MAX1706EEE-T Maxim Integrated Products, MAX1706EEE-T Datasheet - Page 13

MAX1706EEE-T

Manufacturer Part Number

MAX1706EEE-T

Description

DC/DC Switching Controllers 1-3 Cell Step-Up w/Linear Regulator

Manufacturer

Maxim Integrated Products

Datasheet

1.MAX1706EEE.pdf (18 pages)

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regulation for the first time. However when power is first

applied, LDO may be on before POUT reaches regula-

tion. If this is not acceptable, the chip should be held in

shutdown when input voltage is first appled to ensure

that the linear regulator is off until POUT is ready.

The linear regulator in the MAX1705/MAX1706 features

a 0.5Ω, p-channel MOSFET pass transistor. This pro-

vides several advantages, including longer battery life,

over similar designs using a pnp pass transistor. The p-

channel MOSFET requires no base-drive current, which

reduces quiescent current considerably. PNP-based

regulators tend to waste base-drive current in dropout

when

MAX1705/MAX1706 eliminate this problem.

The linear-regulator error amplifier compares the output

feedback sensed at the FBLDO input against the inter-

nal 1.250V reference, and amplifies the difference

(Figure 1). The MOSFET driver reads the error signal

and applies the appropriate drive to the p-channel

pass transistor. If the feedback signal is lower than the

reference, the pass-transistor gate is pulled lower,

allowing more current to pass to the output, thereby

increasing the output voltage. If the feedback voltage is

too high, the pass-transistor gate is pulled up, allowing

less current to pass to the output. Additional blocks

include a current-limiting block and a thermal-overload

protection block.

The MAX1705/MAX1706 use a CMOS, low-voltage start-

up oscillator for a 1.1V guaranteed minimum startup

input voltage at +25°C. On startup, the low-voltage oscil-

lator switches the n-channel MOSFET until the output

voltage reaches 2.15V. Above this level, the normal step-

up converter feedback and control circuitry take over.

Once the device is in regulation, it can operate down to a

0.7V input, since internal power for the IC is boot-

strapped from the output using the OUT pin.

To reduce current loading during step-up, the linear

regulator is kept off until the startup converter goes into

regulation. Minimum startup voltage is influenced by

load and temperature (see the Typical Operating

Characteristics). To allow proper startup, do not apply

a full load at POUT until after the device has exited

startup mode and entered normal operation.

The MAX1705/MAX1706 feature a shutdown mode that

reduces quiescent current to less than 1µA, preserving

battery life when the system is not in use. During shut-

down, the reference, the low-battery comparator, and

all feedback and control circuitry are off. The step-up

converter’s output drops to one Schottky diode drop

Step-Up DC-DC Converters with Linear Regulator

the

pass

Low-Voltage Startup Oscillator

______________________________________________________________________________________

transistor

1- to 3-Cell, High-Current, Low-Noise,

saturates.

Shutdown

The

Table 2. On/Off Logic Control

below the input, but the linear regulator output is

turned off.

Entry into shutdown mode is controlled by logic input

pins ONA and ONB (Table 2). Both inputs have trip

points near 0.5V

Connecting TRACK to the step-up converter output

implements a tracking mode that sets the step-up

converter output to 300mV above the linear-regulator

output, improving efficiency. In track mode, feedback

for the step-up converter is derived from the OUT pin.

When TRACK is low, the step-up converter and linear

regulator are separately controlled by their respective

feedback inputs, FB and FBLDO. TRACK is a logic

input with a 0.5V

wired or switched with a slew rate exceeding 1V/µs.

properly.

On power-up with TRACK = OUT, the step-up convert-

er initially uses the FB input to regulate its output. After

the step-up converter goes into regulation for the first

time, the linear regulator turns on. When the linear regu-

lator reaches 2.3V, track mode is enabled and the step-

up converter is regulated to 300mV above the linear-

regulator output.

The internal low-battery comparator has uncommitted

inputs and an open-drain output capable of sinking

1mA. To use it as a low-battery-detection comparator,

connect the LBN input to the reference, and connect

the LBP input to an external resistor-divider between

the positive battery terminal and GND (Figure 2). The

resistor values are then as follows:

where V

LDO

LBN

ONA

= V

must be set above 2.3V for track mode to operate

IN,TH

REF

is the desired input voltage trip point and

= 1.25V. Since the input bias current into

OUT

ONB

with 0.15V

threshold, and should be hard-

Low-Battery Comparator

⎛

⎜

⎝

IN TH

LBN

OUT

MAX1705/MAX1706

- 1

hysteresis.

⎞

⎟

⎠

Off

Tracking

MAX1706EEE-T Maxim Integrated Products, MAX1706EEE-T Datasheet - Page 13

MAX1706EEE-T

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