EP1K30QC208-3N Altera, EP1K30QC208-3N Datasheet - Page 23

IC ACEX 1K FPGA 30K 208-PQFP

EP1K30QC208-3N

Manufacturer Part Number
EP1K30QC208-3N
Description
IC ACEX 1K FPGA 30K 208-PQFP
Manufacturer
Altera
Series
ACEX-1K®r
Datasheet

Specifications of EP1K30QC208-3N

Number Of Logic Elements/cells
1728
Number Of Labs/clbs
216
Total Ram Bits
24576
Number Of I /o
147
Number Of Gates
119000
Voltage - Supply
2.375 V ~ 2.625 V
Mounting Type
Surface Mount
Operating Temperature
0°C ~ 85°C
Package / Case
208-MQFP, 208-PQFP
Family Name
ACEX™ 1K
Number Of Usable Gates
30000
Number Of Logic Blocks/elements
1728
# I/os (max)
147
Frequency (max)
200MHz
Process Technology
CMOS
Operating Supply Voltage (typ)
2.5V
Logic Cells
1728
Ram Bits
24576
Device System Gates
119000
Operating Supply Voltage (min)
2.375V
Operating Supply Voltage (max)
2.625V
Operating Temp Range
0C to 70C
Operating Temperature Classification
Commercial
Mounting
Surface Mount
Pin Count
208
Package Type
PQFP
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Other names
544-1836
EP1K30QC208-3N

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Altera Corporation
Clearable Counter Mode
The clearable counter mode is similar to the up/down counter mode, but
it supports a synchronous clear instead of the up/down control. The clear
function is substituted for the cascade-in signal in the up/down counter
mode. Two 3-input LUTs are used; one generates the counter data, and the
other generates the fast carry bit. Synchronous loading is provided by a
2-to-1 multiplexer. The output of this multiplexer is AND ed with a
synchronous clear signal.
Internal Tri-State Emulation
Internal tri-state emulation provides internal tri-states without the
limitations of a physical tri-state bus. In a physical tri-state bus, the
tri-state buffers’ output enable (OE) signals select which signal drives the
bus. However, if multiple OE signals are active, contending signals can be
driven onto the bus. Conversely, if no OE signals are active, the bus will
float. Internal tri-state emulation resolves contending tri-state buffers to a
low value and floating buses to a high value, thereby eliminating these
problems. The Altera software automatically implements tri-state bus
functionality with a multiplexer.
Clear & Preset Logic Control
Logic for the programmable register’s clear and preset functions is
controlled by the DATA3, LABCTRL1, and LABCTRL2 inputs to the LE. The
clear and preset control structure of the LE asynchronously loads signals
into a register. Either LABCTRL1 or LABCTRL2 can control the
asynchronous clear. Alternatively, the register can be set up so that
LABCTRL1 implements an asynchronous load. The data to be loaded is
driven to DATA3; when LABCTRL1 is asserted, DATA3 is loaded into the
register.
During compilation, the compiler automatically selects the best control
signal implementation. Because the clear and preset functions are active-
low, the Compiler automatically assigns a logic high to an unused clear or
preset.
The clear and preset logic is implemented in one of the following six
modes chosen during design entry:
Asynchronous clear
Asynchronous preset
Asynchronous clear and preset
Asynchronous load with clear
Asynchronous load with preset
Asynchronous load without clear or preset
ACEX 1K Programmable Logic Device Family Data Sheet
23
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