MPC8313CZQADDC Freescale Semiconductor, MPC8313CZQADDC Datasheet - Page 1068

MPC8313CZQADDC

Manufacturer Part Number

MPC8313CZQADDC

Description

Microprocessors - MPU 8313 REV2.2 PB NO EN EXT

Manufacturer

Freescale Semiconductor

Datasheet

1.MPC8313CZQADDC.pdf (1214 pages)

Specifications of MPC8313CZQADDC

Processor Series

MPC8313

Core

e300

Data Bus Width

16 bit

Maximum Clock Frequency

133 MHz

Program Memory Size

16 KB

Data Ram Size

16 KB

Interface Type

I2C

Mounting Style

SMD/SMT

Package / Case

PBGA

Number Of Programmable I/os

Number Of Timers

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Universal Serial Bus Interface

16.8.3.6

Isochronous endpoints are used for real-time scheduled delivery of data and their operational model is

significantly different than the host throttled Bulk, Interrupt, and Control data pipes. Real time delivery by

the USB_DR will is accomplished by the following:

The USB_DR in host mode uses the periodic frame list to schedule data exchanges to Isochronous

endpoints. The operational model for device mode does not use such a data structure. Instead, the same

dTD used for Control/Bulk/Interrupt endpoints is also used for isochronous endpoints. The difference is

in the handling of the dTD.

The first difference between bulk and ISO-endpoints is that priming an ISO-endpoint is a delayed

operation such that an endpoint will become primed only after a SOF is received. After the DCD writes

the prime bit, the prime bit will be cleared as usual to indicate to software that the device controller

completed a priming the dTD for transfer. Internal to the design, the device controller hardware masks that

prime start until the next frame boundary. This behavior is hidden from the DCD but occurs so that the

device controller can match the dTD to a specific (micro)frame.

Another difference with isochronous endpoints is that the transaction must wholly complete in a

(micro)frame. Once an ISO transaction is started in a (micro)frame it will retire the corresponding dTD

when MULT transactions occur or the device controller finds a fulfillment condition.

16-140

•

Exactly MULT Packets per (micro)Frame are transmitted/received. Note that MULT is a two-bit

field in the device Queue Head. The variable length packet protocol is not used on isochronous

endpoints.

NAK responses are not used. Instead, zero length packets and sent in response to an IN request to

an unprimed endpoints. For unprimed RX endpoints, the response to an OUT transaction is to

ignore the packet within the device controller.

Prime requests always schedule the transfer described in the dTD for the next (micro)frame. If the

ISO-dTD is still active after that frame, then the ISO-dTD will be held ready until executed or

canceled by the DCD.

Isochronous Endpoint Operational Model

MPC8313E PowerQUICC™ II Pro Integrated Processor Family Reference Manual, Rev. 2

SYSERR—System error should never occur when the latency FIFOs are correctly sized and

the DCD is responsive.

Force Bit Stuff Error.

NYET/ACK—NYET unless the Transfer Descriptor has packets remaining according to the

USB variable length protocol then ACK.

Invalid

Token

Type

Ping

Table 16-89. Control Endpoint Bus Response Matrix (continued)

STALL

Ignore

Stall

Primed

Ignore

NAK

Not

Endpoint State

Primed

Ignore

ACK

Underflow

Ignore

N/A

Overflow

Ignore

N/A

Lockout

Ignore

Setup

Freescale Semiconductor

N/A

MPC8313CZQADDC Freescale Semiconductor, MPC8313CZQADDC Datasheet - Page 1068

MPC8313CZQADDC

Specifications of MPC8313CZQADDC

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