XC5204-6PQ160C Xilinx Inc, XC5204-6PQ160C Datasheet - Page 36
XC5204-6PQ160C
Manufacturer Part Number
XC5204-6PQ160C
Description
IC FPGA 120 CLB'S 160-PQFP
Manufacturer
Xilinx Inc
Series
XC5200r
Datasheet
1.XC5206-5PQ208C.pdf
(73 pages)
Specifications of XC5204-6PQ160C
Number Of Logic Elements/cells
480
Number Of Labs/clbs
120
Number Of I /o
124
Number Of Gates
6000
Voltage - Supply
4.75 V ~ 5.25 V
Mounting Type
Surface Mount
Operating Temperature
0°C ~ 85°C
Package / Case
160-BQFP
Case
QFP160
Dc
00+
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
Total Ram Bits
-
Other names
122-1135
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
XC5204-6PQ160C
Manufacturer:
XILINX
Quantity:
513
Part Number:
XC5204-6PQ160C
Manufacturer:
XILINX/赛灵思
Quantity:
20 000
XC5200 Series Field Programmable Gate Arrays
Synchronous Peripheral Mode
Synchronous Peripheral mode can also be considered
Slave Parallel mode. An external signal drives the CCLK
input(s) of the FPGA(s). The first byte of parallel configura-
tion data must be available at the Data inputs of the lead
FPGA a short setup time before the rising CCLK edge.
Subsequent data bytes are clocked in on every eighth con-
secutive rising CCLK edge.
The same CCLK edge that accepts data, also causes the
RDY/BUSY output to go High for one CCLK period. The pin
name is a misnomer. In Synchronous Peripheral mode it is
really an ACKNOWLEDGE signal. Synchronous operation
does not require this response, but it is a meaningful signal
7-118
Figure 33: Synchronous Peripheral Mode Circuit Diagram
CONTROL
SIGNALS
DATA BUS
PROGRAM
CLOCK
3.3 k
Product Obsolete or Under Obsolescence
4.7 k
8
V
CC
RDY/BUSY
D
INIT
PROGRAM
CCLK
PERIPHERAL
0-7
M0 M1
SYNCHRO-
N/C
XC5200
NOUS
DONE
DOUT
M2
NOTE:
M2 can be shorted to Ground
if not used as I/O
3.3 k
for test purposes. Note that RDY/BUSY is pulled High with
a high-impedance pullup prior to INIT going High.
The lead FPGA serializes the data and presents the pre-
amble data (and all data that overflows the lead device) on
its DOUT pin. There is an internal delay of 1.5 CCLK peri-
ods, which means that DOUT changes on the falling CCLK
edge, and the next FPGA in the daisy chain accepts data
on the subsequent rising CCLK edge.
In order to complete the serial shift operation, 10 additional
CCLK rising edges are required after the last data byte has
been loaded, plus one more CCLK cycle for each
daisy-chained device.
Synchronous Peripheral mode is selected by a <011> on
the mode pins (M2, M1, M0).
OPTIONAL
DAISY-CHAINED
FPGAs
INIT
CCLK
DIN
PROGRAM
M0 M1
XC5200E/EX
November 5, 1998 (Version 5.2)
SLAVE
N/C
DONE
DOUT
M2
X9005
R
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