71m6541g-igtr/f Maxim Integrated Products, Inc., 71m6541g-igtr/f Datasheet - Page 87

71m6541g-igtr/f

Manufacturer Part Number

71m6541g-igtr/f

Description

71m6541d/71m6541f/71m6542f Energy Meter Ics

Manufacturer

Maxim Integrated Products, Inc.

Datasheet

1.71M6541G-IGTRF.pdf (165 pages)

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described in

by a wake-up timer timeout, when the pushbutton (PB) input is high, a high level on SEGDIO4,

on each pin and for further details on the OPT_RX/SEGDIO55 pin. The SEGDIO4, SEGDIO52 (71M6542F

only), and SEGDIO55 pins must be configured as DIO inputs and their wake enable (EW_x bits) must be

WF_PB, WF_RX, WF_SEGDIO4, WF_DIO52 (71M6542F only), or WF_DIO55 flags (see

If the part is in SLP or LCD mode, it can be awakened by a high level on the PB pin. This pin is normally

pulled to GND and can be connected externally so it may be pulled high by a push button depression.

Pins that do not have de-bounce circuits must still be high for at least 2 µs to be recognized.

The wake enable and flag bits are also shown in

the MPU wakes from a wake event. Note that the PB flag is set whenever the PB is pushed, even if the

part is already awake.

Table 71

In addition to push buttons and timers, the part can also reboot due to the RESET pin, the RESET bit (I/O

mechanisms has a flag bit to alert the MPU to the source of the wakeup. If the wake-up is caused by

return of system power, there is no active WF flag and the VSTAT[2:0] field (SFR 0xF9[2:0]) indicate that

system power is stable.

There is no internal digital state that could deactivate the WDT. For debug purposes, however, the WDT

can be disabled by raising the ICE_E pin to 3.3 VDC.

In normal operation, the WDT is reset by periodically writing a one to the WD_RST control bit (I/O RAM

0x28B4[7]). The watchdog timer is also reset when the 71M654x wakes from LCD or SLP mode, and

when ICE_E = 1.

3.4

As described above, the part always wakes-up in MSN mode when system power is restored. As

SEGDIO52 or SEGDIO55, or by activity on the RX or OPT_RX pins.

3.4.1 Wake on Hardware Events

The following pin signal events wake the 71M654x from SLP or LCD mode: a high level on the PB pin, either

edge on the RX pin, a rising edge on the SEGDIO4 pin, a high level on the SEGDIO52 pin (71M6542F only),

or a high level on the SEGDIO55 pin or either edge on the OPT_RX pin. See

set. In SLP and LCD modes, the MPU is held in reset and cannot poll pins or react to interrupts. When

one of the hardware wake events occurs, the internal WAKE signal rises and within three CK32 cycles

the MPU begins to execute. The MPU can determine which one of the pins awakened it by checking the

Some pins are de-bounced to reject EMI noise. Detection hardware ignores all transitions after the initial

transition.

RAM 0x2200[3]), the WDT, the cold start detector, and E_RST. As seen in

v1.1

EW_DIO52†

WAKE_ARM

EW_DIO55

EW_DIO4

EW_PB

EW_RX

Name

Wake Enable

Wake Up Behavior

lists the events that clear the WF flags.

Table 69

3.2 Battery

Location

28B2[5]

28B3[3]

28B3[4]

28B3[2]

28B3[1]

28B3[0]

shows which pins are equipped with de-bounce circuitry.

Modes, transitions from both LCD and SLP mode to BRN mode can be initiated

WF_DIO52

WF_DIO55

WF_DIO4

WF_TMR

WF_PB

WF_RX

Name

Table 69: Wake Enables and Flag Bits

Wake Flag

Location

28B1[5]

28B1[3]

28B1[4]

28B1[2]

28B1[1]

28B1[0]

Table

69. The wake flag bits are set by hardware when

De-bounce Description

2 µs

Yes

Wake on Timer.

Wake on PB*.

Wake on either edge of RX.

Wake on SEGDIO4.

Wake on SEGDIO52*.

OPT_RXDIS = 1: Wake on DIO55*

with 64 ms de-bounce.

OPT_RXDIS = 0: Wake on either

edge of OPT_RX with 2 µs de-

Table 69

Table

69, each of these

for de-bounce details

Table

69).

71m6541g-igtr/f Maxim Integrated Products, Inc., 71m6541g-igtr/f Datasheet - Page 87

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