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IC-JE_15 Datasheet, PDF (5/11 Pages) IC-Haus GmbH – PWM RELAY/SOLENOID DRIVER
iC-JE
PWM RELAY/SOLENOID DRIVER
Rev G3, Page 5/11
ELECTRICAL CHARACTERISTICS
Operating Conditions: VB = 10...45 V, LOUT = 0.01...10 H, RSET = 10...60 kΩ, Tj = -25...125 °C, unless otherwise noted.
LED connected or pin LED linked to GND (via ca. 500 Ω resistor or capacitor).
Item Symbol Parameter
No.
Conditions
Unit
Min. Typ. Max.
Total Device
001 VB
Permissible Supply Voltage
Range
10
45
V
002 I(VB)
Supply Current in VB
Outputs OUT, LED disabled
0.5
2
mA
003 I(VB)
Supply Current in VB
Output OUT enabled
0.5
3
mA
004 Vc()lo
Clamp Voltage lo at all Pins
I() = -4 mA, other Pins open
-1.4
-0.3
V
005 Vc()hi
Clamp Voltage hi at VB, IN, ISET I() = 4 mA, other Pins open
48
57
V
006 Vc()hi
Clamp Voltage hi at OUT
I(OUT) = 4 mA, other Pins open
60
71
V
007 Vc()hi
Clamp Voltage hi at LED vs. VB Vc()hi = V(LED) − V(VB);
I(LED) = 4 mA, other Pins open
0.3
1.4
V
Driver Output OUT
101 Vs()lo
Saturation Voltage lo
I(OUT) = 200 mA (see Fig. 1)
360 600 mV
102 Vs()lo
Saturation Voltage lo
I(OUT) = 300 mA (see Fig. 1)
550 850 mV
103 PWMthi
Permissible Energising Current
see Fig. 1
Increased Energising Current by RC-circuit at
ISET, Hold Current 200 mA max. (see Fig. 5, 6)
300 mA
350 mA
104 PWMthi Permissible Hold Current
see Fig. 1
40
mA
105 Isc()
Short-circuit Current
V(OUT) = VB
0.6
1
1.7
A
106 Vc()hi
Clamp Voltage hi at
PWM-Free-Wheeling
Vc()hi = V(OUT) − VB;
IN = hi, I(OUT) = 200 mA (see Fig. 1)
1
1.5
V
107 Vc()hi
Clamp Voltage hi at
PWM-Free-Wheeling
Vc()hi = V(OUT) − VB;
IN = hi, I(OUT) = 300 mA (see Fig. 1)
1.4
2
V
108 Vc()off Clamp Voltage hi at Turn-off
Vc()hi = V(OUT) − VB;
IN: hi → lo, I(OUT) = 200 mA (see Fig. 1)
12
15
17
V
109 IIK()
Leakage Current
IN = lo, V(OUT) = 0...VB
1
10
µA
110 twon()min Minimum PWM Turn-on Duration IN = hi, ISET open (see Fig. 1)
250
1000 ns
111 C()
Permissible Load Capacitance
1
nF
Input IN
201 Vt()on
Threshold Voltage hi
2.6 2.85 3.2
V
202 Vt()off
Threshold Voltage lo
1.7 2.0 2.3
V
203 Vt()hys Hysteresis
Vt()hys = Vt()on − Vt()off
0.7 0.85 1.1
V
204 lpd()
Pull-down Current
V(IN) = 4...45 V
50 100 200 µA
205 Rpd()
Pull-down Resistor
V(IN) = 0...4 V
20
50
80
kΩ
206 tp(IN-OUT) Turn-on Delay
IN: lo → hi
20
µs
207 tp(IN-OUT) Turn-off Delay
IN: hi → lo
10
µs
208 tp(VB-OUT) Turn-on Delay when VB is pow- IN = VB, VB = VBoff → VBon
ered up
40
µs
209 tp(IN-LED) Delay Time from IN to LED
(with light permanently on)
PWMOK = 1 before tpPMWlo
65 100 135 ms
210 tp(IN-LED) Delay Time from IN to LED
(with light flashing)
PWMOK = 0
130 200 270 ms
Status Monitor LED
301 Ipd()
Pull-down Current
V(LED) = 5 V...VB
3
5
8
mA
302 Vs()lo
Saturation Voltage lo
I(LED) = 200 µA
0.4
V
303 Ipu()
Pull-up Current
V(LED) = 0 V...(VB − 1 V)
-300 -100 -20
µA
304 VBlo
Permissible Supply Voltage for
Monitoring Function
6
45
V
305 VBon
Turn-on Threshold at VB
7.6
8
8.4
V
306 VBoff
Undervoltage Threshold at VB Decreasing voltage VB
7.1 7.5 7.9
V
307 VBhys Hysteresis
VBhys = VBon − VBoff
200 500 800 mV
308 Toff
Thermal Shutdown Temperature
130 140 150
°C
309 Ton
Thermal Lock-on Threshold
Decreasing temperature
110 120 130
°C