STK12C68-5L35M Cypress Semiconductor Corp, STK12C68-5L35M Datasheet - Page 4

STK12C68-5L35M

Manufacturer Part Number

STK12C68-5L35M

Description

STK12C68-5L35M

Manufacturer

Cypress Semiconductor Corp

Datasheet

1.STK12C68-5C55M.pdf (18 pages)

Specifications of STK12C68-5L35M

Format - Memory

RAM

Memory Type

NVSRAM (Non-Volatile SRAM)

Memory Size

64K (8K x 8)

Speed

35ns

Interface

Parallel

Voltage - Supply

4.5 V ~ 5.5 V

Operating Temperature

-55°C ~ 125°C

Package / Case

28-LCC

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

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Document Number: 001-51026 Rev. **

Figure 4. AutoStore Inhibit Mode

If the power supply drops faster than 20 us/volt before Vcc

reaches V

between V

excess of current between V

AutoStore Inhibit Mode

If an automatic STORE on power loss is not required, then V

is tied to ground and +5V is applied to V

the AutoStore Inhibit mode, where the AutoStore function is

disabled. If the STK12C68-5 is operated in this configuration,

references to V

sheet. In this mode, STORE operations are triggered through

software control or the HSB pin. To enable or disable Autostore

using an IO port pin see

permissible to change between these three options “on the

fly”.

Hardware STORE (HSB) Operation

The STK12C68-5 provides the HSB pin for controlling and

acknowledging the STORE operations. The HSB pin is used

to request a hardware STORE cycle. When the HSB pin is

driven LOW, the STK12C68-5 conditionally initiates a STORE

operation after t

Write to the SRAM takes place since the last STORE or

RECALL cycle. The HSB pin also acts as an open drain driver

that is internally driven LOW to indicate a busy condition, while

the STORE (initiated by any means) is in progress.

SRAM Read and Write operations, that are in progress when

HSB is driven LOW by any means, are given time to complete

before the STORE operation is initiated. After HSB goes LOW,

the STK12C68-5 continues SRAM operations for t

During t

a Write is in progress when HSB is pulled LOW, it allows a

time, t

requested after HSB goes LOW are inhibited until HSB returns

HIGH.

DELAY

SWITCH

to complete. However, any SRAM Write cycles

, multiple SRAM Read operations take place. If

and the system supply to avoid momentary

DELAY

, then a 2.2 ohm resistor must be connected

are changed to V

. An actual STORE cycle only begins if a

Preventing Store

and V

CAP

throughout this data

on page

(Figure

4). This is

It is not

DELAY

During any STORE operation, regardless of how it is initiated,

the STK12C68-5 continues to drive the HSB pin LOW,

releasing it only when the STORE is complete. After

completing the STORE operation, the STK12C68-5 remains

disabled until the HSB pin returns HIGH.

If HSB is not used, it is left unconnected.

Hardware RECALL (Power Up)

During power up or after any low power condition (V

once again exceeds the sense voltage of V

cycle is automatically initiated and takes t

If the STK12C68-5 is in a Write state at the end of power up

RECALL, the SRAM data is corrupted. To help avoid this

situation, a 10 Kohm resistor is connected either between WE

and system V

Software STORE

Data is transferred from the SRAM to the nonvolatile memory

by a software address sequence. The STK12C68-5 software

STORE cycle is initiated by executing sequential CE controlled

Read cycles from six specific address locations in exact order.

During the STORE cycle, an erase of the previous nonvolatile

data is first performed followed by a program of the nonvolatile

elements. When a STORE cycle is initiated, input and output

are disabled until the cycle is completed.

Because a sequence of Reads from specific addresses is

used for STORE initiation, it is important that no other Read or

Write accesses intervene in the sequence. If they intervene,

the sequence is aborted and no STORE or RECALL takes

place.

To initiate the software STORE cycle, the following Read

sequence is performed:

The software sequence is clocked with CE controlled Reads

or OE controlled Reads. When the sixth address in the

sequence is entered, the STORE cycle commences and the

chip is disabled. It is important that Read cycles and not Write

cycles are used in the sequence. It is not necessary that OE

is LOW for a valid sequence. After the t

fulfilled, the SRAM is again activated for Read and Write

operation.

Software RECALL

Data is transferred from the nonvolatile memory to the SRAM

by a software address sequence. A software RECALL cycle is

initiated with a sequence of Read operations in a manner

similar to the software STORE initiation. To initiate the

RECALL cycle, the following sequence of CE controlled Read

operations is performed:

1. Read address 0x0000, Valid READ

2. Read address 0x1555, Valid READ

3. Read address 0x0AAA, Valid READ

4. Read address 0x1FFF, Valid READ

5. Read address 0x10F0, Valid READ

6. Read address 0x0F0F, Initiate STORE cycle

1. Read address 0x0000, Valid READ

2. Read address 0x1555, Valid READ

3. Read address 0x0AAA, Valid READ

RESET

), an internal RECALL request is latched. When V

STK12C68-5 (SMD5962-94599)

or between CE and system V

HRECALL

STORE

SWITCH

cycle time is

to complete.

, a RECALL

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