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WV3HG264M72EER665D7MG

型号:

WV3HG264M72EER665D7MG

描述:

1GB - 2x64Mx72 DDR2 SDRAM注册瓦特/ PLL ,迷你DIMM[ 1GB - 2x64Mx72 DDR2 SDRAM REGISTERED, w/PLL, Mini-DIMM ]

品牌:

WEDC[ WHITE ELECTRONIC DESIGNS CORPORATION ]

页数:

11 页

PDF大小:

235 K

下载PDF手册
WV3HG264M72EER-D7  
White Electronic Designs  
ADVANCED*  
1GB – 2x64Mx72 DDR2 SDRAM REGISTERED, w/PLL, Mini-DIMM  
DESCRIPTION  
FEATURES  
The WV3HG264M72EER is a 2x64Mx72 Double Data  
Rate DDR2 SDRAM high density module. This memory  
module consists of eighteen 64Mx8 bit with 4 banks DDR2  
Synchronous DRAMs in FBGA packages, mounted on a  
244-pin DIMM FR4 substrate.  
„
244-pin, dual in-line memory module (Mini-DIMM)  
„
Fast data transfer rates: PC2-6400*, PCS-5300*,  
PC2-4200 and PC2-3200  
„
Utilizes 800, 667, 533 and 400 Mb/s DDR2 SDRAM  
components  
„
„
„
„
„
„
„
„
„
„
„
„
V
V
CC = VCCQ = 1.8V ±0.1V  
* This product is under development, is not qualied or characterized and is subject to  
change without notice.  
CCSPD = 1.7V to 3.6V  
Differential data strobe (DQS, DQS#) option  
Four-bit prefetch architecture  
Programmable CAS# latency (CL): 3, 4, 5 and 6  
On-die termination (ODT)  
NOTE: Consult factory for availability of:  
• Vendor source control options  
• Industrial temperature option  
Serial Presence Detect (SPD) with EEPROM  
JEDEC Standard 1.8V I/O (SSTL_18 Compatible)  
Gold (Au) edge contacts  
Dual Rank  
RoHS compliant  
Package option  
• 244 Pin Mini-DIMM  
• PCB – 30.00mm (1.181") TYP  
OPERATING FREQUENCIES  
PC2-3200  
200MHz  
3-3-3  
PC2-4200  
266MHz  
4-4-4  
PC2-5300*  
333MHz  
5-5-5  
PC2-6400*  
400MHz  
6-6-6  
Clock Speed  
CL-tRCD-tRP  
*Consult factory for availability.  
August 2006  
Rev. 3  
1
White Electronic Designs Corporation • (602) 437-1520 • www.wedc.com  
WV3HG264M72EER-D7  
White Electronic Designs  
ADVANCED  
PIN CONFIGURATION  
PIN NAMES  
Pin No.  
1
Symbol  
VREF  
Pin No.  
62  
Symbol  
A4  
Pin No.  
123  
Symbol  
VSS  
Pin No.  
184  
Symbol  
VCCQ  
Pin Name  
Function  
A0-A13  
BA0,BA1  
DQ0-DQ63  
CB0-CB7  
DQS0-DQS8  
DQS0#-DQS8#  
ODT0, ODT1  
CK0,CK0#  
CKE0, CKE1  
CS0#, CS1#  
RAS#  
Address Inputs  
2
3
VSS  
DQ0  
63  
64  
VCCQ  
A2  
124  
125  
DQ4  
DQ5  
185  
186  
A3  
A1  
SDRAM Bank Address  
Data Input/Output  
Check Bits  
4
5
6
7
8
9
DQ1  
VSS  
DQS0#  
DQS0  
VSS  
DQ2  
DQ3  
VSS  
DQ8  
DQ9  
VSS  
DQS1#  
DQS1  
VSS  
RESET#  
NC  
65  
66  
67  
68  
69  
70  
71  
72  
73  
74  
75  
76  
77  
78  
79  
80  
81  
82  
83  
84  
85  
86  
87  
88  
89  
90  
91  
92  
93  
VCC  
VSS  
VSS  
NC  
VCC  
A10/AP  
BA0  
VCC  
WE#  
VCCQ  
CAS#  
VCCQ  
CS1#  
ODT1  
VCCQ  
NC  
126  
127  
128  
129  
130  
131  
132  
133  
134  
135  
136  
137  
138  
139  
140  
141  
142  
143  
144  
145  
146  
147  
148  
149  
150  
151  
152  
153  
154  
155  
156  
157  
158  
159  
160  
161  
162  
163  
164  
165  
166  
167  
168  
169  
170  
171  
172  
173  
174  
175  
176  
177  
178  
179  
180  
181  
182  
183  
VSS  
DM0  
NC  
187  
188  
189  
190  
191  
192  
193  
194  
195  
196  
197  
198  
199  
200  
201  
202  
203  
204  
205  
206  
207  
208  
209  
210  
211  
212  
213  
214  
215  
216  
217  
218  
219  
220  
221  
222  
223  
224  
225  
226  
227  
228  
229  
230  
231  
232  
233  
234  
235  
236  
237  
238  
239  
240  
241  
242  
243  
244  
VCC  
CK0  
CK0#  
VCC  
A0  
BA1  
VCC  
RAS#  
VCCQ  
CS0#  
VCCQ  
ODT0  
A13  
VCC  
NC  
VSS  
DQ36  
DQ37  
VSS  
DM4  
NC  
VSS  
Data strobes  
DQ6  
DQ7  
VSS  
DQ12  
DQ13  
VSS  
DM1  
NC  
VSS  
Data strobes complement  
On-die termination control  
Clock Inputs  
10  
11  
12  
13  
14  
15  
16  
17  
18  
19  
20  
21  
22  
23  
24  
25  
26  
27  
28  
29  
30  
31  
32  
33  
34  
35  
36  
37  
38  
39  
40  
41  
42  
43  
44  
45  
46  
47  
48  
49  
50  
51  
52  
53  
54  
55  
56  
57  
58  
59  
60  
61  
Clock Enables  
Chip Selects  
Row Address Strobe  
Column Address Strobe  
Write Enable  
NC  
NC  
VSS  
CAS#  
WE#  
VSS  
VSS  
DQ14  
DQ15  
VSS  
DQ20  
DQ21  
VSS  
DM2  
NC  
VSS  
DQ22  
DQ23  
VSS  
DQ28  
DQ29  
VSS  
DM3  
NC  
VSS  
DQ30  
DQ31  
VSS  
CB4  
CB5  
VSS  
DM8  
NC  
VSS  
RESET#  
DM (0-8)  
VCCSPD  
Register Reset Input  
Data Masks  
DQ10  
DQ11  
VSS  
DQ16  
DQ17  
VSS  
DQS2#  
DQS2  
VSS  
DQ18  
DQ19  
VSS  
DQ32  
DQ33  
VSS  
DQS4#  
DQS4  
VSS  
DQ34  
DQ35  
VSS  
DQ40  
DQ41  
VSS  
SPD Power  
VCC  
Voltage Supply (1.8V±0.1V)  
I/O Power (1.8V)  
Ground  
VSS  
DQ38  
DQ39  
VSS  
DQ44  
DQ45  
VSS  
DM5  
NC  
VSS  
DQ46  
DQ47  
VSS  
DQ52  
DQ53  
VSS  
VCCQ  
VSS  
SA0-SA2  
SDA  
SPD address  
SPD Data Input/Output  
Serial Presence Detect(SPD) Clock Input  
Spare pins, No connect  
Input/Output Reference  
SCL  
DQ24  
DQ25  
VSS  
DQS3#  
DQS3  
VSS  
DQ26  
DQ27  
VSS  
CB0  
CB1  
VSS  
DQS8#  
DQS8  
VSS  
CB2  
CB3  
VSS  
NC  
VCCQ  
CKE0  
VCC  
NC  
NC  
VCCQ  
A11  
A7  
94  
95  
96  
97  
98  
99  
DQS5#  
DQS5  
VSS  
DQ42  
DQ43  
VSS  
DQ48  
DQ49  
VSS  
NC  
VREF  
100  
101  
102  
103  
104  
105  
106  
107  
108  
109  
110  
111  
112  
113  
114  
115  
116  
117  
118  
119  
120  
121  
122  
NC  
NC  
VSS  
DM6  
NC  
SA2  
NC  
VSS  
DQS6#  
DQS6  
VSS  
DQ50  
DQ51  
VSS  
DQ56  
DQ57  
VSS  
DQS7#  
DQS7  
VSS  
DQ58  
DQ59  
VSS  
SA0  
SA1  
VSS  
CB6  
CB7  
VSS  
DQ54  
DQ55  
VSS  
DQ60  
DQ61  
VSS  
DM7  
NC  
VSS  
DQ62  
DQ63  
VSS  
SDA  
SCL  
VCCSPD  
NC  
VCCQ  
CKE1  
VCC  
NC  
NC  
VCCQ  
A12  
A9  
VCC  
A8  
VCC  
A5  
A6  
RESET (pin 18) is connected to both OE of the PLL and Reset# of the register .  
August 2006  
Rev. 3  
2
White Electronic Designs Corporation • (602) 437-1520 • www.wedc.com  
WV3HG264M72EER-D7  
White Electronic Designs  
ADVANCED  
FUNCTIONAL BLOCK DIAGRAM  
RCS1#  
RCS0#  
DQS0  
DQS0#  
DM0  
DQS4  
DQS4#  
DM4  
DQS  
DQS#  
DQS  
DQS#  
DQS  
DQS#  
DQS  
DQS#  
DM/  
RDQS  
CS#  
DM/  
RDQS  
CS#  
DM/  
RDQS  
CS#  
DM/  
RDQS  
CS#  
I/O 0  
I/O 1  
I/O 2  
I/O 3  
I/O 4  
I/O 5  
I/O 6  
I/O 7  
I/O 0  
I/O 1  
I/O 2  
I/O 3  
I/O 4  
I/O 5  
I/O 6  
I/O 7  
DQ0  
DQ1  
DQ2  
DQ3  
DQ4  
DQ5  
DQ6  
DQ7  
I/O 0  
I/O 1  
I/O 2  
I/O 3  
I/O 4  
I/O 5  
I/O 6  
I/O 7  
I/O 0  
I/O 1  
I/O 2  
I/O 3  
I/O 4  
I/O 5  
I/O 6  
I/O 7  
DQ32  
DQ33  
DQ34  
DQ35  
DQ36  
DQ37  
DQ38  
DQ39  
DQS5  
DQS5#  
DM5  
DQS1  
DQS1#  
DM1  
DQS  
DQS#  
DQS  
DQS#  
DQS  
DQS#  
DQS  
DQS#  
DM/  
RDQS  
CS#  
DM/  
RDQS  
CS#  
DM/  
RDQS  
CS#  
DM/  
RDQS  
CS#  
I/O 0  
I/O 1  
I/O 2  
I/O 3  
I/O 4  
I/O 5  
I/O 6  
I/O 7  
I/O 0  
I/O 1  
I/O 2  
I/O 3  
I/O 4  
I/O 5  
I/O 6  
I/O 7  
DQ8  
DQ40  
DQ41  
DQ42  
DQ43  
DQ44  
DQ45  
DQ46  
DQ47  
I/O 0  
I/O 1  
I/O 2  
I/O 3  
I/O 4  
I/O 5  
I/O 6  
I/O 7  
I/O 0  
I/O 1  
I/O 2  
I/O 3  
I/O 4  
I/O 5  
I/O 6  
I/O 7  
DQ9  
DQ10  
DQ11  
DQ12  
DQ13  
DQ14  
DQ15  
DQS2  
DQS2#  
DM2  
DQS6  
DQS6#  
DM6  
DQS  
DQS#  
DQS  
DQS#  
DQS  
DQS#  
DQS  
DQS#  
DM/  
CS#  
DM/  
CS#  
DM/  
CS#  
DM/  
CS#  
RDQS  
RDQS  
RDQS  
I/O 0  
RDQS  
I/O 0  
I/O 0  
I/O 1  
I/O 2  
I/O 3  
I/O 4  
I/O 5  
I/O 6  
I/O 7  
I/O 0  
I/O 1  
I/O 2  
I/O 3  
I/O 4  
I/O 5  
I/O 6  
I/O 7  
DQ16  
DQ17  
DQ18  
DQ19  
DQ20  
DQ21  
DQ22  
DQ23  
DQ48  
DQ49  
DQ50  
DQ51  
DQ52  
DQ53  
DQ54  
DQ55  
I/O 1  
I/O 2  
I/O 3  
I/O 4  
I/O 5  
I/O 6  
I/O 7  
I/O 1  
I/O 2  
I/O 3  
I/O 4  
I/O 5  
I/O 6  
I/O 7  
DQS3  
DQS3#  
DM3  
DQS7  
DQS7#  
DM7  
DQS  
DQS#  
DQS  
DQS#  
DQS  
DQS#  
DQS  
DQS#  
DM/  
CS#  
DM/  
CS#  
DM/  
CS#  
DM/  
CS#  
RDQS  
RDQS  
RDQS  
I/O 0  
RDQS  
I/O 0  
I/O 0  
I/O 1  
I/O 2  
I/O 3  
I/O 4  
I/O 5  
I/O 6  
I/O 7  
I/O 0  
I/O 1  
I/O 2  
I/O 3  
I/O 4  
I/O 5  
I/O 6  
I/O 7  
DQ24  
DQ25  
DQ26  
DQ27  
DQ28  
DQ29  
DQ30  
DQ31  
DQ56  
DQ57  
DQ58  
DQ59  
DQ60  
DQ61  
DQ62  
DQ63  
I/O 1  
I/O 2  
I/O 3  
I/O 4  
I/O 5  
I/O 6  
I/O 7  
I/O 1  
I/O 2  
I/O 3  
I/O 4  
I/O 5  
I/O 6  
I/O 7  
DQS8  
DQS8#  
DM8  
DQS  
DQS#  
DQS  
DQS#  
DM/  
RDQS  
CS#  
DM/  
RDQS  
CS#  
I/O 0  
I/O 1  
I/O 2  
I/O 3  
I/O 4  
I/O 5  
I/O 6  
I/O 7  
I/O 0  
I/O 1  
I/O 2  
I/O 3  
I/O 4  
I/O 5  
I/O 6  
I/O 7  
CB0  
CB1  
CB2  
CB3  
CB4  
CB5  
CB6  
CB7  
V
CCSPD  
Serial PD  
Serial PD  
VCC/VCCQ  
DDR2 SDRAMs  
DDR2 SDRAMs  
DDR2 SDRAMs  
SCL  
SDA  
VREF  
WP A0 A1 A2  
SA0 SA1 SA2  
V
SS  
CK0  
PCK0-PCK6, PCK8, PCK9 -> CK : DDR2 SDRAMs  
RCS0# -> CS# : DDR2 SDRAMs  
RCS1 -> CS# : DDR2 SDRAMs  
CS0#  
CS1#  
BA0-BA1  
A0-A13  
RAS#  
CAS#  
WE#  
CKE0  
CKE1  
ODT0  
ODT1  
P
L
L
1:2  
R
E
G
I
RBA0 - RBA1 -> BA0-BA1 : DDR2 SDRAMs  
RA0-RA13 -> A0-A13 : DDR2 SDRAMs  
RRAS# -> RAS# DDR2 SDRAMs  
RCAS# -> CAS# DDR2 SDRAMs  
RWE# -> WE# : DDR2 SDRAMs  
RCKE0 -> CKE : DDR2 SDRAMs  
RCKE1 -> CKE : DDR2 SDRAMs  
RODT0 -> ODT : DDR2 SDRAMs  
RODT1 -> ODT : DDR2 SDRAMs  
PCK0# -> PCK6#, PCK8#, PCK9# -> CK# : DDR2 SDRAMs  
PCK7 -> CK : Register  
CK0#  
RESET#  
OE  
PCK7 -> CK# : Register  
S
T
E
R
RST#  
RESET#**  
** RESET#, CK AND CK# connects to both Registers. Other signals connct to one of two Registers.  
CK#**  
CK**  
NOTE: All resistor values are 22 ohms ±5% unless otherwise specied.  
August 2006  
Rev. 3  
3
White Electronic Designs Corporation • (602) 437-1520 • www.wedc.com  
WV3HG264M72EER-D7  
White Electronic Designs  
ADVANCED  
DC OPERATING CONDITIONS  
All voltages referenced to VSS  
Parameter  
Symbol  
VCC  
Min  
1 .7  
Typical  
1 .8  
Max  
1 .9  
Unit  
V
Notes  
Supply voltage  
1
4
4
2
3
I/O Supply voltage  
VCCL Supply voltage  
I/O Reference voltage  
I/O Termination voltage  
Notes:  
VCCQ  
VCCL  
VREF  
VTT  
1 .7  
1 .8  
1 .9  
V
1 .7  
1 .8  
1 .9  
V
0.49 x VCCQ  
VREF-0.04  
0.50 x VCCQ  
VREF  
0.51 x VCCQ  
VREF + 0.04  
V
V
1.  
2.  
V
V
CC VCCQ must track each other. VCCQ must be less than or equal to VCC  
REF is expected to equal VCCQ/2 of the transmitting device and to track variations in the DC level of the same. Peak-to-peak noise on VREF may not exceed ±1 percent of the DC  
.
value. Peak-to-peak AC noise on VREF may not exceed ±2 percent of VREF. This measurement is to be taken at the nearest VREF bypass capacitor.  
3.  
4.  
V
V
TT is not applied directly to the device. VTT is a system supply for signal termination resistors, is expected to be set equal to VREF and must track variations in the DC level of VREF  
.
CCQ tracks with VCC; VCCL track with VCC  
.
ABSOLUTE MAXIMUM RATINGS  
Symbol  
VCC  
Parameter  
MIN  
-0.5  
-0.5  
-0.5  
-0.5  
-55  
0
MAX  
2.3  
2.3  
2.3  
2.3  
100  
85  
Unit  
V
Voltage on VCC pin relative to VSS  
Voltage on VCCQ pin relative to VSS  
Voltage on VCCL pin relative to VSS  
Voltage on any pin relative to VSS  
Storage temperature  
VCCQ  
VCCL  
V
V
VIN, VOUT  
TSTG  
V
°C  
°C  
TCASE  
Device operating temperature  
Command/Address,  
RAS#, CAS#, WE#,  
CS#, CKE  
CK, CK#  
DM  
-5  
5
µA  
Input leakage current; Any input 0V<VIN<VCC; VREF input  
0V<VIN<0.95V; Other pins not under test = 0V  
IL  
-10  
-10  
10  
10  
µA  
µA  
Output leakage current;  
0V<VOUT<VCCQ; DQs and ODT are disable  
IOZ  
DQ, DQS, DQS#  
-10  
-36  
10  
36  
µA  
µA  
IVREF  
VREF leakage current; VREF = Valid VREF level  
INPUT/OUTPUT CAPACITANCE  
TA=25 0 C, f=1 00MHz  
Parameter  
Symbol  
Min  
9
Max  
11  
Unit  
pF  
pF  
pF  
pF  
pF  
pF  
pF  
pF  
Input capacitance (A0 - A13, BA0 - BA1 ,RAS#,CAS#,WE#)  
Input capacitance ( CKE0, CKE1), (ODT0, ODT1)  
Input capacitance (CS0#, CS1#)  
CIN1  
CIN2  
9
11  
CIN3  
9
11  
Input capacitance (CK0, CK0#)  
CIN4  
10  
9
11  
CIN5 (E6)  
CIN5 (E5)  
COUT1 (E6)  
COUT1 (E5)  
11  
Input capacitance (DM0 - DM8), (DQS0 - DQS8)  
Input capacitance (DQ0 - DQ63), (CB0 - CB7)  
9
12  
11  
9
9
12  
August 2006  
Rev. 3  
4
White Electronic Designs Corporation • (602) 437-1520 • www.wedc.com  
WV3HG264M72EER-D7  
White Electronic Designs  
ADVANCED  
OPERATING TEMPERATURE CONDITION  
Parameter  
Symbol  
Rating  
Units  
Notes  
Operating temperature  
TOPER  
0°C to 85°C  
°C  
1, 2  
Notes:  
1. Operating temperature is the case surface temperature on the center/top side of the DRAM. For the measurement conditions, please refer to JEDEC JESD51 .2  
2. At 0 - 85°C, operation temperature range, all DRAM specication will be supported.  
INPUT DC LOGIC LEVEL  
All voltages referenced to VSS  
Parameter  
Symbol  
VIH(DC)  
VIL(DC)  
Min  
VREF + 0.125  
-0.300  
Max  
Unit  
V
Input High (Logic 1 ) Voltage  
Input Low (Logic 0) Voltage  
VCCQ + 0.300  
VREF - 0.125  
V
INPUT AC LOGIC LEVEL  
All voltages referenced to VSS  
Parameter  
Symbol  
Min  
Max  
Unit  
V
AC Input High (Logic 1 ) Voltage DDR2-400 & DDR2-533  
AC Input High (Logic 1 ) Voltage DDR2-667  
AC Input Low (Logic 0) Voltage DDR2-400 & DDR2-533  
AC Input Low (Logic 1 ) Voltage DDR2-667, DDR2-800(TBD)  
VIH(AC)  
VIH(AC)  
VIL(AC)  
VIL(AC)  
VREF + 0.250  
VREF + 0.200  
V
VREF - 0.250  
VREF - 0.200  
V
V
August 2006  
Rev. 3  
5
White Electronic Designs Corporation • (602) 437-1520 • www.wedc.com  
WV3HG264M72EER-D7  
White Electronic Designs  
ADVANCED  
DDR2 ICC SPECIFICATIONS AND CONDITIONS  
Includes DDR2 SDRAM components only; TA = 0°C, VCC = 1.9V  
Symbol Parameter Condition  
806  
665  
534  
403  
Unit  
Operating  
one bank  
active-  
tCK = tCK(I ); tRC = tRC(I ); tRAS = tRAS MIN(I ); CKE is HIGH, CS# is HIGH between valid  
CC CC CC  
commands; Address bus inputs are SWITCHING; Data bus inputs are SWITCHING  
ICC0*  
1337  
1292  
1292  
mA  
TBD  
precharge;  
Operating  
one bank  
active-  
read-  
precharge;  
IOUT = 0mA; BL = 4; CL = CL(ICC); tCK = tCK(I ); tRC = tRC(I ); tRAS = tRAS MIN(I ); CKE is  
CC  
CC  
CC  
ICC1*  
HIGH, CS# is HIGH between valid commands; Address bus inputs are SWITCHING;  
Data bus inputs are SWITCHING; Data pattern is same as ICC4W  
1472  
644  
1427  
644  
1427  
644  
mA  
mA  
TBD  
TBD  
.
Precharge  
power-  
down  
All banks idle; tCK = tCK(I ); CKE is LOW; Other control and address bus inputs are  
CC  
ICC2P**  
STABLE; Data bus inputs are FLOATING  
current;  
Precharge  
quite  
standby  
current;  
All banks idle; tCK = tCK(I ); CKE is HIGH; CS# is HIGH; Other control and address bus  
inputs are STABLE; Data bus inputs are FLOATING  
CC  
ICC2Q**  
1130  
1220  
1040  
1130  
1040  
1130  
mA  
mA  
TBD  
TBD  
Precharge  
ICC2N** standby  
current;  
All banks idle; tCK = tCK(I ); CKE is HIGH; CS# is HIGH; Other control and address bus  
CC  
inputs are STABLE; Data bus inputs are SWITCHING  
Fast PDN Exit  
MRS(12) = 0  
Active  
power-  
down  
current;  
1040  
716  
1040  
716  
1040  
716  
mA  
mA  
TBD  
TBD  
All banks open; tCK = tCK(I ), CKE is LOW; Other control  
and address bus inputs are STABLE; Data bus inputs are  
CC  
ICC3P**  
Slow PDN Exit  
FLOATING  
MRS(12) = 1  
Active  
ICC3N** standby  
current;  
All banks open; tCK = tCK(I ); tRC = tRC(I ); tRAS = tRAS MIN(I ); CKE is HIGH, CS#  
is HIGH between valid commands; Other control and address bus inputs are  
SWITCHING; Data bus inputs are SWITCHING  
CC  
CC  
CC  
1490  
1832  
1877  
3200  
144  
1400  
1652  
1697  
3020  
144  
1400  
1562  
1562  
3020  
144  
mA  
mA  
mA  
mA  
mA  
TBD  
TBD  
TBD  
TBD  
TBD  
Operating All banks open; Continuous burst writes; BL = 4; CL = CL(ICC); AL = 0; tCK = tCK(I  
ICC4W* burst write tRC = tRC(I ); tRAS = tRAS MIN(I ); CKE is HIGH, CS# is HIGH between valid commands;  
;
)
CC  
CC  
CC  
current;  
Address bus inputs are SWITCHING; Data bus inputs are SWITCHING  
Operating All banks open; Continuous burst reads; TOUT = 0mA; BL = 4; CL = CL(ICC); AL = 0;  
ICC4R* burst read tCK = tCK(I ); tRC = tRC(I ); tRAS = tRAS MIN(I ); CKE is HIGH, CS# is HIGH between  
CC  
CC  
CC  
current;  
valid commands; Address bus inputs are SWITCHING; Data pattern is same as ICC4W.  
Burst auto tCK = tCK(I ); Refresh command at every tRC(I ) interval; CKE is HIGH; CS# is HIGH  
CC  
CC  
ICC5**  
refresh  
current;  
between valid commands; Other control and address bus inputs are SWITCHING;  
Data bus inputs are SWITCHING  
Self  
CK and CK# at 0V; CKE < 0.2V; Other control and address bus  
Normal  
ICC6**  
refresh  
current;  
inputs are FLOATING; Data bus inputs are FLOATING  
Operating  
bank  
interleave  
read  
All bank interleaving reads; IOUT = 0mA; BL = 4; CL = CL(ICC); AL = tRCD(I ) - 1*tCK(I  
;
)
CC  
CC  
tCK = tCK(I ); tRC = tRC(I ); tRRD = tRRD MIN(I ) = 1*tCK(I ); CKE is HIGH; CS# is HIGH  
CC  
CC  
CC  
CC  
ICC7*  
2552  
2552  
2552  
mA  
TBD  
between valid commands; Address bus inputs are STABLE during DESELECTs; Data  
bus inputs are SWITCHING  
current;  
Notes:  
I
CC specication is based on SAMSUNG components. Other DRAM manufacturers specication may be different.  
* Value calculated as one module rank in this operating condition, and all other module ranks in ICC2P ( CKE LOW) mode.  
** Value calculated reects all module ranks in this operating condition.  
August 2006  
Rev. 3  
6
White Electronic Designs Corporation • (602) 437-1520 • www.wedc.com  
WV3HG264M72EER-D7  
White Electronic Designs  
ADVANCED  
AC TIMING PARAMETERS  
0°C TCASE < +85°C; VCCQ = + 1.8V ± 0.1V, VCC = +1.8V ± 0.1V  
806  
665  
534  
403  
Parameter  
Symbol  
Unit  
Min  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
Max  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
Min  
Max  
Min  
Max  
Min  
Max  
CL=6  
CL=5  
CL=4  
CL=3  
tCK(6)  
tCK(5)  
3000  
3750  
5000  
0.45  
0.45  
8000  
-
-
-
-
ps  
ps  
ps  
tCK  
tCK  
Clock cycle time  
t
CK(4)  
8000 3,750 8,000 5,000 8,000  
8000 5,000 8,000 5,000 8,000  
tCK(3)  
tCH  
CK high-level width  
CK low-level width  
0.55  
0.55  
0.45  
0.45  
0.55  
0.55  
0.45  
0.45  
0.55  
0.55  
tCL  
MIN(tCH  
tCL)  
,
MIN (tCH  
,
MIN (tCH,  
tCL)  
Half clock period  
tHP  
ps  
TBD  
TBD  
tCL)  
Clock jitter  
tJIT  
tAC  
-125  
-450  
125  
+450  
-125  
-500  
125  
+500  
-125  
-600  
125  
+600  
ps  
ps  
ps  
ps  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
DQ output access time from CK/CK#  
Data-out high impedance window from CK/CK#  
Data-out low-impedance window from CK/CK#  
DQ and DM input setup time relative to DQS  
DQ and DM input hold time relative to DQS  
DQ and DM input pulse width (for each input)  
Data hold skew factor  
tHZ  
tAC(MAX)  
tAC(MAX)  
tAC(MAX)  
tLZ  
tAC(MIN) tAC(MAX) tAC(MIN) tAC(MAX) tAC(MIN) tAC(MAX)  
tDS  
100  
175  
0.35  
100  
225  
0.35  
150  
275  
0.35  
tDH  
tDIPW  
tQHS  
tCK  
ps  
340  
400  
450  
DQ-DQS hold, DQS to rst DQ to go nonvalid, per  
access  
tQH  
tHP - tQHS  
tHP - tQHS  
tHP - tQHS  
ps  
ns  
TBD  
TBD  
TBD  
TBD  
tQH  
- tDQSQ  
tQH  
- tDQSQ  
tQH  
- tDQSQ  
Data valid output window (DVW)  
tDVW  
DQS input high pulse width  
tDQSH  
tDQSL  
tDQSCK  
tDSS  
0.35  
0.35  
-400  
0.2  
0.35  
0.35  
-450  
0.2  
0.35  
0.35  
-500  
0.2  
tCK  
tCK  
ps  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
DQS input low pulse width  
DQS output access time from CK/CK#  
DQS falling edge to CK rising - setup time  
DQS falling edge from CK rising - hold time  
+400  
240  
+450  
300  
+500  
350  
tCK  
tCK  
tDSH  
0.2  
0.2  
0.2  
DQS-DQ skew, DOS to last DQ valid, per group, per  
access  
tDQSQ  
ps  
TBD  
TBD  
DQS read preamble  
tRPRE  
tRPST  
0.9  
0.4  
0
1.1  
0.6  
0.9  
0.4  
0
1.1  
0.6  
0.9  
0.4  
0
1.1  
0.6  
tCK  
tCK  
ps  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
DQS read postamble  
DQS write preamble setup time  
DQS write preamble  
tWPRES  
tWPRE  
tWPST  
tDQSS  
0.35  
0.4  
0.35  
0.4  
0.35  
0.4  
tCK  
tCK  
DQS write postamble  
0.6  
0.6  
0.6  
Write command to rst DQS latching transition  
WL-0.25 WL+0.25 WL-0.25 WL+0.25 WL-0.25 WL+0.25 tCK  
AC specication is based on SAMSUNG components. Other DRAM manufacturers specication may be different.  
August 2006  
Rev. 3  
7
White Electronic Designs Corporation • (602) 437-1520 • www.wedc.com  
WV3HG264M72EER-D7  
White Electronic Designs  
ADVANCED  
AC TIMING PARAMETERS (continued)  
0°C TCASE < +85°C; VCCQ = + 1.8V ± 0.1V, VCC = +1.8V ± 0.1V  
806  
665  
534  
403  
Parameter  
Address and control input pulse width for each input  
Symbol  
Unit  
Min  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
Max  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
Min  
0.6  
Max  
Min  
0.6  
Max  
Min  
0.6  
Max  
tIPW  
tIS  
tCK  
ps  
ps  
ps  
ns  
ns  
ns  
ns  
Address and control input setup time  
Address and control input hold time  
CAS# to CAS# command delay  
200  
275  
2
250  
375  
2
350  
475  
2
tIH  
tCCD  
tRC  
ACTIVE to ACTIVE (same bank) command  
ACTIVE bank a to ACTIVE bank b command  
ACTIVE to READ or WRITE delay  
Four Bank Activate period  
55  
55  
55  
tRRD  
tRCD  
tFAW  
tRAS  
tRTP  
tWR  
7.5  
7.5  
7.5  
15  
15  
15  
37.5  
40  
37.5  
37.5  
40  
37.5  
37.5  
40  
37.5  
ACTIVE to PRECHARGE command  
Internal READ to precharge command delay  
Write recovery time  
70,000  
70,000  
70,000 ns  
7.5  
7.5  
7.5  
ns  
ns  
ns  
ns  
ns  
ns  
tCK  
ns  
15  
15  
15  
Auto precharge write recovery + precharge time  
Internal WRITE to READ command delay  
PRECHARGE command period  
tDAL  
tWTR  
tRP  
tWR + tRP  
7.5  
tWR + tRP  
7.5  
tWR + tRP  
10  
15  
15  
15  
PRECHARGE ALL command period  
LOAD MODE command cycle time  
CKE low to CK, CK# uncertainty  
tRPA  
tMRD  
tDELAY  
tRFC  
tREFI  
tRP + tCK  
2
tRP + tCK  
2
tRP + tCK  
2
tIS+ CK+ IH  
t
t
tIS+ CK+ IH  
t
t
tIS+tCK+tIH  
REFRESH to Active or Refresh to Refresh command interval  
Average periodic refresh interval  
105 70,000 105 70,000 105 70,000 ns  
7.8  
7.8  
7.8  
ns  
tRFC(MIN)  
+ 10  
tRFC(MIN)  
+ 10  
tRFC(MIN)  
+ 10  
Exit self refresh to non-READ command  
tXSNR  
ns  
TBD  
TBD  
Exit self refresh to READ  
Exit self refresh timing reference  
ODT turn-on delay  
tXSRD  
tlSXR  
200  
tIS  
200  
tIS  
200  
tIS  
tCK  
ps  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
tAOND  
2
2
2
2
2
2
tCK  
tAC(MAX)  
+ 1000  
tAC(MAX)  
+ 1000  
tAC(MAX)  
+ 1000  
ODT turn-on  
tACN  
tAC(MIN)  
2.5  
tAC(MIN)  
2.5  
tAC(MIN)  
2.5  
ps  
TBD  
TBD  
TBD  
TBD  
ODT turn-off delay  
tAOFD  
2.5  
2.5  
2.5  
tCK  
tAC(MAX)  
+
600  
tAC(MAX)  
+
600  
tAC(MAX)  
+
600  
ODT turn-off  
tAOF  
tAC(MIN)  
tAC(MIN)  
tAC(MIN)  
ps  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
2 x tCK  
tAC(MAX)  
+ 1000  
+
2 x tCK  
tAC(MAX)  
+ 1000  
+
2 x tCK +  
tAC(MAX) ps  
+ 1000  
tAC(MIN)  
2000  
+
tAC(MIN)  
2000  
+
tAC(MIN)  
2000  
+
ODT turn-on (power-down mode)  
ODT turn-off (power-down mode)  
tAONPD  
2.5 x tCK  
tAC(MAX)  
+1000  
+
2.5 x tCK  
tAC(MAX)  
+1000  
+
2.5 x tCK +  
tAC(MAX) ps  
tAC(MIN)  
2000  
+
tAC(MIN)  
2000  
+
tAC(MIN)  
2000  
+
tAOFPD  
+ 1000  
ODT to power-down entry latency  
tANPD  
tAXPD  
tXARD  
tXARDS  
tXP  
3
8
3
8
3
8
tCK  
tCK  
tCK  
tCK  
tCK  
tCK  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
TBD  
ODT power-down exit latency  
Exit active power-down to READ command, MR[bit12=0]  
Exit active power-down to READ command, MR[bit12=1]  
Exit precharge power-down to any non-READ command  
CKE minimum high/low time  
2
2
2
7-AL  
2
6-AL  
2
6-AL  
2
tCKE  
3
3
3
AC specication is based on SAMSUNG components. Other DRAM manufacturers specication may be different.  
August 2006  
Rev. 3  
8
White Electronic Designs Corporation • (602) 437-1520 • www.wedc.com  
WV3HG264M72EER-D7  
White Electronic Designs  
ADVANCED  
ORDERING INFORMATION FOR D7  
Clock Speed/  
Data Rate  
Part Number  
CAS Latency  
tRCD  
tRP  
Height*  
WV3HG264M72EER806D7xG** 400MHz/800Mb/s  
WV3HG264M72EER665D7xG** 333MHz/667Mb/s  
6
5
4
3
6
5
4
3
6
5
4
3
30.00mm (1.181") TYP  
30.00mm (1.181") TYP  
30.00mm (1.181") TYP  
30.00mm (1.181") TYP  
WV3HG264M72EER534D7xG  
WV3HG264M72EER403D7xG  
266MHz/533Mb/s  
200MHz/400Mb/s  
** Contact factory for availability.  
NOTES:  
• RoHS product. (“G” = RoHS Compliant)  
• Vendor specic part numbers are used to provide memory components source control. The place holder for this is shown as lower case“x” in  
the part numbers above and is to be replaced with the respective vendors code. Consult factory for qualied sourcing options. (M = Micron,  
S = Samsung & consult factory for others)  
• Consult factory for availability of industrial temperature (-40°C to 85°C) option  
PACKAGE DIMENSIONS FOR D7  
FRONT VIEW  
3.80 (0.150)  
MAX  
82.15 (3.234)  
81.15 (3.222)  
4.10 (0.161)  
3.90 (0.154)  
(2X)  
(2X)  
30.00 (1.181)  
20.0 (0.787)  
TYP  
2.10 (0.083)  
1.90 (0.075)  
1.80 (0.071) D  
X2  
10.0 (0.394)  
TYP  
6.0 (0.236)  
TYP  
1.10 (0.043)  
0.90 (0.035 )  
0.50 (0.020) R  
1.0 (0.039)  
TYP  
2.0 (0.079)  
TYP  
0.60 (0.024)  
TYP  
PIN 122  
PIN 1  
42.90 (1.689)  
TYP  
78.0 (3.071)  
TYP  
3.6 (0.142) TYP  
BACK VIEW  
3.80 0.10  
(0.150 0.004)  
1.00 0.05  
(0.039 0.002)  
(1.30)  
0.051  
0.25 MAX  
(0.010)  
0.60 TYP  
0.024 TYP  
3.3 (0.130)  
TYP  
0.45 0.03 MAX  
(0.018 0.001)  
3.6 (0.142) TYP  
PIN 123  
PIN 244  
33.6 (1.323)  
TYP  
38.4 (1.512)  
TYP  
3.2 (0.126)  
TYP  
Detail A  
Detail B  
* ALL DIMENSIONS ARE IN MILLIMETERS AND (INCHES)  
August 2006  
Rev. 3  
9
White Electronic Designs Corporation • (602) 437-1520 • www.wedc.com  
WV3HG264M72EER-D7  
White Electronic Designs  
ADVANCED  
PART NUMBERING GUIDE  
WV 3 H G 2 64M 72 E E R xxx D7 x G  
WEDC  
MEMORY (SDRAM)  
DDR 2  
GOLD  
DUAL RANK  
DEPTH  
BUS WIDTH  
COMPONENT WIDTH (x8)  
1.8V  
REGISTERED  
SPEED (Mb/s)  
PACKAGE 244 PIN  
COMPONENT VENDOR  
NAME  
(M = Micron)  
(S = Samsung)  
G = RoHS COMPLIANT  
August 2006  
Rev. 3  
10  
White Electronic Designs Corporation • (602) 437-1520 • www.wedc.com  
WV3HG264M72EER-D7  
White Electronic Designs  
ADVANCED  
Document Title  
1GB – 2x64Mx72 DDR2 SDRAM REGISTERED, w/PLL, Mini-DIMM  
Revision History  
Rev #  
History  
Release Date Status  
Rev 0  
Rev 1  
Rev 2  
Created  
September 2005  
December 2005  
February 2006  
Advanced  
Advanced  
Advanced  
1.1 Changed IDD to ICC  
2.0 Added 800Mb/s as TBD  
Rev 3  
August 2006  
Advanced  
3.0 Updated maximum ratings spec  
3.1 Updated AC timing specs  
August 2006  
Rev. 3  
11  
White Electronic Designs Corporation • (602) 437-1520 • www.wedc.com  
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