SCDS403C february   2021  – july 2023 TMUX7308F , TMUX7309F

PRODUCTION DATA  

  1.   1
  2. Features
  3. Applications
  4. Description
  5. Revision History
  6. Device Comparison Table
  7. Pin Configuration and Functions
  8. Specifications
    1. 7.1  Absolute Maximum Ratings
    2. 7.2  ESD Ratings
    3. 7.3  Thermal Information
    4. 7.4  Recommended Operating Conditions
    5. 7.5  Electrical Characteristics (Global)
    6. 7.6  ±15 V Dual Supply: Electrical Characteristics
    7. 7.7  ±20 V Dual Supply: Electrical Characteristics
    8. 7.8  12 V Single Supply: Electrical Characteristics
    9. 7.9  36 V Single Supply: Electrical Characteristics
    10. 7.10 Typical Characteristics
  9. Parameter Measurement Information
    1. 8.1  On-Resistance
    2. 8.2  Off-Leakage Current
    3. 8.3  On-Leakage Current
    4. 8.4  Input and Output Leakage Current Under Overvoltage Fault
    5. 8.5  Break-Before-Make Delay
    6. 8.6  Enable Delay Time
    7. 8.7  Transition Time
    8. 8.8  Fault Response Time
    9. 8.9  Fault Recovery Time
    10. 8.10 Charge Injection
    11. 8.11 Off Isolation
    12. 8.12 Crosstalk
    13. 8.13 Bandwidth
    14. 8.14 THD + Noise
  10. Detailed Description
    1. 9.1 Overview
    2. 9.2 Functional Block Diagram
    3. 9.3 Feature Description
      1. 9.3.1 Flat On – Resistance
      2. 9.3.2 Protection Features
        1. 9.3.2.1 Input Voltage Tolerance
        2. 9.3.2.2 Powered-Off Protection
        3. 9.3.2.3 Fail-Safe Logic
        4. 9.3.2.4 Overvoltage Protection and Detection
        5. 9.3.2.5 Adjacent Channel Operation During Fault
        6. 9.3.2.6 ESD Protection
        7. 9.3.2.7 Latch-Up Immunity
        8. 9.3.2.8 EMC Protection
      3. 9.3.3 Bidirectional Operation
      4. 9.3.4 1.8 V Logic Compatible Inputs
      5. 9.3.5 Integrated Pull-Down Resistor on Logic Pins
    4. 9.4 Device Functional Modes
      1. 9.4.1 Normal Mode
      2. 9.4.2 Fault Mode
      3. 9.4.3 Truth Tables
  11. 10Application and Implementation
    1. 10.1 Application Information
    2. 10.2 Typical Application
      1. 10.2.1 Design Requirements
      2. 10.2.2 Detailed Design Procedure
      3. 10.2.3 Application Curves
    3. 10.3 Power Supply Recommendations
    4. 10.4 Layout
      1. 10.4.1 Layout Guidelines
      2. 10.4.2 Layout Example
  12. 11Device and Documentation Support
    1. 11.1 Documentation Support
      1. 11.1.1 Related Documentation
    2. 11.2 Receiving Notification of Documentation Updates
    3. 11.3 Support Resources
    4. 11.4 Trademarks
    5. 11.5 Electrostatic Discharge Caution
    6. 11.6 Glossary
  13. 12Mechanical, Packaging, and Orderable Information

Package Options

Mechanical Data (Package|Pins)
Thermal pad, mechanical data (Package|Pins)
Orderable Information

7.10 Typical Characteristics

at TA = 25°C, VDD = 15 V, and VSS = –15 V (unless otherwise noted)

GUID-20211209-SS0I-FGWG-KMZS-Z6RDFGD2DG3D-low.svg
Dual Supply Voltages
Figure 7-1 On-Resistance vs Source or Drain Voltage
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Flattest RON region for all supply voltages shown
Figure 7-3 On-Resistance vs Source or Drain Voltage
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±20 V Supply Flattest RON Region
Figure 7-5 On-Resistance vs Source or Drain Voltage
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Single Supply Flat RON Region
Figure 7-7 On-Resistance vs Source or Drain Voltage
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Single Supply Voltages
Figure 7-9 On-Resistance vs Source or Drain Voltage
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36 V Supply Flattest RON Region
Figure 7-11 On-Resistance vs Source or Drain Voltage
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VDD = 12 V, VSS = 0 V
Figure 7-13 Leakage Current vs Temperature
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VDD = 36 V, VSS = 0 V
Figure 7-15 Leakage Current vs Temperature
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VDD = 36 V, VSS = 0 V
Figure 7-17 Leakage Current vs Temperature
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VDD = 15 V, VSS = -15 V
Figure 7-19 ID(FA) Overvoltage Leakage Current vs Temperature
GUID-20211209-SS0I-009K-V74V-LKZH1QQBCM3Q-low.svg
VDD = 12 V, VSS = 0 V
Figure 7-21 ID(FA) Overvoltage Leakage Current vs Temperature
GUID-20211209-SS0I-HB11-6SJN-4HGJK1FFGJRN-low.svg
VDD = 15 V, VSS = -15 V
Figure 7-23 IS(FA) Overvoltage Leakage Current vs Temperature
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Figure 7-25 Charge Injection vs Source Voltage – Dual Supply
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Figure 7-27 Transition Times vs Temperature
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Figure 7-29 Turn-On and Turn-Off Times vs Temperature
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Figure 7-31 Off Isolation and Crosstalk vs Frequency
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VDD = 15 V, VSS = -15 V
Figure 7-33 Capacitance vs Source or Drain Voltage
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Figure 7-35 Threshold Voltage vs Temperature
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Figure 7-37 Drain Output Response – Positive Overvoltage
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Figure 7-39 Drain Output Recovery – Positive Overvoltage
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Dual Supply Flat RON Region
Figure 7-2 On-Resistance vs Source or Drain Voltage
GUID-20211209-SS0I-PCRS-FRBG-F7BX1T3FXXTD-low.svg
±15 V Supply Flattest RON Region
Figure 7-4 On-Resistance vs Source or Drain Voltage
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Single Supply Voltages
Figure 7-6 On-Resistance vs Source or Drain Voltage
GUID-20211209-SS0I-PKF2-SBDG-WWZH0M7WLM81-low.svg
12 V Supply Flattest RON Region
Figure 7-8 On-Resistance vs Source or Drain Voltage
GUID-20211210-SS0I-FHZ3-CBPL-PL1KJZWPMMFR-low.svg
Single Supply Flat RON Region
Figure 7-10 On-Resistance vs Source or Drain Voltage
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44 V Supply Flattest RON Region
Figure 7-12 On-Resistance vs Source or Drain Voltage
GUID-20211209-SS0I-8P2S-VWB1-ZNLDZLTSFMBG-low.svg
VDD = 15 V, VSS = -15 V
Figure 7-14 Leakage Current vs Temperature
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VDD = 20 V, VSS = -20 V
Figure 7-16 Leakage Current vs Temperature
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VDD = 20 V, VSS = -20 V
Figure 7-18 Leakage Current vs Temperature
GUID-20211209-SS0I-9NZ0-CT6X-ML1JKC63M6G0-low.svg
VDD = 20 V, VSS = -20 V
Figure 7-20 ID(FA) Overvoltage Leakage Current vs Temperature
GUID-20211209-SS0I-MPH8-ZG9G-BJ7W9KP9JDNM-low.svg
VDD = 36 V, VSS = 0 V
Figure 7-22 ID(FA) Overvoltage Leakage Current vs Temperature
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Figure 7-24 THD+N vs Frequency
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Figure 7-26 Charge Injection vs Source Voltage – Single Supply
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Figure 7-28 Transition Times vs Temperature
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Figure 7-30 Turn-On and Turn-Off Times vs Temperature
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Figure 7-32 On Response vs Frequency
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VDD = 12 V, VSS = 0 V
Figure 7-34 Capacitance vs Source or Drain Voltage
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Figure 7-36 Large Signal Voltage Off Isolation vs Frequency
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Figure 7-38 Drain Output Response – Negative Overvoltage
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Figure 7-40 Drain Output Recovery – Negative Overvoltage