Cypress CY7C1524AV18 manual Features, Configurations, Functional Description, Selection Guide

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CY7C1522AV18, CY7C1529AV18 CY7C1523AV18, CY7C1524AV18

72-Mbit DDR-II SIO SRAM 2-Word Burst Architecture

Features

72-Mbit density (8M x 8, 8M x 9, 4M x 18, 2M x 36)

300 MHz clock for high bandwidth

2-word burst for reducing address bus frequency

Double Data Rate (DDR) interfaces

(data transferred at 600 MHz) at 300 MHz

Two input clocks (K and K) for precise DDR timing SRAM uses rising edges only

Two input clocks for output data (C and C) to minimize clock skew and flight time mismatches

Echo clocks (CQ and CQ) simplify data capture in high-speed systems

Synchronous internally self-timed writes

DDR-II operates with 1.5 cycle read latency when the DLL is enabled

Operates similar to a DDR-I device with 1 cycle read latency in DLL off mode

1.8V core power supply with HSTL inputs and outputs

Variable drive HSTL output buffers

Expanded HSTL output voltage (1.4V–VDD)

Available in 165-Ball FBGA package (15 x 17 x 1.4 mm)

Offered in both Pb-free and non Pb-free packages

JTAG 1149.1 compatible test access port

Delay Lock Loop (DLL) for accurate data placement

Configurations

CY7C1522AV18 – 8M x 8

CY7C1529AV18 – 8M x 9

CY7C1523AV18 – 4M x 18

CY7C1524AV18 – 2M x 36

Functional Description

The CY7C1522AV18, CY7C1529AV18, CY7C1523AV18, and CY7C1524AV18 are 1.8V Synchronous Pipelined SRAMs, equipped with Double Data Rate Separate IO (DDR-II SIO) architecture. The DDR-II SIO consists of two separate ports: the read port and the write port to access the memory array. The read port has data outputs to support read operations and the write port has data inputs to support write operations. The DDR-II SIO has separate data inputs and data outputs to completely eliminate the need to “turn-around” the data bus required with common IO devices. Access to each port is accomplished through a common address bus. Addresses for read and write are latched on alternate rising edges of the input (K) clock. Write data is registered on the rising edges of both K and K. Read data is driven on the rising edges of C and C if provided, or on the rising edge of K and K if C/C are not provided. Each address location is associated with two 8-bit words in the case of CY7C1522AV18, two 9-bit words in the case of CY7C1529AV18, two 18-bit words in the case of CY7C1523AV18, and two 36-bit words in the case of CY7C1524AV18 that burst sequentially into or out of the device.

Asynchronous inputs include an output impedance matching input (ZQ). Synchronous data outputs are tightly matched to the two output echo clocks CQ/CQ, eliminating the need to capture data separately from each individual DDR-II SIO SRAM in the system design. Output data clocks (C/C) enable maximum system clocking and data synchronization flexibility.

All synchronous inputs pass through input registers controlled by the K or K input clocks. All data outputs pass through output registers controlled by the C or C (or K or K in a single clock domain) input clocks. Writes are conducted with on-chip synchronous self-timed write circuitry.

Selection Guide

Description

300 MHz

278 MHz

250 MHz

200 MHz

167 MHz

Unit

Maximum Operating Frequency

 

300

278

250

200

167

MHz

Maximum Operating Current

x8

900

855

800

700

650

mA

 

 

 

 

 

 

 

 

 

x9

900

855

800

700

650

 

 

 

 

 

 

 

 

 

 

x18

950

880

800

700

650

 

 

 

 

 

 

 

 

 

 

x36

1080

1000

900

750

650

 

 

 

 

 

 

 

 

 

Cypress Semiconductor Corporation • 198 Champion Court

San Jose, CA 95134-1709

408-943-2600

Document #: 001-06981 Rev. *D

 

 

Revised June 14, 2008

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Contents Configurations FeaturesFunctional Description Selection GuideDoff Logic Block Diagram CY7C1522AV18CLK Logic Block Diagram CY7C1524AV18 Logic Block Diagram CY7C1523AV18Ball Fbga 15 x 17 x 1.4 mm Pinout Pin ConfigurationCY7C1522AV18 8M x CY7C1529AV18 8M xCY7C1524AV18 2M x CY7C1523AV18 4M xPin Name Pin Description Pin DefinitionsSynchronous Read/Write Input. When Power Supply Inputs for the Outputs of the Device Power Supply Inputs to the Core of the DeviceReferenced with Respect to TDO for JtagFunctional Overview Application Example Application ExampleWrite Cycle Descriptions Truth TableLD R/W BWS0/ BWS1 NWS0 NWS1BWS0 BWS1 BWS2 BWS3 BWS0Ieee 1149.1 Serial Boundary Scan Jtag Idcode TAP Controller State Diagram TAP Electrical Characteristics TAP Controller Block DiagramTDI TCKTAP Timing and Test Conditions TAP AC Switching CharacteristicsScan Register Sizes Identification Register DefinitionsInstruction Codes Register Name Bit SizeBit # Bump ID Boundary Scan OrderPower Up Sequence Power Up Sequence in DDR-II SramDLL Constraints DC Electrical Characteristics Electrical CharacteristicsMaximum Ratings AC Electrical Characteristics Thermal Resistance CapacitanceParameter Description Test Conditions Max Unit Parameter Description Test Conditions Fbga UnitHigh Switching CharacteristicsLOW DLL Timing Static to DLL ResetNOP Read Write Switching WaveformsBurst Ordering Information 250 167 Ball Fbga 15 x 17 x 1.4 mm Package DiagramWorldwide Sales and Design Support Products PSoC Solutions Sales, Solutions, and Legal InformationDocument History REV ECN no Submission ORIG. Description of Change Date

CY7C1529AV18, CY7C1523AV18, CY7C1524AV18, CY7C1522AV18 specifications

Cypress Semiconductor has established itself as a prominent player in the memory solutions market, and its family of high-performance synchronous static random-access memory (SRAM) devices has garnered significant attention. Among these, the CY7C1522AV18, CY7C1524AV18, CY7C1523AV18, and CY7C1529AV18 stand out due to their advanced features and reliable performance.

The CY7C1522AV18 is a 2 Megabit SRAM device designed to deliver fast access times with a dual-port architecture. This memory solution supports a 3.0V to 3.6V power supply range. With a high-speed operation of up to 167 MHz, it is ideal for applications that require rapid data processing and retrieval. Its unique architecture allows simultaneous read and write operations, which enhances throughput and efficiency in data handling.

Conversely, the CY7C1524AV18 is a 4 Megabit SRAM that builds upon these capabilities, offering an even larger storage option while maintaining similar speed and voltage specifications. Both devices come with Cyclical Redundancy Check (CRC) for data integrity, ensuring reliability in mission-critical applications. Additionally, these SRAMs feature a simple asynchronous interface, making integration into existing systems remarkably straightforward.

The CY7C1523AV18 offers a balance of features with its 3 Megabit capacity. Similar to its counterparts, this device also presents dual-port capabilities, which facilitate quick data access without bottlenecks, proving advantageous in high-performance computing environments.

Lastly, the CY7C1529AV18 rounds out the family with its impressive 9 Megabit capacity, providing ample memory for more extensive applications. Its enhanced architecture makes it suitable for advanced embedded systems where speed and reliability are paramount.

All four devices leverage Cypress’s innovative Synchronous SRAM technology, which offers low latency and high bandwidth, making them suited for high-performance applications such as networking, telecommunications, and industrial control systems. The memory chips are built with robust features including low power consumption modes and wide operating temperature ranges, enhancing their versatility in various environments.

In conclusion, the CYPRESS CY7C1522AV18, CY7C1524AV18, CY7C1523AV18, and CY7C1529AV18 are exemplary SRAM solutions that combine speed, capacity, and reliability, catering to a broad spectrum of contemporary electronic systems. Whether for embedded applications or high-speed network devices, these memory solutions continue to be at the forefront of technology advancements.
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