IC-MN_16 Datasheet, PDF(7/62 Page) IC-Haus GmbH – 25-BIT NONIUS ENCODER WITH 3-CH. SAMPLING 13-BIT Sin/D INTERPOLATION

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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 Â±10 %, Tj = -40...125 Â°C,

IBP calibrated to 200 ÂµA, 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 Â°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 Â°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 Â°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

-20

0.4

1.5

12.5

-1.5

-0.3

-1.5

-0.2

-17

-10

0.75

-0.1

-100

16.4

VDDA V

â 1.5

VDDA + V

0.1

100 nA

20 23.6 kâ¦

-10

0.125

-300 ÂµA

300 ÂµA

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

2.25 2.5 2.75

1000 mVpp

4000 mVpp

Vpp

300

1.5

-1

LSB

-2

LSB

-20

20 LSB

-1

LSB

-20

20 LSB

-1

LSB

-8

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