MAX1703ESE+ Maxim Integrated Products, MAX1703ESE+ Datasheet - Page 13

MAX1703ESE+

Manufacturer Part Number

MAX1703ESE+

Description

IC DC-DC CONV 1.5A LN 16-SOIC

Manufacturer

Maxim Integrated Products

Type

Step-Up (Boost)r

Datasheets

1.MAX1703ESE.pdf (16 pages)

2.MAX1703ESE.pdf (8 pages)

Specifications of MAX1703ESE+

Internal Switch(s)

Yes

Synchronous Rectifier

Yes

Number Of Outputs

Voltage - Output

5V, 2.5 ~ 5.5 V

Current - Output

1.5A

Frequency - Switching

300kHz

Voltage - Input

0.7 ~ 5.5 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

16-SOIC (3.9mm Width)

Power - Output

696mW

Output Voltage

2.5 V to 5.5 V

Output Current

1.5 A

Input Voltage

0.7 V to 5.5 V

Supply Current

65 uA

Maximum Operating Temperature

+ 85 C

Minimum Operating Temperature

- 40 C

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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A few ceramic bypass capacitors are required for proper

operation. Bypass REF with a 0.22µF capacitor to GND.

Connect a 0.22µF ceramic capacitor from OUT to GND.

Each of these should be placed as close to their respec-

tive pins as possible, within 0.2in. (5mm) of the DC-DC

converter IC. See Table 4 for suggested suppliers.

When boosting an input supply connected via a

mechanical switch, or a battery connected via spring

contacts, input power may sometimes be intermittent

as a result of contact bounce. When operating in PFM

mode with input voltages greater than 2.5V, restarting

after such dropouts may initiate high current pulses that

interfere with the MAX1703’s internal MOSFET switch

control. If contact or switch bounce is anticipated in the

design, use one of the following solutions:

1) Connect a capacitor (C

2) Use the system microcontroller to hold the MAX1703

3) Ensure that the IC operates, or at least powers up, in

The MAX1703 is ideal for use in digital cordless and

PCS phones. The power amplifier (PA) is connected

directly to the boost-converter output for maximum volt-

age swing (Figure 8). Low-dropout linear regulators are

used for post-regulation to generate low-noise power

for DSP, control, and RF circuitry. Typically, RF phones

spend most of their life in standby mode with only short

periods in transmit/receive mode. During standby, max-

imize battery life by setting CLK/SEL = 0; this places

the IC in low-power mode (for the lowest quiescent

power consumption). See Gain Block section for infor-

mation on configuring an external MOSFET as a linear

regulator.

__________ Applications Information

1MΩ resistor (R

Figure 7. This resistor-capacitor network differenti-

ates fast input edges at V

the IC off until V

in shutdown from the time when power is applied (or

reapplied) until C

input voltage. Standard power-on-reset times

accomplish this.

PWM mode (CLK/SEL = high). Activate PFM mode

only after the output voltage has settled and all of

the system’s power-on-reset flags are cleared.

Intermittent Supply/Battery Connections

OUT

is 10

), so a C

-5

times the total output filter capacitance

OUT

______________________________________________________________________________________

OUT

) from ON to GND, as shown in

of 440µF results in C

settles. The appropriate value of

Use in a Typical Wireless

Low-Noise, Step-Up DC-DC Converter

has charged to at least the

) from ON to V

Bypass Capacitors

Phone Application

1-Cell to 3-Cell, High-Power (1.5A),

and momentarily holds

= 4.7nF.

and a

High switching frequencies and large peak currents

make PC board layout an important part of design.

Poor design can cause excessive EMI and ground

bounce, both of which can cause instability or regula-

tion errors by corrupting the voltage and current feed-

back signals.

Power components—such as the inductor, converter

IC, filter capacitors, and output diode—should be

placed as close together as possible, and their traces

should be kept short, direct, and wide. A separate low-

noise ground plane containing the reference and signal

grounds should only connect to the power-ground

plane at one point. This minimizes the effect of power-

ground currents on the part.

Keep the voltage feedback network very close to the

IC, within 0.2in. (5mm) of the FB pins. Keep noisy

traces, such as from the LX pin, away from the voltage

feedback networks and separated from them using

grounded copper. Consult the MAX1703 EV kit for a full

PC board example.

To implement soft-start, set CLK/SEL low on power-up;

this forces PFM operation and reduces the peak

switching current to 800mA max. Once the circuit is in

regulation and start-up transients have settled,

CLK/SEL can be set high for full-power operation.

Figure 7. Connecting C

Contact Bounce is Anticipated

4.7nF

MAX1703

and R

LXP, LXN

Designing a PC Board

POUT

OUT

when Switch or Battery-

11, 14

15, 13

Soft-Start

2 x 220 F

OUT

MAX1703ESE+ Maxim Integrated Products, MAX1703ESE+ Datasheet - Page 13

MAX1703ESE+

Specifications of MAX1703ESE+

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