CYPRESS SEMICONDUCTOR  CY7C199CN-15PXC  SRAM, 256KBIT, PARALLEL, 15NS 28-DIP

CYPRESS SEMICONDUCTOR CY7C199CN-15PXC

Image is for illustrative purposes only. Please refer to product description.

Product Overview


The CY7C199CN-15PXC is a 256kb high performance CMOS Asynchronous SRAM organized as 32K by 8-bits that supports an asynchronous memory interface. The device features an automatic power-down feature that reduces power consumption when deselected.
  • CMOS for optimum speed/power
  • TTL-compatible inputs and outputs
  • Low CMOS standby power
  • Automated power-down when deselected

Applications

Computers & Computer Peripherals
Back to top

Product Specifications, Documents & More


  • Access Time: 15ns
  • MSL: MSL 1 - Unlimited
  • Memory Case Style: DIP
  • Memory Size: 256Kbit
  • No. of Pins: 28
  • Operating Temperature Max: 70°C
  • Operating Temperature Min: 0°C
  • Packaging: Each
  • SRAM Memory Configuration: 32K x 8bit
  • SVHC: To Be Advised
  • Supply Voltage Max: 5.5V
  • Supply Voltage Min: 4.5V
  • Supply Voltage Range: 4.5V to 5.5V

Find similar products  grouped by common attribute

View this product in our online catalog


This product also features on the following pages and catalog editions:

  •  131/99
  •  132/98

Availability

Availability: No Longer Manufactured

Price

Pricing is unavailable. Please contact customer services.

 
 
Low

Legislation and Environmental


Back to top

Similar Products


Find products functionally similar to this one. Select one of the following links, and you will be taken to a product group page that presents all products in this category that share the given attribute.

Back to top

Customer Reviews


Customer Q&A Exchange


Community


Like to see information about this product from other customers?

 Read discussions, blogs, documents from our community members.

Filters:

Post a question to one of our experts or start a discussion and get responses from supplier experts and fellow engineers in our community.
Back to top

Customers Also Bought