MCP1727-3302E/SN Microchip Technology, MCP1727-3302E/SN Datasheet - Page 15

MCP1727-3302E/SN

Manufacturer Part Number

MCP1727-3302E/SN

Description

IC REG LDO 1.5A 3.3V 8SOIC

Manufacturer

Microchip Technology

Datasheets

1.MCP1726EV.pdf (30 pages)

2.MCP1727-ADJEMF.pdf (32 pages)

3.MCP1727-ADJEMF.pdf (10 pages)

Specifications of MCP1727-3302E/SN

Package / Case

8-SOIC (3.9mm Width)

Regulator Topology

Positive Fixed

Voltage - Output

3.3V

Voltage - Input

Up to 6V

Voltage - Dropout (typical)

0.33V @ 1.5A

Number Of Regulators

Current - Output

1.5A (Min)

Operating Temperature

-40°C ~ 125°C

Mounting Type

Surface Mount

Number Of Outputs

Polarity

Positive

Input Voltage Max

6 V

Output Voltage

3.3 V

Output Type

Fixed

Dropout Voltage (max)

0.55 V at 1.5 A

Output Current

1.5 A

Line Regulation

0.05 % / V

Load Regulation

0.5 %

Voltage Regulation Accuracy

2 %

Maximum Operating Temperature

+ 125 C

Mounting Style

SMD/SMT

Minimum Operating Temperature

- 40 C

Primary Input Voltage

3.85V

Output Voltage Fixed

3.3V

Dropout Voltage Vdo

330mV

No. Of Pins

Voltage Regulator Case Style

SOIC

Operating Temperature Range

-40Â°C To

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current - Limit (min)

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

MCP1727-3302E/SN

Manufacturer:

MICROCHIP

Quantity:

12 000

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4.4

Low input source impedance is necessary for the LDO

output to operate properly. When operating from

batteries, or in applications with long lead length

(> 10 inches) between the input source and the LDO,

some input capacitance is recommended. A minimum

of 1.0 µF to 4.7 µF is recommended for most

applications.

For

requirements, the input capacitance of the LDO is very

important. The input capacitance provides the LDO

with a good local low-impedance source to pull the

transient currents from in order to respond quickly to

the output load step. For good step response

performance, the input capacitor should be of

equivalent (or higher) value than the output capacitor.

The capacitor should be placed as close to the input of

the LDO as is practical. Larger input capacitors will also

help reduce any high-frequency noise on the input and

output of the LDO and reduce the effects of any

inductance that exists between the input source

voltage and the input capacitance of the LDO.

4.5

The PWRGD output is used to indicate when the output

voltage of the LDO is within 92% (typical value, see the

Electrical Characteristics table for Min/Max specs) of its

nominal regulation value.

As the output voltage of the LDO rises, the PWRGD

output will be held low until the output voltage has

exceeded the power good threshold plus the hysteresis

value. Once this threshold has been exceeded, the

power good time delay is started (shown as T

Electrical Characteristics table). The power good time

delay is adjustable via the C

Section 4.6 “C

from the C

delay can be adjusted from 200 µs (no capacitance) to

300 ms (0.1 µF capacitor). After the time delay period,

the PWRGD output will go high, indicating that the

output voltage is stable and within regulation limits.

If the output voltage of the LDO falls below the power

good threshold, the power good output will transition

low. The power good circuitry has a 170 µs delay when

detecting a falling output voltage, which helps to

increase noise immunity of the power good output and

avoid false triggering of the power good output during

fast output transients. See

timing characteristics.

When the LDO is put into Shutdown mode using the

SHDN input, the power good output is pulled low

immediately, indicating that the output voltage will be

out of regulation. The timing diagram for the power

good output when using the shutdown input is shown in

Figure

applications

4-3.

Input Capacitor

Power Good Output (PWRGD)

DELAY

pin to ground, the power good time

that

Input”). By placing a capacitor

have

Figure 4-2

DELAY

output

pin of the LDO (see

for power good

step

in the

load

The power good output is an open-drain output that can

be pulled up to any voltage that is equal to or less than

the LDO input voltage. This output is capable of sinking

1.2 mA (V

FIGURE 4-2:

FIGURE 4-3:

Shutdown.

4.6

The C

timing for the power good output, as discussed in the

previous section. By adding a capacitor from the C

LAY

can be adjusted from 200 µs (no capacitance on C

LAY

the Electrical Characteristics table for C

tolerances.

PWRGD

SHDN

) to 300 ms (0.1 µF of capacitance on C

OUT

pin to ground, the PWRGD power-up time delay

PWRGD_TH

30 ms

DELAY

PWRGD

OUT

PWRGD

DELAY

input is used to provide the power-up delay

70 ms

< 0.4V maximum).

Input

Power Good Timing.

Power Good Timing from

MCP1726

DS21936C-page 15

DELAY

VDET_PWRGD

). See

timing

DE-

MCP1727-3302E/SN Microchip Technology, MCP1727-3302E/SN Datasheet - Page 15

MCP1727-3302E/SN

Specifications of MCP1727-3302E/SN

Available stocks

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