Description. FMA1.5K-IP67 is a high efficiency, high reliability of electric vehicle charging machine, single-phase voltage input, constant current output, via RS232 \ RS485 \ CAN communication reads Charger ID and control the charging machine working condition, with BMS battery management system for real-time communication in real-time monitoring of the charging process to ensure that the charging process optimization. FMA1.5K-IP67 with input voltage detection, under voltage protection, output over-current, over voltage, short circuit protection and over-temperature protection machine, protection class IP65-IP67. 1.1.Machine characteristics n high power density, small size and light weight. n soft-switching technology. n High efficiency, high operating frequency. n MCU control, providing complete functionality and protection. n low temperature, high temperature environment still providing 100% power. n advanced charging process control, effectively protect the battery, and increased life expectancy. n Suitable for lead-acid batteries, lithium ion batteries and other batteries. 2.0 Structure and principle 2.1. Charging units into Charger consists of five major components: EMC / EMI EMC filters, rectifiers, PFC power factor correction, DC-DC isolation transformer; MCU charge controller. 1 EMC filter; mainly filter for EMC / EMI interference to prevent interference or interference caused by incompatibility issues. Two rectifier; Yes AC to DC conversion device. 3.PFC power factor correction; In order to reduce harmonic interference generated by nonlinear rectifier unit, nonlinear rectifying device must be installed power factor correction circuit. 4.DC-DC isolation transformer; due to strong grid voltage, direct charging will lead to security problems, in order to comply with safety regulations require isolation. 5.MCU charge controller; charging process monitoring and control to ensure the battery charging automatically. 2.2. Charging machine structure 3.0. Main products specification Lead-acid Battery Charger | Lithium Battery Charger | Vout Nominal | Vout Max | Lout Max | 24V-60A | Li34V-60A | 24V | 34V | 60A | 48V-30A | Li66V-30A | 48V | 66V | 30A | 60V-25A | Li82V-25A | 60V | 82V | 25A | 72V-20A | Li98V-20A | 72V | 98V | 20A | 84V-17A | Li114V-17A | 84V | 114V | 17A | 96V-15A | Li130V-15A | 96V | 130V | 15A | 108V-13A | Li146V-13A | 108V | 146V | 13A | 120V-12A | Li162V-12A | 120V | 162V | 12A | 144V-10A | Li194V-10A | 144V | 194V | 10A | 156V-9A | Li210V-9A | 156V | 210V | 9A | 180V-8A | Li242V-8A | 180V | 242V | 8A | 192V-7A | Li258V-7A | 192V | 258V | 7A | 216V-6A | Li290V-6A | 216V | 290V | 6A | 252V-5A | Li338V-5A | 252V | 338V | 5A | 264V-4A | Li354V-4A | 264V | 354V | 4A | 4.0Environmental condition & EMC / EMI 4.1 | Environmental condition | Units | Data | Description | 4.1.1 | High temperature ambient | ℃ | +85 | Full load | 4.1.2 | Low temperature ambient | ℃ | -30 | | | | | | | 4.1.3 | High temperature storage | +95 | | Work normally after recovery under normal temperature for two hours | 4.1.4 | Low temperature storage | -40 ℃ | | Work normally after recovery under normal temperature for two hours | 4.1.5 | Humidity | 5% -95% | | With package | 4.1.6 | Altitude | ≦ 4 000 | m | Work normally | 4.1.7 | Repetitive Shock | 30g peak 3 orthogonal axes, 3 + and 3 - in each axis, 11ms Pulse width | 4.1.8 | Thermal shock | -35 ℃ to +85 ℃, <3minute transition, 2.5hour dwell, 200cycle | 4.1.9 | Drop test | BS EN60068-2-32: 1993 Test Ed: Free fall, appendix B | | | | 4.2 | Electrical safety features | 4.2.1 | Item | Unit | Technical indexes | Description | 4.2.2 | Pressure | Input - Output | Vac | 3500/10mA/1min | | 4.2.3 | Input - GND | Vac | 2000 | | 4.2.4 | Output - GND | Vac | 2000 | | 4.2.5. | Isolation resistance | M Ω | ≥ 20 | 500Vac | 4.2.6 | Leakage current | mA | <5 | Vin = 264Vac, 50 - 60Hz | 4.2.7 | SAFETY | | CE. Compliant | | 4.3 | EMC | 4.3.1 | EMC | RE | CLASS A | EN55014/EN55014 | CE | CLASS A | EN55014/EN55014 | Air discharge | LEVEL 3 | EN61000-4-2 (discrimination B) | Contact discharge | LEVEL 3 | EN61000-4-2 (discrimination B) | RS | LEVEL 3 | EN61000-4-3 (discrimination A) | CS | LEVEL 3 | EN61000-4-6 (discrimination A) | EFT | LEVEL 3 | EN61000-4-4 (discrimination B) | Surge | LEVEL 3 | EN61000-4-5, differential module 1 KV, common module 2KV (discrimination B) | | | | | | | | | |