MAX7302ATE+T Maxim Integrated Products, MAX7302ATE+T Datasheet - Page 25

MAX7302ATE+T

Manufacturer Part Number

MAX7302ATE+T

Description

IC LED DRIVER LINEAR 16-TQFN

Manufacturer

Maxim Integrated Products

Type

Linear (I²C Interface)r

Datasheet

1.MAX7302AEE.pdf (30 pages)

Specifications of MAX7302ATE+T

Topology

Open Drain, PWM

Number Of Outputs

Internal Driver

Yes

Type - Primary

Backlight, LED Blinker

Type - Secondary

White LED

Frequency

1MHz

Voltage - Supply

1.62 V ~ 3.6 V

Mounting Type

Surface Mount

Package / Case

16-TQFN Exposed Pad

Operating Temperature

-40°C ~ 125°C

Current - Output / Channel

25mA

Internal Switch(s)

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Voltage - Output

Efficiency

Lead Free Status / Rohs Status

Details

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Serial interfaces SDA, SCL, and AD0 remain high

impedance with up to 6V asserted on them when the

MAX7302 is powered down (V

the voltages on the port supply V

if V

ports become high impedance. The ports remain high

impedance to signals between 0V and the port supply

the port’s protection diodes clamp the input signal to

the input signal, the port pulls up V

tion diode effectively powers any load on V

input signal. This behavior is safe if the current through

each protection diode is limited to 10mA.

If it is important that I/O ports remain high impedance

when all the supplies are powered down, including the

port supply V

parasitic path for MAX7302 input signals to drive current

into either the regulator providing V

powered from V

with a series small-signal Schottky diode, such as the

BAT54, between the port supply and the V

The open-drain output configuration of the ports allows

them to level translate the outputs to lower (but not

higher) voltages than the V

pullup resistor converts the high-impedance, logic-high

condition to a positive voltage level. Connect the resis-

tor to any voltage up to V

inputs, a pullup resistor value of 220kΩ is a good start-

ing point. Use a lower resistance to improve noise

immunity, in applications where power consumption is

less critical, or where a faster rise time is needed for a

given capacitive load.

When driving LEDs, use a resistor in series with the

LED to limit the LED current to no more than 25mA.

Choose the resistor value according to the following

formula:

where:

Level-Translating GPIO and LED Driver with CLA

. If a signal outside this range is applied to a port,

or 0V, as appropriate. If supply V

the LED (Ω)

LED

falls below the MAX7302’s reset threshold, all I/O

is the resistance of the resistor in series with

LED

= (V

Applications Information

, then ensure that there is no direct or

______________________________________________________________________________________

. One simple way to achieve this is

SUPPLY

Output Level Translation

- V

LED

. For interfacing CMOS

Driving LED Loads

supply. An external

= 0V) independent of

- V

. When V

Hot Insertion

) / I

or other circuits

and the protec-

LED

is lower than

input.

from the

= 0V, or

SMBus/I

For example, to operate a 2.2V red LED at 20mA from a

5V supply, R

The MAX7302 can sink current from loads drawing

more than 25mA by sharing the load across multiple

ports configured as open-drain outputs. Use at least

one output per 25mA of load current; for example, drive

a 90mA white LED with four ports.

The register structure of the MAX7302 allows only one

port to be manipulated at a time. Do not connect ports

directly in parallel because multiple ports cannot be

switched high or low at the same time, which is neces-

sary to share a load safely. Multiple ports can drive

high-current LEDs because each port can use its own

external current-limiting resistor to set that port’s cur-

rent through the LED.

The exceptions to this paralleling rule are the four ports,

P2–P5, and the four ports, P6–P9. These groups of four

ports can be programmed simultaneously through the

pseudoregisters 0x3C and 0x3D, respectively. A write

access to 0x3C writes the same data to registers 0x02

through 0x05. A write access to 0x3D writes the same

data to registers 0x06 through 0x09. Either of these

groups of four ports can be paralleled to drive a load

up to 100mA.

The MAX7302 operates with a V

of 1.62V to 3.6V. Bypass V

capacitor as close as possible to the device. The port

supply V

1.62V to 5.5V and bypassed with a 0.1µF capacitor as

close as possible to the device. The V

supply are independent and can be connected to differ-

ent voltages or the same supply as required.

Power supplies V

either order or together.

Driving Load Currents Higher than 25mA

LED (V)

when sinking I

LED

SUPPLY

LED

C Interfaced 9-Port,

is the desired operating current of the LED (A).

is the output low voltage of the MAX7302

is the forward voltage of the LED (V)

is connected to a supply voltage between

LED

is the supply voltage used to drive the

= (5 - 2.2 - 0.8) / 0.020 = 100Ω.

Power-Supply Considerations

LED

and V

(V)

to GND with a 0.047µF

can be sequenced in

power-supply voltage

supply and port

MAX7302ATE+T Maxim Integrated Products, MAX7302ATE+T Datasheet - Page 25

MAX7302ATE+T

Specifications of MAX7302ATE+T

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