PC133 SDRAM Registered DIMM Design
PC133 SDRAM Registered DIMM
Design Specification
Revision 1.1
August 1999
Prepared By IBM and Reliance Computer Corporation
PC133 SDRAM Registered DIMM Design Specification
All information contained in this document is subject to change without notice. The products described in this document
are NOT intended for use in implantation or other life support applications where malfunction may result in injury or death
to persons. The information contained in this document does not affect or change IBM product specifications or warranties. Nothing in this document shall operate as an express or implied license or indemnity under the intellectual property
rights of IBM or third parties. All information contained in this document was obtained in specific environments, and is
presented as an illustration. The results obtained in other operating environments may vary.
THE INFORMATION CONTAINED IN THIS DOCUMENT IS PROVIDED ON AN "AS IS" BASIS. In no event will IBM be
liable for damages arising directly or indirectly from any use of the information contained in this document.
Page 2
Revision 1.0
PC133 SDRAM Registered DIMM Design Specification
Product Description .................................................................................................................................. 1
Product Family Attributes ...................................................................................................................... 1
Environmental Requirements................................................................................................................... 2
Architecture ............................................................................................................................................... 2
Environmental Parameters.................................................................................................................... 2
Pin Description ...................................................................................................................................... 2
Input/Output Functional Description...................................................................................................... 3
Registered SDRAM DIMM Pinout ......................................................................................................... 4
Block Diagram: Raw Card Version E .................................................................................................... 9
Termination for Unused Clock Signals (CK1-CK3) ............................................................................. 10
Clock Net Wiring (CK0) ....................................................................................................................... 10
Register Functional Assignments........................................................................................................ 11
Register Functional Assignments (continued)..................................................................................... 12
Component Details..................................................................................................................................
Pin Assignments for 64Mb and 128Mb SDRAM Planar Components ................................................
Pin Assignments for 64Mb and 128Mb 54 pin SDRAM 2 High Stack Package
(Dual CS Pin).............................................................................................................................................
Pin Assignments for 256Mb 54 pin SDRAM Planar Components.......................................................
Pin Assignments for 256Mb 54 pin SDRAM 2 High Stack Package
(Dual CS Pin).............................................................................................................................................
Pin Assignments for 256Mb 66 pin SDRAM 2 High Stack Package
(Dual CS Pin).............................................................................................................................................
(Top View)...........................................................................................................................................
SDRAM Component Specifications ....................................................................................................
Register Component Specifications ....................................................................................................
Register Sourcing................................................................................................................................
PLL Component Specifications ...........................................................................................................
PLL Sourcing.......................................................................................................................................
DIMM PLL Use....................................................................................................................................
13
13
Registered DIMM Details.........................................................................................................................
SDRAM Module Configurations (Reference Designs) ........................................................................
PC133 Gerber Releases .....................................................................................................................
Input Loading Matrix............................................................................................................................
Example Raw Card Version A Component Placement .......................................................................
Example Raw Card Version B (Planar) and E Component Placement...............................................
Example Raw Card Versions B (Stacked) and C Component Placement ..........................................
Example Raw Card Version D Component Placement.......................................................................
23
23
24
24
25
26
27
28
Revision 1.0
14
15
16
17
17
18
21
21
22
22
22
Page iii
PC133 SDRAM Registered DIMM Design Specification
DIMM Wiring Details ................................................................................................................................
Signal Groups .....................................................................................................................................
General Net Structure Routing Guidelines ..........................................................................................
Explanation of Net Structure Diagrams ...............................................................................................
Clock Net Structures ...........................................................................................................................
Data Net Structures.............................................................................................................................
Data Mask Net Structures ...................................................................................................................
Chip Select Net Structures ..................................................................................................................
Clock Enable Net Structures ...............................................................................................................
Address/Control Net Structures ..........................................................................................................
Cross Section Recommendations .......................................................................................................
29
29
29
30
31
33
34
36
39
43
46
Timing Budget.......................................................................................................................................... 47
DIMM Post-Register Timing ................................................................................................................ 47
*DIMM Clock Contributions (tSkew) .................................................................................................... 47
Serial PD Definition ................................................................................................................................. 48
Serial Presence Detect Data EXAMPLE ............................................................................................. 48
Product Label........................................................................................................................................... 50
DIMM Mechanical Specifications ........................................................................................................... 51
Supporting Hardware .............................................................................................................................. 52
Clock Reference Board ....................................................................................................................... 52
Application Notes .................................................................................................................................... 53
Clocking Timing Methodology ............................................................................................................. 53
Revision Log ....................................................................................................................................... 54
Page iv
Revision 1.0
PC133 SDRAM Registered DIMM Design Specification
Product Description
Product Description
This specification defines the electrical and mechanical requirements for 168-pin, 3.3 Volt, 133MHz, 72-bit
wide, Registered Synchronous DRAM Dual In-Line Memory Modules (SDRAM DIMMs).These SDRAM
DIMMs are intended for use as main memory when installed in systems such as servers and workstations.
Reference design examples are included which provide an initial basis for Registered DIMM designs. Modifications to these reference designs may be required to meet all system timing, signal integrity and thermal
requirements for 133MHz support. All registered DIMM implementations must use simulations and lab verification to ensure proper timing requirements and signal integrity in the design.
This specification largely follows the JEDEC defined 168-pin 8-Byte Registered SDRAM DIMM product.
(Refer to JEDEC standard 21-C, Section 4.5.7, at www.jedec.org).
Product Family Attributes
DIMM Organization
x 72 ECC
DIMM Dimensions (nominal)
5.25" x 1.5"/1.7" x .157"/.320"
Pin Count
168
SDRAMs Supported
64Mb, 128Mb, 256Mb
Capacity
64MB, 128MB, 256MB, 512MB, 1GB
Serial PD
Consistent with JEDEC Rev. 2.0
Voltage Options
3.3 volt (VDD/VDDQ)
Interface
LVTTL
Revision 1.1
Page 5
PC133 SDRAM Registered DIMM Design Specification
Environmental Requirements
Environmental Requirements
PC133 SDRAM Registered DIMMs are intended for use in standard office environments that have limited
capacity for heating and air conditioning.
Environmental Parameters
Symbol
Parameter
Rating
Units
Notes
TOPR
Operating Temperature (ambient)
0 to +55
°C
1
HOPR
Operating Humidity (relative)
10 to 90
%
1
TSTG
Storage Temperature
-50 to +100
°C
1
HSTG
Storage Humidity (without condensation)
5 to 95
%
1
105 to 69
K Pascal
1, 2
Barometric Pressure (operating & storage)
1. Stresses greater than those listed may cause permanent damage to the device. This is a stress rating only, and device functional
operation at or above the conditions indicated is not implied. Exposure to absolute maximum rating conditions for extended periods
may affect reliability.
2. Up to 9850 ft.
Architecture
Pin Description
CK(0:3)
Clock Inputs
DQ(0:63)
Data Input/Output
CKE(0:1)
Clock Enables
CB(0:7)
ECC Data Input/Output
RAS
Row Address Strobe
CAS
DQMB(0:7)
Data Mask
Column Address Strobe
VDD
Power (3.3V)
WE
Write Enable
VSS
Ground
S(0:3)
Chip Selects
NC
No Connect
A(0:9,11:12)
Address Inputs
SCL
Serial Presence Detect Clock Input
Address Input/Autoprecharge
SDA
Serial Presence Detect Data Input/Output
A10/AP
BA0-BA1
REGE
DU
Page 6
SDRAM Bank Address
SA(0:2)
Serial Presence Detect Address Inputs
Register Enable
WP
Write Protect for SPD on DIMM
Don’t Use - leave as NC
NC
No Connect
Revision 1.1
PC133 SDRAM Registered DIMM Design Specification
Input/Output Functional Description
Symbol
Type
Polarity
Function
CK0 - CK3
Input
Positive
Edge
The system clock inputs. All of the SDRAM inputs are sampled on the rising edge of their associated clock. CK0 drives the PLL. CK1, CK2 & CK3 are terminated.
CKE0,1
Input
Active
High
Activates the SDRAM CK signal when high and deactivates the CK signal when low. By deactivating the clocks, CKE low initiates the Power Down mode, Suspend mode, or the Self Refresh
mode.
S0 - S3
Input
Enables the associated SDRAM command decoder when low and disables the command decoder
Active Low when high. When the command decoder is disabled, new commands are ignored but previous
operations continue. Physical Bank 0 is selected by S0 and S2; Bank 1 is selected by S1 and S3.
RAS, CAS
WE
Input
Active Low When sampled at the positive rising edge of the clock, CAS, RAS, and WE define the operation to
be executed by the SDRAM.
BA0, 1
Input
A0 - A9,
A11-12
A10/AP
Input
DQ0 - DQ63, Input
CB0 - CB7
Output
DQMB0 DQMB7
Input
VDD, VSS
Supply
—
Selects which SDRAM bank of four is activated.
—
During a Bank Activate command cycle, A0-A12 defines the row address (RA0-RA12) when sampled at the rising clock edge.
During a Read or Write command cycle, A0-A10 defines the column address (CA0-CA10) when
sampled at the rising clock edge. In addition to the column address, AP is used to invoke autoprecharge operation at the end of the burst read or write cycle. If AP is high, autoprecharge is
selected and BA0, BA1 defines the bank to be precharged. If AP is low, autoprecharge is disabled.
During a Precharge command cycle, AP is used in conjunction with BA0, BA1 to control which
bank(s) to precharge. If AP is high, all banks will be precharged regardless of the state of BA0 or
BA1. If AP is low, then BA0 and BA1 are used to define which bank to precharge.
—
Data and Check Bit Input/Output pins.
Active
High
The Data Input/Output masks, associated with one data byte, place the DQ buffers in a high
impedance state when sampled high. In Read mode, DQMB has a latency of two clock cycles in
Buffered mode or three clock cycles in Registered mode, and controls the output buffers like an
output enable. In Write mode, DQMB has a zero clock latency in Buffered mode and a latency of
one clock cycle in Registered mode. In this case, DQMB operates as a byte mask by allowing input
data to be written if it is low but blocks the write operation if it is high.
Power and ground for the module.
Active
High
The Register Enable pin is used to permit the DIMM to operate in Buffered mode (inputs re-driven
(Register asynchronously) or Registered mode (signals re-driven to SDRAMs when clock rises, and held
Mode
valid until next rising clock).
Enable)
REGE
Input
SA0 - 2
Input
—
These signals are tied at the system planar to either VSS or VDD to configure the SPD EEPROM.
SDA
Input
Output
—
This is a bidirectional pin used to transfer data into or out of the SPD EEPROM. A resistor must be
connected from the SDA bus time to VDD to act as a pull up.
SCL
Input
—
This signal is used to clock data into and out of the SPD EEPROM. A resistor may be connected
from the SCL bus time to VDD to act as a pull up.
WP
Input
Active
High
Revision 1.1
This signal is pulled low on the DIMM to enable data to be written into the last 128 bytes of the
SPD EEPROM.
Page 7
PC133 SDRAM Registered DIMM Design Specification
Architecture
.
Registered SDRAM DIMM Pinout
Pin#
Front
Side
Pin#
Back
Side
Pin#
Front
Side
Pin#
Back
Side
Pin#
Front
Side
Pin#
Back
Side
Pin#
Front
Side
Pin#
Back
Side
1
VSS
85
VSS
22
CB1
106
CB5
43
VSS
127
VSS
64
VSS
148
VSS
2
DQ0
86
DQ32
23
VSS
107
VSS
44
NC
128
CKE0
65
DQ21
149
DQ53
3
DQ1
87
DQ33
24
NC
108
NC
45
S2
129
S3
66
DQ22
150
DQ54
4
DQ2
88
DQ34
25
NC
109
NC
46
DQMB2
130
DQMB6
67
DQ23
151
DQ55
5
DQ3
89
DQ35
26
VDD
110
VDD
47
DQMB3
131
DQMB7
68
VSS
152
VSS
6
VDD
90
VDD
27
WE
111
CAS
48
NC
132
NC
69
DQ24
153
DQ56
7
DQ4
91
DQ36
28
DQMB0
112
DQMB4
49
VDD
133
VDD
70
DQ25
154
DQ57
8
DQ5
92
DQ37
29
DQMB1
113
DQMB5
50
NC
134
NC
71
DQ26
155
DQ58
9
DQ6
93
DQ38
30
S0
114
S1
51
NC
135
NC
72
DQ27
156
DQ59
10
DQ7
94
DQ39
31
NC
115
RAS
52
CB2
136
CB6
73
VDD
157
VDD
11
DQ8
95
DQ40
32
VSS
116
VSS
53
CB3
137
CB7
74
DQ28
158
DQ60
12
VSS
96
VSS
33
A0
117
A1
54
VSS
138
VSS
75
DQ29
159
DQ61
13
DQ9
97
DQ41
34
A2
118
A3
55
DQ16
139
DQ48
76
DQ30
160
DQ62
14
DQ10
98
DQ42
35
A4
119
A5
56
DQ17
140
DQ49
77
DQ31
161
DQ63
15
DQ11
99
DQ43
36
A6
120
A7
57
DQ18
141
DQ50
78
VSS
162
VSS
16
DQ12
100
DQ44
37
A8
121
A9
58
DQ19
142
DQ51
79
CK2
163
CK3
17
DQ13
101
DQ45
38
A10/AP
122
BA0
59
VDD
143
VDD
80
NC
164
NC
18
VDD
102
VDD
39
BA1
123
A11
60
DQ20
144
DQ52
81
WP
165
SA0
19
DQ14
103
DQ46
40
VDD
124
VDD
61
NC
145
NC
82
SDA
166
SA1
20
DQ15
104
DQ47
41
VDD
125
CK1
62
NC
146
NC
83
SCL
167
SA2
21
CB0
105
CB4
42
CK0
126
A12
63
CKE1/
NC
147
REGE
84
VDD
168
VDD
Note: All pin assignments are consistent with all 8-byte unbuffered versions.
Page 8
Revision 1.1
PC133 SDRAM Registered DIMM Design Specification
Block Diagram: Raw Card Version A
RS0
RDQMB0
#
CS
CS
DQ8
DQ9
DQ10
DQ11
DQ12
DQ13
DQ14
DQ15
DQM
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
DQM
I/O 0
I/O 1
I/O 2
I/O 3
I/O 4
I/O 5
I/O 6
I/O 7
D0
DQ32
DQ33
DQ34
DQ35
DQ36
DQ37
DQ38
DQ39
DQM
I/O 0
I/O 1
I/O 2
I/O 3
I/O 4
I/O 5
I/O 6
I/O 7
CS
D5
RDQMB5
RDQMB1
D1
CS
D2
RS2
RDQMB2
DQ16
DQ17
DQ18
DQ19
DQ20
DQ21
DQ22
DQ23
(Populated as 1 physical bank of x8 SDRAMs)
RDQMB4
DQM
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
DQ40
DQ41
DQ42
DQ43
DQ44
DQ45
DQ46
DQ47
DQM
I/O 0
I/O 1
I/O 2
I/O 3
I/O 4
I/O 5
I/O 6
I/O 7
CS
D6
RDQMB6
DQ48
DQ49
DQ50
DQ51
DQ52
DQ53
DQ54
DQ55
DQM
I/O 0
I/O 1
I/O 2
I/O 3
I/O 4
I/O 5
I/O 6
I/O 7
CS
D7
RDQMB7
DQM
I/O 0
I/O 1
I/O 2
I/O 3
I/O 4
I/O 5
I/O 6
I/O 7
CS
D3
DQ56
DQ57
DQ58
DQ59
DQ60
DQ61
DQ62
DQ63
DQM
I/O 0
I/O 1
I/O 2
I/O 3
I/O 4
I/O 5
I/O 6
I/O 7
CS
D8
RDQMB3
DQ24
DQ25
DQ26
DQ27
DQ28
DQ29
DQ30
DQ31
S0/S2
DQMB0 to DQMB7
BA0-BA1
A0-A12
RAS
CAS
CKE0
WE
10k
Architecture
CS
DQM
I/O 0
I/O 1
I/O 2
I/O 3
I/O 4
I/O 5
I/O 6
I/O 7
#Unless otherwise noted,
Serial Presence Detect
SCL
WP
47K
resistor values are 10 Ohms.
D4
CK0
PLL
CK1, CK2, CK3 Terminated
R
E
G
I
S
T
E
R
RS0/RS2
RDQMB0 - RDQMB7
BA0-BA1: SDRAMs D0-D8
RBA0 - RBA1
A0-A12: SDRAMs D0-D8
RA0-RA12
RAS: SDRAMs D0 - D8
RRAS
RCAS
CAS: SDRAMs D0 - D8
RCKE0
CKE: SDRAMs D0 - D8
RWE
WE: SDRAMs D0 - D8
SDA
A0
A1
A2
SA0
SA1
SA2
VDD
D0 - D8
VSS
D0 - D8
Note: DQ wiring may differ from that described
in this drawing; however DQ/DQMB
relationships are maintained as shown.
Note: Register, PLL and Serial Presence
Detect are all connected to V DD.
VDD
REGE
PCK
Revision 1.1
Page 9
PC133 SDRAM Registered DIMM Design Specification
Architecture
Block Diagram: Raw Card Version B
RS0
RDQMB0
#
RDQMB4
DQM
I/O 0
I/O 1
I/O 2
I/O 3
CS
DQ0
DQ1
DQ2
DQ3
DQM
I/O 0
I/O 1
I/O 2
I/O 3
CS
DQ4
DQ5
DQ6
DQ7
D0
D1
DQ8
DQ9
DQ10
DQ11
DQM
I/O 0
I/O 1
I/O 2
I/O 3
DQ12
DQ13
DQ14
DQ15
DQM
I/O 0
I/O 1
I/O 2
I/O 3
DQM
I/O 0
I/O 1
I/O 2
I/O 3
CS
CB0
CB1
CB2
CB3
DQM
I/O 0
I/O 1
I/O 2
I/O 3
DQ36
DQ37
DQ38
DQ39
DQM
I/O 0
I/O 1
I/O 2
I/O 3
CS
D9
CS
D10
CS
DQ16
DQ17
DQ18
DQ19
DQM
I/O 0
I/O 1
I/O 2
I/O 3
DQ20
DQ21
DQ22
DQ23
DQM
I/O 0
I/O 1
I/O 2
I/O 3
DQ40
DQ41
DQ42
DQ43
DQM
I/O 0
I/O 1
I/O 2
I/O 3
DQ44
DQ45
DQ46
DQ47
DQM
I/O 0
I/O 1
I/O 2
I/O 3
D12
CB4
CB5
CB6
CB7
DQM
I/O 0
I/O 1
I/O 2
I/O 3
D13
CS
D2
CS
D3
D4
RS2
RDQMB2
CS
D11
CS
CS
RDQMB6
D5
DQ48
DQ49
DQ50
DQ51
DQM
I/O 0
I/O 1
I/O 2
I/O 3
DQ52
DQ53
DQ54
DQ55
DQM
I/O 0
I/O 1
I/O 2
I/O 3
CS
D6
RDQMB3
DQ28
DQ29
DQ30
DQ31
DQ32
DQ33
DQ34
DQ35
RDQMB5
RDQMB1
DQ24
DQ25
DQ26
DQ27
(Populated as 1 physical bank of x4 SDRAMs)
CS
D14
Serial Presence Detect
CS
D15
SCL
WP
47K
SDA
A0
A1
A2
SA0
SA1
SA2
RDQMB7
DQM
I/O 0
I/O 1
I/O 2
I/O 3
CS
D7
DQM
I/O 0
I/O 1
I/O 2
I/O 3
DQ56
DQ57
DQ58
DQ59
CS
D8
DQ60
DQ61
DQ62
DQ63
CS
DQM
I/O 0
I/O 1
D16
I/O 2
I/O 3
DQM
I/O 0
I/O 1
I/O 2
I/O 3
VDD
D0 - D8
VSS
D0 - D8
CS
D17
Note: DQ wiring may differ from that described
in this drawing; however, DQ/DQMB
relationships are maintained as shown.
#Unless otherwise noted, resistor values are 10 Ohms.
S0/S2
DQMB0 to DQMB7
BA0-BA1
A0-A12
RAS
CAS
CKE0
WE
10k
Page 10
R
E
G
I
S
T
E
R
RS0/RS2
RDQMB0 - RDQMB7
BA0-BA1: SDRAMs D0-D17
RBA0 - RBA1
A0-A12: SDRAMs D0-D17
RA0-RA12
RAS: SDRAMs D0 - D17
RRAS
RCAS
CAS: SDRAMs D0 - D17
CKE: SDRAMs D0 - D17
RCKE0
RWE
WE: SDRAMs D0 - D17
Note: Register, PLL and Serial Presence
Detect are all connected to VDD.
VDD
CK0
REGE
PCK
CK1, CK2, CK3 Terminated
PLL
Revision 1.1
PC133 SDRAM Registered DIMM Design Specification
Architecture
Block Diagram: Raw Card Version B (Populated as 2 physical banks of x4 SDRAMs)
RDQMB0
#
RS0
RS1
RDQMB4
DQM CS
I/O 0
I/O 1
D0
I/O 2
I/O 3
DQM CS
I/O 0
I/O 1
D18
I/O 2
I/O 3
DQ32
DQ33
DQ34
DQ35
DQM
I/O 0
I/O 1
I/O 2
I/O 3
CS
DQ0
DQ1
DQ2
DQ3
DQM CS
I/O 0
I/O 1
D1
I/O 2
I/O 3
DQM CS
I/O 0
I/O 1
D19
I/O 2
I/O 3
DQ36
DQ37
DQ38
DQ39
DQM
I/O 0
I/O 1
I/O 2
I/O 3
CS
DQ4
DQ5
DQ6
DQ7
DQM
I/O 0
I/O 1
I/O 2
I/O 3
CS
DQM
I/O 0
I/O 1
I/O 2
I/O 3
CS
DQM
I/O 0
I/O 1
I/O 2
I/O 3
CS
CS
D12
DQM
I/O 0
I/O 1
I/O 2
I/O 3
D13
DQM
I/O 0
I/O 1
D31
I/O 2
CS
I/O 3
D9
D10
D27
D28
RDQMB5
RDQMB1
DQM CS
I/O 0
I/O 1
D2
I/O 2
I/O 3
DQM CS
I/O 0
I/O 1
D20
I/O 2
I/O 3
DQ40
DQ41
DQ42
DQ43
DQM
I/O 0
I/O 1
I/O 2
I/O 3
CS
DQ8
DQ9
DQ10
DQ11
DQM CS
I/O 0
I/O 1
D3
I/O 2
I/O 3
DQM CS
I/O 0
I/O 1
D21
I/O 2
I/O 3
DQ44
DQ45
DQ46
DQ47
DQM
I/O 0
I/O 1
I/O 2
I/O 3
CS
DQ12
DQ13
DQ14
DQ15
CB0
CB1
CB2
CB3
DQM CS
I/O 0
I/O 1
D4
I/O 2
I/O 3
DQM CS
I/O 0
I/O 1
D22
I/O 2
I/O 3
CB4
CB5
CB6
CB7
DQM
I/O 0
I/O 1
I/O 2
I/O 3
RS3
RDQMB2
D11
CS
D29
D30
RS2
RDQMB6
DQ16
DQ17
DQ18
DQ19
DQM CS
I/O 0
I/O 1
D5
I/O 2
I/O 3
DQM CS
I/O 0
I/O 1
D23
I/O 2
I/O 3
DQ20
DQ21
DQ22
DQ23
DQM CS
I/O 0
I/O 1
D6
I/O 2
I/O 3
DQM CS
I/O 0
I/O 1
D24
I/O 2
I/O 3
DQM CS
I/O 0
I/O 1
D14
I/O 2
I/O 3
DQM
I/O 0
I/O 1
I/O 2
I/O 3
CS
DQ48
DQ49
DQ50
DQ51
DQM
I/O 0
I/O 1
I/O 2
I/O 3
CS
DQ52
DQ53
DQ54
DQ55
DQM CS
I/O 0
I/O 1
D15
I/O 2
I/O 3
D32
D33
RDQMB7
RDQMB3
DQM CS
I/O 0
I/O 1
D7
I/O 2
I/O 3
DQM CS
I/O 0
I/O 1
D25
I/O 2
I/O 3
DQ56
DQ57
DQ58
DQ59
DQM CS
I/O 0
I/O 1
D16
I/O 2
I/O 3
DQM
I/O 0
I/O 1
I/O 2
I/O 3
CS
DQ24
DQ25
DQ26
DQ27
DQM CS
I/O 0
I/O 1
D8
I/O 2
I/O 3
DQM CS
I/O 0
I/O 1
D26
I/O 2
I/O 3
DQ60
DQ61
DQ62
DQ63
DQM CS
I/O 0
I/O 1
D17
I/O 2
I/O 3
DQM
I/O 0
I/O 1
I/O 2
I/O 3
CS
DQ28
DQ29
DQ30
DQ31
S0-S3
DQMB0 to DQMB7
BA0, BA1
A0-A12
RAS
CAS
CKE0
WE
10k
VDD
REGE
PCK
Revision 1.1
Note: DQ wiring
may differ from that
described in this
drawing; however,
DQ/DQMB relationships are maintained as shown.
R
E
G
I
S
T
E
R
RS0-RS3
CK0
CK1, CK2 & CK3
RDQMB0 - RDQMB7
RBA0
BA0, RBA1
BA1: SDRAMs D0-D35
RA0-RA12
A0-A12: SDRAMs D0-D35
RAS: SDRAMs D0 - D35
RRAS
RCAS
CAS: SDRAMs D0 - D35
RCKE0
CKE: SDRAMs D0 - D35
RWE
WE: SDRAMs D0 - D35
#: Unless otherwise noted, resistor values are 10 OHMS.
D34
Note: Register, PLL and
Serial Presence Detect
are all connected to VDD.
D35
PLL
Termination
Serial PD
SCL
SDA
WP
47k
A0
A1
A2
SA0
SA1
SA2
VDD
D0 - D35
VSS
D0 - D35
Page 11
PC133 SDRAM Registered DIMM Design Specification
Architecture
Block Diagram: Raw Card Versions C & D (Populated as 2 physical banks of x4 SDRAMs)
RDQMB0
#
RS1
RS0
RDQMB4
DQM CS
I/O 0
I/O 1
D18
I/O 2
I/O 3
DQ32
DQ33
DQ34
DQ35
DQM
I/O 0
I/O 1
I/O 2
I/O 3
CS
DQ0
DQ1
DQ2
DQ3
DQM CS
I/O 0
I/O 1
D0
I/O 2
I/O 3
DQM CS
I/O 0
I/O 1
D1
I/O 2
I/O 3
DQM CS
I/O 0
I/O 1
D19
I/O 2
I/O 3
DQ36
DQ37
DQ38
DQ39
DQM
I/O 0
I/O 1
I/O 2
I/O 3
CS
DQ4
DQ5
DQ6
DQ7
DQM
I/O 0
I/O 1
I/O 2
I/O 3
CS
DQM
I/O 0
I/O 1
I/O 2
I/O 3
CS
DQM
I/O 0
I/O 1
I/O 2
I/O 3
CS
CS
D12
DQM
I/O 0
I/O 1
I/O 2
I/O 3
D13
DQM
I/O 0
I/O 1
D31
I/O 2
CS
I/O 3
D9
D10
D27
D28
RDQMB5
RDQMB1
DQM CS
I/O 0
I/O 1
D2
I/O 2
I/O 3
DQM CS
I/O 0
I/O 1
D20
I/O 2
I/O 3
DQ40
DQ41
DQ42
DQ43
DQM
I/O 0
I/O 1
I/O 2
I/O 3
CS
DQ8
DQ9
DQ10
DQ11
DQM CS
I/O 0
I/O 1
D3
I/O 2
I/O 3
DQM CS
I/O 0
I/O 1
D21
I/O 2
I/O 3
DQ44
DQ45
DQ46
DQ47
DQM
I/O 0
I/O 1
I/O 2
I/O 3
CS
DQ12
DQ13
DQ14
DQ15
CB0
CB1
CB2
CB3
DQM CS
I/O 0
I/O 1
D4
I/O 2
I/O 3
DQM CS
I/O 0
I/O 1
D22
I/O 2
I/O 3
CB4
CB5
CB6
CB7
DQM
I/O 0
I/O 1
I/O 2
I/O 3
D11
CS
D29
D30
RS2
RS3
RDQMB2
RDQMB6
DQM CS
I/O 0
I/O 1
D5
I/O 2
I/O 3
DQM CS
I/O 0
I/O 1
D23
I/O 2
I/O 3
DQ48
DQ49
DQ50
DQ51
DQM
I/O 0
I/O 1
I/O 2
I/O 3
CS
DQ16
DQ17
DQ18
DQ19
DQM CS
I/O 0
I/O 1
D6
I/O 2
I/O 3
DQM CS
I/O 0
I/O 1
D24
I/O 2
I/O 3
DQ52
DQ53
DQ54
DQ55
DQM
I/O 0
I/O 1
I/O 2
I/O 3
CS
DQ20
DQ21
DQ22
DQ23
D14
D15
DQM
I/O 0
I/O 1
I/O 2
I/O 3
CS
DQM
I/O 0
I/O 1
I/O 2
I/O 3
CS
D32
D33
RDQMB7
RDQMB3
DQM CS
I/O 0
I/O 1
D7
I/O 2
I/O 3
DQM CS
I/O 0
I/O 1
D25
I/O 2
I/O 3
DQ56
DQ57
DQ58
DQ59
DQM
I/O 0
I/O 1
I/O 2
I/O 3
CS
DQ24
DQ25
DQ26
DQ27
DQM CS
I/O 0
I/O 1
D8
I/O 2
I/O 3
DQM CS
I/O 0
I/O 1
D26
I/O 2
I/O 3
DQ60
DQ61
DQ62
DQ63
DQM
I/O 0
I/O 1
I/O 2
I/O 3
CS
DQ28
DQ29
DQ30
DQ31
D16
D17
DQM
I/O 0
I/O 1
I/O 2
I/O 3
CS
DQM
I/O 0
I/O 1
I/O 2
I/O 3
CS
Note: DQ wiring
may differ from that
described in this
drawing; however,
DQ/DQMB relationships are maintained as shown.
Note: Register, PLL and
Serial Presence Detect
are all connected to VDD.
D34
D35
S0-S3
PLL
RS0-RS3
CK0
CK1, CK2 & CK3
Serial PD
Termination
R
DQMB0 to DQMB7
RDQMB0 - RDQMB7
E
BA0, BA1
RBA0
BA0, RBA1
BA1: SDRAMs D0-D35
SCL
G
A0-A12
RA0-RA12
A0-A12: SDRAMs D0-D35
I
RAS
RAS: SDRAMs D0 - D35
RRAS
WP
S
A0
A1
CAS
RCAS
CAS: SDRAMs D0 - D35
T
CKE0
RCKE0
CKE: SDRAMs D0 - D35
E
47k
WE
RWE
WE: SDRAMs D0 - D35
SA0
SA1
R
10k
VDD
#: Unless otherwise noted, resistor values are 10 OHMS.
VDD
REGE
PCK
Note: Alternate decks in front and back side stack modules selected to improve heat dissipation characteristics.
VSS
Page 12
SDA
A2
SA2
D0 - D35
D0 - D35
Revision 1.1
PC133 SDRAM Registered DIMM Design Specification
Architecture
Block Diagram: Raw Card Version E (Populated as 2 physical bank of x8 SDRAMs)
RS1
RS0
RDQMB4
RDQMB0
*
DQ0
DQ1
DQ2
DQ3
DQ4
DQ5
DQ6
DQ7
DQM
I/O 0
I/O 1
I/O 2
I/O 3
I/O 4
I/O 5
I/O 6
I/O 7
CS
DQM
I/O 0
I/O 1
I/O 2
I/O 3
I/O 4
I/O 5
I/O 6
I/O 7
D0
CS
DQ32
DQ33
DQ34
DQ35
DQ36
DQ37
DQ38
DQ39
D9
DQ8
DQ9
DQ10
DQ11
DQ12
DQ13
DQ14
DQ15
DQM
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
DQM
I/O 0
I/O 1
I/O 2
I/O 3
I/O 4
I/O 5
I/O 6
I/O 7
CS
DQM
I/O 0
I/O 1
I/O 2
I/O 3
I/O 4
I/O 5
I/O 6
I/O 7
D1
CS
CS
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
D2
D11
DQM
I/O 0
I/O 1
I/O 2
I/O 3
I/O 4
I/O 5
I/O 6
I/O 7
CS
DQM
I/O 0
I/O 1
I/O 2
I/O 3
I/O 4
I/O 5
I/O 6
I/O 7
CS
DQM
I/O 0
I/O 1
I/O 2
I/O 3
I/O 4
I/O 5
I/O 6
I/O 7
CS
D14
D3
DQM
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
S0-S3
DQMB0 to DQMB7
BA0-BA1
A0-A12
RAS
CAS
CKE0
VDD
10k
CKE1
WE
10k
CS
DQM
I/O 0
I/O 1
I/O 2
I/O 3
I/O 4
I/O 5
I/O 6
I/O 7
D4
R
E
G
I
S
T
E
R
DQM
I/O 0
I/O 1
I/O 2
I/O 3
I/O 4
I/O 5
I/O 6
I/O 7
D6
RDQMB6
DQM
I/O 0
I/O 1
I/O 2
I/O 3
I/O 4
I/O 5
I/O 6
I/O 7
DQM
I/O 0
I/O 1
I/O 2
I/O 3
I/O 4
I/O 5
I/O 6
I/O 7
CS
D7
CS
D16
RDQMB7
D12
DQ56
DQ57
DQ58
DQ59
DQ60
DQ61
DQ62
DQ63
DQM
I/O 0
I/O 1
I/O 2
I/O 3
I/O 4
I/O 5
I/O 6
I/O 7
DQM
I/O 0
I/O 1
I/O 2
I/O 3
I/O 4
I/O 5
I/O 6
I/O 7
CS
D8
CS
D17
CS
D13
CK1, CK2, CK3 Terminated
47K
*CKE1: no SDRAMs or D9-D17
WE: SDRAMs D0 - D17
PLL
CK0
RS0-RS3
RDQMB0 - RDQMB7
RBA0-RBA1
BA0-BA1: SDRAMs D0-D17
RA0-RA12
A0-A12: SDRAMs D0-D17
RRAS
RAS: SDRAMs D0 - D17
SCL
CAS: SDRAMs D0 - D17
RCAS
WP
*CKE0: SDRAMs D0 - D17 or SDRAMs D0-D8
RCKE0
RCKE1
RWE
CS
D15
CS
RDQMB3
Serial PD
SDA
A0
A1
A2
SA0
SA1
SA2
V DD
D0 - D17
V SS
D0 - D17
*This raw card can be provided with either CKE0 wired to all SDRAMs, or
CKE0 wired to one physical bank, and CKE1 wired to the second physical bank.
* All resistor values are 10 ohms.
Revision 1.1
DQM
I/O 0
I/O 1
I/O 2
I/O 3
I/O 4
I/O 5
I/O 6
I/O 7
D5
DQM
DQ48
DQ49
DQ50
DQ51
DQ52
DQ53
DQ54
DQ55
DQMB2
DQ16
DQ17
DQ18
DQ19
DQ20
DQ21
DQ22
DQ23
DQ40
DQ41
DQ42
DQ43
DQ44
DQ45
DQ46
DQ47
D10
S3
VDD
REGE
PCK
CS
RDQMB5
RDQMB1
RS2
DQM
I/O 0
I/O 1
I/O 2
I/O 3
I/O 4
I/O 5
I/O 6
I/O 7
Note: Register, PLL and
Serial Presence Detect
are all connected to VDD.
Note: Exact DQ wiring may differ
from that are described in the
drawing (except for DQ/DQMB
relationships which are maintained
aas shown).
Page 13
PC133 SDRAM Registered DIMM Design Specification
Architecture
Termination for Unused Clock Signals (CK1-CK3)
10 Ohm
Unused
CLK
12pF
Clock Net Wiring (CK0)
0ns
SDRAM
SDRAM
(4 SDRAM loads max. per output)
CK0
IN
OUT1
PCK
10Ω 12pf
PLL
SDRAM
PCK
OUT ‘N’
FDBK
IN
C
SDRAM
Register #1
(Typically 2 or more registers per DIMM)
Register N
Notes
1. PLL outputs (PCK) must be wired to assure tracking within ± 100ps at the load (any SDRAM to any SDRAM
or any padding capacitor, or any register to any register).
2. Only one PLL output is shown per output type. Any additional PLL outputs will be wired in a similar manner.
3. A maximum of four SDRAM loads should be placed on each PLL output. If there are fewer than four loads,
adjust line lengths and capacitive loading on PLL outputs to compensate for lighter loading.
4. Feedback capacitor value ‘C’ is to be determined based on the phase characteristics of the PLL, and should
be selected and verified using the PC100/PC133 Clock Reference Board.
Page 14
Revision 1.1
PC133 SDRAM Registered DIMM Design Specification
Architecture
Register Functional Assignments
Raw Card Version A (Two Registers)
Register 1
Raw Card Versions B, C, and D (Three Registers)
Register 2
Register 1
Register 2
Register 3
In
Out
In
Out
In
Out
In
Out
In
Out
A0
RA0
DQMB2
RDQMB2
A0
RA0A
A0
RA0B
DQMB0
RDQMB0
A1
RA1
DQMB3
RDQMB3
A1
RA1A
A1
RA1B
DQMB1
RDQMB1
A2
RA2
DQMB6
RDQMB6
A2
RA2A
A2
RA2B
DQMB2
RDQMB2
A3
RA3
DQMB7
RDQMB7
A3
RA3A
A3
RA3B
DQMB3
RDQMB3
A4
RA4
S2
RS2
A4
RA4A
A4
RA4B
DQMB4
RDQMB4
A5
RA5
CKE0
RCKE0
A5
RA5A
A5
RA5B
DQMB5
RDQMB5
A6
RA6
BA0
RBA0
A6
RA6A
A6
RA6B
DQMB6
RDQMB6
A7
RA7
BA1
RBA1
A7
RA7A
A7
RA7B
DQMB7
RDQMB7
A8
RA8
A10
RA10
A8
RA8A
A8
RA8B
S0
RS0
A9
RA9
A11
RA11
A9
RA9A
A9
RA9B
S1
RS1
S0
RS0
A121
RA12
A10
RA10A
A10
RA10B
S2
RS2
DQMB0
RDQMB0
A11
RA11A
A11
RA11B
S3
RS3
DQMB1
RDQMB1
BA0
RBA0A
BA0
RBA0B
WE
RWEA
DQMB4
RDQMB4
BA1
RBA1A
BA1
RBA1B
WE
RWEB
DQMB5
RDQMB5
CAS
RCASA
CAS
RCASB
A121
RA12A
CAS
RCAS
RAS
RRASA
RAS
RRASB
A121
RA12B
RAS
RRAS
CKE0
CKE0A
WE
RWE
CKE0
CKE0B
1. Only used with 256Mbit SDRAMs.
Revision 1.1
Page 15
PC133 SDRAM Registered DIMM Design Specification
Architecture
Register Functional Assignments (continued)
Raw Card Version E (Three Registers)
Register 1
Register 2
Register 3
In
Out
In
Out
In
Out
A0
RA0A
A0
RA0B
DQMB0
RDQMB0
A1
RA1A
A1
RA1B
DQMB1
RDQMB1
A2
RA2A
A2
RA2B
DQMB2
RDQMB2
A3
RA3A
A3
RA3B
DQMB3
RDQMB3
A4
RA4A
A4
RA4B
DQMB4
RDQMB4
A5
RA5A
A5
RA5B
DQMB5
RDQMB5
A6
RA6A
A6
RA6B
DQMB6
RDQMB6
A7
RA7A
A7
RA7B
DQMB7
RDQMB7
A8
RA8A
A8
RA8B
S0
RS0
A9
RA9A
A9
RA9B
S1
RS1
A10
RA10A
A10
RA10B
S2
RS2
A11
RA11A
A11
RA11B
S3
RS3
BA0
RBA0A
BA0
RBA0B
WE
RWEA
BA1
RBA1A
BA1
RBA1B
WE
RWEB
RAS
RRASA
RAS
RRASB
A121
RA12A
CAS
RCASA
CAS
RCASB
A121
RA12B
CKE0
RCKE0
CKE12
RCKE1
1. Only used with 256Mbit SDRAMs.
2. R/C ’E’ can be produced with either CKE0 wired to all SDRAMs (this pin would not be used), or CKE0 can be wired to one physical
bank and CKE1 wired to the second physical bank.
Page 16
Revision 1.1
PC133 SDRAM Registered DIMM Design Specification
Component Details
Component Details
Pin Assignments for 64Mb and 128Mb SDRAM Planar Components (Top View)
VDD
VDD
1
54
VSS
VSS
DQ0
VDDQ
NC
NC
VDDQ
NC
2
3
4
53
52
51
NC
VSSQ
NC
DQ7
VSSQ
NC
DQ1
DQ0
5
50
DQ3
DQ6
VSSQ
NC
DQ2
VDDQ
NC
DQ3
VSSQ
NC
NC
VDDQ
NC
6
7
8
9
10
49
48
47
46
45
VDDQ
NC
NC
VSSQ
NC
VDDQ
NC
DQ5
VSSQ
NC
DQ1
11
44
DQ2
DQ4
VSSQ
VSSQ
12
43
VDDQ
VDDQ
NC
VDD
NC
VDD
42
NC
NC
NC
WE
NC
WE
13
14
15
16
41
40
39
VSS
NC
DQM
VSS
NC
DQM
CAS
RAS
CS
CAS
RAS
CS
17
18
19
38
37
36
CK
CKE
NC
CK
CKE
NC
BA0
BA0
20
35
A11
A11
BA1
A10/AP
BA1
A10/AP
A9
A8
A0
34
33
32
A9
A8
A0
21
22
23
A7
A7
A1
A2
A1
A2
24
25
31
30
A6
A5
A6
A5
A3
VDD
A3
VDD
26
27
29
28
A4
VSS
A4
VSS
54-pin Plastic TSOP(II) 400 mil
4Mbit x 4 I/O x 4 Bank
8Mbit x 4 I/O x 4 Bank
2Mbit x 8 I/O x 4 Bank
4Mbit x 8 I/O x 4 Bank
Note: Raw Card Versions ‘A’ and ‘B’ support the use of the above SDRAM pin assignments.
These pin assignments are consistent with the JEDEC standard package definition.
Revision 1.1
Page 17
PC133 SDRAM Registered DIMM Design Specification
Component Details
Pin Assignments for 64Mb and 128Mb 54 pin SDRAM 2 High Stack Package
(Dual CS Pin) (Top View)
VDD
1
54
VSS
NC
VDDQ
NC
2
3
4
53
52
51
NC
VSSQ
NC
DQ0
5
50
DQ3
VSSQ
NC
NC
VDDQ
NC
6
7
8
9
10
49
48
47
46
45
VDDQ
NC
NC
VSSQ
NC
DQ1
11
44
DQ2
VSSQ
12
43
VDDQ
NC
VDD
42
NC
NC/CS1 (Version 1)
WE
13
14
15
16
41
40
39
VSS
NC
DQM
CAS
RAS
CS0/NC
17
18
19
38
37
36
CK
CKE
NC/CS1 (Version 2)
BA0
20
35
A11
BA1
A10/AP
21
22
23
34
33
32
A9
A8
24
25
26
27
31
30
A6
A5
29
28
A4
VSS
A0
A1
A2
A3
VDD
A7
54-pin Plastic TSOP(II) or TSOJ(II) 400 mil
(4Mbit x 4 I/O x 4 Bank) x 2 High
(8Mbit x 4 I/O x 4 Bank) x 2 High
Version 1: Consistent with Staktek (TM) 2 High stacked package. Raw Card
Version ‘B’ supports the use of this pin assignment.
Version 2: Consistent with IBM Microelectronics and JEDEC standard 2 High
stacked package. Raw Card Version ‘C’ supports the use of this pin
assignment.
* CS0 selects the lower DRAM in the stack.
* CS1 selects the upper DRAM in the stack.
Page 18
Revision 1.1
PC133 SDRAM Registered DIMM Design Specification
Component Details
Pin Assignments for 256Mb 54 pin SDRAM Planar Components (Top View)
VDD
VDD
1
54
VSS
VSS
DQ0
VDDQ
NC
NC
VDDQ
NC
2
3
4
53
52
51
NC
VSSQ
NC
DQ7
VSSQ
NC
DQ1
DQ0
5
50
DQ3
DQ6
VSSQ
NC
DQ2
VDDQ
NC
VSSQ
NC
NC
VDDQ
NC
6
7
8
9
10
49
48
47
46
45
VDDQ
NC
NC
VSSQ
NC
VDDQ
NC
DQ5
VSSQ
NC
DQ3
DQ1
11
44
DQ2
DQ4
VSSQ
VSSQ
12
43
VDDQ
VDDQ
NC
VDD
NC
VDD
NC
WE
NC
WE
13
14
15
16
42
41
40
39
NC
VSS
NC
DQM
NC
VSS
NC
DQM
CAS
RAS
CS
CAS
RAS
CS
17
18
19
38
37
36
CK
CKE
A12
CK
CKE
A12
BS0
BS0
20
35
A11
A11
BS1
A10/AP
BS1
A10/AP
A9
A8
A0
34
33
32
A9
A8
A0
21
22
23
A7
A7
A1
A2
A1
A2
24
25
31
30
A6
A5
A6
A5
A3
VDD
A3
VDD
26
27
29
28
A4
VSS
A4
VSS
54-pin Plastic TSOP(II) 400mil
16Mbit x 4 I/O x 4 Bank
8Mbit x 8 I/O x 4 Bank
Note: Raw Card Version ‘B’ supports the use of the above SDRAM
pin assignment. This pin assignment is consistent with the JEDEC
standard package.
Revision 1.1
Page 19
PC133 SDRAM Registered DIMM Design Specification
Component Details
Pin Assignments for 256Mb 54 pin SDRAM 2 High Stack Package
(Dual CS Pin) (Top View)
VDD
1
54
VSS
NC
VDDQ
NC
2
3
4
53
52
51
NC
VSSQ
NC
DQ0
5
50
DQ3
VSSQ
NC
NC
VDDQ
NC
6
7
8
9
10
49
48
47
46
45
VDDQ
NC
NC
VSSQ
NC
DQ1
11
44
DQ2
VSSQ
12
43
VDDQ
NC
VDD
42
NC
CS1
WE
13
14
15
16
41
40
39
VSS
NC
DQM
CAS
RAS
CS0
17
18
19
38
37
36
CK
CKE
A12
BA0
20
35
A11
BA1
A10/AP
21
22
23
34
33
32
A9
A8
24
25
26
27
31
30
A6
A5
29
28
A4
VSS
A0
A1
A2
A3
VDD
A7
54-pin Plastic TSOP(II) or TSOJ(II) 400 mil
(16Mbit x 4 I/O x 4 Bank) x 2 High
Note: Raw Card Version ‘B’ supports the use of the above SDRAM pin
assignment. This pin assignment is consistent with the Staktek (TM) 2 High
stacked package.
* CS0 selects the lower DRAM in the stack.
* CS1 selects the upper DRAM in the stack.
Page 20
Revision 1.1
PC133 SDRAM Registered DIMM Design Specification
Component Details
Pin Assignments for 256Mb 66 pin SDRAM 2 High Stack Package
(Dual CS Pin) (Top View)
VDD
1
66
VSS
NC
VDDQ
2
3
4
5
65
64
63
62
NC
VSSQ
NC
DQ3
6
7
8
9
10
61
60
59
58
57
VDDQ
NC
NC
VSSQ
NC
11
12
56
DQ2
55
VDDQ
NC
13
14
15
16
NC
VDD
NC
17
18
19
NC
20
54
53
52
51
50
49
48
47
NC
NC
VSSQ
NC
NC
NC
VSS
DQM
WE
21
22
23
46
45
44
NC
CK
CKE0
24
25
26
27
28
43
42
CKE1
A12
41
40
39
38
A11
A9
A8
A7
37
36
35
34
A6
A5
A4
VSS
NC
DQ0
VSSQ
NC
NC
VDDQ
NC
DQ1
VSSQ
NC
NC
VDDQ
CAS
RAS
CS0
CS1
BA0
BA1
A10/AP
A0
A1
A2
A3
VDD
29
30
31
32
33
66-pin Plastic TSOJ 400 mil
(16Mbit x 4 I/O x 4 Bank) x 2 High
Note: Raw Card Version ‘D’ supports the use of this SDRAM
pin assignment. This pin assignment is consistent with IBM Microelectronics
and JEDEC standard packages.
Revision 1.1
Page 21
PC133 SDRAM Registered DIMM Design Specification
Component Details
SDRAM Component Specifications
The 133MHz SDRAM components used with this DIMM design specification are intended to be consistent
with the latest revision of the Intel “PC SDRAM” specification and the latest JEDEC SDRAM specification
(located at www.jedec.org). However, the following information supersedes the equivalent data within the
Intel PC100 SDRAM Specification. SDRAM component specification violations also violate 133MHz registered DIMM specifications.
.
DC Electrical Characteristics
Symbol
Min
Max
Units
VDD
Supply Voltage
3.0
3.6
V
VDDQ
I/O Supply Voltage
3. 0
3.6
V
Input Leakage Current
(0 < VIN < VDDQ)
-10
+10
µA
-
2
ma
Iil
ICCLP
Icc Low Power
(CKE low, all banks closed)
Notes
1, 2
VOH
Output High Voltage
(IOH = -4mA)
2.4
-
V
VOL
Output Low Voltage
(IOL = 4mA)
-
0.4
V
CIN
Input Pin Capacitance
(@1MHz, 23C TJ, 1.4V bias, 200mV swing, VDD =3.3V)
2.5
3.8
pF
3
4.0
6.5
pF
4
2.5
3.5
pF
5
10
nH
55
°C
CI/O
I/O Pin Capacitance(@1MHz, 23C TJ, 1.4V bias, 200mV swing,
VDD = 3.3V)
CCK
Pin Capacitance
(@1MHz, 23C TJ, 1.4V bias, 200mV swing, VDD = 3.3v)
LPIN
Pin Inductance
TA
1.
2.
3.
4.
5.
Parameter
Ambient Temperature
(No Airflow)
0
Input leakage currents include hi-Z output leakage for all bi-directional buffers with tri-state outputs.
No Activate or Precharge currents should be included in the Iccac value.
Target 3.15pF
Target 4.8pF
Target 3.0pF
Page 22
Revision 1.1
PC133 SDRAM Registered DIMM Design Specification
Component Details
AC Timing Parameters (TA = 0-65×C; VDD = 3.0V - 3.6V; CL= 2, 3)
Symbol
Parameter
(Part 1 of 2)
Speed Grade
100MHz
Min
Max
Speed Grade
133MHz/100MHz
Min
Units
tCK
Clock Period
10
7.5
ns
tCH
Clock High Time
Rated @1.5V
3
2.5
ns
tCL
Clock Low Time
3
2.5
ns
Address/ Command & CKE
2
1.5
ns
tIS
Input Setup Times
Data
2
1.5
ns
Address/Command & CKE
1
0.8
ns
Data
1
0.8
ns
tIH
Input Hold Times
CAS Latency = 2
limited application, 2 banks
all outputs switching
tAC
Output Valid From Clock
7.0
N/A
ns
1
CAS Latency = 2
LVTTL levels, Rated @50pF
all outputs switching
6.0
(tco = 5.2)
5.4
(tco = 4.6)
ns
1
CAS Latency = 3
LVTTL levels, Rated @50pF
all outputs switching
6.0
(tco = 5.2)
5.4
(tco = 4.6)
1
tOH
Output Hold From Clock
Rated @ 50pF (1.8ns @ 0pf)
3
tOHZ
Output Valid to Z
3
tCCD
CAS to CAS Delay
1
1
tCK
tCBD
CAS Bank Delay
1
1
tCK
tCKE
CKE to Clock Disable
1
1
tCK
tRP
RAS Precharge Time
20.0
20.0
ns
tRAS
RAS Active Time
50
45
ns
tRCD
Activate to Command Delay (RAS to CAS Delay)
20.0
20.0
ns
tRRD
RAS to RAS Bank Activate Delay
20
15
ns
tRC
RAS Cycle Time
70
67.5
ns
DQM to Input Data Delay
0
0
tCK
tDQD
1.
2.
3.
4.
5.
6.
7.
Notes
Max
2.7
9
2.7
ns
7
ns
Access times to be measured w/input signals of 1V/ns edge rate, 0.8V to 2.0V.
CL = CAS Latency
Data Masked on the same clock
Self refresh Exit is asynchronous, requiring 10ns to ensure initiation. Self refresh exit is complete in 10ns + tRC.
Timing is asynchronous. If tset is not met by rising edge of CK then CKE is assumed latched on next cycle.
If the clock is stopped during self refresh or power down, 200 clocks are required before CKE is high.
For 64Mbit SDRAM technology, 4096 refresh cycles. For 256Mbit SDRAM technology, 8192 refresh cycles.
Revision 1.1
Page 23
PC133 SDRAM Registered DIMM Design Specification
Component Details
AC Timing Parameters (TA = 0-65×C; VDD = 3.0V - 3.6V; CL= 2, 3)
Symbol
Parameter
(Part 2 of 2)
Speed Grade
100MHz
Min
Max
Speed Grade
133MHz/100MHz
Min
Units
Notes
Max
tDWD
Write Cmd. to Input Data Delay
0
0
tCK
tMRD
Mode Register set to Active delay
3
3
tCK
tROH
Precharge to O/P in High Z
tDQZ
DQM to Data in High Z for read
2
2
tCK
tDQM
DQM to Data mask for write
0
0
tCK
tDPL
Data-in to PRE Command Period
20
15
ns
tDAL
Data-in to ACT (PRE) Command period (Auto precharge)
5
5
tCK
tSB
Power Down Mode Entry
tSRX
Self Refresh Exit Time
10
10
ns
4
tPDE
Power Down Exit Set up Time
1
1
tCK
5
200
200
tCK
6
ms
7
tCKSTP
Clock Stop During Self Refresh or Power Down
tREF
Refresh Period
tRFC
Row Refresh Cycle Time
1.
2.
3.
4.
5.
6.
7.
CL
CL
1
1
64
80.0
64
75.0
tCK
2
3
tCK
ns
Access times to be measured w/input signals of 1V/ns edge rate, 0.8V to 2.0V.
CL = CAS Latency
Data Masked on the same clock
Self refresh Exit is asynchronous, requiring 10ns to ensure initiation. Self refresh exit is complete in 10ns + tRC.
Timing is asynchronous. If tset is not met by rising edge of CK then CKE is assumed latched on next cycle.
If the clock is stopped during self refresh or power down, 200 clocks are required before CKE is high.
For 64Mbit SDRAM technology, 4096 refresh cycles. For 256Mbit SDRAM technology, 8192 refresh cycles.
Page 24
Revision 1.1
PC133 SDRAM Registered DIMM Design Specification
Component Details
Register Component Specifications
Please refer to the vendor register data sheets for all technical specifications and requirements. Below is a
chart explaining which possible registers may be used on each DIMM type.
DIMM Register Use
Raw Card Version
# of SDRAMs per output
Register Type1
Qty
A, AA
9
ALVC162835/42,AVC16835/4 or equiv.
2
9
ALVC162835/42,AVC16835/4 or equiv.
3
18
ALVC162835/42,AVC16835/4 or equiv.
3
C
18
ALVC162835/42,AVC16835/4 or equiv.
3
D
18
ALVC162835/42,AVC16835/4 or equiv.
3
E
9
ALVC162835/42,AVC16835/4 or equiv.
3
B
1. Assemblies may use either ‘835 or ‘834 devices with Raw Card Version A,B,C,D or E. The inverter position must be populated
when using ‘835 registers, whereas an inverter bypass jumper must be populated when using ‘834 registers.
2. A ’fast’ version of this device is required for 133MHz operation.
The following specifications for the registers are critical for proper operation of PC133 registered DIMMs.
These are meant to be a subset of the parameters for the device, but must be met if a different, but functionally equivalent, part is to be used.
Critical Register Specifications
TA = 0-70° C
Register
ALVC162835/4, AVC16835/4
or equivalent
Parameter
From
(input)
From
(output)
Conditions
VDD = 3.3V ± 0.3V
Min
Typ
Max
Units
tPD (9 loads)1
Clock
Y
500 Ohm, 50pF
1.4
---
3.5
ns
tPD (18 loads)1
Clock
Y
500 Ohms, 30pF
0.7
---
2.5
ns
II
NA
NA
VI = 0 to 3.6V
10
uA
tsetup
NA
NA
1.0
ns
thold
NA
NA
0.6
ns
Clock Cin
NA
NA
3.3
4.0
6.0
pF
1. The tPD value in this table would equate to the ‘Time-to Vm’ delay described in the post-register timings section of this document.
The first value applies to DIMMs with nine SDRAM loads per register output, and the second to DIMMs with eighteen SDRAM
loads per register output. These values should serve as only an initial starting point, as the critical timing closure is dependent on
the DIMM net structure and the distributed load.
Register Sourcing
This document is not intended to be an approved vendor list for support chip components. Although it is recommended that all PC133 RDIMM registers meet the specifications documented above, it is up to each
DIMM producer to select the registers and register vendors which meet these requirements, and to guarantee
robustly operating DIMMs. For this reason all references to specific register sources have been removed. In
addition, any use of a naming convention is only for reference; differently marked, functionally equivalent,
registers are acceptable.
Revision 1.1
Page 25
PC133 SDRAM Registered DIMM Design Specification
Component Details
PLL Component Specifications
Please refer to the vendor PLL data sheets for all technical specifications and requirements. Below is a chart
explaining which PLLs are used on each DIMM type.
DIMM PLL Use
Raw Card Version
# of SDRAMs per output
PLL Type2
Qty
A
3
CDC2509
1
3
CDC2510
1
2
CDC2510
1
4
CDC2510
1
C
4
CDC2510
1
D
4
CDC2510
1
E
3
CDC2510
1
AA
1
B
1. This DIMM design allows DIMM producers to utilize a common PLL part number for all of their PC133 RDIMM designs. This raw
card design is optional and may be used in place of Raw Card Design A.
2. These are 133MHz versions of the PLLs utilized on 100MHz SDRAM Registered DIMMs.
The following specifications for the PLL are critical for proper operation of the PC133 Registered DIMMs.
These are meant to be a subset of the parameters for the device.
Critical PLL Specifications
Device
Parameter
From
To
TA = 70° C, VDD = 3.3V ± 0.3V
Min
Typ
Units
Max
CDC2509/10
Operating Frequency
-----
-----
50
---
140
MHz
CDC2509/10
Jitter
Output in = CLK n
Output in = CLK n+1
-75
---
+75
ps
ps
1, 2
Output in = CLK n
Output in = CLK n+1
-----
---
+150
CDC2509/10
Skew2
Output
Output
-----
---
+150
ps
CDC2509/10
Clock Input Capacitance
-----
----
-----
4
------
pF
CDC2509/10
SSC Induced Skew
1. SSC1 Induced Skew: SSC = Spread Spectrum Clock. The use of SSC synthesizers on the system motherboard will reduce EMI.
2. Skew is defined as the total clock skew between any two outputs and is therefore specified as a maximum only.
The PLL used on the registered DIMM needs to support SSC synthesizers with the following parameters:
Parameter
Modulation Frequency
Clock Frequency Deviation (ex. for 133 MHz: 132.3MHz to 133MHz range)
Min
Max
30KHz
50KHz
0.5%
PLL designs should target the following values to meet the 150ps maximum of SSC induced skew:
• Greater than 1.2MHz PLL loop bandwidth
• Less than -0.031 degrees of phase angle
PLL Sourcing
This document is not intended to be an approved vendor list for support chip components. Although it is recommended that all PC133 RDIMM PLLs meet the specifications documented above, it is up to each DIMM
producer to select the PLL and PLL vendors which meet these requirements, and to guarantee robustly operating DIMMs. For this reason all references to specific PLL sources have been removed. In addition, any use
of a naming convention is only for reference; differently marked, functionally equivalent, PLLs are acceptable.
Page 26
Revision 1.1
PC133 SDRAM Registered DIMM Design Specification
Registered DIMM Details
Registered DIMM Details
SDRAM Module Configurations (Reference Designs)
Raw
Card
Version
A, AA
SDRAM
# of
Organization SDRAMs
SDRAM
Package Type
# of
# of Banks # Address bits
Physical
in SDRAM row/col/banks
Banks
DIMM
Capacity
DIMM
Organization
SDRAM
Density
64MB
8Mx72
64Mbit
8Mx8
9
54 lead TSOP
1
4
12/9/2
128MB
16Mx72
128Mbit
16Mx8
9
54 lead TSOP
1
4
12/10/2
256MB
32Mx72
256Mbit
32Mx8
9
54 lead TSOP
1
4
13/10/2
128MB
16Mx72
64Mbit
16Mx4
18
54 lead TSOP
1
4
12/10/2
256MB
32Mx72
128Mbit
32Mx4
18
54 lead TSOP
1
4
12/11/2
512MB
64Mx72
256Mbit
64Mx4
18
54 lead TSOP
1
4
13/11/2
256MB
32Mx72
64Mbit
16Mx4
36
54 lead stack TSOP
2
4
12/10/2
512MB
64Mx72
128Mbit
32Mx4
36
54 lead stack TSOP
2
4
12/11/2
1GB
128Mx72
256Mbit
64Mx4
36
54 lead stack TSOP
2
4
13/11/2
256MB
32Mx72
64Mbit
16Mx4
36
54 lead stack TSOJ
2
4
12/10/2
512MB
64Mx72
128Mbit
32Mx4
36
54 lead stack TSOJ
2
4
12/11/2
1GB
128Mx72
256Mbit
64Mx4
36
66 lead stack TSOJ
2
4
13/11/2
128MB
16Mx72
64Mbit
8Mx8
18
54 lead TSOP
2
4
12/10/2
256MB
32Mx72
128Mbit
16Mx8
18
54 lead TSOP
2
4
12/10/2
512MB
64Mx72
256Mbit
32Mx8
18
54 lead TSOP
2
4
13/10/2
B1
C1
D
E
1. Raw Card Version ‘B’ and ‘C’ share the same topology information (with the exception of a few nets listed in the topology portion of
this document), and vary in the location and size of the landing pads for the SDRAMs.
Revision 1.1
Page 27
PC133 SDRAM Registered DIMM Design Specification
Registered DIMM Details
Input Loading Matrix
Input
Device
Signal Names
R/C B
R/C A
Planar
Planar
Stack
R/C C
Stack
R/C D
Stack
R/C E
Planar
Clock (CK0)
PLL
1
1
1
1
1
1
CKE0
Register
1
2
2
2
2
1 or 2*
CKE1
Register
0
0
0
0
0
0 or 1*
Addr/RAS/CAS/BA/WE
Register
1
2
2
2
2
2
Chip Selects
Register
1
1
1
1
1
1
DQ/CB
SDRAM
1
1
2
2
2
1
DQMB
Register
1
1
1
1
1
1
REGE
*
1 or 2
1 or 3
1 or 3
1 or 3
1 or 3
1 or 3
SCL/SDA/SA/WP
EEPROM
1
1
1
1
1
1
*Raw Card Version E can be produced with either CKE0 wired to al of the SDRAMs, or CKE0 wired to the second physical bank (to permit selective bank depowering).
*REGE wires to an inverter (one load), or to all registers (if an ’834 or equivalent register is utilized).
PC133 Gerber Releases
‘Reference’ Gerber file updates will be released as needed. This Registered DIMM specification will reflect
the most recent Gerber files, but may also be updated to reflect clarifications to the specification only; in these
cases the Gerber files will not be updated. The following table outlines the most recent Gerber file releases.
Note: Initial Gerber releases are identified in the ‘read-me’ file by their date. Future Gerber releases will
include both a date and a revision label. All changes to the Gerber file are also documented within the ‘readme’ file.
Raw Card Version
Specification Revision
Applicable Gerber File
Notes
A
1.1
2/1/99 (A1)
Original Release
AA1
1.1
5/28/99 (AA)
Original Release
B
1.1
12/14/98 (B2)
Second Release
C
1.1
2/19/98 (C1)
Original Release
D
1.1
5/12/99(D1)
Original Release
E
1.1
8/1/99 (E1)
Original Release
1. This DIMM design allows DIMM producers to utilize one PLL part number for all of their PC133 Registered DIMMs. This DIMM raw
card is optional and may be selected by the DIMM producer. Any future revisions (although none are planned) will use raw card
design ‘AA’ as the base design. It is important to note that there is no electrical difference between R/C Version ‘A’ and R/C Version ‘AA’. All changes are clearly listed in the read me file associated with the Raw Card AA release.
Page 28
Revision 1.1
PC133 SDRAM Registered DIMM Design Specification
Registered DIMM Details
Component Types and Placement
Components shall be surface mounted on both sides of the PCB and positioned on the PCB to meet the minimum and maximum trace lengths required for SDRAM signals. Bypass capacitors, for SDRAM devices, must
be practically located near the device power pins. In two-bank SDRAM designs, the second SDRAM bank
devices will be stacked on the first SDRAM bank devices.
The following layouts suggest placement for the Raw Card Versions A - E. Exact spacing is not provided, but
should be based on manufacturing constraints and signal routing constraints imposed by this design guide.
Example Raw Card Version A Component Placement
Front
Side
3.99
0.157 max.
1.5" (nominal)
4.24
0.167
Back
4.24
0.167
Front
1.27 ± 0.10
0.050 ± 0.004
Revision 1.1
Page 29
Registered DIMM Details
PC133 SDRAM Registered DIMM Design Specification
Example Raw Card Version B (Planar) and E Component Placement
Front
Side
3.99
0.157 max.
1.7" (nominal)
4.24
0.167
Back
4.24
0.167
Front
1.27 ± 0.10
0.050 ± 0.004
Page 30
Revision 1.1
PC133 SDRAM Registered DIMM Design Specification
Registered DIMM Details
Example Raw Card Versions B (Stacked) and C Component Placement
Front
(TSOJ) 8.13
(TSOP) XXX
Side
(TSOJ)0.320max.
(TSOP) XXX
Front
Back
4.24
0.167 min.
4.24
0.167 min.
1.7" (nominal)
1.273 ± 0.10
0.050 ± 0.004
Revision 1.1
Page 31
PC133 SDRAM Registered DIMM Design Specification
Registered DIMM Details
Example Raw Card Version D Component Placement
Front
Side
8.13
0.320 MAX.
Front
Back
4.24
0.167 MIN.
4.24
0.167 MIN.
1.7" (nominal)
1.273 ± 0.10
0.050 ± 0.004
Page 32
Revision 1.1
PC133 SDRAM Registered DIMM Design Specification
DIMM Wiring Details
DIMM Wiring Details
Signal Groups
This specification categorizes SDRAM timing-critical signals into seven groups whose members have identical loadings and routings. The following table summarizes the signals contained in each group.
.
Signal Group
Signals In Group
Raw Card Version
Page
Clock (PLL input and output)
CK [3:0]
A, B, C, D
35
Data
DQ [63:0]; CB [7:0]
A, B, C, D
37
DQMB[0, 2-7]
A
Data Mask (1, 2, or 4 loads)
38
DQMB [0, 2-4, 6-7]
DQMB [1]
B, C, D
A
Data Mask (2, 3, or 6 loads)
39
DQMB [1,5]
B, C, D
Chip Select
CS [3:0]
A, B, C, D
40
Clock Enable
CKE [0,1]
A, B, C, D
43
Ax, BAx, RAS, CAS, WE
A
47
A, BA, RAS, CAS
A
48
B, C, D
49
Address/Control
WE
General Net Structure Routing Guidelines
Net structures and lengths must satisfy signal quality and setup/hold time requirements for the memory interface. Net structure diagrams for each signal group are shown in the following sections. Each diagram is
accompanied by a trace length table that lists the minimum and maximum allowable lengths for each trace
segment and/or net.
The general routing requirements are as follows
• Route all signal traces except clocks using either 6/10 or 4/6 rules, i.e., 6 mil traces and 10 mil minimum
spacing between adjacent traces.
• Route clocks using 4/12 or 6/18 rules.
• Route clocks using at least 90% of the total trace length in the inner layers.
• No test points are required.
Revision 1.1
Page 33
PC133 SDRAM Registered DIMM Design Specification
DIMM Wiring Details
Explanation of Net Structure Diagrams
The net structure routing diagrams provide a reference design example for each raw card version. These
designs provide an initial basis for registered DIMM designs. The diagrams should be used to determine individual signal wiring on a DIMM for any supported configuration. Only transmission lines (represented as cylinders and labeled with trace length designators “TL”) represent physical trace segments. All other lines are
zero in length. To verify DIMM functionality, a full simulation of all signal integrity and timing is required. The
given net structures and trace lengths are not inclusive for all solutions.
Once the net structure has been determined, the permitted trace lengths for the net structure can be read
from the table below each net structure routing diagram. Some configurations require the use of multiple net
structure routing diagrams to account for varying load quantities on the same signal. All diagrams define one
load as one SDRAM input. The net structure routing data in this document accurately represent reference
Raw Card versions A, B, C, D, and E.
Net Structure Example
A 256MB double-sided ECC DIMM using 64Mbit 16Mx4 SDRAM devices would have a data net structure as
shown in the following diagram.
TL0
DIMM
Connector
Page 34
10 ohms ± 5%
TL1
SDRAM
Pin
Revision 1.1
PC133 SDRAM Registered DIMM Design Specification
DIMM Wiring Details
Clock Net Structures
CK[3:0]
SDRAM clock signals must be carefully routed to meet the following requirements:
• Signal quality
• Rise/fall time
• SDRAM component edge skew
• Motherboard chipset clock edge skew
• Registered PC100 DIMM compatible delays (trace lengths and loads)
.
Net Structure Routing for PLL Clock Input
PLL Input Clock
TL0
R1
PLL
Input
DIMM Connector
TL1
C1
PLL
FDBK
C2
PLL
Out
TL2
10 Ohm
Unloaded Clock Input
DIMM Connector
12pF
TL3
Clock Net Lengths for PLL Input Net Structures
TL3
Raw Card
TL0
TL1
C2
Notes
Max
R1
Ohms
C1
Min
TL2
A
0.177
2.661
3.003
0.221
0.291
10
12
12
1, 2, 3
B,&C
0.127
2.647
3.108
0.194
0.254
10
12
12
1, 2, 3
D
0.127
2.645
3.108
0.194
0.254
10
12
12
1, 2, 3
E
0.127
2.683
3.108
0.235
0.315
10
12
12
1, 2, 3
1. All distances are given in inches and must be kept within a tolerance of ± 0.01 inch.
2. All capacitances are given in pF and must be kept within a tolerance of ± 5%.
3. The value of C2 shall be determined based on the SDRAM capacitance and PLL phase characteristics of each suplier.
Revision 1.1
Page 35
PC133 SDRAM Registered DIMM Design Specification
DIMM Wiring Details
Net Structure Routing for PLL Clock Output
TL2
Loaded Clock
SDRAM Pin
R1
TL0
TL2
TL1
PLL Output
SDRAM Pin
Add for
R/C B
and C
DIMMs
Add for
R/C and E
DIMMs
TL2
SDRAM Pin
Second SDRAM pin used on Stacked DIMMs only.
TL4
Register Input Clock
Register
TL4
TL3
PLL Output
Register
R/C Version
B, C, D, and E only
TL4
Register
Unloaded Clock
Leave unused PLL outputs floating
Trace Lengths for PLL Clock Output Net Structure
TL0
TL1
TL2
TL4
Min
Max
R1
Ohms
A
1.856
1.861
N/A
N/A
N/A
1.278
1.280
B planar
0.112
0.444
24.9
3.410
3.740
0.253
B stacked & C
0.112
0.444
0
3.410
3.740
D
3.417
3.453
N/A
N/A
E
3.549
3.558
N/A
N/A
Raw Card
TL3
Min
Max
Min
Max
Notes
Min
Max
0.079
0.845
0.848
1, 2, 3
0.254
0.934
0.827
0.829
1, 2
0.253
0.254
0.934
0.827
0.829
1, 2
N/A
0.227
0.228
0.934
0.827
0.829
1, 2, 3
N/A
0.369
0.371
0.934
0.827
0.829
1, 2, 3
1. All distances are in inches and should be kept within a tolerance of ± 0.01 inch
2. All capacitances are given in pF and should be kept within a tolerance of ± 5%
3. R/C A, D, and E do not have R1, therefore TL0 in the table equals TL0 + TL1 in the diagram
Page 36
Revision 1.1
PC133 SDRAM Registered DIMM Design Specification
DIMM Wiring Details
Data Net Structures
DQ[63:0] and CB[7:0]
For specifying trace segment lengths, data lines have been grouped according to the location of their edge
connector pins. These two data groups specify segment lengths that make the data lines connecting to the
outside edge of the DIMM connector shorter in minimum and maximum length than those data lines on the
inside edge of the DIMM connector. This allows the designer to pair longer data line traces on the motherboard with potentially shorter traces on DIMMs, and to pair longer DIMM traces with potentially shorter traces
on the motherboard. Data Group 1 includes data line DQ [63-56, 39-24, 7-0]. Data Group 2 includes data
lines DQ [55-40, 23-8] and CB [7-0].
Net Structure Routing for Data
TL0
DIMM
Connector
10 ohms ± 5%
TL1
SDRAM Pin
Second SDRAM pin used
on Stacked DIMMs only.
For R/C Only
TL2
SDRAM Pin
TL0
DIMM
Connector
10 ohms ± 5%
TL1
TL2
SDRAM Pin
Trace Lengths for Data Net Structure
TL0
Raw Card
TL1
TL2
Total
Data Group
Notes
Min
Max
Min
Max
Min
Max
Min
Max
I
0.136
0.176
0.799
0.869
N/A
N/A
0.838
1.040
1, 2
II
0.134
0.312
0.787
1.018
N/A
N/A
0.942
1.285
1, 2
I
0.127
0.148
1.013
1.067
N/A
N/A
1.145
1.203
1, 2
II
0.126
0.345
1.291
1.415
N/A
N/A
1.453
1.658
1, 2
I
0.128
0.148
1.014
1.020
N/A
N/A
1.143
1.163
1, 2
II
0.126
0.344
1.292
1.380
N/A
N/A
1.429
1.645
1, 2
I
0.127
0.147
0.833
1.046
0.044
0.046
1.050
1.272
1, 2
II
0.126
0.343
1.192
1.369
0.044
0.046
1.143
1.761
1, 2
A
B&C
D
E
1. All distances are given in inches and should be kept within a tolerance of ± 0.01 inch
2. Total Min and Total Max refer to the min and max respectively of L0 + L1.
Revision 1.1
Page 37
PC133 SDRAM Registered DIMM Design Specification
DIMM Wiring Details
Data Mask Net Structures
1/2/4 Loads: DQMB[0,2-7] for Raw Card Version A and DQMB[0,2-4,6-7] for Raw Card Versions B, C, D,
and E.
Data Mask loading and net structures vary based on the specific DQMB pin, the card architecture, and DRAM
organization. The following pages describe each of the net structures utilized on the reference designs.
Net Structure Routing for Data Mask (1/2/4 Loads)
SDRAM Pin
Add for
R/C B, C, D, and E
TL3
TL1
Register
TL0
DIMM
Connector
TL2
R1
TL3
These signals are routed using
"Y" Net Structures on any layer.
SDRAM Pin
Add for
R/C A DIMM
only
TL4
30pF
Second SDRAM pin used
on Stacked DIMMs only.
Trace Lengths for Data Mask Net Structures (1/2/4 Loads)
TL0
TL1
TL2
TL3
TL4
Raw
Card
# of
Loads
Max
Min
Max
Min
Max
Min
Max
Min
Max
R1
Ohms
Notes
Min
A
1
0.275
0.342
0.113
0.142
0.726
1.631
N/A
N/A
0.098
0.102
24.9
1, 2
B
2 or 4
0.199
0.991
0.170
0.259
2.710
2.783
0.729
0.885
N/A
N/A
49.9
1
C
4
0.198
0.989
0.169
0.259
2.714
3.069
0.700
0.825
N/A
N/A
49.9
1
D
4
0.199
0.990
0.170
0.259
2.882
3.500
0.384
0.385
N/A
N/A
30.0
1
E
2
0.199
0.990
0.170
0.259
2.697
3.084
0.803
0.872
N/A
N/A
49.9
1
1. All distances are given in inches and should be kept within a tolerance of ± 0.01 inches.
2. For Raw Card Version A, L2 = L2 + L3 as represented in the diagrm above.
Page 38
Revision 1.1
PC133 SDRAM Registered DIMM Design Specification
DIMM Wiring Details
2/3/6 Loads: DQMB[1] for Raw Card Version A and DQMB[1,5] for Raw Card Versions B,C, D, and E
Net Structure Routing for Data Mask (2/3/6 Loads)
Add for
R/C A DIMM
only
15pF
Second SDRAM pin used on
Stacked DIMMs only.
TL3
SDRAM Pin
TL0
DIMM
Connector
Register
Add for R/C B, C, D, and E
TL1
R1
TL2
TL3
SDRAM Pin
TL3
SDRAM Pin
15pF
Add for
R/C A DIMM
only
Trace Lengths for Data Mask Net Structures (2/3/6 Loads)
TL0
TL1
TL2
TL3
# of
Loads
Min
Max
Min
Max
Min
Max
Min
Max
A
6
0.887
1.167
0.101
0.124
3.101
3.108
0.081
B
3 or 6
0.887
1.070
0.101
0.125
2.767
2.780
C
6
0.885
1.069
0.101
0.125
2.766
D
6
0.887
1.167
0.101
0.124
E
3
0.886
0.970
0.102
0.124
Raw Card
R1 Ohms
Notes
0.664
30.0
1
0.770
0.892
49.9
1
2.779
0.740
0.862
49.9
1
3.101
3.108
0.081
0.664
30.0
1
2.676
2.721
0.814
0.899
49.9
1
1. All distances are given in inches and should be kept within a tolerance of ± 0.01 inches.
Revision 1.1
Page 39
PC133 SDRAM Registered DIMM Design Specification
DIMM Wiring Details
Chip Select Net Structures
CS [3:0]
Two fundamental net structures are defined for Chip Selects, depending on whether x4 or x8 SDRAMs are
used.
Net Structure Routing for Chip Select (Raw Card Version A)
TL5
SDRAM Pin
TL5
SDRAM Pin
TL4
4 Loads
TL4
TL5
DIMM
Connector
Register
SDRAM Pin
TL0
TL1
R1
TL3
TL5
SDRAM Pin
TL2
15pF
TL5
SDRAM Pin
TL5
5 Loads
SDRAM Pin
TL4
TL5
SDRAM Pin
TL5
SDRAM Pin
TL6
SDRAM Pin
Trace Lengths for Chip Select Net Structures (S0 - S3, S2)
TL0
TL1
TL2
TL3
# of
Loads
Min
Max
Min
Max
Min
A
(S0 Net)
5
N/A
0.329
N/A
0.10
N/A
0.416 0.672
A
(S2 Net)
4
N/A
0.293
N/A
0.120
N/A
Raw Card
Max
TL4
Min
Min
TL6
R1
Notes
Max Ohms
Max
Min
0.684 0.134 0.368
N/A
1.312
20.0
1
1.039 0.370 0.238 0.461 0.134 0.370
N/A
N/A
24.9
1
N/A
Max
TL5
1. All distances are given in inches and should be kept within a tolerance of ± 0.01 inches.
Page 40
Revision 1.1
PC133 SDRAM Registered DIMM Design Specification
DIMM Wiring Details
Net Structure Routing for Chip Select (Raw Card Version E)
TL5
SDRAM Pin
TL4
SDRAM Pin
TL3
4 Loads
TL3
TL4
DIMM
Connector
Register
SDRAM Pin
TL0
R1
TL1
TL2
TL5
SDRAM Pin
TL8
SDRAM Pin
TL7
5 Loads
SDRAM Pin
TL6
TL6
TL7
SDRAM Pin
TL6
TL7
SDRAM Pin
TL8
SDRAM Pin
Trace Lengths for Chip Select Net Structures (S0 - S3)
Raw
Card
#
TL0
of
Loads Min Max
TL1
Min
Max
TL2
Min
Max
TL3
TL4
TL5
TL6
Min
Min
Max
Min
Max
N/A
N/A
N/A
N/A
N/A 0.591 0.624 0.061 0.062 0.062 0.672 0
0.923 1.089 0.171 0.206 3.017 3.086 N/A
E
E(S2,
S3 Net)
4
0.239 0.247 0.140 0.170 3.250 3.253 0.300 0.590 0.061 0.062 0.654 0.674 N/A
N/A
N/A
Max
N/A
Min
R1
Note
Max Ω
Max
5
Min
TL8
Min
E
E(S0,
S1 Net)
Max
TL7
N/A
N/A
0
1. All distances are given in inches and should be kept within a tolerance of ± 0.01 inches.
Revision 1.1
Page 41
1
1
PC133 SDRAM Registered DIMM Design Specification
DIMM Wiring Details
Net Structure Routing for Chip Select (Raw Card Versions B, C, D)
TL6
SDRAM Pin
TL6
SDRAM Pin
TL5
TL6
SDRAM Pin
TL6
SDRAM Pin
TL3
DIMM
Connector
TL1
Register
TL0
TL2
R1
TL6
TL4
SDRAM Pin
TL6
SDRAM Pin
TL5
TL6
SDRAM Pin
TL6
Add S1 and S3 lines for
stacked DIMMs only.
SDRAM Pin
TL7
SDRAM Pin
Trace Lengths for Chip Select Net Structures (S0, S1, S2, S3)
Raw
Card
TL0
Min
Max
TL1
Min
Max
TL2
Min
Max
TL3
Min
Max
TL4
Min
Max
TL5
Min
Max
TL6
Min
Max
TL7
Min
R1
Notes
Max Ohms
B
0.232 1.336 0.140 0.206 2.760 2.868 0.389 0.580 0.148 0.152 0.527 0.617 0.173 0.311 0.781 0.874
0
1
C
0.232 1.122 0.140 0.206 2.636 2.775 0.389 0.533 0.147 0.585 0.430 0.616 0.158 0.253 0.514 0.827
0
1
D
0.214 1.195 0.153 0.206 2.268 2.707 0.100 0.561 0.084 0.514 0.477 0.679 0.148 0.356 0.749 0.856
0
1
1. All distances are given in inches and should be kept within a tolerance of ± 0.01 inches.
Page 42
Revision 1.1
PC133 SDRAM Registered DIMM Design Specification
DIMM Wiring Details
Clock Enable Net Structures
CKE [0]
CKE0 is connected to all SDRAMs on the card, similar to an address. At this time, CKE1 is not uniquely wired
on raw card versions A, B, and C or D. Raw Card E can be produced with either CKE0 wired to all of the
SDRAMs, or CKE0 can be wired to one physical bank and CKE1 wired to the other physical bank.
.
Net Structure Routing for Clock Enable (Raw Card Version A)
TL4
SDRAM Pin
TL4
SDRAM Pin
TL3
TL4
SDRAM Pin
TL4
TL0
DIMM
Connector
Register
SDRAM Pin
TL2
TL1
R1
TL5
TL6
SDRAM Pin
TL4
TL2
SDRAM Pin
TL4
SDRAM Pin
TL3
TL4
SDRAM Pin
TL4
SDRAM Pin
Trace Lengths for Clock Enable Net Structure (Raw Card A)
Raw Card
A
TL4
No. of
loads
TL0
9
0.297
TL1
1.315
TL2
1.438
TL3
0.700
Min
Max
0.204
0.273
TL5
R1 Ohms
Notes
0.046
100
1
1. All distances are given in inches and should be kept within a tolerance of ± 0.01 inches.
Revision 1.1
Page 43
PC133 SDRAM Registered DIMM Design Specification
DIMM Wiring Details
Net Structure Routing for Clock Enable (Raw Cards B, C, & D)
TL5
SDRAM Pin
TL5
SDRAM Pin
TL4
TL5
SDRAM Pin
TL5
TL0
DIMM
Connector
Register
SDRAM Pin
TL2
TL1
TL3
TL5
SDRAM Pin
TL5
SDRAM Pin
TL4
TL5
TL5
Second SDRAM pin used
on stacked DIMMs only.
TL6
SDRAM Pin
SDRAM Pin
SDRAM Pin
Note: These signals are double loaded on the input to the register so this net structure is repeated twice.
Trace Lengths for Clock Enable Net Structures (Raw Cards B, C, & D)
TL0
TL1
TL2
TL3
TL4
TL5
TL6
Raw
Card
Min
Max
Min
Max
Min
Max
Min
Max
Min
Max
Min
Max
Min
Max
B
0.784
1.03
2.844
2.899
0.459
0.530
0.145
0.150
0.527
0.630
0.210
0.286
0.535
0.662
1
C
0.782
0.819
2.880
2.897
0.458
0.476
0.144
0.149
0.527
0.564
0.193
0.260
0.505
0.529
1
D
N/A
0.702
1.900
2.322
N/A
0.463
0.150
0.153
N/A
0.555
0.114
0.137
0.652
0.711
1
Notes
1. All distances are given in inches and should be kept within a tolerance of ± 0.01 inches.
Page 44
Revision 1.1
PC133 SDRAM Registered DIMM Design Specification
DIMM Wiring Details
Net Structure Routing for Clock Enable (Raw Cards E)
TL7
SDRAM Pin
TL5
SDRAM Pin
TL6
TL5
SDRAM Pin
TL3
TL4
TL5
SDRAM Pin
Register
TL2
TL0
DIMM
Connector
TL7
SDRAM Pin
TL1
TL7
SDRAM Pin
TL2
TL5
SDRAM Pin
TL4
TL3
Note: Raw Card E can be produced with either
CKE0 wired to all SDRAMs, or CKE0 wired to one
physical bank and CKE1 wired to the second physical bank.
In both cases, a jumpering scheme on the register
input is utilized. Therefore, both nets are always used.
TL5
SDRAM Pin
TL6
TL5
SDRAM Pin
TL7
C1
Trace Lengths for Clock Enable Net Structure (Raw Card E)
TL2
TL3
TL4
TL5
TL6
TL7
Raw
Card
# of
Loads
E
(CKE0)
10
0.371 0.867 1.564 1.596 0.249 0.276 0.355 0.363 0.060 0.062 0.602 0.607 0.646 0.663
3.0
E
(CKE1)
10
1.065 1.507 1.557 1.560 0.217 0.253 0.374 0.380 0.056 0.062 0.596 0.600 0.642 0.699
3.0
TL0
TL1
Min
Max
Min
Max
Min
Max
Min
Max
Min
Max
Min
Max
C1pF
1. All distances are given in inches and should be kept within a tolerance of ± 0.01 inches.
Revision 1.1
Page 45
DIMM Wiring Details
Page 46
PC133 SDRAM Registered DIMM Design Specification
Revision 1.1
PC133 SDRAM Registered DIMM Design Specification
DIMM Wiring Details
Address/Control Net Structures
Ax, BAx, RAS, CAS, WE for Raw Card Version A
Net Structure Routing for Address and Control
TL4
SDRAM Pin
TL4
SDRAM Pin
TL3
TL4
SDRAM Pin
TL4
SDRAM Pin
DIMM
Connector
TL2
TL1
Register
TL0
TL5
R1
TL6
SDRAM Pin
TL2
TL4
SDRAM Pin
TL4
SDRAM Pin
TL3
TL4
SDRAM Pin
TL4
SDRAM Pin
.
Trace Lengths for Address and Control Net Structures
TL0
TL1
TL2
TL3
TL4
TL5
TL6
Raw
Card
Min
Max
Min
Max
Min
Max
Min
Max
Min
Max
Min
Max
Min
Max
A
0.328
0.686
1.295
1.329
1.256
1.405
0.661
0.704
0.125
0.375
0.058
0.182
0.127
0.272
R1
Notes
Ohms
100
1
1. All distances are given in inches and should be kept within a tolerance of ± 0.01 inches.
Revision 1.1
Page 47
PC133 SDRAM Registered DIMM Design Specification
DIMM Wiring Details
A, BA, RAS, CAS for Raw Card Versions B, C, D, and E
Net Structure Routing for Address and Control
TL5
SDRAM Pin
TL5
SDRAM Pin
TL4
TL5
SDRAM Pin
TL5
SDRAM Pin
TL0
TL2
TL1
Register
DIMM
Connector
TL5
TL3
SDRAM Pin
TL5
SDRAM Pin
TL4
TL5
SDRAM Pin
Second SDRAM pin used on
stacked DIMMs only
TL5
SDRAM Pin
TL6
SDRAM Pin
Note: These signals are double loaded on the input to the register, so this net structure is repeated twice.
Trace Lengths for Address and Control Net Structures
TL0
TL1
TL2
TL3
TL4
TL5
TL6
Raw Card
Notes
Min
Max
Min
Max
Min
Max
Min
Max
Min
Max
Min
Max
Min
Max
B
0.254
0.583
2.454
3.535
0.389
0.492
0.145
0.150
0.527
0.625
0.201
0.287
0.538
0.704
1
C
0.254
0.441
2.483
3.535
0.389
0.492
0.145
0.154
0.527
0.625
0.172
0.287
0.533
0.704
1
D
0.224
0.527
0.222
0.345
0.358
0.576
0.125
0.211
0.470
0.577
0.169
0.275
0.634
0.846
1
E
0.209
0.526
2.456
3.611
0.126
0.499
0.097
0.463
0.528
0.708
0.196
0.330
0.540
0.805
1
1. All distances are given in inches and should be kept within a tolerance of ± 0.01 inches.
Page 48
Revision 1.1
PC133 SDRAM Registered DIMM Design Specification
DIMM Wiring Details
WE for Raw Card Versions B, C, D, and E
Net Structure Routing for Write Enable
TL6
SDRAM Pin
Second SDRAM pin used on stacked
DIMMs only.
TL6
SDRAM Pin
TL5
TL6
SDRAM Pin
TL6
SDRAM Pin
TL1
Register
TL0
DIMM
Connector
R1
TL2
TL3
TL6
TL4
SDRAM Pin
TL6
SDRAM Pin
TL5
TL6
SDRAM Pin
TL6
SDRAM Pin
TL7
SDRAM Pin
Note: These signals are double loaded on the input to the register, so this net structure is repeated twice.
.
Trace Lengths for Write Enable Net Structure
Raw
Card
TL1
TL2
TL3
TL4
TL5
TL6
TL7
TL0
Min
Max
Min
Max
Min
Max
Min
Max
Min
Max
Min
Max
Min
Max
R1
Notes
Ohms
B
1.189 0.117 0.129 2.793 2.793 0.489 0.507 0.149 0.150 0.549 0.596 0.229 0.253 0.674 0.756
0
1
C
1.249 0.117 0.129 2.792 2.831 0.489 0.507 0.148 0.150 0.549 0.596 0.200 0.224 0.643 0.726
0
1
D
1.223 0.128 0.130
0.432 0.128 0.150 0.552 0.577 0.169 0.275 0.732 0.745
0
1
E
1.187 0.117 0.129 2.608 2.733 0.495 0.563 0.100 0.128 0.541 0.605 0.224 0.287 0.733 0.804
0
1
N/A
1.28
N/A
1. All distances are given in inches and should be kept within a tolerance of ± 0.01 inches.
Revision 1.1
Page 49
PC133 SDRAM Registered DIMM Design Specification
DIMM Wiring Details
Cross Section Recommendations
The DIMM printed circuit board design uses six-layers of glass epoxy material. PCBs must contain full ground
plane and full power plane layers. The PCB stackup must be designed with either 4 or 6 mil wide traces.
Note: The PCB edge connector contacts shall be gold-plated and not chamfered.
PCB Electrical Specifications
Parameter
Min
Max
Units
Trace velocity: S0 (outer layers)
1.6
2.2
ns/ft
Trace velocity: S0 (inner layers)
2.0
2.2
ns/ft
Trace impedance: Z0 (all layers)
58.5
71.5
Ohms
Example Layer Stackup for 6 mil Traces
Signal Layer 1
0.0072
Ground Layer 2
0.0100
Signal Layer 3
0.0070
Signal Layer 4
0.0100
Voltage Layer 5
0.0072
Signal Layer 6
Example Layer Stackup for 4 mil Traces
Signal Layer 1
0.0054
Ground Layer 2
0.0068
Signal Layer 3
0.0170
Signal Layer 4
0.0068
Voltage Layer 5
0.0054
Signal Layer 6
Page 50
Revision 1.1
PC133 SDRAM Registered DIMM Design Specification
Timing Budget
Timing Budget
The post-register timings on the Registered DIMMs are critical. The following table describes the post-register timing budget for a typical PC133 Registered DIMM, under these conditions:
• Raw Card Version ‘B’, Planar Configuration
• SDRAM Input Capacitance range of 2.6pF to 3.1pF
• IDT Register- P/N ALVCF162835A
• Worst Case Transition (High to Low or Low to High)
• ‘tCO’ (no load) timing methodology
DIMM Post-Register Timing
Symbol
Parameter
Time (ns)
Set-up
Time (ns)
Hold
Notes
tCLK
Clock cycle time
7.50
7.50
1
tCO
Maximum time for the signal to exit the register. This
is measured into a 0pF load.
−2.11
1.31
1, 2
tPD
Maximum time for the signal to propagate from the
register to any SDRAM. The switching point for a rising edge is 1.6Volts, and 1.2Volts for a falling edge.
−2.66
0.77
1, 2
Shift in the register clock in relationship to the
SDRAM. The input clocks to the registers and the
SDRAM are purposely skewed to aid in the setup
time of the signals into the SDRAM.
0.35
−0.55
1
tIS
Setup time required for the SDRAM inputs
−1.50
NA
1
tIH
Hold time required for the SDRAM inputs
ΝΑ
−0.80
1
Clock jitter and skew on the DIMM
−0.325
-0.25
1
Simultaneous Switch adder
−0.35
NA
1, 2
0.91
0.48
1
tREG
tSkew*
tSS
Margin
Note:
1. The timing values shown are consistent with registers available at the time this specification was written. All registers must meet
the combined delay values and ensure positive margin, although the specific delay value for each term may vary.
2. The timing values for tCO, tPD, and tSS, when added together, define the overall delay from clock at the register to the time when the
last re-driven signal arrives at the SDRAM (setup time), or earliest re-driven signal changes state after clock (hold time).
*
DIMM Clock Contributions (tSkew)
tSkew for Setup
Units
tSkew for Hold
Units
DIMM PLL JItter
0.75
ns
DIMM PLL Skew
0.150
ns
DIMM PLL Skew
0.150
ns
DIMM Clock Net Skew
0.10
ns
DIMM Clock Net Skew
0.10
ns
Total
0.250
ns
Total
0.325
ns
Other methods can be used to evaluate post-register timings. One such method is ‘Time to Vm’ that uses the register timing into its specified test load (instead of tCO, open circuit) and adds or subtracts the timing into the SDRAM net and loads.
Both of these timing methods were used in the design of the ‘reference DIMMs’. The same overall timing budget must be
maintained, regardless of the timing method used.
Revision 1.1
Page 51
PC133 SDRAM Registered DIMM Design Specification
Serial PD Definition
Serial PD Definition
The Serial Presence Detect function MUST be implemented on the PC SDRAM Registered DIMM. The component used and the data contents must adhere to the most recent version of the JEDEC SDRAM Serial
Presence Detect Specifications. Please refer to this document for all technical specifications and requirements of the serial presence detect devices.
The following table is intended to be an example of a typical PC133 DIMM programmed for 3/3/3
(CL/tRP/tRCD), 133MHz operation. This SPD table is also programmed with 100MHz and 66MHz operation
in order to maintain compatibility with these other frequency range operations. SPD values indicating different
DIMM performance characteristics, such as CL = 2 operation at 133MHz, will be utilized based on a specific
DIMMs’ characteristics.
Serial Presence Detect Data EXAMPLE Raw Card Version ‘B’, 16Mx72 Registered DIMM (Part 1 of 2)
Byte #
Description
SPD Entry Value
Serial PD
Data Entry
(Hexadecimal)
0
Number of Serial PD Bytes Written during Production
128
80
1
Total Number of Bytes in Serial PD device
256
08
2
Fundamental Memory Type
SDRAM
04
3
Number of Row Addresses on Assembly
12
0C
4
Number of Column Addresses on Assembly
10
0A
5
Number of DIMM Banks
1
01
6-7
Data Width of Assembly
x72
4800
8
Assembly Voltage Interface Levels
LVTTL
01
9
SDRAM Device Cycle Time (CL = 3)
7.5ns
75
10
SDRAM Device Access Time from Clock at CL= 3
5.4ns
54
11
Assembly Error Detection/Correction Scheme
ECC
02
12
Assembly Refresh Rate/Type
SR/1X(15.625µs)
80
13
SDRAM Device Width
x4
04
14
Error Checking SDRAM Device Width
x4
04
15
SDRAM Device Attr: Min Clk Delay, Random Col Access
16
SDRAM Device Attributes: Burst Lengths Supported
17
SDRAM Device Attributes: Number of Device Banks
18
SDRAM Device Attributes: CAS Latency
19
SDRAM Device Attributes: CS Latency
20
SDRAM Device Attributes: WE Latency
21
SDRAM Module Attributes
1 Clock
01
1, 2, 4, 8, Full Page
8F
4
04
2, 3
06
0
01
0
01
Registered/Buffered with
PLL
IF
Notes
1, 2
1. In a registered DIMM, data is delayed an additional clock cycle due to the on-DIMM pipeline register (that is, Device CL [clock
cycles] + 1 = DIMM CAS latency).
2. Minimum application clock cycle time is 7.5ns (133MHz).
3. cc = Checksum Data byte, 00-FF (Hex).
4. ww = Binary coded decimal week code, 01-51 (Decimal) ‘ 01-34 (Hex).
5. yy = Binary coded decimal year code, 0-00 (Decimal) ‘ 00-63 (Hex).
6. ss = Serial number data byte, 00-FF (Hex).
7. These values apply to PC100 applications only, per Intel PC66/100 SPD standards.
Page 52
Revision 1.1
PC133 SDRAM Registered DIMM Design Specification
Serial Presence Detect Data EXAMPLE
Byte #
Serial PD Definition
Raw Card Version ‘B’, 16Mx72 Registered DIMM (Part 2 of 2)
Description
SPD Entry Value
Serial PD
Data Entry
(Hexadecimal)
Write-1/Read Burst, Precharge All, Auto-Precharge
0E
22
SDRAM Device Attributes: General
23
Minimum Clock Cycle at CLX-1 (CL = 2)
15.0ns
F0
24
Maximum Data Access Time (tAC) from Clock at CLX-1 (CL = 2)
9.0ns
90
25
Minimum Clock Cycle Time at CLX-2 (CL = 1)
N/A
00
26
Maximum Data Access Time (tAC) from Clock at CLX-2 (CL = 1)
N/A
00
27
Minimum Row Precharge Time (tRP)
20.0ns
14
28
Minimum Row Active to Row Active delay (tRRD)
15.0ns
0F
29
Minimum RAS to CAS delay (tRCD)
20.0ns
14
30
Minimum RAS Pulse width (tRAS)
45.0ns
2D
31
Module Bank Density
128MB
20
32
Address and Command Setup Time Before Clock
1.5ns
15
33
Address and Command Hold Time After Clock
0.8ns
08
34
Data Input Setup Time Before Clock
1.5ns
15
35
Data Input Hold Time After Clock
0.8ns
08
Reserved
Undefined
00
62
SPD Revision
JEDEC 2
02
63
Checksum for bytes 0 - 62
36 - 61
64 - 71
72
73 - 90
Notes
1, 2
cc
3
Manufacturers’ JEDEC ID Code
Assembly Manufacturing Location
Assembly Part Number
91 - 92
Assembly Revision Code
93 - 94
Assembly Manufacturing Date
4, 5
95 - 98
Assembly Serial Number
99 - 125
Reserved
126
Reserved
64
7
127
Reserved
85
7
128 - 255 Open for Customer Use
6
Undefined
00
1. In a registered DIMM, data is delayed an additional clock cycle due to the on-DIMM pipeline register (that is, Device CL [clock
cycles] + 1 = DIMM CAS latency).
2. Minimum application clock cycle time is 7.5ns (133MHz).
3. cc = Checksum Data byte, 00-FF (Hex).
4. ww = Binary coded decimal week code, 01-51 (Decimal) ‘ 01-34 (Hex).
5. yy = Binary coded decimal year code, 0-00 (Decimal) ‘ 00-63 (Hex).
6. ss = Serial number data byte, 00-FF (Hex).
7. These values apply to PC100 applications only, per Intel PC66/100 SPD standards.
Revision 1.1
Page 53
Product Label
PC133 SDRAM Registered DIMM Design Specification
Product Label
The following label should be applied to all PC133-compatible DIMMs, to fully describe the key attributes of
the module. The label can be in the form of a stick-on label, silk screened onto the assembly, or marked using
an alternate customer-readable format. A minimum font size of 8 points should be used, and the number can
be printed in one or more rows on the label.
Format:
PC133m-abc-dde-fg
Where:
m: Module Type
R = Registered DIMM
U = Unbuffered DIMM (no registers on DIMM)
a: SDRAM CAS Latency
b: SDRAM minimum tRCD specification (in clocks)
c: SDRAM minimum tRP specification (in clocks)
dd: SDRAM tAC specification (into 50pF load), with no decimal point
54= 5.4ns tAC
e: JEDEC SPD Revision used on this DIMM
2 = JEDEC SPD Revision 2.0
f: Gerber file used for this design (if applicable)
A: Reference design for R/C ‘A’ is used for this assembly
AA: Reference design for R/C ‘AA’ is used for this assembly
B: Reference design for R/C ‘B’ is used for this assembly
C: Reference design for R/C ‘C’ is used for this assembly
D: Reference design for R/C ‘D’ is used for this assembly
E: Reference design for R/C ‘E’ is used for this assembly
Z: None of the ‘Reference’ designs were used on this assembly
g: Revision number of the reference design used:
1: 1st revision (1st release)
2: 2nd revision (2nd release)
3: 3rd revision (3rd release)
Blank: Not Applicable (used with ‘Z’ above)
Example:
PC133R-333-542-B2
is a PC133 Registered DIMM
with CL = 3, tRCD = 3, tRP = 3
and a tAC = 5.4ns, using JEDEC SPD Revision 2
and produced based on the ‘B’ raw card Gerber, 2nd release
Page 54
Revision 1.1
PC133 SDRAM Registered DIMM Design Specification
DIMM Mechanical Specifications
DIMM Mechanical Specifications
JEDEC has standardized detailed mechanical information for the 168 Pin DIMM family. This information can
be accessed on the worldwide web as follows:
1. Go to http://www.jedec.org.
2. Click on ‘Free Standards and Docs.’
3. Scroll down and double click on ‘Publication 95.’
4. Under ‘Outlines/Registrations,’ click on ‘Microelectronics Outlines.’
5. Scroll down and select ‘MO-161’ to download the PDF for this product family.
Simplified Mechanical Drawing with Keying Positions
Front
5.25" nom.
Side
0.320"
max.
1.7" max.
Architecture
Key
Voltage
Key
Note:
The keying defines the DIMM as a 3.3V Registered DIMM with Serial PDs.
• The center key position defines the voltage for the DIMM. For PC133, this key is in the center of the opening,
defining this as a 3.3V DIMM.
• The left key position defines the architecture of the DIMM. For PC133, this key is in the right portion of the
opening, defining the DIMM as a ’second generation’ 168 pin DIMM with serial PDs.
Revision 1.1
Page 55
Supporting Hardware
PC133 SDRAM Registered DIMM Design Specification
Supporting Hardware
Clock Reference Board
To facilitate the measurement of clock arrival time to the SDRAM for both Unbuffered and Registered
SDRAM DIMMs, a ‘Clock Reference Board’ has been released. This board includes the following:
• A frequency synthesizer to provide 100MHz and 133MHz clocks
• A clock buffer to re-drive clocks to the module socket and reference nets
• A 168P DIMM socket, with four clock inputs wired CS and CKE pins are tied inactive
• A ‘Registered’ DIMM reference net consistent with this PC133 spec and the Intel PC100 Revision 1.2 and
later DIMMs
• An ‘Unbuffered’ DIMM reference net consistent with the Intel PC100 Unbuffered DIMM spec
• A clock buffer ‘standard test load’ to permit characterization of the clock buffer into its test load
This clock reference board is generally available in the industry, and should be used by module producers, as
well as system designers, to ensure modules meet the intended clock timings defined in this specification.
Every effort has been taken to minimize clock variations and clock skew on these boards.
Note: On PC133 Registered DIMMs, as well as PC100 Registered DIMMs produced to the Intel Specification Revision 1.2 and higher, the clock arrival time at the SDRAM will differ by several hundred picoseconds
when compared to the PC100 Unbuffered DIMMs (the clock on the Registered DIMMs will be ‘earlier’). This is
due to the reduction in PLL input padding capacitance on the Registered DIMMs, from the original 24pF (on
early PC100 Registered DIMMs) to the current 12pF value. This reduction results in a lower input capacitance
on the Registered DIMM clock (CK0) than on the clocks used on the Unbuffered DIMMs, causing the Registered DIMM clock to arrive at the PLL earlier. This reduction in PLL input capacitance results in an improved
clock rise-time on Registered DIMMs (permitting higher frequency operation), and in addition, helps to reduce
jitter.
Page 56
Revision 1.1
PC133 SDRAM Registered DIMM Design Specification
Application Notes
Application Notes
Clocking Timing Methodology
The clock to SDRAM delay is intended to be identical to PC100 Registered DIMMs. As with PC100 Registered DIMMs, the entire clock delay is present between the clock tab pin and the PLL input, and is accomplished via a trace length, a series resistor, and the inclusion of an input padding capacitor at the input of the
PLL. This delay should be modeled by the module supplier, to ensure accuracy, if a raw card other than one
of the ‘reference designs’ is utilized. The clock ‘Reference Net’ below is provided for use during module simulation to ensure an accurate clock delay, since measurement of the delay is impractical (due to the reflections
at the clock tab pin).
Registered DIMM Clock Reference Net
0.125”
10Ω
Z0 = 60Ω
td = 2.2ns/ft
Probe point (reference delay)
2.65”
16pF
The clock delay from the input of the PLL to the input of any SDRAM is designed to be 0ns (nominal). The
clock arrival time at the PLL input should not be adjusted, although sources of timing variation include PLL
input capacitance, padding capacitor and series resistor tolerances, and DIMM impedance variations (the latter items have a minor affect). Due to these variations, it is possible that there will be a difference between the
input of the PLL and the input of the SDRAM --a reasonable target for this variation is +/-100ps.
The most important factor in clock measurements is to ensure consistent clock arrival times at the SDRAM.
The clock reference board Registered DIMM reference net provides the standard net delay for this measurment. The DIMM suppliers must adjust the value of the feedback capacitor to place the clock arrival at the
SDRAM on the DIMM within +/-100ps of the clock arrival at the Registered DIMM clock reference net (measured as a ‘mean’, since the PLL and source jitter makes this measurement difficult). This value is a target for
DIMM suppliers and does not include worst case contributions of PLL skew, PLL phase error, feedback
capacitor variations, and DIMM variations.
The clock to the register should lead the SDRAM clock by approx. 450ps (nominal), with a target range of
+100ps/-150ps (adjusted). The actual delay may vary as a result of the input capacitance of the SDRAMs, the
register clock input capacitance, variations of the PCB parasitics, and measurement skew (the later two having secondary effects).The register clock to SDRAM clock relationship may be adjusted by doing the following:
1. For register clocks arriving less than 450ps (nominal) prior to the SDRAM input clock:
- Resistors on the clock nets to the SDRAMs may be increased in value in order to increase the propagation delay to the SDRAMs.
2. For register clocks arriving greater than 450ps (nominal) prior to the SDRAM input clock:
- A padding capacitor location is included in the register clock net, and when populated, this capacitor
will increase the propagation delay to the registers.
- Resistors on the SDRAM clock nets, where applicable, may be reduced in value in order to reduce
the propagation delay to the SDRAMs.
All changes defined above require simulation to verify the targeted results. Simulation of the clock nets will
allow each DIMM manufacturer to determine the most effective method for achieving a -450ps nominal relationship between the register input clock and the SDRAM input clock. It is critical that this analysis be done in
order to maintain the required rise-time characteristics as well as signal integrity at the input of both the
SDRAM and the registers. In cases where the register clock cannot be placed in the ideal timing window,
post-register timings will need to be adjusted, by the DIMM producer, to ensure robust module operation.
Revision 1.1
Page 57
PC133 SDRAM Registered DIMM Design Specification
Application Notes
Revision Log
Revision Info
(Part 1 of 5)
Page of Revision
p2
Description of Change
Updated the footnote in the SDRAM Module Configurations Table.
Update typo on addressing for the 256MB SDRAM Module Configuration.
p 11
Updated address information to include maximum addressing.
p 13
Updated block diagram to reflect the design- each chip select sees nine SDRAM loads each.
p 14
Updated block diagram to reflect the design- each chip select sees nine SDRAM loads each.
p 15
Inserted a new block diagram which reflects the Raw Card Version C and D designs, whereby
Chip selects alternate between upper and lower SDRAMs in order to enhance thermal characteristics.
p 16
pp 17-20
Updated the register wiring for the Raw Card Version B,C and D to clarify the use of CKE0 and 1.
Removed the note on this table indicating that this info was preliminary.
Inserted a note clarifying which Raw Card utilizes the defined pin assignment.
p 18
Removed the note indicating that one raw card would support both Version 1 and 2 SDRAM pin
assignments.
p 19
Fixed typo in header.
p 21
Changed the input capacitor value for a terminated clock net to 12pF to match rev 1.2 of the Intel
PC100 RDIMM specification.
Removed Note 2 under the clock net wiring section.
p 30
Revision 0.8
12/4/98
pp 31-41
Updated note on topology info to indicate that info pertaining to R/C B accurately depicts the current design, while A, C and D are not verified to date.
Updated all topology information to accurately reflect the Raw Card Version ‘B’ design.
Moved the Register Clock input topology to the next page to clarify that it is a PLL output.
p 31
Changed the input capacitor value for a terminated clock net to 12pF to match rev 1.2 of the Intel
PC100 RDIMM specification.
Renamed wire lengths for the PLL output to the SDRAM.
p 32
Added a resistor to the PLL output to the SDRAM net.
Changed table for clarification.
Updated clock loading for SDRAMs to show differences between R/C A and R/C B, C & D.
pp 34 & 35
Removed L4 from topology as L3 = L4.
p 39
Added note to clarify use of CKE0 and 1 on the different Raw Card Versions.
p 42
Updated Max I/O capacitance to 6.5pF.
p 43
Changed definition of TRP,TRAS,TRCD,TRRD and TRC into ns.
p 44
pp 45 & 46
Changed definition of TDPL into ns.
Added specification for TRFC.
Added an example SPD table for Raw Card Version B, 16Mx72.
Changed VDD to 3.3 V +-0.3V.
p 47
Updated Critical Register Specifications.
Created a new note listing early register suppliers.
Page 58
Revision 1.1
PC133 SDRAM Registered DIMM Design Specification
Revision Log
Application Notes
(Part 2 of 5)
Revision Info
Page of Revision
Revision 0.8
12/4/98
p 48
Description of Change
Changed VDD to 3.3V +-0.3V.
Added Operating frequency.
Created a note listing early PLL suppliers.
p2
Added JEDEC SPD document as additional reference document.
p3
Updated the overall module height, so that it was specified consistently with JEDEC’s mechanical
definitions.
p4
Added a new definition for Dimension ‘T’ to the mechanical DIMM dimensions and changed current ‘T’ to ‘T1’.
p 10
Corrected pin assignment to be consistent with JEDEC defined 168 pin Registered DIMMs (previously columns were placed in the incorrect order).
pp 12-15
p 14
Changed An to A12 in all of the references to addresses in the block diagram.
Removed note in reference to CS alternating decks.
Removed note referring to preliminary wiring for Raw Card Version A.
p 16
Added A12 to the register wiring for use with 256Mb SDRAMs.
Clarified use of CKE1 on Raw Card Version D.
p 17
Removed x16 SDRAM pinout, as it does not apply to the specified DIMMs.
p 19
Added a new page to reflect the 256Mbit SDRAM stacked Staktek
p 20
Revision 0.9
2/5/99
p 22
pp 23-24
p 25
p 28
p 33
pp 34 & 45
p 34
pp 37 & 38
Revision 1.1
ä pin assignment.
Removed A12 and A13 labels from the bank select pins.
Corrected organization label below pin assignment.
Updated clock net wiring drawing for CK0 to clarify the PLL to register structure, and to indicate
the design goal for the relationship between the PLL clk input and the SDRAM clk input.
Added a description of the clocking methodology, as well as the clock reference board.
Updated post-register timing example.
Added a description of the post-register timing methodology.
Changed board impedance tolerance to ±10% to be consistent with the latest Intel PC100 specification.
Removed dielectric constant specification, as without test methodology this number has little
meaning.
Updated Note which indicates the contents of the topology pages.
Updated all topology information to accurately reflect Raw Card Version A and C.
Updated Note 3 in the table to indicate that SDRAM capacitance also impacts the feedback
capacitor value utilized.
Corrected R1 value to be consistent with the Gerber release.
p 39
Updated topology diagram to clarify wiring for chip selects on Raw Card Version A.
p 40
Corrected R1 value to be consistent with the Gerber release.
p 41
Updated topology diagram to clarify wiring for CKE on Raw Card Version A.
p 42
Updated and added notes to clarify the use of CKE1 on Raw Card Version D only.
Page 59
PC133 SDRAM Registered DIMM Design Specification
Application Notes
Revision Log
Revision Info
(Part 3 of 5)
Page of Revision
Description of Change
Removed Raw Card Version A description from this topology in order to clarify wiring.
p 43
Changed labels for signals to be consistent with the rest of the documentation.
Added a note to the topology.
Revision 0.9
2/5/99
p 44
Added a page to describe the Address and Control topology for Raw Card Version A (removed
table for resistance values, which is now incorporated into the table on this new page).
p 46
Added a page to describe the input loading characteristics of the DIMMs.
p 47
Removed Iccslfrf and Iccac from the SDRAM specifications, as it is an unnecessary value for the
purposes of this spec.
p 49
Changed tRFC from 80ns to 75ns to match the JEDEC PC133 ballot.
p 51
Indicated that Byte 126 and 127 in the SPDs are ‘Reserved’.
p 52
Indicated that equivalent part numbers may also be used in the register component specification
table.
Added a specification for register clock input capacitance.
Added a note to the critical register specifications table.
p 53
Updated text to indicate that the133MHz specifications are required.
Deleted reference to ‘B’ in PLL P/N.
p 54
Added a page to describe the Gerber releases (dates and applicable specifications).
p 55
Added a page to describe the labeling requirements for PC133 RDIMMs.
Reorganized sections and added section numbers to facilitate the use of this document as the
basis of future module design specifications.
Revision 0.91
4/1/99
Adjusted terminology to match industry standards.
all
Made no changes in technical content.
Replaced DIMM Dimensions and Tolerances table and detailed mechanical drawings with instructions to locate JEDEC’s worldwide web site where up-to-date information and drawings for these
DIMMs can be found.
p4
p 12
Revision 1.0
5/25/99
Added ’max’ to number of SDRAM loads per clock output
Updated wording in the notes section of the ’Clock Net Wiring for CK0’ for clarification
p 13
Removed CKE1 from register pins (as well as note 2 in the table which referenced these pins) for
Raw Card D
p 15
Removed the incorrect reference to an 8Mx8 SDRAM on this pin assignment
p 16
Added x8 pinout for 256Mbit planar
p 19
Remove reference to IBIS section for VOH and VOL
p 20
Updated tRP and tRCD to 20.0ns to be PC100 backwards compatible
pp 20 & 21
Page 60
Clarified standard for JEDEC SDRAM DIMM info and added website address info
Added 100MHz to the SDRAM operating frequency for the PC133 SDRAMs in the header column
Revision 1.1
PC133 SDRAM Registered DIMM Design Specification
Revision Log
Revision Info
Application Notes
(Part 4 of 5)
Page of Revision
Description of Change
Added Raw Card E to DIMM Register Use table
Clarified that any register type (ALVC or AVC or equivalent) can be used on any of the DIMM configurations in the DIMM Register Use table
p 22
Added TA to critical register specifications
Updated register clock input capacitance
Removed early potential register source list
Added information on register sourcing
Added DIMM PLL Use Table which includes a note describing R/C ‘AA’
Clarified PLL skew
p 23
Added typical PLL clock input capacitance specification
Removed early potential PLL source list
Added information on PLL sourcing
Added R/C E to Reference Designs Table, as well as a note describing its purpose
p 24
Removed CKE1 capability from R/C D in Input Loading Matrix
Added R/C E to Input Loading Matrix
Added R/C AA and E (in development) for Gerber releases
p 25
Revision 1.0
5/25/99
Added release of R/C D
p 27
Added R/C E to Component Placement Label
p 30
Added R/C D to list of reference designs represented in the net structures document, and added
reference to future additionof R/C E
pp 30-43
pp 35 & 36
Added Raw Card D net structure info
Removed total net length from net structure length table to avoid confusion
p 44
Updated 4mil stackup example to result in better centered board impedance around the specifed
impedance
p 45
Updated Post Register TImings to reflect accurate numbers for skew and other timing factors, and
added a table to explain the contributions to tSkew
pp 46 & 47
Revision 1.1
Updated specification revision which is applicable to the reference designs
Updated text which describes the use of the SPD data (removed direct reference to Intel SPDs)
Updated Bytes 18,23,24,27,& 29 to be consistent with the finalized SPD data
p 48
Added Raw Card Versions AA and E to the label list
p 50
Updated description of clock reference board to indicate that boards are now readily available
p 51
Updated explanation of clock tuning methodology and incorporated the use of the clock reference
board into the explanation of this tuning process.
Page 61
PC133 SDRAM Registered DIMM Design Specification
Application Notes
Revision Log
Revision Info
(Part 5 of 5)
Page of Revision
pp 4-57
Changed "Absolute Max Rating" header to "Environmental Parameters"
p7
Added CKE1 to the Registered SDRAM DIMM pinout
p 11
Added Block Diagram for Raw Card Version E
p 13
Added Registered Functional Assignments for Raw Card E
pp 14 & 15
Changed all references to clock from "CLK" to CK"
Added 128Mbit density to label under the 54 pin SDRAM pin assignments
p 19
Added a note referencing JEDEC documentation for the latest SDRAM specification
p 20
Changed tSI and tHI to tIS and tIH
p 24
p 25
p 26
pp 30-44
p 45
p 46
p 52
Page 62
Changed all references to VCC to VDD
p5
pp 14-21
Revision 1.1
7/12/99
Description of Change
Added Raw Card Version "AA" to the SDRAM Module Configurations Table.
Removed the note indicating that R/C Version E was new
Updated spec revision to 1.1
Added original release dates for R/C Version "AA" and "E"
Inserted note describing component placement which had previously been incorrectly placed
Added new Raw Card Version E Net Structure Descriptions and Lengths
Added a note indicating that the layer stack ups were only examples of the possible stack up
options.
Update tSETUP and tHOLD naming convention to tIS and tIH in order to be consistent with the
SDRAM specifications
Updated register to SDRAM clock relationship to 450 +100/-150ps target in order to allow for
SDRAM, register, and DIMM inherent characteristics.
Added wording to indicate that when altering clock relationships, it is critical to focus on signal
integrity after any changes.
Revision 1.1
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