HYS72V8300GU-7.5-C [INFINEON]

Synchronous DRAM Module, 8MX72, 5.4ns, CMOS, DIM-168;
HYS72V8300GU-7.5-C
型号: HYS72V8300GU-7.5-C
厂家: Infineon    Infineon
描述:

Synchronous DRAM Module, 8MX72, 5.4ns, CMOS, DIM-168

动态存储器
文件: 总23页 (文件大小:141K)
中文:  中文翻译
下载:  下载PDF数据表文档文件
HYS 64/72V8300/16220GU  
SDRAM-Modules  
3.3 V 8M × 64/72-Bit 1 Bank SDRAM Module  
3.3 V 16M × 64/72-Bit 2 Bank SDRAM Module  
168-Pin Unbuffered DIMM Modules  
• 168-Pin unbuffered 8-Byte Dual-In-Line  
SDRAM Modules for PC main memory  
applications  
• Programmed Latencies:  
Product Speed  
CL tRCD  
tRP  
3
-7.5  
-8  
PC133  
PC100  
3
2
3
2
• PC100 and PC133 versions  
2
• 1 bank 8M × 64, 8M × 72 and 2 bank  
16M × 64, 16M × 72 organzation  
• Single +3.3 V(±0.3 V) Power Supply  
• Optimized for byte-write non-parity (x64) or  
ECC (x72) applications  
• Programmable CAS Latency, Burst Length,  
and Wrap Sequence  
(Sequential and Interleave)  
• JEDEC standard Synchronous DRAMs  
(SDRAM)  
• Auto-Refresh (CBR) and Self-Refresh  
• Decoupling capacitors mounted on substrate  
• All inputs and outputs are LVTTL compatible  
• Serial Presence Detect with E2PROM  
• Fully PC board layout compatible to INTEL’s  
Rev. 1.0 Module Specification  
• SDRAM Performance:  
-7.5  
-8  
Unit  
• Utilizes 8M × 8 SDRAMs in TSOPII-54  
packages with 4096 refresh cycles every  
64 ms  
PC133 PC100  
fCK Clock  
Frequency  
(max.)  
133  
100  
6
MHz  
• 133.35 mm × 31.75 mm × 4,00 mm card size  
with gold-contact pads  
tAC Clock Access 5.4  
ns  
Time  
The HYS 64(72)V8300GU and HYS 64(72)V16220GU are industry-standard 168-pin 8-byte Dual  
In-line Memory Modules (DIMMs) which are organized as 8M × 64, 8M × 72 in 1 bank and 16M × 64  
and 16M × 72 in two banks of high-speed memory arrays designed with 64M Synchronous DRAMs  
(SDRAMs) for non-parity and ECC applications. The DIMMs use -7.5 speed sorted 8M × 8 SDRAM  
devices in TSOP54 packages to meet the PC133-333 requirements and use -8 components for the  
standard PC100-222 applications. Decoupling capacitors are mounted on the PC board. The PC  
board design is in accordance with INTEL’s PC SDRAM Rev. 1.0 Module Specification. The DIMMs  
have Serial Presence Detect, implemented with a serial E2PROM using the two-pin I2C protocol.  
The first 128 bytes are utilized by the DIMM manufacturer and the second 128 bytes are available  
to the end user. All INFINEON 168-pin DIMMs provide a high performance, flexible 8-byte interface  
in a 133.35 mm long footprint, with 1.25“ (31.75 mm) height.  
Data Book  
1
12.99  
HYS 64/72V8300/16220GU  
SDRAM-Modules  
Ordering Information  
Type  
Code  
Package  
Descriptions  
Module  
Height  
64 MByte DIMMs  
HYS 64V8300GU-7.5-… PC133-333-520 L-DIM-168-33 133 Mhz 8M × 64 1 bank 1.25“  
SDRAM module  
HYS 72V8300GU-7.5-… PC133-333-520 L-DIM-168-33 133 Mhz 8M × 72 1 bank 1.25“  
SDRAM module  
HYS 64V8300GU-8-…  
HYS 72V8300GU-8-…  
128 MByte DIMMs  
PC100-222-620 L-DIM-168-33 100 MHz 8M × 64 1 bank 1.25“  
SDRAM module  
PC100-222-620 L-DIM-168-33 100 MHz 8M × 72 1 bank 1.25“  
SDRAM module  
HYS 64V16220GU-7.5-… PC133-333-520 L-DIM-168-30 133 MHz 16M × 64  
1.25“  
1.25“  
1.25“  
1.25“  
2 bank SDRAM module  
HYS 72V16220GU-7.5-… PC133-333-520 L-DIM-168-30 133 Mhz 16M × 72  
2 bank SDRAM module  
HYS 64V16220GU-8-…  
HYS 72V16220GU-8-…  
PC100-222-620 L-DIM-168-30 100 MHz 16M × 64  
2 bank SDRAM module  
PC100-222-620 L-DIM-168-30 100 Mhz 16M × 72  
2 bank SDRAM module  
Note: All part numbers end with a place code (not shown), designating the die revision. Consult  
factory for current revision. Example: HYS 64V8300GU-8-B, indicates that Rev.B dies are  
used for SDRAM components.  
Data Book  
2
12.99  
HYS 64/72V8300/16220GU  
SDRAM-Modules  
Pin Definitions and Functions  
A0-A11  
Address Inputs  
Bank Selects  
WE  
Read/Write Input VSS Ground  
BA0, BA1  
CKE0, CKE1  
CLK0 - CLK3  
Clock Enable  
Clock Input  
SCL Clock for SPD  
SDA Serial Data Out  
N.C. No Connection  
DQ0 - DQ63 Data Input/Output  
CB0-CB7  
Check Bits  
(x72 only)  
DQMB0 - DQMB7 Data Mask  
RAS  
Row Address Strobe CS0 - CS3  
Chip Select  
CAS  
Column Address  
Strobe  
VDD  
Power (+3.3 V)  
Address Format  
Part Number  
Rows  
12  
Columns Bank Select Refresh Period Interval  
8M × 64  
8M × 72  
HYS 64V8300GU  
HYS 72V8300GU  
9
9
9
9
2
2
2
2
4k  
4k  
4k  
4k  
64 ms 15,6 µs  
64 ms 15,6 µs  
64 ms 15,6 µs  
64 ms 15,6 µs  
12  
16M × 64 HYS 64V16220GU 12  
16M × 72 HYS 72V16220GU 12  
Pin Configuration  
PIN# Symbol  
PIN# Symbol  
PIN# Symbol  
PIN# Symbol  
1
VSS  
43  
44  
45  
46  
47  
48  
49  
50  
51  
52  
53  
54  
55  
56  
57  
58  
VSS  
85  
86  
87  
88  
89  
90  
91  
92  
93  
94  
95  
96  
97  
98  
99  
100  
VSS  
127  
128  
129  
130  
131  
132  
133  
134  
135  
136  
137  
138  
139  
140  
141  
142  
VSS  
2
DQ0  
DQ1  
DQ2  
DQ3  
VDD  
DU  
DQ32  
DQ33  
DQ34  
DQ35  
VDD  
CKE0  
CS3  
3
CS2  
4
DQMB2  
DQMB3  
DU  
DQMB6  
DQMB7  
N.C.  
5
6
7
DQ4  
DQ5  
DQ6  
DQ7  
DQ8  
VSS  
VDD  
DQ36  
DQ37  
DQ38  
DQ39  
DQ40  
VSS  
VDD  
8
N.C.  
N.C.  
9
N.C.  
N.C.  
10  
11  
12  
13  
14  
15  
16  
N.C. (CB2)  
N.C. (CB3)  
VSS  
CB6  
CB7  
VSS  
DQ9  
DQ10  
DQ11  
DQ12  
DQ16  
DQ17  
DQ18  
DQ19  
DQ41  
DQ42  
DQ43  
DQ44  
DQ48  
DQ49  
DQ50  
DQ51  
Data Book  
3
12.99  
HYS 64/72V8300/16220GU  
SDRAM-Modules  
Pin Configuration (cont’d)  
PIN# Symbol PIN# Symbol  
PIN# Symbol  
PIN# Symbol  
17  
18  
19  
20  
21  
22  
23  
24  
25  
26  
27  
28  
29  
30  
31  
32  
33  
34  
35  
36  
37  
38  
39  
40  
41  
42  
DQ13  
VDD  
59  
60  
61  
62  
63  
64  
65  
66  
67  
68  
69  
70  
71  
72  
73  
74  
75  
76  
77  
78  
79  
80  
81  
82  
83  
84  
VDD  
101  
102  
103  
104  
105  
106  
107  
108  
109  
110  
111  
112  
113  
114  
115  
116  
117  
118  
119  
120  
121  
122  
123  
124  
125  
126  
DQ45  
VDD  
143  
144  
145  
146  
147  
148  
149  
150  
151  
152  
153  
154  
155  
156  
157  
158  
159  
160  
161  
162  
163  
164  
165  
166  
167  
168  
VDD  
DQ20  
N.C.  
DQ52  
N.C.  
DU  
DQ14  
DQ15  
N.C. (CB0)  
N.C. (CB1)  
VSS  
DQ46  
DQ47  
N.C. (CB4)  
N.C. (CB5)  
VSS  
DU  
CKE1  
VSS  
N.C.  
VSS  
DQ21  
DQ22  
DQ23  
VSS  
DQ53  
DQ54  
DQ55  
VSS  
N.C.  
N.C.  
VDD  
N.C.  
N.C.  
VDD  
WE  
DQ24  
DQ25  
DQ26  
DQ27  
VDD  
CAS  
DQMB4  
DQMB5  
CS1  
DQ56  
DQ57  
DQ58  
DQ59  
VDD  
DQMB0  
DQMB1  
CS0  
DU  
RAS  
VSS  
VSS  
DQ28  
DQ29  
DQ30  
DQ31  
VSS  
DQ60  
DQ61  
DQ62  
DQ63  
VSS  
A0  
A1  
A2  
A3  
A4  
A5  
A6  
A7  
A8  
CLK2  
N.C.  
A9  
CLK3  
N.C.  
SA0  
A10  
BA0  
BA1  
WP  
A11  
VDD  
SDA  
SCL  
VDD  
SA1  
VDD  
CLK1  
N.C.  
SA2  
CLK0  
VDD  
VDD  
Note: Pin names in parentheses are for the x72 ECC versions; example: Pin 106 = (CB5).  
Data Book  
4
12.99  
HYS 64/72V8300/16220GU  
SDRAM-Modules  
WE  
CS0  
CS  
DQM  
WE  
CS  
DQM  
WE  
DQMB0  
DQ(7:0)  
DQMB4  
DQ0-DQ7  
DQ(39:32)  
DQ0-DQ7  
D0  
D4  
CS  
DQM  
WE  
CS  
DQM  
WE  
DQMB1  
DQMB5  
DQ(15:8)  
DQ0-DQ7  
DQ(47:40)  
DQ0-DQ7  
D1  
D5  
CS  
WE  
DQM  
CB(7:0)  
CS2  
DQ0-DQ7  
D8  
CS  
DQM  
WE  
CS  
DQM  
WE  
DQMB2  
DQMB6  
DQ(23:16)  
DQ0-DQ7  
DQ(55:48)  
DQ0-DQ7  
D2  
D6  
CS  
DQM  
WE  
CS  
DQM  
WE  
DQMB3  
DQMB7  
DQ(31:24)  
DQ0-DQ7  
DQ(63:56)  
DQ0-DQ7  
D3  
D7  
A0-A11, BA0, BA1  
VCC  
D0-D7, (D8)  
D0-D7, (D8)  
D0-D7, (D8)  
D0-D7, (D8)  
D0-D7, (D8)  
D0-D7, (D8)  
E2PROM (256 word x 8 Bit)  
SA0  
SA0  
SA1  
SA2  
SCL  
SA1  
SA2  
SCL  
SDA  
WP  
C0-C15, (C16, C17)  
VSS  
47 k  
RAS  
CAS  
CKE0  
Clock Wiring  
8 M x 64  
8 M x 72  
5 SDRAM  
CLK0  
4 SDRAM + 3.3 pF  
Termination  
CLK1  
CLK2  
CLK3  
Termination  
4 SDRAM + 3.3 pF  
Termination  
4 SDRAM + 3.3 pF  
Termination  
Note: D8 is only used in the x72 ECC version.  
SPB03958  
Block Diagram for 8M × 64/72 SDRAM DIMM Modules (HYS 64/72V8300GU)  
Data Book  
5
12.99  
HYS 64/72V8300/16220GU  
SDRAM-Modules  
CS1  
CS0  
CS  
CS  
CS  
CS  
DQMB0  
DQ(7:0)  
DQM  
DQM  
DQMB4  
DQM  
DQM  
DQ0-DQ7  
DQ0-DQ7  
DQ(39:32)  
DQ0-DQ7  
DQ0-DQ7  
D0  
D1  
D8  
D9  
D4  
D5  
D12  
D13  
CS  
CS  
CS  
CS  
DQMB1  
DQM  
DQM  
DQMB5  
DQM  
DQM  
DQ(15:8)  
DQ0-DQ7  
DQ0-DQ7  
DQ(47:40)  
DQ0-DQ7  
DQ0-DQ7  
CS  
CS  
DQM  
DQM  
DQ0-DQ7  
CB(7:0)  
DQ0-DQ7  
D16  
D17  
CS3  
CS2  
CS  
CS  
CS  
CS  
DQMB2  
DQM  
DQM  
DQMB6  
DQM  
DQM  
DQ(23:16)  
DQ0-DQ7  
DQ0-DQ7  
DQ(55:48)  
DQ0-DQ7  
DQ0-DQ7  
D2  
D3  
D10  
D11  
D6  
D7  
D14  
D15  
CS  
CS  
CS  
CS  
DQMB3  
DQM  
DQM  
DQMB7  
DQM  
DQM  
DQ(31:24)  
DQ0-DQ7  
DQ0-DQ7  
DQ(63:56)  
DQ0-DQ7  
DQ0-DQ7  
A0-A11, BA0, BA1  
VDD  
D0-D15, (D16, D17)  
D0-D15, (D16, D17)  
D0-D7, (D8)  
E2PROM (256 Word x 8 Bit)  
SA0  
SA0  
SA1  
SA2  
SCL  
SA1  
SA2  
SCL  
SDA  
WP  
C0-C31, (C32...C35)  
VSS  
47 k  
RAS, CAS, WE  
CKE0  
D0-D15, (D16, D17)  
D0-D7, (D16)  
Clock Wiring  
16 M x 64  
VDD  
10 k  
16 M x 72  
5 SDRAM  
5 SDRAM  
4 SDRAM + 3.3 pF  
4 SDRAM + 3.3 pF  
CLK0  
4 SDRAM + 3.3 pF  
4 SDRAM + 3.3 pF  
4 SDRAM + 3.3 pF  
4 SDRAM + 3.3 pF  
CLK1  
CLK2  
CLK3  
CKE1  
D9-D15, (D17)  
SPB03769  
Note: D16 & D17 is only used in the x72 ECC version and all resistor values are 10 except otherwise noted.  
Block Diagram for 16M × 64/72 SDRAM DIMM Modules (HYS 64/72V16220GU)  
Data Book  
6
12.99  
HYS 64/72V8300/16220GU  
SDRAM-Modules  
DC Characteristics  
TA = 0 to 70 °C; VSS = 0 V; VDD,VDDQ = 3.3 V ±0.3 V  
Parameter  
Symbol  
Limit Values  
max.  
Unit  
min.  
2.0  
–0.5  
2.4  
Input High Voltage  
VIH  
V
DD + 0.3  
V
Input Low Voltage  
VIL  
0.8  
V
Output High Voltage (IOUT = – 4.0 mA)  
Output Low Voltage (IOUT = 4.0 mA)  
VOH  
VOL  
II(L)  
V
0.4  
40  
V
Input Leakage Current, any input  
–40  
µA  
(0 V < VIN < 3.6 V, all other inputs = 0 V)  
Output Leakage Current  
IO(L)  
–40  
40  
µA  
(DQ is disabled, 0 V < VOUT < VDD)  
Capacitance  
TA = 0 to 70 °C; VDD = 3.3 V ±0.3 V, f = 1 MHz  
Parameter  
Symbol  
Limit Values  
max. max.  
8M × 64 8M × 72 16M × 64 16M × 72  
Unit  
max.  
max.  
Input Capacitance  
CI1  
65  
72  
105  
144  
pF  
(A0 to A11, BA0, BA1, RAS, CAS, WE)  
Input Capacitance (CS0 - CS3)  
Input Capacitance (CLK0 - CLK3)  
Input Capacitance (CKE0, CKE1)  
CCS  
32  
38  
65  
13  
10  
40  
40  
72  
13  
10  
32  
40  
65  
20  
17  
40  
43  
72  
20  
17  
pF  
pF  
pF  
pF  
pF  
CCLK  
CCKE  
Input Capacitance (DQMB0 - DQMB7) CI4  
Input/Output Capacitance  
(DQ0 - DQ63, CB0 - CB7)  
CIO  
Input Capacitance (SCL, SA0-2)  
Input/Output Capacitance  
CSC  
CSD  
8
8
8
8
8
8
8
8
pF  
pF  
Data Book  
7
12.99  
HYS 64/72V8300/16220GU  
SDRAM-Modules  
Operating Currents per SDRAM Component 1)  
TA = 0 to 70 oC, VDD = 3.3 V ±0.3 V  
(Recommended Operating Conditions unless otherwise noted)  
Parameter  
Test  
Symbol -7.5  
-8  
Unit Note  
Condition  
max.  
1)  
Operating Current  
ICC1  
120  
110  
mA  
tRC = tRCMIN., tCK = tCKMIN.  
Outputs open, Burst Length = 4, CL = 3  
All banks operated in random access,  
all banks operated in ping-pong manner  
to maximize gapless data access  
1)  
Precharge Standby Current  
in Power Down Mode  
t
CK = min.  
ICC2P  
2
2
mA  
1)  
tCK = Infinity  
ICC2PS  
1.5  
1.5  
mA  
CS = VIH (min.), CKE VIL(MAX)  
1)  
Precharge Stand-by Current  
in Non-Power Down Mode  
t
CK = min.  
ICC2N  
40  
15  
35  
15  
mA  
1)  
tCK = Infinity  
ICC2NS  
mA  
CS = VIH (MIN.), CKE VIH(MIN)  
1)  
No Operating Current  
CKE VIH(MIN.) ICC3N  
CKE VIL(MAX.) ICC3P  
50  
8
45  
8
mA  
1)  
mA  
tCK = min., CS = VIH(MIN),  
active state (max. 4 banks)  
1), 2)  
Burst Operating Current  
ICC4  
ICC5  
ICC6  
80  
140  
1
70  
130  
1
mA  
tCK = min.,  
Read command cycling  
1)  
Auto-Refresh Current  
mA  
tCK = min.,  
Auto-Refresh command cycling  
1)  
Self-Refresh Current  
mA  
Self-Refresh Mode, CKE = 0.2 V  
Data Book  
8
12.99  
HYS 64/72V8300/16220GU  
SDRAM-Modules  
3), 4)  
AC Characteristics  
TA = 0 to 70 °C; VSS = 0 V; VDD = 3.3 V ±0.3 V, tT = 1 ns  
Parameter  
Symbol  
Limit Values  
Unit Note  
-7.5  
-8  
PC133-333  
PC100-222  
min.  
max.  
min.  
max.  
Clock and Access Time  
Clock Cycle Time  
CAS Latency = 3  
CAS Latency = 2  
tCK  
fCK  
tAC  
7.5  
10  
10  
10  
ns  
ns  
System Frequency  
CAS Latency = 3  
CAS Latency = 2  
MHz  
133  
100  
100  
100  
MHz  
4), 5)  
Clock Access Time  
CAS Latency = 3  
CAS Latency = 2  
5.4  
6
6
6
ns  
ns  
6)  
Clock High Pulse Width  
Clock Low Pulse Width  
tCH  
tCL  
2.5  
2.5  
3
3
ns  
6)  
ns  
Setup & Hold Parameters  
Input Setup Time  
7)  
tIS  
1.5  
0.8  
1
2
1
1
2
1
1
ns  
7)  
Input Hold Time  
tIH  
tSB  
ns  
8)  
Power Down Mode Entry Time  
CLK  
9)  
Power Down Mode Exit Setup Time tPDE  
1
CLK  
Mode Register Setup Time  
Transition Time (rise and fall)  
tRSC  
tT  
2
CLK  
1
ns  
Common Parameters  
RAS to CAS Delay  
Precharge Time  
tRCD  
tRP  
tRAS  
tRC  
20  
20  
45  
67.5  
15  
1
20  
20  
50  
70  
16  
1
ns  
ns  
Active Command Period  
Cycle Time  
100k  
100k  
ns  
ns  
Bank-to-Bank Delay Time  
tRRD  
ns  
CAS to CAS Delay Time (same bank) tCCD  
CLK  
Data Book  
9
12.99  
HYS 64/72V8300/16220GU  
SDRAM-Modules  
AC Characteristics (cont’d) 3), 4)  
TA = 0 to 70 °C; VSS = 0 V; VDD = 3.3 V ±0.3 V, tT = 1 ns  
Parameter  
Symbol  
Limit Values  
Unit Note  
-7.5  
-8  
PC133-333  
PC100-222  
min.  
max.  
min.  
max.  
Refresh Cycle  
Refresh Period (4096 cycles)  
Self-Refresh Exit Time  
tREF  
1
64  
1
64  
ms  
10)  
tSREX  
CLK  
Read Cycle  
4)  
Data Out Hold Time  
tOH  
tLZ  
3
0
3
7
2
3
0
3
8
2
ns  
Data Out to Low Impedance  
Data Out to High Impedance  
DQM Data Out Disable Latency  
ns  
11  
tHZ  
ns  
tDQZ  
CLK  
Write Cycle  
Data Input to Precharge  
(write recovery)  
tWR  
2
0
2
0
CLK  
CLK  
DQM Write Mask Latency  
tDQW  
Data Book  
10  
12.99  
HYS 64/72V8300/16220GU  
SDRAM-Modules  
Notes  
1. These parameters depend on the cycle rate. These values are measured at 133 MHz for -7.5  
modules and at 100 Mhz for -8 modules. Input signals are changed once during tCK, except for  
I
CC6 and for standby currents when tCK = infinity. All values are shown per memory component.  
2. These parameters are measured with continuous data stream during read access and all DQ  
toggling. CL = 3 and BL = 4 assumed and the VDDQ current is excluded.  
3. All AC characteristics are shown on SDRAM component level.  
An initial pause of 100 µs is required after power-up, then a Precharge All Banks command must  
be given followed by eight Auto-Refresh (CBR) cycles before the Mode Register Set Operation  
can begin.  
4. AC timing tests have VIL = 0.4 V and VIH = 2.4 V with the timing referenced to the 1.4 V crossover  
point. The transition time is measured between VIH and VIL. All AC measurements assume  
tT = 1 ns with the AC output load circuit show. Specified tAC and tOH parameters are measured  
with a 50 pF only, without any resistive termination and with a input signal of 1 V/ns edge rate  
between 0.8 V and 2.0 V.  
5. If clock rising time is longer than 1 ns, a time (tT/2 – 0.5) ns must be added to this parameter.  
6. Rated at 1.4 V  
7. If tT is longer than 1 ns, a time (tT – 1) ns has to be added to this parameter.  
8. Anytime the Refresh Period has been exceeded, a minimum of two Auto-Refresh (CBR)  
commands must be given to “wake-up” the device.  
9. Timing is asynchronous. If setup time is not met by rising edge of the clock then the CKE signal  
is assumed latched on the next cycle.  
10.Self-Refresh Exit is a synchronous operation and begins on the second positive clock edge after  
CKE returns high. Self-Refresh Exit is not complete until a time period equal to tRC is satisfied  
after the Self Refresh Exit command is registered.  
11.This is referenced to the time at which the output achieves the open circuit condition, not to  
output voltage levels.  
tCH  
2.4 V  
0.4 V  
CLOCK  
tT  
tCL  
tHOLD  
tSETUP  
INPUT  
1.4 V  
tAC  
tAC  
tLZ  
tOH  
I/O  
OUTPUT  
1.4 V  
50 pF  
tHZ  
Measurement conditions for  
AC and tOH  
SPT03404  
t
A Serial Presence Detect storage device—E2PROM—is assembled onto the module. Information  
about the module configuration, speed, etc. is written into the E2PROM device during module  
production using a Serial Presence Detect protocol (I2C synchronous 2-wire bus).  
Data Book  
11  
12.99  
HYS 64/72V8300/16220GU  
SDRAM-Modules  
SPD-Table for PC133 Modules  
Byte# Description  
SPD Entry Value  
Hex  
8M × 64 8M × 72 16M × 64 16M × 72  
-7.5  
80  
-7.5  
80  
-7.5  
80  
-7.5  
80  
0
1
2
3
Number of SPD Bytes  
Total Bytes in Serial PD  
Memory Type  
128  
256  
08  
08  
08  
08  
SDRAM  
04  
04  
04  
04  
Number of Row Addresses 12  
(without BS bits)  
0C  
0C  
0C  
0C  
4
Number of Column  
Addresses  
9
09  
09  
09  
09  
5
6
7
8
9
Number of DIMM Banks  
Module Data Width  
1/2  
01  
40  
00  
01  
75  
01  
48  
00  
01  
75  
02  
40  
00  
01  
75  
02  
48  
00  
01  
75  
64/72  
Module Data Width (cont’d) 0  
Module Interface Levels  
SDRAM Cycle Time at  
CL = 3  
LVTTL  
7.5 ns  
10  
SDRAM Access time from  
Clock at CL = 3  
5.4 ns  
54  
54  
54  
54  
11  
12  
Dimm Config  
none/ECC  
Self-Refresh,  
15.6 µs  
x8  
00  
80  
02  
80  
00  
80  
02  
80  
Refresh Rate/Type  
13  
14  
SDRAM Width, primary  
Error Checking SDRAM  
data width  
08  
00  
08  
08  
08  
00  
08  
08  
n/a/x8  
15  
16  
Minimum Clock Delay for  
Back-to-Back Random  
Column Address  
t
CCD = 1 CLK  
01  
01  
8F  
01  
8F  
01  
8F  
Burst Length supported  
1, 2, 4, 8 & full  
page  
8F  
04  
17  
18  
Number of SDRAM Banks  
Supported CAS Latencies  
4
04  
06  
04  
06  
04  
06  
CAS latency = 2 06  
& 3  
19  
20  
21  
CS Latencies  
CS latency = 0  
01  
01  
01  
00  
01  
01  
00  
01  
01  
00  
WE Latencies  
Write latency = 0 01  
non buffered/non 00  
reg.  
SDRAM DIMM Module  
Attributes  
22  
23  
24  
SDRAM Device Attributes  
General  
V
DD tol ±10%  
0E  
A0  
60  
0E  
A0  
60  
0E  
A0  
60  
0E  
A0  
60  
Min. Clock Cycle Time at  
CAS Latency = 2  
Max. Data Access Time  
from Clock for CL = 2  
10.0 ns  
6.0 ns  
Data Book  
12  
12.99  
HYS 64/72V8300/16220GU  
SDRAM-Modules  
SPD-Table for PC133 Modules (cont’d)  
Byte# Description SPD Entry Value  
Hex  
8M × 64 8M × 72 16M × 64 16M × 72  
-7.5  
-7.5  
-7.5  
-7.5  
25  
26  
27  
28  
29  
30  
31  
Minimum Clock Cycle Time not supported  
at CL = 1  
FF  
FF  
FF  
FF  
Maximum Data Access  
Time from Clock at CL = 1  
Minimum Row Precharge  
Time  
not supported  
20 ns  
FF  
14  
0F  
14  
2D  
10  
FF  
14  
0F  
14  
2D  
10  
FF  
14  
0F  
14  
2D  
10  
FF  
14  
0F  
14  
2D  
10  
Minimum Row Active to  
Row Active delay tRRD  
Minimum RAS to CAS  
Delay tRCD  
15  
20 ns  
Minimum RAS Pulse Width 45 ns  
tRAS  
Module Bank Density (per  
bank)  
64 MByte  
32  
33  
34  
SDRAM Input Setup Time 1.5 ns  
15  
08  
15  
15  
08  
15  
15  
08  
15  
15  
08  
15  
SDRAM Input Hold Time  
SDRAM Data Input Hold  
Time  
0.8 ns  
1.5 ns  
35  
SDRAM Data Input Setup  
Time  
0.8 ns  
08  
08  
08  
08  
62-61 Superset Information (may  
be used in future)  
FF  
FF  
FF  
FF  
62  
63  
SPD Revision  
Revision 1.2  
12  
82  
XX  
64  
AD  
FF  
12  
94  
XX  
64  
AD  
FF  
12  
83  
XX  
64  
FD  
FF  
12  
95  
XX  
64  
FD  
FF  
Checksum for Bytes 0 - 62  
64-125 Manufacturers Information  
126  
Frequency Specification  
Support Details  
127  
128+  
Unused Storage Locations  
Data Book  
13  
12.99  
HYS 64/72V8300/16220GU  
SDRAM-Modules  
SPD-Table for PC100 Modules  
Byte# Description  
SPD Entry Value  
Hex  
8M × 64 8M × 72 16M × 64 16M × 72  
-8  
-8  
-8  
-8  
0
1
2
3
Number of SPD Bytes  
Total Bytes in Serial PD  
Memory Type  
128  
80  
08  
04  
0C  
80  
08  
04  
0C  
80  
08  
04  
0C  
80  
08  
04  
0C  
256  
SDRAM  
Number of Row Addresses 12  
(without BS bits)  
4
Number of Column  
Addresses  
9
09  
09  
09  
09  
5
6
7
8
9
Number of DIMM Banks  
Module Data Width  
1/2  
01  
40  
00  
01  
A0  
01  
48  
00  
01  
A0  
02  
40  
00  
01  
A0  
02  
48  
00  
01  
A0  
64/72  
Module Data Width (cont’d) 0  
Module Interface Levels  
SDRAM Cycle Time at  
CL = 3  
LVTTL  
10.0 ns  
10  
SDRAM Access time from  
Clock at CL = 3  
6.0 ns  
60  
60  
60  
60  
11  
12  
Dimm Config  
none/ECC  
Self-Refresh,  
15.6 µs  
x8  
00  
80  
02  
80  
00  
80  
02  
80  
Refresh Rate/Type  
13  
14  
SDRAM Width, primary  
Error Checking SDRAM  
Data Width  
08  
00  
08  
08  
08  
00  
08  
08  
n/a/x8  
15  
16  
Minimum Clock Delay for  
Back-to-Back Random  
Column Address  
t
CCD = 1 CLK  
01  
01  
8F  
01  
8F  
01  
8F  
Burst Length Supported  
1, 2, 4, 8 & full  
page  
8F  
04  
17  
18  
Number of SDRAM Banks  
4
04  
06  
04  
06  
04  
06  
Supported CAS Latencies CASlatency = 2& 06  
3
19  
20  
21  
CS Latencies  
CS latency = 0  
01  
01  
01  
00  
01  
01  
00  
01  
01  
00  
WE Latencies  
Write latency = 0 01  
non buffered/non 00  
reg.  
SDRAM DIMM Module  
Attributes  
22  
23  
24  
SDRAM Device Attributes  
General  
V
DD tol ±10%  
0E  
A0  
60  
0E  
A0  
60  
0E  
A0  
60  
0E  
A0  
60  
Min. Clock Cycle Time at  
CAS Latency = 2  
Max. Data Access Time  
from Clock for CL = 2  
10.0/12.0 ns  
6.0/7.0 ns  
Data Book  
14  
12.99  
HYS 64/72V8300/16220GU  
SDRAM-Modules  
SPD-Table for PC100 Modules  
Byte# Description  
SPD Entry Value  
Hex  
8M × 64 8M × 72 16M × 64 16M × 72  
-8  
-8  
-8  
-8  
25  
26  
27  
28  
29  
30  
31  
Minimum Clock Cycle Time not supported  
at CL = 1  
FF  
FF  
FF  
FF  
Maximum Data Access  
Time from Clock at CL = 1  
Minimum Row Precharge  
Time  
not supported  
20/30 ns  
16/20 ns  
20 ns  
FF  
14  
10  
14  
2D  
10  
FF  
14  
10  
14  
2D  
10  
FF  
14  
10  
14  
2D  
10  
FF  
14  
10  
14  
2D  
10  
Minimum Row Active to  
Row Active delay tRRD  
Minimum RAS to CAS  
delay tRCD  
Minimum RAS Pulse Width 45 ns  
tRAS  
Module Bank Density  
(per bank)  
64 MByte  
32  
33  
34  
SDRAM Input Setup Time 2 ns  
20  
10  
20  
20  
10  
20  
20  
10  
20  
20  
10  
20  
SDRAM Input Hold Time  
SDRAM Data Input Hold  
Time  
1 ns  
2 ns  
35  
SDRAM Data Input Setup 1 ns  
Time  
10  
10  
10  
10  
62-61 Superset Information (may  
be used in future)  
FF  
FF  
FF  
FF  
62  
63  
SPD Revision  
Revision 1.2  
12  
E0  
XX  
64  
AF  
FF  
12  
F2  
XX  
64  
AF  
FF  
12  
E1  
XX  
64  
FF  
FF  
12  
F3  
XX  
64  
FF  
FF  
Checksum for Bytes 0 - 62  
64-125 Manufacturers Information  
126  
Frequency Specification  
100 MHz Support Details  
Unused Storage Locations  
100 MHz  
127  
128+  
Data Book  
15  
12.99  
HYS 64/72V8300/16220GU  
SDRAM-Modules  
Package Outlines  
L-DIM-168-30  
SDRAM DIMM Module Package  
HYS 64/72V16220GU  
133.35  
127.35  
4
*)  
1
10  
11  
6.35  
40  
41  
6.35  
84  
1.27±  
0.1  
3
1.27  
42.18  
91 x 1.27 = 115.57  
124 125  
2
85 94  
95  
168  
*)  
R1.27+0.1  
3 min.  
2.26  
Detail of Contacts  
*) on ECC modules only  
1±  
0.05  
1.27  
GLD09159  
Sorts of Packing  
Package outlines for tubes, trays etc. are contained in our  
Data Book “Package Information”.  
Dimensions in mm  
Data Book  
16  
12.99  
HYS 64/72V8300/16220GU  
SDRAM-Modules  
L-DIM-168-33  
SDRAM DIMM Module Package  
HYS 64/72V8300GU  
133,35  
127,35  
3 max.  
x)  
+ 0.1  
1,27  
1
10 11  
66,68  
94 95  
40 41  
-
84  
42,18  
85  
124  
125  
168  
2
x) on ECC modules only  
Details of Contacts  
DM168-33.WMF  
-
+
1- 0,05  
1,27  
Sorts of Packing  
Package outlines for tubes, trays etc. are contained in our  
Data Book “Package Information”.  
Dimensions in mm  
12.99  
Data Book  
17  
CODES FOR DIE REVISION  
ON COMPONENTS AND DIMM MODULES  
Introduction of Module Partnumber Extensions  
and “functional label”  
NEW MODULE LABELS WITH INFINEON LOGO  
MP TM, May. 2000  
Rev. 1.3  
Weidlich, MP TM  
Memory Products Division  
Always a step ahead  
Weidlich, HL MP TM  
Aprl99MODULE_LABEL_generic.DOC/2  
Component Partnumber, Die Rev. Indicators, Module Partnumber Extensions  
for INFINEON SDRAM COMPONENTS & MODULE PRODUCTS:  
64M-SDRAM:  
Generation  
Die Rev. Indicator  
Component Partnumber  
Module Partnumber  
Extension  
(for new module labels)  
S24  
S20  
S19  
S17  
S17N  
A”  
“B”  
“C”  
“D  
HYB39S64xxxAT-x  
HYB39S64xxxBT-x  
HYB39S64xxxCT-x  
HYB39S64xxxDT-x  
HYB39S64xxxET-x  
-A  
-B  
-C  
-D  
-E  
“E”  
256M-SDRAM:  
S20  
S19  
S17  
S14  
A”  
“B”  
“C2”  
“D  
HYB39S256xxxT-x  
HYB39S256xxxAT-x  
HYB39S256xxxCT-x  
HYB39S256xxxDT-x  
-A  
-B  
-C2  
-D  
*)  
*)  
**)  
*) since the Baunumbers are allready fixed, we have to live with this inconsistancy  
**) starting with Step DD3D  
128M-SDRAM:  
S17  
“C2”  
HYB39S128xxxCT-x  
“C2”  
*)  
*) starting with Step DD2B  
Memory Products Division  
Always a step ahead  
Weidlich, HL MP TM  
Aprl99MODULE_LABEL_generic.DOC/3  
Component Partnumber, Die Rev. Indicators, Module Partnumber Extensions  
for INFINEON SDRAM COMPONENTS & MODULE PRODUCTS (cont’d):  
256M-DDR-SDRAM:  
D17 (ASTC)  
D17 (WOS)  
D14  
none  
A”  
“B”  
HYB25D256xxxT-x  
HYB25D256xxxAT-x  
HYB25D256xxxBT-x  
none  
A”  
“B”  
Memory Products Division  
Always a step ahead  
Weidlich, HL MP TM  
Aprl99MODULE_LABEL_generic.DOC/4  
What is the partnumber and the partnumber extension ?  
· The current partnumbers for SDRAM modules do not show any indicator for the die  
revision of the SDRAM components.  
· A partnumber extension has been added to indicate the die revision of the used  
components on the SDRAM modules  
· The partnumber extensions consists of 3 digits, beginning with a “dash” and two  
alphanumerics, the “die revision indicator”.  
· The nomenclature of the die shrink indicator can be seen in the next foil for all  
SDRAM products.  
· On all INFINEON SDRAM DIMM module datasheets the following note on page 2  
has been added:  
All part numbers end with a place code (not shown), designating the die revision. Consult factory for current  
revision. Example: HYS72V16220GU-7.5-B, indicating Rev.B dies are used for SDRAM components.”  
Example:  
HYS72V16220GU-7.5 –B  
Partnumber  
Extension  
Partnumbe  
r
Memory Products Division  
Always a step ahead  
Weidlich, HL MP TM  
Aprl99MODULE_LABEL_generic.DOC/5  
NEW LABELS (starting from Nov.’99)  
64M-SDRAM BASED MODULES  
IDENTIFICATION OF DIE SHRINKS, PCB BOARD REVISION & MANUFACTURER  
Example:  
HYS72V16220GU-8-B 16Mx72 SDRAM  
B22xxxxxxx  
Assembled in Germany  
128MB, SYNC, 100 MHz, CL2, ECC  
PC100-222-620  
“Functional Label  
Module Manufacturer  
2 = SIEMENS EWK  
5 = SMART (UK)  
4 = OPTOSYS  
6 = SMART (USA)  
7 = STATSYM  
8 = EEMS  
A = CELESTICA  
S = DRESDEN  
V = PORTO  
R = Regensburg  
W= White OAK  
Designstep of 64M SDRAM:  
A = S24  
PCB board revision:  
1 = first  
B = S20  
C = S19  
D = S17  
2 =second etc.  
9 = KINGSTON  
Memory Products Division  
Always a step ahead  
Weidlich, HL MP TM  
Aprl99MODULE_LABEL_generic.DOC/6  
NEW 256Mbit based SDRAM MODULE LABELS:  
EXAMPLE : 512MByte unbuffered PC100 CL 323 DIMM Module based on S20 256Mbit SDRAM  
HYS72V64220GU-8B-A 64Mx72 SDRAM  
New labels  
A2299201222  
Assembled in Germany  
512MB, SYNC, 100 MHz, CL3, ECC  
PC100-323-620  
“Functional Label  
Module Manufacturer  
Designstep of 256M SDRAM:  
A = S20  
PCB board revision:  
1 = first  
2 = SIEMENS EWK  
5 = SMART (UK)  
4 = OPTOSYS  
6 = SMART (USA)  
7 = STATSYM  
8 = EEMS  
A = CELESTICA  
S = DRESDEN  
V = PORTO  
R = Regensburg  
W= White OAK  
B = S19  
C = S17  
D = S15  
2 =second etc.  
9 = KINGSTON  
Memory Products Division  
Always a step ahead  
Weidlich, HL MP TM  
Aprl99MODULE_LABEL_generic.DOC/7  

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