MAX31722MUA+ Maxim Integrated Products, MAX31722MUA+ Datasheet - Page 10
MAX31722MUA+
Manufacturer Part Number
MAX31722MUA+
Description
Board Mount Temperature Sensors SPI/3-Wire Digital Temp Sensor
Manufacturer
Maxim Integrated Products
Datasheet
1.MAX31723MUA.pdf
(15 pages)
Specifications of MAX31722MUA+
Lead Free Status / Rohs Status
Lead free / RoHS Compliant
Digital Thermometers and Thermostats
with SPI/3-Wire Interface
In either mode, once TOUT has been deactivated, it is
only reactivated when the measured temperature falls
below the T
cess is cyclical between T
T
etc.). Figure 6 illustrates the thermostat interrupt mode
operation.
Table 2. Register Address Structure
Table 3. Configuration/Status Register Bit Descriptions
10
HIGH
ADDRESS
BIT 7
BIT 7
BIT 6
BIT 5
BIT 4
BIT 3
READ
(HEX)
, clear, T
0
00
01
02
03
04
05
06
LOW
LOW
This bit is always a value of 0.
MEMW: Memory write bit. Power-up state = 0. The user has read/write access to the MEMW bit, which is
stored in the voltage memory.
0 = A write of the configuration/status register is stored in RAM memory.
1 = A write of the configuration/status register is stored in EEPROM.
Note: The status of this bit is ignored if a EEPROM write occurs to the other nonvolatile registers, T
T
T
NVB: Nonvolatile memory busy flag. Power-up state = 0 and is stored in volatile memory.
0 = Indicates that the nonvolatile memory is not busy.
1 = Indicates there is a write to a EEPROM memory cell in progress.
1SHOT: One-shot temperature conversion bit. Power-up state = 0 and is stored in volatile memory.
0 = Disables 1SHOT mode.
1 = If the SD bit is 1 (continuous temperature conversions are not taking place), a 1 written to the 1SHOT bit
causes the devices to perform one temperature conversion and store the results in the temperature register
at addresses 01h (LSB) and 02h (MSB). The bit clears itself to 0 upon completion of the temperature conver-
sion. The user has read/write access to the 1SHOT bit, although writes to this bit are ignored if the SD bit is a 0
(continuous conversion mode).
TM: Thermostat operating mode. Factory power-up state = 0. The user has read/write access to the TM bit,
which is stored in nonvolatile memory.
0 = The thermostat output is in comparator mode.
1 = The thermostat output is in interrupt mode.
LOW
HIGH
value. Thus, this interrupt/clear pro-
MEMW
, clear, T
BIT 6
ADDRESS
No access
No access
. The nonvolatile bits of the configuration/status register are written if a EEPROM write cycle occurs to the
and T
WRITE
(HEX)
80
83
84
85
86
HIGH
LOW
HIGH
registers.
and T
, clear, T
BIT 5
NVB
ACTIVE REGISTER
Configuration/Status
Temperature MSB
Temperature LSB
LOW
T
T
T
T
HIGH
HIGH
LOW
LOW
LOW
events (i.e,
MSB
MSB
LSB
LSB
, clear,
1SHOT
BIT 4
The area of interest in programming the devices is the
configuration/status register. All programming is done
through the SPI or 3-wire communication interface by
selecting the appropriate address of the desired register
location. Table 2 illustrates the addresses for the device
registers.
The configuration/status register is accessed in the
devices with the 00h address for reads and the 80h
address for writes. Data is read from or written to the
configuration/status register MSB first for SPI communi-
cation and LSB first for 3-wire communication. Table 3
illustrates the format of the register, describes the effect
each bit has on device functionality, and provides the
bit’s factory state.
Table 4 defines the resolution of the digital thermometer,
based on the settings of the R1 and R0 bits. There is a
direct trade-off between resolution and conversion time,
Configuration/Status Register Programming
BIT 3
TM
BIT 2
R1
BIT 1
R0
Programming
HIGH
BIT 0
SD
and
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