CY14E064L CYPRESS [Cypress Semiconductor], CY14E064L Datasheet - Page 5

CY14E064L

Manufacturer Part Number

CY14E064L

Description

64-Kbit (8K x 8) nvSRAM

Manufacturer

CYPRESS [Cypress Semiconductor]

Datasheet

1.CY14E064L.pdf (16 pages)

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Document #: 001-06543 Rev. *C

The software sequence may be clocked with CE-controlled

READs or OE-controlled READs. Once the sixth address in

the sequence has been entered, the STORE cycle will

commence and the chip will be disabled. It is important that

READ cycles and not WRITE cycles be used in the sequence,

although it is not necessary that OE be low for the sequence

to be valid. After the t

SRAM will again be activated for READ and WRITE operation.

Software RECALL

Data can be 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 must be performed:

Internally, RECALL is a two-step procedure. First, the SRAM

data is cleared, and second, the nonvolatile information is

transferred into the SRAM cells. After the t

the SRAM will once again be ready for READ and WRITE

operations. The RECALL operation in no way alters the data

in the nonvolatile elements.

Data Protection

The CY14E064L protects data from corruption during

low-voltage conditions by inhibiting all externally initiated

STORE and WRITE operations. The low voltage condition is

detected when V

WRITE mode (both CE and WE low) at power-up, after a

RECALL, or after a STORE, the WRITE will be inhibited until

a negative transition on CE or WE is detected. This protects

against inadvertent writes during power-up or brown-out

conditions.

Noise Considerations

The CY14E064L is a high-speed memory and so must have a

high-frequency bypass capacitor of approximately 0.1 µF

connected between V

are as short as possible. As with all high-speed CMOS ICs,

careful routing of power, ground, and signals will reduce circuit

noise.

Low Average Active Power

CMOS technology provides the CY14E064L the benefit of

drawing significantly less current when it is cycled at times

longer than 50 ns. Figure 4 shows the relationship between

consumption is shown for both CMOS and TTL input levels

(commercial temperature range, VCC = 5.5V, 100% duty cycle

on chip enable). Only standby current is drawn when the chip

is disabled. The overall average current drawn by the

CY14E064L depends on the following items:

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 0x0F0E, Initiate RECALL cycle

and READ/WRITE cycle time. Worst-case current

< V

STORE

and V

SWITCH

cycle time has been fulfilled, the

. If the CY14E064L is in a

, using leads and traces that

RECALL

PRELIMINARY

cycle time

1. The duty cycle of chip enable.

2. The overall cycle rate for accesses.

3. The ratio of READs to WRITEs.

4. CMOS vs. TTL Input Levels.

5. The operating temperature.

6. The V

7. I/O loading.

Figure 5. Current vs. Cycle Time (WRITE)

Figure 4. Current vs. Cycle Time (READ)

level.

CY14E064L

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