MAX6654MEE-T Maxim Integrated Products, MAX6654MEE-T Datasheet - Page 12

MAX6654MEE-T

Manufacturer Part Number

MAX6654MEE-T

Description

Board Mount Temperature Sensors

Manufacturer

Maxim Integrated Products

Datasheet

1.MAX6654MEE.pdf (16 pages)

Specifications of MAX6654MEE-T

Full Temp Accuracy

+/- 5 C

Package / Case

QSOP-16

Digital Output - Bus Interface

Serial (2-Wire, I2C)

Digital Output - Number Of Bits

10 bit + Sign

Maximum Operating Temperature

+ 125 C

Minimum Operating Temperature

- 55 C

Output Type

Digital

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

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1°C Accurate Remote/Local Temperature

Sensor with SMBus Serial Interface

Table 4. Read Format for Alert Response

Address (0001100)

The ALERT interrupt output signal is latched and can

only be cleared by either reading the status register or

by responding to an Alert Response address, if the

fault condition has ceased. Interrupts are generated in

response to T

the remote diode is disconnected (for continuity fault

detection). The interrupt does not halt automatic con-

versions; new temperature data continues to be avail-

able over the SMBus interface after ALERT is asserted.

The interrupt output pin is open drain so that multiple

devices can share a common interrupt line. The inter-

rupt rate can never exceed the conversion rate.

The MAX6654 responds to the SMBus Alert Response

address, an interrupt pointer return-address feature

(see Alert Response Address section). Prior to taking

corrective action, always check to ensure that an inter-

rupt is valid by reading the current temperature.

The SMBus Alert Response interrupt pointer provides

quick fault identification for simple slave devices that

lack the complex, expensive logic needed to be a bus

master. Upon receiving an ALERT interrupt signal, the

host master can broadcast a Receive Byte transmission

to the Alert Response slave address (0001 100). Then

any slave device that generated an interrupt attempts

to identify itself by putting its own address on the bus

(Table 4).

The Alert Response can activate several different slave

devices simultaneously, similar to the I

If more than one slave attempts to respond, bus arbitra-

tion rules apply, and the device with the lower address

code wins. The losing device does not generate an

acknowledge and continues to hold the ALERT line low

(MSB)

(LSB)

BIT

______________________________________________________________________________________

NAME

ADD7

ADD6

ADD5

ADD4

ADD3

ADD2

ADD1

HIGH

and T

Provide the current MAX6654

slave address that was latched at

POR (Table 9)

Logic 1

Alert Response Address

LOW

comparisons and when

FUNCTION

Alert Interrupts

C General Call.

until cleared. (The conditions for clearing an ALERT

vary depending on the type of slave device. Successful

reading of the alert response address clears the inter-

rupt latch provided that the condition that caused the

ALERT has already ceased. The ALERT is cleared after

the slave address has been returned to the host.)

The 8-bit command byte register (Table 5) is the master

index that points to the various other registers within the

MAX6654. The register’s POR state is 0000 0000, so

that a Receive Byte transmission (a protocol that lacks

the command byte) that occurs immediately after POR

returns the current local temperature data. The one-

shot command immediately forces a new conversion

cycle to begin. If the one-shot command is received

when the MAX6654 is in software standby mode

(RUN/STOP bit = high), a new conversion is begun,

after which the device returns to standby mode. If a

conversion is in progress when a one-shot command is

received, the command is ignored. If a one-shot com-

mand is received in autoconvert mode (RUN/STOP bit

= low) between conversions, a new conversion begins,

the conversion rate timer is reset, and the next automat-

ic conversion takes place after a full delay elapses.

The configuration byte register (Table 6) is a read-write

(disable) interrupts. Bit 6 puts the MAX6654 into soft-

ware standby mode (STOP) or autoconvert (RUN) mode.

Bit 5 selects the extended temperature range mode,

which allows temperature data to be read down to

-65°C. Bit 4 puts the MAX6654 into parasitic resistance

cancellation mode (PRCM), which can reduce tempera-

ture measurement errors due to resistance in series with

the sensing junction. Bit 3 should always be set to one

(not the default value for operation with the CPU). Bits 2,

1, and 0 are internally set to one.

Resistance in series with the remote-sensing junction

causes conversion errors on the order of 0.5°C per

ohm. The MAX6654 can cancel the effect of parasitic

series resistance by using the PRCM. If bit 4 of the con-

figuration byte is set HIGH, then the PRCM is invoked,

provided the conversion rate is set ≤ 1Hz. If the conver-

sion rate is faster than this, then the setting of bit 4 in

the configuration register is ignored. In the PRCM, the

conversion time is doubled (to typically 500ms to read

both local and remote diodes) but external resistances

as high as 100Ω can be compensated.

Parasitic Resistance Cancellation Mode

Configuration Byte Functions

Command Byte Functions

MAX6654MEE-T Maxim Integrated Products, MAX6654MEE-T Datasheet - Page 12

MAX6654MEE-T

Specifications of MAX6654MEE-T

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