Cypress CY7C1320CV18 manual Features, Functional Description, Configurations, Selection Guide

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CY7C1316CV18, CY7C1916CV18 CY7C1318CV18, CY7C1320CV18

18-Mbit DDR-II SRAM 2-Word Burst Architecture

Features

18-Mbit density (2M x 8, 2M x 9, 1M x 18, 512K x 36)

267 MHz clock for high bandwidth

2-word burst for reducing address bus frequency

Double Data Rate (DDR) interfaces

(data transferred at 534 MHz) at 267 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 (13 x 15 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

Functional Description

The CY7C1316CV18, CY7C1916CV18, CY7C1318CV18, and CY7C1320CV18 are 1.8V Synchronous Pipelined SRAMs equipped with DDR-II architecture. The DDR-II consists of an SRAM core with advanced synchronous peripheral circuitry and a one-bit burst counter. 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 CY7C1316CV18 and two 9-bit words in the case of CY7C1916CV18 that burst sequentially into or out of the device. The burst counter always starts with a ‘0’ internally in the case of CY7C1316CV18 and CY7C1916CV18. For CY7C1318CV18 and CY7C1320CV18, the burst counter takes in the least significant bit of the external address and bursts two 18-bit words (in the case of CY7C1318CV18) of two 36-bit words (in the case of CY7C1320CV18) sequentially into or out of the device.

Asynchronous inputs include an output impedance matching input (ZQ). Synchronous data outputs (Q, sharing the same physical pins as the data inputs, D) are tightly matched to the two output echo clocks CQ/CQ, eliminating the need to capture data separately from each individual DDR 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.

Configurations

CY7C1316CV18 – 2M x 8

CY7C1916CV18 – 2M x 9

CY7C1318CV18 – 1M x 18

CY7C1320CV18 – 512K x 36

Selection Guide

Description

 

267 MHz

250 MHz

200 MHz

167 MHz

Unit

Maximum Operating Frequency

 

267

250

200

167

MHz

 

 

 

 

 

 

 

Maximum Operating Current

x8

775

705

575

490

mA

 

 

 

 

 

 

 

 

x9

780

710

580

490

 

 

 

 

 

 

 

 

 

x18

805

730

600

510

 

 

 

 

 

 

 

 

 

x36

855

775

635

540

 

 

 

 

 

 

 

 

Cypress Semiconductor Corporation • 198 Champion Court

San Jose, CA 95134-1709

408-943-2600

Document Number: 001-07160 Rev. *E

 

 

Revised June 18, 2008

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Contents Configurations FeaturesFunctional Description Selection GuideLogic Block Diagram CY7C1916CV18 Logic Block Diagram CY7C1316CV18Doff CLKLogic Block Diagram CY7C1320CV18 Logic Block Diagram CY7C1318CV18BWS Ball Fbga 13 x 15 x 1.4 mm Pinout Pin ConfigurationCY7C1316CV18 2M x CY7C1916CV18 2M xCY7C1320CV18 512K x CY7C1318CV18 1M 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 Echo Clocks Application ExampleSRAM#1 ZQ SRAM#2Operation Write Cycle DescriptionsFirst Address External Second Address Internal CommentsBWS0 Ieee 1149.1 Serial Boundary Scan Jtag Idcode TAP Controller State Diagram TAP Electrical Characteristics TAP Controller Block DiagramTAP 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 UnitParameter Min Max Switching CharacteristicsDLL Timing Parameter Min Max Output TimesDON’T Care Undefined Switching WaveformsOrdering Information 200 Ball Fbga 13 x 15 x 1.4 mm Package DiagramWorldwide Sales and Design Support Products PSoC Solutions Sales, Solutions, and Legal Information

CY7C1320CV18, CY7C1916CV18, CY7C1316CV18, CY7C1318CV18 specifications

Cypress Semiconductor, a leading provider of high-performance memory solutions, offers a range of Static Random-Access Memory (SRAM) products ideal for various applications. Among these are the CY7C1320CV18, CY7C1916CV18, CY7C1316CV18, and CY7C1318CV18, each designed to meet the demands of modern electronic systems with distinctive features, technologies, and characteristics.

The CY7C1320CV18 is a high-performance 2-Mbit SRAM that operates at a voltage of 1.8V. Designed with speed in mind, it has access times as low as 12 ns, making it suitable for applications requiring quick data retrieval. The device features a simple asynchronous interface, allowing it to be easily integrated into various circuits. With a low power consumption profile and the ability to operate under a wide temperature range, the CY7C1320CV18 is an ideal choice for battery-operated devices and industrial environments.

Following closely, the CY7C1916CV18 is a highly integrated, 16-Mbit synchronous SRAM. This device stands out due to its robust data transfer capabilities, supporting a single-cycle read and write operation, which greatly enhances system performance. The device operates with a supply voltage of 1.8V and features an impressive latency, making it perfect for high-speed applications such as digital signal processing and telecommunications. The unique pipelined architecture allows for higher throughput and efficiency in memory access.

The CY7C1316CV18 is another notable member of this family, featuring 16K x 8 bits of memory. It is characterized by low power consumption and a fast access time, which helps to reduce latency in critical applications. With a simple asynchronous interface and competitive pricing, the CY7C1316CV18 is suitable for consumer electronics and automotive applications that require reliable performance.

Lastly, the CY7C1318CV18 is a comprehensive solution featuring 32K x 8 bits of memory. This device also operates with low power and high speed, making it efficient for caching, buffering, and temporary storage applications. Its compatibility with industry standards makes it easily integrable into existing systems.

In summary, the CY7C1320CV18, CY7C1916CV18, CY7C1316CV18, and CY7C1318CV18 SRAM devices from Cypress Semiconductor showcase cutting-edge technology, high performance, and versatility, catering to the evolving needs of today's electronics, from telecommunications to consumer devices. Their low power consumption, high-speed access, and reliable data integrity make them essential components in modern electronic designs.