SMD5962-92324 Просмотр технического описания (PDF) - Cypress Semiconductor

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SMD5962-92324

64 Kbit (8K x 8) SoftStore nvSRAM

Cypress Semiconductor 

STK11C68-5 (SMD5962-92324)

Low Average Active Power

Figure 4. Current Versus Cycle Time (Write)

CMOS technology provides the STK11C68-5 the benefit of

drawing significantly less current when it is cycled at times longer

than 50 ns. Figure 3 and Figure 4 shows the relationship

between ICC and Read or Write cycle time. Worst case current

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 STK11C68-5

depends on the following items:

■ Duty cycle of chip enable

■ Overall cycle rate for accesses

■ Ratio of Reads to Writes

■ CMOS versus TTL input levels

■ Operating temperature

■ VCC level

■ I/O loading

Figure 3. Current Versus Cycle Time (Read)

Best Practices

Cypress nvSRAM products have been used effectively for over

15 years. While ease of use is one of the product’s main system

values, the experience gained from working with hundreds of

applications has resulted in the following suggestions as best

practices:

■ The nonvolatile cells in an nvSRAM are programmed on the

test floor during final test and quality assurance. Incoming

inspection routines at customer or contract manufacturer’s

sites sometimes reprograms these values. Final NV patterns

are typically repeating patterns of AA, 55, 00, FF, A5, or 5A.

The end product’s firmware must not assume that an NV array

is in a set programmed state. Routines that check memory

content values to determine first time system configuration.

■ Cold or warm boot status, and so on must always program a

unique NV pattern (for example, complex 4-byte pattern of 46

E6 49 53 hex or more random bytes) as part of the final system

manufacturing test. This is to ensure these system routines

work consistently.

Table 1. Hardware Mode Selection

CE

WE

A12–A0

Mode

I/O

Notes

L

H

0x0000

Read SRAM

Output Data

[1]

0x1555

Read SRAM

Output Data

0x0AAA

Read SRAM

Output Data

0x1FFF

Read SRAM

Output Data

0x10F0

Read SRAM

Output Data

0x0F0F

Nonvolatile STORE

Output High Z

L

H

0x0000

Read SRAM

Output Data

[1]

0x1555

Read SRAM

Output Data

0x0AAA

Read SRAM

Output Data

0x1FFF

Read SRAM

Output Data

0x10F0

Read SRAM

Output Data

0x0F0E

Nonvolatile RECALL

Output High Z

Note

1. The six consecutive addresses must be in the order listed. WE must be high during all six consecutive CE controlled cycles to enable a nonvolatile cycle.

Document Number: 001-51001 Rev. *A

Page 4 of 15

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