DS620U Maxim Integrated Products, DS620U Datasheet - Page 10
DS620U
Manufacturer Part Number
DS620U
Description
Board Mount Temperature Sensors
Manufacturer
Maxim Integrated Products
Datasheet
1.DS620U.pdf
(15 pages)
Specifications of DS620U
Full Temp Accuracy
+/- 2 C
Package / Case
uSOP
Digital Output - Bus Interface
Serial (2-Wire)
Digital Output - Number Of Bits
13 bit
Maximum Operating Temperature
+ 125 C
Minimum Operating Temperature
- 55 C
Output Type
Digital
Lead Free Status / Rohs Status
Lead free / RoHS Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
DS620U+T&R
Manufacturer:
MAXIM
Quantity:
14
*
Table 6. Resolution Configuration
2-WIRE SERIAL DATA BUS
The DS620 communicates over a standard bidirectional 2-wire serial data bus that consists of a serial clock (SCL)
signal and serial data (SDA) signal. The DS620 interfaces to the bus through the SCL input pin and open-drain
SDA I/O pin. All communication is MSb first.
The following terminology is used to describe 2-wire communication:
Master Device: Microprocessor/microcontroller that controls the slave devices on the bus. The master device
generates the SCL signal and START and STOP conditions.
Slave: All devices on the bus other than the master. The DS620 always functions as a slave.
Bus Idle or Not Busy: Both SDA and SCL remain high. SDA is held high by a pullup resistor when the bus is idle,
and SCL must either be forced high by the master (if the SCL output is push-pull) or pulled high by a pullup resistor
(if the SCL output is open-drain).
Transmitter: A device (master or slave) that is sending data on the bus.
Receiver: A device (master or slave) that is receiving data from the bus.
START Condition: Signal generated by the master to indicate the beginning of a data transfer on the bus. The
master generates a START condition by pulling SDA from high to low while SCL is high (see Figure 6). A
“repeated” START is sometimes used at the end of a data transfer (instead of a STOP) to indicate that the master
will perform another operation.
STOP Condition: Signal generated by the master to indicate the end of a data transfer on the bus. The master
generates a STOP condition by transitioning SDA from low to high while SCL is high (see Figure 6). After the
STOP is issued, the master releases the bus to its idle state.
Acknowledge (ACK): When a device (either master or slave) is acting as a receiver, it must generate an
acknowledge (ACK) on the SDA line after receiving every byte of data. The receiving device performs an ACK by
pulling the SDA line low for an entire SCL period (see Figure 6). During the ACK clock cycle, the transmitting
device must release SDA. A variation on the ACK signal is the “not acknowledge” (NACK). When the master device
Stored in EEPROM
PO2
PO1*
A2
A1
A0
M*
Read/Write
Read/Write
Read/Write
Read Only
Read Only
Read Only
R1
0
0
1
1
See Writing the 1SHOT Bit Command Sequence section for writing more
information on writing the 1SHOT bit.
At power-up, PO2 = 1.
PO2 = 0 forces the PO pin low (see Table 3)
PO2 = 1 configures PO as the thermostat output (PO
determined by PO1).
When PO2 = 1, PO1 configures the PO pin as either PO
Table 3)
When PO2 = 0, PO1 is a “don’t care”.
Factory state = 0
Shows address bit A
Shows address bit A
Shows address bit A
User memory for general-purpose data storage.
R0
0
1
0
1
conversions can be performed.
Resolution
10-bit
11-bit
12-bit
13-bit
10 of 15
2
1
0
, as determined by pin A2.
, as determined by pin A1.
, as determined by pin A0.
LSb Weight (°C)
0.0625
0.125
0.25
0.5
Max Conversion
Time (ms)
-HIGH
-HIGH
100
200
25
50
or PO
or PO
-LOW
-LOW
(see
, as
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