ELPID EDS2516ACTA-7A, EDS2516ACTA-75, EDS2508ACTA-75, EDS2504ACTA-75, EDS2504ACTA-7A Datasheet

DATA SHEET

256M bits SDRAM

EDS2504ACTA (64M words ×××× 4 bits)
EDS2508ACTA (32M words ×××× 8 bits)

EDS2516ACTA (16M words ×××× 16 bits)

Description

The EDS2504AC is a 256M bits SDRAM organized as

16,777,216 words × 4 bits × 4 banks. The EDS2508

AC is a 256M bits SDRAM organized as 8,388,608

words × 8 bits × 4 banks. The EDS2516AC is a 256M
bits SDRAM organized as 4194304 words × 16 bits × 4

banks. All inputs and outputs are referred to the rising
edge of the clock input. It is packaged in standard 54­pin plastic TSOP (II).

Features

• 3.3V power supply

• Clock frequency: 133MHz (max.)

• LVTTL interface

• Single pulsed /RAS

• 4 banks can operate simultaneously and

independently

• Burst read/write operation and burst read/single write

operation capability

• Programmable burst length (BL): 1, 2, 4, 8

• 2 variations of burst sequence
 Sequential (BL = 1, 2, 4, 8)
 Interleave (BL = 1, 2, 4, 8)

• Programmable /CAS latency (CL): 2, 3

• Byte control by DQM

: DQM (EDS2504AC, EDS2508AC)
: UDQM, LDQM (EDS2516AC)

• Refresh cycles: 8192 refresh cycles/64ms

• 2 variations of refresh
 Auto refresh
 Self refresh

Pin Configurations

/xxx indicates active low signal.

54-pin TSOP

VDD

VDD

VDD

NC

VDDQ

NC

DQ0

VSSQ

NC
NC

VDDQ

NC

DQ1

VSSQ

NC

VDD

NC

/WE
/CAS
/RAS

/CS
BA0
BA1

A10

A0
A1
A2
A3

VDD

A0 to A12,
BA0, BA1

DQ0 to DQ15

/CS
/RAS
/CAS
/WE

DQ0

VDDQ

NC

DQ1

VSSQ

NC

DQ2

VDDQ

NC

DQ3

VSSQ

NC

VDD

LDQM

NC

/WE
/CAS
/RAS

/CS
BA0
BA1

A10

A0
A1
A2
A3

VDD

Address input
Bank select address
Data-input/output
Chip select
Row address strobe

Column address strobe

Write enable

DQ0

VDDQ

DQ1
DQ2

VSSQ

DQ3
DQ4

VDDQ

DQ5
DQ6

VSSQ

DQ7
VDD

/WE
/CAS
/RAS

/CS
BA0
BA1

A10

A0
A1
A2
A3

VDD

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27

X 16
X 8
X 4

(Top view)

DQM
CKE
CLK
VDD
VSS

VDDQ
VSSQ

NC

54
53
52
51
50
49
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
32
31
30
29
28

DQ7

DQ15

VSSQ

VSSQ

DQ14

NC

DQ13

DQ6

VDDQ

VDDQ

DQ12

NC

DQ11

DQ5

VSSQ

VSSQ

DQ10

NC

DQ9

DQ4

VDDQ

VDDQ

DQ8

NC

VSS

VSS

NC

NC

UDQM

DQM

CLK

CLK

CKE

CKE

A12

A12

A11

A11

A9

A9

A8

A8

A7

A7

A6

A6

A5

A5

A4

A4

VSS

VSS

Input/output mask
Clock enable
Clock input

Power for internal circuit
Ground for internal circuit

Power for DQ circuit
Ground for DQ circuit
No connection

VSS

VSS

VSS
NC

VSSQ

NC
DQ3

VDDQ

NC
NC

VSSQ

NC
DQ2

VDDQ

NC
VSS
NC
DQM
CLK
CKE
A12
A11
A9
A8
A7
A6
A5
A4
VSS

Document No. E0277E10 (Ver. 1.0)
Date Published May 2002 (K) Japan
URL: http://www.elpida.com
Elpida Memory, Inc. 2002

Ordering Information

Part number

EDS2504ACTA-7A
EDS2504ACTA-75*

EDS2508ACTA-7A
EDS2508ACTA-75*

EDS2516ACTA-7A
EDS2516ACTA-75*

Note: 100MHz operation at /CAS latency = 2.

Mask
Version

C 64M × 4 4 133

32M × 8

16M × 16

Organization

(words × bits)

Part Number

E D S 25 04 A C TA - 7A

Elpida Memory

Material Type
D: Mono

Function
S: SDRAM

Internal Banks

EDS2504ACTA/08ACTA/16ACTA

Clock frequency
MHz (max.)

/CAS latency Package

2, 3
3

2, 3
3

2, 3
3

54-pin Plastic
TSOP (II)

Density & Bank
25: 256M/4 Banks

Bit Organization
04: x4
08: x8
16: x16

Interface
A: 3.3V, LVTTL

Mask Revision
Package

TA: TSOP (II)

Speed
7A: 133MHz/CL2, 3
75: 133MHz/CL3
100MHz/CL2

Data Sheet E0277E10 (Ver. 1.0)

2

CONTENTS

EDS2504ACTA/08ACTA/16ACTA

Description .................................................................................................................................................... 1

Features ........................................................................................................................................................ 1

Pin Configurations......................................................................................................................................... 1

Ordering Information ..................................................................................................................................... 2

Part Number.................................................................................................................................................. 2

Electrical Specifications ................................................................................................................................ 4

Block Diagram............................................................................................................................................... 8

Pin Function ................................................................................................................................................ 13

Command Operation................................................................................................................................... 15

Simplified State Diagram ............................................................................................................................ 23

Mode Register Configuration ...................................................................................................................... 24

Power-up sequence .................................................................................................................................... 25

Operation of the SDRAM ............................................................................................................................ 26

Timing Waveforms ...................................................................................................................................... 42

Package Drawing ........................................................................................................................................ 48

Recommended Soldering Conditions ......................................................................................................... 49

Revision History .......................................................................................................................................... 52

Data Sheet E0277E10 (Ver. 1.0)

3

EDS2504ACTA/08ACTA/16ACTA

Electrical Specifications

• All voltages are referenced to VSS (GND).

• After power up (refer to the Power-up sequence).

Absolute Maximum Ratings

Parameter Symbol Rating Unit Note

Voltage on any pin relative to VSS VT –0.5 to VDD + 0.5 (≤ 4.6 (max.)) V

Supply voltage relative to VSS VDD –0.5 to +4.6 V

Short circuit output current IOS 50 mA

Power dissipation PD 1.0 W

Operating temperature TA 0 to +70 °C
Storage temperature Tstg –55 to +125 °C

Caution

Exposing the device to stress above those listed in Absolute Maximum Ratings could cause
permanent damage. The device is not meant to be operated under conditions outside the limits
described in the operational section of this specification. Exposure to Absolute Maximum Rating
conditions for extended periods may affect device reliability.

Recommended Operating Conditions (TA = 0 to 70°°°°C)

Parameter Symbol min. max. Unit Notes

Supply voltage VDD, VDDQ 3.0 3.6 V 1

VSS, VSSQ 0 0 V 2

Input high voltage VIH 2.0 VDD + 0.3 V 3

Input low voltage VIL –0.3 0.8 V 4

Notes: 1. The supply voltage with all VDD and VDDQ pins must be on the same level.

2. The supply voltage with all VSS and VSSQ pins must be on the same level.

3. VIH (max.) = VDD + 2.0 V for pulse width ≤ 3ns at VDD.

4. VIL (min.) = VSS – 2.0 V for pulse width ≤ 3ns at VSS.

Data Sheet E0277E10 (Ver. 1.0)

4

EDS2504ACTA/08ACTA/16ACTA

DC Characteristics 1 (TA = 0 to +70°°°°C, VDD, VDDQ = 3.3V ± 0.3V, VSS, VSSQ = 0V)

Parameter max.

/CAS latency Symbol Grade × 4 × 8 × 16 Unit Test condition Notes

Operating current ICC1 -7A 130 130 135 mA

ICC1 -75 110 110 115 mA

Standby current in power
down

Standby current in power
down (input signal stable)

Standby current in non
power down

Standby current in non
power down (input signal
stable)

Active standby current in
power down

Active standby current in
power down (input signal
stable)

Active standby current in
non power down

Active standby current in
non power down (input
signal stable)

Burst operating current ICC4 130 135 145 mA tCK = tCK (min.), BL = 4 1, 2, 5

Refresh current ICC5 -7A 250 250 250 mA tRC = tRC (min.) 3

ICC5 -75 220 220 220 mA tRC = tRC (min.)

Self refresh current ICC6 3 3 3 mA

ICC2P 3 3 3 mA

ICC2PS 2 2 2 mA CKE = VIL, tCK = ∞ 7

ICC2N 20 20 20 mA

ICC2NS 9 9 9 mA

ICC3P 4 4 4 mA

ICC3PS 3 3 3 mA CKE = VIL, tCK = ∞ 2, 7

ICC3N 30 30 30 mA

ICC3NS 15 15 15 mA

Notes: 1. ICC depends on output load condition when the device is selected. ICC (max.) is specified at the output

open condition.

2. One bank operation.

3. Input signals are changed once per one clock.

4. Input signals are changed once per two clocks.

5. Input signals are changed once per four clocks.

6. After power down mode, CLK operating current.

7. After power down mode, no CLK operating current.

8. Input signals are VIH or VIL fixed.

Burst length = 1
tRC = tRC (min.)

Burst length = 1
tRC = tRC (min.)

CKE = VIL,
tCK = tCK (min.)

CKE, /CS = VIH,
tCK = tCK (min.)

CKE = VIH, tCK = ∞,

/CS = VIH

CKE = VIL,
tCK = tCK (min.)

CKE, /CS = VIH,
tCK = tCK (min.)

CKE = VIH, tCK = ∞,

/CS = VIH

VIH ≥ VDD – 0.2V
VIL ≤ 0.2V

1, 2, 3

6

4

8

1, 2, 6

1, 2, 4

2, 8

Data Sheet E0277E10 (Ver. 1.0)

5

EDS2504ACTA/08ACTA/16ACTA

DC Characteristics 2 (TA = 0 to +70°°°°C, VDD, VDDQ = 3.3V ± 0.3V, VSS, VSSQ = 0V)

Parameter Symbol min. max. Unit Test condition Notes

Input leakage current ILI –1 1 µA 0 ≤ VIN ≤ VDD

Output leakage current ILO –1.5 1.5 µA 0 ≤ VOUT ≤ VDD, DQ = disable

Output high voltage VOH 2.4 — V IOH = –4 mA

Output low voltage VOL — 0.4 V IOL = 4 mA

Pin Capacitance (TA = 25°C, VDD, VDDQ = 3.3V ± 0.3V)

Parameter Symbol Pins min. Typ max. Unit

Input capacitance CI1 CLK 2.5 — 3.5 pF

CI2

Data input/output capacitance CI/O DQ 4 — 6.5 pF

Address, CKE, /CS, /RAS,
/CAS, /WE, DQM,

2.5 — 3.8 pF

Notes: 1. Capacitance measured with Boonton Meter or effective capacitance measuring method.

2. Measurement condition: f = 1MHz, 1.4V bias, 200mV swing.

3. DQM = VIH to disable DOUT.

4. This parameter is sampled and not 100% tested.

Notes

1, 2, 4

1, 2, 4

1, 2, 3, 4

AC Characteristics (TA = 0 to +70°°°°C, VDD, VDDQ = 3.3V ± 0.3V, VSS, VSSQ = 0V)

-7A -75

Parameter Symbol min. min. max. Unit Notes

System clock cycle time tCK 7.5 7.5 — ns 1

CLK high pulse width tCH 2.5 2.5 — ns 1

CLK low pulse width tCL 2.5 2.5 — ns 1

Access time from CLK tAC — — 5.4 ns 1, 2

Data-out hold time tOH 2.7 2.7 — ns 1, 2

CLK to Data-out low impedance tLZ 1 1 — ns 1, 2, 3

CLK to Data-out high impedance tHZ — — 5.4 ns 1, 4

Input setup time tSI 1.5 1.5 — ns 1

Input hold time tHI 0.8 0.8 — ns 1

Ref/Active to Ref/Active command period tRC 60 67.5 — ns 1

Active to Precharge command period tRAS 45 45 120000 ns 1

Active command to column command
(same bank)

Precharge to active command period tRP 15 20 — ns 1

Write recovery or data-in to precharge
lead time

Last data into active latency tDAL 2CLK + 15ns 2CLK + 20ns —

Active (a) to Active (b) command period tRRD 15 15 — ns 1

Transition time (rise and fall) tT 0.5 0.5 5 ns

Refresh period
(8192 refresh cycles)

tRCD 15 20 — ns 1

tDPL 15 15 — ns 1

tREF — — 64 ms

Notes: 1. AC measurement assumes tT = 0.5ns. Reference level for timing of input signals is 1.4V.

2. Access time is measured at 1.4V. Load condition is CL = 50pF.

3. tLZ (min.) defines the time at which the outputs achieves the low impedance state.

4. tHZ (max.) defines the time at which the outputs achieves the high impedance state.

Data Sheet E0277E10 (Ver. 1.0)

6

EDS2504ACTA/08ACTA/16ACTA

Test Conditions

• Input and output timing reference levels: 1.4V

• Input waveform and output load: See following figures

2.4 V

0.4 V

2.0 V

0.8 V

t

T

tT

input

Output load

Relationship Between Frequency and Minimum Latency

Parameter -7A -75

Frequency (MHz) 133

tCK (ns) Symbol 7.5 7.5 Notes

Active command to column command
(same bank)

Active command to active command
(same bank)

Active command to precharge command
(same bank)

Precharge command to active command
(same bank)

Write recovery or data-in to precharge
command (same bank)

Active command to active command
(different bank)

Self refresh exit time lSREX 1 1 2

Last data in to active command
(Auto precharge, same bank)

Self refresh exit to command input lSEC 8 9

Precharge command to high impedance
(CL = 2)

(CL = 3) lHZP 3 3

Last data in to active command
(Auto precharge, same bank)

Last data out to precharge (early precharge)
(CL = 2)

(CL = 3) lEP –2 –2

Column command to column command lCCD 1 1

Write command to data in latency lWCD 0 0

DQM to data in lDID 0 0

DQM to data out lDOD 2 2

CKE to CLK disable lCLE 1 1

Register set to active command lMRD 1 1

/CS to command disable lCDD 0 0

Power down exit to command input lPEC 1 1

lRCD 2 3 1

lRC 8 9 1

lRAS 6 6 1

lRP 2 3 1

lDPL 2 2 1

lRRD 2 2 1

lDAL 4 5 = [lDPL + lRP]

lHZP

lAPR 1 1

lEP

2

–1

Notes: 1. IRCD to IRRD are recommended value.

2. Be valid [DESL] or [NOP] at next command of self refresh exit.

3. Except [DESL] and [NOP]

I/O

CL

= [lRC]
3

2

–1

Data Sheet E0277E10 (Ver. 1.0)

7

EDS2504ACTA/08ACTA/16ACTA

VIL/VIH Clamp

This SDRAM component has VIL and VIH clamp for CLK, CKE, /CS, DQM and DQ pins.

[Minimum VIL Clamp Current]

VIL (V) I (mA)

–2 –32

–1.8 –25

–1.6 –19

–1.4 –13

–1.2 –8

–1 –4

–0.9 –2

–0.8 –0.6

–0.6 0

–0.4 0

–0.2 0

0 0

–5

–10
–15
–20

I (mA)

–25
–30
–35

0

–2

–1.5 –1 –0.5

VIL (V)

0

Minimum VIL Clamp Current

Data Sheet E0277E10 (Ver. 1.0)

8

[Minimum VIH Clamp Current]

VIH (V) I (mA)

VDD + 2 10

VDD + 1.8 8

VDD + 1.6 5.5

VDD + 1.4 3.5

VDD + 1.2 1.5

VDD + 1 0.3

VDD + 0.8 0

VDD + 0.6 0

VDD + 0.4 0

VDD + 0.2 0

VDD + 0 0

10

8
6

I (mA)

4
2

EDS2504ACTA/08ACTA/16ACTA

0

VDD + 0 VDD + 1 VDD + 2VDD + 0.5 VDD + 1.5

VIH (V)

Minimum VIH Clamp Current

Data Sheet E0277E10 (Ver. 1.0)

9

EDS2504ACTA/08ACTA/16ACTA

IOL/IOH Characteristics
[Output Low Current (IOL)]

IOL IOL

VOUT (V) min. (mA) max. (mA)

0 0 0

0.4 27 71

0.65 41 108

0.85 51 134

1 58 151

1.4 70 188

1.5 72 194

1.65 75 203

1.8 77 209

1.95 77 212

3 80 220

3.45 81 223

250

200

150

IOL (mA)

100

50

0

0 0.5 1 1.5 2 2.5 3 3.5

VOUT (V)

Output Low Current (IOL)

min.
max.

Data Sheet E0277E10 (Ver. 1.0)

10

EDS2504ACTA/08ACTA/16ACTA

[Output High Current (IOH)]

IOH IOH

VOUT (V) min. (mA) max. (mA)

3.45 — –3

3.3 — –28

3 0 –75

2.6 –21 –130

2.4 –34 –154

2 –59 –197

1.8 –67 –227

1.65 –73 –248

1.5 –78 –270

1.4 –81 –285

1 –89 –345

0 –93 –503

0

0.5 1 1.5 2 2.5 3

3.50

–100

–200

IOH (mA)

–300

–400

–500

–600

VOUT(V)

Output High Current (IOH)

min.
max.

Data Sheet E0277E10 (Ver. 1.0)

11

Block Diagram

CLK
CKE

Address

/CS
/RAS
/CAS
/WE

Clock
Generator

Mode
Register

Control Logic

Command Decoder

Row
Address
Buffer
&
Refresh
Counter

Column
Address
Buffer
&
Burst
Counter

EDS2504ACTA/08ACTA/16ACTA

Bank 3

Bank 2

Bank 1

Bank 0

Row Decoder

Sense Amplifier
Column Decoder &

Latch Circuit

Data Control Circuit

Latch Circuit

DQM

DQ

Input & Output

Buffer

Data Sheet E0277E10 (Ver. 1.0)

12

EDS2504ACTA/08ACTA/16ACTA

Pin Function

CLK (input pin)

CLK is the master clock input to this pin. The other input signals are referred at CLK rising edge.

/CS (input pin)

When /CS is Low, the command input cycle becomes valid. When /CS is High, all inputs are ignored. However,
internal operations (bank active, burst operations, etc.) are held.

/RAS, /CAS, and /WE (input pins)

Although these pin names are the same as those of conventional DRAMs, they function in a different way. These
pins define operation commands (read, write, etc.) depending on the combination of their voltage levels. For details,
refer to the command operation section.

A0 toA12 (input pins)

Row address (AX0 to AX12) is determined by A0 to A12 at the bank active command cycle CLK rising edge.
Column address is determined by A0 to A8, A9 or A11 (see Address Pins Table) at the read or write command cycle
CLK rising edge. And this column address becomes burst access start address.

[Address Pins Table]

Address (A0 to A12)

Part number Row address Column address

EDS2504AC AX0 to AX12 AY0 to AY9, AY11

EDS2508AC AX0 to AX12 AY0 to AY9

EDS2516AC AX0 to AX12 AY0 to AY8

A10 defines the precharge mode. When A10 = High at the precharge command cycle, all banks are precharged.
But when A10 = Low at the precharge command cycle, only the bank that is selected by BA0 and BA1 (BS) is

precharged. For details refer to the command operation section.

BA0 and BA1 (input pin)
BA0 and BA1 are bank select signal (BS). (See Bank Select Signal Table)
[Bank Select Signal Table]

BA0 BA1

Bank 0 L L

Bank 1 H L

Bank 2 L H

Bank 3 H H

Remark: H: VIH. L: VIL.

CKE (input pin)

This pin determines whether or not the next CLK is valid. If CKE is High, the next CLK rising edge is valid. If CKE is
Low, the next CLK rising edge is invalid. This pin is used for power-down mode, clock suspend mode and self
refresh mode.

Data Sheet E0277E10 (Ver. 1.0)

13

EDS2504ACTA/08ACTA/16ACTA

DQM, UDQM and LDQM (input pins)

DQM controls input/output buffers. In 16M × 16 products, UDQM and LDQM control upper byte (DQ8 to DQ15) and

lower byte (DQ0 to DQ7).

Read operation: If DQM is High, the output buffer becomes High-Z. If the DQM is Low, the output buffer becomes
Low-Z. (The latency of DQM during reading is 2 clocks.)

Write operation: If DQM is High, the previous data is held (the new data is not written). If DQM is Low, the data is
written. (The latency of DQM during writing is 0 clock.)

DQ0 toDQ15 (input/output pins)

Data is input to and output from these pins (DQ0 to DQ3; EDS2504AC , DQ0 to DQ7; EDS2508AC, DQ0 to DQ15;
EDS2516AC).

VDD, VSS, VDDQ, VSSQ (Power supply)

VDD and VSS are power supply pins for internal circuits. VDDQ and VSSQ are power supply pins for the output
buffers.

Data Sheet E0277E10 (Ver. 1.0)

14

EDS2504ACTA/08ACTA/16ACTA

Command Operation

Command Truth Table

The SDRAM recognizes the following commands specified by the /CS, /RAS, /CAS, /WE and address pins.

CKE

Function Symbol n – 1 n /CS /RAS /CAS /WE BA1,BA0 A10

Device deselect DESL H × H × × × × × ×
No operation NOP H × L H H H × × ×
Burst stop BST H × L H H L × × ×
Read READ H × L H L H V L V
Read with auto precharge READA H × L H L H V H V
Write WRIT H × L H L L V L V
Write with auto precharge WRITA H × L H L L V H V
Bank activate ACT H × L L H H V V V
Precharge select bank PRE H × L L H L V L ×
Precharge all banks PALL H × L L H L × H ×
Mode register set MRS H × L L L L L L V

Remark: H: VIH. L: VIL. ×: VIH or VIL. V: Valid address input.

Device deselect command [DESL]

When this command is set (/CS is High), the SDRAM ignore command input at the clock. However, the internal
status is held.

No operation [NOP]

This command is not an execution command. However, the internal operations continue.

Burst stop command [BST]

This command can stop the current burst operation.

Column address strobe and read command [READ]

This command starts a read operation. In addition, the start address of burst read is determined by the column
address (see Address Pins Table in Pin Function) and the bank select address (BA0, BA1). After the read operation,
the output buffer becomes High-Z.

Read with auto-precharge [READA]

This command automatically performs a precharge operation after a burst read with a burst length of 1, 2, 4 or 8.

Column address strobe and write command [WRIT]

This command starts a write operation. When the burst write mode is selected, the column address (see Address
Pins Table in Pin Function) and the bank select address (BA0, BA1) become the burst write start address. When the
single write mode is selected, data is only written to the location specified by the column address (see Address Pins
Table in Pin Function) and the bank select address (BA0, BA1).

Write with auto-precharge [WRITA]

This command automatically performs a precharge operation after a burst write with a length of 1, 2, 4 or 8, or after a
single write operation.

A0 to A12

Data Sheet E0277E10 (Ver. 1.0)

15

EDS2504ACTA/08ACTA/16ACTA

Row address strobe and bank activate [ACT]

This command activates the bank that is selected by BA0, BA1 and determines the row address (AX0 to AX12).
(See Bank Select Signal Table)

Precharge selected bank [PRE]

This command starts precharge operation for the bank selected by BA0, BA1. (See Bank Select Signal Table)

[Bank Select Signal Table]

BA0 BA1

Bank 0 L L

Bank 1 H L

Bank 2 L H

Bank 3 H H

Remark: H: VIH. L: VIL.

Precharge all banks [PALL]

This command starts a precharge operation for all banks.

Refresh [REF/SELF]

This command starts the refresh operation. There are two types of refresh operation, the one is auto-refresh, and
the other is self-refresh. For details, refer to the CKE truth table section.

Mode register set [MRS]

The SDRAM has a mode register that defines how it operates. The mode register is specified by the address pins
(A0 to BA0 and BA1) at the mode register set cycle. For details, refer to the mode register configuration. After
power on, the contents of the mode register are undefined, execute the mode register set command to set up the
mode register.

Data Sheet E0277E10 (Ver. 1.0)

16