IC-JX_16 Datasheet, PDF(9/48 Page) IC-Haus GmbH – 16-FOLD 24 V HIGH-SIDE DRIVER

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IC-JX_16 Datasheet, PDF (9/48 Pages) IC-Haus GmbH – 16-FOLD 24 V HIGH-SIDE DRIVER

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iC-JX

16-FOLD 24 V HIGH-SIDE DRIVER WITH ÂµC INTERFACE

Rev C2, Page 9/48

ELECTRICAL CHARACTERISTICS

Operating conditions: VCC = VDD = 3 ... 5.5 V, VBy = 12 ... 36 V, GNDA = GNDD = 0 V, RSET = 10 kâ¦ Â±1% . All inputs on defined logic

states (high or low), Tj = -40 ... 125 Â°C unless otherwise stated. Functionality and parameters beyond operating conditions (for example w.r.

to independent voltage supplies) are to be verified within the individual application by FMEA methods.

Item Symbol Parameter

No.

Conditions

Unit

Min. Typ. Max.

721 DR1IO,1

Digital relative value using VR1

range

(external reference)

SELAD = â0b010â, EME = â0b0â, SVREF = 1;

DR1IO,1 = D1IO,1(V) / D1IO,1;

V(IOx) = V(VBy) â 0.3 V

V(IOx) = V(VBy) â 0.1 V

722 D2IO,1

Digital value using VR2 range SELAD = â0b010â, EME = â0b1â, SVREF = 1,

(external reference)

V(IOx) = V(VBy) â 5.0 V

870 930 1022

723 DR2IO,1

Digital relative value using VR2

range (external reference)

SELAD = â0b010â, EME = â0b1â, SVREF = 1;

DR2IO,1 = D2IO,1(V) / D2IO,1;

V(IOx) = V(VBy) â 2.5 V

V(IOx) = V(VBy) â 0.6 V

9.5 11.5 14

724 D3IO,1

Digital value using VR3 range SELAD = â0b100â, EME = â0b0â, SVREF = 1,

(external reference)

V(IOx) = 0.6 V;

880 940 1022

725 DR3IO,1

Digital relative value using VR3

range (external reference)

SELAD = â0b100â, EME = â0b0â, SVREF = 1;

DR3IO,1 = D3IO,1(V) / D3IO,1;

V(IOx) = 0.3 V

V(IOx) = 0.1 V

14.5 16 18.5 %

726 D4IO,1

Digital value using VR4 range SELAD = â0b100â, EME = â0b1â, SVREF = 1;

(external reference)

V(IOx) = 5.0V

870 930 1022

727 DR4IO,1

Digital relative value using VR4

range (external reference)

SELAD = â0b100â, EME = â0b1â, SVREF = 1;

DR4IO,1 = D4IO,1(V) / D4IO,1

V(IOx) = 2.5V

V(IOx) = 0.6V

9.5 11.5 14

728 D5IO,1

Digital value using VR5 range SELAD = â0b011â, SVREF = 1, V(IOx) = 36.0V

(external reference)

930 980 1022

729 DR5IO,1

Digital relative value using VR5

range (external reference)

SELAD = â0b011â, SVREF = 1;

DR5IO,1 = D5IO,1(V) / D5IO,1

V(IOx) = 24.0V

V(IOx) = 5.0V

64.6 66.6 68.6 %

11.8 13.8 15.8 %

730 DCIO,1

Digital value of current measure- SELAD = â0b001â,SVREF = 1, I(IOx) = 150mA

ment (external reference)

700 800 1022

731 DRCIO,1

Relative value of current

measurement (external

reference)

SELAD = â0b001â, SVREF = 1;

DRCIO,1 = DCIO,1(I) / DCIO,1

I(IOx) = 75mA

I(IOx) = 15mA

6.2 9.2 12.2 %

732 DVBg,0

Digital value of VBG measure- SELAD = â0b110â, SVREF = 0

ment (internal reference)

435 460 485

733 DVBY,0

Digital value of VBy measure- SVREF = 0, V(VBy) = 36V, SELAD = â0b101â

ment (internal reference)

830 880 1022

734 DRVBY,0

Relative value using VBy

SVREF = 0, SELAD = â0b101;

measurement (internal reference) DRVBY,0 = DVBY,0(V) / DVBY,0

V(VBy) = 24V

V(VBy) = 12V

64.6 66.6 68.6 %

31.3 33.3 35.3 %

735 D1IO,0

Digital value using VR1 range

(internal reference)

SELAD = â0b010â, EME = â0b0â, SVREF = 0,

V(IOx) = V(VBy) - 0.6V

760 820 1022

736 DR1IO,0

Relative value using VR1 range

(internal reference)

SELAD = â0b010â, EME = â0b0â, SVREF = 0;

DR1IO,0 = D1IO,0(V) / D1IO,0

V(IOx) = V(VBy) - 0.3V

V(IOx) = V(VBy) - 0.1V

737 D2IO,0

Digital value using VR2 range

(internal reference)

SELAD = â0b010â, EME = â0b1â, SVREF = 0,

V(IOx) = V(VBy) - 5.0V

790 840 1022

738 DR2IO,0

Relative value using VR2 range

(internal reference)

SELAD = â0b010â, EME = â0b1â, SVREF = 0;

DR2IO,0 = D2IO,0(V) / D2IO,0

V(IOx) = V(VBy) - 2.5V

V(IOx) = V(VBy) - 0.6V

9.5 11.5 14

739 D3IO,0

Digital value using VR3 range

(internal reference)

SELAD = â0b100â, EME = â0b0â, SVREF = 0,

V(IOx) = 0.6V

790 840 1022

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