AT43312A-AU Atmel, AT43312A-AU Datasheet - Page 11

AT43312A-AU

Manufacturer Part Number

AT43312A-AU

Description

Manufacturer

Atmel

Datasheet

1.AT43312A-AU.pdf (28 pages)

Specifications of AT43312A-AU

Operating Temperature (max)

85C

Operating Temperature (min)

-40C

Operating Temperature Classification

Industrial

Mounting

Surface Mount

Pin Count

Lead Free Status / RoHS Status

Compliant

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Oscillator and Phase-

Locked-Loop

1255G–USB–05/06

An IN Token packet from the Host to Endpoint 1 indicates a request for port change sta-

tus. If the Hub has not detected any change on its ports, or any changes in itself, then all

bits in this register will be 0 and the Hub Controller will return a NAK to requests on

Endpoint1. If any of bits 0 - 4 is 1, the Hub Controller will transfer the whole byte. The

Hub Controller will continue to report a status change when polled until that particular

change has been removed by a ClearPortFeature request from the Host. No status

change will be reported by Endpoint 1 until the AT43312A has been enumerated and

configured by the Host via Endpoint 0.

All the clock signals required to run the AT43311 are derived from an on-chip oscillator.

To reduce EMI and power dissipation in the system, the oscillator is designed to operate

with a 6 MHz crystal. An on-chip PLL generates the high frequency for the clock/data

separator of the Serial Interface Engine. In the suspended state, the oscillator circuitry is

turned off. To assure quick startup, a crystal with a high Q, or low ESR, should be used.

To meet the USB hub frequency accuracy and stability requirements for hubs, the crys-

tal should have an accuracy and stability of better than 100 PPM. Even though the

oscillator circuit would work with a ceramic resonator, its use is not recommended

because a resonator would not have the frequency accuracy and stability.

A 6 MHz parallel resonance quartz crystal with a load capacitance of approximately

10 pF is recommended. The oscillator is a special low-power design and in most cases

no external capacitors and resistors are necessary. If the crystal requires a higher value

capacitance, external capacitors can be added to the two terminals of the crystal and

ground to meet the required value. If the crystal used cannot tolerate the drive levels of

the oscillator, a series resistor between OSC2 and the crystal pin is recommended.

The clock can also be externally sourced. In this case, connect the clock source to the

OSC1 pin, while leaving OSC2 pin floating. The switching level at the OSC1 pin can be

as low as 0.47V (see Table 8) and a CMOS device is required to drive this pin to main-

tain good noise margins at the low switching level.

Figure 4. Oscillator and PLL Connections

For proper operation of the PLL, an external RC filter consisting of a series RC network

of 100Ω and 10 nF in parallel with a 2 nF capacitor must be connected from the LFT pin

to VSS.

To provide the best operating condition for the AT43312A, careful consideration of the

power supply connections are recommended. Use short, low-impedance connections to

all power supply lines: VCC5, and VSS. Use sufficient decoupling capacitors to reduce

noise: 0.1 µF decoupling capacitors of high quality, soldered as close as possible to the

package pins are recommended.

6.000 MHz

10nF

100

2nF

OSC1

OSC2

LFT

AT43312A

AT43312A-AU Atmel, AT43312A-AU Datasheet - Page 11

AT43312A-AU

Specifications of AT43312A-AU

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