M41ST85W_11 STMICROELECTRONICS [STMicroelectronics], M41ST85W_11 Datasheet - Page 17

M41ST85W_11

Manufacturer Part Number

M41ST85W_11

Description

3.0/3.3 V I2C combination serial RTC, NVRAM supervisor and microprocessor supervisor

Manufacturer

STMICROELECTRONICS [STMicroelectronics]

Datasheet

1.M41ST85W_11.pdf (43 pages)

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M41ST85W

2.3

Figure 12. Write mode sequence

2.4

Note:

BUS ACTIVITY:

MASTER

SDA LINE

BUS ACTIVITY:

Write mode

In this mode the master transmitter transmits to the M41ST85W slave receiver. Bus protocol

is shown in

is placed on the bus and indicates to the addressed device that word address An will follow

and is to be written to the on-chip address pointer. The data word to be written to the

memory is strobed in next and the internal address pointer is incremented to the next

memory location within the RAM on the reception of an acknowledge clock. The M41ST85W

slave receiver will send an acknowledge clock to the master transmitter after it has received

the slave address and again after it has received the word address and each data byte.

Data retention mode

With valid V

WRITE cycles. Should the supply voltage decay, the M41ST85W will automatically deselect,

write protecting itself (and any external SRAM) when V

time, the reset pin (RST) is driven active and will remain active until V

levels. External RAM access is inhibited in a similar manner by forcing E

This level is within 0.2 volts of the V

remains at an out-of-tolerance condition. When V

switchover voltage (V

battery, and the clock registers and external SRAM are maintained from the attached

battery supply.

All outputs become high impedance. The V

to the attached memory with less than 0.3 volts drop under this condition. On power-up,

when V

The RST signal also remains active during this time (see

Most low power SRAMs on the market today can be used with the M41ST85W RTC

SUPERVISOR. There are, however some criteria which should be used in making the final

choice of an SRAM to use. The SRAM must be designed in a way where the chip enable

input disables all other inputs to the SRAM. This allows inputs to the M41ST85W and

SRAMs to be “Don’t Care” once V

guarantee data retention down to V

sufficient to meet the system needs with the chip enable output propagation delays

included. If the SRAM includes a second chip enable pin (E2), this pin should be tied to

OUT

PFD

(min). This is accomplished by internally inhibiting access to the clock registers. At this

returns to a nominal value, write protection continues for t

ADDRESS

Figure

SLAVE

applied, the M41ST85W can be accessed as described above with READ or

12. Following the START condition and slave address, a logic '0' (R/W=0)

), power input is switched from the V

ADDRESS (An)

WORD

Doc ID 7531 Rev 11

BAT

falls below V

= 2.0 volts. The chip enable access time must be

. E

CON

DATA n

OUT

will remain at this level as long as V

pin is capable of supplying 100 µA of current

PFD

falls below the battery backup

(min). The SRAM should also

DATA n+1

Figure 20 on page

falls between V

pin to the SNAPHAT

rec

DATA n+X

by inhibiting E

CON

returns to nominal

Operating modes

PFD

AI00591

33).

to a high level.

(max) and

CON

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M41ST85W_11 STMICROELECTRONICS [STMicroelectronics], M41ST85W_11 Datasheet - Page 17

M41ST85W_11

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