參數(shù)資料
型號: XCR5128-15PQ160I
廠商: XILINX INC
元件分類: PLD
英文描述: 128 Macrocell CPLD
中文描述: EE PLD, 17.5 ns, PQFP160
封裝: PLASTIC, TQFP-160
文件頁數(shù): 9/20頁
文件大?。?/td> 131K
代理商: XCR5128-15PQ160I
R
XCR5128: 128 Macrocell CPLD
9
www.xilinx.com
1-800-255-7778
DS041 (v1.4) January 19, 2001
This product has been discontinued. Please see
www.xilinx.com/partinfo/notify/pdn0007.htm
for details.
5V, In-System Programming (ISP)
ISP is the ability to reconfigure the logic and functionality of
a device, printed circuit board, or complete electronic sys-
tem before, during, and after its manufacture and shipment
to the end customer. ISP provides substantial benefits in
each of the following areas:
Design
-
Faster time-to-market
-
Debug partitioning and simplified prototyping
-
Printed circuit board reconfiguration during debug
-
Better device and board level testing
Manufacturing
-
Multi-Functional hardware
-
Reconfigurability for Test
-
Eliminates handling of "fine lead-pitch" components
for programming
-
Reduced Inventory and manufacturing costs
-
Improved quality and reliability
Field Support
-
Easy remote upgrades and repair
-
Support for field configuration, re-configuration, and
customization
The Xilinx XCR5128 allows for 5V, in-system program-
ming/reprogramming of its EEPROM cells via its JTAG
interface. An on-chip charge pump eliminates the need for
externally-provided supervoltages, so that the XCR5128
may be easily programmed on the circuit board using only
the 5V supply required by the device for normal operation.
A set of low-level ISP basic commands implemented in the
XCR5128 enable this feature. The ISP commands imple-
mented in the Xilinx XCR5128 are specified in Table 6.
Please note that an ENABLE command must precede all
ISP commands
unless
an ENABLE command has already
been given for a preceding ISP command
and
the device
has not gone through a Test-Logic/Rest TAP Controller
State.
Terminations
The CoolRunner XCR5128 CPLDs are TotalCMOS
devices. As with other CMOS devices, it is important to
consider how to properly terminate unused inputs and I/O
pins when fabricating a PC board. Allowing unused inputs
and I/O pins to float can cause the voltage to be in the linear
region of the CMOS input structures, which can increase
the power consumption of the device. The XCR5128
CPLDs have programmable on-chip pull-down resistors on
each I/O pin. These pull-downs are automatically activated
by the fitter software for all unused I/O pins. Note that an I/O
macrocell used as buried logic that does not have the I/O
pin used for input is considered to be unused, and the
pull-down resistors will be turned on. We recommend that
any unused I/O pins on the XCR5128 device be left uncon-
nected.
There are no on-chip pull-down structures associated with
the dedicated input pins. Xilinx recommends that any
unused dedicated inputs be terminated with external 10k
pull-up resistors. These pins can be directly connected to
V
CC
or GND, but using the external pull-up resistors main-
tains maximum design flexibility should one of the unused
dedicated inputs be needed due to future design changes.
When using the JTAG/ISP functions, it is also recom-
mended that 10k
pull-up resistors be used on each of the
pins associated with the four mandatory JTAG signals. Let-
ting these signals float can cause the voltage on TMS to
come close to ground, which could cause the device to
enter JTAG/ISP mode at unspecified times. See the appli-
cation notes
JTAG and ISP Overview for Xilinx XPLA1 and
XPLA2 CPLDs
and
Terminating Unused I/O Pins in Xilinx
XPLA1 and XPLA2 CoolRunner
CPLDs
for more informa-
tion.
Idcode
(0001)
Boundary-Scan Register
Selects the IDCODE register and places it between TDI and TDO, allowing the IDCODE to
be serially shifted out of TDO. The IDCODE instruction permits blind interrogation of the
components assembled onto a printed circuit board. Thus, in circumstances where the
component population may vary, it is possible to determine what components exist in a
product.
The HIGHZ instruction places the component in a state in which all of its system logic outputs
are placed in an inactive drive state (e.g., high impedance). In this state, an in-circuit test
system may drive signals onto the connections normally driven by a component output
without incurring the risk of damage to the component. The HighZ instruction also forces the
Bypass Register between TDI and TDO.
HighZ
(0101)
Bypass Register
Table 4: XCR5128 Low-Level JTAG Boundary-Scan Commands
相關(guān)PDF資料
PDF描述
XCR5128-15TQ128C 128 Macrocell CPLD
XCR5128-15VQ100C 128 Macrocell CPLD
XCR5128-15VQ100I 128 Macrocell CPLD
XCR5128-7PC84C 128 Macrocell CPLD
XCR5128-7PC84I 128 Macrocell CPLD
相關(guān)代理商/技術(shù)參數(shù)
參數(shù)描述
XCR5128-15TQ128C 制造商:XILINX 制造商全稱:XILINX 功能描述:128 Macrocell CPLD
XCR5128-15TQ128I 制造商:XILINX 制造商全稱:XILINX 功能描述:128 Macrocell CPLD
XCR5128-15VQ100C 制造商:XILINX 制造商全稱:XILINX 功能描述:128 Macrocell CPLD
XCR5128-15VQ100I 制造商:XILINX 制造商全稱:XILINX 功能描述:128 Macrocell CPLD
XCR5128-7PC84C 制造商:XILINX 制造商全稱:XILINX 功能描述:128 Macrocell CPLD
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