MA330013 Microchip Technology, MA330013 Datasheet - Page 70
MA330013
Manufacturer Part Number
MA330013
Description
MODULE PLUG-IN DSPIC33 100TQFP
Manufacturer
Microchip Technology
Specifications of MA330013
Accessory Type
Plug-In Module (PIM) - dsPIC33FJ256MC710
Tool / Board Applications
General Purpose MCU, MPU, DSP, DSC
Mcu Supported Families
DsPIC33
Silicon Manufacturer
Microchip
Core Architecture
DsPIC
Core Sub-architecture
DsPIC33
Silicon Core Number
DsPIC33F
Silicon Family Name
DsPIC33FJxxMCxxx
Rohs Compliant
Yes
For Use With
DM330023 - BOARD DEV DSPICDEM MCHV
Lead Free Status / RoHS Status
Not applicable / Not applicable
For Use With/related Products
Explorer 16 (DM240001 or DM240002)
Lead Free Status / RoHS Status
Lead free / RoHS Compliant, Not applicable / Not applicable
dsPIC33F
TABLE 3-35:
3.3.3
Move instructions and the DSP accumulator class of
instructions provide a greater degree of addressing
flexibility than other instructions. In addition to the
Addressing modes supported by most MCU instruc-
tions, move and accumulator instructions also support
Register Indirect with Register Offset Addressing
mode, also referred to as Register Indexed mode.
In summary, the following Addressing modes are
supported by move and accumulator instructions:
• Register Direct
• Register Indirect
• Register Indirect Post-modified
• Register Indirect Pre-modified
• Register Indirect with Register Offset (Indexed)
• Register Indirect with Literal Offset
• 8-bit Literal
• 16-bit Literal
3.3.4
The dual source operand DSP instructions (CLR, ED,
EDAC, MAC, MPY, MPY.N, MOVSAC and MSC), also referred
to as MAC instructions, utilize a simplified set of address-
ing modes to allow the user to effectively manipulate the
data pointers through register indirect tables.
The 2-source operand prefetch registers must be
members of the set {W8, W9, W10, W11}. For data
reads, W8 and W9 are always directed to the X RAGU
DS70165E-page 68
File Register Direct
Register Direct
Register Indirect
Register Indirect Post-Modified
Register Indirect Pre-Modified
Register Indirect with Register Offset The sum of Wn and Wb forms the EA.
Register Indirect with Literal Offset
Note:
Note:
Addressing Mode
MOVE AND ACCUMULATOR
INSTRUCTIONS
For the MOV instructions, the Addressing
mode specified in the instruction can differ
for the source and destination EA.
However, the 4-bit Wb (Register Offset)
field is shared between both source and
destination (but typically only used by
one).
Not all instructions support all the
Addressing modes given above. Individual
instructions may support different subsets
of these Addressing modes.
MAC INSTRUCTIONS
FUNDAMENTAL ADDRESSING MODES SUPPORTED
The contents of Wn forms the EA. Wn is post-modified (incremented or
The address of the file register is specified explicitly.
The contents of a register are accessed directly.
The contents of Wn forms the EA.
decremented) by a constant value.
Wn is pre-modified (incremented or decremented) by a signed constant value
to form the EA.
The sum of Wn and a literal forms the EA.
Preliminary
and W10 and W11 will always be directed to the Y
AGU. The effective addresses generated (before and
after modification) must, therefore, be valid addresses
within X data space for W8 and W9 and Y data space
for W10 and W11.
In summary, the following addressing modes are
supported by the MAC class of instructions:
• Register Indirect
• Register Indirect Post-Modified by 2
• Register Indirect Post-Modified by 4
• Register Indirect Post-Modified by 6
• Register Indirect with Register Offset (Indexed)
3.3.5
Besides the various addressing modes outlined above,
some instructions use literal constants of various sizes.
For example, BRA (branch) instructions use 16-bit signed
literals to specify the branch destination directly, whereas
the DISI instruction uses a 14-bit unsigned literal field. In
some instructions, such as ADD Acc, the source of an
operand or result is implied by the opcode itself. Certain
operations, such as NOP, do not have any operands.
3.4
Modulo Addressing mode is a method of providing an
automated means to support circular data buffers using
hardware. The objective is to remove the need for soft-
ware to perform data address boundary checks when
executing tightly looped code, as is typical in many
DSP algorithms.
Modulo Addressing can operate in either data or program
space (since the data pointer mechanism is essentially
the same for both). One circular buffer can be supported
in each of the X (which also provides the pointers into
program space) and Y data spaces. Modulo Addressing
can operate on any W register pointer. However, it is not
Note:
Description
Modulo Addressing
Register Indirect with Register Offset
Addressing mode is only available for W9
(in X space) and W11 (in Y space).
OTHER INSTRUCTIONS
© 2007 Microchip Technology Inc.
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