MAX1533ETJ+ Maxim Integrated Products, MAX1533ETJ+ Datasheet - Page 18

MAX1533ETJ+

Manufacturer Part Number

MAX1533ETJ+

Description

IC POWER SUPPLY CONTROLER 32TQFN

Manufacturer

Maxim Integrated Products

Datasheet

1.MAX1533ETJT.pdf (38 pages)

Specifications of MAX1533ETJ+

Applications

Power Supply Controller

Voltage - Input

4.5 ~ 26 V

Current - Supply

15µA

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

32-TQFN Exposed Pad

Product

Power Monitors

Operating Temperature Range

- 40 C to + 85 C

Mounting Style

SMD/SMT

Accuracy

1 %

Sense Voltage (max)

5.5 V

Supply Current (max)

35 uA

Supply Voltage (max)

26 V

Supply Voltage (min)

6 V

Case

QFN

05+

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Voltage - Supply

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Current page: 18 of 38
Download datasheet (764Kb)

When the 5V main output voltage is above the LDO5

bootstrap-switchover threshold, an internal 0.75Ω (typ)

p-channel MOSFET shorts CSL5 to LDO5 while simulta-

neously shutting down the LDO5 linear regulator.

Similarly, when the 3.3V main output voltage is above

the LDO3 bootstrap-switchover threshold, an internal

1Ω (typ) p-channel MOSFET shorts CSL3 to LDO3 while

simultaneously shutting down the LDO3 linear regula-

tor. These actions bootstrap the device, powering the

internal circuitry and external loads from the output

SMPS voltages, rather than through linear regulators

from the battery. Bootstrapping reduces power dissipa-

tion due to gate charge and quiescent losses by pro-

viding power from a 90%-efficient switch-mode source,

rather than from a much-less-efficient linear regulator.

The output current limit increases to 200mA when the

LDO_ outputs are switched over.

The A switch-mode power supplies (SMPS) require a

5V bias supply in addition to the high-power input sup-

ply (battery or AC adapter). This 5V bias supply is gen-

erated by the MAX1533/MAX1537s’ internal 5V linear

regulator (LDO5). This bootstrapped LDO allows the

MAX1533/MAX1537 to power-up independently. The

gate-driver input supply is connected to the fixed 5V

linear-regulator output (LDO5). Therefore, the 5V LDO

supply must provide V

gate-drive power, so the maximum supply current

required is:

where I

and Q

sheet’s total gate-charge specification limits at V

The 2V reference is accurate to ±1% over temperature

and load, making REF useful as a precision system ref-

erence. Bypass REF to GND with a 0.22µF or greater

ceramic capacitor. The reference sources up to 100µA

and sinks 10µA to support external loads. If highly

accurate specifications (±0.5%) are required for the

main SMPS output voltages, the reference should not

be loaded. Loading the reference reduces the LDO5,

LDO3, OUT5, and OUT3 output voltages slightly

because of the reference load-regulation error.

High-Efficiency, 5x Output, Main Power-Supply

Controllers for Notebook Computers

______________________________________________________________________________________

G(LOW)

BIAS

is 1mA (typ), f

= 5mA to 50mA (typ)

= I

SMPS 5V Bias Supply (LDO5 and V

and Q

SMPS to LDO Bootstrap Switchover

+ f

G(HIGH)

G(LOW)

(PWM controller) and the

is the switching frequency,

are the MOSFET data

Reference (REF)

+ Q

G(HIGH)

)

= 5V.

)

Drive SHDN below the precise SHDN input falling-edge

trip level to place the MAX1533/MAX1537 in their low-

power shutdown state. The MAX1533/MAX1537 con-

sume only 5µA of quiescent current while in shutdown

mode. When shutdown mode activates, the reference

turns off, making the threshold to exit shutdown less

accurate. To guarantee startup, drive SHDN above

2.2V (SHDN input rising-edge trip level). For automatic

shutdown and startup, connect SHDN to V

rate 1V falling-edge threshold on SHDN can be used to

detect a specific input-voltage level and shut the

device down. Once in shutdown, the 1.6V rising-edge

threshold activates, providing sufficient hysteresis for

most applications.

Power-on reset (POR) occurs when V

approximately 1V, resetting the undervoltage, overvolt-

age, and thermal-shutdown fault latches. The POR cir-

cuit also ensures that the low-side drivers are pulled

low if OVP is disabled (OVP = V

OVP is enabled (OVP = GND) until the SMPS con-

trollers are activated.

The V

inhibits switching if the 5V bias supply (LDO5) is below

the 4V input UVLO threshold. Once the 5V bias supply

(LDO5) rises above this input UVLO threshold and the

controllers are enabled, the SMPS controllers start

switching and the output voltages begin to ramp up

using soft-start.

The internal digital soft-start gradually increases the

internal current-limit level during startup to reduce the

input surge currents. The MAX1533/MAX1537 divide the

soft-start period into five phases. During the first phase,

each controller limits its current limit to only 20% of its

full current limit. If the output does not reach regulation

within 128 clock cycles (1 / f

second phase and the current limit is increased by

another 20%. This process repeats until the maximum

current limit is reached after 512 clock cycles (1 / f

or when the output reaches the nominal regulation volt-

age, whichever occurs first (see the startup waveforms

in the Typical Operating Characteristics).

input undervoltage-lockout (UVLO) circuitry

System Enable/Shutdown ( SHDN )

SMPS POR, UVLO, and Soft-Start

OSC

SMPS Detailed

), soft-start enters the

), or driven high if

Description

rises above

. The accu-

OSC

)

MAX1533ETJ+ Maxim Integrated Products, MAX1533ETJ+ Datasheet - Page 18

MAX1533ETJ+

Specifications of MAX1533ETJ+

Related parts for MAX1533ETJ+