Power-supply sequencing, System-level design considerations – Motorola TMS320C6711D User Manual

TMS320C6711D

FLOATINGĆPOINT DIGITAL SIGNAL PROCESSOR

SPRS292A − OCTOBER 2005 − REVISED NOVEMBER 2005

56

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Table 33. Characteristics of the Power-Down Modes

PRWD FIELD

(BITS 15−10)

POWER-DOWN

MODE

WAKE-UP METHOD

EFFECT ON CHIP’S OPERATION

000000

No power-down

—

—

001001

PD1

Wake by an enabled interrupt

CPU halted (except for the interrupt logic)
Power-down mode blocks the internal clock inputs at the

010001

PD1

Wake by an enabled or
non-enabled interrupt

Power-down mode blocks the internal clock inputs at the
boundary of the CPU, preventing most of the CPU’s logic from
switching. During PD1, EDMA transactions can proceed
between peripherals and internal memory.

011010

PD2†

Wake by a device reset

Output clock from PLL is halted, stopping the internal clock
structure from switching and resulting in the entire chip being
halted. All register and internal RAM contents are preserved. All
functional I/O “freeze” in the last state when the PLL clock is
turned off.

011100

PD3†

Wake by a device reset

Input clock to the PLL stops generating clocks. All register and
internal RAM contents are preserved. All functional I/O “freeze” in
the last state when the PLL clock is turned off. Following reset, the
PLL needs time to re-lock, just as it does following power-up.
Wake-up from PD3 takes longer than wake-up from PD2 because
the PLL needs to be re-locked, just as it does following power-up.

All others

Reserved

—

—

† When entering PD2 and PD3, all functional I/O remains in the previous state. However, for peripherals which are asynchronous in nature or

peripherals with an external clock source, output signals may transition in response to stimulus on the inputs. Under these conditions,
peripherals will not operate according to specifications.

The device includes a programmable PLL which allows software control of PLL bypass via the PLLEN bit in the
PLLCSR register. With this enhanced functionality come some additional considerations when entering
power-down modes.

The power-down modes (PD2 and PD3) function by disabling the PLL to stop clocks to the device. However,
if the PLL is bypassed (PLLEN = 0), the device will still receive clocks from the external clock input (CLKIN).
Therefore, bypassing the PLL makes the power-down modes PD2 and PD3 ineffective.

Make sure that the PLL is enabled by writing a “1” to PLLEN bit (PLLCSR.0) before writing to either PD3
(CSR.11) or PD2 (CSR.10) to enter a power-down mode.

power-supply sequencing

TI DSPs do not require specific power sequencing between the core supply and the I/O supply. However,
systems should be designed to ensure that neither supply is powered up for extended periods of time
(

>

1 second) if the other supply is below the proper operating voltage.

system-level design considerations

System-level design considerations, such as bus contention, may require supply sequencing to be
implemented. The core supply should be powered up prior to (and powered down after) the I/O buffers. This
is to ensure that the I/O buffers receive valid inputs from the core before the output buffers are powered up, thus,
preventing bus contention with other chips on the board.