PIC24FV16KA301-E/P Microchip Technology, PIC24FV16KA301-E/P Datasheet - Page 82

16KB Flash, 2KB RAM, 512B EEPROM, 16 MIPS, 12-bit ADC, CTMU, 5V 20 PDIP .300in T

PIC24FV16KA301-E/P

Manufacturer Part Number

PIC24FV16KA301-E/P

Description

16KB Flash, 2KB RAM, 512B EEPROM, 16 MIPS, 12-bit ADC, CTMU, 5V 20 PDIP .300in T

Manufacturer

Microchip Technology

Series

PIC® XLP™ 24Fr

Datasheet

1.PIC24F16KA301T-ISO.pdf (320 pages)

Specifications of PIC24FV16KA301-E/P

Processor Series

PIC24FV

Core

PIC

Data Bus Width

16 bit

Program Memory Type

Flash

Program Memory Size

16 KB

Data Ram Size

2 KB

Maximum Operating Temperature

+ 125 C

Mounting Style

Through Hole

Package / Case

PDIP-20

Development Tools By Supplier

MPLAB IDE Software

Minimum Operating Temperature

- 40 C

Core Processor

PIC

Core Size

16-Bit

Speed

32MHz

Connectivity

I²C, IrDA, LIN, SPI, UART/USART

Peripherals

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

Number Of I /o

Eeprom Size

512 x 8

Ram Size

2K x 8

Voltage - Supply (vcc/vdd)

3 V ~ 3.6 V

Data Converters

A/D 12x12b

Oscillator Type

Internal

Operating Temperature

-40°C ~ 125°C

Lead Free Status / Rohs Status

Details

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PIC24FV32KA304 FAMILY

8.3

The PIC24FV32KA304 family of devices implements a

total of 22 registers for the interrupt controller:

• INTCON1

• INTCON2

• IFS0, IFS1, IFS3 and IFS4

• IEC0, IEC1, IEC3 and IEC4

• IPC0 through IPC5, IPC7 and IPC15 through

• INTTREG

Global interrupt control functions are controlled from

INTCON1 and INTCON2. INTCON1 contains the

Interrupt Nesting Disable (NSTDIS) bit, as well as the

control and status flags for the processor trap sources.

The INTCON2 register controls the external interrupt

request signal behavior and the use of the AIV table.

The IFSx registers maintain all of the interrupt request

flags. Each source of interrupt has a status bit, which is

set by the respective peripherals, or external signal,

and is cleared via software.

The IECx registers maintain all of the interrupt enable

bits. These control bits are used to individually enable

interrupts from the peripherals or external signals.

The IPCx registers are used to set the interrupt priority

level for each source of interrupt. Each user interrupt

source can be assigned to one of eight priority levels.

DS39995B-page 82

IPC19

Interrupt Control and Status

Registers

The INTTREG register contains the associated

interrupt vector number and the new CPU interrupt

priority level, which are latched into the Vector Number

(VECNUM<6:0>) and the Interrupt Level (ILR<3:0>) bit

fields in the INTTREG register. The new interrupt

priority level is the priority of the pending interrupt.

The interrupt sources are assigned to the IFSx, IECx

and IPCx registers in the same sequence listed in

Table

is depicted as having a vector number and a natural

order priority of 0. The INT0IF status bit is found in

IFS0<0>, the INT0IE enable bit in IEC0<0> and the

INT0IP<2:0> priority bits are in the first position of IPC0

(IPC0<2:0>).

Although they are not specifically part of the interrupt

control hardware, two of the CPU control registers

contain bits that control interrupt functionality. The ALU

STATUS register (SR) contains the IPL<2:0> bits

(SR<7:5>). These indicate the current CPU interrupt

priority level. The user may change the current CPU

priority level by writing to the IPL bits.

The CORCON register contains the IPL3 bit, which

together with IPL<2:0>, also indicates the current CPU

priority level. IPL3 is a read-only bit so that the trap

events cannot be masked by the user’s software.

All interrupt registers are described in

through

8-2. For example, the INT0 (External Interrupt 0)

8-33, in the following sections.

 2011 Microchip Technology Inc.

PIC24FV16KA301-E/P Microchip Technology, PIC24FV16KA301-E/P Datasheet - Page 82

PIC24FV16KA301-E/P

Specifications of PIC24FV16KA301-E/P

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