This document is a general product description and is subject t o change without notice. Hynix Semiconductor do es not assume any
responsibility for use of circuits described. No patent licenses are implied.
Rev. 0.6 / Dec. 2008 1
200pin Unbuffered DDR2 SDRAM SO-DIMMs based on 512 Mb C ver.
This Hynix unbuffered Small Outline Dual In-Line Memory Module (DIMM) series consists of 512Mb C ver. DDR2
SDRAMs in Fine Ball Grid Array (FBGA) packages on a 200pin glass-epoxy substrate. This Hynix 512Mb C ver. based
Unbuffered D DR2 SO-DIMM series provide a high perf ormance 8 byte interf ace in 67.60mm width form fa ctor of indus-
try standard. It is suitable for easy interchange and addition.
FEATURES
ORDERING INFORMATION
Notes:
1. All Hynix’ DDR2 Lead-free parts are compliant to RoHS.
Part Name Density Organization # of
DRAMs # of
ranks Materials Power
Consumption
HYMP532S64CP6-E3/C4/Y5 256MB 32Mx64 4 1 Lead free* Normal
HYMP564S64CP6-E3/C4/Y5 512MB 64Mx64 8 2 Lead free Normal
HYMP512S64CP8-E3/C4/Y5 1GB 128Mx64 16 2 Lead free Normal
HYMP532S64CLP6-E3/C4/Y5 256MB 32Mx64 4 1 Lead free Low
HYMP564S64CLP6-E3/C4/Y5 512MB 64Mx64 8 2 Lead free Low
HYMP512S64CLP8-E3/C4/Y5 1GB 128Mx64 16 2 Lead free Low
• JEDEC standard Double Data Rate2 Synchronous
DRAMs (DDR2 SDRAMs) with 1.8V +/- 0.1V Power
Supply
• All inputs and outputs are compatible with SS TL_1.8
interface
•Posted CAS
• Programmable CAS Latency 3, 4, 5, 6
• OCD (Off-Chip Driver Impedance Adjustment) and
ODT (On-Die Termination)
• Fully differential clock operations (CK & CK)
• Programmable Burst Length 4 / 8 with both sequen-
tial and interleave mode
• Auto refresh and self refresh supported
• 8192 refresh cycles / 64ms
• Serial presence detect with EEPROM
• DDR2 SDRAM Package: 60ball(x8), 84ball(x16)
FBGA
• 67.60 x 30.00 mm form factor
• Lead-free Products are RoHS compliant
Rev. 0.6 / Dec. 2008 2
1200pin Unbuffered DDR2 SDRAM SO-DIMMs
SPEED GRADE & KEY PARAMETERS
ADDRESS TABLE
E3
(DDR2-400) C4
(DDR2-533) Y5
(DDR2-667) S6
(DDR2-800) S5
(DDR2-800) Unit
Speed @CL3 400 533 400 - - Mbps
Speed @CL4 533 533 533 533 533 Mbps
Speed @CL5 - - 667 667 800 Mbps
Speed @CL6 - - - 800 - Mbps
CL-tRCD-tRP 3-3-3 4-4-4 5-5-5 5-5-5 5-5-5 tCK
Density Organization Ranks SDRAMs # of
DRAMs # of row/bank/column Address Refresh
Method
256MB 32M x 64 1 32Mb x 16 4 13(A0~A12)/2(BA0~BA1)/10(A0~A9) 8K / 64ms
512MB 64M x 64 2 32Mb x 16 8 13(A0~A12)/2(BA0~BA1)/10(A0~A9) 8K / 64ms
1GB 128M x 64 2 64Mb x 8 16 14(A0~A13)/2(BA0~BA1)/10(A0~A9) 8K / 64ms
Rev. 0.6 / Dec. 2008 3
1200pin Unbuffered DDR2 SDRAM SO-DIMMs
PIN DESCRIPTION
Symbol Type Polarity Pin Description
CK[1:0], CK[1:0] Input Cross
Point
The system clock inputs. All address and commands lines are sampled on the cross point
of the rising edge of CK and fall ing edge of CK. A Dela y Lock ed Loop (DLL) ci rcuit is driv en
from the clock inputs and outp ut timing for read operations is synchronized to the input
clock.
CKE[1:0] Input Active
High
Activates the DDR2 SD RA M CK signal when hig h and deactivates the CK signal when low.
By deactivating the clocks, CKE low initiates the Power Down mode or the Self Refresh
mode.
S[1:0] Input Active
Low
Enables the associated DDR2 SDRAM command decoder when low and disables the com-
mand decoder when high. When the command decoder is disabled, new commands are
ignored but previous operations continue. Rank 0 is s e lec ted by S0; Rank 1 is selected by
S1
RAS, CAS, WE Input Active
Low When sampled at the c ross poi nt of the rising ed ge of CK and falling ed ge of CK, CAS, RAS
and WE define the operation to be executed by the SDRAM.
BA[1:0] Input Selects which DDR2 SDRAM internal bank of four is activated.
ODT[1:0] Input Active
High Asserts on-die terminat ion for DQ, DM, DQS and DQS signals if enabled via the DDR2
SDRAM mode register.
A[9:0], A10/AP,
A[15:11] Input
During a Bank Activate command cycle, defines the row address when sampled at the
cross point of the rising edge of CK and falling edge of CK. During a Read or Write com-
mand cycle, defi nes the column add ress when sampled at the cross p oint of the rising
edge of CK and falling edge of CK. In addition to the co lumn addr ess, AP is us ed to in vo ke
autoprecharge operation at the end of the burst read or write cycle. If AP is high. , autopre-
charge is selected and BA0-BAn defines the bank to be precharged. If AP is low, autopre-
charge is disabled. During a Precharge command cycle., AP is used in conjunction with
BA0-BAn to contr ol whic h bank(s) to pr echarg e. If AP is high, all banks will be pr echar ged
regardless of the state of BA0-BAn inputs. If AP is low, then BA0-BAn are used to define
which bank to precharge.
DQ[63:0] In/Out Data Input/Output pins.
DM[7:0] Input Active
High
The data write masks, asso ciated with one data b yte. In Write mode, DM operates as a
byte mask by allowing input data to be written if it is low but blocks the write operation if
it is high. In Read mode, DM lines have no effect.
DQS[7:0], DQS[7:0] In/Out Cross
point
The data strobe, associated with one data byte, sourced whit data transfers. In Write
mode, the data strobe is sourced by the controller and is centered in the data window. In
Read mode, the data strobe is sourced by the DDR2 SDRAMs and is sent at leading edge
of the data window . DQS signals ar e complements, and timing is r elativ e to the cro sspoi nt
of respective DQS and DQS. If the module is to be operated in single ended strobe mode,
all DQS signals m ust be tied on the system boar d to VS S and DDR2 SDRAM mode registers
progr a mmed appropriately.
VDD, VDDSPD,VSS Supply Power supplies for core, I/O, Seria l P resense Detect, and g rou nd for the module.
SDA In/Out This is a bidirectional pin used to transfer data into or out of the SPD EEPROM. A resister
must be connected to VDD to act as a pull up.
SCL Input This signals is used to clock data into and out of the SPD EEPROM. A resistor may be con-
nected from SCL to VDD to act as a pull up.
SA[1:0] Input Address pi ns used to select the Serial Presence Detect base address.
TEST In/Out The TEST pin is reserved for bus analysis tools and is not connected on normal memory
modules (SODIMMs).
Rev. 0.6 / Dec. 2008 4
1200pin Unbuffered DDR2 SDRAM SO-DIMMs
PIN ASSIGNMENT
Pin Location
Pin
NO. Front
Side Pin
NO. Back
Side Pin
NO. Front
Side Pin
NO. Back
Side Pin
NO. Front
Side Pin
NO. Back
Side Pin
NO. Front
Side Pin
NO. Back
Side
1 VREF 2 VSS 51 DQS2 52 DM2 101 A1 102 A0 151 DQ42 152 DQ46
3 VSS 4 DQ4 53 VSS 54 VSS 103 VDD 104 VDD 153 DQ43 154 DQ47
5 DQ0 6 DQ5 55 DQ18 56 DQ22 105 A10/AP 106 BA1 155 VSS 156 VSS
7 DQ1 8 VSS 57 DQ19 58 DQ23 107 BA0 108 RAS 157 DQ48 158 DQ52
9 VSS 10 DM0 59 VSS 60 VSS 109 WE 110 S0 159 DQ49 160 DQ53
11 DQS0 12 VSS 61 DQ24 62 DQ28 111 VDD 112 VDD 161 VSS 162 VSS
13 DQS0 14 DQ6 63 DQ25 64 DQ29 113 CAS 114 ODT0 163 NC,TEST 164 CK1
15 VSS 16 DQ7 65 VSS 66 VSS 115 NC/S1 116 A13 165 VSS 166 CK1
17 DQ2 18 VSS 67 DM3 68 DQS3 117 VDD 118 VDD 167 DQS6 168 VSS
19 DQ3 20 DQ12 69 NC 70 DQS3 119 NC/ODT1 120 NC 169 DQS6 170 DM6
21 VSS 22 DQ13 71 VSS 72 VSS 121 VSS 122 VSS 171 VSS 172 VSS
23 DQ8 24 VSS 73 DQ26 74 DQ30 123 DQ32 124 DQ36 173 DQ50 174 DQ54
25 DQ9 26 DM1 75 DQ27 76 DQ31 125 DQ33 126 DQ37 175 DQ51 176 DQ55
27 VSS 28 VSS 77 VSS 78 VSS 127 VSS 128 VSS 177 VSS 178 VSS
29 DQS1 30 CK0 79 CKE0 80 NC/CKE1 129 DQS4 130 DM4 179 DQ56 180 DQ60
31 DQS1 32 CK0 81 VDD 82 VDD 131 DQS4 132 VSS 181 DQ57 182 DQ61
33 VSS 34 VSS 83 NC 84 NC/A15 133 VSS 134 DQ38 183 VSS 184 VSS
35 DQ10 36 DQ14 85 BA2 86 NC/A14 135 DQ34 136 DQ39 185 DM7 186 DQS7
37 DQ11 38 DQ15 87 VDD 88 VDD 137 DQ35 138 VSS 187 VSS 188 DQS7
39 VSS 40 VSS 89 A12 90 A11 139 VSS 140 DQ44 189 DQ58 190 VSS
41 VSS 42 VSS 91 A9 92 A7 141 DQ40 142 DQ45 191 DQ59 192 DQ62
43 DQ16 44 DQ20 93 A8 94 A6 143 DQ41 144 VSS 193 VSS 194 DQ63
45 DQ17 46 DQ21 95 VDD 96 VDD 145 VSS 146 DQS5 195 SDA 196 VSS
47 VSS 48 VSS 97 A5 98 A4 147 DM5 148 DQS5 197 SCL 198 SA0
49 DQS2 50 NC 99 A3 100 A2 149 VSS 150 VSS 199 VDDSPD 200 SA1
Front Back
139 41 199
240 200
42
Rev. 0.6 / Dec. 2008 5
1200pin Unbuffered DDR2 SDRAM SO-DIMMs
FUNCTIONAL BLOCK DIAGRAM
256MB(32Mbx64): HYMP532S64C(L)P6
CKE0
/S0
ODT0
D0
/C S O DT CKE
DQS0 LDQS
/DQS0 /UDQS
DM0 LDM
DQ0 I/O 0
DQ1 I/O 1
DQ2 I/O 2
DQ3 I/O 3
DQ4 I/O 4
DQ5 I/O 5
DQ6 I/O 6
I/O 7
DQ7
DQS1 UDQS
/DQS1 /UDQ S
DM1 UDM
DQ8
DQ8
DQ10
DQ11
DQ12
DQ13
DQ14
DQ15
D1
/C S O DT CKE
DQS2 LDQS
/DQS2 /LDQS
DM2 LDM
DQ16 I/O 0
DQ17 I/O 1
DQ18 I/O 2
DQ19 I/O 3
DQ20 I/O 4
DQ21 I/O 5
DQ22 I/O 6
I/O 7
DQ23
DQS3 UDQS
/DQS3 /U DQ S
DM3 UDM
DQ24
DQ25
DQ26
DQ27
DQ28
DQ29
DQ30
DQ31
SCL SDA
A0
A1
A2
Serial PD
SCL SDA
WP
SA0
SA1
DQS5
/DQS5
DM5 DQ40
DQ41
DQ42
DQ43
DQ44
DQ45
DQ46
DQ47
D3
/C S O DT CKE
DQS6 LDQS
/DQS6 /LDQS
DM6 LDM
DQ48 I/O 0
DQ49 I/O 1
DQ50 I/O 2
DQ51 I/O 3
DQ52 I/O 4
DQ53 I/O 5
DQ54 I/O 6
I/O 7
DQ55
DQS7 UDQS
/DQS7 /UDQS
DM7 UDM
DQ56
DQ57
DQ58
DQ59
DQ60
DQ61
DQ62
DQ63
D2
/C S O DT CKE
DQS4 LDQS
/DQS4 /LD Q S
DM4 LDM
DQ32 I/O 0
DQ33 I/O 1
DQ34 I/O 2
DQ35 I/O 3
DQ36 I/O 4
DQ37 I/O 5
DQ38 I/O 6
I/O 7
DQ39
/S1 N.C.
ODT1 N.C.
CKE1 N.C.
3Ω+/− 5%
BA0-BA1
3Ω +/- 5%
A0-AN
/RAS
/CAS
/W E
SDRAMS D0-3
SDRAMS D0-3
SDRAMS D0-3
SDRAMS D0-3
SDRAMS D0-3
2 loads
CK0
/CK0
2 loads
CK1
/CK1
I/O 8
I/O 9
I/O 1 0
I/O 1 1
I/O 1 2
I/O 1 3
I/O 1 4
I/O 1 5
I/O 8
I/O 9
I/O 1 0
I/O 1 1
I/O 1 2
I/O 1 3
I/O 1 4
I/O 1 5
I/O 8
I/O 9
I/O 1 0
I/O 1 1
I/O 1 2
I/O 1 3
I/O 1 4
I/O 1 5
UDQS
/UD QS
UDM
I/O 8
I/O 9
I/O 1 0
I/O 1 1
I/O 1 2
I/O 1 3
I/O 1 4
I/O 1 5
VDD SPD
VDD
VREF
VSS
Serial PD
SDRAMS DO-D3
SDRAMS DO-D3, VDD and VDDQ
SDR AMS DO -D3, SPD
1. Resistor values are 22 Ohm +/- 5%
Notes :
Rev. 0.6 / Dec. 2008 6
1200pin Unbuffered DDR2 SDRAM SO-DIMMs
FUNCTIONAL BLOCK DIAGRAM
512MB(64Mbx64): HYMP564S64C(L)P6
CKE0
/S0
/S1
DQS0
/DQS0
DM0 DQ0
DQ1
DQ2
DQ3
DQ4
DQ5
DQ6
DQ7
DQS1
/DQS1
DM1
DQ8
DQ8
DQ10
DQ11
DQ12
DQ13
DQ14
DQ15
DQS2
/DQS2
DM2 DQ16
DQ17
DQ18
DQ19
DQ20
DQ21
DQ22
DQ23
DQS3
/DQS3
DM3 DQ24
DQ25
DQ26
DQ27
DQ28
DQ29
DQ30
DQ31
SCL SDA
A0
A1
A2
Serial PD
SCL SDA
WP
SA0
SA1
DQS5
/DQS5
DM5
DQ40
DQ41
DQ42
DQ43
DQ44
DQ45
DQ46
DQ47
DQS6
/DQS6
DM6 DQ48
DQ49
DQ50
DQ51
DQ52
DQ53
DQ54
DQ55
DQS7
/DQS7
DM7 DQ56
DQ57
DQ58
DQ59
DQ60
DQ61
DQ62
DQ63
DQS4
/DQS4
DM4 DQ32
DQ33
DQ34
DQ35
DQ36
DQ37
DQ38
DQ39
3Ω+/− 5%
BA0 - BA1 3Ω +/- 5%
A0-AN
/RAS
/CAS
/WE
SDRAMS D 0 -7
SDRAMS D 0 -7
SDRAMS D 0 -7
SDRAMS D 0 -7
SDRAMS D 0 -7
VDD SPD
VDD
VREF
VSS
Serial PD
SDRAMS DO-D3
SDRAMS DO-D3, VDD a nd VDDQ
SDRAMS DO-D3, SPD
4 loads
CK0
/CK0
4 loads
CK1
/CK1
D0
/CS
LDQS
/UDQS
LDM
I/ O 0
I/ O 1
I/ O 2
I/ O 3
I/ O 4
I/ O 5
I/ O 6
I/O 7
UDQS
/UDQS
UDM
D1
LDQS
/LDQS
LDM
I/ O 0
I/ O 1
I/ O 2
I/ O 3
I/ O 4
I/ O 5
I/ O 6
I/ O 7
UDQS
/UDQS
UDM
I/ O 8
I/ O 9
I/ O 10
I/ O 11
I/ O 12
I/ O 13
I/ O 14
I/ O 15
I/ O 8
I/ O 9
I/ O 10
I/ O 11
I/ O 12
I/ O 13
I/ O 14
I/ O 15
CKE
ODT
/CS
CKE
ODT
D4
/CS
LDQS
/UDQS
LDM
I/ O 0
I/ O 1
I/ O 2
I/ O 3
I/ O 4
I/ O 5
I/ O 6
I/ O 7
UDQS
/UDQS
UDM
I/ O 8
I/ O 9
I/ O 10
I/ O 11
I/ O 12
I/ O 13
I/ O 14
I/ O 15
CKE
ODT
D5
/CS
LDQS
/UDQS
LDM
I/ O 0
I/ O 1
I/ O 2
I/ O 3
I/ O 4
I/ O 5
I/ O 6
I/ O 7
UDQS
/UDQS
UDM
I/ O 8
I/ O 9
I/ O 10
I/ O 11
I/ O 12
I/ O 13
I/ O 14
I/ O 15
CKE
ODT
D2
/CS
LDQS
/UDQS
LDM
I/ O 0
I/ O 1
I/ O 2
I/ O 3
I/ O 4
I/ O 5
I/ O 6
I/ O 7
UDQS
/UDQS
UDM
D3
LDQS
/LDQS
LDM
I/ O 0
I/ O 1
I/ O 2
I/ O 3
I/ O 4
I/ O 5
I/ O 6
I/ O 7
UDQS
/UDQS
UDM
I/ O 8
I/ O 9
I/ O 10
I/ O 11
I/ O 12
I/ O 13
I/ O 14
I/ O 15
I/ O 8
I/ O 9
I/ O 10
I/ O 11
I/ O 12
I/ O 13
I/ O 14
I/ O 15
CKE
ODT
/CS
CKE
ODT
D6
/CS
LDQS
/UDQS
LDM
I/ O 0
I/ O 1
I/ O 2
I/ O 3
I/ O 4
I/ O 5
I/ O 6
I/ O 7
UDQS
/UDQS
UDM
I/ O 8
I/ O 9
I/ O 10
I/ O 11
I/ O 12
I/ O 13
I/ O 14
I/ O 15
CKE
ODT
D7
/CS
LDQS
/UDQS
LDM
I/ O 0
I/ O 1
I/ O 2
I/ O 3
I/ O 4
I/ O 5
I/ O 6
I/ O 7
UDQS
/UDQS
UDM
I/ O 8
I/ O 9
I/ O 10
I/ O 11
I/ O 12
I/ O 13
I/ O 14
I/ O 15
CKE
ODT
CKE1
ODT0
ODT1
1. Resistor values are 22 Ohm +/- 5%
Notes :
Rev. 0.6 / Dec. 2008 7
1200pin Unbuffered DDR2 SDRAM SO-DIMMs
FUNCTIONAL BLOCK DIAGRAM
1GB(128Mbx64): HYMP512S64C(L)P8
CKE0
S0
S1
SA0 SDA
A0
A1
A2
Serial Presense
Detect (SPD)
SCL
Event/WP
3 Ω +/- 5%
BA0 - BA2
10 Ω +/-5%
A0-AN SD RAMS
VDD SPD
VDD
VREF
SPD
SDRAMS DO -D15
, VDD and VDDQ
, SPD
8loads
CK0
/CK0
8loads
CK1
/CK1
ODT1
CKE
ODT1
1
0
DM0 DQ0
DQ1
DQ2
DQ3
DQ4
DQ5
DQ6
DQ7
D1
CS0
DQS
DQS
DM
I/ O 0
I/ O 1
I/ O 2
I/ O 3
I/ O 4
I/ O 5
I/ O 6
I/ O 7
DQS1
DQS1
DM1 DQ8
DQ9
DQ10
DQ11
DQ12
DQ13
DQ14
DQ15
ODT0 CKE0
D10
CS0
DQS
DQS
DM
I/ O 0
I/ O 1
I/ O 2
I/ O 3
I/ O 4
I/ O 5
I/ O 6
I/ O 7
DQS2
DQS2
DM2 DQ16
DQ17
DQ18
DQ19
DQ20
DQ21
DQ22
DQ23
ODT0 CKE0
D11
CS0
DQS
DQS
DM
I/ O 0
I/ O 1
I/ O 2
I/ O 3
I/ O 4
I/ O 5
I/ O 6
I/ O 7
DQS3
DQS3
DM3 DQ24
DQ25
DQ26
DQ27
DQ28
DQ29
DQ30
DQ31
ODT0 CKE0
D0
DQS
DM
I/ O 0
I/ O 1
I/ O 2
I/ O 3
I/ O 4
I/ O 5
I/ O 6
I/ O 7
ODT0 CKE0
D8
CS1
DQS
DQS
DM
I/ O 0
I/ O 1
I/ O 2
I/ O 3
I/ O 4
I/ O 5
I/ O 6
I/ O 7
ODT1 CKE1
D9
CS1
DQS
DQS
DM
I/ O 0
I/ O 1
I/ O 2
I/ O 3
I/ O 4
I/ O 5
I/ O 6
I/ O 7
ODT1 CKE1
D2
CS1
DQS
DQS
DM
I/ O 0
I/ O 1
I/ O 2
I/ O 3
I/ O 4
I/ O 5
I/ O 6
I/ O 7
ODT1 CKE1
D3
CS1
DQS
DQS
DM
I/ O 0
I/ O 1
I/ O 2
I/ O 3
I/ O 4
I/ O 5
I/ O 6
I/ O 7
ODT1 CKE1
DQS4
DQS4
DM4
D5
CS0
DQS
DQS
DM
I/ O 0
I/ O 1
I/ O 2
I/ O 3
I/ O 4
I/ O 5
I/ O 6
I/ O 7
DQS5
DQS5
DM5 DQ
DQ42
DQ43
DQ44
DQ45
DQ46
DQ47
ODT0 CKE0
D14
CS0
DQS
DQS
DM
I/ O 0
I/ O 1
I/ O 2
I/ O 3
I/ O 4
I/ O 5
I/ O 6
I/ O 7
DQS6
DQS6
DM6 DQ48
DQ49
DQ50
DQ51
DQ52
DQ53
DQ54
DQ55
ODT0 CKE0
D15
CS0
DQS
DQS
DM
I/ O 0
I/ O 1
I/ O 2
I/ O 3
I/ O 4
I/ O 5
I/ O 6
I/ O 7
DQS7
DQS7
DM7 DQ56
DQ57
DQ58
DQ59
DQ60
DQ61
DQ62
DQ63
ODT0 CKE0
D4
CS0
DQS
DQS
DM
I/ O 0
I/ O 1
I/ O 2
I/ O 3
I/ O 4
I/ O 5
I/ O 6
I/ O 7
ODT0 CKE0
D12
CS1
DQS
DQS
DM
I/ O 0
I/ O 1
I/ O 2
I/ O 3
I/ O 4
I/ O 5
I/ O 6
I/ O 7
ODT1 CKE1
D13
CS1
DQS
DQS
DM
I/ O 0
I/ O 1
I/ O 2
I/ O 3
I/ O 4
I/ O 5
I/ O 6
I/ O 7
ODT1 CKE1
D6
CS1
DQS
DQS
DM
I/ O 0
I/ O 1
I/ O 2
I/ O 3
I/ O 4
I/ O 5
I/ O 6
I/ O 7
ODT1 CKE1
D7
CS1
DQS
DQS
DM
I/ O 0
I/ O 1
I/ O 2
I/ O 3
I/ O 4
I/ O 5
I/ O 6
I/ O 7
ODT1 CKE1
DQ32
DQ33
DQ34
DQ35
DQ36
DQ37
DQ38
DQ39
DQ41
40
/
/
////
//
/
/DQS0
DQS
/RAS
/CAS
/WE
D0-D15
SDRAMS D0-D15
SDRAMS D0-D15
SDRAMS D0-D15
SDRAMS D0-D15
/DQS /CS0
/
/
//
/
/
///
////
/
/
/
/
/////
/
/
/
/
/
/
/
/
SDRAMS DO -D15
SDRAMS DO -D15
SA1
SA2
Notes:
For normal operation only R(WP) is placed.
For the SPD temperture sensor option
only R(Event) is placed.
#Unless otherwise note d, resistor val ues
are 22 Ω⎣+/- 5% DQ wiring may differ from
that described in this draw in g;described
in this drawing; howev er, DQ/D M/D Q S/DQS
relationships are maintain ed as shown
WP
Event
R(WP) = 0Ω
R(Event) = 0Ω
5.6 pF
5.6 pF
Rev. 0.6 / Dec. 2008 8
1200pin Unbuffered DDR2 SDRAM SO-DIMMs
ABSOLUTE MAXIMUM RATINGS
Notes:
1. Stress greater than those listed may cause permanent dama ge to the device. This is a stress r ating only, and device
functional operation at or above the conditions indicated is not implied. Exposure to absolute maximum rating con
ditions for extended periods may affect reliability.
OPERATING CONDITIONS
Notes:
1. Up to 9850 ft.
2. If the DRAM case temperature is Above 85oC, the Auto-Refresh command interval has to be reduced to
tREFI=3.9us. For Measurement conditions of TCASE, please refer to the JEDEC document JESD51-2.
DC OPERATING CONDITIONS (SSTL_1.8)
Notes:
1. VDDQ must be less than or equal to VDD.
2. Peak to peak ac noise on VREF may not exceed +/-2% VREF(dc)
3. VTT of transmitting device must track VREF of receiving device.
Parameter Symbol Value Unit Note
Voltage on VDD pin relative to Vss VDD - 1.0 ~ 2.3 V 1
Voltage on VDDL pin relative to Vss VDDL -0.5 ~ 2.3 V 1
Voltage on VDDQ pin relative to Vss VDDQ - 0.5 ~ 2.3 V 1
Voltage on any pin relative to Vss VIN, VOUT - 0.5 ~ 2.3 V 1
Storage Temperature TSTG -50 ~ +100 oC1
Storage Humidity (without condensation) HSTG 5 ~ 95 % 1
Parameter Symbol Rating Units Notes
DIMM Operating temperature (ambient) TOPR 0 ~ +55 oC
DIMM Barometric Pressure (operating & storage) PBAR 105 ~ 69 K Pascal 1
DRAM Component Case Temperature Range TCASE 0 ~+95 oC2
Parameter Symbol Min Max Unit Note
Power Supply Voltage
VDD 1.7 1.9 V
VDDL 1.7 1.9 V
VDDQ 1.7 1.9 V 1
Input Reference Voltage VREF 0.49 x VDDQ 0.51 x VDDQ V2
EEPROM Supply Voltage VDDSPD 1.7 3.6 V
Termination Voltage VTT VREF-0.04 VREF+0.04 V 3
Rev. 0.6 / Dec. 2008 9
1200pin Unbuffered DDR2 SDRAM SO-DIMMs
INPUT DC LOGIC LEVEL
INPUT AC LOGIC LEVEL
AC INPUT TEST CONDITIONS
Notes:
1. Input waveform timing is referenced to the input signal crossing through the VREF level applied to the device
under test.
2. The input signal minimum slew rate is to be maintained over the range from VREF to VIH(ac) min for rising edges
and the range from VREF to VIL(ac) max for falling edges as shown in the below figure.
3. AC timings are referenced with input waveforms switching from VIL (ac) to VIH (ac) on the positive transitions
and VIH (ac) to VIL (ac) on the negative transitions.
Parameter Symbol Min Max Unit Note
Input High Voltage VIH(DC) VREF + 0.125 VDDQ + 0.3 V
Input Low Voltage VIL(DC) -0.30 VREF - 0.125 V
Parameter Symbol DDR2 400/533 DDR2 667/800 Unit
Min Max Min Max
AC Input logic High VIH(AC) VREF + 0.250 - VREF + 0.200 - V
AC Input logic Low VIL(AC) -V
REF - 0.250 - VREF - 0.200 V
Symbol Condition Value Units Notes
VREF Input reference voltage 0.5 * VDDQ V1
VSWING(MAX) Input signal maximum peak to peak swing 1.0 V 1
SLEW Input signal minimum slew rate 1.0 V/ns 2, 3
VDDQ
VIH(ac) min
VIH(dc) min
VREF
VIL(dc) max
VIL(ac) max
VSS
V
SWING(MAX)
delta TRdelta TF
VREF
-
VIL
(ac)
max
delta TF
Falling Slew = Rising Slew =
VIH
(ac)
min
- V
REF
delta TR
< Figure: AC Input Test Signal Waveform>
Rev. 0.6 / Dec. 2008 10
1200pin Unbuffered DDR2 SDRAM SO-DIMMs
Differential Input AC logic Level
1. VIN(DC) specifies the allowable DC execution of each input of differential pair such as CK, CK, DQS, DQS, LDQS,
LDQS, UDQS and UDQS.
2. VID(DC) specifies the input differential voltage |VTR -VCP | required for switching, where VTR is the true input
(such as CK, DQS, LDQS or UDQS) level and VCP is the complementary input (such as CK, DQS, LDQS or UDQS) level.
The minimum value is equal to VIH(DC) - VIL(DC).
Notes:
1. VID(AC) specifies the input differential voltage |VTR -VCP | required for switching, where VTR is the true input signal
(such as CK, DQS, LDQS or UDQS) and VCP is the complementary input signal (such as CK, DQS, LDQS or UDQS).
The minimum value is equal to V IH(AC) - VIL(AC).
2. The typical value of VIX(AC) is expected to be about 0.5 * VDDQ of the transmitting device and VIX(AC) is expected to
track variations in VDDQ. VIX(AC) indicates the voltage at which differential input signals must cross.
DIFFERENTIAL AC OUTPUT PARAMETERS
Notes:
1. The typical v a lue of V OX(AC) is expected to be about 0.5 * VDDQ of the transmitting device and VOX(AC) is expected to
track variations in VDDQ. VOX(AC) indicates the voltage at which differential output signals must cross.
Symbol Parameter Min. Max. Units Note
VID (ac) ac differential input voltage 0.5 VDDQ + 0.6 V 1
VIX (ac) ac differential cross point voltage 0.5 * VDDQ - 0.175 0.5 * VDDQ + 0.175 V 2
Symbol Parameter Min. Max. Units Note
VOX (ac) ac differential cross point voltage 0.5 * VDDQ - 0.125 0.5 * VDDQ + 0.125 V 1
VDDQ
Crossing point
VSSQ
VTR
VCP
VID VIX or VOX
< Differential signal levels >
Rev. 0.6 / Dec. 2008 11
1200pin Unbuffered DDR2 SDRAM SO-DIMMs
OUTPUT BUFFER LEVELS
OUTPUT AC TEST CONDITIONS
Notes:
1. The VDDQ of the device under test is referenced.
OUTPUT DC CURRENT DRIVE
Notes:
1. VDDQ = 1.7 V; VOUT = 1420 mV. (VOUT - VDDQ)/IOH must be less than 21 ohm for values of VOUT between VDDQ and
VDDQ - 280 mV.
2. VDDQ = 1.7 V; VOUT = 280 mV. VOUT/IOL must be less than 21 ohm for values of VOUT between 0 V and 280 mV.
3. The dc value of VREF applied to the receiving device is set to VTT
4. The values of IOH(dc) and IOL(dc) are based on the conditions given in Notes 1 and 2. They are used to test device
drive current capability to ensure VIH min plus a noise margin and VIL max minus a noise margin are delivered to an
SSTL_18 receiver.
The actual current values are derived by shifting the desired driver oper at ing point alon g a 21 oh m load line to def ine
a convenient driver current for measurement.
Symbol Parameter SSTl_18 Units Notes
VOTR Output Timing Measurement Reference Level 0.5 * VDDQ V1
Symbol Parameter SSTl_18 Units Notes
IOH(dc) Output Minimum Source DC Current - 13.4 mA 1, 3, 4
IOL(dc) Output Minimum Sink DC Current 13.4 mA 2, 3, 4
Rev. 0.6 / Dec. 2008 12
1200pin Unbuffered DDR2 SDRAM SO-DIMMs
PIN Capacitance (VDD=1.8V,VDDQ=1.8V, TA=25℃. f=1MHz)
256MB: HYMP532S64C[L]P6
512MB: HYMP564S64C[L]P6
1GB: HYMP512S64C[L]P8
Notes:
1. Pins not under test are tied to GND.
2. These values are guaranteed by design and tested on a sample basis only.
Pin Symbol Min Max Unit
CK, CK CCK 12 15 pF
CKE, ODT,CS CI1 27 30 pF
Address, RAS, CAS, WE CI2 25 32 pF
DQ, DM, DQS, DQS CIO 6.0 7.5 pF
Pin Symbol Min Max Unit
CK, CK CCK 17 20 pF
CKE, ODT,CS CI1 22 25 pF
Address, RAS, CAS, WE CI2 28.5 37.0 pF
DQ, DM, DQS, DQS CIO 10.0 12.0 pF
Pin Symbol Min Max Unit
CK, CK CCK 25 49 pF
CKE, ODT,CS CI1 32 58 pF
Address, RAS, CAS, WE CI2 47 96 pF
DQ, DM, DQS, DQS CIO 16 20 pF
Rev. 0.6 / Dec. 2008 13
1200pin Unbuffered DDR2 SDRAM SO-DIMMs
IDD SPECIFICATIONS (TCASE: 0 to 95oC)
256MB, 32M x 64 SO- DIMM: HYMP532S64C[L]P6
512MB, 64M x 64 SO - DIMM: HYMP564S64C[L]P6
Notes:
1. IDD6 current values are guaranteed up to Tcase of 85℃ max.
Symbol E3
(DDR 400@CL 3) C4
(DDR 533@CL 4) Y5
(DDR 667@CL 5) S5
(DDR 800@CL 5) Unit note
IDD0 400 400 400 480 mA
IDD1 440 440 480 520 mA
IDD2P 32 32 32 32 mA
IDD2Q 120 120 160 160 mA
IDD2N 120 160 160 200 mA
IDD3P(F) 120 120 120 140 mA
IDD3P(S) 48 48 48 48 mA
IDD3N 160 200 200 240 mA
IDD4W 520 680 800 960 mA
IDD4R 440 600 680 800 mA
IDD5B 600 600 640 660 mA
IDD6 32 32 32 32 mA 1
IDD6(L) 16 16 16 16 mA 1
IDD7 1280 1280 1280 1360 mA
Symbol E3
(DDR 400@CL 3) C4
(DDR 533@CL 4) Y5
(DDR 667@CL 5) S5
(DDR 800@CL 5) Unit note
IDD0 560 600 640 720 mA
IDD1 600 640 680 760 mA
IDD2P 64 64 64 64 mA
IDD2Q 240 240 320 320 mA
IDD2N 240 320 320 400 mA
IDD3P(F) 240 240 240 280 mA
IDD3P(S) 96 96 96 96 mA
IDD3N 320 400 400 480 mA
IDD4W 680 880 1000 1200 mA
IDD4R 600 800 880 1040 mA
IDD5B 760 800 840 900 mA
IDD6 64 64 64 64 mA 1
IDD6(L) 32 32 32 32 mA 1
IDD7 1440 1480 1480 1600 mA
Rev. 0.6 / Dec. 2008 14
1200pin Unbuffered DDR2 SDRAM SO-DIMMs
1GB, 128M x 64 SO - DIMM: HYMP512S64C[L]P8
Notes:
1. IDD6 current values are guaranteed up to Tcase of 85℃ max.
Symbol E3
(DDR 400@CL 3) C4
(DDR 533@CL 4) Y5
(DDR 667@CL 5) S5
(DDR 800@CL 5) Unit note
IDD0 960 1040 1120 1280 mA
IDD1 960 1120 1120 1280 mA
IDD2P 128 128 128 128 mA
IDD2Q 480 480 640 640 mA
IDD2N 480 640 640 800 mA
IDD3P(F) 480 480 480 560 mA
IDD3P(S) 192 192 192 192 mA
IDD3N 640 800 800 960 mA
IDD4W 1120 1440 1600 1920 mA
IDD4R 1040 1280 1520 1760 mA
IDD5B 1520 1600 1680 1800 mA
IDD6 128 128 128 128 mA 1
IDD6(L) 64 64 64 64 mA 1
IDD7 2000 2080 2160 2320 mA
Rev. 0.6 / Dec. 2008 15
1200pin Unbuffered DDR2 SDRAM SO-DIMMs
IDD Measurement Conditions
Notes:
1. IDD specifications are tested after the device is properly initialized
2. Input slew rate is specified by AC Parametric Test Condition
3. IDD parameters are specified with ODT disabled.
4. Data bus consists of DQ, DM, DQS, DQS, RDQS, RDQS, LDQS, LDQS, UDQS, and UDQS . IDD values must be met with all combinations
of EMRS bits 10 and 11.
5. Definiti ons for IDD
LOW is defined as Vin ≤ VILAC (max)
HIGH is defined as Vin ≥ VIHAC (min)
STABLE is defined as inputs stable at a HIGH or LOW level
FLOATING is defined as in puts at VREF = VDDQ/2
SWITCHING is defined as: inputs changing between HIGH and LOW every other clock cycle (once per two clocks) for address and
control signals, and inputs changing between HIGH and LOW every other data transfer (once per clock)
for DQ signals not including masks or strobes.
Symbol Conditions Units
IDD0 Operating one bank active-precharge current; tCK = tCK(IDD), tRC = tRC(IDD), tRAS = tRASmin
(IDD);CKE is HIGH, CS is HIGH between val id commands; Addr ess bus inputs ar e SWIT CHING; Data bus inputs
are SWITCHING mA
IDD1 Operating one bank active-read-precharge current; IOUT = 0mA;BL = 4, CL = CL(IDD), AL = 0;
tCK = tCK(IDD), tRC = tRC (IDD), tRAS = tRASmin (IDD), tRCD = tRCD(IDD); CKE is HIGH, CS is HIGH
between valid command s; A d dress bus inputs are SWITCHING; Data pattern is same as IDD4W mA
IDD2P Precharge power-down current; All banks idle; tCK = tCK(IDD); CKE is LOW ; Other co ntrol and address bus
inputs are STABLE; Data bus inputs are FLOATING mA
IDD2Q Precharge quiet standby current; All ba nks idle; tCK = tCK(IDD);CKE is HIGH, CS is HIGH; Other control
and address bus inputs are STABLE; Data bus inputs are FLOATING mA
IDD2N Precharge standby current; All banks idle; tCK = tCK(IDD); CKE is HIGH, CS is HIGH; Othe r co ntrol and
address bus inputs are SWITCHING; Data bus inputs are SWITCHING mA
IDD3P Active power-down current; All banks open; tCK = tCK(IDD); CKE is LOW;
Other control and address bus inputs are STABLE; Data bus inputs are FLOAT-
ING
Fast PDN Exit MRS(12) = 0 mA
Slow PDN Exit MRS(12) = 1 mA
IDD3N Active standby current; All banks open; tCK = tCK(IDD), tRAS = tRASmax (IDD), tRP =tRP(IDD); CKE is
HIGH, CS is HIGH between valid commands; Other control and address bus inputs are SWITCHING; Data bus
inputs are SWITCHING mA
IDD4W Operating burst write current; All banks open, Continuo us bur st wr ites ; BL = 4 , CL = CL(ID D), AL = 0; tCK
= tCK(IDD), tRAS = tRASmax (IDD), tRP = tRP(IDD); CKE is HIGH, CS is HIGH between valid commands;
Address bus inputs are SWITCHING; Data bus inputs are SWITCHING mA
IDD4R Operating burst read current; All bank s open, Cont inuou s burst r eads, IOUT = 0mA; BL = 4, CL = CL(IDD),
AL = 0; tCK = tCK(IDD), tRAS = tRASmax (IDD), tRP = tRP(IDD); CKE is HIGH, CS is HIGH between valid com-
mands; Address bus inputs are SWITCHING; Data pattern is same as IDD4W mA
IDD5B Burst refresh current; tCK = tCK(IDD); Refresh command at every tRFC(IDD) interval; CKE is HIGH, CS is
HIGH between valid commands; Other control and address bus inputs are SWITCHING; Data bus inputs are
SWITCHING mA
IDD6 Self refresh current; CK and CK at 0V; CKE ≤ 0.2V ; Other cont rol and addr ess bus inputs are FL OATING; Data
bus inputs are FLOATING. IDD6 current values are guaranteed up to Tcase of 85℃ max. mA
IDD7
Operating bank interleave read current; All bank interleaving reads, IOUT = 0mA; BL = 4, CL = CL(IDD),
AL = tRCD(IDD)-1*tCK(IDD); tCK = tCK(IDD), tRC = tRC(IDD), tRRD = tRRD(IDD), tRCD = 1*tCK(IDD); CKE is
HIGH, CS is HIGH between v alid c ommands; Addr ess bus inputs are STABLE during DESELECTs; Data pattern is
same as IDD4R; - Refer to the following page for detailed timing conditions
mA
Rev. 0.6 / Dec. 2008 16
1200pin Unbuffered DDR2 SDRAM SO-DIMMs
Electrical Characteristics & AC Timings
Speed Bins and CL, tRCD, tRP, tRC and tRAS for Corresponding Bin
AC Timing Parameters by Spe ed Grade
Speed DDR2-800 DDR2-800 DDR2-667 DDR2-533 DDR2-400 Unit
Bin (CL-tRCD-tRP) 6-6-6 5-5-5 5-5-5 3-3-3 4-4-4
Parameter min min min min min
CAS Latency 65535
tCK
tRCD 15 12.5 15 11.25 15 ns
tRP 15 12.5 15 11.25 15 ns
tRAS 45 45 45 45 40 ns
tRC 60 57.25 60 56.25 55 ns
Parameter Symbol DDR2-400 DDR2-533 Unit Note
Min Max Min Max
Data-Out edge to Cl ock edge Skew tAC -600 +600 -500 500 ps
DQS-Out edge to Clock edge Skew tDQSCK -500 +500 -500 450 ns
Clock High Level Width tCH 0.45 0.55 0.45 0.55 CK
Clock Low Level Width tCL 0.45 0.55 0.45 0.55 CK
Clock Half Period tHP min(tCL,tCH) -min
(tCL, tCH) -ns
System Clock Cycle Time tCK 5000 8000 3750 8000 ps
DQ and DM input setup time(differential strobe) tDS 150 - 100 -ps 1
DQ and DM input hold time(differential strobe) tDH 275 - 225 -ps 1
DQ and DM input setup time(single ended strobe) tDS1 25 --25-ps 1
DQ and DM input hold time(single ended strobe) tDH1 25 --25-ps 1
Control & Address input Pulse Width for each input tIPW 0.6 -0.6 - tCK
DQ and DM input pulse width for each inp ut tDIPW 0.35 -0.35 - tCK
Data-out high-impedance window from CK, /CK tHZ -tAC max
-tAC max
ps
DQS low-impedance time from CK/CK tLZ(DQS) tAC min tAC max tAC min tAC max ps
DQ low-impedance time from CK/CK tLZ(DQ) 2*tAC min tAC max 2*tAC min tAC max ps
DQS-DQ skew for DQS and associated DQ signals tDQSQ - 350 - 300 ps
DQ hold skew factor tQHS - 450 - 400 ps
DQ/DQS output hold time from DQS tQH tHP - tQHS -tHP - tQHS -ps
First DQS latching transition to associated clock edge tDQSS -0.25 + 0.25 -0.25 + 0.25 tCK
DQS input high pulse width tDQSH 0.35 -0.35 -tCK
DQS input low pulse width tDQSL 0.35 -0.35 -tCK
Rev. 0.6 / Dec. 2008 17
1200pin Unbuffered DDR2 SDRAM SO-DIMMs
- continued -
Parameter Symbol DDR2-400 DDR2-533 Unit Note
Min Max Min Max
DQS falling edge to CK setup time tDSS 0.2 -0.2 -tCK
DQS falling edge hold time from CK tDSH 0.2 -0.2 -tCK
Mode register set command cycle time tMRD 2 - 2 - tCK
Write postamble tWPST 0.4 0.6 0.4 0.6 tCK
Write preamble tWPRE 0.35 -0.35 -tCK
Address and control input setup ti me tIS 350 -250-ps
Address and control input hold time tIH 475 -375-ps
Read pre amble tRPRE 0.9 1.1 0.9 1.1 tCK
Read postamb le tRPST 0.4 0.6 0.4 0.6 tCK
Auto-Refresh to Active/Auto-Refresh command
period tRFC 105 -105 -ns
Row Active to Row Active Delay for 1KB page size tRRD 7.5 -7.5 - ns
Row Active to Row Active Delay for 2KB page size tRRD 10 -10 - ns
Four Activate Window for 1KB page size tFAW 37.5 -37.5 - ns
Four Activate Window for 2KB page size tFAW 50 -50 - ns
CAS to CAS command delay tCCD 2 2 tCK
Write recovery time tWR 15 -15-ns
Auto Precharge Write Recovery + Precharge Time tDAL WR+tRP -tWR + tRP - tCK
Write to Read Command Delay tWTR 10 -7.5-ns
Internal read to precharge command delay tRTP 7.5 7.5 ns
Exit self refre sh to a non-read command tXSNR tRFC + 10 tRFC + 10 ns
Exit self refre sh to a read command tXSRD 200 -200 -tCK
Exit precharge power down to an y non-read
command tXP 2 - 2 - tCK
Exit active power down to read command tXARD 2 2 tCK
Exit active power down to read command
(Slow exit, Lower power) tXARDS 6 - AL 6 - AL tCK
CKE minimum pulse width
(high and low pulse width) tCKE 3 3 tCK
ODT turn-on delay tAOND 2222
tCK
ODT turn-on tAON tAC (min) tAC(max)+1 tAC (min) tAC(max)+1 ns
ODT turn-on (Power-Down mode) tAONPD tAC(min)+2 2tCK+
tAC(max)+1 tAC(min)+2 2tCK+tAC(m
ax)+1 ns
ODT turn-off delay tAOFD 2.5 2.5 2.5 2.5 tCK
ODT turn-off tAOF tAC (min) tAC(max)+0
.6 tAC (min) tAC (max)+
0.6 ns
ODT turn-off (Power-Down mode) tAOFPD 2.5 2.5 tAC(min)+2 2.5tCK+tAC(
max)+1 ns
Rev. 0.6 / Dec. 2008 18
1200pin Unbuffered DDR2 SDRAM SO-DIMMs
- continued -
Note:
1. For details and notes, please refer to the relevant Hynix component datasheet(HY5PS128(16)21C[L]FP).
2. 0°C ≤ TCASE ≤ 85°C
3. 85°C < TCASE ≤ 95°C
Parameter Symbol DDR2-400 DDR2-533 Unit Note
Min Max Min Max
ODT to power down entry latency tANPD tAC (min) tAC(max)+0.
63tCK
ODT power down exit latency tAXPD tAC(min)+2 2.5tCK+
tAC(max)+1 8tCK
OCD drive mode output delay tOIT 3012
ns
Minimum time clocks remains ON after
CKE asynchronously drops LOW tDelay 8 tIS + tCK + tIH ns
Average periodic Refresh Interval tREFI -7.8-7.8us 2
tREFI -3.9 -3.9 us 3
Rev. 0.6 / Dec. 2008 19
1200pin Unbuffered DDR2 SDRAM SO-DIMMs
Parameter Symbol DDR2-667 DDR2-800 Unit Note
min max min max
DQ output access time from CK/CK tAC -450 +450 -400 +400 ps
DQS output access time from CK/CK tDQSCK -400 +400 -350 +350 ps
CK high-level width tCH 0.45 0.55 0.45 0.55 tCK
CK low-level width tCL 0.45 0.55 0.45 0.55 tCK
CK half period tHP min(tCL,
tCH) -min(tCL,
tCH) -ps
Clock cycle time, CL=x tCK 3000 8000 2500 ps
DQ and DM inpu t setup time
(differen t ial strobe ) tDS 100 - 50 -ps 1
DQ and DM input hold time
(differen t ial strobe ) tDH 175 - 125 -ps 1
Control & Address input pulse width for each
input tIPW 0.6 - 0.6 -tCK
DQ and DM input pulse width for each input tDIPW 0.35 - 0.35 -tCK
Data-out high-impe dan ce time from CK/CK tHZ - tAC max - tAC max ps
DQS low-impedance time from CK/C K tLZ(DQS) tAC min tAC max tAC min tAC max ps
DQ low-impedance time from CK/CK tLZ(DQ) 2*tAC min tAC max 2*tAC min tAC max ps
DQS-DQ skew for DQS and associated DQ
signals tDQSQ - 240 -200ps
DQ hold skew factor tQHS - 340 -300ps
DQ/DQS output hold time from DQS tQH tHP - tQHS -tHP - tQHS -ps
First DQS latching transition to associated
clock edge tDQSS - 0.25 + 0.25 - 0.25 + 0.25 tCK
DQS input high pulse width tDQSH 0.35 -0.35 -tCK
DQS input low pulse width tDQSL 0.35 -0.35 -tCK
DQS falling edge to CK setup time tDSS 0.2 -0.2 -tCK
DQS falling edge hold time from CK tDSH 0.2 -0.2 -tCK
Mode register set com mand cycle time tMRD 2 - 2 - tCK
Write postamble tWPST 0.4 0.6 0.4 0.6 tCK
Write preamble tWPRE 0.35 -0.35 -tCK
Address and control input setup time tIS 200 - 175 -ps
Address and control input hold time tIH 275 - 250 -ps
Read pr eambl e tRPRE 0.9 1.1 0.9 1.1 tCK
Read postamble tRPST 0.4 0.6 0.4 0.6 tCK
Activate to precharge command tRAS 45 70000 45 70000 ns
Active to active command period for 1KB page
size products tRRD 7.5 -7.5-ns
Active to active command period for 2KB page
size products tRRD 10 -10-ns
Four Active Window for 1KB page size
products tFAW 37.5 -35 -ns
Four Active Window for 2KB page size
products tFAW 50 -45 -ns
Rev. 0.6 / Dec. 2008 20
1200pin Unbuffered DDR2 SDRAM SO-DIMMs
- continued -
Note:
1. For details and notes, please refer to the relevant Hynix component datasheet(HY5PS128(16)21C[L]FP).
2. 0°C ≤ TCASE ≤ 85°C
3. 85°C < TCASE ≤ 95°C
Parameter Symbol DDR2-667 DDR2-800 Unit Note
min max min max
CAS to CAS command delay tCCD 2 2 tCK
Write recovery time tWR 15 -15-ns
Auto precharge write recovery +
precharge time tDAL WR+tRP -WR+tRP -tCK
Internal write to read command delay tWTR 7.5 -7.5-ns
Internal read to precharge command
delay tRTP 7.5 7.5 ns
Exit self refresh to a non-read command tXSNR tRFC + 10 tRFC + 10 ns
Exit self refresh to a read command tXSRD 200 -200 -tCK
Exit precharge power down to any non-
read command tXP 2 - 2 - tCK
Exit active power down to read command tXARD 2 2 tCK
Exit active power down to read command
(Slow exit, Lower power) tXARDS 7 - AL 8 - AL tCK
CKE minimum pulse width (high and low
pulse width) tCKE 33tCK
ODT turn-on delay tAOND 2222tCK
ODT turn-on tAON tAC (min) tAC(max)+0.7 tAC (min) tAC(max)+0.7 ns
ODT turn-on (Power-Down mode) tAONPD tAC(min)+2 2tCK+
tAC(max)+1 tAC(min)+2 2tCK+
tAC(max)+1 ns
ODT turn-off delay tAOFD 2.5 2.5 2.5 2.5 tCK
ODT turn-off tAOF tAC (min) tAC (max)+
0.6 tAC (min) tAC(max)+0.6 ns
ODT turn-off (Power-Down mode) tAOFPD tAC(min)+2 2.5tCK+
tAC(max)+1 tAC (min)
+2 2.5tCK+
tAC(max)+1 ns
ODT to power down entry latency tANPD 3 3 tCK
ODT power down exit latency tAXPD 8 8 tCK
OCD drive mode output delay tOIT 0 12 0 12 ns
Minimum time clocks remains ON after
CKE asynchronously drops LOW tDelay tIS + tCK +
tIH tIS + tCK +
tIH ns
Average periodic Refresh Interval tREFI - 7.8 - 7.8 us 2
tREFI -3.9 -3.9 us 3
Rev. 0.6 / Dec. 2008 21
1200pin Unbuffered DDR2 SDRAM SO-DIMMs
PACKAGE OUTLINE
32Mx64 - HYMP532S64C[L]P6
Front
67.60
2.00 Min
4.00±0.10
PIN 1 PIN 39 PIN 41 PIN 199
4.20
47.40
20.00
6.00
30.00
2.45 11.40 47.40
PIN 2 PIN 40 PIN 42 PIN 200
Back
3.8 max
1.00 ± 0.10
Side
note:
1 . A l l d imensio n s a r e in millimeters.
2 . A l l o u t lin e d ime n s io ns and tolera nce s fo llo w th e J E D EC sta ndard.
0.45±0.03
0.60
0.20±0.15
De ta il of C o n tac ts A
2.55
D eta il o f C o n ta c ts B (Fro n t)
1.0±0.05
4.00±0.10
4.20
2.70±0.10
Detail-A
Detail-B
Detail-B
4.20
2.40±0.10 1.80
1.50
De ta il of C o n tac ts B (Ba ck )
1.80±0.10
2.15
1.50±0.10
11.40
Rev. 0.6 / Dec. 2008 22
1200pin Unbuffered DDR2 SDRAM SO-DIMMs
PACKAGE OUTLINE
64Mx64 - HYMP564S64C[L]P6
Front
67.60
2.00 Min
4.00±0.10
PIN 1 PIN 39 PIN 41 PIN 199
11.40
1.80±0.10
4.20
47.40
20.00
6.00
30.00
2.45 11.40 47.40
PIN 2 PIN 40 PIN 42 PIN 200
Back
note:
1. All dimensions are in millimeters.
2. All outline dimensions and tolerances follow the JEDEC standard.
0.45±0.03
0.60
0.20±0.15
Detail of C ontacts A
2.55
Detail of Contacts B (Front)
1.0±0.05
4.00±0.10
4.20
2.70±0.10
4.20
2.40±0.10 1.80
1.50
Detail of Contacts B (Back)
Detail-B
Detail-B
Detail-A
3.8 max
1.00 ± 0.10
Side
2.15
1.50±0.10
Rev. 0.6 / Dec. 2008 23
1200pin Unbuffered DDR2 SDRAM SO-DIMMs
PACKAGE OUTLINE
128Mx64 - HYMP512S64C[L]P8
Front
67.60
2.00 Min
4.00 +/-0.10
PIN 1 PIN 39 PIN 41 PIN 199
4.20
47.40
20.00
6.00
30.00
2.45 11.40 47.40
PIN 2 PIN 200
Back
3.8 ma x
1.00 ± 0.10
Side
note:
1 . A ll dim e n s io ns a re in millimeters.
2 . A ll outline d imen s ions a n d t o le r a n c e s fo ll o w t h e J E DEC s tanda r d.
0.45±0.03
0.60
0.20±0.15
D eta il o f C o n ta cts A
2.55
De tail o f Co nta c ts B (Fron t)
1.0±0.05
4.00±0.10
4.20
2.70±0.10
Detail-B
4.20
2.40±0.10 1.80
1.50
D eta il o f C o n ta cts B (B a c k)
Detail-A
Detail-B
PIN 40 PIN 42
2.15 11.40
1.80±0.10
1.50±0.10
Rev. 0.6 / Dec. 2008 24
1200pin Unbuffered DDR2 SDRAM SO-DIMMs
REVISION HISTORY
Revision History Date Remark
0.1 First Version Release Jul. 2006
0.2 Added IDD Spec for S5(800Mhz part) Aug. 2006
0.3 Updated IDD3P-S value Aug. 2006
0.4 Corrected DIMM Outline & Added Speed S6 Jul. 2007
0.5 Editorial Correction Sep. 2008
0.6 Modified Block diagram Dec. 2008
