TMS320F28335, TMS320F28334, TMS320F28332
TMS320F28235, TMS320F28234, TMS320F28232
SPRS439M –JUNE 2007–REVISED AUGUST 2012
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6.4.1 Reducing Current Consumption
The 2833x/2823x DSCs incorporate a method to reduce the device current consumption. Since each
peripheral unit has an individual clock-enable bit, reduction in current consumption can be achieved by
turning off the clock to any peripheral module that is not used in a given application. Furthermore, any one
of the three low-power modes could be taken advantage of to reduce the current consumption even
further. Table 6-3 indicates the typical reduction in current consumption achieved by turning off the clocks.
Table 6-3. Typical Current Consumption by Various
Peripherals (at 150 MHz)(1)
PERIPHERAL
MODULE
IDD CURRENT
REDUCTION/MODULE (mA)(2)
ADC
I2C
8(3)
2.5
5
eQEP
ePWM
eCAP
SCI
5
2
5
SPI
4
eCAN
McBSP
CPU-Timer
XINTF
DMA
8
7
2
10(4)
10
15
FPU
(1) All peripheral clocks are disabled upon reset. Writing to or reading
from peripheral registers is possible only after the peripheral clocks
are turned on.
(2) For peripherals with multiple instances, the current quoted is per
module. For example, the 5 mA number quoted for ePWM is for one
ePWM module.
(3) This number represents the current drawn by the digital portion of
the ADC module. Turning off the clock to the ADC module results in
the elimination of the current drawn by the analog portion of the ADC
(IDDA18) as well.
(4) Operating the XINTF bus has a significant effect on IDDIO current. It
will increase considerably based on the following:
•
•
•
•
How many address/data pins toggle from one cycle to another
How fast they toggle
Whether 16-bit or 32-bit interface is used and
The load on these pins.
Following are other methods to reduce power consumption further:
•
The Flash module may be powered down if code is run off SARAM. This results in a current reduction
of 35 mA (typical) in the VDD3VFL rail.
•
•
IDDIO current consumption is reduced by 15 mA (typical) when XCLKOUT is turned off.
Significant savings in IDDIO may be realized by disabling the pullups on pins that assume an output
function and on XINTF pins. A savings of 35 mW (typical) can be achieved by this.
The baseline IDD current (current when the core is executing a dummy loop with no peripherals enabled) is
165 mA, (typical). To arrive at the IDD current for a given application, the current-drawn by the peripherals
(enabled by that application) must be added to the baseline IDD current.
120
Electrical Specifications
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