5nF (dual MOSFETs
in parallel), V
CC
= 12V, V
BOOT-PHASE
= 12V, and operation
frequency = 300kHz.
P
D
1nF x 12
2
x 300kHz + 2 x 5nF x 12
2
x 300kHz =
475mW / PHASE
T
J
= 30
°
C+ 68
°
C/W x 0.475W x 2 = 94.6
°
C
That means the junction temperature is most likely to be
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