8EI034HWS10.0300-1
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The 8EI034HWS10.0300-1 servo drive features a stainless steel construction with a 10 mm shaft diameter. Manufactured by B & R Automation as part of the 8EI Servo Drives series, it boasts a cylinder bore size of 34 mm. This drive includes elastic cushioning and a hard chrome-plated piston rod.
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Product Description:
B&R Automation 8EI034HWS10.0300-1 Servo Drive has a built in safeguard limiting peak short circuit current to under 2 amperes which enhances its durability and prevents damage in power disruption.
The 8EI034HWS10.0300-1 servo drive has an extremely low voltage drop of under 0.1 volts when it is delivering its standard current of 100 milliamps which indicates efficient internal switching components. Its circuitry that receives control signals from a controller or PLC has an internal resistance of around 5,000 ohms which ensures minimal loading on the control source and helps prevent signal degradation. The module can momentarily handle voltages up to 54 volts produced by the collapsing magnetic fields when it disconnects power from inductive elements. The drive is built to avoid permanent failure either by shutting off or limiting current to safe levels if the output becomes accidentally connected with little or no resistance. Its control output voltage is nearly as high as the power supply voltage but with a difference of a small internal loss and its weight of 350 grams gives an idea of easy installations everywhere.
The 8EI034HWS10.0300-1 servo drive provides voltage by pushing current to the connected component and across all its output or functions it is rated to handle a combined steady current of 1.6 amps effectively. It is able to provide power to external sensors or transducers, with a shared current budget of 500 milliamps which means several sensors can be connected as long as they don’t exceed from the threshold. It expects to handle 0.1 amperes on each path continuously as each of its output channels such as a control signal to a motor or valve is intended to carry this much current.
Frequently Asked Questions about 8EI034HWS10.0300-1:
Q: Why is the 5 kΩ input resistance important for signal integrity in automation systems?
A: High input resistance like 5 kΩ reduces the load on control outputs, minimizing signal distortion. This ensures clean communication between PLCs and the servo drive.
Q: How does a 52 VDC braking voltage benefit inductive load disconnection?
A: It safely absorbs voltage spikes from collapsing magnetic fields, protecting internal components. This extends the operational life of the 8EI034HWS10.0300-1 servo drive.
Q: What does the extremely low residual voltage signify during nominal operation?
A: A drop under 0.1 V at 0.1 A means efficient power delivery to loads. It helps maintain voltage stability across connected devices.
Q: How does the current-sourcing FET output affect load control?
A: The sourcing FET allows the drive to push voltage to the load, simplifying wiring. It ensures fast and precise output switching behavior.
Q: Why is the short-circuit protection essential in the 8EI034HWS10.0300-1 servo drive?
A: It prevents hardware failure by limiting current during faults. This feature ensures safe operation under unexpected conditions.
