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STK11C68

Document Number: 001-50638 Rev. **

Page 4 of 16

average current drawn by the STK11C68 depends on the
following items:

■

The duty cycle of chip enable

■

The overall cycle rate for accesses

■

The ratio of Reads to Writes

■

CMOS versus TTL input levels

■

The operating temperature

■

The V

CC

level

■

IO loading

Best Practices

nvSRAM products have been used effectively for over 15 years.
While ease of use is one of the product’s main system values,
experience gained 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 should 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 to ensure these system routines work
consistently.

■

Power up boot firmware routines should rewrite the nvSRAM
into the desired state. While the nvSRAM is shipped in a preset
state, best practice is to again rewrite the nvSRAM into the
desired state as a safeguard against events that might flip the
bit inadvertently (program bugs, incoming inspection routines,
and so on).

Figure 2. Current Versus Cycle Time (Read)

Figure 3. Current Versus Cycle Time (Write)

Table 1. Hardware Mode Selection

CE

WE

A12–A0

Mode

IO

Notes

L

H

0x0000
0x1555

0x0AAA

0x1FFF

0x10F0
0x0F0F

Read SRAM
Read SRAM
Read SRAM
Read SRAM
Read SRAM

Nonvolatile STORE

Output Data
Output Data
Output Data
Output Data
Output Data

Output High Z

[1]

L

H

0x0000
0x1555

0x0AAA

0x1FFF

0x10F0

0x0F0E

Read SRAM
Read SRAM
Read SRAM
Read SRAM
Read SRAM

Nonvolatile RECALL

Output Data
Output Data
Output Data
Output Data
Output Data

Output High Z

[1]

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.

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Содержание STK11C68

Страница 1: ...tatic RAM with a nonvol atile element in each memory cell The embedded nonvolatile elements incorporate QuantumTrap technology producing the world s most reliable nonvolatile memory The SRAM provides unlimited read and write cycles while independent nonvolatile data resides in the highly reliable QuantumTrap cell Data transfers under software control from SRAM to the nonvolatile elements the STORE...

Страница 2: ...ut Write Enable Input Active LOW When the chip is enabled and WE is LOW data on the IO pins is written to the specific address location CE E Input Chip Enable Input Active LOW When LOW selects the chip When HIGH deselects the chip OE G Input Output Enable Active LOW The active LOW OE input enables the data output buffers during read cycles Deasserting OE HIGH causes the IO pins to tri state VSS Gr...

Страница 3: ...software sequence is clocked with CE 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 tSTORE cycle time is fulfilled the SRAM is again activated for Read and Write operation Software REC...

Страница 4: ...atus 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 to ensure these system routines work consistently Power up boot firmware routines should rewrite the nvSRAM into the desired state While the nvSRAM is shipped in a preset state best practice is to again rewrite the nvSRAM i...

Страница 5: ...nputs Do Not Care VCC Max Average current for duration tSTORE 3 mA ICC3 Average VCC Current at tRC 200 ns 5V 25 C Typical WE VCC 0 2V All other inputs cycling Dependent on output loading and cycle rate Values obtained without output loads 10 mA ISB1 2 VCC Standby Current Standby Cycling TTL Input Levels tRC 25 ns CE VIH tRC 35 ns CE VIH tRC 45 ns CE VIH Commercial 27 23 20 mA mA mA Industrial 28 2...

Страница 6: ...rameter Description Test Conditions 28 SOIC 28 CDIP 28 LCC Unit ΘJA Thermal Resistance Junction to Ambient Test conditions follow standard test methods and procedures for measuring thermal impedance per EIA JESD51 TBD TBD TBD C W ΘJC Thermal Resistance Junction to Case TBD TBD TBD C W Figure 4 AC Test Loads AC Test Conditions 5 0V Output 30 pF R1 480Ω R2 255Ω Input Pulse Levels 0V to 3V Input Rise...

Страница 7: ... 5 5 5 ns tHZCE 6 tEHQZ Chip Disable to Output Inactive 10 13 15 ns tLZOE 6 tGLQX Output Enable to Output Active 0 0 0 ns tHZOE 6 tGHQZ Output Disable to Output Inactive 10 13 15 ns tPU 3 tELICCH Chip Enable to Power Active 0 0 0 ns tPD 3 tEHICCL Chip Disable to Power Standby 25 35 45 ns Switching Waveforms Figure 5 SRAM Read Cycle 1 Address Controlled 4 5 Figure 6 SRAM Read Cycle 2 CE and OE Cont...

Страница 8: ...ess Setup to Start of Write 0 0 0 ns tHA tWHAX tEHAX Address Hold After End of Write 0 0 0 ns tHZWE 6 7 tWLQZ Write Enable to Output Disable 10 13 15 ns tLZWE 6 tWHQX Output Active After End of Write 5 5 5 ns Switching Waveforms Figure 7 SRAM Write Cycle 1 WE Controlled 7 8 Figure 8 SRAM Write Cycle 2 CE and OE Controlled 7 8 tWC tSCE tHA tAW tSA tPWE tSD tHD tHZWE tLZWE ADDRESS CE WE DATA IN DATA...

Страница 9: ...Level 4 0 4 5 V VRESET Low Voltage Reset Level 3 6 V Switching Waveform Figure 9 AutoStore INHIBIT Power Up RECALL VCC VSWITCH VRESET POWER UP RECALL DQ DATA OUT STORE INHIBIT 5V tHRECALL POWER UP RECALL BROWN OUT STORE INHIBIT NO RECALL VCC DID NOT GO BELOW VRESET BROWN OUT STORE INHIBIT NO RECALL VCC DID NOT GO BELOW VRESET BROWN OUT STORE INHIBIT RECALL WHEN VCC RETURNS ABOVE VSWITCH Note 9 tHR...

Страница 10: ... ns tHACE 10 tELAX Address Hold Time 20 20 20 ns tRECALL 10 RECALL Duration 20 20 20 μs Switching Waveform Figure 10 CE Controlled Software STORE RECALL Cycle 11 tRC tRC tSA tSCE tHACE tSTORE tRECALL DATA VALID DATA VALID 6 S S E R D D A 1 S S E R D D A HIGH IMPEDANCE ADDRESS CE OE DQ DATA Notes 10 The software sequence is clocked on the falling edge of CE without involving OE double clocking abor...

Страница 11: ...058 28 Pin SOIC 330 mil STK11C68 C35 001 51695 28 Pin CDIP 300 mil STK11C68 L35 001 51696 28 Pin LCC 350 mil STK11C68 SF35ITR 001 85058 28 Pin SOIC 330 mil Industrial STK11C68 SF35I 001 85058 28 Pin SOIC 330 mil STK11C68 C35I 001 51695 28 Pin CDIP 300 mil STK11C68 L35I 001 51696 28 Pin LCC 350 mil Part Numbering Nomenclature Packaging Option TR Tape and Reel Blank Tube Speed 25 25 ns 35 35 ns Pack...

Страница 12: ... STK11C68 SF45ITR 001 85058 28 Pin SOIC 330 mil Industrial STK11C68 SF45I 001 85058 28 Pin SOIC 330 mil STK11C68 C45I 001 51695 28 Pin CDIP 300 mil STK11C68 L45I 001 51696 28 Pin LCC 350 mil All parts are Pb free The above table contains Final information Contact your local Cypress sales representative for availability of these parts Ordering Information continued Speed ns Ordering Code Package Di...

Страница 13: ...STK11C68 Document Number 001 50638 Rev Page 13 of 16 Package Diagrams Figure 11 28 Pin 330 Mil SOIC 51 85058 51 85058 A Feedback ...

Страница 14: ...STK11C68 Document Number 001 50638 Rev Page 14 of 16 Figure 12 28 Pin 300 Mil Side Braze DIL 001 51695 Package Diagrams continued 001 51695 Feedback ...

Страница 15: ...Number 001 50638 Rev Page 15 of 16 Figure 13 28 Pad 350 Mil LCC 001 51696 Package Diagrams continued 1 ALL DIMENSION ARE IN INCHES AND MILLIMETERS MIN MAX 2 JEDEC 95 OUTLINE MO 041 3 PACKAGE WEIGHT TBD 001 51696 Feedback ...

Страница 16: ...s specified in the applicable agreement Any reproduction modification translation compilation or representation of this Source Code except as specified above is prohibited without the express written permission of Cypress Disclaimer CYPRESS MAKES NO WARRANTY OF ANY KIND EXPRESS OR IMPLIED WITH REGARD TO THIS MATERIAL INCLUDING BUT NOT LIMITED TO THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNES...

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