MPC8536E-ANDROID Freescale Semiconductor, MPC8536E-ANDROID Datasheet - Page 1461

MPC8536E-ANDROID

Manufacturer Part Number

MPC8536E-ANDROID

Description

HARDWARE/SOFTWARE ANDROID OS

Manufacturer

Freescale Semiconductor

Series

PowerQUICC ™r

Type

MPUr

Datasheets

1.MPC8536EBVTAVLA.pdf (127 pages)

2.MPC8536EBVTAVLA.pdf (2 pages)

3.MPC8536EBVTAVLA.pdf (1706 pages)

Specifications of MPC8536E-ANDROID

Contents

Board

For Use With/related Products

MPC8536

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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The channel between the host and an endpoint at a specific device represents a data pipe. Endpoint 0 for a

device is always a control type data channel used for device discovery and enumeration. Other types of

endpoints support by USB include bulk, interrupt, and isochronous. Each endpoint type has specific

behavior related to packet response and error handling. More detail on endpoint operation can be found in

the USB 2.0 specification.

The USB controller supports up to six endpoint specified numbers. The DCD can enable, disable and

configure each endpoint.

Each endpoint direction is essentially independent and can be configured with differing behavior in each

direction. For example, the DCD can configure endpoint 1-IN to be a bulk endpoint and endpoint 1-OUT

to be an isochronous endpoint. This helps to conserve the total number of endpoints required for device

operation. The only exception is that control endpoints must use both directions on a single endpoint

number to function as a control endpoint. Endpoint 0 is, for example, is always a control endpoint and uses

the pair of directions.

Each endpoint direction requires a queue head allocated in memory. If the maximum of 6 endpoint

numbers, one for each endpoint direction are being used by the device controller, then 12 queue heads are

required. The operation of an endpoint and use of queue heads are described later in this document.

21.8.3.1

After hardware reset, all endpoints except endpoint zero are uninitialized and disabled. The DCD must

configure and enable each endpoint by writing to configuration bit in the ENDPTCTRLn register. Each

32-bit ENDPTCTRLn is split into an upper and lower half. The lower half of ENDPTCTRLn is used to

configure the receive or OUT endpoint and the upper half is likewise used to configure the corresponding

transmit or IN endpoint. Control endpoints must be configured the same in both the upper and lower half

of the ENDPTCTRLn register otherwise the behavior is undefined. The following table shows how to

construct a configuration word for endpoint initialization.

21.8.3.1.1

There are two occasions where the USB controller may need to return to the host a STALL.

The first occasion is the functional stall, which is a condition set by the DCD as described in the USB 2.0

device framework (chapter 9). A functional stall is only used on non-control endpoints and can be enabled

in the device controller by setting the endpoint stall bit in the ENDPTCTRLn register associated with the

Freescale Semiconductor

Endpoint Initialization

Stalling

MPC8536E PowerQUICC III Integrated Processor Reference Manual, Rev. 1

Table 21-83. Device Controller Endpoint Initialization

Data Toggle Reset

Data Toggle Inhibit

Endpoint Type

Endpoint Stall

Field

00 Control

01 Isochronous

10 Bulk

11 Interrupt

Value

Universal Serial Bus Interfaces

21-127

MPC8536E-ANDROID Freescale Semiconductor, MPC8536E-ANDROID Datasheet - Page 1461

MPC8536E-ANDROID

Specifications of MPC8536E-ANDROID

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