DSPIC33FJ128MC706-I/PT Microchip Technology Inc., DSPIC33FJ128MC706-I/PT Datasheet - Page 268
DSPIC33FJ128MC706-I/PT
Manufacturer Part Number
DSPIC33FJ128MC706-I/PT
Description
16 BIT MCU/DSP 64LD 40MIPS 128KB FLASH
Manufacturer
Microchip Technology Inc.
Type
DSPr
Datasheet
1.DSPIC33FJ128MC706-IPT.pdf
(371 pages)
Specifications of DSPIC33FJ128MC706-I/PT
A/d Inputs
16-Channels, 12-Bit
Comparators
8
Cpu Speed
40 MIPS
Eeprom Memory
0 Bytes
Input Output
53
Interface
CAN/I2C/SPI/UART
Ios
53
Memory Type
Flash
Number Of Bits
16
Package Type
64-pin TQFP
Programmable Memory
128K Bytes
Ram Size
16K Bytes
Timers
9-16-bit, 4-32-bit
Voltage, Range
3-3.6
Lead Free Status / Rohs Status
RoHS Compliant part
Electrostatic Device
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dsPIC33F
21.3.8
The sample clock edge (CSCKE) control bit determines
the sampling edge for the CSCK signal. If the CSCK bit
is cleared (default), data will be sampled on the falling
edge of the CSCK signal. The AC-Link protocols and
most Multi-Channel formats require that data be sam-
pled on the falling edge of the CSCK signal. If the
CSCK bit is set, data will be sampled on the rising edge
of CSCK. The I
sampled on the rising edge of the CSCK signal.
21.3.9
In most applications, the data transfer begins one
CSCK cycle after the COFS signal is sampled active.
This is the default configuration of the DCI module. An
alternate data alignment can be selected by setting the
DJST control bit in the DCICON1 SFR. When DJST = 1,
data transfers will begin during the same CSCK cycle
when the COFS signal is sampled active.
21.3.10
The TSCON SFR has control bits that are used to
enable up to 16 time slots for transmission. These con-
trol bits are the TSE<15:0> bits. The size of each time
slot is determined by the WS<3:0> word size selection
bits and can vary up to 16 bits.
If a transmit time slot is enabled via one of the TSE bits
(TSEx = 1), the contents of the current transmit shadow
buffer location will be loaded into the DCI Shift register
and the DCI buffer control unit is incremented to point
to the next location.
During an unused transmit time slot, the CSDO pin will
drive ‘0’s, or will be tri-stated during all disabled time
slots, depending on the state of the CSDOM bit in the
DCICON1 SFR.
The data frame size in bits is determined by the chosen
data word size and the number of data word elements
in the frame. If the chosen frame size has less than
16 elements, the additional slot enable bits will have no
effect.
Each transmit data word is written to the 16-bit transmit
buffer as left justified data. If the selected word size is
less than 16 bits, then the LSbs of the transmit buffer
memory will have no effect on the transmitted data. The
user should write ‘0’s to the unused LSbs of each
transmit buffer location.
21.3.14
The amount of data that is buffered between interrupts
is determined by the Buffer Length (BLEN<1:0>) con-
trol bits in the DCICON2 SFR. The size of the transmit
and receive buffers can vary from 1 to 4 data words
using the BLEN control bits. The BLEN control bits are
compared to the current value of the DCI buffer control
DS70165D-page 266
SAMPLE CLOCK EDGE
CONTROL BIT
DATA JUSTIFICATION
CONTROL BIT
TRANSMIT SLOT ENABLE BITS
BUFFER LENGTH CONTROL
2
S protocol requires that data be
Preliminary
21.3.11
The RSCON SFR contains control bits that are used to
enable up to 16 time slots for reception. These control
bits are the RSE<15:0> bits. The size of each receive
time slot is determined by the WS<3:0> word size
selection bits and can vary from 1 to 16 bits.
If a receive time slot is enabled via one of the RSE bits
(RSEx = 1), the DCI Shift register contents will be writ-
ten to the current DCI receive shadow buffer location
and the buffer control unit will be incremented to point
to the next buffer location.
Data is not packed in the receive memory buffer loca-
tions if the selected word size is less than 16 bits. Each
received slot data word is stored in a separate 16-bit
buffer location. Data is always stored in a left justified
format in the receive memory buffer.
21.3.12
The TSE and RSE control bits operate in concert with
the DCI frame sync generator. In Master mode, a
COFS signal is generated whenever the frame sync
generator is reset. In Slave mode, the frame sync
generator is reset whenever a COFS pulse is received.
The TSE and RSE control bits allow up to 16 consecu-
tive time slots to be enabled for transmit or receive.
After the last enabled time slot has been transmitted/
received, the DCI will stop buffering data until the next
occurring COFS pulse.
21.3.13
The DCI buffer control unit will be incremented by one
word location whenever a given time slot has been
enabled for transmission or reception. In most cases,
data input and output transfers will be synchronized,
which means that a data sample is received for a given
channel at the same time a data sample is transmitted.
Therefore, the transmit and receive buffers will be filled
with equal amounts of data when a DCI interrupt is
generated.
In some cases, the amount of data transmitted and
received during a data frame may not be equal. As an
example, assume a two-word data frame is used.
Furthermore, assume that data is only received during
slot #0 but is transmitted during slot #0 and slot #1. In
this case, the buffer control unit counter would be incre-
mented twice during a data frame, but only one receive
register location would be filled with data.
unit address counter. When the 2 LSbs of the DCI
address counter match the BLEN<1:0> value, the
buffer control unit will be reset to ‘0’. In addition, the
contents of the Receive Shadow registers are trans-
RECEIVE SLOT ENABLE BITS
SLOT ENABLE BITS OPERATION
WITH FRAME SYNC
SYNCHRONOUS DATA
TRANSFERS
© 2006 Microchip Technology Inc.
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