DS18B20-PAR_07 MAXIM [Maxim Integrated Products], DS18B20-PAR_07 Datasheet - Page 5

DS18B20-PAR_07

Manufacturer Part Number

DS18B20-PAR_07

Description

1-Wire Parasite-Power Digital Thermometer

Manufacturer

MAXIM [Maxim Integrated Products]

Datasheet

1.DS18B20-PAR_07.pdf (19 pages)

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DS18B20-PAR

The master device can check the alarm flag status of all DS DS18B20-PARs on the bus by issuing an

Alarm Search [ECh] command. Any DS18B20-PARs with a set alarm flag will respond to the command,

so the master can determine exactly which DS18B20-PARs have experienced an alarm condition. If an

alarm condition exists and the T

or T

settings have changed, another temperature conversion should be

done to validate the alarm condition.

64-BIT LASERED ROM CODE

Each DS18B20-PAR contains a unique 64–bit code (see Figure 5) stored in ROM. The least significant 8

bits of the ROM code contain the DS18B20-PAR’s 1–wire family code: 28h. The next 48 bits contain a

unique serial number. The most significant 8 bits contain a cyclic redundancy check (CRC) byte that is

calculated from the first 56 bits of the ROM code. A detailed explanation of the CRC bits is provided in

the CRC GENERATION section. The 64–bit ROM code and associated ROM function control logic

allow the DS18B20-PAR to operate as a 1–wire device using the protocol detailed in the 1-WIRE BUS

SYSTEM section of this datasheet.

64-BIT LASERED ROM CODE Figure 5

8-BIT CRC

48-BIT SERIAL NUMBER

8-BIT FAMILY CODE (28h)

MSB

LSB

MSB

LSB

MSB

LSB

MEMORY

The DS18B20-PAR’s memory is organized as shown in Figure 6. The memory consists of an SRAM

scratchpad with nonvolatile EEPROM storage for the high and low alarm trigger registers (T

and T

)

and configuration register. Note that if the DS18B20-PAR alarm function is not used, the T

and T

registers can serve as general-purpose memory. All memory commands are described in detail in the

DS18B20-PAR FUNCTION COMMANDS section.

Byte 0 and byte 1 of the scratchpad contain the LSB and the MSB of the temperature register,

respectively. These bytes are read-only. Bytes 2 and 3 provide access to T

and T

registers. Byte 4

contains the configuration register data, which is explained in detail in the CONFIGURATION

cannot be overwritten.

Byte 8 of the scratchpad is read-only and contains the cyclic redundancy check (CRC) code for bytes 0

through 7 of the scratchpad. The DS18B20-PAR generates this CRC using the method described in the

CRC GENERATION section.

Data is written to bytes 2, 3, and 4 of the scratchpad using the Write Scratchpad [4Eh] command, and the

data must be transmitted to the DS18B20-PAR starting with the least significant bit of byte 2. To verify

data integrity, the scratchpad can be read (using the Read Scratchpad [BEh] command) after the data is

written.

When reading the scratchpad, data is transferred over the 1-Wire bus starting with the least

significant bit of byte 0. To transfer the T

, T

and configuration data from the scratchpad to EEPROM,

the master must issue the Copy Scratchpad [48h] command.

Data in the EEPROM registers is retained when the device is powered down; at power-up the EEPROM

data is reloaded into the corresponding scratchpad locations. Data can also be reloaded from EEPROM

to the scratchpad at any time using the Recall E

[B8h] command. The master can issue “read time slots”

(see the 1-WIRE BUS SYSTEM section) following the Recall E

command and the DS18B20-PAR will

indicate the status of the recall by transmitting 0 while the recall is in progress and 1 when the recall is

done.

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DS18B20-PAR_07 MAXIM [Maxim Integrated Products], DS18B20-PAR_07 Datasheet - Page 5

DS18B20-PAR_07

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