SLLK033 January   2025 THVD9491-SEP

 

  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 Diagram
    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. 5Appendix A: HDR TID Report Data

3.2 Specification Compliance Matrix

Table 3-1 Electrical Parameters Table

Description

Test ConditionsTA = -55°C to +125°CUnitTest Name
MINMAX

IIO

Logic supply current (quiescent), VIO = 3V to 3.6V

Driver disabled, receiver enabled, SLR = VIO

0

10

µA

3P6V_IIO_RE_SLRH

Driver disabled, receiver enabled, SLR = GND

0

10

µA

3P6V_IIO_RE_SLRL

Driver disabled, receiver disabled, SLR = VIO

0

8.4

µA

3P6V_IIO_SLRH

Driver disaabled, receiver disabled, SLR = GND

0

8.4

µA

3P6V_IIO_SLRL

Logic supply current (quiescent), VIO = 4.5V to 5.5V

Driver disabled, receiver enabled, SLR = VIO

0

10

µA

5P5V_IIO_RE_SLRH

Driver disabled, receiver enabled, SLR = GND

0

10

µA

5P5V_IIO_RE_SLRL

Driver disabled, receiver disabled, SLR = VIO

0

8.4

µA

5P5V_IIO_SLRH

Driver disaabled, receiver disabled, SLR = GND

0

8.4

µA

5P5V_IIO_SLRL

IOS

Short-circuit output current

DE = VIO, -70V ≤ (VA or VB) ≤ 70V, or A shorted to B (A/B are driver terminals for half duplex, Y/Z are for full duplex)

-250

250

mA

DH_IOSH_Y_10V, DH_IOSH_Z_10V, DH_IOSL_Y_N7V, DH_IOSL_Z_N7V, DL_IOSH_Y_10V, DL_IOSH_Z_10V, DL_IOSL_Y_N7V, DL_IOSL_Z_N7V

ΔVOC(SS)

Change in steady-state common-mode output voltage

VCC = 4.5V, RL = 54Ω

-50

50

mV

DVOC_54Z_4P5V

Δ|VOD|

Change in differential output voltage

VCC = 4.5V, RL = 100Ω

-200

200

mV

DVOD_100Z_4P5V

VCC = 3V, RL = 60Ω

-200

200

mV

DVOD_60Z_3P0V

VCC = 4.5V, RL = 60Ω

-200

200

mV

DVOD_60Z_4P5V

ICC

Supply current (quiescent), VCC = 4.5V to 5.5V

Driver and receiver enabled | RE = 0V, DE = VIO, No load

0

7.2

mA

ICC_BOTH_EN_5P5V

Driver enabled, receiver disabled | RE = VIO, DE = VIO, No load

0

4.2

mA

ICC_DE_5P5

Driver disabled, receiver enabled | RE = 0V, DE = 0V, No load

0

3

mA

ICC_RE_5P5

Driver and receiver disabled | RE = VIO, DE = 0V, D = open, no load

0

100

uA

ICC_DD_RD_5P5

Supply current (quiescent), VCC = 3V to 3.6V

Driver and receiver enabled | RE = 0V, DE = VIO, No load

0

5

mA

ICC_BOTH_EN_3P6V

Driver enabled, receiver disabledd | RE = VIO, DE = VIO, No load

0

3

mA

ICC_DE_3P6

Driver disabled, receiver enabled | RE = 0V, DE = 0V, No load

0

3

mA

ICC_RE_3P6

Driver and receiver disabled | RE = VIO, DE = 0V, D = open, no load

0

100

uAICC_DD_RD_3P6

II

Bus Input current

DE = 0V, VCC and VIO = 0V or 5.5V, VI = 12V

0

125

µA

II_12V_A_5P5V, II_12V_A_5P5V_ENREB, II_12V_A_OFF, II_12V_A_OFF_ENREB, II_12V_B_5P5V, II_12V_B_5P5V_ENREB, II_12V_B_OFF, II_12V_B_OFF_ENREB

DE = 0V, VCC and VIO = 0V or 5.5V, VI = 25V

0

250

µA

II_25V_A_5P5V, II_25V_A_5P5V_ENREB, II_25V_A_OFF, II_25V_A_OFF_ENREB, II_25V_B_5P5V, II_25V_B_5P5V_ENREB, II_25V_B_OFF, II_25V_B_OFF_ENREB

DE = 0V, VCC and VIO = 0V or 5.5V, VI = -25V-350

0

µA

II_N25V_A_5P5V, II_N25V_A_5P5V_ENREB, II_N25V_A_OFF, II_N25V_A_OFF_ENREB, II_N25V_B_5P5V, II_N25V_B_5P5V_ENREB, II_N25V_B_OFF, II_N25V_B_OFF_ENREB

DE = 0V, VCC and VIO = 0V or 5.5V, VI = -7V

-100

0

µA

II_N7V_A_5P5V, II_N7V_A_5P5V_ENREB, II_N7V_A_OFF, II_N7V_A_OFF_ENREB, II_N7V_B_5P5V, II_N7V_B_5P5V_ENREB, II_N7V_B_OFF, II_N7V_B_OFF_ENREB

IIN

Input current (D, RE)

1.65V ≤ VIO ≤ 5.5V, 0V ≤ VIN ≤ VIO

-5

µA

IIH_D, IIH_RE, IIL_D, IIL_RE

Input current (DE, SLR)

1.65V ≤ VIO ≤ 5.5V, 0V ≤ VIN ≤ VIO

5

µA

IIH_DE, IIH_SLR, IIL_DE, IIL_SLR

IOZ

Output high-impedance current, R pin

VO = 0V, RE = VIO

-1

1

µA

IOZR_GND

VO = VIO, RE = VIO

-1

1

µA

IOZR_VIO

UVVCC(falling)

Falling under-voltage threshold on VCC

1.95

2.5

V

UVLO_VCC_FALL_ICC

UVVCC(hys)

Hysteresis on under-voltage of VCC

0.1

0.25

V

UVLO_VCC_HYS

UVVCC(rising)

Rising under-voltage threshold on VCC

2

2.6

V

UVLO_VCC_RISE_ICC

UVVIO(falling)

Falling under-voltage threshold on VIO

1.2

1.5

V

UVLO_VIO_FALL_ICC

UVVIO(hys)

Hysteresis on under-voltage of VIO

0.05

0.2

V

UVLO_VIO_HYS

UVVIO(rising)

Rising under-voltage threshold on VIO

1.3

1.6

V

UVLO_VIO_RISE_ICC

VOC

Common-mode output voltage

RL = 54Ω

1

3

V

VOCH_54Z_4P5V, VOCL_54Z_4P5V

|VOD|

Driver differential output voltage magnitude

RL = 100Ω, VCC = 4.5V

2

4.5

V

VODH_100Z_4P5V, VODL_100Z_4P5V

RL = 60Ω, VCC = 3V

1.5

3

V

VODH_60Z_3P0V, VODL_60Z_3P0V

RL = 60Ω, VCC = 4.5V

2.1

4.5

V

VODH_60Z_4P5V, VODL_60Z_4P5V

VOH

Output high voltage

IOH = -4mA, VIO = 1.65V to 1.95V or 2.25V to 2.75V

1.25

1.65

V

VOH_NORM_1P65_VIO__HD_VIO_VOHR

IOH = -8mA, VIO = 3V to 3.6V or 4.5V to 5.5V

2.6

3

V

VOH_NORM_3P0_VIO__HD_VIO_VOHR

VOL

Output low voltage

IOL = 4mA, VIO = 1.65V to 1.95V or 2.25V to 2.75V

0

0.4

V

VOL_NORM_1P65_VIO__HD_VIO_VOLR

IOH = 8mA, VIO = 3V to 3.6V or 4.5V to 5.5V

0

0.4

V

VOL_NORM_3P0_VIO__HD_VIO_VOLR