DSPIC30F1010-30I/SO Microchip Technology, DSPIC30F1010-30I/SO Datasheet - Page 38

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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dsPIC30F1010/202X

3.2.2

The X data space is used by all instructions and sup-

ports all Addressing modes. There are separate read

and write data buses. The X read data bus is the return

data path for all instructions that view data space as

combined X and Y address space. It is also the X

address space data path for the dual operand read

instructions (MAC class). The X write data bus is the

only write path to data space for all instructions.

The X data space also supports modulo addressing for

all instructions, subject to Addressing mode restric-

tions. Bit-Reversed Addressing is only supported for

writes to X data space.

The Y data space is used in concert with the X data

space by the MAC class of instructions (CLR, ED,

EDAC, MAC, MOVSAC, MPY, MPY.N and MSC) to pro-

vide two concurrent data read paths. No writes occur

across the Y bus. This class of instructions dedicates

two W register pointers, W10 and W11, to always

address Y data space, independent of X data space,

whereas W8 and W9 always address X data space.

Note that during accumulator write back, the data

address space is considered a combination of X and Y

data spaces, so the write occurs across the X bus.

Consequently, the write can be to any address in the

entire data space.

The Y data space can only be used for the data

prefetch operation associated with the MAC class of

instructions. It also supports modulo addressing for

automated circular buffers. Of course, all other instruc-

tions can access the Y data address space through the

X data path, as part of the composite linear space.

The boundary between the X and Y data spaces is

defined as shown in Figure 3-6 and is not user pro-

grammable. Should an EA point to data outside its own

assigned address space, or to a location outside phys-

ical memory, an all-zero word/byte will be returned. For

example, although Y address space is visible by all

non-MAC instructions using any Addressing mode, an

attempt by a MAC instruction to fetch data from that

space, using W8 or W9 (X space pointers), will return

0x0000.

TABLE 3-2:

All effective addresses are 16 bits wide and point to

bytes within the data space. Therefore, the data space

address range is 64 Kbytes or 32K words.

DS70178C-page 36

Attempted Operation

EA = an unimplemented address

W8 or W9 used to access Y data

space in a MAC instruction

W10 or W11 used to access X

data space in a MAC instruction

DATA SPACES

EFFECT OF INVALID

MEMORY ACCESSES

Data Returned

0x0000

Preliminary

3.2.3

The core data width is 16 bits. All internal registers are

organized as 16-bit wide words. Data space memory is

organized in byte addressable, 16-bit wide blocks.

3.2.4

To help maintain backward compatibility with PIC

MCU devices and improve data space memory usage

efficiency, the dsPIC30F instruction set supports both

word and byte operations. Data is aligned in data mem-

ory and registers as words, but all data space EAs

resolve to bytes. Data byte reads will read the complete

word, which contains the byte, using the LSb of any EA

to determine which byte to select. The selected byte is

placed onto the LSB of the X data path (no byte

accesses are possible from the Y data path as the MAC

class of instruction can only fetch words). That is, data

memory and registers are organized as two parallel

byte-wide entities with shared (word) address decode,

but separate write lines. Data byte writes only write to

the corresponding side of the array or register which

matches the byte address.

As a consequence of this byte accessibility, all effective

address calculations (including those generated by the

DSP operations, which are restricted to word sized

data) are internally scaled to step through word-aligned

memory. For example, the core would recognize that

Post-Modified Register Indirect Addressing mode,

[Ws++], will result in a value of Ws + 1 for byte

operations and Ws + 2 for word operations.

All word accesses must be aligned to an even address.

Misaligned word data fetches are not supported, so

care must be taken when mixing byte and word opera-

tions, or translating from 8-bit MCU code. Should a mis-

aligned read or write be attempted, an address error

trap will be generated. If the error occurred on a read,

the instruction underway is completed, whereas if it

occurred on a write, the instruction will be executed but

the write will not occur. In either case, a trap will then

be executed, allowing the system and/or user to exam-

ine the machine state prior to execution of the address

fault.

FIGURE 3-8:

0001

0003

0005

DATA SPACE WIDTH

DATA ALIGNMENT

Byte 1

Byte 3

Byte 5

MSB

DATA ALIGNMENT

8 7

Byte 0

Byte 2

Byte 4

LSB

0000

0002

0004

DSPIC30F1010-30I/SO Microchip Technology, DSPIC30F1010-30I/SO Datasheet - Page 38

DSPIC30F1010-30I/SO

Specifications of DSPIC30F1010-30I/SO

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