PIC18F87K22 Datasheet, PDF(419/548 Page) Microchip Technology – 64/80-Pin, High-Performance, 1-Mbit Enhanced Flash Microcontrollers with 12-Bit A/D and nanoWatt XLP Technology

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PIC18F87K22 Datasheet, PDF (419/548 Pages) Microchip Technology – 64/80-Pin, High-Performance, 1-Mbit Enhanced Flash Microcontrollers with 12-Bit A/D and nanoWatt XLP Technology

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PIC18F87K22 FAMILY

28.3 On-Chip Voltage Regulator

All of the PIC18F87K22 family devices power their core

digital logic at a nominal 3.3V. For designs that are

required to operate at a higher typical voltage, such as

5V, all family devices incorporate two on-chip regula-

tors that allows the device to run its core logic from

VDD. Those regulators are:

â¢ Normal on-chip regulator

â¢ Ultra Low-Power, on-chip regulator

The hardware configuration of these regulators are the

same and are explained in Section 28.3.1 âRegulator

Enable/Disable By Hardwareâ. The regulatorsâ only

differences relate to when the device enters Sleep, as

explained in Section 28.3.2 âOperation of Regulator

in Sleepâ.

28.3.1

REGULATOR ENABLE/DISABLE BY

HARDWARE

The regulator can be enabled or disabled only by hard-

ware. The regulator is controlled by the ENVREG pin

and the VDDCORE/VCAP pin.

28.3.1.1 Regulator Enable Mode

Tying VDD to the pin enables the regulator, which in turn,

provides power to the core from the other VDD pins.

When the regulator is enabled, a low-ESR filter capac-

itor must be connected to the VDDCORE/VCAP pin (see

Figure 28-2). This helps maintain the regulatorâs

stability. The recommended value for the filter capacitor

is given in Section 31.2 âDC Characteristics: Power-

Down and Supply Current PIC18F87K22 Family

(Industrial)â.

28.3.1.2 Regulator Disable Mode

If the regulator is disabled by connecting Vss to the

ENVREG pin, the power to the core is supplied directly

by VDD. The voltage levels for VDD must not exceed the

specified VDDCORE levels. A bypass capacitor should

be connected to the VDDCORE/VCAP pin, but is not

required. Whether or not the regulator is used, it is

always a good practice to have sufficient capacitance

on all supply pins.

When the regulator is being used, the overall voltage

budget is very tight. The regulator should operate the

device down to 1.8V. When VDD drops below 3.3V, the

regulator no longer regulates, but the output voltage fol-

lows the input until VDD reaches 1.8V. Below this voltage,

the output of the regulator output may drop to 0V.

FIGURE 28-2:

CONNECTIONS FOR THE

ON-CHIP REGULATOR

Regulator Enabled (ENVREG tied to VDD):

5V

PIC18F87K22

VDD

ENVREG

VDDCORE/VCAP

CF

VSS

Regulator Disabled (ENVREG tied to VSS):

3.3V(1)

PIC18F87K22

VDD

ENVREG

VDDCORE/VCAP (2)

VSS

Note 1:

2:

These are typical operating voltages. For the

full operating ranges of VDD and VDDCORE, see

Section 31.2 âDC Characteristics: Power-

Down and Supply Current PIC18F87K22

Family (Industrial)â.

When the regulator is disabled, VDDCORE/

VCAP may be left floating or connected to a

bypass capacitor.

ï£ 2010 Microchip Technology Inc.

Preliminary

DS39960B-page 419

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