HANBIT HSD16M64D8B-10

HANBit
HSD16M64D8B
Synchronous DRAM Module 128Mbyte (16Mx64-Bit), DIMM,
4Banks, 4K Ref., 3.3V
Part No. HSD16M64D8B
GENERAL DESCRIPTION
The HSD16M64D8B is a 16M x 64 bit Synchronous Dynamic RAM high density memory module. The module consists
of eight CMOS 2M x 16 bit with 4banks Synchronous DRAMs in TSOP-II 400mil packages on a 168-pin glass-epoxy
substrate. Two 0.1uF decoupling capacitors are mounted on the printed circuit board in parallel for each SDRAM. The
HSD16M64D8B is a DIMM(Dual in line Memory Module) and is intended for mounting into 168-pin edge connector sockets.
Synchronous design allows precise cycle control with the use of system clock. I/O transactions are possible on every clock
cycle. Range of operating frequencies, programmable latencies allows the same device to be useful for a variety of high
bandwidth, high performance memory system applications All module components may be powered from a single 3.3V DC
power supply and all inputs and outputs are LVTTL-compatible.
FEATURES
• Part Identification
HSD16M64D8B-10
: 100MHz ( CL=2)
HSD16M64D8B-10L : 100MHz ( CL=3)
HSD16M64D8B- 13
: 133MHz ( CL=3)
• Burst mode operation
• Auto & self refresh capability (4096 Cycles/64ms)
• LVTTL compatible inputs and outputs
• Single 3.3V ±0.3V power supply
• MRS cycle with address key programs
- Latency (Access from column address)
- Burst length (1, 2, 4, 8 & Full page)
- Data scramble (Sequential & Interleave)
• JEDEC standard
• All inputs are sampled at the positive going edge of the system clock
• The used device is2Mx16Bitx4Banks SDRAM
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HSD16M64D8B
PIN ASSIGNMENT
PIN
Symbol
PIN
Symbol
PIN
Symbol
PIN
Symbol
PIN
Symbol
PIN
Symbol
1
Vss
29
DQM1
57
DQ18
2
DQ0
30
/CS0
58
DQ19
85
Vss
113
DQM5
141
DQ50
86
DQ32
114
NC
142
DQ51
3
DQ1
31
DU
59
Vcc
87
DQ33
115
/RAS
143
Vcc
4
DQ2
32
Vss
5
DQ3
33
A0
60
DQ20
88
DQ34
116
Vss
144
DQ52
61
NC
89
DQ35
117
A1
145
NC
6
Vcc
34
A2
7
DQ4
35
A4
62
NC
90
Vcc
118
A3
146
NC
63
CKE1
91
DQ36
119
A5
147
NC
8
DQ5
36
A6
64
Vss
92
DQ37
120
A7
148
Vss
9
DQ6
37
A8
65
DQ21
93
DQ38
121
A9
149
DQ53
10
DQ7
38
A10
66
DQ22
94
DQ39
122
BA0
150
DQ54
11
DQ8
39
BA1
67
DQ23
95
DQ40
123
A11
151
DQ55
12
Vss
40
Vcc
68
Vss
96
Vss
124
Vcc
152
Vss
13
DQ9
41
Vcc
69
DQ24
97
DQ41
125
CLK1
153
DQ56
14
DQ10
42
CLK0
70
DQ25
98
DQ42
126
NC
154
DQ57
15
DQ11
43
Vss
71
DQ26
99
DQ43
127
Vss
155
DQ58
16
DQ12
44
NC
72
DQ27
100
DQ44
128
CKE0
156
DQ59
17
DQ13
45
/CS2
73
Vcc
101
DQ45
129
NC
157
Vcc
18
Vcc
46
DQM2
74
DQ28
102
Vcc
130
DQM6
158
DQ60
19
DQ14
47
DQM3
75
DQ29
103
DQ46
131
DQM7
159
DQ61
20
DQ15
48
NC
76
DQ30
104
DQ47
132
NC
160
DQ62
21
NC
49
Vcc
77
DQ31
105
NC
133
Vcc
161
DQ63
22
NC
50
NC
78
Vss
106
NC
134
NC
162
Vss
23
Vss
51
NC
79
CLK2
107
Vss
135
NC
163
CLK3
24
NC
52
NC
80
NC
108
NC
136
NC
164
NC
25
NC
53
NC
81
WP
109
NC
137
NC
165
SA0
26
Vcc
54
Vss
82
SDA
110
Vcc
138
Vss
166
SA1
27
/WE
55
DQ16
83
SCL
111
/CAS
139
DQ48
167
SA2
28
DQM0
56
DQ17
84
Vcc
112
DQM4
140
DQ49
168
Vcc
PIN NAMES
Pin Name
Function
Pin Name
Function
A0 ~ A11
Address input (Multiplexed)
BA0 ~ BA1
Select bank
DQ0 ~ DQ63
Data input/output
CLK0 ~ CLK3
Clock input
CKE0 ~CKE1
Clock enable input
CS0
Chip select input
/RAS
Row address strobe
/CAS
Column address strobe
/WE
Write enable
DQM0 ~ 7
DQM
Vcc
Power supply (3.3V)
Vss
Ground
SDA
Serial data I/O
SCL
Serial clock
DU
Do□ ¢ t use
NC
No connection
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HSD16M64D8B
FUNCTIONAL BLOCK DIAGRAM
DQ0-63
CKE0
/CAS
CKE
CAS
/RAS
RAS
/CE0
CE
U1
WE
A0-A11
CKE
CAS
U2
RAS
/CE2
CE
WE
A0-A11
A0-A11
U3
U4
RAS
A0-A11
U5
RAS
A0-A11
CKE
CAS
U6
RAS
/CE3
CE
WE
A0-A11
CKE
CAS
U7
RAS
CE
WE
A0-A11
CKE
CAS
U8
RAS
CE
BA0-1 LDQM
BA0-1 LDQM
WE
A0-A11
DQM2
DQM3
CLKB
DQM4
DQM5
CLK
DQ48-63
BA0-1 LDQM
CLK
DQ0-15
UDQM
WE
DQM1
CLK
DQ16-31
UDQM
WE
CKE
CAS
/CE1
DQM0
UDQM
WE
CKE
CAS
CE
UDQM
BA0-1 LDQM
CLK
DQ32-47
RAS
CE
CLKA
UDQM
CKE
CAS
CE
CLK
DQ0-15
BA0-1 LDQM
DQM6
DQM7
CLKC
DQM0
DQM1
CLK
DQ16-31
UDQM
BA0-1 LDQM
DQM2
DQM3
CLK
DQ32-47
CLKD
UDQM
DQM4
BA0-1 LDQM
DQM5
CLK
DQ48-63
UDQM
BA0-1 LDQM
DQM6
DQM7
/WE
A0 - A11
BA0-1
Vcc
Two 0.1uF Capacitors
per each SDRAM
Vss
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HSD16M64D8B
PIN FUNCTION DESCRIPTION
Pin
Name
CLK
System clock
/CE
Chip enable
Input Function
Active on the positive going edge to sample all inputs.
Disables or enables device operation by masking or enabling all inputs except
CLK, CKE and DQM
Masks system clock to freeze operation from the next clock cycle.
CKE should be enabled at least one cycle prior to new command.
CKE
Clock enable
Disable input buffers for power down in standby.
CKE should be enabled 1CLK+tSS prior to valid command.
Row/column addresses are multiplexed on the same pins.
A0 ~ A11
Address
Row address : RA0 ~ RA11, Column address : CA0 ~ CA8
Selects bank to be activated during row address latch time.
BA0 ~ BA1
Bank select address
Selects bank for read/write during column address latch time.
Latches row addresses on the positive going edge of the CLK with RAS low.
/RAS
Row address strobe
Enables row access & precharge.
Column address
Latches column addresses on the positive going edge of the CLK with CAS low.
/CAS
strobe
Enables column access.
Enables write operation and row precharge.
/WE
Write enable
Latches data in starting from CAS, WE active.
Data input/output
Makes data output Hi-Z, tSHZ after the clock and masks the output.
DQM0 ~ 7
mask
DQ0 ~ 63
Data input/output
Power
Blocks data input when DQM active. (Byte masking)
Data inputs/outputs are multiplexed on the same pins.
Power and ground for the input buffers and the core logic.
Vcc/Vss
supply/ground
ABSOLUTE MAXIMUM RATINGS
PARAMETER
SYMBOL
RATING
VIN ,OUT
-1V to 4.6V
Voltage on Vcc Supply Relative to Vss
Vcc
-1V to 4.6V
Power Dissipation
PD
8W
TSTG
-55oC to 150oC
Voltage on Any Pin Relative to Vss
Storage Temperature
Short Circuit Output Current
IOS
50mA
Notes:
Permanent device damage may occur if " Absolute Maximum Ratings" are exceeded. Functional operation should be
restricted to the conditions as detailed in the operational sections of this data sheet. Exposure to absolute maximum
rating conditions for extended periods may affect device reliability.
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HSD16M64D8B
DC OPERATING CONDITIONS
(Recommended operating conditions (Voltage referenced to VSS = 0V, TA = 0 to 70°C) )
PARAMETER
SYMBOL
MIN
TYP.
MAX
UNIT
NOTE
Supply Voltage
Vcc
3.0
3.3
3.6
V
Input High Voltage
VIH
2.0
3.0
Vcc+0.3
V
1
Input Low Voltage
VIL
-0.3
0
0.8
V
2
Output High Voltage
VOH
2.4
-
-
V
IOH = -2mA
Output Low Voltage
VOL
-
-
0.4
V
IOL = 2mA
Input leakage current
I IL
-10
10
uA
Notes :
1. VIH (max) = 5.6V AC. The overshoot voltage duration is ≤ 3ns.
2. VIL (min) = -2.0V AC. The undershoot voltage duration is ≤ 3ns.
3. Any input 0V ≤ VIN ≤ VDDQ.
Input leakage currents include Hi-Z output leakage for all bi-directional buffers with Tri-State outputs.
3
CAPACITANCE
(VCC = 3.3V, TA = 23°C, f = 1MHz, VREF =1.4V ± 200 mV)
DESCRIPTION
SYMBOL
MIN
MAX
UNITS
CCLK
2.5
4.0
pF
CIN
2.5
5.0
pF
Address
CADD
2.5
5.0
pF
DQ (DQ0 ~ DQ15)
COUT
5
6.5
pF
Clock
/RAS, /CAS,/WE,/CS, CKE, L(U)DQM
DC CHARACTERISTICS
(Recommended operating condition unless otherwise noted, TA = 0 to 70°C)
PARAMETER
TEST
CONDITION
SYMBOL
Operating current
ICC1
(One bank active)
Precharge standby current in
power-down mode
ICC2P
ICC2PS
ICC2N
Precharge standby current in
Burst length = 1
tRC ≥ tRC(min)
IO = 0mA
CKE ≤ VIL(max)
tCC=10ns
CKE & CLK ≤ VIL(max)
tCC=∞
CKE ≥ VIH(min)
CS* ≥ VIH(min), tCC=10ns
Input signals are changed
one time during 20ns
VERSION
75
10
10L
1200
1120
1120
ICC2NS
NOTE
mA
1
8
mA
8
mA
160
mA
CKE ≥ VIH(min)
non power-down mode
UNIT
CLK ≤ VIL(max),
tCC=∞
56
Input signals are stable
Active
standby
current
power-down mode
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REV.1.0 (August.2002)
in
ICC3P
ICC3PS
CKE ≤ VIL(max), tCC=10ns
CKE&CLK ≤ VIL(max)
40
mA
40
tCC=∞
5
HANBit Electronics Co.,Ltd.
HANBit
HSD16M64D8B
CKE≥VIH(min),
ICC3N
Active standby current in
CS*≥VIH(min),
tCC=10ns
non power-down mode
one time during 20ns
(One bank active)
CKE≥VIH(min)
ICC3NS
240
Input signals are changed
CLK ≤VIL(max),
mA
tCC=∞
160
Input signals are stable
IO = 0 mA
Operating current
Page burst
ICC4
(Burst mode)
1440
1160
1160
mA
1
1760
1680
1680
mA
2
4Banks Activated
tCCD = 2CLKs
Refresh current
ICC5
Self refresh current
Notes :
1. Measured with outputs open.
2. Refresh period is 64ms.
ICC6
tRC ≥ tRC(min)
CKE ≤ 0.2V
12
mA
AC OPERATING TEST CONDITIONS
(vcc = 3.3V ± 0.3V, TA = 0 to 70°C)
PARAMETER
Value
UNIT
2.4/0.4
V
1.4
V
tr/tf = 1/1
ns
1.4
V
AC Input levels (Vih/Vil)
Input timing measurement reference level
Input rise and fall time
Output timing measurement reference level
Output load condition
See Fig. 2
+3.3V
Vtt=1.4V
1200Ω
50Ω
DOUT
870Ω
DOUT
50pF*
Z0=50Ω
50pF
VOH (DC) = 2.4V, IOH = -2mA
VOL (DC) = 0.4V, IOL = 2mA
(Fig. 2) AC output load circuit
(Fig. 1) DC output load circuit
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REV.1.0 (August.2002)
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HSD16M64D8B
OPERATING AC PARAMETER
(AC operating conditions unless otherwise noted)
VERSION
PARAMETER
SYMBOL
-13
-10
-10L
UNIT
NOTE
Row active to row active delay
tRRD(min)
15
20
20
ns
1
RAS to CAS delay
tRP(min)
20
20
20
ns
1
Row precharge time
tRP(min)
20
20
20
ns
1
tRAS(min)
45
50
50
ns
1
Row active time
tRAS(max)
Row cycle time
100
tRC(min)
65
ns
70
70
ns
1
Last data in to row precharge
tRDL(min)
2
CLK
2
Last data in to new col. address delay
tCDL(min)
1
CLK
2
Last data in to burst stop
tBDL(min)
1
CLK
2
Col. address to col. address delay
tCCD(min)
1
CLK
3
ea
4
CAS latency=3
2
CAS latency=2
1
Number of valid output data
Notes :
1. The minimum number of clock cycles is determined by dividing the minimum time required with clock cycle time and
then rounding off to the next higher integer.
2. Minimum delay is required to complete write.
3. All parts allow every cycle column address change.
4. In case of row precharge interrupt, auto precharge and read burst stop.
AC CHARACTERISTICS
(AC operating conditions unless otherwise noted)
-13
PARAMETER
MIN
CLK cycle time
-10
-10L
SYMBOL
MAX
MIN
MAX
MIN
UNIT
NOTE
ns
1
ns
1,2
ns
2
MAX
CAS
7.5
10
10
latency=3
tCC
1000
1000
1000
CAS
10
10
12
latency=2
CLK to valid
CAS
output delay
latency=3
5.4
6
6
tSAC
CAS
-
6
7
latency=2
Output data
CAS
hold time
latency=3
2.7
3
3
tOH
CAS
-
-
3
latency=2
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HSD16M64D8B
CLK high pulse width
tCH
2.5
3
3
ns
3
CLK low pulse width
tCL
2.5
3
3
ns
3
Input setup time
tSS
1.5
2
2
ns
3
Input hold time
tSH
0.8
1
1
ns
3
CLK to output in Low-Z
CAS
CLK to output
latency=3
CAS
in Hi-Z
latency=2
tSLZ
1
1
1
ns
3
2
5.4
6
6
ns
-
6
7
ns
tSHZ
Notes :
1. Parameters depend on programmed CAS latency.
2. If clock rising time is longer than 1ns, (tr/2-0.5)ns should be added to the parameter.
3. Assumed input rise and fall time (tr & tf) = 1ns.
If tr & tf is longer than 1ns, transient time compensation should be considered, ie., [(tr + tf)/2-1]ns should be added to
the parameter.
SIMPLIFIED TRUTH TABLE
CKE
n-1
COMMAND
Register
Mode register set
Auto refresh
Refresh
Entry
Self
refresh
Exit
Bank active & row addr.
Read &
column
address
Write &
column
address
Auto
H
/C
S
/R
A
S
/C
A
S
/W
E
D
Q
M
X
L
L
L
L
X
OP code
L
L
L
H
X
X
X
X
H
L
BA
0,1
L
H
H
H
H
X
X
X
X
L
L
H
H
X
V
X
L
H
L
H
X
V
L
H
H
H
precharge
disable
Auto
H
CKE
N
precharge
Auto
L
H
L
L
X
Clock suspend or
active power down
Precharge
power
down mode
3
3
X
L
L
H
L
X
H
X
L
L
H
L
X
Entry
H
L
H
X
X
X
L
V
V
V
Exit
L
H
X
X
X
X
Entry
H
L
Exit
L
H
DQM
H
No operation command
H
Address
4,5
H
X
X
X
L
H
H
H
H
X
X
X
V
V
V
L
X
X
H
X
X
X
L
H
H
H
X
8
4
4,5
X
V
L
X
H
6
X
X
X
X
X
X
V
X
X
X
(V=Valid, X=Don't care, H=Logic high, L=Logic low)
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REV.1.0 (August.2002)
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(A0 ~ A7)
H
H
All banks
3
(A0 ~ A7)
V
precharge
Bank selection
3
Column
L
X
disable
Precharge
1,2
Column
H
Burst Stop
NOTE
Address
H
precharge
disable
A11
A9~A0
Row address
L
disable
Auto
A10/
AP
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HANBit
HSD16M64D8B
Notes :
1. OP Code : Operand code
A0 ~ A11 & BA0 ~ BA1 : Program keys. (@ MRS)
2. MRS can be issued only at all banks precharge state.
A new command can be issued after 2 CLK cycles of MRS.
3. Auto refresh functions are as same as CBR refresh of DRAM.
The automatical precharge without row precharge command is meant by "Auto".
Auto/self refresh can be issued only at all banks precharge state.
4. BA0 ~ BA1 : Bank select addresses.
If both BA0 and BA1 are "Low" at read, write, row active and precharge, bank A is selected.
If both BA0 is "Low" and BA1 is "High" at read, write, row active and precharge, bank B is selected.
If both BA0 is "High" and BA1 is "Low" at read, write, row active and precharge, bank C is selected.
If both BA0 and BA1 are "High" at read, write, row active and precharge, bank D is selected.
If A10/AP is "High" at row precharge, BA0 and BA1 is ignored and all banks are selected.
5. During burst read or write with auto precharge, new read/write command can not be issued.
Another bank read/write command can be issued after the end of burst.
New row active of the associated bank can be issued at tRP after the end of burst.
6. Burst stop command is valid at every burst length.
7. DQM sampled at positive going edge of a CLK and masks the data-in at the very CLK (Write DQM latency is 0),
but makes Hi-Z state the data-out of 2 CLK cycles after. (Read DQM latency is 2)
TIMING DIAGRAMS
Please refer to attached timing diagram chart (II)
PACKAGING INFORMATION
Unit : mm
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REV.1.0 (August.2002)
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HANBit Electronics Co.,Ltd.
HANBit
HSD16M64D8B
2.54 mm MAX
0.25 mm MAX
1.27±0.08 mm
Gold: 1.04± 0.10 mm
Solder: 0.914± 0.10 mm
1.27 mm
28.25±0.15
(Solder & Gold Plating)
ORDERING INFORMATION
Part Number
Density
Org.
Package
Ref.
Vcc
HSD16M64D8B-13
128MByte
x 64
168 Pin DIMM
4K
3.3V
HSD16M64D8B-10
128MByte
x 64
168 Pin DIMM
4K
3.3V
HSD16M64D8B-10L
128MByte
x 64
168 Pin DIMM
4K
3.3V
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REV.1.0 (August.2002)
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MAX.frq
133MHz
(CL=3)
100MHz
(CL=2)
100MHz
(CL=3)
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