TMT T436416D-5CG

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T436416D
4M x 16 SDRAM
SDRAM
1M x 16bit x 4Banks Synchronous DRAM
FEATURES
GRNERAL DESCRIPTION
• Fast access time from clock: 4.5/5/5.4 ns
• Fast clock rate: 200/166/143 MHz
• Fully synchronous operation
• Internal pipelined architecture
• 1M word x 16-bit x 4-bank
• Programmable Mode registers
- CAS# Latency: 2, or 3
- Burst Length: 1, 2, 4, 8, or full page
- Burst Type: interleaved or linear burst
- Burst stop function
• Auto Refresh and Self Refresh
• 4096 refresh cycles/64ms
• CKE power down mode
• Single +3.3V ± 0.3V power supply
• Interface: LVTTL
• 54-pin 400 mil plastic TSOP II package
• 60-Ball, 6.4 mm x 10.1 mm TFBGA package
The T436416D SDRAM is a high-speed CMOS
synchronous DRAM containing 64 Mbits. It is internally
configured as 4 Banks of 1M word x 16 DRAM with a
synchronous interface (all signals are registered on the
positive edge of the clock signal, CLK). Read and write
accesses to the SDRAM are burst oriented; accesses
start at a selected location and continue for a
programmed number of locations in a programmed
sequence. Accesses begin with the registration of a
BankActivate command which is then followed by a
Read or Write command.
The T436416D provides for programmable Read
or Write burst lengths of 1, 2, 4, 8, or full page, with a
burst termination option. An auto precharge function
may be enabled to provide a self-timed row precharge
that is initiated at the end of the burst sequence. The
refresh functions, either Auto or Self Refresh are easy to
use.
Key Specifications
- 5/6/7
T436416D
tCK3
tAC3
tRAS
tRC
Clock Cycle time(min.)
5/6/7 ns
Access time from CLK(max.)
4.5/5/5.4/ ns
Row Active time(min.)
35/42/45 ns
Row Cycle time(min.)
50/60/63 ns
By having a programmable mode register, the
system can choose the most suitable modes to maximize
its performance. These devices are well suited for
applications requiring high memory bandwidth and
particularly well suited to high performance PC
applications.
ORDERING INFORMATION
Part Number
Frequency
Package
T436416D-5S/-5C
200MHz
TSOP II / TFBGA
T436416D-5SG/-5CG
200MHz
TSOP II / TFBGA
T436416D-6S/-6C
166MHz
TSOP II / TFBGA
T436416D-6SG/-6CG
166MHz
TSOP II / TFBGA
T436416D-7S/-7C
143MHz
TSOP II / TFBGA
T436416D-7SG/-7CG 143MHz
S : indicates TSOPII Package,
C : indicates TFBGA Package,
G : indicates Pb Free Package
TSOP II / TFBGA
TM Technology Inc. reserves the right
P. 1
to change products or specifications without notice.
Publication Date: FEB. 2007
Revision: A
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T436416D
PIN ARRANGEMENT (Top View)
TFBGA Top View
A
B
C
D
E
F
G
H
J
K
L
M
1
2
VSS
DQ15
DQ14
VSSQ
DQ13 VDDQ
DQ12
DQ11
DQ10 VSSQ
DQ9
DQ8
NC
NC
NC
VDDQ
NC
NC
UDQM
CLK
3
TOSPII Top View
4
5
6
7
DQ0
VDD
VDDQ
VSSQ
DQ4
VDDQ
VSSQ
NC
NC
LDQM
RAS#
CKE
NC
NC
A11
A9
BA1
DQ1
DQ2
DQ3
DQ5
V DD
1
54
V ss
DQ0
2
53
D Q 15
V DDQ
3
52
V SSQ
DQ1
4
51
D Q 14
DQ2
5
50
D Q 13
V SSQ
6
49
V DDQ
DQ3
7
48
D Q 12
DQ4
8
47
D Q 11
V DDQ
9
46
V SSQ
DQ5
10
45
D Q 10
DQ6
11
44
DQ9
V SSQ
12
43
V DDQ
DQ7
13
42
DQ8
VDD
14
41
V ss
LD Q M
15
40
N .C /R F U
WE
16
39
UDQM
CAS
17
38
CLK
RAS
18
37
CKE
CS
19
36
N .C
BA0
20
35
A 11
BA1
21
34
A9
22
33
A8
A0
23
32
A7
A1
24
31
A6
A2
25
30
A5
A3
26
29
A4
V DD
27
28
V ss
DQ6
DQ7
NC
WE#
CAS#
CS#
BA0
A 1 0 /A P
N
P
R
A8
A6
VSS
A7
A5
A4
A0
A2
A3
A10
A1
VDD
TM Technology Inc. reserves the right
P. 2
to change products or specifications without notice.
5 4 P IN T S O P ( II)
( 4 0 0 m il x 8 7 5 m il)
( 0 .8 m m P IN P IT C H )
Publication Date: FEB. 2007
Revision: A
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T436416D
BLOCK DIAGRAM
1M x 16
1M x 16
Output Buffer
Sense AM P
1M x 16
Row Decoder
A DD
D ata Input R egister
Row Buffeer
Refresh Counter
1M x 16
Col. Buffer
LCBR
LRAS
Address Register
C LK
I/O Control
Bank Select
LW E
LD Q M
D Qi
C olum n D ecoder
Latency & Burst Length
LC K E
LR A S
LC BR
Program m ing R egister
LW E
LC A S
LD Q M
LW C BR
Tim ing Register
C LK
C KE
CS
R AS
C AS
TM Technology Inc. reserves the right
P. 3
to change products or specifications without notice.
WE
L(U)D QM
Publication Date: FEB. 2007
Revision: A
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T436416D
Pin Descriptions (Table 1. Pin Details of T436416D)
Symbol
Type
Description
CLK
Input
Clock: CLK is driven by the system clock. All SDRAM input signals are sampled on the positive edge
of CLK. CLK also increments the internal burst counter and controls the output registers.
CKE
Input
Clock Enable: CKE activates(HIGH) and deactivates(LOW) the CLK signal. If CKE goes low
synchronously with clock(set-up and hold time same as other inputs), the internal clock is suspended
from the next clock cycle and the state of output and burst address is frozen as long as the CKE
remains low. When all banks are in the idle state, deactivating the clock controls the entry to the Power
Down and Self Refresh modes. CKE is synchronous except after the device enters Power Down and
Self Refresh modes, where CKE becomes asynchronous until exiting the same mode. The input
buffers, including CLK, are disabled during Power Down and Self Refresh modes, providing low
standby power.
BA0,BA1
Input
Bank Select: BA0,BA1 input select the bank for operation.
BA1
BA0
0
0
0
1
1
0
1
1
Select Bank
BANK #A
BANK #B
BANK #C
BANK #D
A0-A11
Input
Address Inputs: A0-A11 are sampled during the BankActivate command (row address A0-A11) and
Read/Write command (column address A0-A7 with A10 defining Auto Precharge) to select one
location out of the 1M available in the respective bank. During a Precharge command, A10 is sampled
to determine if all banks are to be precharged (A10 = HIGH). The address inputs also provide the opcode during a Mode Register Set command.
CS#
Input
Chip Select: CS# enables (sampled LOW) and disables (sampled HIGH) the command decoder. All
commands are masked when CS# is sampled HIGH. CS# provides for external bank selection on
systems with multiple banks. It is considered part of the command code.
RAS#
Input
Row Address Strobe: The RAS# signal defines the operation commands in conjunction with the
CAS# and WE# signals and is latched at the positive edges of CLK. When RAS# and CS# are asserted
"LOW" and CAS# is asserted "HIGH," either the BankActivate command or the Precharge command
is selected by the WE# signal. When the WE# is asserted "HIGH," the BankActivate command is
selected and the bank designated by BS is turned on to the active state. When the WE# is asserted
"LOW," the Precharge command is selected and the bank designated by BS is switched to the idle state
after the precharge operation.
CAS#
Input
Column Address Strobe: The CAS# signal defines the operation commands in conjunction with the
RAS# and WE# signals and is latched at the positive edges of CLK. When RAS# is held "HIGH" and
CS# is asserted "LOW," the column access is started by asserting CAS# "LOW." Then, the Read or
Write command is selected by asserting WE# "LOW" or "HIGH."
WE#
Input
Write Enable: The WE# signal defines the operation commands in conjunction with the RAS# and
CAS# signals and is latched at the positive edges of CLK. The WE# input is used to select the
BankActivate or Precharge command and Read or Write command.
LDQM,
UDQM
Input
Data Input/Output Mask: Controls output buffers in read mode and masks Input data in write mode.
DQ0-DQ15 Input / Output Data I/O: The DQ0-15 input and output data are synchronized with the positive edges of CLK. The
I/Os are maskable during Reads and Writes.
No Connect: These pins should be left unconnected.
NC/RFU
-
VDDQ
Supply
DQ Power: Provide isolated power to DQs for improved noise immunity. ( 3.3V± 0.3V )
VSSQ
Supply
DQ Ground: Provide isolated ground to DQs for improved noise immunity.( 0 V )
VDD
Supply
Power Supply: +3.3V ± 0.3V
VSS
Supply
Ground
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T436416D
Operation Mode
Fully synchronous operations are performed to latch the commands at the positive edges of CLK. Table 2 shows
the truth table for the operation commands.
Table 2. Truth Table (Note (1), (2) )
Command
State
CKEn-1 CKEn DQM BA0,1 A10 A0-9,11 CS# RAS# CAS# WE#
BankActivate
Idle(3)
H
X
X
V
Row address
L
L
H
H
BankPrecharge
Any
H
X
X
V
L
X
L
L
H
L
PrechargeAll
Any
H
X
X
X
H
X
L
L
H
L
Write
Active(3)
H
X
X
V
L
L
H
L
L
Write and AutoPrecharge
Active(3)
H
X
X
V
H
Column
address (A0
~ A7)
L
H
L
L
Read
Active(3)
H
X
X
V
L
L
H
L
H
Read and Autoprecharge
Active(3)
H
X
X
V
H
Column
address (A0
~ A7)
L
H
L
H
Mode Register Set
Idle
H
X
X
L
L
L
L
No-Operation
Any
H
X
X
X
X
X
L
H
H
H
Active(4)
H
X
X
X
X
X
L
H
H
L
Device Deselect
Any
H
X
X
X
X
X
H
X
X
X
AutoRefresh
Idle
H
H
X
X
X
X
L
L
L
H
SelfRefresh Entry
Idle
H
L
X
X
X
X
L
L
L
H
SelfRefresh Exit
Idle
L
H
X
X
X
X
H
X
X
X
L
H
H
H
Burst Stop
OP code
(SelfRefresh)
Clock Suspend Mode Entry
Active
H
L
X
X
X
X
X
X
X
X
Power Down Mode Entry
Any(5)
H
L
X
X
X
X
H
X
X
X
L
H
H
H
Clock Suspend Mode Exit
Active
L
H
X
X
X
X
X
X
X
X
Any
L
H
X
X
X
X
H
X
X
X
L
H
H
H
X
X
X
X
Active
H
X
H
X
X
X
X
1. V=Valid X=Don't Care L=Low level H=High level
2. CKEn signal is input level when commands are provided.
CKEn-1 signal is input level one clock cycle before the commands are provided.
3. These are states of bank designated by BS signal.
4. Device state is 1, 2, 4, 8, and full page burst operation.
5. Power Down Mode can not enter in the burst operation.
When this command is asserted in the burst cycle, device state is clock suspend mode.
X
X
X
Power Down Mode Exit
(PowerDown)
Data Write/Output Enable
Active
H
X
Data Mask/Output Disable
Note:
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to change products or specifications without notice.
L
X
X
X
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T436416D
Commands
1
BankActivate
(RAS# = "L", CAS# = "H", WE# = "H", BAs = Bank, A0-A11 = Row Address)
The BankActivate command activates the idle bank designated by the BA0,1 signals. By latching the row
address on A0 to A11 at the time of this command, the selected row access is initiated. The read or write
operation in the same bank can occur after a time delay of tRCD(min.) from the time of bank activation. A
subsequent BankActivate command to a different row in the same bank can only be issued after the previous
active row has been precharged (refer to the following figure). The minimum time interval between successive
BankActivate commands to the same bank is defined by tRC(min.). The SDRAM has four internal banks on the
same chip and shares part of the internal circuitry to reduce chip area; therefore it restricts the back-to-back
activation of the four banks. tRRD(min.) specifies the minimum time required between activating different banks.
After this command is used, the Write command and the Block Write command perform the no mask write
operation.
T0
T1
T2
T3
Tn+3
CLK
Tn+4
Tn+5
Tn+6
..............
ADDRESS
Bank A
Row Addr.
Bank A
Col Addr.
..............
Bank B
Row Addr.
R/W A with
AutoPrecharge
..............
Bank B
Activate
RAS# - RAS# delay time (tRRD)
RAS# - CAS# delay (tRCD)
COMMAND
Bank A
Activate
NOP
NOP
Bank A
Row Addr.
NOP
NOP
Bank A
Activate
RAS# Cycle time (tRC)
AutoPrecharge
Begin
: "H" or "L"
BankActivate Command Cycle (Burst Length = n, CAS# Latency = 3)
2
BankPrecharge command
(RAS# = "L", CAS# = "H", WE# = "L", BAs = Bank, A10 = "L", A0-A9 and A11 = Don't care)
The BankPrecharge command precharges the bank designated by BA signal. The precharged bank is
switched from the active state to the idle state. This command can be asserted anytime after tRAS(min.) is
satisfied from the BankActivate command in the desired bank. The maximum time any bank can be active is
specified by tRAS(max.). Therefore, the precharge function must be performed in any active bank within
tRAS(max.). At the end of precharge, the precharged bank is still in the idle state and is ready to be activated
again.
3
PrechargeAll command
(RAS# = "L", CAS# = "H", WE# = "L", BAs = Don’t care, A10 = "H", A0-A9 and A11 = Don't care)
The PrechargeAll command precharges all banks simultaneously and can be issued even if all banks are
not in the active state. All banks are then switched to the idle state.
4
Read command
(RAS# = "H", CAS# = "L", WE# = "H", BAs = Bank, A10 = "L", A0-A7 = Column Address)
The Read command is used to read a burst of data on consecutive clock cycles from an active row in an
active bank. The bank must be active for at least tRCD(min.) before the Read command is issued. During read
bursts, the valid data-out element from the starting column address will be available following the CAS#
latency after the issue of the Read command. Each subsequent data-out element will be valid by the next
positive clock edge (refer to the following figure). The DQs go into high-impedance at the end of the burst
unless other command is initiated. The burst length, burst sequence, and CAS# latency are determined by the
mode register, which is already programmed. A full-page burst will continue until terminated (at the end of the
page it will wrap to column 0 and continue).
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T436416D
T0
T1
T2
T3
T4
T5
T6
T7
NOP
NOP
NOP
NOP
T8
CLK
COMMAND
READ A
NOP
NOP
DOUT A0
CAS# latency=2
tCK2, DQ's
DOUT A1
DOUT A0
CAS# latency=3
tCK3, DQ's
DOUT A2
NOP
NOP
DOUT A3
DOUT A1
DOUT A2
DOUT A3
Burst Read Operation(Burst Length = 4, CAS# Latency = 2, 3)
The read data appears on the DQs subject to the values on the DQM inputs two clocks earlier (i.e. DQM
latency is two clocks for output buffers). A read burst without the auto precharge function may be interrupted
by a subsequent Read or Write command to the same bank or the other active bank before the end of the burst
length. It may be interrupted by a BankPrecharge/ PrechargeAll command to the same bank too. The interrupt
coming from the Read command can occur on any clock cycle following a previous Read command (refer to
the following figure).
T0
T1
T2
T3
T4
T5
T6
NOP
NOP
NOP
NOP
DOUT B2
DOUT B3
T7
T8
CLK
COMMAND
READ A
READ B
CAS# latency=2
tCK2, DQ's
NOP
DOUT A0
CAS# latency=3
tCK3, DQ's
DOUT B0
DOUT B1
DOUT A0
DOUT B0
DOUT B1
DOUT B2
NOP
NOP
DOUT B3
Read Interrupted by a Read (Burst Length = 4, CAS# Latency = 2, 3)
The DQM inputs are used to avoid I/O contention on the DQ pins when the interrupt comes from a Write
command. The DQMs must be asserted (HIGH) at least two clocks prior to the Write command to suppress
data-out on the DQ pins. To guarantee the DQ pins against I/O contention, a single cycle with high-impedance
on the DQ pins must occur between the last read data and the Write command (refer to the following three
figures). If the data output of the burst read occurs at the second clock of the burst write, the DQMs must be
asserted (HIGH) at least one clock prior to the Write command to avoid internal bus contention.
T0
T1
T2
NOP
READ A
NOP
T3
T4
T5
T6
T7
T8
NOP
NOP
CLK
DQM
COMMAND
DQ's
NOP
NOP
NOP
DOUT A0
Must be Hi-Z before
the Write Command
WRITE B
DINB 0
DINB1
DINB 2
: "H" or "L"
Read to Write Interval (Burst Length ≥ 4, CAS# Latency = 3)
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T436416D
T0
T1
T2
T3
T4
T5
T6
T7
T8
CLK
1 Clk Interval
DQM
COMMAND
NOP
NOP
BANKA
ACTIVATE
NOP
READ A
CAS# latency=2
tCK2, DQ's
WRITE A
NOP
DIN A0
DIN A1
NOP
NOP
DIN A2
DIN A3
: "H" or "L"
Read to Write Interval (Burst Length ≥ 4, CAS# Latency = 2)
T0
T1
T2
T3
T4
T5
T6
T7
T8
CLK
DQM
COMMAND
NOP
NOP
READ A
NOP
NOP
CAS# latency=2
tCK2, DQ's
WRITE B
NOP
DIN B0
DIN B1
NOP
NOP
DIN B2
DIN B3
: "H" or "L"
Read to Write Interval (Burst Length ≥ 4, CAS# Latency = 2)
A read burst without the auto precharge function may be interrupted by a BankPrecharge/ PrechargeAll
command to the same bank. The following figure shows the optimum time that BankPrecharge/ PrechargeAll
command is issued in different CAS# latency.
T0
T1
T2
T3
T4
T5
T6
T7
T8
CLK
ADDRESS
Bank,
Col A
Bank,
Row
Bank(s)
tRP
COMMAND
CAS# latency=2
tCK2, DQ's
CAS# latency=3
tCK3, DQ's
READ A
NOP
NOP
DOUT A0
NOP
Precharge
NOP
DOUT A1
DOUT A2
DOUT A3
DOUT A0
DOUT A1
DOUT A2
NOP
Activate
NOP
DOUT A3
Read to Precharge (CAS# Latency = 2, 3)
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T436416D
5 Read and AutoPrecharge command
(RAS# = "H", CAS# = "L", WE# = "H", BAs = Bank, A10 = "H", A0-A7 = Column Address)
The Read and AutoPrecharge command automatically performs the precharge operation after the read
operation. Once this command is given, any subsequent command cannot occur within a time delay of {tRP(min.)
+ burst length}. At full-page burst, only the read operation is performed in this command and the auto precharge
function is ignored.
6
Write command
(RAS# = "H", CAS# = "L", WE# = "L", BAs = Bank, A10 = "L", A0-A7 = Column Address)
The Write command is used to write a burst of data on consecutive clock cycles from an active row in an
active bank. The bank must be active for at least tRCD(min.) before the Write command is issued. During write
bursts, the first valid data-in element will be registered coincident with the Write command. Subsequent data
elements will be registered on each successive positive clock edge (refer to the following figure). The DQs
remain with high-impedance at the end of the burst unless another command is initiated. The burst length and
burst sequence are determined by the mode register, which is already programmed. A full-page burst will
continue until terminated (at the end of the page it will wrap to column 0 and continue).
T0
T1
T2
T3
T4
T5
T6
T7
T8
WRITE A
NOP
NOP
NOP
NOP
NOP
NOP
NOP
DIN A0
DIN A1
DIN A2
DIN A3
don't care
CLK
COM MAND
NOP
DQ0 - DQ3
The first data element and the write
are registered on the same clock edge.
Extra data is masked.
Burst Write Operation (Burst Length = 4, CAS# Latency = 1, 2, 3)
A write burst without the auto precharge function may be interrupted by a subsequent Write,
BankPrecharge/PrechargeAll, or Read command before the end of the burst length. An interrupt coming from
Write command can occur on any clock cycle following the previous Write command (refer to the following
figure).
T0
T1
T2
T3
T4
T5
T6
T7
T8
NOP
NOP
NOP
NOP
NOP
NOP
DIN B 1
DIN B2
DIN B3
CLK
COM M AND
NOP
WRITE A
WRITE B
1 Clk Interval
DQ's
DIN A0
DIN B0
Write Interrupted by a Write (Burst Length = 4, CAS# Latency = 1, 2, 3)
The Read command that interrupts a write burst without auto precharge function should be issued one
cycle after the clock edge in which the last data-in element is registered. In order to avoid data contention, input
data must be removed from the DQs at least one clock cycle before the first read data appears on the outputs
(refer to the following figure). Once the Read command is registered, the data inputs will be ignored and writes
will not be executed.
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Publication Date: FEB. 2007
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T436416D
T0
T1
T2
T3
T4
T5
T6
T7
T8
NOP
NOP
NOP
CLK
COMMAND
NOP
WRITE A
NOP
READ B
CAS# latency=2
tCK2, DQ's
DIN A0
don't care
CAS# latency=3
tCK3, DQ's
DIN A0
don't care
NOP
NOP
DOUT B0
DOUT B2
DOUT B1
DOUT B0
don't care
DOUT B3
DOUT B1
DOUT B2
DOUT B3
Input data must be removed from the DQ's at least one clock
cycle before the Read data appears on the outputs to avoid
data contention.
Input data for the write is masked.
Write Interrupted by a Read (Burst Length = 4, CAS# Latency = 2, 3)
The BankPrecharge/PrechargeAll command that interrupts a write burst without the auto precharge
function should be issued m cycles after the clock edge in which the last data-in element is registered, where m
equals tWR/tCK rounded up to the next whole number. In addition, the DQM signals must be used to mask input
data, starting with the clock edge following the last data-in element and ending with the clock edge on which
the BankPrecharge/PrechargeAll command is entered (refer to the following figure).
T0
T1
T2
T3
T4
T5
T6
CLK
DQM
tRP
COM MAND
WRITE
ADDRESS
BA N K
COL n
Precharge
NOP
NOP
NOP
BANK (S)
Activate
NOP
ROW
tWR
DIN
n
DQ
DI N
n+ 1
: don't care
Note: The DQMs can remain low in this example if the length of the write burst is 1 or 2.
Write to Precharge
7
Write and AutoPrecharge command (RAS# = "H", CAS# = "L", WE# = "L", BAs = Bank, A10 = "H", A0-A7
= Column Address)
The Write and AutoPrecharge command performs the precharge operation automatically after the write
operation. Once this command is given, any subsequent command can not occur within a time delay of {(burst
length -1) + tWR + tRP(min.)}. At full-page burst, only the write operation is performed in this command and the
auto precharge function is ignored.
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TE
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T436416D
T0
T1
T2
T3
T4
T5
T6
T7
T8
CLK
COMMAND
Bank A
Activate
NOP
NOP
Write A
AutoPrecharge
NOP
NOP
NOP
NOP
NOP
tDAL
CAS# latency=2
tCK2, DQ's
DIN A0
DIN A1
*
tDAL
CAS# latency=3
tCK3, DQ's
DIN A0
DIN A1
tDAL= tWR + tRP
*
*
Begin AutoPrecharge
Bank can be reactivated at completion of tDAL
Burst Write with Auto-Precharge (Burst Length = 2, CAS# Latency = 2, 3)
8
Mode Register Set command
(RAS# = "L", CAS# = "L", WE# = "L", A0-A11 = Register Data)
The mode register stores the data for controlling the various operating modes of SDRAM. The Mode
Register Set command programs the values of CAS# latency, Addressing Mode and Burst Length in the Mode
register to make SDRAM useful for a variety of different applications. The default values of the Mode Register
after power-up are undefined; therefore this command must be issued at the power-up sequence. The state of
pins A0~A9 and A11 in the same cycle is the data written to the mode register. One clock cycle is required to
complete the write in the mode register (refer to the following figure). The contents of the mode register can be
changed using the same command and the clock cycle requirements during operation as long as all banks are in
the idle state.
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T436416D
T0
T1
T2
T3
T4
T5
T6
T7
T8
T9
T10
CL K
tCK2
CKE
Clock min.
CS#
RAS#
CAS#
WE #
A11
A10
Address Key
A0-A9
DQ M
tRP
DQ
Hi -Z
Mode Register
Set Command
PrechargeAll
Any
Command
Mode Register Set Cycle (CAS# Latency = 2, 3)
The mode register is divided into various fields depending on functionality.
Address
BS0,1
A11,10
A9
Function RFU*
RFU*
WBL
A8
A7
A6
Test Mode
A5
A4
CAS Latency
A3
BT
A2
A1
A0
Burst Length
*Note: RFU (Reserved for future use) should stay “0” during MRS cycle.
• Burst Length Field (A2~A0)
This field specifies the data length of column access using the A2~A0 pins and selects the Burst Length to be 2,
4, 8, or full page.
A2
A1
A0
Burst Length
0
0
0
1
0
0
1
2
0
1
0
4
0
1
1
8
1
0
0
Reserved
1
0
1
Reserved
1
1
0
Reserved
1
1
1
Full Page
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• Burst Type Field (A3)
The Burst Type can be one of two modes, Interleave Mode or Sequential Mode.
A3
Burst Type
0
Sequential
1
Interleave
--- Addressing Sequence of Sequential Mode
An internal column address is performed by increasing the address from the column address which is input to
the device. The internal column address is varied by the Burst Length as shown in the following table. When
the value of column address, (n + m), in the table is larger than 255, only the least significant 8 bits are
effective.
Data n
0
1
2
3
4
5
6
7
-
255
256
257
-
Column Address
n
n+1
n+2
n+3
n+4
n+5
n+6
n+7
-
n+255
n
n+1
-
2 words:
Burst Length
4 words:
8 words:
Full Page: Column address is repeated until terminated.
--- Addressing Sequence of Interleave Mode
A column access is started in the input column address and is performed by inverting the address bits in the
sequence shown in the following table.
Data n
Column Address
Burst Length
Data 0
A7
A6
A5
A4
A3
A2
A1
A0
Data 1
A7
A6
A5
A4
A3
A2
A1
A0#
Data 2
A7
A6
A5
A4
A3
A2
A1#
A0
Data 3
A7
A6
A5
A4
A3
A2
A1#
A0#
Data 4
A7
A6
A5
A4
A3
A2#
A1
A0
Data 5
A7
A6
A5
A4
A3
A2#
A1
A0#
Data 6
A7
A6
A5
A4
A3
A2#
A1#
A0
Data 7
A7
A6
A5
A4
A3
A2#
A1#
A0#
4 words
8 words
• CAS# Latency Field (A6~A4)
This field specifies the number of clock cycles from the assertion of the Read command to the first read data.
The minimum whole value of CAS# Latency depends on the frequency of CLK. The minimum whole value
satisfying the following formula must be programmed into this field.
tCAC(min) ≤ CAS# Latency X tCK
A6
A5
A4
CAS# Latency
0
0
0
Reserved
0
0
1
Reserved
0
1
0
2 clocks
0
1
1
3 clocks
1
X
X
Reserved
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• Test Mode field (A8~A7)
These two bits are used to enter the test mode and must be programmed to "00" in normal operation.
A8
A7
Test Mode
0
0
normal mode
0
1
Vendor Use Only
1
X
Vendor Use Only
• Write Burst Length (A9)
This bit is used to select the burst write length.
9
A9
Write Burst Length
0
Burst
1
Single Bit
No-Operation command
(RAS# = "H", CAS# = "H", WE# = "H")
The No-Operation command is used to perform a NOP to the SDRAM which is selected (CS# is Low).
This prevents unwanted commands from being registered during idle or wait states.
10
Burst Stop command
(RAS# = "H", CAS# = "H", WE# = "L")
The Burst Stop command is used to terminate either fixed-length or full-page bursts. This command is
only effective in a read/write burst without the auto precharge function. The terminated read burst ends after a
delay equal to the CAS# latency (refer to the following figure). The termination of a write burst is shown in the
following figure.
T0
T1
T2
T3
NOP
NOP
T4
T5
T6
T7
T8
NOP
NOP
NOP
NOP
CLK
READ A
COMMAND
NOP
Burst Stop
The burst ends after a delay equal to the CAS# latency.
CAS# latency=2
tCK2, DQ's
DOUT A0
CAS# latency=3
tCK3, DQ's
DOUT A1
DOUT A2
DOUT A3
DOUT A0
DOUT A1
DOUT A2
DOUT A3
Termination of a Burst Read Operation (Burst Length • 4, CAS# Latency = 2, 3)
T0
T1
T2
T3
T4
NOP
NOP
Burst Stop
DIN A1
DIN A2
don't care
T5
T6
T7
T8
NOP
NOP
NOP
NOP
CLK
NOP
COMMAND
CAS# latency= 2, 3
DQ's
WRITE A
DIN A0
Input data for the Write is masked.
Termination of a Burst Write Operation (Burst Length = X, CAS# Latency = 1, 2, 3)
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11
Device Deselect command (CS# = "H")
The Device Deselect command disables the command decoder so that the RAS#, CAS#, WE# and
Address inputs are ignored, regardless of whether the CLK is enabled. This command is similar to the No
Operation command.
12
AutoRefresh command
(RAS# = "L", CAS# = "L", WE# = "H",CKE = "H", A11 = “Don‘t care, A0-A9 = Don't care)
The AutoRefresh command is used during normal operation of the SDRAM and is analogous to CAS#before-RAS# (CBR) Refresh in conventional DRAMs. This command is non-persistent, so it must be issued
each time a refresh is required. The addressing is generated by the internal refresh controller. This makes the
address bits a "don't care" during an AutoRefresh command. The internal refresh counter increments
automatically on every auto refresh cycle to all of the rows. The refresh operation must be performed 2048
times within 32ms. The time required to complete the auto refresh operation is specified by tRC(min.). To
provide the AutoRefresh command, all banks need to be in the idle state and the device must not be in power
down mode (CKE is high in the previous cycle). This command must be followed by NOPs until the auto
refresh operation is completed. The precharge time requirement, tRP(min), must be met before successive auto
refresh operations are performed.
13
SelfRefresh Entry command
(RAS# = "L", CAS# = "L", WE# = "H", CKE = "L", A0-A9 = Don't care)
The SelfRefresh is another refresh mode available in the SDRAM. It is the preferred refresh mode for data
retention and low power operation. Once the SelfRefresh command is registered, all the inputs to the SDRAM
become "don't care" with the exception of CKE, which must remain LOW. The refresh addressing and timing is
internally generated to reduce power consumption. The SDRAM may remain in SelfRefresh mode for an
indefinite period. The SelfRefresh mode is exited by restarting the external clock and then asserting HIGH on
CKE (SelfRefresh Exit command).
14
SelfRefresh Exit command
This command is used to exit from the SelfRefresh mode. Once this command is registered, NOP or
Device Deselect commands must be issued for tRC(min.) because time is required for the completion of any
bank currently being internally refreshed. If auto refresh cycles in bursts are performed during normal operation,
a burst of 4096 auto refresh cycles should be completed just prior to entering and just after exiting the
SelfRefresh mode.
15
Clock Suspend Mode Entry / PowerDown Mode Entry command (CKE = "L")
When the SDRAM is operating the burst cycle, the internal CLK is suspended(masked) from the
subsequent cycle by issuing this command (asserting CKE "LOW"). The device operation is held intact while
CLK is suspended. On the other hand, when all banks are in the idle state, this command performs entry into
the PowerDown mode. All input and output buffers (except the CKE buffer) are turned off in the PowerDown
mode. The device may not remain in the Clock Suspend or PowerDown state longer than the refresh period
(64ms) since the command does not perform any refresh operations.
16
Clock Suspend Mode Exit / PowerDown Mode Exit command (CKE= "H")
When the internal CLK has been suspended, the operation of the internal CLK is reinitiated from the
subsequent cycle by providing this command (asserting CKE "HIGH"). When the device is in the PowerDown
mode, the device exits this mode and all disabled buffers are turned on to the active state. tPDE(min.) is required
when the device exits from the PowerDown mode. Any subsequent commands can be issued after one clock
cycle from the end of this command.
17
Data Write / Output Enable, Data Mask / Output Disable command (DQM = "L", "H")
During a write cycle, the DQM signal functions as a Data Mask and can control every word of the input
data. During a read cycle, the DQM functions as the controller of output buffers. DQM is also used for device
selection, byte selection and bus control in a memory system.
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T436416D
Absolute Maximum Rating
- 5/6/7
- 5G/6G/7G
Symbol
Item
Unit
Note
VIN, VOUT
Input, Output Voltage
- 1.0 ~ 4.6
V
1
VDD, VDDQ
Power Supply Voltage
-1.0 ~ 4.6
V
1
TA
Ambient Temperature
0 ~ 70
°C
1
TSTG
Storage Temperature
- 55 ~ 125
°C
1
TSOLDER
Soldering Temperature (10 second)
°C
1
PD
Power Dissipation
1
W
1
IOUT
Short Circuit Output Current
50
mA
1
245
260
Recommended D.C. Operating Conditions (TA = 0~70°C)
Symbol
Parameter
Min.
Typ.
Max.
Unit
Note
VDD
Power Supply Voltage
3.0
3.3
3.6
V
2
VDDQ
Power Supply Voltage(for I/O Buffer)
3.0
3.3
3.6
V
2
VIH
LVTTL Input High Voltage
2.0
-
4.6
V
2
VIL
LVTTL Input Low Voltage
- 0.3
-
0.8
V
2
Capacitance (VDD = 3.3V, f = 1MHz, Ta = 25°C)
Symbol
CI
CI/O
Parameter
Min.
Max.
Unit
Input Capacitance
2
5
pF
Input/Output Capacitance
4
6.5
pF
Note: These parameters are periodically sampled and are not 100% tested.
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Recommended D.C. Operating Conditions (VDD = 3.3V ± 0.3V, TA = 0~70°C)
-5
Description/Test condition
Operating Current
tRC ≥ tRC(min), Outputs Open
One bank active
Precharge Standby Current in non-power down mode
tCK = tck(min), CS# ≥ VIH(min), CKE ≥ VIH
Input signals are changed very 2clks
Precharge Standby Current in non-power down mode
TCK = ∞, CLK ≤ VIL(max), CKE ≥ VIH
Precharge Standby Current in power down mode
tCK = tck(min), CKE ≤ VIL(max)
Precharge Standby Current in power down mode
TCK = ∞, CKE ≤ VIL(max)
Active Standby Current in non-power down mode
tCK = tck(min), CKE ≥ VIH(min), CS# ≥ VIH(min)
Input signals are changed very 2clks
Active Standby Current in non-power down mode
CKE ≥ VIH(min), CLK ≤ VIL(max), tCK = ∞
Operating Current (Burst mode)
tCK =tCK(min), Outputs Open, Multi-bank interleave
Refresh Current
tRC ≥ tRC(min)
Self Refresh Current
VIH ≥ VDD - 0.2, 0V ≤ VIL ≤ 0.2V
Symbol
IDD1
-6
Max.
-7
85
75
100
IDD2N
25
IDD2NS
15
IDD2P
2
IDD2PS
2
IDD3N
30
IDD3NS
25
Unit
3
3
3
mA
IDD4
120
100
90
3, 4
IDD5
150
130
120
3
2
IDD6
Parameter
Description
Min.
Max.
IIL
Input Leakage Current
( 0V ≤ VIN ≤ VDD, All other pins not under test = 0V )
-1
1
uA
IOL
Output Leakage Current
Output disable, 0V ≤ VOUT ≤ VDDQ)
-1
1
uA
VOH
LVTTL Output "H" Level Voltage
( IOUT = -2mA )
2.4
-
V
VOL
LVTTL Output "L" Level Voltage
( IOUT = 2mA )
-
0.4
V
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Note
Unit Note
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T436416D
Electrical Characteristics and Recommended A.C. Operating Conditions
(VDD = 3.3V±0.3V, TA = 0~70°C) (Note: 5, 6, 7, 8)
- 5/6/7
Symbol
tRC
A.C. Parameter
Min.
tWR
Row cycle time
(same bank)
RAS# to CAS# delay
(same bank)
Precharge to refresh/row activate command (same
bank)
Row activate to row activate delay
(different banks)
Row activate to precharge time
(same bank)
Write recovery time
tCCD
CAS# to CAS# Delay time
tRCD
tRP
tRRD
tRAS
tCK2
tCK3
Clock cycle time
Max.
Unit
Note
50/60/63
15/18/20
ns
15/18/20
10/12/14
35/42/45
2
CLK
1
CL* = 2
10/10/10
CL* = 3
5/6/7
9
tCH
Clock high time
2/2.5/2.5
10
tCL
Clock low time
2/2.5/2.5
10
tAC2
tAC3
Access time from CLK
(positive edge)
tOH
Data output hold time
tLZ
Data output low impedance
tHZ
Data output high impedance
tIS
Data/Address/Control Input set-up time
tIH
Data/Address/Control Input hold time
tPDE
Power Down Exit set-up time
CL* = 2
6/6/6
CL* = 3
4.5/5/5.4
10
ns
2/2.5/2.7
9
1
4.5/5/5.4
8
1.5/1.5/1.5
10
1
10
1.5/1.5/1.5
* CL is CAS# Latency.
Note:
1.
Stress greater than those listed under "Absolute Maximum Ratings" may cause permanent damage to the device.
2.
All voltages are referenced to VSS.
3.
These parameters depend on the cycle rate and these values are measured by the cycle rate under the minimum
value of tCK and tRC. Input signals are changed one time during tCK.
4.
These parameters depend on the output loading. Specified values are obtained with the output open.
5.
Power-up sequence is described in Note 11.
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6. A.C. Test Conditions
LVTTL Interface
Reference Level of Output Signals
1.4V / 1.4V
Output Load
Reference to the Under Output Load (B)
Input Signal Levels
2.4V / 0.4V
Transition Time (Rise and Fall) of Input Signals
1ns
Reference Level of Input Signals
1.4V
1.4V
3.3V
50Ω
1.2kΩ
Z0= 5 0 Ω
Output
Output
30pF
30pF
870Ω
LVTTL D.C. Test Load (A)
LVTTL A.C. Test Load (B)
7.
Transition times are measured between VIH and VIL. Transition(rise and fall) of input signals are in a fixed slope (1
ns).
8.
tHZ defines the time in which the outputs achieve the open circuit condition and are not at reference levels.
9.
If clock rising time is longer than 1 ns, ( tR / 2 -0.5) ns should be added to the parameter.
10. Assumed input rise and fall time tT ( tR & tF ) = 1 ns
If tR or tF is longer than 1 ns, transient time compensation should be considered, i.e., [(tr + tf)/2 - 1] ns should be
added to the parameter.
11. Power up Sequence
Power up must be performed in the following sequence.
1) Power must be applied to VDD and VDDQ(simultaneously) when all input signals are held "NOP" state and both
CKE = "H" and DQM = "H." The CLK signals must be started at the same time.
2) After power-up, a pause of 200us minimum is required. Then, it is recommended that DQM is held "HIGH"
(VDD levels) to ensure DQ output is in high impedance.
3) All banks must be precharged.
4) Mode Register Set command must be asserted to initialize the Mode register.
5) A minimum of 2 Auto-Refresh dummy cycles must be required to stabilize the internal circuitry of the device.
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T436416D
Timing Waveforms
Figure 1. AC Parameters for Write Timing (Burst Length=4, CAS# Latency=2)
T0
T 1 T2
T3
T4
T5
T6
T7
T8
T9
T10 T 11 T12 T13 T14 T15 T16 T17 T18 T19 T20 T21 T22
CLK
tCL
tCH
tCK2
t IS
CKE
t IS
Begin AutoPrecharge
Bank A
Begin AutoPrecharge
Bank B
t IH
t IS
CS#
RAS#
CAS#
WE#
BA0,1
t IH
A10
RAx
RAy
RBx
RAz
RBy
RAz
RBy
t IS
A0-A9,A11
CAx
RBx
RBx
CBx
RAy
CAy
DQM
tRCD
tDAL
tRC
t IS
DQ
Ax0
Ax1 Ax2
Ax3
Bx0
Bx1
Bx2
Activate
Write with
Activate
Write with
Activate
Command AutoPrecharge Command AutoPrecharge Command
Bank A
Command
Bank B
Command
Bank A
Bank A
Bank B
tWR
t IH
Hi-Z
Bx3
Ay0
Write
Command
Bank A
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Ay1
Ay2
tRP
tRRD
Ay3
Precharge
Command
Bank A
Activate
Command
Bank A
Activate
Command
Bank B
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T436416D
Figure 2. AC Parameters for Read Timing (Burst Length=2, CAS# Latency=2)
T0
T1
T2
T3
T4
T5
T6
T7
T8
T9
T10
T 11
T12
T13
CLK
tCK2
tCH tCL
CKE
Begin AutoPrecharge
Bank B
t IS
t IH
tIH
t IS
CS#
RAS#
CAS#
WE#
BA0,1
t IH
A10
RBx
RAx
RAy
t IS
A0-A9,A11
RAx
CAx
CBx
RBx
RAy
tRRD
tRAS
tRC
DQM
tAC2
t LZ
tRCD
Hi-Z
DQ
tAC2
Ax0
tRP
t HZ
Ax1
Bx0
tHZ
t OH
Activate
Command
Bank A
Read
Command
Bank A
Activate
Command
Bank B
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Bx1
Read with
Auto Precharge
Command
Bank B
Precharge
Command
Bank A
Activate
Command
Bank A
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T436416D
Figure 3. Auto Refresh (CBR) (Burst Length=4, CAS# Latency=2)
T0
T 1 T2
T3
T4
T5
T6
T7
T8
T9
T10 T 11 T12 T13 T14 T15 T16 T17 T18 T19 T20 T21 T22
CLK
tCK2
CKE
CS#
RAS#
CAS#
WE#
BA0,1
A10
RAx
A0-A9,A11
RAx
DQM
tRP
tRC
CAx
tRC
Ax0 Ax1
DQ
PrechargeAll AutoRefresh
Command
Command
AutoRefresh
Command
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Activate
Command
Bank A
Ax2
Ax3
Read
Command
Bank A
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T436416D
Figure 4. Power on Sequence and Auto Refresh (CBR)
T0
T 1 T2
T3
T4
T5
T6
T7
T8
T9
T10 T 11 T12 T13 T14 T15 T16 T17 T18 T19 T20 T21 T22
CLK
tCK2
CKE
High level
is reauired
Minimum of 2 Refresh Cycles are required
CS#
RAS#
CAS#
WE#
BA0,1
A10
Address Key
A0-A9,A11
DQM
tRP
DQ
tRC
Hi-Z
PrechargeALL
Command
Inputs must be
stable for 200 µs
1st AutoRefresh
Command
Mode Register
Set Command
2nd Auto Refresh
Command
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Any
Command
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Figure 5. Self Refresh Entry & Exit Cycle
T0
T1
T2
T3
T4
T5
T6
T7
T8
T9
T10
T11
T12
T13
T14
T15
T16
T17
T18
T19
CLK
*Note 2
*Note 4
*Note 1
tRC(min)
tPDE
*Note 3
CKE
*Note 7
tSRX
*Note 5
t IS
*Note 6
CS#
RAS#
*Note 8
*Note 8
CAS#
BA0,1
A0-A9,A11
WE#
DQM
DQ
Hi-Z
Hi-Z
Self Refresh Enter
SelfRefresh Exit
AutoRefresh
Note: To Enter SelfRefresh Mode
1. CS#, RAS# & CAS# with CKE should be low at the same clock cycle.
2. After 1 clock cycle, all the inputs including the system clock can be don't care except for CKE.
3. The device remains in SelfRefresh mode as long as CKE stays "low".
Once the device enters SelfRefresh mode, minimum tRAS is required before exit from SelfRefresh.
To Exit SelfRefresh Mode
1. System clock restart and be stable before returning CKE high.
2. Enable CKE and CKE should be set high for minimum time of tSRX.
3. CS# starts from high.
4. Minimum tRC is required after CKE going high to complete SelfRefresh exit.
5. 2048 cycles of burst AutoRefresh is required before SelfRefresh entry and after SelfRefresh exit if the
burst refresh.
TM Technology Inc. reserves the right
P. 24
to change products or specifications without notice.
system uses
Publication Date: FEB. 2007
Revision: A
tm
TE
CH
T436416D
Figure 6.1. Clock Suspension During Burst Read (Using CKE)
(Burst Length=4, CAS# Latency=1)
T0
T 1 T2
T3
T4
T5
T6
T
7
T8
T9
T10 T 11 T1
T13 T14 T15 T16 T17 T1
T19 T20 T21 T22
CLK
tCK1
CKE
CS#
RAS#
CAS#
WE#
BA0,1
A10
A0-A9,A11
RAx
RAx
CAx
DQM
tHZ
DQ Hi-Z
Ax3
Ax0
Activate
Command
Bank A
Read
Command
Bank A
Ax1
Ax2
Clock Suspend Clock Suspend
1 Cycle
2 Cycles
Clock Suspend
3 Cycles
Note: CKE to CLK disable/enable = 1 clock
TM Technology Inc. reserves the right
P. 25
to change products or specifications without notice.
Publication Date: FEB. 2007
Revision: A
tm
TE
CH
T436416D
Figure 6.2. Clock Suspension During Burst Read (Using CKE)
(Burst Length=4, CAS# Latency=2)
T0
T 1 T2
T3
T4
T5
T6
T7
T8
T9
T10 T 11 T12 T13 T14 T15 T16 T17 T18 T19 T20 T21 T22
CLK
tCK2
CKE
CS#
RAS#
CAS#
WE#
BA0,1
A10
A0-A9,A11
RAx
RAx
CAx
DQM
t HZ
DQ Hi-Z
Ax0
Activate
Command
Bank A
Read
Command
Bank A
Ax1
Clock Suspend
1 Cycle
Ax3
Ax2
Clock Suspend
2 Cycles
Clock Suspend
3 Cycles
Note: CKE to CLK disable/enable = 1 clock
TM Technology Inc. reserves the right
P. 26
to change products or specifications without notice.
Publication Date: FEB. 2007
Revision: A
tm
TE
CH
T436416D
Figure 6.3. Clock Suspension During Burst Read (Using CKE)
(Burst Length=4, CAS# Latency=3)
T0
T 1 T 2 T3
T4
T5
T6
T7
T8
T9
T10 T 11 T12 T13 T14 T15 T16 T17 T18 T19 T20 T21 T22
CLK
tCK3
CKE
CS#
RAS#
CAS#
WE#
BA0,1
A10
A0-A9,A11
RAx
RAx
CAx
DQM
t HZ
DQ Hi-Z
Ax0
Activate
Command
Bank A
Read
Command
Bank A
Ax1
Ax2
Clock Suspend Clock Suspend
1 Cycle
2 Cycles
Ax3
Clock Suspend
3 Cycles
Note: CKE to CLK disable/enable = 1 clock
TM Technology Inc. reserves the right
P. 27
to change products or specifications without notice.
Publication Date: FEB. 2007
Revision: A
tm
TE
CH
T436416D
Figure 7.1. Clock Suspension During Burst Write (Using CKE)
(Burst Length = 4, CAS# Latency = 1)
T0
T 1 T2
T3
T4
T5
T6
T7
T8
T9
T10 T 11 T12 T13 T14 T15 T16 T17 T18 T19 T20 T21 T22
CLK
tCK1
CKE
CS#
RAS#
CAS#
WE#
BA0,1
A10
RAx
A0-A9,A11
RAx
CAx
DQM
DQ
Hi-Z
DAx0
DAx1
Activate Clock Suspend
Command
1 Cycle
Bank A
Write
Command
Bank A
DAx2
Clock Suspend
2 Cycles
DAx3
Clock Suspend
3 Cycles
Note: CKE to CLK disable/enable = 1 clock
TM Technology Inc. reserves the right
P. 28
to change products or specifications without notice.
Publication Date: FEB. 2007
Revision: A
tm
TE
CH
T436416D
Figure 7.2. Clock Suspension During Burst Write (Using CKE)
(Burst Length=4, CAS# Latency=2)
T0
T 1 T2
T3
T4
T5
T6
T7
T8
T9
T10 T 11 T12 T13 T14 T15 T16 T17 T18 T19 T20 T21
T2
2
CLK
tCK2
CKE
CS#
RAS#
CAS#
WE#
BA0,1
A10
RAx
A0-A9,A11
RAx
CAx
DQM
DQ Hi-Z
DAx0
Activate
Command
Bank A
DAx1
DAx2
Clock Suspend Clock Suspend
1 Cycle
2 Cycles
DAx3
Clock Suspend
3 Cycles
Write
Command
Bank A
Note: CKE to CLK disable/enable = 1 clock
TM Technology Inc. reserves the right
P. 29
to change products or specifications without notice.
Publication Date: FEB. 2007
Revision: A
tm
TE
CH
T436416D
Figure 7.3. Clock Suspension During Burst Write (Using CKE)
(Burst Length=4, CAS# Latency=3)
T0
T 1 T2
T3
T4
T5
T6
T7
T8
T9
T10 T 11 T12 T13 T14 T15 T16 T17 T18 T19 T20 T21 T22
CLK
tCK3
CKE
CS#
RAS#
CAS#
WE#
BA0,1
A10
RAx
A0-A9,A11
RAx
CAx
DQM
DQ
Hi-Z
DAx0
Activate
Command
Bank A
DAx1
DAx2
Clock Suspend Clock Suspend
1 Cycle
2 Cycles
Write
Command
Bank A
DAx3
Clock Suspend
3 Cycles
Note: CKE to CLK disable/enable = 1 clock
TM Technology Inc. reserves the right
P. 30
to change products or specifications without notice.
Publication Date: FEB. 2007
Revision: A
tm
TE
CH
T436416D
Figure 8. Power Down Mode and Clock Mask (Burst Length=4, CAS# Latency=2)
T0
T 1 T2
T3
T4
T5
T6
T7
T8
T9
T10 T 11 T12 T13 T14 T15 T16 T17 T18 T19 T20 T21 T22
CLK
tCK2
tPDE
t IS
CKE
Valid
CS#
RAS#
CAS#
WE#
BA0,1
RAx
A10
RAx
A0~A9,A11
CAx
DQM
tHZ
Hi-Z
Ax0
DQ
ACTIVE
STANDBY
Activate
Read
Command
Command
Bank A
Bank A
Power Down
Power Down
Mode Entry
Mode Exit
Ax1
Clock Mask
Start
TM Technology Inc. reserves the right
P. 31
to change products or specifications without notice.
Ax2
Clock Mask
End
Ax3
Precharge
Command
Bank A
Power Down
Mode Entry
PRECHARGE
STANDBY
Power Down
Mode Exit
Any
Command
Publication Date: FEB. 2007
Revision: A
tm
TE
CH
T436416D
Figure 9.1. Random Column Read (Page within same Bank)
(Burst Length=4, CAS# Latency=1)
T0
T 1 T2
T3
T4
T5
T6
T7
T8
T9
T10 T 11 T12 T13 T14 T15 T16 T17 T18 T19 T20 T21 T22
CLK
tCK1
CKE
CS#
RAS#
CAS#
WE#
BA0,1
A10
A0~A9,A11
RAz
RAw
RAw CAw
CAx
CAy
RAz
CAz
DQM
DQHi-Z
Aw0
Activate
Command
Bank A
Read
Command
Bank A
Aw1 Aw2
Aw3 Ax0
Read
Command
Bank A
Ax1
Ay0
Ay1 Ay2
Read
Command
Bank A
TM Technology Inc. reserves the right
P. 32
to change products or specifications without notice.
Ay3
Az0
Az1 Az2
Az3
Precharge
Read
Command
Command
Bank A
Bank A
Activate
Command
Bank A
Publication Date: FEB. 2007
Revision: A
tm
TE
CH
T436416D
Figure 9.2. Random Column Read (Page within same Bank)
(Burst Length=4, CAS# Latency=2)
T0
T 1 T2
T3
T4
T5
T6
T7
T8
T9
T10 T 11 T12 T13 T14 T15 T16 T17 T18 T19 T20 T21 T22
CLK
tCK2
CKE
CS#
RAS#
CAS#
WE#
BA0,1
A10
A0~A9,A11
RAz
RAw
RAw
CAw
CAx
RAz
CAy
CAz
DQM
DQ Hi-Z
Aw0
Activate
Command
Bank A
Read
Command
Bank A
Aw1 Aw2
Read
Command
Bank A
Aw3
Ax0
Ax1 Ay0
Read
Command
Bank A
TM Technology Inc. reserves the right
P. 33
to change products or specifications without notice.
Ay1
Ay2
Az0
Ay3
Precharge Activate
Command Command
Bank A
Bank A
Az1
Az2
Az3
Read
Command
Bank A
Publication Date: FEB. 2007
Revision: A
tm
TE
CH
T436416D
Figure 9.3. Random Column Read (Page within same Bank)
(Burst Length=4, CAS# Latency=3)
T0
T 1 T2
T3
T4
T5
T6
T7
T8
T9
T10 T 11 T12 T13 T14 T15 T16 T17 T18 T19 T20 T21 T22
CLK
tCK3
CKE
CS#
RAS#
CAS#
WE#
BA0,1
A10
A0~A9,A11
RAz
RAw
RAw
CAw
CAy
CAx
RAz
CAz
DQM
DQ Hi-Z
Aw0
Activate
Command
Bank A
Read
Command
Bank A
Aw1
Aw2
Read
Command
Bank A
Aw3
Ax0 Ax1
Read
Command
Bank A
TM Technology Inc. reserves the right
P. 34
to change products or specifications without notice.
Ay0
Ay1
Precharge
Command
Bank A
Ay2
Az0
Ay3
Activate
Command
Bank A
Read
Command
Bank A
Publication Date: FEB. 2007
Revision: A
tm
TE
CH
T436416D
Figure 10.1. Random Column Write (Page within same Bank)
(Burst Length=4, CAS# Latency=1)
T0
T 1 T2
T3
T4
T5
T6
T7
T8
T9
T10 T 11 T12 T13 T14 T15 T16 T17 T18 T19 T20 T21 T22
CLK
tCK1
CKE
CS#
RAS#
CAS#
WE#
BA0,1
A10
A0~A9,A11
RBz
RBw
RBw
CBw
CBy
CBx
RBz
CBz
DQM
DQHi-Z
DBw0DBw1DBw2
Activate
Command
Bank A
Write
Command
Bank B
DBw3 DBx0
DBx1 DBy0 DBy1
Write
Command
Bank A
DBy2 DBy3
Write
Command
Bank B
TM Technology Inc. reserves the right
P. 35
to change products or specifications without notice.
Precharge
Command
Bank B
Activate
Command
Bank B
DBz0 DBz1
DBz2 DBz3
Write
Command
Bank B
Publication Date: FEB. 2007
Revision: A
tm
TE
CH
T436416D
Figure 10.2. Random Column Write (Page within same Bank)
(Burst Length=4, CAS# Latency=2)
T0
T 1 T2
T3
T4
T5
T6
T7
T8
T9
T10 T 11 T12 T13 T14 T15 T16 T17 T18 T19 T20 T21 T22
CLK
tCK2
CKE
CS#
RAS#
CAS#
WE#
BA0,1
A10
A0~A9,A11
RBz
RBw
RBw
CBw
CBx
CBy
RBz
CBz
DQM
DQ Hi-Z
DBw0 DBw1DBw2 DBw3 DBx0 DBx1DBy0 DBy1
Activate
Command
Bank A
Write
Command
Bank B
Write
Command
Bank B
DBy2 DBy3
Write
Command
Bank B
TM Technology Inc. reserves the right
P. 36
to change products or specifications without notice.
Precharge Activate
Command Command
Bank B
Bank B
DBz0 DBz1DBz2 DBz3
Write
Command
Bank B
Publication Date: FEB. 2007
Revision: A
tm
TE
CH
T436416D
Figure 10.3. Random Column Write (Page within same Bank)
(Burst Length=4, CAS# Latency=3)
T0
T 1 T2
T3
T4
T5
T6
T7
T8
T9
T10 T 11 T12 T13 T14 T15 T16 T17 T18 T19 T20 T21 T22
CLK
tCK3
CKE
CS#
RAS#
CAS#
WE#
BA0,1
A10
RBw
A0~A9,A11
RBw
RBz
CBw
CBx
CBy
RBz
CBz
DQM
DQ Hi-Z
DBw0 DBw1DBw2 DBw3 DBx0 DBx1 DBy0 DBy1 DBy2 DBy3
Activate
Command
Bank A
Write
Command
Bank B
Write
Command
Bank B
Write
Command
Bank B
TM Technology Inc. reserves the right
P. 37
to change products or specifications without notice.
DBz0 DBz1 DBz2
Precharge
Command
Bank B
Activate
Command
Bank B
Write
Command
Bank B
Publication Date: FEB. 2007
Revision: A
tm
TE
CH
T436416D
Figure 11.1. Random Row Read (Interleaving Banks)
(Burst Length=8, CAS# Latency=1)
T0
T 1 T2
T3
T4
T5
T6
T7
T8
T9
T10 T 11 T12 T13 T14 T15 T16 T17 T18 T19 T20 T21 T22
CLK
tCK1
CKE High
CS#
RAS#
CAS#
WE#
BA0,1
RBx
A10
RAx
RAx
RBx CBx
A0~A9,A11
RBy
RBy
CAx
CBy
tRCD
tRP
tAC1
DQM
DQHi-Z
Bx0
Activate
Command
Bank B
Read
Command
Bank B
Bx1
Bx2
Bx3 Bx4
Bx5
Bx6
Bx7
Ax0
Ax1
Ax2 Ax3
Precharge
Command
Bank B
Activate
Read
Command
Command
Bank B
Bank A
Activate
Command
Bank A
TM Technology Inc. reserves the right
P. 38
to change products or specifications without notice.
Ax4
Ax5
Ax6 Ax7
By0
Read
Command
Bank B
By1
By2
Precharge
Command
Bank A
Publication Date: FEB. 2007
Revision: A
tm
TE
CH
T436416D
Figure 11.2. Random Row Read (Interleaving Banks)
(Burst Length=8, CAS# Latency=2)
T0
T 1 T2
T3
T4
T5
T6
T7
T8
T9
T10 T 11 T12 T13 T14 T15 T16 T17 T18 T19 T20 T21 T22
CLK
tCK2
CKE High
CS#
RAS#
CAS#
WE#
BA0,1
RBx
A10
RAx
RAx
CBx
RBx
A0~A9,A11
tRCD
RBy
RBy
CAx
tAC2
tRP
DQM
DQHi-Z
Activate
Command
Bank B
Bx0
Read
Command
Bank B
CBy
Bx1
Bx2
Bx3 Bx4
Activate
Command
Bank A
Bx5
Bx6
Bx7
Ax0
Precharge
Command
Bank B
Read
Command
Bank A
TM Technology Inc. reserves the right
P. 39
to change products or specifications without notice.
Ax1
Activate
Command
Bank B
Ax2 Ax3
Ax4
Ax5
Ax6
Ax7
By0
By1
Read
Command
Bank B
Publication Date: FEB. 2007
Revision: A
tm
TE
CH
T436416D
Figure 11.3. Random Row Read (Interleaving Banks)
(Burst Length=8, CAS# Latency=3)
T0
T 1 T2
T3
T4
T5
T6
T7
T8
T9
T10 T 11 T12 T13 T14 T15 T16 T17 T18 T19 T20 T21 T22
CLK
tCK3
High
CKE
CS#
RAS#
CAS#
WE#
BA0,1
A10
RBx
RAx
RBx
A0~A9,A11
RAx
CBx
tRCD
RBy
RBy
CAx
tAC3
tRP
DQM
DQHi-Z
Activate
Command
Bank B
Bx0
Read
Command
Bank B
CBy
Bx1 Bx2
Bx3
Activate
Command
Bank A
Bx4
Bx5
Read
Command
Bank A
TM Technology Inc. reserves the right
P. 40
to change products or specifications without notice.
Bx6 Bx7
Precharge
Command
Bank B
Ax0
Ax1 Ax2
Activate
Command
Bank B
Ax3
Ax4
Ax5 Ax6
Read
Command
Bank B
Ax7
By0
Precharge
Command
Bank A
Publication Date: FEB. 2007
Revision: A
tm
TE
CH
T436416D
Figure 12.1. Random Row Write (Interleaving Banks)
(Burst Length=8, CAS# Latency=1)
T0
T 1 T2
T3
T4
T5
T6
T7
T8
T9
T10 T 11 T12 T13 T14 T15 T16 T17 T18 T19 T20 T21 T22
CLK
tCK1
CKEHigh
CS#
RAS#
CAS#
WE#
BA0,1
A10
RAx
A0~A9,A11
RAx
CAx
RBx
RAy
RBx CBx
RAy
tRCD
CAy
tRP
tWR
DQM
Hi-Z
DQ
DAx0
DAx1 DAx2
DAx3
Activate
Command
Bank A
Write
Command
Bank A
DAx4 DAx5 DAx6 DAx7 DBx0 DBx1 DBx2 DBx3DBx4 DBx5 DBx6 DBx7
Activate
Command
Bank B
Write
Command
Bank B
TM Technology Inc. reserves the right
P. 41
to change products or specifications without notice.
Precharge
Command
Bank A
Activate
Command
Bank A
DAy0 DAy1 DAy2 DAy3
Precharge
Command
Bank B
Write
Command
Bank A
Publication Date: FEB. 2007
Revision: A
tm
TE
CH
T436416D
Figure 12.2. Random Row Write (Interleaving Banks)
(Burst Length=8, CAS# Latency=2)
T0
T 1 T2
T3
T4
T5
T6
T7
T8
T9
T10 T 11 T12 T13 T14 T15 T16 T17 T18 T19 T20 T21 T22
CLK
tCK2
High
CKE
CS#
RAS#
CAS#
WE#
BA0,1
A10
RAx
A0~A9,A11
RAx
RAy
RBx
CAx
RBx
tRCD
RAy
CBx
tWR*
tRP
CAy
tWR*
DQM
DQHi-Z
DAx0 DAx1 DAx2 DAx3 DAx4DAx5
Activate
Write
Command Command
Bank A
Bank A
DAx6 DAx7 DBx0 DBx1 DBx2 DBx3 DBx4 DBx5 DBx6 DBx7 DAy0 DAy1DAy2
Activate
Command
Bank B
Write
Command
Bank B
Precharge
Command
Bank A
Activate
Command
Bank A
DAy3 DAy4
Write
Command
Bank A
Precharge
Command
Bank B
* tWR > tWR(min.)
TM Technology Inc. reserves the right
P. 42
to change products or specifications without notice.
Publication Date: FEB. 2007
Revision: A
tm
TE
CH
T436416D
Figure 12.3. Random Row Write (Interleaving Banks)
(Burst Length=8, CAS# Latency=3)
T0
T 1 T2
T3
T4
T5
T6
T7
T8
T9
T10 T 11 T12 T13 T14 T15 T16 T17 T18 T19 T20 T21 T22
CLK
tCK3
CKE
High
CS#
RAS#
CAS#
WE#
BA0,1
A10
RAx
A0~A9,A11
RAx
RBx
CAx
RAy
CBx
RBx
tRCD
RAy
tWR*
CAy
tRP
tWR*
DQM
Hi-Z
DQ
Activate
Command
Bank A
DAx0 DAx1 DAx2 DAx3DAx4 DAx5
Write
Command
Bank A
DAx6 DAx7 DBx0 DBx1DBx2
Activate
Command
Bank B
Write
Command
Bank B
DBx3 DBx4 DBx5 DBx6 DBx7 DAy0
Precharge
Command
Bank A
Activate
Command
Bank A
Write
Command
Bank A
DAy1 DAy2 DAy3
Precharge
Command
Bank B
* tWR > tWR(min.)
TM Technology Inc. reserves the right
P. 43
to change products or specifications without notice.
Publication Date: FEB. 2007
Revision: A
tm
TE
CH
T436416D
Figure 13.1. Read and Write Cycle (Burst Length=4, CAS# Latency=1)
T0
T 1 T2
T3
T4
T5
T6
T7
T8
T9
T10 T 11 T12 T13 T14 T15 T16 T17 T18 T19 T20 T21 T22
CLK
tCK1
CKE
CS#
RAS#
CAS#
WE#
BA0,1
A10
A0~A9,A11
RAx
RAx CAx
CAy
CAz
DQM
DQ Hi-Z
Ax0 Ax1
Activate
Command
Bank A
Read
Command
Bank A
Ax2
Ax3
DAy0DAy1
DAy3
Az0
Read
The Write Data
Write
Command is Masked with a Command
Bank
A
Zero Clock
Bank A
Latency
TM Technology Inc. reserves the right
P. 44
to change products or specifications without notice.
Az1
Az3
The Read Data
is Masked with a
Two Clock
Latency
Precharge
Command
Bank B
Publication Date: FEB. 2007
Revision: A
tm
TE
CH
T436416D
Figure 13.2. Read and Write Cycle (Burst Length=4, CAS# Latency=2)
T0
T 1 T2
T3
T4
T5
T6
T7
T8
T9
T10 T 11 T12 T13 T14 T15 T16 T17 T18 T19 T20 T21 T22
CLK
tCK2
CKE
CS#
RAS#
CAS#
WE#
BA0,1
A10
RAx
A0~A9,A11
RAx
CAx
CAz
CAy
DQM
DQ Hi-Z
Ax0
Activate
Command
Bank A
Read
Command
Bank A
Ax1
Ax2
Ax3
DAy0 DAy1
DAy3
Write
The Write Data
Command is Masked with a
Bank A
Zero Clock
Latency
TM Technology Inc. reserves the right
P. 45
to change products or specifications without notice.
Az0
Read
Command
Bank A
Az1
Az3
The Read Data
is Masked with a
Two Clock
Latency
Publication Date: FEB. 2007
Revision: A
tm
TE
CH
T436416D
Figure 13.3. Read and Write Cycle (Burst Length=4, CAS# Latency=3)
T0
T 1 T2
T3
T4
T5
T6
T7
T8
T9
T10 T 11 T12 T13 T14 T15 T16 T17 T18 T19 T20 T21 T22
CLK
tCK3
CKE
CS#
RAS#
CAS#
WE#
BA0,1
A10
RAx
A0~A9,A11
RAx
CAy
CAx
CAz
DQM
DQ Hi-Z
Ax0
Activate
Command
Bank A
Ax1
Ax2 Ax3
Read
Command
Bank A
TM Technology Inc. reserves the right
P. 46
to change products or specifications without notice.
DAy0 DAy1
DAy3
Az0
Write
The Write Data
Read
Command is Masked with a Command
Bank A
Zero Clock
Bank A
Latency
Az1
Az3
The Read Data
is Masked with a
Two Clock
Latency
Publication Date: FEB. 2007
Revision: A
tm
TE
CH
T436416D
Figure 14.1. Interleaving Column Read Cycle (Burst Length=4, CAS# Latency=1)
T0
T 1 T2
T3
T4
T5
T6
T7
T8
T9
T10 T 11 T12 T13 T14 T15 T16 T17 T18 T19 T20 T21 T22
CLK
tCK1
CKE
CS#
RAS#
CAS#
WE#
BA0,1
A10
A0~A9,A11
RBw
RAx RAx
RBw
CBw
CBx
Ax3 Bw0
Bw1
CBy
CAy
CBz
tRCD tAC1
DQM
DQ
RAx
Hi-Z
Ax0
Activate
Command
Bank A
Read
Command
Bank A
Ax1 Ax2
Activate
Command
Bank B Read
Command
Bank B
Bx0 Bx1
Read
Command
Bank B
By0
Read
Command
Bank B
TM Technology Inc. reserves the right
P. 47
to change products or specifications without notice.
By1 Ay0
Read
Command
Bank A
Ay1
Bz0
Read
Command
Bank B
Bz1
Precharge
Command
Bank A
Bz2 Bz3
Precharge
Command
Bank B
Publication Date: FEB. 2007
Revision: A
tm
TE
CH
T436416D
Figure 14.2. Interleaving Column Read Cycle (Burst Length=4, CAS# Latency=2)
T0
T 1 T2
T3
T4
T5
T6
T7
T8
T9
T10 T 11 T12 T13 T14 T15 T16 T17 T18 T19 T20 T21 T22
CLK
tCK2
CKE
CS#
RAS#
CAS#
WE#
BA0,1
A10
RAx
A0~A9,A11
RAx
CAy
tRCD
DQM
DQ
RAx
RAx
CBy
CAy
CBz
By0
By1 Ay0
tAC2
Hi-Z
Ax0
Activate
Command
Bank A
CBx
CBw
Read
Command
Bank A
Ax1 Ax2
Activate
Command
Bank B
Ax3 Bw0
Read
Command
Bank B
Read
Command
Bank B
Bw1
Bx0 Bx1
Read
Command
Bank B
TM Technology Inc. reserves the right
P. 48
to change products or specifications without notice.
Read
Command
Bank A
Ay1
Read
Command
Bank B
Precharge
Command
Bank A
Bz0
Bz1
Bz2 Bz3
Precharge
Command
Bank B
Publication Date: FEB. 2007
Revision: A
tm
TE
CH
T436416D
Figure 14.3. Interleaved Column Read Cycle (Burst Length=4, CAS# Latency=3)
T0
T 1 T2
T3
T4
T5
T6
T7
T8
T9
T10 T 11 T12 T13 T14 T15 T16 T17 T18 T19 T20 T21 T22
CLK
tCK3
CKE
CS#
RAS#
CAS#
WE#
BA0,1
A10
RAx
A0~A9,A11
RAx
CAx
tRCD
DQM
DQ
RBx
RBx
CBx
CBy
CBz
CAy
tAC3
Hi-Z
Ax0
Activate
Command
Bank A
Read
Command
Bank A
Activate
Command
Bank B
Ax1 Ax2
Read
Command
Bank B
Ax3 Bx0
Read
Command
Bank B
TM Technology Inc. reserves the right
P. 49
to change products or specifications without notice.
Bx1
By0 By1
Read
Command
Bank B
Bz0
Bz1 Ay0
Read Prechaerge
CommandCommand
Bank A Bank B
Ay1
Ay2
Ay3
Precharge
Command
Bank A
Publication Date: FEB. 2007
Revision: A
tm
TE
CH
T436416D
Figure 15.1. Interleaved Column Write Cycle (Burst Length=4, CAS# Latency=1)
T0
T 1 T2
T3
T4
T5
T6
T7
T8
T9
T10 T 11 T12 T13 T14 T15 T16 T17 T18 T19 T20 T21 T22
CLK
tCK1
CKE
CS#
RAS#
CAS#
WE#
BA0,1
A10
RAx
A0~A9,A11
RAx
RBw
CAx
RBw
CBw
CBx
CBy
CBz
CAy
tRP
DQM
tWR tRP
tRCD
tRRD
DQ Hi-Z
DAx0
Activate
Command
Bank A
DAx1 DAx2 DAx3 DBw0 DBw1 DBx0 DBx1 DBy0
Activate
Command
Bank B
Write
Command
Bank B
Write
Command
Bank B
DBy1 DAy0 DAy1
Write
Command
Bank B
Write
Command
Bank A
TM Technology Inc. reserves the right
P. 50
to change products or specifications without notice.
Write
Command
Bank A
DBz0 DBz1
Write
Command
Bank B
Precharge
Command
Bank A
DBz2
DBz3
Precharge
Command
Bank B
Publication Date: FEB. 2007
Revision: A
tm
TE
CH
T436416D
Figure 15.2. Interleaved Column Write Cycle (Burst Length=4, CAS# Latency=2)
T0
T 1 T2
T3
T4
T5
T6
T7
T8
T9
T10 T 11 T12 T13 T14 T15 T16 T17 T18 T19 T20 T21 T22
CLK
tCK2
CKE
CS#
RAS#
CAS#
WE#
BA0,1
A10
RAx
A0~A9,A11
RAx
RBw
CAx
RBw
CBw
CBx
CBy
CAy
tRCD
DQM
CBz
tRP
tWR
tRP
tRRD
DQ
Hi-Z
DAx0DAx1 DAx2 DAx3DBw0 DBw1 DBx0
Activate
Command
Bank A
Write
Command
Bank A
Activate
Command
Bank B
Write
Command
Bank B
Write
Command
Bank B
DBx1DBy0
DBy1DAy0 DAy1 DBz0 DBz1 DBz2 DBz3
Write
Command
Bank B
TM Technology Inc. reserves the right
P. 51
to change products or specifications without notice.
Write
Command
Bank A
Write
Command
Bank B
Precharge
Command
Bank A
Precharge
Command
Bank B
Publication Date: FEB. 2007
Revision: A
tm
TE
CH
T436416D
Figure 15.3. Interleaved Column Write Cycle (Burst Length=4, CAS# Latency=3)
T0
T 1 T2
T3
T4
T5
T6
T7
T8
T9
T10 T 11 T12 T13 T14 T15 T16 T17 T18 T19 T20 T21 T22
CLK
tCK3
CKE
CS#
RAS#
CAS#
WE#
BA0,1
A10
RAx
RBw
A0~A9,A11
RAx
CAx RBw
CBw
CBx
CBy
CAy
tRCD
DQM
CBz
tWR
tRP
tWR(min)
tRRD > tRRD(min)
DQ Hi-Z
DAx0 DAx1 DAx2 DAx3DBw0
Activate
Command
Bank A
Activate
Command
Bank B
Write
Command
Bank A
DBw1DBx0 DBx1 DBy0 DBy1 DAy0 DAy1 DBz0 DBz1 DBz2 DBz3
Write
Command
Bank B
Write
Command
Bank B
TM Technology Inc. reserves the right
P. 52
to change products or specifications without notice.
Write
Command
Bank B
Write
Command
Bank A
Write
Command
Bank B
Precharge
Command
Bank A
Precharge
Command
Bank B
Publication Date: FEB. 2007
Revision: A
tm
TE
CH
T436416D
Figure 16.1. Auto Precharge after Read Burst (Burst Length=4, CAS# Latency=1)
T0
T 1 T2
T3
T4
T5
T6
T7
T8
T9
T10 T 11 T12 T13 T14 T15 T16 T17 T18 T19 T20 T21 T22
CLK
tCK1
CKE
High
CS#
RAS#
CAS#
WE#
BA0,1
A10
RAx
A0~A9,A11
RAx
RBy
RBx
RBx CBx
CAx
CAy
RBz
RBy
CBy
RBz
CBz
DQM
DQ Hi-Z
Ax0
Activate
Command
Bank A
Read
Command
Bank A
Ax1
Ax2
Ax3
Bx0
Activate
Command
Bank B
Read with
Auto Precharge
Command
Bank B
Bx1 Bx2
Bx3 Ay0
Ay1
Activate
Command
Bank B
Read with
Auto Precharge
Command
Bank A
TM Technology Inc. reserves the right
P. 53
to change products or specifications without notice.
Ay2 Ay3
By0
Read with
Auto Precharge
Command
Bank B
By1
By2
By3
Bz0
Bz1
Bz2
Bz3
Activate
Command
Bank B
Read with
Auto Precharge
Command
Bank B
Publication Date: FEB. 2007
Revision: A
tm
TE
CH
T436416D
Figure 16.2. Auto Precharge after Read Burst (Burst Length=4, CAS# Latency=2)
T0
T 1 T2
T3
T4
T5
T6
T7
T8
T9
T10 T 11 T12 T13 T14 T15 T16 T17 T18 T19 T20 T21 T22
CLK
tCK2
CKE High
CS#
RAS#
CAS#
WE#
BA0,1
A10
RAx
A0~A9,A11
RAx
RBx
CAx
RAz
RBy
RBx
CBx
RBy
RAy
CBy
RAz
CAz
DQM
DQ Hi-Z
Activate
Command
Bank A
Ax0
Read
Command
Bank A
Ax1
Ax2
Ax3
Activate
Read with
Command Auto Precharge
Bank B
Command
Bank B
Bx0
Bx1 Bx2
Bx3 Ay0
Ay1
Ay2 Ay3
By0 By1 By2
By3 Az0
Az1 Az2
Read with
Activate
Read with
Activate
Read with
Auto Precharge Command Auto Precharge Command Auto Precharge
Command
Bank B
Command
Bank A
Command
Bank A
Bank B
Bank A
TM Technology Inc. reserves the right
P. 54
to change products or specifications without notice.
Publication Date: FEB. 2007
Revision: A
tm
TE
CH
T436416D
Figure 16.3. Auto Precharge after Read Burst (Burst Length=4, CAS# Latency=3)
T0
T 1 T2
T3
T4
T5
T6
T7
T8
T9
T10 T 11 T12 T13 T14 T15 T16 T17 T18 T19 T20 T21 T22
CLK
tCK3
CKE High
CS#
RAS#
CAS#
WE#
BA0,1
A10
RAx
RBx
A0~A9,A11
RAx
CAx RBx
RBy
CBx
CAy
CBy
RBy
DQM
DQ Hi-Z
Activate
Command
Bank A
Ax0
Activate
Command
Bank B
Read
Command
Bank A
Ax1
Ax2
Read with
Auto Precharge
Command
Bank B
Ax3
Bx0
Bx1 Bx2
Read with
Auto Precharge
Command
Bank A
TM Technology Inc. reserves the right
P. 55
to change products or specifications without notice.
Bx3
Ay0
Activate
Command
Bank B
Ay1
Ay2 Ay3
By0 By1
By2
By3
Read with
Auto Precharge
Command
Bank B
Publication Date: FEB. 2007
Revision: A
tm
TE
CH
T436416D
Figure 17.1. Auto Precharge after Write Burst (Burst Length=4, CAS# Latency=1)
T0
T 1 T2
T3
T4
T5
T6
T7
T8
T9
T10 T 11 T12 T13 T14 T15 T16 T17 T18 T19 T20 T21 T22
CLK
tCK1
CKE
High
CS#
RAS#
CAS#
WE#
BA0,1
A10
A0~A9,A11
RAx
RBx
RAx CAx
RBx
RBy
CBx
CAy
RBy
RAz
RAz
CBy
CAz
DQM
DQ
Hi-Z
DAx0 DAx1 DAx2 DAx3
DBy1 DBy2 DBy3
DBx0 DBx1 DBx2 DBx3 DAy0 DAy1DAy2 DAy3 DBy0
Activate
Command
Bank A
Write
Command
Bank A
Activate
Write with
Command Auto Precharge
Bank B
Command
Bank B
Write with
Auto Precharge
Command
Bank A
Activate
Write with
Command Auto Precharge
Bank B
Command
Bank B
TM Technology Inc. reserves the right
P. 56
to change products or specifications without notice.
DAz0 DAz0
DAz0DAz0
Activate
Command
Bank A
Write with
Auto Precharge
Command
Bank A
Publication Date: FEB. 2007
Revision: A
tm
TE
CH
T436416D
Figure 17.2. Auto Precharge after Write Burst (Burst Length=4, CAS# Latency=2)
T0
T 1 T2
T3
T4
T5
T6
T7
T8
T9
T10 T 11 T12 T13 T14 T15 T16 T17 T18 T19 T20 T21 T22
CLK
tCK2
CKE High
CS#
RAS#
CAS#
WE#
BA0,1
A10
RAx
A0~A9,A11
RAx
RBy
RBx
CAx
RBx
CBx
CAy
RBy
RAz
CBy
RAz
CAz
DQM
DQ
Hi-Z
Activate
Command
Bank A
DAx0 DAx1 DAx2 DAx3
DBx0 DBx1 DBx2 DBx3 DAy0 DAy1 DAy2 DAy3
Write
Command
Bank A
Activate
Write with
Command Auto Precharge
Bank B
Command
Bank B
Write with
Auto Precharge
Command
Bank A
TM Technology Inc. reserves the right
P. 57
to change products or specifications without notice.
DBy0 DBy1 DBy2 DBy3 DAz0 DAz1 DAz2 DAz3
Activate
Write with
Write with
Activate
Command Auto Precharge Command Auto Precharge
Bank B
Command
Command
Bank A
Bank B
Bank A
Publication Date: FEB. 2007
Revision: A
tm
TE
CH
T436416D
Figure 17.3. Auto Precharge after Write Burst (Burst Length=4, CAS# Latency=3)
T0
T 1 T2
T3
T4
T5
T6
T7
T8
T9
T10 T 11 T12 T13 T14 T15 T16 T17 T18 T19 T20 T21 T22
CLK
tCK3
CKE High
CS#
RAS#
CAS#
WE#
`
BA0,1
A9
RAx
RBx
A0~A9,A11
RAx
CAx RBx
RBy
CBx
CAy
RBy
CBy
DQM
DQ Hi-Z
Activate
Command
Bank A
DAx0 DAx1 DAx2 DAx3DBx0 DBx1 DBx2 DBx3 DAy0 DAy1 DAy2 DAy3
Activate
Command
Bank B
Write
Command
Bank A
Write with
Auto Precharge
Command
Bank B
Write with
Auto Precharge
Command
Bank A
TM Technology Inc. reserves the right
P. 58
to change products or specifications without notice.
Activate
Command
Bank B
DBy0 DBy1 DBy2DBy3
Write with
Auto Precharge
Command
Bank B
Publication Date: FEB. 2007
Revision: A
tm
TE
CH
T436416D
Figure 18.1. Full Page Read Cycle (Burst Length=Full Page, CAS# Latency=1)
T0
T 1 T2
T3
T4
T5
T6
T7
T8
T9
T10 T 11 T12 T13 T14 T15 T16 T17 T18 T19 T20 T21 T22
CLK
tCK1
CKE High
CS#
RAS#
CAS#
WE#
BA0,1
RAx
A10
A0~A9,A11
RAx
RBx
CAx
RBy
CBx
RBx
RBy
tRP
tRRD
DQM
DQHi-Z
Ax
Ax+1 Ax+2
Ax-2 Ax-1
Activate
Command
Bank B The burst counter wraps
from the highest order
Read
page address back to zero
Command
during this time interval
Bank A
Activate
Command
Bank A
Ax
Ax+1 Bx
Bx+1 Bx+2 Bx+3 Bx+4 Bx+5
Read
Command
Bank B
Full Page burst operation does not
terminate when the burst length is satisfied;
the burst counter increments and continues
bursting beginning with the starting address.
TM Technology Inc. reserves the right
P. 59
to change products or specifications without notice.
Bx+6 Bx+7
Precharge
Command
Bank B
Burst Stop
Activate
Command
Command
Bank B
Publication Date: FEB. 2007
Revision: A
tm
TE
CH
T436416D
Figure 18.2. Full Page Read Cycle (Burst Length=Full Page, CAS# Latency=2)
T0
T 1 T2
T3
T4
T5
T6
T7
T8
T9
T10 T 11 T12 T13 T14 T15 T16 T17 T18 T19 T20 T21 T22
CLK
tCK2
CKE
High
CS#
RAS#
CAS#
WE#
BA0,1
RBx
RAx
A10
RAx
A0~A9,A11
CAx
RBy
CBx
RBx
RBy
tRP
DQM
DQHi-Z
Activate
Command
Bank A
Ax
Read
Command
Bank A
Ax+1 Ax+2Ax-2
Ax-1
Ax
Ax+1
Bx
Bx+1 Bx+2 Bx+3
Bx+4Bx+5
Bx+6
Activate
Read
Precharge
Full Page burst operation does not
Command
Command
Command
Bank B
Bank Bterminate when the burst length is satisfied;
Bank B
The burst counter wraps
the burst counter increments and continues
from the highest order
bursting beginning with the starting address.
page address back to zero
Burst Stop
during this time interval
Command
TM Technology Inc. reserves the right
P. 60
to change products or specifications without notice.
Activate
Command
Bank B
Publication Date: FEB. 2007
Revision: A
tm
TE
CH
T436416D
Figure 18.3. Full Page Read Cycle (Burst Length=Full Page, CAS# Latency=3)
T0
T 1 T2
T3
T4
T5
T6
T7
T8
T9
T10 T 11 T12 T13 T14 T15 T16 T17 T18 T19 T20 T21 T22
CLK
tCK3
CKE High
CS#
RAS#
CAS#
WE#
BA0,1
A10
RAx
A0~A9,A11
RAx
RBx
CAx
RBy
CBx
RBx
RBy
tRP
DQM
DQ Hi-Z
Activate
Command
Bank A
Ax
Read
Command
Bank A
Activate
Command
Bank B
Ax+1 Ax+2 Ax-2
Ax-1
Read
Command
Bank B
The burst counter wraps
from the highest order
page address back to zero
during this time interval
Ax
Ax+1 Bx
Bx+1 Bx+2 Bx+3 Bx+4 Bx+5
Full Page burst operation does not Precharge
Command
terminate when the burst length is
Bank B
satisfied; the burst counter
increments and continues
bursting beginning with the
Burst Stop
starting address.
Command
TM Technology Inc. reserves the right
P. 61
to change products or specifications without notice.
Activate
Command
Bank B
Publication Date: FEB. 2007
Revision: A
tm
TE
CH
T436416D
Figure 19.1. Full Page Write Cycle (Burst Length=Full Page, CAS# Latency=1)
T0
T 1 T2
T3
T4
T5
T6
T7
T8
T9
T10 T 11 T12 T13 T14 T15 T16 T17 T18 T19 T20 T21 T22
CLK
tCK1
CKE High
CS#
RAS#
CAS#
WE#
BA0,1
A10
RAx
A0~A9,A11
RAx
RBx
CAx
RBx
RBy
RBy
CBx
DQM
DQ Hi-Z
DBx
DAx DAx+ 1 DAx+ 2 DAx+ 3 DAx- 1 DAx DAx+ 1
Activate
Command
Bank B
The burst counter wraps
from the highest order
Write
page address back to zero
Command
during this time interval
Bank A
Activate
Command
Bank A
DBx+ 1
DBx+ 2 DBx+ 3 DBx+ 4 DBx+ 5 DBx+ 6 DBx+ 7
Write
Command
Bank B
Full Page burst operation does
not terminate when the burst
length is satisfied; the burst counter
increments and continues bursting
beginning with the starting address.
TM Technology Inc. reserves the right
P. 62
to change products or specifications without notice.
Data is ignored
Precharge
Command
Bank B
Burst Stop
Activate
Command
Command
Bank B
Publication Date: FEB. 2007
Revision: A
tm
TE
CH
T436416D
Figure 19.2. Full Page Write Cycle (Burst Length=Full Page, CAS# Latency=2)
T0
T 1 T2
T3
T4
T5
T6
T7
T8
T9
T10 T 11 T12 T13 T14 T15 T16 T17 T18 T19 T20 T21 T22
CLK
tCK2
CKE High
CS#
RAS#
CAS#
WE#
BA0,1
A10
A0~A9,A11
RAx
RAx
RBx
CAx
RBx
RBy
CBx
RBy
DQM
DQ
Hi-Z
Activate
Command
Bank A
DAx DAx+ 1 DAx+ 2 DAx+ 3 DAx- 1 DAx
Write
Command
Bank A
DAx+ 1 DBx
DBx+ 1DBx+ 2 DBx+ 3
Activate
Write
Command
Command
Bank B
Bank B
The burst counter wraps Full Page burst operation does
not terminate when the burst
from the highest order
page address back to zero length is satisfied; the burst counter
increments and continues bursting
during this time interval
beginning with the starting address.
TM Technology Inc. reserves the right
P. 63
to change products or specifications without notice.
DBx+ 4 DBx+ 5 DBx+ 6
Data is ignored
Precharge
Command
Bank B
Burst Stop
Command
Activate
Command
Bank B
Publication Date: FEB. 2007
Revision: A
tm
TE
CH
T436416D
Figure 19.3. Full Page Write Cycle (Burst Length=Full Page, CAS# Latency=3)
T0
T 1 T2
T3
T4
T5
T6
T7
T8
T9
T10 T 11 T12 T13 T14 T15 T16 T17 T18 T19 T20 T21 T22
CLK
tCK3
CKE
High
CS#
RAS#
CAS#
WE#
BA0,1
A10
RAx
A0~A9,A11
RAx
RBx
CAx
RBx
RBy
CBx
RBy
DQM
Data is ignored
DQ Hi-Z
Activate
Command
Bank A
DAx DAx+ 1 DAx+ 2 DAx+ 3 DAx- 1 DAx
Write
Command
Bank A
Activate
Command
Bank B
The burst counter wraps
from the highest order
page address back to zero
during this time interval
DAx+ 1 DBx
DBx+ 1
DBx+ 2 DBx+ 3
DBx+ 4 DBx+ 5
Write
Command
Bank B
Full Page burst operation does
not terminate when the burst
length is satisfied; the burst counter
increments and continues bursting
beginning with the starting address.
TM Technology Inc. reserves the right
P. 64
to change products or specifications without notice.
Precharge
Command
Bank B
Burst Stop
Command
Activate
Command
Bank B
Publication Date: FEB. 2007
Revision: A
tm
TE
CH
T436416D
Figure 20. Byte Write Operation (Burst Length=4, CAS# Latency=2)
T0
T 1 T2
T3
T4
T5
T6
T7
T8
T9
T10 T 11 T12 T13 T14 T15 T16 T17 T18 T19 T20 T21 T22
CLK
tCK2
CKE
High
CS#
RAS#
CAS#
WE#
BA0,1
A10
A0~A9,A11
RAx
RAx
CAy
CAx
CAz
LDQM
UDQM
DQ0 - DQ7
Ax0
Ax1
Ax1
DQ8 - DQ15
Activate
Command
Bank A
Read Upper 3 Bytes
Commandare masked
Bank A
DAy1DAy2
Ax2
Ax2
Lower Byte
is masked
Ax3
DAy0 DAy1
DAy3
Write Upper 3 Bytes Read
Command are masked Command
Bank A
Bank A
TM Technology Inc. reserves the right
P. 65
to change products or specifications without notice.
Az0
Az1
Az2
Az1
Az2
Lower Byte
is masked
Az3
Lower Byte
is masked
Publication Date: FEB. 2007
Revision: A
tm
TE
CH
T436416D
Figure 21. Random Row Read (Interleaving Banks)
(Burst Length=2, CAS# Latency=1)
T0
T 1 T2
T3
T4
T5
T6
T7
T8
T9
T10 T 11 T12 T13 T14 T15 T16 T17 T18 T19 T20 T21 T22
CLK
tCK1
CKE
High
Begin Auto
Precharge
Bank B
Begin Auto
Precharge
Bank A
Begin Auto
Precharge
Bank B
Begin Auto
Precharge
Bank A
Begin Auto
Precharge
Bank B
Begin Auto
Precharge
Bank A
Begin Auto
Precharge
Bank B
Begin Auto
Precharge
Bank A
Begin Auto
Precharge
Bank B
Begin Auto
Precharge
Bank A
CS#
RAS#
CAS#
WE#
BA0,1
A10
A0~A9,A11
RAu
RBu
CBu
RBu
RAu CAu
RBv
RAv
RBv CBv
RAv
tRP
DQM
DQ
Bu0
Activate
Command
Bank B
Read
Bank B
with Auto
Precharge
Au1
Activate
Command
Bank B
Read
Bank A
with Auto
Precharge
CAv
tRP
Bu1 Au0
Activate
Command
Bank A
RBw
Activate
Command
Bank A
Read
Bank B
with Auto
Precharge
RBw CBw
tRP
Bv0 Bv1
Av1
Activate
Command
Bank B
RAx
RAw CAw RBx
tRP
Av0
Read
Bank A
with Auto
Precharge
RBx
RAw
tRP
Bw0 Bw1
Activate
Command
Bank A
Read
Bank B
with Auto
Precharge
CBx RAx CAx
tRP
Aw0
Activate
Command
Bank B
Read
Bank A
with Auto
Precharge
TM Technology Inc. reserves the right
P. 66
to change products or specifications without notice.
Aw1 Bx0
Read
Bank B
with Auto
Precharge
RAy
RBy CBy
RAy CAy RBz
tRP
Bx1
Activate
Command
Bank A
RBz
RBy
tRP
Ax0
Activate
Command
Bank B
Read
Bank A
with Auto
Precharge
CBz RAz
tRP
Ax1 By0
tRP
By1 Ay0 Ay1
Activate
Command
Bank A
Read
Bank B
with Auto
Precharge
RAz
Activate
Command
Bank B
Read
Bank A
with Auto
Precharge
Bz0
Activate
Command
Bank A
Read
Bank B
with Auto
Precharge
Publication Date: FEB. 2007
Revision: A
tm
TE
CH
T436416D
Figure 22. Full Page Random Column Read (Burst Length=Full Page, CAS# Latency=2)
T0
T 1 T2
T3
T4
T5
T6
T7
T8
T9
T10 T 11 T12 T13 T14 T15 T16 T17 T18 T19 T20 T21 T22
CLK
tCK2
CKE
CS#
RAS#
CAS#
WE#
BA0,1
A10
RAx
A0~A9,A11
RAx
RBx
RBx
RBw
CAx
CBx
CAy
CBy
CAz
CBz
RBw
tRP
DQM
tRRD
tRCD
DQ
Ax0
Activate
Command
Bank A
Activate
Command
Bank B
Bx0
Ay0 Ay1
Read
Read
Command
Command
Bank B Read
Bank B
Read
Command
Command
Bank A
Bank A
By0
By1
Read
Command
Bank A
TM Technology Inc. reserves the right
P. 67
to change products or specifications without notice.
Az0 Az1
Read
Command
Bank B
Az2
Bz0 Bz1
Bz2
Precharge
Command Bank B
(Precharge Temination)
Activate
Command
Bank B
Publication Date: FEB. 2007
Revision: A
tm
TE
CH
T436416D
Figure 23. Full Page Random Column Write (Burst Length=Full Page, CAS# Latency=2)
T0
T 1 T2
T3
T4
T5
T6
T7
T8
T9
T10 T 11 T12 T13 T14 T15 T16 T17 T18 T19 T20 T21 T22
CLK
tCK2
CKE
CS#
RAS#
CAS#
WE#
BA0,1
A10
A0~A9,A11
RAx
RBx
RAx
RBw
RBx CAx
CBx
CAy
CBy
CAz
CBz
RBw
tWR
tRP
DQM
tRRD
tRCD
DQ
DAx0 DBx0DAy0
Activate
Command
Bank A
Activate
Command
Bank B
DAy1 DBy0 DBy1 DAz0 DAz1 DAz2 DBz0 DBz1
Write
Command
Bank B
Write
Write
Command
Command
Bank A
Bank A
Write
Command
Bank B
Write
Command
Bank A
TM Technology Inc. reserves the right
P. 68
to change products or specifications without notice.
Write
Command
Bank B
DBz2
Precharge
Command Bank B
(Precharge Temination)
Activate
Write Data Command
Bank B
is masked
Publication Date: FEB. 2007
Revision: A
tm
TE
CH
T436416D
Figure 24.1. Precharge Termination of a Burst (Burst Length=Full Page, CAS# Latency=1)
T0
T 1 T2
T3
T4
T5
T6
T7
T8
T9
T10 T 11 T12 T13 T14 T15 T16 T17 T18 T19 T20 T21 T22
CLK
tCK1
CKE
CS#
RAS#
CAS#
WE#
BA0,1
A10
A0~A9,A11
RAx
RAx
RAy
CAx
RAy
RAz
CAy
RAz CAz
tRP
tWR tRP
Precharge
Termination of
a Read Burst.
DQM
DQ
DAz6 DAz7
DAx0 DAx1
DAx2 DAx3 DAx4
Ay0
Read
Activate
Precharge Termination Precharge
Command
Command
Command
of a Write Burst.
Bank A
Bank A
Write data is masked. Bank A
Write
Activate
Command
Command
Bank A
Bank A
TM Technology Inc. reserves the right
P. 69
to change products or specifications without notice.
DAz0
Ay1 Ay2
Precharge
Command
Bank A
DAz1 DAz2
DAz3
DAz4 DAz5
Write
Command
Bank A
Activate
Command
Bank A
Publication Date: FEB. 2007
Revision: A
tm
TE
CH
T436416D
Figure 24.2. Precharge Termination of a Burst
(Burst Length=8 or Full Page, CAS# Latency=2)
T0
T 1 T2
T3
T4
T5
T6
T7
T8
T9
T10 T 11 T12 T13 T14 T15 T16 T17 T18 T19 T20 T21 T22
CLK
tCK2
CKE High
CS#
RAS#
CAS#
WE#
BA0,1
A10
RAx
A0~A9,A11
RAx
RAz
RAy
RAy
CAx
RAz
CAy
tWR tRP
CAz
tRP
tRP
DQM
DQ
DAx0 DAx1
DAx2 DAx3
Activate
Command
Bank A
Write
Precharge
Command
Command
Bank A
Bank A
Precharge Termination
of a Write Burst.
Write data is masked.
Ay0 Ay1
Activate
Command
Bank A
Read
Command
Bank A
TM Technology Inc. reserves the right
P. 70
to change products or specifications without notice.
Ay2
Precharge
Command
Bank A
Az0
Activate
Command
Bank A
Az1
Az2
Precharge
Read
Command
Command
Bank A
Bank
A
Precharge
Termination
of a Read Burst
Publication Date: FEB. 2007
Revision: A
tm
TE
CH
T436416D
Figure 24.3. Precharge Termination of a Burst
(Burst Length=4, 8 or Full Page, CAS# Latency=3)
T0
T 1 T2
T3
T4
T5
T6
T7
T8
T9
T10 T 11 T12 T13 T14 T15 T16 T17 T18 T19 T20 T21 T22
CLK
tCK3
CKE
High
CS#
RAS#
CAS#
WE#
BA0,1
A10
RAx
A0~A9,A11
RAx
RAz
RAy
RAy
CAx
tWR
CAy
RAz
tRP
tRP
DQM
DQ
Ay0
DAx0 DAx1
Activate
Command
Bank A
Write
Command
Bank A
Write Data
is masked
Precharge
Command
Bank A
Activate
Command
Bank A
Read
Command
Bank A
Precharge
Command
Bank A
Ay1
Ay2
Activate Precharge Termination
Command
of a Read Burst
Bank A
Precharge Termination
of a Write Burst
TM Technology Inc. reserves the right
P. 71
to change products or specifications without notice.
Publication Date: FEB. 2007
Revision: A
tm
TE
CH
T436416D
54 Pin TSOP II Package Outline Drawing Information
28
HE
E
0.254
54
θ°
L
L1
1
27
B
S
e
Symbol
A
A1
A2
B
C
D
E
e
HE
L
L1
S
Y
θ
A1
y
C
A2
A
D
L
L1
Min
0.002
0.010
0.0047
0.872
0.3960
-
Dimension in inch
Normal
0.00395
0.015
0.0065
0.8755
0.400
0.0315
Max
0.047
0.0059
0.0411
0.018
0.0083
0.879
0.4040
-
Min
0.05
0.25
0.120
22.149
10.058
-
Dimension in mm
Normal
0.1
0.35
0.165
22.238
10.16
0.80
Max
1.194
0.150
1.044
0.45
0.210
22.327
10.262
-
0.462
0.016
0°
0.466
0.020
0.033
0.035
-
0.470
0.0235
0.004
5°
11.735
0.406
0°
11.8365
0.50
0.84
0.88
-
11.938
0.597
0.10
5°
Notes:
1. Dimension D&E do not include interlead flash.
2. Dimension B does not include dambar protrusion/intrusion.
3. Dimension S includes end flash.
4. Controlling dimension : mm
TM Technology Inc. reserves the right
P. 72
to change products or specifications without notice.
Publication Date: FEB. 2007
Revision: A
tm
TE
CH
T436416D
60-Ball (6.4mm x 10.1mm)VFBGA
Units in mm
TOP VIEW
A1 CORNER
A1 CORNER
BOTTOM VIEW
A B CD E F G H J KLMN P R
R P N ML K J H GF E D C B A
C
1
1
2
2
3
3
A B
4
4
D
5
5
6
6
7
7
D1
C1
B1
E3
A1
E2
E E1
SEATING PLANE
Symbol
A
A1
B
B1
C
C1
D
D1
E
E1
E2
E3
Min
6.30
10.00
0.35
0.35
0.22
0.42
Dimension in mm
Nom
Max
6.40
6.50
10.10
10.20
3.90(typ)
9.10(typ)
0.65(typ)
0.65(typ)
0.4
0.45
0.4
0.45
0.27
0.32
1.20
0.21
0.45
0.48
Min
0.248
0.394
0.014
0.014
0.009
0.017
Dimension in inch
Nom
Max
2.52
2.56
0.398
0.402
0.154(typ)
0.358(typ)
0.026(typ)
0.026(typ)
0.016
0.018
0.016
0.018
0.11
0.13
0.047
0.008
0.018
0.019
TM Technology Inc. reserves the right
P. 73
to change products or specifications without notice.
Publication Date: FEB. 2007
Revision: A