Datasheet AS4LC256K16E0-60TC, AS4LC256K16E0-60JC, AS4LC256K16E0-45TC, AS4LC256K16E0-45JC, AS4LC256K16E0-35TC Datasheet (Alliance Semiconductor Corporation)

Copyright © Alliance Semiconductor. All rights reserved.

AS4LC256K16EO

4/11/01; V.1.1 Alliance Semiconductor P. 1 of 25

3.3V 256K X 16 CMOS DRAM (EDO)

®

Features

• Organization: 262,144 words × 16 bits

•High speed

- 45/60 ns RAS access time

- 10/12/15/20 ns column address access time

- 7/10/10 ns CAS

access time

• Low power consumption

- Active: 280 mW max (AS4LC256K16EO-35)

- Standby: 2.8 mW max, CMOS I/O (AS4LC256K16EO-

35)

•EDO page mode

•5V I/O tolerant

• 512 refresh cycles, 8 ms refresh interval

-RAS-only or CAS-before-RAS refresh or self refresh

• Read-modify-write

• LVTTL-compatible, three-state I/O

• JEDEC standard packages

- 400 mil, 40-pin SOJ

- 400 mil, 40/44-pin TSOP II

• 3.3V power supply

• Latch-up current > 200 mA

Pin arrangement

40
39
38
37
36
35
34
33
32
31

GND
I/O15
I/O14
I/O13
I/O12
GND
I/O11
I/O10

I/O9

I/O8

SOJ

30
29
28
27
26
25
24
23
22
21

NC
LCAS
UCAS
OE
A8
A7
A6
A5

A4

GND

1
2
3
4
5
6
7
8
9

10

Vcc
I/O0
I/O1
I/O2
I/O3

Vcc
I/O4
I/O5

I/O6

I/O7

11
12
13
14
15
16
17
18
19
20

NC
NC

WE

RAS

NC

A0
A1
A2

A3

Vcc

V

CC

I/O0
I/O1

I/O2
I/O3

V

CC

I/O4
I/O5

I/O6
I/O7

NC
NC

WE

RAS

NC

A0
A1
A2
A3

V

CC

GND
I/O15

I/O14
I/O13

I/O12
GND

I/O11
I/O10

I/O9
I/O8

NC

LCAS
UCAS
OE

A8
A7
A6
A5
A4
GND

44
43
42
41
40
39
38
37
36
35

32
31
30
29
28
27
26
25
24
23

1
2
3
4
5
6
7
8
9
10

13
14
15
16
17
18
19
20
21
22

TSOP II

AS4LC256K16EO

AS4LC256K16EO

Pin designation

Pin(s) Description

A0 to A8 Address inputs

RAS

Row address strobe

I/O0 to I/O15 Input/output

OE

Output enable

UCAS

Column address strobe, upper byte

LCAS

Column address strobe, lower byte

WE

Read/write control

V

CC

Power (3.3V ± 0.3V)

GND Ground

Selection guide

Symbol AS4LC256K16EO-35 AS4LC256K16EO-45 AS4LC256K16EO-60 Unit

Maximum

RAS

access time t

RAC

35 45 60 ns

Maximum column address access time t

CAA

17 20 25 ns

Maximum

CAS

access time t

CAC

71010ns

Maximum output enable (

OE

) access time t

OEA

71010ns

Minimum read or write cycle time t

RC

50 80 100 ns

Minimum EDO page mode cycle time t

PC

15 17 30 ns

Maximum operating current I

CC1

70 60 50 mA

Maximum CMOS standby current I

CC2

200 200 200 µA

®

AS4LC256K16EO

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Functional description

The AS4LC256K16EO is a high-performance 4 megabit CMOS Dynamic Random Access Memory (DRAM) organized as
262,144 words by 16 bits. The AS4LC256K16EO is fabricated with advanced CMOS technology and designed with innovative
design techniques resulting in high speed, extremely low power and wide operating margins at component and system levels.

The AS4LC256K16EO features a high speed page mode operation in which high speed read, write and read-write are

performed on any of the 512 × 16 bits defined by the column address. The asynchronous column address uses an extremely

short row address capture time to ease the system level timing constraints associated with multiplexed addressing. Very fast

CAS

to output access time eases system design.

Refresh on the 512 address combinations of A0 to A8 during an 8 ms period is accomplished by performing any of the
following:

•RAS-only refresh cycles

• Hidden refresh cycles

•CAS

-before-RAS refresh cycles

• Normal read or write cycles

• Self refresh cycles

The AS4LC256K16EO is available in standard 40-pin plastic SOJ and 40/44-pin TSOP II packages compatible with widely

available automated testing and insertion equipment. System level features include single power supply of 3.3V ± 0.3V

tolerance and direct interface with TTL logic families.

Logic block diagram

Recommended operating conditions

(Ta = 0°C to +70°C)

Parameter Symbol Min Typ Max Unit

Supply voltage

V

CC

3.03.33.6V

GND 0.0 0.0 0.0 V

Input voltage

V

IH

2.0 – VCC + 1 V

V

IL

–1.0 – 0.8 V

REFRESH

CONTROLLER

512×512×16

ARRAY

(4,194,304)

SENSE AMP

A0
A1
A2
A3
A4
A5
A6
A7

V

CC

GND

ADDRESS BUFFERS

A8

ROW DEC ODE R

COLUMN DECODER

RAS CLOCK
GENERATOR

SUBSTRATE
BIAS
GENERATOR

DATA
I/O
BUFFER

OE

RAS

UCAS

WE CLOCK
GENERATOR

WE

LCAS

I/O0 to I/O15

CAS CLOCK
GENERATOR

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Absolute maximum ratings

NOTE:

Stresses greater than those listed under Absolute Maximum Ratings may cause permanent damage to the device. This is a stress rating only and functional
operation of the device at these or any other conditions outside those indicated in the operational sections of this specification is not implied. Exposure to abso­lute maximum rating conditions for extended periods may affect reliability.

DC electrical characteristics

Parameter Symbol Min Max Unit

Input voltage V

in

-1.0 +7.0 V

Output voltage V

out

-1.0 +7.0 V

Power supply voltage V

CC

-1.0 +7.0 V

Operating temperature T

OPR

0+70°C

Storage temperature (plastic) T

STG

-55 +150 °C

Soldering temperature × time T

SOLDER

–260 × 10

o

C × sec

Power dissipation P

D

–1W

Short circuit output current I

out

–50mA

Latch-up current 200 – mA

Parameter Symbol Test conditions

-35 -45 -60

Unit NoteMinMaxMinMaxMinMax

Input leakage
current

I

IL

0V ≤ Vin ≤ +5.5V

pins not under test = 0V

-1010-1010-1010µA

Output leakage
current

I

OL

D

OUT

disabled,

0V ≤ V

out

≤ +5.5V

-1010-1010-1010µA

Operating power
supply current

I

CC1

RAS, UCAS, LCAS

, address cycling;

t

RC

=min

–70–60–50mA1,2

TTL standby power
supply current

I

CC2

RAS

=

UCAS

=

LCAS

= V

IH

–200–200–200µA

Ave r age power
supply current,

RAS

refresh mode

I

CC3

RAS

cycling,

UCAS

=

LCAS

= VIH,

t

RC

= min

–50–45–40mA1

EDO page mode
average power
supply current

I

CC4

RAS=UCAS=LCAS

=VIL,

address cycling: t

SC

= min

–40–35–35mA1,2

CMOS standby
power supply
current

I

CC5

RAS=UCAS=LCAS

= V

CC

- 0.2V – 400 – 400 – 400 µA

CAS

-before-

RAS
refresh power
supply current

I

CC6

RAS, UCAS, LCAS

, cycling;

t

RC

= min

–50–50–50mA1

Output Voltage

V

OH

I

OUT

= -2 mA 2.4 – 2.4 – 2.4 – V

V

OL

I

OUT

= 2 mA –0.4–0.4–0.4V

Self refresh current

I

CC7

RAS = UCAS = LCAS=VIL,
WE

= OE = A0-A8 = VCC-0.2V,

DQ0-DQ15 = V

CC

-0.2V,

0.2V are open

- 400 - 400 - 400 µA

®

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AC parameters common to all waveforms

Read cycle

Std Symbol Parameter

-35 -45 -60

Unit NotesMin Max Min Max Min Max

t

RC

Random read or write cycle time 50 – 80 – 100 – ns

t

RP

RAS

precharge time 15 – 20 – 20 – ns

t

RAS

RAS

pulse width 35 75K 45 75K 60 75K ns

t

CAS

CAS

pulse width 6 – 10 – 10 – ns

t

RCD

RAS

to

CAS

delay time 12 18 18 32 15 45 ns 6

t

RAD

RAS

to column address delay time 8 14 13 23 15 30 ns 7

t

RSH(R)

CAS

to

RAS

hold time (read cycle) 10 – 10 – 12 – ns

t

CSH

RAS

to

CAS

hold time 35 – 45 – 60 – ns

t

CRP

CAS

to

RAS

precharge time 5 – 5 – 5 – ns

t

ASR

Row address setup time 0 – 0 – 0 – ns

t

RAH

Row address hold time 6 – 8 – 9 – ns

t

T

Transition time (rise and fall) 1.5 50 1.5 50 1.5 50 ns 4,5

t

REF

Refresh period – 8 – 8 – 8 ms 3

t

CLZ

CAS

to output in low Z 0 – 3 – 3 – ns 8

Std Symbol Parameter

-35 -45 -60

Unit NotesMin Max Min Max Min Max

t

RAC

Access time from

RAS

–35–45–60ns 6

t

CAC

Access time from

CAS

– 7 – 10 – 10 ns 6,13

t

AA

Access time from address – 17 – 22 – 30 ns 7,13

t

AR(R)

Column add hold from

RAS

28 – 35 – 40 – ns

t

RCS

Read command setup time 0 – 0 – 0 – ns

t

RCH

Read command hold time to

CAS

0–0–0–ns9

tRRH

Read command hold time to

RAS

0–0–0–ns9

t

RAL

Column address to

RAS

Lead time 18 – 25 – 30 – ns

t

CPN

CAS

precharge time 4 – 5 – 5 – ns

t

OFF

Output buffer turn-off time 0 8 0 10 0 10 ns 8,10

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Write cycle

Read-modify-write cycle

Std Symbol Parameter

-35 -45 -60

Unit NotesMinMaxMinMaxMinMax

t

ASC

Column address setup time 0 – 0 – 0 – ns

t

CAH

Column address hold time 5 – 6 – 10 – ns

t

AW R

Column address hold time to

RAS

28 – 35 – 40 – ns

t

WCS

Write command setup time 0 – 0 – 0 – ns 11

t

WCH

Write command hold time 0 – 0 – 0 – ns 11

t

WCR

Write command hold time to

RAS

28 – 35 – 40 – ns

t

WP

Write command pulse width 5 – 6 – 10 – ns

t

RW L

Write command to

RAS

lead time 11 – 12 – 12 – ns

t

CWL

Write command to

CAS

lead time 11 – 12 – 12 – ns

t

DS

Data-in setup time 0 – 0 – 0 – ns 12

t

DH

Data-in hold time 5 – 6 – 10 – ns 12

t

DHR

Data-in hold time to

RAS

28 – 35 – 45 – ns

Std Symbol Parameter

-35 -45 -60

Unit NotesMin Max Min Max Min Max

t

RW C

Read-write cycle time 105 – 115 – 120 – ns

t

RW D

RAS

to WE delay time 54 – 58 – 60 – ns 11

t

CWD

CAS

to WE delay time 28 – 30 – 30 – ns 11

t

AW D

Column address to WE delay time 35 – 38 – 40 – ns 11

t

RSH(W)

CAS

to

RAS

hold time (write) 10 – 10 – 12 – ns

t

CAS(W)

CAS

pulse width (write) 15 – 15 – 15 – ns

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EDO page mode cycle

Refresh cycle

Output enable

Self refresh cycle

Std
Symbol Parameter

-35 -45 -60

Unit NotesMin Max Min Max Min Max

t

PC

Read or write cycle time (fast page) 15 – 17 – 25 – ns 14

t

CAP

Access time from

CAS

precharge – 19 – 21 – 23 ns 13

t

CP

CAS

precharge time (fast page) 4 – 5 – 6 – ns

t

PCM

EDO page mode RMW cycle 56 – 58 – 60 – ns

t

CRW

Page mode

CAS

pulse width (RMW) 44 – 46 – 50 – ns

t

RASP

RAS

pulse width 35 75K 45 75K 60 75K ns

Std
Symbol Parameter

-35 -45 -60

Unit NotesMin Max Min Max Min Max

t

CSR

CAS

setup time (

CAS

-before-

RAS

) 10 – 10 – 10 – ns 3

t

CHR

CAS

hold time (

CAS

-before-RAS)8–8–10–ns3

t

RPC

RAS precharge to

CAS

hold time 0 – 0 – 0 – ns

t

CPT

CAS

precharge time

(

CAS

-before-RAS counter test)

8–8–8–ns

Std
Symbol Parameter

-35 -45 -60

Unit NotesMin Max Min Max Min Max

t

ROH

RAS

hold time referenced to

OE

5–5–5–ns

t

OEA

OE

access time – 10 – 10 – 10 ns

t

OED

OE

to data delay 5 – 5 – 8 – ns

t

OEZ

Output buffer turnoff delay from

OE

–8–8–8ns8

t

OEH

OE

command hold time 8 – 8 – 8 – ns

Std Symbol Parameter

-35 -45 -60

Unit NotesMin Max Min Max Min Max

t

RASS

RAS

pulse width

(CBR self refresh)

100K – 100K – 100K – ns

t

RPS

RAS

precharge time

(CBR self refresh)

85 – 85 – 85 – ns

t

CHS

CAS

hold time

(CBR self refresh)

30 – 30 – 30 – ns

®

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Notes

1I

CC1

, I

CC3

, I

CC4

, and I

CC6

depend on cycle rate.

2I

CC1

and I

CC4

depend on output loading. Specified values are obtained with the output open.

3 An initial pause of 200 µs 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 (greater than 8 ms).

4 AC Characteristics assume t

T

= 5 ns. All AC parameters are measured with a load equivalent to two TTL loads and 60 pF, VIL(min) ≥ GND and VIH (max)

≤

VCC.

5V

IH

(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 t

RCD

(max) limit insures that t

RAC

(max) can be met. t

RCD

(max) is specified as a reference point only. If t

RCD

is greater than the

specified t

RCD

(max) limit, then access time is controlled exclusively by t

CAC

.

7 Operation within the t

RAD

(max) limit insures that t

RAC

(max) can be met. t

RAD

(max) is specified as a reference point only. If t

RAD

is greater than the

specified t

RAD

(max) limit, then access time is controlled exclusively by tAA.

8 Assumes three state test load (5 pF and a 380 Ω Thevenin equivalent).

9Either t

RCH

or t

RRH

must be satisfied for a read cycle.

10 t

OFF

(max) defines the time at which the output achieves the open circuit condition; it is not referenced to output voltage levels.

11 t

WCS

, t

WCH

, t

RW D

, t

CWD

and t

AW D

are not restrictive operating parameters. They are included in the datasheet as electrical characteristics only. If tWS ≥ tWS

(min) and t

WH

≥ tWH (min), the cycle is an early write cycle and data out pins will remain open circuit, high impedance, throughout the cycle. If t

RW D

≥

t

RWD

(min), t

CWD

≥ t

CWD

(min) and t

AW D

≥ t

AW D

(min), the cycle is a read-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 These parameters are referenced to CAS

leading edge in early write cycles and to WE leading edge in read-write cycles.

13 Access time is determined by the longest of t

CAA

or t

CAC

or t

CAP

.

14 t

ASC

≥ tCP to achieve tPC (min) and t

CAP

(max) values.

15 These parameters are sampled and not 100% tested.

Key to switching waveform

Read cycle waveform

Undefined/don’t care Falling inputRising input

t

RAS

t

RC

t

RP

t

RSH

t

RAD

t

RCH

t

OFF

RAS

UCAS

,

Address

WE

OE

I/O

Col Address

Row Address

t

CRP

t

CSH

t

RCD

t

ASC

t

CAH

t

CAS

t

AR

t

RAL

t

RAH

t

RCS

t

AA

t

CLZ

t

RRH

Data Out

t

ASR

t

RAC

t

ROH

t

OEA

t

CAC

t

OEZ

LCAS

®

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Upper byte read cycle waveform

Lower byte read cycle waveform

t

RAS

t

RC

t

RP

t

CRP

t

RCD

t

RSH

t

CSH

t

CRP

t

CRP

t

ASR

t

RAH

t

RAD

t

RAL

t

CAH

t

RCS

t

RRH

t

RCH

t

CLZ

t

CAC

t

OEZ

t

OFF

Row Column

Data Out

RAS

UCAS

LCAS

Address

WE

OE

Upper I/O

Lower I/O

t

ROH

t

ASC

t

RAC

t

OEA

t

AA

t

CAS

t

RAS

t

RC

t

RP

t

CRP

t

RCD

t

RSH

t

CRP

t

CRP

t

ASR

t

RAH

t

RAD

t

RAL

t

CAH

t

RRH

t

RCH

t

CLZ

t

CAC

t

RAC

t

OEZ

t

OFF

Row Column

Data Out

RAS

LCAS

UCAS

Address

WE

OE

Upper I/O

Lower I/O

t

CSH

t

ASC

t

RCS

t

ROH

t

OEA

t

AA

t

CAS

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Early write cycle waveform

Upper byte early write cycle waveform

t

RAS

t

RC

t

RP

t

CRP

t

RSH

t

RCD

t

CSH

t

CAS

t

RAH

t

RAD

t

ASC

t

AWR

t

CAH

t

WCS

t

CWL

t

RWL

t

WCH

t

WP

t

DS

t

DH

t

DHR

Col Address

Data In

RAS

UCAS

,

Address

WE

OE

I/O

Row Address

t

WCR

t

RAL

t

ASR

LCAS

t

RAS

t

RC

t

RP

t

RAH

t

RAD

t

AWR

t

CRP

t

ASC

t

CAH

t

RSH

t

RCD

t

CSH

t

CRP

t

CRP

t

RPC

t

RWL

t

WCS

t

WP

t

DS

t

DH

t

DHR

Row Address Column Address

Data In

RAS

Address

UCAS

LCAS

WE

OE

Upper I/O

Lower I/O

t

ASR

t

RAL

t

CAS

t

CWL

t

WCH

t

WCR

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Lower byte early write cycle waveform

Write cycle waveform

(OE controlled)

t

RC

t

RAS

t

RP

t

RAD

t

AWR

t

CRP

t

RPC

t

CRP

t

ASC

t

CAH

t

RSH

t

RCD

t

CSH

t

CRP

t

RWL

t

WP

t

WCS

t

WCR

t

WCH

t

DS

t

DH

t

DHR

Row Address Column Address

Data In

RAS

Address

UCAS

LCAS

WE

OE

Upper I/O

Lower I/O

t

CWL

t

RAH

t

CAS

t

RAL

t

ASR

Row Address

t

RAS

t

RC

t

RP

t

CRP

t

RSH

t

RCD

t

CSH

t

CAS

t

RAH

t

RAL

t

RAD

t

CAH

t

CWL

t

RWL

t

WCR

t

OEH

t

OED

t

DS

t

DH

Data In

RAS

UCAS

,

Address

WE

OE

I/O

Col Address

t

DHR

t

WP

t

ASC

t

AWR

t

ASR

LCAS

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Upper byte write cycle waveform

(OE controlled)

Lower byte write cycle waveform

(OE controlled)

t

RAS

t

RC

t

RP

t

RAL

t

RAD

t

ASC

t

CAH

t

CSH

t

CRP

t

CRP

t

RPC

t

RWL

t

WP

t

OEH

t

DS

t

DH

t

OED

Row Address Column Address

Data In

RAS

Address

UCAS

LCAS

WE

OE

Upper I/O

Lower I/O

t

CRP

t

AWR

t

RAH

t

RCD

t

RSH

t

CWL

t

ASR

t

CAS

t

RC

t

RAS

t

RP

t

RAH

t

RAD

t

ACS

t

CAH

t

RSH

t

CSH

t

CRP

t

CRP

t

RPC

t

RWL

t

WP

t

OEH

t

DS

t

DH

Row Address Column Address

Data In

RAS

Address

LCAS

UCAS

WE

OE

Upper I/O

Lower I/O

t

CRP

t

RCD

t

CAS

t

CWL

t

AWR

t

RAL

t

ASR

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Read-modify-write cycle waveform

t

RAS

t

RWC

t

RP

t

CRP

t

RSH

t

RCD

t

CSH

t

CAS

t

RAD

t

RAL

t

AR

t

CAH

t

CWL

t

CWD

t

RWL

t

AWD

t

WP

t

OEA

t

CLZ

t

CAC

t

AA

t

DS

tDH

Row Address Col Address

Data InData Out

RAS

UCAS

,

Address

WE

OE

I/O

t

RAH

t

RWD

t

RCS

t

RAC

t

OEZ

t

OED

t

ASC

t

ASR

LCAS

®

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Upper byte read-modify-write cycle waveform

t

RWC

t

RAS

t

RP

t

CRP

t

RSH

t

RCD

t

CSH

t

CAS

t

CRP

t

CRP

t

RPC

t

RAL

t

CAH

t

RWL

t

AWD

t

WP

t

CWD

t

OEA

t

DS

t

CLZ

t

AA

t

RAC

t

CAC

t

OEZ

t

OED

Row

Column Address

Data In

Data Out

Data Out

RAS

UCAS

LCAS

Address

WE

OE

Upper Input

Upper Output

Lower Input

Lower Output

t

RWD

t

CWL

t

OED

t

RCS

t

RAH

t

ASR

t

ACS

t

RAD

®

AS4LC256K16EO

4/11/01; V.1.1 Alliance Semiconductor P. 15 of 25

Lower byte read-modify-write cycle waveform

t

WP

t

RWC

t

RAS

t

RP

t

CRP

t

RPC

t

CRP

t

RSH

t

RCD

t

CSH

t

CAS

t

CRP

t

RAL

t

RAD

t

ACS

t

CAH

t

RCS

t

RWL

t

OEA

t

OED

t

DS

t

CLZ

t

OEZ

Row Colu mn Address

Data In

Data Out

RAS

UCAS

LCAS

Address

WE

OE

Upper Input

Upper Output

Lower Input

Lower Output

t

RAH

t

AWD

t

CWL

t

CWD

t

CAC

t

RWD

t

ASR

t

AA

t

RAC

Data Out

®

AS4LC256K16EO

4/11/01; V.1.1 Alliance Semiconductor P. 16 of 25

EDO page mode read cycle waveform

EDO page mode byte read cycle waveform

Row

t

RASP

t

RP

t

CRP

t

RCD

t

CAS

t

CSH

t

RSH

t

PC

t

ASR

t

RAD

t

RCH

t

RCS

t

RRH

t

RCH

t

OEA

t

OEA

t

AA

t

RAC

t

CAC

t

CAP

Data Out Data Out

Col Address

Col Address

Col Address

RAS

UCAS

,

Address

WE

OE

I/O

t

AR

t

RAH

t

ASC

t

RAL

t

RCS

t

CLZ

t

CP

LCAS

t

CAC

t

CAH

t

RASP

t

RP

t

CAS

t

CSH

t

RSH

t

CAS

t

CRP

t

CRP

t

CP

t

CAS

t

CP

t

RPC

t

RAH

t

RAD

t

ASC

t

CAH

t

ASC

t

RCS

t

OEA

t

OEZ

t

OFF

t

CAC

t

RAC

t

OFF

t

OEZ

t

CLZ

t

AA

t

CAC

t

CAP

t

OFF

t

OEZ

Row Column 1 Column 2 C ol umn n

Data Out 1

Data Out n

Data Out 2

RAS

UCAS

LCAS

Address

WE

OE

Lower I/O

Upper I/O

t

CLZ

t

CAP

t

AA

t

CLZ

t

CAC

t

OEA

t

RCS

t

RCH

t

OEA

t

CAH

t

RAL

t

PC

t

PC

t

CAH

t

ASC

t

RCD

t

RCH

t

RCS

t

ASR

t

CRP

t

AA

®

AS4LC256K16EO

4/11/01; V.1.1 Alliance Semiconductor P. 17 of 25

EDO page mode early write cycle waveform

EDO page mode byte early write cycle waveform

t

RAH

t

RASP

t

RWL

t

ASC

t

WCS

t

CP

t

RAL

t

WCH

t

CWL

t

WP

t

DS

t

DH

t

OED

t

CAS

Row address

Col address Col Addre ss Col Address

Data In Data In Data In

RAS

UCAS

,

Address

WE

OE

I/O

t

PC

t

CAH

t

CSH

t

RCD

t

OEH

t

HDR

t

AR

t

RAD

t

ASR

t

CRP

LCAS

t

RSH

t

RASP

t

RP

t

CAS

t

CSH

t

RSH

t

CAS

t

CRP

t

CRP

t

CP

t

CP

t

RPC

t

RAD

t

ASC

t

RAL

t

WCS

t

CWL

t

WCS

t

WCS

t

CWL

t

RWL

t

DS

t

DH

t

DS

t

DH

t

DS

t

DH

Row Column 1 Column 2 Colum n n

Data In 1

Data In n

Data In 2

RAS

UCAS

LCAS

Address

WE

OE

Lower I/O

Upper I/O

t

PC

t

RAH

t

WCH

t

WP

t

WP

t

CWL

t

WP

t

WCH

t

CAH

t

RCD

t

PC

t

CAH

t

CAH

t

ASR

t

CRP

t

ASC

t

ASC

t

CAS

t

WCH

®

AS4LC256K16EO

4/11/01; V.1.1 Alliance Semiconductor P. 18 of 25

EDO page mode read-modify-write cycle waveform

CAS

-before-

RAS

refresh cycle waveform

(WE = VIH)

RAS

only refresh cycle waveform

(WE = OE =VIH or VIL)

t

RASP

t

RP

t

RCD

t

CSH

t

CAS

t

CP

t

CRP

t

ASR

t

CAH

t

CAH

t

RAL

t

CAH

t

CWD

t

AWD

t

CWD

t

CWL

t

CWD

t

AWD

t

RWL

t

WP

t

OEZ

t

OEA

t

RAC

t

DS

t

CLZ

t

CAC

t

CAP

Row Ad Col Ad Col AddressCol Ad

Data Out

Data InData In

Data OutData Out

Data In

RAS

UCAS

,

Address

WE

OE

I/O

t

RAD

t

RAH

t

RWD

t

RCS

t

CWL

t

OEA

t

AA

t

DH

t

DS

t

CLZ

t

CAC

t

CLZ

t

CAC

t

OED

t

PCM

LCAS

t

RP

t

RC

t

RAS

t

RPC

t

CPN

t

CSR

t

CHR

t

OFF

RAS

UCAS

,

I/O

LCAS

t

RAS

t

RP

t

RC

t

CRP

t

RPC

t

ARS

t

RAH

Row Address

RAS

UCAS

,

Address

LCAS

®

AS4LC256K16EO

4/11/01; V.1.1 Alliance Semiconductor P. 19 of 25

EDO page mode byte read-modify-write cycle

t

RASP

t

RP

t

RCD

t

CAS

t

CSH

t

CRP

t

CP

t

CP

t

CAH

t

ASC

t

CAH

t

ASC

t

RAL

t

CWD

t

CWL

t

CWL

t

CWD

t

WP

t

RWL

t

OEA

t

DH

t

OEZ

t

DH

t

CLZ

t

CAC

t

AA

t

OEZ

Data Out 1

Data In n

Data Out n

Data Out 2

Data In 2

RC 1 C 2

C n

RAS

UCAS

LCAS

Address

WE

OE

Upper Input

Upper Output

Lower Input

Lower Output

t

PCM

t

CAS

t

RSH

t

CAS

t

AWD

t

ASC

t

WP

t

CWL

t

WP

t

OEA

t

OEA

t

OED

t

DS

t

CAP

t

DS

t

OED

t

OEZ

t

CLZ

t

DS

t

AA

t

CAC

t

CLZ

t

CRP

t

RAD

t

RAH

t

ASR

t

RCS

t

RWD

t

RAC

Data In 1

t

CAC

t

CAH

t

AWD

t

AWD

t

CWD

t

DH

t

AA

t

OED

®

AS4LC256K16EO

4/11/01; V.1.1 Alliance Semiconductor P. 20 of 25

Hidden refresh cycle (read) waveform

Hidden refresh cycle (write) waveform

t

RAS

t

RC

t

PR

t

RAS

t

RC

t

PR

t

CRP

t

RCD

t

RSH

t

CRP

t

CHR

t

ASR

t

RAD

t

ASC

t

RRH

t

OEA

t

CLZ

t

CAC

t

OEZ

t

OFF

Col AddressRow

Data Out

RAS

CAS

Address

WE

OE

I/O

t

AR

t

RAH

t

RAC

t

AA

t

RCS

t

RAS

t

RC

t

RP

t

CRP

t

RCD

t

RSH

t

ASR

t

RAH

t

RAD

t

AR

t

CAH

t

WCS

t

WCH

t

DS

t

DH

Data In

Col AddressRow Address

RAS

UCAS

,

Address

WE

I/O

OE

t

ASC

t

RWL

t

WCR

t

WP

t

DHR

t

RAL

LCAS

®

AS4LC256K16EO

4/11/01; V.1.1 Alliance Semiconductor P. 21 of 25

CAS

-before-

RAS

refresh counter test cycle waveform

t

RAS

t

RSH

t

RP

t

CSR

t

CHR

t

CPT

t

CAS

t

CAH

t

CLZ

t

CAC

t

RCH

t

RRH

t

ROH

t

RWL

t

CWL

t

WCS

t

WP

t

WCH

t

DS

t

DH

t

RCS

t

OEA

t

DS

t

DH

Col Address

Data Out

Data In

Data Out Data In

RAS

UCAS

,

Address

I/O

WE

OE

WE

I/O

OE

WE

OE

I/O

t

OED

t

AA

t

CLZ

t

CAC

t

OEZ

t

WP

t

CWL

t

RCS

t

AA

t

OFF

t

AWD

t

CWD

t

RAL

Read CycleWrite CycleRead-Write Cycle

LCAS

t

OEA

®

AS4LC256K16EO

4/11/01; V.1.1 Alliance Semiconductor P. 22 of 25

CAS

-before-

RAS

self refresh cycle

Typical DC and AC characteristics

t

RP

t

RASS

t

RPC

t

CP

t

CHS

t

CEZ

RAS

UCAS

,

DQ

LCAS

t

RPS

t

CSR

t

RPC

Supply voltage (V)

2.7 3.6

3.9

3.33.0

0.8

0.9

1.1

1.2

1.0

1.3

1.4

1.5

Normalized access time

Normalized access time t

RAC

Ambient temperature (°C)

–55 80

125

35–10

0.8

0.9

1.1

1.2

1.0

1.3

1.4

1.5

Normalized access time

Normalized access time t

RAC

Load capacitance (pF)

50 200 250150100

30

40

60

70

50

80

90

100

Typical access time

Typical access time t

RAC

vs. ambient temperature T

a

vs. load capacitance C

L

vs. supply voltage V

CC

Ta = 25°C

Supply voltage (V)

2.7 3.6

3.9

3.33.0

0.0

10

30

40

20

50

60

70

Supply current (mA)

Ty p i c a l su pp ly c u r r en t I

CC

Ambient temperature (°C)

–55 80

125

35–10

0.0

10

30

40

20

50

60

70

Supply current (mA)

Typical supply current I

CC

Cycle rate (MHz)

28

10

64

0.0

5

15

20

10

25

30

35

Power-on current (mA)

Typical power-on current I

PO

vs. ambient temperature T

a

vs. cycle rate 1/t

RC

vs. supply voltage V

CC

®

AS4LC256K16EO

4/11/01; V.1.1 Alliance Semiconductor P. 23 of 25

Supply voltage (V)

2.7 3.6

3.9

3.33.0

0

5

15

20

10

25

30

35

Refresh current (mA)

Typical refresh current I

CC3

Ambient temperature (°C)

0.0 60

80

4020

Refresh current (mA)

Typical refresh current I

CC3

Supply voltage (V)

2.7 3.6 3.93.33.0

0

0.5

1.5

2.0

1.0

2.5

3.0

3.5

Stand-by current (mA)

Typical TTL stand-by current I

CC2

vs. Ambient temperature Ta vs. supply voltage V

CC

vs. supply voltage V

CC

0

5

15

20

10

25

30

35

Ambient temperature (°C)

060

80

4020

0.0

0.5

1.5

2.0

1.0

2.5

3.0

3.5

Stand-by current (mA)

Typical TTL stand-by current I

CC2

Output voltage (V)

0.0 1.5

2.0

1.00.5

0.0

10

30

40

20

50

60

70

Output sink current (mA)

Typical output sink current I

OL

Output voltage (V)

0.0 3.0

4.0

2.01.0

0.0

10

30

40

20

50

60

70

Output source current (mA)

Typical output source current I

O

H

vs. output voltage V

OL

vs. output voltage V

OH

vs. ambient temperature T

a

EDO page mode current (mA)

Ambient temperature (°C)

060

80

4020

0.0

5

15

20

10

25

30

35

EDO page mode current (mA)

Typical EDO page mode current I

CC4

Supply voltage (V)

2.7 3.6 3.93.33.0

0.0

5

15

20

10

25

30

35

Typical EDO page mode current I

CC4

vs. supply voltage V

CC

vs. ambient temperature T

a

®

AS4LC256K16EO

4/11/01; V.1.1 Alliance Semiconductor P. 24 of 25

Package dimensions

Capacitance

ƒ = 1 MHz, Ta = room temperature, VCC = 3.3V ± 0.3V)

Parameter Symbol Signals Test conditions Max Unit

Input capacitance

C

IN1

A0 to A8 Vin = 0V 5 pF

C

IN2

RAS, UCAS, LCAS, WE, OE

Vin = 0V 7 pF

I/O capacitance C

I/O

I/O0 to I/O15 Vin = V

out

= 0V 7 pF

44-pin TSOP II

Min

(mm)

Max

(mm)

A

1.2

A

1

0.05

A

2

0.95 1.05

b0.30

0.45

c 0.127 (typical)

D 18.28

18.54

E 10.03 10.29

H

e

11.56 11.96

e 0.80 (typical)

l

0.40

0.60

D

H

e

12345678910 1314

44 43 42 41 40 39 38 37 36 35 32 31

15 16

30 29

17 18 19 20

28 27 26 25

c

l

A

1

A

2

e

44-pin TSOP II

0–5°

212422

23

E

A

b

40-pin SOJ

400 mil

Min Max

A

0.128 0.148

A1

0.026 -

A2

1.105 1.115

B

0.026 0.032

b

0.015 0.020

c

0.007 0.013

D

1.020 1.035

E

0.370 (typical)

E1

0.395 0.405

E2

0.435 0.445

e

D

E1

Pin 1

b

B

A1

A2

c

E

Seating

Plane

E2

A

40-pin SOJ

®

AS4LC256K16EO

4/11/01; V.1.1 Alliance Semiconductor P. 25 of 25

Ordering codes

Part numbering system

Package \ Access time 35 ns 45 ns 60 ns

Plastic SOJ, 400 mil, 40-pin AS4LC256K16E0-35JC AS4LC256K16E0-45JC AS4LC256K16EO-60JC

TSOP II, 400 mil, 40/44-pin AS4LC256K16EO-35TC AS4LC256K16EO-45TC AS4LC256K16EO-60TC

AS4LC 256K16E0 –XX X C

3.3V DRAM prefix Device number

RAS

access time

Package: J = SOJ
T = TSOP II

Commercial temperature range,
0°C to 70 °C