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V436516Y04V 128MB 144-PIN UNBUFFERED SDRAM SODIMM, 16MX64 3.3VOLT
PRELIMINARY
s JEDEC-standard 144 pin, Small-Outline, Dual in line Memory Module (SODIMM) s Serial Presence Detect with E2PROM s Nonbuffered s Fully Synchronous, All Signals Registered on Positive Edge of System Clock s Single +3.3V ( 0.3V) Power Supply s All Device Pins are LVTTL Compatible s 4096 Refresh Cycles every 64 ms s Self-Refresh Mode s Internal Pipelined Operation; Column Address can be changed every System Clock s Programmable Burst Lengths: 1, 2, 4, or 8 s Auto Precharge and Precharge all Banks by A10 s Data Mask Function by DQM s Mode Register Set Programming s Programmable (CAS Latency: 2, 3 Clocks) s SDRAM Performance
CILETIV LESOM
Features
8M x 16
Description
The V436516Y04V memory module is organized 16,777,216 x 64 bits in a 144 pin SODIMM. The 16M x 64 memory module uses 8 Mosel-Vitelic 8M 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.
Part Number V436516Y04VATG-75PC V436516Y04VATG-75 V436516Y04VATG-10PC
Speed Grade -75PC,CL=2,3(133MHZ) -75, CL=3 (133MHZ)
Configuration
16Mx64 16Mx64 16Mx64
-10PC,CL=2,3(100MHZ)
8M x 16
8M x 16
8M x 16
1
59
61
143
Pin 2 on Backside
Pin 144 on Backside
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Front DQMB1 DQMB5 VDD VDD A0 A3 A1 A4 A2 A5 VSS VSS DQ8 DQ40 DQ9 DQ41 DQ10 DQ42 DQ11 DQ43 VDD VDD DQ12 DQ44 Pin 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 Front DQ13 DQ45 DQ14 DQ46 DQ15 DQ47 VSS VSS NC NC NC NC CLK0 CKE0 VDD VDD RAS CAS WE CKE1 CS0 NC CS1 NC Pin 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 Back NC CLK1 VSS VSS NC NC NC NC VDD VDD DQ16 DQ48 DQ17 DQ49 DQ18 DQ50 DQ19 DQ51 VSS VSS DQ20 DQ52 DQ21 DQ53 Pin 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 Back DQ22 DQ54 DQ23 DQ55 VDD VDD A6 A7 A8 BA0 VSS VSS A9 BA1 A10 A11 VDD VDD DQMB2 DQMB6 DQMB3 DQMB7 VSS VSS Pin 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 Back DQ24 DQ56 DQ25 DQ57 DQ26 DQ58 DQ27 DQ59 VDD VDD DQ28 DQ60 DQ29 DQ61 DQ30 DQ62 DQ31 DQ63 VSS VSS SDA SCL VDD VDD
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Pin 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 Front VSS VSS DQ0 DQ32 DQ1 DQ33 DQ2 DQ34 DQ3 DQ35 VDD VDD DQ4 DQ36 DQ5 DQ37 DQ6 DQ38 DQ7 DQ39 VSS VSS DQMB0 DQMB4 Pin 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48
Pin Configurations (Front Side/Back Side)
Note:
1. RAS, CAS, WE CASx, CSx are active low signals.
Pin Names
A0-A11, BA0, BA1 DQ0-DQ63 RAS CAS WE CS0, CS1 DQMB0-DQMB7 CKE0, CKE1 CLK0-CLK1 SDA SCL VDD VSS NC Address, Bank Select Data Inputs/Outputs Row Address Strobes Column Address Strobes Write Enable Chip Select Output Enable Clock Enable Clock Serial Input/Output Serial Clock Power Supply Ground No Connect (Open)
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V
MOSEL VITELIC MANUFACTURED
Part Number Information
4
3
65
16
Y
0
4
V
A
T
G - XX
SPEED 75 = PC133 CL3 75PC=PC133 CL2,3 10PC=PC100 CL2,3 LEAD FINISH G = GOLD
SDRAM 3.3V WIDTH DEPTH 168 PIN REGISTERED DIMM X16 COMPONENT REFRESH RATE4K
COMPONENT PACKAGE, T = TSOP COMPONENT REV LEVEL LVTTL 4 BANKS
Block Diagram
CS0 WE WE CS UDQM U0 DQMB1 LDQM DQ8-15 DQMB5 WE UDQM U2 LDQM DQ40-47 CS DQ32-39
DQMB0
DQ0-7
DQMB4
DQMB2
WE CS UDQM U1
DQ16-23
DQMB6
WE UDQM U3
CS DQ43-54
DQMB3
LDQM
DQ24-31
DQMB7
LDQM
DQ55-63
CS1 WE WE CS UDQM U4 DQMB1 LDQM DQ8-15 DQMB5 WE UDQM U6 LDQM DQ40-47 CS DQ32-39
DQMB0
DQ0-7
DQMB4
DQMB2
WE CS UDQM U5
DQ16-23
DQMB6
WE UDQM U7
CS DQ43-54
DQMB3
LDQM
DQ24-31
DQMB7
LDQM
DQ55-63
VDD VSS A0-A11, BA0, BA1 CKE0 CKEI RAS CAS
U0-U7 CLK0 U0-U7 U0-U3 U4-U7 U0-U7 U0-U7 SCL A0 SPD A1 A2 CLKI 0
U0, U1 U2, U3 U4, U5 0 U6, U7
SDA
Note: All resistors are 10 Ohms
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written into the E2PROM device during module production using a serial presence detect protocol (I2C synchronous 2-wire bus)
E2PROM
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0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 Memory Type 16 17 18 19 20 21 CS Latencies WE Latencies 22 23 24 25 26 27 28 29
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Serial Presence Detect Information
A serial presence detect storage device - - is assembled onto the module. Information about the module configuration, speed, etc. is
SPD-Table for -75 modules:
Hex Value Byte Number Function Described
Number of SPD bytes Total bytes in Serial PD
SPD Entry Value
128 256 SDRAM 12 9 2 64 0 LVTTL 7.5 ns/10.0 ns 5.4 ns/6.0 ns none Self-Refresh, 15.6s x16 n/a / x8 tccd = 1 CLK 1, 2, 4, 8 4 CL = 2 & 3 CS Latency = 0 WL = 0 Non Buffered/Non Reg. Vcc tol 10% 7.5 ns/10.0 ns 5.4 ns/6.0 ns Not Supported Not Supported 15 ns/20 ns 14 ns/15 ns 15 ns/20 ns
133 MHz -75PC
80 08 04 0C 09 02 40 00 01 75 54 00 80 10 00 01
133 MHZ -75
80 08 04 0C 09 02 40 00 01 75 54 00 80 10 00 01
100 MHZ -10PC
80 08 04 0C 09 02 40 00 01 A0 60 00 80 10 00 01
Number of Row Addresses (without BS bits) Number of Column Addresses (for x16 SDRAM) Number of DIMM Banks Module Data Width Module Data Width (continued) Module Interface Levels SDRAM Cycle Time at CL=3 SDRAM Access Time from Clock at CL=3 Dimm Config (Error Det/Corr.) Refresh Rate/Type SDRAM width, Primary Error Checking SDRAM Data Width Minimum Clock Delay from Back to Back Random Column Address Burst Length Supported Number of SDRAM Banks Supported CAS Latencies
0F 04 06 01 01 00
0F 04 06 01 01 00
0F 04 06 01 01 00
SDRAM DIMM Module Attributes
SDRAM Device Attributes: General Minimum Clock Cycle Time at CAS Latency = 2 Maximum Data Access Time from Clock for CL = 2 Minimum Clock Cycle Time at CL = 1 Maximum Data Access Time from Clock at CL = 1 Minimum Row Precharge Time tRP Minimum Row Active to Row Active Delay tRRD Minimum RAS to CAS Delay tRCD
0E 75 54 00 00 0F 0E 0F
0E A0 60 00 00 14 0F 14
0E A0 60 00 00 14 0F 14
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30 31 32 33 34 35 36-61 62 63 64-125 SPD Revision 126 127 128+
SPD-Table for -75 modules: (Continued)
Hex Value Byte Number Function Described
Minimum RAS Pulse Width tRAS Module Bank Density (Per Bank) SDRAM Input Setup Time SDRAM Input Hold Time SDRAM Data Input Setup Time SDRAM Data Input Hold Time Superset Information (May be used in Future) Revision 2/1.2
SPD Entry Value
42 ns/45 ns 64 MByte 1.5 ns/2.0 ns 0.8 ns/1.0 ns 1.5 ns/2.0 ns 0.8 ns/1.0 ns
133 MHz -75PC
2A 10 15 08 15 08 00 02 D2 00
133 MHZ -75
2D 10 15 08 15 08 00 02 17 00
100 MHZ -10PC
2D 10 20 10 20 10 00 12 84 00
Checksum for Bytes 0 - 62 Manufacturers's Information (Optional)
Max. Frequency Specification Frequency Support Details Unused Storage Location
133 MHz
64
64
64
00
00
00
Absolute Maximum Ratings
Parameter
Voltage on VDD Supply Relative to VSS Voltage on Input Relative to VSS Operating Temperature Storage Temperature Power Dissipation
Max.
-1 to 4.6 -1 to 4.6 0 to +70 -55 to 125 3.5
Units
V V C C W
DC Characteristics
TA = 0C to 70C; VSS = 0 V; VDD, VDDQ = 3.3V 0.3V
Limit Values Symbol
VIH V IL V OH VOL II(L) IO(L)
Parameter
Input High Voltage Input Low Voltage Output High Voltage (IOUT = -2.0 mA) Output Low Voltage (IOUT = 2.0 mA) Input Leakage Current, any input (0 V < VIN < 3.6 V, all other inputs = 0V) Output leakage current (DQ is disabled, 0V < VOUT < VCC)
Min.
2.0 -0.5 2.4 -- -10
Max.
VCC +0.3 0.8 -- 0.4 10
Unit
V V V V A A
-10
10
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Symbol
ICC1 ICC2P ICC2N
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Capacitance
Symbol
CI1 CI2 CICL CI3 CI4 CSC CIO
TA = 0C to 70C; VDD = 3.3V 0.3V, f = 1 MHz
Parameter
Input Capacitance (A0 to A11, RAS, CAS, WE) Input Capacitance (CS0, CSI) Input Capacitance (CLK0-CLK1) Input Capacitance (CKE0, CKEI) Input Capacitance (DQMB0-DQMB7) Input Capacitance (SCL, SA0-2) Input/Output Capacitance
Limit Values
105 32 40 65 20 8 10
Unit
pF pF pF pF pF pF pF
Standby and Refresh Currents1
TA = 0C to 70C, VCC = 3.3V 0.3V
Parameter
Operating Current
Test Conditions
Burst length = 4, CL = 3 tRC> = tRC(min), tCK> = tCK(min) CKE< = VIL(max), tCK> = tCK(min) CKE> = VIH(min), tCK> = tCK(min), Input changed once in 3 cycles
75PC/75
600
10PC
540
Unit
mA
Note
1,2
Precharged Standby Current in Power Down Mode Precharged Standby Current in Non-Power Down Mode
12
12
mA
180
140
mA
CS = High
ICC3P ICC3N ICC4 ICC5 ICC6
Active Standby Current in Power Down Mode
CKE< = VIL(max), tCK> = tCK(min)
80
80
mA
Active Standby Current in Non-Pow- CKE> = VIH(min), tCK> = tCK(min), Iner Down Mode put changed one time Burst Operating Current Auto Refresh Current Self Refresh Current tRC = Infinite, CL = 3, tCK> = tCK(min) tRC>= tRC(min) CKE = <0,2 V L-Version
220
180
mA
CS = High 1, 2 1,2 1,2
440 1000 12 6.4
360 840 12 6.4
mA mA mA mA
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AC Characteristics
TA = 0 to 70C; VSS = 0V; VCC = 3.3V 0.3V, tT = 1 ns
Limit Values -75PC # Symbol Parameter Min. Max. Min. -75 Max. Clock and Clock Enable
1 tCK Clock Cycle Time CAS Latency = 3 CAS Latency = 2 Clock Frequency CAS Latency = 3 CAS Latency = 2 Access Time from Clock CAS Latency = 3 CAS Latency = 2 Clock High Pulse Width Clock Low Pulse Width Transition Tim 7.5 7.5 - - 7.5 10 - - 2 tCK - - 133 133 - - 133 100 3 tAC - _ 2.5 2.5 0.3 5.4 5.4 - - 1.2 - _ 2.5 2.5 0.3 5.4 6.0 - - 1.2 4 5 6 tCH tCL tT
-10PC Min. Max. Unit Note
10 10
- -
s ns ns
- -
100 100
MHz MHz 2, 4
- _ 3 3 0.3
6.0 6.0 - - 1.2
ns ns ns ns ns
Setup and Hold Times
7 8 9 10 11 12 tIS tIH tCKS tCKH tRSC tSB Input Setup Time Input Hold Time Input Setup Time CKE Hold Time Mode Register Set-up Time Power Down Mode Entry Time 1.5 0.8 1.5 0.8 15 0 - - - - - 7.5 1.5 0.8 1.5 0.8 15 0 - - - - - 7.5 2.0 1.0 2.0 1.0 20 0 - - - - - 10 ns ns ns ns ns ns 5 5 5 5
Common Parameters
13 14 15 16 17 18 tRCD tRP tRAS tRC tRRD tCCD Row to Column Delay Time Row Precharge Time Row Active Time Row Cycle Time Activate(a) to Activate(b) Command Period CAS(a) to CAS(b) Command Period 15 15 42 70 14 1 - - 100K - - - 20 20 45 70 15 1 - - 100K - - - 20 20 45 70 15 1 - - 100K - - - ns ns ns ns ns CLK 6 6 6 6 6
Refresh Cycle
19 20 tREF tSREX Refresh Period (4096 cycles) Self Refresh Exit Time
--
64
--
64
--
64
ms ns
10
10
10
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AC Characteristics
TA = 0 to 70C; VSS = 0V; VCC = 3.3V 0.3V, tT = 1 ns (Continued)
Limit Values -75PC # Symbol Parameter Min. Max. Min. -75 Max. Read Cycle
21 22 23 24 tOH tLZ tHZ tDQZ Data Out Hold Time Data Out to Low Impedance Time Data Out to High Impedance Time DQM Data Out Disable Latency 2.7 1 - - - - 5.4 2 2.7 1 - - - - 5.4 2
-10PC Min. Max. Unit Note
2.7 1 - -
- - 5.4 2
ns ns ns CLK
2
7
Write Cycle
25 26 tWR tDQW Write Recovery Time DQM Write Mask Latency 1 0 - - 1 0 - - 1 0 - - CLK CLK
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 s 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.
tCH 2.4V CLOCK 0.4V
+ 1.4 V 50 Ohm Z=50 Ohm I/O 50 pF
tCL
tSETUP tHOLD
tT
INPUT
1.4V
tAC tLZ tOH
tAC
I/O 50 pF
1.4V
OUTPUT
Measurement conditions for tac and toh
tHZ
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6. Rated at 1.5V 10. 11.
5. If clock rising time is longer than 1 ns, a time (tT/2 -0.5) ns has to be added to this parameter.
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. Referenced to the time which the output achieves the open circuit condition, not to output voltage levels. tDAL is equivalent to tDPL + tRP.
Package Diagram
144 Pin SODIMM
0.039
1.25 0.787
1
59
61
143
Pin 2 on Backside
3.3V 2.661
Pin 144 on Backside
0.140
NOTE: 1. All dimensions in inches. Tolerances 0.005 unless otherwise specified.
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Label Information
Module Density
MOSEL VITELIC
Part Number Criteria of PC100 or PC133 (refer to MVI datasheet) DIMM manufacture date code
V436516Y04VXXX-XX 128MB CLX 128MB CLX V436664S24VATG-10PC V436616R24XXX-XX 512MB CLX
PC133U-XXX-542-A XXXX-XXXXXX 0130-K682165 Assembly in Taiwan
CAS Latency 2 = CL2 3 = CL3
PC133 U - XXX - 54 2 - A
UNBUFFERED DIMM CL = 3 or 2 (CLK) tRCD = 3 or 2 (CLK) tRP = 3 or 2 (CLK)
8 based 16 Gerber file Intel(R) PC100 x 16 Based
JEDEC SPD Revision 2 tAC = 5.4 ns
V436516Y04V Rev. 1.0 October 2001
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WORLDWIDE OFFICES
TAIWAN
7F, NO. 102 MIN-CHUAN E. ROAD, SEC. 3 TAIPEI PHONE: 886-2-2545-1213 FAX: 886-2-2545-1209 NO 19 LI HSIN ROAD SCIENCE BASED IND. PARK HSIN CHU, TAIWAN, R.O.C. PHONE: 886-3-579-5888 FAX: 886-3-566-5888
V436516Y04V
UK & IRELAND
SUITE 50, GROVEWOOD BUSINESS CENTRE STRATHCLYDE BUSINESS PARK BELLSHILL, LANARKSHIRE, SCOTLAND, ML4 3NQ PHONE: 44-1698-748515 FAX: 44-1698-748516
U.S.A.
3910 NORTH FIRST STREET SAN JOSE, CA 95134 PHONE: 408-433-6000 FAX: 408-433-0952
NORTHWESTERN
3910 NORTH FIRST STREET SAN JOSE, CA 95134 PHONE: 408-433-6000 FAX: 408-433-0952
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
CILETIV LESOM
SINGAPORE
10 ANSON ROAD #23-13 INTERNATIONAL PLAZA SINGAPORE 079903 PHONE: 65-3231801 FAX: 65-3237013
JAPAN
ONZE 1852 BUILDING 6F 2-14-6 SHINTOMI, CHUO-KU TOKYO 104-0041 PHONE: 03-3537-1400 FAX: 03-3537-1402
GERMANY (CONTINENTAL EUROPE & ISRAEL)
BENZSTRASSE 32 71083 HERRENBERG GERMANY PHONE: +49 7032 2796-0 FAX: +49 7032 2796 22
U.S. SALES OFFICES
SOUTHWESTERN
302 N. EL CAMINO REAL #200 SAN CLEMENTE, CA 92672 PHONE: 949-361-7873 FAX: 949-361-7807
CENTRAL, NORTHEASTERN & SOUTHEASTERN
604 FIELDWOOD CIRCLE RICHARDSON, TX 75081 PHONE: 214-352-3775 FAX: 214-904-9029
(c) Copyright, MOSEL VITELIC Inc.
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.
3910 N. First Street, San Jose, CA 95134-1501 Ph: (408) 433-6000 Fax: (408) 433-0952 Tlx: 371-9461

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