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IC-MN_16 Datasheet, PDF (7/62 Pages) IC-Haus GmbH – 25-BIT NONIUS ENCODER WITH 3-CH. SAMPLING 13-BIT Sin/D INTERPOLATION | |||
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iC-MN 25-BIT NONIUS ENCODER
WITH 3-CH. SAMPLING 13-BIT Sin/D INTERPOLATION
Rev F2, Page 7/62
ELECTRICAL CHARACTERISTICS
Operating conditions: VDD = VACO = 5 V ±10 %, Tj = -40...125 °C,
IBP calibrated to 200 µA, reference point GNDA (GND for digital I/O pins), unless otherwise stated
Item Symbol Parameter
No.
Conditions
Total Device
001 VDD,
VACO
Permissible Supply Voltage
002 I(VDD) Supply Current in VDD
Tj = 27 °C, no load
003 I(VDDA) Permissible Load Current at
VDDA
004 Vc()hi
Clamp Voltage hi
Vc()hi = V() â VDD, I() = 1 mA
(all pins with the exception of MA,
NMA)
005 Vc()hi
Clamp Voltage hi MA, NMA
Vc()hi = V() â VDD, I() = 10 mA
006 Vc()lo
Clamp Voltage lo
(all pins with the exception of
VDDA, MA, NMA)
I() = -1 mA
007 Vc()lo
Clamp Voltage lo at VDDA
I() = -1 mA
008 Vc()lo
Clamp Voltage lo at MA, NMA I() = -10 mA
Signal Conditioning and Inputs: PSINx, NSINx, PCINx, NCINx (x = M, S, N)
101 Vin()sig
Permissible V-Mode Input
Voltage
UIN = 1, TUIN = 0
UIN = 1, TUIN = 1, DCPOS = 1
102 Iin()
V-Mode Input Current
UIN = 1, TUIN = 0
103 Rin()
V-Mode Input Resistance
vs. VREFin, Tj = 27 °C, UIN = 1, TUIN = 1
104 Iin()sig
Permissible I-Mode Input Current UIN = 0;
DCPOS = 0
DCPOS = 1
105 SCR()
Permissible Signal Contrast Ratio ratio of Iin()pk vs. Iin()dc
106 Rin()
I-Mode Input Resistance
Tj = 27 °C, vs. VREFin;
UIN = 0, RIN = 00
UIN = 0, RIN = 01
UIN = 0, RIN = 10
UIN = 0, RIN = 11
107 TCRin
Temperature Coefficient Rin
108 VREFin Input Reference Voltage
DCPOS = 1
DCPOS = 0
110 Vin()diff
Recommended Differential Input
Voltage
Vin()diff = V(PSINx) â V(NSINx),
Vin()diff = V(PCINx) â V(NCINx);
TUIN = 0
TUIN = 1
111 Vcore()
Recommended Internal Signal G * Vin()diff
Level
112 GF, GC Selectable Gain Factors
TUIN = 0
TUIN = 1
113 âGFdiff Differential Gain Accuracy
(Master)
referenced to fine gain range
114 âGFdiff Differential Gain Accuracy
(Segment, Nonius)
referenced to fine gain range
115 âGFSabs Absolute Gain Accuracy Sine
(Master)
referenced to fine gain range, guaranteed
monotony
116 âGFCabs Absolute Gain Accuracy Cosine referenced to fine gain range, guaranteed
(Master)
monotony
117 âGFSabs Absolute Gain Accuracy Sine
(Segment, Nonius)
referenced to fine gain range, guaranteed
monotony
118 âGFCabs Absolute Gain Accuracy Cosine referenced to fine gain range, guaranteed
(Segment, Nonius)
monotony
119 âGCabs Gain Accuracy
referenced to coarse gain range
Unit
Min. Typ. Max.
4.5
5.5
V
45
60
mA
-20
0
mA
0.4
1.5
V
12.5
16
V
-1.5
-0.3
V
-1.5
-0.2
V
-17
-10
V
0.75
-0.1
-100
16.4
VDDA V
â 1.5
VDDA + V
0.1
100 nA
20 23.6 kâ¦
-10
10
0.125
-300 µA
300 µA
1
1.1 1.6 2.1
kâ¦
1.6 2.3 3.0
kâ¦
2.2 3.2 4.2
kâ¦
3.2 4.6 6.0
kâ¦
0.15
%/K
1.35 1.5 1.65
V
2.25 2.5 2.75
V
20
1000 mVpp
80
4000 mVpp
6
Vpp
6
300
1.5
75
-1
1
LSB
-2
2
LSB
-20
20 LSB
-1
1
LSB
-20
20 LSB
-1
1
LSB
-8
8
%
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