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PDF GS881Z36BGT-V Data sheet ( Hoja de datos )

Número de pieza GS881Z36BGT-V
Descripción 9Mb Pipelined and Flow Through Synchronous NBT SRAM
Fabricantes GSI Technology 
Logotipo GSI Technology Logotipo



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No Preview Available ! GS881Z36BGT-V Hoja de datos, Descripción, Manual

GS881Z18/32/36B(T/D)-xxxV
100-Pin TQFP & 165-Bump BGA 9Mb Pipelined and Flow Through
Commercial Temp
Industrial Temp
Synchronous NBT SRAM
250 MHz–150 MHz
1.8 V or 2.5 V VDD
1.8 V or 2.5 V I/O
Features
• User-configurable Pipeline and Flow Through mode
• NBT (No Bus Turn Around) functionality allows zero wait
read-write-read bus utilization
• Fully pin-compatible with both pipelined and flow through
NtRAM™, NoBL™ and ZBT™ SRAMs
• IEEE 1149.1 JTAG-compatible Boundary Scan
• On-chip write parity checking; even or odd selectable
• 1.8 V or 2.5 V core power supply
• 1.8 V or 2.5 V I/O supply
• LBO pin for Linear or Interleave Burst mode
• Pin-compatible with 2M, 4M, and 18M devices
• Byte write operation (9-bit Bytes)
• 3 chip enable signals for easy depth expansion
• ZZ pin for automatic power-down
• JEDEC-standard packages
• RoHS-compliant 100-lead TQFP and 165-bump BGA
packages available
Functional Description
The GS881Z18/32/36B(T/D)-xxxV is a 9Mbit Synchronous
Static SRAM. GSI's NBT SRAMs, like ZBT, NtRAM, NoBL
or other pipelined read/double late write or flow through read/
single late write SRAMs, allow utilization of all available bus
bandwidth by eliminating the need to insert deselect cycles
when the device is switched from read to write cycles.
Because it is a synchronous device, address, data inputs, and
read/ write control inputs are captured on the rising edge of the
input clock. Burst order control (LBO) must be tied to a power
rail for proper operation. Asynchronous inputs include the
Sleep mode enable, ZZ and Output Enable. Output Enable can
be used to override the synchronous control of the output
drivers and turn the RAM's output drivers off at any time.
Write cycles are internally self-timed and initiated by the rising
edge of the clock input. This feature eliminates complex off-
chip write pulse generation required by asynchronous SRAMs
and simplifies input signal timing.
The GS881Z18/32/36B(T/D)-xxxV may be configured by the
user to operate in Pipeline or Flow Through mode. Operating
as a pipelined synchronous device, in addition to the rising-
edge-triggered registers that capture input signals, the device
incorporates a rising-edge-triggered output register. For read
cycles, pipelined SRAM output data is temporarily stored by
the edge triggered output register during the access cycle and
then released to the output drivers at the next rising edge of
clock.
The GS881Z18/32/36B(T/D)-xxxV is implemented with GSI's
high performance CMOS technology and is available in
JEDEC-standard 100-pin TQFP and 165-bump BGA packages.
Pipeline
3-1-1-1
Flow Through
2-1-1-1
Paramter Synopsis
-250 -200 -150 Unit
tKQ
tCycle
Curr (x18)
Curr (x32/x36)
tKQ
tCycle
Curr (x18)
Curr (x32/x36)
3.0 3.0 3.8 ns
4.0 5.0 6.7 ns
200 170 140 mA
230 195 160 mA
5.5 6.5 7.5 ns
5.5 6.5 7.5 ns
160 140 128 mA
185 160 145 mA
Rev: 1.00 6/2006
1/37
Specifications cited are subject to change without notice. For latest documentation see http://www.gsitechnology.com.
© 2006, GSI Technology

1 page




GS881Z36BGT-V pdf
100-Pin TQFP Pin Descriptions
Symbol
A0, A1
A
CK
BA
BB
BC
BD
W
E1
E2
E3
G
ADV
CKE
NC
DQA
DQB
DQC
DQD
ZZ
FT
LBO
TMS
TDI
TDO
TCK
VDD
VSS
VDDQ
Type
In
In
In
In
In
In
In
In
In
In
In
In
In
In
I/O
I/O
I/O
I/O
In
In
In
In
In
In
GS881Z18/32/36B(T/D)-xxxV
Description
Burst Address Inputs; Preload the burst counter
Address Inputs
Clock Input Signal
Byte Write signal for data inputs DQA1–DQA9; active low
Byte Write signal for data inputs DQB1–DQB9; active low
Byte Write signal for data inputs DQC1–DQC9; active low
Byte Write signal for data inputs DQD1–DQD9; active low
Write Enable; active low
Chip Enable; active low
Chip Enable—Active High. For self decoded depth expansion
Chip Enable—Active Low. For self decoded depth expansion
Output Enable; active low
Advance/Load; Burst address counter control pin
Clock Input Buffer Enable; active low
No Connect
Byte A Data Input and Output pins
Byte B Data Input and Output pins
Byte C Data Input and Output pins
Byte D Data Input and Output pins
Power down control; active high
Pipeline/Flow Through Mode Control; active low
Linear Burst Order; active low.
Scan Test Mode Select
Scan Test Data In
Scan Test Data Out
Scan Test Clock
Core power supply
Ground
Output driver power supply
Rev: 1.00 6/2006
5/37
Specifications cited are subject to change without notice. For latest documentation see http://www.gsitechnology.com.
© 2006, GSI Technology

5 Page





GS881Z36BGT-V arduino
GS881Z18/32/36B(T/D)-xxxV
Functional Details
Clocking
Deassertion of the Clock Enable (CKE) input blocks the Clock input from reaching the RAM's internal circuits. It may be used to
suspend RAM operations. Failure to observe Clock Enable set-up or hold requirements will result in erratic operation.
Pipeline Mode Read and Write Operations
All inputs (with the exception of Output Enable, Linear Burst Order and Sleep) are synchronized to rising clock edges. Single cycle
read and write operations must be initiated with the Advance/Load pin (ADV) held low, in order to load the new address. Device
activation is accomplished by asserting all three of the Chip Enable inputs (E1, E2 and E3). Deassertion of any one of the Enable
inputs will deactivate the device.
Function
Read
Write Byte “a”
Write Byte “b”
Write Byte “c”
Write Byte “d”
Write all Bytes
Write Abort/NOP
W BA BB BC BD
HX X X X
LL HH H
LH L H H
LH H L H
LH H H L
LL L L L
LH H H H
Read operation is initiated when the following conditions are satisfied at the rising edge of clock: CKE is asserted low, all three
chip enables (E1, E2, and E3) are active, the write enable input signals W is deasserted high, and ADV is asserted low. The address
presented to the address inputs is latched in to address register and presented to the memory core and control logic. The control
logic determines that a read access is in progress and allows the requested data to propagate to the input of the output register. At
the next rising edge of clock the read data is allowed to propagate through the output register and onto the output pins.
Write operation occurs when the RAM is selected, CKE is active and the write input is sampled low at the rising edge of clock. The
Byte Write Enable inputs (BA, BB, BC & BD) determine which bytes will be written. All or none may be activated. A write cycle
with no Byte Write inputs active is a no-op cycle. The pipelined NBT SRAM provides double late write functionality, matching the
write command versus data pipeline length (2 cycles) to the read command versus data pipeline length (2 cycles). At the first rising
edge of clock, Enable, Write, Byte Write(s), and Address are registered. The Data In associated with that address is required at the
third rising edge of clock.
Flow Through Mode Read and Write Operations
Operation of the RAM in Flow Through mode is very similar to operations in Pipeline mode. Activation of a read cycle and the use
of the Burst Address Counter is identical. In Flow Through mode the device may begin driving out new data immediately after new
address are clocked into the RAM, rather than holding new data until the following (second) clock edge. Therefore, in Flow
Through mode the read pipeline is one cycle shorter than in Pipeline mode.
Write operations are initiated in the same way, but differ in that the write pipeline is one cycle shorter as well, preserving the ability
to turn the bus from reads to writes without inserting any dead cycles. While the pipelined NBT RAMs implement a double late
write protocol, in Flow Through mode a single late write protocol mode is observed. Therefore, in Flow Through mode, address
and control are registered on the first rising edge of clock and data in is required at the data input pins at the second rising edge of
clock.
Rev: 1.00 6/2006
11/37
Specifications cited are subject to change without notice. For latest documentation see http://www.gsitechnology.com.
© 2006, GSI Technology

11 Page







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