GVT71512ZB18 Datasheet PDF - Cypress Semiconductor
| Part Number | GVT71512ZB18 | |
| Description | (GVT7xxxx) 256K x 36 / 512K x 18 Flow Thru SRAM | |
| Manufacturers | Cypress Semiconductor | |
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( DataSheet : www.DataSheet4U.com )
1CY7C1357A
CY7C1355A/GVT71256ZB36
PRELIMINARY CY7C1357A/GVT71512ZB18
256Kx36/512Kx18 Flow-Thru SRAM with NoBL™ Architecture
Features
• Zero Bus Latency, no dead cycles between write and
read cycles
• Fast clock speed: 133, 117, and 100 MHz
• Fast access time: 6.5, 7.0, 7.5, and 8.0 ns
• Internally synchronized registered outputs eliminate
the need to control OE
• Single 3.3V –5% and +5% power supply VCC
• Separate VCCQ for 3.3V or 2.5V I/O
• Single R/W (READ/WRITE) control pin
• Positive clock-edge triggered, address, data, and con-
trol signal registers for fully pipelined applications
• Interleaved or linear 4-word burst capability
• Individual byte write (BWa–BWd) control (may be tied
LOW)
• CKE pin to enable clock and suspend operations
• Three chip enables for simple depth expansion
• SNOOZE MODE for low power standby
• JTAG boundary scan
• Low profile 119-bump, 14-mm x 22-mm BGA (Ball Grid
Array) and 100-pin TQFP packages
Functional Description
The CY7C1355A/GVT71256ZB36 and CY7C1357A/
GVT71512ZB18 SRAMs are designed to eliminate dead cy-
cles when transitions from READ to WRITE or vice versa.
These SRAMs are optimized for 100 percent bus utilization
and achieves Zero Bus Latency (ZBL)/No Bus Latency (No-
BL). They integrate 262,144x36 and 524,288x18 SRAM cells,
respectively, with advanced synchronous peripheral circuitry
and a 2-bit counter for internal burst operation. These employ
high-speed, low power CMOS designs using advanced triple-
layer polysilicon, double-layer metal technology. Each memory
cell consists of four transistors and two high valued resistors.
All synchronous inputs are gated by registers controlled by a
positive-edge-triggered Clock Input (CLK). The synchronous
inputs include all addresses, all data inputs, depth-expansion
Chip Enables (CE, CE2, and CE2), Cycle Start Input (ADV/LD),
Clock Enable (CKE), Byte Write Enables (BWa, BWb, BWc,
and BWd), and read-write control (R/W). BWc and BWd apply
to CY7C1355A/GVT71256ZB36 only.
Address and control signals are applied to the SRAM during
one clock cycle, and one cycle later, its associated data oc-
curs, either read or write.
A Clock Enable (CKE) pin allows operation of the
CY7C1355A/CY7C1357A/GVT71256ZB36/GVT71512ZB18
to be suspended as long as necessary. All synchronous inputs
are ignored when (CKE) is HIGH and the internal device reg-
isters will hold their previous values.
There are three Chip Enable pins (CE, CE2, CE2) that allow
the user to deselect the device when desired. If any one of
these three are not active when ADV/LD is LOW, no new mem-
ory operation can be initiated and any burst cycle in progress
is stopped. However, any pending data transfers (read or write)
will be completed. The data bus will be in high-impedance
state one cycle after chip is deselected or a write cycle is initi-
ated.
The CY7C1355A/GVT71256ZB36 and CY7C1357A/
GVT71512ZB18 have an on-chip 2-bit burst counter. In the
burst mode, the CY7C1355A/GVT71256ZB36 and
CY7C1357A/GVT71512ZB18 provide four cycles of data for a
single address presented to the SRAM. The order of the burst
sequence is defined by the MODE input pin. The MODE pin
selects between linear and interleaved burst sequence. The
ADV/LD signal is used to load a new external address
(ADV/LD=LOW) or increment the internal burst counter
(ADV/LD=HIGH)
Output Enable (OE), Snooze Enable (ZZ) and burst sequence
select (MODE) are the asynchronous signals. OE can be used
to disable the outputs at any given time. ZZ may be tied to LOW
if it is not used.
Four pins are used to implement JTAG test capabilities. The
JTAG circuitry is used to serially shift data to and from the
device. JTAG inputs use LVTTL/LVCMOS levels to shift data
during this testing mode of operation.
Selection Guide
7C1355A-133/
71256ZB36-6.5
7C1357A-133/
71512ZB18-6.5
Maximum Access Time (ns)
6.5
Maximum Operating Current (mA)
410
Maximum CMOS Standby Current (mA)
30
No Bus Latency and NoBL are trademarks of Cypress Semiconductor Corporation.
7C1355A-117/
71256ZB36-7
7C1357A-117/
71512ZB18-7
7
385
30
7C1355A-100/
71256ZB36-7.5
7C1357A-100/
71512ZB18-7.5
7.5
350
30
7C1355A1-100/
71256ZB36-8
7C1357A1-100/
71512ZB18-8
8
350
30
www.DataSheet4U.com
wwwC.yDparteaSshseSete4mU.iccoomnductor Corporation • 3901 North First Street • San Jose • CA 95134 • 408-943-2600
May 24, 2001
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PRELIMINARY
CY7C1355A/GVT71256ZB36
CY7C1357A/GVT71512ZB18
Pin Descriptions (CY7C1355A/GVT71256ZB36)
256Kx36
TQFP Pins
37,
36,
32, 33, 34, 35,
44, 45, 46, 47,
48, 49, 50, 81,
82, 83, 99, 100
93,
94,
95,
96
87
88
89
98, 92
97
86
85
31
64
256Kx36
PBGA Pins
4P
4N
2A, 3A, 5A, 6A,
3B, 5B, 2C, 3C,
5C, 6C, 4G, 2R,
6R, 3T, 4T, 5T
5L
5G
3G
3L
4M
4H
4K
4E, 6B
2B
4F
4B
3R
7T
Name
SA0,
SA1,
SA
BWa,
BWb,
BWc,
BWd
CKE
R/W
CLK
CE,
CE2
CE2
OE
ADV/LD
MODE
ZZ
Type
Input-
Synchronous
Input-
Synchronous
Input-
Synchronous
Input-
Synchronous
Input-
Synchronous
Input-
Synchronous
Input-
Synchronous
Input
Input-
Synchronous
Input-
Static
Input-
Asynchronous
Description
Synchronous Address Inputs: The address register is triggered
by a combination of the rising edge of CLK, ADV/LD LOW, CKE
LOW and true chip enables. SA0 and SA1 are the two least
significant bits of the address field and set the internal burst
counter if burst cycle is initiated.
Synchronous Byte Write Enables: Each 9-bit byte has its own
active LOW byte write enable. On load write cycles (when R/W
and ADV/LD are sampled LOW), the appropriate byte write sig-
nal (BWx) must be valid. The byte write signal must also be valid
on each cycle of a burst write. Byte write signals are ignored
when R/W is sampled HIGH. The appropriate byte(s) of data are
written into the device one cycle later. BWa controls DQa pins;
BWb controls DQb pins; BWc controls DQc pins; BWd controls
DQd pins. BWx can all be tied LOW if always doing a write to
the entire 36-bit word.
Synchronous Clock Enable Input: When CKE is sampled HIGH,
all other synchronous inputs, including clock are ignored and
outputs remain unchanged. The effect of CKE sampled HIGH
on the device outputs is as if the LOW-to-HIGH clock transition
did not occur. For normal operation, CKE must be sampled LOW
at rising edge of clock.
Read Write: R/W signal is a synchronous input that identifies
whether the current loaded cycle and the subsequent burst cy-
cles initiated by ADV/LD is a Read or Write operation. The data
bus activity for the current cycle takes place one clock cycle later.
Clock: This is the clock input to CY7C1355A/GVT71256ZB36.
Except for OE, ZZ, and MODE, all timing references for the de-
vice are made with respect to the rising edge of CLK.
Synchronous Active LOW Chip Enable: CE and CE2 are used
with CE2 to enable the CY7C1355A/GVT71256ZB36. CE or
CE2 sampled HIGH or CE2 sampled LOW, along with ADV/LD
LOW at the rising edge of clock, initiates a deselect cycle. The
data bus will be High-Z one clock cycle after chip deselect is
initiated.
Synchronous Active High Chip enable: CE2 is used with CE and
CE2 to enable the chip. CE2 has inverted polarity but otherwise
is identical to CE and CE2.
Asynchronous Output Enable: OE must be LOW to read data.
When OE is HIGH, the I/O pins are in high-impedance state. OE
does not need to be actively controlled for read and write cycles.
In normal operation, OE can be tied LOW.
Advance/Load: ADV/LD is a synchronous input that is used to
load the internal registers with new address and control signals
when it is sampled LOW at the rising edge of clock with the chip
is selected. When ADV/LD is sampled HIGH, then the internal
burst counter is advanced for any burst that was in progress. The
external addresses and R/W are ignored when ADV/LD is sam-
pled HIGH.
Burst Mode: When MODE is HIGH or NC, the interleaved burst
sequence is selected. When MODE is LOW, the linear burst
sequence is selected. MODE is a static DC input.
Snooze Enable: This active HIGH input puts the device in low
power consumption standby mode. For normal operation, this
input has to be either LOW or NC.
5
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