Table 6. gpi1–gpi4 active logic states, Table 7. programmable output behavior and mr – Rainbow Electronics MAX6871 User Manual

AUXIN1 and AUXIN2

The AUXIN1 and AUXIN2 high-impedance analog inputs
are intended to monitor two additional system voltages
not required for power-supply sequencing or reset pur-
poses. The internal 10-bit ADC monitors AUXIN1 and
AUXIN2 and stores the data in the ADC registers (Table

5). AUXIN1 and AUXIN2 do not assert any of the pro-
grammable outputs. The AUXIN1 and AUXIN2 inputs
accept power-supply voltages or other system voltages
scaled to the +1.25V ADC input voltage range.

GPI1–GPI4

The GPI1–GPI4 programmable logic inputs control
power-supply sequencing (programmable outputs),
reset/interrupt signaling, and watchdog functions (see
the Configuring the Watchdog Timers (Registers
3Ch–3Fh) section). Configure GPI1–GPI4 for active-low
or active-high logic (Table 6). GPI1–GPI4 internally pull
down to GND through a 10µA current sink.

MR

The manual reset (MR) input initiates a reset condition.
Register 40h determines the programmable outputs that
assert while MR is low (Table 7). All affected programma-
ble outputs remain asserted (see the Programmable
Outputs section) for their PO_ timeout periods after MR
releases high. An internal 10µA current source pulls MR
to DBP. Leave MR unconnected or connect to DBP if
unused. A programmable output cannot depend solely
on MR.

MAX6870/MAX6871

EEPROM-Programmable Hex/Quad

Power-Supply Sequencers/Supervisors with ADC

______________________________________________________________________________________

17

Table 5. ADC Registers for AUXIN1 and
AUXIN2 (Read Only)

REGISTER

ADDRESS

BIT

RANGE

DESCRIPTION

5Ch

[7:0]

AUXIN1 measured value, 8 MSBs.

[1:0]

AUXIN1 measured value, 2 LSBs.

5Dh

[7:2]

Not used.

5Eh

[7:0]

AUXIN2 measured value, 8 MSBs.

[1:0]

AUXIN2 measured value, 2 LSBs.

5Fh

[7:2]

Not used.

Table 6. GPI1–GPI4 Active Logic States

REGISTER

ADDRESS

BIT

RANGE

D ESC R IPT IO N

[0]

G P I1. 0 = acti ve l ow . 1 = acti ve hi g h.

[1]

G P I2. 0 = acti ve l ow . 1 = acti ve hi g h.

[2]

G P I3. 0 = acti ve l ow . 1 = acti ve hi g h.

3Bh

[3]

G P I4. 0 = acti ve l ow . 1 = acti ve hi g h.

Table 7. Programmable Output Behavior and MR

REGISTER

ADDRESS

EEPROM

MEMORY

ADDRESS

BIT

RANGE

DESCRIPTION

[0]

PO1 (MAX6870 only). 0 = PO1 independent of MR. 1 = PO1 asserts when MR = low.

[1]

PO2 (MAX6870 only). 0 = PO2 independent of MR. 1 = PO2 asserts when MR = low.

[2]

PO3 (MAX6870)/PO1 (MAX6871). 0 = PO3/PO1 independent of MR.
1 = PO3/PO1 asserts when MR = low.

[3]

PO4 (MAX6870)/PO2 (MAX6871). 0 = PO4/PO2 independent of MR.
1 = PO4/PO2 asserts when MR = low.

[4]

PO5 (MAX6870)/PO3 (MAX6871). 0 = PO5/PO3 independent of MR.
1 = PO5/PO3 asserts when MR = low.

[5]

PO6 (MAX6870)/PO4 (MAX6871). 0 = PO6/PO4 independent of MR.
1 = PO6/PO4 asserts when MR = low.

[6]

PO7 (MAX6870)/PO5 (MAX6871). 0 = PO7/PO5 independent of MR.
1 = PO7/PO5 asserts when MR = low.

40h

8040h

[7]

PO8 (MAX6870 only). 0 = PO8 independent of MR. 1 = PO8 asserts when MR = low.