Latest SSRAM

Tip / Sign in to post questions, reply, level up, and achieve exciting badges. Know more

cross mob
Anonymous
Not applicable

I am using a 72Mbit part CY7C1470  2Mx32bit SSRAM.  I have heard of a CY16xx that is 65nm, lower power, and 144Mbit.  Where can I get info on when it will be available?

   

Thanks

   

Iski

0 Likes
4 Replies
Anonymous
Not applicable

Below are the details of the 65nm 144M QDR family of SRAMs.

   

                                           
144MB QDRII Sync SRAM

> 4Mb x 36, 8Mb x 18, 16Mb x 9 configurations
> Available in Burst Lengths of 2 and 4
> Clock Frequencies up to 333MHz for burst lengths of 4 and 2
> ROHS 5/6, & RoHS 6/6 Compliant 165 BGA package
> Based on 65nm CMOS Technology


144MB QDRII Sync SRAM

> 4Mb x 36, 8Mb x 18, 16Mb x 9 configurations
> Available in Burst Lengths of 2 and 4
> Clock Frequencies up to 550MHz burst length 4 and 333MHz for burst length 2 respectively.
> Available in Read Latencies of 2 cycles and 2.5 cycles
> ODT: High and Low Ranges
> ROHS 5/6, & RoHS 6/6 Compliant 165 BGA package
> Based on 65nm CMOS Technology

 

144MB DDRII Sync SRAM

> 4Mb x 36, 8Mb x 18, configurations
> Up to 333MHz clock frequency
> Available in Burst Lengths of 2
> ROHS 5/6, & RoHS 6/6 Compliant 165 BGA package
> Based on 65nm CMOS Technology

144MB DDRII Sync SRAM

> 4Mb x 36, 8Mb x 18, configurations
> Up to 550MHz clock frequency
> Available in Burst Length of 2
> Available in Read Latencies of 2 cycles and 2.5 cycles
> ODT: High and Low Ranges
> ROHS 5/6, & RoHS 6/6 Compliant 165 BGA package
> Based on 65nm CMOS Technology

   

   

 

   

The tentative schedule for availability of these parts is June 2011.

   

Please contact your local Cypress sales representative for availability of the specific options you are interested in.

0 Likes
Anonymous
Not applicable

I'm just laying out a PCB using four sites, either CY7C1520KV18 or CY7C1620KV18 (when available) and would like to "future  proof" my design by connecting up the address pad for a possible 288Mb device. Has a pin been allocated for this yet?

   

These RAMs are to replace fast SDRAMs, which have 51 ohm terminators on all lines.

   

Would the fast SRAMs benefit from having all the signal lines terminated? The RAM chips are all fed from a single FPGA.

   

Thank you for your consideration.

0 Likes
Anonymous
Not applicable

Unfortunately, JEDEC has not defined the address expansion pin for 288M  density for these devices CY7C1520KV18  and CY7C1620KV18 devices both of which are DDR2 Burst 2 x36 configuration.

   

Would you be able to use a x18 bus width device instead.

   

For the x18 bus width option for the DDR2 Burst 2 x18 configuration (CY7C1618KV18 and CY7C1518KV18), address expansion pin for the 288M density device is defined which is ball B5.

   

Cypress offers device with On Die termination which can eliminate the need for external resistors for termination.

   

For the 72M device, the ODT part number would be CY7C25702KV18 device.

   

Please let me know whether this answers your questions.

0 Likes
Anonymous
Not applicable

This is a question for DougE

   

You mentioned that you are replacing high speed SDRAM with the newer SRAM.

   

what specific feature of the SRAM is influencing your decision?  speed or Random Transaction rate ?

0 Likes