SNOAA35F April   2019  – December 2024 LM2901 , LM2901B , LM2901B-Q1 , LM2903 , LM2903-Q1 , LM2903B , LM2903B-Q1 , LM339 , LM339-N , LM393 , LM393-N , LM393B , LM397 , TL331 , TL331-Q1 , TL331B

 

  1.   1
  2.   Abstract
  3.   Trademarks
  4. Devices Covered in Application Note
    1. 1.1 Base Part Numbers
    2. 1.2 Input Voltage Offset Grades
    3. 1.3 Maximum Supply Voltage
    4. 1.4 High Reliability Options
  5. The New TL331B, TL391B, LM339B, LM393B, LM2901B and LM2903B B Versions
  6. PCN's to Change Classic Die to a New Die Design
    1. 3.1 PCN #1 for Single and Dual (TL331 and LMx93/LM2903)
    2. 3.2 PCN #2 for Single and Dual (TL331 and LMx93/LM2903)
    3. 3.3 PCN For Quad (LMx39, LM2901)
    4. 3.4 PCN for B Devices (including -Q1's)
    5. 3.5 Device PCN Summary
    6. 3.6 Determining Die Version Used
      1. 3.6.1 Determine Die Used for Single TL331 and Dual LM293, LM393, and LM2903 - PCN #1 (Ji3)
      2. 3.6.2 Determine Die Used for Single TL331 and Dual LM293, LM393, and LM2903 - PCN #2 (TiB)
      3. 3.6.3 Determine Die Used for Quad LM139, LM239, LM339, and LM2901
      4. 3.6.4 Determine Die Used for Post-PCN B Devices
  7. Changes to Package Top Markings
  8. Roughened Leadframe Finish
  9. Input Considerations
    1. 6.1  Input Stage Schematic – The Classic LM339 Family
    2. 6.2  Input Stage Schematic - New "B" and TiB Devices
    3. 6.3  Differences Between the Classic, "B" and Tib Die Devices
    4. 6.4  Input Voltage Range
    5. 6.5  Input Voltage Range vs. Common Mode Voltage Range
    6. 6.6  Reason for Input Range Headroom Limitation
    7. 6.7  Input Voltage Range Feature
    8. 6.8  Both Inputs Above Input Range Behavior
    9. 6.9  Negative Input Voltages
      1. 6.9.1 Maximum Input Current
      2. 6.9.2 Phase Reversal or Inversion
      3. 6.9.3 Protecting Inputs from Negative Voltages
        1. 6.9.3.1 Simple Resistor and Diode Clamp
        2. 6.9.3.2 Voltage Divider with Clamp
          1. 6.9.3.2.1 Split Voltage Divider with Clamp
    10. 6.10 Power-Up Behavior
    11. 6.11 Capacitors and Hysteresis
    12. 6.12 Output to Input Cross-Talk
  10. Output Stage Considerations
    1. 7.1 Output VOL and IOL
    2. 7.2 Pull-Up Resistor Selection
    3. 7.3 Short Circuit Sinking Current
    4. 7.4 Pulling Output Up Above Vcc
    5. 7.5 Negative Voltages Applied to Output
    6. 7.6 Adding Large Filter Capacitors To Output
  11. Power Supply Considerations
    1. 8.1 Supply Bypassing
      1. 8.1.1 Low VCC Guidance
      2. 8.1.2 Split Supply use
  12. General Comparator Usage
    1. 9.1 Unused Comparator Connections
      1. 9.1.1 Do Not Connect Inputs Directly to Ground
      2. 9.1.2 Unused Comparator Input Connections
      3. 9.1.3 Leave Outputs Floating
      4. 9.1.4 Prototyping
  13. 10PSpice and TINA TI Models
  14. 11Conclusion
  15. 12Related Documentation
    1. 12.1 Related Links
  16. 13Revision History

Input Voltage Offset Grades

There are also grade options for VIO (also known as Vos) tolerance. Devices with a A in the part number suffix have better VIO specifications compared to the same part number without an A.

Table 1-2 Maximum Input Offset Error at 25°C for Each Base Part Number With VIO Grade Options
SingleDualQuad
Part NumberVIO Max 25°CPart NumberVIO Max 25°CPart NumberVIO Max 25°C
LM3977mVLM1935mVLM1395mV
TL3315mVLM193-MIL5mVLM139-MIL5mV
TL331-EP5mVLM193-N5mVLM139-N2mV, 5mV
TL331-Q15mVLM193QML5mVLM139-SP2mV
TL331B4mVLM193QML-SP5mVLM139A2mV
TL331B-Q14mVLM29037mVLM139A-MIL2mV
TL391B4mVLM2903-N7mVLM139AQML2mV
TL391B-Q14mVLM2903-Q12mV, 7mVLM139AQML-SP2mV
LM2903V2mV, 7mVLM2399mV
LM2935mVLM239-N5mV
LM293-EP5mVLM239A3mV
LM293-N5mVLM239A-EP2.5mV
LM293A2mVLM239A-Q12.5mV
LM3935mVLM29017mV
LM393-N5mVLM2901-N7mV
LM393A2mVLM2901-Q17mV
LM393B, LM2903B2.5mVLM2901AV2mV
LM2901AV-Q12mV
LM2901EP7mV
LM2901V7mV
LM2901V-Q17mV
LM330220mV
LM3399mV
LM339-MIL5mV
LM339-N2mV, 5mV
LM339A3mV
LM339B5.5mV
LM2901B5.5mV
LM2901B-Q15.5mV