Features: • HIGH-DENSITY PROGRAMMABLE LOGIC- 2000 PLD Gates- 32 I/O Pins, One Dedicated Input- 96 Registers- High-Speed Global Interconnect- Wide Input Gating for Fast Counters, State Machines, Address Decoders, etc.- Small Logic Block Size for Random Logic- Functionally Compatible with ispL...
1016EA: Features: • HIGH-DENSITY PROGRAMMABLE LOGIC- 2000 PLD Gates- 32 I/O Pins, One Dedicated Input- 96 Registers- High-Speed Global Interconnect- Wide Input Gating for Fast Counters, State Machines...
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• HIGH-DENSITY PROGRAMMABLE LOGIC
- 2000 PLD Gates
- 32 I/O Pins, One Dedicated Input
- 96 Registers
- High-Speed Global Interconnect
- Wide Input Gating for Fast Counters, State Machines, Address Decoders, etc.
- Small Logic Block Size for Random Logic
- Functionally Compatible with ispLSI 1016E
• NEW FEATURES
- 100% IEEE 1149.1 Boundary Scan Testable
- ispJTAG™ In-System Programmable via IEEE 1149.1 (JTAG) Test Access Port
- User-Selectable 3.3V or 5V I/O Supports Mixed-Voltage Systems (VCCIO Pin)
- Open-Drain Output Option
• HIGH-PERFORMANCE E2CMOS® TECHNOLOGY
- fmax = 200 MHz Maximum Operating Frequency
- tpd = 4.5 ns Propagation Delay
- TTL Compatible Inputs and Outputs
- Electrically Erasable and Reprogrammable
- Non-Volatile
- 100% Tested at Time of Manufacture
- Unused Product Term Shutdown Saves Power
• IN-SYSTEM PROGRAMMABLE
- Increased Manufacturing Yields, Reduced Time-to- Market and Improved Product Quality
- Reprogram Soldered Device for Faster Prototyping
• OFFERS THE EASE OF USE AND FAST SYSTEM SPEED OF PLDs WITH THE DENSITY AND FLEXIBILITY OF FIELD PROGRAMMABLE GATE ARRAYS
- Complete Programmable Device Can Combine Glue Logic and Structured Designs
- Enhanced Pin Locking Capability
- Three Dedicated Clock Input Pins
- Synchronous and Asynchronous Clocks
- Programmable Output Slew Rate Control to Minimize Switching Noise
- Flexible Pin Placement
- Optimized Global Routing Pool Provides Global Interconnectivity
• ispDesignEXPERT™ LOGIC COMPILER AND COMPLETE ISP DEVICE DESIGN SYSTEMS FROM HDL SYNTHESIS THROUGH IN-SYSTEM PROGRAMMING
- Superior Quality of Results
- Tightly Integrated with Leading CAE Vendor Tools
- Productivity Enhancing Timing Analyzer, Explore Tools, Timing Simulator and ispANALYZER™
- PC and UNIX Platforms
Supply Voltage VCC ............................. -0.5 to +7.0V
Input Voltage Applied ................... -2.5 to VCC +1.0V
Off-State Output Voltage Applied .. -2.5 to VCC +1.0V
Storage Temperature .............................-65 to 150
Case Temp. with Power Applied .............-55 to 125
Max. Junction Temp. (TJ) with Power Applied ... 150
1. Stresses above those listed under the "Absolute Maximum Ratings" may cause permanent damage to the device. Functional operation of the device at these or at any other conditions above those indicated in the operational sections of this specification is not implied (while programming, follow the programming specifications).
The ispLSI 1016EA is a High Density Programmable Logic Device containing 96 Registers, 32 Universal I/O pins, one Dedicated Input pin, two Dedicated Clock Input pins, one Global OE input pin and a Global Routing Pool (GRP). The GRP provides complete interconnectivity between all of these elements. The ispLSI 1016EA features 5V in-system programmability (ISP™) and in-system diagnostic capabilities via an IEEE 1149.1 Test Access Port. The ispLSI 1016EA offers non-volatile reprogrammability of the logic, as well as the interconnect to provide truly reconfigurable systems. A functional superset of the ispLSI 1016 architecture, the ispLSI 1016EA device adds user-selectable 3.3V or 5V I/O and open-drain output options.
The basic unit of logic on the ispLSI 1016EA device is the Generic Logic Block (GLB). The GLBs are labeled A0, A1...B7 (Figure 1). There are a total of 16 GLBs in the ispLSI 1016EA device. Each GLB has 18 inputs, a programmable AND/OR/Exclusive OR array, and four outputs which can be configured to be either combinatorial or registered. Inputs to the GLB come from the GRP and a dedicated input. All of the GLB outputs are brought back into the GRP so that they can be connected to the inputs of any other GLB on the device.