WEDC W3EG6466S-BD4

W3EG6466S-AD4
-BD4
White Electronic Designs
PRELIMINARY*
512MB – 2x32Mx64 DDR SDRAM UNBUFFERED, w/PLL
FEATURES
DESCRIPTION
The W3EG6466S is a 2x32Mx64 Double Data Rate
SDRAM memory module based on 512Mb DDR SDRAM
components. The module consists of sixteen 32Mx8
components as eight 64Mx8 stacked DDR SDRAMs
in 66 pin TSOP packages mounted on a 200 pin FR4
substrate.
DDR200, DDR266 and DDR333
• JEDEC design specifications
Double-data-rate architecture
Bi-directional data strobes (DQS)
Differential clock inputs (CK & CK#)
Programmable Read Latency 2,2.5 (clock)
Programmable Burst Length (2,4,8)
Programmable Burst type (sequential & interleave)
Edge aligned data output, center aligned data input
Auto and self refresh
Serial presence detect
Dual Rank
Power supply: 2.5V ± 0.20V
JEDEC standard 200 pin SO-DIMM package
Synchronous design allows precise cycle control with the
use of system clock. Data I/O transactions are possible on
both edges and Burst Lengths allow the same device to be
useful for a variety of high bandwidth, high performance
memory system applications.
* This product is under development, is not qualified or characterized and is subject to
change without notice.
• Package height options:
AD4: 35.5mm (1.38")
BD4: 31.75mm (1.25")
NOTE: Consult factory for availability of:
• RoHS compliant products
• Vendor source control options
• Industrial temperature option
OPERATING FREQUENCIES
DDR333 @CL=2.5
DDR266 @CL=2
DDR266 @CL=2.5
DDR200 @CL=2
Clock Speed
166MHz
133MHz
133MHz
100MHz
CL-tRCD-tRP
2.5-3-3
2-2-2
2.5-3-3
2-2-2
White Electronic Designs Corp. reserves the right to change products or specifications without notice.
January 2005
Rev. 2
1
White Electronic Designs Corporation • (602) 437-1520 • www.wedc.com
W3EG6466S-AD4
-BD4
White Electronic Designs
PRELIMINARY
PIN CONFIGURATION
PIN NAMES
Pin
Symbol
Pin
Symbol
Pin
Symbol
Pin
Symbol
1
VREF
51
VSS
101
A9
151
DQ42
2
VREF
52
VSS
102
A8
152
DQ46
3
VSS
53
DQ19
103
VSS
153
DQ43
4
VSS
54
DQ23
104
VSS
154
DQ47
5
DQ0
55
DQ24
105
A7
155
VCC
6
DQ4
56
DQ28
106
A6
156
VCC
7
DQ1
57
VCC
107
A5
157
VCC
8
DQ5
58
VCC
108
A4
158
NC
9
VCC
59
DQ25
109
A3
159
VSS
10
VCC
60
DQ29
110
A2
160
NC
11
DQS0
61
DQS3
111
A1
161
VSS
12
DQM0
62
DQM3
112
A0
162
VSS
13
DQ2
63
VSS
113
VCC
163
DQ48
14
DQ6
64
VSS
114
VCC
164
DQ52
15
VSS
65
DQ26
115
A10/AP
165
DQ49
16
VSS
66
DQ30
116
BA1
166
DQ53
17
DQ3
67
DQ27
117
BA0
167
VCC
18
DQ7
68
DQ31
118
RAS#
168
VCC
19
DQ8
69
VCC
119
WE#
169
DQS6
20
DQ12
70
VCC
120
CAS#
170
DQM6
21
VCC
71
NC
121
CS0#
171
DQ50
22
VCC
72
NC
122
CS1#
172
DQ54
23
DQ9
73
NC
123
NC
173
VSS
24
DQ13
74
NC
124
NC
174
VSS
25
DQS1
75
VSS
125
VSS
175
DQ51
26
DQM1
76
VSS
126
VSS
176
DQ55
27
VSS
77
DQS8
127
DQ32
177
DQ56
28
VSS
78
DQM8
128
DQ36
178
DQ60
29
DQ10
79
NC
129
DQ33
179
VCC
30
DQ14
80
NC
130
DQ37
180
VCC
DQ57
31
DQ11
81
VCC
131
VCC
181
32
DQ15
82
VCC
132
VCC
182
DQ61
33
VCC
83
NC
133
DQS4
183
DQS7
34
VCC
84
NC
134
DQM4
184
DQM7
35
CK0
85
NC
135
DQ34
185
VSS
36
VCC
86
NC
136
DQ38
186
VSS
DQ58
37
CK0#
87
VSS
137
VSS
187
38
VSS
88
VSS
138
VSS
188
DQ62
39
VSS
89
NC
139
DQ35
189
DQ59
40
VSS
90
VSS
140
DQ39
190
DQ63
41
DQ16
91
NC
141
DQ40
191
VCC
42
DQ20
92
VCC
142
DQ44
192
VCC
43
DQ17
93
VCC
143
VCC
193
SDA
44
DQ21
94
VCC
144
VCC
194
SA0
45
VCC
95
CKE1
145
DQ41
195
SCL
46
VCC
96
CKE0
146
DQ45
196
SA1
47
DQS2
97
NC
147
DQS5
197
VCCSPD
48
DQM2
98
NC
148
DQM5
198
SA2
49
DQ18
99
A12
149
VSS
199
VCCID
50
DQ22
100
A11
150
VSS
200
NC
A0 – A12
BA0-BA1
DQ0-DQ63
DQS0-DQS7
CK0
CK0#
CKE0-CKE1
CS0#-CS1#
RAS#
CAS#
WE#
DQM0-DQM7
VCC
VSS
VREF
VCCSPD
SDA
SCL
SA0-SA2
VCCID
NC
ACCress input (Multiplexed)
Bank Select ACCress
Data Input/Output
Data Strobe Input/Output
Clock Input
Clock input
Clock Enable input
Chip select Input
Row ACCress Strobe
Column ACCress Strobe
Write Enable
Data-In Mask
Power Supply
Ground
Power Supply for Reference
Serial EEPROM Power Supply
Serial data I/O
Serial clock
ACCress in EEPROM
VCC Identification Flag
No Connect
* Not Used
White Electronic Designs Corp. reserves the right to change products or specifications without notice.
January 2005
Rev. 2
2
White Electronic Designs Corporation • (602) 437-1520 • www.wedc.com
W3EG6466S-AD4
-BD4
White Electronic Designs
PRELIMINARY
FUNCTIONAL BLOCK DIAGRAM
CS1#
CS0#
DQS0
DQM0
DQS4
DQM4
CS#
DQ0
DQ1
DQ2
DQ3
DQ4
DQ5
DQ6
DQ7
DM
DQ0
DQ1
DQ2
DQ3
DQ4
DQ5
DQ6
DQ7
CS#
DQ32
DQ33
DQ34
DQ35
DQ36
DQ37
DQ38
DQ39
DQS1
DQM1
DQ8
DQ9
DQ10
DQ11
DQ12
DQ13
DQ14
DQ15
CS#
DQ40
DQ41
DQ42
DQ43
DQ44
DQ45
DQ46
DQ47
DQ16
DQ17
DQ18
DQ19
DQ20
DQ21
DQ22
DQ23
CS#
DQ48
DQ49
DQ50
DQ51
DQ52
DQ53
DQ54
DQ55
DQ24
DQ25
DQ26
DQ27
DQ28
DQ29
DQ30
DQ31
RAS#
CAS#
BA0-BA1
WE#
A0-A12
CS#
DQ56
DQ57
DQ58
DQ60
DQ61
DQ62
DQ63
DQ64
RAS: DDR SDRAMs
CKE0: DDR SDRAMs
CKE1
CKE1: DDR SDRAMs
DQS
DM
DQ0
DQ1
DQ2
DQ3
DQ4
DQ5
DQ6
DQ7
CS#
DQS
CLK0/CLK0#
CLK1/CLK1#
PLL
CLK2/CLK2#
CLK3/CLK3#
CK0A#
CK0#
FEEDBACK
SERIAL PD
SCL
NOTE: All datalines are terminated through a 22 ohm series resistor.
CS#
CK0A
A0-A12: DDR SDRAMs
CKE0
DM
DQ0
DQ1
DQ2
DQ3
DQ4
DQ5
DQ6
DQ7
VCC
120Ω
CK0
BA0-BA1: DDR SDRAMs
WE: DDR SDRAMs
DQS
CS#
DQS
CAS: DDR SDRAMs
CS#
DQS7
DQM7
CS#
DM
DQ0
DQ1
DQ2
DQ3
DQ4
DQ5
DQ6
DQ7
DM
DQ0
DQ1
DQ2
DQ3
DQ4
DQ5
DQ6
DQ7
CS#
DQS
DQS3
DQM3
DQS
DQS6
DQM6
CS#
DM
DQ0
DQ1
DQ2
DQ3
DQ4
DQ5
DQ6
DQ7
CS#
CS#
DQS
DQS2
DQM2
DM
DQ0
DQ1
DQ2
DQ3
DQ4
DQ5
DQ6
DQ7
DQS5
DQM5
CS#
DM
DQ0
DQ1
DQ2
DQ3
DQ4
DQ5
DQ6
DQ7
CS#
DQS
SDA
A0
A1
A2
SA0
SA1
SA2
VCC
DDR SDRAM
GND
DDR SDRAM
White Electronic Designs Corp. reserves the right to change products or specifications without notice.
January 2005
Rev. 2
3
White Electronic Designs Corporation • (602) 437-1520 • www.wedc.com
W3EG6466S-AD4
-BD4
White Electronic Designs
PRELIMINARY
ABSOLUTE MAXIMUM RATINGS
Parameter
Symbol
Value
Units
Voltage on any pin relative to VSS
VIN, VOUT
-0.5 to 3.6
V
Voltage on VCC supply relative to VSS
VCC, VCCQ
-1.0 to 3.6
V
TSTG
-55 to +150
°C
Power Dissipation
PD
16
W
Short Circuit Current
IOS
50
mA
Storage Temperature
Note:
Permanent device damage may occur if "ABSOLUTE MAXIMUM RATINGS" are exceeded.
Functional operation should be restricted to recommended operating condition.
Exposure to higher than recommended voltage for extended periods of time could affect device reliability.
DC CHARACTERISTICS
0°C ≤ TA ≤ 70°C, VCC = 2.5V ± 0.2V
Parameter
Symbol
Min
Max
Unit
Supply Voltage
VCC
2.3
2.7
V
Supply Voltage
VCCQ
2.3
2.7
V
Reference Voltage
VREF
VCCQ/2 - 50mV
VCCQ/2 + 50mV
V
Termination Voltage
VTT
VREF - 0.04
VREF + 0.04
V
Input High Voltage
VIH
VREF + 0.15
VCCQ + 0.3
V
Input Low Voltage
VIL
-0.3
VREF - 0.15
V
Output High Voltage
VOH
VTT + 0.76
—
V
Output Low Voltage
VOL
—
VTT - 0.76
V
Symbol
Max
Unit
CIN1
50
pF
Input Capacitance (RAS#, CAS#, WE#)
CIN2
50
pF
Input Capacitance (CKE0, CKE1)
CIN3
26
pF
CAPACITANCE
TA = 25°C, f = 1MHz, VCC = 3.3V, VREF =1.4V ± 200mV
Parameter
Input Capacitance (A0-A12)
Input Capacitance (CK0,CK0#)
CIN4
5.5
pF
Input Capacitance (CS0#, CS1#)
CIN5
26
pF
Input Capacitance (DQM0-DQM8)
CIN6
13
pF
Input Capacitance (BA0-BA1)
CIN7
50
pF
Data input/output capacitance (DQ0-DQ63)(DQS)
COUT
13
pF
White Electronic Designs Corp. reserves the right to change products or specifications without notice.
January 2005
Rev. 2
4
White Electronic Designs Corporation • (602) 437-1520 • www.wedc.com
W3EG6466S-AD4
-BD4
White Electronic Designs
PRELIMINARY
IDD SPECIFICATIONS AND TEST CONDITIONS
0°C ≤ TA ≤ 70°C, VCCQ = 2.5V ±0.2V, VCC = 2.5V ±0.2V
DDR333@CL=2.5 DDR266@CL=2, 2.5
Parameter
Symbol Conditions
DDR200@CL=2
Max
Max
Max
Units
1600
1440
1360
mA
Operating Current
IDD0
One device bank; Active - Precharge;
tRC=tRC(MIN); tCK=tCK(MIN); DQ,DM and DQS
inputs changing once per clock cycle; Address
and control inputs changing once every two
cycles.
1640
1560
mA
IDD1
One device bank; Active-Read-Precharge;
Burst = 2; tRC=tRC(MIN);tCK=tCK(MIN); Iout =
0mA; Address and control inputs changing
once per clock cycle.
1800
Operating Current
Precharge Power-Down
Standby Current
IDD2P
All device banks idle; Power- down mode;
tCK=tCK(MIN); CKE=(low)
48
48
48
mA
400
320
320
mA
Idle Standby Current
IDD2F
CS# = High; All device banks idle;
tCK=tCK(MIN); CKE = high; Address and other
control inputs changing once per clock cycle.
Vin = Vref for DQ, DQS and DM.
Active Power-Down
Standby Current
IDD3P
One device bank active; Power-down mode;
tCK(MIN); CKE=(low)
560
480
480
mA
880
720
720
mA
IDD3N
CS# = High; CKE = High; One device
bank; Active-Precharge; tRC=tRAS(MAX);
tCK=tCK(MIN); DQ, DM and DQS inputs
changing twice per clock cycle; Address and
other control inputs changing once per clock
cycle.
2160
1840
1840
mA
IDD4R
Burst = 2; Reads; Continous burst; One
device bank active;Address and control inputs
changing once per clock cycle; tCK=tCK(MIN);
Iout = 0mA.
2160
1800
1800
mA
IDD4W
Burst = 2; Writes; Continous burst; One
device bank active; Address and control inputs
changing once per clock cycle; tCK=tCK(MIN);
DQ,DM and DQS inputs changing twice per
clock cycle.
Auto Refresh Current
IDD5
tRC=tRC(MIN)
2240
2000
2000
mA
Self Refresh Current
IDD6
CKE ≤ 0.2V
48
48
48
mA
2960
2720
mA
IDD7A
Four bank interleaving Reads (BL=4) with auto
precharge with tRC=tRC (MIN); tCK=tCK(MIN);
Address and control inputs change only
during Active Read or Write commands.
3120
Operating Current
Active Standby Current
Operating Current
Operating Current
* For DDR333 consult factory
White Electronic Designs Corp. reserves the right to change products or specifications without notice.
January 2005
Rev. 2
5
White Electronic Designs Corporation • (602) 437-1520 • www.wedc.com
W3EG6466S-AD4
-BD4
White Electronic Designs
PRELIMINARY
DETAILED TEST CONDITIONS FOR DDR SDRAM IDD1 & IDD7A
IDD1 : OPERATING CURRENT : ONE BANK
IDD7A : OPERATING CURRENT : FOUR BANKS
1.
Typical Case : VCC=2.5V, T=25°C
1.
Typical Case : VCC=2.5V, T=25°C
2.
Worst Case : VCC=2.7V, T=10°C
2.
Worst Case : VCC=2.7V, T=10°C
3.
Only one bank is accessed with tRC (min), Burst
Mode, Address and Control inputs on NOP edge
are changing once per clock cycle. IOUT = 0mA
3.
Four banks are being interleaved with tRC (min),
Burst Mode, Address and Control inputs on NOP
edge are not changing. Iout=0mA
4.
Timing Patterns :
4.
Timing Patterns :
•
DDR200 (100 MHz, CL=2) : tCK=10ns, CL2,
BL=4, tRCD=2*tCK, tRAS=5*tCK
Read : A0 N R0 N N P0 N A0 N - repeat the
same timing with random address changing;
50% of data changing at every burst
•
DDR266 (133MHz, CL=2.5) : tCK=7.5ns,
CL=2.5, BL=4, tRCD=3*tCK, tRC=9*tCK, tRAS=5*tCK
Read : A0 N N R0 N P0 N N N A0 N - repeat
the same timing with random address
changing; 50% of data changing at every burst
•
DDR266 (133MHz, CL=2) : tCK=7.5ns, CL=2,
BL=4, tRCD=3*tCK, tRC=9*tCK, tRAS=5*tCK
Read : A0 N N R0 N P0 N N N A0 N - repeat
the same timing with random address
changing; 50% of data changing at every burst
•
DDR333 (166MHz, CL=2.5) : tCK=6ns, BL=4,
tRCD=10*tCK, tRAS=7*tCK
Read : A0 N N R0 N P0 N N N A0 N - repeat
the same timing with random address
changing; 50% of data changing at every burst
•
DDR200 (100 MHz, CL=2) : tCK=10ns, CL2,
BL=4, tRRD=2*tCK, tRCD=3*tCK, Read with
Autoprecharge
Read : A0 N A1 R0 A2 R1 A3 R2 A0 R3 A1 R0
- repeat the same timing with random address
changing; 100% of data changing at every
burst
•
DDR266 (133MHz, CL=2.5) : tCK=7.5ns,
CL=2.5, BL=4, tRRD=3*tCK, tRCD=3*tCK
Read with Autoprecharge
Read : A0 N A1 R0 A2 R1 A3 R2 N R3 A0 N
A1 R0 - repeat the same timing with random
address changing; 100% of data changing at
every burst
•
DDR266 (133MHz, CL=2) : tCK=7.5ns, CL2=2,
BL=4, tRRD=2*tCK, tRCD=2*tCK
Read : A0 N A1 R0 A2 R1 A3 R2 N R3 A0 N
A1 R0 - repeat the same timing with random
address changing; 100% of data changing at
every burst
•
DDR333 (166MHz, CL=2.5) : tCK=6ns,
BL=4, tRRD=3*tCK, tRCD=3*tCK, Read with
Autoprecharge
Read : A0 N A1 R0 A2 R1 A3 R2 N R3 A0 N
A1 R0 - repeat the same timing with random
address changing; 100% of data changing at
every burst
Legend : A = Activate, R = Read, W = Write, P = Precharge, N = NOP
A (0-3) = Activate Bank 0-3
R (0-3) = Read Bank 0-3
White Electronic Designs Corp. reserves the right to change products or specifications without notice.
January 2005
Rev. 2
6
White Electronic Designs Corporation • (602) 437-1520 • www.wedc.com
W3EG6466S-AD4
-BD4
White Electronic Designs
PRELIMINARY
DDR SDRAM COMPONENT ELECTRICAL CHARACTERISTICS AND RECOMMENDED AC
OPERATING CONDITIONS
AC CHARACTERISTICS
335
PARAMETER
262
265/202
UNITS
NOTES
SYMBOL
MIN
MAX
MIN
MAX
MIN
MAX
Access window of DQs from CK/CK#
tAC
-0.70
+0.70
-0.75
+0.75
-0.75
+0.75
ns
CK high-level width
tCH
0.45
0.55
0.45
0.55
0.45
0.55
tCK
CK low-level width
tCL
0.45
0.55
0.45
0.55
0.45
0.55
tCK
26
CL = 2.5
tCK (2.5)
6
13
7.5
13
7.5
13
ns
39, 44
CL = 2
tCK (2)
7.5
13
7.5
13
7.5/10
13
tDH
0.45
DQ and DM input setup time relative to DQS
tDS
0.45
0.5
DQ and DM input pulse width (for each input)
tDIPW
1.75
1.75
Access window of DQS from CK/CK#
tDQSCK
-0.60
DQS input high pulse width
tDQSH
0.35
DQS input low pulse width
tDQSL
0.35
DQS-DQ skew, DQS to last DQ valid, per group, per access
tDQSQ
Write command to first DQS latching transition
tDQSS
0.75
DQS falling edge to CK rising - setup time
tDSS
0.20
0.20
0.20
tCK
DQS falling edge from CK rising - hold time
tDSH
0.20
0.20
0.20
tCK
Half clock period
tHP
tCH,tCL
Data-out high-impedance window from CK/CK#
tHZ
Clock cycle time
DQ and DM input hold time relative to DQS
0.5
+0.60
-0.75
+0.75
1.25
39, 44
23, 27
0.5
ns
23, 27
1.75
ns
27
-0.75
1.25
tCH,tCL
+0.70
0.75
tCK
0.5
ns
1.25
tCK
tCH,tCL
+0.75
ns
tCK
0.35
0.5
0.75
+0.75
0.35
0.35
0.4
ns
ns
0.5
0.35
26
+0.75
22, 23
ns
8
ns
16, 36
Data-out low-impedance window from CK/CK#
tLZ
-0.70
-0.75
-0.75
ns
16, 36
Address and control input hold time (fast slew rate)
tIHF
0.75
0.90
0.90
ns
12
Address and control input setup time (fast slew rate)
tISF
0.75
0.90
.900
ns
12
Address and control input hold time (slow slew rate)
tIHS
0.8
1
1
ns
12
Address and control input setup time (slow slew rate)
tISS
0.8
1
1
ns
12
Address and Control input pulse width (for each input)
tIPW
2.2
2.2
2.2
ns
LOAD MODE REGISTER command cycle time
tMRD
12
15
15
ns
White Electronic Designs Corp. reserves the right to change products or specifications without notice.
January 2005
Rev. 2
7
White Electronic Designs Corporation • (602) 437-1520 • www.wedc.com
W3EG6466S-AD4
-BD4
White Electronic Designs
PRELIMINARY
DDR SDRAM COMPONENT ELECTRICAL CHARACTERISTICS AND RECOMMENDED AC
OPERATING CONDITIONS (Continued)
AC CHARACTERISTICS
PARAMETER
335
262
MAX
MIN
265/202
MAX
NOTES
ns
22, 23
SYMBOL
MIN
DQ-DQS hold, DQS to first DQ to go non-valid, per access
tQH
tHP - tQHS
Data hold skew factor
tQHS
ACTIVE to PRECHARGE command
tRAS
42
ACTIVE to READ with Auto precharge command
tRAP
15
15
20
ns
ACTIVE to ACTIVE/AUTO REFRESH command period
tRC
60
60
65
ns
AUTO REFRESH command period
tRFC
72
75
75
ns
ACTIVE to READ or WRITE delay
tRCD
15
15
20
ns
PRECHARGE command period
tRP
15
15
20
ns
DQS read preamble
tRPRE
0.9
1.1
0.9
1.1
0.9
1.1
tCK
37
DQS read postamble
tRPST
0.4
0.6
0.4
0.6
0.4
0.6
tCK
37
tHP - tQHS
0.75
70,000
MIN
UNITS
0.75
40
MAX
tHP - tQHS
120,000
40
0.75
ns
120,000
ns
ACTIVE bank a to ACTIVE bank b command
tRRD
12
15
15
ns
DQS write preamble
tWPRE
0.25
0.25
0.25
tCK
DQS write preamble setup time
tWPRES
0
DQS write postamble
tWPST
0.4
Write recovery time
tWR
15
15
15
ns
Internal WRITE to READ command delay
tWTR
1
1
1
tCK
Data valid output window
NA
0
0.6
tQH -tDQSQ
0.4
0
0.6
tQH -tDQSQ
0.4
0.6
tQH -tDQSQ
31, 47
42
ns
18, 19
tCK
17
ns
22
REFRESH to REFRESH command interval
tREFC
70.3
70.3
70.3
µs
21
Average periodic refresh interval
tREFI
7.8
7.8
7.8
µs
21
Terminating voltage delay to VDD
tVTD
0
0
0
ns
Exit SELF REFRESH to non-READ command
tXSNR
75
75
75
ns
Exit SELF REFRESH to READ command
tXSRD
200
200
200
tCK
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January 2005
Rev. 2
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W3EG6466S-AD4
-BD4
White Electronic Designs
PRELIMINARY
Notes
1. All voltages referenced to VSS.
2. Tests for AC timing, IDD, and electrical AC and DC characteristics may be conducted
at nominal reference/supply voltage levels, but the related specifications and device
operation are guaranteed for the full voltage range specified.
3. Outputs measured with equivalent load:
17. The intent of the Don’t Care state after completion of the postamble is the DQSdriven signal should either be high, low, or high-Z and that any signal transition
within the input switching region must follow valid input requirements. That is, if
DQS transitions high (above VIH DC (MIN) then it must not transition low (below VIH
DC) prior to tDQSH (MIN).
18. This is not a device limit. The device will operate with a negative value, but system
performance could be degraded due to bus turnaround.
19. It is recommended that DQS be valid (HIGH or LOW) on or before the WRITE
command. The case shown (DQS going from High-Z to logic LOW) applies when
no WRITEs were previously in progress on the bus. If a previous WRITE was in
progress, DQS could be HIGH during this time, depending on tDQSS.
20. MIN (tRC or tRFC) for IDD measurements is the smallest multiple of tCK that meets
the minimum absolute Value for the respective parameter. tRAS (MAX) for IDD
measurements is the largest multiple of tCK that meets the maximum absolute value
for tRAS.
21. The refresh period 64ms. This equates to an aver-age refresh rate of 7.8125µs.
However, an AUTO REFRESH command must be asserted at least once every
70.3µs; burst refreshing or posting by the DRAM controller greater than eight
refresh cycles is not allowed.
22. The valid data window is derived by achieving other specifications: tHP (tCK/2), tDQSQ,
and tQH (tQH = tHP - tQHS). The data valid window derates directly porportional with
the clock duty cycle and a practical data valid window can be derived. The clock
is allowed a maximum duty cycle variation of 45/55, beyond which functionality is
uncertain. Figure 8, Derating Data Valid Window, shows derating curves for duty
cycles ranging between 50/50 and 45/55.
23. Each byte lane has a corresponding DQS.
24. This limit is actually a nominal value and does not result in a fail value. CKE is
HIGH during REFRESH command period (tRFC [MIN]) else CKE is LOW (i.e., during
standby).
25. To maintain a valid level, the transitioning edge of the input must:
a. Sustain a constant slew rate from the current AC level through to the target AC
level, VIL(AC) or VIH(AC).
b. Reach at least the target AC level.After the AC target level is reached, continue
to maintain at least the target DC level, VIL(DC) or VIH(DC).
26. JEDEC specifies CK and CK# input slew rate must be ≥ 1V/ns (2V/ns differentially).
27. DQ and DM input slew rates must not deviate from DQS by more than 10 percent.
If the DQ/ DM/DQS slew rate is less than 0.5V/ns, timing must be derated: 50ps
must be added to tDS and tDH for each 100mv/ns reduction in slew rate. If slew rate
exceeds 4V/ns, functionality is uncertain. For 335, slew rates must be ≥ 0.5 V/ns.
28. VCC must not vary more than 4 percent if CKE is not active while any bank is active.
29. The clock is allowed up to ±150ps of jitter. Each timing parameter is allowed to vary
by the same amount.
30. tHP min is the lesser of tCL minimum and tCH minimum actually applied to the device
CK and CK# inputs, collectively during bank active.
31. READs and WRITEs with auto precharge are not allowed to be issued until
tRAS(MIN) can be satisfied prior to the internal precharge command being issued.
32. Any positive glitch must be less than 1/3 of the clock and not more than +400mV or
2.9V, whichever is less. Any negative glitch must be less than 1/3 of the clock cycle
and not exceed either -300mV or 2.2V, whichever is more positive.
VTT
Output
(VOUT)
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
15.
16.
50Ω
Reference
Point
30pF
AC timing and IDD tests may use a VIL-to-VIH swing of up to 1.5V in the test
environment, but input timing is still referenced to VREF (or to the crossing point for
CK/CK#), and parameter specifications are guaranteed for the specified AC input
levels under normal use conditions. The mini-mum slew rate for the input signals
used to test the device is 1V/ns in the range between VIL(AC) and VIH(AC).
The AC and DC input level specifications are as defined in the SSTL_2 Standard
(i.e., the receiver will effectively switch as a result of the signal crossing the AC
input level, and will remain in that state as long as the signal does not ring back
above [below] the DC input LOW [HIGH] level).
VREF 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 (non-common mode) on VREF may
not exceed ±2 percent of the DC value. Thus, from VCCQ/2, VREF is allowed ±25mV
for DC error and an additional ±25mV for AC noise. This measurement is to be
taken at the nearest VREF bypass capacitor.
VTT 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.
IDD is dependent on output loading and cycle rates. Specified values are obtained
with mini-mum cycle time at CL = 2 for 262, 263, and 202, CL = 2.5 for 335 and 265
with the outputs open.
Enables on-chip refresh and address counters.
IDD specifications are tested after the device is properly initialized, and is averaged
at the defined cycle rate.
This parameter is sampled. VCC = +2.5V ±0.2V, VCCQ = +2.5V ±0.2V, VREF = VSS, f
= 100 MHz, = 25°C, VOUT(DC) = VCCQ/2, VOUT (peak to peak) TA = 0.2V. DM input is
grouped with I/O pins, reflecting the fact that they are matched in loading.
For slew rates less than 1 V/ns and greater than or equal to 0.5 V/ns. If slew rate
is less than 0.5 V/ns, timing must be derated: tIS has an additional 50ps per each
100mV/ns reduction in slew rate from 500mV/ns, while tIH is unaffected. If slew rate
exceeds 4.5 V/ns, functionality is uncertain. For 335, slew rates must be ≥ 0.5 V/ns.
The CK/CK# input reference level (for timing referenced to CK/CK#) is the point at
which CK and CK# cross; the input reference level for signals other than CK/CK# is
VREF.
Inputs are not recognized as valid until VREF stabilizes. Exception: during the period
before VREF stabilizes, CKE < 0.3 x VCCQ is recognized as LOW.
The output timing reference level, as measured at the timing reference point
indicated in Note 3, is VTT.
tHZ and tLZ transitions occur in the same access time windows as valid data
transitions. These parameters are not referenced to a specific voltage level, but
specify when the device output is no longer driving (HZ) or begins driving (LZ).
White Electronic Designs Corp. reserves the right to change products or specifications without notice.
January 2005
Rev. 2
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W3EG6466S-AD4
-BD4
White Electronic Designs
PRELIMINARY
40. Random addressing changing and 50 percent of data changing at every transfer.
41. Random addressing changing and 100 percent of data changing at every transfer.
42. CKE must be active (high) during the entire time a refresh command is executed.
That is, from the time the AUTO REFRESH command is registered, CKE must be
active at each rising clock edge, until tREF later.
43. IDD2N specifies the DQ, DQS, and DM to be driven to a valid high or low logic level.
IDD2Q is similar to IDD2F except IDD2Q specifies the address and control inputs to
remain stable. Although IDD2F, IDD2N, and IDD2Q are similar, IDD2F is “worst case.”
44. Whenever the operating frequency is altered, not including jitter, the DLL is required
to be reset. This is followed by 200 clock cycles.
45. Leakage number reflects the worst case leakage possible through the module pin,
not what each memory device contributes.
46. When an input signal is HIGH or LOW, it is defined as a steady state logic HIGH or
LOW.
47. The 335 speed grade will operate with tRAS (MIN) = 40ns and tRAS (MAX) =
120,000ns at any slower frequency.
33. The voltage levels used are derived from a mini-mum VCC level and the referenced
test load. In practice, the voltage levels obtained from a properly terminated bus will
provide significantly different voltage values.
34. VIH overshoot: VIH (MAX) = VCCQ + 1.5V for a pulse width ≤ 3ns and the pulse width
can not be greater than 1/3 of the cycle rate. VIL undershoot: VIL (MIN) = -1.5V for a
pulse width ≤ 3ns and the pulse width can not be greater than 1/3 of the cycle rate.
35. VCC and VCCQ must track each other.
36. tHZ (MAX) will prevail over tDQSCK (MAX) + tRPST (MAX) condition. tLZ (MIN) will
prevail over tDQSCK (MIN) + tRPRE (MAX) condition.
37. 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).
38. During Initialization, VCCQ, VTT, and VREF must be equal to or less than VCC + 0.3V.
Alternatively, VTT may be 1.35V maximum during power up, even if VCC/VCCQ are
0.0V, provided a minimum of 42 0 of series resistance is used between the VTT
supply and the input pin.
39. The current part operates below the slowest JEDEC operating frequency of 83
MHz. As such, future die may not reflect this option.
White Electronic Designs Corp. reserves the right to change products or specifications without notice.
January 2005
Rev. 2
10
White Electronic Designs Corporation • (602) 437-1520 • www.wedc.com
W3EG6466S-AD4
-BD4
White Electronic Designs
PRELIMINARY
ORDERING INFORMATION FOR AD4
Part Number
Speed
Height*
W3EG6466S335AD4
166MHz/333Mbps, CL=2.5
35.5 (1.38)
W3EG6466S262AD4
133MHz/266Mbps, CL=2
35.5 (1.38)
W3EG6466S265AD4
133MHz/266Mbps, CL=2.5
35.5 (1.38)
W3EG6466S202AD4
100MHz/200Mbps, CL=2
35.5 (1.38)
NOTES:
• Consult Factory for availability of RoHS compliant products. (G = RoHS Compliant)
• Vendor specific 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 qualified 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 AD4
67.56
(2.666) MAX.
6.35
(0 .250)
MAX.
2.0
(0.079)
3.98 ± 0.1
(0.157 ± 0.004)
35.05
(1.38) MAX.
20
(0.787)
P1
2.31
(0.091) REF.
4.19
(0.165)
1.80
(0.071)
3.98
(0.157) MIN.
47.40
(1.866)
1.0 ± 0.1
(0.039 ± 0.004)
11.40
(0.449)
* ALL DIMENSIONS ARE IN MILIMETERS AND (INCHES)
White Electronic Designs Corp. reserves the right to change products or specifications without notice.
January 2005
Rev. 2
11
White Electronic Designs Corporation • (602) 437-1520 • www.wedc.com
W3EG6466S-AD4
-BD4
White Electronic Designs
PRELIMINARY
ORDERING INFORMATION FOR BD4
Part Number
Speed
Height*
W3EG6466S335BD4
166MHz/333Mbps, CL=2.5
31.75 (1.25)
W3EG6466S262BD4
133MHz/266Mbps, CL=2
31.75 (1.25)
W3EG6466S265BD4
133MHz/266Mbps, CL=2.5
31.75 (1.25)
W3EG6466S202BD4
100MHz/200Mbps, CL=2
31.75 (1.25)
NOTES:
• Consult Factory for availability of RoHS compliant products. (G = RoHS Compliant)
• Vendor specific 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 qualified 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 BD4
6.35
(0.250)
MAX.
67.56
(2.666) MAX
3.98 ± 0.1
(0.157 ± 0.004)
31.75
(1.25)
20
(0.787)
2.31
(0.091) REF.
4.19
(0.165)
1.80
(0.071)
3.98
(0.157) MIN.
47.40
(1.866)
1.0 ± 0.1
(0.039 ± 0.004)
11.40
(0.449)
* ALL DIMENSIONS ARE IN MILIMETERS AND (INCHES)
White Electronic Designs Corp. reserves the right to change products or specifications without notice.
January 2005
Rev. 2
12
White Electronic Designs Corporation • (602) 437-1520 • www.wedc.com
W3EG6466S-AD4
-BD4
White Electronic Designs
PRELIMINARY
Document Title
512MB – 64Mx64 DDR SDRAM UNBUFFERED, w/PLL
Revision History
Rev #
History
Release Date
Status
Rev A
Created
7-21-02
Advanced
0.1 Upated IDD specs.
8-04
Preliminary
11-04
Preliminary
1-05
Preliminary
Rev 0
0.2 Added AD4 and BD4 package options
0.3 Added document title page
0.4 Removed "ED" from part number
0.5 Moved from advanced to preliminary
Rev 1
1.0 Upated IDD and CAP specs.
1.1 Added AC specs
Rev 2
2.1 Added lead-free and RoHS notes
2.2 Added source control notes
2.3 Added industrial temperature options
White Electronic Designs Corp. reserves the right to change products or specifications without notice.
January 2005
Rev. 2
13
White Electronic Designs Corporation • (602) 437-1520 • www.wedc.com