LFXP2-8E-5TN144I Lattice, LFXP2-8E-5TN144I Datasheet - Page 139
LFXP2-8E-5TN144I
Manufacturer Part Number
LFXP2-8E-5TN144I
Description
FPGA - Field Programmable Gate Array 8K LUTs 100 I/O Inst on DSP 1.2V -5 Spd
Manufacturer
Lattice
Datasheet
1.LFXP2-8E-5FTN256I.pdf
(341 pages)
Specifications of LFXP2-8E-5TN144I
Number Of Macrocells
8000
Number Of Programmable I/os
100
Data Ram Size
226304
Supply Voltage (max)
1.26 V
Maximum Operating Temperature
+ 100 C
Minimum Operating Temperature
- 40 C
Mounting Style
SMD/SMT
Supply Voltage (min)
1.14 V
Package / Case
TQFP-144
Number Of Logic Elements/cells
*
Number Of Labs/clbs
*
Total Ram Bits
226304
Number Of I /o
100
Number Of Gates
-
Voltage - Supply
1.14 V ~ 1.26 V
Mounting Type
*
Operating Temperature
-40°C ~ 100°C
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
LFXP2-8E-5TN144I
Manufacturer:
Lattice Semiconductor Corporation
Quantity:
10 000
LatticeXP2 sysCLOCK PLL
Lattice Semiconductor
Design and Usage Guide
CLKDIV Usage with Verilog - Example
module clkdiv_top(RST,CLKI,RELEASE,CDIV1,CDIV2,CDIV4,CDIV8);
input CLKI,RST,RELEASE;
output CDIV1,CDIV2,CDIV4,CDIV8;
CLKDIVB CLKDIBinst0 (.RST(RST),.CLKI(CLKI),.RELEASE(RELEASE),
.CDIV1(CDIV1),.CDIV2(CDIV2),.CDIV4(CDIV4),.CDIV8(CDIV8));
defparam CLKDIBint0.GXR = “DISABLED”;
endmodule
CLKDIV Example Circuits
The clock divider (CLKDIV) can divide a clock by 2 or 4 and drives a primary clock network. Clock dividers are use-
ful for providing the low speed FPGA clocks for I/O shift registers (x2, x4) and DDR (x2, x4) I/O logic interfaces.
Divide by 8 is provided for slow speed/low power operation.
To guarantee a synchronous transfer in the I/O logic the CLKDIV input clock must come from an edge clock and the
output drive from a primary clock. In this case, they are phase matched.
It is especially useful to synchronously reset the I/O logic when Mux/DeMux gearing is used in order to synchronize
the entire data bus as shown in Figure 9-14. Using the low skew characteristics of the edge clock routing a reset
can be provided to all bits of the data bus to synchronize the Mux/DeMux gearing.
The second circuit shows that a DLL can replace CLKDIV for x2 and x4 applications.
Figure 9-14. CLKDIV Application Example
Data
GEARING
D
Q
(2x)
8
16
Primary
ECLK
Clock
CLKDIV
RST
9-17
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