CS18LV00640RIR70 - Chiplus Semiconductor Corp.

High Speed Super Low Power SRAM

8K-Word By 8 Bit

CS18LV00640

1 Rev. 1.0

Chiplus reserves the right to change product or specification without notice.

Revision History

Rev. No. History Issue Date

1.0

Initial issue with new naming rule

Aug. 18,2011

High Speed Super Low Power SRAM

8K-Word By 8 Bit

CS18LV00640

2 Rev. 1.0

Chiplus reserves the right to change product or specification without notice.

 GENERAL DESCRIPTION

The CS18LV00640 is a high performance; high speed and super low power CMOS Static Random

Access Memory organized as 8,192 words by 8bits and operates for a single 2.7 to 5.5V supply voltage.

Advanced CMOS technology and circuit techniques provide both high speeds, super low power features.

Easy memory expansion is provided by an active LOW chip enable (/CE) and active LOW output enable

(/OE).

The CS18LV00640 has an automatic power down feature, reducing the power consumption

significantly when chip is deselected. The CS18LV00640 is available in JEDEC standard 28-pin SOP

(330 mil), PDIP (600 mil) and PDIP (300 mil) packages.

 FEATURES

 Wide operation voltage : 2.7V ~ 5.5V

 Ultra low power consumption : 2mA＠1MHz (Max.) , Vcc=5.0V.

10 uA (Max.) CMOS standby current

 High speed access time : 55/70ns.

 Automatic power down when chip is deselected.

 Three state outputs and TTL compatible.

 Data retention supply voltage as low as 2.0V.

 Easy expansion with /CE and /OE options.



PRODUCT FAMILY

Product Family Operating Temp.

Vcc Range

Speed (ns)

Standby Current (Typ.)

I

CCSB1

Package Type

28 SOP

28 PDIP

0~70

o

C 70 1.0uA

Dice

28 SOP

28 PDIP

CS18LV00640

-40~85

o

C

2.7~5.5V

70 1.0uA

Dice

High Speed Super Low Power SRAM

8K-Word By 8 Bit

CS18LV00640

3 Rev. 1.0

Chiplus reserves the right to change product or specification without notice.



PIN CONFIGURATIONS

1

2

3

4

5

6

7

8

9

10

11

12

13

14

24

18

15

16

17

21

19

20

22

23

25

26

27

28

28L SOP

A5

DQ0

GND

DQ2

DQ1

A2

A0

A1

A3

A4

A6

A7

A12

NC

A9

DQ6

DQ3

DQ4

DQ5

A10

CE

DQ7

A11

OE

NC

A8

WE

VCC

28L SOP



FUNCTIONAL BLOCK DIAGRAM

Address

Input

Buffer

Row

Decoder 128x512

Memory Array

Data Output

Buffer Write Driver

Sense Amp

Column Decoder

Address Input Buffer

Control

Column I/O

Data Input

Buffer

A6

A7

A8

A9

A10

A11

A12

DQ0

DQ7

14 128

88

8 8

512

64

12

A0A1A2A3A4A5

/WE

/OE

/CE

VCC

GND

High Speed Super Low Power SRAM

8K-Word By 8 Bit

CS18LV00640

4 Rev. 1.0

Chiplus reserves the right to change product or specification without notice.

 PIN DESCRIPTIONS

Name Type

Function

A0 – A12 Input Address inputs for selecting one of the 8,192 x 8 bit words in the RAM

/CE Input

/CE is active LOW. Chip enable must be active when data read from or write to the

device. If chip enable is not active, the device is deselected and in a standby power

mode. The DQ pins will be in high impedance state when the device is deselected.

/WE Input

The Write enable input is active LOW. It controls read and write operations. With the

chip selected, when /WE is HIGH and /OE is LOW, output data will be present on the

DQ pins, when /WE is LOW, the data present on the DQ pins will be written into the

selected memory location.

/OE Input

The output enable input is active LOW. If the output enable is active while the chip is

selected and the write enable is inactive, data will be present on the DQ pins and they

will be enabled. The DQ pins will be in the high impedance state when /OE is inactive.

DQ0~DQ7 I/O These 8 bi-directional ports are used to read data from or write data into the RAM.

Vcc Power

Power Supply

Gnd Power

Ground

 TRUTH TABLE

Mode /CE /WE /OE DQ0~7 Vcc Current

Standby H X X High Z

I

CCSB

, I

CCSB1

Output Disabled L H H High Z I

CC

Read L H L D

OUT

I

CC

Write L L X D

IN

I

CC

High Speed Super Low Power SRAM

8K-Word By 8 Bit

CS18LV00640

5 Rev. 1.0

Chiplus reserves the right to change product or specification without notice.

 ABSOLUTE MAXIMUM RATINGS

(1)

Symbol Parameter Rating Unit

V

CC

Supply voltage, Vcc

-0.5 to +7 V

V

TERM

Terminal Voltage with Respect to GND -0.5 to +7 V

T

BIAS

Temperature Under Bias -40 to +125

O

C

T

STG

Storage Temperature -60 to +150

O

C

P

T

Power Dissipation 1.0 W

I

OUT

DC Output Current 20 mA

1. Stresses greater than those listed under 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 above

those indicated in the operational sections of this specification is not implied. Exposure to absolute maximum

rating conditions for extended periods may affect reliability.



OPERATING RANGE

Range Ambient Temperature Vcc

Commercial 0~70

o

C 2.7~5.5V

Industrial -40~85

o

C 2.7~5.5V



CAPACITANCE

(1)

(TA=25℃

℃℃

℃,f=1.0MHz)

Symbol

Parameter Conduction MAX. Unit

C

IN

Input Capacitance VIN=0V 6 pF

C

DQ

Input/Output Capacitance VI/O=0V 8 pF

1. This parameter is guaranteed, and not 100% tested.

High Speed Super Low Power SRAM

8K-Word By 8 Bit

CS18LV00640

6 Rev. 1.0

Chiplus reserves the right to change product or specification without notice.



DC ELECTRICAL CHARACTERISTICS

( TA = 0

o

~70

o

C, Vcc = 5.0/3.0V)

Name

Parameter Test Condition MIN MAX Unit

V

IL

Guaranteed Input Low

Voltage Vcc=3.0V

-0.5

(1)

0.8 V

V

IH

Guaranteed Input High

Voltage Vcc=5.0V

2.2 Vcc+0.2

(2)

V

I

IL

Input Leakage Current V

CC

=MAX, V

IN

=0 to V

CC

-1 1 uA

I

OL

Output Leakage Current V

CC

=MAX, /CE=V

IN

, or /OE=V

IN

,

V

IO

=0V to V

CC

-1 1 uA

V

OL

Output Low Voltage V

CC

=MAX, I

OL

= 2.1mA

0.4 V

V

OH

Output High Voltage V

CC

=MIN, I

OH

= -1mA

2.4 V

I

CC

Operating Power Supply

Current

/CE=V

IL

, I

DQ

=0mA,

F=F

MAX

=1/ t

RC

30 mA

I

CCSB

TTL Standby Supply /CE=V

IH

, I

DQ

=0mA,

2.0 mA

I

CCSB1

CMOS Standby Current /CE≧V

CC

-0.2V, V

IN

≧V

CC

-0.2V or

V

IN

≦0.2V,

10 uA

1.

Undershoot : -2.0V in case of pulse width ≤ 20ns

2.

Overshoot : Vcc +2.0V in case of pulse width ≤ 20ns



DATA RETENTION CHARACTERISTICS

( TA = 0

o

~70

o

C)

Name Parameter Test Condition MIN

T

yp

(2)

MAX Unit

V

DR

V

CC

for Data Retention /CE ≧V

CC

-0.2V, V

IN

≧

V

CC

-0.2V or V

IN

≦0.2V 2.0 V

I

CCDR

Data Retention Current /CE≧V

CC

-0.2V, V

CC

=2V

V

IN

≧V

CC

-0.2V or V

IN

≦0.2V

0.5 2.0 uA

T

CDR

Chip Deselect to Data

Retention Time 0 ns

t

R

Operation Recovery Time

Refer to

Retention Waveform t

RC

(1)

ns

1. t

RC= .Read Cycle Time.

2. TA=25 O

C

High Speed Super Low Power SRAM

8K-Word By 8 Bit

CS18LV00640

7 Rev. 1.0

Chiplus reserves the right to change product or specification without notice.

 LOW Vcc DATA RETENTION WAVEFORM

( /CE Controlled )

 AC TEST CONDITIONS  KEY TO SWITCHING WAVEFORMS

Input Pulse Levels Vcc/0V

WAVEFORMS INPUTS OUTPUTS

Input Rise and Fall Times 5ns

MUST BE STEADY

Input and Output Timing

Reference Level 0.5Vcc

MAY CHANGE

FROM H TO L WILL BE CHANGE FROM H

TO L

MAY CHANGE

FROM L TO H WILL BE CHANGE FROM L

TO H

DON’T CARE ANY

CHANGE

PERMITTED CHANGE STATE

UNKNOWN

DOES NOT APPLY

CENTER LINE IS HIGH

IMPEDANCE OFF STATE

 AC TEST LOADS AND WAVEFORMS

FIGURE 1A

FIGURE 1B

High Speed Super Low Power SRAM

8K-Word By 8 Bit

CS18LV00640

8 Rev. 1.0

Chiplus reserves the right to change product or specification without notice.



AC ELECTRICAL CHARACTERISTICS

( TA = 0

o

~70

o

C, Vcc = 5.0V )

< READ CYCLE >

-55 -70 JEDEC

Name Symbol

Description

MIN

MAX

MIN

MAX

Unit

t

AVAX

t

RC

Read Cycle Time 55 70 ns

t

AVQV

t

AA

Address Access Time 55 70 ns

t

ELQV

t

ACE

Chip Select Access Time 55 70 ns

t

GLQV

t

OE

Output Enable to Output

Valid

30 50 ns

t

ELQX

t

CLZ

Chip Select to Output Low Z

10 10 ns

t

GLQX

t

OLZ

Output Enable to Output in

Low Z

5 5 ns

t

EHQZ

t

CHZ

Chip Deselect to Output in

High Z

0 35 0 35 ns

t

GHQZ

t

OHZ

Output Disable to Output in

High Z

0 30 0 30 ns

t

AXOX

t

OH

Address Change to Out

Disable

10 10 ns

 SWITCHING WAVEFORMS (READ CYCLE)

READ CYCLE1

(1,2,4)

t

AA

t

OH

t

OH

t

RC

ADDRESS

D

OUT

High Speed Super Low Power SRAM

8K-Word By 8 Bit

CS18LV00640

9 Rev. 1.0

Chiplus reserves the right to change product or specification without notice.

READ CYCLE2

(1,3,4)

READ CYCLE3

(1,4)

t

AA

t

OH

t

RC

ADDRESS

t

CE

t

CLZ(5)

t

CHZ(5)

CE

D

OUT

OE

t

OHZ(1,5)

t

OE

t

OLZ

NOTES:

1. /WE is high in read Cycle.

2. Device is continuously selected when /CE = V

IL.

3. Address valid prior to or coincident with CE transition low.

4. /OE = VIL.

5. Test conditions assume signal transition times of 5ns or less, timing reference levels of 0.5VCC, input

pulse levels of 0V to VCC and output loading specified in Figure 1A.

6. Transition is measured ±500mV from steady state with C

L

= 5pF as shown in Figure 1B. The parameter is

guaranteed but not 100% tested.

High Speed Super Low Power SRAM

8K-Word By 8 Bit

CS18LV00640

10 Rev. 1.0

Chiplus reserves the right to change product or specification without notice.



AC ELECTRICAL CHARACTERISTICS

( TA = 0

o

~70

o

C, Vcc = 5.0V )

< WRITE CYCLE >

-55 -70 JEDEC

Name Symbol Description

MIN

MAX

MIN

MAX

Unit

t

AVAX

t

WC

Write Cycle Time 55

70

ns

t

E1LWH

t

CW

Chip Select to End of Write 55

70

ns

t

AVWL

t

AS

Address Setup Time 0 0 ns

t

AVWH

t

AW

Address Valid to End of Write

55

70

ns

t

WLWH

t

WP

Write Pulse Width 40

50

ns

t

WHAX

t

WR

Write Recovery Time 0 0 ns

t

WLQZ

t

WHZ

Write to Output in High Z 25

35

ns

t

DVWH

t

DW

Data to Write Time Overlap 20

30

ns

t

WHDX

t

DH

Data Hold for Write End 0 0 ns

t

GHQZ

t

OHZ

Output Disable to Output in

High Z

0 30

ns

t

WHOX

t

OW

End of Write to Output Active 5 5 ns

High Speed Super Low Power SRAM

8K-Word By 8 Bit

CS18LV00640

11 Rev. 1.0

Chiplus reserves the right to change product or specification without notice.

 SWITCHING WAVEFORMS (WRITE CYCLE)

WRITE CYCLE1

(Write Enable Controlled

)

WRITE CYCLE2

(Chip Enable Controlled

)

High Speed Super Low Power SRAM

8K-Word By 8 Bit

CS18LV00640

12 Rev. 1.0

Chiplus reserves the right to change product or specification without notice.

NOTES:

1. /WE must be high during address transitions.

2. The internal write time of the memory is defined by the overlap of /CE and /WE low. All signals must be active

to initiate a write and any one signal can terminate a write by going inactive. The data input setup and hold

timing should be referenced to the second transition edge of the signal that terminates the write.

3. T

WR

is measured from the earlier of /CE or /WE going high at the end of write cycle.

4. During this period, DQ pins are in the output state so that the input signals of opposite phase to the outputs

must not be applied.

5. If the /CE low transition occurs simultaneously with the /WE low transitions or after the /WE transition, output

remain in a high impedance state.

6. It’s recommended to keep /OE at high (/OE = VIH ) as /WE Controlled WRITE CYCLE.

7. D

OUT

is the read data of next address.

8. If /CE is low during this period, DQ pins are in the output state. Then the data input signals of opposite phase

to the outputs must not be applied to them.

9. Test conditions assume signal transition times of 5ns or less, timing reference levels of 0.5VCC, input pulse

levels of 0V to VCC and output loading specified in Figure 1A.

10. Transition is measured ±500mV from steady state with C

L

= 5pF as shown in Figure 1B. The parameter is

guaranteed but not 100% tested.

11. T

CW

is measured from the later of /CE going low to the end of write.



ORDER INFORMATION

Note: Package material code “R” meets ROHS