LM75CIM-5 National Semiconductor, LM75CIM-5 Datasheet - Page 10

LM75CIM-5

Manufacturer Part Number

LM75CIM-5

Description

Temperature Sensor IC

Manufacturer

National Semiconductor

Datasheets

1.LM75BIMMX-3.pdf (18 pages)

2.LM75CIMM-3.pdf (16 pages)

3.LM75CIMM-3.pdf (18 pages)

Specifications of LM75CIM-5

Mounting Type

Surface Mount

Supply Voltage Min

Operating Temperature Max

125Â°C

Peak Reflow Compatible (260 C)

Ic Function

Temperature Sensor IC

Supply Voltage Max

5.5V

Leaded Process Compatible

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

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1.0 Functional Description

1.10 INTERNAL REGISTER STRUCTURE

There are four data registers in the LM75, selected by the

Pointer register. At power-up the Pointer is set to “00”; the

location for the Temperature Register. The Pointer register

latches whatever the last location it was set to. In Interrupt

Mode, a read from the LM75, or placing the device in shut-

down mode, resets the O.S. output. All registers are read

and write, except the Temperature register which is read

only.

A write to the LM75 will always include the address byte and

the Pointer byte. A write to the Configuration register re-

quires one data byte, and the T

require two data bytes.

Reading the LM75 can take place either of two ways: If the

location latched in the Pointer is correct (most of the time it is

expected that the Pointer will point to the Temperature reg-

ister because it will be the data most frequently read from the

LM75), then the read can simply consist of an address byte,

followed by retrieving the corresponding number of data

bytes. If the Pointer needs to be set, then an address byte,

pointer byte, repeat start, and another address byte will

accomplish a read.

FIGURE 5. Inadvertent 8-Bit Read from 16-Bit Register where D7 is Zero (“0”)

and T

HYST

(Continued)

registers

The first data byte is the most significant byte with most

significant bit first, permitting only as much data as neces-

sary to be read to determine temperature condition. For

instance, if the first four bits of the temperature data indi-

cates an overtemperature condition, the host processor

could immediately take action to remedy the excessive tem-

peratures. At the end of a read, the LM75 can accept either

Acknowledge or No Acknowledge from the Master (No Ac-

knowledge is typically used as a signal for the slave that the

Master has read its last byte).

An inadvertent 8-bit read from a 16-bit register, with the D7

bit low, can cause the LM75 to stop in a state where the SDA

line is held low as shown in Figure 5. This can prevent any

further bus communication until at least 9 additional clock

cycles have occurred. Alternatively, the master can issue

clock cycles until SDA goes high, at which time issuing a

“Stop” condition will reset the LM75.

01265808

01265809

LM75CIM-5 National Semiconductor, LM75CIM-5 Datasheet - Page 10

LM75CIM-5

Specifications of LM75CIM-5

Available stocks

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