SCDK004A June   2024  – November 2024 TMUX582F-SEP

PRODUCTION DATA  

  1.   1
  2.   Abstract
  3.   Trademarks
  4. 1Device Information
    1. 1.1 Device Details
  5. 2Total Dose Test Setup
    1. 2.1 Test Overview
    2. 2.2 Test Description and Facilities
    3. 2.3 Test Setup Details
      1. 2.3.1 Bias Diagrams
    4. 2.4 Test Configuration and Condition
  6. 3TID Characterization Test Results
    1. 3.1 TID Characterization Summary Results
    2. 3.2 Specification Compliance Matrix
  7. 4Reference Documents
  8. 5Revision History
  9. 6Appendix A: HDR TID Report Data
  10. 7Appendix B: ELDRS Characterization TID Report Data
  11. 8Appendix C: HDR 22V
  12. 9Appendix D: HDR 60V

3.2 Specification Compliance Matrix

Table 3-1 Electrical Parameters Table All test conditions measured at TA = -­­­55°C to 125°C unless otherwise noted.

Description

Test Conditions

MINMAXUnitTest Name
VIH

High-level input voltage

EN, Ax pins [PASS = 1, FAIL = 0]

1

1

P/FVIH
VIL

Low-level input voltage

EN, Ax pins [PASS = 1, FAIL = 0]11

P/F

VIL

RON

On-resistance

VS = 0V to 7.8V, IS = –1mA

0

400

ΩRON

ΔRON

On-resistance mismatch between channels

VS = 0V to 7.8V, IS = –1mA

0

13

ΩRON_DELTA

RFLAT

On-resistance flatness

VS = 0V to 7.8V, IS = –1mA

0

80

Ω

RON_FLAT_SPEC

IS(OFF)

Source off leakage current

Switch state is off, VS = 1V/ 10V, VD = 10V/ 1V, VDD = 13.2V

-4.5

4.5

nA

ISOFF
ID(OFF)

Drain off leakage current

Switch state is off, VS = 1V/ 10V, VD = 10V/ 1V, VDD = 13.2V

-15

15

nAIDOFF

IS(ON)

Channel on leakage current

Switch state is on, VS = floating, VD = 1V/10V, VDD = 13.2V

-23

23

nA

ISON

ID(ON)

Channel on leakage current

Switch state is on, VS = floating, VD = 1V/10V, VDD = 13.2V

-23

23

nA

IDON

ID(FA)

Output leakage current during overvoltageVS = 60V, GND = 0V, VDD = VFP = 13.2V, VSS = VFN = 0V

-100

100

nA

IDFA

Output leakage current during overvoltage

with grounded supplies

VS = 60V, GND = 0V, VDD = VSS = VFP = VFN = 0V, VEN = VAx = 0V or floating

-550

550

nA

IDFA_GND

IIH

High-level input current

VEN = VAx = VDD

-2.5

2.5

µA

IIH

IIL

Low-level input current

VEN = VAx = 0V

-1.5

1.5

µA

IIL

IDD

VDD supply current

VDD = VFP = 13.2V, VSS = VFN = 0V, VEN/VAx = 0V, 5V, or VDD, VS = 6V

-0.6

0.6

mA

IDD

ISS

VSS supply current

VDD = VFP = 13.2V, VSS = VFN = 0V, VEN/VAx = 0V, 5V, or VDD, VS = 6V

-0.5

0.5

mA

ISS

IDD(FA)

VDD supply current under fault

VS = 60V, VDD = VFP = 13.2V, VSS = VFN = 0V, VEN/ VAx = 0V, 5V, or VDD

-1.25

1.25

mA

IDD_FAULT

ISS(FA)

VSS supply current under fault

VS = 60V, VDD = VFP = 13.2V, VSS = VFN = 0V, VEN/ VAx = 0V, 5V, or VDD

-0.75

0.75

mA

ISS_FAULT

IDD(DISABLE)

VDD supply current (disable mode)

VDD = VFP = 13.2V, VSS = VFN = 0V, VAx = 0V, 5V, or VDD, VEN = 0V, VS = 0V

-0.6

0.6

mA

IDD_DIS

ISS(DISABLE)

VSS supply current (disable mode)

VDD = VFP = 13.2V, VSS = VFN = 0V, VAx = 0V, 5V, or VDD, VEN = 0V, VS = 0V

-0.5

0.5

mA

ISS_DIS