封装信息
封装 | 引脚 SSOP (DBQ) | 16 |
工作温度范围 (°C) -40 to 125 |
包装数量 | 包装 2,500 | LARGE T&R |
LM83 的特性
- Accurately senses die temperature of 3 remote ICs, or diode junctions
- On-board local temperature sensing
- SMBus and I2C compatible interface, supports SMBus 1.1 TIMEOUT
- Two interrupt outputs: INT# and T_CRIT_A#
- Register readback capability
- 7 bit plus sign temperature data format, 1 °C resolution
- 2 address select pins allow connection of 9 LM83s on a single bus
Key Specifications
[Solid_Square] Supply Voltage | 3.0V to 3.6V |
[Solid_Square] Supply Current | 0.8mA (max) |
[Solid_Square] Local Temp Accuracy (includes quantization error) | |
0°C to +85°C | ±3.0°C (max) |
[Solid_Square] Remote Diode Temp Accuracy (includes quantization error) | |
+25°C to +100°C | ±3°C (max) |
0°C to +125°C | ±4°C (max) |
LM83 的说明
The LM83 is a digital temperature sensor with a 2 wire serial interface that senses the voltage and thus the temperature of three remote diodes using a Delta-Sigma analog-to-digital converter with a digital over-temperature detector. The LM83 accurately senses its own temperature as well as the temperature of three external devices, such as Pentium II® Processors or diode connected 2N3904s. The temperature of any ASIC can be detected using the LM83 as long as a dedicated diode (semiconductor junction) is available on the die. Using the SMBus interface a host can access the LM83's registers at any time. Activation of a T_CRIT_A# output occurs when any temperature is greater than a programmable comparator limit, T_CRIT. Activation of an INT# output occurs when any temperature is greater than its corresponding programmable comparator HIGH limit.
The host can program as well as read back the state of the T_CRIT register and the four T_HIGH registers. Three state logic inputs allow two pins (ADD0, ADD1) to select up to 9 SMBus address locations for the LM83. The sensor powers up with default thresholds of 127°C for T_CRIT and all T_HIGHs. The LM83 is pin for pin and register compatible with the LM84 as well as the Maxim MAX1617 and the Analog Devices ADM1021.