Siemens HYM72V4005GS-50 4m x 72-bit edo-dram module Datasheet

4M × 72-Bit EDO-DRAM Module
(ECC - Module)
HYM 72V4005GS-50/-60
HYM 72V4015GS-50/-60
168 pin buffered DIMM Module
•
168 Pin JEDEC Standard, Buffered 8 Byte Dual In-Line Memory Module
for PC main memory applications
•
1 bank 4M x 72 organisation
•
Optimized for ECC applications
•
Extended Data Out (EDO)
•
Performance:
-50
-60
tRAC
RAS Access Time
50 ns
60 ns
tCAC
CAS Access Time
18 ns
20 ns
tAA
Access Time from Address
30 ns
35 ns
tRC
Cycle Time
84 ns
104 ns
tHPC
EDO Mode Cycle Time
20 ns
25 ns
•
Single + 3.3V (± 0.3V) supply
•
CAS-before-RAS refresh, RAS-only-refresh
•
Decoupling capacitors mounted on substrate
•
All inputs, outputs and clock fully LVTTL & LVCMOS compatible
•
4 Byte interleave enabled, Dual Address inputs (A0/B0)
•
Buffered inputs excepts RAS and DQ
•
Parallel Presence detects
•
Utilizes eighteen 4M × 4 -DRAMs and four BiCMOS buffers/line drivers
•
Two versions : HYM 72V4005GS with TSOPII-components (4 mm thickness)
HYM 72V4015GS with SOJ-components (9 mm thickness)
•
4096 refresh cycles / 64 ms with 12 / 10 addressing
•
Gold contact pad
•
Double sided module with 25.35 mm (1000 mil) height
Semiconductor Group
1
5.96
HYM72V4005/15GS-50/-60
4M x 72-ECC EDO-Module
The HYM 72V4005/15GS-50/-60 is a 32 MByte DRAM module organized as 4 194 430 words by 72bit in a 168-pin, dual read-out, single-in-line package comprising eighteen HYB 3116405BT/BJ
4M × 4 DRAMs in 300 mil wide TSOPII or SOJ- packages mounted together with ceramic
decoupling capacitors on a PC board. All inputs except RAS and DQ are buffered by using four
BiCMOS buffers/line drivers.
Each HYB 3116405BT/BJ is described in the data sheet and is fully electrically tested and
processed according to Siemens standard quality procedure prior to module assembly. After
assembly onto the board, a further set of electrical tests is performed.
The density and speed of the module can be detected by the use of presence detect pins.
Ordering Information
Type
Ordering Code
Package
Descriptions
HYM 72V4005GS-50
L-DIM-168-5
3.3V 50ns EDO-DRAM module
HYM 72V4005GS-60
L-DIM-168-5
3.3V 60ns EDO-DRAM module
HYM 72V4015GS-50
L-DIM-168-5
3.3V 50ns EDO-DRAM module
HYM 72V4015GS-60
L-DIM-168-5
3.3V 60ns EDO-DRAM module
Pin Names
A0-A11,B0
DQ0 - DQ71
RAS0, RAS2
CAS0 , CAS4
WE0, WE2
OE0, OE2
Vcc
Vss
PD1 - PD8
PDE
ID0 , ID1
N.C.
Address Input
Data Input/Output
Row Address Strobe
Column Address Strobe
Read / Write Input
Output Enable
Power (+3.3 Volt)
Ground
Presence Detect Pins
Presence Detect Enable
ID indentification bit
No Connection
Presence-Detect and ID-pin Truth Table:
Module
ID0
ID1
PD1
PD2
PD3
PD4
PD5
PD6
PD7
PD8
HYM 72V4005/15GS-50 Vss
Vss
1
1
0
1
1
0
0
0
HYM 72V4005/15GS-60 Vss
Vss
1
1
0
1
1
1
1
0
Note: 1 = High Level ( Driver Output) , 0 = Low Level (Driver Output) for PDE active ( ground) . For PDE at a high
level all PD terminal are in tri-state.
Semiconductor Group
2
HYM72V4005/15GS-50/-60
4M x 72-ECC EDO-Module
Pin Configuration
PIN #
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
Symbol
VSS
DQ0
DQ1
DQ2
DQ3
VCC
DQ4
DQ5
DQ6
DQ7
DQ8
VSS
DQ9
DQ10
DQ11
DQ12
DQ13
VCC
DQ14
DQ15
DQ16
DQ17
VSS
NC
NC
VCC
WE0
CAS0
NC
RAS0
OE0
VSS
A0
A2
A4
A6
A8
A10
NC
VCC
NC
NC
Semiconductor Group
PIN #
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
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
Symbol
PIN #
VSS
OE2
RAS2
CAS4
NC
WE2
VCC
NC
NC
DQ18
DQ19
VSS
DQ20
DQ21
DQ22
DQ23
VCC
DQ24
NC
NC
NC
NC
DQ25
DQ26
DQ27
VSS
DQ28
DQ29
DQ30
DQ31
VCC
DQ32
DQ33
DQ34
DQ35
VSS
PD1
PD3
PD5
PD7
ID0 (VSS)
VCC
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
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
3
Symbol
VSS
DQ36
DQ37
DQ38
DQ39
VCC
DQ40
DQ41
DQ42
DQ43
DQ44
VSS
DQ45
DQ46
DQ47
DQ48
DQ49
VCC
DQ50
DQ51
DQ52
DQ53
VSS
NC
NC
VCC
NC
NC
NC
NC
NC
VSS
A1
A3
A5
A7
A9
A11
NC
VCC
NC
B0
PIN #
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
Symbol
VSS
NC
NC
NC
NC
PDE
VCC
NC
NC
DQ54
DQ55
VSS
DQ56
DQ57
DQ58
DQ59
VCC
DQ60
NC
NC
NC
NC
DQ61
DQ62
DQ63
VSS
DQ64
DQ65
DQ66
DQ67
VCC
DQ68
DQ69
DQ70
DQ71
VSS
PD2
PD4
PD6
PD8
ID1 (VSS)
VCC
HYM72V4005/15GS-50/-60
4M x 72-ECC EDO-Module
RAS0
CAS0
RAS2
CAS4
WE0
OE0
WE2
OE2
DQ0-DQ3
DQ36-DQ39
I/O1-I/O4
I/O1-I/O4
D0
DQ4-DQ7
D9
I/O1-I/O4
I/O1-I/O4
DQ40-DQ43
D1
DQ8-DQ11
D10
I/O1-I/O4
DQ44-DQ47
I/O1-I/O4
D2
DQ12-DQ15
D11
I/O1-I/O4
I/O1-I/O4
DQ48-DQ51
D3
DQ16-DQ19
D12
I/O1-I/O4
I/O1-I/O4
DQ52-DQ55
D4
DQ20-DQ23
D13
DQ56-DQ59
I/O1-I/O4
I/O1-I/O4
D5
DQ24-DQ27
D14
I/O1-I/O4
I/O1-I/O4
DQ60-DQ63
D6
DQ28-DQ31
D15
DQ64-DQ67
I/O1-I/O4
I/O1-I/O4
D7
DQ32-DQ35
D16
I/O1-I/O4
I/O1-I/O4
DQ68-DQ71
D8
D17
A0
D0 - D8
Vcc
B0
D9 - D17
Vss
A1-A11
D0 - D17
Block Diagram
Semiconductor Group
4
PDE
Vcc or Vss
D0-D17, buffers
PD1-PD8
HYM72V4005/15GS-50/-60
4M x 72-ECC EDO-Module
Absolute Maximum Ratings
Operating temperature range ......................................................................................... 0 to + 70 °C
Storage temperature range...................................................................................... – 55 to + 125 °C
Input/output voltage ............................................................................... -0.5 to min (Vcc+0.5, 4.6) V
Power supply voltage................................................................................................... – 1 to + 4.6 V
Power dissipation.................................................................................................................... 8.3 W
Data out current (short circuit) ................................................................................................ 50 mA
Note: Stresses above those listed under "Absolute Maximum Ratings" may cause permanent
damage to the device. Exposure to absolute maximum rating conditions for extended periods
may affect device reliability.
DC Characteristics
TA = 0 to 70 °C; VCC = 3.3 V ± 0.3V
Parameter
Symbol
Limit Values
min.
max.
Unit
Test
Condition
Input high voltage
VIH
2.0
Vcc+0.5
V
1)
Input low voltage
VIL
– 1.0
0.8
V
1)
Output high voltage (LVTTL)
Output „H“ voltage level ( IOUT = – 2 mA)
VOH
2.4
–
V
1)
Output low voltage (LVTTL)
Output „L“ voltage level ( IOUT = 2 mA)
VOL
–
0.4
V
1)
Output high voltage (LVCMOS)
Output „H“voltage level ( IOUT = – 100 µA)
VOH
Vcc-0.2
–
V
1)
Output low voltage (LVCMOS)
Output „L“ voltage level ( IOUT = 100 µA)
VOL
–
0.2
V
1)
Input leakage current
(0 V < VIN < Vcc, all other pins = 0 V)
II(L)
– 20
20
µA
1)
Output leakage current
(DO is disabled, 0 V < VOUT < Vcc)
IO(L)
– 20
20
µA
1)
–
–
1800
1620
mA
mA
2)3)4)
–
50
mA
–
Average VCC supply current:
ICC1
-50 version
-60 version
(RAS, CAS, address cycling, tRC = tRC min.)
Standby VCC supply current
(RAS = CAS = 2.4V, one address change
within 15,6 µs trc) ,
ICC2
Semiconductor Group
5
HYM72V4005/15GS-50/-60
4M x 72-ECC EDO-Module
Parameter
Symbol
Average VCC supply current during RAS
ICC3
only refresh cycles:
-50 version
-60 version
Limit Values
Unit
Test
Condition
min.
max.
–
–
1800
1620
mA
mA
–
–
–
1260
990
mA
mA
2)3)4)
–
30
mA
–
–
–
1800
1620
mA
mA
2)4)
2)4)
(RAS cycling, CAS = VIH , t RC = tRC min.)
ICC4
Average VCC supply current during hyper
page mode (EDO):
-50 version
-60 version
(RAS = VIL, CAS, address cycling
tPC = tPC min.)
Standby VCC supply current
(RAS = CAS = VCC – 0.2 V,
one address change within 15,6 µs trc)
ICC5
Average VCC supply current during
CAS-before-RAS refresh mode:
ICC6
-50 version
-60 version
(RAS, CAS cycling, tRC = tRC min.)
Capacitance
TA = 0 to 70 °C; VCC = 3.3 V ± 0.3V; f = 1 MHz
Parameter
Symbol
Limit Values
min.
max.
Unit
Input capacitance (A0 to A11,B0)
CI1
–
10
pF
Input capacitance (RAS0, RAS2)
CI2
–
50
pF
Input capacitance (CAS0, CAS4)
CI3
–
15
pF
Input capacitance (WE0,WE2,OE0,OE2)
CI4
–
15
pF
I/O capacitance (DQ0-DQ71)
CIO1
–
15
pF
Semiconductor Group
6
HYM72V4005/15GS-50/-60
4M x 72-ECC EDO-Module
AC Characteristics (note: 5,6,7,8)
TA = 0 to 70 °C,VCC = 3.3 ± 0.3 V
Parameter
Symbol
-50
min.
-60
max.
min.
Unit
Note
max.
common parameters
Random read or write cycle time
tRC
84
–
104
–
ns
RAS precharge time
tRP
30
–
40
–
ns
RAS pulse width
tRAS
50
100k
60
100k
ns
CAS pulse width
tCAS
8
10k
10
10k
ns
Row address setup time
tASR
5
–
5
–
ns
9
Row address hold time
tRAH
6
–
8
–
ns
10
Column address setup time
tASC
2
–
2
–
ns
11
Column address hold time
tCAH
13
–
15
–
ns
9
RAS to CAS delay time
tRCD
10
32
12
40
RAS to column address delay time
tRAD
8
20
10
25
ns
12
RAS hold time
tRSH
18
–
20
–
ns
9
CAS hold time
tCSH
38
–
48
–
ns
10
CAS to RAS precharge time
tCRP
10
–
10
–
ns
9
Transition time (rise and fall)
tT
1
30
1
30
ns
7
Refresh period
tREF
–
64
–
64
ms
Access time from RAS
tRAC
–
50
–
60
ns
13,14
Access time from CAS
tCAC
–
18
–
20
ns
9,13,14
Access time from column address
tAA
–
30
–
35
ns
9,13, 15
OE access time
tOEA
–
18
–
20
ns
9,13
Column address to RAS lead time
tRAL
30
–
35
–
ns
9
Read command setup time
tRCS
2
–
2
–
ns
11
Read command hold time
tRCH
2
–
2
–
ns
11,16
Read command hold time referenced
to RAS
tRRH
0
–
0
–
ns
16
tCLZ
2
–
2
–
ns
11,13
tOFF
–
18
–
20
ns
9,17
12
Read Cycle
CAS to output in low-Z
Output buffer turn-off delay
Semiconductor Group
7
HYM72V4005/15GS-50/-60
4M x 72-ECC EDO-Module
AC Characteristics (cont’d) (note: 5,6,7,8)
TA = 0 to 70 °C,VCC = 3.3 ± 0.3 V
Parameter
Symbol
-50
min.
-60
max.
min.
Unit
Note
max.
Output buffer turn-off delay from OE
tOEZ
–
18
–
20
ns
9,17
CAS delay time from Din
tDZC
0
–
0
–
ns
18
Data to OE low delay
tDZO
0
–
0
–
ns
18
CAS high to data delay
tCDD
15
–
18
–
ns
9,19
OE high to data delay
tODD
15
–
18
–
ns
9,19
Write command hold time
tWCH
13
–
15
–
ns
9
Write command pulse width
tWP
8
–
10
–
ns
Write command setup time
tWCS
2
–
2
–
ns
11,20
Write command to RAS lead time
tRWL
18
–
20
–
ns
9
Write command to CAS lead time
tCWL
13
–
15
–
ns
Data setup time
tDS
-2
–
-2
–
ns
10,21
Data hold time
tDH
13
–
15
–
ns
9,21
Read-write cycle time
tRWC
118
–
143
–
ns
9
RAS to WE delay time
tRWD
66
–
77
–
ns
11,21
CAS to WE delay time
tCWD
29
–
34
–
ns
11,21
Column address to WE delay time
tAWD
41
–
49
–
ns
11,21
OE command hold time
tOEH
8
–
11
–
ns
10
Hyper page mode cycle time
tPC
20
–
25
–
ns
CAS precharge time
tCP
8
–
10
–
ns
Access time from CAS precharge
tCPA
–
32
–
37
ns
9,13
Output data hold time
tCOH
3
–
3
–
ns
10
RAS pulse width
tRAS
50
200k
60
200k
ns
CAS precharge to RAS Delay
tRHCP
32
–
37
–
ns
OE setup time prior to CAS
tOES
5
–
5
–
ns
Write Cycle
Read-Modify-Write Cycle
Hyper Page Mode (EDO) Cycle
Semiconductor Group
8
9
HYM72V4005/15GS-50/-60
4M x 72-ECC EDO-Module
AC Characteristics (cont’d) (note: 5,6,7,8)
TA = 0 to 70 °C,VCC = 3.3 ± 0.3 V
Parameter
Symbol
-50
min.
-60
max.
min.
Unit
Note
max.
Hyper Page Mode Read-Modify-Write Cycle
Hyper page mode read-write cycle time tPRWC
60
–
70
–
ns
11
CAS precharge to WE
tCPWD
43
–
51
–
ns
11,21
CAS setup time
tCSR
12
–
12
–
ns
11
CAS hold time
tCHR
8
–
8
–
ns
10
RAS to CAS precharge time
tRPC
5
–
5
–
ns
Write to RAS precharge time
tWRP
12
–
12
–
ns
11
Write hold time referenced to RAS
tWRH
8
–
8
–
ns
10
PDE to valid presence detect data
tPD
–
10
–
10
ns
PDE inactive to presence detects
inactive
tPDOFF
0
10
0
10
ns
CAS-before-RAS Refresh Cycle
Presence Detect Read Cycle
Semiconductor Group
9
HYM72V4005/15GS-50/-60
4M x 72-ECC EDO-Module
Notes:
1)
2)
3)
4)
All voltages are referenced to VSS.
ICC1, ICC3, ICC4 and ICC6 depend on cycle rate.
ICC1 and ICC4 depend on output loading. Specified values are measured with the output open.
Address can be changed once or less while RAS = Vil.In the case of ICC4 it can be changed once or less
during a hyper page mode (EDO) cycle ( thpc).
5) An initial pause of 100 µs is required after power-up followed by 8 RAS-only-refresh cycles, before proper
device operation is achieved. In case of using internal refresh counter, a minimum of 8 CAS-before-RAS
initialization cycles instead of 8 RAS cycles are required.
6) AC measurements assume tT = 2 ns.
7) VIH (min.) and VIL (max.) are reference levels for measuring timing of input signals. Also, transition times are
measured between VIH and VIL.
8) The specified timings include buffer, loading and skew delay adders: 2ns minimum, 5ns (CAS, WE, OE,
addresses) maximum delay, no pulse shrinkage to the DRAM device timings. The data and RAS signals are
not buffered, which preserves the DRAMs access specification of 50ns and 60ns.
9) A +5ns timing skew from the DRAM to the module resulted from the addition of line drivers.
10) A -2ns timing skew from the DRAM to the module resulted from the addition of line drivers.
11) A +2ns timing skew from the DRAM to the module resulted from the addition of line drivers.
12) A -2ns (min.) and a -5ns (max.) timing skew from the DRAM to the module resulted from the addition of line
drivers.
13) Measured with the specified current load and 100 pF at Voh = 2.0 V and Vol = 0.8 V. Access time is determined
by the latter of tRAC, tCAC, tAA, tCPA, tOEA. tCAC is measured from tristate.
14) Operation within the tRCD (max.) limit ensures that tRAC (max.) can be met. tRCD (max.) is specified as a
reference point only: If tRCD is greater than the specified tRCD (max.) limit, then access time is controlled by
tCAC.
15) Operation within the tRAD (max.) limit ensures that tRAC (max.) can be met. tRAD (max.) is specified as a
reference point only: If tRAD is greater than the specified tRAD (max.) limit, then access time is controlled by
tAA.
16) Either tRCH or tRRH must be satisfied for a read cycle.
17) tOFF (max.) and tOEZ (max.) define the time at which the outputs achieve the open-circuit condition and are
not referenced to output voltage levels. tOFF is referenced from the rising edge of RAS or CAS, whichever
occurs last.
18) Either tDZC or tDZO must be satisfied.
19) Either tCDD or tODD must be satisfied.
20) tWCS, tRWD, tCWD, tAWD and tCPWD are not restrictive operating parameters. They are included in the data
sheet as electrical characteristics only. If tWCS > tWCS (min.), the cycle is an early write cycle and the I/O pin
will remain open-circuit (high impedance) through the entire cycle; if tRWD > tRWD (min.), tCWD > tCWD
(min.), tAWD > tAWD (min.) and tCPWD > tCPWD (min.) , the cycle is a read-write cycle and I/O pins will
contain data read from the selected cells. If neither of the above sets of conditions is satisfied, the condition
of the I/O pins (at access time) is indeterminate.
21) These parameters are referenced to CAS leading edge in early write cycles and to WE leading edge in ReadModify-Write cycles.
Semiconductor Group
10
HYM72V4005/15GS-50/-60
4M x 72-ECC EDO-Module
L-DIM-168-5
Module package
(dual read-out, single in-line memory module)
133,35
3,0
1
10 11
40
84
41
25,40
17,78
*)
127,35
B
A
94 95
124
168
6,35
1,27
3,125
3,125
6,35
125
2,0
Detail A
1,0 +- 0.5
2,54 min.
85
2,0
0,2 +- 0,15
Detail C
Detail B
4Mx72 3.3V
DM168-5.WMF
preliminary drawing
*) 9 mm thickness for modules assembled with SOJ-devices
4mm thickness for modules assembled with TSOPII-devices
Semiconductor Group
11
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