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MOSEL VITELIC
V53C16256H 256K x 16 FAST PAGE MODE CMOS DYNAMIC RAM
PRELIMINARY
HIGH PERFORMANCE
Max. RAS Access Time, (tRAC) Max. Column Address Access Time, (tCAA) Min. Fast Page Mode Cycle Time, (tPC) Min. Read/Write Cycle Time, (tRC)
30
30 ns 16 ns 19 ns 65 ns
35
35 ns 18 ns 21 ns 70 ns
40
40 ns 20 ns 23 ns 75 ns
45
45 ns 22 ns 25 ns 80 ns
50
50 ns 24 ns 28 ns 90 ns
60
60 ns 30 ns 35 ns 110 ns
Features
s 256K x 16-bit organization s Fast Page Mode for a sustained data rate of 53 MHz. s RAS access time: 30, 35, 40, 45, 50, 60 ns s Dual CAS Inputs s Low power dissipation s Read-Modify-Write, RAS-Only Refresh, CAS-Before-RAS Refresh s Refresh Interval: 512 cycles/8 ms s Available in 40-pin 400 mil SOJ and 40/44L-pin 400 mil TSOP-II packages s Single +5V 10% Power Supply s TTL Interface
Description
The V53C16256H is a 262,144 x 16 bit highperformance CMOS dynamic random access memory. The V53C16256H offers Fast Page mode with dual CAS inputs. An address, CAS and RAS input capacitances are reduced to one quarter when the x4 DRAM is used to construct the same memory density. The V53C16256H has symmetric address and accepts 512 cycle 8ms interval. All inputs are TTL compatible. Fast Page Mode operation allows random access up to 512 x 16 bits, within a page, with cycle times as short as 19ns. The V53C16256H is best suited for graphics, and DSP applications.
Device Usage Chart
Operating Temperature Range 0C to 70 C -40C to +85C Package Outline K * * T * * 30 * * 35 * * Access Time (ns) 40 * * 45 * * 50 * * 60 * * Power Std. * * Temperature Mark Blank I
V53C16256H Rev. 2.3 June 1998
1
MOSEL VITELIC
V 5 3 C 16 2 5 6 H
V53C16256H
FAMILY
DEVICE
PKG
SPEED ( t RAC)
TEMP. PWR. BLANK (0C to 70C) I (-40C to +85C) BLANK (NORMAL) 30 35 40 45 50 60 (30 ns) (35 ns) (40 ns) (45 ns) (50 ns) (60 ns)
Description SOJ TSOP-II
Pkg. K T
Pin Count 40 40/44L
K (SOJ) T (TSOP-II)
16256H-01
40-Pin Plastic SOJ PIN CONFIGURATION Top View
Vcc I/O1 I/O2 I/O3 I/O4 Vcc I/O5 I/O6 I/O7 I/O8 NC NC WE RAS NC A0 A1 A2 A3 Vcc
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25 24 23 22 21
16256H-02
40/44 Pin Plastic TSOP-II PIN CONFIGURATION Top View
Vcc I/O1 I/O2 I/O3 I/O4 Vcc I/O5 I/O6 I/O7 I/O8
1 2 3 4 5 6 7 8 9 10 44 43 42 41 40 39 38 37 36 35
Vss I/O16 I/O15 I/O14 I/O13 Vss I/O12 I/O11 I/O10 I/O9 NC LCAS UCAS OE A8 A7 A6 A5 A4 Vss
Vss I/O16 I/O15 I/O14 I/O13 Vss I/O12 I/O11 I/O10 I/O9
NC NC WE RAS NC A0 A1 A2 A3 Vcc
13 14 15 16 17 18 19 20 21 22
32 31 30 29 28 27 26 25 24 23
16256H-03
NC LCAS UCAS OE A8 A7 A6 A5 A4 Vss
Pin Names
A0-A8 RAS UCAS LCAS WE OE I/O1-I/O16 VCC VSS NC Address Inputs Row Address Strobe Column Address Strobe Upper Byte Control Column Address Strobe Lower Byte Control Write Enable Output Enable Data Input, Output +5V Supply 0V Supply No Connect
V53C16256H Rev. 2.3 June 1998
2
MOSEL VITELIC
Absolute Maximum Ratings*
Ambient Temperature Under Bias ................................ -10C to +80C Storage Temperature (plastic) ..... -55C to +125C Voltage Relative to VSS ..................-1.0 V to +7.0V Data Output Current ..................................... 50 mA Power Dissipation .......................................... 1.0 W
*Note: Operation above Absolute Maximum Ratings can adversely affect device reliability.
V53C16256H
TA = 25C, VCC = 5V 10%, VSS = 0 V
Symbol CIN1 CIN2 COUT Parameter Address Input RAS, UCAS, LCAS, WE, OE Data Input/Output Typ. 3 4 5 Max. 4 5 7 Unit pF pF pF
Capacitance*
* Note: Capacitance is sampled and not 100% tested
Block Diagram
256K x 16
OE WE UCAS LCAS RAS
RAS CLOCK GENERATOR
CAS CLOCK GENERATOR
WE CLOCK GENERATOR
OE CLOCK GENERATOR
VCC VSS
DATA I/O BUS COLUMN DECODERS
Y0 -Y 8
I/O 1 I/O 2 I/O 3 I/O 4 I/O 5 I/O 6 I/O 7 I/O 8 I/O 9 I/O 10 I/O 11
SENSE AMPLIFIERS REFRESH COUNTER
512 x 16 9 A0 A1
I/O BUFFER
ADDRESS BUFFERS AND PREDECODERS
X0 -X 8
ROW DECODERS
512
* * *
A7 A8
MEMORY ARRAY
I/O 12 I/O 13 I/O 14 I/O 15 I/O 16
16256H-04
V53C16256H Rev. 2.3 June 1998
3
MOSEL VITELIC
DC and Operating Characteristics (1-2) TA = 0C to 70C, VCC = 5V 5%, VSS = 0 V, unless otherwise specified.
V53C16256H Symbol ILI ILO ICC1 Parameter Input Leakage Current (any input pin) Output Leakage Current (for High-Z State) VCC Supply Current, Operating 30 35 40 45 50 60 ICC2 ICC3 VCC Supply Current, TTL Standby VCC Supply Current, RAS-Only Refresh 30 35 40 45 50 60 ICC4 VCC Supply Current, Fast Page Mode Operation 30 35 40 45 50 60 ICC5 VCC Supply Current, Standby, Output Enabled other inputs VSS VCC Supply Current, CMOS Standby Access Time Min. -10 Typ. Max. 10 Unit mA mA mA
V53C16256H
Test Conditions VSS VIN VCC VSS VOUT VCC RAS, CAS at VIH tRC = tRC (min.)
Notes
-10
10
200 190 180 170 160 150 2
1, 2
mA
RAS, CAS at VIH other inputs VSS tRC = tRC (min.) 2
200 190 180 170 160 150 190 180 170 160 150 140 2
mA
mA
Minimum Cycle
1, 2
mA
RAS = VIH, CAS = VIL
1
ICC6
1
mA
RAS VCC - 0.2 V, CAS VCC- 0.2 V, All other inputs VSS 3 3 IOL = 2.0 mA IOH = -2.0 mA
VIL VIH VOL VOH
Input Low Voltage Input High Voltage Output Low Voltage Output High Voltage
-1 2.0
0.8 VCC + 1 0.4
V V V V
2.4
V53C16256H Rev. 2.3 June 1998
4
MOSEL VITELIC
Over all temperature range, VCC = 5 V 10%, VSS = 0V unless otherwise noted AC Test conditions, input pulse levels 0 to 3V
30 # 1 2 JEDEC Symbol tRL1RH1 tRL2RL2 tRH2RL2 tRL1CH1 tCL1CH1 tRL1CL1 tWH2CL2 tAVRL2 tRL1AX tAVCL2 tCL1AX tCL1RH1(R) tCH2RL2 tCH2WX Symbol Parameter tRAS tRC tRP tCSH tCAS tRCD tRCS tASR tRAH tASC tCAH tRSH (R) tCRP tRCH RAS Pulse Width 35 40 45 50
V53C16256H
AC Characteristics
60
Min. Max. Min. Max. Min. Max. Min. Max. Min. Max. Min. Max. Unit Notes 30 75K 35 70 75K 40 75 75 45 80 75K 50 90 75K 60 110 75K ns ns
Read or Write Cycle 65 Time RAS Precharge Time CAS Hold Time CAS Pulse Width RAS to CAS Delay Read Command Setup Time Row Address Setup Time Row Address Hold Time Column Address Setup Time Column Address Hold Time RAS Hold Time (Read Cycle) CAS to RAS Precharge Time Read Command Hold Time Referenced to CAS Read Command Hold Time Referenced to RAS RAS Hold Time Referenced to OE Access Time from OE Access Time from CAS Access Time from RAS Access Time from Column Address 25
3
25
25
25
30
40
ns
4 5 6 7
30 5 15 0 20
35 6 16 0 24
40 12 17 0 28
45 13 18 0 32
50 14 19 0 36
60 15 20 0 45
ns ns ns ns 4
8
0
0
0
0
0
0
ns
9
5
6
7
8
9
10
ns
10
0
0
0
0
0
0
ns
11
5
5
5
6
7
10
ns
12
10
10
12
13
14
15
ns
13
5
5
5
5
5
5
ns
14
0
0
0
0
0
0
ns
5
15
tRH2WX
tRRH
0
0
0
0
0
0
ns
5
16
tOEL1RH2 tGL1QV tCL1QV tRL1QV tAVQV
tROH tOAC tCAC tRAC tCAA
6
7
8
9
10
10
ns
17
10
11
12
13
14
15
ns
18
10
11
12
13
14
15
ns
6, 7
19
30
35
45
50
55
60
ns 6, 8, 9
20
16
18
20
22
24
30
ns
6, 7, 10
V53C16256H Rev. 2.3 June 1998
5
MOSEL VITELIC
AC Characteristics (Cont'd)
30 # 21 JEDEC Symbol tCL1QX tCH2QZ tRL1AX Symbol Parameter tLZ tHZ tAR OE or CAS to Low-Z Output OE or CAS to High-Z Output Column Address Hold Time from RAS RAS to Column Address Delay Time 35 40 45 50
V53C16256H
60
Min. Max. Min. Max. Min. Max. Min. Max. Min. Max. Min. Max. Unit Notes 0 0 0 0 0 0 ns 16
22
0
5
0
6
0
6
0
7
0
8
0
10
ns
16
23
26
28
30
35
40
50
ns
24
tRL1AV
tRAD
10
14
11
17
12
20
13
23
14
26
15
30
ns
11
25
tCL1RH1(W) tRSH (W) RAS or CAS Hold Time in Write Cycle tWL1CH1 tWL1CL2 tCL1WH1 tWL1WH1 tRL1WH1 tCWL tWCS tWCH tWP tWCR Write Command to CAS Lead Time Write Command Setup Time Write Command Hold Time Write Pulse Width Write Command Hold Time from RAS Write Command to RAS Lead Time Data in Setup Time Data in Hold Time Write to OE Hold Time OE to Data Delay Time Read-Modify-Write Cycle Time Read-Modify-Write Cycle RAS Pulse Width CAS to WE Delay RAS to WE Delay in Read-ModifyWrite Cycle CAS Pulse Width (RMW)
10
10
12
13
14
15
ns
26
10
11
12
13
14
15
ns
27
0
0
0
0
0
0
ns 12, 13
28
5
5
5
6
7
10
ns
29 30
5 26
5 28
5 30
6 35
7 40
10 50
ns ns
31
tWL1RH1 tDVWL2 tWL1DX tWL1GL2 tGH2DX tRL2RL2 (RMW) tRL1RH1 (RMW)
tRWL tDS tDH tWOH tOED tRWC tRRW
10
11
12
13
14
15
ns
32 33 34
0 5 5
0 5 5
0 5 6
0 6 7
0 7 8
0 10 10
ns ns ns
14 14 14
35
5
5
6
7
8
10
ns
14
36
100
105
110
115
130
170
ns
37
65
70
75
80
87
105
ns
38 39
tCL1WL2 tRL1WL2
tCWD tRWD
26 50
28 54
30 58
32 62
34 68
40 85
ns ns
12 12
40
tCL1CH1
tCRW
44
46
48
50
52
65
ns
V53C16256H Rev. 2.3 June 1998
6
MOSEL VITELIC
AC Characteristics (Cont'd)
30 # 41 JEDEC Symbol tAVWL2 tCL2CL2 Symbol Parameter tAWD tPC Col. Address to WE Delay 35 40 45 50
V53C16256H
60
Min. Max. Min. Max. Min. Max. Min. Max. Min. Max. Min. Max. Unit Notes 32 35 38 41 42 58 ns 12
42
Fast Page Mode 19 Read or Write Cycle Time CAS Precharge Time Column Address to RAS Setup Time Access Time from Column Precharge Data in Hold Time Referenced to RAS CAS Setup Time CAS-before-RAS Refresh RAS to CAS Precharge Time CAS Hold Time CAS-beforeRAS Refresh Fast Page Mode Read-Modify-Write Cycle Time Transition Time (Rise and Fall) Refresh Interval (512 Cycles) 26 3
21
23
25
28
35
ns
43
tCH2CL2 tAVRH1 tCH2QV tRL1DX tCL1RL2
tCP tCAR tCAP tDHR tCSR
4
5
6
7
10
ns
44
16
18
20
22
24
30
ns
45
19
21
22
24
27
34
ns
7
46
28
30
35
40
50
ns
47
10
10
10
10
10
10
ns
48
tRH2CL2 tRL1CH1
tRPC tCHR
0
0
0
0
0
0
ns
49
7
8
8
10
12
15
ns
50
tCL2CL2 (RMW)
tPCM
56
58
60
65
70
85
ns
51
tT
tT tREF
1.5
50
1.5
50
3
50
3
50
3
50
3
50
ns
15
52
8
8
8
8
8
8
ms
17
V53C16256H Rev. 2.3 June 1998
7
MOSEL VITELIC
Notes:
V53C16256H
1. ICC is dependent on output loading when the device output is selected. Specified ICC (max.) is measured with the output open. 2. ICC is dependent upon the number of address transitions. Specified ICC (max.) is measured with a maximum of two transitions per address cycle in Fast Page Mode. 3. Specified VIL (min.) is steady state operating. During transitions, VIL (min.) may undershoot to -1.0 V for a period not to exceed 20 ns. All AC parameters are measured with VIL (min.) VSS and VIH (max.) VCC. 4. tRCD (max.) is specified for reference only. Operation within tRCD (max.) limits insures that tRAC (max.) and tCAA (max.) can be met. If tRCD is greater than the specified tRCD (max.), the access time is controlled by tCAA and tCAC. 5. Either tRRH or tRCH must be satisified for a Read Cycle to occur. 6. Measured with a load equivalent to one TTL input and 50 pF. 7. Access time is determined by the longest of tCAA, tCAC and tCAP. 8. Assumes that tRAD tRAD (max.). If tRAD is greater than tRAD (max.), tRAC will increase by the amount that tRAD exceeds tRAD (max.). 9. Assumes that tRCD tRCD (max.). If tRCD is greater than tRCD (max.), tRAC will increase by the amount that tRCD exceeds tRCD (max.). 10. Assumes that tRAD tRAD (max.). 11. 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, the access time is controlled by tCAA and tCAC. 12. tWCS, tRWD, tAWD and tCWD are not restrictive operating parameters. 13. tWCS (min.) must be satisfied in an Early Write Cycle. 14. tDS and tDH are referenced to the latter occurrence of CAS or WE. 15. tT is measured between VIH (min.) and VIL (max.). AC-measurements assume tT = 3 ns. 16. Assumes a three-state test load (5 pF and a 380 Ohm Thevenin equivalent). 17. An initial 200 ms pause and 8 RAS-containing cycles are required when exiting an extended period of bias without clocks. An extended period of time without clocks is defined as one that exceeds the specified Refresh Interval.
V53C16256H Rev. 2.3 June 1998
8
MOSEL VITELIC
Truth Table
Function
Standby Read: Word Read: Lower Byte
V53C16256H
RAS
H L L
LCAS
H L L
UCAS
H L H
WE
X H H
OE
X L L
ADDRESS
I/O
High-Z
Notes
ROW/COL ROW/COL
Data Out Lower Byte, Data-Out Upper Byte, High-Z Lower Byte, High-Z Upper Byte, Data-Out Data-In Lower Byte, Data-In Upper Byte, High-Z Lower Byte, High-Z Upper Byte, Data-In Data-Out, Data-In Data-Out Data-In Data-Out, Data-In Data-Out High-Z High-Z 3 1, 2 2 2 1, 2 2
Read: Upper Byte
L
H
L
H
L
ROW/COL
Write: Word (Early-Write) Write: Lower Byte (Early)
L L
L L
L H
L L
X X
ROW/COL ROW/COL
Read: Upper Byte (Early)
L
H
L
L
X
ROW/COL
Read-Write Page-Mode Read Page-Mode Write Page-Mode Read-Write Hidden Refresh Read RAS-Only Refresh CBR Refresh
L L L L L(R)H(R)L L H(R)L
L H(R)L H(R)L H(R)L L H L
L H(R)L H(R)L H(R)L L H L
H(R)L H L H(R)L H X X
L(R)H L X L(R)H L X X
ROW/COL COL COL COL ROW/COL ROW
Notes:
1. Byte Write cycles LCAS or UCAS active. 2. Byte Read cycles LCAS or UCAS active. 3. Only one of the two CAS must be active (LCAS or UCAS).
V53C16256H Rev. 2.3 June 1998
9
MOSEL VITELIC
Waveforms of Read Cycle
t AR (23) t RAS (1) t RC (2) t RP (3)
V53C16256H
RAS
VIH VIL t CRP (13)
t RCD (6) t RAD (24)
t CSH (4)
UCAS, LCAS
VIH VIL t ASR (8) t RAH (9)
t RSH (R)(12) t CAS (5)
t CRP (13)
t ASC (10)
t CAH (11)
ADDRESS
VIH VIL
ROW ADDRESS
COLUMN ADDRESS t CAR (44) t RCH (14) t RRH (15)
t RCS (7) WE VIH VIL
t ROH (16) t CAA (20) t OAC (17)
OE
VIH VIL t RAC (19)
t CAC (18)
t HZ (22) VALID DATA-OUT
t HZ (22)
I/O
VOH VOL
t LZ (21)
16256H-05
Waveforms of Early Write Cycle
t RC (2) t RAS (1) RAS VIH V IL t CSH (4) tCRP (13) VIH t RCD (6) t RSH (W)(25) t CAS (5) t CRP (13) tAR (23) t RP (3)
UCAS, LCAS
V IL t RAH (9) tASR (8) tASC (10) ROW ADDRESS t RAD (24) t CWL (26) VIH V IL t WCR (30) t RWL (31) VIH V IL t DHR (46) tDS (32) tDH (33) VALID DATA-IN HIGH-Z
16256H-06
t CAR (44) t CAH (11)
ADDRESS
VIH V IL
COLUMN ADDRESS t WCH (28) t WP(29) tWCS (27)
WE
OE
I/O
VIH V IL
Don't Care
V53C16256H Rev. 2.3 June 1998
Undefined
10
MOSEL VITELIC
Waveforms of OE-Controlled Write Cycle
V IH V IL t CRP (13) t RCD (6) t CSH (4) t RSH (W)(12) t CAS (5) t AR (23) t RAS (1) t RC (2) t RP (3)
V53C16256H
RAS
t CRP (13)
UCAS, LCAS
V IH V IL t RAD (24) t RAH (9)
t CAR (44) t CAH (11) t ASC (10)
t ASR (8) ADDRESS V IH V IL
ROW ADDRESS
COLUMN ADDRESS t CWL (26) t RWL (31)
t WP (29) WE V IH V IL
t WOH (34) OE V IH V IL t OED (35) V IH V IL t DH (33) t DS (32) VALID DATA-IN
16256H-07
I/O
Waveforms of Read-Modify-Write Cycle
t RWC (36) tRRW (37) RAS VIH VIL t CSH (4) t CRP (13) t RCD (6) VIH VIL t RAH (9) t ASR (8) ADDRESS VIH VIL ROW ADDRESS t RAD (24) t RWD (39) WE VIH VIL VIH VIL t OED (35) t CAC (18) t RAC (19) I/O VIH VIL VOH VOL t LZ (21) VALID DATA-OUT t HZ (22) t DS (32) VALID DATA-IN
16256H-08
t RP (3)
t AR (23)
t RSH (W)(25) t CRW (40) t t ASC (10) COLUMN ADDRESS t AWD (41) t CWD (38) t RWL (31) t CWL (26)
t CRP (13)
UCAS, LCAS
CAH (11)
t WP (29)
t CAA (20) t OAC (17)
OE
t DH (33)
Don't Care
V53C16256H Rev. 2.3 June 1998
Undefined
11
MOSEL VITELIC
Waveforms of Fast Page Mode Read Cycle
VIH V IL t RCD (6) tCRP (13) CAS VIH V IL t RAH (9) tCSH (4) tASC (10) t CAH (11) COLUMN ADDRESS COLUMN ADDRESS t RCH (14) t CAH (11) t RCS (7) COLUMN ADDRESS t RCS (7) tCAR (44) tPC (42) tCP(43) tRSH (R)(12) tCAS (5) t CRP (13) t CAS (5) tAR (23) t RAS (1)
V53C16256H
t
RP (3)
RAS
t CAS (5)
tASR (8) ADDRESS VIH V IL
tASC (10) ROW ADDRESS t RCS (7)
t CAH (11)
tRCH (14)
WE
VIH V IL tCAA (20) t OAC (17) t CAP (45) t OAC (17) t CAA (20) t OAC (17) tRRH (15)
OE
VIH V IL tHZ (22) tRAC (19) tCAC (18) t LZ (21) t CAC (18) t HZ (22) t LZ (21) t LZ (21) tHZ (22) tHZ (22) VALID DATA OUT VALID DATA OUT
16256H-09
t CAC (18)
tHZ (22) tHZ (22)
I/O
VOH VOL
VALID DATA OUT
Waveforms of Fast Page Mode Write Cycle
tAR (23) RAS VIH V IL t CRP (13) tRCD (6) CAS VIH V IL tCSH (4) tRAH (9) tASC (10) t ASR (8) ADDRESS VIH V IL tRAD (24) t WCS (27) t WP (29) WE VIH V IL VIH VIL t DS (32) I/O VIH V IL
VALID DATA IN ROW ADD COLUMN ADDRESS
tRP (3) t RAS (1)
t PC (42) t CP(43) t CAS (5)
t RSH (W)(25) t CRP (13) tCAS (5) tCAS (5)
t CAR (44) tASC (10) tCAH (11)
COLUMN ADDRESS COLUMN ADDRESS
tCAH (11)
t CAH (11)
t CWL (26) t WCS (27) t WCH (28)
t CWL (26) t WCS (27) t WCH (28) t WP(29)
tCWL (26) tRWL(31) t WCH (28) tWP(29)
OE
tDS (32) t DH (33)
OPEN VALID DATA IN
tDS (32) tDH (33)
VALID DATA IN
tDH (33)
OPEN
16256H-10
Don't Care
V53C16256H Rev. 2.3 June 1998
Undefined
12
MOSEL VITELIC
Waveforms of Fast Page Mode Read-Write Cycle
RAS VIH V
IL
V53C16256H
tRAS (1)
t CSH (4) tRCD (6) tPCM (50) t CP(43) V CAS V
IH IL
tRP (3) t RSH (W)(25) t CRP (13) t CAS (5)
t CAS (5) t RAD (24) tRAH (9) tASC (10) tASR (8) tASC (10) tCAH (11)
COLUMN ADDRESS COLUMN ADDRESS
t CAS (5)
t CAR (44) tASC (10) tCAH (11)
COLUMN ADDRESS
t CAH (11)
V ADDRESS V
IH IL
ROW ADD
tRWD (39) t RCS (7) t CWD (38) V WE V
IH IL
tCWD (38) t CWL (26) t CWL (26)
t CWD (38) tRWL(31) tCWL (26)
tAWD (41) t CAA (20) t OAC (17) V OE V
IH IL
tAWD (41) t WP(29) t OAC (17)
tAWD (41) tWP(29) t OAC (17) tWP(29)
tCAP (45) tOED (35) t CAC (18) t RAC (19) t CAA (20) tOED (35) t CAC (18) tHZ (22)
tCAP (45) t CAA (20) t OED (35) tCAC (18) t HZ (22) tDH (33) tDS (32)
OUT IN
16256H-11
t HZ (22) tDH (33) t DH (33) tDS (32)
OUT IN
tDS (32) I/O VI/OH VI/OL t LZ (21)
OUT IN
tLZ (21)
tLZ (21)
Waveforms of RAS-Only Refresh Cycle
tRC (2) VIH V IL t CRP (13) CAS VIH V IL tASR (8) ADDRESS VIH V IL NOTE: WE, OE = Don't care ROW ADDR
16256H-12
t RAS (1)
tRP (3)
RAS
tRAH (9)
Don't Care
V53C16256H Rev. 2.3 June 1998
Undefined
13
MOSEL VITELIC
Waveforms of CAS-before-RAS Refresh Counter Test Cycle
t RAS (1) RAS VIH V IL t CSR (47) UCAS, LCAS VIH V IL VIH V IL READ CYCLE WE VIH V IL t ROH (16) t OAC (17) OE VIH V IL t LZ (21) I/O VIH V IL WRITE CYCLE WE VIH V IL VIH V IL tDS (32) I/O VIH V IL t DH (33) D IN t RWL (31) t CWL (26) t WCS (27) t WCH (28) DOUT t CHR (49) t CP(43) t RSH (W)(25) tCAS (5)
V53C16256H
t RP (3)
ADDRESS
t RCS (7)
t RRH (15) t RCH (14)
t HZ (22) t HZ (22)
OE
16256H-13
Waveforms of CAS-before-RAS Refresh Cycle
t RC (2) t RP (3) RAS V IH V IL t CP (43) t CSR (47) CAS V IH V IL t HZ (22) I/O V OH V OL NOTE: WE, OE, A 0 -A 8 = Don't care
16256H-14
t RAS (1)
t RP (3)
t RPC (48) t CHR (49)
Don't Care
V53C16256H Rev. 2.3 June 1998
Undefined
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MOSEL VITELIC
Waveforms of Hidden Refresh Cycle (Read)
tRC (2) VIH V IL tRCD (6) t CRP (13) UCAS, LCAS VIH V IL tASR (8) t RAH (9) ADDRESS VIH V IL VIH V IL t CAA (20) t OAC (17) OE VIH V IL t CAC (18) t LZ (21) t RAC (19) I/O VOH VOL VALID DATA
ROW ADD
V53C16256H
tRC (2) t RP (3) t RAS (1) t RP (3)
t RAS (1) tAR (23)
RAS
tRSH (R)(12)
t CHR (49)
tCRP (13)
tRAD (24) tASC (10) t CAH (11)
COLUMN ADDRESS
tRCS (7) WE
t RRH (15)
t HZ (22) t HZ (22)
16256H-15
Waveforms of Hidden Refresh Cycle (Write)
t RC (2) VIH V IL t RCD (6) t CRP (13) UCAS, LCAS VIH V IL tASR (8) t RAH (9) ADDRESS VIH V IL VIH V IL VIH V IL t DS (32) VIH I/O V IL tDH (33)
VALID DATA-IN ROW ADD
t RC (2) tRP (3) t RAS (1) tRP (3)
t RAS (1) tAR (23)
RAS
t RSH (12)
t CHR (49)
t CRP (13)
tRAD (24) tASC (10) t CAH (11)
COLUMN ADDRESS
t WCS (27) WE
t WCH (28)
OE
t DHR (46)
16256H-16
Don't Care
V53C16256H Rev. 2.3 June 1998
Undefined
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MOSEL VITELIC
Functional Description
The V53C16256H is a CMOS dynamic RAM optimized for high data bandwidth, low power applications. It is functionally similar to a traditional dynamic RAM. The V53C16256H reads and writes data by multiplexing an 18-bit address into a 9-bit row and a 9-bit column address. The row address is latched by the Row Address Strobe (RAS). The column address "flows through" an internal address buffer and is latched by the Column Address Strobe (CAS). Because access time is primarily dependent on a valid column address rather than the precise time that the CAS edge occurs, the delay time from RAS to CAS has little effect on the access time.
V53C16256H
Fast Page Mode Operation
Fast Page Mode operation permits all 512 columns within a selected row of the device to be randomly accessed at a high data rate. Maintaining RAS low while performing successive CAS cycles retains the row address internally and eliminates the need to reapply it for each cycle. The column address buffer acts as a transparent or flow-through latch while CAS is high. Thus, access begins from the occurrence of a valid column address rather than from the falling edge of CAS, eliminating tASC and tT from the critical timing path. CAS latches the address into the column address buffer and acts as an output enable. During Fast Page Mode operation, Read, Write, Read-Modify-Write or ReadWrite-Read cycles are possible at random addresses within a row. Following the initial entry cycle into Fast Page Mode, access is tCAA or tCAP controlled. If the column address is valid prior to the rising edge of CAS, the access time is referenced to the CAS rising edge and is specified by tCAP. If the column address is valid after the rising CAS edge, access is timed from the occurrence of a valid address and is specified by tCAA. In both cases, the falling edge of CAS latches the address and enables the output. Fast Page Mode provides a sustained data rate of 53 MHz for applications that require high data rates such as bit-mapped graphics or high-speed signal processing. The following equation can be used to calculate the maximum data rate: 512 Data Rate = ---------------------------------------t RC + 511 t PC
Memory Cycle
A memory cycle is initiated by bringing RAS low. Any memory cycle, once initiated, must not be ended or aborted before the minimum tRAS time has expired. This ensures proper device operation and data integrity. A new cycle must not be initiated until the minimum precharge time tRP/tCP has elapsed.
Read Cycle
A Read cycle is performed by holding the Write Enable (WE) signal High during a RAS/CAS operation. The column address must be held for a minimum specified by tAR. Data Out becomes valid only when tOAC, tRAC, tCAA and tCAC are all satisifed. As a result, the access time is dependent on the timing relationships between these parameters. For example, the access time is limited by tCAA when tRAC, tCAC and tOAC are all satisfied.
Write Cycle
A Write Cycle is performed by taking WE and CAS low during a RAS operation. The column address is latched by CAS. The Write Cycle can be WE controlled or CAS controlled depending on whether WE or CAS falls later. Consequently, the input data must be valid at or before the falling edge of WE or CAS, whichever occurs last. In the CAScontrolled Write Cycle, when the leading edge of WE occurs prior to the CAS low transition, the I/O data pins will be in the High-Z state at the beginning of the Write function. Ending the Write with RAS or CAS will maintain the output in the High-Z state. In the WE controlled Write Cycle, OE must be in the high state and tOED must be satisfied.
Data Output Operation
The V53C16256H Input/Output is controlled by OE, CAS, WE and RAS. A RAS low transition enables the transfer of data to and from the selected row address in the Memory Array. A RAS high transition disables data transfer and latches the output data if the output is enabled. After a memory cycle is initiated with a RAS low transition, a CAS low transition or CAS low level enables the internal I/O path. A CAS high transition or a CAS high level disables the I/O path and the output driver if it is enabled. A CAS low transition while RAS is high has no effect on the I/O data path or on the output drivers. The output drivers, when otherwise enabled, can be disabled by holding OE high. The OE signal has no effect on any data stored in the output latches. A WE low level can also disable the output drivers when CAS is low. During a Write cycle, if WE goes low at a time in relationship to CAS that would
V53C16256H Rev. 2.3 June 1998
16
MOSEL VITELIC
normally cause the outputs to be active, it is necessary to use OE to disable the output drivers prior to the WE low transition to allow Data In Setup Time (tDS) to be satisfied.
V53C16256H
Table 1. V53C16256H Data Output
Operation for Various Cycle Types
Cycle Type
Read Cycles
I/O State
Data from Addressed Memory Cell High-Z OE Controlled. High OE = High-Z I/Os Data from Addressed Memory Cell Data from Addressed Memory Cell High-Z Data from Addressed Memory Cell High-Z Data remains as in previous cycle High-Z
Power-On
After application of the VCC supply, an initial pause of 200 ms is required followed by a minimum of 8 initialization cycles (any combination of cycles containing a RAS clock). Eight initialization cycles are required after extended periods of bias without clocks (greater than the Refresh Interval). During Power-On, the VCC current requirement of the V53C16256H is dependent on the input levels of RAS and CAS. If RAS is low during Power-On, the device will go into an active cycle and ICC will exhibit current transients. It is recommended that RAS and CAS track with VCC or be held at a valid VIH during Power-On to avoid current surges.
CAS-Controlled Write Cycle (Early Write) WE-Controlled Write Cycle (Late Write) Read-Modify-Write Cycles Fast Page Mode Read Fast Page Mode Write Cycle (Early Write) Fast Page Mode ReadModify-Write Cycle RAS-only Refresh CAS-before-RAS Refresh Cycle CAS-only Cycles
V53C16256H Rev. 2.3 June 1998
17
MOSEL VITELIC
Package Diagram
40-Pin Plastic SOJ
1.025 TYP. (1.035 MAX.) [26.04 TYP. (26.29 MAX.)] 40 21
V53C16256H
Unit in inches [mm]
0.400 0.005 [10.16 0.127]
0.440 0.005 [11.18 0.127]
1
20 0.026 MIN [0.660 MIN] 0.144 MAX [3.66 MAX]
0.010
+ 0.004 - 0.002
+0.004 0.025 -0.002
+0.102 0.635 -0.051
+0.102 0.254 -0.051
0.050 0.006 [1.27 0.152]
0.04 [0.1]
0.018
+0.004 -0.002
+0.102 0.457 -0.051
40/44L-Pin TSOP-II
0.0047 - 0.0083 [0.119 - .211] 40 21 Unit in inches [mm]
0.017 - 0.023 [0.432 - 0.584]
0.462 - 0.470 [11.73 - 11.94]
0.396 - 0.404 [10.06 - 10.26]
1 0.0315 BSC [.8001 BSC] 0.039 - 0.047 [0.991 - 1.193] 0.721 - 0.729 [18.31 - 18.52] 0.012 - 0.016 [0.305 - 0.406]
20 0-5 0.002 - 0.008 [0.051 - 0.203] BASE PLANE SEATING PLANE
V53C16256H Rev. 2.3 June 1998
18
0.368 0.010 [9.35 0.254]
MOSEL VITELIC
U.S.A.
3910 NORTH FIRST STREET SAN JOSE, CA 95134 PHONE: 408-433-6000 FAX: 408-433-0185
WORLDWIDE OFFICES
TAIWAN
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V53C16256H
GERMANY (CONTINENTAL EUROPE & ISRAEL )
71083 HERRENBERG BENZSTR. 32 GERMANY PHONE: +49 7032 2796-0 FAX: +49 7032 2796 22
JAPAN
WBG MARINE WEST 25F 6, NAKASE 2-CHOME MIHAMA-KU, CHIBA-SHI CHIBA 261-71 PHONE: 81-43-299-6000 FAX: 81-43-299-6555
HONG KONG
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IRELAND & UK
BLOCK A UNIT 2 BROOMFIELD BUSINESS PARK MALAHIDE CO. DUBLIN, IRELAND PHONE: +353 1 8038020 FAX: +353 1 8038049
U.S. SALES OFFICES
NORTHWESTERN
3910 NORTH FIRST STREET SAN JOSE, CA 95134 PHONE: 408-433-6000 FAX: 408-433-0185
SOUTHWESTERN
SUITE 200 5150 E. PACIFIC COAST HWY. LONG BEACH, CA 90804 PHONE: 562-498-3314 FAX: 562-597-2174
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(c) Copyright 1997, MOSEL VITELIC Inc.
6/98 Printed in U.S.A.
The information in this document is subject to change without notice. MOSEL VITELIC makes no commitment to update or keep current the information contained in this document. No part of this document may be copied or reproduced in any form or by any means without the prior written consent of MOSEL-VITELIC.
MOSEL VITELIC subjects its products to normal quality control sampling techniques which are intended to provide an assurance of high quality products suitable for usual commercial applications. MOSEL VITELIC does not do testing appropriate to provide 100% product quality assurance and does not assume any liability for consequential or incidental arising from any use of its products. If such products are to be used in applications in which personal injury might occur from failure, purchaser must do its own quality assurance testing appropriate to such applications.
MOSEL VITELIC
3910 N. First Street, San Jose, CA 95134-1501 Ph: (408) 433-6000 Fax: (408) 433-0952 Tlx: 371-9461

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