ZHCSQR7A October   2023  – June 2024 ISOTMP35

PRODUCTION DATA  

  1.   1
  2. 特性
  3. 应用
  4. 说明
  5. Pin Configuration and Functions
  6. Specifications
    1. 5.1  Absolute Maximum Ratings
    2. 5.2  ESD Ratings
    3. 5.3  Recommended Operating Conditions
    4. 5.4  Thermal Information
    5. 5.5  Insulation Specification
    6. 5.6  Power Ratings
    7. 5.7  Safety-Related Certifications
    8. 5.8  Safety Limiting Values
    9. 5.9  Electrical Characteristics
    10. 5.10 Typical Characteristics
  7. Detailed Description
    1. 6.1 Overview
    2. 6.2 Functional Block Diagram
    3. 6.3 Features Description
      1. 6.3.1 Integrated Isolation Barrier and Thermal Response
      2. 6.3.2 Analog Output
        1. 6.3.2.1 Output Accuracy
        2. 6.3.2.2 Output Voltage Linearity
        3. 6.3.2.3 Drive Capability
        4. 6.3.2.4 Common Mode Transient Immunity (CMTI)
      3. 6.3.3 Thermal Response
    4. 6.4 Device Functional Modes
  8. Application and Implementation
    1. 7.1 Application Information
      1. 7.1.1 Output Voltage Linearity
      2. 7.1.2 Load Regulation
      3. 7.1.3 Start-Up Settling Time
      4. 7.1.4 Thermal Response
      5. 7.1.5 External Buffer
      6. 7.1.6 ADC Selection and Impact on Accuracy
      7. 7.1.7 Implementation Guidelines
      8. 7.1.8 PSRR
    2. 7.2 Typical Application
      1. 7.2.1 Design Requirements
      2. 7.2.2 Detailed Design Procedure
        1. 7.2.2.1 Insulation Lifetime
    3. 7.3 Power Supply Recommendations
    4. 7.4 Layout
      1. 7.4.1 Layout Guidelines
      2. 7.4.2 Layout Example
  9. Device and Documentation Support
    1. 8.1 Documentation Support
      1. 8.1.1 Related Documentation
    2. 8.2 接收文档更新通知
    3. 8.3 支持资源
    4. 8.4 Trademarks
    5. 8.5 静电放电警告
    6. 8.6 术语表
  10. Revision History
  11. 10Mechanical, Packaging, and Orderable Information

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Thermal Response

The SOIC-7 package is designed to maximize the heat flow and minimize the thermal response time from the TSENSE pins to the temperature sensor, while also providing the 3kVRMS isolation rating (UL1577).

When evaluating thermal response with a thermal contact device, care must be taken to understand the gradient that is established by the heat source in the application. Traditionally, most temperature sensors are characterized on the basis of a "stirred-liquid" thermal response test, which sees the totality of the device submerged into a circulated oil bath at an elevated temperature, which typically provides the best possible response the device yields, having all parts of the device held to the secondary temperature for the purposes of establishing a new thermal equilibrium point. This style of test is visualized in Stirred Liquid Thermal Response Test, and the results of this test are presented in Thermal Response (Air-to-Fluid Bath).

ISOTMP35 Stirred Liquid Thermal Response TestFigure 6-3 Stirred Liquid Thermal Response Test

ISOTMP35 is also evaluated by means of a "directional" temperature response test, where only the thermally connected, high-voltage pins of the device are exposed to the elevated temperature, while the remaining low voltage pins remain in free air at a standard room temperature condition of 25°C. The objective of this form of thermal response test is to more properly evaluate the thermal conductivity of the device under test, even though slight error can persist from the reference temperature.

ISOTMP35 Directional Thermal Response TestFigure 6-4 Directional Thermal Response Test

This is demonstrated in Figure 6-5, where ISOTMP35 is shown alongside a standard negative temperature coefficient (NTC) thermistor, as well as the same NTC adhered via non-conductive thermal epoxy to the high voltage copper, placed at clearance distance of 4mm from the temperature source. The resulting responses demonstrate both the superior response time, as well as the accuracy of the ISOTMP35 device. The reference temperature in this test is 75°C.

ISOTMP35 ISOTMP35 Directional Thermal ResponseFigure 6-5 ISOTMP35 Directional Thermal Response