CY7C1305BV25

CY7C1307BV25

Scan Register Sizes

Register Name

Bit Size

Instruction

3

 

 

Bypass

1

 

 

ID

32

 

 

Boundary Scan

107

 

 

Instruction Codes

Instruction

Code

Description

EXTEST

000

Captures the Input/Output ring contents.

 

 

 

IDCODE

001

Loads the ID register with the vendor ID code and places the register between TDI and TDO.

 

 

This operation does not affect SRAM operation.

SAMPLE Z

010

Captures the Input/Output contents. Places the boundary scan register between TDI and

 

 

TDO. Forces all SRAM output drivers to a High-Z state.

RESERVED

011

Do Not Use: This instruction is reserved for future use.

 

 

 

SAMPLE/PRELOAD

100

Captures the Input/Output ring contents. Places the boundary scan register between TDI

 

 

and TDO. Does not affect the SRAM operation.

RESERVED

101

Do Not Use: This instruction is reserved for future use.

 

 

 

RESERVED

110

Do Not Use: This instruction is reserved for future use.

 

 

 

BYPASS

111

Places the bypass register between TDI and TDO. This operation does not affect SRAM

 

 

operation.

Document #: 38-05630 Rev. *A

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Cypress CY7C1305BV25 manual Scan Register Sizes, Instruction Codes, Register Name Bit Size, Instruction Code Description

CY7C1307BV25, CY7C1305BV25 specifications

Cypress Semiconductor, a leader in embedded memory solutions, includes the CY7C1305BV25 and CY7C1307BV25 in its family of high-performance synchronous dynamic random-access memory (SDRAM) devices. These memory chips are designed for applications that require high-speed data processing and low power consumption, making them ideal for communication systems, networking devices, and other consumer electronics.

The CY7C1305BV25 is a 512K x 16-bit synchronous SRAM, while the CY7C1307BV25 offers a larger capacity of 1M x 16-bit. Both chips operate at a maximum clock frequency of 166 MHz, ensuring rapid data transfer rates and efficient memory operation. This high-speed performance is crucial in applications where quick data retrieval and storage are imperative.

One of the standout features of these devices is their ability to support a wide range of operating voltages, typically from 2.5V to 3.3V. This versatility allows them to be integrated into systems with varying power requirements, enhancing their adaptability for different designs. Additionally, the chips offer a low standby power consumption level, contributing to energy efficiency in battery-operated devices.

Both the CY7C1305BV25 and CY7C1307BV25 utilize a synchronous interface, allowing for coordinated data transfer with the system clock. This synchronization minimizes latency and improves overall system performance. The use of advanced pipelining techniques enables these devices to process multiple read and write commands concurrently, further boosting throughput.

In terms of reliability and durability, Cypress ensures that these memory chips comply with stringent industry standards. They are designed to withstand a wide temperature range, making them suitable for operation in diverse environments. The robust design includes features that mitigate the risk of data corruption and enhance data integrity, which is a vital consideration in mission-critical applications.

Overall, the CY7C1305BV25 and CY7C1307BV25 represent Cypress Semiconductor's commitment to delivering high-quality, high-performance memory solutions that meet the demanding requirements of modern electronics. Their impressive features, combined with a focus on low power consumption and reliability, make them a preferred choice for engineers and developers aiming to create the next generation of innovative products.