HNL05.1R-0117-N0409-N-A4-NNNW
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MPN: R911386277
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The HNL05.1R-0117-N0409-N-A4-NNNW mains choke features a rated current of 8.1 amps, a peak force of 4090 Newtons, natural cooling, and a weight of approximately 7.8 kilograms. Part of the HNL Mains Chokes series by Bosch Rexroth Indramat, it boasts IP64 protection and a maximum velocity of up to 5 meters per second.
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Product Description:
The HNL05.1R-0117-N0409-N-A4-NNNW main choke is a liquid-cooled choke that has been developed by Bosch Rexroth Indramat. It is designed to effectively manage high current levels in applications that require efficient thermal management. The choke is suitable for industrial automation and related control operations that are facilitated by power electronic systems.
The HNL05.1R-0117-N0409-N-A4-NNNW main choke has a 170 uH inductance and a 409 A maximum current. Using liquid refrigeration to keep the flow rate at 8 L/min, the choke works with a G1/2" inlet and exit. The device can work in temperatures as high as 40 degrees C. The amount of power lost is given as 2140 watts. The four fixing holes in the system are 12x20 mm in size, and the foot angle does not require any paint. Using two RKW 14 micro terminals, electrical links are made. One side of the choke is electrically connected, while the other is not. There is an M8 earthing bolt on the instrument that allows it to be grounded. The constriction's diameter is 439 ~ 2 mm all around. There is a +/- 3 mm range for the depth, which is given as 280 mm. Four hundred seventy-nine millimeters. The 1 bar drop in pressure makes sure that the refrigeration system always has a steady flow of liquid.
The HNL05.1R-0117-N0409-N-A4-NNNW main choke liquid-based cooling system lets it work for longer at certain temperatures. The product's unique structure enables it to be immediately assembled from pre-assembled components. The technical arrangement is effective when controlled heat discharge and steady inductance are required. The structure enables activities that require the maintenance of a consistent temperature and the efficient use of power.
Frequently Asked Questions about HNL05.1R-0117-N0409-N-A4-NNNW:
Q: Why does the HNL05.1R-0117-N0409-N-A4-NNNW use G1/2" cooling inlets and outlets?
A: The G1/2" fittings offer standard compatibility with liquid cooling systems, ensuring stable and efficient thermal exchange in continuous use.
Q: Do the electrical terminals in HNL05.1R-0117-N0409-N-A4-NNNW offer side-specific connectivity?
A: Yes, one side is electrically connected while the other is not, allowing directional current control and installation flexibility.
Q: How does the HNL05.1R-0117-N0409-N-A4-NNNW dissipate 2140 W power efficiently?
A: It uses a liquid-cooled design and optimized internal structure to handle and transfer high thermal loads away from the core.
Q: Does the HNL05.1R-0117-N0409-N-A4-NNNW support consistent inductance under load?
A: Yes, it provides 117 uH inductance, which remains stable under nominal load, contributing to smooth current control and minimal ripple.
Q: Why is the foot angle of the HNL05.1R-0117-N0409-N-A4-NNNW paint-free?
A: The paint-free mounting ensures proper grounding continuity through the mechanical structure and eliminates interference in sensitive current paths.
