Software Recall, Low Average Active Power

STK14C88-3

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 0x0E38, Valid READ

2.Read address 0x31C7, Valid READ

3.Read address 0x03E0, Valid READ

4.Read address 0x3C1F, Valid READ

5.Read address 0x303F, Valid READ

6.Read address 0x0C63, Initiate RECALL cycle

Internally, RECALL is a two step procedure. First, the SRAM data is cleared, and then the nonvolatile information is transferred into the SRAM cells. After the tRECALL cycle time, the SRAM is once again ready for READ and WRITE operations. The RECALL operation does not alter the data in the nonvolatile elements. The nonvolatile data can be recalled an unlimited number of times.

Low Average Active Power

CMOS technology provides the STK14C88-3 the benefit of drawing significantly less current when it is cycled at times longer than 50 ns. Figure 4 and Figure 5 show 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 = 3.6V, 100% duty cycle on chip enable). Only standby current is drawn when the chip is disabled. The overall average current drawn by the STK14C88-3 depends on the following items:

1.The duty cycle of chip enable

2.The overall cycle rate for accesses

3.The ratio of READs to WRITEs

4.CMOS versus TTL input levels

5.The operating temperature

6.The VCC level

7.IO loading

Figure 4. Current Versus Cycle Time (READ)

Preventing STORE

The STORE function can be disabled on the fly by holding HSB high with a driver capable of sourcing 30 mA at a VOH of at least 2.2V, because it has to overpower the internal pull down device. This device drives HSB LOW for 20 μs at the onset of a STORE. When the STK14C88-3 is connected for AutoStore operation (system VCC connected to VCC and a 68 μF capacitor on VCAP) and VCC crosses VSWITCH on the way down, the STK14C88-3 attempts to pull HSB LOW. If HSB does not actually get below VIL, the part stops trying to pull HSB LOW and aborts the STORE attempt.

Hardware Protect

The STK14C88-3 offers hardware protection against inadvertent STORE operation and SRAM WRITEs during low voltage condi-

tions. When VCAP<VSWITCH, all externally initiated STORE Figure 5. Current Versus Cycle Time (WRITE) operations and SRAM WRITEs are inhibited.

Noise Considerations

The STK14C88-3 is a high speed memory. It must have a high frequency bypass capacitor of approximately 0.1 µF connected between VCC and VSS, using leads and traces that are as short as possible. As with all high speed CMOS ICs, careful routing of power, ground, and signals reduce circuit noise.

Document Number: 001-50592 Rev. **

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