MCF5253VM140J Freescale Semiconductor, MCF5253VM140J Datasheet - Page 573

MCF5253VM140J

Manufacturer Part Number

MCF5253VM140J

Description

IC MCU 2.1MIPS 140MHZ 225MAPBGA

Manufacturer

Freescale Semiconductor

Series

MCF525xr

Datasheets

1.MCF5253VM140J.pdf (34 pages)

2.MCF5253VM140J.pdf (8 pages)

3.MCF5253VM140J.pdf (648 pages)

4.MCF5253VM140J.pdf (2 pages)

Specifications of MCF5253VM140J

Core Processor

Coldfire V2

Core Size

32-Bit

Speed

140MHz

Connectivity

CAN, EBI/EMI, I²C, QSPI, UART/USART, USB OTG

Peripherals

DMA, WDT

Program Memory Type

ROMless

Ram Size

128K x 8

Voltage - Supply (vcc/vdd)

1.08 V ~ 1.32 V

Data Converters

A/D 6x12b

Oscillator Type

External

Operating Temperature

-20°C ~ 70°C

Package / Case

225-MAPBGA

Processor Series

MCF525x

Core

ColdFire V2

3rd Party Development Tools

JLINK-CF-BDM26, EWCF

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Number Of I /o

Eeprom Size

Program Memory Size

Lead Free Status / Rohs Status

Details

Available stocks

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Quantity

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BOSTOCK HK LIMITED

Part Number:

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Manufacturer:

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The start-split transactions do not receive a handshake from the transaction translator, so the host controller

always advances the transfer state in the siTD after the bus transaction is complete. To advance the transfer

state the following operations take place:

These fields are then written back to the memory based siTD. The S-mask is fixed for the life of the current

budget. As mentioned above, TP and T-count are set specifically in each siTD to reflect the data to be sent

from this siTD. Therefore, regardless of the value of S-mask, the actual number of start-split transactions

depends on T-count (or equivalently, Total Bytes to Transfer). The host controller must clear the Active bit

when it detects that all of the schedule data has been sent to the bus. The preferred method is to detect when

T-Count decrements to zero as a result of a start-split bus transaction. Equivalently, the host controller can

detect when Total Bytes to Transfer decrements to zero. Either implementation must ensure that if the

initial condition is Total Bytes to Transfer is equal to zero and T-count is equal to a one, then the host

controller will issue a single start-split, with a zero-length data payload. The software must ensure that TP,

T-count and Total Bytes to Transfer are set to deliver the appropriate number of bus transactions from each

siTD. An inconsistent combination will yield undefined behavior.

If the host experiences hold-offs that cause the host controller to skip start-split transactions for an OUT

transfer, the state of the transfer will not progress appropriately. The transaction translator observes

protocol violations in the arrival of the start-splits for the OUT endpoint (that is, the transaction position

annotation is incorrect as received by the transaction translator).

Example scenarios are described in

Examples.”

The host controller can optionally track the progress of an OUT split transaction by setting appropriate bits

in the siTD[C-prog-mask] as it executes each scheduled start-split. The checkPreviousBit() algorithm

defined in

executing each start-split to determine whether start-splits were skipped. The host controller can use this

mechanism to detect missed micro-frames. It can then clear the siTD's Active bit and stop execution of this

siTD. This saves on both memory and high-speed bus bandwidth.

24.9.12.3.5 Periodic Isochronous—Do Complete Split

This state is only used by a split-transaction isochronous IN endpoint. This state is entered unconditionally

from the Do Start State after a start-split transaction is executed for an IN endpoint. Each time the host

controller visits an siTD in this state, it conducts a number of tests to determine whether it should execute

a complete-split transaction. The individual tests are listed below. The sequence they are applied depends

on which micro-frame the host controller is currently executing which means that the tests might not be

applied until after the siTD referenced from the back pointer has been fetched.

Freescale Semiconductor

•

The siTD[Total Bytes To Transfer] and the siTD[Current Offset] fields are adjusted to reflect the

number of bytes transferred.

The siTD[P] (page select) bit is updated appropriately.

The siTD[TP] and siTD[T-count] fields are updated appropriately as defined in

Test A. cMicroFrameBit is bit-wise ANDed with the siTD[C-mask] field. A non-zero result

indicates that the software scheduled a complete-split for this endpoint, during this micro-frame.

This test is always applied to a newly fetched siTD that is in this state.

Section 24.9.12.3.5, “Periodic Isochronous—Do Complete Split,”

Section 24.9.12.3.7, “Split Transaction for Isochronous—Processing

MCF5253 Reference Manual, Rev. 1

can be used prior to

Universal Serial Bus Interface

Table

24-69.

24-111

MCF5253VM140J Freescale Semiconductor, MCF5253VM140J Datasheet - Page 573

MCF5253VM140J

Specifications of MCF5253VM140J

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