XQR4036XL-2CB228M ApplicationField
-Consumer Electronics
-5G Technology
-Wireless Technology
-Industrial Control
-Artificial Intelligence
-Cloud Computing
-Internet of Things
-Medical Equipment
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XQR4036XL-2CB228M FAQ Chips
Q: Where can I purchase Xilinx XQR4036XL Development Boards, Evaluation Boards, or QPRO XQR4000XL Radiation Hardened FPGAs Starter Kit? also provide technical information?
A: RAYPCB does not provide development board purchase services for the time being, but customers often consult about ZedBoard, Basys 3 board, TinyFPGA BX, Nexys4-DDR, Terasic DE10-Nano, Digilent Arty S7, etc. If you need relevant technical information, you can submit feedback information, our technicians will contact you soon.
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Q: How can I obtain software development tools related to the Xilinx FPGA platform?
A: In FPGA/CPLD design tools, Xilinx’s Vivado Design Suite is easy to use, it is very user-friendly in synthesis and implementation, and it is easier to use than ISE design tools; The specific choice depends on personal habits and functional requirements to specifically select a more suitable match. You can search and download through the FPGA resource channel.
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ICs XQR4036XL-2CB228M Features
SelectRAM memory: on-chip ultra-fast RAM with
synchronous write option
dual-port RAM option
Virtually unlimited number of clock signals
Eight global low-skew clock or signal distribution networks
New latch capability in configurable logic blocks
Unlimited reprogrammability
System featured FPGAs
SelectRAM memory: on-chip ultra-fast RAM with
synchronous write option
dual-port RAM option
Abundant flip-flops
Flexible function generators
Dedicated high-speed carry logic
Wide edge decoders on each edge
Hierarchy of interconnect lines
Internal 3-state bus capability
Eight global low-skew clock or signal distribution networks
System performance beyond 60 MHz
Interfaces to popular design environments
Systems-oriented features
IEEE 1149.1-compatible boundary scan logic support
Individually programmable output slew rate
Programmable input pull-up or pull-down resistors
12 mA sink current per output
Flexible array architecture
Hierarchy of interconnect lines
Optional multiplexer or 2-input function generator on device outputs
Highest capacity: over 130,000 usable gates
Radiation-hardened FPGAs for space and satellite applications
Processed on Xilinx QML line
Wide edge decoders on each edge
Buffered interconnect for maximum speed
Abundant flip-flops
Program verification
Programmable input pull-up or pull-down resistors
Interactive design editor for design optimization
Internal node observability
Low power segmented routing architecture
IEEE 1149.1-compatible boundary scan logic support
Readback capability
Program verification
Internal node observability
Latch-up immune
Individually programmable output slew rate
5V tolerant I/Os
synchronous write option
Configured by loading binary file
Unlimited reprogrammability
Advanced 0.35µ process
Low soft upset rate
Guaranteed to meet full electrical specifications over –55°C to +125°C
Dedicated high-speed carry logic
Improved VersaRing I/O interconnect for better fixed pinout flexibility
Virtually unlimited number of clock signals
Flexible function generators
Fully automatic mapping, placement and routing
Development system runs on most common computer platforms
Interfaces to popular design environments
Fully automatic mapping, placement and routing
Interactive design editor for design optimization
Available in -3 speed
dual-port RAM option
Guaranteed total ionizing dose
Internal 3-state bus capability
12 mA sink current per output
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Xilinx XQR4036XL-2CB228M Overview
Power-On Power Supply Requirements
Xilinx FPGAs require a minimum rated power supply current
capacity to insure proper initialization, and the power supply
ramp-up time does affect the current required. A fast
ramp-up time requires more current than a slow ramp-up
time. The slowest ramp-up time is 50 ms. Current capacity
is not specified for a ramp-up time faster than 2 ms. The current capacity varies linealy with ramp-up time, e.g., an
XQR4036XL-2CB228M with a ramp-up time of 25 ms would require a
capacity predicted by the point on the straight line drawn
from 1A at 120 µs to 500 mA at 50 ms at the 25 ms time
mark. This point is approximately 750 mA .
XQR4000XL AC Switching Characteristic
Testing of the switching parameters is modeled after testing
methods specified by MIL-M-38510/605. All devices are
100% functionally tested. Internal timing parameters are
derived from measuring internal test patterns. Listed below
are representative values where one global clock input
drives one vertical clock line in each accessible column, and
where all accessible IOB and CLB flip-flops are clocked by
the global clock net.
When fewer vertical clock lines are connected, the clock distribution is faster; when multiple clock lines per column are driven from the same global clock, the delay is longer. For
more specific, more precise, and worst-case guaranteed
data, reflecting the actual routing structure, use the values
provided by the static timing analyzer (TRCE in the Xilinx
Development System) and back-annotated to the simulation
netlist. These path delays, provided as a guideline, have
been extracted from the static timing analyzer report. All
timing parameters assume worst-case operating conditions
(supply voltage and junction temperature)
XQR4000XL CLB Switching Characteristic Guidelines
Testing of switching parameters is modeled after testing
methods specified by MIL-M-38510/605. All devices are
100% functionally tested. Internal timing parameters are
derived from measuring internal test patterns. Listed below
are representative values. For more specific, more precise,
and worst-case guaranteed data, use the values reported
by the static timing analyzer (TRCE in the Xilinx Development System) and back-annotated to the simulation netlist.
All timing parameters assume worst-case operating conditions (supply voltage and junction temperature). Values
apply to all XQR4000XL devices and expressed in nanoseconds unless otherwise noted.
XQR4036XL-2CB228M Tags integrated circuit
1. Xilinx XQR4036XL
2. XQR4036XL development board
3. QPRO XQR4000XL Radiation Hardened FPGAs evaluation kit
4. QPRO XQR4000XL Radiation Hardened FPGAs starter kit
5. XQR4036XL evaluation board
6. XQR4036XL reference design
7. XQR4036XL-2CB228M Datasheet PDF
8. QPRO XQR4000XL Radiation Hardened FPGAs XQR4036XL
9. QPRO XQR4000XL Radiation Hardened FPGAs starter kit
Xilinx XQR4036XL-2CB228M TechnicalAttributes
