Before procurement teams confirm FL-SWITCH-1001-4POE-GT, they typically review Phoenix SMPS, Fl Switch 2208 and Phoenixcontact Phoenix Contact Industrial Ethernet Switches to double-check performance ratings, stock availability, and supplier credibility carefully.
Phoenix FL SWITCH 1001-4POE-GT Industrial Ethernet Switches
The Phoenix FL SWITCH 1001-4POE-GT Power Supply (Part No: 1102077 ) offers a Screw connection method, 10/100/1000 Mbps transmission speed, 19 V DC ... 57 V DC supply voltage range, IP20 degree of protection. Manufactured by Phoenix under the Phoenix Industrial Ethernet Switches category, this model belongs to the Phoenix FL Series.
| Brand | Phoenix Contact |
| Product Type | Industrial Ethernet switches |
| Model Number | FL SWITCH 1001-4POE-GT |
Phoenix FL SWITCH 1001-4POE-GT Industrial Ethernet Switches
| Specification | Value |
|---|---|
| Width | 27 mm |
| Height | 130 mm |
| Depth | 120 mm |
| Mounting type | DIN rail mounting |
| Connection method | Screw connection |
| Transmission speed | 10/100/1000 Mbps |
| Transmission length | 100 m (Between transmitter / receiver) |
| Signal LEDs | LNK/ACT, POE |
| No. of channels | 5 (RJ45 ports) |
| Product type | Switch |
| MTTF | 52.4 Years (MIL-HDBK-217F standard, temperature 25°C, operating cycle 100%) |
| Article revision | 1 |
| Supply voltage (DC) | 24 V DC |
| Supply voltage range | 19 V DC ... 57 V DC |
| Power supply connection | Via COMBICON, max. conductor cross section 2.5 mm² |
| Max. current consumption | 7.95 A (Maximum, nominal load) |
| Typical current consumption | 170 mA |
| Degree of protection | IP20 |
| Ambient temperature (operation) | -10 °C ... 60 °C |
| Ambient temperature (storage/transport) | -20 °C ... 85 °C |
| Permissible humidity (operation) | 5 % ... 95 % (non-condensing) |
| Permissible humidity (storage/transport) | 5 % ... 95 % (non-condensing) |
| Status display | LEDs: US (voltage supply), Link/Activity and PoE per Ethernet port |
| Shock (operation) | 30g (EN 60068-2-27) |
| Vibration (operation) | in acc. with IEC 60068-2-6: 5g, 150 Hz |
The Phoenix Contact FL SWITCH 1001-4POE-GT 1102077 is a robust Phoenix 5 ports Unmanaged PoE Switch tailored for industrial networking applications that demand simplicity, reliability, and PoE integration. This switch features 5 RJ45 ports with PoE capability and supports data transfer speeds of 10/100/1000 Mbps, ensuring seamless communication across automation systems. Its screw connection terminals and DIN rail mounting offer secure and quick installation in tight control panel spaces.
The switch operates on a 24 V DC supply, with an extended input range from 19 to 57 V DC, accommodating a wide variety of industrial power standards. Its rugged build includes an IP20 protection rating, designed to perform reliably in operating temperatures between -10°C to +60°C. With a typical current consumption of just 170 mA and an MTTF of 52.4 years, it assures long-term performance in harsh environments. Diagnostic LEDs display voltage status (US), link/activity, and PoE status for each port, giving operators immediate visibility into switch operation. The device is also tested for shock (30g) and vibration (5g, 150 Hz) compliance under EN/IEC standards, making it ideal for use in dynamic or mobile industrial setups. For more Industrial Ethernet solutions, visit the Phoenix Contact brand page.
Thanks to its compact size and easy screw connections, it’s suitable for upgrading older panels or integrating into space-constrained areas without hassle. Maintenance engineers prefer this model because it doesn’t require configuration—just plug and play. The PoE functionality makes it ideal for powering devices like IP cameras, wireless access points, and sensors that are far from power lines. Students and junior engineers can learn real-world PoE networking by experimenting with this model in automation labs.
Whether you’re planning a new installation or expanding an existing industrial network, the Phoenix Contact FL SWITCH 1001-4POE-GT offers a durable and efficient solution with proven performance in critical field conditions.
