CY7C1516JV18

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 ...

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SeekIC No. : 004320207 Detail

CY7C1516JV18: 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...

floor Price/Ceiling Price

Part Number:
CY7C1516JV18
Supply Ability:
5000

Price Break

  • Qty
  • 1~5000
  • Unit Price
  • Negotiable
  • Processing time
  • 15 Days
Total Cost: $ 0.00

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Upload time: 2024/12/21

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Product Details

Description



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 Delay Lock Loop (DLL) is enabled
 ` Operates like 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 (1.4VVDD)
 ` 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



Specifications

Exceeding maximum ratings may impair the useful life of the device. These user guidelines are not tested.
Storage Temperature ................................. 65 to +150
Ambient Temperature with Power Applied.....10 to +85
Supply Voltage on VDD Relative to GND ....... 0.5V to +2.9V
Supply Voltage on VDDQ Relative to GND...... 0.5V to +VDD
DC Applied to Outputs in High-Z .........0.5V to VDDQ + 0.3V
DC Input Voltage [11]  ..............................0.5V to VDD + 0.3V
Current into Outputs (LOW)......................................... 20 mA
Static Discharge Voltage (MIL-STD-883, M 3015).......>2001V
Latch up Current..................................................... >200 mA



Description

The CY7C1516JV18, CY7C1527JV18, CY7C1518JV18, and CY7C1520JV18 are 1.8V Synchronous Pipelined SRAM equipped with DDR-II architecture. The DDR-II consists of an SRAM core with advanced synchronous peripheral circuitry and a 1-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 CY7C1516JV18 and two 9-bit words in the case of CY7C1527JV18 that burst sequentially into or out of the device. The burst counter always starts with a "0" internally in the case of CY7C1516JV18 and CY7C1527JV18. On CY7C1518JV18 and CY7C1520JV18, the burst counter takes in the least significant bit of the external address and bursts two 18-bit words in the case of CY7C1518JV18 and two 36-bit words in the case of CY7C1520JV18 sequentially into or out of the device.

Asynchronous inputs of CY7C1516JV18, CY7C1527JV18, CY7C1518JV18, and CY7C1520JV18 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 for separately capturing data 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 of CY7C1516JV18, CY7C1527JV18, CY7C1518JV18, and CY7C1520JV18 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.




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