Rainbow Electronics MAX1619 User Manual

The address pin states are checked at POR and SPOR
only, and the address data stays latched to reduce qui-
escent supply current due to the bias current needed
for high-Z state detection. A new device address can be
written using the Write Address Command FDh.

The MAX1619 also responds to the SMBus Alert Response
slave address (see the

Alert Response Address

section).

POR and UVLO

The MAX1619 has a volatile memory. To prevent ambig-
uous power-supply conditions from corrupting the data in
memory and causing erratic behavior, a POR voltage
detector monitors V

CC

and clears the memory if V

CC

falls

below 1.7V (typical, see

Electrical Characteristics

table).

When power is first applied and V

CC

rises above 1.75V

(typical), the logic blocks begin operating, although reads
and writes at V

CC

levels below 3V are not recommended.

A second V

CC

comparator, the ADC UVLO comparator,

prevents the ADC from converting until there is sufficient
headroom (V

CC

= 2.8V typical).

The SPOR software POR command can force a power-on
reset of the MAX1619 registers via the serial interface. Use
the SEND BYTE protocol with COMMAND = FCh. This is
most commonly used to reconfigure the slave address of
the MAX1619 “on the fly,” where external hardware has
forced new states at the ADD0 and ADD1 address pins
prior to the software POR. The new address takes effect
less than 100µs after the SPOR transmission stop condition.

Power-Up Defaults:

•

Interrupt latch is cleared.

•

Address select pins are sampled.

•

ADC begins auto-converting at a 0.25Hz rate.

•

Command byte is set to 01h to facilitate quick
remote Receive Byte queries.

•

T

HIGH

and T

LOW

registers are set to +127°C and

-55°C, respectively.

•

T

MAX

and T

HYST

are set to +100°C and +95°C,

respectively.

•

OVERT polarity is active low.

MAX1619

Remote/Local Temperature Sensor with Dual-

Alarm Outputs and SMBus Serial Interface

______________________________________________________________________________________

15

Table 8. RLTS and RRTE Temperature Register Update Timing Chart

n/a (0.25Hz)

NEW CONVERSION

FREQUENCY (CHANGED VIA

WRITE TO WCRW)

Power-on reset

Autoconvert

OPERATING MODE

CONVERSION INITIATED BY:

156ms max

TIME UNTIL RLTS AND RRTE

ARE UPDATED

156ms max

n/a

One-shot command, while idling
between automatic conversions

Autoconvert

When current conversion is
complete (1-shot is ignored)

20sec

n/a

0.0625Hz

Rate timer

Autoconvert

One-shot command that occurs
during a conversion

Autoconvert

10sec

5sec

0.125Hz

0.25Hz

Rate timer

Autoconvert

2.5sec

1.25sec

0.5Hz

1Hz

Rate timer

Autoconvert

Rate timer

Autoconvert

Rate timer

Autoconvert

625ms

312.5ms

2Hz

4Hz

Rate timer

Autoconvert

237.5ms

156ms

8Hz

n/a

STBY pin

Hardware Standby

Rate timer

Autoconvert

Rate timer

Autoconvert

156ms

156ms

n/a

n/a

One-shot command

Software Standby

RUN/STOP bit

Software Standby

Table 9. POR Slave Address Decoding
(ADD0 and ADD1)

Note:

High-Z means that the pin is left unconnected and floating.

0011 001

High-Z

GND

0011 000

ADDRESS

0101 001

GND

High-Z

0011 010

V

CC

GND

0101 011

V

CC

High-Z

0101 010

1001 101

High-Z

V

CC

1001 100

GND

GND

GND

V

CC

High-Z

High-Z

1001 110

V

CC

V

CC

ADD0

ADD1