HANBIT HDD32M64F8-13B

HANBit
HDD32M64F8
DDR SDRAM Module 256Mbyte (32Mx64bit), based on 32Mx8, 4Banks,
8K Ref., SMM,
Part No. HDD32M64F8
GENERAL DESCRIPTION
The HANBiT HDD32M64F8 is 32M bit x 64 Double Data Rate SDRAM high density memory modules. The HANBiT
HDD32M64F8 consists of eight CMOS 32M x 8 bit with 4banks Double Data Rate SDRAMs in 66pin TSOP-II(400mil)
packages mounted on a 200pin glass-epoxy substrate. Four 0.1uF decoupling capacitors are mounted on the printed circuit
board in parallel for each DDR SDRAM. The HDD32M64F8 is Dual In-line Memory Modules and inten-ded for mounting into
200pin edge connector sockets.
Synchronous design allows precise cycle control with the use of system clock. Data I/O transactions are possible on
both edges of DQS. Range of operating frequencies, programmable latencies and burst lengths allow the same device to be
useful for a variety of high bandwidth, high performance memory system applications.
FEATURES
• Part Identification
HDD32M64F8 – 10A
: 100MHz (CL=2)
HDD32M64F8 – 13A
: 133MHz (CL=2)
HDD32M64F8 – 13B
: 133MHz (CL=2.5)
• Power supply : VDD: 2.5V ± 0.2V, VDDQ: 2.5V ± 0.2V
• Double-data-rate architecture; two data transfers per clock cycle
• Bidirectional data strobe(DQS)
• Differential clock inputs(CK and CK)
• DLL aligns DQ and DQS transition with CK transition
• Programmable Read latency 2, 2.5 (clock)
• Programmable Burst length (2, 4, 8)
• Programmable Burst type (sequential & interleave)
• Edge aligned data output, center aligned data input
• Auto & Self refresh, 7.8us refresh interval(8K/64ms refresh)
• Serial presence detect with EEPROM
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REV 2.0 (November.2002)
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HANBit
HDD32M64F8
PIN ASSIGNMENT
P1
P2
PIN
Symbol
PIN
Symbol
PIN
Symbol
PIN
Symbol
PIN
Symbol
PIN
Symbol
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
/CS0
NC
VSS
CKE0
NC
NC
VDD
CK0
CK1
NC
VSS
NC
DM0
DM4
VDDQ
NC
NC
VSS
NC
DQS0
DQS4
VDD
NC
DQ0
DQ1
VSS
DQ2
DQ3
VDDQ
DQ4
DQ5
DQ6
VSS
DQ7
35
36
37
38
39
40
41
42
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
DQ15
DQ14
VDDQ
DQ13
DQ12
DQ11
VSS
DQ10
DQ9
DQ8
VDD
*SA0
*SA1
VSS
*SA2
VDDQ
VDD
/RAS
VSS
/CAS
/CK0
/CK1
VDD
/CK2
CK2
/WE
VSS
NC
DM1
DM5
VDDQ
NC
VREF
VSS
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
NC
DQS1
DQS5
VDD
NC
DQ39
DQ38
VSS
DQ37
DQ36
VDDQ
DQ35
DQ34
DQ33
VSS
DQ32
DQ40
DQ41
VDDQ
DQ42
DQ43
DQ44
VSS
DQ45
DQ46
DQ47
*SCL
*WP
*VSPD
VSS
*SDA
VDDIN
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
VDDQ
A3
VSS
A2
A1
A0
VDD
A10
A11
BA0
VSS
BA1
DM2
DM6
VDDQ
NC
NC
VSS
DQS7
DQS2
NC
VDD
DQ31
DQ30
DQ29
VSS
DQ28
DQ27
VDDQ
DQ26
DQ25
DQ24
VSS
DQ16
35
36
37
38
39
40
41
42
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
DQ17
DQ18
VDDQ
DQ19
DQ20
DQ21
VSS
DQ22
DQ23
NC(CB6)
VDD
NC(CB4)
NC(CB2)
VSS
NC(CB0)
VDDQ
VDD
A4
VSS
A5
A6
A7
VDD
A8
A9
A12
VSS
DM3
DM7
NC(DM8)
VDDQ
NC
NC(A13)
VSS
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
NC(DQS8)
DQS3
DQS6
VDD
DQ56
DQ57
DQ58
VSS
DQ59
DQ60
VDDQ
DQ61
DQ62
DQ63
VSS
DQ55
DQ54
DQ53
VDDQ
DQ52
DQ51
DQ50
VSS
DQ49
DQ48
NC(CB7)
VDD
NC(CB5)
NC(CB3)
VSS
NC(CB1)
VDD
* These pins should be NC in the system which does not support SPD
PIN
PIN DESCRIPTION
PIN
PIN DESCRIPTION
A0~A12
Address input
VDD
Power supply(2.5V)
BA0~BA1
Bank Select Address
VDDQ
Power supply for DQs(2.5V)
DQ0~DQ63
Data input/output
VREF
Power supply for reference
Serial EEPROM Power supply(3.3)
CB0~CB7
Check bit(Data input/output)
VSPD
DQS0~DQS7
Data Strobe input/output
VSS
Ground
DM0~DM7
Data-in Mask
SA0~SA2
Address in EEPROM
CK0~CK2,/CK0~/CK2
Clock input
SDA
Serial data I/O
CKE0
Clock enable input
SCL
Serial clock
/CS0
Chip Select input
WP
Write protection
/RAS
Row Address strobe
VDDIN
VDD indentification flag
/CAS
Column Address strobe
NC
No connection
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HANBit
HDD32M64F8
FUNCTIONAL BLOCK DIAGRAM
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HDD32M64F8
PIN FUNCTION DESCRIPTION
Pin
CK, /CK
Name
Clock
Input Function
CK and /CK are differential clock inputs. All address and control input signals are
sampled on the positive edge of CK and negative edge of CK. Output (read) data
is referenced to both edges of CK. Internal clock signals are derived from CK/CK.
CKE HIGH activates, and CKE LOW deactivates internal clock signals, and
device input buffers and output drivers. Deactivating the clock provides
PRECHARGE
POWER-DOWN and SELF REFRESH operation (all banks idle), or ACTIVE
CKE
Clock Enable
POWER-DOWN(row ACTIVE in any bank). CKE is synchronous for all functions
except for disabling outputs, which is achieved asynchronously. Input buffers,
excluding CK, CK and CKE are disabled during power-down and self refresh
modes, providing low standby power. CKE will recognizean LVCMOS LOW level
prior to VREF being stable on power-up.
/CS enables(registered LOW) and disables(registered HIGH) the command
decoder.
/CS
Chip Select
All commands are masked when /CS is registered HIGH. /CS provides for external
bank selection on systems with multiple banks. /CS is considered part of the
command code.
Row/column addresses are multiplexed on the same pins.
A0 ~ A12
Address
BA0 ~ BA1
Bank select address
/RAS
Row address strobe
/CAS
Columnaddress strobe
/WE
Write enable
DQS0 ~ 7
Data Strobe
Row address : RA0 ~ RA12, Column address : CA0 ~ CA9
BA0 and BA1 define to which bank an ACTIVE, READ, WRITE or PRE-CHARGE
command is being applied.
Latches row addresses on the positive going edge of the CLK with /RAS low.
Enables row access & precharge.
Latches column addresses on the positive going edge of the CLK with /CAS low.
Enables column access.
Enables write operation and row precharge.
Latches data in starting from /CAS, /WE active.
Output with read data, input with write data. Edge-aligned with read data, centered in write data. Used to capture write data.
DM is an input mask signal for write data. Input data is masked when DM is
sampled HIGH along with that input data during a WRITE access. DM is sampled
DM0~7
Input Data Mask
on both edges of DQS. DM pins include dummy loading internally, to matches the
DQ and DQS load-ing.
DQ0 ~ 63
Data input/output
Data inputs/outputs are multiplexed on the same pins.
WP pin is connected to Vcc.
WP
Write Protection
When WP is “high”, EEPROM Programming will be inhibited and the entire
memory will be write-protected.
VDDQ
Supply
DQ Power Supply : +2.5V ± 0.2V.
VDD
Supply
Power Supply : +2.5V ± 0.2V (device specific).
VSS
Supply
DQ Ground.
VREF
Supply
SSTL_2 reference voltage.
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REV 2.0 (November.2002)
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HANBit
HDD32M64F8
ABSOLUTE MAXIMUM RATINGS
PARAMETER
SYMBOL
RATING
UNTE
VIN, VOUT
-0.5 ~ 3.6
V
Voltage on VDD supply relative to Vss
VDD
-1.0 ~ 3.6
V
Voltage on VDDQ supply relative to Vss
VDDQ
-0.5 ~ 3.6
V
Storage temperature
TSTG
-55 ~ +150
°C
PD
8.0
W
Short circuit current
IOS
50
Notes: Permanent device damage may occur if ABSOLUTE MAXIMUM RATINGS are exceeded.
mA
Voltage on any pin relative to Vss
Power dissipation
Functional operation should be restricted to recommended operating condition.
Exposure to higher than recommended voltage for extended periods of time could affect device reliability.
POWER & DC OPERATING CONDITIONS
(Recommended operating conditions (Voltage referenced to Vss = 0V, TA = 0 to 70°C) )
PARAMETER
Supply Voltage
I/O Supply Voltage
SYMBOL
MIN
MAX
UNIT
VDD
2.3
2.7
V
VDDQ
2.3
2.7
V
NOTE
I/O Reference Voltage
VREF
VDDQ/2-50mV
VDDQ/2+50mV
V
1
I/O Termination Voltage(system)
VTT
VREF – 0.04
VREF + 0.04
V
2
Input High Voltage
VIH (DC)
VREF + 0.15
VREF + 0.3
V
Input Low Voltage
VIL (DC)
-0.3
VREF - 0.15
V
Input Voltage Level, CK and /CK inputs
VIN (DC)
-0.3
VDDQ + 0.3
V
Input Differential Voltage, CK and /CK inputs
VID (DC)
0.3
VDDQ + 0.6
V
Input leakage current
I LI
-2
2
uA
Output leakage current
I OZ
-5
5
uA
Output High current (VOUT = 1.95V)
I OH
-16.8
mA
Output Low current (VOUT = 0.35V)
I OL
16.8
mA
Output High Current(Half strengh driver)
IOH
-9
mA
Output High Current(Half strengh driver)
IOL
9
mA
3
Notes
1. Includes ± 25mV margin for DC offset on VREF, and a combined total of ± 50mV margin for all AC noise and DC offset on VREF,
bandwidth limited to 20MHz. The DRAM must accommodate DRAM current spikes on VREF and internal DRAM noise coupled
TO VREF, both of which may result in VREF noise. VREF should be de-coupled with an inductance of £ 3nH.
2. VTT is not applied directly to the device. V TT is a system supply for signal termination resistors, is expected to be set equal to
VREF, and must track variations in the DC level of VREF
3. VID is the magnitude of the difference between the input level on CK and the input level on CK.
4. These parameters should be tested at the pin on actual components and may be checked at either the pin or the pad in
simulation. The AC and DC input specifications are relative to a VREF envelop that has been bandwidth limited to 200MHZ.
5. The value of VIX is expected to equal 0.5*VDDQ of the transmitting device and must track variations in the dc level of the same.
6. These charactericteristics obey the SSTL-2 class II standards.
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REV 2.0 (November.2002)
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HANBit
HDD32M64F8
INPUT/OUTPUT CAPACITANCE
(VDD = 2.5V, VDDQ = 2.5V, TA = 25°C, f = 1MHz)
DESCRIPTION
SYMBOL
MIN
MAX
UNITS
Input Capacitance(A0 ~ A12, BA0 ~ BA1,RAS,CAS, WE )
CIN1
49
57
pF
Input Capacitance(CKE0)
CIN2
42
50
pF
Input Capacitance( CS0)
CIN3
42
50
pF
Input Capacitance( CLK0, CLK1,CLK2 )
CIN4
22
25
pF
COUT1
6
8
pF
CIN5
6
8
pF
Data & DQS input/output Capacitance(DQ0~DQ63)
Input Capacitance(DM0~DM8)
AC OPERATING CONDITIONS
PARAMETER/ CONDITION
STMBOL
MIN
Input High (Logic 1) Voltage, DQ, DQS and DM signals
VIH (AC)
VREF + 0.31
Input Low (Logic 0) Voltage, DQ, DQS and DM signals.
VIL (AC)
Input Differential Voltage, CK and CK inputs
VID (AC)
Input Crossing Point Voltage, CK and CK inputs
VIX (AC)
MAX
UNIT
NOTE
3
VREF - 0.31
V
3
0.7
VDDQ+0.6
V
1
0.5*VDDQ-0.2
0.5*VDDQ+0.2
V
2
Note 1. VID is the magnitude of the difference between the input level on CK and the input on CK.
2. The value of V IX is expected to equal 0.5* VDDQ of the transmitting device and must track variations in the DC level of the same.
3. These parameters should be tested at the pim on actual components and may be checked at either the pin or the pad in simulation.
the AC and DC input specificatims are refation to a VREF envelope that has been bandwidth limited 20MHz.
AC OPERATING TEST CONDITIONS
PARAMETER
VALUE
UNIT
Input reference voltage for Clock
0.5 * VDDQ
V
Input signal maximum peak swing
1.5
V
Input signal minimum slew rate
0.5
V/ns
VREF+0.31/VREF-0.31
V
Input timing measurement reference level
VREF
V
Output timing measurement reference level
VTT
V
See Load Circuit
V
Input Levels(VIH/VIL)
Output load condition
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REV 2.0 (November.2002)
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NOTE
HANBit Electronics Co.,Ltd.
HANBit
HDD32M64F8
AC TIMMING PARAMETERS & SPECIFICATIONS (THESEACCHARICTERISTICSWERETESTEDON THECOMPONENT)
PARAMETER
DDR200
DDR266A
DDR266B
-10A
-13A
-13B
SYMBOL
MIN
MAX
MIN
MAX
MIN
UNIT
NOTE
MAX
Row cycle time
tRC
70
65
65
ns
1
Refresh row cycle time
tRFC
80
75
75
ns
1,2
Row active time
tRAS
48
ns
1,2
/RAS to /CAS delay
tRCD
20
20
20
ns
3
Row precharge time
tRP
20
20
20
ns
3
Row active to Row active delay
tRRD
15
15
15
ns
3
Write recovery time
tWR
2
2
2
tCK
3
Last data in to Read command
tCDLR
1
1
1
tCK
2
Col. address to Col. address delay
tCCD
1
1
1
tCK
CL=2.0
Clock cycle time
10
120K
45
120K
45
120K
12
7.5
12
10
12
ns
12
7.5
12
7.5
12
ns
tCK
CL=2.5
Clock high level width
tCH
0.45
0.55
0.45
0.55
0.45
0.55
tCK
Clock low level width
tCL
0.45
0.55
0.45
0.55
0.45
0.55
tCK
tDQSCK
-0.8
+0.8
-0.75
+0.75
-0.75
+0.75
ns
Output data access time from CK/CK
tAC
-0.8
+0.8
-0.75
+0.75
-0.75
+0.75
ns
Data strobe edge to ouput data edge
tDQSQ
-
+0.6
-
+0.5
-
+0.5
ns
Read Preamble
tRPRE
0.9
1.1
0.9
1.1
0.9
1.1
tCK
Read Postamble
tRPST
0.4
0.6
0.4
0.6
0.4
0.6
tCK
Data out high impedence time from CK-/CK
tHZQ
-0.8
+0.8
-0.75
+0.75
-0.75
+0.75
ns
CK to valid DQS-in
tDQSS
0.75
1.25
0.75
1.25
0.75
1.25
tCK
DQS-in setup time
tWPRES
0
0
0
ns
DQS-in hold time
tWPREH
0.25
0.25
0.25
tCK
DQS-in falling edge to CK rising-setup time
tDSS
0.2
0.2
0.2
tCK
DQS-in falling edge to CK rising hold time
tDSH
0.2
0.2
0.2
tCK
DQS-in high level width
tDQSH
0.35
0.35
0.35
tCK
DQS-in low level width
tDQSL
0.35
0.35
0.35
tCK
DQS-in cycle time
tDSC
0.9
Address and Control Input setup time
tIS
1.1
0.9
0.9
ns
Address and Control Input hold time
tIH
1.1
0.9
0.9
ns
Mode register set cycle time
tMRD
16
15
15
ns
DQ & DM setup time to DQS
tDS
0.6
0.5
0.5
ns
DQ & DM hold time to DQS
tDH
0.6
0.5
0.5
ns
DQ & DM input pulse width
tDIPW
2
1.75
1.75
ns
Power down exit time
tPDEX
10
10
10
ns
DQS-out access time from CK/CK
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REV 2.0 (November.2002)
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1.1
0.9
1.1
0.9
1.1
tCK
HANBit Electronics Co.,Ltd.
2
3
HANBit
HDD32M64F8
Exit self refresh to write command
tXSW
116
95
ns
Exit self refresh to bank active command
tXSA
80
75
75
ns
Exit self refresh to read command
tXSR
200
200
200
Cycle
Refresh interval time
tREF
15.6
15.6
15.6
us
Output DQS valid window
tQH
0.35
0.35
0.35
tCK
DQS write postamble time
tWPST
0.25
0.25
0.25
tCK
Notes :
1. Maximum burst refresh cycle : 8
2. The specific requirement is that DQS be valid(High or Low) on or before this CK edge. The case shown(DQS going from
High_Z to logic Low) applies when no writes were previously in progress on the bus. If a previous write was in progress,
DQS could be High at this time, depending on tDQSS.
3. The maximum limit for this parameter is not a device limit. The device will operate with a great value for this parameter,
but system performance (bus turnaround) will degrade accordingly.
4. A write command can be applied with tRCD satisfied after this command.
5. For registered DIMMs, tCL and tCH are ≥ 45% of the period including both the half period jitter (tJIT(HP) ) of the PLL and the half jitter due to
crosstalk (tJIT(crosstalk) ) on the DIMM.
6. Input Setup/Hold Slew Rate Derating
Input Setup/Hold Slew Rate
Δ tIS
(V/ns)
(ps)
0.5
0
0.4
+50
0.3
+100
Δ tIH
(ps)
0
+50
+100
This derating table is used to increase tDS/tDH in the case where the input slew rate is below 0.5V/ns. Input setup/hold slew rate
based on the lesser of AC-AC slew rate and DC-DC slew rate.
7. I/O Setup/Hold Slew Rate Derating
Input Setup/Hold Slew Rate
Δ tIS
(V/ns)
(ps)
0.5
0
0.4
+75
0.3
+150
Δ tIH
(ps)
0
+75
+150
This derating table is used to increase tDS/tDH in the case where the I/O slew rate is below 0.5V/ns. I/O setup/hold slew rate
based on the lesser of AC-AC slew rate and DC-DC slew rate.
8. I/O Setup/Hold Plateau Derating
I/O Input Level
Δ tDS
(mV)
(ps)
+50
± 280
Δ tDH
(ps)
+50
This derating table is used to increase tDS/tDH in the case where the input level is flat below VREF ± 310mV for a duration of up to 2ns.
9. I/O Delta Rise/Fall Rate(1/slew-rate) Derating
Delta Rise/Fall Rate
Δ tDS
(ns/V)
(ps)
0
0
±0.25
+50
±0.5
+100
Δ tDH
(ps)
0
+50
+100
This derating table is used to increase tDS/tDH in the case where the DQ and DQS slew rates differ. The Delta Rise/Fall Rate
is calated as 1/SlewRate1-1/SlewRate2. For example, if slew rate 1 = 5V/ns and slew rate 2 =.4V/ns then the Delta Rise/Fall
Rate =-0/5ns/V. Input S/H slew rate based on larger of AC-AC delta rise/fall rate and DC-DC delta rise/fall rate.
10. This parameter is fir system simulation purpose. It is guranteed by design.
11. For each of the terms, if not already an integer, round to the next highest integer. tCK is actual to the system clock cycle time.
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HDD32M64F8
COMMAND TRUTH TABLE (V=VALID, X=DOν¢ T CARE, H=LOGIC HIGH, L=LOGIC LOW)
COMMAND
CKE
n-1
CKE
n
/CS
/RAS
/CAS
/WE
DM
BA
0,1
A10/
AP
A11
A9~A0
NOTE
Register
Extended MRS
H
X
L
L
L
L
X
OP code
1,2
Register
Mode register set
H
X
L
L
L
L
X
OP code
1,2
L
L
L
H
X
X
X
X
Auto refresh
Refresh
Self
refresh
Entry
Exit
Bank active & Row Addr.
Read &
column
address
Write &
column
address
Auto
precharge
Auto
L
H
H
X
L
H
H
H
H
X
X
X
L
L
H
H
H
X
L
H
L
precharge
disable
Auto
X
V
H
X
precharge
X
L
H
L
X
L
H
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
H
X
X
X
L
H
H
H
H
X
X
X
L
V
V
V
H
X
X
X
L
H
H
H
Bank selection
All banks
active power down
Precharge power
Exit
DM
No operation command
L
H
H
H
X
X
X
3
H
(A0 ~ A9)
4
4
Column
4
Address
Address
(A0 ~ A9)
H
H
3
Column
V
L
3
L
L
X
3
Row address
V
H
H
enable
Clock suspend or
down mode
L
eable
Burst Stop
Precharge
H
precharge
disable
Auto
H
4,6
X
V
L
X
H
7
X
X
X
X
X
X
V
X
X
X
Note :
1. OP Code : Operand Code. A0 ~ A12 & BA0 ~ BA1 : Program keys. (@EMRS/MRS)
2. EMRS/ MRS can be issued only at all banks precharge state.
A new command can be issued 2 clock cycles after EMRS or MRS.
3. Auto refresh functions are same as the 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 BA0 is "High" and BA1 is "Low" at read, write, row active and precharge, bank B is selected.
If BA0 is "Low" and BA1 is "High" 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.
5. If A10/AP is "High" at row precharge, BA0 and BA1 are ignored and all banks are selected.
6. During burst 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.
7. Burst stop command is valid at every burst length.
8. DM sampled at the rising and falling edges of the DQS and Data-in are masked at the both edges (Write DM latency is 0).
9. This combination is not defined for any function, which means "No Operation(NOP)" in DDR SDRAM.
URL : www.hbe.co.kr
REV 2.0 (November.2002)
9
5
HANBit Electronics Co.,Ltd.
8
HANBit
HDD32M64F8
PACKAGE DIMENSIONS
Unit : mm
Front – Side
Rear-Side
URL : www.hbe.co.kr
REV 2.0 (November.2002)
10
HANBit Electronics Co.,Ltd.
HANBit
HDD32M64F8
ORDERING INFORMATION
Part Number
Density
Org.
Package
Ref.
Vcc
MODE
MAX.frq
HDD32M64F8-10A
256MByte
32M x 64
200PIN SMM
8K
2.5V
DDR
100MHz/CL2
HDD32M64F8-13A
256MByte
32M x 64
200PIN SMM
8K
2.5V
DDR
133MHz/CL2
HDD32M64F8-13B
256MByte
32M x 64
200PIN SMM
8K
2.5V
DDR
133MHz/CL2.5
URL : www.hbe.co.kr
REV 2.0 (November.2002)
11
HANBit Electronics Co.,Ltd.