MIC2555_06 Datasheet, PDF(12/29 Page) Micrel Semiconductor – USB

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MIC2555_06 Datasheet, PDF (12/29 Pages) Micrel Semiconductor – USB – OTG Transceiver

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Micrel, Inc.

Serial Controller Block

The Serial Controller manages MIC2555 operations.

Turning ON/OFF features, changing operating modes,

setting and selecting interrupts are all handled by the

Serial Controller. MIC2555âs Serial Controller

communicates with the OTG Controller as an I2C slave

using the SCL and SDA pins.

The Serial Controller includes the following functions:

â¢ Control registers

â¢ Status registers

â¢ Interrupt latches

â¢ Interrupt enable registers

â¢ Interrupt clear registers

â¢ Interrupt generator

VBUS Charge Pump and 5V regulator

The charge pump draws power from VBAT and boosts

the voltage to the requisite 5V to power VBUS. This

subsystem is actually a combination of a charge pump

circuit and a control loop that gates the charge pumpâs

oscillator. If the output voltage is below 5V, then the

oscillator is ON; otherwise, the oscillator is gated OFF.

The charge pumpâs maximum output is controlled by the

magnitude of VBAT. When VBAT is at 3.0V, the charge

pump is designed to support loads of at least 8 mA on

VBUS. As VBAT increases, the maximum charge pump

output current also increases. For proper operation the

charge pump circuit requires 2 capacitors; one for the

voltage doubler, connected between C- and C+, and a

reservoir/filter capacitor between C++ and ground. The

charge pumpâs nominal operating frequency is 200 kHz,

which is set by an on-chip oscillator. A special feature of

MIC2555 is that an external oscillator can drive the

charge pump as well, allowing the designer to shift

radiated noise away from sensitive frequencies when

necessary. Also, when 5V power is not required from

VBUS, the charge pump can be shut down to conserve

power.

Cap-

Cap+ Cap++

VBAT

Charge Pump

and Regulator

MIC2555

VBUS

Output

Enable

VTRM

3.3V

VBUS

Valid

2.3k

Charge

VBUS

4.4V

Session

Valid

1.4V

Session

End

0.5V

2.3k

68k

Discharge

VBUS

VBUS Circuitry

VBUS Resistors and Switches

MIC2555 is able to:

â¢ charge up VBUS through a resistor

â¢ initiate SRP

â¢ pull down VBUS through a resistor to ground

â¢ discharge VBUS before initiating SRP

â¢ switch VBUS power from the charge pump ON/OFF

Dedicated bits in the control registers control all of these

functions. Because these bits act independently, it is

possible to have VBUS both charging and discharging at

the same time. This situation will not harm the MIC2555.

To prevent system leakage currents from biasing VBUS

to a voltage that would mimic a session valid condition,

the MIC2555 maintains a 68K resistor between VBUS

and ground to insure that at no time will VBUS assume a

floating condition.

December 2006

M9999-121406

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