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256Kx32 SSRAM/4Mx32 SDRAM
FEATURES
WED9LC6816V
EXTERNAL MEMORY SOLUTION FOR TEXAS INSTRUMENTS TMS320C6000 DSP DESCRIPTION
Clock speeds: The WED9LC6816V is a 3.3V, 256K x 32 Synchronous Pipeline SRAM and a 4Mx32 Synchronous DRAM array constructed with one 256K x 32 SBSRAM and two 4Mx16 SDRAM die mounted on a multilayer laminate substrate. The device is packaged in a 153 lead, 14mm x 22mm, BGA. The WED9LC6816V provides a total memory solution for the Texas Instruments TMS320C6201 and the TMS320C6701 DSPs The Synchronous Pipeline SRAM is available with clock speeds of 200, 166,150,v and 133 MHz, allowing the user to develop a fast external memory for the SSRAM interface port . The SDRAM is available in clock speeds of 125 and 100 MHz, allowing the user to develop a fast external memory for the SDRAM interface port. The WED9LC6816V is available in both commercial and industrial temperature ranges.
This product is subject to change without notice.
SSRAM: 200, 166,150, and 133 MHz SDRAMs: 125 and 100 MHz
DSP Memory Solution

Texas Instruments TMS320C6201 Texas Instruments TMS320C6701 153 pin BGA, JEDEC MO 163
Packaging: 3.3V Operating supply voltage Direct control interface to both the SSRAM and SDRAM ports on the "C6x" Common address and databus 65% space savings vs. monolithic solution Reduced system inductance and capacitance
FIG. 1 PIN CONFIGURATION
TOP VIEW
4 VSS VSS SDWE# VSS VSS VSS VSS VSS VSS BWE2# BWE0# VSS VSS VSS
SSOE#
PIN DESCRIPTION
6 VSS VSS NC VSS VSS VSS NC NC NC NC NC VSS VSS VSS NC
NC
1 A B C D E F G H J K L M N P R T
U
2 DQ23 DQ22 VCCQ DQ21 DQ20 VCCQ NC NC A7 NC VCCQ DQ11 DQ10 VCCQ DQ9
DQ8
3 VCC VCC VCC VCC VCC VCC NC A8 A9 NC VCC VCC VCC VCC
VCC
5 VSS SDCE# SDA10 VSS SDCK VSS VSS VSS VSS BWE3# BWE1# VSS SSCK VSS
SSCE#
7 VCC VCC VCC VCC VCC VCC A2 A1 A0 NC NC VCC VCC VCC VCC VCC
VCC
8 DQ24 DQ25 VCCQ DQ26 DQ27 VCCQ A4 A3 A11 A13 A15 VCCQ DQ4 DQ5 VCCQ DQ6
DQ7
9 DQ28 DQ29 VCCQ DQ30 DQ31 VCCQ A5 A10 A12 A14 A16 VCCQ DQ0 DQ1 VCCQ DQ2
DQ3
A0-17 DQ0-31 SSCK# SSADC# SSWE# SSOE# SDCK SDRAS# SDCAS# SDWE# SDA10 BWE0-3# SSCE SDCE VCC VCCQ VSS NC
Address Bus Data Bus SSRAM Clock SSRAM Address Status Control SSRAM Write Enable SSRAM Output Enable SDRAM Clock SDRAM Row Address Strobe SDRAM Column Address Strobe SDRAM Write Enable SDRAM Address 10/auto precharge SSRAM Byte Write Enables SDRAM SDQM 0-3 Chip Enable SSRAM Device Chip Enable SDRAM Device Power Supply pins, 3.3V Data Bus Power Supply pins, 3.3V (2.5V future) Ground No Contact
DQ19 DQ18 VCCQ DQ17 DQ16 VCCQ NC NC A6 A17 NC VCCQ DQ12 DQ13 VCCQ DQ14
DQ15
SDRAS# SDCAS# VSS
NC/A18 NC/A19
VCC SSADC# SSWE#
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FIG. 2 BLOCK DIAGRAM
WED9LC6816V
A0-17
A0 A1
A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A13 A14 A15 A16 BWE# BW1# BW2# BW3# BW4# CE2# OE# ADSC# CK#
DQ1-8 DQ9-16 DQ17-24 DQ25-32
DQ0-7 DQ8-15 DQ16-23 DQ24-31
SSWE# BWE0# BWE1# BWE2# BWE3# SSCE# SSOE# SSADC# SSCK#
SDA10
A12 A13
SDCE# SDRAS# SDCAS# SDWE# SDCK#
A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A11 A10/AP BA0 BA1 LDQM# UDQM# CS# RAS# CAS# WE# CK# A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A11 A10/AP BA0 BA1 LDQM# UDQM# CS# RAS# CAS# WE# CK#
DQ0-31
DQ0-7
DQ0-7
DQ8-15 DQ8-15
DQ0-7 DQ8-15
DQ16-23 DQ24-31
A12 A13
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Output Functional Descriptions
Symbol SSCK# SSADS# SSOE# SSWE# SSCE# SDCK# SDCE SDRAS# SDCAS# SDWE# Type Input Input Input Input Input Input Signal Pulse Pulse Pulse Pulse Pulse Pulse Polarity Positive Edge Active Low Active Low Positive Edge Active Low Active Low Function
WED9LC6816V
The system clock input. All of the SSRAM inputs are sampled on the rising edge of the clock. When sampled at the positive rising edge of the clock, SSADS#, SSOE#, and SSWE# define the operation to be executed by the SSRAM. SSCE# disable or enable SSRAM device operation. The system clock input. All of the SDRAM inputs are sampled on the rising edge of the clock.
SDCE disable or enable device operation by masking or enabling all inputs except SDCK# and BWE0-3.
When sampled at the positive rising edge of the clock, SDCAS#, SDRAS#, and SDWE# define the operation to be executed by the SDRAM. Address bus for SSRAM and SDRAM A0 and A1 are the burst address inputs for the SSRAM During a Bank Active command cycle, A0-11, SDA10 defines the row address (RA0-10) when sampled at the rising clock edge.
A0-17 SDA10
Input
Level
--
During a Read or Write command cycle, A0-7 defines the column address (CA0-7) when sampled at the rising clock edge. In addition to the row address, SDA10 is used to invoke Autoprecharge operation at the end of the Burst Read or Write Cycle. If SDA10 is high, autoprecharge is selected and A12 and A13 define the bank to be precharged. If SDA10 is low, autoprecharge is disabled. During a Precharge command cycle, SDA10 is used in conjunction with A12 and A13 to control which bank(s) to precharge. If SDA10 is high, all banks will be precharged regardless of the state of A12 and A13. If SDA10 is low, then A12 and A13 are used to define which bank to precharge.
DQ0-31 BWE0-3 VCC, VSS VCCQ
Input Output Input Supply , Supply
Level Pulse
--
Data Input/Output are multiplexed on the same pins. BWE0-3 perform the byte write enable function for the SSRAM and DQM function for the SDRAM BWE0 is associated with DQ0-7, BWE1 with DQ8-15, BWE2 with DQ16-23 and BWE3 with DQ24-31. Power and ground for the input buffers and the core logic.
Data base power supply pins, 3.3V (2.5V future).
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Absolute Maximum Ratings
Voltage on VCC Relative to VSS VIN (DQx) Storage Temperature (BGA) Junction Temperature Short Circuit Output Current -0.5V to +4.6V -0.5V to Vcc +0.5V -55C to +125C +150C 100 mA
WED9LC6816V
(Vcc = 3.3V -5% / +10% unless otherwise noted; 0C Ta 70C, Commercial; -40C Ta 85C, Industrial) Parameter Supply Voltage (1) Input High Voltage (1,2) Input Low Voltage (1,2) Input Leakage Current 0 VIN VCC Output Leakage (Output Disabled) 0 VIN VCC SSRAM Output High (IOH = -4mA) (1) SSRAM Output Low (IOL = 8mA) (1) SDRAM Output High (IOH = -2mA) SDRAM Output Low (IOL = 2mA) Symbol VCC VIH VIL ILI ILO VOH VOL VOH VOL Min 3.135 2.0 -0.3 -10 -10 2.4 -- 2.4 -- Max 3.6 VCC +0.3 0.8 10 10 -- 0.4 -- 0.4 Units V V V A A V V V V
Recommended DC Operating Conditions
*Stress greater than those listed under "Absolute Maximum Ratings" may cause permanent damage to the device. This is a stress rating only and functional operation of the device at these or any other conditions greater than those indicated in operational sections of this specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect reliability.
NOTES: 1. All voltages referenced to VSS (GND). 2. Overshoot: VIH +6.0V for t tKC/2 Underershoot: VIL -2.0V for t tKC/2
(Vcc = 3.3V -5% / +10% unless otherwise noted; 0C Ta 70C, Commercial; -40C Ta 85C, Industrial) Description Power Supply Current Operating (1, 2, 3) Conditions Symbol Frequency 133MHz
SSRAM Active / DRAM Auto Refresh
DC Electrical Characteristics
Typ 500 500 550 600 325 350 400 450 500 500 550 20.0 30.0 250
Max 625 650 700 800 425 450 495 585 625 650 700 40.0 55.0 300
Units
ICC1
150MHz 166MHz 200MHz 133MHz
mA
Power Supply Current Operating (1, 2, 3)
SSRAM Active / DRAM Idle
ICC2
150MHz 166MHz 200MHz 83MHz
mA
Power Supply Current Operating (1, 2, 3) CMOS Standby TTL Standby Auto Refresh
SSRAM Active / SSRAM Idle SSCE# and SDCE# VCC -0.2V, All other inputs at VSS +0.2 VIN or VIN VCC -0.2V, Clk frequency = 0
ICC3
100MHz 125MHz
mA
ISB1 ISB2 ICC5
mA mA mA
SSCE# and SDCE# VIH min All other inputs at VIL max VIN or
VIN VCC -0.2V, CK# frequency = 0
NOTES: 1. ICC (operating) is specified with no output current. ICC (operating) increases with faster cycle times and greater output loading. 2. "Device idle" means device is deselected (CE# = VIH) Clock is running at max frequency and Addresses are switching each cycle. 3. Typical values are measured at 3.3V, 25C. ICC (operating) is specified at specified frequency.
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SSRAM AC Characteristics
Symbol tKHKH tKLKH tKHKL tKHQV tKHQX tKQLZ tKQHZ tOELQV tOELZ tOEHZ tS tH 1.5 0.5 0 3.0 1.5 0.5 1.5 0 1.5 3 2.5 0 3.5 1.5 0.5 200MHz Min Max 5 1.6 1.6 2.5 1.5 0 1.5 3.5 3.5 0
WED9LC6816V
(Vcc = 3.3V -5% / +10% unless otherwise noted; 0C Ta 70C, Commercial; -40C Ta 85C, Industrial) Parameter Clock Cycle Time Clock HIGH Time Clock LOW Time Clock to output valid Clock to output invalid Clock to output on Low-Z Clock to output in High-Z Output Enable to output valid Output Enable to output in Low-Z Output Enable to output in High-Z Address, Control, Data-in Setup Time to Clock Address, Control, Data-in Hold Time to Clock 166MHz Min Max 6 2.4 2.4 3.5 1.5 0 1.5 3.8 3.8 0 3.5 1.5 0.5 3.8 150MHz Min Max 7 2.6 2.6 3.8 1.5 0 1.5 4.0 4.0 133MHz Min Max 8 2.8 2.8 4.0 Units ns ns ns ns ns ns ns ns ns ns ns ns
BGA Capacitance
Description Address Input Capacitance (1) Input/Output Capacitance (DQ) (1) Control Input Capacitance (1) Clock Input Capacitance (1)
NOTE: 1. This parameter is sampled.
Conditions TA = 25C; f = 1MHz TA = 25C; f = 1MHz TA = 25C; f = 1MHz TA = 25C; f = 1MHz
Symbol CI CO CA CCK
Typ 5 8 5 4
Max 8 10 8 6
Units pF pF pF pF
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SSRAM Operation Truth Table
Operation Deselected Cycle, Power Down WRITE Cycle, Begin Burst READ Cycle, Begin Burst READ Cycle, Begin Burst READ Cycle, Suspend Burst READ Cycle, Suspend Burst READ Cycle, Suspend Burst READ Cycle, Suspend Burst WRITE Cycle, Suspend Burst WRITE Cycle, Suspend Burst Address Used None External External External Current Current Current Current Current Current SSCE# H L L L X X H H X H SSADS# L L L L H H H H H H SSWE# X L H H H H H H L L
WED9LC6816V
SSOE# X X L H L H L H X X
DQ High-Z D Q High-Z Q High-Z Q High-Z D
D
NOTE: 1. X means "don't care", H means logic HIGH. L means logic LOW. 2. All inputs except SSOE# must meet setup and hold times around the rising edge (LOW to HIGH) of SSCK. 3. Suspending burst generates wait cycle 4. For a write operation following a read operation, SSOE# must be HIGH before the input data required setup time plus High-Z time for SSOE# and staying HIGH through out the input data hold time. 5. This device contains circuitry that will ensure the outputs will be in High-Z during power-up.
SSRAM Partial Truth Table
Function READ WRITE one Byte (DQ0-7) WRITE all Bytes SSWE# H L L BWE0# X L L BWE1# X H L BWE2# X H L BWE3# X H L
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FIG. 3 SSRAM READ TIMING
SSCK
tS tH tKHKH tKHKL tKLKH
WED9LC6816V
SSADS#
tS
SSCE#
tH tS
ADDR
A1
tH
A2
A3
A4
A5
SSOE#
tOEHZ tOELQ V
SSWE#
tKHQX tKQLZ
tKHQV
DQ
Q(A1)
Q(A2)
Q(A3)
Q(A4)
Q(A5)
FIG. 4 SSRAM WRITE TIMING
tKHK H tKHKL tKLKH
SSCK
tS tH
SSADS#
tH
SSCE#
tH tS
ADDR
tH
A1
A2
A3
A4
A5
tOEHZ
SSOE#
tS
Must be HIGH
KHG WX
tH
SSWE#
tS
tH
DQ
D(A1)
D(A2)
D(A3)
D (A4)
D(A5)
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SDRAM AC Characteristics
125MHz Parameter Clock Cycle Time (1) Clock to valid Output delay (1,2) Output Data Hold Time (2) Clock HIGH Pulse Width (3) Clock LOW Pulse Width (3) Input Setup Time (3) Input Hold Time (3) CK# to Output Low-Z (2) CK# to Output High-Z Row Active to Row Active Delay (4) RAS# to CAS# Delay (4) Row Precharge Time (4) Row Active Time (4) Row Cycle Time - Operation (4) Row Cycle Time - Auto Refresh (4,8) Last Data in to New Column Address Delay (5) Last Data in to Row Precharge (5) Last Data in to Burst Stop (5) Column Address to Column Address Delay (6) Number of Valid Output Data (7) CL = 3 CL = 2 Symbol tCC tCC tSAC tOH tCH tCL tSS tSH tSLZ tSHZ tRRD tRCD tRP tRAS tRC tRFC tCDL tRDL tBDL tCCD 20 20 20 50 70 70 1 1 1 1.5 2 1 10,000 3 3 3 2 1 2 7 20 20 20 50 80 80 1 1 1 1.5 2 2 10,000 Min 8 10 Max 1000 1000 6 3 3 3 2 1 2 7
WED9LC6816V
(Vcc = 3.3V -5% / +10% unless otherwise noted; 0C Ta 70C, Commercial; -40C Ta 85C, Industrial)
100MHz Min 10 12 Max 1000 1000 7 3 3 3 2 1 2 8 24 24 24 60 90 90 1 1 1 1.5 2 1 10,000 12 15 83MHz Min Max 1000 1000 8 Units ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns CK# CK# CK# CK# ea
NOTES: 1. Parameters depend on programmed CAS latency. 2. If clock rise time is longer than 1ns (trise/2 -0.5)ns should be added to the parameter. 3. Assumed input rise and fall time = 1ns. If trise of tfall are longer than 1ns. [(trise = tfall)/2] - 1ns should be added to the parameter. 4. The minimum number of clock cycles required is detemined by dividing the minimum time required by the clock cycle time and then rounding up to the next higher integer. 5. Minimum delay is required to complete write. 6. All devices allow every cycle column address changes. 7. In case of row precharge interrupt, auto precharge and read burst stop. 8. A new command may be given tRFC after self-refresh exit.
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(Unit = number of clock) tRAS 50ns 6 5 4 tRP 20ns 3 2 2 Frequency 125MHz (8.0ns) 100MHz (10.0ns) 83MHz (12.0ns) CAS Latency 3 3 2 tRC 70ns 9 7 6 tRRD 20ns 2 2 2 tRCD 20ns 3 2 2 tCCD 10ns 1 1 1
WED9LC6816V
Clock Frequency and Latency Parameters - 125MHz SDRAM
tCDL 10ns 1 1 1 tRDL 10ns 1 1 1
Clock Frequency and Latency Parameters - 100MHz SDRAM
(Unit = number of clock)
tRAS 50ns 5 5 tRP 20ns 2 2 Frequency 100MHz (12.0ns) 83MHz (12.0ns) CAS Latency 3 2 tRC 70ns 7 6 tRRD 20ns 2 2 tRCD 20ns 2 2 tCCD 10ns 1 1 tCDL 10ns 1 1 tRDL 10ns 1
Refresh Cycle Parameters
Parameter Refresh Period (1,2) Symbol tREF Min -- -10 Max 64 Min -- -12 Max 64 Units ms
NOTES: 1. 4096 cycles 2. Any time that the Refresh Period has been exceeded, a minimum of two Auto (CBR) Refresh commands must be given to "wake-up" the device.
SDRAM Command Truth Table
SDA10 Function Mode Register Set Auto Refresh (CBR) Precharge Bank Activate Write Write with Auto Precharge Read Read with Auto Precharge Burst Termination No Operation Device Deselect Data Write/Output Disable Data Mask/Output Disable Single Bank Precharge all Banks SDCE# L L L L L L L L L L L H X X SDRAS# L L L L L H H H H H H X X X SDCAS# L L H H H L L L L H H X X X SDWE # L H L L H L L L H L H X X X BWE# X X X X X X X X X X X X L H X BA X BA BA BA BA BA X X X X X A12, A13 A11-0 X L H Row Address L H L H X X X X X 4 4 2 2 2 2 2 3 2 Notes OP CODE
NOTES: 1. All of the SDRAM operations are defined by states of SDCE#, SDWE#, SDRAS#, SDCAS#, and BWE0-3# at the positive rising edge of the clock. 2. Bank Select (BA), A12 (BA0) and A13 (BA1) select between different banks. 3. During a Burst Write cycle there is a zero clock delay, for a Burst Read cycle the delay is equal to the CAS latency. 4. The BWE# has two functions for the data DQ Read and Write operations. During a Read cycle, when BWE# goes high at a clock timing the data outputs are disabled and become high impedance after a two clock delay. BWE# also provides a data mask function for Write cycles. When it activates, the Write operation at the clock is prohibited (zero clock latency).
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MODE REGISTER SET TABLE
A11 A10 A9
WED9LC6816V
A8
A7
A6
A5
A4
A3
A2
A1
A0
Address Bus
Mode Register (Mx)
Reserved* WB
Op Mode
CAS# Latency
BT
Burst Length
*Should program M11, M10 = "0, 0" to ensure compatibility with future devices.
M2 M1 M0 0 0 0 0 1 1 1 1 0 0 1 1 0 0 1 1
Burst Length
M3 = 0 1 2 4 8 Reserved Reserved Reserved Full Page
M3 = 1 1 2 4 8 Reserved Reserved Reserved Reserved
0 1 0 1 0 1 0 1
M3
Burst Type Sequential Interleaved
0 1
M6 M5 M4 0 0 0 0 1 1 1 1 0 0 1 1 0 0 1 1 0 1 0 1 0 1 0 1
CAS Latency Reserved Reserved 2 3 Reserved Reserved Reserved Reserved
M8
M7
M6-M0
Operating Mode Standard Operation All other states reserved
0 -
0 -
Defined -
M9 0 1
Write Burst Mode Programmed Burst Length Single Location Access
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SDRAM CURRENT STATE TRUTH TABLE
Current State Command SDCE# L L L L Idle L L L L H L L L L Row Active L L L L H L L L L Read L L L L H L L L L Write L L L L H L L L L Read with Auto Precharge L L L L H SDRAS # L L L L H H H H X L L L L H H H H X L L L L H H H H X L L L L H H H H X L L L L H H H H X SDCAS# L L H H L L H H X L L H H L L H H X L L H H L L H H X L L H H L L H H X L L H H L L H H X SDWE# L H L H L H L H X L H L H L H L H X L H L H L H L H X L H L H L H L H X L H L H L H L H X X X BA BA BA X X X X X BA BA BA X X X OP Code X X Row Address Column Column X X X X X BA BA BA X X X OP Code X X Row Address Column Column X X X X X BA BA BA X X X OP Code X X Row Address Column Column X X X A12 & A13 (BA) OP Code X X BA BA BA X X X OP Code X X Row Address Column Column X X X A11-A0 Mode Register Set X X Row Address Column Column X X X Description Set the Mode Register Auto or Self Refresh Precharge Bank Activate Write w/o Precharge Read w/o Precharge Burst Termination No Operation Device Deselect Mode Register Set Auto or Self Refresh Precharge Bank Activate Write Read Burst Termination No Operation Device Deselect Mode Register Set Auto or Self Refresh Precharge Bank Activate Write Read Burst Termination No Operation Device Deselect Mode Register Set Auto or Self Refresh Precharge Bank Activate Write Read Burst Termination No Operation Device Deselect Mode Register Set Auto or Self Refresh Precharge Bank Activate Write Read Burst Termination No Operation Device Deselect
WED9LC6816V
Action 1 Start Auto No Operation Activate the specified bank and row ILLEGAL ILLEGAL No Operation No Operation No Operation ILLEGAL ILLEGAL Precharge ILLEGA Start Write; Determine if Auto Precharge Start Read; Determine if Auto Precharge No Operation No Operation No Operation ILLEGAL ILLEGAL Terminate Burst; Start the Precharge ILLEGAL Terminate Burst; Start the Write cycle Terminate Burst; Start a new Read cycle Terminate the Burst Continue the Burst Continue the Burst ILLEGAL ILLEGAL Terminate Burst; Start the Precharge ILLEGAL Terminate Burst; Start a new Write cycle Terminate Burst; Start the Read cycle Terminate the Burst Continue the Burst Continue the Burst ILLEGAL ILLEGAL ILLEGAL ILLEGAL ILLEGAL ILLEGAL ILLEGAL Continue the Burst Continue the Burst
Notes
1
2 1 1
3 1 4,5 4,5
2 5,6 5,6
2 5,6 5,6
2 2
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SDRAM Current State Truth Table (cont.)
Current State Command SDCE# L L L L Write with Auto Precharge L L L L H L L L L Precharging L L L L H L L L L Row Activating L L L L H L L L Write Recovering L L L L L H L L L With Recovering with Auto Precharging L L L L L H SDRAS # L L L L H H H H X L L L L H H H H X L L L L H H H H X L L L L H H H H X L L L L H H H H X SDCAS# L L H H L L H H X L L H H L L H H X L L H H L L H H X L L H H L L H H X L L H H L L H H X SDWE# L H L H L H L H X L H L H L H L H X L H L H L H L H X L H L H L H L H X L H L H L H L H X X X BA BA BA X X X X X BA BA BA X X X OP Code X X Row Address Column Column X X X X X BA BA BA X X X OP Code X X Row Address Column Column X X X X X BA BA BA X X X OP Code X X Row Address Column Column X X X X X BA BA BA X X X OP Code X X Row Address Column Column X X X A12 & A13 (BA) OP Code X X Row Address Column Column X X X A11-A0 Description Mode Register Set Auto or Self Refresh Precharge Bank Activate Write Read Burst Termination No Operation Device Deselect Mode Register Set Auto or Self Refresh Precharge Bank Activate Write w/o Precharge Read w/o Precharge Burst Termination No Operation Device Deselect Mode Register Set Auto or Self Refresh Precharge Bank Activate Write Read Burst Termination No Operation Device Deselect Mode Register Set Auto or Self Refresh Precharge Bank Activate Write Read Burst Termination No Operation Device Deselect Mode Register Set Auto or Self Refresh Precharge Bank Activate Write Read Burst Termination No Operation Device Deselect
WED9LC6816V
Action ILLEGAL ILLEGAL ILLEGAL ILLEGAL ILLEGAL ILLEGAL ILLEGAL Continue the Burst Continue the Burst ILLEGAL ILLEGAL No Operation; Bank(s) idle after tRP ILLEGAL ILLEGAL ILLEGAL No Operation; Bank(s) idle after tRP No Operation; Bank(s) idle after tRP No Operation; Bank(s) idle after tRP ILLEGAL ILLEGAL ILLEGAL ILLEGAL ILLEGAL ILLEGAL No Operation; Row active after tRCD No Operation; Row active after tRCD No Operation; Row active after tRCD ILLEGAL ILLEGAL ILLEGAL ILLEGAL Start Write; Determine if Auto Precharge Start Read; Determine if Auto Precharge No Operation; Precharge after tDPL No Operation; Precharge after tDPL No Operation; Precharge after tDPL ILLEGAL ILLEGAL ILLEGAL ILLEGAL ILLEGAL ILLEGAL No Operation; Precharge after tDPL No Operation; Precharge after tDPL No Operation; Precharge after tDPL
Notes
2 2
2 2 20
2 2 2 2
2 2 6 6
2 2 2,6 2,6
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SDRAM Current State Truth Table (cont.)
Current State Command SDCE# L L L L Refreshing L L L L H L L L L Mode Register Accessing L L L L H SDRAS # L L L L H H H H X L L L L H H H H X SDCAS# L L H H L L H H X L L H H L L H H X SDWE# L H L H L H L H X L H L H L H L H X X X BA BA BA X X X X X BA BA BA X X X OP Code X X Row Address Column Column X X X A12 & A13 (BA) OP Code X X Row Address Column Column X X X A11-A0 Description Mode Register Set Auto or Self Refresh Precharge Bank Activate Write Read Burst Termination No Operation Device Deselect Mode Register Set Auto or Self Refresh Precharge Bank Activate Write Read Burst Termination No Operation Device Deselect
WED9LC6816V
Action ILLEGAL ILLEGAL ILLEGAL ILLEGAL ILLEGAL ILLEGAL No Operation; Idle after tRC No Operation; Idle after tRC No Operation; Idle after tRC ILLEGAL ILLEGAL ILLEGAL ILLEGAL ILLEGAL ILLEGAL ILLEGAL No Operation; Idle after two clock cycles No Operation; Idle after two clock cycles
Notes
NOTES: 1. Both Banks must be idle otherwise it is an illegal action. 2. The Current State refers only refers to one of the banks, if BA selects this bank then the action is illegal. If BA selects the bank not being referenced by the Current State then the action may be legal depending on the state of that bank. 3. The minimum and maximum Active time (tRAS) must be satisfied. 4. The RAS# to CAS# Delay (tRCD) must occur before the command is given. 5. Address SDA10 is used to determine if the Auto Precharge function is activated. 6. The command must satisfy any bus contention, bus turn around, and/or write recovery requirements. The command is illegal if the minimum bank to bank delay time (tRRD) is not satisfied.
Contact factory for ordering information.
White Electronic Designs Corp. reserves the right to change products or specifications without notice. September, 2003 Rev. 1 13 White Electronic Designs Corporation * (602) 437-1520 * www.wedc.com
White Electronic Designs
WED9LC6816V
FIG. 5 SDRAM SINGLE BIT READ-WRITE-READ CYCLE (SAME PAGE) @ CAS LATENCY = 3, BURST LENGTH = 1
0 SDCK tCC tCH tCL tRCD tRAS SDCE# tRCD tSS SDRAS# tSS SDCAS# tSS ADDR Ra tSH Ca tSS Cb tSH Cc Rb tSH tCCD tSH tSS tSH tRP 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19
BA0, 1 [A12,A13]
BS
BS
BS
BS
BS
BS
SDA10
Ra tRAC tSAC tSS Qa tSLZ tOH tSS Db tSH tSH Qc
Rb
DQ
SDWE#
tSS BWE#
tSH
Row Active
Read
Write
Read
Precharge
Row Active
DON'T CARE
Contact factory for ordering information.
White Electronic Designs Corp. reserves the right to change products or specifications without notice. September, 2003 Rev. 1 14 White Electronic Designs Corporation * (602) 437-1520 * www.wedc.com
White Electronic Designs
FIG. 6 SDRAM POWER UP SEQUENCE
WED9LC6816V
0 SDCK
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
SDCE# tRP SDRAS#
tRFC tRFC
SDCAS#
ADDR
Key
RAa
BA0,1 [A12,A13]
SDA10
RAa
DQ
HIGH-Z
SDWE#
BWE#
High level is necessary
Precharge (All Banks)
Auto Refresh
Auto Refresh
Mode Register Set
Row Active (A-Bank)
DON'T CARE
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White Electronic Designs Corp. reserves the right to change products or specifications without notice. September, 2003 Rev. 1 15 White Electronic Designs Corporation * (602) 437-1520 * www.wedc.com
White Electronic Designs
FIG. 7 SDRAM READ & WRITE CYCLE AT SAME BANK @ BURST LENGTH = 4
0 SDCK
Note 1 tRC
WED9LC6816V
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
SDCE#
tRCD
SDRAS#
SDCAS#
ADDR
Ra
Ca0
Rb
Cb0
BA0, 1 [A12,A13]
SDA10
Ra
Rb
tRAC Note 3 CL=2
DQ
tSHZ Note 4 tSAC Qa0
tOH
tRDL Db0 Db1 Db2 Db3 tRDL Db0 Db1 Db2 Db3
Qa1
Qa2
Qa3
tRAC Note 3 CL=3
tSAC
Qa0
tOH Qa1 Qa2
tSHZ Note 4
Qa3
SDWE#
BWE#
Row Active (A-Bank)
Read (A-Bank)
Precharge (A-Bank)
Row Active (A-Bank)
Write (A-Bank)
Precharge (A-Bank) DON'T CARE
NOTES: 1. Minimum row cycle times are required to complete internal DRAM operation. 2. Row precharge can interrupt burst on any cycle. (CAS# Latency - 1) number of valid output data is available after Row precharge. Last valid output will be Hi-Z (tSHZ) after the clock. 3. Access time from Row active command. tCC *(tRCD + CAS# Latency - 1) + tSAC. 4. Output will be Hi-Z after the end of burst. (1, 2, 4, 8 & Full page bit burst)
Contact factory for ordering information.
White Electronic Designs Corp. reserves the right to change products or specifications without notice. September, 2003 Rev. 1 16 White Electronic Designs Corporation * (602) 437-1520 * www.wedc.com
White Electronic Designs
WED9LC6816V
FIG. 8 SDRAM PAGE READ & WRITE CYCLE AT SAME BANK @ BURST LENGTH = 4
0 SDCK 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19
SDCE# tRCD
SDRAS#
Note 2
SDCAS#
ADDR
Ra
Ca0
Cb0
Cc0
Cd0
BA0, 1 [A12,A13]
SDA10
Ra tRDL
CL=2
Qa0
Qa1
Qb0
Qb1
Qb2
Dc0
Dc1
Dd0
Dd1
DQ CL=3
tCDL Qa0 Qa1 Qa2 Qa3 Dc0 Dc1 Dd0 Dd1
SDWE#
Note 1
BWE#
Note 3
Row Active (A-Bank)
Read (A-Bank)
Read (A-Bank)
Write (A-Bank)
Write (A-Bank)
Precharge (A-Bank) DON'T CARE
NOTES: 1. To write data before burst read ends. BWE# should be asserted three cycle prior to write command to avoid bus contention. 2. Row precharge will interrupt writing. Last data input, tRDL before Row precharge will be written. 3. BWE# should mask invalid input data on precharge command cycle when asserting precharge before end of burst. Input data after Row precharge cycle will be masked internally.
Contact factory for ordering information.
White Electronic Designs Corp. reserves the right to change products or specifications without notice. September, 2003 Rev. 1 17 White Electronic Designs Corporation * (602) 437-1520 * www.wedc.com
White Electronic Designs
FIG. 9 SDRAM PAGE READ CYCLE AT DIFFERENT BANK @ BURST LENGTH = 4
0 SDCK 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
WED9LC6816V
17
18
19
Note 1 SDCE#
SDRAS# Note 2
SDCAS#
ADDR
RAa
CAa
RBb
CBb
CAc
CBd
CAe
BA0, 1 [A12,A13]
SDA10
RAa
RBb
CL=2
DQ CL=3
QAa0 QAa1 QAa2 QAa3 QBb0 QBb1 QBb2 QBb3 QAc0 QAc1 QBd0 QBd1 QAe0 QAe1
QAa0 QAa1 QAa2 QAa3 QBb0 QBb1 QBb2 Qbb3 QAc0 QAc1 QBd0 QBd1 QAe0 QAe1
SDWE#
BWE#
Row Active (A-Bank)
Row Active (B-Bank) Read (A-Bank)
Read (B-Bank)
Read (A-Bank)
Read (B-Bank)
Read (A-Bank)
Precharge (A-Bank) DON'T CARE
NOTES: 1. SDCE# can be "don't care" when SDRAS#, SDCAS# and SDWE# are high at the clock going high edge. 2. To interrupt a burst read by Row precharge, both the read and the precharge banks must be the same.
Contact factory for ordering information.
White Electronic Designs Corp. reserves the right to change products or specifications without notice. September, 2003 Rev. 1 18 White Electronic Designs Corporation * (602) 437-1520 * www.wedc.com
White Electronic Designs
WED9LC6816V
FIG. 10 SDRAM PAGE WRITE CYCLE AT DIFFERENT BANK @ BURST LENGTH = 4
0 SDCK 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19
SDCE#
SDRAS# Note 2
SDCAS#
ADDR
RAa
CAa
RBb
CBb
CAc
CBb
BA0, 1 [A12,A13]
SDA10
RAa
RBb
tCDL
DQ
tRDL
DAa0 DAa1 DAa2 DAa3 DBb0 DBb1 DBb2 DBb3 DAc0 DAc1 DBd0 DBd1
SDWE#
Note 1 BWE#
Row Active (A-Bank)
Row Active (A-Bank) Write (A-Bank)
Write (B-Bank)
Write (A-Bank)
Write (B-Bank)
Precharge (Both Banks) DON'T CARE
NOTES: 1. To interrupt burst write by Row precharge, BWE# should be asserted to mask invalid input data. 2. To interrupt a burst read by Row precharge, both the read and the precharge banks must be the same.
Contact factory for ordering information.
White Electronic Designs Corp. reserves the right to change products or specifications without notice. September, 2003 Rev. 1 19 White Electronic Designs Corporation * (602) 437-1520 * www.wedc.com
White Electronic Designs
WED9LC6816V
FIG. 11 SDRAM READ & WRITE CYCLE AT DIFFERENT BANK @ BURST LENGTH = 4
0 SDCK 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19
SDCE#
SDRAS#
SDCAS#
ADDR
RAa
CAa
RBb
CBb
RAc
CAc
BA0, 1 [A12,A13]
SDA10
RAa
RBb
RAc
tCDL
Note 1
CL=2
QAa0 QAa1 QAa2 QAa3
DBb0 DBb1 DBb2 DBb3
QAc0 QAc1 QAc2
DQ CL=3
QAa0 QAa1 QAa2 QAa3
DBb0 DBb1 DBb2 DBb3
QAc0 QAc1
SDWE#
BWE#
Row Active (A-Bank)
Read (A-Bank)
Precharge (A-Bank) Row Active (A-Bank)
Write (B-Bank) Row Active (A-Bank)
Read (A-Bank) DON'T CARE
NOTES: 1. tCDL should be met to complete write.
Contact factory for ordering information.
White Electronic Designs Corp. reserves the right to change products or specifications without notice. September, 2003 Rev. 1 20 White Electronic Designs Corporation * (602) 437-1520 * www.wedc.com
White Electronic Designs
WED9LC6816V
FIG. 12 SDRAM READ & WRITE CYCLE WITH AUTO PRECHARGE @ BURST LENGTH = 4
0 SDCK 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19
SDCE#
SDRAS#
SDCAS#
ADDR
Ra
Rb
Ca
Cb
BA0, 1 [A12,A13]
SDA10
Ra
Rb
CL=2
Qa0
Qa1
Qa2
Qa3
Db0
Db1
Db2
Db3
DQ CL=3
Qa0
Qa1
Qa2
Qa3
Db0
Db1
Db2
Db3
SDWE#
BWE#
Row Active (A-Bank)
Read with Auto Precharge (A-Bank) Row Active (B-Bank)
Auto Precharge Start Point (A-Bank)
Write with Auto Precharge (B-Bank)
Auto Precharge Start Point (B-Bank) DON'T CARE
NOTES: 1. tCDL should be controlled to meet minimum tRAS before internal precharge start. (In the case of Burst Length = 1 & 2 and BRSW mode)
Contact factory for ordering information.
White Electronic Designs Corp. reserves the right to change products or specifications without notice. September, 2003 Rev. 1 21 White Electronic Designs Corporation * (602) 437-1520 * www.wedc.com
White Electronic Designs
WED9LC6816V
FIG. 13 SDRAM READ INTERRUPTED BY PRECHARGE COMMAND & READ BURST STOP @ BURST LENGTH = FULL PAGE
0 SDCK 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19
SDCE
SDRAS#
SDCAS#
ADDR
RAa
CAa
CAb
BA0, 1 [A12,A13]
SDA10
RAa
Note 2 1 CL=2
DQ
2
1
QAa0 QAa1 QAa2 QAa3 QAa4
QAb0 QAb1 QAb2 QAb3 QAb4 QAb5
2 QAb0 QAb1 QAb2 QAb3 QAb4 QAb5
CL=3
QAa0 QAa1 QAa2 QAa3 QAa4
SDWE#
BWE#
Row Active (A-Bank)
Read (A-Bank)
Burst Stop
Read (A-Bank)
Precharge (A-Bank) DON'T CARE
NOTES: 1. At full page mode, burst is end at the end of burst. So auto precharge is possible. 2. About the valid DQs after burst stop, it is the same as the case of SDRAS# interrupt. Both cases are illustrated in the above timing diagram. See the label 1, 2 on each of them. But at burst write, burst stop and SDRAS# interrupt should be compared carefully. Refer to the timing diagram of "Full page write burst stop cycle". 3. Burst stop is valid at every burst length.
Contact factory for ordering information.
White Electronic Designs Corp. reserves the right to change products or specifications without notice. September, 2003 Rev. 1 22 White Electronic Designs Corporation * (602) 437-1520 * www.wedc.com
White Electronic Designs
WED9LC6816V
FIG. 14 SDRAM WRITE INTERRUPTED BY PRECHARGE COMMAND & WRITE BURST STOP @ BURST LENGTH = FULL PAGE
0 SDCK 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19
SDCE#
SDRAS#
SDCAS#
ADDR
RAa
CAa
CAb
BA0, 1 [A12,A13]
SDA10
RAa
tBDL
tRDL Note 2
DQ
DAa0 DAa1 DAa2 DAa3 DAa4
DAb0 DAb1 DAb2 DAb3 DAB4 DAb5
SDWE#
BWE#
Row Active (A-Bank)
Write (A-Bank)
Burst Stop
Write (A-Bank)
Precharge (A-Bank) DON'T CARE
NOTES: 1. At full page mode, burst is end at the end of burst. So auto precharge is possible. 2. Data-in at the cycle of interrupted by precharge can not be written into the corresponding memory cell. It is defined by AC parameter of tRDL. BWE# at write interrupt by precharge command is needed to prevent invalid write.BWE# should mask invalid input data on precharge command cycle when asserting precharge before end of burst. Input data after Row precharge cycle will be masked internally. 3. Burst stop is valid at every burst length.
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White Electronic Designs Corp. reserves the right to change products or specifications without notice. September, 2003 Rev. 1 23 White Electronic Designs Corporation * (602) 437-1520 * www.wedc.com
White Electronic Designs
FIG. 15 SDRAM BURST READ SINGLE BIT WRITE CYCLE @ BURST LENGTH = 2
0 SDCK 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
WED9LC6816V
17
18
19
SDCE#
SDRAS#
SDCAS#
ADDR
RAa
CAa
RBb
CAb
RAc
CBc
CAd
BA0, 1 [A12,A13]
SDA10
RAa
RBb
RAc
CL=2
DAa0
QAb0 QAb1
DBc0
QAd0 QAd1
DQ CL=3
DAa0
QAa1 QAb1
DBc0
QAd0 QAd1
SDWE#
BWE#
Row Active (A-Bank)
Row Active (B-Bank) Write (A-Bank) Read with Auto Precharge (A-Bank)
Row Active Write with (A-Bank) Auto Precharge (B-Bank)
Read (A-Bank)
Precharge (Both Banks)
DON'T CARE
NOTES: 1. BRSW modes enabled by setting A9 "High" at MRS (Mode Register Set). At the BRSW Mode, the burst length at Write is fixed to "1" regardless of programmed burst length. 2. When BRSW write command with auto precharge is executed, keep it in mind that tRAS should not be violated. Auto precharge is executed at the burst-end cycle, so in the case of BRSW write command, the next cycle starts the precharge.
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White Electronic Designs Corp. reserves the right to change products or specifications without notice. September, 2003 Rev. 1 24 White Electronic Designs Corporation * (602) 437-1520 * www.wedc.com
White Electronic Designs
FIG. 16 SDRAM MODE REGISTER SET CYLE
0 1 2 3 4 5 6 7 8
WED9LC6816V
SDRAM AUTO REFRESH CYCLE
0 1 2 3 4 5 6 7 8 9 10
SDCK
SDCE#
Note 2
HIG H
tRFC
SDRAS#
Note 1
SDCAS#
Note 3
ADDR
Key
Ra
DQ
HI- Z
HI- Z
SDWE#
BWE#
MR S
Ne w Comman d
Aut o Refres h
Ne w Comman d
DON'T CARE
*Both banks precharge should be completed before Mode Register Set cycle and Auto refresh cycle. NOTES: MODE REGISTER SET CYCLE 1. SDCE#, SDRAS#, SDCAS# & SDWE# activation at the same clock cycle with address key will set internal mode register. 2. Minimum 2 clock cycles should be met before new SDRAS# activation. 3. Please refer to Mode Register Set Table.
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White Electronic Designs Corp. reserves the right to change products or specifications without notice. September, 2003 Rev. 1 25 White Electronic Designs Corporation * (602) 437-1520 * www.wedc.com
White Electronic Designs
WED9LC6816V
PACKAGE DESCRIPTION: 153 LEAD BGA (17 X 9 BALL ARRAY) JEDEC MP-163
3.50 (0.138) MAX 14.00 (0.551) BSC
A B C D E F G H J K L M N P R T U
PIN 1 INDEX
22.00 (0.866) BSC
1.27 (0.050) TYP
ALL LINEAR DIMENSIONS ARE MILLIMETERS AND PARENTHETICALLY IN INCHES
NOTE: Ball attach pad for above BGA package is 480 microns in diameter. Pad is solder mask defined.
ORDERING INFORMATION COMMERCIAL (0C TA 70C)
Part Number WED9LC6816V2012BC WED9LC6816V2010BC WED9LC6816V1612BC WED9LC6816V1610BC WED9LC6816V1512BC WED9LC6816V1510BC WED9LC6816V1312BC
WED9LC6816V1310BC
INDUSTRIAL (-40C TA 85C)
SDRAM Access 125MHz 100MHz 125MHz 100MHz 125MHz 100MHz 125MHz
100MHz
SSRAM Access 200MHz 200MHz 166MHz 166MHz 150MHz 150MHz 133MHz
133MHz
Part Number WED9LC6816V2012BI WED9LC6816V2010BI WED9LC6816V1612BI WED9LC6816V1610BI WED9LC6816V1512BI WED9LC6816V1510BI WED9LC6816V1312BI WED9LC6816V1310BI
SSRAM Access 200MHz 200MHz 166MHz 166MHz 150MHz 150MHz 133MHz 133MHz
SDRAM Access 125MHz 100MHz 125MHz 100MHz 125MHz 100MHz 125MHz 100MHz
Contact factory for ordering information.
White Electronic Designs Corp. reserves the right to change products or specifications without notice. September, 2003 Rev. 1 26 White Electronic Designs Corporation * (602) 437-1520 * www.wedc.com
White Electronic Designs
WED9LC6816V
INTERFACING THE TEXAS INSTRUMENTS TMS 320C6x WITH THE WED9LC6816V (256Kx32 SSRAM/4Mx32 SDRAM)
Address Bus EA2-21
Texas Instruments TMS320C6x DSP
SSWE# CE2# SSOE# SSADS# SSCK BE0# BE1# BE2# BE3# SDA10 CE0# SDRAS# SDCAS# SDWE# SDCK
EA2 A0 EA3 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A13 A14 A15 A16
128K x 32 SSRAM 1M x 32 SDRAM
EDI9LC644V
DQ0-7 DQ8-15 DQ16-23 DQ24-31
SSWE# SSCE# SSOE# SSADC# SSCK BWE0# BWE1# BWE2# BWE3# SDA10 SDCE# SDRAS# SDCAS# SDWE# SDCK
SSRAM Control
Shared Controls
Data Bus ED0-31
SDRAM Control
Contact factory for ordering information.
White Electronic Designs Corp. reserves the right to change products or specifications without notice. September, 2003 Rev. 1 27 White Electronic Designs Corporation * (602) 437-1520 * www.wedc.com

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