256MB, 512MB, 1GB (x64, SR) 200

256MB, 512MB, 1GB (x64, SR) 200-Pin DDR2 SODIMM
Features
DDR2 SDRAM SODIMM
MT4HTF3264HZ – 256MB
MT4HTF6464HZ – 512MB
MT4HTF12864HZ – 1GB
Features
Figure 1: 200-Pin SODIMM (MO-224 R/C C)
• 200-pin, small-outline dual in-line memory module
(SODIMM)
• Fast data transfer rates: PC2-3200, PC2-4200,
PC2-5300, or PC2-6400
• 256MB (32 Meg x 64), 512MB (64 Meg x 64), 1GB
(128 Meg x 64)
• VDD = V DDQ = 1.8V
• VDDSPD = 1.7–3.6V
• JEDEC-standard 1.8V I/O (SSTL_18-compatible)
• Differential data strobe (DQS, DQS#) option
• 4n-bit prefetch architecture
• Multiple internal device banks for concurrent operation
• Programmable CAS latency (CL)
• Posted CAS additive latency (AL)
• WRITE latency = READ latency - 1 tCK
• Programmable burst lengths (BL): 4 or 8
• Adjustable data-output drive strength
• 64ms, 8192-cycle refresh
• On-die termination (ODT)
• Halogen-free
• Serial presence detect (SPD) with EEPROM
• Gold edge contacts
• Single rank
Module height: 30mm (1.181in)
Options
Marking
• Operating temperature
– Commercial (0°C ≤ T A ≤ +70°C)
– Industrial (–40°C ≤ T A ≤ +85°C)1
• Package
– 200-pin DIMM (halogen-free)
• Frequency/CL2
– 2.5ns @ CL = 5 (DDR2-800)
– 2.5ns @ CL = 6 (DDR2-800)
– 3.0ns @ CL = 5 (DDR2-667)
Notes:
None
I
Z
-80E
-800
-667
1. Contact Micron for industrial temperature
module offerings.
2. CL = CAS (READ) latency.
Table 1: Key Timing Parameters
Data Rate (MT/s)
tRCD
tRP
tRC
CL = 3
(ns)
(ns)
(ns)
533
400
12.5
12.5
55
667
533
400
15
15
55
667
553
400
15
15
55
–
–
553
400
15
15
55
–
–
400
400
15
15
55
Speed
Grade
Industry
Nomenclature
CL = 6
CL = 5
CL = 4
-80E
PC2-6400
800
800
-800
PC2-6400
800
-667
PC2-5300
–
-53E
PC2-4200
-40E
PC2-3200
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htf4c32_64_128x64hz.pdf - Rev. D 4/14 EN
1
Micron Technology, Inc. reserves the right to change products or specifications without notice.
© 2009 Micron Technology, Inc. All rights reserved.
Products and specifications discussed herein are subject to change by Micron without notice.
256MB, 512MB, 1GB (x64, SR) 200-Pin DDR2 SODIMM
Features
Table 2: Addressing
Parameter
Refresh count
Row address
256MB
512MB
1GB
8K
8K
8K
8K A[12:0]
8K A[12:0]
16K A[13:0]
Device bank address
4 BA[1:0]
8 BA[2:0]
8 BA[2:0]
Device configuration
512Mb (32 Meg x 16)
1Gb (64 Meg x 16)
2Gb (128 Meg x16)
1K A[9:0]
1K A[9:0]
1K A[9:0]
1 S0#
1 S0#
1 S0#
Column address
Module rank address
Table 3: Part Numbers and Timing Parameters – 256MB
Base device: MT47H32M16,1 512Mb DDR2 SDRAM
Module
Part Number2
Density
Configuration
Module
Bandwidth
Memory Clock/
Data Rate
Clock Cycles
(CL-tRCD-tRP)
MT4HTF3264H(I)Z-80E__
256MB
32 Meg x 64
6.4 GB/s
2.5ns/800 MT/s
5-5-5
MT4HTF3264H(I)Z-800__
256MB
32 Meg x 64
6.4 GB/s
2.5ns/800 MT/s
6-6-6
MT4HTF3264H(I)Z-667__
256MB
32 Meg x 64
5.3 GB/s
3.0ns/667 MT/s
5-5-5
Module
Bandwidth
Memory Clock/
Data Rate
Clock Cycles
(CL-tRCD-tRP)
Table 4: Part Numbers and Timing Parameters – 512MB
Base device: MT47H64M16,1 1Gb DDR2 SDRAM
Module
Part Number2
Density
Configuration
MT4HTF6464H(I)Z-80E__
512MB
64 Meg x 64
6.4 GB/s
2.5ns/800 MT/s
5-5-5
MT4HTF6464H(I)Z-800__
512MB
64 Meg x 64
6.4 GB/s
2.5ns/800 MT/s
6-6-6
MT4HTF6464H(I)Z-667__
512MB
64 Meg x 64
5.3 GB/s
3.0ns/667 MT/s
5-5-5
Module
Bandwidth
Memory Clock/
Data Rate
Clock Cycles
(CL-tRCD-tRP)
Table 5: Part Numbers and Timing Parameters – 1GB Modules
Base device: MT47H128M16,1 2Gb DDR2 SDRAM
Module
Part Number2
Density
Configuration
MT4HTF12864H(I)Z-80E__
1GB
128 Meg x 64
6.4 GB/s
2.5ns/800 MT/s
5-5-5
MT4HTF12864H(I)Z-800__
1GB
128 Meg x 64
6.4 GB/s
2.5ns/800 MT/s
6-6-6
MT4HTF12864H(I)Z-667__
1GB
128 Meg x 64
5.3 GB/s
3.0ns/667 MT/s
5-5-5
Notes:
1. The data sheet for the base device can be found on Micron’s Web site.
2. All part numbers end with a two-place code (not shown) that designates component and PCB revisions.
Consult factory for current revision codes. Example: MT4HTF6464HZ-667M1.
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256MB, 512MB, 1GB (x64, SR) 200-Pin DDR2 SODIMM
Pin Assignments
Pin Assignments
Table 6: Pin Assignments
200-Pin DDR2 SODIMM Front
200-Pin DDR2 SODIMM Back
Pin
Symbol
Pin
Symbol
Pin
Symbol
Pin
Symbol
Pin
Symbol
Pin
Symbol
Pin
Symbol
Pin
Symbol
1
VREF
51
DQS2
101
A1
151
DQ42
2
VSS
52
DM2
102
A0
152
DQ46
3
VSS
53
VSS
103
VDD
153
DQ43
4
DQ4
54
VSS
104
VDD
154
DQ47
5
DQ0
55
DQ18
105
A10
155
VSS
6
DQ5
56
DQ22
106
BA1
156
VSS
7
DQ1
57
DQ19
107
BA0
157
DQ48
8
VSS
58
DQ23
108
RAS#
158
DQ52
9
VSS
59
VSS
109
WE#
159
DQ49
10
DM0
60
VSS
110
S0#
160
DQ53
11
DQS0#
61
DQ24
111
VDD
161
VSS
12
VSS
62
DQ28
112
VDD
162
VSS
13
DQS0
63
DQ25
113
CAS#
163
NC
14
DQ6
64
DQ29
114
ODT0
164
CK1
15
VSS
65
VSS
115
NC
165
VSS
16
DQ7
66
VSS
116
NC/A132
166
CK1#
17
DQ2
67
DM3
117
VDD
167
DQS6#
18
VSS
68
DQS3#
118
VDD
168
VSS
19
DQ3
69
NC
119
NC
169
DQS6
20
DQ12
70
DQS3
120
NC
170
DM6
21
VSS
71
VSS
121
VSS
171
VSS
22
DQ13
72
VSS
122
VSS
172
VSS
23
DQ8
73
DQ26
123
DQ32
173
DQ50
24
VSS
74
DQ30
124
DQ36
174
DQ54
25
DQ9
75
DQ27
125
DQ33
175
DQ51
26
DM1
76
DQ31
126
DQ37
176
DQ55
27
VSS
77
VSS
127
VSS
177
VSS
28
VSS
78
VSS
128
VSS
178
VSS
29
DQS1#
79
CKE0
129
DQS4#
179
DQ56
30
CK0
80
NC
130
DM4
180
DQ60
31
DQS1
81
VDD
131
DQS4
181
DQ57
32
CK0#
82
VDD
132
VSS
182
DQ61
33
VSS
83
NC
133
VSS
183
VSS
34
VSS
84
NC
134
DQ38
184
VSS
35
DQ10
85
NC/BA21
135
DQ34
185
DM7
36
DQ14
86
NC
136
DQ39
186
DQS7#
37
DQ11
87
VDD
137
DQ35
187
VSS
38
DQ15
88
VDD
138
VSS
188
DQS7
39
VSS
89
A12
139
VSS
189
DQ58
40
VSS
90
A11
140
DQ44
190
VSS
41
VSS
91
A9
141
DQ40
191
DQ59
42
VSS
92
A7
142
DQ45
192
DQ62
43
DQ16
93
A8
143
DQ41
193
VSS
44
DQ20
94
A6
144
VSS
194
DQ63
45
DQ17
95
VDD
145
VSS
195
SDA
46
DQ21
96
VDD
146
DQS5#
196
VSS
47
VSS
97
A5
147
DM5
197
SCL
48
VSS
98
A4
148
DQS5
198
SA0
49
DQS2#
99
A3
149
VSS
199
VDDSPD
50
NC
100
A2
150
VSS
200
SA1
Notes:
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1. Pin 85 is NC for 256MB, BA2 for 512MB and 1GB.
2. Pin 116 is NC for 256MB and 512MB, A13 for 1GB.
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Micron Technology, Inc. reserves the right to change products or specifications without notice.
© 2009 Micron Technology, Inc. All rights reserved.
256MB, 512MB, 1GB (x64, SR) 200-Pin DDR2 SODIMM
Pin Descriptions
Pin Descriptions
The pin description table below is a comprehensive list of all possible pins for all DDR2
modules. All pins listed may not be supported on this module. See Pin Assignments for
information specific to this module.
Table 7: Pin Descriptions
Symbol
Type
Description
Ax
Input
Address inputs: Provide the row address for ACTIVE commands, and the column address and auto precharge bit (A10) for READ/WRITE commands, to select one location
out of the memory array in the respective bank. A10 sampled during a PRECHARGE
command determines whether the PRECHARGE applies to one bank (A10 LOW, bank
selected by BAx) or all banks (A10 HIGH). The address inputs also provide the op-code
during a LOAD MODE command. See the Pin Assignments Table for density-specific
addressing information.
BAx
Input
Bank address inputs: Define the device bank to which an ACTIVE, READ, WRITE, or
PRECHARGE command is being applied. BA define which mode register (MR0, MR1,
MR2, and MR3) is loaded during the LOAD MODE command.
CKx,
CK#x
Input
Clock: Differential clock inputs. All control, command, and address input signals are
sampled on the crossing of the positive edge of CK and the negative edge of CK#.
CKEx
Input
Clock enable: Enables (registered HIGH) and disables (registered LOW) internal circuitry and clocks on the DDR2 SDRAM.
DMx
Input
Data mask (x8 devices only): DM is an input mask signal for write data. Input data
is masked when DM is sampled HIGH, along with that input data, during a write access. Although DM pins are input-only, DM loading is designed to match that of the
DQ and DQS pins.
ODTx
Input
On-die termination: Enables (registered HIGH) and disables (registered LOW) termination resistance internal to the DDR2 SDRAM. When enabled in normal operation,
ODT is only applied to the following pins: DQ, DQS, DQS#, DM, and CB. The ODT input
will be ignored if disabled via the LOAD MODE command.
Par_In
Input
Parity input: Parity bit for Ax, RAS#, CAS#, and WE#.
RAS#, CAS#, WE#
Input
Command inputs: RAS#, CAS#, and WE# (along with S#) define the command being
entered.
RESET#
Input
Reset: Asynchronously forces all registered outputs LOW when RESET# is LOW. This
signal can be used during power-up to ensure that CKE is LOW and DQ are High-Z.
S#x
Input
Chip select: Enables (registered LOW) and disables (registered HIGH) the command
decoder.
SAx
Input
Serial address inputs: Used to configure the SPD EEPROM address range on the I2C
bus.
SCL
Input
Serial clock for SPD EEPROM: Used to synchronize communication to and from the
SPD EEPROM on the I2C bus.
CBx
I/O
Check bits. Used for system error detection and correction.
DQx
I/O
Data input/output: Bidirectional data bus.
DQSx,
DQS#x
I/O
Data strobe: Travels with the DQ and is used to capture DQ at the DRAM or the controller. Output with read data; input with write data for source synchronous operation. DQS# is only used when differential data strobe mode is enabled via the LOAD
MODE command.
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256MB, 512MB, 1GB (x64, SR) 200-Pin DDR2 SODIMM
Pin Descriptions
Table 7: Pin Descriptions (Continued)
Symbol
Type
SDA
I/O
Serial data: Used to transfer addresses and data into and out of the SPD EEPROM on
the I2C bus.
RDQSx,
RDQS#x
Output
Redundant data strobe (x8 devices only): RDQS is enabled/disabled via the LOAD
MODE command to the extended mode register (EMR). When RDQS is enabled, RDQS
is output with read data only and is ignored during write data. When RDQS is disabled, RDQS becomes data mask (see DMx). RDQS# is only used when RDQS is enabled
and differential data strobe mode is enabled.
Err_Out#
Description
Output
Parity error output: Parity error found on the command and address bus.
(open drain)
VDD/VDDQ
Supply
Power supply: 1.8V ±0.1V. The component VDD and VDDQ are connected to the module VDD.
VDDSPD
Supply
SPD EEPROM power supply: 1.7–3.6V.
VREF
Supply
Reference voltage: VDD/2.
VSS
Supply
Ground.
NC
–
No connect: These pins are not connected on the module.
NF
–
No function: These pins are connected within the module, but provide no functionality.
NU
–
Not used: These pins are not used in specific module configurations/operations.
RFU
–
Reserved for future use.
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© 2009 Micron Technology, Inc. All rights reserved.
256MB, 512MB, 1GB (x64, SR) 200-Pin DDR2 SODIMM
Functional Block Diagram
Functional Block Diagram
Figure 2: Functional Block Diagram
S0#
BA[2/1:0]: DDR2 SDRAM
A[13/12:0]: DDR2 SDRAM
BA[2/1:0]
A[13/12:0]
DQS0
DQS0#
DM0
DQS1
DQS1#
DM1
DQ0
DQ1
DQ2
DQ3
DQ4
DQ5
DQ6
DQ7
DQ8
DQ9
DQ10
DQ11
DQ12
DQ13
DQ14
DQ15
DQS2
DQS2#
DM2
DQS
DQS#
DM
DQ
DQ
DQ
DQ
DQ
DQ
DQ
DQ
DQS
DQS#
DM
DQ
DQ
DQ
DQ
DQ
DQ
DQ
DQ
DQS
DQS#
DM
DQ16
DQ17
DQ18
DQ19
DQ20
DQ21
DQ22
DQ23
DQS3
DQS3#
DM3
DQ24
DQ25
DQ26
DQ27
DQ28
DQ29
DQ30
DQ31
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DQ
DQ
DQ
DQ
DQ
DQ
DQ
DQ
DQS
DQS#
DM
DQ
DQ
DQ
DQ
DQ
DQ
DQ
DQ
CS#
DQS
DQS#
DM
DQ
DQ
DQ
DQ
DQ
DQ
DQ
DQ
DQS
DQS#
DM
DQ
DQ
DQ
DQ
DQ
DQ
DQ
DQ
DQS4
DQS4#
DM4
U1
DQS5
DQS5#
DM5
DQ32
DQ33
DQ34
DQ35
DQ36
DQ37
DQ38
DQ39
DQ40
DQ41
DQ42
DQ43
DQ44
DQ45
DQ46
DQ47
CS#
DQS6
DQS6#
DM6
DQS
DQS#
DM
DQ48
DQ49
DQ50
DQ51
DQ52
DQ53
DQ54
DQ55
U2
DQ
DQ
DQ
DQ
DQ
DQ
DQ
DQ
DQS
DQS#
DM
DQ
DQ
DQ
DQ
DQ
DQ
DQ
DQ
DQS7
DQS7#
DM7
DQ56
DQ57
DQ58
DQ59
DQ60
DQ61
DQ62
DQ63
6
CS#
RAS#: DDR2 SDRAM
CAS#: DDR2 SDRAM
WE#: DDR2 SDRAM
CKE0: DDR2 SDRAM
ODT0: DDR2 SDRAM
RAS#
CAS#
WE#
CKE0
ODT0
VDDSPD
U3
Serial PD
VDD
DDR2 SDRAM
VREF
DDR2 SDRAM
VSS
DDR2 SDRAM
SCL
U5
Serial PD
SDA
WP A0 A1 A2
SA0 SA1
VSS
VSS
CK0
CK0#
DDR SDRAM
U1, U2
CK1
CK1#
DDR SDRAM
U3, U4
CS#
U4
Micron Technology, Inc. reserves the right to change products or specifications without notice.
© 2009 Micron Technology, Inc. All rights reserved.
256MB, 512MB, 1GB (x64, SR) 200-Pin DDR2 SODIMM
General Description
General Description
DDR2 SDRAM modules are high-speed, CMOS dynamic random access memory modules that use internally configured 4 or 8-bank DDR2 SDRAM devices. DDR2 SDRAM
modules use DDR architecture to achieve high-speed operation. DDR2 architecture is
essentially a 4n-prefetch architecture with an interface designed to transfer two data
words per clock cycle at the I/O pins. A single read or write access for the DDR2 SDRAM
module effectively consists of a single 4n-bit-wide, one-clock-cycle data transfer at the
internal DRAM core and eight corresponding n-bit-wide, one-half-clock-cycle data
transfers at the I/O pins.
DDR2 modules use two sets of differential signals: DQS, DQS# to capture data and CK
and CK# to capture commands, addresses, and control signals. Differential clocks and
data strobes ensure exceptional noise immunity for these signals and provide precise
crossing points to capture input signals. A bidirectional data strobe (DQS, DQS#) is
transmitted externally, along with data, for use in data capture at the receiver. DQS is a
strobe transmitted by the DDR2 SDRAM device during READs and by the memory controller during WRITEs. DQS is edge-aligned with data for READs and center-aligned
with data for WRITEs.
DDR2 SDRAM modules operate from a differential clock (CK and CK#); the crossing of
CK going HIGH and CK# going LOW will be referred to as the positive edge of CK. Commands (address and control signals) are registered at every positive edge of CK. Input
data is registered on both edges of DQS, and output data is referenced to both edges of
DQS, as well as to both edges of CK.
Serial Presence-Detect EEPROM Operation
DDR2 SDRAM modules incorporate serial presence-detect. The SPD data is stored in a
256-byte EEPROM. The first 128 bytes are programmed by Micron to identify the module type and various SDRAM organizations and timing parameters. The remaining 128
bytes of storage are available for use by the customer. System READ/WRITE operations
between the master (system logic) and the slave EEPROM device occur via a standard
I2C bus using the DIMM’s SCL (clock) SDA (data), and SA (address) pins. Write protect
(WP) is connected to V SS, permanently disabling hardware write protection.
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© 2009 Micron Technology, Inc. All rights reserved.
256MB, 512MB, 1GB (x64, SR) 200-Pin DDR2 SODIMM
Electrical Specifications
Electrical Specifications
Stresses greater than those listed may cause permanent damage to the module. This is a
stress rating only, and functional operation of the module at these or any other conditions outside those indicated in the device data sheet are not implied. Exposure to absolute maximum rating conditions for extended periods may adversely affect reliability.
Table 8: Absolute Maximum Ratings
Symbol
Parameter
Min
Max
Units
VDD/VDDQ
VDD/VDDQ supply voltage relative to VSS
–0.5
2.3
V
VIN, VOUT
Voltage on any pin relative to VSS
–0.5
2.3
V
Input leakage current; Any input 0V ≤ VIN ≤ Address inputs, RAS#, CAS#,
VDD; VREF input 0V ≤ VIN ≤ 0.95V; (All other WE#, S#, CKE, ODT, BA
pins not under test = 0V)
CK, CK#
–20
20
µA
–10
10
–5
5
Output leakage current; 0V ≤ VOUT ≤ VDDQ; DQ, DQS, DQS#
DQ and ODT are disabled
–5
5
µA
VREF leakage current; VREF = valid VREF level
–8
8
µA
II
DM
IOZ
IVREF
TA
Module ambient operating temperature
Commercial
Industrial
TC1
DDR2 SDRAM component operating temperature2
Notes:
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Commercial
Industrial
0
+70
°C
–40
+85
°C
0
+85
°C
–40
+95
°C
1. The refresh rate is required to double when TC exceeds 85°C.
2. For further information, refer to technical note TN-00-08: "Thermal Applications," available on Micron’s Web site.
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© 2009 Micron Technology, Inc. All rights reserved.
256MB, 512MB, 1GB (x64, SR) 200-Pin DDR2 SODIMM
DRAM Operating Conditions
DRAM Operating Conditions
Recommended AC operating conditions are given in the DDR2 component data sheets.
Component specifications are available on Micron's Web site. Module speed grades correlate with component speed grades.
Table 9: Module and Component Speed Grades
DDR2 components may exceed the listed module speed grades; module may not be available in all listed speed grades
Module Speed Grade
Component Speed Grade
-1GA
-187E
-80E
-25E
-800
-25
-667
-3
-53E
-37E
-40E
-5E
Design Considerations
Simulations
Micron memory modules are designed to optimize signal integrity through carefully designed terminations, controlled board impedances, routing topologies, trace length
matching, and decoupling. However, good signal integrity starts at the system level. Micron encourages designers to simulate the signal characteristics of the system's memory bus to ensure adequate signal integrity of the entire memory system.
Power
Operating voltages are specified at the DRAM, not at the edge connector of the module.
Designers must account for any system voltage drops at anticipated power levels to ensure the required supply voltage is maintained.
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256MB, 512MB, 1GB (x64, SR) 200-Pin DDR2 SODIMM
IDD Specifications
IDD Specifications
Table 10: DDR2 IDD Specifications and Conditions – 256MB (Die Revision G)
Values shown for MT47H32M16 DDR2 SDRAM only and are computed from values specified in the 512Mb (32 Meg x 16)
component data sheet
-80E/
Parameter
Symbol
-800
-667
Units
Operating one bank active-precharge current:tCK = tCK (IDD), tRC = tRC (IDD),
tRAS = tRAS MIN (I ); CKE is HIGH, S# is HIGH between valid commands; Address bus
DD
inputs are switching; Data bus inputs are switching
IDD0
320
300
mA
Operating one bank active-read-precharge current: IOUT = 0mA; BL = 4, CL = CL
(IDD), AL = 0; tCK = tCK (IDD), tRC = tRC (IDD), tRAS = tRAS MIN (IDD), tRCD = tRCD (IDD);
CKE is HIGH, S# is HIGH between valid commands; Address bus inputs are switching;
Data pattern is same as IDD4W
IDD1
380
360
mA
Precharge power-down current: All device banks idle; tCK = tCK (IDD); CKE is LOW;
Other control and address bus inputs are stable; Data bus inputs are floating
IDD2P
28
28
mA
Precharge quiet standby current: All device banks idle; tCK = tCK (IDD); CKE is
HIGH, S# is HIGH; Other control and address bus inputs are stable; Data bus inputs
are floating
IDD2Q
104
96
mA
Precharge standby current: All device banks idle; tCK = tCK (IDD); CKE is HIGH, S# is
HIGH; Other control and address bus inputs are switching; Data bus inputs are
switching
IDD2N
120
108
mA
Active power-down current: All device banks open; tCK = tCK
(IDD); CKE is LOW; Other control and address bus inputs are stable;
Data bus inputs are floating
IDD3P
72
60
mA
36
36
Fast PDN exit
MR[12] = 0
Slow PDN exit
MR[12] = 1
Active standby current: All device banks open; tCK = tCK (IDD), tRAS = tRAS MAX
(IDD), tRP = tRP (IDD); CKE is HIGH, S# is HIGH between valid commands; Other control
and address bus inputs are switching; Data bus inputs are switching
IDD3N
140
128
mA
Operating burst write current: All device banks open; Continuous burst writes; BL
= 4, CL = CL (IDD), AL = 0; tCK = tCK (IDD), tRAS = tRAS MAX (IDD), tRP = tRP (IDD); CKE is
HIGH, S# is HIGH between valid commands; Address bus inputs are switching; Data
bus inputs are switching
IDD4W
640
540
mA
Operating burst read current: All device banks open; Continuous burst read, IOUT
= 0mA; BL = 4, CL = CL (IDD), AL = 0; tCK = tCK (IDD), tRAS = tRAS MAX (IDD), tRP = tRP
(IDD); CKE is HIGH, S# is HIGH between valid commands; Address bus inputs are
switching; Data bus inputs are switching
IDD4R
600
500
mA
Burst refresh current:tCK = tCK (IDD); REFRESH command at every tRFC (IDD) interval; CKE is HIGH, S# is HIGH between valid commands; Other control and address bus
inputs are switching; Data bus inputs are switching
IDD5
400
360
mA
Self refresh current: CK and CK# at 0V; CKE ≤ 0.2V; Other control and address bus
inputs are floating; Data bus inputs are floating
IDD6
28
28
mA
Operating bank interleave read current: All device banks 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 = tRCD (IDD); CKE is HIGH, S# is HIGH between valid
commands; Address bus inputs are stable during deselects; Data bus inputs are
switching
IDD7
860
800
mA
PDF: 09005aef83c05a5d
htf4c32_64_128x64hz.pdf - Rev. D 4/14 EN
10
Micron Technology, Inc. reserves the right to change products or specifications without notice.
© 2009 Micron Technology, Inc. All rights reserved.
256MB, 512MB, 1GB (x64, SR) 200-Pin DDR2 SODIMM
IDD Specifications
Table 11: DDR2 IDD Specifications and Conditions – 256MB (Die Revision H)
Values shown for MT47H32M16 DDR2 SDRAM only and are computed from values specified in the 512Mb (32 Meg x 16)
component data sheet
-80E/
Parameter
Symbol
-800
-667
Units
Operating one bank active-precharge current:tCK = tCK (IDD), tRC = tRC (IDD),
tRAS = tRAS MIN (I ); CKE is HIGH, S# is HIGH between valid commands; Address bus
DD
inputs are switching; Data bus inputs are switching
IDD0
TBD
TBD
mA
Operating one bank active-read-precharge current: IOUT = 0mA; BL = 4, CL = CL
(IDD), AL = 0; tCK = tCK (IDD), tRC = tRC (IDD), tRAS = tRAS MIN (IDD), tRCD = tRCD (IDD);
CKE is HIGH, S# is HIGH between valid commands; Address bus inputs are switching;
Data pattern is same as IDD4W
IDD1
TBD
TBD
mA
Precharge power-down current: All device banks idle; tCK = tCK (IDD); CKE is LOW;
Other control and address bus inputs are stable; Data bus inputs are floating
IDD2P
TBD
TBD
mA
Precharge quiet standby current: All device banks idle; tCK = tCK (IDD); CKE is
HIGH, S# is HIGH; Other control and address bus inputs are stable; Data bus inputs
are floating
IDD2Q
TBD
TBD
mA
Precharge standby current: All device banks idle; tCK = tCK (IDD); CKE is HIGH, S# is
HIGH; Other control and address bus inputs are switching; Data bus inputs are
switching
IDD2N
TBD
TBD
mA
Active power-down current: All device banks open; tCK = tCK
(IDD); CKE is LOW; Other control and address bus inputs are stable;
Data bus inputs are floating
IDD3P
TBD
TBD
mA
TBD
TBD
Fast PDN exit
MR[12] = 0
Slow PDN exit
MR[12] = 1
Active standby current: All device banks open; tCK = tCK (IDD), tRAS = tRAS MAX
(IDD), tRP = tRP (IDD); CKE is HIGH, S# is HIGH between valid commands; Other control
and address bus inputs are switching; Data bus inputs are switching
IDD3N
TBD
TBD
mA
Operating burst write current: All device banks open; Continuous burst writes; BL
= 4, CL = CL (IDD), AL = 0; tCK = tCK (IDD), tRAS = tRAS MAX (IDD), tRP = tRP (IDD); CKE is
HIGH, S# is HIGH between valid commands; Address bus inputs are switching; Data
bus inputs are switching
IDD4W
TBD
TBD
mA
Operating burst read current: All device banks open; Continuous burst read, IOUT
= 0mA; BL = 4, CL = CL (IDD), AL = 0; tCK = tCK (IDD), tRAS = tRAS MAX (IDD), tRP = tRP
(IDD); CKE is HIGH, S# is HIGH between valid commands; Address bus inputs are
switching; Data bus inputs are switching
IDD4R
TBD
TBD
mA
Burst refresh current:tCK = tCK (IDD); REFRESH command at every tRFC (IDD) interval; CKE is HIGH, S# is HIGH between valid commands; Other control and address bus
inputs are switching; Data bus inputs are switching
IDD5
TBD
TBD
mA
Self refresh current: CK and CK# at 0V; CKE ≤ 0.2V; Other control and address bus
inputs are floating; Data bus inputs are floating
IDD6
TBD
TBD
mA
Operating bank interleave read current: All device banks 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 = tRCD (IDD); CKE is HIGH, S# is HIGH between valid
commands; Address bus inputs are stable during deselects; Data bus inputs are
switching
IDD7
TBD
TBD
mA
PDF: 09005aef83c05a5d
htf4c32_64_128x64hz.pdf - Rev. D 4/14 EN
11
Micron Technology, Inc. reserves the right to change products or specifications without notice.
© 2009 Micron Technology, Inc. All rights reserved.
256MB, 512MB, 1GB (x64, SR) 200-Pin DDR2 SODIMM
IDD Specifications
Table 12: DDR2 IDD Specifications and Conditions – 512MB (Die Revision E and G)
Values shown for MT47H64M16 DDR2 SDRAM only and are computed from values specified in the 1Gb (64 Meg x 16) component data sheet
-80E/
Parameter
Symbol
-800
-667
Units
Operating one bank active-precharge current:tCK = tCK (IDD), tRC = tRC (IDD),
tRAS = tRAS MIN (I ); CKE is HIGH, S# is HIGH between valid commands; Address bus
DD
inputs are switching; Data bus inputs are switching
IDD0
600
540
mA
Operating one bank active-read-precharge current: IOUT = 0mA; BL = 4, CL = CL
(IDD), AL = 0; tCK = tCK (IDD), tRC = tRC (IDD), tRAS = tRAS MIN (IDD), tRCD = tRCD (IDD);
CKE is HIGH, S# is HIGH between valid commands; Address bus inputs are switching;
Data pattern is same as IDD4W
IDD1
700
520
mA
Precharge power-down current: All device banks idle; tCK = tCK (IDD); CKE is LOW;
Other control and address bus inputs are stable; Data bus inputs are floating
IDD2P
28
28
mA
Precharge quiet standby current: All device banks idle; tCK = tCK (IDD); CKE is
HIGH, S# is HIGH; Other control and address bus inputs are stable; Data bus inputs
are floating
IDD2Q
300
260
mA
Precharge standby current: All device banks idle; tCK = tCK (IDD); CKE is HIGH, S# is
HIGH; Other control and address bus inputs are switching; Data bus inputs are
switching
IDD2N
320
280
mA
Active power-down current: All device banks open; tCK = tCK
(IDD); CKE is LOW; Other control and address bus inputs are stable;
Data bus inputs are floating
IDD3P
160
120
mA
40
40
Fast PDN exit
MR[12] = 0
Slow PDN exit
MR[12] = 1
Active standby current: All device banks open; tCK = tCK (IDD), tRAS = tRAS MAX
(IDD), tRP = tRP (IDD); CKE is HIGH, S# is HIGH between valid commands; Other control
and address bus inputs are switching; Data bus inputs are switching
IDD3N
340
300
mA
Operating burst write current: All device banks open; Continuous burst writes; BL
= 4, CL = CL (IDD), AL = 0; tCK = tCK (IDD), tRAS = tRAS MAX (IDD), tRP = tRP (IDD); CKE is
HIGH, S# is HIGH between valid commands; Address bus inputs are switching; Data
bus inputs are switching
IDD4W
1260
800
mA
Operating burst read current: All device banks open; Continuous burst read, IOUT
= 0mA; BL = 4, CL = CL (IDD), AL = 0; tCK = tCK (IDD), tRAS = tRAS MAX (IDD), tRP = tRP
(IDD); CKE is HIGH, S# is HIGH between valid commands; Address bus inputs are
switching; Data bus inputs are switching
IDD4R
1280
880
mA
Burst refresh current:tCK = tCK (IDD); REFRESH command at every tRFC (IDD) interval; CKE is HIGH, S# is HIGH between valid commands; Other control and address bus
inputs are switching; Data bus inputs are switching
IDD5
1200
1080
mA
Self refresh current: CK and CK# at 0V; CKE ≤ 0.2V; Other control and address bus
inputs are floating; Data bus inputs are floating
IDD6
28
28
mA
Operating bank interleave read current: All device banks 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 = tRCD (IDD); CKE is HIGH, S# is HIGH between valid
commands; Address bus inputs are stable during deselects; Data bus inputs are
switching
IDD7
1760
1400
mA
PDF: 09005aef83c05a5d
htf4c32_64_128x64hz.pdf - Rev. D 4/14 EN
12
Micron Technology, Inc. reserves the right to change products or specifications without notice.
© 2009 Micron Technology, Inc. All rights reserved.
256MB, 512MB, 1GB (x64, SR) 200-Pin DDR2 SODIMM
IDD Specifications
Table 13: DDR2 IDD Specifications and Conditions – 512MB (Die Revision H)
Values shown for MT47H64M16 DDR2 SDRAM only and are computed from values specified in the 1Gb (64 Meg x 16) component data sheet
-80E/
Parameter
Symbol
-800
-667
Units
Operating one bank active-precharge current:tCK = tCK (IDD), tRC = tRC (IDD),
tRAS = tRAS MIN (I ); CKE is HIGH, S# is HIGH between valid commands; Address bus
DD
inputs are switching; Data bus inputs are switching
IDD0
320
300
mA
Operating one bank active-read-precharge current: IOUT = 0mA; BL = 4, CL = CL
(IDD), AL = 0; tCK = tCK (IDD), tRC = tRC (IDD), tRAS = tRAS MIN (IDD), tRCD = tRCD (IDD);
CKE is HIGH, S# is HIGH between valid commands; Address bus inputs are switching;
Data pattern is same as IDD4W
IDD1
380
360
mA
Precharge power-down current: All device banks idle; tCK = tCK (IDD); CKE is LOW;
Other control and address bus inputs are stable; Data bus inputs are floating
IDD2P
28
28
mA
Precharge quiet standby current: All device banks idle; tCK = tCK (IDD); CKE is
HIGH, S# is HIGH; Other control and address bus inputs are stable; Data bus inputs
are floating
IDD2Q
104
104
mA
Precharge standby current: All device banks idle; tCK = tCK (IDD); CKE is HIGH, S# is
HIGH; Other control and address bus inputs are switching; Data bus inputs are
switching
IDD2N
120
104
mA
Active power-down current: All device banks open; tCK = tCK
(IDD); CKE is LOW; Other control and address bus inputs are stable;
Data bus inputs are floating
IDD3P
80
60
mA
40
40
Fast PDN exit
MR[12] = 0
Slow PDN exit
MR[12] = 1
Active standby current: All device banks open; tCK = tCK (IDD), tRAS = tRAS MAX
(IDD), tRP = tRP (IDD); CKE is HIGH, S# is HIGH between valid commands; Other control
and address bus inputs are switching; Data bus inputs are switching
IDD3N
140
128
mA
Operating burst write current: All device banks open; Continuous burst writes; BL
= 4, CL = CL (IDD), AL = 0; tCK = tCK (IDD), tRAS = tRAS MAX (IDD), tRP = tRP (IDD); CKE is
HIGH, S# is HIGH between valid commands; Address bus inputs are switching; Data
bus inputs are switching
IDD4W
640
540
mA
Operating burst read current: All device banks open; Continuous burst read, IOUT
= 0mA; BL = 4, CL = CL (IDD), AL = 0; tCK = tCK (IDD), tRAS = tRAS MAX (IDD), tRP = tRP
(IDD); CKE is HIGH, S# is HIGH between valid commands; Address bus inputs are
switching; Data bus inputs are switching
IDD4R
600
500
mA
Burst refresh current:tCK = tCK (IDD); REFRESH command at every tRFC (IDD) interval; CKE is HIGH, S# is HIGH between valid commands; Other control and address bus
inputs are switching; Data bus inputs are switching
IDD5
600
580
mA
Self refresh current: CK and CK# at 0V; CKE ≤ 0.2V; Other control and address bus
inputs are floating; Data bus inputs are floating
IDD6
28
28
mA
Operating bank interleave read current: All device banks 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 = tRCD (IDD); CKE is HIGH, S# is HIGH between valid
commands; Address bus inputs are stable during deselects; Data bus inputs are
switching
IDD7
1040
920
mA
PDF: 09005aef83c05a5d
htf4c32_64_128x64hz.pdf - Rev. D 4/14 EN
13
Micron Technology, Inc. reserves the right to change products or specifications without notice.
© 2009 Micron Technology, Inc. All rights reserved.
256MB, 512MB, 1GB (x64, SR) 200-Pin DDR2 SODIMM
IDD Specifications
Table 14: DDR2 IDD Specifications and Conditions – 512MB (Die Revision M)
Values shown for MT47H64M16 DDR2 SDRAM only and are computed from values specified in the 1Gb (64 Meg x 16) component data sheet
-80E/
Parameter
Symbol
-800
-667
Units
Operating one bank active-precharge current:tCK = tCK (IDD), tRC = tRC (IDD),
tRAS = tRAS MIN (I ); CKE is HIGH, S# is HIGH between valid commands; Address bus
DD
inputs are switching; Data bus inputs are switching
IDD0
320
300
mA
Operating one bank active-read-precharge current: IOUT = 0mA; BL = 4, CL = CL
(IDD), AL = 0; tCK = tCK (IDD), tRC = tRC (IDD), tRAS = tRAS MIN (IDD), tRCD = tRCD (IDD);
CKE is HIGH, S# is HIGH between valid commands; Address bus inputs are switching;
Data pattern is same as IDD4W
IDD1
380
360
mA
Precharge power-down current: All device banks idle; tCK = tCK (IDD); CKE is LOW;
Other control and address bus inputs are stable; Data bus inputs are floating
IDD2P
40
40
mA
Precharge quiet standby current: All device banks idle; tCK = tCK (IDD); CKE is
HIGH, S# is HIGH; Other control and address bus inputs are stable; Data bus inputs
are floating
IDD2Q
104
104
mA
Precharge standby current: All device banks idle; tCK = tCK (IDD); CKE is HIGH, S# is
HIGH; Other control and address bus inputs are switching; Data bus inputs are
switching
IDD2N
120
104
mA
Active power-down current: All device banks open; tCK = tCK
(IDD); CKE is LOW; Other control and address bus inputs are stable;
Data bus inputs are floating
IDD3P
120
112
mA
80
80
Fast PDN exit
MR[12] = 0
Slow PDN exit
MR[12] = 1
Active standby current: All device banks open; tCK = tCK (IDD), tRAS = tRAS MAX
(IDD), tRP = tRP (IDD); CKE is HIGH, S# is HIGH between valid commands; Other control
and address bus inputs are switching; Data bus inputs are switching
IDD3N
152
144
mA
Operating burst write current: All device banks open; Continuous burst writes; BL
= 4, CL = CL (IDD), AL = 0; tCK = tCK (IDD), tRAS = tRAS MAX (IDD), tRP = tRP (IDD); CKE is
HIGH, S# is HIGH between valid commands; Address bus inputs are switching; Data
bus inputs are switching
IDD4W
640
540
mA
Operating burst read current: All device banks open; Continuous burst read, IOUT
= 0mA; BL = 4, CL = CL (IDD), AL = 0; tCK = tCK (IDD), tRAS = tRAS MAX (IDD), tRP = tRP
(IDD); CKE is HIGH, S# is HIGH between valid commands; Address bus inputs are
switching; Data bus inputs are switching
IDD4R
600
500
mA
Burst refresh current:tCK = tCK (IDD); REFRESH command at every tRFC (IDD) interval; CKE is HIGH, S# is HIGH between valid commands; Other control and address bus
inputs are switching; Data bus inputs are switching
IDD5
640
620
mA
Self refresh current: CK and CK# at 0V; CKE ≤ 0.2V; Other control and address bus
inputs are floating; Data bus inputs are floating
IDD6
28
28
mA
Operating bank interleave read current: All device banks 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 = tRCD (IDD); CKE is HIGH, S# is HIGH between valid
commands; Address bus inputs are stable during deselects; Data bus inputs are
switching
IDD7
1040
920
mA
PDF: 09005aef83c05a5d
htf4c32_64_128x64hz.pdf - Rev. D 4/14 EN
14
Micron Technology, Inc. reserves the right to change products or specifications without notice.
© 2009 Micron Technology, Inc. All rights reserved.
256MB, 512MB, 1GB (x64, SR) 200-Pin DDR2 SODIMM
IDD Specifications
Table 15: DDR2 IDD Specifications and Conditions – 1GB (Die Revision C)
Values shown for MT47H128M16 DDR2 SDRAM only and are computed from values specified in the 2Gb (128 Meg x 16)
component data sheet
-80E/
Parameter
Symbol
-800
-667
Units
Operating one bank active-precharge current:tCK = tCK (IDD), tRC = tRC (IDD),
tRAS = tRAS MIN (I ); CKE is HIGH, S# is HIGH between valid commands; Address bus
DD
inputs are switching; Data bus inputs are switching
IDD0
360
340
mA
Operating one bank active-read-precharge current: IOUT = 0mA; BL = 4, CL = CL
(IDD), AL = 0; tCK = tCK (IDD), tRC = tRC (IDD), tRAS = tRAS MIN (IDD), tRCD = tRCD (IDD);
CKE is HIGH, S# is HIGH between valid commands; Address bus inputs are switching;
Data pattern is same as IDD4W
IDD1
420
400
mA
Precharge power-down current: All device banks idle; tCK = tCK (IDD); CKE is LOW;
Other control and address bus inputs are stable; Data bus inputs are floating
IDD2P
48
48
mA
Precharge quiet standby current: All device banks idle; tCK = tCK (IDD); CKE is
HIGH, S# is HIGH; Other control and address bus inputs are stable; Data bus inputs
are floating
IDD2Q
180
160
mA
Precharge standby current: All device banks idle; tCK = tCK (IDD); CKE is HIGH, S# is
HIGH; Other control and address bus inputs are switching; Data bus inputs are
switching
IDD2N
200
180
mA
Active power-down current: All device banks open; tCK = tCK
(IDD); CKE is LOW; Other control and address bus inputs are stable;
Data bus inputs are floating
IDD3P
100
100
mA
56
56
Fast PDN exit
MR[12] = 0
Slow PDN exit
MR[12] = 1
Active standby current: All device banks open; tCK = tCK (IDD), tRAS = tRAS MAX
(IDD), tRP = tRP (IDD); CKE is HIGH, S# is HIGH between valid commands; Other control
and address bus inputs are switching; Data bus inputs are switching
IDD3N
200
180
mA
Operating burst write current: All device banks open; Continuous burst writes; BL
= 4, CL = CL (IDD), AL = 0; tCK = tCK (IDD), tRAS = tRAS MAX (IDD), tRP = tRP (IDD); CKE is
HIGH, S# is HIGH between valid commands; Address bus inputs are switching; Data
bus inputs are switching
IDD4W
760
680
mA
Operating burst read current: All device banks open; Continuous burst read, IOUT
= 0mA; BL = 4, CL = CL (IDD), AL = 0; tCK = tCK (IDD), tRAS = tRAS MAX (IDD), tRP = tRP
(IDD); CKE is HIGH, S# is HIGH between valid commands; Address bus inputs are
switching; Data bus inputs are switching
IDD4R
760
680
mA
Burst refresh current:tCK = tCK (IDD); REFRESH command at every tRFC (IDD) interval; CKE is HIGH, S# is HIGH between valid commands; Other control and address bus
inputs are switching; Data bus inputs are switching
IDD5
680
660
mA
Self refresh current: CK and CK# at 0V; CKE ≤ 0.2V; Other control and address bus
inputs are floating; Data bus inputs are floating
IDD6
48
48
mA
Operating bank interleave read current: All device banks 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 = tRCD (IDD); CKE is HIGH, S# is HIGH between valid
commands; Address bus inputs are stable during deselects; Data bus inputs are
switching
IDD7
1120
1000
mA
PDF: 09005aef83c05a5d
htf4c32_64_128x64hz.pdf - Rev. D 4/14 EN
15
Micron Technology, Inc. reserves the right to change products or specifications without notice.
© 2009 Micron Technology, Inc. All rights reserved.
256MB, 512MB, 1GB (x64, SR) 200-Pin DDR2 SODIMM
Serial Presence-Detect
Serial Presence-Detect
For the latest SPD data, refer to Micron's SPD page: www.micron.com/SPD.
Table 16: SPD EEPROM Operating Conditions
Parameter/Condition
Symbol
Min
Max
Units
VDDSPD
1.7
3.6
V
Input high voltage: logic 1; All inputs
VIH
VDDSPD × 0.7
VDDSPD + 0.5
V
Input low voltage: logic 0; All inputs
VIL
–0.6
VDDSPD × 0.3
V
Output low voltage: IOUT = 3mA
Supply voltage
VOL
–
0.4
V
Input leakage current: VIN = GND to VDD
ILI
0.1
3
µA
Output leakage current: VOUT = GND to VDD
ILO
0.05
3
µA
Standby current
ISB
1.6
4
µA
Power supply current, READ: SCL clock frequency = 100 kHz
ICCR
0.4
1
mA
Power supply current, WRITE: SCL clock frequency = 100 kHz
ICCW
2
3
mA
Table 17: SPD EEPROM AC Operating Conditions
Parameter/Condition
Symbol
Min
Max
Units
Notes
SCL LOW to SDA data-out valid
tAA
0.2
0.9
µs
1
Time bus must be free before a new transition can start
tBUF
1.3
–
µs
Data-out hold time
tDH
200
–
ns
SDA and SCL fall time
tF
–
300
ns
2
SDA and SCL rise time
tR
–
300
ns
2
Data-in hold time
tHD:DAT
0
–
µs
Start condition hold time
tHD:STA
0.6
–
µs
tHIGH
0.6
–
µs
tI
–
50
ns
tLOW
1.3
–
µs
tSCL
–
400
kHz
Data-in setup time
tSU:DAT
100
–
ns
Start condition setup time
tSU:STA
0.6
–
µs
Stop condition setup time
tSU:STO
0.6
–
µs
tWRC
–
10
ms
Clock HIGH period
Noise suppression time constant at SCL, SDA inputs
Clock LOW period
SCL clock frequency
WRITE cycle time
Notes:
PDF: 09005aef83c05a5d
htf4c32_64_128x64hz.pdf - Rev. D 4/14 EN
3
4
1. To avoid spurious start and stop conditions, a minimum delay is placed between SCL = 1
and the falling or rising edge of SDA.
2. This parameter is sampled.
3. For a restart condition or following a WRITE cycle.
4. The SPD EEPROM WRITE cycle time (tWRC) is the time from a valid stop condition of a
write sequence to the end of the EEPROM internal ERASE/PROGRAM cycle. During the
WRITE cycle, the EEPROM bus interface circuit is disabled, SDA remains HIGH due to
pull-up resistance, and the EEPROM does not respond to its slave address.
16
Micron Technology, Inc. reserves the right to change products or specifications without notice.
© 2009 Micron Technology, Inc. All rights reserved.
256MB, 512MB, 1GB (x64, SR) 200-Pin DDR2 SODIMM
Module Dimensions
Module Dimensions
Figure 3: 200-Pin DDR2 SODIMM
Front view
2.45 (0.096)
MAX
67.75 (2.67)
67.45 (2.65)
2.0 (0.079) R
(2X)
U1
U2
U3
1.80 (0.071)
(2X)
U4
30.15 (1.187)
29.85 (1.175)
U5
20.0 (0.787)
TYP
6.0 (0.236)
TYP
2.0 (0.079)
TYP
PIN 1
0.5 (0.0197) R
PIN 199
0.45 (0.018)
TYP
16.25 (0.64)
TYP
1.1 (0.043)
0.9 (0.035)
0.6 (0.024)
TYP
63.6 (2.504)
TYP
Back view
45° 4X
No components this side of module
3.5 (0.138)
TYP
PIN 200
47.4 (1.87)
TYP
Notes:
4.2 (0.165)
TYP
PIN 2
11.4 (0.45)
TYP
1. All dimensions are in millimeters (inches); MAX/MIN or typical (TYP) where noted.
2. The dimensional diagram is for reference only. Refer to the JEDEC MO document for additional design dimensions.
8000 S. Federal Way, P.O. Box 6, Boise, ID 83707-0006, Tel: 208-368-3900
www.micron.com/productsupport Customer Comment Line: 800-932-4992
Micron and the Micron logo are trademarks of Micron Technology, Inc.
All other trademarks are the property of their respective owners.
This data sheet contains minimum and maximum limits specified over the power supply and temperature range set forth herein.
Although considered final, these specifications are subject to change, as further product development and data characterization sometimes occur.
PDF: 09005aef83c05a5d
htf4c32_64_128x64hz.pdf - Rev. D 4/14 EN
17
Micron Technology, Inc. reserves the right to change products or specifications without notice.
© 2009 Micron Technology, Inc. All rights reserved.