Rainbow-electronics MAX1639 Manual do Utilizador descarregar pdf (Página 7)

MAX1639

High-Speed Step-Down Controller with

Synchronous Rectification for CPU Power

_______________________________________________________________________________________ 7

Table 1. Component List for Standard Applications

(x5) 560µF, Sanyo OS-CON 4SP560M

Central Semiconductor CMPSH-3

0.3µH, 25A, 0.9mΩ

Panasonic ETQPAF0R3E

(x2) 7mΩ, Dale WSL-2512-R007-J

(x3) 330µF, Sanyo OS-CON 6SA330M

LOAD REQUIREMENT

Schottky diode, Motorola MBRD640

(x2) 0.010Ω, 30V, D

PAK, Fairchild FDB7030L

(x2) 0.014Ω, 30V, SO8, Fairchild FDS6680

(x2) 0.010Ω, 30V, D

PAK, Fairchild FDB7030L

(x2) 0.014Ω, 30V, SO8, Fairchild FDS6680

1.8V, 20A

(x2) 560µF, Sanyo OS-CON 4SP560M

Central Semiconductor CMPSH-3

1.0µH, 9.3A, SMD

Coiltronics UP2B-1R0

1.0µH, 10A, SMD

Coilcraft D03316P-102HC

9mΩ Dale,

WSL-2512-R009-J

330µF, Sanyo OS-CON 6SA330M

D1 (optional) Schottky diode, Nihon NSQ03A02

0.014Ω, 30V, SO8

Fairchild FDS6680

0.018Ω, 30V, SO8

International Rectifier IRF7413

0.014Ω, 30V, SO8

Fairchild FDS6680

0.018Ω, 30V, SO8

International Rectifier IRF7413

2.5V, 8A

COMPONENT

Note: Parts used in evaluation board are shown in bold.

PWM Controller Block and Integrator

The heart of the current-mode PWM controller is a

multi-input, open-loop comparator that sums three sig-

nals (Figure 2): the buffered feedback signal, the cur-

rent-sense signal, and the slope-compensation ramp.

This direct-summing configuration approaches ideal

cycle-by-cycle control over the output voltage. The out-

put voltage error signal is generated by an error ampli-

fier that compares the amplified feedback voltage to an

internal reference.

Each pulse from the oscillator sets the main PWM latch

that turns on the high-side switch for a period deter-

mined by the duty factor (approximately V

OUT

/ V

). The

current-mode feedback system regulates the peak

inductor current as a function of the output voltage error

signal. Since average inductor current is nearly the same

as peak current (assuming the inductor value is set rela-

tively high to minimize ripple current), the circuit acts as

a switch-mode transconductance amplifier. It pushes the

second output LC filter pole, normally found in a duty-

factor-controlled (voltage-mode) PWM, to a higher fre-

quency. To preserve inner-loop stability and eliminate

regenerative inductor current staircasing, a slope-

compensation ramp is summed into the main PWM com-

parator. Under fault conditions where the inductor cur-

rent exceeds the maximum current-limit threshold, the

high-side latch resets, and the high-side switch turns off.

Internal Reference

The internal 3.5V reference (REF) is accurate to ±1%

from 0°C to +85°C, making REF useful as a system ref-

erence. Bypass REF to AGND with a 0.1µF (min)

ceramic capacitor. A larger value (such as 2.2µF) is

recommended for high-current applications. Load reg-

ulation is 10mV for loads up to 100µA. Reference

undervoltage lockout is between 2.7V and 3V. Short-

circuit current is less than 4mA.

Synchronous-Rectifier Driver

Synchronous rectification reduces conduction losses in

the rectifier by shunting the normal Schottky diode or

MOSFET body diode with a low-on-resistance MOSFET

switch. The synchronous rectifier also ensures proper

start-up by precharging the boost-charge pump used

for the high-side switch gate-drive circuit. Thus, if you

must omit the synchronous power MOSFET for cost or

other reasons, replace it with a small-signal MOSFET,

such as a 2N7002.

The DL drive waveform is simply the complement of the

DH high-side drive waveform (with typical controlled

dead time of 30ns to prevent cross-conduction or

shoot-through). The DL output’s on-resistance is 0.7Ω

(typ) and 2Ω (max).

10.0kΩ, 1%

6.19kΩ, 1%

12.7kΩ, 1%

1 2 3 4 5 6 7 8 9 10 11 12 13

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