ISL8102EVAL1 (Intersil) PDF资料下载 Datasheet(25/27 页)

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参数资料

型号：	ISL8102EVAL1
厂商：	Intersil
文件页数：	25/27页
文件大小：	0K
描述：	EVAL BOARD 1 FOR ISL8102
标准包装：	1
系列：	*

ISL8102

spikes in the converter. Consider, as an example, the turnoff

transition of the upper PWM MOSFET. Prior to turnoff, the

upper MOSFET was carrying channel current. During the

turnoff, current stops flowing in the upper MOSFET and is

picked up by the lower MOSFET. Any inductance in the

switched current path generates a large voltage spike during

the switching interval. Careful component selection, tight

layout of the critical components, and short, wide circuit

traces minimize the magnitude of voltage spikes.

There are two sets of critical components in a DC/DC

converter using a ISL8102 controller. The power-

components are the most critical because they switch large

amounts of energy. Next are small signal components that

connect to sensitive nodes or supply critical bypassing

current and signal coupling.

It is important to have a symmetrical layout, preferably with

the controller equidistantly located from the two power trains it

controls. Equally important are the gate drive lines (UGATE,

LGATE, PHASE): since they drive the power train MOSFETs

using short, high current pulses, it is important to size them as

large and as short as possible to reduce their overall

impedance and inductance. Extra care should be given to the

LGATE traces in particular since keeping the impedance and

inductance of these traces helps to significantly reduce the

possibility of shoot-through. Equidistant placement of the

controller to the two power trains also helps keeping these

traces equally short (equal impedances, resulting in similar

driving of both sets of MOSFETs).

The power components should be placed first. Locate the input

capacitors close to the power switches. Minimize the length of

the connections between the input capacitors, C IN , and the

power switches. Locate the output inductors and output

25

capacitors between the MOSFETs and the load. Locate the

high-frequency decoupling capacitors (ceramic) as close as

practicable to the decoupling target, making use of the shortest

connection paths to any internal planes, such as vias to GND

immediately next, or even onto the capacitor solder pad.

The critical small components include the bypass capacitors

for VCC and PVCC. Locate the bypass capacitors, CBP,

close to the device. It is especially important to locate the

components associated with the feedback circuit close to

their respective controller pins, since they belong to a

high-impedance circuit loop, sensitive to EMI pick-up. It is

also important to place current sense components close to

their respective pins on the ISL8102, including the RISEN

resistors, RS, RCOMP, CCOMP. For proper current sharing

route two separate symmetrical as possible traces from the

corresponding phase node for each RISEN.

A multi-layer printed circuit board is recommended. Figure 27

shows the connections of the critical components for the

converter. Note that capacitors C xxIN and C xxOUT could each

represent numerous physical capacitors. Dedicate one solid

layer, usually the one underneath the component side of the

board, for a ground plane and make all critical component

ground connections with vias to this layer. Dedicate another

solid layer as a power plane and break this plane into smaller

islands of common voltage levels. Keep the metal runs from

the PHASE terminal to inductor L OUT short. The power plane

should support the input power and output power nodes. Use

copper filled polygons on the top and bottom circuit layers for

the phase nodes. Use the remaining printed circuit layers for

small signal wiring. The wiring traces from the IC to the

MOSFETs’ gates and sources should be sized to carry at least

one ampere of current (0.02” to 0.05”).

FN9247.1

July 28, 2008

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