IC-JXMQFP52 参数 Datasheet PDF下载

iC-JX

16-FOLD 24 V HIGH-SIDE DRIVER WITH µC 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 kΩ ±1% . All inputs on defined logic

states (high or low), Tj = -40 ... 125 °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

No.

501

502

503

504

505

506

Symbol

Parameter

Conditions

Min.

VCCon,

VDDon

VCCoff,

VDDoff

VCChys,

VDDhys

tmin()lv

tpoff

Vrefad

Turn-on Threshold VCC, VDD

(Power-on release)

Undervoltage Threshold VCC,

VDD (Power-down reset)

Hysteresis

Power Down Time required for

low voltage detection

Propagation Delay until Reset

after Low Voltage at VCC, VDD

Reference Voltage for A/D-

Converter

ADC - Measurement Range 1

ADC - Measurement Range 2

ADC - Measurement Range 3

ADC - Measurement Range 4

Current and voltage measurement High at IO,

SELAD = ’0b001’ resp. ’0b010’, EME = 0

Voltage measurement High at IO,

SELAD = ’0b010’, EME = 1

Voltage measurement Low at IO, SELAD =

’0b100’, EME = 0

Voltage measurement Low at IO SELAD =

’0b100’; VB or VBG measurement SELAD =

’0b101’ or. ’0b110’, EME = 1

Total voltage measurement range SELAD =

’0b011’

Temperature measurement SELAD = ’0b111’

EME = 0

EME = 1

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

Tj = -40°C

Tj = 27°C

Tj = 95°C

SVREF = 0

SVREF = 1, V(VREF) = 2.5V ±0.2%

TEMP = (861-Dtemp2)/TKtemp2

Tj = -40°C

Tj = 27°C

Tj = 95°C

SVREF = 1, V(VREF) = 2.5V ±0.2%

826

670

519

2.16

2.6

2.75

VCChys = VCCon - VCCoff,

VDDhys = VDDon - VDDoff

VCC = 0.8 V .. VCCoff,

VDD = 0.8 V .. VDDoff

2.4

2.3

60

1

12

3.0

Typ.

2.6

2.5

100

Max.

2.9

2.8

140

V

V

mV

µs

µs

V

Unit

Bias and Low Voltage Detection

A/D-Converter

701

702

703

704

VR1

VR2

VR3

VR4

VBy -

0.6 V

VBy -

5V

0

0

VBy

VBy

0.6

5

V

V

V

V

705

706

707

708

709

VR5

VR6

Vbitlo

Vbithi

Dtemp1

ADC - Measurement Range 5

ADC - Measurement Range 6

Bit-Equivalent of voltage

Bit-Equivalent of voltage

Digital value of temperature

measurement 1

0

-40

0.6

5.4

863

712

563

2.22

VB

125

V

°C

mV

mV

900

755

608

2.27

1/°C

710

711

TKtemp1

Dtemp2

Temperature coefficient 1

Digital value of temperature

measurement 2

931

761

585

2.26

0.9

957

800

632

2.41

1.25

154 /

f

ICLK

90 /

f

ICLK

26 /

f

ICLK

984

839

679

2.55

1.5

1/°C

MHz

µs

µs

µs

712

713

714

715

716

TKtemp2

f

ICLK

t

SAR1

t

SAR2

t

SAR3

Temperature coefficient 2

Internal oscillating frequency

Conversion time SAR-converter 1 Current measurement

SELAD = ’0b001’

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

SELAD = ’0b010’ resp. ’0b100’

Conversion time SAR-converter 3 Total voltage measurement SELAD = ’0b011’;

VBy voltage measurement SELAD = ’0b101’;

VBG voltage measurement SELAD = ’0b110’;

temperature measurement SELAD = ’0b111’

Digital value of VBG measure-

ment (external reference)

Digital value of VBy measure-

ment (external reference)

Relative value of VBy

measurement

(external reference)

SELAD = ’0b110’, SVREF = 1

SVREF = 1, V(VBy) = 36 V, SELAD = ’0b101’

SVREF = 1; DR

VBY,1

= D

VBY,1

(V) / D

VBY,1

V(VBy) = 24 V, SELAD = ’0b101’

V(VBy) = 12 V, SELAD = ’0b101’

480

940

717

718

719

D

VBG,1

D

VBY,1

DR

VBY,1

520

990

560

1022

64.6

31.3

66.6

33.3

68.6

35.2

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