ADSP-BF514KBCZ-4F4 Analog Devices Inc, ADSP-BF514KBCZ-4F4 Datasheet - Page 10
ADSP-BF514KBCZ-4F4
Manufacturer Part Number
ADSP-BF514KBCZ-4F4
Description
Low-Pwr BF Proc W/flash & Cnsmr Conctvty
Manufacturer
Analog Devices Inc
Series
Blackfin®r
Type
Fixed Pointr
Datasheets
1.ADSP-BF531SBSTZ400.pdf
(12 pages)
2.ADSP-BF512KSWZ-3.pdf
(68 pages)
3.ADSP-BF514KBCZ-4F4.pdf
(72 pages)
Specifications of ADSP-BF514KBCZ-4F4
Interface
I²C, PPI, RSI, SPI, SPORT, UART/USART
Clock Rate
400MHz
Non-volatile Memory
FLASH (4Mbit)
On-chip Ram
116kB
Voltage - I/o
1.8V, 2.5V, 3.3V
Voltage - Core
1.30V
Operating Temperature
0°C ~ 70°C
Mounting Type
Surface Mount
Package / Case
168-LFBGA
Architecture
Modified Harvard
Format
Fixed Point
Clock Freq (max)
400MHz
Device Input Clock Speed
400MHz
Ram Size
48KB
Program Memory Size
1024KB
Operating Temp Range
0C to 70C
Operating Temperature Classification
Commercial
Mounting
Surface Mount
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
ADSP-BF514KBCZ-4F4
Manufacturer:
Analog Devices Inc
Quantity:
10 000
ADSP-BF512/BF512F, BF514/BF514F, BF516/BF516F, BF518/BF518F
10/100 Ethernet MAC
The ADSP-BF516/ADSP-BF516F and ADSP-
BF518/ADSPBF518F processors offer the capability to directly
connect to a network by way of an embedded fast Ethernet
media access controller (MAC) that supports both 10-BaseT
(10M bits/sec) and 100-BaseT (100M bits/sec) operation. The
10/100 Ethernet MAC peripheral on the processor is fully com-
pliant to the IEEE 802.3-2002 standard and it provides
programmable features designed to minimize supervision, bus
use, or message processing by the rest of the processor system.
Some standard features are:
Some advanced features are:
• Support of MII and RMII protocols for external PHYs
• Full duplex and half duplex modes
• Data framing and encapsulation: generation and detection
• Media access management (in half-duplex operation): col-
• Flow control (in full-duplex operation): generation and
• Station management: generation of MDC/MDIO frames
• Operating range for active and sleep operating modes, see
• Internal loopback from transmit to receive
• Buffered crystal output to external PHY for support of a
• Automatic checksum computation of IP header and IP
• Independent 32-bit descriptor-driven receive and transmit
• Frame status delivery to memory through DMA, including
• Tx DMA support for separate descriptors for MAC header
• Convenient frame alignment modes support even 32-bit
• Programmable Ethernet event interrupt supports any com-
• 47 MAC management statistics counters with selectable
of preamble, length padding, and FCS
lision and contention handling, including control of
retransmission of collision frames and of back-off timing
detection of pause frames
for read-write access to PHY registers
Table 43 on Page 45
single crystal system
payload fields of Rx frames
DMA channels
frame completion semaphores for efficient buffer queue
management in software
and payload to eliminate buffer copy operations
alignment of encapsulated receive or transmit IP packet
data in memory after the 14-byte MAC header
bination of:
clear-on-read behavior and programmable interrupts on
half maximum value
• Selected receive or transmit frame status conditions
• PHY interrupt condition
• Wakeup frame detected
• Selected MAC management counter(s) at half-full
• DMA descriptor error
and
Table 44 on Page 46
Rev. B | Page 10 of 68 | January 2011
IEEE 1588 Support
The IEEE 1588 standard is a precision clock synchronization
protocol for networked measurement and control systems. The
ADSP-BF518/ADSP-BF518F processors include hardware sup-
port for IEEE 1588 with an integrated precision time protocol
synchronization engine (PTP_TSYNC). This engine provides
hardware assisted time stamping to improve the accuracy of
clock synchronization between PTP nodes. The main features of
the PTP_SYNC engine are:
Ports
Because of the rich set of peripherals, the processors group the
many peripheral signals to four ports—port F, port G, port H,
and port J. Most of the associated pins/balls are shared by multi-
ple signals. The ports function as multiplexer controls.
General-Purpose I/O (GPIO)
The ADSP-BF51x processors have 40 bidirectional, general-
purpose I/O (GPIO) signals allocated across three separate
GPIO modules—PORTFIO, PORTGIO, and PORTHIO, associ-
ated with Port F, Port G, and Port H, respectively. Each
GPIO-capable signal shares functionality with other peripherals
via a multiplexing scheme; however, the GPIO functionality is
the default state of the device upon power-up. Neither GPIO
output nor input drivers are active by default. Each general-pur-
pose port signal can be individually controlled by manipulation
of the port control, status, and interrupt registers.
• Programmable receive address filters, including a 64-bin
• Advanced power management supporting unattended
• System wakeup from sleep operating mode upon magic
• Support for 802.3Q tagged VLAN frames
• Programmable MDC clock rate and preamble suppression
• In RMII operation, seven unused signals may be config-
• Support for both IEEE 1588-2002 and IEEE 1588-2008 pro-
• Hardware assisted time stamping capable of up to 12.5 ns
• Lock adjustment
• Programmable PTM message support
• Dedicated interrupts
• Programmable alarm
• Multiple input clock sources (SCLK, MII clock, external
• Programmable pulse per second (PPS) output
• Auxiliary snapshot to time stamp external events
address hash table for multicast and/or unicast frames, and
programmable filter modes for broadcast, multicast, uni-
cast, control, and damaged frames
transfer of receive and transmit frames and status to/from
external memory via DMA during low power sleep mode
packet or any of four user-definable wakeup frame filters
ured as GPIO signals for other purposes
tocol standards
resolution
clock)
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