The FD500 is designed for use in harsh environments such as damp, dusty, vibrating and corrosive conditions and is ideal for distributed installation of frequency converters. It boasts an IP65 protection rating, durability, and ease of maintenance. The bottom wiring box uses a maintenance-free plug-in interface along with redundant wiring for power and bus cables, allowing for quick and easy commissioning, replacement, and upgrades. Electrical noise levels are proportional to cable length, so short motor cables in distributed installations easily solve EMC radiation issues at the application site. The FD500 offers two installation options, motor-mounted or wall-mounted, providing flexibility to suit your needs.
| Product Features | |||
| Motor types | Asynchronous motor and permanent magnet synchronous motor. | ||
| Protection level | IP65 | ||
| EMC | Optional built-in filter, EMC level C3. | ||
| Electromagnetic brake | Optional built-in electromagnetic brake. | ||
| Carrier Modulation | Automatic Carrier Modulation (ACM) | ||
| Fast flow control function. | "Minimize overcurrent faults to the greatest extent possible, ensuring that the module is not damaged and normal operation of the driver is maintained." | ||
| Under-voltage suppression function. | When there is a sudden power outage, there are two options for dealing with it. | ||
| Overexcitation capability/functionality | With the built-in overexcitation handling technology and external braking resistor, rapid braking and stopping can be achieved. | ||
| Brake unit. | The internal brake unit can be used with an additional braking resistor as needed. | ||
| Technical specifications | |||||
| Performance specifications | |||||
| Control method / Mode of control | V/f control, SVC control. | ||||
| Overload capacity | Rated output current of 150% for 1 minute and rated output current of 180% for 3 seconds. | ||||
| Speed resolution | Digital setting: 0.01Hz, Analog setting: 0.1%x maximum frequency. | ||||
| Starting torque | 0.5Hz 0.5Hz | 100%v/f 150%SVC | |||
| Environmental characteristics | |||||
| Working temperature. | "-10~+40℃ no reduction in output current; 40~50℃ every 1℃ increase in temperature results in a 2% reduction in output current." | ||||
| Storage temperature | -40~+70℃ | ||||
| Using Environment | Indoor, protected from direct sunlight, free from dust, corrosive and flammable gases, oil stains, water vapor, dripping, salt, etc. | ||||
| Altitude. | No discount for distances below 1000 meters; discounts may be applied for distances between 1000 and 4000 meters. | ||||
| Temperature | Less than 90% relative humidity, no water droplets condensing. | ||||
| Protection level | IP65 forced air cooling | ||||
| FD500 distributed frequency converter. | Power selection | Brake resistor/unit selection (recommended) | |||||||||||
| "Structure Specifications" | Product model. | "Compatibility Motor KW" | "Rated capacity KVA" | "Rated input current (A)" | "Rated output current A" | "Resistance Resistance value of 0" | Resistance Power in kW | "Energy Consumption Brake Unit" | |||||
| Size A | FD500-2T0.75GB | 0.75 | 1.5 | 4.8 | 3.8 | 110 | 150 | Standard built-in | |||||
| FD500-2T1.5GB | 1.5 | 1.9 | 7.0 | 5.1 | 100 | 250 | Standard built-in | ||||||
| FD500-2T2.2GB | 2.2 | 3.4 | 10.5 | 9.0 | 65 | 300 | Standard built-in | ||||||
| FD500-4T0.75GB | 0.75 | 1.4 | 3.4 | 2.1 | 300 | 150 | Standard built-in | ||||||
| FD500-4T1.5GB | 1.5 | 2.5 | 5.2 | 3.8 | 220 | 150 | Standard built-in | ||||||
| FD500-4T2.2GB | 2.2 | 3.4 | 73 | 5.1 | 200 | 250 | Standard built-in | ||||||
| FD500-4T3.7GB | 3.7 | 5.9 | 11.9 | 9.0 | 130 | 300 | Standard built-in | ||||||
| FD500-4T5.5GB | 5.5 | 8.6 | 15 | 13 | 90 | 400 | Standard built-in | ||||||
| Structure | Exterior dimensions in millimeters. | Installation Size in mm | |||||
| W | H | D | W1 | H1 | d | ||
| Size A | 150 | 256 | 150 | 90 | 240 | M6 | |
FD500 distributed frequency converters are widely used in industries such as manufacturing, agriculture, construction, and shipping. They control motors and other equipment, enabling precise control, energy efficiency, and flexible configuration, thereby enhancing system stability and operational efficiency.
