iC-JX
16-FOLD 24 V HIGH-SIDE DRIVER WITH µC INTERFACE
Rev C1, Page 8/36
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 Symbol
No.
Parameter
Conditions
Unit
Min.
Typ.
Max.
720 D1IO,1
Digital value using VR1 range
(external reference)
SELAD = ’0b010’, EME = ’0b0’, SVREF = 1,
V(IOx) = V(VBy) − 0.6V
SELAD = ’0b010’, EME = ’0b0’, SVREF = 1;
840
900
1022
721
DR1IO,1
Digital relative value using VR1
range
(external reference)
DR1IO,1 = D1IO,1(V) / D1IO,1
V(IOx) = V(VBy) − 0.3 V
V(IOx) = V(VBy) − 0.1 V
;
46
12
49
15
52
18
%
%
722 D2IO,1
723
Digital absolute value using VR2 SELAD = ’0b010’, EME = ’0b1’, SVREF = 1,
range (external reference)
870
930
1022
V(IOx) = V(VBy) − 5.0 V
SELAD = ’0b010’, EME = ’0b1’, SVREF = 1;
DR2IO,1
Digital relative value using VR2
range (external reference)
DR2IO,1 = D2IO,1(V) / D2IO,1
V(IOx) = V(VBy) − 2.5 V
V(IOx) = V(VBy) − 0.6 V
;
48
9.5
50
11.5
52
14
%
%
724 D3IO,1
725
Digital absolute value using VR3 SELAD = ’0b100’, EME = ’0b0’, SVREF = 1,
range (external reference)
880
940
1022
V(IOx) = 0.6 V;
DR3IO,1
Digital relative value using VR3
range (external reference)
SELAD = ’0b100’, EME = ’0b0’, SVREF = 1;
DR3IO,1 = D3IO,1(V) / D3IO,1
V(IOx) = 0.3 V
;
48
14.5
50
16
52
18.5
%
%
V(IOx) = 0.1 V
726 D4IO,1
727
Digital absolute value using VR4 SELAD = ’0b100’, EME = ’0b1’, SVREF = 1;
870
930
1022
range (external reference)
V(IOx) = 5.0V
DR4IO,1
Digital relative value using VR4
range (external reference)
SELAD = ’0b100’, EME = ’0b1’, SVREF = 1;
DR4IO,1 = D4IO,1(V) / D4IO,1
V(IOx) = 2.5V
48
9.5
50
11.5
52
14
%
%
V(IOx) = 0.6V
728 D5IO,1
729
Digital absolute value using VR5 SELAD = ’0b011’, SVREF = 1, V(IOx) = 36.0V
range (external reference)
930
980
1022
DR5IO,1
Digital relative value using VR5
range (external reference)
SELAD = ’0b011’, SVREF = 1;
DR5IO,1 = D5IO,1(V) / D5IO,1
V(IOx) = 24.0V
64.6
11.8
66.6
13.8
68.6
15.8
%
%
V(IOx) = 5.0V
730 DCIO,1
731
Digital value of current measure- SELAD = ’0b001’,SVREF = 1, I(IOx) = 150mA
ment (external reference)
700
800
1022
DRCIO,1
Relative value of current
measurement (external
reference)
SELAD = ’0b001’, SVREF = 1;
DRCIO,1 = DCIO,1(I) / DCIO,1
I(IOx) = 75mA
48
51
54
%
%
I(IOx) = 15mA
6.2
9.2
12.2
732 DVBg,0
733 DVBY,0
Digital value of VBG measure-
ment (internal reference)
SELAD = ’0b110’, SVREF = 0
435
830
460
880
485
Digital value of VBG measure-
ment (internal reference)
SVREF = 0, V(VBy) = 36V, SELAD = ’0b101’
1022
734
DRVBY,0
Relative value using VR1 range
(internal reference)
SVREF = 0, SELAD = ’0b101;
DRVBY,0 = DVBY,0(V) / DVBY,0
V(VBy) = 24V
64.6
31.3
66.6
33.3
68.6
35.3
%
%
V(VBy) = 12V
735
736
D1IO,0
Digital value using VR1 range
(internal reference)
SELAD = ’0b010’, EME = ’0b0’, SVREF = 0,
V(IOx) = V(VBy) - 0.6V
760
820
1022
DR1IO,0
Relative value using VR1 range
(internal reference)
SELAD = ’0b010’, EME = ’0b0’, SVREF = 0;
DR1IO,0 = D1IO,0(V) / D1IO,0
V(IOx) = V(VBy) - 0.3V
46
12
49
15
52
18
%
%
V(IOx) = V(VBy) - 0.1V
737
738
D2IO,0
Digital value using VR2 range
(internal reference)
SELAD = ’0b010’, EME = ’0b1’, SVREF = 0,
V(IOx) = V(VBy) - 5.0V
790
840
1022
DR2IO,0
Relative value using VR2 range
(internal reference)
SELAD = ’0b010’, EME = ’0b1’, SVREF = 0;
DR2IO,0 = D2IO,0(V) / D2IO,0
V(IOx) = V(VBy) - 2.5V
48
9.5
50
11.5
52
14
%
%
V(IOx) = V(VBy) - 0.6V
739
D3IO,0
Digital value using VR3 range
(internal reference)
SELAD = ’0b100’, EME = ’0b0’, SVREF = 0,
V(IOx) = 0.6V
790
840
1022
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