PIC24FJ256GA110_10 Datasheet, PDF(251/330 Page) Microchip Technology – 64/80/100-Pin, 16-Bit, General Purpose Flash Microcontrollers with Peripheral Pin Select

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PIC24FJ256GA110_10 Datasheet, PDF (251/330 Pages) Microchip Technology – 64/80/100-Pin, 16-Bit, General Purpose Flash Microcontrollers with Peripheral Pin Select

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PIC24FJ256GA110 FAMILY

25.2 On-Chip Voltage Regulator

All PIC24FJ256GA110 family devices power their core

digital logic at a nominal 2.5V. This may create an issue

for designs that are required to operate at a higher

typical voltage, such as 3.3V. To simplify system

design, all devices in the PIC24FJ256GA110 family

incorporate an on-chip regulator that allows the device

to run its core logic from VDD.

The regulator is controlled by the ENVREG pin. Tying VDD

to the pin enables the regulator, which in turn, provides

power to the core from the other VDD pins. When the reg-

ulator is enabled, a low-ESR capacitor (such as ceramic)

must be connected to the VDDCORE/VCAP pin

(Figure 25-1). This helps to maintain the stability of the

regulator. The recommended value for the filter capacitor

(CEFC) is provided in Section 28.1 âDC Characteristicsâ.

If ENVREG is tied to VSS, the regulator is disabled. In

this case, separate power for the core logic at a nomi-

nal 2.5V must be supplied to the device on the

VDDCORE/VCAP pin to run the I/O pins at higher voltage

levels, typically 3.3V. Alternatively, the VDDCORE/VCAP

and VDD pins can be tied together to operate at a lower

nominal voltage. Refer to Figure 25-1 for possible

configurations.

25.2.1

VOLTAGE REGULATOR TRACKING

MODE AND LOW-VOLTAGE

DETECTION

When it is enabled, the on-chip regulator provides a

constant voltage of 2.5V nominal to the digital core

logic.

The regulator can provide this level from a VDD of about

2.5V, all the way up to the deviceâs VDDMAX. It does not

have the capability to boost VDD levels below 2.5V. In

order to prevent âbrown-outâ conditions when the volt-

age drops too low for the regulator, the regulator enters

Tracking mode. In Tracking mode, the regulator output

follows VDD with a typical voltage drop of 100 mV.

When the device enters Tracking mode, it is no longer

possible to operate at full speed. To provide information

about when the device enters Tracking mode, the

on-chip regulator includes a simple, Low-Voltage

Detect circuit. When VDD drops below full-speed oper-

ating voltage, the circuit sets the Low-Voltage Detect

Interrupt Flag, LVDIF (IFS4<8>). This can be used to

generate an interrupt and put the application into a

Low-Power Operational mode or trigger an orderly

shutdown.

Low-Voltage Detection is only available when the

regulator is enabled.

FIGURE 25-1:

CONNECTIONS FOR THE

ON-CHIP REGULATOR

Regulator Enabled (ENVREG tied to VDD):

3.3V

PIC24FJ256GA

VDD

ENVREG

CEFC

(10 ïF typ)

VDDCORE/VCAP

VSS

Regulator Disabled (ENVREG tied to ground):

2.5V(1)

3.3V(1)

PIC24FJ256GA

VDD

ENVREG

VDDCORE/VCAP

VSS

Regulator Disabled (VDD tied to VDDCORE):

2.5V(1)

PIC24FJ256GA

VDD

ENVREG

VDDCORE/VCAP

VSS

Note 1:

These are typical operating voltages. Refer

to Section 28.1 âDC Characteristicsâ for

the full operating ranges of VDD and

VDDCORE.

ï£ 2010 Microchip Technology Inc.

DS39905E-page 251

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