GMM77316280CTG-6 - Hynix Semiconductor, Inc.

GMM77316280CTG-5/6

16,777,216 WORDS x 72 BIT

CMOS DYNAMIC RAM MODULE

* This Data Sheet is subject to change without notice.

Description

The GMM77316280CTG is an 16M x 72 bits

Dynamic RAM MODULE which is assembled

18 pieces of 16M x 4bit DRAMs in 32 pin

TSOP¥± package and two 16bit driver ICs in

48pin TSSOP package mounted on a 168 pin

printed circuit board with decoupling capacitors.

The GMM77316280CTG is optimized for

application to the systems which are required

high density and large capacity such as main

memory of the computers and an image memory

systems, and to the others which are requested

compact size.

The GMM77316280CTG provides common

data inputs and Extended Data Outputs.

Features

* 168 pins Dual In-Line Package

- GMM77316280CTG : Gold plating

* Extended Data Ouput (EDO) Mode Capability

* Single Power Supply

* Fast Access Time & Cycle Time

* Low Power

Active : 9144/8496mW (MAX)

Standby : 105mW (CMOS level : MAX)

* RAS Only Refresh, CAS before RAS Refresh,

Hidden Refresh Capability

* All inputs and outputs TTL Compatible

* 4096 Refresh Cycles/64ms

(Unit: ns)

GMM77316280CTG-5

tRAC tCAC tRC tHPC

60 20 104 25GMM77316280CTG-6

GMM77316280CTG (Both Side)

Pin Symbol Pin Symbol Pin Symbol

Pin Symbol

100

101

102

103

104

105

106

107

108

109

110

111

112

VSS

DQ0

DQ1

DQ2

DQ3

VCC

DQ4

DQ5

DQ6

DQ7

DQ8

VSS

DQ9

DQ10

DQ11

DQ12

DQ13

VCC

DQ14

DQ15

DQ16

DQ17

VSS

RSVD

VCC

/WE0

/CAS0

VSS

DQ36

DQ37

DQ38

DQ39

VCC

DQ40

DQ41

DQ42

DQ43

DQ44

VSS

DQ45

DQ46

DQ47

DQ48

DQ49

VCC

DQ50

DQ51

DQ52

DQ53

VSS

RSVD

VCC

RFU

/CAS1*

DQ22

DQ23

Vcc

DQ24

RFU

DQ25

DQ26

DQ27

VSS

DQ28

DQ29

DQ30

DQ31

VCC

DQ32

DQ33

DQ34

DQ35

VSS

PD1

PD3

PD5

PD7

ID 0

VCC

RSVD

/RAS0

/OE0

VSS

A10

A12*

VCC

RFU

VSS

/OE2

/RAS2

/CAS4

RSVD

/WE2

VCC

RSVD

DQ18

DQ19

VSS

DQ20

DQ21

Pin Configuration (Top View)

Pin Symbol

113

114

115

116

117

118

119

120

121

122

123

124

125

126

127

128

129

130

131

132

133

134

135

136

137

138

139

140

RSVD

/RAS1*

RFU

VSS

A11

A13*

VCC

RFU

VSS

RFU

/RAS3*

/CAS5*

RSVD

/PDE

VCC

RSVD

DQ54

DQ55

VSS

DQ56

DQ57

Pin Symbol

141

142

143

144

145

146

147

148

149

150

151

152

153

154

155

156

157

158

159

160

161

162

163

164

165

166

167

168

DQ58

DQ59

VCC

DQ60

RFU

DQ61

DQ62

DQ63

VSS

DQ64

DQ65

DQ66

DQ67

VCC

DQ68

DQ69

DQ70

DQ71

VSS

PD2

PD4

PD6

PD8

ID 1

VCC

Note : Pins Marked * are not used in this module.

Speed

18 84 20

GMM77316280CTG-5/6

Block Diagram

DQ 0 DQ 36

DQ 37

DQ 38

DQ 39

DQ 40

DQ 41

DQ 42

DQ 43

DQ 44

DQ 45

DQ 46

DQ 47

DQ 52

DQ 53

DQ 54

DQ 55

DQ 56

DQ 57

DQ 58

DQ 59

DQ 60

DQ 61

DQ 62

DQ 63

DQ 64

DQ 65

DQ 66

DQ 67

DQ 68

DQ 69

DQ 70

DQ 71

VCC

VSS

0.22uF Capacitor D0~D17, Buffer

DQ 0 DQ 0

DQ 1

DQ 2

DQ 3 D9

DQ 0

DQ 1

DQ 2

DQ 3 D10

DQ 0

DQ 1

DQ 2

DQ 3 D11

DQ 0

DQ 1

DQ 2

DQ 3 D12

DQ 0

DQ 1

DQ 2

DQ 3 D13

DQ 0

DQ 1

DQ 2

DQ 3 D14

DQ 0

DQ 1

DQ 2

DQ 3 D15

DQ 0

DQ 1

DQ 2

DQ 3 D16

DQ 0

DQ 1

DQ 2

DQ 3 D17

DQ 1

DQ 2

DQ 3

DQ 4

DQ 5

DQ 6

DQ 7

DQ 8

DQ 9

DQ 10

DQ 11

DQ 12

DQ 13

DQ 14

DQ 15

DQ 16

DQ 17

DQ 18

DQ 19

DQ 20

DQ 21

DQ 22

DQ 23

DQ 24

DQ 25

DQ 26

DQ 27

DQ 28

DQ 29

DQ 30

DQ 31

DQ 32

DQ 33

DQ 34

DQ 35

DQ 48

DQ 49

DQ 50

DQ 51

DQ 1

DQ 2

DQ 3 D0

DQ 0

DQ 1

DQ 2

DQ 3 D2

DQ 0

DQ 1

DQ 2

DQ 3 D3

DQ 0

DQ 1

DQ 2

DQ 3 D4

DQ 0

DQ 1

DQ 2

DQ 3 D5

DQ 0

DQ 1

DQ 2

DQ 3 D6

DQ 0

DQ 1

DQ 2

DQ 3 D7

DQ 0

DQ 1

DQ 2

DQ 3 D8

DQ 0

DQ 1

DQ 2

DQ 3 D1

VCC

VSS

2.2uF Tantal

Capacitor

DRAMS: D0~D17

A1~A11

DRAMS: D0~D8

DRAMS: D9~D17

VSS

PDE (when= 0, 1= NC)

D0~D17, Buffer

OE0

WE0

CAS0

RAS0

A1~A11

CAS4

RAS2

OE2

WE2

GMM77316280CTG-5/6

Pin Description

Pin Function Pin Function

A0,B0,A1-A11

DQ0-DQ71 VCC

VSS

Address Inputs

Data Input/Output

Row Address Strobe

Column Address Strobe

Read/Write Enable

Power (+3.3V)

Ground

No Connection

RAS0, RAS2

CAS0, CAS4

WE0, WE2

PDE Presence Detect Enable

PD 1~8 Presence Detect

ID 0~1 ID bit

RSVD Reserved Use

RFU Reserved for Future Use

OE0, OE2 Output Enable

Presence Detect Pins (Optional)

Pin 50ns 60ns

PD1

PD2

PD3

PD4

PD5

PD6 1

PD7

PD8

ID0

ID1 00

Absolute Maximum Ratings*

*Note: 1. Stress greater than above Absolute Maximum Ratings may cause permanent damage to the device.

Recommended DC Operating Conditions (TA = 0 ~ 70C)

Symbol Parameter Unit

VCC

VIH

VIL

Supply Voltage

Input High Voltage

Input Low Voltage

Max

3.6

Typ

3.3

Min

3.0

Note

Symbol Parameter Rating Unit

TSTG

VIN/VOUT

0 ~ 70

-55 ~ 125

-0.5 ~ 4.6

Ambient Temperature under Bias

Storage Temperature (Plastic)

Voltage on any Pin Relative to VSS V

IOUT 50

Short Circuit Output Current mA

PD21

Power Dissipation W

2.0

-0.3

Vcc+0.3

0.8

Vcc Voltage on Vcc Pin Relative to VSS -0.5 ~ 4.6 V

*Note: 1. All voltages referenced to VSS.

GMM77316280CTG-5/6

DC Electrical Characteristics: (VCC = 3.3V+/-0.3V, TA = 0 ~ 70C)

Note: 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 CAS = VIH.

Unit Note

§Ì

1,2

1,3

Symbol Parameter

VOH

VOL

Output Level

Output ``H`` Level Voltage (IOUT = -2§Ì)

Output Level

Output ``L`` Level Voltage (IOUT = 2§Ì)

ICC1

Operating Current

Average Power Supply Operating Current

(RAS, CAS Cycling: tRC = tRC min)

ICC2

Standby Current (TTL)

Power Supply Standby Current

(RAS, CAS = VIH, DOUT = High-Z)

ICC3

RAS-Only Refresh Current

Average Power Supply Current

RAS-Only Refresh Mode

(RAS Cycling, CAS = VIH, tRC = tRC min)

ICC4

Extended Data Out Mode Current

Average Power Supply Current

Extended Data Out Mode

(RAS = VIL, CAS, Address Cycling: tPC = tPC min)

ICC5

Standby Current (CMOS)

Power Supply Standby Current

(RAS, CAS>=VCC-0.2V, DOUT = High-Z)

ICC6 CAS-before-RAS Refresh Current

(tRC = tRC min)

ICC7 Standby Current

II(L)

IO(L)

Input Leakage Current, Any Input

(0V VIN Vcc)

Output Leakage Current

(DOUT is Disabled, 0V VOUT Vcc)

RAS = VIH

CAS = VIL

DOUT = Enable

GMM77316280CTG

Min Max

50ns

60ns

2.4

-5

50ns

60ns

50ns

60ns

50ns

60ns

Vcc

0.4

2540

2360

2540

2360

2540

2360

2000

1820

110

GMM77316280CTG-5/6

Capacitance (VCC = 3.3V+/-0.3V, TA = 25C, f = 1MHz)

Symbol Parameter NoteUnitMaxMin

CI1

CI2

C13

Input Capacitance (A0~A11,B0)

Input Capacitance (WE0, WE2, OE0, OE2)

Input Capacitance (RAS0,RAS2)

1, 2

C14 Input Capacitance (CAS0,CAS4) 1, 2pF20-

CI/O I/O Capacitance (DQ0~DQ71) 1, 2pF20-

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

2. CAS = VIH to disable DOUT.

AC Characteristics (VCC = 3.3V+/-0.3V, TA = 0 ~ 70C, Notes 1, 2,19)

Test Conditions

Input rise and fall times : 2ns Output timing reference levels : VOL/VOH = 0.8/2.0V

Input level : VIL/VIH = 0.0/3.0V Output load : 1 TTL gate+CL (100pF)

Input timing reference levels : VIL/VIH = 0.8/2.0V (Including scope and jig)

Read, Write, Read-Modify-Write and Refresh Cycles (Common Parameters)

Symbol Max Max

Min

tRC

tRP

tRAS

tCAS

tASR

tRAH

tASC

tCAH

tRCD

tRAD

tRSH

tCSH

tCRP

Min

10000

Unit Notes

§À

tREF Refresh Period ( 4096 Cycles)

§À

tODD

tDZO

tDZC

§À

104 -

40 -

10000

10 -

14 40

12 25

20 -

40 -

10 -

20 -

250

-64

tCP 8-§À

10 -

10000 10000

GMM77316280CTG-5 GMM77316280CTG-6

Parameter

Random Read or Write Cycle Time

RAS Precharge Time

RAS Pulse Width

CAS Pulse Width

Row Address Set-up Time

Row Address Hold Time

Column Address Set-up Time

Column Address Hold Time

RAS to CAS Delay Time

RAS to Column Address Delay Time

RAS Hold Time

CAS Hold Time

CAS to RAS Precharge Time

TransitionTime

(Rise and Fall)

OE to DIN Delay Time

OE Delay Time from DIN

CAS Set-up Time from DIN

CAS Precharge Time

GMM77316280CTG-5/6

Read Cycles

Symbol Max Max

MinMin

Unit Notes

§À

tRAC

tCAC

tAA

tRCS

tRCH

tRRH

tRAL

tCAL

8,9

tOAC -18 -20 §À

-60

-20

-35

35 -

18 -15 -

9,10,17

§À

tRDD

tWDD

§À

tOFR

§ÀtWEZ -15

-15

15 -

-15

-13

13 -

§À

tCLZ

tOH

tCDD

CAS to Output in Low - Z

18 -

§À

tOHR

tOEZ

§ÀtOFF

20 -

-20

-2

-18

§ÀtRCHR 60 -50 -

§ÀtOHO 3-3-

GMM77316280CTG-5 GMM77316280CTG-6

Parameter

Access Time from RAS

Access Time from CAS

Access Time from Column Address

Read Command Set-up Time

Read Command Hold Time to CAS

Read Command Hold Time to RAS

Column Address to RAS Lead TIme

Column Address to CAS Lead Time

Access Time from OE

RAS to DIN Delay Time

Output Buffer Turn-off Delay Time from RAS

Output Buffer Turn-off Delay Time from WE

Output Data Hold Time

CAS to DIN Delay Time

Output Data Hold Time from RAS

Output Buffer Turn-off Delay Time from OE

WE to DIN Delay Time

Read Command Hold Time from RAS

Output Buffer Turn-off Delay Time from CAS

9,11,17

13,21

Output Data Hold Time from OE

GMM77316280CTG-5/6

Wrtie Cycles

Read-Modify-Write Cycles

tRWC

tRWD

tCWD

tAWD

Refresh Cycle

Symbol Max Max

Min

116

Unit Notes

§À

Refresh Cycles

tCSR

Symbol

CAS Set-up Time

(CAS-before-RAS Refresh Cycle)

tCHR CAS Hold Time

(CAS-before-RAS Refresh Cycle)

Parameter Max Max

Min

Unit Notes

§À

tOEH 13 -§À

140

tRPC RAS Precharge to CAS Hold Time 5-§À

tWCS

tWCH

tWP

tRWL

tCWL

tDS

tDH

Symbol

Write Command Set-up Time

Write Command Hold Time

Write Command Pulse Width

Write Command to RAS Lead Time

Write Command to CAS Lead Time

Data-in Set-up Time

Data-in Hold Time

Parameter Max Max

Min

Unit Notes

§À

Read-Modify-Write Cycle Time

RAS to WE Delay Time

CAS to WE Delay Time

Column Address to WE Delay Time

Parameter

OE Hold Time from WE

18 20

GMM77316280CTG-5 GMM77316280CTG-6

tWRP WE setup Time

(CAS-before-RAS Refresh Cycle)

tWRH WE Hold Time

(CAS-before-RAS Refresh Cycle)

5§À

GMM77316280CTG-5/6

-28

§À

-35

33 -

100000

§À

40 -

100000

tRASP

tACP

tRHCP

28 -§À

35 -

§À

5-§À

§À

8-10 -

tCOL

tCOP

tOEP

tRCHP

EDO Mode RAS Pulse Width

Access Time from CAS Precharge

RAS Hold Time from CAS Precharge

OE Precharge Time

CAS Hold Time Referred OE

CAS to OE set-up Time

Read Command Hold Time from CAS

Precharge

Output Data Hold Time from CAS Low

Max Max

Min

Unit Notes

§À

Extended Data Out Mode Cycles

tHPC

tWPE

Symbol

EDO Page Mode Cycle Time

Write pulse width during CAS Precharge

Parameter GMM77316280CTG-5 GMM77316280CTG-6

tDOH

Max Max

Min

Unit Notes

§À

EDO Page Mode Read-Modify-Write cycle

tHPRWC

tCPW

Symbol

EDO Page Mode Read-Modify-Write Cycle Time

WE delay time from CAS precharge

Parameter GMM77316280CTG-5 GMM77316280CTG-6

9,17

9,22

Present Detect Read cycle

Symbol Max Max

Min

Min Unit Notes

§À

GMM77316280CTG-5 GMM77316280CTG-6

tPD

tPDOFF

Parameter

PDE to Valid PD bit

PDE to PD bit in active

1010

772 2

GMM77316280CTG-5/6

Notes:

AC measurements assume tT = 2§À.

AC initial pause of 200 us is required after power up followed by a minimum of eight

initialization cycles ( any combination of cycles containing RAS-only refresh or CAS-before-

RAS refresh)

Operation with the t RCD(max) limit insures that tRAC(max) can be met, tRCD(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 tCAC.

Operation with the tRAD(max) limit insures that tRAC(max) can be met, tRAD(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.

Either tOED or tCDD must be satisfied.

Either tDZO or tDZC must be satisfied.

VIH(min) and V IL(max) are reference levels for measuring timing of input signals. Also,

transition times are measured between VIH(min) and VIL (max).

Assumes that t RCD<=tRCD(max) and t RAD<=tRAD(max). If tRCD or tRAD is greater than the maximum

recommended value shown in this table, tRAC exceeds the value shown.

Measured with a load circuit equivalent to 1 TTL loads and 100 pF.

Assumes that tRCD>=tRCD(max) and tRCD + tCAC(max) >=tRAD + tAA(max).

Assumes that tRAD >=tRAD (max) and tRCD + tCAC(max)<=tRAD + tAA(max).

Either tRCH or tRRH must be satisfied for a read cycles.

tOFF(max), tOEZ(max), tOFR(max) and t WEZ(max) define the time at which the outputs achieve the

open circuit condition and is not referenced to output voltage levels.

tWCS, tRWD, tCWD, tAWD, and tCPW are not restrictive operating parameters. They are included in the

data sheet as electrical characteristics only: if t WCS >=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 >=tRWD(min), tCWD>=tCWD(min), tAWD>=tAWD(min) and t CPW>=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.

tDS and t DH are referred to CAS leading edge in early write cycles and to WE leading edge in

delayed write or read-modify-write cycles.

tRASP defines RAS pulse width in extended data out mode cycles.

Access time is determined by the longest among tAA, tCAC and tCPA.

In delayed write or read-modify-write cycles, OE must disable output buffer prior to applying

data to the device.

When output buffers are enabled once, sustain the low impedance state until valid data is

obtained. When output buffer is turned on and off within a very short time, generally it causes

large VCC/VSS line noise, which causes to degrade VIH min/VIL max level.

10.

11.

12.

13.

14.

15.

16.

17.

18.

19.

GMM77316280CTG-5/6

tHPC(min) can be achieved during a series of EDO mode early write cycles or EDO mode read

cycles. If both write and read operation are mixed in a EDO mode, RAS cycle { EDO mode mix

cycle (1),(2) } minimum value of CAS cycle t HPC(tCAS + tCP + 2tT) becomes greater than the

specified tHPC(min) value.

Data output turns off and becomes high impedance from later rising edge of RAS and CAS.

Hold time and turn off time are specified by the timing specifications of later rising edge of RAS

and CAS between tOHR and tOH, and between tOFR and tOFF.

tDOH defines the time at which the output level go cross. V OL=0.8V, VOH=2.0V of output timing

reference level.

Before and after self refresh mode, execute CBR refresh to all refresh addresses in or within 64

§Â period on the condition a and b below.

a. Enter self refresh mode within 15.6 us after either burst refresh or distributed refresh at equal

interval to all refresh addresses are completed.

b. Start burst refresh or distributed refresh at equal interval to all refresh addressed within 15.6us

after exiting from self refresh mode.

In case of entering from RAS-only-refresh, it is necessary to execute CBR refresh before and

after self refresh mode according as note 23.

For L_version, it is available to apply each 128 §Â and 31.2 us instead of 64 §Â and 15.6us at

note 23.

At tRASS£¾100 us , self refresh mode is activated, and not activated at t

RASS £¼10us. It is undefined

within the range of 10 us £¼tRASS £¼100 us . for tRASS £¾10 us , it is necessary to satisfy tRPS.

XXX: H or L ( H : VIH(min)<=

VIN<=

VIH(max), L: VIH(min)<=

VIN<=

VIH(max))

///////: Invalid Dout

When the address, clock and input pins are not described on timing waveforms, their pins must

be applied VIH or VIL.

20.

21.

22.

23.

24.

25.

26.

27.

The value of CAS cycle time of mixed EDO page mode is shown in

EDO page mode mix cycle (1) and (2).

GMM77316280CTG-5/6

Package Dimension

85168

184

5250(133.35)

5013.78(127.35)

1700(43.18)

1450(36.83) 2150(54.61)

450(11.43) 250(6.35)

700(17.78)

157.48(4.0)

1250(31.75)

"C" "B" "A"

4550(115.57)

Unit: mil (mm)

* (1 mil = 1/1000 inches)

NOTE : 1. Tolerances on all dimensions +/-5 (0.127) unless otherwise specified.

2. Thickness includes Plating and / or Metallization.

DETAIL "B" DETAIL "A"

5.9(0.15)

100(2.54) min.

39.37(1.0)

50(1.27)

78.74(2.0)

39.37(1.0)

DETAIL "C"

78.74(2.0)

122.83(3.12)

39.37(1.0)

125(3.175)

R78.74

(2.0)

R78.74

(2.0)

157.48(4.0) max.

50(1.27)

157.48(4.0) min.

(Front Side)

(Rear Side)