AME7720 Datasheet, PDF(8/16 Page) Asahi Kasei Microsystems – Step-Up/Step-Down 60mA Regulated Charge Pump

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AME7720 Datasheet, PDF (8/16 Pages) Asahi Kasei Microsystems – Step-Up/Step-Down 60mA Regulated Charge Pump

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AME, Inc.

AME7720 / 7721

Step-Up/Step-Down

60mA Regulated Charge Pump

n Detailed Description

The AME7720 / 7721 regulated charge pump provides a

regulated output voltages ranging from less than the output

to greater than the output. This is accomplshed by auto-

matic mode switching within the device.

n Short Circuit and Thermal

Protection

The AME7720 / 7721 has a thermal protection and shut-

down circuit that continuously monitors the IC junction tem-

perature. If the thermal protection circuit senses the die

temperature exceeding approximately 160OC, the thermal

shutdown will disable the charge pump switching cycle op-

eration, The thermal limit system has 20OC of system hys-

teresis before the charge pump can reset. Once the over

current event is removed from the output and the junction

temperature drops below 140OC, the charge pump will the

become active again. The thermal protection system will

cycle on and off if an output short circuit condition persists.

This will allow the AME7720 / 7721 to operate indefinitely a

short circuit condition without damage to the device.

n Shutdown Mode

A control pin on the regulator can be used to place the

device into an energy-saving shutdown mode. In this mode,

the output is disconnected from the input as long as VIN is

greater than or equal to minimum VIN and input quiescent

current is reduced to 1ÂµA maximum.

n Capacitor Selection

For minimum output voltage ripple, the output capacitor

COUT should be a ceramic, surface-mount type. Tantalum

capacitors generally have a higher Effective Series Resis-

tance (ESR) and may contribute to higher output voltage

ripple. Leaded capacitors also increase ripple due to the

higher inductance of the package itself. To achieve best

operation with low input voltage and high load current, the

input and pump capacitors (CIN, CPUMP respecvively) should

also be surface-mount ceramic types. In all cases, X7R or

X5R dielectric are recommended.

With light loads or higher input voltage, a smaller

0.1ÂµF pump capacitor (CPUMP) and smaller 1ÂµF input

and output capacitor (CIN and COUT, respectively) can

be used. To minimize output voltage ripple, increase

the output capacitor, COUT, to 10ÂµF or larger.

n Efficiency

The efficiency of the charge pump regulator varies

with the output voltage version, the applied input volt-

age, the load current, and the internal operation mode

of the device.

The approximate efficiency is given by:

5V Version (VIN<= VOUT)

Efficiency (%) = VOUT / 2VIN 100

3.3V Version (VIN> VOUT)

Efficiency (%) = VOUT / VIN 100

n Layout

Large ripple currents flow in the VIN and VOUT traces.

To minimized both input and output ripple, keep the

capacitors as close as possible to the regulator using

short, direct circuit traces.

The trace lengths from the input and output capaci-

tors have been kept as short as possible. A star ground

system has been implemented, with GND pin as the

center of the star. No ground plane is provided in other

layers, as this will provide capacitive coupling for noise

spikes.

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