MAX1668_03 Datasheet, PDF(10/17 Page) Maxim Integrated Products – Multichannel Remote/Local Temperature Sensors

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MAX1668_03 Datasheet, PDF (10/17 Pages) Maxim Integrated Products – Multichannel Remote/Local Temperature Sensors

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Multichannel Remote/Local

Temperature Sensors

sion cycle is truncated, and the data from that conversion

is not latched into either temperature-reading register. The

previous data is not changed and remains available.

In standby mode, supply current drops to about 3ÂµA.

At very low supply voltages (under the power-on-reset

threshold), the supply current is higher due to the

address pin bias currents. It can be as high as 100ÂµA,

depending on ADD0 and ADD1 settings.

SMBus Digital Interface

From a software perspective, the MAX1668/MAX1805/

MAX1989 appear as a set of byte-wide registers that

contain temperature data, alarm threshold values, or

control bits. A standard SMBus 2-wire serial interface is

used to read temperature data and write control bits and

alarm threshold data. Each A/D channel within the

devices responds to the same SMBus slave address for

normal reads and writes.

The MAX1668/MAX1805/MAX1989 employ four standard

SMBus protocols: write byte, read byte, send byte, and

receive byte (Figure 3). The shorter receive byte protocol

allows quicker transfers, provided that the correct data

tion. Use caution with the shorter protocols in multimaster

systems, since a second master could overwrite the com-

mand byte without informing the first master.

The temperature data format is 7 bits plus sign in twoâs-com-

plement form for each channel, with each data bit represent-

ing 1Â°C (Table 2), transmitted MSB first. Measurements are

offset by +0.5Â°C to minimize internal rounding errors; for

example, +99.6Â°C is reported as +100Â°C.

Alarm Threshold Registers

Ten (six for MAX1805) registers store alarm threshold

data, with high-temperature (THIGH) and low-tempera-

ture (TLOW) registers for each A/D channel. If either

measured temperature equals or exceeds the corre-

sponding alarm threshold value, an ALERT interrupt is

asserted.

The power-on-reset (POR) state of all THIGH registers of

the MAX1668 and MAX1805 is full scale (0111 1111, or

+127Â°C). The POR state of the channel 1 THIGH register

of the MAX1989 is 0110 1110 or +110Â°C, while all other

channels are at +127Â°C. The POR state of all TLOW reg-

isters is 1100 1001 or -55Â°C.

Write Byte Format

ADDRESS

ACK

COMMAND

ACK

DATA

ACK

7 bits

8 bits

Slave Address: equiva-

lent to chip-select line of

a 3-wire interface

Command Byte: selects which

Data Byte: data goes into the register

set by the command byte (to set

thresholds, configuration masks, and

sampling rate)

Read Byte Format

S ADDRESS WR ACK COMMAND ACK

S ADDRESS RD ACK DATA

///

7 bits

8 bits

7 bits

8 bits

Slave Address: equiva-

lent to chip-select line

Command Byte: selects

which register you are

reading from

Slave Address: repeated

due to change in data-

flow direction

Data Byte: reads from

the register set by the

command byte

Send Byte Format

Receive Byte Format

S ADDRESS WR ACK COMMAND ACK P

7 bits

8 bits

Command Byte: sends com-

mand with no data

S = Start condition

P = Stop condition

Shaded = Slave transmission

/// = Not acknowledged

Figure 3. SMBus Protocols

S ADDRESS RD ACK DATA ///

7 bits

8 bits

Data Byte: This command only

works immediately following a

Read Byte. Reads data from the

Read Byte; also used for SMBus

Alert Response return address

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