ADM1022ARQ-REEL ON Semiconductor, ADM1022ARQ-REEL Datasheet - Page 12

ADM1022ARQ-REEL

Manufacturer Part Number

ADM1022ARQ-REEL

Description

IC SENSOR TEMP/DET 3/5.5V 16QSOP

Manufacturer

ON Semiconductor

Type

Temperature Sensorr

Datasheet

1.ADM1022ARQ-REEL.pdf (19 pages)

Specifications of ADM1022ARQ-REEL

Rohs Status

RoHS non-compliant

Input Type

Logic

Output Type

Analog

Interface

Serial

Current - Supply

2.6mA

Mounting Type

Surface Mount

Package / Case

16-QSOP

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ADM1022

FAULT TOLERANT FAN CONTROL

The ADM1022 incorporates a fault tolerant fan control capabil-

ity that is tied to operation of the THERM output. It can over-

ride the setting of the analog output and force it to maximum to

give full fan speed in the event of a critical over-temperature

problem, even if, for some reason, this has not been handled by

the system software.

There are four temperature set point registers that will activate

the fault tolerant fan control. Two of these limits are program-

mable by the user and two are hardware (read-only) registers

that will operate if the user does not program any limits. The

fault tolerant fan control is activated if a limit is exceeded for

three or more consecutive readings. These limits are separate

from the normal high and low temperature limits for the INT

output, which do not affect the fault tolerant fan control or

THERM output.

A hardware limit of 70°C for the on-chip temperature sensor is

programmed into the register at address 13h. For the remote

sensors, a hardware limit of 100°C is programmed in to the

log output will be forced to full-scale if the on-chip sensor reads

more than 70°C or either of the remote sensors reads more than

100°C. This makes the fault tolerant fan control fail-safe in that it

will operate at these temperatures even if the user has programmed

no other limits, or in the event of a software malfunction.

The user may override these default limits by programming new

limits into registers at address 14h for the on-chip sensor and

18h for the remote sensors. The default values in these registers

are the same as for the read-only registers (70°C and 100°C),

but they may be programmed with higher or lower values.

Once registers 13h and 14h have been programmed, or if the

default is acceptable, Bit 1 of the conﬁguration register must be

set to “1.” This bit is a write-once bit that can only be written to

“1” and it has two effects:

1. It makes the values in registers 13h and 14h the active limits,

2. It locks the data into registers 13h and 14h, so they cannot

Once the hardware override of the analog output is triggered, it

will only return to normal operation after three consecutive

measurements that are ﬁve degrees lower than each of the above

limits.

The analog output can also be forced to full-scale by pulling the

THERM pin (Pin 11) low. Bit 6 of the Status Register is also set.

Whenever FAN_SPD output is forced to full-scale, the FAN_OFF

output is negated.

THE ADM1022 INTERRUPT SYSTEM

The ADM1022 has two interrupt outputs, INT and THERM.

These have different functions. INT responds to violations of

software programmed temperature limits and its interrupt sources

are maskable, as described in more detail later. THERM is

intended as a “fail-safe” interrupt output that cannot be masked.

Interrupts and status bits are only set if a limit is exceeded for at

least three consecutive conversions.

and disables read-only registers 17h and 18h.

be changed until the lock bit is reset, which is when RST2 is

asserted or a Power-On Reset occurs.

Operation of the INT output is illustrated in Figure 15. Assum-

ing that the temperature starts off within the programmed limits

and that temperature interrupt sources are not masked, INT

will go low if the temperature measured by any of the internal or

external sensors goes outside the programmed high or low

temperature limit for that sensor. INT also goes low whenever

THERM is low.

Once the interrupt has been cleared, it will not be reasserted

even if the temperature remains outside the limit previously

exceeded. However, INT will be reasserted if:

a) the temperature goes outside the other limit for the sensor

b) the previously exceeded limit is reprogrammed and the tem-

c) an interrupt is generated by another source.

INTERRUPT MASKING

Any of the bits in the Interrupt Status Register can be masked

out by setting the corresponding mask bit in the Interrupt Mask

interrupt. However, the bits in the status register will be set as

normal.

INTERRUPT CLEARING

Reading the Interrupt Status Register will output the contents of

the Register, then clear it. It will remain cleared until the moni-

toring cycle updates it, so the next read operation should not be

performed on the register until this has happened, or the result

will be invalid.

The INT output is cleared with the INT_Clear bit, which is Bit

2 of the Conﬁguration Register, without affecting the contents

of the Interrupt (INT) Status Registers.

INTERRUPT STATUS MIRROR REGISTER

Whenever a bit in the Interrupt Status Register is set, the corre-

sponding bit is also set in the mirror register at address 4Ch.

This register allows a second management system to access the

status data without worrying about clearing the data. The data

in this register is for reading only and has no effect on the inter-

rupt output. The contents of this register are cleared when read.

perature is then outside the new limit on the next conversion

cycle

100 C

90 C

80 C

70 C

60 C

50 C

40 C

INT

ACPI CONTROL

CLEAR EVENT

METHODS

TEMP

*ACPI AND DEFAULT CONTROL METHODS

ADJUST TEMPERATURE LIMIT VALUES

INT

HIGH LIMIT

LOW LIMIT

ADM1022ARQ-REEL ON Semiconductor, ADM1022ARQ-REEL Datasheet - Page 12

ADM1022ARQ-REEL

Specifications of ADM1022ARQ-REEL

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