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  • Johannes Hübner Giessen FGHJ 5 hollow shaft up to Ø 40 mm

Johannes Hübner Giessen FGHJ 5 hollow shaft up to Ø 40 mm

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Incremental hollow shaft encoder with insulation and large bore

The incremental hollow shaft encoder FGHJ 5 is a rugged device with large 40 millimeter bore encased in a stable, ribbed aluminium casing. The device is suitable for deployment in steel and rolling mills, in the mining industry, materials handling applications as well as on test stands. A shaft-mounted device with integrated bearings facilitates simple assembly without a coupling or need to center a flange. In addition, this concept results in a short assembly immediately behind rotating components such as a fan impeller. The incremental encoder FGHJ 5 utilizes a photoelectric scanning principle and supplies digital output signals with an amplitude that roughly correspond to the supply voltage. The encoder is insulated – by means of an insulated bushing and/or insulated adapter shaft or torque bracket.

Catalog - Incremental hollow shaft encoders FGHJ 5
Inquiry form - Incremental encoders FGHJ 5
Diameter hollow shaft 40 mm
Supply voltage 12 - 30 VDC
Signal amplitude HTL or TTL
Standard pulse rates 1000, 1024, 1200, 2000, 2048, 2400, 2500
Output signals 0° channel
Maximum frequency 100 kHz
Device temperature range -25 °C to +85 °C
Degree of protection up to IP66
Weight approx. 6 kg
Option 90 Second pulse channel as basic channel, however, electrically phase shifted by 90°
Option N/N2 Mechanically fixed reference pulse (N), one square pulse per revolution, with inverted signal
Option B Rapid direction of rotation sensing at each edge of 0° and 90° channels
Option G Additional inverted output signals for basic channel, 90° channel, reference pulse including LED check
Option B2 Rapid direction of rotation sensing at each edge of 0° and 90° channels; additional standstill detection
Option S Electronic overspeed switch with two mutually independent, programmable switching points
Option V Electronic doubling of basic channel pulse and the 90° channel through multiple evaluation
Option FOC As an alternative to conventional signal transmissions via copper cables it is also possible to transmit encoder signals via fiber optic cables
Option L2 150 mA power output for basic channel, 90° channel and the corresponding inverted signals
Option J Optically adjusted pulse disk to reduce rotational frequency modulation

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