A42L2604 Series
Preliminary 4M X 4 CMOS DYNAMIC RAM WITH EDO PAGE MODE
PRELIMINARY (June, 2002, Version 0.3) AMIC Technology, Inc.
Document Title
4M X 4 CMOS DYNAMIC RAM WITH EDO PAGE MODE
Revision History
Rev. No. History Issue Date Remark
0.0 Initial issue June 13, 2001 Preliminary
0.1 Modify symbol HE dimensions in TSOP 24L package information July 10, 2001
0.2 Add -45 grade and modify the AC, DC data November 30, 2001
Add -U type spec.
0.3 Modify DC data and all parts guarantee self-refresh mode June 10, 2002
A42L2604 Series
Preliminary 4M X 4 CMOS DYNAMIC RAM WITH EDO PAGE MODE
PRELIMINARY (June, 2002, Version 0.3) 1 AMIC Technology, Inc.
Features
n Organization: 4,194,304 words X 4 bits
n Part Identification
- A42L2604 (2K Ref.)
n Single 3.3V power supply/built-in VBB generator
n Low power consumption
- Operating: 80mA (-45 max)
- Standby: 1.0mA (TTL), 1.5mA (CMOS),
350µA (Self-refresh current)
n High speed
- 45/50 ns RAS access time
- 20/22 ns column address access time
- 12/13 ns CAS access time
- 18/20 ns EDO Page Mode Cycle Time
n Industrial operating temperature range: -40°C to +85°C
for -U
n Fast Page Mode with Extended Data Out
n 2K Refresh Cycle in 32ms
n Read-modify-write, RAS -only, CAS -before-RAS ,
Hidden refresh capability
n TTL-compatible, three-state I/O
n JEDEC standard packages
- 300mil, 24/26-pin SOJ
- 300mil, 24/26-pin TSOP type II package
General Description
The A42L2604 is a new generation randomly accessed
memory for graphics, organized in a 4,194,304-word by
4-bit configuration. This product can execute Write and
Read operation via CAS pin.
The A42L2604 offers an accelerated Fast Page Mode
Pin Configuration
nn SOJ nn TSOP
VCC
I/O
0
I/O
1
A3
CAS
I/O
2
I/O
3
VSS
A42L2604S
OE
WE
RAS
A10
A0
A1
A2
VCC
NC
VSS
A4
A5
A6
A7
A8
A9
13
12
11
10
9
8
6
5
4
3
2
1
14
15
16
17
18
19
21
22
23
24
25
26 VCC
I/O
0
I/O
1
A3
CAS
I/O
2
I/O
3
VSS
A42L2604V
OE
WE
RAS
A10
A0
A1
A2
VCC
NC
VSS
A4
A5
A6
A7
A8
A9
13
12
11
10
9
8
6
5
4
3
2
1
14
15
16
17
18
19
21
22
23
24
25
26
cycle with a feature called Extended Data Out (EDO).
This allow random access of up to 2048(2K Ref.) words
within a row at a 56/50 MHz EDO cycle, making the
A42L2604 ideally suited for graphics, digital signal
processing and high performance computing systems.
Pin Descriptions
Symbol Description
A0 – A10 Address Inputs (2K product)
I/O0 - I/O3 Data Input/Output
RAS Row Address Strobe
CAS Column Address Strobe
WE
Write Enable
OE Output Enable
VCC 3.3V Power Supply
VSS Ground
NC No Connection
A42L2604 Series
PRELIMINARY (June, 2002, Version 0.3) 2 AMIC Technology, Inc.
Selection Guide
Symbol Description -45 -50 Unit
tRAC Maximum RAS Access Time 45 50 ns
tAA Maximum Column Address Access Time 20 22 ns
tCAC Maximum CAS Access Time 12 13 ns
tOEA Maximum Output Enable (OE) Access Time 12 13 ns
tRC Minimum Read or Write Cycle Time 76 84 ns
tPC Minimum EDO Cycle Time 18 20 ns
Functional Description
The A42L2604 reads and writes data by multiplexing an
22-bit address into a 11-bit(2K) row and column address.
RASand CAS are used to strobe the row address and the
column address, respectively.
A Read cycle is performed by holding the WE signal high
during RAS/CAS operation. A Write cycle is executed by
holding the WE signal low during RAS /CAS operation;
the input data is latched by the falling edge of WE or
CAS, whichever occurs later. The data inputs and outputs
are routed through 4 common I/O pins, with RAS, CAS,
WE and OE controlling the in direction.
EDO Page Mode operation all 2048(2K) columns within a
selected row to be randomly accessed at a high data rate.
A EDO Page Mode cycle is initiated with a row address
latched by RAS followed by a column address latched by
CAS . While holding RAS low, CAS can be toggled to
strobe changing column addresses, thus achieving shorter
cycle times.
The A42L2604 offers an accelerated Fast Page Mode
cycle through a feature called Extended Data Out, which
keeps the output drivers on during the CAS precharge
time (tcp). Since data can be output after CAS goes high,
the user is not required to wait for valid data to appear
before starting the next access cycle. Data-out will remain
valid as long as RAS and OE are low, and WE is high;
this is the only characteristic which differentiates Extended
Data Out operation from a standard Read or Fast Page
Read.
A memory cycle is terminated by returning both RAS and
CAS high. Memory cell data will retain its correct state by
maintaining power and accessing all 2048(2K)
combinations of the 11-bit(2K) row addresses, regardless
of sequence, at least once every 32ms through any RAS
cycle (Read, Write) or RAS Refresh cycle (RAS -only,
CBR, or Hidden). The CBR Refresh cycle automatically
controls the row addresses by invoking the refresh counter
and controller.
Power-On
The initial application of the VCC supply requires a 200 µs
wait followed by a minimum of any eight initialization cycles
containing a RAS clock. During Power-On, the VCC
current is dependent on the input levels of RAS and CAS.
It is recommended that RAS and CAStrack with VCC or
be held at a valid VIH during Power-On to avoid current
surges.
A42L2604 Series
PRELIMINARY (June, 2002, Version 0.3) 3 AMIC Technology, Inc.
Block Diagram
Recommended Operating Conditions (Ta = 0°C to +70°C or -40°C to +85°C)
Symbol Description Min. Typ. Max. Unit
VCC Power Supply 3.0 3.3 3.6 V
VSS Input High Voltage 0 0 0 V
VIH Input High Voltage 2.0 - VCC + 0.3 V
VIL Input Low Voltage -0.5 - 0.8 V
Control
Clocks VBB Generator
Refresh Timer
Refresh control
Refresh Counter
Row Address Buffer
Col. Address Buffer
Row Decoder
Column Decoder
Memory Array
4,194,304 X 4
Cells
Sense Amps & I/O
Data in
Buffer
Data out
Buffer
Vcc
Vss
RAS
CAS
WE
A0~A10
A0~A10
I/O0
to
I/O3
OE
A42L2604 Series
PRELIMINARY (June, 2002, Version 0.3) 4 AMIC Technology, Inc.
Truth Table
Function RAS CAS WE OE Address I/Os
Standby H H X X X High-Z
Read: Word L L H L Row/Col. Data Out
Read L L H L Row/Col. Data Out
Write: Word (Early) L L L X Row/Col. Data In
Write (Early) L L L X Row/Col. Data In
Read-Write L L H→L L→H Row/Col. Data Out → Data In
EDO-Page-Mode Read: Hi-Z
-First cycle
-Subsequent Cycles
L
L
H→L
H→L
H
H
H→L
H→L
Row/Col.
Col.
Data Out
Data Out
EDO-Page-Mode Write (Early)
-First cycle
-Subsequent Cycles
L
L
H→L
H→L
L
L
X
X
Row/Col.
Col.
Data In
Data In
EDO-Page-Mode Read-Write
-First cycle
-Subsequent Cycles
L
L
H→L
H→L
H→L
H→L
L→H
L→H
Row/Col.
Col.
Data Out → Data In
Data Out → Data In
Hidden Refresh Read L→H→L L H L Row/Col. Data Out
Hidden Refresh Write L→H→L L L X Row/Col. Data In → High-Z
RAS-Only Refresh L H X X Row High-Z
CBR Refresh H→L L X X X High-Z
Self Refresh H→L L H X X High-Z
A42L2604 Series
PRELIMINARY (June, 2002, Version 0.3) 5 AMIC Technology, Inc.
Absolute Maximum Ratings*
Input Voltage (Vin) . . . . . . . . . . . . . . . . . . . -0.5V to +4.6V
Output Voltage (Vout) . . . . . . . . . . . . . . . . -0.5V to +4.6V
Power Supply Voltage (VCC) . . . . . . . . . . . -0.5V to +4.6V
Operating Temperature (TOPR) . . . . . . . . . . 0°C to +70°C
Storage Temperature (TSTG) . . . . . . . . . -55°C to +150°C
Soldering Temperature X Time (TSOLDER) . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 260°C X 10sec
Power Dissipation (PD) . . . . . . . . . . . . . . . . . . . . . . . . 1W
Short Circuit Output Current (Iout) . . . . . . . . . . . . . 50mA
Latch-up Current . . . . . . . . . . . . . . . . . . . . . . . . . . 200mA
*Comments
Stresses above those listed under "Absolute Maximum
Ratings" may cause permanent damage to this device.
These are stress ratings only. Functional operation of
this device at these or any other conditions above
those indicated in the operational sections of these
specification is not implied or intended. Exposure to
the absolute maximum rating conditions for extended
periods may affect device reliability.
DC Electrical Characteristics (VCC = 3.3V ± 0.3V, VSS = 0V, Ta = 0°C to +70°C or -40°C to +85°C)
-45 -50
Symbol Parameter Min. Max. Min. Max. Unit Test Conditions Notes
IIL Input Leakage Current -5 +5 -5 +5 µA 0V ≤ Vin ≤ Vin + 0.3V
Pins not under
Test = 0V
IOL Output Leakage Current -5 +5 -5 +5 µA DOUT disabled,
0V ≤ Vout ≤ + VCC
ICC1 Operating Power Supply
Current - 80 - 75 mA RAS,UCAS,LCAS and
Address cycling; tRC = min. 1, 2
ICC2 TTL Standby Power
Supply Current - 1.5 - 1.5 mA RAS=UCAS=LCAS=VIH
ICC3 Average Power
Supply Current,
RAS Refresh Mode
- 80 - 75 mA RAS and Address cycling,
UCAS=LCAS = VIH,
tRC = min.
1
ICC4 EDO Page Mode
Average Power
Supply Current
- 80 - 75 mA RAS = VIL,
UCAS,LCAS and Address
cycling; tPC = min.
1, 2
ICC5 CAS-before-RAS
Refresh Power
Supply Current
- 80 - 75 mA RAS, UCAS and LCAS
cycling; tRC = min. 1
ICC6 CMOS Standby Power
Supply Current - 1.0 - 1.0 mA RAS=UCAS=LCAS =
VCC - 0.2V
ICC7 Self Refresh Mode
Current - 350 - 350 µA RAS=CAS≤VSS+0.2V
All other input high levels are
VCC-0.2V or input low levels
are VSS +0.2V
VOH 2.4 - 2.4 - V IOUT = -2.0mA
VOL Output Voltage - 0.4 - 0.4 V IOUT =2.0mA
A42L2604 Series
PRELIMINARY (June, 2002, Version 0.3) 6 AMIC Technology, Inc.
AC Characteristics (VCC = 3.3V ± 0.3V, VSS = 0V, Ta = 0°C to +70°C or -40°C to +85°C)
Test Conditions:
Input timing reference level: VIH/VIL=2.0V/0.8V
Output reference level: VOH/VOL=2.0V/0.8V
Output Load: 2TTL gate + CL (50pF)
Assumed tT=2ns
-45 -50
# Std
Symbol
Parameter Min. Max. Min. Max.
Unit
Notes
tT Transition Time (Rise or Fall) 1 50 1 50 ns 4, 5
1 tRC Random Read or Write Cycle Time 76 - 84 - ns
2 tRP RAS Precharge Time 27 - 30 - ns
3 tRAS RAS Pulse Width 45 10K 50 10K ns
4 tCAS CAS Pulse Width 7 10K 8 10K ns
5 tRCD RAS to CAS Delay Time 10 33 11 37 ns 6
6 tRAD RAS to Column Address Delay Time 8 25 9 28 ns 7
7 tRSH CAS to RAS Hold Time 7 - 8 - ns
8 tCSH CAS Hold Time 35 - 37 - ns
9 tCRP CAS to RAS Precharge Time 5 - 5 - ns
10 tASR Row Address Setup Time 0 - 0 - ns
11 tRAH Row Address Hold Time 7 - 8 - ns
12 tCLZ CAS to Output in Low Z 3 - 3 - ns 8
13 tRAC Access Time from RAS - 45 - 50 ns 6,7
14 tCAC Access Time from CAS - 12 - 13 ns 6, 12
15 tAA Access Time from Column Address - 20 - 22 ns 7, 12
16 tOEA Access Time from OE - 12 - 13 ns
17 tAR Column Address Hold Time from RAS 40 - 45 - ns
18 tRCS Read Command Setup Time 0 - 0 - ns
19 tRCH Read Command Hold Time 0 - 0 - ns 9
A42L2604 Series
PRELIMINARY (June, 2002, Version 0.3) 7 AMIC Technology, Inc.
AC Characteristics (continued) (VCC = 3.3V ± 0.3V, VSS = 0V, Ta = 0°C to +70°C or -40°C to +85°C)
Test Conditions:
Input timing reference level: VIH/VIL=2.0V/0.8V
Output reference level: VOH/VOL=2.0V/0.8V
Output Load: 2TTL gate + CL (50pF)
Assumed tT=2ns
-45 -50
# Std
Symbol
Parameter Min. Max. Min. Max.
Unit
Notes
20 tRRH Read Command Hold Time Reference to RAS 0 - 0 - ns 9
21 tRAL Column Address to RAS Lead Time 20 - 22 - ns
22 TCOH Output Hold After CAS Low 2 - 3 - ns
23 tOFF Output Buffer Turn-Off Delay Time - 2 - 3 ns 8, 10
24 tASC Column Address Setup Time 0 - 0 - ns
25 tCAH Column Address Hold Time 7 - 8 - ns
26 tOES OE Low to CAS High Set Up 10 - 10 - ns
27 tWCS Write Command Setup Time 0 - 0 - ns 11
28 tWCH Write Command Hold Time 7 - 8 - ns 11
29 tWCR Write Command Hold Time to RAS 40 - 45 - ns
30 tWP Write Command Pulse Width 7 - 8 - ns
31 tRWL Write Command to RAS Lead Time 12 - 13 - ns
32 tCWL Write Command to CAS Lead Time 7 - 8 - ns
33 tDS Data-in setup Time 0 - 0 - ns
34 tDH Data-in Hold Time 7 - 8 - ns
35 tDHR Data-in Hold Time to RAS 40 - 45 - ns
36 tRWC Read-Modify-Write Cycle Time 104 - 114 - ns
37 tRWD RAS to WE Delay Time (Read-Modify-Write) 59 - 65 - ns 11
38 tCWD CAS to WE Delay Time (Read-Modify-Write) 26 - 28 - ns 11
39 tAWD Column Address to WE Delay Time
(Read-Modify-Write) 34 - 37 - ns 11
A42L2604 Series
PRELIMINARY (June, 2002, Version 0.3) 8 AMIC Technology, Inc.
AC Characteristics (continued) (VCC = 3.3V ± 0.3V, VSS = 0V, Ta = 0°C to +70°C or -40°C to +85°C)
Test Conditions:
Input timing reference level: VIH/VIL=2.0V/0.8V
Output reference level: VOH/VOL=2.0V/0.8V
Output Load: 2TTL gate + CL (50pF)
Assumed tT=2ns
-45 -50
# Std
Symbol
Parameter Min. Max. Min. Max.
Unit
Notes
40 tOEH OE Hold Time from WE 7 - 8 - ns
41 tOEP OE High Pulse Width 5 - 5 - ns
42 tPC Read or Write Cycle Time (EDO Page) 18 - 20 - ns 13
43 tCPA Access Time from CAS Precharge
(EDO Page) - 21 - 23 ns 12
44 tCP CAS Precharge Time 7 - 8 - ns
45 tPCM EDO Page Mode RMW Cycle Time 46 - 50 - ns
46 tCRW EDO Page Mode CAS Pulse Width
(RMW) 35 - 38 - ns
47 tRASP RAS Pulse Width (EDO Page) 45 200K 50 200K ns
48 tCSR CAS Setup Time ( CAS-before-RAS) 5 - 5 - ns 3
49 tCHR CAS Hold Time ( CAS-before-RAS) 10 - 10 - ns 3
50 tRPC RAS to CAS Precharge Time 10 - 10 - ns
51 tOEZ Output Buffer Turn-off Delay from OE - 2 - 3 ns 8
52 tRASS RAS pulse width (C-B-
R
self refresh) 100 - 100 - µs
53 tRPS RAS precharge time (C-B-
R
self refresh) 76 - 84 - ns
54 tCHS CAShold time (C-B-
R
self refresh) -50 - -50 - ns
A42L2604 Series
PRELIMINARY (June, 2002, Version 0.3) 9 AMIC Technology, Inc.
Notes:
1. ICC1, ICC3, ICC4, and ICC5 depend on cycle rate.
2. ICC1 and ICC4 depend on output loading. Specified values are obtained with the outputs open.
3. An initial pause of 200µs is required after power-up followed by any 8 RAS cycles before proper device operation is
achieved. In the case of an internal refresh counter, a minimum of 8 CAS -before-RAS initialization cycles instead of 8
RAS cycles are required. 8 initialization cycles are required after extended periods of bias without clocks.
4. AC Characteristics assume tT = 2ns. All AC parameters are measured with a load equivalent to two TTL loads and
50pF, VIL (min.) ≥ GND and VIH (max.) ≤ VCC.
5. VIH (min.) and VIL (max.) are reference levels for measuring timing of input signals. Transition times are measured
between VIH and VIL.
6. Operation within 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.
7. Operation within 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.
8. Assumes three state test load (5pF and a 500Ω Thevenin equivalent).
9. Either tRCH or tRRH must be satisfied for a read cycle.
10. tOFF (max.) defines the time at which the output achieves the open circuit condition; it is not referenced to output
voltage levels.
11. tWCS, tWCH, tRWD, tCWD and tAWD are not restrictive operating parameters. They are included in the data sheet
as electrical characteristics only. If tWCS ≥ tWCS (min.) and tWCH ≥ tWCH (min.), the cycle is an early write cycle
and data-out pins will remain open circuit, high impedance, throughout the entire cycle. If tRWD ≥ tRWD (min.) , tCWD ≥
tCWD (min.) and tAWD ≥ tAWD (min.), the cycle is a read-modify-write cycle and the data out will contain data read from
the selected cell. If neither of the above conditions is satisfied, the condition of the data out at access time is
indeterminate.
12. Access time is determined by the longer of tAA or tCAC or tCPA.
13. tASC ≥ tCP to achieve tPC (min.) and tCPA (max.) values.
A42L2604 Series
PRELIMINARY (June, 2002, Version 0.3) 10 AMIC Technology, Inc.
Word Read Cycle
t
RAS(3)
t
RP(2)
t
RC(1)
t
CRP(9)
t
CSH(8)
t
RCD(5)
t
RSH(7)
t
CAS(4)
t
ASR(10)
t
CRP(9)
t
RAH(11)
t
ASC(24)
t
CAH(25)
t
RAD(6)
t
RAL(21)
t
RCH(19)
t
RRH(20)
t
AR(17)
t
RCS(18)
t
OEA(16)
t
RAC(13)
t
AA(15)
t
CAC(14)
t
CLZ(12)
t
OEZ(51)
t
OFF(23)
High-Z
: High or Low
Valid Data-out
Row Address Column Address
I/O
0
~
I/O
3
OE
WE
Address
CAS
RAS
A42L2604 Series
PRELIMINARY (June, 2002, Version 0.3) 11 AMIC Technology, Inc.
Word Write Cycle (Early Write)
t
RAS(3)
t
RP(2)
t
RC(1)
t
CRP(9)
t
CSH(8)
t
RCD(5)
t
RSH(7)
t
CAS(4)
t
ASR(10)
t
CRP(9)
t
RAH(11)
t
ASC(24)
t
CAH(25)
t
RAD(6)
t
RAL(21)
t
WCH(28)
: High or Low
Row Address Column Address
I/O
0
~
I/O
3
OE
Address
CAS
RAS
t
AR(17)
t
CWL(32)
t
RWL(31)
t
WP(30)
t
WCS(27)
Valid Data-in
t
DS(33)
t
DH(34)
WE
t
WCR(29)
t
DHR(35)
A42L2604 Series
PRELIMINARY (June, 2002, Version 0.3) 12 AMIC Technology, Inc.
Word Write Cycle (Late Write)
t
RAS(3)
t
RP(2)
t
RC(1)
t
CRP(9)
t
CSH(8)
t
RCD(5)
t
RSH(7)
t
CAS(4)
t
ASR(10)
t
CRP(9)
t
ASC(24)
t
CAH(25)
t
RAD(6)
t
RAL(21)
Row Address Column Address
Address
CAS
RAS
t
AR(17)
t
CWL(32)
t
RWL(31)
t
WP(30)
t
RAH(11)
t
OEH(40)
t
DS(33)
t
DH(34)
I/O
0
~
I/O
3
: High or Low
OE
WE
High-Z Vaild Data-in
t
WCR(29)
t
DHR(35)
A42L2604 Series
PRELIMINARY (June, 2002, Version 0.3) 13 AMIC Technology, Inc.
Word Read-Modify-Write Cycle
t
RAS(3)
t
RP(2)
t
RWC(36)
t
CRP(9)
t
CSH(8)
t
RCD(5)
t
RSH(7)
t
ASR(10)
t
CRP(9)
t
RAH(11)
t
CAH(25)
t
RAD(6)
Row Address Column AddressAddress
CAS
RAS
t
AR(17)
t
RWL(31)
t
ASC(24)
t
CWL(32)
t
AWD(39)
t
CWD38)
t
RWD(37)
t
WP(30)
t
OEA(16)
t
OEZ(51)
t
CLZ(12)
t
CAC(14)
t
AA(15)
t
RAC(13)
t
DS(33)
t
DH(34)
High-Z Data-out Data-in
: High or Low
I/O
0
~
I/O
3
OE
WE
t
OEH(40)
t
RCS(18)
A42L2604 Series
PRELIMINARY (June, 2002, Version 0.3) 14 AMIC Technology, Inc.
EDO Page Mode Word Read Cycle
t
RASP(47)
t
RP(2)
RAS
CAS
t
CAS(4)
t
CAS(4)
t
CAS(4)
t
RCD(5)
t
CSH(8)
t
CRP(9)
t
CRP(9)
t
PC(42)
t
RSH(7)
t
ASR(10)
t
RAH(11)
t
RAD(6)
t
AR(16)
t
RAL(21)
Address
OE
WE
I/O
0
~
I/O
3
: High or Low
t
ASC(24)
t
CP(44)
t
CSH(8)
t
ASC(24)
t
CAH(25)
t
CAH(25)
Row Column Column Column
t
RCH(19)
t
RCS(18)
t
RCS(18)
t
RCH(25)
t
RCS(18)
t
CAH(25)
t
RRH(20)
t
OFF(23)
t
OEZ(51)
t
AA(15)
t
OEA(16)
t
OEP(41)
t
CAC(14)
t
CLZ(12)
t
OEZ(51)
t
CPA(43)
t
OES(26)
t
AA(15)
t
OEA(16)
t
COH(22)
t
CAC(14)
t
RAC(13)
t
CAC(14)
t
CLZ(12)
Data-out Data-out Data-out
A42L2604 Series
PRELIMINARY (June, 2002, Version 0.3) 15 AMIC Technology, Inc.
EDO Page Mode Early Word Write Cycle
t
RASP(47)
t
RP(2)
RAS
CAS
t
CAS(4)
t
CP(44)
t
CAS(4)
t
CP(44)
t
CAS(4)
t
RCD(5)
t
CSH(8)
t
CRP(9)
t
CRP(9)
t
PC(42)
t
RSH(7)
t
ASR(10)
t
RAH(11)
t
RAD(6)
t
ASC(24)
t
CAH(25)
t
ASC(24)
t
CAH(25)
t
CAH(25)
t
ASC(24)
t
RAL(21)
Row Column ColumnAddress
WE
t
CWL(32)
t
WCH(28)
t
WCS(27)
t
WCS(27)
Column
t
CWL(32)
t
WCH(28)
t
WCS(27)
t
WCH(28)
t
CWL(32)
t
RWL(31)
t
WP(30)
t
WP(30)
t
WP(30)
t
DH(34)
t
DS(33)
t
DH(34)
t
DS(33)
t
DS(33)
t
DH(34)
Data-in Data-in Data-in
I/O
0
~
I/O
3
OE
: High or Low
A42L2604 Series
PRELIMINARY (June, 2002, Version 0.3) 16 AMIC Technology, Inc.
EDO Page Mode Word Read-Modify-Write Cycle
t
RASP(47)
RAS
t
CRW(46)
t
CP(44)
t
CRW(46)
t
CP(44)
t
CRW(46)
t
RCD(5)
t
CSH(8)
t
CRP(9)
t
CRP(9)
t
PCM(45)
t
RSH(7)
t
RP(2)
t
ASR(10)
t
RAH(11)
t
RAD(6)
t
ASC(24)
t
CAH(25)
t
ASC(24)
t
CAH(25)
t
ASC(24)
t
CAH(25)
t
RAL(21)
t
RCS(18)
t
CWD(38)
t
RWD(37)
t
CWL(32)
t
CWD(38)
t
CWL(32)
t
CWD(38)
t
CWL(32)
t
RWL(31)
t
OEA(16)
t
OEA(16)
t
OEA(16)
t
WP(30)
t
WP(30)
t
WP(30)
t
AWD(39)
t
AWD(39)
t
AWD(39)
t
CAC(14)
t
AA(15)
t
RAC(13)
t
OEZ(51)
t
DS(33)
t
AA(15)
t
CPA(43)
t
DH(34)
t
OEZ(51)
t
DS(33)
t
DH(34)
t
OEZ(51)
t
DS(33)
t
DH(34)
t
AA(15)
t
CPA(43)
t
CLZ(12)
t
CLZ(12)
t
CLZ(12)
High-Z
: High or Low
I/O
0
~
I/O
3
OE
WE
Address
CAS
Data-out Data-in Data-out Data-in Data-out Data-in
Row Column Column Column
t
OEH(40)
A42L2604 Series
PRELIMINARY (June, 2002, Version 0.3) 17 AMIC Technology, Inc.
RAS Only Refresh Cycle
CAS Before RAS Refresh Cycle
t
RAS(3)
t
RP(2)
t
RC(1)
RAS
t
CRP(9)
t
RPC(50)
t
ASR(10)
t
RAH(11)
Address
: High or Low
Row
Note: WE, OE = Don't care.
CAS
t
RAS(3)
t
RP(2)
t
RC(1)
RAS
t
RP(2)
t
RPC(50)
t
PC(44)
t
CSR(48)
t
CHR(49)
t
OFF(23)
I/O
0
~
I/O
3
CAS
High-Z
: High or LowNote: WE, OE, Address = Don't care.
A42L2604 Series
PRELIMINARY (June, 2002, Version 0.3) 18 AMIC Technology, Inc.
Hidden Refresh Cycle (Word Read)
tRAS(3) tRP(2)
tRC(1)
tCRP(9)
tAR(17)
tRCD(5)
tASR(10)
tCRP(9)
tASC(24)
tCAH(25)
tRAD(6)
A0~A8
UCAS
RAS
tRAH(11)
tRRH(20)tRCS(18)
I/O
0
~
I/O
15
: High or Low
OE
High-Z
tRAS(3) tRP(2)
tCHR(49)
tRC(1)
tRSH(7)
tRAL(21)
tCAC(14) tOFF(23)
tAA(15)
tCLZ(12)
tRAC(13)
WE
Row Column
Valid Data-out
LCAS
tOEZ(51)
tOEA(16)
A42L2604 Series
PRELIMINARY (June, 2002, Version 0.3) 19 AMIC Technology, Inc.
Hidden Refresh Cycle (Early Word Write)
t
RAS(3)
t
RP(2)
t
RC(1)
t
CRP(9)
t
AR(17)
t
RCD(5)
t
ASR(10)
t
CRP(9)
t
ASC(24)
t
CAH(25)
t
RAD(6)
Address
RAS
t
RAH(11)
: High or Low
OE
t
RAS(3)
t
RP(2)
t
CHR(49)
t
RC(1)
t
RSH(7)
t
RAL(21)
WE
Row Column
t
WCS(27)
t
WCH(28)
t
WP(30)
t
DS(33)
t
DH(34)
Valid Data-in
I/O
0
~
I/O
3
CAS
A42L2604 Series
PRELIMINARY (June, 2002, Version 0.3) 20 AMIC Technology, Inc.
EDO Page Mode Read-Early-Write Cycle (Pseudo Read-Modify-Write)
RAS
: High or Low
I/O
0
~
I/O
3
OE
WE
Address
CAS
t
RP(2)
t
RASP(47)
t
CRP(9)
t
CSH(8)
t
RCD(5)
t
CAS(4)
t
CP(44)
t
CAS(4)
t
CP(44)
t
CAS(4)
t
CPR(9)
t
RSH(7)
t
PC(42)
t
PC(42)
Row Column Column
t
RAL(21)
t
CAH(25)
t
ASC(24)
t
CAH(25)
t
ASC(24)
t
CAH(25)
t
ASC(24)
t
ASR(10)
t
RAH(11)
t
RAD(6)
Column
t
RCS(18)
t
RCH(19)
t
WCS(27)
t
WCH(28)
Data-out Data-out Data-in
t
DH(34)
t
DS(33)
t
AA(15)
t
CAP(43)
t
CAC(14)
t
COH(22)
t
AA(15)
t
RAC(13)
t
CAC(14)
t
OEA(16)
A42L2604 Series
PRELIMINARY (June, 2002, Version 0.3) 21 AMIC Technology, Inc.
Self Refresh Mode
n Self Refresh Mode.
a. Entering the Self Refresh Mode:
The A42L2604 Self Refresh Mode is entered by using CAS before RAS cycle and holding RAS and CAS signal “low”
longer than 100µs.
b. Continuing the Self Refresh Mode:
The Self Refresh Mode is continued by holding RAS “low” after entering the Self Refresh Mode.
It does not depend on CAS being “high” or “low” after entering the Self Refresh Mode continue the Self Refresh Mode.
c. Exiting the Self Refresh Mode:
The A42L2604 exits the Self Refresh Mode when the RAS signal is brought “high”.
t
RASS(52)
t
RP(2)
t
CRP(9)
t
CSR(48)
t
RPC(50)
RAS
t
RPS(53)
t
CHS(54)
t
ASR(10)
t
CP(44)
t
OFF(23)
A0 ~ A10
: High or Low
High-Z
I/O
0
~ I/O
3
UCAS
LCAS
ROW COL
Note: WE, OE = Don't care.
A42L2604 Series
PRELIMINARY (June, 2002, Version 0.3) 22 AMIC Technology, Inc.
Capacitance (f = 1MHz, Ta = Room Temperature, VCC = 3.3V ± 10%)
Symbol Signals Parameter Max. Unit Test Conditions
CIN1 A0 – A10 5 pF Vin = 0V
CIN2 RAS,CAS,
WE, OE
Input Capacitance 7 pF Vin = 0V
CI/O I/O0 - I/O3 I/O Capacitance 7 pF Vin = Vout = 0V
Ordering Codes
Package
RAS
Access Time 45ns 50ns Refresh Cycle Self-Refresh
SOJ 24/26L (300mil) A42L2604S-45 A42L2604S-50 2K Yes
TSOP 24/26L type II (300mil) A42L2604V-45 A42L2604V-50 2K Yes
TSOP 24/26L type II (300mil) A42L2604V-45U A42L2604V-50U 2K Yes
Note: -U is for industrial operating temperature range.
A42L2604 Series
PRELIMINARY (June, 2002, Version 0.3) 23 AMIC Technology, Inc.
Package Information
SOJ 24/26L (300mil) Outline Dimensions unit: inches/mm
E1
E
A2
e
E2
12
1324
S
y
A1
b
2
b
19 18
1 6 7
Pin 1 Identifier
- y -
Seating Plane 0.004
A
AA
θ
D
C
Dimensions in inches Dimensions in mm
Symbol Min Nom Max Min Nom Max
A - - 0.140 - - 3.56
A1 0.070 0.080 0.090 1.78 2.03 2.29
A2 0.095 0.100 0.105 2.41 2.54 2.67
b 0.016 0.018 0.022 0.41 0.46 0.56
b2 0.026 0.028 0.032 0.66 0.71 0.81
C 0.008 0.010 0.014 0.20 0.25 0.36
D - 0.675 0.686 - 17.15 17.42
E 0.327 0.337 0.347 8.31 8.56 8.81
E1 0.295 0.300 0.305 7.49 7.62 7.75
E2 0.245 0.265 0.285 6.22 6.73 7.24
e 0.044 0.050 0.056 1.12 1.27 1.42
S - - 0.048 - - 1.22
θ 0° - 10° 0° - 10°
Notes:
1. The maximum value of dimension D includes end flash.
2. Dimension E1 does not include resin fins.
3. Dimension E2 is for PC Board surface mount pad pitch design
reference only.
4. Dimension S includes end flash.
A42L2604 Series
PRELIMINARY (June, 2002, Version 0.3) 24 AMIC Technology, Inc.
Package Information
TSOP 24/26L (TYPE II) (300mil) Outline Dimensions unit: inches/mm
E
D
S B
13
121
24
e
HE
L1
θ
0.010
D
y
A2A1
A
L1L
c
Dimensions in inches
Dimensions in mm
Symbol Min Nom Max Min Nom Max
A - - 0.047 - - 1.20
A1 0.002 - - 0.05 - -
A2 0.037 0.039 0.041 0.95 1.00 1.05
B 0.012 0.016 0.020 0.30 0.40 0.50
c - 0.005 - - 0.127 -
D 0.671 0.675 0.679 17.04 17.14 17.24
E 0.298 0.300 0.302 7.57 7.62 7.67
e - 0.050 - - 1.27 -
HE 0.355 0.363 0.371 9.02 9.22 9.42
L - 0.031 - - 0.80 -
L1 0.016 0.020 0.024 0.40 0.50 0.60
S - 0.037 - - 0.95 -
y - - 0.004 - - 0.10
θ 0° - 5° 0° - 5°
Notes:
1. Dimension D&E do not included interlead flash.
2. Dimension B does not included dambar protrusion / intrusion.
3. Dimension S includes end flash.
