(R) ispLSI 2064E In-System Programmable SuperFASTTM High Density PLD Features Functional Block Diagram * SuperFAST HIGH DENSITY IN-SYSTEM PROGRAMMABLE LOGIC -- 2000 PLD Gates -- 64 I/O Pins, Four Dedicated Inputs -- 64 Registers -- High Speed Global Interconnect -- Wide Input Gating for Fast Counters, State Machines, Address Decoders, etc. -- Small Logic Block Size for Random Logic -- 100% Functionally and JEDEC Upward Compatible with ispLSI 2064 Devices Input Bus Output Routing Pool (ORP) Input Bus Output Routing Pool (ORP) A1 A2 Logic Array B3 B2 D Q GLB B4 D Q B1 D Q D Q Input Bus Global Routing Pool (GRP) A0 * HIGH PERFORMANCE E2CMOS(R) TECHNOLOGY -- fmax = 200 MHz Maximum Operating Frequency -- tpd = 4.5 ns Propagation Delay -- TTL Compatible Inputs and Outputs -- 5V Programmable Logic Core -- ispJTAGTM In-System Programmable via IEEE 1149.1 (JTAG) Test Access Port -- User-Selectable 3.3V or 5V I/O Supports Mixed Voltage Systems -- PCI Compatible Outputs -- Open-Drain Output Option -- Electrically Erasable and Reprogrammable -- Non-Volatile -- Unused Product Term Shutdown Saves Power B5 Output Routing Pool (ORP) B6 B7 B0 A3 A5 A4 A6 A7 Output Routing Pool (ORP) Input Bus 0139/2064E Description The ispLSI 2064E is a High Density Programmable Logic Device. The device contains 64 Registers, 64 Universal I/O pins, four Dedicated Input Pins, three Dedicated Clock Input Pins, two dedicated Global OE input pins and a Global Routing Pool (GRP). The GRP provides complete interconnectivity between all of these elements. The ispLSI 2064E features 5V in-system programmability and in-system diagnostic capabilities. The ispLSI 2064E offers non-volatile reprogrammability of the logic, as well as the interconnect to provide truly reconfigurable systems. * ispLSI OFFERS THE FOLLOWING ADDED FEATURES -- Increased Manufacturing Yields, Reduced Time-toMarket and Improved Product Quality -- Reprogram Soldered Devices 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 The basic unit of logic on the ispLSI 2064E device is the Generic Logic Block (GLB). The GLBs are labeled A0, A1 .. B7 (see Figure 1). There are a total of 16 GLBs in the ispLSI 2064E device. Each GLB is made up of four macrocells. 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 dedicated inputs. All of the GLB outputs are brought back into the GRP so that they can be connected to the inputs of any GLB on the device. Copyright (c) 2002 Lattice Semiconductor Corp. All brand or product names are trademarks or registered trademarks of their respective holders. The specifications and information herein are subject to change without notice. LATTICE SEMICONDUCTOR CORP., 5555 Northeast Moore Ct., Hillsboro, Oregon 97124, U.S.A. Tel. (503) 268-8000; 1-800-LATTICE; FAX (503) 268-8556; http://www.latticesemi.com 2064e_06 1 January 2002 Specifications ispLSI 2064E Functional Block Diagram I/O 51 I/O 50 I/O 49 I/O 48 I/O 55 I/O 54 I/O 53 I/O 52 I/O 56 I/O 58 I/O 57 I/O 59 I/O 63 I/O 62 I/O 61 I/O 60 GOE 1 Generic Logic Blocks (GLBs) Input Bus Output Routing Pool (ORP) Megablock B7 A2 B1 Input Bus B2 B0 A3 A4 A5 A6 The device also has 64 I/O cells, each of which is directly connected to an I/O pin. Each I/O cell can be individually programmed to be a combinatorial input, output or bidirectional I/O pin with 3-state control. The signal levels are TTL compatible voltages and the output drivers can source 4 mA or sink 8 mA. Each output can be programmed independently for fast or slow output slew rate to minimize overall output switching noise. By connecting the VCCIO pins to a common 5V or 3.3V power supply, I/O output levels can be matched to 5V or 3.3V compatible voltages. When connected to a 5V supply, the I/O pins provide PCI-compatible output drive. I/O 28 I/O 29 I/O 30 I/O 31 I/O 24 I/O 25 I/O 26 I/O 27 I/O 20 I/O 21 I/O 22 I/O 23 Input Bus I/O 18 I/O 19 Output Routing Pool (ORP) I/O 16 I/O 17 RESET I/O 39 I/O 38 I/O 37 I/O 36 I/O 35 I/O 34 I/O 33 I/O 32 TCK/IN 3 A7 BSCAN I/O 43 I/O 42 I/O 41 I/O 40 TDO/IN 2 CLK 0 CLK 1 CLK 2 TDI/IN 0 TMS/IN 1 Global Routing Pool (GRP) A1 I/O 46 I/O 45 I/O 44 Y0 Y1 Y2 I/O 12 I/O 13 I/O 14 I/O 15 Output Routing Pool (ORP) I/O 9 I/O 10 I/O 11 B4 B3 A0 Input Bus I/O 8 B5 I/O 47 I/O 0 I/O 1 I/O 2 I/O 3 I/O 4 I/O 5 I/O 6 I/O 7 B6 Output Routing Pool (ORP) GOE 0 Figure 1. ispLSI 2064E Functional Block Diagram 0139B(1)isp/2064E GLBs. Delays through the GRP have been equalized to minimize timing skew. Clocks in the ispLSI 2064E device are selected using the dedicated clock pins. Three dedicated clock pins (Y0, Y1, Y2) or an asynchronous clock can be selected on a GLB basis. The asynchronous or Product Term clock can be generated in any GLB for its own clock. Programmable Open-Drain Outputs In addition to the standard output configuration, the outputs of the ispLSI 2064E are individually programmable, either as a standard totem-pole output or an open-drain output. The totem-pole output drives the specified Voh and Vol levels, whereas the open-drain output drives only the specified Vol. The Voh level on the open-drain output depends on the external loading and pull-up. This output configuration is controlled by a programmable fuse. The default configuration when the device is in bulk erased state is totem-pole configuration. The open-drain/totem-pole option is selectable through the Lattice software tools. Eight GLBs, 32 I/O cells, two dedicated inputs and two ORPs are connected together to make a Megablock (see Figure 1). The outputs of the eight GLBs are connected to a set of 32 universal I/O cells by two ORPs. Each ispLSI 2064E device contains two Megablocks. The GRP has as its inputs, the outputs from all of the GLBs and all of the inputs from the bi-directional I/O cells. All of these signals are made available to the inputs of the 2 Specifications ispLSI 2064E Absolute Maximum Ratings 1 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 150C Case Temp. with Power Applied .................... -55 to 125C Max. Junction Temp. (TJ) with Power Applied ............ 150C 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). DC Recommended Operating Condition VCC MIN. PARAMETER SYMBOL MAX. UNITS 4.75 5.25 V 5V 4.75 5.25 V 3.3V 3.0 3.6 V V Supply Voltage: Logic Core, Input Buffers TA = 0C to +70C VCCIO Supply Voltage: Output Drivers VIL VIH Input Low Voltage 0 0.8 Input High Voltage 2.0 Vcc+1 V Table 2-0005/2096E Capacitance (TA=25C, f=1.0 MHz) TYPICAL UNITS Dedicated Input Capacitance 8 pf VCC = 5.0V, VIN = 2.0V I/O Capacitance 8 pf VCC = 5.0V, VI/O = 2.0V Clock Capacitance 10 pf VCC = 5.0V, VY = 2.0V SYMBOL C1 C2 C3 PARAMETER TEST CONDITIONS Table 2-0006/2064e Erase/Reprogram Specification PARAMETER Erase/Reprogram Cycles MINIMUM 10,000 MAXIMUM - UNITS Cycles Table 2-0008/2064e 3 Specifications ispLSI 2064E Switching Test Conditions Input Pulse Levels Figure 2. Test Load GND to 3.0V + 5V 1.5 ns Input Rise and Fall Time 10% to 90% Input Timing Reference Levels 1.5V Output Timing Reference Levels 1.5V Output Load R1 Device Output See Figure 2 Table 2-0003/2064E 3-state levels are measured 0.5V from steady-state active level. Test Point CL* R2 Output Load Conditions (see Figure 2) TEST CONDITION R1 R2 CL 470 390 35pF Active High 390 35pF Active Low 470 390 35pF Active High to Z at VOH -0.5V 390 5pF Active Low to Z at VOL +0.5V 470 390 5pF A B C *CL includes Test Fixture and Probe Capacitance. Table 2-0004/2064 DC Electrical Characteristics Over Recommended Operating Conditions SYMBOL PARAMETER CONDITION MIN. TYP.3 MAX. UNITS VOL VOH IIL Output Low Voltage IOL = 8 mA - - Output High Voltage IOH = -4 mA 2.4 - - V Input or I/O Low Leakage Current 0V VIN VIL (Max.) - - -10 A IIH Input or I/O High Leakage Current (VCCIO - 0.2)V VIN VCCIO - - 10 A VCCIO VIN 5.25V - - 10 A IIL-PU IOS1 I/O Active Pull-Up Current 0V VIN 2.0V -10 - -250 A Output Short Circuit Current VCCIO = 5.0V or 3.3V, VOUT = 0.5V - - -240 mA ICC2,4,5 Operating Power Supply Current VIL = 0.0V, VIH = 3.0V fTOGGLE = 1 MHz - 100 - mA 0.4 V Table 2-0007/2064E 1. One output at a time for a maximum duration of one second. VOUT = 0.5V was selected to avoid test problems by tester ground degradation. Characterized but not 100% tested. 2. Measured using four 16-bit counters. 3. Typical values are at VCC = 5V and TA = 25C. 4. Unused inputs held at 0.0V. 5. Maximum ICC varies widely with specific device configuration and operating frequency. Refer to the Power Consumption section of this data sheet and the Thermal Management section of the Lattice Semiconductor Data Book or CD-ROM to estimate maximum ICC. 4 Specifications ispLSI 2064E External Timing Parameters Over Recommended Operating Conditions PARAMETER tpd1 tpd2 fmax fmax (Ext.) fmax (Tog.) tsu1 tco1 th1 tsu2 tco2 th2 tr1 trw1 tptoeen tptoedis tgoeen tgoedis twh twl 1. 2. 3. 4. TEST 2 4 # COND. -135 -200 DESCRIPTION1 -100 MIN. MAX. MIN. MAX. MIN. MAX. A 1 Data Prop Delay, 4PT Bypass, ORP Bypass - 4.5 - 7.5 A 2 Data Prop Delay - 7.0 - 10.0 A 3 Clk Freq with Internal Feedback3 200 - 135 - 133 - 100 - - 143 1 tsu2 + tco1 - 4 Clk Freq with External Feedback ( ) - 5 Clk Frequency, Max. Toggle 200 UNITS 10.0 ns - 13.0 ns 100 - MHz 77 - MHz - 100 - MHz - - 6 GLB Reg Setup Time before Clk, 4 PT Bypass 3.5 - 5.0 - 6.5 - ns A 7 GLB Reg Clk to Output Delay, ORP Bypass - 3.0 - 4.0 - 5.0 ns - 8 GLB Reg Hold Time after Clk, 4 PT Bypass 0.0 - 0.0 - 0.0 - ns - 9 GLB Reg Setup Time before Clk 4.5 - 6.0 - 8.0 - ns - 10 GLB Reg Clk to Output Delay - 3.5 - 4.5 - 6.0 ns - 11 GLB Reg Hold Time after Clk 0.0 - 0.0 - 0.0 - ns A 12 External Reset Pin to Output Delay - 6.0 - 10.0 - 13.5 ns 6.5 - ns - 13 External Reset Pulse Duration 3.5 - 5.0 - B 14 Input to Output Enable - 8.0 - 12.0 - 15.0 ns C 15 Input to Output Disable - 8.0 - 12.0 - 15.0 ns B 16 Global OE Output Enable - 4.0 - 7.0 - 9.0 ns C 17 Global OE Output Disable - 4.0 - 7.0 - 9.0 ns - 18 External Synch Clk Pulse Duration, High 2.5 - 3.5 - 5.0 - ns - 19 External Synch Clk Pulse Duration, Low 2.5 - 3.5 - 5.0 - ns Unless noted otherwise, all parameters use a GRP load of four GLBs, 20 PTXOR path, ORP and Y0 clock. Refer to Timing Model in this data sheet for further details. Standard 16-bit counter using GRP feedback. Reference Switching Test Conditions section. 5 Table 2-0030A/2064E Specifications ispLSI 2064E Internal Timing Parameters1 Over Recommended Operating Conditions PARAMETER 2 # -200 DESCRIPTION -100 -135 MIN. MAX. MIN. MAX. MIN. MAX. UNITS Inputs tio tdin 20 Input Buffer Delay - 0.5 - 0.5 - 0.5 ns 21 Dedicated Input Delay - 1.1 - 1.7 - 2.2 ns 22 GRP Delay - 0.6 - 1.2 - 1.7 ns 23 4 Product Term Bypass Path Delay (Combinatorial) - 1.4 - 3.7 - 5.8 ns 24 4 Product Term Bypass Path Delay (Registered) - 1.9 - 4.2 - 5.8 ns 25 1 Product Term/XOR Path Delay - 2.9 - 5.2 - 6.8 ns 26 20 Product Term/XOR Path Delay - 2.9 - 5.2 - 7.3 ns 27 XOR Adjacent Path Delay 3 - 2.9 - 5.2 - 8.0 ns 28 GLB Register Bypass Delay - 0.5 - 0.5 - 0.5 ns 1.2 - 0.7 - 1.2 - ns - ns GRP tgrp GLB t4ptbpc t4ptbpr t1ptxor t20ptxor txoradj tgbp tgsu tgh tgco tgro tptre tptoe tptck 29 GLB Register Setup Time before Clock 30 GLB Register Hold Time after Clock 2.3 - 4.3 - 4.0 31 GLB Register Clock to Output Delay - 0.3 - 0.3 - 0.3 ns 32 GLB Register Reset to Output Delay - 0.6 - 1.1 - 1.3 ns 33 GLB Product Term Reset to Register Delay - 4.3 - 6.0 - 6.1 ns 34 GLB Product Term Output Enable to I/O Cell Delay 35 GLB Product Term Clock Delay - 4.9 - 6.9 - 8.6 ns 1.0 4.0 2.5 5.5 4.1 7.1 ns - 0.9 - 1.0 - 1.4 ns 0.4 ns ORP torp torpbp 36 ORP Delay 37 ORP Bypass Delay - 0.4 - 0.5 - 38 Output Buffer Delay - 1.6 - 1.6 - 1.6 ns 39 Output Slew Limited Delay Adder - 1.5 - 1.5 - 1.0 ns Outputs tob tsl toen todis tgoe 40 I/O Cell OE to Output Enabled - 2.0 - 3.4 - 4.2 ns 41 I/O Cell OE to Output Disabled - 2.0 - 3.4 - 4.2 ns 42 Global Output Enable - 2.0 - 3.6 - 4.8 ns 43 Clock Delay, Y0 to Global GLB Clock Line (Ref. clock) 0.7 0.7 1.6 1.6 2.7 2.7 ns 44 Clock Delay, Y1 or Y2 to Global GLB Clock Line 0.9 0.9 1.8 1.8 2.7 2.7 ns - 3.4 - 6.3 - 9.2 ns Clocks tgy0 tgy1/2 Global Reset tgr 45 Global Reset to GLB 1. Internal Timing Parameters are not tested and are for reference only. 2. Refer to Timing Model in this data sheet for further details. 3. The XOR adjacent path can only be used by hard macros. 6 Table 2-0036A/2064E Specifications ispLSI 2064E ispLSI 2064E Timing Model I/O Cell GRP GLB ORP I/O Cell Feedback Ded. In I/O Pin (Input) Comb 4 PT Bypass #23 #21 I/O Delay GRP Reg 4 PT Bypass GLB Reg Bypass ORP Bypass #20 #22 #24 #28 #37 20 PT XOR Delays GLB Reg Delay ORP Delay #25, 26, 27 D Q #38, 39 #36 RST #45 Reset #29, 30, 31, 32 Control RE PTs OE #33, 34, CK 35 #40, 41 #43, 44 Y0,1,2 #42 GOE 0,1 0491/2064 Derivations of tsu, th and tco from the Product Term Clock tsu = = = 3.1ns = Logic + Reg su - Clock (min) (tio + tgrp + t20ptxor) + (tgsu) - (tio + tgrp + tptck(min)) (#20 + #22 + #26) + (#29) - (#20 + #22 + #35) (0.5 + 0.6 + 2.9) + (1.2) - (0.5 + 0.6 + 1.0) th = = = 3.4ns = Clock (max) + Reg h - Logic (tio + tgrp + tptck(max)) + (tgh) - (tio + tgrp + t20ptxor) (#20 + #22 + #35) + (#30) - (#20 + #22 + #26) (0.5 + 0.6 + 4.0) + (2.3) - (0.5 + 0.6 + 2.9) tco = = = 7.9ns = Clock (max) + Reg co + Output (tio + tgrp + tptck(max)) + (tgco) + (torp + tob) (#20 + #22 + #35) + (#31) + (#36 + #38) (0.5 + 0.6 + 4.0) + (0.3) + (0.9 + 1.6) Table 2- 0042A-2064e Note: Calculations are based upon timing specifications for the ispLSI 2064E-200L. 7 I/O Pin (Output) Specifications ispLSI 2064E Power Consumption Figure 3 shows the relationship between power and operating speed. Power consumption in the ispLSI 2064E device depends on two primary factors: the speed at which the device is operating and the number of Product Terms used. Figure 3. Typical Device Power Consumption vs fmax 160 ispLSI 2064E 150 140 ICC (mA) 130 120 110 100 90 80 70 1 20 40 60 80 100 120 140 160 180 200 fmax (MHz) Notes: Configuration of Four 16-bit Counters Typical Current at 5V, 25 C ICC can be estimated for the ispLSI 2064E using the following equation: ICC(mA) = 7 + (# of PTs * 0.75) + (# of nets * Max freq * 0.004) Where: # of PTs = Number of Product Terms used in design # of nets = Number of Signals used in device Max freq = Highest Clock Frequency to the device (in MHz) The ICC estimate is based on typical conditions (VCC = 5.0V, room temperature) and an assumption of two GLB loads on average exists. These values are for estimates only. Since the value of ICC is sensitive to operating conditions and the program in the device, the actual ICC should be verified. 0127A/2064E 8 Specifications ispLSI 2064E Pin Description NAME I/O 0 - I/O 3 I/O 4 - I/O 7 I/O 8 - I/O 11 I/O 12 - I/O 15 I/O 16 - I/O 19 I/O 20 - I/O 23 I/O 24 - I/O 27 I/O 28 - I/O 31 I/O 32 - I/O 35 I/O 36 - I/O 39 I/O 40 - I/O 43 I/O 44 - I/O 47 I/O 48 - I/O 51 I/O 52 - I/O 55 I/O 56 - I/O 59 I/O 60 - I/O 63 GOE 0, GOE 1 DESCRIPTION TQFP PIN NUMBERS 17, 21, 29, 33, 40, 44, 48, 56, 67, 71, 79, 83, 90, 94, 98, 6, 66, 18, 22, 30, 34, 41, 45, 53, 57, 68, 72, 80, 84, 91, 95, 3, 7, 19, 23, 31, 35, 42, 46, 54, 58, 69, 73, 81, 85, 92, 96, 4, 8, 20, 28, 32, 36, 43, 47, 55, 59, 70, 78, 82, 86, 93, 97, 5, 9 87 65, Input/Output Pins - These are the general purpose I/O pins used by the logic array. Global Output Enable input pins. Dedicated Clock input. This clock input is connected to one of the clock inputs of all of the GLBs on the device. Active Low (0) Reset pin which resets all of the registers in the device. Y0, Y1, Y2 11, 62 RESET 15 BSCAN 14 TDI/IN 02 16 TMS/IN 12 37 Input - This pin performs two functions. When BSCAN is logic low, it functions as a pin to control the operation of the JTAG state machine. When BSCAN is high, it functions as a dedicated input pin. TDO/IN 22 39 Output/Input - This pin performs two functions. When BSCAN is logic low, it functions as an output pin to read serial shift register data. When BSCAN is high, it functions as a dedicated input pin. TCK/IN 32 60 Input - This pin performs two functions. When BSCAN is logic low, it functions as a clock pin for the Serial Shift Register. When BSCAN is high, it functions as a dedicated input pin. GND 2, 51, 13, 63, VCC 12, 64 VCCIO 1, 24, 52, 75 Supply voltage for output drivers, 5V or 3.3V. All VCCIO pins must be connected to the same voltage level. NC1 10, 50, 89, 26, 61, 99, 27, 76, 100 49, 77, No Connect. Input - Dedicated in-system programming enable input pin. This pin is brought low to enable the programming mode. The TMS, TDI, TDO and TCK options become active. Input - This pin performs two functions. When BSCAN is logic low, it functions as an input pin to load programming data into the device. TDI/IN0 also is used as one of the two control pins for the JTAG state machine. When BSCAN is high, it functions as a dedicated input pin. 25, 74, 38, 88 Ground (GND) VCC 1. NC pins are not to be connected to any active signals, VCC or GND. 2. Pins have dual function capability. 9 Table 2-0002-2064E.eps Specifications ispLSI 2064E Pin Configuration 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 ispLSI 2064E Top View 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51 VCCIO GND I/O 38 I/O 37 I/O 36 I/O 35 I/O 34 I/O 33 I/O 32 GOE 0 Y1 VCC GND Y2 NC1 TCK/IN 32 I/O 31 I/O 30 I/O 29 I/O 28 I/O 27 I/O 26 I/O 25 VCCIO GND I/O 7 I/O 8 I/O 9 I/O 10 I/O 11 I/O 12 I/O 13 I/O 14 I/O 15 2TMS/IN 1 GND 2TDO/IN 2 I/O 16 I/O 17 I/O 18 I/O 19 I/O 20 I/O 21 I/O 22 I/O 23 I/O 24 1NC 1NC 1NC 1NC 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 VCCIO GND I/O 57 I/O 58 I/O 59 I/O 60 I/O 61 I/O 62 I/O 63 1NC Y0 VCC GND BSCAN RESET 2TDI/IN 0 I/O 0 I/O 1 I/O 2 I/O 3 I/O 4 I/O 5 I/O 6 VCCIO GND 100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76 NC1 NC1 I/O 56 I/O 55 I/O 54 I/O 53 I/O 52 I/O 51 I/O 50 I/O 49 I/O 48 NC1 GND GOE 1 I/O 47 I/O 46 I/O 45 I/O 44 I/O 43 I/O 42 I/O 41 I/O 40 I/O 39 NC1 NC1 ispLSI 2064E 100-Pin TQFP Pinout Diagram 0766A-2064E 1. NC pins are not to be connected to any active signals, VCC or GND. 2. Pins have dual function capability. 10 Specifications ispLSI 2064E Part Number Description ispLSI 2064E - XXX X XXXX X Device Family Grade Blank = Commercial Device Number Package T100 = TQFP Speed 200 = 200 MHz fmax 135 = 135 MHz fmax 100 = 100 MHz fmax Power L = Low 0212/2064E ispLSI 2064E Ordering Information COMMERCIAL FAMILY ispLSI fmax (MHz) tpd (ns) ORDERING NUMBER PACKAGE 200 4.5 ispLSI 2064E-200LT100 100-Pin TQFP 135 7.5 ispLSI 2064E-135LT100 100-Pin TQFP 100 10 ispLSI 2064E-100LT100 100-Pin TQFP Table 2-0041A/2064E 11