DSPIC33FJ64GP204-I Datasheet, PDF(302/436 Page) Microchip Technology – 16-bit Digital Signal Controllers (up to 128 KB Flash and 16K SRAM) with Advanced Analog

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DSPIC33FJ64GP204-I Datasheet, PDF (302/436 Pages) Microchip Technology – 16-bit Digital Signal Controllers (up to 128 KB Flash and 16K SRAM) with Advanced Analog

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dsPIC33FJ32GP302/304, dsPIC33FJ64GPX02/X04, AND dsPIC33FJ128GPX02/X04

FIGURE 25-2:

CRC GENERATOR RECONFIGURED FOR x16 + x12 + x5 + 1

XOR

SDOx

DQ

BIT 0

DQ

BIT 4

DQ

BIT 5

DQ

BIT 12

DQ

BIT 15

p_clk

p_clk

p_clk

p_clk

p_clk

CRC Read Bus

CRC Write Bus

25.2 User Interface

25.2.1 DATA INTERFACE

To start serial shifting, a â1â must be written to the

CRCGO bit.

The module incorporates a FIFO that is 8 deep when

PLEN (PLEN<3:0>) > 7, and 16 deep, otherwise. The

data for which the CRC is to be calculated must first be

written into the FIFO. The smallest data element that

can be written into the FIFO is one byte. For example,

if PLEN = 5, then the size of the data is PLEN + 1 = 6.

The data must be written as follows:

data[5:0] = crc_input[5:0]

data[7:6] = âbxx

Once data is written into the CRCWDAT MSb (as

defined by PLEN), the value of VWORD

(VWORD<4:0>) increments by one. The serial shifter

starts shifting data into the CRC engine when

CRCGO = 1 and VWORD > 0. When the MSb is

shifted out, VWORD decrements by one. The serial

shifter continues shifting until the VWORD reaches 0.

Therefore, for a given value of PLEN, it will take

(PLEN + 1) * VWORD number of clock cycles to

complete the CRC calculations.

When VWORD reaches 8 (or 16), the CRCFUL bit will

be set. When VWORD reaches 0, the CRCMPT bit will

be set.

To continually feed data into the CRC engine, the rec-

ommended mode of operation is to initially âprimeâ the

FIFO with a sufficient number of words so no interrupt

is generated before the next word can be written. Once

that is done, start the CRC by setting the CRCGO bit to

â1â. From that point onward, the VWORD<4:0> bits

should be polled. If they read less than 8 or 16, another

word can be written into the FIFO.

To empty words already written into a FIFO, the

CRCGO bit must be set to â1â and the CRC shifter

allowed to run until the CRCMPT bit is set.

Also, to get the correct CRC reading, it will be

necessary to wait for the CRCMPT bit to go high before

reading the CRCWDAT register.

If a word is written when the CRCFUL bit is set, the

VWORD Pointer will roll over to 0. The hardware will

then behave as if the FIFO is empty. However, the con-

dition to generate an interrupt will not be met; therefore,

no interrupt will be generated (See Section 25.2.2

âInterrupt Operationâ).

At least one instruction cycle must pass after a write to

CRCWDAT before a read of the VWORD bits is done.

25.2.2 INTERRUPT OPERATION

When the VWORD<4:0> bits make a transition from a

value of â1â to â0â, an interrupt will be generated.

25.3 Operation in Power-Saving Modes

25.3.1 SLEEP MODE

If Sleep mode is entered while the module is operating,

the module will be suspended in its current state until

clock execution resumes.

25.3.2 IDLE MODE

To continue full module operation in Idle mode, the

CSIDL bit must be cleared prior to entry into the mode.

If CSIDL = 1, the module will behave the same way as

it does in Sleep mode; pending interrupt events will be

passed on, even though the module clocks are not

available.

DS70292G-page 302

Â© 2007-2012 Microchip Technology Inc.

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