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GS8342Q09BD-300 Schematic ( PDF Datasheet ) - GSI Technology

Teilenummer GS8342Q09BD-300
Beschreibung 36Mb SigmaQuad-II Burst of 2 SRAM
Hersteller GSI Technology
Logo GSI Technology Logo 




Gesamt 30 Seiten
GS8342Q09BD-300 Datasheet, Funktion
165-Bump BGA
Commercial Temp
Industrial Temp
GS8342Q08/09/18/36BD-357/333/300/250
36Mb SigmaQuad-IITM
Burst of 2 SRAM
357 MHz–250 MHz
1.8 V VDD
1.8 V and 1.5 V I/O
Features
• Simultaneous Read and Write SigmaQuad™ Interface
• JEDEC-standard pinout and package
• Dual Double Data Rate interface
• Byte Write controls sampled at data-in time
• Burst of 2 Read and Write
• 1.8 V +100/–100 mV core power supply
• 1.5 V or 1.8 V HSTL Interface
• Pipelined read operation
• Fully coherent read and write pipelines
• ZQ pin for programmable output drive strength
• IEEE 1149.1 JTAG-compliant Boundary Scan
• Pin-compatible with present 144 Mb devices
• 165-bump, 13 mm x 15 mm, 1 mm bump pitch BGA package
• RoHS-compliant 165-bump BGA package available
SigmaQuadFamily Overview
The GS8342Q08/09/18/36BD are built in compliance with the
SigmaQuad-II SRAM pinout standard for Separate I/O
synchronous SRAMs. They are 37,748,736-bit (36Mb)
SRAMs. The GS8342Q08/09/18/36BD SigmaQuad SRAMs
are just one element in a family of low power, low voltage
HSTL I/O SRAMs designed to operate at the speeds needed to
implement economical high performance networking systems.
Clocking and Addressing Schemes
The GS8342Q08/09/18/36BD SigmaQuad-II SRAMs are
synchronous devices. They employ two input register clock
inputs, K and K. K and K are independent single-ended clock
inputs, not differential inputs to a single differential clock input
buffer. The device also allows the user to manipulate the
output register clock inputs quasi independently with the C and
C clock inputs. C and C are also independent single-ended
clock inputs, not differential inputs. If the C clocks are tied
high, the K clocks are routed internally to fire the output
registers instead.
Each internal read and write operation in a SigmaQuad-II B2
RAM is two times wider than the device I/O bus. An input data
bus de-multiplexer is used to accumulate incoming data before
it is simultaneously written to the memory array. An output
data multiplexer is used to capture the data produced from a
single memory array read and then route it to the appropriate
output drivers as needed. Therefore the address field of a
SigmaQuad-II B2 RAM is always one address pin less than the
advertised index depth (e.g., the 4M x 8 has an 2M addressable
index).
tKHKH
tKHQV
Parameter Synopsis
-357
2.8 ns
0.45 ns
-333
3.0 ns
0.45 ns
-300
3.3 ns
0.45 ns
-250
4.0 ns
0.45 ns
Rev: 1.02b 4/2014
1/34
Specifications cited are subject to change without notice. For latest documentation see http://www.gsitechnology.com.
© 2011, GSI Technology






GS8342Q09BD-300 Datasheet, Funktion
GS8342Q08/09/18/36BD-357/333/300/250
Pin Description Table
Symbol
Description
Type Comments
SA
Synchronous Address Inputs
Input —
R
Synchronous Read
Input Active Low
W
Synchronous Write
Input Active Low
BW0–BW3
Synchronous Byte Writes
Input
Active Low
x18/x36 only
NW0–NW1
Nybble Write Control Pin
Input
Active Low
x8 only
K
Input Clock
Input Active High
K
Input Clock
Input Active Low
C
Output Clock
Input Active High
C
Output Clock
Input Active Low
TMS
Test Mode Select
Input —
TDI
Test Data Input
Input —
TCK
Test Clock Input
Input —
TDO
Test Data Output
Output
VREF
HSTL Input Reference Voltage
Input —
ZQ
Output Impedance Matching Input
Input
Qn
Synchronous Data Outputs
Output
Dn
Synchronous Data Inputs
Input —
Doff
Disable DLL when low
Input Active Low
CQ
Output Echo Clock
Output
CQ
Output Echo Clock
Output
VDD
Power Supply
Supply
1.8 V Nominal
VDDQ
Isolated Output Buffer Supply
Supply
1.5 or 1.8 V Nominal
VSS
Power Supply: Ground
Supply
NC
No Connect
——
Notes:
1. NC = Not Connected to die or any other pin
2. When ZQ pin is directly connected to VDDQ, output impedance is set to minimum value and it cannot be connected to ground or left
unconnected.
3. C, C, K, K cannot be set to VREF voltage.
Rev: 1.02b 4/2014
6/34
Specifications cited are subject to change without notice. For latest documentation see http://www.gsitechnology.com.
© 2011, GSI Technology

6 Page









GS8342Q09BD-300 pdf, datenblatt
GS8342Q08/09/18/36BD-357/333/300/250
FLXDrive-II Output Driver Impedance Control
HSTL I/O SigmaQuad-II SRAMs are supplied with programmable impedance output drivers. The ZQ pin must be connected to
VSS via an external resistor, RQ, to allow the SRAM to monitor and adjust its output driver impedance. The value of RQ must be
5X the value of the desired RAM output impedance. The allowable range of RQ to guarantee impedance matching continuously is
between 175and 350. Periodic readjustment of the output driver impedance is necessary as the impedance is affected by drifts
in supply voltage and temperature. The SRAM’s output impedance circuitry compensates for drifts in supply voltage and
temperature. A clock cycle counter periodically triggers an impedance evaluation, resets and counts again. Each impedance
evaluation may move the output driver impedance level one step at a time towards the optimum level. The output driver is
implemented with discrete binary weighted impedance steps.
SigmaQuad-II B2 Coherency and Pass Through Functions
Because the SigmaQuad-II B2 read and write commands are loaded at the same time, there may be some confusion over what
constitutes “coherent” operation. Normally, one would expect a RAM to produce the just-written data when it is read immediately
after a write. This is true of the SigmaQuad-II B2 except in one case, as is illustrated in the following diagram. If the user holds the
same address value in a given K clock cycle, loading the same address as a read address and then as a matching write address, the
SigmaQuad-II B2 will read or “Pass-thru” the latest data input, rather than the data from the previously completed write operation.
SigmaQuad-II B2 Coherency and Pass Through Functions
Rev: 1.02b 4/2014
12/34
Specifications cited are subject to change without notice. For latest documentation see http://www.gsitechnology.com.
© 2011, GSI Technology

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