ETC EM614163A-35

EtronTech
Em614163A-30/35/40/45
256K x 16 High Speed EDO DRAM
Preliminary
Features
Pin Assignment (Top View)
• Fast Access Time: 30/35/40/45ns
40-Pin SOJ
40/44-Pin TSOP-II
• Fast EDO Page Cycle Time: 13.3/15/16/18ns
• EDO Page Mode Operation
• Single +5V ¡Ó 10% Power Supply
• Low Power Dissipation
• Individual Byte Control via Dual CAS Inputs
• Three Refresh Modes
• 512-Cycle Refresh in 8ms(9 rows and 9 columns)
• TTL Compatible
• 40-Pin, 400-mil Plastic SOJ Package, or
40/44-Pin, 400-mil Plastic TSOP-II Package.
Ordering Information
Part Number
Em614163A-30
EM614163TS-30
Em614163A-35
EM614163TS-35
Em614163A-40
EM614163TS-40
Em614163A-45
EM614163TS-45
Speed
30ns
30ns
35ns
35ns
40ns
40ns
45ns
45ns
Package
SOJ
TSOP-II
SOJ
TSOP-II
SOJ
TSOP-II
SOJ
TSOP-II
Key Specifications
Speed
-30
-35
-40
-45
tRAC
30ns
35ns
40ns
45ns
tCAC
9ns
10ns
11ns
12ns
tAA
16ns
18ns
20ns
22ns
tOEA
9ns
9ns
10ns
10ns
tRC
tPC
53ns 13.3ns
60ns 15ns
66ns 16ns
75ns 18ns
Vcc
I/O0
I/O1
I/O2
I/O3
Vcc
I/O4
I/O5
I/O6
I/O7
NC
NC
WE
RAS
NC
A0
A1
A2
A3
Vcc
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
25
24
23
22
21
Vss
I/O15
I/O14
I/O13
I/O12
Vss
I/O11
I/O10
I/O9
I/O8
NC
LCAS
UCAS
OE
A8
A7
A6
A5
A4
Vss
Vcc
I/O0
I/O1
I/O2
I/O3
Vcc
I/O4
I/O5
I/O6
I/O7
1
2
3
4
5
6
7
8
9
10
44
43
42
41
40
39
38
37
36
35
Vss
I/O15
I/O14
I/O13
I/O12
Vss
I/O11
I/O10
I/O9
I/O8
NC
NC
WE
RAS
NC
A0
A1
A2
A3
Vcc
13
14
15
16
17
18
19
20
21
22
32
31
30
29
28
27
26
25
24
23
NC
LC AS
UCAS
OE
A8
A7
A6
A5
A4
Vss
Pin Names
A0 - A8
Address Inputs
RAS
Row Address Strobe
UCAS
Column Address Strobe
(Upper Byte Control)
LCAS
Column Address Strobe
(Lower Byte Control)
WE
Write Enable
OE
Output Enable
I/O0 - I/O15
Data Input/Output
VCC
+5V Power Supply
VSS
Ground
NC
No Connection
Overview
The Em614163A-30/35/40/45 is a high speed
EDO(Extended Data Output) DRAM organized in
262,144 words by 16 bits. It supports EDO Page
Mode and 16-bit data width for high data bandwidth
applications. The EDO Page Mode is an
accelerated access that provides a shorter page
cycle and a faster data access time than the
traditional Fast Page Mode.
precharge time to occur without the output data
going invalid. Therefore, the EDO CAS timing can be
condensed to carry more data out in a given period.
Compared with Fast Page Mode DRAM, the
EDO DRAM data output will be held valid after CAS
goes HIGH, as long as RAS and OE are held LOW
and WE is held HIGH. This feature allows CAS
The Em614163A-30/35/40/45 is ideally suitable
for high performance graphics frame buffers, CDROMs, disk drivers, set top boxes, and DSP
applications.
The Em614163A-30/35/40/45 fully utilizes the
EDO Page Mode advantages. It allows 512 random
access within a page with a fast cycle time as short
as 13.3/15/16/18 ns.
Etron Technology, Inc.
1F, No. 1, Prosperity Rd. 1, Science-Based Industrial Park, Hsinchu, Taiwan, R.O.C.
TEL: (886)-3-5782345 FAX: (886)-3-5779001
Etro n Techn olo gy, Inc. reserves th e right to make chan ges to its pro ducts and specificat ion s
without notice.
April 1997
EtronTech
Em614163A-30/35/40/45
Block Diagram
RAS
LCAS
Clock Ge nerator
Circuit
Vcc (5 V) x 3
Vss (0 V) x 3
Lower
UCAS
Lower Data-In
Buffer
DO0
DO1
..........
WE
Lower Data-Out
Buffer
Row Decoder
Row & Column
Address Buffer
Upper Data-Out
Buffer
Memo ry Cell
DO8
DO9
..........
..........
..........
Preliminary
Sense Amplifier
& I/O Control
A8
DO7
Upper Data-In
Buffer
..........
A0
Lower Data
In pu ts/Ou tpu ts
Column Decoder
A0 - A8
A0
A1
A2
A3
A4
A5
A6
A7
A8
..........
Upper
DO15
OE
2
Upper Data
In pu ts/Ou tpu ts
Ou tp ut
Enable
In pu t
April 1997
EtronTech
Em614163A-30/35/40/45
Absolute Maximum Ratings
Parameter
Symbol
Value
Unit
Voltage on any pin relative to VSS
VT
- 0.5 to +7.0
V
Supply voltage relative to VSS
VCC
- 0.5 to +7.0
V
Short circuit output current
IOUT
50
mA
PT
1.0
W
Operating temperature
TOPT
0 to +70
°C
Storage temperature
TSTG
- 55 to +125
°C
Power dissipation
Capacitance
(Ta = 25°C; VCC = 5V ¡Ó 10%; f = 1MHz)
Parameter
Symbol Typ. Max. Unit
Input capacitance (A0 - A8)
Input capacitance ( RAS , UCAS , LCAS , WE , OE )
Output capacitance(I/O0 - I/O15)
Notes:
1. Capacitance is sampled and not 100% tested.
Note
CI 1
¡Ð
5
pF
1
CI 2
¡Ð
5
pF
1
CI/O
¡Ð
7
pF
1
Truth Table
Function
RAS
LCAS UCAS
WE
OE
Addresses
tR
tC
DQs
Standby
H
H →X
H →X
X
X
X
X
Read: Word
L
L
L
H
L
ROW
COL
Read: Lower Byte
L
L
H
H
L
ROW
COL
Read: Upper Byte
L
H
L
H
L
ROW
COL
L
L
L
L
X
ROW
COL
L
L
H
L
X
ROW
COL
L
H
L
L
X
ROW
COL
L
L
L
H →L
L →H
ROW
COL
Data-out, Data-in
H →L
Write: Word
(Early Write)
Write: Lower Byte
(Early)
Write: Upper Byte
(Early)
Read Write
Notes
High-Z
Data-out
Lower byte, data-out
Upper byte, high-Z
Lower byte, high-Z
Upper byte, data-out
Data-in
Lower byte, data-in
Upper byte, high-Z
Lower byte, high-Z
Upper byte, data-in
1, 2
EDO-Page-
1st Cycle
L
H →L
H
L
ROW
COL
Data-out
2
Mode Read
2nd Cycle
L
H →L
H →L
H
L
n/a
COL
Data-out
2
EDO-Page-
1st Cycle
L
H →L
H →L
L
X
ROW
COL
Data-in
1
Mode Write
2nd Cycle
L
H →L
H →L
L
X
n/a
COL
Data-in
1
H →L
H →L
L →H
ROW
COL
Data-out, Data-in
1, 2
1, 2
EDOPage-Mode
Read-Write
1st Cycle
L
H →L
2nd Cycle
L
H →L
H →L
H →L
L →H
n/a
COL
Data-out, Data-in
Hidden
Read
L →H →L
L
L
H
L
ROW
COL
Data-out
Refresh
Write
L →H →L
L
L
L
X
ROW
COL
Data-in
L
H
H
X
X
ROW
n/a
High-Z
H →L
L
L
X
X
X
X
High-Z
RAS# only refresh
CBR Refresh
2
1, 3
4
Notes:
1. These WRITE cycles may also be BYTE WRITE cycles (either LCAS or UCAS active).
2. These READ cycles may also be BYTE READ cycles (either LCAS or UCAS active).
3. EARLY WRITE only.
Preliminary
3
April 1997
EtronTech
Em614163A-30/35/40/45
4. At least one of the two CAS signals must be active ( LCAS or UCAS ).
Preliminary
4
April 1997
EtronTech
Em614163A-30/35/40/45
Recommended Operating Conditions
Parameter
Symbol
Supply voltage
Min
Typ
Max
Unit
Notes
VSS
0
0
0
V
2
VCC
4.5
5.0
5.5
V
1, 2
Input high voltage
VIH
2.4
¡Ð
VCC + 0.3
V
1
Input low voltage
VIL
- 0.5
¡Ð
0.8
V
1, 3
Notes:
1. All voltage referenced to VSS.
2. The supply voltage with all VCC pins must be the same level.
The supply voltage with all VSS pins must be the same level.
3. VIL(min.) = - 1.2V for pulse width ¡Ø 30ns.
DC Characteristics
TA = 0 to +70°C; Vcc = +5V ± 10%, Vss = 0V
Em614163A
Parameter
Operating current
Standby current
RAS -only refresh
Symbol
ICC 1
ICC 2
ICC 3
current
Test Conditions
-30/35/40/45
RAS cycling
LCAS , UCAS cycling
tRC = min.
RAS , LCAS , UCAS = VIH
Dout = High-Z
RAS , LCAS , UCAS , OE =
VCC - 0.2V
Dout = High-Z
RAS cycling, CAS = VIH
tRC = min.
RAS = VIH
LCAS , UCAS = VIL
Dout = enable
Unit
Notes
1, 2
Min
Max
¡Ð
280/250/225/200
mA
¡Ð
2
mA
¡Ð
1
mA
¡Ð
280/250/225/200
mA
2
¡Ð
5
mA
1
Standby current
ICC 5
CAS -before- RAS
refresh current
ICC 6
tRC = min.
RAS , CAS cycling
¡Ð
280/250/225/200
mA
Fast page mode
current
ICC 7
tPC = min.
¡Ð
280/250/225/200
mA
Input leakage
current
ILI
0V¡ÕVin¡ÕVCC
-10
10
µA
Output leakage
current
ILO
0V¡ÕVout¡ÕVCC
Dout = Disable
-10
10
µA
2.4
Output high voltage
VOH
IOH = - 2.5 mA
Output low voltage
VOL
IOL = + 2.1 mA
1, 3
V
0.4
V
Notes:
1. ICC depends on output load condition when the device is selected. ICC -max is specified at the output open
condition.
2. Address can be changed once or less while RAS = VIL.
3. Address can be changed once or less while LCAS and UCAS = VIL.
4. All the VCC pins shall be supplied with the same voltage. And all the VSS pins shall be supplied with the
same voltage.
Preliminary
5
April 1997
EtronTech
Em614163A-30/35/40/45
AC Characteristics (2, 3, 4, 5)
(Ta = 0 to +70°C; VCC = 5V ¡Ó 10%, VSS = 0V)
Test Conditions
• Input rise and fall times: 2ns
• AC test condition, input pulse levels 0V to 3V
• Output load: 1 TTL loads and 50pF
• Output timing reference levels: VOH = 2.0V
VOL = 0.8V
Read, Write, Read-Modify-Write and Refresh Cycles
(Common Parameters)
Em614163A
Parameter
Symbol
-30/35/40/45
Min
Max
Unit
Notes
1
Random read or write cycle time
RAS precharge time
tRC
53/60/66/75
¡Ð
ns
tRP
19/21/22/26
¡Ð
ns
RAS pulse width
tRAS
30/35/40/45
100,000
ns
6
U/LCAS pulse width
tCAS
5/6/7/8
100,000
ns
7
Row address setup time
tASR
0
¡Ð
ns
Row address hold time
tRAH
6/6/6/7
¡Ð
ns
Column address setup time
tASC
0
¡Ð
ns
8
Column address hold time
RAS to U/LCAS delay time
tCAH
5/6/6/7
¡Ð
ns
8
tRCD
10/11/12/13
21/25/29/33
ns
9
RAS to column address delay time
tRAD
8/9/10/11
15/17/18/20
ns
10
Column address to RAS lead time
tRAL
16/18/20/22
¡Ð
ns
RAS hold time
tRSH
6/7/7/8
¡Ð
ns
U/LCAS hold time
tCSH
30/35/40/45
¡Ð
ns
Column address hold time from RAS
tAR
22/25/30/35
¡Ð
ns
Write command time from RAS
tWCR
22/25/30/35
¡Ð
ns
Data-in hold time from RAS
tDHR
22/25/30/35
¡Ð
ns
U/LCAS to RAS precharge time
tCRP
5/5/5/5
¡Ð
ns
OE to data-in delay time
tOED
7/7/8/8
¡Ð
ns
tT
1
50
ns
tREF
¡Ð
8
ms
tCLZ
0
Transition time (rise and fall)
Refresh period
CAS to output in Low-Z
Preliminary
6
11
12
ns
April 1997
EtronTech
Em614163A-30/35/40/45
Read Cycle
Em614163A
Parameter
Symbol
-30/35/40/45
Unit
Notes
Min
Max
tRAC
¡Ð
30/35/40/45
ns
13
tCAC
¡Ð
9/10/11/12
ns
14, 15, 16
Access time from column address
tAA
¡Ð
16/18/20/22
ns
15, 17
Access time from OE
tOEA
¡Ð
9/9/10/10
ns
Read command setup time
tRCS
0
¡Ð
ns
8
Read command hold time to U/LCAS
tRCH
0
¡Ð
ns
11, 18
Read command hold time to RAS
tRRH
0
¡Ð
ns
18
Output buffer turn-off time
Output buffer turn-off OE
tOFF
0
6/7/8/8
ns
19
tOEZ
0
6/7/8/8
ns
19
Access time from RAS
Access time from U/LCAS
Write Cycle
Write command setup time
tWCS
0
¡Ð
ns
8, 20
Write command hold time
tWCH
5/6/6/6
¡Ð
ns
8
Write command pulse width
Write command to RAS lead time
tWP
5/6/6/6
¡Ð
ns
tRWL
10
¡Ð
ns
Write command to U/LCAS lead time
tCWL
5/5/6/6
¡Ð
ns
21
Data-in setup time
tDS
0
¡Ð
ns
22
Data-in hold time
OE hold time from WE
tDH
5/6/6/7
¡Ð
ns
22
tOEH
5/6/6/6
¡Ð
ns
Read-Modify-Write Cycle
Em614163A
Parameter
Symbol
-30/35/40/45
Min
Max
Unit
Notes
Read-modify-write cycle time
RAS to WE delay time
tRWC
73/83/90/100
¡Ð
ns
1
tRWD
41/49/54/60
¡Ð
ns
20
U/LCAS to WE delay time
tCWD
20/24/25/27
¡Ð
ns
20
Column address to WE delay time
tAWD
33/40/44/49
¡Ð
ns
20
tCSR
6/7/8/9
¡Ð
ns
8
tCHR
7/8/9/10
¡Ð
ns
11
tRPC
5
¡Ð
ns
8
tCPN
5/5/5/6
¡Ð
ns
23
Refresh Cycle
U/LCAS setup time
( CAS -before- RAS refresh cycle)
U/LCAS hold time
( CAS -before- RAS refresh cycle)
RAS precharge to U/LCAS hold time
U/LCAS precharge time in normal mode
Preliminary
7
April 1997
EtronTech
Em614163A-30/35/40/45
EDO Page Mode Cycle
Em614163A
Parameter
Symbol
-30/35/40/45
Unit Notes
Min
Max
tPC
13.3/15/16/18
¡Ð
ns
25
23
EDO page mode cycle time
EDO page mode U/LCAS precharge
time
EDO page mode RAS pulse width
tCP
5/5/5/6
¡Ð
ns
tRASP
30/35/40/45
100,000
ns
24
Access time from U/LCAS precharge
tCPA
¡Ð
18/21/23/25
ns
11, 15
tCPRH
13/14/15/16
¡Ð
ns
tCPW
27/31/36/41
¡Ð
ns
tPRWC
35/40/45/50
¡Ð
ns
tOES
5
¡Ð
ns
tOEHC
6
¡Ð
ns
tOEP
6
¡Ð
ns
tORD
0
¡Ð
ns
RAS hold time from U/LCAS precharge
EDO page mode read-modify-write cycle
U/LCAS precharge to WE delay time
EDO page mode read-modify-write cycle
time
OE low to CAS high setup time
OE high hold time from CAS high
OE high pulse width
OE setup prior to RAS during hidden
refresh cycle
Data output hold after CAS low
tCOH
3/3/3/5
¡Ð
ns
Output disable delay from WE
tWHZ
0
13
ns
WE pulse width for output disable when
CAS high
tWPZ
6
¡Ð
ns
tCPT
30
¡Ð
ns
11
Counter Test Cycle
U/LCAS precharge time in counter test
cycle
Preliminary
8
23
April 1997
EtronTech
Em614163A-30/35/40/45
Notes:
1. Assume tT = 2ns.
2. An initial pause of 100 us is required after power up followed by a minimum of eight initialization cycles
( RAS -only refresh cycle or CAS -beofre- RAS refresh cycle). If the internal refresh counter is used, a
minimum of eight CAS -before- RAS refresh cycles are required.
3. In delayed write or read-modify-write cycles, OE must disable output buffer prior to applying data to the
device.
4. When both LCAS and UCAS go low at the same time, all 16-bits data are written into the device. LCAS
and UCAS cannot be straggered within the same write/read cycles.
5. All the VCC and all the VSS pins shall be supplied with the same voltages.
6. tRAS(min) = tRWD (min) + tRWL(min) + tT in read-modify-write cycle.
7. tCAS(min) = tCWD (min) + tCWL(min) + tT in read-modify-write cycle.
8. tASC , tCAH , tRCS, tCSR , tWCS, tWCH , and tRPC are determined by the earlier falling edge of UCAS or LCAS .
9. Operation with the tRCD (max) limit insures that tRAC (max) can be met. tRCD (max) is specified as a reference
point only: If tRCD is greater than the specified tRCD (max) limit, then access time is controlled exclusively by
tCAC .
10. Operation with the tRAD (max) limit insures that tRAC (max) can be met. tRAD (max) is specified as a
reference point only: If tRAD is greater than the specified tRAD (max) limit, then access time is controlled
exclusively by tAA.
11. tCRP, tCHR , tRCH , tCPA and tCPW are determined by the later rising edge of UCAS or LCAS .
12. VIH (min) and VIL(max) are reference levels for measuring timing of input signals. Also, transition times are
measured between VIH and VIL.
13. Assumes that tRCD ¡Ø tRCD (max) and tRAD ¡Ø tRAD (max). If tRCD or tRAD is greater than the maximum
recommended value shown in this table, tRAC exceeds the value shown.
14. Assumes that tRCD ¡Ø tRCD (max) and tRAD ¡Ø tRAD (max).
15. Access time is determined by the longer of tAA or tCAC or tCPA.
16. tCAC is guaranteed for one TTL and 50pF load.
17. Assumes that tRCD ¡Ø tRCD (max) and tRAD ¡Ø tRAD (max).
18. Either tRCH or tRRH must be satisfied for a read cycle.
19. tOFF (max) and tOEZ (max) define the time at which the output achieves the open circuit condition and is not
referenced to output voltage levels. The tOFF is determined by the later rising edge of RAS or CAS .
20. tWCS, tRWD , tCWD , and tAWD are not restrictive operating parameters. They are included in the data sheet as
electrical characteristics only; if tWCS¡Ù tWCS(min), the cycle is an early write cycle and the data out pin
will remain open circuit (high impedance) throughout the entire cycle; if tRWD ¡Ù tRWD (min), tCWD ¡Ù
tCWD (min), tAWD ¡Ù tAWD (min) and tCPW ¡Ù tCPW (min), the cycle is a read-modify-write and the data output
will contain data read from the selected cell; if neither of the above sets of conditions is satisfied, the
condition of the data out (at access time) is indeterminate.
21. tCWL shall be satisfied by both UCAS , LCAS .
22. These parameters are referenced to UCAS or LCAS leading edge in an early write cycle and to WE edge
in a delayed write or a read-modify-write cycle.
23. tCPN , tCP, and tCPT are determined by the time that both UCAS and LCAS are high.
24. tRASP defines RAS pulse width in fast page mode cycles.
25. Assume tT = 2ns.
Preliminary
9
April 1997
EtronTech
Em614163A-30/35/40/45
Timing Waveforms
• Read Cycle
t RC
t RAS
t RP
RAS
t CSH
t CRP
t RCD
t RSH
tT
t CAS
UCAS
LCAS
t RAD
t ASR
Address
t RAH
t RAL
t ASC
Row
t CAH
Column
t RRH
t RCH
t RCS
WE
t DZC
t CDD
OPEN
DIN
t ODD
t DZO
OE
t OEA
t OEZ
t CAC
t AA
t OFF
t RAC
DOUT
Preliminary
D OUT
10
April 1997
EtronTech
Em614163A-30/35/40/45
• Early Write Cycle
t RC
t RAS
t RP
RAS
t CSH
t CRP
t RCD
t RSH
tT
t CAS
UCAS
LCAS
t RAH
t ASR
Address
Row
t ASC
t CAH
Column
t WCS
t WCH
WE
t DS
DIN
DOUT
Preliminary
t DH
D in
OPEN
11
April 1997
EtronTech
Em614163A-30/35/40/45
• Read-Modify-Write Cycle
t RWC
t RAS
t RP
RAS
tT
t CAS
t RCD
t CRP
UCAS
LCAS
t RAD
t ASR
Address
t RAH
t ASC
Row
t CAH
Column
t CWD
t RCS
t CWL
t AWD
t RWL
t RWD
t WP
WE
t DH
t DZC
t DS
OPEN
DIN
D in
t OEH
t ODD
t DZO
OE
t OEA
t CAC
t AA
t OEZ
t RAC
DOUT
Preliminary
Dout
OUT
12
April 1997
EtronTech
Em614163A-30/35/40/45
• Delayed Write Cycle
t RC
t RAS
t RP
RAS
t CSH
t CRP
t RCD
t RSH
tT
t CAS
UCAS
LCAS
t ASR
Address
t RAH
t ASC
Row
t CAH
Column
t CWL
t RCS
t RWL
t WP
WE
t DS
t DZC
OPEN
Din
DIN
t DZO
t DH
t ODD
t OEH
OE
t OEZ
DOUT
Preliminary
Invalid
Dout
13
April 1997
EtronTech
Em614163A-30/35/40/45
• EDO Page Mode Read Cycle
t RASP
t RP
t CPRH
RAS
tT
t PC
t CSH
t RCD
t CAS
t RSH
t CAS
t CP
t CP
t CRP
t CAS
UCAS
LCAS
t
t RAD
t
Address
ASR
t RAH
t ASC
Row
t
t CAH
t ASC
CAH
Column 2
Column 1
t CAH
tASC
Column N
t RCS
t RRH
t RCS
t RCH
t RCH
t RCH
t RCS
RAL
WE
OPEN
OPEN
OPEN
DIN
t OED
t
OED
t OEHC
t OEP
OE
t OEA
t
t
CAC
OES
t OEA
t OEA
t CAC
t CAC
t AA
t AA
t AA
t CPA
t RAC
DOUT
t OFF
t OFF
t OFF
t OEZ
t OEZ
Dout 2
Dout 1
t
OEZ
Valid
Dout N
DOU N
T
t COH
Preliminary
14
April 1997
EtronTech
Em614163A-30/35/40/45
•EDO Page Mode Early Write Cycle
t RASP
t RP
RAS
tT
t RSH
t PC
t CSH
t CAS
t RCD
t CAS
t CP
t CP
t CRP
t CAS
UCAS
LCAS
t ASR
Address
t RAH
Row
t ASC
t CAH
t ASC
Column 1
t WCS
t WCH
t DS
t DH
t CAH
Column 2
t WCS
t WCH
tASC
t CAH
Column N
t WCS
t WCH
WE
DIN
t DS
Din 1
Din 2
t DS
t DH
Din N
OPEN
Dout
Preliminary
t DH
15
April 1997
EtronTech
Em614163A-30/35/40/45
• EDOage
P Mode Read
-Modify-Write
Cycle
t RASP
t
t RP
CPRH
RAS
t
T
t CRP
t PRWC
t CP
t
t CP
t CAS
RCD
t CAS
t CAS
UCAS
LCAS
t RAD
t ASR
t RAH
Address
t
t ASC
Row
t
ASC
ASC
t CAH
t CAH
t CAH
Column 1
Column 2
Column N
t CWL
t RWD
t CWL
CPW
t RCS
CWD
t CWL
t CPW
t AWD
t AWD
t
t
t AWD
t RCS
t CWD
t RWL
t CWD
WE
t RCS
t WP
t WP
t WP
t DS
t DS
t DS
t
t DH
OPEN
t DH
OPEN
Din
1
D IN
OPEN
Din
2
t
DH
Din
N
t OED
OED
t OED
t OEH
t OEH
t OEH
OE
t OEA
t
t CAC
t CAC
t CAC
t AA
t AA
t AA
t RAC
D
t OEA
OEA
t
OEZ
t CPA
t OEZ
t
t CPA
OEZ
OU
T
Dout 1
Preliminary
Dout N
Dout 2
16
April 1997
EtronTech
Em614163A-30/35/40/45
Read Cycle with WE Controlled Disable
RAS
t CSH
t RCD
tT
t CAS
UCAS
LCAS
t RAD
t ASR
Address
t RAH
t ASC
Row
t CAH
Column
t
t RCS
RCH
t RRH
WE
t WHZ
t DZC
OPEN
DIN
t ODD
t DZO
OE
t OEA
t OEZ
t CAC
t AA
t RAC
DOUT
D OUT
t
Preliminary
CLZ
17
April 1997
EtronTech
Em614163A-30/35/40/45
• EDO-Page-Mode Read-Early-Write Cycle
RAS
t CSH
t
RCD
tT
t CAS
t CAS
UCAS
LCAS
t CP
t RAD
t AS
t ASR
Address
t RAH
tASC
t
t
C
CAH
Column
Row
CAH
Column
t
t RCS
RCH
t
t WCH
WCS
WE
t DS
t
DH
OPEN
DIN
DIN
OE
t OEA
t CAC
t WHZ
t AA
t RAC
DOUT
D OUT
t
Preliminary
CLZ
18
April 1997
EtronTech
Em614163A-30/35/40/45
•RAS-Only Refresh Cycle
t RC
t RP
t RAS
RAS
tT
t RPC
t CRP
t CRP
UCAS
LCAS
t ASR
t RAH
Address
Row
t OFF
OPEN
DOUT
•CAS-Before-RAS Refresh Cycle
t RC
t RP
RAS
t RC
t RAS
t RP
t RAS
t RP
tT
t RPC
t RPC
t CPN
t CSR
t CHR
t CPN
t CRP
t CSR
t CHR
UCAS
LCAS
Address
t OFF
DOUT
Preliminary
OPEN
19
April 1997
EtronTech
Em614163A-30/35/40/45
• Hi
dden Refresh Cycle
t RC
t RC
t RC
t RP
t RAS
(READ)
t RAS
(REFRE SH )
t RP
t RAS
t RP
(REF RE SH)
RAS
tT
t CHR
t RSH
t CRP
t CAS
t RCD
UCAS
LCAS
t RAL
t RAD
t ASR
Address
t RAH
t ASC
Row
t CAH
Co lu mn
t RRH
t RCS
t RCH
WE
t CDD
t DZC
OP EN
DIN
t DZO
t ODD
OE
t OEZ
t OEA
t RAC
t AA
t CAC
t OFF
DOUT
Preliminary
Valid Do
DOUT
ut
20
April 1997
EtronTech
Em614163A-30/35/40/45
• CAS Before RAS Refresh Counter Check Cycle (WRITE)
t RP
t RAS
t RP
tT
RAS
t RPC
t CSR
t CHR
t CPT
t RSH
t CPN
t CRP
t CAS
UCAS
LCAS
t ASC
t CAH
Column
Address
t WCS
t WCH
WE
t CDD
t DS
t DH
t DZC
Din
Din
OE
t OFF
OPEN
Dout
Preliminary
21
April 1997
EtronTech
Em614163A-30/35/40/45
Outline Drawing
40-Pin SOJ
40
21
E HE
20
1
D
c
A2
A
L
A1
S
Seating Plane
Symbol
A
A1
A2
b1
b
c
D
E
e
e1
HE
L
S
Y
θ
b
e
D
θ
y
e1
b1
Dimension in inch
Min
Num
Max
¡Ð
¡Ð
0.144
¡Ð
¡Ð
0.025
0.105
0.110
0.115
0.026
0.028
0.032
0.016
0.018
0.022
0.008
0.010
0.014
¡Ð
1.025
1.035
0.395
0.400
0.405
0.044
0.050
0.056
Dimension in mm
Min
Num
Max
¡Ð
¡Ð
3.66
¡Ð
¡Ð
0.64
2.67
2.79
2.92
0.66
0.71
0.81
0.41
0.46
0.56
0.20
0.25
0.36
¡Ð
26.04
26.29
10.03
10.16
10.29
1.12
1.2
1.42
0.348
0.430
0.088
¡Ð
¡Ð
0¢X
8.84
10.92
2.24
¡Ð
¡Ð
0¢X
0.368
0.440
0.098
¡Ð
¡Ð
¡Ð
0.388
0.450
0.108
0.050
0.004
10¢X
9.35
11.18
2.49
¡Ð
¡Ð
¡Ð
9.86
11.43
2.74
1.27
0.10
10¢X
Notes:
1. Dimension D Max & S include mold flash or tie bar burrs.
2. Dimension b1 does not include dambar protrusion/intrusion.
3. Dimension D & E include mold mismatch and are determined at the mold parting line.
4. Controlling dimension : inch
5. General appearance spec. should be based on final visual inspection spec.
Preliminary
22
April 1997
EtronTech
Em614163A-30/35/40/45
40/44-Pin TSOP-II
44
HE
E
0.254
+
θ°
L
L1
+
1
S
e
B
Symbol
A
A1
A2
B
c
D
E
e
HE
L
L1
S
y
θ
y
Dimension in inch
Min
Num
Max
¡Ð
¡Ð
0.047
¡Ð
¡Ð
0.002
0.037
0.039
0.041
0.010
0.014
0.018
¡Ð
¡Ð
0.006
0.721
0.725
0.729
0.396
0.400
0.404
¡Ð
¡Ð
0.031
Min
¡Ð
0.05
0.95
0.25
¡Ð
18.31
10.06
¡Ð
0.455
0.016
¡Ð
¡Ð
¡Ð
0¢X
11.56
0.40
¡Ð
¡Ð
¡Ð
0¢X
0.463
0.020
0.031
¡Ð
¡Ð
¡Ð
0.471
0.024
¡Ð
0.036
0.004
5¢X
C
A
A1 A2
D
L
L1
Dimension in mm
Num
Max
¡Ð
1.20
¡Ð
¡Ð
1.00
1.05
0.35
0.45
¡Ð
0.15
18.41
18.51
10.16
10.26
¡Ð
0.80
11.76
0.50
0.80
¡Ð
¡Ð
¡Ð
11.96
0.60
¡Ð
0.93
0.10
5¢X
Notes :
1. Dimension D&E do not include interiead flash.
2. Dimension B does not include dambar protrusion/intrusion.
3. Dimension S includes end flash.
4. Controlling dimension : MM
Preliminary
23
April 1997