MAX1606EUA+T Maxim Integrated Products, MAX1606EUA+T Datasheet - Page 8

MAX1606EUA+T

Manufacturer Part Number

MAX1606EUA+T

Description

IC STEP-UP DC-DC CONV 28V 8-UMAX

Manufacturer

Maxim Integrated Products

Type

Step-Up (Boost)r

Datasheet

1.MAX1606EUA.pdf (10 pages)

Specifications of MAX1606EUA+T

Internal Switch(s)

Yes

Synchronous Rectifier

Number Of Outputs

Voltage - Output

0.8 ~ 28 V

Current - Output

500mA

Frequency - Switching

500kHz

Voltage - Input

2.4 ~ 5.5 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

8-MSOP, Micro8™, 8-uMAX, 8-uSOP,

Power - Output

330mW

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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28V Internal Switch LCD Bias Supply

with True Shutdown

Figure 3. Typical Application Circuit

Adjust the output voltage by connecting a voltage-

divider from the output (V

R2 between 10k

lowing equation:

where V

28V. The input bias current of FB has a maximum value

of 100nA, which allows large-value resistors to be used.

For less than 1% error, the current through R2 should

be greater than 100 times the feedback input bias cur-

rent (I

The MAX1606 allows a selectable inductor current limit

of 125mA, 250mA, or 500mA (Figure 2). This allows

flexibility in designing for higher current applications or

for smaller, compact designs. The lower current limit

allows the use of a physically smaller inductor in space-

sensitive, low-power applications. Connect LIM to V

for 500mA, leave floating for 250mA, or connect to

GND for 125mA.

Pull SHDN low to enter shutdown. During shutdown the

supply current drops to 0.1µA, the output is discon-

nected from the input, and LX enters a high-impedance

state. The capacitance and load at the output deter-

mine the rate at which V

pulled as high as 6V, regardless of the input and output

voltages.

With the typical step-up converter circuit, the output

remains connected to the input through the inductor and

_______________________________________________________________________________________

BATT

10 F

= 2.4V TO 5.5V

1 F

= 0.8V TO 5.5V

= 1.25V and V

OFF

R1 = R2 [(V

Setting the Output Voltage (FB)

Current-Limit Select Pin (LIM)

and 200k . Calculate R1 with the fol-

BATT

LIM

SHDN

MAX1606

10 H

OUT

GND

) to FB (Figure 3). Select

may range from V

/ V

decays. SHDN can be

Shutdown (

10pF

) – 1]

75k

OUT

SHDN )

= 18V

BATT

1 F

OUT

output rectifier, holding the output voltage to one diode

drop below V

allowing the output to draw power from the input. The

MAX1606 features true shutdown, which uses an internal

P-channel MOSFET to disconnect the output from the

input when the MAX1606 is shutdown. This eliminates

power drawn from the input during shutdown.

Separate voltage sources can supply the inductor

ed by a logic supply (2.4V to 5.5V), this allows the out-

put power to be sourced directly from low-voltage

batteries (0.8V to 5.5V). Conversely, V

can also be supplied from one supply if it remains with-

in V

Smaller inductance values typically offer smaller physi-

cal size for a given series resistance or saturation cur-

rent. Circuits using larger inductance values may start

up at lower input voltages and exhibit less ripple, but

also provide reduced output power. This occurs when

the inductance is sufficiently large to prevent the maxi-

mum current limit from being reached before the maxi-

mum on-time expires. The inductor’s saturation current

rating should be greater than the peak switching cur-

rent. However, it is generally acceptable to bias the

inductor into saturation by as much as 20%, although

this will slightly reduce efficiency.

The peak LX current limit (I

application may be calculated from the following equa-

tion:

where t

mum voltage used to supply the inductor. The set cur-

rent limit must be greater than this calculated value.

Select the appropriate current limit by connecting LIM

to V

Limit Select Pin and Figure 2).

The high switching frequency of 500kHz requires a high-

speed rectifier. Schottky diodes, such as the Motorola

MBRS0530 or the Nihon EP05Q03L, are recommended.

To maintain high efficiency, the average current rating of

the Schottky diode should be greater than the peak

LX MAX

BATT

(

Separate/Same Power for V

’s operating limits (2.4V to 5.5V).

)

) and the IC (V

, GND, or leaving it unconnected (see Current-

OFF(MIN)

OUT

BATT MIN

when the converter is shutdown and

OUT MAX

= 0.8µs, and V

(

)

Picking the Current Limit

)

). Since the chip bias is provid-

Design Procedure

OUT

LX(MAX)

Inductor Selection

BATT(MIN)

BATT MIN

Diode Selection

) required for the

BATT

(

BATT

)

is the mini-

and V

OFF MIN

and V

(

)

MAX1606EUA+T Maxim Integrated Products, MAX1606EUA+T Datasheet - Page 8

MAX1606EUA+T

Specifications of MAX1606EUA+T

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