Incremental encoder Series IEF3-4096 L by FAULHABER

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Datasheet

Variants

Encoders Series IEF3-4096 L

magnetic Encoder, digital outputs, 3 channels
16 - 4096 lines per revolution, Line Driver

Key Features

Lines per revolution:

16 ... 4096

Encoder channels:

Advantages

Integrated encoder for brushless flat DC-micromotors of the BXT H series

Extremely compact with a length of only 6.2 mm

Line Driver

Index channel

Wide range of resolutions

Variants:

Series IEF3-16 L

N : Lines per revolution : 16 |n_channel : Encoder channels : 3

Series IEF3-32 L

N : Lines per revolution : 32 |n_channel : Encoder channels : 3

Series IEF3-64 L

N : Lines per revolution : 64 |n_channel : Encoder channels : 3

Series IEF3-128 L

N : Lines per revolution : 128 |n_channel : Encoder channels : 3

Series IEF3-256 L

N : Lines per revolution : 256 |n_channel : Encoder channels : 3

Series IEF3-512 L

N : Lines per revolution : 512 |n_channel : Encoder channels : 3

Series IEF3-1024 L

N : Lines per revolution : 1024 |n_channel : Encoder channels : 3

Series IEF3-2048 L

N : Lines per revolution : 2048 |n_channel : Encoder channels : 3

Series IEF3-4096 L

N : Lines per revolution : 4096 |n_channel : Encoder channels : 3

Values at 22° and nominal voltage		Value
Lines/Steps per revolution	N	16
Frequency range, up to	f	5 kHz
Signal output, square wave		2+1 Index and complementary outputs
Supply voltage	U_DD	5 ... 4.5 ... 5.5 V
Current consumption, typical	I_DD	25 mA
Index Pulse width	P₀	9045 °e
Phase shift, channel A to B	Φ	9045 °e
Inertia of sensor magnet	J	1.57 gcm²
Operating temperature range		-40 ... 100 °C
Accuracy, typ.		0.5 °m
Repeatability, typ.		0.08 °m
Hysteresis		0.02 °m
Edge spacing, min.		225 ns
Mass, typ.		16.8 g

Values at 22° and nominal voltage		Value
Lines/Steps per revolution	N	32
Frequency range, up to	f	10 Hz
Signal output, square wave		2+1 Index and complementary outputs
Supply voltage	U_DD	5 ... 4.5 ... 5.5 V
Current consumption, typical	I_DD	25 mA
Index Pulse width	P₀	9045 °e
Phase shift, channel A to B	Φ	9045 °e
Inertia of sensor magnet	J	1.57 gcm²
Operating temperature range		-40 ... 100 °C
Accuracy, typ.		0.5 °m
Repeatability, typ.		0.08 °m
Hysteresis		0.02 °m
Edge spacing, min.		225 ns
Mass, typ.		16.8 g

Values at 22° and nominal voltage		Value
Lines/Steps per revolution	N	64
Frequency range, up to	f	20 Hz
Signal output, square wave		2+1 Index and complementary outputs
Supply voltage	U_DD	5 ... 4.5 ... 5.5 V
Current consumption, typical	I_DD	25 mA
Index Pulse width	P₀	9045 °e
Phase shift, channel A to B	Φ	9045 °e
Inertia of sensor magnet	J	1.57 gcm²
Operating temperature range		-40 ... 100 °C
Accuracy, typ.		0.5 °m
Repeatability, typ.		0.08 °m
Hysteresis		0.02 °m
Edge spacing, min.		225 ns
Mass, typ.		16.8 g

Values at 22° and nominal voltage		Value
Lines/Steps per revolution	N	128
Frequency range, up to	f	40 kHz
Signal output, square wave		2+1 Index and complementary outputs
Supply voltage	U_DD	5 ... 4.5 ... 5.5 V
Current consumption, typical	I_DD	25 mA
Index Pulse width	P₀	9045 °e
Phase shift, channel A to B	Φ	9045 °e
Inertia of sensor magnet	J	1.57 gcm²
Operating temperature range		-40 ... 100 °C
Accuracy, typ.		0.5 °m
Repeatability, typ.		0.08 °m
Hysteresis		0.02 °m
Edge spacing, min.		225 ns
Mass, typ.		16.8 g

Values at 22° and nominal voltage		Value
Lines/Steps per revolution	N	256
Frequency range, up to	f	80 kHz
Signal output, square wave		2+1 Index and complementary outputs
Supply voltage	U_DD	5 ... 4.5 ... 5.5 V
Current consumption, typical	I_DD	25 mA
Index Pulse width	P₀	9045 °e
Phase shift, channel A to B	Φ	9045 °e
Inertia of sensor magnet	J	1.57 gcm²
Operating temperature range		-40 ... 100 °C
Accuracy, typ.		0.5 °m
Repeatability, typ.		0.08 °m
Hysteresis		0.02 °m
Edge spacing, min.		225 ns
Mass, typ.		16.8 g

Values at 22° and nominal voltage		Value
Lines/Steps per revolution	N	512
Frequency range, up to	f	160 kHz
Signal output, square wave		2+1 Index and complementary outputs
Supply voltage	U_DD	5 ... 4.5 ... 5.5 V
Current consumption, typical	I_DD	25 mA
Index Pulse width	P₀	9045 °e
Phase shift, channel A to B	Φ	9045 °e
Inertia of sensor magnet	J	1.57 gcm²
Operating temperature range		-40 ... 100 °C
Accuracy, typ.		0.5 °m
Repeatability, typ.		0.08 °m
Hysteresis		0.02 °m
Edge spacing, min.		225 ns
Mass, typ.		16.8 g

Values at 22° and nominal voltage		Value
Lines/Steps per revolution	N	1024
Frequency range, up to	f	320 kHz
Signal output, square wave		2+1 Index and complementary outputs
Supply voltage	U_DD	5 ... 4.5 ... 5.5 V
Current consumption, typical	I_DD	25 mA
Index Pulse width	P₀	9065 °e
Phase shift, channel A to B	Φ	9065 °e
Inertia of sensor magnet	J	1.57 gcm²
Operating temperature range		-40 ... 100 °C
Accuracy, typ.		0.5 °m
Repeatability, typ.		0.08 °m
Hysteresis		0.02 °m
Edge spacing, min.		225 ns
Mass, typ.		16.8 g

Values at 22° and nominal voltage		Value
Lines/Steps per revolution	N	2048
Frequency range, up to	f	640 kHz
Signal output, square wave		2+1 Index and complementary outputs
Supply voltage	U_DD	5 ... 4.5 ... 5.5 V
Current consumption, typical	I_DD	25 mA
Index Pulse width	P₀	9075 °e
Phase shift, channel A to B	Φ	9075 °e
Inertia of sensor magnet	J	1.57 gcm²
Operating temperature range		-40 ... 100 °C
Accuracy, typ.		0.5 °m
Repeatability, typ.		0.08 °m
Hysteresis		0.02 °m
Edge spacing, min.		225 ns
Mass, typ.		16.8 g

Values at 22° and nominal voltage		Value
Lines/Steps per revolution	N	4096
Frequency range, up to	f	875 kHz
Signal output, square wave		2+1 Index and complementary outputs
Supply voltage	U_DD	5 ... 4.5 ... 5.5 V
Current consumption, typical	I_DD	25 mA
Index Pulse width	P₀	9075 °e
Phase shift, channel A to B	Φ	9075 °e
Inertia of sensor magnet	J	1.57 gcm²
Operating temperature range		-40 ... 100 °C
Accuracy, typ.		0.5 °m
Repeatability, typ.		0.08 °m
Hysteresis		0.02 °m
Edge spacing, min.		225 ns
Mass, typ.		16.8 g

3D-CAD Files ZIP

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3D-CAD Files

Application note

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AN 136 - Block Commutation - with Digital Hall Sensors - with Absolute Encoder

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AN 144 - Quadraturschnittstelle

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AN 146 - Further information on IEH2 and IEH3

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AN 147 - Definition of the encoder signal criteria

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AN 162 - Analog Hall Sensors

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AN 163 - Digital Hall Sensors

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