DSPIC30F1010-30I/SO Microchip Technology, DSPIC30F1010-30I/SO Datasheet - Page 21

DSPIC30F1010-30I/SO

Manufacturer Part Number

DSPIC30F1010-30I/SO

Description

IC DSPIC MCU/DSP 6K 28SOIC

Manufacturer

Microchip Technology

Series

dsPIC™ 30Fr

Datasheets

1.AC164335.pdf (286 pages)

2.DM300023.pdf (22 pages)

3.DM300023.pdf (18 pages)

4.DSPIC30F2011-20ISO.pdf (66 pages)

5.DSPIC30F2011-20IP.pdf (26 pages)

6.DSPIC30F1010-30ISO.pdf (26 pages)

7.DSPIC30F1010-30ISO.pdf (50 pages)

8.DSPIC30F4011-20IML.pdf (236 pages)

Specifications of DSPIC30F1010-30I/SO

Core Processor

dsPIC

Core Size

16-Bit

Speed

30 MIPs

Connectivity

I²C, IrDA, LIN, SPI, UART/USART

Peripherals

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

Number Of I /o

Program Memory Size

6KB (2K x 24)

Program Memory Type

FLASH

Ram Size

256 x 8

Voltage - Supply (vcc/vdd)

3 V ~ 5.5 V

Data Converters

A/D 6x10b

Oscillator Type

Internal

Operating Temperature

-40°C ~ 85°C

Package / Case

28-SOIC (7.5mm Width)

Data Bus Width

16 bit

Processor Series

DSPIC30F

Core

dsPIC

3rd Party Development Tools

52713-733, 52714-737, 53276-922, EWDSPIC

Development Tools By Supplier

PG164130, DV164035, DV244005, DV164005, PG164120, DM240002, DM300023, DM330011

Package

28SOIC W

Device Core

dsPIC

Family Name

dsPIC30

Maximum Speed

30 MHz

Operating Supply Voltage

3.3|5 V

Number Of Programmable I/os

Interface Type

I2C/SPI/UART

On-chip Adc

6-chx10-bit

Number Of Timers

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

For Use With

DM300023 - KIT DEMO DSPICDEM SMPS BUCKDV164005 - KIT ICD2 SIMPLE SUIT W/USB CABLE

Eeprom Size

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

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2.0

2.1

The core has a 24-bit instruction word. The Program

Counter (PC) is 23 bits wide with the Least Significant

bit (LSb) always clear (see Section 3.1 “Program

Address Space”), and the Most Significant bit (MSb)

is ignored during normal program execution, except for

certain specialized instructions. Thus, the PC can

address up to 4M instruction words of user program

space. An instruction prefetch mechanism is used to

help maintain throughput. Program loop constructs,

free from loop count management overhead, are sup-

ported using the DO and REPEAT instructions, both of

which are interruptible at any point.

The working register array consists of 16x16-bit regis-

ters, each of which can act as data, address or offset

registers. One working register (W15) operates as a

software Stack Pointer for interrupts and calls.

The data space is 64 Kbytes (32K words) and is split

into two blocks, referred to as X and Y data memory.

Each block has its own independent Address Genera-

tion Unit (AGU). Most instructions operate solely

through the X memory AGU, which provides the

appearance of a single unified data space. The

Multiply-Accumulate (MAC) class of dual source DSP

instructions operate through both the X and Y AGUs,

splitting the data address space into two parts (see

Section 3.2 “Data Address Space”). The X and Y

data space boundary is device-specific and cannot be

altered by the user. Each data word consists of 2 bytes,

and most instructions can address data either as words

or bytes.

There are two methods of accessing data stored in

program memory:

• The upper 32 Kbytes of data space memory can be

Note: This data sheet summarizes features of this group

of dsPIC30F devices and is not intended to be a complete

reference source. For more information on the CPU,

peripherals, register descriptions and general device

functionality, refer to the “dsPIC30F Family Reference

Manual” (DS70046). For more information on the device

instruction set and programming, refer to the “dsPIC30F/

33F Programmer’s Reference Manual” (DS70157).

mapped into the lower half (user space) of program

space at any 16K program word boundary, defined

by the 8-bit Program Space Visibility Page

(PSVPAG) register. This lets any instruction access

program space as if it were data space, with a limita-

tion that the access requires an additional cycle.

Moreover, only the lower 16 bits of each instruction

word can be accessed using this method.

CPU ARCHITECTURE

OVERVIEW

Core Overview

Preliminary

• Linear indirect access of 32K word pages within

Overhead-free circular buffers (modulo addressing)

are supported in both X and Y address spaces. This is

primarily intended to remove the loop overhead for

DSP algorithms.

The X AGU also supports Bit-Reversed Addressing

mode on destination effective addresses, to greatly

simplify input or output data reordering for radix-2 FFT

algorithms. Refer to Section 4.0 “Address Generator

Units” for details on modulo and Bit-Reversed

Addressing.

The core supports Inherent (no operand), Relative, Lit-

eral, Memory Direct, Register Direct, Register Indirect,

Instructions are associated with predefined Addressing

modes, depending upon their functional requirements.

For most instructions, the core is capable of executing

a data (or program data) memory read, a working reg-

ister (data) read, a data memory write and a program

(instruction) memory read per instruction cycle. As a

result, 3-operand instructions are supported, allowing

C = A + B operations to be executed in a single cycle.

A DSP engine has been included to significantly

enhance the core arithmetic capability and throughput.

It features a high-speed 17-bit by 17-bit multiplier, a

40-bit ALU, two 40-bit saturating accumulators and a

40-bit bidirectional barrel shifter. Data in the accumula-

tor or any working register can be shifted up to 15 bits

right or 16 bits left in a single cycle. The DSP instruc-

tions operate seamlessly with all other instructions and

have been designed for optimal real-time performance.

The MAC class of instructions can concurrently fetch

two data operands from memory, while multiplying two

W registers. To enable this concurrent fetching of data

operands, the data space has been split for these

instructions and linear for all others. This has been

achieved in a transparent and flexible manner, by

dedicating certain working registers to each address

space for the MAC class of instructions.

The core does not support a multi-stage instruction

pipeline. However, a single stage instruction prefetch

mechanism is used, which accesses and partially

decodes instructions a cycle ahead of execution, in

order to maximize available execution time. Most

instructions execute in a single cycle, with certain

exceptions.

The core features a vectored exception processing

structure for traps and interrupts, with 62 independent

vectors. The exceptions consist of up to 8 traps (of

which 4 are reserved) and 54 interrupts. Each interrupt

is prioritized based on a user-assigned priority between

1 and 7 (1 being the lowest priority and 7 being the

highest) in conjunction with a predetermined ‘natural

order’. Traps have fixed priorities, ranging from 8 to 15.

program space is also possible using any working

Table read and write instructions can be used to

access all 24 bits of an instruction word.

dsPIC30F1010/202X

DS70178C-page 19

DSPIC30F1010-30I/SO Microchip Technology, DSPIC30F1010-30I/SO Datasheet - Page 21

DSPIC30F1010-30I/SO

Specifications of DSPIC30F1010-30I/SO

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