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PDF iC-HX Data sheet ( Hoja de datos )

Número de pieza iC-HX
Descripción 3-CHANNEL DIFFERENTIAL COLD LINE DRIVER
Fabricantes IC-Haus 
Logotipo IC-Haus Logotipo



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iC-HX
3-CHANNEL DIFFERENTIAL COLD LINE DRIVER
Rev D1, Page 1/14
FEATURES
6 current-limited and short-circuit-proof push-pull drivers
Differential 3-channel operation selectable
Integrated impedance adaption for 30 to 140 lines
Wide power supply range from 4 to 40 V
200 mA output current (at VB = 24 V)
Low output saturation voltage (< 0.4 V at 30 mA)
Compatible with TIA/EIA standard RS-422
Tristate switching of outputs enables use in buses
Short switching times and high slew rates
Low static power dissipation
Dynamic power dissipation reduced with iC-xSwitch
Schmitt trigger inputs with pull-down resistors, TTL and CMOS
compatible; voltage-proof up to 40 V
Thermal shutdown with hysteresis
Error message trigger input TNER
Open-drain error output NER, active low with excessive chip
temperature and undervoltage at VCC or VB
Operating temperature range from -40 to 125 °C
APPLICATIONS
Line drivers for 24 V control
engineering
Linear scales and encoders
MR sensor systems
PACKAGES
QFN28 5 x 5 mm2
BLOCK DIAGRAM
trigger error
input
TNER
enable g
tristate
ENA
E1
E2
E3
E4
E5
E6
differential g
single ended
DIFF
normal g
xaSwitch
mode
NXS
fuV fcpV
MODE
VCC
ERROR DETECTION
w
W UNDERVOLTAGE W
OVERTEMPERATURE
w
m
w
m
w
m
iCaHX
NER error
output
VB1
A1
A2
VB2
A3
A4
VB3
A5
A6
CX1
iCaxSWITCH
CONTROL
GND1 GND2 GND3 GND4
wm
CX6
vertl 8Vgdivl horl cµsgdiv
LINE 100 m
wµF
wµF
PLC
Copyright © 2008, 2017 iC-Haus
http://www.ichaus.com

1 page




iC-HX pdf
iC-HX
3-CHANNEL DIFFERENTIAL COLD LINE DRIVER
Rev D1, Page 5/14
ELECTRICAL CHARACTERISTICS
Operating Conditions:
VB1. . . 3 = 4.5. . . 40 V, VCC = 4.5. . . 5.5 V or VB1. . . 3 = VCC = 4. . . 5.5 V, Tj = -40. . . 140 °C, unless otherwise noted,
input level lo = 0...0.45 V, hi = 2.4 V...VCC, timing diagram see Fig. 1
Item Symbol Parameter
No.
Conditions
Min. Typ.
General
001 VBx
Supply Voltage Range (Driver)
4
002 I(VBx)
Supply Current in VB1...3
Ax = lo
003 I(VBx)
Supply Current in VB1...3
Ax = hi
004 I(VBx)
Supply Current in VB1,
Outputs A1...2 Tri-State
ENA = lo,
V(A1...2) = -0.3...(VB + 0.3 V)
005 I(VBx)
006 IO(Ax)
Supply Current in VB2...3, Out-
puts A3...6 Tri-State
Output Leakage Current
ENA = lo,
V(A3...6) = -0.3...(VB + 0.3 V)
ENA = lo, V(Ax) = 0
ENA = lo, V(Ax) = 0...VB
-50
-50
007 VCC
Supply Voltage Range (Logic)
4
008 I(VCC) Supply Current in VCC
ENA = hi, Ax = lo
009 Vc()lo
Clamp Voltage low at pins
VB1...3, A1...6, E1...6, DIFF,
ENA TNER, NER, VCC
I() = -10 mA, all other pins open
-1.2
010 Vc()hi
Clamp Voltage high at pins
VB1...3, A1...6, E1...6, DIFF,
ENA TNER, NER
I() = 1 mA, all other pins open
41
011 I(VB)
Supply Current in VB1...3
ENA = hi, f(E1...6) = 1 MHz
Driver Outputs A1...6, Low-Side-action (x = 1...6)
101 Vs(Ax)lo Saturation Voltage low
I(Ax) = 10 mA, Ax = low
102 Vs(Ax)lo Saturation Voltage low
I(Ax) = 30 mA, Ax = low
103 Isc(Ax)lo Short circuit current low
V(Ax) = 1.5 V
30 50
104 Isc(Ax)lo Short circuit current low
V(Ax) = VB, Ax = low
105 Rout(Ax) Output resistance
VB = 10...40 V, V(Ax) = 0.5 * VB
40 75
106 SR(Ax)lo Slew Rate low
VB = 40 V, Cl(Ax) = 100 pF
200
107 Vc()lo
Free Wheel Clamp Voltage low I(Ax) = -100 mA
-1.4
Driver Outputs A1...6, High-Side-action (x = 1...6)
201 Vs(Ax)hi Saturation Voltage high
Vs(Ax)hi = VB - V(Ax), I(Ax) = -10 mA, Ax = hi
202 Vs(Ax)hi Saturation Voltage high
Vs(Ax)hi = VB - V(Ax), I(Ax) = -30 mA, Ax = hi
203 Isc(Ax)hi Short circuit current high
V(Ax) = VB - 1.5 V, Ax = hi
-70 -50
204 Isc(Ax)hi Short circuit current high
V(Ax) = 0 V, Ax = hi
-800
205 Rout(Ax)hi Output resistance
VB = 10...40 V, V(Ax) =0.5 * VB
40 75
206 SR(Ax)hi Slew Rate high
VB= 40 V, Cl(Ax) = 100 pF
200
207 Vc(Ax)hi Free Wheel Clamp Voltage high I(Ax) = 100 mA,
VB = VCC = GND
0.5
iC-xSwitch CXS1, CXS6, A1. . . 6, VB1. . . 3
301 VBxs,on Turn-on threshold iC-xSwitch
302 VBxs,off Turn-off threshold iC-xSwitch
11
303 VBxs,hys Hysteresis
150
304 Ron()
On-resistance iC-xSwitch
VBx = 40 V, V(CXSx)= 20 V, I(Ax) = ± 350 mA
305 Vth(Ax)hi Higher threshold hi
VBx = 12.5 . . . 40 V
306 Vth(Ax)lo Higher threshold lo
VBx = 12.5 . . . 40 V
63
307 Vth(Ax)hys Higher hysteresis
VBx = 12.5 . . . 40 V
100
308 Vtl(Ax)hi Lower threshold hi
VBx = 12.5 . . . 40 V
309 Vtl(Ax)lo Lower threshold lo
VBx = 12.5 . . . 40 V
30
310 Vtl(Ax)hys Lower hysteresis
VBx = 12.5 . . . 40 V
100
Switch control
401 tdmin
Minimum time for line reflection VB = 12.5 . . . 40 V
100 200
402 tXSon(Ax) On-time iC-xSwitch
f(Ex) = 500KHz, td = 800 ns, VB = 12.5 . . . 40 V 400
Max.
40
8
8
4
2
50
300
5.5
10
-0.35
64
50
0.2
0.4
70
800
100
1000
-0.5
0.2
0.5
-30
100
1000
1.4
12.5
7
73
40
300
700
Unit
V
mA
mA
mA
mA
µA
µA
V
mA
V
V
mA
V
V
mA
mA
Ohm
V/µs
V
V
V
mA
mA
Ohm
V/µs
V
V
V
mV
Ohm
%VB
%VB
mV
%VB
%VB
mV
ns
ns

5 Page





iC-HX arduino
iC-HX
3-CHANNEL DIFFERENTIAL COLD LINE DRIVER
Rev D1, Page 11/14
Figure 10: Circuit diagram of the demo board

11 Page







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