PIC18LF27J13T-I/SO Microchip Technology, PIC18LF27J13T-I/SO Datasheet - Page 426

PIC18LF27J13T-I/SO

Manufacturer Part Number

PIC18LF27J13T-I/SO

Description

28-pin, GP, 128KB Flash, 4KB RAM, 12 MIPS, 12-bit ADC 28 SOIC .300in T/R

Manufacturer

Microchip Technology

Series

PIC® XLP™ 18Fr

Datasheets

1.PIC18F26J13-ISS.pdf (558 pages)

2.PIC18F26J13-ISS.pdf (12 pages)

Specifications of PIC18LF27J13T-I/SO

Core Processor

PIC

Core Size

8-Bit

Speed

48MHz

Connectivity

I²C, LIN, SPI, UART/USART

Peripherals

Brown-out Detect/Reset, POR, PWM, WDT

Number Of I /o

Program Memory Size

128KB (64K x 16)

Program Memory Type

FLASH

Ram Size

3.8K x 8

Voltage - Supply (vcc/vdd)

2 V ~ 2.75 V

Data Converters

A/D 10x10b/12b

Oscillator Type

Internal

Operating Temperature

-40°C ~ 85°C

Package / Case

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Eeprom Size

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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PIC18F47J13 FAMILY

27.3

The digital core logic of the PIC18F47J13 family

devices is designed on an advanced manufacturing

process, which requires 2.0V to 2.7V. The digital core

logic obtains power from the V

supply pin.

However, in many applications it may be inconvenient

to run the I/O pins at the same core logic voltage, as it

would restrict the ability of the device to interface with

other higher voltage devices, such as those run at a

nominal 3.3V. Therefore, all PIC18F47J13 family

devices implement a dual power supply rail topology.

The core logic obtains power from the V

pin, while the general purpose I/O pins obtain power

from the V

supplied with a voltage between 2.15V to 3.6V (“F”

device) or 2.0V to 3.6V (“LF” device).

This dual supply topology allows the microcontroller to

interface with standard 3.3V logic devices, while running

the core logic at a lower voltage of nominally 2.5V.

In order to make the microcontroller more convenient to

use, an integrated 2.5V low dropout, low quiescent

current linear regulator has been integrated on the die

inside PIC18F47J13 family devices. This regulator is

designed specifically to supply the core logic of the

device. It allows PIC18F47J13 family devices to

effectively run from a single power supply rail, without

the need for external regulators.

The on-chip voltage regulator is always enabled on “F”

devices. The V

as the regulator output pin and the core logic supply

power input pin. A capacitor should be connected to the

lator stability. For example connections for PIC18F and

PIC18LF devices, see Figure 27-2.

On “LF” devices, the on-chip regulator is always

disabled. This allows the device to save a small amount

of quiescent current consumption, which may be

DS39974A-page 426

DDCORE

Note 1: The on-chip voltage regulator is only

2: The V

On-Chip Voltage Regulator

CAP

available in parts designated with an “F”,

such as PIC18F26J13. The on-chip

regulator is disabled on devices with “LF”

in their part number.

floating. On “F” devices, it must be con-

nected to a capacitor of size, C

ground. On “LF” devices, V

must be connected to a power supply

source between 2.0V and 2.7V.

pin of the microcontroller, which may be

DDCORE

pin to ground and is necessary for regu-

DDCORE

CAP

pin simultaneously serves

pin must never be left

DDCORE

CAP

EFC

power

, to

CAP

Preliminary

advantageous in some types of applications, such as

those which will entirely be running at a nominal 2.5V.

On “LF” devices, the V

the core logic power supply input pin, and therefore,

must be connected to a 2.0V to 2.7V supply rail at the

application circuit board level. On these devices, the

I/O pins may still optionally be supplied with a voltage

between 2.0V to 3.6V, provided that V

greater than, or equal to, V

connections for PIC18F and PIC18LF devices, see

Figure 27-2.

The specifications for core voltage and capacitance

are listed in Section 30.3 “DC Characteristics:

PIC18F47J13 Family (Industrial)”.

27.3.1

On “F” devices, the on-chip regulator provides a con-

stant voltage of 2.5V nominal to the digital core logic.

The regulator can provide this level from a V

2.5V, all the way up to the device’s V

have the capability to boost V

When the V

regulate 2.5V, the regulator enters Tracking mode. In

Tracking mode, the regulator output follows V

typical voltage drop of 100 mV or less.

The on-chip regulator includes a simple Low-Voltage

Detect (LVD) circuit. This circuit is separate and

independent of the High/Low-Voltage Detect (HLVD)

module described in Section 25.0 “High/Low Voltage

Detect (HLVD)”. The on-chip regulator LVD circuit con-

tinuously monitors the V

updates the LVDSTAT bit in the WDTCON register. The

LVD detect threshold is set slightly below the normal

regulation set point of the on-chip regulator.

Application firmware may optionally poll the LVDSTAT

bit to determine when it is safe to run at the maximum

rated frequency, so as not to inadvertently violate the

voltage versus frequency requirements provided by

Figure 30-1.

The V

when the on-chip regulator is enabled. On “LF”

devices, the Analog-to-Digital Converter and the HLVD

module can still be used to provide firmware with V

and V

Note:

DDCORE

In parts designated with an “LF”, such as

PIC18LF47J13, V

exceed V

VOLTAGE REGULATOR TRACKING

MODE AND LOW-VOLTAGE

DETECTION

voltage level information.

monitoring LVD circuit is only active

supply input voltage drops too low to

DDCORE

 2010 Microchip Technology Inc.

DDCORE

CAP

levels below 2.5V.

voltage level and

DDMAX

CAP

pin still serves as

. For example

must never

. It does not

is always

of about

, with a

PIC18LF27J13T-I/SO Microchip Technology, PIC18LF27J13T-I/SO Datasheet - Page 426

PIC18LF27J13T-I/SO

Specifications of PIC18LF27J13T-I/SO

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