IC-JX Datasheet, PDF(7/36 Page) IC-Haus GmbH – 16-FOLD 24 V HIGH-SIDE DRIVER WITH μC INTERFACE

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IC-JX Datasheet, PDF (7/36 Pages) IC-Haus GmbH – 16-FOLD 24 V HIGH-SIDE DRIVER WITH μC INTERFACE

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iC-JX

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

Rev C1, Page 7/36

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 deï¬ned 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 veriï¬ed within the individual application by FMEA methods.

Item Symbol Parameter

No.

Conditions

Unit

Min. Typ. Max.

Bias and Low Voltage Detection

501 VCCon, Turn-on Threshold VCC, VDD

VDDon (Power-on release)

2.4 2.6 2.9

502 VCCoff,

VDDoff

Undervoltage Threshold VCC,

VDD (Power-down reset)

2.3 2.5 2.8

503 VCChys, Hysteresis

VDDhys

VCChys = VCCon - VCCoff,

VDDhys = VDDon - VDDoff

60 100 140 mV

504 tmin()lv

Power Down Time required for VCC = 0.8 V .. VCCoff,

low voltage detection

VDD = 0.8 V .. VDDoff

Âµs

505 tpoff

Propagation Delay until Reset

after Low Voltage at VCC, VDD

Âµs

506 Vrefad

Reference Voltage for A/D-

Converter

2.6 2.75 3.0

A/D-Converter

701 VR1

ADC - Measurement Range 1

Current and voltage measurement High at IO,

SELAD = â0b001â resp. â0b010â, EME = 0

VBy -

0.6 V

VBy

702 VR2

ADC - Measurement Range 2

Voltage measurement High at IO,

SELAD = â0b010â, EME = 1

VBy -

VBy

703 VR3

ADC - Measurement Range 3 Voltage measurement Low at IO, SELAD =

â0b100â, EME = 0

0.6

704 VR4

ADC - Measurement Range 4 Voltage measurement Low at IO SELAD =

â0b100â; VB or VBG measurement SELAD =

â0b101â or. â0b110â, EME = 1

705 VR5

ADC - Measurement Range 5 Total voltage measurement range SELAD =

â0b011â

706 VR6

ADC - Measurement Range 6 Temperature measurement SELAD = â0b111â

-40

125

Â°C

707 Vbitlo

Bit-Equivalent of voltage

EME = 0

0.6

708 Vbithi

Bit-Equivalent of voltage

EME = 1

5.4

709 Dtemp1 Digital value of temperature

measurement 1

SVREF = 0, TEMP = (774-Dtemp1)/TKtemp1

Tj = -40Â°C

Tj = 27Â°C

Tj = 95Â°C

826 863 900

670 712 755

519 563 608

710 TKtemp1 Temperature coefï¬cient 1

SVREF = 0

2.16 2.22 2.27 1/Â°C

711 Dtemp2 Digital value of temperature

measurement 2

SVREF = 1, V(VREF) = 2.5V Â±0.2%

TEMP = (861-Dtemp2)/TKtemp2

Tj = -40Â°C

Tj = 27Â°C

Tj = 95Â°C

931 957 984

761 800 839

585 632 679

712 TKtemp2 Temperature coefï¬cient 2

SVREF = 1, V(VREF) = 2.5V Â±0.2%

2.26 2.41 2.55 1/Â°C

713 fICLK

714 tSAR1

715 tSAR2

716 tSAR3

Internal oscillating frequency

Conversion time SAR-converter 1 Current measurement

SELAD = â0b001â

Conversion time SAR-converter 2 Voltage measurement Low resp. High;

SELAD = â0b010â resp. â0b100â

Conversion time SAR-converter 3 Total voltage measurement SELAD = â0b011â;

VBy voltage measurement SELAD = â0b101â;

VBG voltage measurement SELAD = â0b110â;

temperature measurement SELAD = â0b111â

0.9 1.25 1.5

154 /

fICLK

90 /

fICLK

26 /

fICLK

MHz

Âµs

717 DVBG,1

Digital value of VBG measure- SELAD = â0b110â, SVREF = 1

ment (external reference)

480 520 560

718 DVBY,1

Digital value of VBy measure-

ment (external reference)

SVREF = 1, V(VBy) = 36 V, SELAD = â0b101â

940 990 1022

719 DRVBY,1

Relative value of VBy

measurement

(external reference)

SVREF = 1; DRVBY,1 = DVBY,1(V) / DVBY,1

V(VBy) = 24 V, SELAD = â0b101â

V(VBy) = 12 V, SELAD = â0b101â

64.6 66.6 68.6 %

31.3 33.3 35.2 %

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