100
TMS320C6748
SPRS590G – JUNE 2009 – REVISED JANUARY 2017
www.ti.com
Submit Documentation Feedback
Product Folder Links:
TMS320C6748
Peripheral Information and Electrical Specifications
Copyright © 2009–2017, Texas Instruments Incorporated
6.8.1.1
Power Domain States
A power domain can only be in one of the two states: ON or OFF, defined as follows:
•
ON: power to the domain is on
•
OFF: power to the domain is off
For both PSC0 and PSC1, the Always ON domain, or PD0 power domain, is always in the ON state when
the chip is powered-on. This domain is not programmable to OFF state.
•
On PSC0 PD1/PD_DSP Domain: Controls the sleep state for DSP L1 and L2 Memories
•
On PSC1 PD1/PD_SHRAM Domain: Controls the sleep state for the 128K on-chip RAM
6.8.1.2
Module States
The PSC defines several possible states for a module. This states are essentially a combination of the
module reset asserted or de-asserted and module clock on/enabled or off/disabled. The module states are
defined in
Table 6-11
.
Table 6-11. Module States
Module State
Module Reset
Module
Clock
Module State Definition
Enable
De-asserted
On
A module in the enable state has its module reset de-asserted and it has its clock on.
This is the normal operational state for a given module
Disable
De-asserted
Off
A module in the disabled state has its module reset de-asserted and it has its module
clock off. This state is typically used for disabling a module clock to save power. The
device is designed in full static CMOS, so when you stop a module clock, it retains the
module’s state. When the clock is restarted, the module resumes operating from the
stopping point.
SyncReset
Asserted
On
A module state in the SyncReset state has its module reset asserted and it has its
clock on. Generally, software is not expected to initiate this state
SwRstDisable
Asserted
Off
A module in the SwResetDisable state has its module reset asserted and it has its
clock disabled. After initial power-on, several modules come up in the SwRstDisable
state. Generally, software is not expected to initiate this state
Auto Sleep
De-asserted
Off
A module in the Auto Sleep state also has its module reset de-asserted and its module
clock disabled, similar to the Disable state. However this is a special state, once a
module is configured in this state by software, it can “automatically” transition to
“Enable” state whenever there is an internal read/write request made to it, and after
servicing the request it will “automatically” transition into the sleep state (with module
reset re de-asserted and module clock disabled), without any software intervention.
The transition from sleep to enabled and back to sleep state has some cycle latency
associated with it. It is not envisioned to use this mode when peripherals are fully
operational and moving data.
Auto Wake
De-asserted
Off
A module in the Auto Wake state also has its module reset de-asserted and its module
clock disabled, similar to the Disable state. However this is a special state, once a
module is configured in this state by software, it will “automatically” transition to
“Enable” state whenever there is an internal read/write request made to it, and will
remain in the “Enabled” state from then on (with module reset re de-asserted and
module clock on), without any software intervention. The transition from sleep to
enabled state has some cycle latency associated with it. It is not envisioned to use this
mode when peripherals are fully operational and moving data.
