WEDC WSE128K16

White Electronic Designs
WSE128K16-XXX
PRELIMINARY*
128Kx16 SRAM/EEPROM MODULE
FEATURES
Access Times of 35ns (SRAM) and 150ns (EEPROM)
Access Times of 45ns (SRAM) and 120ns (EEPROM)
Access Times of 70ns (SRAM) and 300ns (EEPROM)
Packaging
• 66 pin, PGA Type, 1.075" square HIP, Hermetic
Ceramic HIP (H1) (Package 400)
Commercial, Industrial and Military Temperature
Ranges
TTL Compatible Inputs and Outputs
Built-in Decoupling Caps and Multiple Ground Pins
for Low Noise Operation
Weight - 13 grams typical
EEPROM MEMORY FEATURES
• 68 lead, Hermetic CQFP (G2T), 22mm (0.880")
square (Package 509). Designed to fit JEDEC 68
lead 0.990" CQFJ footprint (FIGURE 2)
Write Endurance 10,000 Cycles
Data Retention at 25°C, 10 Years
Low Power CMOS Operation
128Kx16 SRAM
128Kx16 EEPROM
Automatic Page Write Operation
Organized as 128Kx16 of SRAM and 128Kx16 of
EEPROM Memory with separate Data Buses
Page Write Cycle Time 10ms Max.
Data Polling for End of Write Detection
Both blocks of memory are User Configurable as
256Kx8
Hardware and Software Data Protection
TTL Compatible Inputs and Outputs
Low Power CMOS
* This product is under development, is not qualified or characterized and is subject to
change without notice.
FIGURE 1 – WSE128K16-XH1X PIN
CONFIGURATION
PIN DESCRIPTION
ED0-15
SD0-15
A0-16
SWE#1-2
SCS#1-2
OE#
VCC
GND
NC
EWE#1-2
ECS#1-2
Top View
1
11
12
23
34
45
56
SD8
SWE2#
SD15
ED8
VCC
ED15
SD9
SCS2#
SD14
ED9
ECS2#
ED14
SD10
GND
SD13
ED10
EWE2#
ED13
A13
SD11
SD12
A6
ED11
ED12
A14
A10
OE#
A7
A3
A0
A15
A11
NC
NC
A4
A1
A16
A12
SWE#1
A8
A5
A2
NC
VCC
SD7
A9
EWE1#
ED7
SD0
SCS1#
SD6
ED0
ECS1#
ED6
SD1
NC
SD5
ED1
GND
ED5
SD2
SD3
SD4
ED2
ED3
ED5
22
33
44
55
EEPROM Data Inputs/Outputs
SRAM Data Inputs/Outputs
Address Inputs
SRAM Write Enable
SRAM Chip Selects
Output Enable
Power Supply
Ground
Not Connected
EEPROM Write Enable
EEPROM Chip Select
BLOCK DIAGRAM
SWE 1 # SCS 1 #
SWE 2 # SCS 2 #
EWE 1 # ECS 1 #
EWE 2 # ECS 2 #
128K x 8
EEPROM
128K x 8
EEPROM
OE#
A0-16
128K x 8
SRAM
128K x 8
SRAM
8
8
8
8
SD 0 - 7
SD 8 - 1 5
ED 0 - 7
ED 8 - 1 5
66
White Electronic Designs Corp. reserves the right to change products or specifications without notice.
March 2005
Rev. 3
1
White Electronic Designs Corporation • (602) 437-1520 • www.wedc.com
White Electronic Designs
WSE128K16-XXX
PRELIMINARY
FIGURE 2 WSE128K16-XG2TX PIN CONFIGURATION
Top View
NC
A0
A1
A2
A3
A4
A5
ECS1#
GND
ECS2#
SWE1#
A6
A7
A8
A9
A10
VCC
PIN DESCRIPTION
ED0-15
SD0-15
A0-16
SWE#1-2
SCS#1-2
OE#
VCC
GND
NC
EWE#1-2
ECS#1-2
9 8 7 6 5 4 3 2 1 68 67 66 65 64 63 62 61
ED0
ED1
ED2
ED3
ED4
ED5
ED6
ED7
GND
ED8
ED9
ED10
ED11
ED12
ED13
ED14
ED15
BLOCK DIAGRAM
SWE 1 # SCS 1 #
SWE 2 # SCS 2 #
EWE 1 # ECS 1 #
EWE 2 # ECS 2 #
128K x 8
EEPROM
128K x 8
EEPROM
OE#
A0-16
A16
SCS1#
OE#
SCS2#
NC
SWE2#
EWE1#
EWE2#
NC
NC
NC
A15
A14
A13
A12
60
59
58
57
56
55
54
53
52
51
50
49
48
47
46
45
44
27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43
A11
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
VCC
SD0
SD1
SD2
SD3
SD4
SD5
SD6
SD7
GND
SD8
SD9
SD10
SD11
SD12
SD13
SD14
SD15
EEPROM Data Inputs/Outputs
SRAM Data Inputs/Outputs
Address Inputs
SRAM Write Enable
SRAM Chip Selects
Output Enable
Power Supply
Ground
Not Connected
EEPROM Write Enable
EEPROM Chip Select
128K x 8
SRAM
128K x 8
SRAM
8
8
8
8
SD 0 - 7
SD 8 - 1 5
ED 0 - 7
ED 8 - 1 5
0.940"
The WEDC 68 lead G2T CQFP fills the same fit and
function as the JEDEC 68 lead CQFJ or 68 PLCC. But
the G2T has the TCE and lead inspection advantage
of the CQFP form.
White Electronic Designs Corp. reserves the right to change products or specifications without notice.
March 2005
Rev. 3
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White Electronic Designs
WSE128K16-XXX
PRELIMINARY
ABSOLUTE MAXIMUM RATINGS
Parameter
Operating Temperature
Storage Temperature
Signal Voltage Relative to GND
Junction Temperature
Supply Voltage
Symbol
TA
TSTG
VG
TJ
VCC
Min
-55
-65
-0.5
-0.5
RECOMMENDED OPERATING CONDITIONS
Max
+125
+150
VCC+0.5
150
7.0
Unit
°C
°C
V
°C
V
Parameter
Supply Voltage
Input High Voltage
Input Low Voltage
Operating Temp. (Mil.)
Symbol
VCC
VIH
VIL
TA
Min
4.5
2.0
-0.3
-55
Max
5.5
VCC + 0.3
+0.8
+125
Unit
V
V
V
°C
EEPROM TRUTH TABLE
CAPACITANCE
CS#
H
L
L
X
X
X
TA = +25°C
Parameter
OE# capacitance
WE#1-4 capacitance
HIP (PGA)
CQFP G2T
CS#1-4 capacitance
Data I/O capacitance
Address input capacitance
Symbol Conditions
COE
VIN = 0 V, f = 1.0 MHz
CWE
CCS
CI/O
CAD
Max Unit
50 pF
VIN = 0 V, f = 1.0 MHz
VIN = 0 V, f = 1.0 MHz
VI/O = 0 V, f = 1.0 MHz
VIN = 0 V, f = 1.0 MHz
20
20
20
20
50
pF
OE#
X
L
H
H
X
L
WE#
X
H
L
X
H
X
pF
pF
pF
Mode
Standby
Read
Write
Out Disable
Write
Inhibit
Data I/O
High Z
Data Out
Data In
High Z/Data Out
SRAM TRUTH TABLE
This parameter is guaranteed by design but not tested.
SCS# OE# SWE#
H
X
X
L
L
H
L
H
H
L
X
L
Mode
Standby
Read
Read
Data I/O
High Z
Data Out
High Z
Power
Standby
Active
Active
Write
Data In
Active
DC CHARACTERISTICS
VCC = 5.0V, GND = 0V, -55°C ≤ TA ≤ +125°C
Parameter
Input Leakage Current
Output Leakage Current
SRAM Operating Supply Current x 16 Mode
Standby Current
(35 to 45ns)
SRAM Output Low Voltage
(70ns)
(35 to 45ns)
SRAM Output High Voltage
(70ns)
EEPROM Operating Supply Current x 16 Mode
EEPROM Output Low Voltage
EEPROM Output High Voltage
Symbol
ILI
ILO
ICCx16
ISB
VOL
VOL
VOH
VOH
ICC1
VOL
VOH1
Conditions
VCC = 5.5, VIN = GND to VCC
SCS# = VIH, OE# = VIH, VOUT = GND to VCC
SCS# = VIL, OE# = ECS# = VIH, f = 5MHz, VCC = 5.5
ECS# = SCS# = VIH, OE# = VIH, f = 5MHz, VCC = 5.5
IOL = 8.0mA, VCC = 4.5
IOL = 2.1mA, VCC = 4.5
IOH = -4.0mA, VCC = 4.5
IOH = -1mA, VCC = 4.5
ECS# = VIL, OE# = SCS# = VIH
IOL = 2.1 mA, VCC = 4.5V
IOH = 400 µA, VCC = 4.5V
Min
Max
10
10
360
31.2
0.4
0.4
2.4
2.4
155
0.45
2.4
Unit
µA
µA
mA
mA
V
V
V
V
mA
V
V
NOTES:
1. The ICC current listed includes both the DC operating current and the frequency dependent component (@ 5 MHz).
The frequency component typically is less than 2 mA/MHz, with OE at VIH.
2. DC test conditions: VIL = 0.3V, VIH = VCC - 0.3V
White Electronic Designs Corp. reserves the right to change products or specifications without notice.
March 2005
Rev. 3
3
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White Electronic Designs
WSE128K16-XXX
PRELIMINARY
SRAM AC CHARACTERISTICS
VCC = 5.0V, GND = 0V, -55°C ≤ TA ≤ +125°C
Parameter
Read Cycle
Symbol
Read Cycle Time
Address Access Time
Output Hold from Address Change
Chip Select Access Time
Output Enable to Output Valid
Chip Select to Output in Low Z
Output Enable to Output in Low Z
Chip Disable to Output in High Z
Output Disable to Output in High Z
tRC
tAA
tOH
tACS
tOE
tCLZ1
tOLZ1
tCHZ1
tOHZ1
-35
-45
Min
Max
Min
35
-70
Max
45
Min
Max
70
35
45
0
0
70
5
35
20
45
25
3
0
3
0
70
35
5
5
20
20
20
20
25
25
Units
ns
ns
ns
ns
ns
ns
ns
ns
ns
1. This parameter is guaranteed by design but not tested.
SRAM AC CHARACTERISTICS
VCC = 5.0V, GND = 0V, -55°C ≤ TA ≤ +125°C
Parameter
Write Cycle
Symbol
Write Cycle Time
Chip Select to End of Write
Address Valid to End of Write
Data Valid to End of Write
Write Pulse Width
Address Setup Time
Address Hold Time
Output Active from End of Write
Write Enable to Output in High Z
Data Hold Time
tWC
tCW
tAW
tDW
tWP
tAS
tAH
tOW1
tWHZ1
tDH
-35
-45
Min
35
25
25
20
25
0
0
4
Max
Min
45
30
30
25
30
0
0
4
20
-70
Max
Min
70
60
60
30
50
5
5
5
25
0
0
Max
25
0
Units
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
1. This parameter is guaranteed by design but not tested.
FIGURE 3 – AC TEST CIRCUIT
AC TEST CONDITIONS
Parameter
Input Pulse Levels
Input Rise and Fall
Input and Output Reference Level
Output Timing Reference Level
I OL
Current Source
VZ ≈ 1.5V
D.U.T.
Unit
V
ns
V
V
NOTES:
VZ is programmable from -2V to +7V.
IOL & IOH programmable from 0 to 16mA.
Tester Impedance Z0 = 75 Ω.
VZ is typically the midpoint of VOH and VOL.
IOL & IOH are adjusted to simulate a typical resistive load circuit.
ATE tester includes jig capacitance.
(Bipolar Supply)
C eff = 50 pf
Typ
VIL = 0, VIH = 3.0
5
1.5
1.5
I OH
Current Source
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March 2005
Rev. 3
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WSE128K16-XXX
PRELIMINARY
FIGURE 4 – SRAM READ CYCLES
tRC
ADDRESS
tRC
tAA
ADDRESS
SCS#
tAA
tACS
tOH
SRAM
DATA I/O
tCHZ
tCLZ
PREVIOUS DATA VALID
SOE#
DATA VALID
SRAM
DATA I/O
READ CYCLE 1, (SCS# = OE# = VIL, SWE# = VIH)
tOE
tOLZ
HIGH IMPEDANCE
tOHZ
DATA VALID
READ CYCEL 2, (SWE# = VIH)
FIGURE 5 – SRAM WRITE CYCLE SWE# CONTROLLED
tWC
ADDRESS
tAW
tCW
tAH
SCS#
tAS
tWP
SWE#
tDW
tWHZ
SRAM
DATA I/O
tOW
tDH
DATA VALID
WRITE CYCLE 1, SWE# CONTROLLED
FIGURE 6 – SRAM WRITE CYCEL SCS# CONTROLLED
tWC
ADDRESS
tAS
tAW
tAH
tCW
SCS#
tWP
SWE#
tDW
SRAM
DATA I/O
tDH
DATA VALID
WRITE CYCLE 2, SCS# CONTROLLED
White Electronic Designs Corp. reserves the right to change products or specifications without notice.
March 2005
Rev. 3
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WSE128K16-XXX
PRELIMINARY
EEPROM AC WRITE CHARACTERISTICS
EEPROM WRITE
VCC = 5.0V, GND = 0V, -55°C ≤ TA ≤ +125°C
A write cycle is initiated when OE# is high and a low pulse
is on EWE# or ECS# with ECS# or EWE# low. The address
is latched on the falling edge of ECS# or EWE# whichever
occurs last. The data is latched by the rising edge of ECS#
or EWE#, whichever occurs first. A byte write operation
will automatically continue to completion.
Write Cycle Parameter
Write Cycle Time, TYP = 6ms
Address Set-up Time
Write Pulse Width (EWE# or ECS#)
Chip Select Set-up Time
Address Hold Time
Data Hold Time
Chip Select Hold Time
Data Set-up Time
Output Enable Set-up Time
Output Enable Hold Time
Write Pulse Width High
WRITE CYCLE TIMING
Figures 7 and 8 show the write cycle timing relationships.
A write cycle begins with address application, write enable
and chip select. Chip select is accomplished by placing the
ECS# line low. Write enable consists of setting the EWE#
line low. The write cycle begins when the last of either
ECS# or EWE# goes low.
Symbol
tWC
tAS
tWP
tCS
tAH
tDH
tCSH
tDS
tOES
tOEH
tWPH
Min
0
150
0
100
10
0
100
10
10
50
Max
10
Unit
ms
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
The EWE# line transition from high to low also initiates
an internal 150 µsec delay timer to permit page mode
operation. Each subsequent EWE# transition from high
to low that occurs before the completion of the 150 µsec
time out will restart the timer from zero. The operation of
the timer is the same as a retriggerable one-shot.
White Electronic Designs Corp. reserves the right to change products or specifications without notice.
March 2005
Rev. 3
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White Electronic Designs
WSE128K16-XXX
PRELIMINARY
FIGURE 7 – EEPROM WRITE WAVEFORMS EWE# CONTROLLED
tWC
OE#
tOEH
tOES
ADDRESS
ECS#1-2
tAS
EWE#1-2
tCS
tCSH
tAH
tWP
tWPH
tDS
tDH
EEPROM
DATA IN
FIGURE 8 – EEPROM WRITE WAVEFORMS ECS# CONTROLLED
tWC
OE#
tOEH
tOES
ADDRESS
tAS
tCSH
tAH
ECS#1-2
tCS
EWE#1-2
tWP
tWPH
tDS
tDH
EEPROM
DATA IN
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March 2005
Rev. 3
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WSE128K16-XXX
PRELIMINARY
EEPROM READ
The WSE128K16-XXX EEPROM stores data at the
memory location determined by the address pins. When
ECS# and OE# are low and EWE# is high, this data is
present on the outputs. When ECS# and OE# are high,
the outputs are in a high impedance state. This two line
control prevents bus contention.
EEPROM AC READ CHARACTERISTICS
VCC = 5.0V, GND = 0V, -55°C ≤ TA ≤ +125°C
Read Cycle Parameter
Symbol
Read Cycle Time
Address Access Time
Chip Select Access Time
Output Hold from Add. Change, OE# or ECS#
Output Enable to Output Valid
Chip Select or OE# to High Z Output
tRC
tACC
tACS
tOH
tOE
tDF
-120
Min
120
-150
Max
Min
150
120
120
0
0
-300
Max
Min
300
150
150
0
0
50
70
55
70
Max
300
300
0
0
85
70
Unit
ns
ns
ns
ns
ns
ns
FIGURE 9 – EEPROM READ WAVEFORMS
tRC
ADDRESS
ADDRESS VALID
ECS#1-2
tACS
tOE
OE#
tDF
tACC
EEPROM
DATA
OUTPUT
tOH
HIGH Z
OUTPUT
VALID
Note: OE# may be delayed up to tACS - tOE after the falling edge of ECS# without impact on tOE or by tACC - tOE after an address change without impact on tACC.
White Electronic Designs Corp. reserves the right to change products or specifications without notice.
March 2005
Rev. 3
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White Electronic Designs
WSE128K16-XXX
PRELIMINARY
EEPROM DATA POLLING CHARACTERISTICS
EEPROM DATA POLLING
VCC = 5.0V, GND = 0V, -55°C ≤ TA ≤ +125°C
The WSE128K16-XXX offers a data polling feature for
the EEPROM which allows a faster method of writing to
the device. Figure 11 shows the timing diagram for this
function. During a byte or page write cycle, an attempted
read of the last byte written will result in the complement
of the written data on D7 (for each chip.) Once the write
cycle has been completed, true data is valid on all outputs
and the next cycle may begin. Data polling may begin at
any time during the write cycle.
Parameter
Data Hold Time
OE# Hold Time
OE# To Output Valid
Write Recovery Time
Symbol
tDH
tOEH
tOE
tWR
Min
10
10
Max
55
0
Unit
ns
ns
ns
ns
FIGURE 10 – EEPROM DATA POLLING WAVEFORMS
EWE#1-2
ECS#1-2
tOEH
OE#
tDH
ED7
tOE
HIGH Z
tWR
ADDRESS
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March 2005
Rev. 3
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WSE128K16-XXX
PRELIMINARY
EEPROM PAGE WRITE OPERATION
The WSE128K16-XXX has a page write operation
that allows one to 128 bytes of data to be written into
the device and consecutively loads during the internal
programming period. Successive bytes may be loaded
in the same manner after the first data byte has been
loaded. An internal timer begins a time out operation at
each write cycle. If another write cycle is completed within
150µs or less, a new time out period begins. Each write
cycle restarts the delay period. The write cycles can be
continued as long as the interval is less than the time out
period.
After the 150µs time out is completed, the EEPROM
begins an internal write cycle. During this cycle the entire
page of bytes will be written at the same time. The internal
programming cycle is the same regardless of the number
of bytes accessed.
EEPROM PAGE WRITE CHARACTERISTICS
VCC = 5.0V, GND = 0V, -55°C ≤ TA ≤ +125°C
Page Mode Write Characteristics
Parameter
Write Cycle Time, TYP = 6ms
Address Set-up Time
Address Hold Time (1)
Data Set-up Time
Data Hold Time
Write Pulse Width
Byte Load Cycle Time
Write Pulse Width High
The usual procedure is to increment the least significant
address lines from A0 through A6 at each write cycle. In
this manner a page of up to 128 bytes can be loaded in
to the EEPROM in a burst mode before beginning the
relatively long interval programming cycle.
Symbol
tWC
tAS
tAH
tDS
tDH
tWP
tBLC
tWPH
Min
Max
Unit
10
ms
ns
ns
ns
ns
ns
µs
ns
0
100
100
10
150
150
50
NOTE:
1. Page address must remain valid for duration of write cycle.
FIGURE 11 – EEPROM PAGE MODE WRITE WAVEFORMS
OE#
ECS#1-2
t WPH
t WP
t BLC
EWE#1-2
t AS
ADDRESS
t AH
VALID
ADDRESS
t DS
EEPROM
DATA
VALID
DATA
t DH
BYTE 0
t WC
BYTE 1
BYTE 2
BYTE 3
BYTE 127
White Electronic Designs Corp. reserves the right to change products or specifications without notice.
March 2005
Rev. 3
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WSE128K16-XXX
PRELIMINARY
FIGURE 12 – EEPROM SOFTWARE DATA PROTECTION ENABLE ALGORITHM(1)
LOAD DATA AA
TO
ADDRESS 5555
LOAD DATA 55
TO
ADDRESS 2AAA
LOAD DATA A0
TO
ADDRESS 5555
LOAD DATA XX
TO
ANY ADDRESS(4)
LOAD LAST BYTE
TO
LAST ADDRESS
WRITES ENABLED(2)
ENTER DATA
PROTECT STATE
NOTES:
1. Data Format: ED7 - ED0 (Hex);
Address Format: A16 - A0 (Hex).
2. Write Protect state will be activated at end of write even if no other data is loaded.
3. Write Protect state will be deactivated at end of write period even if no other data is loaded.
4. 1 to 128 bytes of data may be loaded.
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March 2005
Rev. 3
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White Electronic Designs
WSE128K16-XXX
PRELIMINARY
FIGURE 13 – EEPROM SOFTWARE DATA
PROTECTION DISABLE ALGORITHM(1)
EXIT DATA(3)
PROTECT STATE
EEPROM SOFTWARE DATA
PROTECTION
A software write protection feature may be enabled
or disabled by the user. When shipped by WEDC, the
WSE128K16-XXX has the feature disabled. Write access
to the device is unrestricted.
LOAD DATA AA
TO
ADDRESS 5555
LOAD DATA 55
TO
ADDRESS 2AAA
LOAD DATA 80
TO
ADDRESS 5555
LOAD DATA AA
TO
ADDRESS 5555
LOAD DATA 55
TO
ADDRESS 2AAA
LOAD DATA 20
TO
ADDRESS 5555
LOAD DATA XX
TO
ANY ADDRESS(4)
LOAD LAST BYTE
TO
LAST ADDRESS
To enable software write protection, the user writes three
access code bytes to three special internal locations.
Once write protection has been enabled, each write to the
EEPROM must use the same three byte write sequence
to permit writing. After setting software data protection,
any attempt to write to the device without the three-byte
command sequence will start the internal write timers. No
data will be written to the device, however, for the duration
of twc. The write protection feature can be disabled by
a six byte write sequence of specific data to specific
locations. Power transitions will not reset the software
write protection.
Each 128K byte block of the EEPROM has independent
write protection. One or more blocks may be enabled and
the rest disabled in any combination. The software write
protection guards against inadvertent writes during power
transitions, or unauthorized modification using a PROM
programmer.
EEPROM HARDWARE DATA
PROTECTION
These features protect against inadvertent writes to
the WSE128K16-XXX. These are included to improve
reliability during normal operation:
NOTES:
1. Data Format: ED7 - ED0 (Hex);
Address Format: A16 - A0 (Hex).
2. Write Protect state will be activated at end of write even if no other data
is loaded.
3. Write Protect state will be deactivated at end of write period even if no
other data is loaded.
4. 1 to 128 bytes of data may be loaded.
a)
VCC power on delay
As VCC climbs past 3.8V typical the device will wait
5 msec typical before allowing write cycles.
b)
VCC sense
While below 3.8V typical write cycles are inhibited.
c)
Write inhibiting
Holding OE# low and either ECS# or EWE# high
inhibits write cycles.
d)
Noise filter
Pulses of <8ns (typ) on EWE# or ECS# will not
initiate a write cycle.
White Electronic Designs Corp. reserves the right to change products or specifications without notice.
March 2005
Rev. 3
12
White Electronic Designs Corporation • (602) 437-1520 • www.wedc.com
White Electronic Designs
WSE128K16-XXX
PRELIMINARY
PACKAGE 400: 66 PIN, PGA TYPE, CERAMIC HEX-IN-LINE PACKAGE, HIP (H1)
27.3 (1.075) ± 0.25 (0.010) SQ
PIN 1 IDENTIFIER
SQUARE PAD
ON BOTTOM
25.4 (1.0) TYP
4.34 (0.171)
MAX
3.81 (0.150)
± 0.13 (0.005)
1.42 (0.056) ± 0.13 (0.005)
0.76 (0.030) ± 0.13 (0.005)
2.54 (0.100)
TYP
1.27 (0.050) ± TYP DIA
15.24 (0.600) TYP
0.46 (0.018) ± 0.05 (0.002) DIA
25.4 (1.0) TYP
ALL LINEAR DIMENSIONS ARE MILLIMETERS AND PARENTHETICALLY IN INCHES
White Electronic Designs Corp. reserves the right to change products or specifications without notice.
March 2005
Rev. 3
13
White Electronic Designs Corporation • (602) 437-1520 • www.wedc.com
White Electronic Designs
WSE128K16-XXX
PRELIMINARY
PACKAGE 509: 68 LEAD, CERAMIC QUAD FLAT PACK, CQFP (G2T)
25.15 (0.990) ± 0.26 (0.010) SQ
4.57 (0.180) MAX
22.36 (0.880) ± 0.26 (0.010) SQ
0.27 (0.011) ± 0.04 (0.002)
0.25 (0.010) REF
Pin 1
R 0.25
(0.010)
24.03 (0.946)
± 0.26 (0.010)
0.19 (0.007)
± 0.06 (0.002)
1° / 7°
1.0 (0.040)
± 0.127 (0.005)
23.87
(0.940) REF
DETAIL A
1.27 (0.050) TYP
SEE DETAIL "A"
0.38 (0.015) ± 0.05 (0.002)
20.3 (0.800) REF
The WEDC 68 lead G2T CQFP fills the same
fit and function as the JEDEC 68 lead CQFJ or
68 PLCC. But the G2T has the TCE and lead
inspection advantage of the CQFP form.
0.940"
TYP
ALL LINEAR DIMENSIONS ARE MILLIMETERS AND PARENTHETICALLY IN INCHES
White Electronic Designs Corp. reserves the right to change products or specifications without notice.
March 2005
Rev. 3
14
White Electronic Designs Corporation • (602) 437-1520 • www.wedc.com
White Electronic Designs
WSE128K16-XXX
PRELIMINARY
ORDERING INFORMATION
W S E 128K16 - XXX X X X
LEAD FINISH:
Blank = Gold plated leads
A = Solder dip leads
DEVICE GRADE:
M = Military Screened
I = Industrial
C = Commercial
-55°C to +125°C
-40°C to +85°C
0°C to +70°C
PACKAGE TYPE:
H1 = 1.075" sq. Ceramic Hex-In-line Package, HIP (Package 400)
G2T = 22.4mm Ceramic Quad Flat Pack, CQFP (Package 509)
ACCESS TIME (ns)
35 = 35ns SRAM and 150ns EEPROM
42 = 45ns SRAM and 120ns EEPROM
73 = 70ns SRAM and 300ns EEPROM
ORGANIZATION, 128K x 16
EEPROM
SRAM
WHITE ELECTRONIC DESIGNS CORP.
White Electronic Designs Corp. reserves the right to change products or specifications without notice.
March 2005
Rev. 3
15
White Electronic Designs Corporation • (602) 437-1520 • www.wedc.com