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IC-JJ Datasheet, PDF (6/17 Pages) IC-Haus GmbH – POWER MANAGEMENT iC
iC-JJ
POWER MANAGEMENT IC
Rev A1, Page 6/17
ELECTRICAL CHARACTERISTICS
Operating conditions: +VBAT= 6..16.5V, PGND= GND, COS= 680pF,
RSET= 10kS, RKL= 511S, RKLR= 511S, Tj= -40..125EC, unless otherwise noted
Item Symbol Parameter
Conditions
Total Device
1 I(VA1)
002 I(VH)
003 I(KL,
KLR)
004 I(KL,
KLR)
5 I(KL,
KLR)
006 Rpu()
7 Rpd()
8 Vpu()
9 Vpd()
10 Vt()hi
11 Vt()lo
12 Vt()hys
13 Vs()lo
14 Vs()hi
15 Isc()
16 tsup()
Supply Current in VA1
outputs passive,
VA1= 30V, VH= 6V
Supply Current in VH
in-/outputs passive,
VA1= 30V, VH= 6V
Supply Current in KL, KLR
in-/outputs passive, switching
regulator active,
V(KL, KLR)= 12V
Supply Current in KL, KLR
in-/outputs passive, switching
regulator active,
V(KL, KLR)= 6.5V
Supply Current in KL, KLR
no external capacitance at VA1,
VA, VB; ENA= lo,
V(KL, KLR) < 18V
Pull-up Resistor to VCC at Inputs
TWD, TXD, NRHD, NRES, NVTA,
VTU
Pull-down Resistor to GND at
Inputs TFP, TAKS, TFL, TCRD,
TCRA
for TFP test mode= lo
Pull-up Voltage to VCC at Inputs Vpu()= V()- VCC;
TWD, TXD, NRHD, NRES, NVTA, I()= -10..10µA
VTU
Pull-down Voltage to GND at
Inputs TFP, TAKS, TFL, TCRD,
TCRA
I()= -10..10µA,
for TFP test mode= lo
Threshold Voltage hi at Inputs
TWD, TXD, TFP, TAKS, TFL,
TCRD, TCRA, NRHD, NRES,
NVTA, VTU
Threshold Voltage lo at Inputs
TWD, TXD, TFP, TAKS, TFL,
TCRD, TCRA, NRHD, NRES,
NVTA, VTU
Hysteresis at Inputs TWD, TXD, Vt()hys= Vt()hi- Vt()lo
TFP, TAKS, TFL, TCRD, TCRA,
NRHD, NRES, NVTA, VTU
Saturation Voltage lo at Outputs I()= 1.6mA, outputs lo
NRES, NVTA, VTU, RXD, PFL,
PAKS, PCRD, PCRA
Saturation Voltage hi vs. VCC at Vs()= V()- VCC;
Outputs RXD, PFL, PAKS,
I()= -1mA, outputs hi
PCRD, PCRA
Short-circuit Current in Outputs V()= VCC, pins= lo,
NRES, NVTA, VTU, HD
V(HD)= VA1
Permissible Spurious Pulse Width no switching triggered
at Inputs TWD, TXD, TFP, TAKS,
TFL, TCRD, TCRA, NRHD,
NRES, NVTA, VTU
Tj Fig.
EC
27
27
27
Min.
8
25
8
20
5.4
8.8
-0.3
33
500
-0.8
Typ.
3
5
12
25
9.1
14.7
10
Unit
Max.
52
mA
75
mA
16
mA
32
mA
100
µA
15.4 kS
kS
24.6 kS
kS
V
0.3
V
67 %VCC
%VCC
mV
0.4
V
V
30
mA
mA
40
ns