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| (R) XC3000A Logic Cell Array Family Product Specifications Features Description The XC3000A family offers the following enhancements over the popular XC3000 family: The XC3000A family has additional interconnect resources to drive the I-inputs of TBUFs driving horizontal Longlines. The CLB Clock Enable input can be driven from a second vertical Longline. These two additions result in more efficient and faster designs when horizontal Longlines are used for data bussing. During configuration, the XC3000A devices check the bitstream format for stop bits in the appropriate positions. Any error terminates the configuration and pulls INIT Low. When the configuration process is finished and the device starts up in user mode, the first activation of the outputs is automatically slew-rate limited . This feature, called Soft Startup, avoids the potential ground bounce when all outputs are turned on simultaneously. After start-up, the slew rate of the individual outputs is, as in the XC3000 family, determined by the individual configuration option. The XC3000A family is a superset of the XC3000 family. Any bitstream used to configure an XC3000 or XC3100 device configures an XC3000A device exactly the same way. * Enhanced, high performance FPGA family with five device types - Improved redesign of the basic XC3000 LCA Family - Logic densities from 1,000 to 6,000 gates - Up to 144 user-definable I/Os * Superset of the industry-leading XC3000 family - Identical to the basic XC3000 in structure, pin out, design methodology, and software tools - 100% compatible with all XC3000, XC3000L, and XC3100 bitstreams - Improved routing and additional features * Additional programmable interconnection points (PIPs) - Improved access to longlines and CLB clock enable inputs - Most efficient XC3000-class solution to bus-oriented designs * Advanced 0.8 CMOS static memory technology - Low quiescent and active power consumption * Performance specified by logic delays, faster than corresponding XC3000 versions * XC3000A-specific features - 4 mA output sink and source current - Error checking of the configuration bitstream - Soft startup starts all outputs in slew-limited mode upon power-up - Easy migration to the XC3400 series of HardWire mask programmed devices for high-volume production. User I/Os Max 64 80 96 120 144 Horizontal Longlines 16 20 24 32 40 Configurable Data Bits 14,779 22,176 30,784 46,064 64,160 Device XC3020A XC3030A XC3042A XC3064A XC3090A CLBs 64 100 144 224 320 Array 8x8 10 x 10 12 x 12 16 x 14 16 x 20 Flip-Flops 256 360 480 688 928 2-161 XC3000A Logic Cell Array Family Xilinx maintains test specifications for each product as controlled documents. To insure the use of the most recently released device performance parameters, please request a copy of the current test-specification revision. Absolute Maximum Ratings Symbol Description VCC VIN VTS TSTG TSOL Supply voltage relative to GND Input voltage with respect to GND Voltage applied to 3-state output Storage temperature (ambient) Maximum soldering temperature (10 s @ 1/16 in.) Junction temperature plastic TJ Junction temperature ceramic +150 -0.5 to +7.0 -0.5 to VCC +0.5 -0.5 to VCC +0.5 -65 to +150 +260 +125 Units V V V C C C C Note: Stresses beyond those listed under Absolute Maximum Ratings may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those listed under Recommended Operating Conditions is not implied. Exposure to Absolute Maximum Ratings conditions for extended periods of time may affect device reliability. Operating Conditions Symbol VCC Description Supply voltage relative to GND Commercial 0C to +85C junction Supply voltage relative to GND Industrial -40C to +100C junction VIHT VILT VIHC VILC TIN High-level input voltage -- TTL configuration Low-level input voltage -- TTL configuration High-level input voltage -- CMOS configuration Low-level input voltage -- CMOS configuration Input signal transition time Min 4.75 4.5 2.0 0 70% 0 Max 5.25 5.5 VCC 0.8 100% 20% 250 Units V V V V VCC VCC ns At junction temperatures above those listed as Operating Conditions, all delay parameters increase by 0.3% per C. 2-162 DC Characteristics Over Operating Conditions Symbol VOH VOL VOH VOL VCCPD ICCPD Description High-level output voltage (@ IOH = -4.0 mA, VCC min) Commercial Low-level output voltage (@ IOL = 4.0 mA, VCC min) High-level output voltage (@ IOH = -4.0 mA, VCC min) Industrial Low-level output voltage (@ IOL = 4.0 mA, VCC min) Power-down supply voltage (PWRDWN must be Low) Power-down supply current (VCC(MAX) @ TMAX) 2.30 50 0.40 V V A 3.76 0.40 V V Min 3.86 Max Units V ICCO Quiescent LCA supply current in addition to ICCPD* Chip thresholds programmed as CMOS levels Chip thresholds programmed as TTL levels 500 10 -10 +10 A mA A IIL CIN Input Leakage Current Input capacitance, all packages except PGA175 (sample tested) All Pins except XTL1 and XTL2 XTL1 and XTL2 Input capacitance, PGA 175 (sample tested) All Pins except XTL1 and XTL2 XTL1 and XTL2 10 15 pF pF 15 20 0.02 0.17 3.4 pF pF mA mA IRIN IRLL Pad pull-up (when selected) @ VIN = 0 V (sample tested) Horizontal Longline pull-up (when selected) @ logic Low * With no output current loads, no active input or Longline pull-up resistors, all package pins at Vcc or GND, and the LCA device configured with a MakeBits tie option. 2-163 XC3000A Logic Cell Array Family CLB Switching Characteristic Guidelines CLB Output (X, Y) (Combinatorial) 1 CLB Input (A,B,C,D,E) 2 CLB Clock 12 TCL 4 CLB Input (Direct In) 6 CLB Input (Enable Clock) 8 CLB Output (Flip-Flop) TCKO T ECCK 7 TCKEC TDICK 11 T CH 5 TCKDI T ICK 3 T CKI T ILO CLB Input (Reset Direct) 13 TRPW 9 T RIO CLB Output (Flip-Flop) X5424 T Buffer (Internal) Switching Characteristic Guidelines Speed Grade Description Global and Alternate Clock Distribution* Either: Normal IOB input pad through clock buffer to any CLB or IOB clock input Or: Fast (CMOS only) input pad through clock buffer to any CLB or IOB clock input TBUF driving a Horizontal Longline (L.L.)* I to L.L. while T is Low (buffer active) T to L.L. active and valid with single pull-up resistor T to L.L. active and valid with pair of pull-up resistors T to L.L. High with single pull-up resistor T to L.L. High with pair of pull-up resistors BIDI Bidirectional buffer delay Symbol -7 Max -6 Max Units TPID TPIDC 7.5 6.0 7.0 5.7 ns ns TIO TON TON TPUS TPUF 4.5 9.0 11.0 16.0 10.0 4.0 8.0 10.0 14.0 8.0 ns ns ns ns ns TBIDI 1.7 1.5 ns * Timing is based on the XC3042A, for other devices see XACT timing calculator. 2-164 CLB Switching Characteristic Guidelines (continued) Testing of the switching parameters is modeled after testing methods specified by MIL-M-38510/605. All devices are 100% functionally tested. Since many internal timing parameters cannot be measured directly, they are derived from benchmark timing patterns. The following guidelines reflect worst-case values over the recommended operating conditions. For more detailed, more precise, and more up-to-date timing information, use the values provided by the XACT timing calculator and used in the simulator. Speed Grade Description Combinatorial Delay Logic Variables A, B, C, D, E, to outputs X or Y FG Mode F and FGM Mode Sequential delay Clock k to outputs X or Y Clock k to outputs X or Y when Q is returned through function generators F or G to drive X or Y FG Mode F and FGM Mode Set-up time before clock K Logic Variables A, B, C, D, E FG Mode F and FGM Mode Data In DI Enable Clock EC Hold Time after clock K Logic Variables Data In Enable Clock Symbol -7 Min Max -6 Min Max Units 1 TILO 5.1 5.6 4.1 4.6 ns ns 8 TCKO 4.5 4.0 ns TQLO 9.5 10.0 8.0 8.5 ns ns 2 4 6 TICK TDICK TECCK 4.5 5.0 4.0 4.5 3.5 4.0 3.0 4.0 ns ns ns ns A, B, C, D, E DI EC 3 5 7 TCKI TCKDI TCKEC 0 1.0 2.0 0 1.0 2.0 ns ns ns Clock Clock High time Clock Low time Max. flip-flop toggle rate Reset Direct (RD) RD width delay from RD to outputs X or Y Global Reset (RESET Pad)* RESET width (Low) delay from RESET pad to outputs X or Y 11 12 TCH TCL FCLK 4.0 4.0 113.0 3.5 3.5 135.0 ns ns MHz 13 9 TRPW TRIO 6.0 6.0 5.0 5.0 ns ns TMRW TMRQ 16.0 19.0 14.0 17.0 ns ns *Timing is based on the XC3042A, for other devices see XACT timing calculator. Notes: The CLB K to Q output delay (TCKO, #8) of any CLB, plus the shortest possible interconnect delay, is always longer than the Data In hold time requirement (TCKDI, #5) of any CLB on the same die. 2-165 XC3000A Logic Cell Array Family IOB Switching Characteristic Guidelines I/O Block (I) 3 I/O Pad Input 1 I/O Clock (IK/OK) 12 TIOL I/O Block (RI) 4 RESET 5 I/O Block (O) 10 TOP I/O Pad Output (Direct) 7 I/O Pad Output (Registered) TOKPO TOOK 6 TOKO 15 TRPO TIKRI 13 TRRI 11 TIOH T PICK T PID I/O Pad TS 8 I/O Pad Output X5425 TTSON 9 T TSHZ Vcc PROGRAM-CONTROLLED MEMORY CELLS OUT INVERT 3-STATE INVERT OUTPUT SELECT SLEW RATE PASSIVE PULL UP 3- STATE (OUTPUT ENABLE) T OUT O D Q FLIP FLOP OUTPUT BUFFER I/O PAD R DIRECT IN REGISTERED IN I Q QD FLIP FLOP or LATCH R OK IK (GLOBAL RESET) TTL or CMOS INPUT THRESHOLD CK1 CK2 PROGRAM CONTROLLED MULTIPLEXER = PROGRAMMABLE INTERCONNECTION POINT or PIP X3029 2-166 IOB Switching Characteristic Guidelines (continued) Testing of the switching parameters is modeled after testing methods specified by MIL-M-38510/605. All devices are 100% functionally tested. Since many internal timing parameters cannot be measured directly, they are derived from benchmark timing patterns. The following guidelines reflect worst-case values over the recommended operating conditions. For more detailed, more precise, and more up-to-date timing information, use the values provided by the XACT timing calculator and used in the simulator. Speed Grade Description Propagation Delays (Input) Pad to Direct In (I) Pad to Registered In (Q) with latch transparent Clock (IK) to Registered In (Q) Set-up Time (Input) Pad to Clock (IK) set-up time Propagation Delays (Output) Clock (OK) to Pad (fast) same (slew rate limited) Output (O) to Pad (fast) same (slew-rate limited) 3-state to Pad begin hi-Z (fast) same (slew-rate limited) 3-state to Pad active and valid (fast) same (slew -rate limited) Set-up and Hold Times (Output) Output (O) to clock (OK) set-up time Output (O) to clock (OK) hold time Clock Clock High time Clock Low time Max. flip-flop toggle rate Global Reset Delays (based on XC3042A) RESET Pad to Registered In (Q) RESET Pad to output pad (fast) (slew-rate limited) Symbol Min -7 Max -6 Min Max Units 3 4 TPID TPTG TIKRI 4.0 15.0 3.0 3.0 14.0 2.5 ns ns ns 1 TPICK 14.0 12.0 ns 7 7 10 10 9 9 8 8 TOKPO TOKPO TOPF TOPS TTSHZ TTSHZ TTSON TTSON 8.0 18.0 6.0 16.0 10.0 20.0 11.0 21.0 7.0 15.0 5.0 13.0 9.0 12.0 10.0 18.0 ns ns ns ns ns ns ns ns 5 6 TOOK TOKO 8.0 0 7.0 0 ns ns 11 12 TIOH TIOL FCLK 4.0 4.0 113.0 3.5 3.5 135.0 ns ns MHz 13 15 15 TRRI TRPO TRPO 24.0 33.0 43.0 23.0 29.0 37.0 ns ns ns Notes: 1. Timing is measured at pin threshold, with 50 pF external capacitive loads (incl. test fixture). For larger capacitive loads, see page XAPP024. Typical slew rate limited output rise/fall times are approximately four times longer. 2. Voltage levels of unused (bonded and unbonded) pads must be valid logic levels. Each can be configured with the internal pull-up resistor or alternatively configured as a driven output or driven from an external source. 3. Input pad set-up time is specified with respect to the internal clock (IK). In order to calculate system set-up time, subtract clock delay (pad to IK) from the input pad set-up time value. Input pad holdtime with respect to the internal clock (IK) is negative. This means that pad level changes immediately before the internal clock edge (IK) will not be recognized. 4. TPID, TPTG, and TPICK are 3 ns higher for XTL2 when the pin is configured as a user input. 2-167 XC3000A Logic Cell Array Family For a detailed description of the device architecture, see pages 2-105 through 2-123. For a detailed description of the configuration modes and their timing, see pages 2-124 through 2-132. For detailed lists of package pin-outs, see pages 2-140 through 2-150. For package physical dimensions and thermal data, see Section 4. Ordering Information Example: Device Type XC3020A-6PC84C Temperature Range Block Delay Number of Pins Package Type Component Availability PINS TYPE 44 PLAST. PLCC 64 PLAST. VQFP 68 PLAST. PLCC 84 PLAST. PLCC CERAM PLAST. PGA PQFP 100 PLAST. TQFP 132 144 160 164 175 176 208 223 TOPPLAST. BRAZED PLAST. CERAM. PLAST. VQFP CQFP PGA PGA TQFP TOPPLAST. BRAZED PLAST. CERAM. PLAST. PQFP CQFP PGA PGA TQFP PLAST. CERAM. PQFP PGA CODE PC44 -7 -6 -7 -6 -7 -6 -7 -6 -7 -6 VQ64 PC68 CI C PC84 CI C CI C CI C CI C CI C PG84 CI C CI C CI C PQ100 TQ100 VQ100 CB100 PP132 PG132 TQ144 PQ160 CB164 PP175 PG175 TQ176 PQ208 PG223 CI C CI C CI C CI C CI C CI C CI C CI C CI C CI C CI C CI C CI C CI C CI C CI C CI C XC3020A XC3030A XC3042A XC3064A XC3090A CI C CI C CI C C = Commercial = 0 to +70 C C = Commercial = 0 to +85 C = Industrial +85 C II = Industrial = -40 to +100 C M = MilMil Temp-55 to +125 C C M = Temp = = -55 to +125 B =B = MIL-STD-883C Class B MIL-STD-883C Class B 2-168 |
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