TMS320C6454 Datasheet, PDF(96/225 Page) Texas Instruments – Fixed-Point Digital Signal Processor

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TMS320C6454 Datasheet, PDF (96/225 Pages) Texas Instruments – Fixed-Point Digital Signal Processor

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TMS320C6454

Fixed-Point Digital Signal Processor

SPRS311A â APRIL 2006 â REVISED DECEMBER 2006

www.ti.com

7.2 Recommended Clock and Control Signal Transition Behavior

All clocks and control signals must transition between VIH and VIL (or between VIL and VIH) in a monotonic

manner.

7.3 Power Supplies

7.3.1 Power-Supply Sequencing

TI recommends the power-supply sequence shown in Figure 7-5. After the DVDD33 supply is stable, the

remaining power supplies can be powered up at the same time as CVDD as long as their supply voltage

never exceeds the CVDD voltage during powerup. Some TI power-supply devices include features that

facilitate power sequencing; for example, Auto-Track or Slow-Start/Enable features. For more information,

visit www.ti.com/dsppower.

DVDD33

CVDD12

All other

power supplies

1

2

Figure 7-5. Power-Supply Sequence

Table 7-2. Timing Requirements for Power-Supply Sequence

NO.

1

tsu(DVDD33-CVDD12) Setup time, DVDD33 supply stable before CVDD12 supply stable

2

tsu(CVDD12-ALLSUP) Setup time, CVDD12 supply stable before all other supplies stable

-720

-850

-1000

MIN

0.5

0

MAX

200

200

UNIT

ms

ms

7.3.2 Power-Supply Decoupling

In order to properly decouple the supply planes from system noise, place as many capacitors (caps) as

possible close to the DSP. These caps need to be close to the DSP, no more than 1.25 cm maximum

distance to be effective. Physically smaller caps are better, such as 0402, but need to be evaluated from a

yield/manufacturing point-of-view. Parasitic inductance limits the effectiveness of the decoupling

capacitors, therefore physically smaller capacitors should be used while maintaining the largest available

capacitance value. As with the selection of any component, verification of capacitor availability over the

product's production lifetime should be considered.

7.3.3 Power-Down Operation

One of the power goals for the C6454 is to reduce power dissipation due to unused peripherals. There are

different ways to power down peripherals on the C6454 device.

Some peripherals can be statically powered down at device reset through the device configuration pins

(see Section 3.1, Device Configuration at Device Reset). Once in a static power-down state, the peripheral

is held in reset and its clock is turned off. Peripherals cannot be enabled once they are in a static

power-down state. To take a peripheral out of the static power-down state, a device reset must be

executed with a different configuration pin setting.

After device reset, all peripherals on the C6454 device are in a disabled state and must be enabled by

software before being used. It is possible to enable only the peripherals needed by the application while

keeping the rest disabled. Note that peripherals in a disabled state are held in reset with their clocks

gated. For more information on how to enable peripherals, see Section 3.3, Peripheral Selection After

Device Reset.

96

C64x+ Peripheral Information and Electrical Specifications

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