UL634H256 Datasheet, PDF(1/14 Page) List of Unclassifed Manufacturers – LOW VOLTAGE POWERSTORE 32K X 8 NVSRAM

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UL634H256 Datasheet, PDF (1/14 Pages) List of Unclassifed Manufacturers – LOW VOLTAGE POWERSTORE 32K X 8 NVSRAM

UL634H256

Low Voltage PowerStore 32K x 8 nvSRAM

Features

Description

S High-performance CMOS non-

volatile static RAM 32768 x 8 bits

S 35 and 45 ns Access Times

S 15 and 20 ns Output Enable

Access Times

S ICC = 8 mA typ. at 200 ns Cycle

Time

S Automatic STORE to EEPROM

on Power Down using external

capacitor

S Software initiated STORE

S Automatic STORE Timing

S 106 STORE cycles to EEPROM

S 100 years data retention in

EEPROM

S Automatic RECALL on Power Up

S Software RECALL Initiation

S Unlimited RECALL cycles from

EEPROM

S Wide voltage range: 2.7 ... 3.6 V

(3.0 ... 3.6 V for 35 ns type)

S Operating temperature range:

0 to 70 Â°C

-40 to 85 Â°C

S QS 9000 Quality Standard

S ESD protection > 2000 V

(MIL STD 883C M3015.7-HBM)

S RoHS compliance and Pb- free

S Package: SOP 32 (300 mil)

The UL634H256 has two separate

modes of operation: SRAM mode

and nonvolatile mode. In SRAM

mode, the memory operates as an

ordinary static RAM. In nonvolatile

operation, data is transferred in

parallel from SRAM to EEPROM or

from EEPROM to SRAM. In this

mode SRAM functions are disab-

led.

The UL634H256 is a fast static

RAM (35 and 45 ns), with a nonvo-

latile electrically erasable PROM

(EEPROM) element incorporated

in each static memory cell. The

SRAM can be read and written an

unlimited number of times, while

independent nonvolatile data resi-

des in EEPROM.

Data transfers from the SRAM to

the EEPROM (the STORE opera-

tion) take place automatically upon

power down using charge stored in

an external 68 ÂµF capacitor. Trans-

fers from the EEPROM to the

SRAM (the RECALL operation)

take place automatically on power

up.

The UL634H256 combines the

high performance and ease of use

of a fast SRAM with nonvolatile

data integrity.

STORE cycles also may be initia-

ted under user control via a soft-

ware sequence or via a single pin

(HSB).

Once a STORE cycle is initiated,

further input or output are disabled

until the cycle is completed.

Because a sequence of addresses

is used for STORE initiation, it is

important that no other read or

write accesses intervene in the

sequence or the sequence will be

aborted.

RECALL cycles may also be initia-

ted by a software sequence.

Internally, RECALL is a two step

procedure. First, the SRAM data is

cleared and second, the nonvola-

tile information is transferred into

the SRAM cells.

The RECALL operation in no way

alters the data in the EEPROM

cells. The nonvolatile data can be

recalled an unlimited number of

times.

Pin Configuration

Pin Description

VCAP

A14

A12

A7

A6

A5

A4

A3

n.c.

A2

A1

A0

DQ0

DQ1

DQ2

VSS

1

32

2

31

3

30

4

29

5

28

6

27

7

26

8 SOP 25

9

24

10

23

11

22

12

21

13

20

14

19

15

18

16

17

Top View

VCCX

HSB

W

A13

A8

A9

A11

G

n.c.

A10

E

DQ7

DQ6

DQ5

DQ4

DQ3

G

A11

A9

A8

A13

W

HSB

VCCX

VCAP

A14

A12

A7

A6

A5

A4

A3

1

32

2

31

3

30

4

29

5

28

6

27

7

26

8 TSOP 25

9

24

10

23

11

22

12

21

13

20

14

19

15

18

16

17

Top View

n.c.

A10

E

DQ7

DQ6

DQ5

DQ4

DQ3

VSS

DQ2

DQ1

DQ0

A0

A1

A2

n.c.

Signal Name

A0 - A14

DQ0 - DQ7

E

G

W

VCCX

VSS

VCAP

HSB

Signal Description

Address Inputs

Data In/Out

Chip Enable

Output Enable

Write Enable

Power Supply Voltage

Ground

Capacitor

Hardware Controlled Store/Busy

April 7, 2005

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