MPC8536DS Freescale Semiconductor, MPC8536DS Datasheet - Page 1397
MPC8536DS
Manufacturer Part Number
MPC8536DS
Description
BOARD DEV SYSTEM MPC8536E
Manufacturer
Freescale Semiconductor
Series
PowerQUICC III™r
Type
MPUr
Datasheets
1.MPC8536EBVTAVLA.pdf
(127 pages)
2.MPC8536EBVTAVLA.pdf
(1706 pages)
3.MPC8536DS.pdf
(2 pages)
4.MPC8536DS.pdf
(126 pages)
Specifications of MPC8536DS
Contents
Board, Software and Documentation
Processor Series
MPC85xx
Core
e500
Data Bus Width
32 bit
Maximum Clock Frequency
667 MHz
Operating Supply Voltage
- 0.3 V to + 1.21 V
Maximum Operating Temperature
+ 105 C
Data Ram Size
32 KB
Interface Type
SPI, USB
Program Memory Type
DDR2, DDR3, SDRAM
Core Size
32 Bit
Program Memory Size
544KB
Cpu Speed
1.5GHz
Digital Ic Case Style
BGA
No. Of Pins
783
Supply Voltage Range
0.95V To 1.05V
Rohs Compliant
Yes
For Use With/related Products
MPC8536
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
schedules have not yet been enabled. The EHCI host controller will not transmit SOFs to enabled Full- or
Low-speed ports.
In order to communicate with devices via the asynchronous schedule, system software must write the
ASYNDLISTADDR register with the address of a control or bulk queue head. Software must then enable
the asynchronous schedule by writing a one to USBCMD[ASE]. In order to communicate with devices via
the periodic schedule, system software must enable the periodic schedule by writing a one to
USBCMD[PSE]. Note that the schedules can be turned on before the first port is reset (and enabled).
Any time the USBCMD register is written, system software must ensure the appropriate bits are preserved,
depending on the intended operation.
21.6.2
The HCSPARAMS[PPC] bit indicates whether the USB 2.0 host controller has port power control. When
the PPC bit is set, the host controller supports port power switches. Each available switch has an output
enable. PPE is controlled based on the state of the combination bits PPC bit, EHCI Configured (CF)-bit
and individual Port Power (PP) bits.
21.6.3
Host ports by definition are power providers on USB. Whether the ports are considered high- or
low-powered is a platform implementation issue. The EHCI PORTSC register has an over-current status
and over-current change bit. The functionality of these bits is specified in the USB Specification
Revision 2.0.
The over current detection and limiting logic resides outside the USB logic. The over-current condition
effects the following bits in the PORTSC register on the EHCI port:
21.6.4
The host controller provides an equivalent suspend and resume model as that defined for individual ports
in a USB 2.0 hub. Control mechanisms are provided to allow system software to suspend and resume
Freescale Semiconductor
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Over-current active bit (OCA) is set. When the over-current condition goes away, the OCA will
transition from a one to a zero.
Over-current change bit (OCC) is set. On every transition of OCA, the controller will set OCC to
a one. Software sets OCC to a zero by writing a one to this bit.
Port enabled/disabled bit (PE) is cleared. When this change bit gets set, USBSTS[PCI] (the port
change detect bit) is set.
Port power (PP) bit may optionally be cleared. There is no requirement in USB that a power
provider shut off power in an over current condition. It is sufficient to limit the current and leave
power applied. When OCC transitions from a zero to a one, the controller also sets USBSTS[PCI]
to a one. In addition, if the Port Change Interrupt Enable bit, USBINTR[PCE], is a one, the
controller issues an interrupt to the system. Refer to
over-current detection when the controller is halted (suspended from a device component point of
view).
Power Port
Reporting Over-Current
Suspend/Resume
MPC8536E PowerQUICC III Integrated Processor Reference Manual, Rev. 1
Table 21-63
for summary of behavior for
Universal Serial Bus Interfaces
21-63
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