ISL9103 Maxim Integrated Products, ISL9103 Datasheet - Page 9

ISL9103

Manufacturer Part Number

ISL9103

Description

500mA 2.4MHz Low IQ High Efficiency Synchronous Buck Converter

Manufacturer

Maxim Integrated Products

Datasheet

1.ISL9103.pdf (13 pages)

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Block Diagram

Theory of Operation

The ISL9103, ISL9103A is a step-down switching regulator

optimized for battery-powered handheld applications. The

regulator operates at typical 2.4MHz fixed switching

frequency under heavy load condition to allow small external

inductor and capacitors to be used for minimal printed-circuit

board (PCB) area. At light load, the regulator can

automatically enter the skip mode (PFM mode) to reduce the

switching frequency to minimize the switching loss and to

maximize the battery life. The quiescent current under skip

mode, and under no load and no switch condition is typically

only 20µA. The supply current is typically only 0.05µA when

the regulator is disabled.

PWM Control Scheme

The ISL9103, ISL9103A uses the peak-current-mode

pulse-width modulation (PWM) control scheme for fast

transient response and pulse-by-pulse current limiting.

Figure 22 shows the circuit functional block diagram. The

current loop consists of the oscillator, the PWM comparator

COMP, current sensing circuit, and the slope compensation

for the current loop stability. The current sensing circuit

consists of the resistance of the P-Channel MOSFET when it

is turned on and the Current Sense Amplifier (CSA). The

NOTE: For Adjustable output version, the internal feedback resistor divider is disabled and the FB pin

is directly connected to the error amplifier.

F B

E N

S H U T D O W N

*N O T E : F O R F IX E D O U T P U T O P T IO N S O N L Y

*N O T E

B A N D G A P

V R E F 3

S T A R T

S O F T -

V R E F

S T A

S O

S L O P E

F T

R T

C O M P

FIGURE 22. FUNCTIONAL BLOCK DIAGRAM

E A M P

S C P

ISL9103, ISL9103A

C O M P

O S C IL L A T O R

control reference for the current loops comes from the Error

Amplifier (EAMP) of the voltage loop.

The PWM operation is initialized by the clock from the

oscillator. The P-Channel MOSFET is turned on at the

beginning of a PWM cycle and the current in the P-Channel

MOSFET starts ramping up. When the sum of the CSA

output and the compensation slope reaches the control

reference of the current loop, the PWM comparator COMP

sends a signal to the PWM logic to turn off the P-Channel

MOSFET and to turn on the N-Channel MOSFET. The

N-MOSFET remains on till the end of the PWM cycle. Figure 23

shows the typical operating waveforms during the normal PWM

operation. The dotted lines illustrate the sum of the slope

compensation ramp and the CSA output.

S K IP

O C P

B L E E D IN G

F E T

C O N T R O L L E R

S H U T D O W N

V R E F 1

P R O T E C T IO N

V R E F 2

P W M /P F M

L O G IC

D R IV E R

Z E R O -C R O S S

S E N S IN G

1 0 0 Ω

C S A

S W

V IN

G N D

June 26, 2009

FN6828.1

ISL9103 Maxim Integrated Products, ISL9103 Datasheet - Page 9

ISL9103

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