Elpida HM5117805LTT-7 16 m edo dram (2-mword x 8-bit) 2 k refresh Datasheet

16 M EDO DRAM (2-Mword × 8-bit)
2 k Refresh
E0156H10 (Ver. 1.0)
(Previous ADE-203-630D (Z))
Jun. 27, 2001
LP
EO
Description
HM5117805 Series
The HM5117805 is a C MOS dynamic R AM orga nize d 2, 097,152-w ord × 8-bit. It employs the most
adva nce d C MOS tec hnology for high per forma nce and low powe r. The HM5117805 off ers Extende d Da ta
Out (ED O) P age Mode as a high spee d ac ce ss mode. Multiplexe d addr ess input per mits the HM5117805 to
be packaged in standard 28-pin plastic SOJ and 28-pin TSOP.
Features
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• Single 5 V (±10%)
• Access time: 50 ns/60 ns/70 ns (max)
• Power dissipation
 Active mode: 605 mW/550 mW/495 mW (max)
 Standby mode : 11 mW (max)
: 0.83 mW (max) (L-version)
• EDO page mode capability
• Long refresh period
 2048 refresh cycles : 32 ms
: 128 ms (L-version)
• 4 variations of refresh
 RAS-only refresh
 CAS-before-RAS refresh
 Hidden refresh
 Self refresh (L-version)
• Battery backup operation (L-version)
Elpida Memory, Inc. is a joint venture DRAM company of NEC Corporation and Hitachi, Ltd.
EO
HM5117805 Series
Ordering Information
Type No.
Access time
Package
HM5117805J-5
HM5117805J-6
HM5117805J-7
50 ns
60 ns
70 ns
400-mil 28-pin plastic SOJ (CP-28DA)
HM5117805LJ-5
HM5117805LJ -6
HM5117805LJ -7
50 ns
60 ns
70 ns
HM5117805LS-5
HM5117805LS-6
HM5117805LS-7
HM5117805TT-5
HM5117805TT-6
HM5117805TT-7
HM5117805LTT-5
HM5117805LTT-6
HM5117805LTT-7
LP
HM5117805S-5
HM5117805S-6
HM5117805S-7
50 ns
60 ns
70 ns
300-mil 28-pin plastic SOJ (CP-28DNA)
50 ns
60 ns
70 ns
50 ns
60 ns
70 ns
400-mil 28-pin plastic TSOP II (TTP-28DA)
50 ns
60 ns
70 ns
ro
HM5117805TS-5
HM5117805TS-6
HM5117805TS-7
50 ns
60 ns
70 ns
HM5117805LTS-5
HM5117805LTS-6
HM5117805LTS-7
50 ns
60 ns
70 ns
300-mil 28-pin plastic TSOP II (TTP-28DB)
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Data Sheet E0156H10
2
EO
HM5117805 Series
Pin Arrangement
HM5117805TT/LTT Series
HM5117805TS/LTS Series
HM5117805J/LJ Series
HM5117805S/LS Series
VCC
1
28
VSS
I/O0
2
27
I/O7
I/O6
I/O1
3
26
I/O6
25
I/O5
I/O2
4
25
I/O5
5
24
I/O4
I/O3
5
24
I/O4
6
23
CAS
WE
6
23
CAS
7
22
OE
RAS
7
22
OE
8
21
A9
NC
8
21
A9
9
20
A8
A10
9
20
A8
10
19
A7
A0
10
19
A7
11
18
A6
A1
11
18
A6
12
17
A5
A2
12
17
A5
13
16
A4
A3
13
16
A4
14
15
VSS
14
15
VSS
28
VSS
I/O0
2
27
I/O7
I/O1
3
26
4
I/O2
I/O3
WE
RAS
NC
A10
A0
A1
A3
VCC
(Top view)
ro
A2
VCC
LP
1
Function
A0 to A10
Address input
— Row/Refresh address A0 to A10
— Column address
A0 to A9
I/O0 to I/O7
Data input/Data output
RAS
Row address strobe
CAS
Column address strobe
WE
Read/Write enable
OE
Output enable
VCC
Power supply
VSS
Ground
NC
No connection
ct
Pin name
(Top view)
du
Pin Description
VCC
Data Sheet E0156H10
3
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HM5117805 Series
Block Diagram
A9
•
•
•
buffers
Row
address
Column decoder
2M array
2M array
2M array
2M array
I/O buffers
2M array
2M array
ro
buffers
A10
OE
address
Row decoder
•
•
•
WE
Timing and control
Column
A1
to
CAS
LP
A0
RAS
2M array
2M array
ct
du
Data Sheet E0156H10
4
I/O0
to
I/O7
EO
HM5117805 Series
Absolute Maximum Ratings
Symbol
Value
Unit
Voltage on any pin relative to VSS
VT
–1.0 to +7.0
V
Supply voltage relative to VSS
VCC
–1.0 to +7.0
V
Short circuit output current
Iout
50
mA
Power dissipation
PT
1.0
W
Operating temperature
Topr
0 to +70
°C
–55 to +125
°C
LP
Parameter
Storage temperature
Tstg
Recommended DC Operating Conditions (Ta = 0 to +70°C)
Parameter
Supply voltage
Input high voltage
Input low voltage
Note:
Symbol
Min
Typ
Max
Unit
Note
VCC
4.5
5.0
5.5
V
1
VIH
2.4
—
6.5
V
1
VIL
–1.0
—
0.8
V
1
1. All voltage referred to VSS .
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Data Sheet E0156H10
5
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HM5117805 Series
DC Characteristics (Ta = 0 to +70°C, VCC = 5 V ± 10%, VSS = 0 V)
HM5117805
-5
Parameter
-6
-7
Symbol
Min Max Min Max Min Max Unit
Test conditions
I CC1
—
110 —
100 —
90
mA
t RC = min
I CC2
—
2
—
2
—
2
mA
TTL interface
RAS, CAS = VIH
Dout = High-Z
—
1
—
1
—
1
mA
CMOS interface
RAS, CAS ≥ VCC – 0.2 V
Dout = High-Z
I CC2
—
150 —
150 —
150 µA
CMOS interface
RAS, CAS ≥ VCC – 0.2 V
Dout = High-Z
I CC3
—
110 —
100 —
90
mA
t RC = min
I CC5
—
5
5
5
mA
RAS = VIH
CAS = VIL
Dout = enable
CAS-before-RAS refresh
current
I CC6
—
110 —
90
mA
t RC = min
EDO page mode
current* 1, * 3
I CC7
—
85
mA
t HPC = min
Battery backup current* 4
(Standby with CBR refresh)
(L-version)
I CC10
—
Self refresh mode current
(L-version)
I CC11
—
Input leakage current
I LI
–10 10
–10 10
–10 10
µA
0 V ≤ Vin ≤ 7 V
Output leakage current
I LO
–10 10
–10 10
–10 10
µA
0 V ≤ Vout ≤ 7 V
Dout = disable
Output high voltage
VOH
2.4
VCC 2.4
VCC 2.4
VCC
V
High Iout = –2 mA
Output low voltage
VOL
0
0.4
0.4
0.4
V
Low Iout = 2 mA
1,
Operating current* *
2
Standby current
RAS-only refresh current* 2
Standby current*
1
—
—
100 —
ro
LP
Standby current
(L-version)
90
500 —
500 —
300 —
300 —
0
—
500 µA
du
100 —
0
300 µA
CMOS interface
Dout = High-Z
CBR refresh:
t RC = 62.5 µs
t RAS ≤ 0.3 µs
CMOS interface
RAS, CAS ≤ 0.2V
Dout = High-Z
ct
Notes: 1. I CC depends on output load condition when the device is selected. I CC max is specified at the output
open condition.
2. Address can be changed once or less while RAS = VIL.
3. Address can be changed once or less while CAS = VIH.
4. CAS = L (≤ 0.2 V) while RAS = L (≤ 0.2 V).
Data Sheet E0156H10
6
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HM5117805 Series
Capacitance (Ta = 25°C, VCC = 5 V ± 10%)
Parameter
Symbol
Typ
Max
Unit
Notes
Input capacitance (Address)
CI1
—
5
pF
1
Input capacitance (Clocks)
CI2
—
7
pF
1
Output capacitance (Data-in, Data-out)
CI/O
—
7
pF
1, 2
Notes: 1. Capacitance measured with Boonton Meter or effective capacitance measuring method.
2. CAS = VIH to disable Dout.
LP
AC Characteristics (Ta = 0 to +70°C, VCC = 5 V ±10%, VSS = 0 V)*1, *2, *18
Test Conditions
Input rise and fall time: 2 ns
Input levels: VIL = 0 V, VIH = 3 V
Input timing reference levels: 0.8 V, 2.4 V
Output timing reference levels: 0.8 V, 2.0 V
Output load: 1 TTL gate + C L (100 pF) (Including scope and jig)
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•
•
•
•
•
Data Sheet E0156H10
7
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HM5117805 Series
Read, Write, Read-Modify-Write and Refresh Cycles (Common parameters)
HM5117805
-5
-6
-7
Symbol
Min
Max
Min
Max
Min
Max
Unit
Random read or write cycle time
t RC
84
—
104
—
124
—
ns
RAS precharge time
t RP
30
—
40
—
50
—
ns
CAS precharge time
t CP
7
—
10
—
13
—
ns
t RAS
50
10000 60
10000 70
10000 ns
t CAS
7
10000 10
10000 13
10000 ns
Row address setup time
t ASR
0
—
0
—
0
—
ns
Row address hold time
t RAH
7
—
10
—
10
—
ns
Column address setup time
t ASC
0
—
0
—
0
—
ns
Column address hold time
t CAH
7
—
10
—
13
—
ns
RAS to CAS delay time
t RCD
11
37
14
45
14
52
ns
3
RAS to column address delay time t RAD
9
25
12
30
12
35
ns
4
RAS hold time
t RSH
10
—
13
—
13
—
ns
t CSH
35
—
40
—
45
—
ns
5
—
5
—
5
—
ns
13
—
15
—
18
—
ns
5
0
—
0
—
0
—
ns
6
0
—
0
—
0
—
ns
6
2
50
2
50
2
50
ns
7
RAS pulse width
CAS pulse width
CAS to RAS precharge time
t CRP
OE to Din delay time
t OED
OE delay time from Din
t DZO
CAS delay time from Din
t DZC
Transition time (rise and fall)
tT
ct
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CAS hold time
LP
Parameter
Data Sheet E0156H10
8
Notes
EO
HM5117805 Series
Read Cycle
HM5117805
-5
-6
-7
Symbol
Min
Max
Min
Max
Min
Max
Unit
Notes
Access time from RAS
t RAC
—
50
—
60
—
70
ns
8, 9
Access time from CAS
t CAC
—
13
—
15
—
18
ns
9, 10, 17
Access time from address
t AA
—
25
—
30
—
35
ns
9, 11, 17
Access time from OE
t OEA
—
13
—
15
—
18
ns
9
Read command setup time
t RCS
0
—
0
—
0
—
ns
Read command hold time to CAS
t RCH
0
—
0
—
0
—
ns
Read command hold time from RAS t RCHR
50
—
60
—
70
—
ns
Read command hold time to RAS
t RRH
0
—
0
—
0
—
ns
Column address to RAS lead time
t RAL
25
—
30
—
35
—
ns
Column address to CAS lead time
t CAL
15
—
18
—
23
—
ns
CAS to output in low-Z
t CLZ
0
—
0
—
0
—
ns
Output data hold time
t OH
3
—
3
—
3
—
ns
Output data hold time from OE
t OHO
3
—
3
—
3
—
ns
Output buffer turn-off time
t OFF
—
13
—
15
—
15
ns
13, 20
Output buffer turn-off to OE
t OEZ
—
13
—
15
—
15
ns
13
CAS to Din delay time
t CDD
13
—
15
—
18
—
ns
5
Output data hold time from RAS
t OHR
3
—
3
—
3
—
ns
20
Output buffer turn-off to RAS
t OFR
—
13
—
15
—
15
ns
20
Output buffer turn-off to WE
t WEZ
—
13
—
15
—
15
ns
WE to Din delay time
t WED
13
—
RAS to Din delay time
t RDD
13
—
RAS next CAS delay time
t RNCD
50
—
du
ro
LP
Parameter
15
—
18
—
ns
15
—
18
—
ns
60
—
70
—
ns
12
12
20
ct
Data Sheet E0156H10
9
EO
HM5117805 Series
Write Cycle
HM5117805
-5
-6
-7
Symbol
Min
Max
Min
Max
Min
Max
Unit
Notes
Write command setup time
t WCS
0
—
0
—
0
—
ns
14
Write command hold time
t WCH
7
—
10
—
13
—
ns
Write command pulse width
t WP
7
—
10
—
10
—
ns
Write command to RAS lead time
t RWL
7
—
10
—
13
—
ns
Write command to CAS lead time
t CWL
7
—
10
—
13
—
ns
Data-in setup time
t DS
0
—
0
—
0
—
ns
15
t DH
7
—
10
—
13
—
ns
15
Notes
Data-in hold time
LP
Parameter
Read-Modify-Write Cycle
-5
-6
-7
Symbol
Min
Max
Min
Max
Min
Max
Unit
Read-modify-write cycle time
t RWC
111
—
135
—
161
—
ns
RAS to WE delay time
t RWD
67
—
79
—
92
—
ns
14
CAS to WE delay time
t CWD
30
—
34
—
40
—
ns
14
Column address to WE delay time
t AWD
42
—
49
—
57
—
ns
14
OE hold time from WE
t OEH
13
—
15
—
18
—
ns
Refresh Cycle
du
ro
Parameter
HM5117805
HM5117805
-5
Parameter
Symbol
-6
-7
Max
Min
Max
Min
Max
Unit
CAS setup time (CBR refresh cycle) t CSR
5
—
5
—
5
—
ns
CAS hold time (CBR refresh cycle) t CHR
7
—
10
—
10
—
ns
WE setup time (CBR refresh cycle) t WRP
0
—
0
—
0
—
ns
WE hold time (CBR refresh cycle)
t WRH
7
—
10
—
10
—
ns
RAS precharge to CAS hold time
t RPC
5
—
5
—
5
—
ns
Data Sheet E0156H10
10
ct
Min
Notes
EO
HM5117805 Series
EDO Page Mode Cycle
HM5117805
-5
-6
-7
Symbol
Min Max
Min Max
Min Max
Unit
Notes
EDO page mode cycle time
t HPC
20
—
25
30
ns
19
EDO page mode RAS pulse width
t RASP
—
100000 —
100000 —
100000 ns
16
Access time from CAS precharge
t CPA
—
28
—
35
—
40
ns
9, 17
RAS hold time from CAS precharge t CPRH
28
—
35
—
40
—
ns
Output data hold time from CAS low t DOH
3
—
3
—
3
—
ns
CAS hold time referred OE
t COL
7
—
10
—
13
—
ns
CAS to OE setup time
t COP
5
—
5
—
5
—
ns
28
—
35
—
40
—
ns
LP
Parameter
Read command hold time from CAS t RCHC
precharge
—
—
9, 17
EDO Page Mode Read-Modify-Write Cycle
HM5117805
ro
-5
Parameter
Symbol
EDO page mode read- modify-write t HPRWC
cycle time
WE delay time from CAS precharge t CPW
-6
-7
Min
Max
Min
Max
Min
57
—
68
—
79
ns
45
—
54
—
62
ns
Parameter
Symbol
Refresh period
t REF
Refresh period (L-version)
t REF
du
Refresh
Max
Unit
Notes
14
Max
Unit
Note
32
ms
2048 cycles
128
ms
2048 cycles
ct
Data Sheet E0156H10
11
EO
HM5117805 Series
Self Refresh Mode (L-version)
HM5117805L
-5
-6
-7
Parameter
Symbol
Min
Max
Min
Max
Min
Max
Unit
RAS pulse width (self refresh)
t RASS
100
—
100
—
100
—
µs
RAS precharge time (self refresh)
t RPS
90
—
110
—
130
—
ns
CAS hold time (self refresh)
t CHS
–50
—
–50
—
–50
—
ns
Notes
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LP
Notes: 1. AC measurements assume t T = 2 ns.
2. An initial pause of 200 µs is required after power up followed by a minimum of eight initialization
cycles (any combination of cycles containing RAS-only refresh or CAS-before-RAS refresh). If the
internal refresh counter is used, a minimum of eight CAS-before-RAS refresh cycles are required.
3. Operation with the t RCD (max) limit insures that t RAC (max) can be met, t RCD (max) is specified as a
reference point only; if t RCD is greater than the specified t RCD (max) limit, then access time is
controlled exclusively by t CAC .
4. Operation with the t RAD (max) limit insures that t RAC (max) can be met, t RAD (max) is specified as a
reference point only; if t RAD is greater than the specified t RAD (max) limit, then access time is
controlled exclusively by t AA .
5. Either t OED or t CDD must be satisfied.
6. Either t DZO or t DZC must be satisfied.
7. VIH (min) and VIL (max) are reference levels for measuring timing of input signals. Also, transition
times are measured between VIH (min) and VIL (max).
8. Assumes that t RCD ≤ t RCD (max) and t RAD ≤ t RAD (max). If t RCD or t RAD is greater than the maximum
recommended value shown in this table, t RAC exceeds the value shown.
9. Measured with a load circuit equivalent to 1 TTL loads and 100 pF.
10. Assumes that t RCD ≥ t RCD (max) and t RAD ≤ t RAD (max).
11. Assumes that t RCD ≤ t RCD (max) and t RAD ≥ t RAD (max).
12. Either t RCH or t RRH must be satisfied for a read cycles.
13. t OFF (max) and t OEZ (max) define the time at which the outputs achieve the open circuit condition and
are not referred to output voltage levels.
14. t WCS , t RWD, t CWD, t AWD and t CPW are not restrictive operating parameters. They are included in the data
sheet as electrical characteristics only; if t WCS ≥ t WCS (min), the cycle is an early write cycle and the
data out pin will remain open circuit (high impedance) throughout the entire cycle; if t RWD≥ t RWD (min),
t CWD ≥ t CWD (min), and t AWD ≥ t AWD (min), or t CWD ≥ t CWD (min), t AWD ≥ t AWD (min) and t CPW ≥ t CPW (min), the
cycle is a read-modify-write and the data output will contain data read from the selected cell; if
neither of the above sets of conditions is satisfied, the condition of the data out (at access time) is
indeterminate.
15. These parameters are referred to CAS leading edge in early write cycles and to WE leading edge
in delayed write or read-modify-write cycles.
16. t RASP defines RAS pulse width in EDO page mode cycles.
17. Access time is determined by the longest among t AA , t CAC and t CPA.
18. In delayed write or read-modify-write cycles, OE must disable output buffer prior to applying data
to the device.
19. t HPC (min) can be achieved during a series of EDO page mode write cycles or EDO page mode read
cycles. If both write and read operation are mixed in a EDO page mode RAS cycle (EDO page
mode mix cycle (1), (2)), minimum value of CAS cycle (tCAS + t CP + 2 t T) becomes greater than the
specified t HPC (min) value.The value of CAS cycle time of mixed EDO page mode is shown in EDO
page mode mix cycle (1) and (2).
Data Sheet E0156H10
12
EO
HM5117805 Series
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LP
20. Data output turns off and becomes high impedance from later rising edge of RAS and CAS . Hold
time and turn off time are specified by the timing specifications of later rising edge of RAS and CAS
between t OHR and t OH and between t OFR and t OFF.
21. Please do not use t RASS timing, 10 µs ≤ t RASS ≤ 100 µs. During this period, the device is in transition
state from normal operation mode to self refresh mode. If t RASS ≥ 100 µs, then RAS precharge time
should use t RPS instead of t RP.
22. If you use RAS only refresh or CBR burst refresh mode in normal read/write cycles, 2048 cycles of
distributed CBR refresh with 15.6 µs interval should be executed within 32 ms immediately after
exiting from and before entering into the self refresh mode.
23. If you use distributed CBR refresh mode with 15.6 µs interval in normal read/write cycle, CBR
refresh should be executed within 15.6 µs immediately after exiting from and before entering into
self refresh mode.
24. Repetitive self refresh mode without refreshing all memory is not allowed. Once you exit from self
fresh mode, all memory cells need to be refreshed before re-entering the self refresh mode again.
25. XXX: H or L (H: VIH (min) ≤ VIN ≤ VIH (max), L: VIL (min) ≤ VIN ≤ VIL (max))
///////: Invalid Dout
When the address, clock and input pins are not described on timing waveforms, their pins must be
applied VIH or VIL.
Data Sheet E0156H10
13
EO
HM5117805 Series
Timing Waveforms*25
Read Cycle
t RC
t RAS
t RP
RAS
LP
t CSH
t CRP
t RCD
t RSH
t CAS
tT
CAS
t RAD
t ASR
Address
t RAH
t ASC
t RAL
t CAL
t CAH
Column
Row
ro
t RRH
t RCHR
t RCS
WE
t DZC
t DZO
t OEA
OE
t RDD
t OED
t OEZ
t OHO
t OFF
t AA
ct
t CAC
t WED
t CDD
du
High-Z
Din
t RCH
t OH
t OFR
t OHR
t RAC
t CLZ
t WEZ
Dout
Dout
Data Sheet E0156H10
14
EO
HM5117805 Series
Early Write Cycle
tRC
tRAS
tRP
RAS
tCSH
tCRP
LP
tRCD
tRSH
tCAS
tT
CAS
tASR
Address
tRAH
Row
tASC
tCAH
Column
ro
tWCS
WE
tWCH
Din
tDH
Din
du
tDS
High-Z*
Dout
ct
* t WCS
t WCS (min)
Data Sheet E0156H10
15
EO
HM5117805 Series
Delayed Write Cycle*18
t RC
t RAS
t RP
RAS
t CSH
t CRP
LP
t RCD
t RSH
t CAS
tT
CAS
t ASR
Address
t RAH
t ASC
Row
t CAH
Column
t CWL
WE
t DZC
t DS
t RWL
t WP
t DH
du
Din
ro
t RCS
High-Z
Din
t DZO
t OEH
t OED
t OEZ
t CLZ
High-Z
Dout
Invalid Dout
Data Sheet E0156H10
16
ct
OE
EO
HM5117805 Series
Read-Modify-Write Cycle*18
t RWC
t RAS
t RP
RAS
t RCD
LP
CAS
tT
t CAS
t CRP
t RAD
t ASR
Address
tRAH
t ASC
Row
t CAH
Column
t RCS
tCWL
t AWD
t RWL
t RWD
t WP
ro
WE
t CWD
t DZC
du
High-Z
Din
t DH
t DS
Din
t OED
t DZO
t OEH
t OEA
OE
t CAC
t RAC
t OHO
Dout
Dout
t CLZ
ct
t OEZ
t AA
High-Z
Data Sheet E0156H10
17
EO
HM5117805 Series
RAS-Only Refresh Cycle
t RC
t RAS
t RP
RAS
t CRP
LP
CAS
tT
t ASR
Address
t RPC
t CRP
t RAH
Row
t OFR
t OFF
!
ct
du
Data Sheet E0156H10
18
High-Z
ro
Dout
EO
HM5117805 Series
CAS-Before-RAS Refresh Cycle
t RC
t RP
t RAS
t RP
RAS
t CSR
t CHR
t RPC
t CRP
LP
,
t RPC
tT
CAS
t CP
WE
Address
t OFF
Dout
t CP
t WRH
ro
t OFR
t WRP
High-Z
ct
du
Data Sheet E0156H10
19
EO
HM5117805 Series
Hidden Refresh Cycle
t RC
t RC
t RP
t RAS
t RAS
t RC
t RP
t RAS
t RP
RAS
tT
LP
t RSH
t CHR
t CRP
t RCD
CAS
t RAD
t ASR t RAH
Address
t RAL
t ASC
Row
t CAH
Column
t WRH
t WRP
t WRP
tWRH
ro
t RCS
t RRH
WE
t DZC
t RRH
t RCH
High-Z
t DZO
t OEA
OE
t CAC
t AA
t CLZ
Dout
Dout
t OHR
Data Sheet E0156H10
t OED
t OFF
t OH
t OFR
20
t CDD
t RDD
t OEZ
t WEZ
t OHO
ct
t RAC
du
Din
t WED
EO
HM5117805 Series
EDO Page Mode Read Cycle
t RP
t RNCD
t RASP
RAS
tT
t CSH
Address
tRAH tASC
Row
t HPC
t CPRH
t CP
t
tCAH
Column 1
tCAS
t RCHC
t ASC t CAH
t ASC t CAH
Column 2
Column 3
t CAL
t CRP
RSH
tCAS
t RCH t RCS
LP
tASR
t CP
t CAS
t RCHR
t RCS
WE
t HPC
t CP
t CAS
CAS
t HPC
t CAL
t RRH
t RCH
t RAL
t CAH
tASC
t WED
Column 4
t CAL
t CAL
tRDD
tCDD
tDZC
Din
High-Z
tCOL
tCOP
tOED
ro
tDZO
OE
tCPA
tOEA
tAA
tCAC
tCAC
tAA
tWEZ
tRAC
Dout 1
tOHO
tAA
tOEZ
tOEA
Dout 2
tDOH
tOHO
du
Dout
tOEZ
tOFR
tOHR
tOEZ
tCPA
tCPA
tAA
tCAC
Dout 2
Dout 3
tCAC
tOHO
tOFF
tOH
tOEA
Dout 4
ct
Data Sheet E0156H10
21
EO
HM5117805 Series
EDO Page Mode Early Write Cycle
tRP
tRASP
RAS
tT
tASR
Address
tHPC
tCAS
tRCD
LP
CAS
tCSH
Row
tRAH
tASC
tCAH
Column 1
tWCH
WE
tDS
Dout
tDH
Din 1
tASC
tCAH
Column 2
tWCS
tDS
tWCH
tDH
tCP
tCAS
tASC
tCRP
tCAH
Column N
tWCS
tDS
tWCH
tDH
du
Din
tCAS
ro
tWCS
tCP
tRSH
Din 2
Din N
High-Z*
ct
* t WCS
Data Sheet E0156H10
22
t WCS (min)
EO
HM5117805 Series
EDO Page Mode Delayed Write Cycle*18
t RASP
t RP
RAS
tT
t CP
LP
t CSH
t RCD
CAS
t CRP
t CP
t HPC
t CAS
t CAS
t RSH
t CAS
t RAD
t ASR
t ASC
t RAH
Address
t ASC
t CAH
Row
t ASC
t CAH
Column 1
t CAH
Column 2
t CWL
t RCS
t WP
t DZC t DS
t CWL
t RCS
t WP
t WP
t DZC t DS
t DZC t DS
t DH
Din
1
Din
t DH
t DH
Din
2
Din
N
du
t DZO
t DZO
#
t DZO
t CWL
t RWL
t RCS
ro
WE
Column N
t OED
t OED
t OED
t OEH
t OEH
OE
t CLZ
t CLZ
t CLZ
t OEZ
t OEZ
Invalid Dout
t OEZ
High-Z
ct
Dout
Invalid Dout
t OEH
Invalid Dout
Data Sheet E0156H10
23
EO
HM5117805 Series
EDO Page Mode Read-Modify-Write Cycle*18
t RASP
t RP
RAS
tT
t HPRWC
t RCD
CAS
t RSH
t CP
LP
t CP
t CAS
t CAS
t CRP
t CAS
t RAD
t ASR
Address
t ASC
t RAH
Row
t ASC
t CAH
t CAH
Column 1
t RWD
Column 2
t CWL
t WP
t RCS
t DZC t DS
t DH
t OED
t DH
Din
2
t OED
t DZO
t DH
du
t DZO
Din
N
t OED
t DZO
t OEH
t OEH
#*
t OEH
t RWL
t WP
t DZC t DS
Din
1
t CWL
t CWD
t WP
t DZC t DS
Din
t CPW
t AWD
t CWD
ro
t RCS
t CWL
t AWD
t RCS
WE
Column N
t CPW
t AWD
t CWD
t ASC
t CAH
OE
t OHO
t OEA
t CAC
t OHO
t OEA
t CAC
t AA
t AA
t CPA
t RAC
t AA
t CPA
t OEZ
t CLZ
t CLZ
t OEZ
ct
t OEZ
t CLZ
t OHO
t OEA
t CAC
High-Z
Dout
Dout 1
Dout 2
Data Sheet E0156H10
24
Dout N
EO
HM5117805 Series
EDO Page Mode Mix Cycle (1)
t RP
t RASP
RAS
tT
t CAS
CAS
t CRP
t CP
t CP
t CP
t CAS
tCAS
tCAS
t CSH
LP
tRSH
t RCD
t WCS
WE
t ASC
tRAH
tASR
Address
Row
t WCH
tCAH
Column 1
t CAL
t DS
tCPW
tAWD
t ASC t CAH
tASC t CAH
Column 2
Column 3
t CAL
tASC
t RAL
t CAH
Column 4
t CAL
t DH
Din 1
tWP
High-Z
tRDD
tCDD
t CAL
t DH
t DS
Din 3
ro
tOED
tWED
Din
t RRH
t RCH
t RCS
t RCS
OE
tCPA
tAA
tOEA
tCAC
tAA
t DOH
tAA
t OEZ
Dout 2
tCAC t OHO
Dout 3
tOEZ
tCAC
du
Dout
tOFR
tWEZ
tCPA
tCPA
tOHO
tOEA
tOFF
tOH
Dout 4
ct
Data Sheet E0156H10
25
EO
HM5117805 Series
EDO Page Mode Mix Cycle (2)
t RNCD
t RP
t RASP
RAS
tT
CAS
t CSH
t CAS
t ASC
tRAH
tASR
Address
Row
t RCH
tCAH
Column 1
tWCS t WCH
tCAS
Column 2
Column 3
High-Z
t CAL
t RAL
t CAH
tASC
Column 4
t CAL
t CAL
t DS
t DH
tRDD
tCDD
t DH
ro
Din 2
tOED
t RRH
t RCH
tWP
tCPW
t ASC t CAH
t DS
tRSH
t RCS
t RCS
t ASC t CAH
t CAL
Din
tCAS
t RCHR
t RCS
WE
t CAS
LP
t RCD
t CRP
t CP
t CP
Din 3
tOED
tCOP
tWED
tCOL
OE
tAA
tOEA
tCAC
tOEZ
t OHO
Dout
Dout 1
tOFR
tWEZ
tCPA
tCPA
tAA
tCAC
tOEZ
du
tRAC
t OEA
t OHO
Dout 3
tAA
tCAC
tOEZ
tOEA
tOFF
tOH
tOHO
Dout 4
ct
Data Sheet E0156H10
26
EO
HM5117805 Series
Self Refresh Cycle (L-version) *21, 22, 23, 24
t RASS
t RP
t RPS
RAS
tT
,
,
t RPC
LP
CAS
t CP
t WRP
WE
t CRP
t CSR
t CHS
t WRH
$%&+,
t OFR
t OFF
ro
Dout
High-Z
ct
du
Data Sheet E0156H10
27
EO
HM5117805 Series
Package Dimensions
HM5117805J/LJ Series (CP-28DA)
Unit: mm
18.17
18.54 Max
11.18 ± 0.13
LP
1.27
0.10
Dimension including the plating thickness
Base material dimension
9.40 ± 0.25
Hitachi Code
JEDEC
EIAJ
Weight (reference value)
CP-28DA
Conforms
Conforms
1.16 g
ct
du
ro
0.43 ± 0.10
0.41 ± 0.08
0.80 +0.25
–0.17
1.30 Max
2.85 ± 0.12
14
0.74
3.50 ± 0.26
1
10.16 ± 0.13
15
28
Data Sheet E0156H10
28
EO
HM5117805 Series
HM5117805S/LS Series (CP-28DNA)
Unit: mm
18.41
18.84 Max
0.25
2.45 +– 0.36
1.165 Max
0.43 ± 0.10
0.41 ± 0.08
8.51 ± 0.12
14
0.90 ± 0.26
0.74
3.50 ± 0.26
LP
1
7.62 ± 0.12
15
28
6.79 ± 0.18
1.27
ro
0.10
Dimension including the plating thickness
Base material dimension
Hitachi Code
JEDEC
EIAJ
Weight (reference value)
CP-28DNA
—
—
0.95 g
ct
du
Data Sheet E0156H10
29
EO
HM5117805 Series
HM5117805TT/LTT Series (TTP-28DA)
Unit: mm
18.41
18.81 Max
0.21
14
0.80
M
11.76 ± 0.20
Dimension including the plating thickness
Base material dimension
0.145 ± 0.05
0.125 ± 0.04
0.10
0° – 5°
0.50 ± 0.10
Hitachi Code
JEDEC
EIAJ
Weight (reference value)
TTP-28DA
Conforms
—
0.43 g
ct
du
ro
1.20 Max
1.15 Max
Data Sheet E0156H10
30
0.68
1.27
0.13 ± 0.05
0.42 ± 0.08
0.40 ± 0.06
LP
1
15
10.16
28
EO
HM5117805 Series
HM5117805TS/LTS Series (TTP-28DB)
Unit: mm
18.41
18.81 Max
15
LP
0.42 ± 0.08
0.40 ± 0.06
1.27
14
0.21 M
0.80
9.22 ± 0.2
Dimension including the plating thickness
Base material dimension
0.13 ± 0.05
0.50 ± 0.10
0.145 ± 0.05
0.125 ± 0.04
0.10
0° – 5°
ro
1.20 Max
1.15 Max
Hitachi Code
JEDEC
EIAJ
Weight (reference value)
0.63
1
7.62
28
TTP-28DB
—
—
0.35 g
ct
du
Data Sheet E0156H10
31
EO
HM5117805 Series
Cautions
ct
du
ro
LP
1. Elpida Memory, Inc. neither warrants nor grants licenses of any rights of Elpida Memory, Inc.’s or any
third party’s patent, copyright, trademark, or other intellectual property rights for information contained
in this document. Elpida Memory, Inc. bears no responsibility for problems that may arise with third
party’s rights, including intellectual property rights, in connection with use of the information contained
in this document.
2. Products and product specifications may be subject to change without notice. Confirm that you have
received the latest product standards or specifications before final design, purchase or use.
3. Elpida Memory, Inc. makes every attempt to ensure that its products are of high quality and reliability.
However, contact Elpida Memory, Inc. before using the product in an application that demands especially
high quality and reliability or where its failure or malfunction may directly threaten human life or cause
risk of bodily injury, such as aerospace, aeronautics, nuclear power, combustion control, transportation,
traffic, safety equipment or medical equipment for life support.
4. Design your application so that the product is used within the ranges guaranteed by Elpida Memory, Inc.
particularly for maximum rating, operating supply voltage range, heat radiation characteristics,
installation conditions and other characteristics. Elpida Memory, Inc. bears no responsibility for failure or
damage when used beyond the guaranteed ranges. Even within the guaranteed ranges, consider normally
foreseeable failure rates or failure modes in semiconductor devices and employ systemic measures such
as fail-safes, so that the equipment incorporating Elpida Memory, Inc. product does not cause bodily
injury, fire or other consequential damage due to operation of the Elpida Memory, Inc. product.
5. This product is not designed to be radiation resistant.
6. No one is permitted to reproduce or duplicate, in any form, the whole or part of this document without
written approval from Elpida Memory, Inc..
7. Contact Elpida Memory, Inc. for any questions regarding this document or Elpida Memory, Inc.
semiconductor products.
Data Sheet E0156H10
32