Intel E3815 FH8065301567411 데이터 시트
제품 코드
FH8065301567411
Intel
®
Atom™ Processor E3800 Product Family
Datasheet
2409
7
0b
RW
Suspend (SUSP_P0_0): 1=Port in suspend state. 0=Port not in suspend
state. Port Enabled Bit and Suspend bit of this register define the port states
as follows: Bits [Port Enabled, Suspend] Port State 0X Disable 10 Enable 11
Suspend When in suspend state, downstream propagation of data is blocked
on this port, except for port reset. The blocking occurs at the end of the
current transaction, if a transaction was in progress when this bit was written
to a 1. In the suspend state, the port is sensitive to resume detection. Note
that the bit status does not change until the port is suspended and that there
may be a delay in suspending a port if there is a transaction currently in
progress on the USB. A write of zero to this bit is ignored by the host
controller. The host controller will unconditionally set this bit to a zero
when:Software sets the Force Port Resume bit to a zero (from a one).
Software sets the Port Reset bit to a one (from a zero). If host software sets
this bit to a one when the port is not enabled (i.e. Port enabled bit is a zero)
the results are undefined.
state. Port Enabled Bit and Suspend bit of this register define the port states
as follows: Bits [Port Enabled, Suspend] Port State 0X Disable 10 Enable 11
Suspend When in suspend state, downstream propagation of data is blocked
on this port, except for port reset. The blocking occurs at the end of the
current transaction, if a transaction was in progress when this bit was written
to a 1. In the suspend state, the port is sensitive to resume detection. Note
that the bit status does not change until the port is suspended and that there
may be a delay in suspending a port if there is a transaction currently in
progress on the USB. A write of zero to this bit is ignored by the host
controller. The host controller will unconditionally set this bit to a zero
when:Software sets the Force Port Resume bit to a zero (from a one).
Software sets the Port Reset bit to a one (from a zero). If host software sets
this bit to a one when the port is not enabled (i.e. Port enabled bit is a zero)
the results are undefined.
Power Well: Resume
6
0b
RW
Force Port Resume (FPR_P0_0): 1= Resume detected/driven on port.
0=No resume (K-state) detected/driven on port. This functionality defined
for manipulating this bit depends on the value of the Suspend bit. For
example, if the port is not suspended (Suspend and Enabled bits are a one)
and software transitions this bit to a one, then the effects on the bus are
undefined. Software sets this bit to a 1 to drive resume signaling. The Host
Controller sets this bit to a 1 if a J-to-K transition is detected while the port is
in the Suspend state. When this bit transitions to a one because a J-to-K
transition is detected, the Port Change Detect bit in the USBSTS register is
also set to a one. If software sets this bit to a one, the host controller must
not set the Port Change Detect bit. Note that when the EHCI controller owns
the port, the resume sequence follows the defined sequence documented in
the USB Specification Revision 2.0. The resume signaling (Full-speed 'K') is
driven on the port as long as this bit remains a one. Software must
appropriately time the Resume and set this bit to a zero when the
appropriate amount of time has elapsed. Writing a zero (from one) causes
the port to return to high-speed mode (forcing the bus below the port into a
high-speed idle). This bit will remain a one until the port has switched to the
high-speed idle. The host controller must complete this transition within 2
milliseconds of software setting this bit to a zero.
0=No resume (K-state) detected/driven on port. This functionality defined
for manipulating this bit depends on the value of the Suspend bit. For
example, if the port is not suspended (Suspend and Enabled bits are a one)
and software transitions this bit to a one, then the effects on the bus are
undefined. Software sets this bit to a 1 to drive resume signaling. The Host
Controller sets this bit to a 1 if a J-to-K transition is detected while the port is
in the Suspend state. When this bit transitions to a one because a J-to-K
transition is detected, the Port Change Detect bit in the USBSTS register is
also set to a one. If software sets this bit to a one, the host controller must
not set the Port Change Detect bit. Note that when the EHCI controller owns
the port, the resume sequence follows the defined sequence documented in
the USB Specification Revision 2.0. The resume signaling (Full-speed 'K') is
driven on the port as long as this bit remains a one. Software must
appropriately time the Resume and set this bit to a zero when the
appropriate amount of time has elapsed. Writing a zero (from one) causes
the port to return to high-speed mode (forcing the bus below the port into a
high-speed idle). This bit will remain a one until the port has switched to the
high-speed idle. The host controller must complete this transition within 2
milliseconds of software setting this bit to a zero.
Power Well: Resume
5
0b
RWC
Over-current Change (OCC_P0_0): This bit gets set to a one when there
is a change to the Over-current Active bit. Software clears this bit by writing
a one to this bit position. The functionality of this bit is not dependent upon
the port owner.
is a change to the Over-current Active bit. Software clears this bit by writing
a one to this bit position. The functionality of this bit is not dependent upon
the port owner.
Power Well: Resume
Bit
Range
Default
& Access
Field Name (ID): Description