产品详情

Local sensor accuracy (max) 3 Type Remote Operating temperature range (°C) 0 to 125 Supply voltage (min) (V) 3 Interface type I2C, SMBus Supply voltage (max) (V) 3.6 Features ALERT Supply current (max) (µA) 1700 Temp resolution (max) (bps) 8 Remote channels (#) 1 Addresses 2 Rating Catalog
Local sensor accuracy (max) 3 Type Remote Operating temperature range (°C) 0 to 125 Supply voltage (min) (V) 3 Interface type I2C, SMBus Supply voltage (max) (V) 3.6 Features ALERT Supply current (max) (µA) 1700 Temp resolution (max) (bps) 8 Remote channels (#) 1 Addresses 2 Rating Catalog
SOIC (D) 8 29.4 mm² 4.9 x 6 VSSOP (DGK) 8 14.7 mm² 3 x 4.9
  • Accurately Senses Die Temperature of Remote ICs
    or Diode Junctions
  • Offset Register Allows Accurate Sensing of a Variety
    of Thermal Diodes
  • On-Board Local Temperature Sensing
  • 10-Bit Plus Sign Remote Diode Temperature Data Format,
    0.125°C Resolution
  • T_CRIT_A Output Useful for System Shutdown
  • ALERT Output Supports SMBus 2.0 Protocol
  • SMBus 2.0 Compatible Interface, Supports TIMEOUT
  • 8-Pin VSSOP and SOIC Packages
  • Key Specifications:
    • Supply Voltage: 3.0 V to 3.6 V
    • Local Temp Accuracy (includes quantization error)
      • TA = 25°C to 125°C ±3.0 °C (max)
    • Remote Diode Temp Accuracy (includes quantization error)
      • TA = 30°C, TD = 80°C ±0.75 °C (max)
  • Accurately Senses Die Temperature of Remote ICs
    or Diode Junctions
  • Offset Register Allows Accurate Sensing of a Variety
    of Thermal Diodes
  • On-Board Local Temperature Sensing
  • 10-Bit Plus Sign Remote Diode Temperature Data Format,
    0.125°C Resolution
  • T_CRIT_A Output Useful for System Shutdown
  • ALERT Output Supports SMBus 2.0 Protocol
  • SMBus 2.0 Compatible Interface, Supports TIMEOUT
  • 8-Pin VSSOP and SOIC Packages
  • Key Specifications:
    • Supply Voltage: 3.0 V to 3.6 V
    • Local Temp Accuracy (includes quantization error)
      • TA = 25°C to 125°C ±3.0 °C (max)
    • Remote Diode Temp Accuracy (includes quantization error)
      • TA = 30°C, TD = 80°C ±0.75 °C (max)

The LM89 is an 11-bit digital temperature sensor with a 2-wire System Management Bus (SMBus) serial interface. The LM89 accurately measures its own temperature as well as the temperature of an external device, such as processor thermal diode or diode-connected transistor such as the 2N3904. The temperature of any ASIC, GPU, FPGA or MCU can be accurately determined using the LM89 as long as a dedicated diode (semiconductor junction) is available on the target die. The LM89 has an Offset register to allow calibration for different nonideality factors without requiring software management.

Activation of the ALERT occurs when any temperature goes outside a preprogrammed window set by the HIGH and LOW limit registers or exceeds the T_CRIT limit. Activation of the T_CRIT_A occurs when any temperature exceeds the T_CRIT programmed limit.

The LM89 is pin and register compatible with the LM86, LM90, LM99, On Semiconductor ADM1032 and Maxim MAX6657/8.

The LM89C and the LM89-1C have the same functions but different SMBus slave addresses, allowing multiple LM89's on a bus. LM89-1D’s default local T_CRIT temperature limit is 105°C; all other versions are 85°C.

The LM89 is an 11-bit digital temperature sensor with a 2-wire System Management Bus (SMBus) serial interface. The LM89 accurately measures its own temperature as well as the temperature of an external device, such as processor thermal diode or diode-connected transistor such as the 2N3904. The temperature of any ASIC, GPU, FPGA or MCU can be accurately determined using the LM89 as long as a dedicated diode (semiconductor junction) is available on the target die. The LM89 has an Offset register to allow calibration for different nonideality factors without requiring software management.

Activation of the ALERT occurs when any temperature goes outside a preprogrammed window set by the HIGH and LOW limit registers or exceeds the T_CRIT limit. Activation of the T_CRIT_A occurs when any temperature exceeds the T_CRIT programmed limit.

The LM89 is pin and register compatible with the LM86, LM90, LM99, On Semiconductor ADM1032 and Maxim MAX6657/8.

The LM89C and the LM89-1C have the same functions but different SMBus slave addresses, allowing multiple LM89's on a bus. LM89-1D’s default local T_CRIT temperature limit is 105°C; all other versions are 85°C.

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类型 标题 下载最新的英语版本 日期
* 数据表 LM89 ±0.75°C Accurate, Remote Diode And Local Digital Temperature Sensor With Two-Wire Interface 数据表 (Rev. D) PDF | HTML 2014年 6月 23日
用户指南 LM86, LM89, LM89-1, LM90, LM99, LM99-1 Evaluation Board User’s Guide 2012年 2月 29日

设计和开发

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驱动程序或库

LM90SW-LINUX — 用于 LM90 的 Linux 驱动程序

The Linux driver supports the LM90 series of Remote and Local Temp Sensors. The Linux driver supports communication through the I2C bus and interfaces with the Hardware Monitoring sub-system.

 

Linux Mainline Status

Available in Linux Main line: Yes
Available through git.ti.com: N/A

Supported Devices:

  • (...)
支持软件

DIGITALTEMPSENSORSEVM-SW Eval Board Software for Hardware Monitors and Digital Temp Sensors

Evaluation Board Software for Hardware Monitors and Digital Temperature Sensors
支持的产品和硬件

支持的产品和硬件

产品
数字温度传感器
LM63 1 条远程和本地通道温度传感器,带风扇控制功能 LM64 带风扇控制功能和 5 个 GPIO 的远程和本地温度传感器 LM71 具有 SPI 接口的 ±1.5°C 温度传感器 LM71-Q1 具有 SPI 接口的汽车级 ±1.5°C 温度传感器 LM73 具有 I2C/SMBus 接口的 ±1°C 温度传感器 LM86 具有 SMBus 接口的 ±0.75°C 远程和本地温度传感器 LM89 具有 SMBus 接口和 2 个地址用于总线共享的 ±0.75°C 远程和本地温度传感器 LM90 具有 SMBus 接口的远程和本地温度传感器 LM93 具有 2 条远程和 1 条本地通道的温度传感器,带硬件监控器和 16 个电源电压监控器 LM95010 具有 SensorPath 接口的 ±2°C 温度传感器 LM95071 具有 SPI 接口的 ±1°C 温度传感器 LM95221 带 β 补偿、采用 SMBus 和 I2C 接口的 ±3°C 双通道远程和本地温度传感器 LM95231 采用 TruTherm 技术且具有 SMBus 接口的双路远程和本地温度传感器 LM95235 具有 SMBus 接口、采用 β 补偿技术、适用于 65/90nm 二极管的 ±0.75°C 远程和本地温度传感器 LM95235-Q1 采用 TruTherm 技术且具有 SMBus 接口的汽车级 ±2°C 远程和本地温度传感器 LM96000 硬件监控器,带风扇控制功能和 6 个电源电压监控器 LM96080 1 条本地通道温度传感器,带风扇转速控制功能和电源电压监控器 LM96163 具有 1 条远程和本地通道的温度传感器,带 β 补偿和风扇控制功能 LM99 采用 TruTherm 技术且具有 SMBus 接口的远程和本地温度传感器
支持软件

SENSOREVAL Eval Board Software For Hardware Monitors And Digital Temperature Sensors

SensorEval
SensorEval software supports the latest TI temperature sensor and hardware monitor evaluation boards via USB interface. It also allows access to sensors mounted directly on motherboards that support Intel chip sets.

  • Download SensorEval Software and Manual
  • Windows XP support is offered for (...)
支持的产品和硬件

支持的产品和硬件

产品
数字温度传感器
LM63 1 条远程和本地通道温度传感器,带风扇控制功能 LM64 带风扇控制功能和 5 个 GPIO 的远程和本地温度传感器 LM71 具有 SPI 接口的 ±1.5°C 温度传感器 LM71-Q1 具有 SPI 接口的汽车级 ±1.5°C 温度传感器 LM73 具有 I2C/SMBus 接口的 ±1°C 温度传感器 LM75A 具有 I2C/SMBus 接口的 2C 业界通用温度传感器 LM86 具有 SMBus 接口的 ±0.75°C 远程和本地温度传感器 LM89 具有 SMBus 接口和 2 个地址用于总线共享的 ±0.75°C 远程和本地温度传感器 LM90 具有 SMBus 接口的远程和本地温度传感器 LM93 具有 2 条远程和 1 条本地通道的温度传感器,带硬件监控器和 16 个电源电压监控器 LM95010 具有 SensorPath 接口的 ±2°C 温度传感器 LM95071 具有 SPI 接口的 ±1°C 温度传感器 LM95172-Q1 具有 SPI 接口且支持 200°C 温度的汽车级 ±1°C 温度传感器 LM95214 具有 SMBus 接口的 ±2°C 四路远程和本地温度传感器 LM95221 带 β 补偿、采用 SMBus 和 I2C 接口的 ±3°C 双通道远程和本地温度传感器 LM95231 采用 TruTherm 技术且具有 SMBus 接口的双路远程和本地温度传感器 LM95233 采用 TruTherm 技术且具有 SMBus 接口的 ±2°C 双路远程和本地温度传感器 LM95234 采用 TruTherm 技术且具有 SMBus 接口的 ±2°C 四路远程和本地温度传感器 LM95235 具有 SMBus 接口、采用 β 补偿技术、适用于 65/90nm 二极管的 ±0.75°C 远程和本地温度传感器 LM95235-Q1 采用 TruTherm 技术且具有 SMBus 接口的汽车级 ±2°C 远程和本地温度传感器 LM95241 带 β 补偿、采用 SMBus 和 I2C 接口的 ±1.25°C 双通道远程和本地温度传感器 LM95245 具有 SMBus 接口、采用 β 补偿技术、适用于 45nm 二极管的 ±0.75°C 远程和本地温度传感器 LM96000 硬件监控器,带风扇控制功能和 6 个电源电压监控器 LM96080 1 条本地通道温度传感器,带风扇转速控制功能和电源电压监控器 LM96163 具有 1 条远程和本地通道的温度传感器,带 β 补偿和风扇控制功能 LM99 采用 TruTherm 技术且具有 SMBus 接口的远程和本地温度传感器
精密 ADC
ADC128D818 具有温度传感器、内部/外部电压基准和 I2C 接口的 12 位、82SPS、8 通道 Δ-Σ ADC
封装 引脚 CAD 符号、封装和 3D 模型
SOIC (D) 8 Ultra Librarian
VSSOP (DGK) 8 Ultra Librarian

订购和质量

包含信息:
  • RoHS
  • REACH
  • 器件标识
  • 引脚镀层/焊球材料
  • MSL 等级/回流焊峰值温度
  • MTBF/时基故障估算
  • 材料成分
  • 鉴定摘要
  • 持续可靠性监测
包含信息:
  • 制造厂地点
  • 封装厂地点

支持和培训

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