ADSP-21161NKCAZ100 Analog Devices Inc, ADSP-21161NKCAZ100 Datasheet - Page 15
ADSP-21161NKCAZ100
Manufacturer Part Number
ADSP-21161NKCAZ100
Description
IC,DSP,32-BIT,CMOS,BGA,225PIN,PLASTIC
Manufacturer
Analog Devices Inc
Series
SHARC®r
Type
Fixed/Floating Pointr
Datasheet
1.ADSP-21161NKCAZ100.pdf
(60 pages)
Specifications of ADSP-21161NKCAZ100
Rohs Compliant
YES
Interface
Host Interface, Link Port, Serial Port
Clock Rate
100MHz
Non-volatile Memory
External
On-chip Ram
128kB
Voltage - I/o
3.30V
Voltage - Core
1.80V
Operating Temperature
0°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
225-MBGA, 225-Mini-BGA
Device Core Size
32b
Architecture
Enhanced Harvard
Format
Floating Point
Clock Freq (max)
100MHz
Mips
100
Device Input Clock Speed
100MHz
Ram Size
128KB
Operating Supply Voltage (typ)
1.8/3.3V
Operating Supply Voltage (min)
1.71/3.13V
Operating Supply Voltage (max)
1.89/3.47V
Operating Temp Range
0C to 85C
Operating Temperature Classification
Commercial
Mounting
Surface Mount
Pin Count
225
Package Type
CSPBGA
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Other names
ADSP21161NKCAZ100
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
ADSP-21161NKCAZ100
Manufacturer:
Analog Devices Inc
Quantity:
10 000
Part Number:
ADSP-21161NKCAZ100
Manufacturer:
ADI/亚德诺
Quantity:
20 000
Table 2. Pin Function Descriptions (Continued)
Pin
SPIDS
MOSI
MISO
LxDAT7–0
[DATA15–0]
LxCLK
LxACK
EBOOT
LBOOT
BMS
CLKIN
XTAL
CLK_CFG1-0
Type
I
I/O (o/d)
I/O (o/d)
I/O
[I/O/T]
I/O
I/O
I
I
I/O/T
I
O
I
Function
Serial Peripheral Interface Slave Device Select. An active low signal used to enable slave devices. This input
signal behaves like a chip select, and is provided by the master device for the slave devices. In multimaster
mode SPIDS signal can be asserted to a master device to signal that an error has occurred, as some other
device is also trying to be the master device. If asserted low when the device is in master mode, it is considered
a multimaster error. For a single-master, multiple-slave configuration where FLAG3–0 are used, this pin must
be tied or pulled high to V
of the master ADSP-21161N’s FLAG3–0 pins can be used to drive the SPIDS signal on the ADSP-21161N SPI
slave device.
SPI Master Out Slave. If the ADSP-21161N is configured as a master, the MOSI pin becomes a data transmit
(output) pin, transmitting output data. If the ADSP-21161N is configured as a slave, the MOSI pin becomes a
data receive (input) pin, receiving input data. In an ADSP-21161N SPI interconnection, the data is shifted out
from the MOSI output pin of the master and shifted into the MOSI input(s) of the slave(s). MOSI has an internal
pull-up resistor.
SPI Master In Slave Out. If the ADSP-21161N is configured as a master, the MISO pin becomes a data receive
(input) pin, receiving input data. If the ADSP-21161N is configured as a slave, the MISO pin becomes a data
transmit (output) pin, transmitting output data. In an ADSP-21161N SPI interconnection, the data is shifted
out from the MISO output pin of the slave and shifted into the MISO input pin of the master. MISO has an
internal pull-up resistor. MISO can be configured as o/d by setting the OPD bit in the SPICTL register.
Note: Only one slave is allowed to transmit data at any given time.
Link Port Data (Link Ports 0–1).
For silicon revisions 1.2 and higher, each LxDAT pin has a keeper latch that is enabled when used as a data
pin; or a 20 k internal pull-down resistor that is enabled or disabled by the LxPDRDE bit of the LCTL register.
For silicon revisions 0.3, 1.0, and 1.1 each LxDAT pin has a 50 k internal pull-down resistor that is enabled
or disabled by the LxPDRDE bit of the LCTL register.
Note: L1DAT7–0 are multiplexed with the DATA15–8 pins L0DAT7–0 are multiplexed with the DATA7–0 pins. If link
ports are disabled and are not used, these pins can be used as additional data lines for executing instructions at
up to the full clock rate from external memory. See DATA47–16 for more information.
Link Port Clock (Link Ports 0–1). Each LxCLK pin has an internal pull-down 50 k resistor that is enabled or
disabled by the LxPDRDE bit of the LCTL register.
Link Port Acknowledge (Link Ports 0–1). Each LxACK pin has an internal pull-down 50 k resistor that is
enabled or disabled by the LxPDRDE bit of the LCTL register.
EPROM Boot Select. For a description of how this pin operates, see the table in the BMS pin description. This
signal is a system configuration selection that should be hardwired.
Link Boot. For a description of how this pin operates, see the table in the BMS pin description. This signal is
a system configuration selection that should be hardwired.
Boot Memory Select. Serves as an output or input as selected with the EBOOT and LBOOT pins (see
This input is a system configuration selection that should be hardwired. For Host and PROM boot, DMA
channel 10 (EPB0) is used. For Link boot and SPI boot, DMA channel 8 is used.
Three-state only in EPROM boot mode (when BMS is an output).
Local Clock In. Used in conjunction with XTAL. CLKIN is the ADSP-21161N clock input. It configures the ADSP-
21161N to use either its internal clock generator or an external clock source. Connecting the necessary
components to CLKIN and XTAL enables the internal clock generator. Connecting the external clock to CLKIN
while leaving XTAL unconnected configures the ADSP-21161N to use the external clock source such as an
external clock oscillator.The ADSP-21161N external port cycles at the frequency of CLKIN. The instruction
cycle rate is a multiple of the CLKIN frequency; it is programmable at power-up via the CLK_CFG1–0 pins.
CLKIN may not be halted, changed, or operated below the specified frequency.
Crystal Oscillator Terminal 2. Used in conjunction with CLKIN to enable the ADSP-21161N’s internal clock
oscillator or to disable it to use an external clock source. See CLKIN.
Core/CLKIN Ratio Control. ADSP-21161N core clock (instruction cycle) rate is equal to n PLLICLK where
n is user selectable to 2, 3, or 4, using the CLK_CFG1–0 inputs. These pins can also be used in combination
with the CLKDBL pin to generate additional core clock rates of 6 CLKIN and 8 CLKIN (see the Clock Rate
Ratios table in the CLKDBL description).
Rev. B | Page 15 of 60 | November 2009
DDEXT
on the master device. For ADSP-21161N to ADSP-21161N SPI interaction, any
ADSP-21161N
Table
4).
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