All Categories
    Menu Close
    Find a Sensor A - Z

    AC Voltage Transducer, 10–500V, AC/DC 85–265V Power Supply

    SKU: SUCH-VOS-AC500
    $183.17
    ● Voltage measurement ranges 10V, 50V, 100V, 200V, 300V and 500V ● Frequency range 25Hz to 1kHz ● AC/DC wide voltage power supply 85V–265V ● Operating temperature -25°C to +70°C
    *
    *
    🚚 Free shipping
    🕒 Delivery date: 6-12 days
    🔁 30-day Returns
    Overview

    The SUCH AC voltage transducer (also known as an AC voltage transmitter or DIN rail voltage sensor) converts AC voltage inputs from 0–10V to 500V into standard analog outputs (0–5V, 0–10V, 1–5V, 4–20mA, or 0–20mA) for seamless integration with PLC, SCADA, and industrial automation systems. Featuring 2.5kV galvanic isolation between the input, output, and power supply, it ensures accurate, reliable, and safe voltage measurement for industrial monitoring, signal conversion, and process control applications.

    Feature

    • Fully isolated measurement structure with 2.5kV galvanic isolation between input, output, and power supply for electrical safety and noise immunity
    • AC voltage measurement range from 0–10V up to 0–500V with linear measurement up to 120% of rated input
    • Frequency range of 25Hz to 1kHz suitable for industrial power systems and signal monitoring applications
    • Response time ≤200ms with output ripple ≤10mV for stable and accurate signal transmission 
    • High measurement accuracy of 0.2% / 0.5% F.S. with temperature drift of 350×10⁻⁶/°C for long-term stability
    • Universal AC/DC 85–265V power supply with low power consumption and stable operation in industrial environments
    • DIN rail mounting design for easy installation in control cabinets and automation systems
    • Operating temperature range from -25°C to +70°C with EMC compliance (EN61326) for industrial electromagnetic environments
    • MTBF greater than 50,000 hours ensuring long service life in continuous operation systems

    Dimension (Unit:mm)

    An ac voltage transducer dimension technical drawing showing the overall width, height, and length measurements.

    Details

    AC voltage sensor details showing input terminal, output terminal, and bottom view.

    Wiring

    SUCH ac voltage transducer wiring diagram showing clear terminal connections for safe installation.

    Specs
    Model SUCH-WBV412H29 SUCH-WBV414H29
    Measuring range of input voltage AC 0-10V ~ 0-500V
    Short-time overload 2 times of nominal input voltage, 1s in duration, interval time 10s, repeat 10 times
    Linear measurement range 0% ~ 120% measuring range
    Frequency range 25Hz ~ 1kHz
    Output signal DC 0-5V, 0-10V, 1-5V DC 4-20mA, 0-20mA
    Power supply AC/DC 85V~265V
    Accuracy 0.2%F.S. 0.5%F.S.
    Load capacity 6mA ≤500Ω
    Response time ≤200ms
    Temperature drift 350*10-6/℃
    Output ripple voltage ≤10mV
    Isolation features Isolation between input, output and power supply
    Isolation voltage Input and output: DC 2.5kV, 1min
    Power supply and input: DC 2.5kV, 1 min
    Power supply and output: DC 2.5kV, 1 min
    Work temperature -25~+70℃
    Storage temperature -40~+85℃
    Protection features EMC standards: EN61326: 2006
    Safety standards: EN60100:2001
    Mean time between failures >50000h
    Housing material Fire-retardant ABS
    Wiring Terminal connection
    Installation DIN rail (NS35/7.5, NS35/15, EN50022)
    Shipping weight 1kg
    Application
    Ac voltage transducer for power supply

    Power supply

    Ac voltage transducer for power network

    Power network

    Ac voltage transducer for industrial control

    Industrial control

    FAQ

    Selecting a suitable voltage transducer depends on your required measurement range, output signal type, and control system compatibility. For industrial automation, it is important to match the voltage transducer input range with the actual system voltage to ensure stable and accurate signal conversion.

    Yes, a voltage transducer is widely used in PLC and SCADA-based automation systems. It outputs standard analog signals that can be directly recognized by industrial controllers, making it easy to integrate into existing monitoring and control architectures without additional conversion modules.

    When installing a voltage transducer, proper wiring separation between input, output, and power terminals is essential. Using shielded cables and ensuring correct grounding can significantly improve signal stability and reduce electromagnetic interference in industrial environments.

    0.0 0
    Write your own review Close
    *
    *