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HY62UF8100/ HY62QF8100/ HY62EF8100

HY62SF8100 Series

128Kx8bit full CMOS SRAM

DESCRIPTION

The HY62UF8100 / HY62QF8100 / HY62EF8100

/ HY62SF8100 is a high speed, super low power

and 1M bit full CMOS SRAM organized as

131,072 words by 8bit. The HY62UF8100 /

HY62QF8100 / HY62EF8100 / HY62SF8100 uses

high performance full CMOS process technology

and designed for high speed low power circuit

technology. It is particularly well suited for used in

high density low power system application. This

device has a data retention mode that guarantees

data to remain valid at a minimum power supply

voltage of 1.5V.

FEATURES

•

Fully static operation and Tri-state output

•

TTL compatible inputs and outputs

•

Battery backup(LL/SL-part)

- 1.5V(min) data retention

•

Standard pin configuration

32pin sTSOP-I

Product

Voltage

Speed

Operation

Standby Current(uA)

No.

(V)

(ns)

Current(mA)

HY62UF8100

3.0

70/85/100

HY62UF8100-I

3.0

70/85/100

HY62QF8100

2.5

85/100/120

HY62QF8100-I

2.5

85/100/120

HY62EF8100

2.0

100/120/150

HY62EF8100-I

2.0

100/120/150

HY62SF8100

1.8

120/150/200

HY62SF8100-I

1.8

120/150/200

Note 1. E.T. : Extended Temperature, Normal : Normal Temperature

2. Current value is max.

Temperature

(°C)

0~70(Normal)

-40~85(E.T.)

0~70(Normal)

-40~85(E.T.)

0~70(Normal)

-40~85(E.T.)

0~70(Normal)

-40~85(E.T.)

PIN CONNECTION

A11

A13

/WE

CS2

A15

Vcc

A16

A14

A12

/OE

A10

/CS1

DQ8

DQ7

DQ6

DQ5

DQ4

Vss

DQ3

DQ2

DQ1

BLOCK DIAGRAM

SENSE AMP

ADD INPUT BUFFER

COLUMN DECODER

ROW DECODER

I/O1

OUTPUT BUFFER

I/O8

A16

CONTROL

LOGIC

Small TSOP-I(Standard)

/CS1

CS2

/OE

/WE

PIN DESCRIPTION

Pin Name

/CS1

CS2

/WE

/OE

Pin Function

Chip Select 1

Chip Select 2

Write Enable

Output Enable

Pin Name

A0 ~ A16

I/O1 ~ I/O8

Vcc

Vss

Pin Function

Address Input

Data Input/Output

Power(3.0V, 2.5V, 2.0V or 1.8V)

Ground

This document is a general product description and is subject to change without notice. Hyundai Electronics does not assume any

responsibility for use of circuits described. No patent licenses are implied.

Rev.05 /Feb.99

Hyundai Semiconductor

WRITE DRIVER

MEMORY ARRAY

1024x1024

HY62UF8100/HY62QF8100/HY62EF8100/HY62SF8100 Series

ORDERING INFORMATION

Part No.

HY62UF8100LLST

HY62UF8100SLST

HY62UF8100LLST-I

HY62UF8100SLST-I

HY62QF8100LLST

HY62QF8100SLST

HY62QF8100LLST-I

HY62QF8100SLST-I

HY62EF8100LLST

HY62EF8100SLST

HY62EF8100LLST-I

HY62EF8100SLST-I

HY62SF8100LLST

HY62SF8100SLST

HY62SF8100LLST-I

HY62SF8100SLST-I

Speed

70/85/100

85/100/120

100/120/150

120/150/200

Power

LL-part

SL-part

LL-part

SL-part

LL-part

SL-part

LL-part

SL-part

LL-part

SL-part

LL-part

SL-part

LL-part

SL-part

LL-part

SL-part

Temp.

Package

sTSOP

E.T.

Note 1. E.T. : Extended Temperature, Blank : Normal Temperature

ABSOLUTE MAXIMUM RATING (1)

Symbol

IN,

OUT

Vcc

Parameter

Input/Output Voltage

Power Supply

Operating Temperature

Rating

-0.2 to 3.6

-0.2 to 4.0

0 to 70

Unit

°C

Remark

-40 to 85

°C

HY62UF8100

HY62QF8100

HY62EF8100

HY62SF8100

HY62UF8100-I

HY62QF8100-I

HY62EF8100-I

HY62SF8100-I

STG

SOLDER

Storage Temperature

Power Dissipation

Lead Soldering Temperature & Time

-55 to 150

1.0

260

•

°C

°C•sec

Note

1. Stresses greater than those listed under ABSOLUTE MAXIMUM RATINGS may cause permanent

damage to the device. This is stress rating only and the functional operation of the device under these or

any other conditions above those indicated in the operation of this specification is not implied.

Exposure to the absolute maximum rating conditions for extended period may affect reliability.

Rev.05 /Feb.99

HY62UF8100/HY62QF8100/HY62EF8100/HY62SF8100 Series

RECOMMENDED DC OPERATING CONDITION

Symbol

Vcc

Parameter

Supply Voltage

Product

HY62UF8100-(I)

HY62QF8100-(I)

HY62EF8100-(I)

HY62SF8100-(I)

HY62UF8100-(I)

HY62QF8100-(I)

HY62EF8100-(I)

HY62SF8100-(I)

HY62UF8100-(I)

HY62QF8100-(I)

HY62EF8100-(I)

HY62SF8100-(I)

HY62UF8100-(I)

HY62QF8100-(I)

HY62EF8100-(I)

HY62SF8100-(I)

Min.

2.7

2.2

1.8

1.6

Typ.

3.0

2.5

2.0

1.8

Max.

3.3

2.8

2.2

2.0

Unit

Vss

Ground

Input High Voltage

Input Low Voltage

2.2

2.0

1.6

1.4

-0.2

(1)

Vcc+0.2

0.4

Note : 1. VIL = -1.5V for pulse width less than 30ns

TRUTH TABLE

/CS1

CS2

/WE

/OE

MODE

Standby

Output Disabled

Read

Write

I/O OPERATION

High-Z

Data Out

Data In

Supply Current

Isb, Isb1

Icc

Note :

1. H=V

, L=V

, X=don't care

Rev.05 /Feb.99

HY62UF8100/HY62QF8100/HY62EF8100/HY62SF8100 Series

DC ELECTRICAL CHARACTERISTICS

Vcc = 3.0V±10%/2.5V±10%/2.0V±10%/1.8V±10%, T

= 0°C to 70°C (Normal)/ -40°C to 85°C (E.T.)

Sym

Parameter

Test Condition

Min.

Typ.

Max.

Input Leakage Current

Vss < V

< Vcc

-1

Output Leakage Current

Vss < V

OUT

< Vcc, /CS1 = V

-1

CS2 = V

or /WE = V

Icc

Operating Power Supply

/CS1 = V

Vcc = 3.0V

Current

CS2 = V

IH,

= V

or V

IL,

Vcc = 2.5V/2V/

I/O =

0mA

1.8V

CC1

Average

HY62UF8100-(I) /CS1 = V

CS2 = V

IH,

Operating HY62QF8100-(I) Min Duty Cycle = 100%, I

I/O =

0mA

HY62EF8100-(I)

Current

HY62SF8100-(I)

TTL

HY62UF8100-(I) /CS1 = V

or CS2 = V

0.5

Standby

HY62QF8100-(I)

0.3

Current

HY62EF8100-(I)

0.3

(TTL Input)

HY62SF8100-(I)

0.3

SB1

Standby Current

/CS1 > Vcc – 0.2V

0.05

(CMOS Input)

CS2 < 0.2V or

CS2 > Vcc – 0.2V

Output Low Voltage

Vcc = 3.0V

= 2.1mA

0.4

Vcc = 2.5V

= 0.5mA

Vcc = 2.0V

= 0.33mA

Vcc = 1.8V

= 0.26mA

Output

HY62UF8100-(I) Vcc = 3.0V

OH =

-1.0mA

2.2

High

HY62QF8100-(I) Vcc = 2.5V

OH =

-0.5mA

2.0

Voltage

HY62EF8100-(I) Vcc = 2.0V

OH =

-0.44mA

1.6

HY62SF8100-(I) Vcc = 1.8V

OH =

-0.44mA

1.4

Note : Typical values are at Vcc = 3.0V/2.5V/2.0V/1.8V, T

= 25°C

Unit

Rev.05 /Feb.99

HY62UF8100/HY62QF8100/HY62EF8100/HY62SF8100 Series

AC CHARACTERISTICS

Vcc = 3.0V±10%, T

= 0°C to 70°C (Normal)/ -40°C to 85°C (E.T.), unless otherwise specified

-70

-85

-10

# Symbol

Parameter

Min.

Max. Min.

Max. Min

Max.

READ CYCLE

tRC

Read Cycle Time

100

tAA

Address Access Time

100

tACS

Chip Select Access Time

100

tOE

Output Enable to Output Valid

tCLZ

Chip Select to Output in Low Z

tOLZ

Output Enable to Output in Low Z

tCHZ

Chip Deselection to Output in High Z

tOHZ

Out Disable to Output in High Z

tOH

Output Hold from Address Change

WRITE CYCLE

10 tWC

Write Cycle Time

100

11 tCW

Chip Selection to End of Write

12 tAW

Address Valid to End of Write

13 tAS

Address Set-up Time

14 tWP

Write Pulse Width

15 tWR

Write Recovery Time

16 tWHZ

Write to Output in High Z

17 tDW

Data to Write Time Overlap

18 tDH

Data Hold from Write Time

19 tOW

Output Active from End of Write

Unit

Vcc = 2.5V±10%, T

= 0°C to 70°C (Normal)/ -40°C to 85°C (E.T.), unless otherwise specified

-85

-10

-12

# Symbol

Parameter

Min.

Max. Min.

Max. Min

Max.

READ CYCLE

tRC

Read Cycle Time

100

120

tAA

Address Access Time

100

120

tACS

Chip Select Access Time

100

120

tOE

Output Enable to Output Valid

tCLZ

Chip Select to Output in Low Z

tOLZ

Output Enable to Output in Low Z

tCHZ

Chip Deselection to Output in High Z

tOHZ

Out Disable to Output in High Z

tOH

Output Hold from Address Change

WRITE CYCLE

10 tWC

Write Cycle Time

100

120

11 tCW

Chip Selection to End of Write

100

12 tAW

Address Valid to End of Write

100

13 tAS

Address Set-up Time

14 tWP

Write Pulse Width

15 tWR

Write Recovery Time

16 tWHZ

Write to Output in High Z

17 tDW

Data to Write Time Overlap

18 tDH

Data Hold from Write Time

19 tOW

Output Active from End of Write

Unit

Rev.05 /Feb.99