AS 0925 New Design Linear Tubular Solenoid DC 48V Short Stroke Strong Force From DrSolenoid
Product Description
| Brand | Dr. Solenoid | Model Number | As 0925 |
| Rated Voltage (V) | DC 24 V---48V | Rated Power(W) | 10-13W |
| Work Model | Tubular Push and PUll Type | Holding Force (N) | 2 N |
| Stroke(mm) | 3-5 MM | Reset Time(s) | 1 S |
| Service Life | 300 Thousand Times | Certification | CE,ROHS,ISO9001, |
| Material | Carbon Steel Housing with Zinc Plated Coating | Lead Wire Length(mm) | 200 |
| Install Style | Adjustable Screw | Tolerance of Dimension | +/- 0.1 MM |
| Water-proof | None | Insulation Class | F 155 Cel. Degree |
| Hi-Pot Test | AC 600V 50/60Hz 2s | Non-excitation Holding Force | 0 |
| Working Temperature | -10°C-100°C | Duty Cycle | 1-100% |
| Thread Depth(mm) | / | Payment Term | TT, or LC At Sight |
| Sample Order | Yes | Warranty | 1 Year |
| MOQ | 500 pcs | Supply Ability | 5000 pcs per Week |
| Delivery Time | 30 Days | Port of Loading | shenzhen |
How can I select the appropriate size of a tubular solenoid for a specific application?
Selecting the appropriate size of a tubular solenoid for a specific application involves considering multiple factors. Here are the key points to note:
Consider the Required Force and Stroke
Force Requirement: Determine the amount of force needed to perform the specific mechanical task. For example, if it's for a door lock, you need to calculate the force required to move the latch. Solenoids with larger diameters and more turns generally produce greater force.
Stroke Length: The stroke is the distance the plunger needs to move. Applications like valve control may require longer strokes. Longer solenoids are usually better for achieving longer strokes.
Evaluate the Space Constraints
Installation Location: Examine the available space where the solenoid will be installed. Measure the length, diameter, and any other relevant dimensions of the installation area. If space is limited, such as in a compact electronic device, a small-diameter and short-length solenoid is needed.
Shape and Orientation: Consider the shape and orientation of the installation space. Some applications may require a solenoid with a specific shape or mounting method to fit properly.
Analyze the Electrical Characteristics
Voltage and Current: Check the power supply available for the solenoid. Solenoids with different sizes have different voltage and current requirements. Larger solenoids typically need more current to generate sufficient magnetic force.
Inductance and Resistance: These affect the solenoid's performance and power consumption. The appropriate inductance and resistance values are related to the solenoid's size and are crucial for ensuring proper operation in the circuit.
Think about the Response Time
High-Speed Applications: For applications that require quick action, like in high-speed sorting machines, a small-sized solenoid with a lower inductance and less magnetic inertia is preferred as it can achieve a faster response.
Slow-Acting Applications: If the response time is not critical, a larger solenoid can be considered, which may offer other advantages like higher force.
Take into Account the Duty Cycle
Continuous Operation: If the solenoid needs to operate continuously for a long time, heat dissipation becomes important. Larger solenoids with better heat dissipation performance are more suitable for high-duty-cycle applications to prevent overheating.
Intermittent Operation: For applications with low-duty cycles, where the solenoid is only activated occasionally, a smaller solenoid may be sufficient and more cost-effective.
Consider Cost and Availability
Cost: Larger and more complex solenoids are generally more expensive. Balance the performance requirements with the budget. Sometimes, a slightly smaller solenoid with acceptable performance can be a more economical choice.
Availability: Ensure that the selected solenoid size is readily available in the market or from suppliers. Custom-sized solenoids may be more expensive and have longer lead
Product detail diagram
