Cypress CY7C0830AV, CY7C0837AV, CY7C0832BV, CY7C0833AV manual Jtag Timing and Switching Waveforms

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CY7C0837AV, CY7C0830AV

CY7C0831AV, CY7C0832AV

CY7C0832BV, CY7C0833AV

JTAG Timing and Switching Waveforms

 

 

CY7C0837AV/CY7C0830AV

 

Parameter

Description

CY7C0831AV/CY7C0832AV

Unit

CY7C0832BV/CY7C0833AV

 

 

Min

Max

 

fJTAG

Maximum JTAG TAP Controller Frequency

 

10

MHz

tTCYC

TCK Clock Cycle Time

100

 

ns

tTH

TCK Clock HIGH Time

40

 

ns

tTL

TCK Clock LOW Time

40

 

ns

tTMSS

TMS Setup to TCK Clock Rise

10

 

ns

tTMSH

TMS Hold After TCK Clock Rise

10

 

ns

tTDIS

TDI Setup to TCK Clock Rise

10

 

ns

tTDIH

TDI Hold After TCK Clock Rise

10

 

ns

tTDOV

TCK Clock LOW to TDO Valid

 

30

ns

tTDOX

TCK Clock LOW to TDO Invalid

0

 

ns

Figure 7. JTAG Switching Waveform

tTH

tTL

Test Clock

TCK

Test Mode Select

TMS

Test Data-In

TDI

Test Data-Out

TDO

tTMSS

tTDIS

tTCYC

tTMSH

tTDIH

tTDOX

tTDOV

Document #: 38-06059 Rev. *S

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Contents Functional Description FeaturesMirror Reg Logic Block DiagramTrue RAM ArrayDQ9 L DQ9 R Pin ConfigurationsCE1L Byte Select Operation Pin DefinitionsInterrupt Operation Example 2, 12, 13, 14, 15 Master ResetMailbox Interrupts Address Counter and Mask Register OperationsCounter Hold Operation Counter Reset OperationCounter Load Operation Counter Increment OperationCounting by Two Mask Reset OperationRetransmit Mask Readback OperationCLK Cnten ADS Cntrst MrstBoundary Scan Hierarchy for 9-Mbit Device Performing a TAP ResetIeee 1149.1 Serial Boundary Scan Jtag Performing a Pause/RestartScan Registers Sizes Register Name Bit Size Instruction Identification CodesInstruction Code Description Capacitance Electrical CharacteristicsMaximum Ratings Operating RangeSwitching Characteristics Master Reset Timing DelaysJtag Timing and Switching Waveforms Read Cycle12, 30, 31, 32 Switching WaveformsBank Select Read34 Read-to-Write-to-Read OE Controlled33, 36, 38 Write with Address Counter Advance39 Readback State of Address Counter or Mask Register43, 44, 45 Rport LportCounter Interrupt and Retransmit 15, 42, 50, 51, 52 Read Outputs DisabledDeselected Write64K × 18 1M 3.3V Synchronous CY7C0830AV Dual-Port Sram Ordering Information512K × 18 9M 3.3V Synchronous CY7C0833AV Dual-Port Sram 128K × 18 2M 3.3V Synchronous CY7C0831AV Dual-Port Sram32K × 18 512K 3.3V Synchronous CY7C0837AV Dual-Port Sram Package DiagramsPin Thin Quad Flatpack 14 x 14 x 1.4 mm Document History Sales, Solutions, and Legal Information Worldwide Sales and Design Support Products PSoC SolutionsUSB

CY7C0837AV, CY7C0833AV, CY7C0831AV, CY7C0830AV, CY7C0832AV specifications

Cypress Semiconductor, a leader in innovative semiconductor solutions, has developed a range of high-performance SRAM (Static Random Access Memory) products, including the CY7C0837AV, CY7C0833AV, CY7C0831AV, CY7C0830AV, and CY7C0832AV. These devices cater to various applications requiring fast, reliable memory storage.

One of the main features of these SRAMs is their speed. They offer fast access times, which range from 10 to 15 nanoseconds. This rapid access is critical for applications where speed is essential, such as high-speed networking and telecommunications equipment, automotive systems, and industrial controls. The CY7C0837AV, for instance, boasts a 1 Mbit memory capacity, making it suitable for applications requiring a larger data buffer.

Another notable feature of these devices is their low power consumption. The SRAMs are designed to operate at low voltages, typically around 3.3V, which greatly reduces the overall power requirements. This characteristic is particularly advantageous for battery-operated devices and portable electronics, as it extends battery life and improves energy efficiency.

Cypress's SRAM offerings incorporate advanced technologies like asynchronous read and write operations, which enable users to access memory without the need for a clock signal. This asynchronous nature allows for simpler system designs and integration, significantly reducing component count and complexity.

In terms of packaging, these SRAMs are available in various formats, including standard DIP and surface-mount options, facilitating easy integration into a range of printed circuit boards. Their footprint and compatibility with existing designs ensure they can be utilized in both new developments and legacy system enhancements.

The CY7C0837AV, CY7C0833AV, CY7C0831AV, CY7C0830AV, and CY7C0832AV also support burst mode operations, allowing for faster sequential data access. This feature enhances performance in applications that require continuous data streams, such as video processing and signal processing tasks.

In summary, the Cypress CY7C0837AV, CY7C0833AV, CY7C0831AV, CY7C0830AV, and CY7C0832AV SRAMs provide a combination of high speed, low power consumption, and versatile packaging options. Their advanced technologies and characteristics make them ideal for a wide range of applications, from automotive to industrial systems, solidifying their position as reliable memory solutions in the semiconductor market.