XR17V258_08 Datasheet, PDF(12/70 Page) Exar Corporation – 66MHZ PCI BUS OCTAL UART WITH POWER MANAGEMENT SUPPORT

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XR17V258_08 Datasheet, PDF (12/70 Pages) Exar Corporation – 66MHZ PCI BUS OCTAL UART WITH POWER MANAGEMENT SUPPORT

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XR17V258

66MHZ PCI BUS OCTAL UART WITH POWER MANAGEMENT SUPPORT

TABLE 2: POWER MANAGEMENT REGISTERS

ADDRESS

OFFSET

BITS

TYPE

RWR

DESCRIPTION

PME_Enable

7:2

Reserved

1:0

RWR

PowerState

REV. 1.0.1

RESET VALUE

(HEX OR BINARY)

000000b

00b

NOTE: RWR=Read/Write from AD[31:0]. RO= Read Only. RWC=Read/Write-Clear.

1.2.1 Power States and Power State Transitions of the V258

The XR17V258 supports D0, D3hot and D3cold power states and is capable of generating the PME# signal

from the D3hot state. The following paragraphs describe these power states and Figure 4 shows the power

state transitions of the V258.

D0 STATE

The XR17V258 must be placed in the D0 state before being used in a system. The D0 state represents two

states - D0 Uninitalized and D0 Active. Upon entering D0 from power up or transition from D3hot, the V258 will

be in the D0 Uninitialized state. Once initialized by the system software, the V258 will enter the D0 Active state.

In the D0 Active state, the V258 is fully functional and will respond to all PCI bus transactions as well as issue

interrupts (INTA#). The system software can program the V258 to enter the D3hot state from the D0 state.

D3HOT STATE

The V258 enters the D3hot state when the system software programs the V258 from D0 to D3hot, via PMCSR

bits [1:0]. In this state, the V258 will not be fully functional. The V258 will respond only to PCI configuration

space accesses, if a PCI clock is provided and will not respond to PCI memory accesses nor will it issue

interrupts. However, the V258 will continue to receive data and the automatic software and hardware flow

control, if enabled, will continue to function normally. While in the D3hot state, the V258 asserts the PME#

(Power Management Event) signal, if enabled by setting PME_Enable bit (bit-8 of PMCSR), upon one of the

following events:

â RX pin of any of the channels goes LOW (START bit detected), or

â Any of the delta bits of modem inputs (MSR register bits [3:0]) is set in any of the 8 channels (see

page 50)

The V258 also sets the PME_Status bit when such an event occurs, regardless of whether the PME_Enable bit

is set or not. The system software can reset the PME_Status bit by writing a â1â to it. When the system software

programs the V258 from D3hot to D0, typically in response to the PME# signal, the V258 enters the D0 Active

state and will retain all the values of its internal registers. The V258 will keep its PCI signal drivers disabled for

the duration of the D3hot to D0 Uninitialized state transition. The V258 saves the PME context (configuration

registers and functional state information) in the D3hot state.

Note: The V258 has a sleep mode which keeps the power consumption to a minimum (see Sleep Mode

description on page 24). This is independent of the power state the V258 is in. The user can optionally place

the V258 in sleep mode (via the software driver) in the Active D0 state anytime or specifically when the system

software commands the V258 to enter the D3hot state. The crystal oscillator shuts down when the conditions

given in Sleep Mode section on page 24 are satisfied, and re-starts when one of the events as described in the

same section occurs. Upon re-starting, the oscillator may take a long time to settle. This time may be more

than 20ms which is the maximum wait time guaranteed by the system software before resuming normal PCI

bus transactions in the Active D0 state. Therefore, there may be data errors if the V258 is commanded to

transmit data before the oscillator is ready. It is recommended not to use sleep mode while in the D3hot

state for this reason.

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