USB3280-AEZG-TR Standard Microsystems (SMSC), USB3280-AEZG-TR Datasheet - Page 32

USB3280-AEZG-TR

Manufacturer Part Number

USB3280-AEZG-TR

Description

Manufacturer

Standard Microsystems (SMSC)

Datasheet

1.USB3280-AEZG-TR.pdf (44 pages)

Current page: 32 of 44
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Revision 1.5 (11-15-07)

8.7

8.8

HS Detection Handshake

HS Detection Handshake – FS Downstream Facing Port

The High Speed Detection Handshake process is entered from one of three states: suspend, active

FS or active HS. The downstream facing port asserting an SE0 state on the bus initiates the HS

Detection Handshake. Depending on the initial state, an SE0 condition can be asserted from 0 to 4

ms before initiating the HS Detection Handshake. These states are described in the USB 2.0

specification.

There are three ways in which a device may enter the HS Handshake Detection process:

1. If the device is suspended and it detects an SE0 state on the bus it may immediately enter the HS

2. If the device is in FS mode and an SE0 state is detected for more than 2.5µs. it may enter the HS

3. If the device is in HS mode and an SE0 state is detected for more than 3.0ms. it may enter the

In each case, the assertion of the SE0 state on the bus initiates the reset. The minimum reset interval

is 10ms. Depending on the previous mode that the bus was in, the delay between the initial assertion

of the SE0 state and entering the HS Handshake detection can be from 0 to 4ms.

This transceiver design pushes as much of the responsibility for timing events on to the SIE as

possible, and the SIE requires a stable CLKOUT signal to perform accurate timing. In case 2 and 3

above, CLKOUT has been running and is stable, however in case 1 the USB3280 is reset from a

suspend state, and the internal oscillator and clocks of the transceiver are assumed to be powered

down. A device has up to 6ms after the release of SUSPENDN to assert a minimum of a 1ms Chirp K.

Upon entering the HS Detection process (T0) XCVRSELECT and TERMSELECT are in FS mode. The

DP pull-up is asserted and the HS terminations are disabled. The SIE then sets OPMODE to Disable

Bit Stuffing and NRZI encoding, XCVRSELECT to HS mode, and begins the transmission of all 0's

data, which asserts a HS K (chirp) on the bus (T1). The device chirp must last at least 1.0ms, and

must end no later than 7.0ms after HS Reset T0. At time T1 the device begins listening for a chirp

sequence from the host port.

If the downstream facing port is not HS capable, then the HS K asserted by the device is ignored and

the alternating sequence of HS Chirp K’s and J’s is not generated. If no chirps are detected (T4) by

the device, it will enter FS mode by returning XCVRSELECT to FS mode.

handshake detection process.

HS handshake detection process. In HS mode, a device must first determine whether the SE0 state

is signaling a suspend or a reset condition. To do this the device reverts to FS mode by placing

XCVRSELECT and TERMSELECT into FS mode. The device must not wait more than 3.125ms

before the reversion to FS mode. After reverting to FS mode, no less than 100µs and no more

than 875µs later the SIE must check the LINESTATE signals. If a J state is detected the device

will enter a suspend state. If an SE0 state is detected, then the device will enter the HS Handshake

detection process.

DATASHEET

Hi-Speed USB Device PHY with UTMI Interface

SMSC USB3280

Datasheet

USB3280-AEZG-TR Standard Microsystems (SMSC), USB3280-AEZG-TR Datasheet - Page 32

USB3280-AEZG-TR

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