LCMXO1200C-4MN132I Lattice, LCMXO1200C-4MN132I Datasheet - Page 16

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LCMXO1200C-4MN132I

Manufacturer Part Number
LCMXO1200C-4MN132I
Description
CPLD - Complex Programmable Logic Devices 1200 LUTs 101 IO 1.8 /2.5/3.3V -4 Spd I
Manufacturer
Lattice
Datasheet

Specifications of LCMXO1200C-4MN132I

Rohs
yes
Memory Type
SRAM
Number Of Macrocells
600
Maximum Operating Frequency
550 MHz
Delay Time
4.4 ns
Number Of Programmable I/os
101
Operating Supply Voltage
1.8 V, 2.5 V, 3.3 V
Maximum Operating Temperature
+ 100 C
Minimum Operating Temperature
- 40 C
Package / Case
CSBGA-132
Mounting Style
SMD/SMT
Factory Pack Quantity
1800
Supply Current
21 mA
Supply Voltage - Max
3.465 V
Supply Voltage - Min
1.71 V

Available stocks

Company
Part Number
Manufacturer
Quantity
Price
Part Number:
LCMXO1200C-4MN132I
Manufacturer:
Lattice Semiconductor Corporation
Quantity:
10 000
Lattice Semiconductor
Figure 2-13. Memory Core Reset
For further information on the sysMEM EBR block, see the details of additional technical documentation at the end
of this data sheet.
EBR Asynchronous Reset
EBR asynchronous reset or GSR (if used) can only be applied if all clock enables are low for a clock cycle before the
reset is applied and released a clock cycle after the reset is released, as shown in Figure 2-14. The GSR input to the
EBR is always asynchronous.
Figure 2-14. EBR Asynchronous Reset (Including GSR) Timing Diagram
If all clock enables remain enabled, the EBR asynchronous reset or GSR may only be applied and released after
the EBR read and write clock inputs are in a steady state condition for a minimum of 1/f
release must adhere to the EBR synchronous reset setup time before the next active read or write clock edge.
If an EBR is pre-loaded during configuration, the GSR input must be disabled or the release of the GSR during
device Wake Up must occur before the release of the device I/Os becoming active.
These instructions apply to all EBR RAM, ROM and FIFO implementations. For the EBR FIFO mode, the GSR sig-
nal is always enabled and the WE and RE signals act like the clock enable signals in Figure 2-14. The reset timing
rules apply to the RPReset input vs the RE input and the RST input vs. the WE and RE inputs. Both RST and
RPReset are always asynchronous EBR inputs.
Note that there are no reset restrictions if the EBR synchronous reset is used and the EBR GSR input is disabled
GSRN
RSTA
RSTB
Programmable Disable
Reset
Clock
Clock
Enable
Memory Core
2-13
Output Data
L
L
D
D
Latches
CLR
CLR
SET
SET
Q
Q
MachXO Family Data Sheet
Port A[17:0]
Port B[17:0]
MAX
(EBR clock). The reset
Architecture

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