HY-X50

1. Employs modular design for automatic detection of laser power supply signals and automatic water protection. 2. Uses a zero-current half-bridge soft switching circuit, resulting in a power supply with high efficiency and fast response speed. 3. Simple port control, adaptable to both high and low-level signals. Laser on/off can be controlled using TTL level signals. An abnormal protection switch is also included to detect whether water and ventilation are functioning properly. 4. Laser power adjustment can be controlled by inputting either a 0-5V analog signal or a PWM signal to control the laser power level. 5. The power supply has an open-circuit protection function. With proper grounding, the power supply can operate in an open-circuit state for a short period, preventing damage to the laser power supply caused by laser tube rupture. 6. Each power supply undergoes a high-temperature aging test at 60 degrees Celsius for 12 hours under full load, and a 500-cycle 7-second on/off power supply test.

HY-X60

1. Employs modular design for automatic detection of laser power supply signals and automatic water protection. 2. Uses a zero-current half-bridge soft switching circuit, resulting in a power supply with high efficiency and fast response speed. 3. Simple port control, adaptable to both high and low-level signals. Laser on/off control is achieved using TTL level signals, and an abnormal protection switch is included to detect external water and ventilation status. 4. Laser power adjustment can be controlled by inputting a 0-5V analog signal or a PWM signal to control the laser power level. 5. The power supply has an open-circuit protection function. With proper grounding, the power supply can operate in an open-circuit state for a short time, preventing damage to the laser power supply caused by laser tube rupture. 6. Each power supply undergoes a high-temperature aging test at 60 degrees Celsius under full load for 12 hours, and a 500-cycle 7-second on/off power supply test.

HY-TA100

1. Employs modular design for automatic detection of laser power supply signals and automatic water protection. 2. Uses a zero-current half-bridge soft switching circuit, resulting in a power supply with high efficiency and fast response speed. 3. Simple port control, adaptable to both high and low-level signals. Laser on/off can be controlled using TTL level signals. An abnormal protection switch is also included to detect whether water and ventilation are functioning properly. 4. Laser power adjustment can be controlled by inputting either a 0-5V analog signal or a PWM signal to control the laser power level. 5. The power supply has an open-circuit protection function. With proper grounding, the power supply can operate in an open-circuit state for a short period, preventing damage to the laser power supply caused by laser tube rupture. 6. Each power supply undergoes a high-temperature aging test at 60 degrees Celsius for 12 hours under full load, and a 500-cycle on/off test with a 7-second cycle.

HY-WA120

1. Employs modular design for automatic detection of laser power supply signals and automatic water protection. 2. Uses a zero-current half-bridge soft switching circuit, resulting in a power supply with high efficiency and fast response speed. 3. Simple port control, adaptable to both high and low-level signals. Laser on/off can be controlled using TTL level signals. An abnormal protection switch is also included to detect whether water and ventilation are functioning properly. 4. Laser power adjustment can be controlled by inputting either a 0-5V analog signal or a PWM signal to control the laser power level. 5. The power supply has an open-circuit protection function. With proper grounding, the power supply can operate in an open-circuit state for a short period, preventing damage to the laser power supply caused by laser tube rupture. 6. Each power supply undergoes a high-temperature aging test at 60 degrees Celsius under full load for 12 hours, and a 500-cycle on/off test with a 7-second cycle.

HY-WA120

1. Modular design for automatic detection of laser power supply signals and automatic water protection. 2. Uses zero-current half-bridge soft switching circuit, resulting in high efficiency and fast response speed. 3. Simple port control, adaptable to both high and low level signals. Laser on/off can be controlled using TTL level signals. It also has an abnormal protection switch to detect whether external water and ventilation are available. 4. Laser power adjustment can be controlled by inputting a 0-5V analog signal or a PWM signal to control the laser power. 5. The power supply has an open-circuit protection function. With good protective grounding, the power supply can operate in an open-circuit state for a short time, thus avoiding damage to the laser power supply caused by laser tube rupture. 6. Each power supply undergoes a high-temperature aging test at 60 degrees for 12 hours under full load, and a 500-cycle 7-second on/off power supply test.

HY-TA150-BL

1. Employs modular design for automatic detection of laser power supply signals and automatic water protection. 2. Uses a zero-current half-bridge soft switching circuit, resulting in a power supply with high efficiency and fast response speed. 3. Simple port control, adaptable to both high and low-level signals. Laser on/off control is achieved using TTL level signals. An abnormal protection switch is also included to detect whether external water and ventilation are functioning. 4. Laser power adjustment can be controlled by inputting either a 0-5V analog signal or a PWM signal to control the laser power level. 5. The power supply has an open-circuit protection function. With proper grounding, the power supply can operate in an open-circuit state for a short period, preventing damage to the laser power supply caused by laser tube rupture. 6. Each power supply undergoes a high-temperature aging test at 60 degrees Celsius under full load for 12 hours, and a 500-cycle 7-second on/off power supply test.

HY-WA200

1. Employs modular design for automatic detection of laser power supply signals and automatic water protection. 2. Uses a zero-current half-bridge soft switching circuit, resulting in a power supply with high efficiency and fast response speed. 3. Simple port control, adaptable to both high and low-level signals. Laser on/off control is achieved using TTL level signals. An abnormal protection switch is also included to detect whether external water and ventilation are functioning. 4. Laser power adjustment can be controlled by inputting a 0-5V analog signal or a PWM signal to control the laser power level. 5. The power supply has an open-circuit protection function. With proper grounding, the power supply can operate in an open-circuit state for a short period, preventing damage to the laser power supply caused by laser tube rupture. 6. Each power supply undergoes a high-temperature aging test at 60 degrees Celsius under full load for 12 hours, and a 500-cycle 7-second on/off power supply test.

HY-WA200

1. Modular design for automatic detection of laser power supply signals and automatic water protection. 2. Uses zero-current half-bridge soft switching circuit, resulting in high efficiency and fast response speed. 3. Simple port control, adaptable to both high and low level signals. Laser on/off can be controlled using TTL level signals. It also has an abnormal protection switch to detect whether external water and ventilation are available. 4. Laser power adjustment can be controlled by inputting a 0-5V analog signal or a PWM signal to control the laser power. 5. The power supply has an open-circuit protection function. With good protective grounding, the power supply can operate in an open-circuit state for a short time, thus avoiding damage to the laser power supply caused by laser tube rupture. 6. Each power supply undergoes a high-temperature aging test at 60 degrees for 12 hours under full load, and a 500-cycle 7-second on/off power supply test.

HY-W200

1. Employs modular design for automatic detection of laser power supply signals and automatic water protection. 2. Uses a zero-current half-bridge soft switching circuit, resulting in a power supply with high efficiency and fast response speed. 3. Simple port control, adaptable to both high and low-level signals. Laser on/off can be controlled using TTL level signals. It also includes an abnormal protection switch to detect whether external water and ventilation are functioning. 4. Laser power adjustment can be controlled by inputting a 0-5V analog signal or a PWM signal to control the laser power level. 5. The power supply has an open-circuit protection function. With good protective grounding, the power supply can operate in an open-circuit state for a short time, thus preventing damage to the laser power supply caused by laser tube rupture. 6. Each power supply undergoes a high-temperature aging test at 60 degrees for 12 hours under full load, and a 7-second on/off power supply test 500 times.

HY-W200

1. Employs modular design for automatic detection of laser power supply signals and automatic water protection. 2. Uses a zero-current half-bridge soft switching circuit, resulting in a power supply with high efficiency and fast response speed. 3. Simple port control, adaptable to both high and low-level signals. Laser on/off can be controlled using TTL level signals. It also includes an abnormal protection switch to detect whether external water and ventilation are functioning. 4. Laser power adjustment can be controlled by inputting a 0-5V analog signal or a PWM signal to control the laser power level. 5. The power supply has an open-circuit protection function. With good protective grounding, the power supply can operate in an open-circuit state for a short time, thus preventing damage to the laser power supply caused by laser tube rupture. 6. Each power supply undergoes a high-temperature aging test at 60 degrees Celsius for 12 hours under full load, and a 500-cycle 7-second on/off power supply test.