Datasheet

Highly Integrated Full Featured Hi-Speed USB 2.0 ULPI Transceiver

Datasheet

Revision 1.0 (07-14-09) 28 SMSC USB3320

DATASHEET

After the PLL has locked to the correct frequency, the USB3320 generates the 60MHz ULPI clock on

the CLKOUT pin, and de-asserts DIR to indicate that the PLL is locked. The USB3320 is guaranteed

to start the clock within the time specified in Tab l e 4 . 2, and it will be accurate to within ±500ppm. For

Host applications the ULPI AutoResume bit should be enabled. This is described in Section 6.2.4.4.

When using ULPI Output Clock Mode, the edges of the reference clock do not need to be aligned in

any way to the ULPI interface signals; in other words, there is no need to align the phase of the

REFCLK and the CLKOUT.

5.4.2 REFCLK Amplitude

The reference clock is connected to the REFCLK pin as shown in the application diagrams, Figure 8.1,

Figure 8.2 and Figure 8.3. The REFCLK pin is designed to be driven with a square wave from 0V to

DD18

, but can be driven with a square wave from 0V to as high as 3.6V. The USB3320 uses only the

positive edge of the REFCLK.

If a digital reference is not available, the REFCLK pin can be driven by an analog sine wave that is

AC coupled into the REFCLK pin. If using an analog clock, the DC bias should be set at the mid-point

of the VDD18 supply using a bias circuit as shown in Figure 5.5. The amplitude must be greater than

300mV peak to peak. The component values provided in Figure 5.5 are for example only. The actual

values should be selected to satisfy system requirements.

The REFCLK amplitude must comply with the signal amplitudes shown in Ta b le 4. 4 and the duty cycle

in Ta ble 4 .2 .

Figure 5.4 ULPI Output Clock Mode

Figure 5.5 Example of Circuit Used to Shift a Reference Clock Common-mode Voltage Level

CLKOUT

REFCLK

SMSC PHY

From PLL

Link

ULPI Clk In

Resonator

Crystal

and Caps

- or -

LOAD

Internal

Oscillator

To PLL

Clock

47k 47k

0.1uF

VDD18

To REFCLK pin