MOSEL V436616Y24VATG-75

MOSEL VITELIC
V436616Y24VATG-75
3.3 VOLT 16M x 64 HIGH PERFORMANCE
133 MHZ SDRAM
UNBUFFERED SODIMM
PRELIMINARY
Features
Description
■ JEDEC-standard 144 pin, Small-Outline, Dual in
line Memory Module (SODIMM)
■ Serial Presence Detect with E2PROM
■ Nonbuffered
■ Fully Synchronous, All Signals Registered on
Positive Edge of System Clock
■ Single +3.3V (± 0.3V) Power Supply
■ All Device Pins are LVTTL Compatible
■ 8192 Refresh Cycles every 64 ms
■ Self-Refresh Mode
■ Internal Pipelined Operation; Column Address
can be changed every System Clock
■ Auto Precharge and Piecharge all Banks by A10
■ Data Mask Function by DQM
■ Mode Register Set Programming
■ Programmable (CAS Latency:2, 3 Clocks)
The V436616Y24VATG-75 memory module is
organized 16,777,216 x 64 bits in a 144 pin
SODIMM. The 16M x 64 memory module uses 4
Mosel-Vitelic 16M x 16 SDRAM. The x64 modules
are ideal for use in high performance computer
systems where increased memory density and fast
access times are required.
16M x 16
16M x 16
59
1
V436616Y24VATG-75
16M x 16
-75
(133 MHz)
16M x 16
61
143
Pin 2 on Backside
V436616Y24VATG-75 Rev. 1.3 October 2001
Speed
Grade
Part Number
Pin 144 on Backside
1
Configuration
16M x 64
MOSEL VITELIC
V436616Y24VATG-75
Pin Configurations (Front Side/Back Side)
Pin
Front
Pin
Front
Pin
Front
Pin
Back
Pin
Back
Pin
Back
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
VSS
VSS
DQ0
DQ32
DQ1
DQ33
DQ2
DQ34
DQ3
DQ35
VDD
VDD
DQ4
DQ36
DQ5
DQ37
DQ6
DQ38
DQ7
DQ39
VSS
VSS
DQMB0
DQMB4
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
DQMB1
DQMB5
VDD
VDD
A0
A3
A1
A4
A2
A5
VSS
VSS
DQ8
DQ40
DQ9
DQ41
DQ10
DQ42
DQ11
DQ43
VDD
VDD
DQ12
DQ44
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
DQ13
DQ45
DQ14
DQ46
DQ15
DQ47
VSS
VSS
NC
NC
NC
NC
CLK0
CKE0
VDD
VDD
RAS
CAS
WE
CKE1
CS0
NC
CS1
A12
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
NC
CLK1
VSS
VSS
NC
NC
NC
NC
VDD
VDD
DQ16
DQ48
DQ17
DQ49
DQ18
DQ50
DQ19
DQ51
VSS
VSS
DQ20
DQ52
DQ21
DQ53
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
DQ22
DQ54
DQ23
DQ55
VDD
VDD
A6
A7
A8
BA0
VSS
VSS
A9
BA1
A10
A11
VDD
VDD
DQMB2
DQMB6
DQMB3
DQMB7
VSS
VSS
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
DQ24
DQ56
DQ25
DQ57
DQ26
DQ58
DQ27
DQ59
VDD
VDD
DQ28
DQ60
DQ29
DQ61
DQ30
DQ62
DQ31
DQ63
VSS
VSS
SDA
SCL
VDD
VDD
Note:
1. RAS, CAS, WE CASx, CSx are active low signals.
Pin Names
A0–A12, BA0, BA1
Address, Bank Select
DQ0–DQ63
Data Inputs/Outputs
RAS
Row Address Strobes
CAS
Column Address Strobes
WE
Write Enable
CS0, CS1
Chip Select
DQMB0–DQMB7
Output Enable
CKE0, CKE1
Clock Enable
CLK0, CLK1
Clock
SDA
Serial Input/Output
SCL
Serial Clock
VDD
Power Supply
VSS
Ground
NC
No Connect (Open)
V436616Y24VATG-75 Rev. 1.3 October 2001
2
MOSEL VITELIC
V436616Y24VATG-75
Part Number Information
V
4
3
66
16
Y
2
4
V
A
G
T
MOSEL-VITELIC
MANUFACTURED
-
75
75 (133 MHz)
PC133
GOLD
TSOP
SDRAM
3.3V
A VERSION
LVTTL
WIDTH
DEPTH
4 BANKS
144 PIN UNBUFFERED
SODIMM x16 COMPONENT
REFRESH
RATE 8K
Block Diagram
CSO
WE
DQMB0
WE CS
UDQM
DQ0–7
DQMB4
WE CS
UDQM
U0
DQ32–39
U2
DQMB1
LDQM
DQ8–15
DQMB5
LDQM
DQ40–47
DQMB2
WE CS
UDQM
DQ16–23
DQMB6
WE CS
UDQM
DQ43–54
U1
DQMB3
LDQM
U3
DQ24–31
DQMB7
DQ55–63
LDQM
C1–C4
VDD
VSS
U0, U1
CLK0
A0–A12, BA0, BA1
U0–U7
CKE0
U0–U3
CKEI
U4–U7
RAS
U0-U3
CAS
U0-U3
V436616Y24VATG-75 Rev. 1.3 October 2001
10Ω
U0–U7
10Ω
U2, U3
SPD
SCL
3
A0 A1 A2
SDA
MOSEL VITELIC
V436616Y24VATG-75
Serial Presence Detect Information
written into the E2PROM device during module production using a serial presence detect protocol (I2C
synchronous 2-wire bus)
A serial presence detect storage device - is assembled onto the module. Information about the module configuration, speed, etc. is
E2PROM
SPD-Table for 75 modules:
Hex Value
Byte Number
Function Described
SPD Entry Value
16Mx64
0
Number of SPD bytes
128
80
1
Total bytes in Serial PD
256
08
2
Memory Type
SDRAM
04
3
Number of Row Addresses (without BS bits)
13
0D
4
Number of Column Addresses (for x16 SDRAM)
9
09
5
Number of DIMM Banks
1
01
6
Module Data Width
64
40
7
Module Data Width (continued)
0
00
8
Module Interface Levels
LVTTL
01
9
SDRAM Cycle Time at CL=3
7.5 ns
75
10
SDRAM Access Time from Clock at CL=3
5.4 ns
54
11
Dimm Config (Error Det/Corr.)
none
00
12
Refresh Rate/Type
Self-Refresh,7.8 µs
82
13
SDRAM width, Primary
x16
10
14
Error Checking SDRAM Data Width
n/a / x16
00
15
Minimum Clock Delay from Back to Back Random
Column Address
tccd = 1 CLK
01
16
Burst Length Supported
1, 2, 4, 8
0F
17
Number of SDRAM Banks
4
04
18
Supported CAS Latencies
CL =2, 3
06
19
CS Latencies
CS Latency = 0
01
20
WE Latencies
WL = 0
01
21
SDRAM DIMM Module Attributes
Non Buffered/Non Reg.
00
22
SDRAM Device Attributes: General
Vcc tol ± 10%
0E
23
Minimum Clock Cycle Time at CAS Latency = 2
10. 0 ns
A0
24
Maximum Data Access Time from Clock for CL = 2
5.4 ns
54
25
Minimum Clock Cycle Time at CL = 1
Not Supported
00
26
Maximum Data Access Time from Clock at CL = 1
Not Supported
00
27
Minimum Row Precharge Time
20 ns
14
28
Minimum Row Active to Row Active Delay tRRD
15 ns
0F
29
Minimum RAS to CAS Delay tRCD
20 ns
14
30
Minimum RAS Pulse Width tRAS
45 ns
2D
V436616Y24VATG-75 Rev. 1.3 October 2001
4
MOSEL VITELIC
V436616Y24VATG-75
SPD-Table for 75 modules: (Continued)
Hex Value
Byte Number
Function Described
SPD Entry Value
16Mx64
128 Mbyte
20
31
Module Bank Density (Per Bank)
32
SDRAM Input Setup Time
1.5 ns
15
33
SDRAM Input Hold Time
0.8 ns
08
34
SDRAM Data Input Setup Time
1.5 ns
15
35
SDRAM Data Input Hold Time
0.8 ns
08
62-61
Superset Information (May be used in Future)
62
SPD Revision
63
Checksum for Bytes 0 - 62
64
Manufacturer’s JEDEC ID Code
65-71
72
00
Revision 2
02
1D
Mosel Vitelic
40
Manufacturer’s JEDEC ID Code (cont.)
00
Manufacturing Location
1 = US, 2 = Taiwan
73-90
Module Part Number (ASCII)
V436616Y24VATG-75
91-92
PCB Identification Code
Current PCB Revision
93
Assembly Manufacturing Date (Year)
Binary Coded year (BCD)
94
Assembly Manufacturing Date (Week)
Binary Coded week (BCD)
95-98
Assembly Serial Number
byte 95 = LSB, byte 98 = MSB
99-125
Reserved
00
126
Intel Specification for Frequency
64
127
Reserved
00
128+
Unused Storage Location
00
DC Characteristics
TA = 0°C to 70°C; VSS = 0 V; VDD, VDDQ = 3.3V ± 0.3V
Limit Values
Symbol
Parameter
Min.
Max.
Unit
VIH
Input High Voltage
2.0
VCC +0.3
V
V IL
Input Low Voltage
–0.5
0.8
V
V OH
Output High Voltage (IOUT = –4.0 mA)
2.4
—
V
VOL
Output Low Voltage (IOUT = 4.0 mA)
—
0.4
V
II(L)
Input Leakage Current, any input
(0 V < VIN < 3.6 V, all other inputs = 0V)
–40
40
µA
IO(L)
Output leakage current
(DQ is disabled, 0V < VOUT < VCC)
–40
40
µA
V436616Y24VATG-75 Rev. 1.3 October 2001
5
MOSEL VITELIC
V436616Y24VATG-75
Capacitance
TA = 0°C to 70°C; VDD = 3.3V ± 0.3V, f = 1 MHz
Symbol
Parameter
Limit Values (Max.)
Unit
CI1
Input Capacitance (A0 to A11, RAS, CAS, WE)
65
pF
CI2
Input Capacitance (CS0, CSI)
32
pF
CICL
Input Capacitance (CLK0-CLK1)
38
pF
CI3
Input Capacitance (CKE0, CKEI)
65
pF
CI4
Input Capacitance (DQMB0-DQMB7)
13
pF
CSC
Input Capacitance (SCL, SA0-2)
8
pF
CIO
Input/Output Capacitance
10
pF
Absolute Maximum Ratings
Parameter
Max.
Units
Voltage on VDD Supply Relative to VSS
-1 to 4.6
V
Voltage on Input Relative to VSS
-1 to 4.6
V
Operating Temperature
0 to +70
°C
-55 to 125
°C
4
W
Storage Temperature
Power Dissipation
Standby and Refresh Currents1
TA = 0°C to 70°C, VCC = 3.3V ± 0.3V
Symbol Parameter
Test Conditions
16M x 64
Unit
Note
ICC1
Operating Current
Burst length = 4, CL = 3
tRC> = tRC(min),
tCK> = tCK(min), IO = 0 mA
2 Bank Interleave Operation
920
mA
1,2
ICC2P
Precharged Standby Current in Power
Down Mode
CKE< = VIL(max), tCK> = tCK(min)
8
mA
ICC2N
Precharged Standby Current in
Non-Power Down Mode
CKE> = VIH(min), tCK> = tCK(min), Input
changed once in 3 cycles
160
mA
ICC3P
Active Standby Current in Power
Down Mode
CKE< = VIL(max), tCK> = tCK(min)
40
mA
ICC3N
Active Standby Current in Non-Power
Down Mode
CKE> = VIH(min), tCK> = tCK(min), Input
changed one time
200
mA
CS = High
ICC4
Burst Operating Current
tRC = Infinite, CL = 3,
tCK> = tCK(min), IO = 0 mA
2 Banks Activated
600
mA
1, 2
ICC5
Auto Refresh Current
tRC>= tRC (min)
960
mA
1,2
ICC6
Self Refresh Current
CKE = <0,2 V
Standard
12
mA
1,2
L-Version
6.8
V436616Y24VATG-75 Rev. 1.3 October 2001
6
CS = High
MOSEL VITELIC
V436616Y24VATG-75
AC Characteristics
TA = 0° to 70°C; VSS = 0V; VCC = 3.3V ± 0.3V, tT = 1 ns
Limit Values
-75
#
Symbol
Parameter
Min.
Max.
Unit
Clock Cycle Time
CAS Latency = 3
CAS Latency = 2
7.5
10
–
–
s
ns
ns
Clock Frequency
CAS Latency = 3
CAS Latency = 2
–
–
133
100
MHz
MHz
Access Time from Clock
CAS Latency = 3
CAS Latency = 2
–
_
5.4
6
ns
ns
Note
Clock and Clock Enable
1
2
3
tCK
tCK
tAC
2, 4
4
tCH
Clock High Pulse Width
2.5
–
ns
5
tCL
Clock Low Pulse Width
2.5
–
ns
6
tT
Transition Tim
0.3
1.2
ns
Setup and Hold Times
7
tIS
Input Setup Time
1.5
–
ns
5
8
tIH
Input Hold Time
0.8
–
ns
5
9
tCKS
Input Setup Time
1.5
–
ns
5
10
tCKH
CKE Hold Time
0.8
–
ns
5
11
tRSC
Mode Register Set-up Time
15
–
ns
12
tSB
0
7.5
ns
Row to Column Delay Time
20
–
ns
6
Power Down Mode Entry Time
Common Parameters
13
tRCD
14
tRP
Row Precharge Time
20
–
ns
6
15
tRAS
Row Active Time
45
100K
ns
6
16
tRC
Row Cycle Time
60
–
ns
6
17
tRRD
Activate(a) to Activate(b) Command Period
15
–
ns
6
18
tCCD
CAS(a) to CAS(b) Command Period
1
–
CLK
Refresh Period (8192 cycles)
—
64
ms
Self Refresh Exit Time
10
Refresh Cycle
19
tREF
20
tSREX
V436616Y24VATG-75 Rev. 1.3 October 2001
7
ns
MOSEL VITELIC
V436616Y24VATG-75
AC Characteristics
TA = 0° to 70°C; VSS = 0V; VCC = 3.3V ± 0.3V, tT = 1 ns (Continued)
Limit Values
-75
#
Symbol
Parameter
Min.
Max.
Unit
Note
2.7
–
ns
2
Read Cycle
21
tOH
Data Out Hold Time
22
tLZ
Data Out to Low Impedance Time
1
–
ns
23
tHZ
Data Out to High Impedance Time
–
5.4
ns
24
tDQZ
DQM Data Out Disable Latency
–
2
CLK
25
tWR
Write Recovery Time
1
–
CLK
26
tDQW
DQM Write Mask Latency
0
–
CLK
7
Write Cycle
Notes:
1. The specified values are valid when addresses are changed no more than once during tCK(min.) and when No
Operation commands are registered on every rising clock edge during tRC(min). Values are shown per module
bank.
2. The specified values are valid when data inputs (DQ’s) are stable during tRC(min.).
3. All AC characteristics are shown for device level.
An initial pause of 100 µs is required after power-up, then a Precharge All Banks command must be given followed
by 8 Auto Refresh (CBR) cycles before the Mode Register Set Operation can begin.
4. AC timing tests have VIL = 0.4V and V IH = 2.4V with the timing referenced to the 1.4V crossover point. The transition
time is measured between VIH and VIL. All AC measurements assume tT = 1 ns with the AC output load circuit
shown. Specific tac and toh parameters are measured with a 50 pF only, without any resistive termination and with
a input signal of 1V / ns edge rate between 0.8V and 2.0V.
+ 1.4 V
tCH
2.4V
CLOCK
50 Ohm
0.4V
tCL
tSETUP
Z=50 Ohm
tT
I/O
tHOLD
50 pF
1.4V
INPUT
tAC
tAC
tLZ
I/O
tOH
50 pF
1.4V
OUTPUT
tHZ
V436616Y24VATG-75 Rev. 1.3 October 2001
8
Measurement conditions for
tac and toh
MOSEL VITELIC
V436616Y24VATG-75
5. If clock rising time is longer than 1 ns, a time (tT/2 -0.5) ns has to be added to this parameter.
6. Rated at 1.5V
7. If tT is longer than 1 ns, a time (tT -1) ns has to be added to this parameter.
8. Any time that the refresh Period has been exceeded, a minimum of two Auto (CBR) Refresh commands must be
given to “wake-up” the device.
9. Self Refresh Exit is a synchronous operation and begins on the 2nd positive clock edge after CKE returns high.
Self Refresh Exit is not complete until a time period equal to tRC is satisfied once the Self Refresh Exit command
is registered.
10.
Referenced to the time which the output achieves the open circuit condition, not to output voltage levels.
11.
tDAL is equivalent to tDPL + tRP.
V436616Y24VATG-75 Rev. 1.3 October 2001
9
MOSEL VITELIC
V436616Y24VATG-75
Package Diagram
144 Pin SODIMM
0.039
1.25
0.787
Typ.
.157
59
1
61
143
Pin 2 on Backside
Pin 144 on Backside
2.661
NOTE:
1. All dimensions in inches.
Tolerances ±0.005 unless otherwise specified.
V436616Y24VATG-75 Rev. 1.3 October 2001
10
0.09
MOSEL VITELIC
V436616Y24VATG-75
Module Label Information
MOSEL VITELIC
Part Number
Criteria of PC100 or PC133
(refer to MVI datasheet)
V436616Y24VATG-75
PC133U-333-542-A
Taiwan XXXX-XXXXXXX
DIMM manufacture date code
Trace Code
PC133 U - 333 - 54 2 - A
UNBUFFERED DIMM
Gerber file Intel® PC100 x 16 Based
CL = 3 (CLK)
tRCD = 3 (CLK)
tRP = 3 (CLK)
V436616Y24VATG-75 Rev. 1.3 October 2001
Intel SPD Revision 2.0
tAC = 5.4 ns
11
MOSEL VITELIC
WORLDWIDE OFFICES
V436616Y24VATG-75
U.S.A.
TAIWAN
SINGAPORE
UK & IRELAND
3910 NORTH FIRST STREET
SAN JOSE, CA 95134
PHONE: 408-433-6000
FAX: 408-433-0952
7F, NO. 102
MIN-CHUAN E. ROAD, SEC. 3
TAIPEI
PHONE: 886-2-2545-1213
FAX: 886-2-2545-1209
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SINGAPORE 079903
PHONE: 65-3231801
FAX: 65-3237013
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SCIENCE BASED IND. PARK
HSIN CHU, TAIWAN, R.O.C.
PHONE: 886-3-579-5888
FAX: 886-3-566-5888
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SUITE 50, GROVEWOOD
BUSINESS CENTRE
STRATHCLYDE BUSINESS
PARK
BELLSHILL, LANARKSHIRE,
SCOTLAND, ML4 3NQ
PHONE: 44-1698-748515
FAX: 44-1698-748516
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TOKYO 104-0041
PHONE: 03-3537-1400
FAX: 03-3537-1402
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(CONTINENTAL
EUROPE & ISRAEL)
BENZSTRASSE 32
71083 HERRENBERG
GERMANY
PHONE: +49 7032 2796-0
FAX: +49 7032 2796 22
U.S. SALES OFFICES
NORTHWESTERN
SOUTHWESTERN
3910 NORTH FIRST STREET
SAN JOSE, CA 95134
PHONE: 408-433-6000
FAX: 408-433-0952
302 N. EL CAMINO REAL #200
SAN CLEMENTE, CA 92672
PHONE: 949-361-7873
FAX: 949-361-7807
© Copyright , MOSEL VITELIC Inc.
The information in this document is subject to change without
notice.
MOSEL VITELIC makes no commitment to update or keep current the information contained in this document. No part of this
document may be copied or reproduced in any form or by any
means without the prior written consent of MOSEL-VITELIC.
MOSEL VITELIC
CENTRAL,
NORTHEASTERN &
SOUTHEASTERN
604 FIELDWOOD CIRCLE
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PHONE: 214-352-3775
FAX: 214-904-9029
Printed in U.S.A.
MOSEL VITELIC subjects its products to normal quality control
sampling techniques which are intended to provide an assurance
of high quality products suitable for usual commercial applications. MOSEL VITELIC does not do testing appropriate to provide
100% product quality assurance and does not assume any liability for consequential or incidental arising from any use of its products. If such products are to be used in applications in which
personal injury might occur from failure, purchaser must do its
own quality assurance testing appropriate to such applications.
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