UT8Q512-IWA datasheet, PDF - EEWORLD Datasheet

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UT8Q512-IWA: DescriptionStandard SRAM, 512KX8, 25ns, CMOS, CDFP36, BOTTOM BRAZED, SHIELDED, DFP-36; Categorystorage storage; File Size128KB，15 Pages; ManufacturerCobham Semiconductor Solutions

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UT8Q512-IWA Overview

Standard SRAM, 512KX8, 25ns, CMOS, CDFP36, BOTTOM BRAZED, SHIELDED, DFP-36

UT8Q512-IWA Parametric

Parameter Name	Attribute value
Maker	Cobham Semiconductor Solutions
Parts packaging code	DFP
package instruction	DFP,
Contacts	36
Reach Compliance Code	unknown
ECCN code	3A991.B.2.A
Maximum access time	25 ns
JESD-30 code	R-CDFP-F36
length	23.368 mm
memory density	4194304 bit
Memory IC Type	STANDARD SRAM
memory width	8
Number of functions	1
Number of terminals	36
word count	524288 words
character code	512000
Operating mode	ASYNCHRONOUS
Maximum operating temperature	125 °C
Minimum operating temperature	-40 °C
organize	512KX8
Package body material	CERAMIC, METAL-SEALED COFIRED
encapsulated code	DFP
Package shape	RECTANGULAR
Package form	FLATPACK
Parallel/Serial	PARALLEL
Certification status	Not Qualified
Maximum seat height	4.4196 mm
Maximum supply voltage (Vsup)	3.6 V
Minimum supply voltage (Vsup)	3 V
Nominal supply voltage (Vsup)	3.3 V
surface mount	YES
technology	CMOS
Temperature level	AUTOMOTIVE
Terminal form	FLAT
Terminal pitch	1.27 mm
Terminal location	DUAL
width	12.192 mm

UT8Q512-IWA Preview

Standard Products

QCOTS

TM

UT8Q512 512K x 8 SRAM

Data Sheet

February, 2003

FEATURES

q

20ns (3.3 volt supply) maximum address access time

q

Asynchronous operation for compatibility with industry-

standard 512K x 8 SRAMs

q

TTL compatible inputs and output levels, three-state

bidirectional data bus

q

Typical radiation performance

- Total dose: 50krads

- >100krads(Si), for any orbit, using Aeroflex UTMC

patented shielded package

- SEL Immune >80 MeV-cm

2

/mg

- LET

TH

(0.25) = >10 MeV-cm

2

/mg

- Saturated Cross Section cm

2

per bit, 5.0E-9

- <1E-8 errors/bit-day, Adams 90% geosynchronous

heavy ion

q

Packaging options:

- 36-lead ceramic flatpack (3.42 grams)

- 36-lead flatpack shielded (10.77 grams)

q

Standard Microcircuit Drawing 5962-99607

- QML T and Q compliant

INTRODUCTION

The QCOTS

TM

UT8Q512 Quantified Commercial Off-the-

Shelf product is a high-performance CMOS static RAM

organized as 524,288 words by 8 bits. Easy memory

expansion is provided by an active LOW Chip Enable (E),

an active LOW Output Enable (G), and three-state drivers.

This device has a power-down feature that reduces power

consumption by more than 90% when deselected

.

Writing to the devicei s accomplished by taking Chip Enable

one (E) input LOW and Write Enable (W) inputs LOW.

Data on the eight I/O pins (DQ

0

through DQ

7

) is then written

into the location specified on the address pins (A

0

through

A

18

). Reading from the device is accomplished by taking

Chip Enable one (E) and Output Enable (G) LOW while

forcing Write Enable (W) HIGH. Under these conditions,

the contents of the memory location specified by the address

pins will appear on the I/O pins.

The eight input/output pins (DQ

0

through DQ

7

) are placed

in a high impedance state when the device is deselected (E,

HIGH), the outputs are disabled (G HIGH), or during a write

operation (E LOWand W LOW).

Clk. Gen.

A0

A

1

A

2

A

3

A

4

A

5

A

6

A7

A

8

A9

Pre-Charge Circuit

Row Select

Memory Array

1024 Rows

512x8 Columns

I/O Circuit

Column Select

Data

Control

CLK

Gen.

A

10

A1

1

A

12

A

13

A

14

A

15

A

16

A

17

A

18

DQ - DQ

7

0

E

W

G

Figure 1. UT8Q512 SRAM Block Diagram

DEVICE OPERATION

A0

A1

A2

A3

A4

E

DQ0

DQ1

V

D D

V

SS

DQ2

DQ3

W

A5

A6

A7

A8

A9

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

18

36

35

34

33

32

31

30

29

28

27

26

25

24

23

22

21

20

19

NC

A18

A17

A16

A15

G

DQ7

DQ6

V

S S

V

D D

DQ5

DQ4

A14

A13

A12

A11

A10

NC

The UT8Q512 has three control inputs called Enable 1 ( E), Write

Enable ( W), and Output Enable (G); 19 address inputs, A(18:0);

and eight bidirectional data lines, DQ(7:0). E Device Enable

controls device selection, active, and standby modes. Asserting

E enables the device, causes I

DD

to rise to its active value, and

decodes the 19 address inputs to select one of 524,288 words in

the memory. W controls read and write operations. During a

read cycle, G must be asserted to enable the outputs.

Table 1. Device Operation Truth Table

G

X

1

X

W

X

0

1

E

1

0

I/O Mode

3-state

Data in

3-state

Data out

Mode

Standby

Write

Read

2

Read

Figure 2. 25ns SRAM Pinout (36)

1

0

PIN NAMES

A(18:0)

DQ(7:0)

E

W

G

V

DD

V

SS

Address

Data Input/Output

Enable

Write Enable

Output Enable

Power

Ground

Notes:

1. “X” is defined as a “don’t care” condition.

2. Device active; outputs disabled.

READ CYCLE

A combination of W greater than V

IH

(min) and E less than V

IL

(max) defines a read cycle. Read access time is measured from

the latter of Device Enable, Output Enable, or valid address to

valid data output.

SRAM Read Cycle 1, the Address Access in figure 3a, is

initiated by a change in address inputs while the chip is enabled

with G asserted and W deasserted. Valid data appears on data

outputs DQ(7:0) after the specified t

AVQV

is satisfied. Outputs

remain active throughout the entire cycle. As long as Device

Enable and Output Enable are active, the address inputs may

change at a rate equal to the minimum read cycle time (t

AVAV

).

SRAM read Cycle 2, the Chip Enable - Controlled Access in

figure 3b, is initiated by E going active while G remains asserted,

W remains deasserted, and the addresses remain stable for the

entire cycle. After the specified t

ETQV

is satisfied, the eight-bit

word addressed by A(18:0) is accessed and appears at the data

outputs DQ(7:0).

SRAM read Cycle 3, the Output Enable - Controlled Access in

figure 3c, is initiated by G going active while E is asserted, W

is deasserted, and the addresses are stable. Read access time is

t

GLQV

unless t

AVQV

or t

ETQV

have not been satisfied.

2

WRITE CYCLE

A combination of W less than V

IL

(max) and E less than

V

IL

(max) defines a write cycle. The state of G is a “don’t care”

for a write cycle. The outputs are placed in the high-impedance

state when either G is greater than V

IH

(min), or when W is less

than V

IL

(max).

Write Cycle 1, the Write Enable - Controlled Access in figure

4a, is defined by a write terminated by W going high, with E

still active. The write pulse width is defined by t

WLWH

when the

write is initiated by W, and by t

ETWH

when the write is initiated

by E. Unless the outputs have been previously placed in the high-

impedance state byG, the user must wait t

WLQZ

before applying

data to the nine bidirectional pins DQ(7:0) to avoid bus

contention.

Write Cycle 2, the Chip Enable - Controlled Access in figure

4b, is defined by a write terminated by the latter of E going

inactive. The write pulse width is defined by t

WLEF

when the

write is initiated by W, and by t

ETEF

when the write is initiated

by the E going active. For the W initiated write, unless the

outputs have been previously placed in the high-impedance state

by G, the user must wait t

WLQZ

before applying data to the eight

bidirectional pins DQ(7:0) to avoid bus contention.

TYPICAL RADIATION HARDNESS

Table 2. Typical Radiation Hardness

Design Specifications

1

Total Dose

Heavy Ion

Error Rate

2

50

<1E-8

krad(Si) nominal

Errors/Bit-Day

Notes:

1. The SRAM will not latchup during radiation exposure under recommended

operating conditions.

2. 9 0% worst case particle environment, Geosynchronous orbit, 100 m ils of

Aluminum.

3

ABSOLUTE MAXIMUM RATINGS

1

(Referenced to V

SS

)

SYMBOL

V

DD

V

I/O

T

STG

P

D

T

J

Θ

JC

I

PARAMETER

DC supply voltage

Voltage on any pin

Storage temperature

Maximum power dissipation

Maximum junction temperature

2

Thermal resistance, junction-to-case

3

DC input current

LIMITS

-0.5 to 4.6V

-65 to +150°C

1.0W

+150°C

10°C/W

±

10 mA

Notes:

1. Stresses outside the listed absolute maximum ratings may cause permanent damage to the device. This is a stress rating only, and functional operation of the device

at these or any other conditions beyond limits indicated in the operational sections of this specification is not recommended. Exposure to absolute maximum rating

conditions for extended periods may affect device reliability and performance.

2. Maximum junction temperature may be increased to +175°C during burn-in and steady-static life.

3. Test per MIL-STD-883, Method 1012.

RECOMMENDED OPERATING CONDITIONS

SYMBOL

V

DD

T

C

PARAMETER

Positive supply voltage

Case temperature range

LIMITS

3.0 to 3.6V

(C) screening: -55° to +125°C

(E) screening: -40° to +125°C

V

IN

DC input voltage

0V to V

DD

4

DC ELECTRICAL CHARACTERISTICS (Pre/Post-Radiation)*

(-55°C to +125°C for (C) screening and -40

o

C to +125

o

C for (W) screening) (V

DD

= 3.3V + 0.3)

SYMBOL

V

IH

V

IL

V

OL1

V

OL2

V

OH1

V

OH2

C

IN 1

C

IO 1

I

IN

I

OZ

PARAMETER

High-level input voltage

Low-level input voltage

Low-level output voltage

High-level output voltage

Input capacitance

Bidirectional I/O capacitance

Input leakage current

Three-state output leakage current

(CMOS)

I

OL

= 8mA, V

DD

=3.0V

I

OL

= 200µA,V

DD

=3.0V

I

OH

= -4mA,V

DD

=3.0V

I

OH

= -200µA,V

DD

=3.0V

ƒ

= 1MHz @ 0V

ƒ

= 1MHz @ 0V

V

SS

< V

IN

< V

DD,

V

DD

= V

DD

(max)

0V < V

O

< V

DD

V

DD

= V

DD

(max)

G = V

DD

(max)

I

OS 2, 3

I

DD

(OP)

Short-circuit output current

Supply current operating

@ 1MHz

0V < V

O

< V

DD

Inputs: V

IL

= 0.8V,

V

IH

= 2.0V

I

OUT

= 0mA

V

DD

= V

DD

(max)

I

DD1

(OP)

Supply current operating

@40MHz

Inputs: V

IL

= 0.8V,

V

IH

= 2.0V

I

OUT

= 0mA

V

DD

= V

DD

(max)

I

DD2

(SB)

Nominal standby supply current

@0MHz

Inputs: V

IL

= V

SS

I

OUT

= 0mA

E = V

DD

- 0.5

V

DD

= V

DD

(max)

V

IH

= V

DD

- 0.5V

Notes:

* Post-radiation performance guaranteed at 25°C per MIL-STD-883 Method 101 9 .

1. Measured only for initial qualification and after process or design changes that could affect input/output capacitance.

2. Supplied as a design limit but not guaranteed or tested.

3. Not more than one output may be shorted at a time for maximum duration of one second.

CONDITION

MIN

2.0

MAX

UNIT

V

0.8

0.4

0.08

2.4

V

DD

-0.10

10

12

-2

2

V

pF

µA

-90

90

125

mA

180

mA

-55°C and 25°C

-40

o

C and 25

o

C

+125°C

6

40

mA

5

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Maker	Cobham Semiconductor Solutions	Cobham Semiconductor Solutions	Cobham Semiconductor Solutions	Cobham Semiconductor Solutions	Cobham Semiconductor Solutions	Cobham Semiconductor Solutions	Cobham Semiconductor Solutions
Parts packaging code	DFP	DFP	DFP	DFP	DFP	DFP	DFP
package instruction	DFP,	DFP,	DFP,	DFP,	DFP,	DFP,	DFP,
Contacts	36	36	36	36	36	36	36
Reach Compliance Code	unknown	unknown	unknown	unknown	unknown	unknown	unknow
Maximum access time	25 ns	25 ns	25 ns	25 ns	25 ns	25 ns	25 ns
JESD-30 code	R-CDFP-F36	R-CDFP-F36	R-CDFP-F36	R-CDFP-F36	R-CDFP-F36	R-CDFP-F36	R-CDFP-F36
memory density	4194304 bit	4194304 bit	4194304 bit	4194304 bit	4194304 bit	4194304 bit	4194304 bi
Memory IC Type	STANDARD SRAM	STANDARD SRAM	STANDARD SRAM	STANDARD SRAM	STANDARD SRAM	STANDARD SRAM	STANDARD SRAM
memory width	8	8	8	8	8	8	8
Number of functions	1	1	1	1	1	1	1
Number of terminals	36	36	36	36	36	36	36
word count	524288 words	524288 words	524288 words	524288 words	524288 words	524288 words	524288 words
character code	512000	512000	512000	512000	512000	512000	512000
Operating mode	ASYNCHRONOUS	ASYNCHRONOUS	ASYNCHRONOUS	ASYNCHRONOUS	ASYNCHRONOUS	ASYNCHRONOUS	ASYNCHRONOUS
Maximum operating temperature	125 °C	125 °C	125 °C	125 °C	125 °C	125 °C	125 °C
Minimum operating temperature	-40 °C	-55 °C	-55 °C	-55 °C	-55 °C	-40 °C	-40 °C
organize	512KX8	512KX8	512KX8	512KX8	512KX8	512KX8	512KX8
Package body material	CERAMIC, METAL-SEALED COFIRED	CERAMIC, METAL-SEALED COFIRED	CERAMIC, METAL-SEALED COFIRED	CERAMIC, METAL-SEALED COFIRED	CERAMIC, METAL-SEALED COFIRED	CERAMIC, METAL-SEALED COFIRED	CERAMIC, METAL-SEALED COFIRED
encapsulated code	DFP	DFP	DFP	DFP	DFP	DFP	DFP
Package shape	RECTANGULAR	RECTANGULAR	RECTANGULAR	RECTANGULAR	RECTANGULAR	RECTANGULAR	RECTANGULAR
Package form	FLATPACK	FLATPACK	FLATPACK	FLATPACK	FLATPACK	FLATPACK	FLATPACK
Parallel/Serial	PARALLEL	PARALLEL	PARALLEL	PARALLEL	PARALLEL	PARALLEL	PARALLEL
Certification status	Not Qualified	Not Qualified	Not Qualified	Not Qualified	Not Qualified	Not Qualified	Not Qualified
Maximum seat height	4.4196 mm	4.4196 mm	4.4196 mm	3.048 mm	3.048 mm	4.4196 mm	3.048 mm
Maximum supply voltage (Vsup)	3.6 V	3.6 V	3.6 V	3.6 V	3.6 V	3.6 V	3.6 V
Minimum supply voltage (Vsup)	3 V	3 V	3 V	3 V	3 V	3 V	3 V
Nominal supply voltage (Vsup)	3.3 V	3.3 V	3.3 V	3.3 V	3.3 V	3.3 V	3.3 V
surface mount	YES	YES	YES	YES	YES	YES	YES
technology	CMOS	CMOS	CMOS	CMOS	CMOS	CMOS	CMOS
Temperature level	AUTOMOTIVE	MILITARY	MILITARY	MILITARY	MILITARY	AUTOMOTIVE	AUTOMOTIVE
Terminal form	FLAT	FLAT	FLAT	FLAT	FLAT	FLAT	FLAT
Terminal pitch	1.27 mm	1.27 mm	1.27 mm	1.27 mm	1.27 mm	1.27 mm	1.27 mm
Terminal location	DUAL	DUAL	DUAL	DUAL	DUAL	DUAL	DUAL
width	12.192 mm	12.192 mm	12.192 mm	12.192 mm	12.192 mm	12.192 mm	12.192 mm
ECCN code	3A991.B.2.A	3A001.A.2.C	3A001.A.2.C	-	-	3A991.B.2.A	3A991.B.2.A
length	23.368 mm	23.368 mm	23.368 mm	-	-	23.368 mm	-

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