MCP1725-1502E/MC MICROCHIP [Microchip Technology], MCP1725-1502E/MC Datasheet - Page 19

MCP1725-1502E/MC

Manufacturer Part Number

MCP1725-1502E/MC

Description

500 mA, Low Voltage, Low Quiescent Current LDO Regulator

Manufacturer

MICROCHIP [Microchip Technology]

Datasheet

1.MCP1725-1502EMC.pdf (32 pages)

Current page: 19 of 32
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4.8

Dropout voltage is defined as the input-to-output

voltage differential at which the output voltage drops

2% below the nominal value that was measured with a

a very low dropout voltage specification of 210 mV

(typical) at 0.5A of output current. See Section 1.0

“Electrical Characteristics” for maximum dropout

voltage specifications.

The MCP1725 LDO operates across an input voltage

range of 2.3V to 6.0V and incorporates input

Undervoltage Lockout (UVLO) circuitry that keeps the

LDO output voltage off until the input voltage reaches a

minimum of 2.18V (typical) on the rising edge of the

input voltage. As the input voltage falls, the LDO output

will remain on until the input voltage level reaches

2.04V (typical).

Since the MCP1725 LDO undervoltage lockout

activates at 2.04V as the input voltage is falling, the

dropout voltage specification does not apply for output

voltages that are less than 1.9V.

For high-current applications, voltage drops across the

PCB traces must be taken into account. The trace

resistances can cause significant voltage drops

between the input voltage source and the LDO. For

applications with input voltages near 2.3V, these PCB

trace voltage drops can sometimes lower the input

voltage enough to trigger a shutdown due to

undervoltage lockout.

+ 0.6V differential applied. The MCP1725 LDO has

Dropout Voltage and

Undervoltage Lockout

4.9

The MCP1725 LDO has temperature-sensing circuitry

to prevent the junction temperature from exceeding

approximately 150

does reach 150

until the junction temperature cools to approximately

140

resume normal operation. If the internal power

dissipation continues to be excessive, the device will

again shut off. The junction temperature of the die is a

function of power dissipation, ambient temperature and

package

“Application Circuits/Issues” for more information

on LDO power dissipation and junction temperature.

C, at which point the LDO output will automatically

Overtemperature Protection

thermal

C, the LDO output will be turned off

C. If the LDO junction temperature

resistance.

MCP1725

See

DS22026A-page 19

Section 5.0

MCP1725-1502E/MC MICROCHIP [Microchip Technology], MCP1725-1502E/MC Datasheet - Page 19

MCP1725-1502E/MC

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