Solenoids, Actuators

Part Number	Description / PDF	Quantity
3-1617079-1 TE Connectivity Aerospace Defense and Marine	A-1230-2A = DC SOLENOID "W/REV	0
DSOL-0830-12E Delta Electronics / EMI	DC SOLENOID, 12VDC, 12.5W, STROK	343
1-1617079-0 TE Connectivity Aerospace Defense and Marine	A-1134-1 = DC SOLENOID	0
24213 Wickmann / Littelfuse	SOLENOID 12V 17.5OHM CONT 4STUD	0
4-1617079-1 TE Connectivity Aerospace Defense and Marine	A-1259 = DC SOLENOID.	0
8-1617800-6 TE Connectivity Aerospace Defense and Marine	A-1229-5=DC SOLENOID	0
24812 Wickmann / Littelfuse	SOLENOID 12V 7.7OHM CONT	0
DSOL-0830-12C Delta Electronics / EMI	DC SOLENOID, 12VDC, 6.4W, STROKE	343
29-011-12	POWER RELAYS, STANDARD, MONOSTAB	20
29-113-11	POWER RELAYS, STANDARD, MONOSTAB	0
RA60-10-001A	ROTARY VCA	0
4-1617079-9 TE Connectivity Aerospace Defense and Marine	A-1286 = DC SOLENOID.	0
4-1617080-6 TE Connectivity Aerospace Defense and Marine	A-1458 = DC SOLENOID	0
9-1617348-8 TE Connectivity Aerospace Defense and Marine	A-1156=DC SOLENOID.	0
D0105B Pontiac Coil, Inc.	SOLENOID PULSE 24V L-15-2	0
3-1617079-7 TE Connectivity Aerospace Defense and Marine	A-1249-1=D.C. SOLENOID	0
K1402B Pontiac Coil, Inc.	SOLENOID L90PL12D-C	0
B11HD-253-B-3 Saia (Division of Johnson Electric)	OPEN FRAME SOLENOID B11HD - 24 V	52
24117-01 Wickmann / Littelfuse	SOLENOID 12V CONT 4STUD HN20 UL	20
RA29-11-002A	ROTARY VCA	0

Solenoids, Actuators

1. Overview

Solenoids and actuators are electromechanical devices that convert electrical energy into controlled mechanical motion. Solenoids typically use electromagnetic force to drive linear or rotary motion, while actuators encompass a broader range of mechanisms for precise control in automated systems. These components are critical in industrial automation, automotive systems, robotics, and medical equipment, enabling reliable and programmable mechanical responses.

2. Main Types and Functional Classification

Type	Functional Characteristics	Application Examples
Linear Solenoids	Produce linear motion via electromagnetic coils	Valve control, locking systems
Rotary Solenoids	Generate rotational movement in discrete angles	Industrial machinery, HVAC dampers
Proportional Solenoids	Provide variable force/position proportional to input current	Fuel injectors, hydraulic valves
Electric Actuators	Use motors for precise linear/rotary motion control	Robot arms, CNC machines
Pneumatic/Hydraulic Actuators	Utilize fluid pressure for high-force applications	Aircraft control surfaces, heavy machinery

3. Structure and Components

Typical solenoid construction includes: - Coil: Copper/aluminum windings generating magnetic field - Plunger: Ferromagnetic movable core - Spring: Returns plunger to neutral position - Frame: Provides structural support and magnetic circuit

Actuators generally integrate: - Drive motor (DC/AC/servo) - Gearbox/reduction mechanism - Position sensors (encoders, potentiometers) - Control electronics

4. Key Technical Specifications

Parameter	Description	Importance
Force/Stroke	Maximum output force and travel distance	Determines mechanical capability
Response Time	Milliseconds to activate/deactivate	Critical for high-speed operations
Voltage/Current	Operating electrical parameters	Dictates power requirements
Duty Cycle	Continuous vs. intermittent operation rating	Affects thermal management
Life Expectancy	Rated mechanical/electrical cycles	Reliability indicator

5. Application Fields

Industrial Automation: Conveyor systems, robotic grippers
Automotive: Engine valve control, transmission systems
Medical: Surgical robots, infusion pumps
Aerospace: Flight control actuators, landing gear
Smart Home: Automated window blinds, irrigation systems

6. Leading Manufacturers and Products

Manufacturer	Key Products
Bosch Rexroth	Indramat electric actuators, proportional solenoids
Parker Hannifin	Electromechanical actuators for aerospace
Festo	Compact solenoid valves for automation
Allegro MicroSystems	IC-integrated solenoid drivers

7. Selection Guidelines

Key considerations: - Required force/displacement parameters - Operating environment (temperature, humidity, vibration) - Duty cycle and expected lifespan - Control interface (analog/digital/PWM) - Cost vs. precision trade-offs

Example: For automotive engine valve control, prioritize high-speed solenoids with 100M+ cycle life rating.

8. Industry Trends

Emerging developments include: - Integration with IoT for real-time monitoring - Miniaturization for medical micro-actuation - Energy-efficient designs with reduced power consumption - Smart actuators with embedded position feedback - Use of advanced materials for higher temperature resistance