CYD36S36V18-167BGXI Cypress Semiconductor Corp, CYD36S36V18-167BGXI Datasheet
CYD36S36V18-167BGXI
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CYD36S36V18-167BGXI Summary of contents
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... K × 72 (CYD18S72V18) ❐ 9-Mbit: 128 K × 72 (CYD09S72V18) ❐ 4-Mbit × 72 (CYD04S72V18) ❐ FullFlex36 family ■ 36-Mbit × 36 (CYD36S36V18) ❐ 18-Mbit: 512 K × 36 (CYD18S36V18) ❐ 9-Mbit: 256 K × 36 (CYD09S36V18) ❐ 4-Mbit: 128 K × 36 (CYD04S36V18) ❐ 2-Mbit × 36 (CYD02S36V18) ❐ ...
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... L Notes 1. The CYD36S18V18 device has 21 address bits. The CYD36S36V18 and CYD18S18V18 devices have 20 address bits. The CYD36S72V18, CYD18S36V18, and CYD09S18V18 devices have 19 address bits. The CYD18S72V18, CYD09S36V18, and CYD04S18V18 devices have 18 address bits. The CYD09S72V18 and CYD04S36V18 devices have 17 address bits. The CYD04S72V18 and CYD02S36V18 have 16 address bits. ...
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Contents Selection Guide ................................................................ 9 Pin Definitions .................................................................. 9 Variable Impedance Matching ....................................... 12 IEEE 1149.1 Serial Boundary Scan (JTAG) .................. 18 Maximum Ratings ........................................................... 19 Operating Range ............................................................. 19 Power Supply Requirements ......................................... 19 Electrical Characteristics ............................................... 19 Electrical ...
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Figure 1. FullFlex72 SDR 484-ball BGA Pinout (Top View DNU DQ61L DQ59L DQ57L DQ54L DQ51L DQ48L B DQ63L DQ62L DQ60L DQ58L DQ55L DQ52L DQ49L C DQ65L DQ64L VSS VSS DQ56L DQ53L DQ50L D ...
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... DNU DNU DNU DNU DNU DQ16L DQ13L AB DNU DNU DNU DNU DNU DQ15L DQ12L Notes 9. Use this pinout only for device CYD36S36V18 of the FullFlex36 family. 10. Leave this ball unconnected to disable VIM. Document Number: 38-06082 Rev DQ27L DQ24L DQ21L DQ18L DQ18R DQ21R ...
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Figure 3. FullFlex18 SDR 484-ball BGA Pinout (Top View DNU DNU DNU DNU DNU DNU B DNU DNU DNU DNU DNU DNU C DNU DNU VSS VSS DNU DNU D DNU DNU VSS ...
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Figure 4. FullFlex36 SDR 256-ball BGA (Top View DQ32L DQ30L DQ28L DQ26L DQ24L A DQ33L DQ31L DQ29L DQ27L DQ25L B DQ34L DQ35L RETL INTL CQ1L C A0L A1L WRPL VREFL FTSELL D A2L A3L CE0L ...
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Figure 5. FullFlex18 SDR 256-ball BGA (Top View DNU DNU DNU DQ17L DQ16L B DNU DNU DNU DNU DQ15L C DNU DNU RETL INTL CQ1L D A0L A1L WRPL VREFL FTSELL E A2L A3L ...
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... SDR mode with two pipelined stages. 22. The CYD36S18V18 device has 21 address bits. The CYD36S36V18 and CYD18S18V18 devices have 20 address bits. The CYD36S72V18, CYD18S36V18, and CYD09S18V18 devices have 19 address bits. The CYD18S72V18, CYD09S36V18, and CYD04S18V18 devices have 18 address bits. The CYD09S72V18 and CYD04S36V18 devices have 17 address bits ...
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Pin Definitions (continued) Left Port Right Port [26] [26] PORTSTD[1:0] PORTSTD[1:0] Port clock/Address/Control/Data/Echo clock/I/O standard select input. Assert these pins L R LOW/LOW for LVTTL, LOW/HIGH for HSTL, HIGH/LOW for 2.5 V LVCMOS, and HIGH/HIGH for 1.8 V LVCMOS, respectively. ...
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Selectable IO Standard The FullFlex device families offer the option to choose one of the four port standards for the device. Each port independently selects standards from single ended HSTL class I, single ended LVTTL, 2.5 V LVCMOS, or 1.8 ...
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When a busy readback is performed, the address of the first match that happens at least two clocks cycles after the busy readback is saved into the busy address register. Table 3. t Timing ...
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... Note 27. The CYD36S18V18 device has 21 address bits. The CYD36S36V18 and CYD18S18V18 devices have 20 address bits. The CYD36S72V18, CYD18S36V18, and CYD09S18V18 devices have 19 address bits. The CYD18S72V18, CYD09S36V18, and CYD04S18V18 devices have 18 address bits. The CYD09S72V18 and CYD04S36V18 devices have 17 address bits ...
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Table 7. Burst Counter and Mask Register Control Operations The burst counter and mask register control operation for any port follows. C MRST CNTRST CNT/MSK CNTEN ADS RET ...
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... An internal Note 30. The CYD36S18V18 device has 21 address bits. The CYD36S36V18 and CYD18S18V18 devices have 20 address bits. The CYD36S72V18, CYD18S36V18, and CYD09S18V18 devices have 19 address bits. The CYD18S72V18, CYD09S36V18, and CYD04S18V18 devices have 18 address bits. The CYD09S72V18 and CYD04S36V18 devices have 17 address bits ...
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... Counter Note 31. The CYD36S18V18 device has 21 address bits. The CYD36S36V18 and CYD18S18V18 devices have 20 address bits. The CYD36S72V18, CYD18S36V18, and CYD09S18V18 devices have 19 address bits. The CYD18S72V18, CYD09S36V18, and CYD04S18V18 devices have 18 address bits. The CYD09S72V18 and CYD04S36V18 devices have 17 address bits. The CYD04S72V18 and CYD02S36V18 have 16 address bits. ...
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... Don’t Care, “H” = HIGH, “L” = LOW. 37. The CYD36S18V18 device has 21 address bits. The CYD36S36V18 and CYD18S18V18 devices have 20 address bits. The CYD36S72V18, CYD18S36V18, and CYD09S18V18 devices have 19 address bits. The CYD18S72V18, CYD09S36V18, and CYD04S18V18 devices have 18 address bits. The CYD09S72V18 and CYD04S36V18 devices have 17 address bits ...
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... Other combinations are reserved. Do not use other than the mentioned combinations. codes Note 38. Details of the boundary scan length is found in the BSDL file for the device. Document Number: 38-06082 Rev. *J Table 9. JTAG IDCODE Register Definitions Part Number L CYD36S72V18 . When asserted RS CYD36S36V18 CYD36S18V18 CYD18S72V18 CYD18S36V18 CYD18S18V18 CYD09S72V18 CYD09S36V18 CYD09S18V18 CYD04S72V18 CYD04S36V18 CYD04S18V18 CYD02S36V18 Table 10 ...
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Maximum Ratings Exceeding maximum ratings may impair the useful life of the device. User guidelines are not tested. Storage temperature............................... –65 ° 150 °C Ambient temperature with power applied .......................................... –55 ° 125 °C Supply voltage ...
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Electrical Characteristics Over the Operating Range (continued) Parameter Description Output HIGH voltage READY (V = Min –24 mA) DDIO Min –12 mA) DDIO Min –12 mA) ...
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Electrical Characteristics Over the Operating Range Parameter Description I Operating current Max mA) CORE OUT outputs disabled Document Number: 38-06082 Rev. *J –200 Configuration Typ Max 512 K × 72 Commercial 1440 1800 Industrial ...
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Electrical Characteristics Over the Operating Range (continued) Parameter Description I Standby current SB1 (both ports TTL Level) and MAX Document Number: 38-06082 Rev. *J –200 Configuration Typ Max 512 ...
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Electrical Characteristics Over the Operating Range (continued) Parameter Description I Standby current SB2 (one port TTL or CMOS level) MAX Document Number: 38-06082 Rev. *J –200 Configuration Typ ...
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... CYD36S72V18 CYD36S18V18 CYD36S36V18 Page Unit [+] Feedback ...
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AC Test Load and Waveforms R=250 Ohm R=250 Ohm Document Number: 38-06082 Rev. *J Figure 9. Output Test Load for LVTTL/CMOS VTH = 1.5V for LVTTL VTH = 50% VDDIO for 2.5V CMOS VTH = 50% VDDIO for 1.8V CMOS ...
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Switching Characteristics Over the Operating Range Table 13. SDR Mode, Signals Affected by DLL Description Parameter [48 rise to DQ valid for pipelined CD2 mode [48 rise to CQ rise CCQ [43, 48 rise ...
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Table 14. SDR Mode (continued) Parameter Description [49 high Z OHZ t C rise to DQ valid for flow through mode CD1 (LowSPD = rise to address readback valid for flow through CA1 mode ...
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Table 15. Master Reset Timing Parameter Description t Power-up time PUP t Master reset pulse width RS t Master reset recovery time RSR t Master reset to outputs inactive/Hi Z RSF [55] t Master reset release to port ready RDY ...
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Switching Waveforms Test Clock TCK Test Mode Select TMS Test Data-In TDI Test Data-Out TDO V CORE t PUP MRST C READY All Address & Data All Other Inputs Note 57. READY is a wired OR capable output with a ...
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Switching Waveforms (continued) t CYC SAC R n+1 2 Pipelined stages x Figure 15. WRITE Cycle for Pipelined and Flow through Modes t CYC C CE ...
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Switching Waveforms (continued) Figure 16. READ with Address Counter Advance for Pipelined Mode t CYC Internal A A Address n n+1 ADS CNTEN x-1 x Figure 17. READ with Address Counter Advance for ...
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Switching Waveforms (continued) Figure 18. Port-to-Port WRITE–READ for Pipelined Mode t CYC Left Port R Right Port t CCS CYC R/W R ...
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Switching Waveforms (continued) Figure 20. OE Controlled WRITE for Pipelined Mode t CYC x+1 x x-1 x Figure 21. OE Controlled WRITE for Flow through Mode t CYC ...
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Switching Waveforms (continued) Figure 22. Byte-Enable READ for Pipelined Mode t CYC n+1 R/W BE7 BE6 BE5 BE4 BE3 BE2 BE1 BE0 DQ 63:71 DQ 54:62 DQ 45:53 DQ 36:44 DQ 27:35 DQ 18:26 DQ ...
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Switching Waveforms (continued) Figure 23. Port-to-Port WRITE-to-READ for Flow through Mode LID D ...
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Switching Waveforms (continued) Figure 24. Busy Address Readback for Pipelined and Flow through Modes, CNT/MSK = RET = LOW t CYC C Internal A A match+2 match+3 Address BUSY CNTEN ADS External Address Pipelined External Address Flow through t CY ...
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Switching Waveforms (continued) Figure 26. READ-to-WRITE for Pipelined Mode ( CYC SAC HAC R/W t CKLZ2 DQ DQ x-2 x CD2 Figure 27. ...
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Switching Waveforms (continued) Figure 28. Read-to-Write-to-Read for Flow through Mode (OE = LOW) t CYC SAC HAC R ...
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Switching Waveforms (continued) Figure 29. Read-to-Write-to-Read for Flow through Mode (OE Controlled ...
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Switching Waveforms (continued) Figure 30. BUSY Timing, WRITE-WRITE Collision for Pipelined and Flow through Modes, Clock Timing Violates t Port R/W BUSY < t CCS Port R/W BUSY Figure 31. BUSY Timing, WRITE-WRITE Collision ...
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Switching Waveforms (continued) Figure 32. Read with Echo Clock for Pipelined Mode (CQEN = HIGH SAC n+1 CQ0 CQ0 t CCQ CQ1 CQ1 x-1 x Document Number: 38-06082 Rev. ...
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Switching Waveforms (continued) t CYC MAX INT R t SINT Document Number: 38-06082 Rev. *J Figure 33. Mailbox Interrupt Output t ...
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... K × 36 (36-Mbit) 1.8 V/1.5 V Synchronous CYD36S36V18 Dual Port SRAM Speed Ordering Code (MHz) 200 CYD36S36V18-200BGXC 167 CYD36S36V18-167BGXC 167 CYD36S36V18-167BGXI 512 K × 36 (18-Mbit) 1.8 V/1.5 V Synchronous CYD18S36V18 Dual Port SRAM Speed Ordering Code (MHz) 200 CYD18S36V18-200BBAXI 167 CYD18S36V18-167BBAI Document Number: 38-06082 Rev. *J ...
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Ordering Information (continued) 256 K × 36 (9-Mbit) 1.8 V/1.5 V Synchronous CYD09S36V18 Dual Port SRAM Speed Ordering Code (MHz) 200 CYD09S36V18-200BBXC 200 CYD09S36V18-200BBXI 167 CYD09S36V18-167BBXC 64 K × 36 (2-Mbit) 1 1.5 V Synchronous CYD02S36V18 Dual Port ...
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Ordering Information (continued) 2048 K × 18 (36-Mbit) 1.8 V/1.5 V Synchronous CYD36S18V18 Dual Port SRAM Speed Ordering Code (MHz) 200 CYD36S18V18-200BGXC 167 CYD36S18V18-167BGXC 167 CYD36S18V18-167BGXI 1024 K × 18 (18-Mbit) 1.8 V/1.5 V Synchronous CYD18S18V18 Dual Port SRAM Speed ...
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Package Diagrams Figure 34. 256-ball FPBGA (17 × 17 mm), 51-85108 Document Number: 38-06082 Rev. *J FullFlex 51-85108 *H Page [+] Feedback ...
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Package Diagrams Figure 35. 484-ball PBGA (23 mm × × 2.03 mm), 51-85218 Document Number: 38-06082 Rev. *J FullFlex 51-85218 *A Page [+] Feedback ...
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Package Diagrams Figure 36. 484-ball PBGA (27 mm × × 2.33 mm), 001-07825 Acronyms Acronym Description BGA ball grid array CMOS complementary metal oxide semiconductor DLL delay lock loop FPBGA fine pitch ball gird array HSTL high speed ...
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Document History Page Document Title: FullFlex™ Synchronous SDR Dual Port SRAM Document Number: 38-06082 ECN NO. Submission Orig. of REV. Date Change ** 302411 See ECN *A 334036 See ECN *B 395800 See ECN Document Number: 38-06082 Rev. *J Description ...
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Document History Page Document Title: FullFlex™ Synchronous SDR Dual Port SRAM Document Number: 38-06082 ECN NO. Submission Orig. of REV. Date Change *C 402238 SEE ECN *D 458131 SEE ECN *E 470031 SEE ECN *F 500001 SEE ECN *G 627539 ...
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Document History Page Document Title: FullFlex™ Synchronous SDR Dual Port SRAM Document Number: 38-06082 ECN NO. Submission Orig. of REV. Date Change *H 2505003 See ECN *I 2898491 07/01/2010 *J 2995098 07/28/2010 Document Number: 38-06082 Rev. *J Description of Change ...
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... Cypress against all charges. Any Source Code (software and/or firmware) is owned by Cypress Semiconductor Corporation (Cypress) and is protected by and subject to worldwide patent protection (United States and foreign), United States copyright laws and international treaty provisions. Cypress hereby grants to licensee a personal, non-exclusive, non-transferable license to copy, use, modify, create derivative works of, and compile the Cypress Source Code and derivative works for the sole purpose of creating custom software and or firmware in support of licensee product to be used only in conjunction with a Cypress integrated circuit as specified in the applicable agreement ...