Features: • Organization: 131,072 words × 32 or 36 bits• NTD™ architecture for efficient bus operation• Fast clock speeds to 200 MHz• Fast clock to data access: 3.0/3.5/4.0 ns• FastOE access time: 3.0/3.5/4.0 ns• Fully synchronous operation• Asynchro...
AS7C33128NTD36B: Features: • Organization: 131,072 words × 32 or 36 bits• NTD™ architecture for efficient bus operation• Fast clock speeds to 200 MHz• Fast clock to data access: 3.0/3.5...
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Features: `AS7C1024A (5V version)` AS7C31024A (3.3V version)` Industrial and commercial temperatur...
Parameter |
Symbol |
Min |
Max |
Unit |
Power supply voltage relative to GND |
VDD, VDDQ |
0.5 |
+4.6 |
V |
Input voltage relative to GND (input pins) |
VIN |
0.5 |
VDD + 0.5 |
V |
Input voltage relative to GND (I/O pins) |
VIN |
0.5 |
VDDQ + 0.5 |
V |
Power dissipation |
Pd |
1.8 |
W | |
Short circuit output current |
IOUT |
20 |
mA | |
Storage temperature |
Tstg |
65 |
+150 |
oC |
Temperature under bias |
Tbias |
65 |
+135 |
oC |
The AS7C33128NTD36B family is a high performance CMOS 2 Mbit synchronous Static Random Access Memory (SRAM) organized as 131,072 words × 32 bits and incorporates a LATE LATE Write.
This variation of the 2Mb sychronous SRAM uses the No Turnaround Delay (NTD™) architecture, featuring an enhanced Write operation that improves bandwidth over pipeline burst devices. In a normal pipeline burst device, the write data, command, and address are all applied to the device on the same clock edge. If a Read command followsAS7C33128NTD36B, the system must wait for two 'dead' cycles for valid data to become available. These dead cycles of AS7C33128NTD36B can significantly reduce overall bandwidth for applications requiring random access or Read-Modify-Write operations.
NTD™ AS7C33128NTD36B devices use the memory bus more efficiently by introducing a write 'latency' which matches the two (one)cycle pipeline (flowthrough) read latency. Write data is applied two cycles after the Write command and address, allowing the Read pipeline to clear. With NTD™, Write and Read operations of AS7C33128NTD36B can be used in any order without producing dead bus cycles.
Assert R/W low to perform Write cycles. Byte Write enable controls write access to specific bytes, or can be tied low for full 18 bit writes. Write enable signals, along with the write address, are registered on a rising edge of the clock. Write data is applied to the device two clock cycles later. Unlike some asynchronous SRAMs, output enable OE AS7C33128NTD36B does not need to be toggled for write operations; it can be tied low for normal operations. Outputs go to a high impedance state when the device is deselected by any of the three chip of AS7C33128NTD36B enable inputs (refer to Synchronous truth table on page 6). In pipeline mode, a two cycle deselect latency allows pending read or write operations to be completed.
Use the ADV (burst advance) input of AS7C33128NTD36Bto perform burst read, write and deselect operations. When ADV is high, external addresses, chip select, R/W pins are ignored, and internal address counters increment in the count sequence specified by the LBO control. Any device operations, including burst, AS7C33128NTD36B can be stalled using the CEN=1 the clock enable input.
The AS7C33128NTD36B and AS7C33128NTD32B operates with a 3.3V ± 5% power supply for the device core (VDD). DQ circuits use a separate power supply (VDDQ) that operates across 3.3V or 2.5V ranges. These devices are available in a 100-pin 14×20 mm TQFP package.