ADSP-BF527KBCZ-6 Analog Devices Inc, ADSP-BF527KBCZ-6 Datasheet - Page 15
ADSP-BF527KBCZ-6
Manufacturer Part Number
ADSP-BF527KBCZ-6
Description
ADSP-BF527 Processor,600Mhz,Ethernet,USB
Manufacturer
Analog Devices Inc
Series
Blackfin®r
Type
Fixed Pointr
Specifications of ADSP-BF527KBCZ-6
Interface
DMA, Ethernet, I²C, PPI, SPI, SPORT, UART, USB
Clock Rate
600MHz
Non-volatile Memory
ROM (32 kB)
On-chip Ram
132kB
Voltage - I/o
1.8V, 2.5V, 3.3V
Voltage - Core
1.10V
Operating Temperature
0°C ~ 70°C
Mounting Type
Surface Mount
Package / Case
289-CSPBGA
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
For Use With
ADZS-BF527-MPSKIT - BOARD EVAL MEDIA PLAYER BF527ADZS-BF527-EZLITE - BOARD EVAL ADSP-BF527
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
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Deep Sleep Operating Mode—Maximum Dynamic Power
Savings
The deep sleep mode maximizes dynamic power savings by dis-
abling the clocks to the processor core (CCLK) and to all
synchronous peripherals (SCLK). Asynchronous peripherals,
such as the RTC, may still be running but cannot access internal
resources or external memory. This powered-down mode can
only be exited by assertion of the reset interrupt (RESET) or by
an asynchronous interrupt generated by the RTC. When in deep
sleep mode, an RTC asynchronous interrupt causes the proces-
sor to transition to the Active mode. Assertion of RESET while
in deep sleep mode causes the processor to transition to the full
on mode.
Hibernate State—Maximum Static Power Savings
The hibernate state maximizes static power savings by disabling
the voltage and clocks to the processor core (CCLK) and to all of
the synchronous peripherals (SCLK). The internal voltage regu-
lator (ADSP-BF523/ADSP-BF525/ADSP-BF527 only) for the
processor can be shut off by writing b#00 to the FREQ bits of the
VR_CTL register, using the bfrom_SysControl() function. This
setting sets the internal power supply voltage (V
provide the lowest static power dissipation. Any critical infor-
mation stored internally (for example, memory contents,
register contents, and other information) must be written to a
non volatile storage device prior to removing power if the pro-
cessor state is to be preserved. Writing b#00 to the FREQ bits
also causes EXT_WAKE0 and EXT_WAKE1 to transition low,
which can be used to signal an external voltage regulator to
shut down.
Since V
of the external pins three-state, unless otherwise specified. This
allows other devices that may be connected to the processor to
still have power applied without drawing unwanted current.
The Ethernet or USB modules can wake up the internal supply
regulator (ADSP-BF525 and ADSP-BF527 only) or signal an
external regulator to wake up using EXT_WAKE0 or
EXT_WAKE1. If PG15 does not connect as a PHYINT signal to
an external PHY device, PG15 can be pulled low by any other
device to wake the processor up. The processor can also be
woken up by a real-time clock wakeup event or by asserting the
RESET pin. All hibernate wake-up events initiate the hardware
reset sequence. Individual sources are enabled by the VR_CTL
register. The EXT_WAKEx signals are provided to indicate the
occurrence of wake-up events.
As long as V
state during hibernation. All other internal registers and memo-
ries, however, lose their content in the hibernate state. State
variables may be held in external SRAM or SDRAM. The
SCKELOW bit in the VR_CTL register controls whether or not
SDRAM operates in self-refresh mode, which allows it to retain
its content while the processor is in hibernate and through the
subsequent reset sequence.
ADSP-BF522/ADSP-BF523/ADSP-BF524/ADSP-BF525/ADSP-BF526/ADSP-BF527
DDEXT
DDEXT
and V
is applied, the VR_CTL register maintains its
DDMEM
can still be supplied in this mode, all
DDINT
Rev. B | Page 15 of 88 | May 2010
) to 0 V to
Power Savings
As shown in
domains, which maximizes flexibility while maintaining com-
pliance with industry standards and conventions. By isolating
the internal logic of the processor into its own power domain,
separate from the RTC and other I/O, the processor can take
advantage of dynamic power management without affecting the
RTC or other I/O devices. There are no sequencing require-
ments for the various power domains, but all domains must be
powered according to the appropriate
processor Operating Conditions; even if the feature/peripheral
is not used.
Table 5. Power Domains
The dynamic power management feature of the processor
allows both the processor’s input voltage (V
quency (f
The power dissipated by a processor is largely a function of its
clock frequency and the square of the operating voltage. For
example, reducing the clock frequency by 25% results in a 25%
reduction in dynamic power dissipation, while reducing the
voltage by 25% reduces dynamic power dissipation by more
than 40%. Further, these power savings are additive, in that if
the clock frequency and supply voltage are both reduced, the
power savings can be dramatic, as shown in the following
equations.
where the variables in the equations are:
Power Savings Factor
Power Domain
All internal logic, except RTC, Memory, USB, OTP V
RTC internal logic and crystal I/O
Memory logic
USB PHY logic
OTP logic
All other I/O
=
% Power Savings
f
f
V
V
T
T
CCLKNOM
CCLKRED
NOM
RED
DDINTNOM
DDINTRED
------------------------- -
f
f
CCLKNOM
CCLKRED
is the duration running at f
is the duration running at f
CCLK
is the reduced core clock frequency
is the nominal core clock frequency
is the reduced internal supply voltage
Table
is the nominal internal supply voltage
) to be dynamically controlled.
×
5, the processor supports six different power
------------------------------- -
V
=
V
DDINTNOM
DDINTRED
(
1 Power Savings Factor
–
2
CCLKRED
CCLKNOM
×
Specifications
-------------- -
T
T
NOM
RED
DDINT
)
V
V
V
V
V
V
) and clock fre-
DDINT
DDRTC
DDMEM
DDUSB
DDOTP
DDEXT
×
DD
100%
Range
table for
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