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IC-JX Datasheet, PDF (6/36 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 µC INTERFACE
Rev C1, Page 6/36
ELECTRICAL CHARACTERISTICS
Operating conditions: VCC = VDD = 3 ... 5.5 V, VBy = 12 ... 36 V, GNDA = GNDD = 0 V, RSET = 10 k⦠±1% . All inputs on deï¬ned 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 veriï¬ed within the individual application by FMEA methods.
Item Symbol Parameter
No.
Conditions
Unit
Min. Typ. Max.
108 SR()lo
Slew Rate lo
CL = 0 ... 100 pF, I(IOx) = -150mA
5
17 V/µs
109 tplh()
Propagation Delay until IOx: lo â V(IOx) > V0(IOx) + 1 V
hi
6
µs
110 tphl()
Propagation Delay until IOx = off V(IOx) < 80 % (VBy - Vs(IOx)hi)
6
µs
I/O Stages: Current Sources at IO1...16
201 Ipd()
Pull-down Current Source
(200 µA)
V(IOx) = 3 V .. VBy;
160 200 240 µA
202 Ipd()
Pull-down Current Source
(600 µA)
V(IOx) = 3 V .. VBy;
510 600 690 µA
203 Ipd()
Pull-down Current Source (2 mA) V(IOx) = 3 V .. VBy;
1.6
2
2.4 mA
204 Ipu()
Pull-up Current Source (200 µA) IOx = off, V(IOx) = 0 V .. VBy - 3 V
150 200 250 µA
205 Ipu()
Pull-up Current Source (600 µA) IOx = off, V(IOx) = 0 V .. VBy - 3 V
510 600 690 µA
206 Ipu()
Pull-up Current Source (2 mA) IOx = off, V(IOx) = 0 V ..VBy - 3 V
1.6
2
2.4 mA
207 tp()Ion
Turn-on Time
Current Source aktiv
I(IOx) > 90 % Ipd(IOx) resp.
I(IOx) > 90 %Ipu(IOx)
5
µs
208 tp()Ioff
Turn-off Time
Current Source inaktiv
I(IOx) < 10 % Ipd(IOx) resp.
I(IOx) < 10 % Ipu(IOx)
5
µs
209 Ifu()
Leakage Current
IOx with Input Function or
-50
Output Function with IOx = off; VBy = 30 V
IL2 = IH2 = IL1 = IH1 = IL0 = IH0 = 0,
V(IOx) = 0V .. VBy
70
µA
210 Irb()
Leakage Current
Conditions see Item-No. 209;
-1.5
mA
V(IOx) = -10 V .. 0 V, VBy = 30 V
211 Irb()
Leakage Current
Conditions see Item-No. 209; only Input Func-
tion
V(IOx) = VBy ... VBy + 0.3 V
250 µA
212 Irb()
Leakage Current
Conditions see Item-No. 209; only Input Func-
tion
V(IOx) = VBy + 0.3V ... VBy + 2V
1
mA
213 Irb()
Leakage Current
I/O Stages: Comparator IO 1..16
no supply voltages VBy
V(IO)max = 36V
5
mA
301 Vt()hi
Threshold voltage hi
IOx with input function
82 %VCC
302 Vt()lo
Threshold voltage lo
IOx with input function
66
%VCC
303 Vt()hys Hysteresis
IOx with input function, Vt()hys = Vt()hi - Vt()lo 100
mV
304 Vt()hi
Threshold voltage hi referenced IOx with output function, Vt()hi = VBy - V(IOx) 5.0
V
to VBy
305 Vt()lo
Threshold voltage lo referenced IOx with output function, Vt()lo = VBy - V(IOx)
to VBy
6.7
V
306 Vt()hys Hysteresis
IOx with output function, Vt()hys = Vt()lo - Vt()hi 100
mV
307 tp(IOx-Dx) Propagation Delay Input IOx to I/O-Filter inaktive
Data Output Dx
20
µs
Thermal Shutdown
401 Toff1
Overtemperatur threshold level 1:
warning
120
145
°C
402 Ton1
Level 1 Release
115
140
°C
403 Thys1
Level 1 Hysteresis
Thys1 = Toff1 - Ton1
2
7
°C
404 Toff2
Overtemperatur threshold level 2:
shutdown
140
165
°C
405 Ton2
Level 2 Release
120
145
°C
406 Thys2
Level 2 Hysteresis
Thys2 = Toff2 - Ton2
13
35
°C
407 âT
Temperature Difference Level 2 âT = Toff2 - Toff1
to Level 1
13
35
°C
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