70291E Datasheet, PDF(74/436 Page) Microchip Technology – High-Performance, 16-bit Digital Signal Controllers

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70291E Datasheet, PDF (74/436 Pages) Microchip Technology – High-Performance, 16-bit Digital Signal Controllers

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dsPIC33FJ32MC302/304, dsPIC33FJ64MCX02/X04 AND dsPIC33FJ128MCX02/X04

4.6.2

DATA ACCESS FROM PROGRAM

MEMORY USING TABLE

INSTRUCTIONS

The TBLRDL and TBLWTL instructions offer a direct

method of reading or writing the lower word of any

address within the program space without going

through data space. The TBLRDH and TBLWTH

instructions are the only method to read or write the

upper 8 bits of a program space word as data.

The PC is incremented by two for each successive

24-bit program word. This allows program memory

addresses to directly map to data space addresses.

Program memory can thus be regarded as two

16-bit-wide word address spaces, residing side by side,

each with the same address range. TBLRDL and

TBLWTL access the space that contains the least signif-

icant data word. TBLRDH and TBLWTH access the

space that contains the upper data byte.

Two table instructions are provided to move byte or

word-sized (16-bit) data to and from program space.

Both function as either byte or word operations.

â¢ TBLRDL (Table Read Low):

- In Word mode, this instruction maps the

lower word of the program space

location (P<15:0>) to a data address

(D<15:0>).

- In Byte mode, either the upper or lower byte

of the lower program word is mapped to the

lower byte of a data address. The upper byte

is selected when Byte Select is â1â; the lower

byte is selected when it is â0â.

â¢ TBLRDH (Table Read High):

- In Word mode, this instruction maps the entire

upper word of a program address (P<23:16>)

to a data address. The âphantomâ byte

(D<15:8>), is always â0â.

- In Byte mode, this instruction maps the upper

or lower byte of the program word to D<7:0>

of the data address, in the TBLRDL instruc-

tion. The data is always â0â when the upper

âphantomâ byte is selected (Byte Select = 1).

In a similar fashion, two table instructions, TBLWTH

and TBLWTL, are used to write individual bytes or

words to a program space address. The details of

their operation are explained in Section 5.0 âFlash

Program Memoryâ.

For all table operations, the area of program memory

space to be accessed is determined by the Table Page

register (TBLPAG). TBLPAG covers the entire program

memory space of the device, including user application

and configuration spaces. When TBLPAG<7> = 0, the

table page is located in the user memory space. When

TBLPAG<7> = 1, the page is located in configuration

space.

FIGURE 4-10:

ACCESSING PROGRAM MEMORY WITH TABLE INSTRUCTIONS

TBLPAG

02

23

15

Program Space

0 0x000000

0x020000

0x030000

23

16

00000000

00000000

00000000

00000000

8

0

âPhantomâ Byte

TBLRDH.B (Wn<0> = 0)

TBLRDL.B (Wn<0> = 1)

TBLRDL.B (Wn<0> = 0)

TBLRDL.W

0x800000

The address for the table operation is determined by the data EA

within the page defined by the TBLPAG register.

Only read operations are shown; write operations are also valid in

the user memory area.

DS70291E-page 74

Â© 2011 Microchip Technology Inc.

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