Features * * * * * * * * * * * * * * * * * * * High performance ULC family suitable for large-sized CPLDs and FPGAs Conversions to over 2,000,000 FPGA gates Pin counts to over 976 pins Any pin-out matched due to limited number of dedicated pads Full range of packages: LCC/PLCC, PQFP/TQFP, fine pitch BGA, PGA/PPGA 2.5V I/O and 3.3V tolerant/compliant Low quiescent current: <0.3 nA/gate Available in commercial and industrial grades 0.25 mm Drawn CMOS, 5 Metal Layers Library Optimised for Synthesis, Static Timing Analysis & Automatic Test Pattern Generation (ATPG) High Speed Performance: - 100 ps Typical Gate Delay @2.5V - Typical 280 MHz Flip-Flop Toggle Frequency @2.5V High System Frequency Skew Control: - Clock Tree Synthesis Software 2.5Volts & 3.3Volts Operation; Single or Dual Supply Modes Low Power Consumption: - <0.18 W/Gate/MHz @2.5V Power on Reset Standard 2, 4, 6, 8,10, 12 and 18 mA I/Os CMOS/TTL/PCI Interface, LVCMOS, LVTTL, PECL, PCI (33/66 MHz) levels, GTL/GTL+, HSTL, SSTL2, SSTL3, CCT, AGP, LVDS ESD (2 kV) and Latch-up Protected I/O High Noise & EMC Immunity: - I/O with Slew Rate Control - Internal Decoupling - Signal Filtering between Periphery & Core 0.25 m ULC Series UA2 Preliminary Description The UA2 series of ULCs is well suited for conversion of large sized CPLDs and FPGAs. Devices are implemented in high-performance CMOS technology with 0.25- m (drawn) channel lengths, and are capable of supporting flip-flop toggle rates of 280 MHz at 2.5V, and input to output delay cells as fast as 100ps at 2.5V. The architecture of the UA2 series allows for efficient conversion of many PLD architecture and FPGA device types with higher IO count. A compact RAM cell, along with the large number of available gates allows the implementation of RAM in FPGA architectures that support this feature, as well as JTAG boundary-scan and scan-path testing. Conversion to the UA2 series of ULC can provide a significant reduction in operating power when compared to the original PLD or FPGA. This is especially true when compared to many PLD and CPLD architecture devices, which typically consume 100mA or more even when not being clocked. The UA2 series has a very low standby consumption of less than 0.3 nA/gate typically commercial temp, which would yield a standby current of 0.3 nA/gate, 0.42A on a 144,000 gates design. Operating consumption is a strict function of clock frequency, which typically results in a power reduction of 50% to 90% depending on the device being compared. The UA2 series provides several options for output buffers, including a variety of drive levels up to 18mA. Schmitt trigger inputs are also an option. A number of techniques are used for improved noise immunity and reduced EMC emissions, including: several independent power supply busses and internal decoupling for isolation; slew rate limited outputs are also available if required. Rev. A - 29-Oct-01 1 UA2 The UA2 series is designed to allow conversion of high performance 2.5V devices. Support of mixed supply conversions (2.5V core, 3.3V periphery) is also possible, allowing optimal trade-offs between speed and power consumption. Array Organization Device Number 4LM Routable Gates 5LM Routable Gates Full Programmable usable pads UA2044 9,535 10,727 36 UA2/68 30,096 33,858 60 UA2084 50,410 56,712 76 UA2100 75,472 84,906 92 UA2120 106,278 120,449 112 UA2132 131,670 149,226 124 UA2144 159,778 181,081 136 UA2160 200,998 227,797 152 UA2184 270,663 306,751 176 UA2208 329,281 376,321 200 UA2228 401,010 458,298 220 UA2256 512,398 585,598 248 UA2304 733,635 838,440 296 UA2352 925,815 1,068,248 344 UA2388 1,133,594 1,307,994 380 UA2432 1,417,125 1,635,145 424 UA2484 1,651,406 1,926,640 476 UA2540 2,069,052 2,413,894 532 UA2600 2,567,790 2,995,755 592 UA2700 3,520,954 4,107,780 692 UA2800 4,231,979 5,001,430 792 UA2900 5,378,257 6,356,122 892 UA2976 5,765,320 6,918,384 968 Architecture The basic element of the UA2 family is called a cell. One cell can typically implement between one to four FPGA gates. Cells are located contiguously through out the core of the device, with routing resources provided in three to four metal layers above the cells. Some cell blockage does occur due to routing, and utilization will be significantly greater with three metal routing than two. The sizes listed in the Product Outline are estimated usable amounts using three metal layers. I/O cells are provided at each pad, and may be configured as inputs, outputs, I/Os, VDD or VSS as required to match any FPGA or PLD pinout. 2 Rev. A - 29-Oct-01 In order to improve noise immunity within the device, separate VDD and VSS busses are provided for the internal cells and the I/O cells. I/O buffer interfacing I/O Flexibility All I/O buffers may be configured as input, output, bi-directional, oscillator or supply. A level translator could be located close to each buffer. I/O Options Inputs Each input can be programmed as TTL, CMOS, or Schmitt Trigger, with or without a pull up or pull down resistor. Fast Output Buffer Fast output buffers are able to source or sink 2 to 18mA at 3.3V according to the chosen option. 36mA achievable, using 2 pads. Slew Rate Controlled Output Buffer In this mode, the p- and n-output transistors commands are delayed, so that they are never set "ON" simultaneously, resulting in a low switching current and low noise. These buffers are dedicated to very high load drive. 2.5V Compatibility The UA2 series of ULC's is fully capable of supporting high-performance operation at 2.5V for core or 3.3V for periphery. The performance specifications of any given ULC design however, must be explicitly specified as 2.5V, 3.3V or both. Power Supply and Noise Protection The speed and density of the UA2 technology cause large switching current spikes, for example, when: * 16 high current output buffers switch simultaneously, or * 10% of the 700 000 gates are switching within a window of 1ns. Sharp edges and high currents cause some parasitic elements in the packaging to become significant. In this frequency range, the package inductance and series resistance should be taken into account. It is known that an inductor slows down the setting time of the current and causes voltage drops on the power supply lines. These drops can affect the behavior of the circuit itself or disturb the external application (ground bounce). In order to improve the noise immunity of the UA2 core matrix, several mechanisms have been implemented inside the UA2 arrays. Two types of protection have been added: one to limit the I/O buffer switching noise and the other to protect the I/O buffers against the switching noise coming from the matrix. I/O buffers switching protection 3 Three features are implemented to limit the noise generated by the switching current: * The power supplies of the input and output buffers are separated. * The rise and fall times of the output buffers can be controlled by an internal regulator. * A design rule concerning the number of buffers connected on the same power supply line has been imposed. UA2 Rev. A - 29-Oct-01 UA2 Matrix switching current protection This noise disturbance is caused by a large number of gates switching simultaneously. To allow this without impacting the functionality of the circuit, three new features have been added: * Decoupling capacitors are integrated directly on the silicon to reduce the power supply drop. * A power supply network has been implemented in the matrix. This solution reduces the number of parasitic elements such as inductance and resistance and constitutes an artificial VDD and Ground plane. One mesh of the network supplies approximately 150 cells. * A low pass filter has been added between the matrix and the input to the output buffer. This limits the transmission of the noise coming from the ground or the VDD supply of the matrix to the external world via the output buffers. 4 Rev. A - 29-Oct-01 Electrical Characteristics Absolute Maximum Ratings Max Supply Voltage (VDD) .................................................... 2.7V Max Supply Voltage (VDD5)................................................... 3.6V Input Voltage (VIN)VDD VDD ................................................... + 0.5V 3.3V Tolerant/CompliantVDD5 .............................................. + 0.5V Storage Temperature .......................................................... -65 to 150C Operating Ambient Temperature .......................................... -40 to 85C Recommended Operating Range VDD ................................................................................ 2.5V 5% or 3.3V 5% Operating Temperature: Commercial .......................................................................... 0 to 70C Industrial............................................................................... -40 to 85C 5 UA2 Rev. A - 29-Oct-01 UA2 DC Characteristics 2.5V Specified at VDD = +2.5V +/- 5% Symbol Parameter Buffer Min. TA Operating Temperature All -40 VDD Supply Voltage All 2.3 IIH High level input current Max Unit +85 C 2.7 V CMOS 10 A VIN=VDD,VDD=VDD(max) PCI 10 A VIN=VSS,VDD=VDD (max) CMOS IIL Typ 2.5 -10 Conditions Low Level input current PCI IOZ IOS VIH VIL High-Impedance State Output Current VOL -10 10 PO11 9 PO11 6 A mA Output short-circuit current High-level Input Voltage Low-Level Input Voltage Vhys VOH All Hysteresis CMOS 0.7VDD PCI 0.475VDD CMOS Schmitt 0.7V DD V 1.5 0.3VDD PCI 0.325VDD CMOS Schmitt 1.0 CMOS Schmitt 0.5 0.7VDD PCI 0.9VDD VOUT = VDD, VDD = VDD (max) VOUT = VSS, V DD= V DD (max) CMOS PO11 VIN = VDD or VSS, VDD = VDD (max), No Pull-up V 0.3VDD V V High-Level output voltage PO11 0.4 PCI 0.1VDD Low-Level output voltage V IOH = 1.4mA, VDD = VDD (min) IOH = -500 A IOL = 1.4 mA, VDD = VDD (min) IOL = 1.5 mA 6 Rev. A - 29-Oct-01 3.3V Specified at VDD = +3.3V +/- 5% Symbol Parameter Buffer Min TA Operating Temperature All -40 VDD Supply Voltage All 3.0 IIH High level input current IIL Low Level input current Max Unit +85 C 3.6 V CMOS 10 A VIN=VDD,VDD=VDD(max) PCI 10 A VIN=VSS,VDD=VDD (max) CMOS Typ 3.3 -10 Conditions PCI High-Impedance State IOZ All Output Current IOS Output short-circuit current VIH High-level Input Voltage VIL Low-Level Input Voltage -10 10 PO11 14 PO11 -9 CMOS,LVTTL 2.0 PCI 0.475VDD CMOS Schmitt 2.0 mA 1.7 PCI 0.325VDD CMOS/TTL-level Schmitt 1.1 0.6 TTL-level Schmitt VOH High-Level output voltage PO11 VOUT = V DD, VDD = VDD (max) V 0.8 Hysteresis VIN = VDD or VSS, VDD = VDD (max), No Pull-up VOUT = V SS, V DD= V DD (max) CMOS Vhys A V 0.8 V IOH = 2mA, VDD = VDD (min) 0.7V DD IOH = -500 A V PCI VOL Low-Level output voltage 0.9VDD PO11 IOL = 2 mA, VDD = VDD (min) 0.4 IOL = 1.5 mA V PCI 0.1VDD I/O Buffer Symbol Parameter Typ Unit Conditions C IN Capacitance, Input Buffer (Die) 2.4 pF 3.3V Capacitance, Output Buffer (Die) 5.6 pF 3.3V Capacitance, Bidirectional 6.6 pF 3.3V C OUT C I/O 7 UA2 Rev. 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