USE ULTRA37000TM FOR ALL NEW DESIGNS CY7C344B 32-Macrocell MAX(R) EPLD Features densest EPLD of this size. Eight dedicated inputs and 16 bidirectional I/O pins communicate to one logic array block. In the CY7C344B LAB there are 32 macrocells and 64 expander product terms. When an I/O macrocell is used as an input, two expanders are used to create an input path. Even if all of the I/O pins are driven by macrocell registers, there are still 16 "buried" registers available. All inputs, macrocells, and I/O pins are interconnected within the LAB. * High-performance, high-density replacement for TTL, 74HC, and custom logic * 32 macrocells, 64 expander product terms in one LAB * 8 dedicated inputs, 16 I/O pins * Advanced 0.65-micron CMOS EPROM technology to increase performance The speed and density of the CY7C344B makes it a natural for all types of applications. With just this one device, the designer can implement complex state machines, registered logic, and combinatorial "glue" logic, without using multiple chips. This architectural flexibility allows the CY7C344B to replace multichip TTL solutions, whether they are synchronous, asynchronous, combinatorial, or all three. * 28-pin, 300-mil DIP, cerDIP or 28-pin HLCC, PLCC package Functional Description Available in a 28-pin, 300-mil DIP or windowed J-leaded ceramic chip carrier (HLCC), the CY7C344B represents the Logic Block Diagram [1] Pin Configurations HLCC Top View INPUT 15(23) INPUT INPUT/CLK 2(9) 27(6) INPUT INPUT 13(20) 28(7) INPUT INPUT 14(21) MACROCELL 4 MACROCELL 6 MACROCELL 8 MACROCELL 10 MACROCELL 12 MACROCELL 14 MACROCELL 16 MACROCELL 18 MACROCELL 20 MACROCELL 22 I/O I/O I/O VCC GND I/O I/O 4 3 2 1 28 27 26 MACROCELL 1 G L O B A L I/O 3(10) I/O 4(11) MACROCELL 5 I I/O 5(12) MACROCELL 7 O I/O 6(13) MACROCELL 3 I/O 9(16) C O I/O 10(17) I/O 11(18) N T I/O 12(19) I/O 17(24) R I/O 18(25) O L I/O 19(26) I/O 20(27) MACROCELL 9 MACROCELL 11 MACROCELL 13 MACROCELL 15 B MACROCELL 17 U S MACROCELL 19 MACROCELL 21 MACROCELL 24 MACROCELL 23 MACROCELL 26 MACROCELL 25 I/O 23(2) MACROCELL 28 MACROCELL 27 I/O 24(3) MACROCELL 30 MACROCELL 29 I/O 25(4) MACROCELL 32 MACROCELL 31 I/O 26(5) 32 64 EXPANDER PRODUCT TERM ARRAY I/O INPUT INPUT INPUT INPUT/CLK I/O I/O 5 6 7 8 9 10 11 12 13 14 1516 1718 I/O I/O MACROCELL 2 1(8) 25 24 23 22 21 20 19 I/O I/O INPUT INPUT INPUT INPUT I/O I/O INPUT VCC GND I/O I/O 15(22) CerDIP Top View INPUT INPUT/CLK I/O I/O I/O I/O VCC GND I/O I/O I/O I/O INPUT INPUT 1 2 3 4 5 6 7 8 9 10 11 12 13 14 28 27 26 25 24 23 22 21 20 19 18 17 16 15 INPUT INPUT I/O I/O I/O I/O VCC GND I/O I/O I/O I/O INPUT INPUT Selection Guide 7C344B-15 7C344B-20 7C344B-25 Unit 15 20 25 ns Maximum Access Time Note: 1. Number in () refers to J-leaded packages. Cypress Semiconductor Corporation Document #: 38-03036 Rev. *D * 3901 North First Street * San Jose, CA 95134 * 408-943-2600 Revised June 6, 2005 [+] Feedback USE ULTRA37000TM FOR ALL NEW DESIGNS CY7C344B DC Output Current, per Pin[2] ...................-25 mA to +25 mA Maximum Ratings DC Input Voltage[2] .........................................-2.0V to +7.0V (Above which the useful life may be impaired. For user guidelines, not tested.) Operating Range[3] Storage Temperature ................................. -65C to +135C Ambient Temperature with Power Applied..............................................-65C to +135C Ambient Temperature Range Maximum Junction Temperature (Under Bias)............. 150C Supply Voltage to Ground Potential[2] ............ -2.0V to +7.0V VCC Commercial -0C to +70C 5V 5% Industrial -40C to +85C 5V 10% Electrical Characteristics Over the Operating Range Parameter Description VCC Test Conditions Supply Voltage VOH Maximum VCC rise time is 10 ms Output HIGH Voltage IOH = -4.0 mA IOL = 8 mA Min. Max. Unit 4.75(4.5) 5.25(5.5) V DC[4] 2.4 V DC[4] VOL Output LOW Voltage 0.45 V VIH Input HIGH Level VIL Input LOW Level 2.0 VCC+0.3 V -0.3 0.8 V IIX Input Current GND VIN VCC -10 +10 A IOZ Output Leakage Current VO = VCC or GND -40 +40 A tR tF Recommended Input Rise Time 100 ns Recommended Input Fall Time 100 ns Capacitance Parameter Description Test Conditions Max. Unit CIN Input Capacitance VIN = 0V, f = 1.0 MHz 10 pF COUT Output Capacitance VOUT = 0V, f = 1.0 MHz 12 pF AC Test Loads and Waveforms R1 464 5V R1 464 5V OUTPUT ALL INPUT PULSES OUTPUT R2 250 50 pF INCLUDING JIGAND SCOPE Equivalent to: (a) 3.0V R2 250 5 pF GND 6 ns 90% 10% 90% 10% tR tf tF 6 ns (b) THEVENIN EQUIVALENT (commercial) 163 OUTPUT 1.75V Notes: 2. Minimum DC input is -0.3V. During transactions, the inputs may undershoot to -2.0V or overshoot to 7.0V for input currents less then 100 mA and periods shorter than 20 ns. 3. The Voltage on any input or I/O pin cannot exceed the power pin during power-up. 4. The IOH parameter refers to high-level TTL output current; the IOL parameter refers to low-level TTL output current. Document #: 38-03036 Rev. *D Page 2 of 12 [+] Feedback USE ULTRA37000TM FOR ALL NEW DESIGNS Operation of the devices described herein with conditions above those listed under "Absolute Maximum Ratings" may cause permanent damage to the device. This is a stress rating only and functional operation of the device at these or any other conditions above those indicated in the operational sections of this data sheet is not implied. Exposure to absolute maximum ratings conditions for extended periods of time may affect device reliability. The CY7C344B contains circuitry to protect device pins from high-static voltages or electric fields; however, normal precautions should be taken to avoid applying any voltage higher than maximum rated voltages. For proper operation, input and output pins must be constrained to the range GND (VIN or VOUT) VCC. Unused inputs must always be tied to an appropriate logic level (either VCC or GND). Each set of VCC and GND pins must be connected together directly at the device. Power supply decoupling capacitors of at least 0.2 F must be connected between VCC and GND. For the most effective decoupling, each VCC pin should be separately decoupled. are guaranteed to function properly with a common synchronous clock under worst-case environmental and supply voltage conditions. Typical ICC vs. fMAX 240 ICC ACTIVE (mA) Typ. Design Recommendations When calculating external asynchronous frequencies, use tAS1 if all inputs are on dedicated input pins. When expander logic is used in the data path, add the appropriate maximum expander delay, tEXP to tAS1. Determine which of 1/(tAWH + tAWL), 1/tACO1, or 1/(tEXP + tAS1) is the lowest frequency. The lowest of these frequencies is the maximum data-path frequency for the asynchronous configuration. The parameter tOH indicates the system compatibility of this device when driving other synchronous logic with positive input hold times, which is controlled by the same synchronous clock. If tOH is greater than the minimum required input hold time of the subsequent synchronous logic, then the devices Document #: 38-03036 Rev. *D VCC =5.0V Room Temp. 120 60 1 kHz 10 kHz 100 kHz 1 MHz 10 MHz 50 MHz MAXIMUM FREQUENCY Output Drive Current IO OUTPUT CURRENT (mA) TYPICAL When calculating synchronous frequencies, use tSU if all inputs are on the input pins. When expander logic is used in the data path, add the appropriate maximum expander delay, tEXP to tSU. Determine which of 1/(tWH + tWL), 1/tCO1, or 1/(tEXP + tSU) is the lowest frequency. The lowest of these frequencies is the maximum data-path frequency for the synchronous configuration. 180 0 100 Hz Timing Considerations Unless otherwise stated, propagation delays do not include expanders. When using expanders, add the maximum expander delay tEXP to the overall delay. CY7C344B 250 IOL 200 VCC =5.0V Room Temp. 150 100 IOH 50 0 1 2 3 4 5 VO OUTPUT VOLTAGE (V) Page 3 of 12 [+] Feedback USE ULTRA37000TM FOR ALL NEW DESIGNS EXPANDER DELAY t EXP CY7C344B REGISTER LOGIC ARRAY CONTROLDELAY tCLR tLAC tPRE INPUT INPUT DELAY tIN LOGIC ARRAY tRSU DELAY tRH tLAD OUTPUT DELAY OUTPUT tOD tXZ tZX tRD tCOMB tLATCH SYSTEM CLOCK DELAYtICS I/O CLOCK DELAY tIC I/O I/O DELAY tIO FEEDBACK DELAY tFD Figure 1. CY7C344B Timing Model External Synchronous Switching Characteristics Over Operating Range 7C344B-15 Parameter tPD1 Description Min. Dedicated Input to Combinatorial Output Delay[5] Com'l/Ind tPD2 I/O Input to Combinatorial Output tSU Global Clock Set-up Time Delay[5] Com'l/Ind Com'l/Ind Delay[5] Max. Min. Max. 7C344B-25 Max. Unit 15 20 25 ns 15 20 25 ns 9 12 15 Synchronous Clock Input to Output Input Hold Time from Synchronous Clock Input Com'l/Ind 0 0 0 ns tWH Synchronous Clock Input HIGH Time Com'l/Ind 6 7 8 ns tWL Synchronous Clock Input LOW Time Com'l/Ind 6 7 8 ns Com'l/Ind 83.3 Maximum Register Toggle tCNT Minimum Global Clock Period tODH Output Data Hold Time After Clock fCNT Maximum Internal Global Clock Com'l/Ind Frequency[7] 12 ns tH fMAX 10 Min. tCO1 Frequency[6] Com'l/Ind 7C344B-20 13 15 ns 71.4 62.5 MHz 16 20 ns Com'l/Ind 1 1 1 ns Com'l/Ind 76.9 62.5 50 MHz Notes: 5. C1 = 35 pF 6. The fMAX values represent the highest frequency for pipeline data. 7. This parameter is measured with a 32-bit counter programmed into each LAB. Document #: 38-03036 Rev. *D Page 4 of 12 [+] Feedback USE ULTRA37000TM FOR ALL NEW DESIGNS CY7C344B External Asynchronous Switching Characteristics Over Operating Range Parameter Description 7C344B-15 7C344B-20 7C344B-25 Min. Min. Min. Max. Max. Max. Unit 22 ns tACO1 [5] Asynchronous Clock Input to Output Delay Com'l/Ind tAS1 Dedicated Input or Feedback Set-Up Time to Asynchronous Clock Input Com'l/Ind 5 6 8 ns tAH Input Hold Time from Asynchronous Clock Input tAWH 18 Com'l/Ind 5 6 8 ns [8] Com'l/Ind 6 7 9 ns [8] 7 Asynchronous Clock Input HIGH Time tAWL Asynchronous Clock Input LOW Time Com'l/Ind tACNT Minimum Internal Array Clock Frequency Com'l/Ind fACNT 15 [7] Maximum Internal Array Clock Frequency Com'l/Ind 9 13 76.9 11 16 62.5 ns 20 50 ns MHz Typical Internal Switching Characteristics Over Operating Range 7C344B-15 Parameter Description Min. Max. 7C344B-20 Min. Max. 7C344B-25 Min. Max. Unit tIN Dedicated Input Pad and Buffer Delay Com'l/Ind 3 5 7 ns tIO I/O Input Pad and Buffer Delay Com'l/Ind 3 5 7 ns tEXP Expander Array Delay Com'l/Ind 8 10 15 ns tLAD Logic Array Data Delay Com'l/Ind 7 10 13 ns tLAC Logic Array Control Delay Com'l/Ind 4 4 4 ns tOD Output Buffer and Pad Delay[5] Com'l/Ind 4 4 4 ns Output Buffer Enable Delay[5] Com'l /Ind 7 7 7 ns tXZ Output Buffer Disable Delay[5] Com'l/Ind 7 7 7 ns tRSU Register Set-Up Time Relative to Clock Signal at Register Com'l/Ind 4 4 5 ns tRH Register Hold Time Relative to Clock Signal at Register Com'l/Ind 5 8 10 ns tLATCH Flow-Through Latch Delay Com'l/Ind 1 1 1 ns tRD Register Delay Com'l/Ind 1 1 1 ns tCOMB Transparent Mode Delay Com'l/Ind 1 1 1 ns tIC Asynchronous Clock Logic Delay Com'l/Ind 7 8 10 ns tICS Synchronous Clock Delay Com'l/Ind 2 2 3 ns tFD Feedback Delay Com'l/Ind 1 1 1 ns tPRE Asynchronous Register Preset Time Com'l/Ind 5 6 9 ns tCLR Asynchronous Register Clear Time Com'l/Ind 5 6 9 ns tZX Note: 8. This parameter is measured with a positive-edge-triggered clock at the register. For the negative-edge clocking, the tACH and tACL parameter must be swapped. Document #: 38-03036 Rev. *D Page 5 of 12 [+] Feedback USE ULTRA37000TM FOR ALL NEW DESIGNS CY7C344B Switching Waveforms External Combinatorial DEDICATED INPUT/ I/O INPUT tPD1/tPD2 COMBINATORIAL OUTPUT External Synchronous tWH tWL SYNCHRONOUS CLOCK PIN SYNCHRONOUS CLOCK AT REGISTER tH tSU DATA FROM LOGIC ARRAY tCO1 REGISTERED OUTPUTS External Asynchronous DEDICATED INPUTS OR REGISTERED FEEDBACK tAS1 tAH tAWH tAWL ASYNCHRONOUS CLOCK INPUT Internal Synchronous CLOCK FROM LOGIC ARRAY tRD tOD DATA FROM LOGIC ARRAY tXZ OUTPUT PIN Document #: 38-03036 Rev. *D tZX HIGH IMPEDANCE STATE Page 6 of 12 [+] Feedback USE ULTRA37000TM FOR ALL NEW DESIGNS CY7C344B Switching Waveforms (continued) Internal Combinatorial tIN INPUT PIN t IO I/O PIN tEXP EXPANDER ARRAY DELAY tLAC, tLAD LOGIC ARRAY INPUT LOGIC ARRAY OUTPUT tCOMB tOD OUTPUT PIN Internal Asynchronous tAWH tIOtR tAWL tF CLOCK PIN tIN CLOCK INTO LOGIC ARRAY CLOCK FROM LOGIC ARRAY tIC tRSU tRH DATA FROM LOGIC ARRAY tRD,tLATCH REGISTER OUTPUT TO LOCAL LAB LOGIC ARRAY tFD tCLR,tPRE tFD tPIA REGISTER OUTPUT TO ANOTHER LAB Document #: 38-03036 Rev. *D Page 7 of 12 [+] Feedback USE ULTRA37000TM FOR ALL NEW DESIGNS CY7C344B Switching Waveforms (continued) Internal Synchronous SYSTEM CLOCK PIN SYSTEM CLOCK AT REGISTER tIN tICS tRSU tRH DATA FROM LOGIC ARRAY Ordering Information Speed (ns) 15 20 25 Ordering Code CY7C344B-15HC/HI Package Name Package Type H64 28-Lead Windowed Leaded Chip Carrier CY7C344B-15JC/JI J64 28-Lead Plastic Leaded Chip Carrier CY7C344B-15PC/PI P21 28-Lead (300-Mil) Molded DIP CY7C344B-15WC/WI W22 28-Lead Windowed CerDIP CY7C344B-20HC/HI H64 28-Lead Windowed Leaded Chip Carrier CY7C344B-20JC/JI J64 28-Lead Plastic Leaded Chip Carrier CY7C344B-20PC/PI P21 28-Lead (300-Mil) Molded DIP CY7C344B-20WC/WI W22 28-Lead Windowed CerDIP CY7C344B-25HC/HI H64 28-Lead Windowed Leaded Chip Carrier CY7C344B-25JC/JI J64 28-Lead Plastic Leaded Chip Carrier CY7C344B-25PC/PI P21 28-Lead (300-Mil) Molded DIP Document #: 38-03036 Rev. *D Operating Range Commercial/Industrial Commercial/Industrial Commercial/Industrial Page 8 of 12 [+] Feedback USE ULTRA37000TM FOR ALL NEW DESIGNS CY7C344B Package Diagrams 28-Pin Windowed Leaded Chip Carrier H64 51-80077-** Document #: 38-03036 Rev. *D Page 9 of 12 [+] Feedback USE ULTRA37000TM FOR ALL NEW DESIGNS CY7C344B Package Diagrams (continued) 28-Lead Plastic Leaded Chip Carrier J64 51-85001-*A 28-Lead (300-Mil) PDIP P21 SEE LEAD END OPTION 14 1 DIMENSIONS IN INCHES [MM] MIN. MAX. REFERENCE JEDEC MO-095 0.260[6.60] 0.295[7.49] 15 28 PACKAGE WEIGHT: 2.15 gms 0.030[0.76] 0.080[2.03] SEATING PLANE 1.345[34.16] 1.385[35.18] 0.290[7.36] 0.325[8.25] 0.120[3.05] 0.140[3.55] 0.140[3.55] 0.190[4.82] 0.115[2.92] 0.160[4.06] 0.015[0.38] 0.060[1.52] 0.090[2.28] 0.110[2.79] 0.009[0.23] 0.012[0.30] 0.055[1.39] 0.065[1.65] 0.015[0.38] 0.020[0.50] LEAD END OPTION 3 MIN. 0.310[7.87] 0.385[9.78] SEE LEAD END OPTION 51-85014-*D (LEAD #1, 14, 15 & 28) Document #: 38-03036 Rev. *D Page 10 of 12 [+] Feedback USE ULTRA37000TM FOR ALL NEW DESIGNS CY7C344B Package Diagrams (continued) 28-Lead (300-Mil) Windowed CerDIP W22 MIL-STD-1835 D-15 Config. A 51-80087-** MAX is a registered trademark and Ultra37000 is a trademark of Cypress Semiconductor Corporation. All products and company names mentioned in this document may be the trademarks of their respective holders. Document #: 38-03036 Rev. *D Page 11 of 12 (c) Cypress Semiconductor Corporation, 2005. The information contained herein is subject to change without notice. Cypress Semiconductor Corporation assumes no responsibility for the use of any circuitry other than circuitry embodied in a Cypress product. Nor does it convey or imply any license under patent or other rights. Cypress products are not warranted nor intended to be used for medical, life support, life saving, critical control or safety applications, unless pursuant to an express written agreement with Cypress. Furthermore, Cypress does not authorize its products for use as critical components in life-support systems where a malfunction or failure may reasonably be expected to result in significant injury to the user. The inclusion of Cypress products in life-support systems application implies that the manufacturer assumes all risk of such use and in doing so indemnifies Cypress against all charges. [+] Feedback USE ULTRA37000TM FOR ALL NEW DESIGNS CY7C344B Document History Page Document Title: CY7C344 32-Macrocell MAX(R) EPLD Document Number: 38-03036 REV. ECN NO. Issue Date Orig. of Change Description of Change ** 106381 06/15/01 SZV Change from Spec #: 38-00860 to 38-03036 *A 122235 12/28/02 RBI Power-up requirements added to Operating Range Information *B 213375 See ECN FSG Added note to title page: "Use Ultra37000 For All New Designs" *C 238565 See ECN KKV Minor change: fixed error in part number in header *D 373715 See ECN PCX Corrected header information Document #: 38-03036 Rev. *D Page 12 of 12 [+] Feedback