QIMONDA HYS72T128000HR

January 2007
HYS72T64000HR–[3S/3.7/5]–B
HYS72T1280x0HR–[3S/3.7/5]–B
HYS72T256220HR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM Modules
RDIMM SDRAM
DDR2 SDRAM
RoHS Compliant
Internet Data Sheet
Rev. 1.2
Internet Data Sheet
HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM
HYS72T64000HR–[3S/3.7/5]–B, HYS72T1280x0HR–[3S/3.7/5]–B, HYS72T256220HR–[3S/3.7/5]–B
Revision History: 2007-01, Rev. 1.2
Page
Subjects (major changes since last revision)
All
Adapted internet edition
All
Added Product Type HYS72T64000HR-3S-B, HYS72T128000HR-3S-B, HYS72T128020HR-3S-B and
HYS72T256220HR-3S-B
Previous Revision: 2006-09, Rev. 1.11
All
Qimonda update
Previous Revision: 2006-03, Rev. 1.1
5
Removed product types for DDR800,DRR667 these are to be found in a separate data sheet
8
Removed DDR800, DDR667 raw card figures
23,25,35,
36
Removed DDR800, DDR667 tables
45
Removed DDR800, DDR667 package outlines
Previous Revision: 2005-07, Rev. 1.0
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qag_techdoc_rev400 / 3.2 QAG / 2006-08-07
03292006-JXZQ-CG6T
2
Internet Data Sheet
HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM
1
Overview
This chapter gives an overview of the 1.8 V 240-Pin Registered DDR2 SDRAM Modules product family and describes its main
characteristics.
1.1
Features
• 240-Pin PC2–5300, PC2–4200 and PC2–3200 DDR2
SDRAM memory modules for PC, Workstation and Server
main memory applications
• One rank 64M × 72, 128M × 72 and two ranks
128M × 72, 256M x 72 module organization and 512M ×8,
512M × 4 chip organization
• Standard Double-Data-Rate-Two Synchronous DRAMs
(DDR2 SDRAM) with a single + 1.8 V (± 0.1 V) power
supply
• Built with 512 Mbit DDR2 SDRAMs in P-TFBGA-60
chipsize packages.
• Programmable CAS Latencies (3, 4 and 5), Burst Length
(4 & 8) and Burst Type
• Auto Refresh (CBR) and Self Refresh
•
•
•
•
•
•
•
•
•
•
Programmable self refresh rate via EMRS2 setting
Programmable partial array refresh via EMRS2 settings
DCC enabling via EMRS2 setting
All inputs and outputs SSTL_18 compatible
Off-Chip Driver Impedance Adjustment (OCD) and On-Die
Termination (ODT)
Serial Presence Detect with E2PROM
RDIMM Dimensions (nominal): 30 mm high, 133.35 mm
wide
Based on standard reference card layouts Raw Card “A”,
“B“, “C“, ”J”
All speed grades faster than DDR2–400 comply with
DDR2–400 timing specifications.
RoHS compliant products1)
TABLE 1
Performance Table
Product Type Speed Code
–3S
–3.7
Speed Grade
PC2–5300 5–5–5
PC2–4200 4–4–4 PC2–3200 3–3–3 —
333
266
200
MHz
266
266
200
MHz
200
200
200
MHz
15
15
15
ns
15
15
15
ns
45
45
40
ns
60
60
55
ns
Max. Clock Frequency
@CL5
@CL4
@CL3
Min. RAS-CAS-Delay
Min. Row Precharge Time
Min. Row Active Time
Min. Row Cycle Time
fCK5
fCK4
fCK3
tRCD
tRP
tRAS
tRC
–5
Unit
1) RoHS Compliant Product: Restriction of the use of certain hazardous substances (RoHS) in electrical and electronic equipment as defined
in the directive 2002/95/EC issued by the European Parliament and of the Council of 27 January 2003. These substances include mercury,
lead, cadmium, hexavalent chromium, polybrominated biphenyls and polybrominated biphenyl ethers.
Rev. 1.2, 2007-01
03292006-JXZQ-CG6T
3
Internet Data Sheet
HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM
1.2
Description
The QIMONDA HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
module family are Registered DIMM modules with 30 mm
height based on DDR2 technology. DIMMs are available as
ECC modules in 64M × 72 (512 MB), 128M × 72 (1GB ),
256M × 72 (2GB) organization and density, intended for
mounting into 240-Pin connector sockets.
The memory array is designed with 512-Mbit Double-DataRate-Two (DDR2) Synchronous DRAMs. All control and
address signals are re-driven on the DIMM using register
devices and a PLL for the clock distribution. This reduces
capacitive loading to the system bus, but adds one cycle to
the SDRAM timing. Decoupling capacitors are mounted on
the PCB board. The DIMMs feature serial presence detect
based on a serial E2PROM device using the 2-pin I2C
protocol. The first 128 bytes are programmed with
configuration data and the second 128 bytes are available to
the customer.
TABLE 2
Ordering Information for RoHS Compliant Products
Product Type
1)
Compliance Code
2)
Description
SDRAM Technology
PC2–5300
HYS72T64000HR–3S–B
512 MB 1Rx8 PC2-5300R-555-12-A0
1 Rank ECC
512 Mbit (×8)
HYS72T128000HR–3S–B
1 GB 1Rx4 PC2-5300R-555-12-C0
1 Rank ECC
512 Mbit (×4)
HYS72T128020HR–3S–B
1 GB 2Rx8 PC2-5300R-555-12-B0
2 Ranks, ECC
512 Mbit (×8)
HYS72T256220HR–3S–B
2 GB 2Rx4 PC2-5300R-555-12-J1
2 Ranks, ECC
512 Mbit (×4)
PC2–4200
HYS72T64000HR–3.7–B
512 MB 1Rx8 PC2-4200R-444-12-A0
1 Rank ECC
512 Mbit (×8)
HYS72T128000HR–3.7–B
1 GB 1Rx4 PC2-4200R-444-12-C0
1 Rank ECC
512 Mbit (×4)
HYS72T128020HR–3.7–B
1 GB 2Rx8 PC2-4200R-444-12-B0
2 Ranks, ECC
512 Mbit (×8)
HYS72T256220HR–3.7–B
2 GB 2Rx4 PC2-4200R-444-12-J1
2 Ranks, ECC
512 Mbit (×4)
PC2–3200
HYS72T64000HR–5–B
512 MB 1Rx8 PC2-3200R-333-12-A0
1 Rank ECC
512 Mbit (×8)
HYS72T128000HR–5–B
1 GB 1Rx4 PC2-3200R-333-12-C0
1 Rank ECC
512 Mbit (×4)
HYS72T128020HR–5–B
1 GB 2Rx8 PC2-3200R-333-12-B0
2 Ranks, ECC
512 Mbit (×8)
HYS72T256220HR–5–B
2 GB 2Rx4 PC2-3200R-333-12-J1
2 Ranks, ECC
512 Mbit (×4)
1) All Product Type numbers end with a place code, designating the silicon die revision. Example: HYS72T64000HR–3.7–B, indicating Rev.
“B” dies are used for DDR2 SDRAM components. For all QIMONDA DDR2 module and component nomenclature see Chapter 6 of this
data sheet.
2) The Compliance Code is printed on the module label and describes the speed grade, for example “PC2–4200R–444–12–A0”, where
4200R means Registered DIMM modules with 4.26 GB/sec Module Bandwidth and “444-12” means Column Address Strobe (CAS)
latency = 4, Row Column Delay (RCD) latency = 4 and Row Precharge (RP) latency = 4 using the latest JEDEC SPD Revision 1.2 and
produced on the Raw Card “A”.
Rev. 1.2, 2007-01
03292006-JXZQ-CG6T
4
Internet Data Sheet
HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM
TABLE 3
Address Format
DIMM
Density
Module
Organization
Memory
Ranks
512 MB
64M ×72
1
1 GB
128M ×72
1
1 GB
128M ×72
2
2 GB
256M ×72
2
ECC/
Non-ECC
# of SDRAMs # of row/bank/column
bits
Raw
Card
ECC
9
14/2/10
A
ECC
18
14/2/11
C
ECC
18
14/2/10
B
ECC
36
14/2/11
J
TABLE 4
Components on Modules
Product Type
1)
1)
DRAM Components
DRAM Density
DRAM Organisation Note2)
HYS72T64000HR
HYB18T512800BF
512 Mbit
512M ×8
—
HYS72T128000HR
HYB18T512400BF
512 Mbit
512M ×4
—
HYS72T128020HR
HYB18T512800BF
512 Mbit
512M ×8
—
HYS72T256220HR
HYB18T512400BF
512 Mbit
512M ×4
—
1) Green Product
2) For a detailed description of all functionalities of the DRAM components on these modules see the component data sheet.
Rev. 1.2, 2007-01
03292006-JXZQ-CG6T
5
Internet Data Sheet
HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM
2
Pin Configuration
This chapter describes the pin configuration.
2.1
Pin Configuration
The pin configuration of the Registered DDR2 SDRAM DIMM
is listed by function in Table 5 (240 pins). The abbreviations
used in columns Pin and Buffer Type are explained in Table 6
and Table 7 respectively. The pin numbering is depicted in
Figure 1.
TABLE 5
Pin Configuration of RDIMM
Ball No.
Name
Pin
Type
Buffer
Type
Function
CK0
I
SSTL
Clock Signal CK0, Complementary Clock Signal CK0
Clock Signals
185
186
CK0
I
SSTL
52
CKE0
I
SSTL
171
CKE1
I
SSTL
NC
NC
—
Not Connected
Note: 1-Rank module
193
S0
I
SSTL
76
S1
I
SSTL
Chip Select Rank 1:0
Note: 2-Ranks module
NC
NC
—
Not Connected
Note: 1-Rank module
192
RAS
I
SSTL
74
CAS
I
SSTL
Row Address Strobe (RAS), Column Address Strobe (CAS), Write
Enable (WE)
73
WE
I
SSTL
18
RESET
I
CMOS
Register Reset
71
BA0
I
SSTL
Bank Address Bus 1:0
190
BA1
I
SSTL
54
BA2
I
SSTL
Bank Address Bus 2
Greater than 512Mb DDR2 SDRAMS
NC
I
SSTL
Not Connected
Less than 1Gb DDR2 SDRAMS
Clock Enables 1:0
Note: 2-Ranks module
Control Signals
Address Signals
Rev. 1.2, 2007-01
03292006-JXZQ-CG6T
6
Internet Data Sheet
HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM
Ball No.
Name
Pin
Type
Buffer
Type
Function
188
A0
I
SSTL
Address Bus 12:0, Address Signal 10/AutoPrecharge
183
A1
I
SSTL
63
A2
I
SSTL
182
A3
I
SSTL
61
A4
I
SSTL
60
A5
I
SSTL
180
A6
I
SSTL
58
A7
I
SSTL
179
A8
I
SSTL
177
A9
I
SSTL
70
A10
I
SSTL
AP
I
SSTL
57
A11
I
SSTL
176
A12
I
SSTL
196
A13
I
SSTL
Address Signal 13
NC
NC
—
Not Connected
Note: Non CA parity modules based on 256 Mbit component
A14
I
SSTL
Address Signal 14
Note: CA Parity module
NC
NC
—
Not Connected
Note: Non CA parity module. Less than 1 GBit per DRAM die.
A15
I
SSTL
Address Signal 14
Note: CA Parity module
NC
NC
—
Not Connected
Note: Non CA parity module. Less than 1 GBit per DRAM die.
174
173
Rev. 1.2, 2007-01
03292006-JXZQ-CG6T
7
Internet Data Sheet
HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM
Ball No.
Name
Pin
Type
Buffer
Type
Function
3
DQ0
I/O
SSTL
4
DQ1
I/O
SSTL
Data Bus 63:0
Data Input/Output pins
9
DQ2
I/O
SSTL
10
DQ3
I/O
SSTL
122
DQ4
I/O
SSTL
123
DQ5
I/O
SSTL
128
DQ6
I/O
SSTL
129
DQ7
I/O
SSTL
12
DQ8
I/O
SSTL
13
DQ9
I/O
SSTL
21
DQ10
I/O
SSTL
22
DQ11
I/O
SSTL
131
DQ12
I/O
SSTL
132
DQ13
I/O
SSTL
140
DQ14
I/O
SSTL
141
DQ15
I/O
SSTL
24
DQ16
I/O
SSTL
25
DQ17
I/O
SSTL
30
DQ18
I/O
SSTL
31
DQ19
I/O
SSTL
143
DQ20
I/O
SSTL
144
DQ21
I/O
SSTL
149
DQ22
I/O
SSTL
150
DQ23
I/O
SSTL
33
DQ24
I/O
SSTL
34
DQ25
I/O
SSTL
39
DQ26
I/O
SSTL
40
DQ27
I/O
SSTL
152
DQ28
I/O
SSTL
153
DQ29
I/O
SSTL
158
DQ30
I/O
SSTL
159
DQ31
I/O
SSTL
80
DQ32
I/O
SSTL
81
DQ33
I/O
SSTL
86
DQ34
I/O
SSTL
87
DQ35
I/O
SSTL
199
DQ36
I/O
SSTL
200
DQ37
I/O
SSTL
205
DQ38
I/O
SSTL
Data Signals
Rev. 1.2, 2007-01
03292006-JXZQ-CG6T
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Internet Data Sheet
HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM
Ball No.
Name
Pin
Type
Buffer
Type
Function
206
DQ39
I/O
SSTL
Data Bus 63:0
89
DQ40
I/O
SSTL
90
DQ41
I/O
SSTL
95
DQ42
I/O
SSTL
96
DQ43
I/O
SSTL
208
DQ44
I/O
SSTL
209
DQ45
I/O
SSTL
214
DQ46
I/O
SSTL
215
DQ47
I/O
SSTL
98
DQ48
I/O
SSTL
99
DQ49
I/O
SSTL
107
DQ50
I/O
SSTL
108
DQ51
I/O
SSTL
217
DQ52
I/O
SSTL
218
DQ53
I/O
SSTL
226
DQ54
I/O
SSTL
227
DQ55
I/O
SSTL
110
DQ56
I/O
SSTL
111
DQ57
I/O
SSTL
116
DQ58
I/O
SSTL
117
DQ59
I/O
SSTL
229
DQ60
I/O
SSTL
230
DQ61
I/O
SSTL
235
DQ62
I/O
SSTL
236
DQ63
I/O
SSTL
42
CB0
I/O
SSTL
43
CB1
I/O
SSTL
48
CB2
I/O
SSTL
49
CB3
I/O
SSTL
161
CB4
I/O
SSTL
162
CB5
I/O
SSTL
167
CB6
I/O
SSTL
168
CB7
I/O
SSTL
Check Bits
Rev. 1.2, 2007-01
03292006-JXZQ-CG6T
Check Bits 7:0
Note: NC on Non-ECC module
9
Internet Data Sheet
HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM
Ball No.
Name
Pin
Type
Buffer
Type
Function
7
DQS0
I/O
SSTL
Data Strobes 17:0
6
DQS0
I/O
SSTL
16
DQS1
I/O
SSTL
15
DQS1
I/O
SSTL
28
DQS2
I/O
SSTL
27
DQS2
I/O
SSTL
37
DQS3
I/O
SSTL
36
DQS3
I/O
SSTL
84
DQS4
I/O
SSTL
83
DQS4
I/O
SSTL
93
DQS5
I/O
SSTL
92
DQS5
I/O
SSTL
105
DQS6
I/O
SSTL
104
DQS6
I/O
SSTL
114
DQS7
I/O
SSTL
113
DQS7
I/O
SSTL
46
DQS8
I/O
SSTL
45
DQS8
I/O
SSTL
125
DQS9
I/O
SSTL
126
DQS9
I/O
SSTL
134
DQS10
I/O
SSTL
135
DQS10
I/O
SSTL
146
DQS11
I/O
SSTL
147
DQS11
I/O
SSTL
155
DQS12
I/O
SSTL
156
DQS12
I/O
SSTL
202
DQS13
I/O
SSTL
203
DQS13
I/O
SSTL
211
DQS14
I/O
SSTL
212
DQS14
I/O
SSTL
223
DQS15
I/O
SSTL
224
DQS15
I/O
SSTL
232
DQS16
I/O
SSTL
233
DQS16
I/O
SSTL
164
DQS17
I/O
SSTL
165
DQS17
I/O
SSTL
Data Strobe Bus
Rev. 1.2, 2007-01
03292006-JXZQ-CG6T
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Internet Data Sheet
HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM
Ball No.
Name
Pin
Type
Buffer
Type
Function
125
DM0
I
SSTL
134
DM1
I
SSTL
Data Masks 8:0
Note: ×8 based module
146
DM2
I
SSTL
155
DM3
I
SSTL
202
DM4
I
SSTL
211
DM5
I
SSTL
223
DM6
I
SSTL
232
DM7
I
SSTL
164
DM8
I
SSTL
120
SCL
I
CMOS
Serial Bus Clock
119
SDA
I/O
OD
Serial Bus Data
239
SA0
I
CMOS
Serial Address Select Bus 2:0
240
SA1
I
CMOS
101
SA2
I
CMOS
Data Mask
EEPROM
Parity
55
ERR_OUT
O
CMOS
68
PAR_IN
I
CMOS
VREF
VDDSPD
VDDQ
AI
—
I/O Reference Voltage
PWR
—
EEPROM Power Supply
PWR
—
I/O Driver Power Supply
53, 59, 64, 67, 69, VDD
172, 178, 184, 187,
189, 197
PWR
—
Power Supply
2, 5, 8, 11, 14, 17, VSS
20, 23, 26, 29, 32,
35, 38, 41, 44, 47,
50, 65, 66, 79, 82,
85, 88, 91, 94, 97,
100, 103, 106, 109,
112, 115, 118, 121,
124, 127, 130, 133,
136, 139, 142, 145,
148, 151, 154, 157,
160, 163, 166, 169,
198, 201, 204, 207,
210, 213, 216, 219,
222, 225, 228, 231,
234, 237
GND
—
Ground Plane
Parity bits
Power Supplies
1
238
51, 56, 62, 72, 75,
78, 170, 175, 181,
191, 194
Rev. 1.2, 2007-01
03292006-JXZQ-CG6T
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Internet Data Sheet
HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM
Ball No.
Name
Pin
Type
Buffer
Type
Function
19, 102, 137, 138,
220, 221
NC
NC
—
Not connected
195
ODT0
I
SSTL
77
ODT1
I
SSTL
On-Die Termination Control 1:0
Note: 2-Ranks module
NC
NC
—
Note: 1-Rank modules
Other Pins
TABLE 6
Abbreviations for Buffer Type
Abbreviation
Description
SSTL
Serial Stub Terminated Logic (SSTL_18)
CMOS
CMOS Levels
OD
Open Drain. The corresponding pin has 2 operational states, active low and tristate,
and allows multiple devices to share as a wire-OR.
TABLE 7
Abbreviations for Pin Type
Abbreviation
Description
I
Standard input-only pin. Digital levels.
O
Output. Digital levels.
I/O
I/O is a bidirectional input/output signal.
AI
Input. Analog levels.
PWR
Power
GND
Ground
NU
Not Usable
NC
Not Connected
Rev. 1.2, 2007-01
03292006-JXZQ-CG6T
12
Internet Data Sheet
HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM
FIGURE 1
Pin Configuration for RDIMM (240 pins)
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Rev. 1.2, 2007-01
03292006-JXZQ-CG6T
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13
Internet Data Sheet
HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM
3
Electrical Characteristics
This chapter describes the electrical characteristics.
3.1
Absolute Maximum Ratings
Caution is needed not to exceed absolute maximum ratings of the DRAM device listed in Table 8 at any time.
TABLE 8
Absolute Maximum Ratings
Symbol
VDD
VDDQ
VDDL
VIN, VOUT
TSTG
Parameter
Rating
Unit
Note
Min.
Max.
Voltage on VDD pin relative to VSS
–1.0
+2.3
V
1)
Voltage on VDDQ pin relative to VSS
–0.5
+2.3
V
1)2)
Voltage on VDDL pin relative to VSS
–0.5
+2.3
V
1)2)
Voltage on any pin relative to VSS
–0.5
+2.3
V
1)
°C
1)2)
Storage Temperature
–55
+100
1) When VDD and VDDQ and VDDL are less than 500 mV; VREF may be equal to or less than 300 mV.
2) Storage Temperature is the case surface temperature on the center/top side of the DRAM.
Attention: Stresses greater than those listed under “Absolute Maximum Ratings” may cause permanent damage to
the device. This is a stress rating only and functional operation of the device at these or any other
conditions above those indicated in the operational sections of this specification is not implied. Exposure
to absolute maximum rating conditions for extended periods may affect reliability.
TABLE 9
DRAM Component Operating Temperature Range
Symbol
TOPER
Parameter
Rating
Operating Temperature
Min.
Max.
0
95
Unit
Note
°C
1)2)3)4)
1) Operating Temperature is the case surface temperature on the center / top side of the DRAM.
2) The operating temperature range are the temperatures where all DRAM specification will be supported. During operation, the DRAM case
temperature must be maintained between 0 - 95 °C under all other specification parameters.
3) Above 85 °C the Auto-Refresh command interval has to be reduced to tREFI= 3.9 µs.
4) When operating this product in the 85 °C to 95 °C TCASE temperature range, the High Temperature Self Refresh has to be enabled by
setting EMR(2) bit A7 to “1”. When the High Temperature Self Refresh is enabled there is an increase of IDD6 by approximately 50 %
Rev. 1.2, 2007-01
03292006-JXZQ-CG6T
14
Internet Data Sheet
HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM
3.2
DC Characteristics
This chapter describes the DC characteristics.
TABLE 10
Supply Voltage Levels and DC Operating Conditions
Parameter
Device Supply Voltage
Output Supply Voltage
Input Reference Voltage
SPD Supply Voltage
DC Input Logic High
DC Input Logic Low
Symbol
VDD
VDDQ
VREF
VDDSPD
VIH(DC)
VIL (DC)
IL
Values
Unit
Note
Min.
Typ.
Max.
1.7
1.8
1.9
V
—
1.7
1.8
1.9
V
1)
0.49 × VDDQ
0.5 × VDDQ
0.51 × VDDQ
V
2)
1.7
—
3.6
V
—
VREF + 0.125
—
V
—
– 0.30
—
VDDQ + 0.3
VREF – 0.125
V
—
3)
In / Output Leakage Current
–5
—
5
µA
1) Under all conditions, VDDQ must be less than or equal to VDD.
2) Peak to peak AC noise on VREF may not exceed ± 2% VREF (DC).VREF is also expected to track noise in VDDQ.
3) Input voltage for any connector pin under test of 0 V ≤ VIN ≤ VDDQ + 0.3 V; all other pins at 0 V. Current is per pin.
TABLE 11
Operating Conditions
Parameter
Symbol
Values
Unit
Note
Min.
Max.
0
+65
°C
—
0
+95
°C
1)2)3)4)
Storage Temperature
TOPR
TCASE
TSTG
– 50
+100
°C
—
Barometric Pressure (operating & storage)
PBar
+69
+105
kPa
5)
Operating Humidity (relative)
HOPR
10
90
%
—
Operating temperature (ambient)
DRAM Case Temperature
1)
2)
3)
4)
DRAM Component Case Temperature is the surface temperature in the center on the top side of any of the DRAMs.
Within the DRAM Component Case Temperature Range all DRAM specifications will be supported.
Above 85 °C DRAM Case Temperature the Auto-Refresh command interval has to be reduced to tREFI = 3.9 µs
When operating this product in the 85 °C to 95 °C TCASE temperature range, the High Temperature Self Refresh has to be enabled by
setting EMR(2) bit A7 to “1”. When the High Temperature Self Refresh is enabled there is an increase of IDD6 by approximately 50%.
5) Up to 3000 m
Rev. 1.2, 2007-01
03292006-JXZQ-CG6T
15
Internet Data Sheet
HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM
3.3
Timing Characteristics
This chapter contains the AC characteristics.
3.3.1
Speed Grade Definitions
All Speed grades faster than DDR2-400B comply with DDR2-400B timing specifications(tCK = 5ns with tRAS = 40ns).
TABLE 12
Speed Grade Definition
Speed Grade
DDR2–667
DDR2–533C
DDR2–400B
QAG Sort Name
–3S
–3.7
–5
CAS-RCD-RP latencies
5–5–5
4–4–4
3–3–3
Parameter
Clock Frequency
@ CL = 3
@ CL = 4
@ CL = 5
Row Active Time
Row Cycle Time
RAS-CAS-Delay
Row Precharge Time
Unit
Note
tCK
Symbol
Min.
Max.
Min.
Max.
Min.
Max.
—
tCK
tCK
tCK
tRAS
tRC
tRCD
tRP
5
8
5
8
5
8
ns
1)2)3)4)
3.75
8
3.75
8
5
8
ns
1)2)3)4)
3
8
3.75
8
5
8
ns
1)2)3)4)
45
70000
45
70000
40
70000
ns
1)2)3)4)5)
60
—
60
—
55
—
ns
1)2)3)4)
15
—
15
—
15
—
ns
1)2)3)4)
15
—
15
—
15
—
ns
1)2)3)4)
1) Timings are guaranteed with CK/CK differential Slew Rate of 2.0 V/ns. For DQS signals timings are guaranteed with a differential Slew
Rate of 2.0 V/ns in differential strobe mode and a Slew Rate of 1 V/ns in single ended mode. Timings are further guaranteed for normal
OCD drive strength (EMRS(1) A1 = 0) under the “Reference Load for Timing Measurements”
2) The CK/CK input reference level (for timing reference to CK/CK) is the point at which CK and CK cross. The DQS / DQS, RDQS / RDQS,
input reference level is the crosspoint when in differential strobe mode.
3) Inputs are not recognized as valid until VREF stabilizes. During the period before VREF stabilizes, CKE = 0.2 x VDDQ is recognized as low.
4) The output timing reference voltage level is VTT.
5) tRAS.MAX is calculated from the maximum amount of time a DDR2 device can operate without a refresh command which is equal to 9 x tREFI.
Rev. 1.2, 2007-01
03292006-JXZQ-CG6T
16
Internet Data Sheet
HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM
3.3.2
Component AC Timing Parameters
List of AC timing parameter tables.
• Table 13 “DRAM Component Timing Parameter by Speed Grade - DDR2–667” on Page 17
• Table 14 “DRAM Component Timing Parameter by Speed Grade - DDR2–533” on Page 21
• Table 15 “DRAM Component Timing Parameter by Speed Grade - DDR2-400” on Page 23
TABLE 13
DRAM Component Timing Parameter by Speed Grade - DDR2–667
Parameter
Symbol
DDR2–667
Unit
Note1)2)3)4)5)6)7)
8)
Min.
Max.
tAC
tCCD
tCH.AVG
tCK.AVG
tCKE
–450
+450
ps
9)
2
—
nCK
—
0.48
0.52
tCK.AVG
10)11)
3000
8000
ps
—
3
—
nCK
12)
tCL.AVG
Auto-Precharge write recovery + precharge time tDAL
Minimum time clocks remain ON after CKE
tDELAY
0.48
0.52
tCK.AVG
10)11)
WR + tnRP
—
nCK
13)14)
tIS + tCK .AVG +
tIH
––
ns
tDH.BASE
DQ and DM input pulse width for each input
tDIPW
DQS output access time from CK / CK
tDQSCK
DQS input high pulse width
tDQSH
tDQSL
DQS input low pulse width
DQS-DQ skew for DQS & associated DQ signals tDQSQ
DQS latching rising transition to associated clock tDQSS
175
––
ps
0.35
—
tCK.AVG —
–400
+400
ps
0.35
—
0.35
—
tCK.AVG —
tCK.AVG —
—
240
ps
16)
– 0.25
+ 0.25
tCK.AVG
17)
tDS.BASE
tDSH
tDSS
tHP
100
––
ps
18)19)20)
17)
DQ output access time from CK / CK
CAS to CAS command delay
Average clock high pulse width
Average clock period
CKE minimum pulse width ( high and low pulse
width)
Average clock low pulse width
asynchronously drops LOW
DQ and DM input hold time
edges
DQ and DM input setup time
DQS falling edge hold time from CK
DQS falling edge to CK setup time
CK half pulse width
tHZ
Address and control input hold time
tIH.BASE
Control & address input pulse width for each input tIPW
Address and control input setup time
tIS.BASE
DQ low impedance time from CK/CK
tLZ.DQ
DQS/DQS low-impedance time from CK / CK
tLZ.DQS
MRS command to ODT update delay
tMOD
Mode register set command cycle time
tMRD
tOIT
OCD drive mode output delay
Data-out high-impedance time from CK / CK
Rev. 1.2, 2007-01
03292006-JXZQ-CG6T
17
19)20)15)
9)
0.2
—
0.2
—
tCK.AVG
tCK.AVG
Min (tCH.ABS,
tCL.ABS)
__
ps
21)
—
tAC.MAX
ps
9)22)
275
—
ps
25)23)
0.6
—
tCK.AVG —
200
—
ps
24)25)
2 x tAC.MIN
ps
9)22)
tAC.MIN
tAC.MAX
tAC.MAX
ps
9)22)
0
12
ns
1)
2
—
nCK
—
0
12
ns
1)
17)
Internet Data Sheet
HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM
Parameter
Symbol
DDR2–667
Unit
Note1)2)3)4)5)6)7)
8)
Min.
Max.
tQH
tQHS
tREFI
tHP – tQHS
—
ps
26)
—
340
ps
27)
–
–
7.8
3.9
µs
tRPRE
tRPST
tRTP
tWPRE
tWPST
tWR
tWTR
tXARD
tXARDS
0.9
1.1
28)29)
0.4
0.6
tCK.AVG
tCK.AVG
7.5
—
ns
1)
0.35
—
0.4
0.6
tCK.AVG —
tCK.AVG —
15
—
ns
1)
7.5
—
ns
1)31)
2
—
nCK
7 – AL
—
nCK
—
Exit precharge power-down to any valid
command (other than NOP or Deselect)
tXP
2
—
nCK
—
Exit self-refresh to a non-read command
tRFC +10
—
ns
1)
Exit self-refresh to read command
tXSNR
tXSRD
200
—
nCK
—
Write command to DQS associated clock edges
WL
RL–1
nCK
—
DQ/DQS output hold time from DQS
DQ hold skew factor
Average periodic refresh Interval
0°C ≤ TCASE ≤ 85°C
85°C ≤ TCASE ≤ 95°C
Read preamble
Read postamble
Internal Read to Precharge command delay
Write preamble
Write postamble
Write recovery time
Internal write to read command delay
Exit power down to read command
Exit active power-down mode to read command
(slow exit, lower power)
—
28)30)
1) For details and notes see the relevant Qimonda component data sheet
2) VDDQ = 1.8 V ± 0.1V; VDD = 1.8 V ± 0.1 V. See notes 5)6)7)8)
3) Timing that is not specified is illegal and after such an event, in order to guarantee proper operation, the DRAM must be powered down
and then restarted through the specified initialization sequence before normal operation can continue.
4) Timings are guaranteed with CK/CK differential Slew Rate of 2.0 V/ns. For DQS signals timings are guaranteed with a differential Slew
Rate of 2.0 V/ns in differential strobe mode and a Slew Rate of 1 V/ns in single ended mode.
5) The CK / CK input reference level (for timing reference to CK / CK) is the point at which CK and CK cross. The DQS / DQS, RDQS / RDQS,
input reference level is the crosspoint when in differential strobe mode.
6) Inputs are not recognized as valid until VREF stabilizes. During the period before VREF stabilizes, CKE = 0.2 x VDDQ is recognized as low.
7) The output timing reference voltage level is VTT.
8) New units, ‘tCK.AVG‘ and ‘nCK‘, are introduced in DDR2–667 and DDR2–800. Unit ‘tCK.AVG‘ represents the actual tCK.AVG of the input clock
under operation. Unit ‘nCK‘ represents one clock cycle of the input clock, counting the actual clock edges. Note that in DDR2–400 and
DDR2–533, ‘tCK‘ is used for both concepts. Example: tXP = 2 [nCK] means; if Power Down exit is registered at Tm, an Active command
may be registered at Tm + 2, even if (Tm + 2 - Tm) is 2 x tCK.AVG + tERR.2PER(Min).
9) When the device is operated with input clock jitter, this parameter needs to be derated by the actual tERR(6-10per) of the input clock. (output
deratings are relative to the SDRAM input clock.) For example, if the measured jitter into a DDR2–667 SDRAM has tERR(6-10PER).MIN = – 272
ps and tERR(6- 10PER).MAX = + 293 ps, then tDQSCK.MIN(DERATED) = tDQSCK.MIN – tERR(6-10PER).MAX = – 400 ps – 293 ps = – 693 ps and
tDQSCK.MAX(DERATED) = tDQSCK.MAX – tERR(6-10PER).MIN = 400 ps + 272 ps = + 672 ps. Similarly, tLZ.DQ for DDR2–667 derates to tLZ.DQ.MIN(DERATED)
= - 900 ps – 293 ps = – 1193 ps and tLZ.DQ.MAX(DERATED) = 450 ps + 272 ps = + 722 ps. (Caution on the MIN/MAX usage!)
10) Input clock jitter spec parameter. These parameters are referred to as 'input clock jitter spec parameters' and these parameters apply to
DDR2–667 and DDR2–800 only. The jitter specified is a random jitter meeting a Gaussian distribution.
11) These parameters are specified per their average values, however it is understood that the relationship between the average timing and
the absolute instantaneous timing holds all the times (min. and max of SPEC values are to be used for calculations).
12) tCKE.MIN of 3 clocks means CKE must be registered on three consecutive positive clock edges. CKE must remain at the valid input level the
entire time it takes to achieve the 3 clocks of registration. Thus, after any CKE transition, CKE may not transition from its valid level during
the time period of tIS + 2 x tCK + tIH.
Rev. 1.2, 2007-01
03292006-JXZQ-CG6T
18
Internet Data Sheet
HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM
13) DAL = WR + RU{tRP(ns) / tCK(ns)}, where RU stands for round up. WR refers to the tWR parameter stored in the MRS. For tRP, if the result
of the division is not already an integer, round up to the next highest integer. tCK refers to the application clock period. Example: For
DDR2–533 at tCK = 3.75 ns with tWR programmed to 4 clocks. tDAL = 4 + (15 ns / 3.75 ns) clocks = 4 + (4) clocks = 8 clocks.
14) tDAL.nCK = WR [nCK] + tnRP.nCK = WR + RU{tRP [ps] / tCK.AVG[ps] }, where WR is the value programmed in the EMR.
15) Input waveform timing tDH with differential data strobe enabled MR[bit10] = 0, is referenced from the differential data strobe crosspoint to
the input signal crossing at the VIH.DC level for a falling signal and from the differential data strobe crosspoint to the input signal crossing
at the VIL.DC level for a rising signal applied to the device under test. DQS, DQS signals must be monotonic between VIL.DC.MAX and
VIH.DC.MIN. See Figure 3.
16) tDQSQ: Consists of data pin skew and output pattern effects, and p-channel to n-channel variation of the output drivers as well as output
slew rate mismatch between DQS / DQS and associated DQ in any given cycle.
17) These parameters are measured from a data strobe signal ((L/U/R)DQS / DQS) crossing to its respective clock signal (CK / CK) crossing.
The spec values are not affected by the amount of clock jitter applied (i.e. tJIT.PER, tJIT.CC, etc.), as these are relative to the clock signal
crossing. That is, these parameters should be met whether clock jitter is present or not.
18) Input waveform timing tDS with differential data strobe enabled MR[bit10] = 0, is referenced from the input signal crossing at the VIH.AC level
to the differential data strobe crosspoint for a rising signal, and from the input signal crossing at the VIL.AC level to the differential data strobe
crosspoint for a falling signal applied to the device under test. DQS, DQS signals must be monotonic between Vil(DC)MAX and Vih(DC)MIN. See
Figure 3.
19) If tDS or tDH is violated, data corruption may occur and the data must be re-written with valid data before a valid READ can be executed.
20) These parameters are measured from a data signal ((L/U)DM, (L/U)DQ0, (L/U)DQ1, etc.) transition edge to its respective data strobe signal
((L/U/R)DQS / DQS) crossing.
21) tHP is the minimum of the absolute half period of the actual input clock. tHP is an input parameter but not an input specification parameter.
It is used in conjunction with tQHS to derive the DRAM output timing tQH. The value to be used for tQH calculation is determined by the
following equation; tHP = MIN (tCH.ABS, tCL.ABS), where, tCH.ABS is the minimum of the actual instantaneous clock high time; tCL.ABS is the
minimum of the actual instantaneous clock low time.
22) tHZ and tLZ transitions occur in the same access time as valid data transitions. These parameters are referenced to a specific voltage level
which specifies when the device output is no longer driving (tHZ), or begins driving (tLZ) .
23) Input waveform timing is referenced from the input signal crossing at the VIL.DC level for a rising signal and VIH.DC for a falling signal applied
to the device under test. See Figure 4.
24) Input waveform timing is referenced from the input signal crossing at the VIH.AC level for a rising signal and VIL.AC for a falling signal applied
to the device under test. See Figure 4.
25) These parameters are measured from a command/address signal (CKE, CS, RAS, CAS, WE, ODT, BA0, A0, A1, etc.) transition edge to
its respective clock signal (CK / CK) crossing. The spec values are not affected by the amount of clock jitter applied (i.e. tJIT.PER, tJIT.CC,
etc.), as the setup and hold are relative to the clock signal crossing that latches the command/address. That is, these parameters should
be met whether clock jitter is present or not.
26) tQH = tHP – tQHS, where: tHP is the minimum of the absolute half period of the actual input clock; and tQHS is the specification value under
the max column. {The less half-pulse width distortion present, the larger the tQH value is; and the larger the valid data eye will be.}
Examples: 1) If the system provides tHP of 1315 ps into a DDR2–667 SDRAM, the DRAM provides tQH of 975 ps minimum. 2) If the system
provides tHP of 1420 ps into a DDR2–667 SDRAM, the DRAM provides tQH of 1080 ps minimum.
27) tQHS accounts for: 1) The pulse duration distortion of on-chip clock circuits, which represents how well the actual tHP at the input is
transferred to the output; and 2) The worst case push-out of DQS on one transition followed by the worst case pull-in of DQ on the next
transition, both of which are independent of each other, due to data pin skew, output pattern effects, and pchannel to n-channel variation
of the output drivers.
28) tRPST end point and tRPRE begin point are not referenced to a specific voltage level but specify when the device output is no longer driving
(tRPST), or begins driving (tRPRE). Figure 2 shows a method to calculate these points when the device is no longer driving (tRPST), or begins
driving (tRPRE) by measuring the signal at two different voltages. The actual voltage measurement points are not critical as long as the
calculation is consistent.
29) When the device is operated with input clock jitter, this parameter needs to be derated by the actual tJIT.PER of the input clock. (output
deratings are relative to the SDRAM input clock.) For example, if the measured jitter into a DDR2–667 SDRAM has tJIT.PER.MIN = – 72 ps
and tJIT.PER.MAX = + 93 ps, then tRPRE.MIN(DERATED) = tRPRE.MIN + tJIT.PER.MIN = 0.9 x tCK.AVG – 72 ps = + 2178 ps and tRPRE.MAX(DERATED) = tRPRE.MAX
+ tJIT.PER.MAX = 1.1 x tCK.AVG + 93 ps = + 2843 ps. (Caution on the MIN/MAX usage!).
30) When the device is operated with input clock jitter, this parameter needs to be derated by the actual tJIT.DUTY of the input clock. (output
deratings are relative to the SDRAM input clock.) For example, if the measured jitter into a DDR2–667 SDRAM has tJIT.DUTY.MIN = – 72 ps
and tJIT.DUTY.MAX = + 93 ps, then tRPST.MIN(DERATED) = tRPST.MIN + tJIT.DUTY.MIN = 0.4 x tCK.AVG – 72 ps = + 928 ps and tRPST.MAX(DERATED) = tRPST.MAX
+ tJIT.DUTY.MAX = 0.6 x tCK.AVG + 93 ps = + 1592 ps. (Caution on the MIN/MAX usage!).
31) tWTR is at lease two clocks (2 x tCK) independent of operation frequency.
Rev. 1.2, 2007-01
03292006-JXZQ-CG6T
19
Internet Data Sheet
HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM
FIGURE 2
Method for calculating transitions and endpoint
92+[P9
977[P9
92+[P9
977[P9
W/=
W+=
W535(EHJLQSRLQW
W5367
H
QGSRLQW
92/[P9
977[P9
92/[P9
977[P9
7 7
7 7
W+=W5367
HQGSRLQW 77
W/=W535(
E HJLQSRLQW 7
7
FIGURE 3
Differential input waveform timing - tDS and tDS
'46
'46
W'6
W'+
W'6
W'+
9''4
9,+DFPLQ
9,+GFPLQ
95()GF
9,/GF PD[
9,/DF PD[
966
FIGURE 4
Differential input waveform timing - tlS and tlH
&.
&.
W,6
W,+
W,6
W,+
9''4
9,+DFPLQ
9,+GFPLQ
95()GF
9,/GFPD[
9,/DFPD[
966
Rev. 1.2, 2007-01
03292006-JXZQ-CG6T
20
Internet Data Sheet
HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM
TABLE 14
DRAM Component Timing Parameter by Speed Grade - DDR2–533
Parameter
Symbol
DDR2–533
Unit
Note1)2)3)4)5)
6)7)
Min.
Max.
tAC
tCCD
tCH
tCKE
tCL
tDAL
–500
+500
ps
—
2
—
—
0.45
0.55
3
—
0.45
0.55
WR + tRP
—
tCK
tCK
tCK
tCK
tCK
Minimum time clocks remain ON after CKE
asynchronously drops LOW
tDELAY
tIS + tCK + tIH
––
ns
9)
DQ and DM input hold time (differential data
strobe)
tDH(base)
225
––
ps
10)
–25
—
ps
11)
tDIPW
tDQSCK
tDQSL,H
tDQSQ
0.35
—
tCK
—
–450
+450
ps
—
0.35
—
tCK
—
—
300
ps
11)
tDQSS
tDS(base)
– 0.25
+ 0.25
tCK
—
100
—
ps
11)
–25
—
ps
11)
tDSH
0.2
—
tCK
—
DQS falling edge to CK setup time (write cycle) tDSS
0.2
—
tCK
—
DQ output access time from CK / CK
CAS A to CAS B command period
CK, CK high-level width
CKE minimum high and low pulse width
CK, CK low-level width
Auto-Precharge write recovery + precharge
time
DQ and DM input hold time (single ended data tDH1(base)
strobe)
DQ and DM input pulse width (each input)
DQS output access time from CK / CK
DQS input low (high) pulse width (write cycle)
DQS-DQ skew (for DQS & associated DQ
signals)
Write command to 1st DQS latching transition
DQ and DM input setup time (differential data
strobe)
DQ and DM input setup time (single ended data tDS1(base)
strobe)
DQS falling edge hold time from CK (write
cycle)
Clock half period
Data-out high-impedance time from CK / CK
Address and control input hold time
Address and control input pulse width
(each input)
Address and control input setup time
DQ low-impedance time from CK / CK
DQS low-impedance from CK / CK
Mode register set command cycle time
OCD drive mode output delay
Data output hold time from DQS
Data hold skew factor
Average periodic refresh Interval
Rev. 1.2, 2007-01
03292006-JXZQ-CG6T
tHP
tHZ
tIH(base)
tIPW
21
—
—
8)18)
12)
MIN. (tCL, tCH)
tIS(base)
tLZ(DQ)
tLZ(DQS)
tMRD
tOIT
tQH
tQHS
tREFI
—
—
tAC.MAX
ps
13)
375
—
ps
11)
0.6
—
tCK
—
250
—
ps
11)
2 × tAC.MIN
ps
14)
tAC.MIN
tAC.MAX
tAC.MAX
ps
14)
2
—
tCK
—
0
12
ns
—
tHP –tQHS
—
—
400
ps
—
—
7.8
µs
14)15)
—
Internet Data Sheet
HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM
Parameter
Symbol
DDR2–533
Unit
Note1)2)3)4)5)
6)7)
Min.
Max.
tREFI
tRFC
—
3.9
µs
16)18)
105
—
ns
17)
tRP
tRP
tRPRE
tRPST
tRRD
tRP + 1tCK
15 + 1tCK
—
ns
—
—
ns
—
0.9
1.1
14)
0.40
0.60
tCK
tCK
7.5
—
ns
14)18)
Active bank A to Active bank B command
period
tRRD
10
—
ns
16)22)
Internal Read to Precharge command delay
tRTP
tWPRE
tWPST
tWR
7.5
—
ns
—
0.25
—
—
0.40
0.60
tCK
tCK
15
—
ns
—
tWTR
tXARD
7.5
—
ns
20)
2
—
tCK
21)
Exit active power-down mode to Read
command (slow exit, lower power)
tXARDS
6 – AL
—
tCK
21)
Exit precharge power-down to any valid
command (other than NOP or Deselect)
tXP
2
—
tCK
—
Exit Self-Refresh to non-Read command
tXSNR
tXSRD
tRFC +10
—
ns
—
200
—
tWR/tCK
—
tCK
tCK
—
WR
Average periodic refresh Interval
Auto-Refresh to Active/Auto-Refresh
command period
Precharge-All (4 banks) command period
Precharge-All (8 banks) command period
Read preamble
Read postamble
Active bank A to Active bank B command
period
Write preamble
Write postamble
Write recovery time for write without AutoPrecharge
Internal Write to Read command delay
Exit power down to any valid command
(other than NOP or Deselect)
Exit Self-Refresh to Read command
Write recovery time for write with AutoPrecharge
14)
19)
22)
1) For details and notes see the relevant Qimonda component data sheet
2) VDDQ = 1.8 V ± 0.1 V; VDD = 1.8 V ±0.1 V. See notes 5)6)7)8)
3) Timing that is not specified is illegal and after such an event, in order to guarantee proper operation, the DRAM must be powered down
and then restarted through the specified initialization sequence before normal operation can continue.
4) Timings are guaranteed with CK/CK differential Slew Rate of 2.0 V/ns. For DQS signals timings are guaranteed with a differential Slew
Rate of 2.0 V/ns in differential strobe mode and a Slew Rate of 1 V/ns in single ended mode.
5) The CK / CK input reference level (for timing reference to CK / CK) is the point at which CK and CK cross. The DQS / DQS, RDQS/ RDQS,
input reference level is the crosspoint when in differential strobe mode.
6) Inputs are not recognized as valid until VREF stabilizes. During the period before VREF stabilizes, CKE = 0.2 x VDDQ is recognized as low.
7) The output timing reference voltage level is VTT.
8) For each of the terms, if not already an integer, round to the next highest integer. tCK refers to the application clock period. WR refers to
the WR parameter stored in the MR.
9) The clock frequency is allowed to change during self-refresh mode or precharge power-down mode.
10) For timing definition, refer to the Component data sheet.
11) Consists of data pin skew and output pattern effects, and p-channel to n-channel variation of the output drivers as well as output Slew Rate
mis-match between DQS / DQS and associated DQ in any given cycle.
12) MIN (tCL, tCH) refers to the smaller of the actual clock low time and the actual clock high time as provided to the device (i.e. this value can
be greater than the minimum specification limits for tCL and tCH).
Rev. 1.2, 2007-01
03292006-JXZQ-CG6T
22
Internet Data Sheet
HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM
13) The tHZ, tRPST and tLZ, tRPRE parameters are referenced to a specific voltage level, which specify when the device output is no longer driving
(tHZ, tRPST), or begins driving (tLZ, tRPRE). tHZ and tLZ transitions occur in the same access time windows as valid data transitions.These
parameters are verified by design and characterization, but not subject to production test.
14) The Auto-Refresh command interval has be reduced to 3.9 µs when operating the DDR2 DRAM in a temperature range between 85 °C
and 95 °C.
15) 0 °C≤ TCASE ≤ 85 °C
16) 85 °C < TCASE ≤ 95 °C
17) A maximum of eight Auto-Refresh commands can be posted to any given DDR2 SDRAM device.
18) The tRRD timing parameter depends on the page size of the DRAM organization. See Table 2 “Ordering Information for RoHS
Compliant Products” on Page 4.
19) The maximum limit for the tWPST parameter is not a device limit. The device operates with a greater value for this parameter, but system
performance (bus turnaround) degrades accordingly.
20) Minimum tWTR is two clocks when operating the DDR2-SDRAM at frequencies ≤ 200 ΜΗz.
21) User can choose two different active power-down modes for additional power saving via MRS address bit A12. In “standard active powerdown mode” (MR, A12 = “0”) a fast power-down exit timing tXARD can be used. In “low active power-down mode” (MR, A12 =”1”) a slow
power-down exit timing tXARDS has to be satisfied.
22) WR must be programmed to fulfill the minimum requirement for the tWR timing parameter, where WRMIN[cycles] = tWR(ns)/tCK(ns) rounded
up to the next integer value. tDAL = WR + (tRP/tCK). For each of the terms, if not already an integer, round to the next highest integer. tCK
refers to the application clock period. WR refers to the WR parameter stored in the MRS.
TABLE 15
DRAM Component Timing Parameter by Speed Grade - DDR2-400
Parameter
Symbol
DDR2–400
Unit
Note1)2)3)4)5)
6)7)
Min.
Max.
tAC
tCCD
tCH
tCKE
tCL
tDAL
–600
+600
ps
—
2
—
—
0.45
0.55
3
—
0.45
0.55
WR + tRP
—
tCK
tCK
tCK
tCK
tCK
Minimum time clocks remain ON after CKE
asynchronously drops LOW
tDELAY
tIS + tCK + tIH
––
ns
9)
DQ and DM input hold time (differential data
strobe)
tDH(base)
275
––
ps
10)
–25
—
ps
11)
0.35
—
tCK
—
–500
+500
ps
—
0.35
—
tCK
—
—
350
ps
11)
– 0.25
+ 0.25
tCK
—
DQ output access time from CK / CK
CAS A to CAS B command period
CK, CK high-level width
CKE minimum high and low pulse width
CK, CK low-level width
Auto-Precharge write recovery + precharge
time
DQ and DM input hold time (single ended data tDH1(base)
strobe)
DQ and DM input pulse width (each input)
DQS output access time from CK / CK
DQS input low (high) pulse width (write cycle)
DQS-DQ skew (for DQS & associated DQ
signals)
tDIPW
tDQSCK
tDQSL,H
tDQSQ
Write command to 1st DQS latching transition tDQSS
—
—
—
8)21)
DQ and DM input setup time (differential data
strobe)
tDS (base)
150
—
ps
11)
DQ and DM input setup time (single ended
data strobe)
tDS1(base)
–25
—
ps
11)
Rev. 1.2, 2007-01
03292006-JXZQ-CG6T
23
Internet Data Sheet
HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM
Parameter
Symbol
DDR2–400
Unit
Note1)2)3)4)5)
6)7)
Min.
Max.
tDSH
0.2
—
DQS falling edge to CK setup time (write cycle) tDSS
0.2
—
DQS falling edge hold time from CK (write
cycle)
Clock half period
Data-out high-impedance time from CK / CK
Address and control input hold time
Address and control input pulse width
(each input)
Address and control input setup time
DQ low-impedance time from CK / CK
DQS low-impedance from CK / CK
Mode register set command cycle time
OCD drive mode output delay
tHP
tHZ
tIH(base)
tIPW
MIN. (tCL, tCH)
tCK
—
tCK
—
—
12)
—
tAC.MAX
ps
13)
475
—
ps
11)
0.6
—
tCK
—
tIS(base)
tLZ(DQ)
tLZ(DQS)
tMRD
tOIT
tQH
tQHS
tREFI
tREFI
tRFC
350
—
ps
11)
2 × tAC.MIN
ps
14)
tAC.MIN
tAC.MAX
tAC.MAX
ps
14)
2
—
tCK
—
0
12
ns
—
tHP –tQHS
—
—
—
—
450
ps
—
—
7.8
µs
14)15)
—
3.9
µs
16)18)
105
—
ns
17)
tRP
tRP
tRPRE
tRPST
tRRD
tRP + 1tCK
15 + 1tCK
—
ns
—
—
ns
—
0.9
1.1
14)
0.40
0.60
tCK
tCK
7.5
—
ns
14)18)
Active bank A to Active bank B command
period
tRRD
10
—
ns
16)22)
Internal Read to Precharge command delay
tRTP
tWPRE
tWPST
tWR
7.5
—
ns
—
0.25
—
0.60
tCK
tCK
—
0.40
15
—
ns
—
tWTR
tXARD
10
—
ns
20)
2
—
tCK
21)
Exit active power-down mode to Read
command (slow exit, lower power)
tXARDS
6 – AL
—
tCK
21)
Exit precharge power-down to any valid
command (other than NOP or Deselect)
tXP
2
—
tCK
—
Exit Self-Refresh to non-Read command
tXSNR
tRFC +10
—
ns
—
Data output hold time from DQS
Data hold skew factor
Average periodic refresh Interval
Average periodic refresh Interval
Auto-Refresh to Active/Auto-Refresh
command period
Precharge-All (4 banks) command period
Precharge-All (8 banks) command period
Read preamble
Read postamble
Active bank A to Active bank B command
period
Write preamble
Write postamble
Write recovery time for write without AutoPrecharge
Internal Write to Read command delay
Exit power down to any valid command
(other than NOP or Deselect)
Rev. 1.2, 2007-01
03292006-JXZQ-CG6T
24
14)
19)
Internet Data Sheet
HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM
Parameter
Symbol
DDR2–400
Unit
Note1)2)3)4)5)
6)7)
Min.
Max.
Exit Self-Refresh to Read command
tXSRD
200
—
Write recovery time for write with AutoPrecharge
WR
tWR/tCK
—
tCK
tCK
—
22)
1) For details and notes see the relevant Qimonda component data sheet
2) VDDQ = 1.8 V ± 0.1 V; VDD = 1.8 V ±0.1 V. See notes 5)6)7)8)
3) Timing that is not specified is illegal and after such an event, in order to guarantee proper operation, the DRAM must be powered down
and then restarted through the specified initialization sequence before normal operation can continue.
4) Timings are guaranteed with CK/CK differential Slew Rate of 2.0 V/ns. For DQS signals timings are guaranteed with a differential Slew
Rate of 2.0 V/ns in differential strobe mode and a Slew Rate of 1 V/ns in single ended mode.
5) The CK / CK input reference level (for timing reference to CK / CK) is the point at which CK and CK cross. The DQS / DQS, RDQS/ RDQS,
input reference level is the crosspoint when in differential strobe mode.
6) Inputs are not recognized as valid until VREF stabilizes. During the period before VREF stabilizes, CKE = 0.2 x VDDQ is recognized as low.
7) The output timing reference voltage level is VTT.
8) For each of the terms, if not already an integer, round to the next highest integer. tCK refers to the application clock period. WR refers to
the WR parameter stored in the MR.
9) The clock frequency is allowed to change during self-refresh mode or precharge power-down mode.
10) For timing definition, refer to the Component data sheet.
11) Consists of data pin skew and output pattern effects, and p-channel to n-channel variation of the output drivers as well as output Slew Rate
mis-match between DQS / DQS and associated DQ in any given cycle.
12) MIN (tCL, tCH) refers to the smaller of the actual clock low time and the actual clock high time as provided to the device (i.e. this value can
be greater than the minimum specification limits for tCL and tCH).
13) The tHZ, tRPST and tLZ, tRPRE parameters are referenced to a specific voltage level, which specify when the device output is no longer driving
(tHZ, tRPST), or begins driving (tLZ, tRPRE). tHZ and tLZ transitions occur in the same access time windows as valid data transitions.These
parameters are verified by design and characterization, but not subject to production test.
14) The Auto-Refresh command interval has be reduced to 3.9 µs when operating the DDR2 DRAM in a temperature range between 85 °C
and 95 °C.
15) 0 °C≤ TCASE ≤ 85 °C
16) 85 °C < TCASE ≤ 95 °C
17) A maximum of eight Auto-Refresh commands can be posted to any given DDR2 SDRAM device.
18) The tRRD timing parameter depends on the page size of the DRAM organization. See Table 2 “Ordering Information for RoHS
Compliant Products” on Page 4.
19) The maximum limit for the tWPST parameter is not a device limit. The device operates with a greater value for this parameter, but system
performance (bus turnaround) degrades accordingly.
20) Minimum tWTR is two clocks when operating the DDR2-SDRAM at frequencies ≤ 200 ΜΗz.
21) User can choose two different active power-down modes for additional power saving via MRS address bit A12. In “standard active powerdown mode” (MR, A12 = “0”) a fast power-down exit timing tXARD can be used. In “low active power-down mode” (MR, A12 =”1”) a slow
power-down exit timing tXARDS has to be satisfied.
22) WR must be programmed to fulfill the minimum requirement for the tWR timing parameter, where WRMIN[cycles] = tWR(ns)/tCK(ns) rounded
up to the next integer value. tDAL = WR + (tRP/tCK). For each of the terms, if not already an integer, round to the next highest integer. tCK
refers to the application clock period. WR refers to the WR parameter stored in the MRS.
Rev. 1.2, 2007-01
03292006-JXZQ-CG6T
25
Internet Data Sheet
HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM
3.3.3
ODT AC Electrical Characteristics
This chapter describes the ODT AC electrical characteristics.
TABLE 16
ODT AC Character. and Operating Conditions for DDR2-667
Symbol
tAOND
tAON
tAONPD
tAOFD
tAOF
tAOFPD
tANPD
tAXPD
Parameter / Condition
Values
Unit
Note
Min.
Max.
ODT turn-on delay
2
2
nCK
1)
ODT turn-on
tAC.MAX + 0.7 ns
2 tCK + tAC.MAX + 1 ns
ns
1)2)
ODT turn-on (Power-Down Modes)
tAC.MIN
tAC.MIN + 2 ns
ns
1)
ODT turn-off delay
2.5
2.5
nCK
1)
ODT turn-off
tAC.MAX + 0.6 ns
2.5 tCK + tAC.MAX + 1 ns
ns
1)3)
ODT turn-off (Power-Down Modes)
tAC.MIN
tAC.MIN + 2 ns
ns
1)
ODT to Power Down Mode Entry Latency
3
—
nCK
1)
1)
ODT Power Down Exit Latency
8
—
nCK
1) New units, 'tCK.AVG' and 'nCK', are introduced in DDR2-667 and DDR2-800. Unit 'tCK.AVG' represents the actual tCK.AVG of the input clock
under operation. Unit 'nCK' represents one clock cycle of the input clock, counting the actual clock edges. Note that in DDR2-400 and
DDR2-533, 'tCK' is used for both concepts. Example: tXP = 2 [nCK] means; if Power Down exit is registered at Tm, an Active command may
be registered at Tm + 2, even if (Tm + 2 - Tm) is 2 × tCK.AVG+ tEPR.2PER(MIN).
2) ODT turn on time min is when the device leaves high impedance and ODT resistance begins to turn on. ODT turn on time max is when the
ODT resistance is fully on. Both are measured from tAOND, which is interpreted differently per speed bin. For DDR2-667/800, tAOND is 2 clock
cycles after the clock edge that registered a first ODT HIGH counting the actual input clock edges.
3) ODT turn off time min. is when the device starts to turn off ODT resistance. ODT turn off time max is when the bus is in high impedance.
Both are measured from tAOFD. Both are measured from tAOFD, which is interpreted differently per speed bin. For DDR2-667/800, if tCK.AVG =
3 ns is assumed, tAOFD= 1.5 ns (0.5 × 3 ns) after the second trailing clock edge counting from the clock edge that registered a first ODT
LOW and by counting the actual input clock edge.
TABLE 17
ODT AC Characteristics and Operating Conditions for DDR2-533 & DDR2-400
Symbol
tAOND
tAON
tAONPD
tAOFD
tAOF
tAOFPD
tANPD
tAXPD
Parameter / Condition
Values
Unit
Note
Min.
Max.
ODT turn-on delay
2
2
tCK
—
ODT turn-on
tAC.MAX + 1 ns
2 tCK + tAC.MAX + 1 ns
ns
1)
ODT turn-on (Power-Down Modes)
tAC.MIN
tAC.MIN + 2 ns
ns
—
ODT turn-off delay
2.5
2.5
tCK
—
ODT turn-off
tAC.MAX + 0.6 ns
2.5 tCK + tAC.MAX + 1 ns
ns
2)
ODT turn-off (Power-Down Modes)
tAC.MIN
tAC.MIN + 2 ns
ns
—
ODT to Power Down Mode Entry Latency
3
—
—
ODT Power Down Exit Latency
8
—
tCK
tCK
—
1) ODT turn on time min. is when the device leaves high impedance and ODT resistance begins to turn on. ODT turn on time max is when
the ODT resistance is fully on. Both are measured from tAOND, which is interpreted differently per speed bin. For DDR2-400/533, tAOND is
10 ns (= 2 x 5 ns) after the clock edge that registered a first ODT HIGH if tCK = 5 ns.
Rev. 1.2, 2007-01
03292006-JXZQ-CG6T
26
Internet Data Sheet
HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM
2) ODT turn off time min. is when the device starts to turn off ODT resistance. ODT turn off time max is when the bus is in high impedance.
Both are measured from tAOFD. Both are measured from tAOFD, which is interpreted differently per speed bin. For DDR2-400/533, tAOFD is
12.5 ns (= 2.5 x 5 ns) after the clock edge that registered a first ODT HIGH if tCK = 5 ns.
3.4
IDD Specifications and Conditions
List of tables defining IDD Specifications and Conditions.
• Table 18 “IDD Measurement Conditions” on Page 27
• Table 21 “IDD Specification for HYS72T[64/128/256]xxxHR–3.7–B” on Page 30
• Table 22 “IDD Specification for HYS72T[64/128/256]xxxHR–5–B” on Page 31
TABLE 18
IDD Measurement Conditions
Parameter
Symbol Note
1)2)3)4)5)
Operating Current 0
IDD0
One bank Active - Precharge; tCK = tCK.MIN, tRC = tRC.MIN, tRAS = tRAS.MIN, CKE is HIGH, CS is HIGH between
valid commands. Address and control inputs are SWITCHING, Databus inputs are SWITCHING.
Operating Current 1
One bank Active - Read - Precharge; IOUT = 0 mA, BL = 4, tCK = tCK.MIN, tRC = tRC.MIN, tRAS = tRAS.MIN,
tRCD = tRCD.MIN, AL = 0, CL = CLMIN; CKE is HIGH, CS is HIGH between valid commands. Address and
control inputs are SWITCHING, Databus inputs are SWITCHING.
IDD1
—
6)
Precharge Standby Current
IDD2N
All banks idle; CS is HIGH; CKE is HIGH; tCK = tCK.MIN; Other control and address inputs are SWITCHING,
Databus inputs are SWITCHING.
—
Precharge Power-Down Current
Other control and address inputs are STABLE, Data bus inputs are FLOATING.
IDD2P
—
Precharge Quiet Standby Current
All banks idle; CS is HIGH; CKE is HIGH; tCK = tCK.MIN; Other control and address inputs are STABLE,
Data bus inputs are FLOATING.
IDD2Q
—
Active Standby Current
Burst Read: All banks open; Continuous burst reads; BL = 4; AL = 0, CL = CLMIN; tCK = tCK.MIN;
tRAS = tRAS.MAX, tRP = tRP.MIN; CKE is HIGH, CS is HIGH between valid commands. Address inputs are
SWITCHING; Data Bus inputs are SWITCHING; IOUT = 0 mA.
IDD3N
—
Active Power-Down Current
IDD3P(0)
All banks open; tCK = tCK.MIN, CKE is LOW; Other control and address inputs are STABLE, Data bus inputs
are FLOATING. MRS A12 bit is set to LOW (Fast Power-down Exit);
—
Active Power-Down Current
IDD3P(1)
All banks open; tCK = tCK.MIN, CKE is LOW; Other control and address inputs are STABLE, Data bus inputs
are FLOATING. MRS A12 bit is set to HIGH (Slow Power-down Exit);
—
IDD4R
Operating Current - Burst Read
All banks open; Continuous burst reads; BL = 4; AL = 0, CL = CLMIN; tCK = tCKMIN; tRAS = tRASMAX;
tRP = tRPMIN; CKE is HIGH, CS is HIGH between valid commands; Address inputs are SWITCHING; Data
bus inputs are SWITCHING; IOUT = 0mA.
6)
Operating Current - Burst Write
All banks open; Continuous burst writes; BL = 4; AL = 0, CL = CLMIN; tCK = tCK.MIN;
tRAS = tRAS.MAX., tRP = tRP.MAX; CKE is HIGH, CS is HIGH between valid commands. Address inputs are
SWITCHING; Data Bus inputs are SWITCHING;
Rev. 1.2, 2007-01
03292006-JXZQ-CG6T
27
IDD4W
—
Internet Data Sheet
HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM
Parameter
Symbol Note
1)2)3)4)5)
Burst Refresh Current
tCK = tCK.MIN., Refresh command every tRFC = tRFC.MIN interval, CKE is HIGH, CS is HIGH between valid
commands, Other control and address inputs are SWITCHING, Data bus inputs are SWITCHING.
IDD5B
—
Distributed Refresh Current
IDD5D
—
tCK = tCK.MIN., Refresh command every tRFC = tREFI interval, CKE is LOW and CS is HIGH between valid
commands, Other control and address inputs are SWITCHING, Data bus inputs are SWITCHING.
Self-Refresh Current
IDD6
CKE ≤ 0.2 V; external clock off, CK and CK at 0 V; Other control and address inputs are FLOATING, Data
bus inputs are FLOATING. IDD6 current values are guaranteed up to TCASE of 85 °C max.
—
IDD7
All Bank Interleave Read Current
All banks are being interleaved at minimum tRC without violating tRRD using a burst length of 4. Control
and address bus inputs are STABLE during DESELECTS. Iout = 0 mA.
1) VDDQ = 1.8 V ± 0.1 V; VDD = 1.8 V ± 0.1 V
2) IDD specifications are tested after the device is properly initialized and IDD parameter are specified with ODT disabled.
3) Definitions for IDD see Table 19
4) For two rank modules: for all active current measurements the other rank is in Precharge Power-Down Mode IDD2P
6)
5) For details and notes see the relevant Qimonda component data sheet
6) IDD1, IDD4R and IDD7 current measurements are defined with the outputs disabled (IOUT = 0 mA). To achieve this on module level the output
buffers can be disabled using an EMRS(1) (Extended Mode Register Command) by setting A12 bit to HIGH.
TABLE 19
Definitions for IDD
Parameter
Description
LOW
VIN ≤ VIL(ac).MAX, HIGH is defined as VIN ≥ VIH(ac).MIN
STABLE
Inputs are stable at a HIGH or LOW level
FLOATING
Inputs are VREF = VDDQ /2
SWITCHING
Inputs are changing between HIGH and LOW every other clock (once per 2 cycles) for address and control
signals, and inputs changing between HIGH and LOW every other data transfer (once per cycle) for DQ
signals not including mask or strobes
Rev. 1.2, 2007-01
03292006-JXZQ-CG6T
28
Internet Data Sheet
HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM
TABLE 20
IDD Specification for HYS72T[64/128/256]xxxHR–3S–B
2)
1420
2250
mA
2)
720
720
850
mA
3)
790
1410
1410
2220
mA
3)
750
1320
1320
2040
mA
3)
680
1190
1190
1780
mA
3)
470
760
760
920
mA
3)
840
1500
1500
2400
mA
3)
1560
2940
1830
3060
mA
2)
1560
2940
1830
3060
mA
2)
1650
3120
1920
3240
mA
2)
470
760
760
920
mA
3)4)
63
126
126
252
mA
3)4)
HYS72T256220HR–3S–B
mA
HYS72T128020HR–3S–B
2000
HYS72T128000HR–3S–B
Note1)
HYS72T64000HR–3S–B
Unit
Product Type
Organization
512 MB
1 GB
1 GB
2 GB
1 Rank
1 Rank
2 Ranks
2 Ranks
×72
×72
×72
×72
-3S
-3S
-3S
-3S
Symbol
Max.
Max.
Max.
Max.
IDD0
IDD1
IDD2P
IDD2N
IDD2Q
IDD3P( MRS = 0)
IDD3P( MRS = 1)
IDD3N
IDD4R
IDD4W
IDD5B
IDD5D
IDD6
IDD7
1020
1870
1300
1150
2130
450
mA 2)
1) Module IDD is calculated on the basis of component IDD and includes currents of Registers and PLL. ODT disabled. IDD1, IDD4R, and IDD7,
1750
3330
2030
are defined with the outputs disabled.
2) The other rank is in IDD2P Precharge Power-Down Current mode
3) Both ranks are in the same IDDcurrent mode
4) IDD5D and IDD6 values are for 0 °C ≤ TCase ≤ 85 °C
Rev. 1.2, 2007-01
03292006-JXZQ-CG6T
29
3460
Internet Data Sheet
HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM
TABLE 21
Product Type
HYS72T64000HR–3.7–B
HYS72T128000HR–3.7–B
HYS72T128020HR–3.7–B
HYS72T256220HR–3.7–B
IDD Specification for HYS72T[64/128/256]xxxHR–3.7–B
Organization
512 MB
1 GB
1 GB
2 GB
1 Rank
1 Rank
2 Ranks
2 Ranks
×72
×72
×72
×72
-3.7
-3.7
-3.7
-3.7
Symbol
Max.
Max.
Max.
Max.
IDD0
IDD1
IDD2P
IDD2N
IDD2Q
IDD3P( MRS = 0)
IDD3P( MRS = 1)
IDD3N
IDD4R
IDD4W
IDD5B
IDD5D
IDD6
IDD7
920
1670
1150
1010
1850
390
Unit
Note1)
1800
mA
2)
1240
1980
mA
2)
630
630
750
mA
3)
670
1180
1180
1870
mA
3)
650
1130
1130
1760
mA
3)
580
1000
1000
1510
mA
3)
410
660
660
820
mA
3)
720
1270
1270
2050
mA
3)
1320
2480
1550
2610
mA
2)
1320
2480
1550
2610
mA
2)
1500
2840
1730
2970
mA
2)
410
660
660
820
mA
3)4)
63
126
126
252
mA
3)4)
mA 2)
1) Module IDD is calculated on the basis of component IDD and includes currents of Registers and PLL. ODT disabled. IDD1, IDD4R, and IDD7,
1640
3110
1870
are defined with the outputs disabled.
2) The other rank is in IDD2P Precharge Power-Down Current mode
3) Both ranks are in the same IDD current mode
4) IDD5D and IDD6 values are for 0 °C ≤ TCase ≤ 85 °C
Rev. 1.2, 2007-01
03292006-JXZQ-CG6T
30
3240
Internet Data Sheet
HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM
TABLE 22
IDD Specification for HYS72T[64/128/256]xxxHR–5–B
2)
1100
1790
mA
2)
530
530
660
mA
3)
580
1020
1020
1630
mA
3)
560
980
980
1560
mA
3)
490
840
840
1270
mA
3)
360
570
570
730
mA
3)
630
1110
1110
1810
mA
3)
1130
2120
1320
2240
mA
2)
1130
2120
1320
2240
mA
2)
1400
2660
1590
2780
mA
2)
360
570
570
730
mA
3)4)
63
126
126
252
mA
3)4)
HYS72T256220HR–5–B
mA
HYS72T128020HR–5–B
1630
HYS72T128000HR–5–B
Note1)
HYS72T64000HR–5–B
Unit
Product Type
Organization
512 MB
1 GB
1GB
2 GB
1 Rank
1 Rank
2 Ranks
2 Ranks
×72
×72
×72
×72
-5
-5
-5
-5
Symbol
Max.
Max.
Max.
Max.
IDD0
IDD1
IDD2P
IDD2N
IDD2Q
IDD3P( MRS = 0)
IDD3P( MRS = 1)
IDD3N
IDD4R
IDD4W
IDD5B
IDD5D
IDD6
IDD7
820
1500
1020
910
1670
340
mA 2)
1) Module IDD is calculated on the basis of component IDD and includes currents of Registers and PLL. ODT disabled. IDD1, IDD4R, and IDD7,
1540
2940
1740
are defined with the outputs disabled.
2) The other rank is in IDD2P Precharge Power-Down Current mode.
3) Both ranks are in the same IDDcurrent mode.
4) IDD5D and IDD6 values are for 0 °C ≤ TCase ≤ 85 °C.
Rev. 1.2, 2007-01
03292006-JXZQ-CG6T
31
3070
Internet Data Sheet
HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM
4
SPD Codes
This chapter lists all hexadecimal byte values stored in the EEPROM of the products described in this data sheet. SPD stands
for serial presence detect. All values with XX in the table are module specific bytes which are defined during production.
List of SPD Code Tables
• Table 23 “HYS72T[64/128/256]xx0HR–3S–B” on Page 32
• Table 24 “HYS72T[64/128/256]xx0HR–3.7–B” on Page 37
• Table 25 “HYS72T[64/128/256]xx0HR–5–B” on Page 41
TABLE 23
Product Type
HYS72T64000HR–3S–B
HYS72T128000HR–3S–B
HYS72T128020HR–3S–B
HYS72T256220HR–3S–B
HYS72T[64/128/256]xx0HR–3S–B
Organization
512MB
1 GByte
1 GByte
2 GByte
×72
×72
×72
×72
1 Rank (×8)
1 Rank (×4)
2 Ranks (×8) 2 Ranks (×4)
Label Code
PC2–
5300R–555
PC2–
5300R–555
PC2–
5300R–555
PC2–
5300R–555
JEDEC SPD Revision
Rev. 1.2
Rev. 1.2
Rev. 1.2
Rev. 1.2
Byte#
Description
HEX
HEX
HEX
HEX
0
Programmed SPD Bytes in EEPROM
80
80
80
80
1
Total number of Bytes in EEPROM
08
08
08
08
2
Memory Type (DDR2)
08
08
08
08
3
Number of Row Addresses
0E
0E
0E
0E
4
Number of Column Addresses
0A
0B
0A
0B
5
DIMM Rank and Stacking Information
60
60
61
61
6
Data Width
48
48
48
48
7
Not used
00
00
00
00
8
Interface Voltage Level
05
05
05
05
9
30
30
30
30
10
tCK @ CLMAX (Byte 18) [ns]
tAC SDRAM @ CLMAX (Byte 18) [ns]
45
45
45
45
11
Error Correction Support (non-ECC, ECC)
02
02
02
02
12
Refresh Rate and Type
82
82
82
82
Rev. 1.2, 2007-01
03292006-JXZQ-CG6T
32
Internet Data Sheet
Product Type
HYS72T64000HR–3S–B
HYS72T128000HR–3S–B
HYS72T128020HR–3S–B
HYS72T256220HR–3S–B
HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM
Organization
512MB
1 GByte
1 GByte
2 GByte
×72
×72
×72
×72
1 Rank (×8)
1 Rank (×4)
2 Ranks (×8) 2 Ranks (×4)
Label Code
PC2–
5300R–555
PC2–
5300R–555
PC2–
5300R–555
PC2–
5300R–555
JEDEC SPD Revision
Rev. 1.2
Rev. 1.2
Rev. 1.2
Rev. 1.2
Byte#
Description
HEX
HEX
HEX
HEX
13
Primary SDRAM Width
08
04
08
04
14
Error Checking SDRAM Width
08
04
08
04
15
Not used
00
00
00
00
16
Burst Length Supported
0C
0C
0C
0C
17
Number of Banks on SDRAM Device
04
04
04
04
18
Supported CAS Latencies
38
38
38
38
19
DIMM Mechanical Characteristics
01
01
01
01
20
DIMM Type Information
01
01
01
01
21
DIMM Attributes
04
05
05
07
22
Component Attributes
07
07
07
07
23
tCK @ CLMAX -1 (Byte 18) [ns]
tAC SDRAM @ CLMAX -1 [ns]
tCK @ CLMAX -2 (Byte 18) [ns]
tAC SDRAM @ CLMAX -2 [ns]
tRP.MIN [ns]
tRRD.MIN [ns]
tRCD.MIN [ns]
tRAS.MIN [ns]
24
25
26
27
28
29
30
3D
3D
3D
3D
50
50
50
50
50
50
50
50
60
60
60
60
3C
3C
3C
3C
1E
1E
1E
1E
3C
3C
3C
3C
2D
2D
2D
2D
31
Module Density per Rank
80
01
80
01
32
tAS.MIN and tCS.MIN [ns]
tAH.MIN and tCH.MIN [ns]
tDS.MIN [ns]
tDH.MIN [ns]
tWR.MIN [ns]
tWTR.MIN [ns]
tRTP.MIN [ns]
20
20
20
20
33
34
35
36
37
38
Rev. 1.2, 2007-01
03292006-JXZQ-CG6T
33
27
27
27
27
10
10
10
10
17
17
17
17
3C
3C
3C
3C
1E
1E
1E
1E
1E
1E
1E
1E
Internet Data Sheet
Product Type
HYS72T64000HR–3S–B
HYS72T128000HR–3S–B
HYS72T128020HR–3S–B
HYS72T256220HR–3S–B
HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM
Organization
512MB
1 GByte
1 GByte
2 GByte
×72
×72
×72
×72
1 Rank (×8)
1 Rank (×4)
2 Ranks (×8) 2 Ranks (×4)
Label Code
PC2–
5300R–555
PC2–
5300R–555
PC2–
5300R–555
PC2–
5300R–555
JEDEC SPD Revision
Rev. 1.2
Rev. 1.2
Rev. 1.2
Rev. 1.2
Byte#
Description
HEX
HEX
HEX
HEX
39
Analysis Characteristics
00
00
00
00
40
tRC and tRFC Extension
tRC.MIN [ns]
tRFC.MIN [ns]
tCK.MAX [ns]
tDQSQ.MAX [ns]
tQHS.MAX [ns]
00
00
00
00
41
42
43
44
45
3C
3C
3C
3C
69
69
69
69
80
80
80
80
18
18
18
18
22
22
22
22
46
PLL Relock Time
0F
0F
0F
0F
47
TCASE.MAX Delta / ∆T4R4W Delta
50
50
50
50
48
Psi(T-A) DRAM
7A
7A
7A
7A
49
∆T0 (DT0)
4B
4B
4B
4B
50
∆T2N (DT2N, UDIMM) or ∆T2Q (DT2Q, RDIMM)
2E
2E
2E
2E
51
∆T2P (DT2P)
36
36
36
36
52
∆T3N (DT3N)
27
27
27
27
53
∆T3P.fast (DT3P fast)
4C
4C
4C
4C
54
∆T3P.slow (DT3P slow)
2A
2A
2A
2A
55
∆T4R (DT4R) / ∆T4R4W Sign (DT4R4W)
4C
4C
4C
4C
56
∆T5B (DT5B)
20
20
20
20
57
∆T7 (DT7)
23
23
23
23
58
Psi(ca) PLL
C4
C4
C4
C4
59
Psi(ca) REG
8C
8C
8C
8C
60
∆TPLL (DTPLL)
68
68
68
68
61
∆TREG (DTREG) / Toggle Rate
94
94
94
94
62
SPD Revision
12
12
12
12
63
Checksum of Bytes 0-62
8A
05
8C
08
64
Manufacturer’s JEDEC ID Code (1)
7F
7F
7F
7F
Rev. 1.2, 2007-01
03292006-JXZQ-CG6T
34
Internet Data Sheet
Product Type
HYS72T64000HR–3S–B
HYS72T128000HR–3S–B
HYS72T128020HR–3S–B
HYS72T256220HR–3S–B
HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM
Organization
512MB
1 GByte
1 GByte
2 GByte
×72
×72
×72
×72
1 Rank (×8)
1 Rank (×4)
2 Ranks (×8) 2 Ranks (×4)
Label Code
PC2–
5300R–555
PC2–
5300R–555
PC2–
5300R–555
PC2–
5300R–555
JEDEC SPD Revision
Rev. 1.2
Rev. 1.2
Rev. 1.2
Rev. 1.2
Byte#
Description
HEX
HEX
HEX
HEX
65
Manufacturer’s JEDEC ID Code (2)
7F
7F
7F
7F
66
Manufacturer’s JEDEC ID Code (3)
7F
7F
7F
7F
67
Manufacturer’s JEDEC ID Code (4)
7F
7F
7F
7F
68
Manufacturer’s JEDEC ID Code (5)
7F
7F
7F
7F
69
Manufacturer’s JEDEC ID Code (6)
51
51
51
51
70
Manufacturer’s JEDEC ID Code (7)
00
00
00
00
71
Manufacturer’s JEDEC ID Code (8)
00
00
00
00
72
Module Manufacturer Location
xx
xx
xx
xx
73
Product Type, Char 1
37
37
37
37
74
Product Type, Char 2
32
32
32
32
75
Product Type, Char 3
54
54
54
54
76
Product Type, Char 4
36
31
31
32
77
Product Type, Char 5
34
32
32
35
78
Product Type, Char 6
30
38
38
36
79
Product Type, Char 7
30
30
30
32
80
Product Type, Char 8
30
30
32
32
81
Product Type, Char 9
48
30
30
30
82
Product Type, Char 10
52
48
48
48
83
Product Type, Char 11
33
52
52
52
84
Product Type, Char 12
53
33
33
33
85
Product Type, Char 13
42
53
53
53
86
Product Type, Char 14
20
42
42
42
87
Product Type, Char 15
20
20
20
20
88
Product Type, Char 16
20
20
20
20
89
Product Type, Char 17
20
20
20
20
90
Product Type, Char 18
20
20
20
20
Rev. 1.2, 2007-01
03292006-JXZQ-CG6T
35
Internet Data Sheet
Product Type
HYS72T64000HR–3S–B
HYS72T128000HR–3S–B
HYS72T128020HR–3S–B
HYS72T256220HR–3S–B
HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM
Organization
512MB
1 GByte
1 GByte
2 GByte
×72
×72
×72
×72
1 Rank (×8)
1 Rank (×4)
2 Ranks (×8) 2 Ranks (×4)
Label Code
PC2–
5300R–555
PC2–
5300R–555
PC2–
5300R–555
PC2–
5300R–555
JEDEC SPD Revision
Rev. 1.2
Rev. 1.2
Rev. 1.2
Rev. 1.2
Byte#
Description
HEX
HEX
HEX
HEX
91
Module Revision Code
4x
4x
4x
2x
92
Test Program Revision Code
xx
xx
xx
xx
93
Module Manufacturing Date Year
xx
xx
xx
xx
94
Module Manufacturing Date Week
xx
xx
xx
xx
95 - 98
Module Serial Number
xx
xx
xx
xx
99 - 127 Not used
00
00
00
00
128 255
FF
FF
FF
FF
Blank for customer use
Rev. 1.2, 2007-01
03292006-JXZQ-CG6T
36
Internet Data Sheet
HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM
TABLE 24
Product Type
HYS72T64000HR–3.7–B
HYS72T128000HR–3.7–B
HYS72T128020HR–3.7–B
HYS72T256220HR–3.7–B
HYS72T[64/128/256]xx0HR–3.7–B
Organization
512MB
1 GByte
1 GByte
2 GByte
×72
×72
×72
×72
1 Rank (×8)
1 Rank (×4)
2 Ranks (×8) 2 Ranks (×4)
Label Code
PC2–
4200R–444
PC2–
4200R–444
PC2–
4200R–444
PC2–
4200R–444
JEDEC SPD Revision
Rev. 1.2
Rev. 1.2
Rev. 1.2
Rev. 1.2
Byte#
Description
HEX
HEX
HEX
HEX
0
Programmed SPD Bytes in EEPROM
80
80
80
80
1
Total number of Bytes in EEPROM
08
08
08
08
2
Memory Type (DDR2)
08
08
08
08
3
Number of Row Addresses
0E
0E
0E
0E
4
Number of Column Addresses
0A
0B
0A
0B
5
DIMM Rank and Stacking Information
60
60
61
61
6
Data Width
48
48
48
48
7
Not used
00
00
00
00
8
Interface Voltage Level
05
05
05
05
9
tCK @ CLMAX (Byte 18) [ns]
tAC SDRAM @ CLMAX (Byte 18) [ns]
3D
3D
3D
3D
50
50
50
50
11
Error Correction Support (non-ECC, ECC)
02
02
02
02
12
Refresh Rate and Type
82
82
82
82
13
Primary SDRAM Width
08
04
08
04
10
14
Error Checking SDRAM Width
08
04
08
04
15
Not used
00
00
00
00
16
Burst Length Supported
0C
0C
0C
0C
17
Number of Banks on SDRAM Device
04
04
04
04
18
Supported CAS Latencies
38
38
38
38
19
DIMM Mechanical Characteristics
01
01
01
01
20
DIMM Type Information
01
01
01
01
21
DIMM Attributes
04
05
05
07
22
Component Attributes
07
07
07
07
Rev. 1.2, 2007-01
03292006-JXZQ-CG6T
37
Internet Data Sheet
Product Type
HYS72T64000HR–3.7–B
HYS72T128000HR–3.7–B
HYS72T128020HR–3.7–B
HYS72T256220HR–3.7–B
HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM
Organization
512MB
1 GByte
1 GByte
2 GByte
×72
×72
×72
×72
1 Rank (×8)
1 Rank (×4)
2 Ranks (×8) 2 Ranks (×4)
Label Code
PC2–
4200R–444
PC2–
4200R–444
PC2–
4200R–444
PC2–
4200R–444
JEDEC SPD Revision
Rev. 1.2
Rev. 1.2
Rev. 1.2
Rev. 1.2
Byte#
Description
HEX
HEX
HEX
HEX
23
tCK @ CLMAX -1 (Byte 18) [ns]
tAC SDRAM @ CLMAX -1 [ns]
tCK @ CLMAX -2 (Byte 18) [ns]
tAC SDRAM @ CLMAX -2 [ns]
tRP.MIN [ns]
tRRD.MIN [ns]
tRCD.MIN [ns]
tRAS.MIN [ns]
24
25
26
27
28
29
30
3D
3D
3D
3D
50
50
50
50
50
50
50
50
60
60
60
60
3C
3C
3C
3C
1E
1E
1E
1E
3C
3C
3C
3C
2D
2D
2D
2D
31
Module Density per Rank
80
01
80
01
32
tAS.MIN and tCS.MIN [ns]
tAH.MIN and tCH.MIN [ns]
tDS.MIN [ns]
tDH.MIN [ns]
tWR.MIN [ns]
tWTR.MIN [ns]
tRTP.MIN [ns]
25
25
25
25
33
34
35
36
37
38
37
37
37
37
10
10
10
10
22
22
22
22
3C
3C
3C
3C
1E
1E
1E
1E
1E
1E
1E
1E
39
Analysis Characteristics
00
00
00
00
40
00
00
00
00
45
tRC and tRFC Extension
tRC.MIN [ns]
tRFC.MIN [ns]
tCK.MAX [ns]
tDQSQ.MAX [ns]
tQHS.MAX [ns]
46
3C
3C
3C
3C
69
69
69
69
80
80
80
80
1E
1E
1E
1E
28
28
28
28
PLL Relock Time
0F
0F
0F
0F
47
TCASE.MAX Delta / ∆T4R4W Delta
50
50
50
50
48
Psi(T-A) DRAM
7A
7A
7A
7A
41
42
43
44
Rev. 1.2, 2007-01
03292006-JXZQ-CG6T
38
Internet Data Sheet
Product Type
HYS72T64000HR–3.7–B
HYS72T128000HR–3.7–B
HYS72T128020HR–3.7–B
HYS72T256220HR–3.7–B
HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM
Organization
512MB
1 GByte
1 GByte
2 GByte
×72
×72
×72
×72
1 Rank (×8)
1 Rank (×4)
2 Ranks (×8) 2 Ranks (×4)
Label Code
PC2–
4200R–444
PC2–
4200R–444
PC2–
4200R–444
PC2–
4200R–444
JEDEC SPD Revision
Rev. 1.2
Rev. 1.2
Rev. 1.2
Rev. 1.2
Byte#
Description
HEX
HEX
HEX
HEX
49
∆T0 (DT0)
43
43
43
43
50
∆T2N (DT2N, UDIMM) or ∆T2Q (DT2Q, RDIMM)
29
29
29
29
51
∆T2P (DT2P)
36
36
36
36
52
∆T3N (DT3N)
21
21
21
21
53
∆T3P.fast (DT3P fast)
41
41
41
41
54
∆T3P.slow (DT3P slow)
2A
2A
2A
2A
55
∆T4R (DT4R) / ∆T4R4W Sign (DT4R4W)
40
40
40
40
56
∆T5B (DT5B)
1E
1E
1E
1E
57
∆T7 (DT7)
22
22
22
22
58
Psi(ca) PLL
C4
C4
C4
C4
59
Psi(ca) REG
8C
8C
8C
8C
60
∆TPLL (DTPLL)
61
61
61
61
61
∆TREG (DTREG) / Toggle Rate
78
78
78
78
62
SPD Revision
12
12
12
12
63
Checksum of Bytes 0-62
7E
F9
80
FC
64
Manufacturer’s JEDEC ID Code (1)
7F
7F
7F
7F
65
Manufacturer’s JEDEC ID Code (2)
7F
7F
7F
7F
66
Manufacturer’s JEDEC ID Code (3)
7F
7F
7F
7F
67
Manufacturer’s JEDEC ID Code (4)
7F
7F
7F
7F
68
Manufacturer’s JEDEC ID Code (5)
7F
7F
7F
7F
69
Manufacturer’s JEDEC ID Code (6)
51
51
51
51
70
Manufacturer’s JEDEC ID Code (7)
00
00
00
00
71
Manufacturer’s JEDEC ID Code (8)
00
00
00
00
72
Module Manufacturer Location
xx
xx
xx
xx
73
Product Type, Char 1
37
37
37
37
74
Product Type, Char 2
32
32
32
32
Rev. 1.2, 2007-01
03292006-JXZQ-CG6T
39
Internet Data Sheet
Product Type
HYS72T64000HR–3.7–B
HYS72T128000HR–3.7–B
HYS72T128020HR–3.7–B
HYS72T256220HR–3.7–B
HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM
Organization
512MB
1 GByte
1 GByte
2 GByte
×72
×72
×72
×72
1 Rank (×8)
1 Rank (×4)
2 Ranks (×8) 2 Ranks (×4)
Label Code
PC2–
4200R–444
PC2–
4200R–444
PC2–
4200R–444
PC2–
4200R–444
JEDEC SPD Revision
Rev. 1.2
Rev. 1.2
Rev. 1.2
Rev. 1.2
Byte#
Description
HEX
HEX
HEX
HEX
75
Product Type, Char 3
54
54
54
54
76
Product Type, Char 4
36
31
31
32
77
Product Type, Char 5
34
32
32
35
78
Product Type, Char 6
30
38
38
36
79
Product Type, Char 7
30
30
30
32
80
Product Type, Char 8
30
30
32
32
81
Product Type, Char 9
48
30
30
30
82
Product Type, Char 10
52
48
48
48
83
Product Type, Char 11
33
52
52
52
84
Product Type, Char 12
2E
33
33
33
85
Product Type, Char 13
37
2E
2E
2E
86
Product Type, Char 14
42
37
37
37
87
Product Type, Char 15
20
42
42
42
88
Product Type, Char 16
20
20
20
20
89
Product Type, Char 17
20
20
20
20
90
Product Type, Char 18
20
20
20
20
91
Module Revision Code
4x
4x
4x
2x
92
Test Program Revision Code
xx
xx
xx
xx
93
Module Manufacturing Date Year
xx
xx
xx
xx
94
Module Manufacturing Date Week
xx
xx
xx
xx
95 - 98
Module Serial Number
xx
xx
xx
xx
99 - 127 Not used
00
00
00
00
128 255
FF
FF
FF
FF
Blank for customer use
Rev. 1.2, 2007-01
03292006-JXZQ-CG6T
40
Internet Data Sheet
HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM
TABLE 25
Product Type
HYS72T64000HR–5–B
HYS72T128000HR–5–B
HYS72T128020HR–5–B
HYS72T256220HR–5–B
HYS72T[64/128/256]xx0HR–5–B
Organization
512MB
1 GByte
1 GByte
2 GByte
×72
×72
×72
×72
1 Rank (×8)
1 Rank (×4)
2 Ranks (×8) 2 Ranks (×4)
Label Code
PC2–
3200R–333
PC2–
3200R–333
PC2–
3200R–333
PC2–
3200R–333
JEDEC SPD Revision
Rev. 1.2
Rev. 1.2
Rev. 1.2
Rev. 1.2
Byte#
Description
HEX
HEX
HEX
HEX
0
Programmed SPD Bytes in EEPROM
80
80
80
80
1
Total number of Bytes in EEPROM
08
08
08
08
2
Memory Type (DDR2)
08
08
08
08
3
Number of Row Addresses
0E
0E
0E
0E
4
Number of Column Addresses
0A
0B
0A
0B
5
DIMM Rank and Stacking Information
60
60
61
61
6
Data Width
48
48
48
48
7
Not used
00
00
00
00
8
Interface Voltage Level
05
05
05
05
9
tCK @ CLMAX (Byte 18) [ns]
tAC SDRAM @ CLMAX (Byte 18) [ns]
50
50
50
50
10
60
60
60
60
11
Error Correction Support (non-ECC, ECC)
02
02
02
02
12
Refresh Rate and Type
82
82
82
82
13
Primary SDRAM Width
08
04
08
04
14
Error Checking SDRAM Width
08
04
08
04
15
Not used
00
00
00
00
16
Burst Length Supported
0C
0C
0C
0C
17
Number of Banks on SDRAM Device
04
04
04
04
18
Supported CAS Latencies
38
38
38
38
19
DIMM Mechanical Characteristics
01
01
01
01
20
DIMM Type Information
01
01
01
01
21
DIMM Attributes
04
05
05
07
22
Component Attributes
07
07
07
07
Rev. 1.2, 2007-01
03292006-JXZQ-CG6T
41
Internet Data Sheet
Product Type
HYS72T64000HR–5–B
HYS72T128000HR–5–B
HYS72T128020HR–5–B
HYS72T256220HR–5–B
HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM
Organization
512MB
1 GByte
1 GByte
2 GByte
×72
×72
×72
×72
1 Rank (×8)
1 Rank (×4)
2 Ranks (×8) 2 Ranks (×4)
Label Code
PC2–
3200R–333
PC2–
3200R–333
PC2–
3200R–333
PC2–
3200R–333
JEDEC SPD Revision
Rev. 1.2
Rev. 1.2
Rev. 1.2
Rev. 1.2
Byte#
Description
HEX
HEX
HEX
HEX
23
tCK @ CLMAX -1 (Byte 18) [ns]
tAC SDRAM @ CLMAX -1 [ns]
tCK @ CLMAX -2 (Byte 18) [ns]
tAC SDRAM @ CLMAX -2 [ns]
tRP.MIN [ns]
tRRD.MIN [ns]
tRCD.MIN [ns]
tRAS.MIN [ns]
24
25
26
27
28
29
30
50
50
50
50
60
60
60
60
50
50
50
50
60
60
60
60
3C
3C
3C
3C
1E
1E
1E
1E
3C
3C
3C
3C
28
28
28
28
31
Module Density per Rank
80
01
80
01
32
tAS.MIN and tCS.MIN [ns]
tAH.MIN and tCH.MIN [ns]
tDS.MIN [ns]
tDH.MIN [ns]
tWR.MIN [ns]
tWTR.MIN [ns]
tRTP.MIN [ns]
35
35
35
35
47
47
47
47
15
15
15
15
27
27
27
27
3C
3C
3C
3C
28
28
28
28
1E
1E
1E
1E
33
34
35
36
37
38
39
Analysis Characteristics
00
00
00
00
40
00
00
00
00
37
37
37
37
69
69
69
69
80
80
80
80
23
23
23
23
45
tRC and tRFC Extension
tRC.MIN [ns]
tRFC.MIN [ns]
tCK.MAX [ns]
tDQSQ.MAX [ns]
tQHS.MAX [ns]
2D
2D
2D
2D
46
PLL Relock Time
0F
0F
0F
0F
47
TCASE.MAX Delta / ∆T4R4W Delta
50
50
50
50
48
Psi(T-A) DRAM
7A
7A
7A
7A
41
42
43
44
Rev. 1.2, 2007-01
03292006-JXZQ-CG6T
42
Internet Data Sheet
Product Type
HYS72T64000HR–5–B
HYS72T128000HR–5–B
HYS72T128020HR–5–B
HYS72T256220HR–5–B
HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM
Organization
512MB
1 GByte
1 GByte
2 GByte
×72
×72
×72
×72
1 Rank (×8)
1 Rank (×4)
2 Ranks (×8) 2 Ranks (×4)
Label Code
PC2–
3200R–333
PC2–
3200R–333
PC2–
3200R–333
PC2–
3200R–333
JEDEC SPD Revision
Rev. 1.2
Rev. 1.2
Rev. 1.2
Rev. 1.2
Byte#
Description
HEX
HEX
HEX
HEX
49
∆T0 (DT0)
3B
3B
3B
3B
50
∆T2N (DT2N, UDIMM) or ∆T2Q (DT2Q, RDIMM)
25
25
25
25
51
∆T2P (DT2P)
36
36
36
36
52
∆T3N (DT3N)
1E
1E
1E
1E
53
∆T3P.fast (DT3P fast)
38
38
38
38
54
∆T3P.slow (DT3P slow)
2A
2A
2A
2A
55
∆T4R (DT4R) / ∆T4R4W Sign (DT4R4W)
38
38
38
38
56
∆T5B (DT5B)
1D
1D
1D
1D
57
∆T7 (DT7)
21
21
21
21
58
Psi(ca) PLL
C4
C4
C4
C4
59
Psi(ca) REG
8C
8C
8C
8C
60
∆TPLL (DTPLL)
59
59
59
59
61
∆TREG (DTREG) / Toggle Rate
5C
5C
5C
5C
62
SPD Revision
12
12
12
12
63
Checksum of Bytes 0-62
B2
2D
B4
30
64
Manufacturer’s JEDEC ID Code (1)
7F
7F
7F
7F
65
Manufacturer’s JEDEC ID Code (2)
7F
7F
7F
7F
66
Manufacturer’s JEDEC ID Code (3)
7F
7F
7F
7F
67
Manufacturer’s JEDEC ID Code (4)
7F
7F
7F
7F
68
Manufacturer’s JEDEC ID Code (5)
7F
7F
7F
7F
69
Manufacturer’s JEDEC ID Code (6)
51
51
51
51
70
Manufacturer’s JEDEC ID Code (7)
00
00
00
00
71
Manufacturer’s JEDEC ID Code (8)
00
00
00
00
72
Module Manufacturer Location
xx
xx
xx
xx
73
Product Type, Char 1
37
37
37
37
74
Product Type, Char 2
32
32
32
32
Rev. 1.2, 2007-01
03292006-JXZQ-CG6T
43
Internet Data Sheet
Product Type
HYS72T64000HR–5–B
HYS72T128000HR–5–B
HYS72T128020HR–5–B
HYS72T256220HR–5–B
HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM
Organization
512MB
1 GByte
1 GByte
2 GByte
×72
×72
×72
×72
1 Rank (×8)
1 Rank (×4)
2 Ranks (×8) 2 Ranks (×4)
Label Code
PC2–
3200R–333
PC2–
3200R–333
PC2–
3200R–333
PC2–
3200R–333
JEDEC SPD Revision
Rev. 1.2
Rev. 1.2
Rev. 1.2
Rev. 1.2
Byte#
Description
HEX
HEX
HEX
HEX
75
Product Type, Char 3
54
54
54
54
76
Product Type, Char 4
36
31
31
32
77
Product Type, Char 5
34
32
32
35
78
Product Type, Char 6
30
38
38
36
79
Product Type, Char 7
30
30
30
32
80
Product Type, Char 8
30
30
32
32
81
Product Type, Char 9
48
30
30
30
82
Product Type, Char 10
52
48
48
48
83
Product Type, Char 11
35
52
52
52
84
Product Type, Char 12
42
35
35
35
85
Product Type, Char 13
20
42
42
42
86
Product Type, Char 14
20
20
20
20
87
Product Type, Char 15
20
20
20
20
88
Product Type, Char 16
20
20
20
20
89
Product Type, Char 17
20
20
20
20
90
Product Type, Char 18
20
20
20
20
91
Module Revision Code
4x
4x
4x
2x
92
Test Program Revision Code
xx
xx
xx
xx
93
Module Manufacturing Date Year
xx
xx
xx
xx
94
Module Manufacturing Date Week
xx
xx
xx
xx
95 - 98
Module Serial Number
xx
xx
xx
xx
99 - 127 Not used
00
00
00
00
128 255
FF
FF
FF
FF
Blank for customer use
Rev. 1.2, 2007-01
03292006-JXZQ-CG6T
44
Internet Data Sheet
HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM
5
Package Outlines
This chapter contains the package outlines.
FIGURE 5
Package Outline Raw Card A L-DIM-240-11
$ % &
0$
;
[
&
“ $
“
“
%
“
'HWD LOR IF RQWD FWV “ $ % &
%XUUPD [ DOORZ
H G
*/' Notes
1. Drawing according to ISO 8015
2. Dimensions in mm
3. General tolerances +/- 0.15
Rev. 1.2, 2007-01
03292006-JXZQ-CG6T
45
Internet Data Sheet
HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM
FIGURE 6
Package Outline Raw Card C L-DIM-240-13
$ % &
0
$;
[
&
“
$
“ “
%
“ 'HWDLOR IF RQWD FWV
“ $ % &
%XUUP
D[ D OORZH G */' Notes
1. Drawing according to ISO 8015
2. Dimensions in mm
3. General tolerances +/- 0.15
Rev. 1.2, 2007-01
03292006-JXZQ-CG6T
46
Internet Data Sheet
HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM
FIGURE 7
Package Outline Raw Card B L-DIM-240-12
$ % &
0$
;
[
&
“ $
“
“ %
“
'HWD LORIFR QWD FWV “ $ % &
%XUUPD [ DOORZ
H G
*/' Notes
1. Drawing according to ISO 8015
2. Dimensions in mm
3. General tolerances +/- 0.15
Rev. 1.2, 2007-01
03292006-JXZQ-CG6T
47
Internet Data Sheet
HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM
FIGURE 8
Package Outline Raw Card J L-DIM-240-20
$ % &
0$
;
[
&
“
$
“
“
%
0,1
“ 'HWD LORIF RQWD FWV “ $ % &
%XUUPD [ DOORZ
H G
*/' Notes
1. Drawing according to ISO 8015
2. Dimensions in mm
3. General tolerances +/- 0.15
Rev. 1.2, 2007-01
03292006-JXZQ-CG6T
48
Internet Data Sheet
HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM
6
Product Type Nomenclature
Qimonda’s nomenclature uses simple coding combined with
some propriatory coding. Table 26 provides examples for
module and component product type number as well as the
field number. The detailed field description together with
possible values and coding explanation is listed for modules
in Table 27 and for components in Table 28.
TABLE 26
Nomenclature Fields and Examples
Example for
Field Number
1
2
3
4
5
6
7
8
9
10
11
Micro-DIMM
HYS
64
T
64/128
0
2
0
K
M
–5
–A
DDR2 DRAM
HYB
18
T
512/1G 16
0
A
C
–5
—
TABLE 27
DDR2 DIMM Nomenclature
Field
Description
Values
Coding
1
Qimonda Module Prefix
HYS
Constant
2
Module Data Width [bit]
64
Non-ECC
72
ECC
3
DRAM Technology
T
DDR2
4
Memory Density per I/O [Mbit];
Module Density1)
32
256 MByte
64
512 MByte
128
1 GByte
256
2 GByte
512
4 GByte
5
Raw Card Generation
0 .. 9
Look up table
6
Number of Module Ranks
0, 2, 4
1, 2, 4
7
Product Variations
0 .. 9
Look up table
8
Package, Lead-Free Status
A .. Z
Look up table
9
Module Type
D
SO-DIMM
Rev. 1.2, 2007-01
03292006-JXZQ-CG6T
M
Micro-DIMM
R
Registered
U
Unbuffered
F
Fully Buffered
49
Internet Data Sheet
HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM
Field
Description
Values
Coding
10
Speed Grade
–2.5F
PC2–6400 5–5–5
–2.5
PC2–6400 6–6–6
11
Die Revision
–3
PC2–5300 4–4–4
–3S
PC2–5300 5–5–5
–3.7
PC2–4200 4–4–4
–5
PC2–3200 3–3–3
–A
First
–B
Second
1) Multiplying “Memory Density per I/O” with “Module Data Width” and dividing by 8 for Non-ECC and 9 for ECC modules gives the overall
module memory density in MBytes as listed in column “Coding”.
TABLE 28
DDR2 DRAM Nomenclature
Field
Description
Values
Coding
1
2
Qimonda Component Prefix
HYB
Constant
Interface Voltage [V]
18
SSTL_18
3
DRAM Technology
T
DDR2
4
Component Density [Mbit]
256
256 Mbit
512
512 Mbit
1G
1 Gbit
2G
2 Gbit
40
×4
80
×8
16
×16
0 .. 9
Look up table
5+6
Number of I/Os
7
Product Variations
8
Die Revision
9
10
Package, Lead-Free Status
Speed Grade
Rev. 1.2, 2007-01
03292006-JXZQ-CG6T
A
First
B
Second
C
FBGA, lead-containing
F
FBGA, lead-free
–25F
DDR2-800 5-5-5
–2.5
DDR2-800 6-6-6
–3
DDR2-667 4-4-4
–3S
DDR2-667 5-5-5
–3.7
DDR2-533 4-4-4
–5
DDR2-400 3-3-3
50
Internet Data Sheet
HYS72T[64/128/256]xxxHR–[3S/3.7/5]–B
240-Pin Registered DDR2 SDRAM
Table of Contents
1
1.1
1.2
Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
2
2.1
Pin Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
Pin Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
3
3.1
3.2
3.3
3.3.1
3.3.2
3.3.3
3.4
Electrical Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Absolute Maximum Ratings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DC Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Timing Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Speed Grade Definitions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Component AC Timing Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
ODT AC Electrical Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IDD Specifications and Conditions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4
SPD Codes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 32
5
Package Outlines . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 45
6
Product Type Nomenclature . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 49
14
14
15
16
16
17
26
27
Table of Contents . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 51
Rev. 1.2, 2007-01
03292006-JXZQ-CG6T
51
Internet Data Sheet
Edition 2007-01
Published by Qimonda AG
Gustav-Heinemann-Ring 212
D-81739 München, Germany
© Qimonda AG 2007.
All Rights Reserved.
Legal Disclaimer
The information given in this Internet Data Sheet shall in no event be regarded as a guarantee of conditions or characteristics
(“Beschaffenheitsgarantie”). With respect to any examples or hints given herein, any typical values stated herein and/or any
information regarding the application of the device, Qimonda hereby disclaims any and all warranties and liabilities of any kind,
including without limitation warranties of non-infringement of intellectual property rights of any third party.
Information
For further information on technology, delivery terms and conditions and prices please contact your nearest Qimonda Office.
Warnings
Due to technical requirements components may contain dangerous substances. For information on the types in question please
contact your nearest Qimonda Office.
Qimonda Components may only be used in life-support devices or systems with the express written approval of Qimonda, if a
failure of such components can reasonably be expected to cause the failure of that life-support device or system, or to affect
the safety or effectiveness of that device or system. Life support devices or systems are intended to be implanted in the human
body, or to support and/or maintain and sustain and/or protect human life. If they fail, it is reasonable to assume that the health
of the user or other persons may be endangered.
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