DS1626U+ Maxim Integrated Products, DS1626U+ Datasheet - Page 10
DS1626U+
Manufacturer Part Number
DS1626U+
Description
IC THERMOMETER/STAT DIG 8-USOP
Manufacturer
Maxim Integrated Products
Datasheet
1.DS1626U.pdf
(12 pages)
Specifications of DS1626U+
Function
Thermometer, Thermostat
Topology
ADC (Sigma Delta), Comparator, Register Bank
Sensor Type
Internal
Sensing Temperature
-55°C ~ 125°C
Output Type
3-Wire Serial
Output Alarm
Yes
Output Fan
No
Voltage - Supply
2.7 V ~ 5.5 V
Operating Temperature
-55°C ~ 125°C
Mounting Type
Surface Mount
Package / Case
8-MSOP, Micro8™, 8-uMAX, 8-uSOP,
Full Temp Accuracy
+/- 2 C
Digital Output - Bus Interface
Serial (3-Wire)
Digital Output - Number Of Bits
12 bit
Maximum Operating Temperature
+ 125 C
Minimum Operating Temperature
- 55 C
Ic Output Type
Digital
Sensing Accuracy Range
± 2°C
Supply Current
1.25mA
Supply Voltage Range
2.7V To 5.5V
Resolution (bits)
12bit
Sensor Case Style
µSOP
No. Of Pins
8
Accuracy %
0.5°C
Rohs Compliant
Yes
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Table 4. RESOLUTION CONFIGURATION
3-WIRE SERIAL DATA BUS
The 3-wire bus consists of three signals: RST (active-low reset), CLK (clock), and DQ (data). 3-wire
communication is controlled by the RST signal, which functions as “chip select” signal. All data is
transferred LSb first over the 3-wire bus. All communication with the DS1626/DS1726 is initiated by
driving RST high. Driving RST low terminates communications and causes DQ to go to a high-
impedance state. Note that RST must be toggled low after every communication sequence to ensure that
subsequent commands are recognized by the DS1626/DS1726.
When writing to the DS1626/DS1726, data must be valid during the rising edge of CLK. During read
operations the DS1626/DS1726 output data on DQ on the falling edge of CLK and the data remains valid
through the following rising edge, at which time the DQ pin becomes high impedance until the next
falling edge.
To communicate with the DS1626/DS1726, the master must first drive RST high and then begin
generating the CLK signal while transmitting the desired DS1626/DS1726 command byte. If the
command is a Start Convert T, Stop Convert T, or Software POR command, the transaction is finished
when the last bit of the command has been sent. Figure 7a illustrates a Start Convert T command
sequence.
When writing to the DS1626/DS1726, the master must begin transmitting data during the clock cycle
immediately following the command byte. The DS1626/DS1726 will save only the number of data bits
needed for the specific transaction. For example, for the Write TH or Write TL commands, after twelve
bits of data have been transmitted by the master, the DS1626/DS1726 will ignore any subsequent data
transmitted before RST goes low. Thus, if data is being transmitted in byte-length segments, the
DS1626/DS1726 will load the first twelve bits into the T
ignored. On the other hand, it is necessary to transmit at least the required number of bits for the
requested transaction (i.e., 12-bits to T
DS1626/DS1726 will not save data until the expected number of bits have been received. Write TH and
Write TL sequences are illustrated in Figure 7b and a Write Config sequence is shown in Figure 7c. Note
that these figures assume byte-wide data transfers.
When reading data from the DS1626/DS1726, the DS1626/DS1726 will begin sending data during the
clock cycle immediately following the command byte. After the last data byte has been sent, the
DS1626/DS1726 will transmit a 0 during each subsequent clock until RST goes low. Figure 7d illustrates
a Read Temperature sequence and a Read Config transaction is shown in Figure 7e. The sequence for
reading the T
TH or Read TL command is used.
R1
0
0
1
1
R0
0
1
0
1
H
or T
RESOLUTION
L
(BITS)
registers is the same as the Read Temp transaction in Figure 7d except that the Read
10
11
12
9
CONVERSION
TIME (MAX)
H
93.75
187.5
(ms)
/T
375
750
L
or 8-bits to the configuration register), because the
10 of 12
H
/T
L
register, and the next four bits will be
DS1626/DS1726
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