Career Press Suppliers
Career Press Suppliers

Flat DC-Micromotors Series 2607 ... SR IE2-16

Precious Metal Commutation with integrated Encoder

Key Features
Nominal voltage:
6 ... 24 V
No-load speed up to:
7200 min⁻¹
Lines per revolution up to:
16
Encoder channels:
2
Diameter:
26 mm
Length:
9.2 mm
Advantages
Extremely flat design. Lengths ranging from 6 mm to 19 mm
4-pole design
Minimal moment of inertia
Integrated spur gearheads of minimal length with high gear ratio are available
Available with integrated optical encoders
Variants:
Series 2607T006SR IE2-16
UN : Nominal voltage : 6 V |n0 : No-load speed up to : 6700 min⁻¹ |N : Lines per revolution up to : 16 |nchannel : Encoder channels : 2 |Ø : Diameter : 26 mm |L : Length : 9.2 mm
Series 2607T012SR IE2-16
UN : Nominal voltage : 12 V |n0 : No-load speed up to : 6900 min⁻¹ |N : Lines per revolution up to : 16 |nchannel : Encoder channels : 2 |Ø : Diameter : 26 mm |L : Length : 9.2 mm
Series 2607T024SR IE2-16
UN : Nominal voltage : 24 V |n0 : No-load speed up to : 7200 min⁻¹ |N : Lines per revolution up to : 16 |nchannel : Encoder channels : 2 |Ø : Diameter : 26 mm |L : Length : 9.2 mm

Values at 22° and nominal voltageValue
Nominal voltageUN 6 V
Terminal resistanceR 8 Ω
Efficiency, max.ηmax. 80 %
No-load speedn0 6700 min⁻¹
No-load currentI0 0.01 A
Stall torqueMH 6.33 mNm
Friction torqueMR 0.08 mNm
Speed constantkn 1130 min⁻¹/V
Back-EMF constantkE 0.884 mV/min⁻¹
Torque constantkM 8.44 mNm/A
Current constantkI 0.118 A/mNm
Slope of n-M curveΔn/ΔM 1060 min⁻¹/mNm
Rotor inductanceL 420 µH
Mechanical time constantτm 7.5 ms
Rotor inertiaJ 0.68 gcm²
Angular accelerationαmax. 94 ·10³rad/s²
Thermal resistanceRth1/Rth2 10 / 32 K/W
Thermal time constantτw1/τw2 6 / 250 s
Operating temperature range 0 ... 70 °C
Winding temperature, max. 70 °C
Housing material plastic
Mass 18.6 g
Direction of rotation clockwise, viewed from the front face
Speed up tonmax. 8000 min⁻¹
Number of pole pairs 2
Magnet material NdFeB

Values at 22° and nominal voltageValue
Nominal voltageUN 12 V
Terminal resistanceR 31.2 Ω
Efficiency, max.ηmax. 80 %
No-load speedn0 6900 min⁻¹
No-load currentI0 0.005 A
Stall torqueMH 6.31 mNm
Friction torqueMR 0.08 mNm
Speed constantkn 582 min⁻¹/V
Back-EMF constantkE 1.72 mV/min⁻¹
Torque constantkM 16.4 mNm/A
Current constantkI 0.061 A/mNm
Slope of n-M curveΔn/ΔM 1090 min⁻¹/mNm
Rotor inductanceL 1600 µH
Mechanical time constantτm 7.8 ms
Rotor inertiaJ 0.68 gcm²
Angular accelerationαmax. 93 ·10³rad/s²
Thermal resistanceRth1/Rth2 10 / 32 K/W
Thermal time constantτw1/τw2 6 / 250 s
Operating temperature range 0 ... 70 °C
Winding temperature, max. 70 °C
Housing material plastic
Mass 18.6 g
Direction of rotation clockwise, viewed from the front face
Speed up tonmax. 8000 min⁻¹
Number of pole pairs 2
Magnet material NdFeB

Values at 22° and nominal voltageValue
Nominal voltageUN 24 V
Terminal resistanceR 118.6 Ω
Efficiency, max.ηmax. 80 %
No-load speedn0 7200 min⁻¹
No-load currentI0 0.0025 A
Stall torqueMH 6.48 mNm
Friction torqueMR 0.08 mNm
Speed constantkn 304 min⁻¹/V
Back-EMF constantkE 3.29 mV/min⁻¹
Torque constantkM 31.4 mNm/A
Current constantkI 0.032 A/mNm
Slope of n-M curveΔn/ΔM 1110 min⁻¹/mNm
Rotor inductanceL 5800 µH
Mechanical time constantτm 7.9 ms
Rotor inertiaJ 0.68 gcm²
Angular accelerationαmax. 95 ·10³rad/s²
Thermal resistanceRth1/Rth2 10 / 32 K/W
Thermal time constantτw1/τw2 6 / 250 s
Operating temperature range 0 ... 70 °C
Winding temperature, max. 70 °C
Housing material plastic
Mass 18.6 g
Direction of rotation clockwise, viewed from the front face
Speed up tonmax. 8000 min⁻¹
Number of pole pairs 2
Magnet material NdFeB
Operating Area

The diagram indicates the recommended speed in relation to the available torque at the output shaft for a given ambient temperature of 22°C.
The diagram shows the motor in a completely insulated as well as thermally coupled condition (Rth2 50% reduced).
The nominal voltage (UN) curve shows the operating point at nominal voltage in the insulated and thermally coupled condition. Any points of operation above the curve at nominal voltage will require a higher operating voltage. Any points below the nominal voltage curve will require less voltage.

Operating Area

The diagram indicates the recommended speed in relation to the available torque at the output shaft for a given ambient temperature of 22°C.
The diagram shows the motor in a completely insulated as well as thermally coupled condition (Rth2 50% reduced).
The nominal voltage (UN) curve shows the operating point at nominal voltage in the insulated and thermally coupled condition. Any points of operation above the curve at nominal voltage will require a higher operating voltage. Any points below the nominal voltage curve will require less voltage.

Operating Area

The diagram indicates the recommended speed in relation to the available torque at the output shaft for a given ambient temperature of 22°C.
The diagram shows the motor in a completely insulated as well as thermally coupled condition (Rth2 50% reduced).
The nominal voltage (UN) curve shows the operating point at nominal voltage in the insulated and thermally coupled condition. Any points of operation above the curve at nominal voltage will require a higher operating voltage. Any points below the nominal voltage curve will require less voltage.

Download

pdf
Datasheet
pdf
Technical Information
zip
3D-CAD Files
Your Choice
Selected Variant
Series 2607T006SR IE2-16
Precious Metal Commutation with integrated Encoder
Key Features
Nominal voltage: 6 V
No-load speed up to: 6700 min⁻¹
Lines per revolution up to: 16
Encoder channels: 2
Diameter: 26 mm
Length: 9.2 mm
Selected Variant
Series 2607T012SR IE2-16
Precious Metal Commutation with integrated Encoder
Key Features
Nominal voltage: 12 V
No-load speed up to: 6900 min⁻¹
Lines per revolution up to: 16
Encoder channels: 2
Diameter: 26 mm
Length: 9.2 mm
Selected Variant
Series 2607T024SR IE2-16
Precious Metal Commutation with integrated Encoder
Key Features
Nominal voltage: 24 V
No-load speed up to: 7200 min⁻¹
Lines per revolution up to: 16
Encoder channels: 2
Diameter: 26 mm
Length: 9.2 mm

Recommended contents

Here you will find external YouTube contents for the article. Click to watch.

I consent to being shown external contents. I am aware that personal data may be shared with third-party platforms. For more information, refer to our privacy policy.