參數(shù)資料
型號: DS75LVU+T&R
廠商: Maxim Integrated
文件頁數(shù): 9/13頁
文件大小: 275K
描述: IC SENSOR TEMP DIGITAL 8MSOP
產(chǎn)品培訓模塊: Lead (SnPb) Finish for COTS
Obsolescence Mitigation Program
標準包裝: 3,000
功能: 溫度計,恒溫計
傳感器類型: 內(nèi)部
感應溫度: -55°C ~ 125°C
精確度: ±3°C(最小值)
拓撲: ADC(三角積分型),比較器,寄存器庫
輸出類型: I²C?/SMBus?
輸出警報:
輸出風扇:
電源電壓: 1.7 V ~ 3.7 V
工作溫度: -55°C ~ 125°C
安裝類型: 表面貼裝
封裝/外殼: 8-TSSOP,8-MSOP(0.118",3.00mm 寬)
供應商設備封裝: 8-uMAX
包裝: 帶卷 (TR)
DS75LV: Digital Thermometer and Thermostat
 
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REGISTER POINTER
The four DS75LV registers each have a unique two-bit pointer designation, which is defined in Table 6. When
reading from or writing to the DS75LV, the user must point the DS75LV to the register that is to be accessed.
When reading from the DS75LV, once the pointer is set, it will remain pointed at the same register until it is
changed. For example, if the user desires to perform consecutive reads from the temperature register, then the
pointer only has to be set to the temperature register one time, after which all reads will automatically be from the
temperature register until the pointer value is changed. When writing to the DS75LV, the pointer value must be
refreshed each time a write is performed, even if the same register is being written to twice in a row.
At power-up, the pointer defaults to the temperature register location. The temperature register can be read
immediately without resetting the pointer.
Changes to the pointer setting are accomplished as described in the 2-WIRE SERIAL DATA BUS section of this
data sheet.
Table 6. Pointer Definition
REGISTER
P1     P0
Temperature
0
0
Configuration
0
1
T
HYST
 
1
0
T
OS
 
1
1
 
2-WIRE SERIAL DATA BUS
The DS75LV communicates over a standard bi-directional 2-wire serial data bus that consists of a serial clock
(SCL) signal and serial data (SDA) signal. The DS75LV interfaces to the bus via 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 DS75LV 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
is acting as a receiver, it uses a NACK instead of an ACK after the last data byte to indicate that it is finished
receiving data. The master indicates a NACK by leaving the SDA line high during the ACK clock cycle.
Slave Address: Every slave device on the bus has a unique 7-bit address that allows the master to access that 
device. The DS75LVs 7-bit bus address is 1 0 0 1 A
2
 A
1
 A
0
, where A
2
, A
1
 and A
0
are user-selectable via the
corresponding input pins. The three address pins allow up to eight DS75LVs to be multi-dropped on the same bus.
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