HFD 500/36
Radio interference suppression filter, three-phase HFD 500
Version HFD 500/36
Rated voltage
3 x 520 Vac
Rated current
3 x 36 A
Leakage current (50 Hz)*
34 mA
| Version | Rated voltage | Rated current | Leakage current (50 Hz)* | |
|---|---|---|---|---|
| HFD 500/8 | 3 x 520 Vac | 3 x 8 A | 18 mA | |
| HFD 500/16 | 3 x 520 Vac | 3 x 16 A | 18 mA | |
| HFD 500/25 | 3 x 520 Vac | 3 x 25 A | 34 mA | |
| HFD 500/36 | 3 x 520 Vac | 3 x 36 A | 34 mA | |
| HFD 500/50 | 3 x 520 Vac | 3 x 50 A | 34 mA | |
| HFD 500/80 | 3 x 520 Vac | 3 x 80 A | 66 mA | |
| HFD 500/110 | 3 x 520 Vac | 3 x 110 A | 66 mA |
DOWNLOADS
Technical files
Data sheet
Approvals / Manufacturer's declaration
Manufacturer's declaration to EN 60939-2
Technical Data for HFD 500/36
| Operating data | |
|---|---|
| Rated voltage | 3 x 520 Vac |
| Voltage range | 0 - 3 x 520 Vac |
| Rated current | 3 x 36 A |
| Leakage current (50 Hz)* | 34 mA |
| Leakage current (50 Hz)** | 175 mA |
| Rated frequency | 50 - 60 Hz |
| Overrating Capacity | 150 %, shortly |
| Environment | |
|---|---|
| Ambient temperature max. | 104.0 °F |
| Climatic category | 25/085/21 [in accordance with EN 60068-1] |
| Safety and protection | |
|---|---|
| Type | Metal enclosure |
| Protection index | IP 20 |
| Safety class (prepared) | I |
| Test voltage | 2150 Vdc Phase/Phase, 2700 Vdc Phase/PE |
| Terminal and mounting | |
|---|---|
| Terminals phase | Screw clamp, 10 mm² |
| Connection type | Bolt, M6 |
| Fixing method | Mounting lugs |
| Measures and weights | |
|---|---|
| Width | 5.91 inch |
| Height | 2.56 inch |
| Depth | 9.84 inch |
| Weight | 7.10 lbs |
| Notes | |
|---|---|
| * | Leakage current measured against the maximum permissible input voltage fluctuation in accordance with IEC 38 ±10 % |
| ** | Leakage current by loss of two phases |
Information for HFD 500 series
General Data
- DIN Rail mounting
- Degree of protection IP 20
- Leakage current 18.00 - 66.00 mA
- Rated current 3 x 8 - 3 x 110 A
- Voltage range 0 - 3 x 520 Vac
- Rated voltage 3 x 520 Vac
Benefits
- For general EMI suppression
- Increase in the interference immunity of the connected equipment
- Efficient filter effect against line-bound interference emissions
- Single-stage filter concept