Specifications are for reference only and may vary based on product customization.
Your Reliable Partner
Acton Technology is a trusted regional distributor of OMRON industrial automation components across Asia‑Pacific and Southeast Asia (including Singapore, Malaysia, Indonesia, Thailand, Vietnam, and the Philippines).
Manufacturers, system integrators, and engineering teams rely on Acton for access to OMRON relays, sensors, power supplies, control systems, safety devices, and industrial automation solutions. Acton provides steady inventory, optimized logistics, and local technical support to help reduce lead times and maintain production efficiency.
Acton Technology supplies a wide range of OMRON MOS FET relays—non-contact, semiconductor-based switching solutions designed for high-speed and low-leakage performance. These relays combine the functional benefits of mechanical relays and solid-state components, making them ideal for compact and high-reliability applications.
High-demand components ideal for switching small and analog signals. Their versatility makes them a preferred solution across a wide range of precision applications.
Experience high-load voltage performance in a compact SOP4 package—powered by advanced MOS FET relay technology.
Discover MOS FET relays with flexible multi-pole contact options (2a/2b/1a1b), designed for seamless integration into diverse circuit designs.
Experience MOS FET relays with low on-resistance and high-capacity switching—delivering performance comparable to traditional mechanical relays.
Achieve a substantial 5,000 VAC input-output isolation in a compact DIP4 package. High-sensitivity models are also available for applications requiring enhanced precision.
MOS FET relays featuring 5,000 VAC input-output isolation, enabled by a compact DIP6 pin package.
Experience MOS FET relays with built-in current limiting—an ideal choice for protecting circuits against overcurrent conditions.
Explore our Low CxR MOS FET relays, engineered for semiconductor test applications. These models minimize capacitance and on-resistance (C×R) to deliver superior switching precision and signal integrity.
MOS FET relays delivering high load voltage in a compact, subminiature package—ideal for space-constrained designs.
MOS FET relays designed for high current switching in a compact, subminiature package—perfect for dense circuit layouts.
Voltage-driven MOS FET relays featuring a built-in input-side current limiting resistor for added circuit protection and stability.
MOS FET relay in a modular SPDT (1C) package, featuring ultra-low leakage current—just 1 pA max—for high-precision applications.
Industries rely on OMRON MOS FET relays for:
Acton Technology supplies OMRON signal relays for compact, high-precision switching of small signals. Built for reliability and low power consumption, these relays are used in communication systems, test equipment, and control circuits where space and performance matter.
Compact, High-Sensitivity SPDT Signal Relay for Space-Constrained Designs
Cost-Effective, Two-Pole Signal Relays for General-Purpose Use
Proven Global Standard – OMRON G6A Signal Relay
Subminiature SPDT Relay for Sensitive Signal Switching
Ultra-Compact, Slim DPDT Relay for Space-Saving Designs
Surface-Mount Relay with Industry-Leading Compact Footprint
Global Standard ISO Plug-in Relays for Automotive Applications
8 GHz Miniature DPDT Relay for High-Speed Differential Signal Switching
Compact 2-Pole Relay Designed for 2A Signal Load Switching
Industries rely on OMRON signal relays for:
Acton Technology supplies OMRON PCB power relays designed for high-capacity load switching in compact circuit designs. Engineered with arc-resistant contact materials and a single contact structure, these relays ensure stable performance in power supply systems. Ideal for applications requiring reliable contact pressure and compliance with key safety standards.
High-capacity PCB power relays for reliable switching in compact systems.
DC miniature power relays for reliable load interruption at 12V and 24V.
DC power relays for high-voltage, high-current load interruption in DC systems.
Latching relays with high switching current for versatile application use.
Industries rely on OMRON latching relays for:
Acton Technology supplies a wide portfolio of OMRON switches designed for precision, reliability, and long service life. Our range covers solutions for control, detection, and safety applications across industrial, automotive, and consumer electronics. From basic and detection switches to specialized models, we deliver components that ensure dependable performance and accurate actuation in any operating environment.
Miniature Basic Switches 27.8W×10.3D×15.9H: Compact, durable switches that provide precise and reliable operation in limited‑space applications.
Subminiature Basic Switches 19.8W×6.4D×10.2H: Ultra‑compact switches engineered for precise, reliable performance in tight‑space applications. Ideal for miniaturized devices and high‑density assemblies.
Ultra Subminiature Basic Switches – 12.8W × 5.8D × 6.5H: Extremely compact switches designed for high‑precision, reliable performance in the smallest spaces. Perfect for miniaturized devices and dense electronic assemblies.
Sealed switch against water spray or excessive dust: Protected against water spray and excessive dust for reliable performance in harsh or contaminated environments.
Applications:
General purpose detection switches: Versatile switches designed for accurate and reliable detection in a wide range of applications.
Ultra subminiature SMD detection switches: Space‑saving surface‑mount switches engineered for precise, reliable detection in compact electronic devices.
Switches to detect door open/close: Reliable switches designed to accurately detect door open and close positions for safety and control applications.
Switches to detect door open/close and to cut the power supply of industrial equipment: Switches designed to detect door open/close status and automatically cut power to industrial equipment for safety and compliance.
Tactile switches for various operation panel: Compact, responsive switches designed for precise input and reliable performance in a wide range of operation paels.
Compact construction with bright and uniform illumination: Space‑saving design featuring bright, even lighting for clear visibility and enhanced user interaction.
Dust proof tactile switch by sealed construction: Sealed construction prevents dust ingress, ensuring reliable performance and long service life in demanding environments.
SMD tactile switch suitable for high density mounting: Surface‑mount design optimized for high‑density PCB layouts, delivering precise actuation in compact electronic assemblies.
Hinged design developed through ergonomics: Hinged mechanism engineered for comfortable, intuitive operation based on ergonomic principles.
Key tops for B3F, B3W and B3FS: Durable, precisely‑fitted key tops designed to enhance operation and compatibility with OMRON B3F, B3W, and B3FS switches.
Minimum size class in the industry Rocker switch with reset function: Space‑saving rocker switch designed for reliable control, featuring an integrated reset function for enhanced safety and convenience.
Minimum size class in the industry Remote Reset Rocker Switch with Delay OFF Function: Compact rocker switch with remote reset capability and delay‑OFF function for precise control and added operational safety in space‑limited applications.
Miniature Rocker Switch for High Capacity Switching: Compact design engineered to handle high‑capacity loads, delivering reliable performance in demanding applications.
Rocker Switch with External Reset Function for High capacity Switching: Durable rocker switch designed for heavy‑load applications, featuring an external reset function for enhanced safety and control.
Safety-considered Power Rocker Switch: Engineered with safety features to ensure reliable power control and prevent accidental operation in critical applications.
Small pushbutton switches and indicators with 8 to 12mm diameter: Compact pushbuttons and indicators designed for precise operation and clear signaling in space‑restricted panels and devices.
Pushbutton Hand switch: Hand‑operated switch designed for quick, reliable control in various equipment and machinery applications.
Ultra subminiature toggle switches: Exceptionally compact toggle switches engineered for precise, reliable control in space‑constrained electronic applications.
Ultra subminiature pushbutton switches: Extremely compact pushbutton switches designed for accurate operation and dependable performance in tight‑space applications.
DIP switch for various setting devices: Compact and reliable switch solution for precise configuration and easy setting adjustments in electronic equipment.
DIP switch with up and down operation: Space‑efficient switch designed for intuitive up/down control, enabling quick and accurate settings in electronic devices.
Rotary DIP switch suitable for channel setting: Durable, precise rotary switch designed for accurate channel selection and reliable performance in communication and control equipment.
Acton Technology supplies OMRON connectors for secure, reliable, high‑performance connections. Our portfolio includes PCB, board‑to‑board, board‑to‑FPC, external, and industrial connectors, from compact designs to rugged MIL‑standard models, ensuring dependable signal and power transmission in industrial, automotive, and consumer electronics.
Durable, high‑precision connectors designed for secure and efficient flat cable connections in PCB and MIL‑standard applications.
High‑reliability crimped sockets designed for discrete wires, fully compatible with the MIL connector series for secure and durable connections.
e‑CON specification connectors designed for quick, reliable wiring—ideal for connecting sensors in industrial applications.
Compact, surface‑mount connectors with a 1.27 mm pitch for reliable, space‑saving PCB connections.
Reliable terminal block connectors designed for secure controller interface connections on PCBs.
Comprehensive range of connectors built to international DIN standards, ensuring reliable, standardized board‑to‑board connections.
Surface‑mount connectors with a 1.27 mm contact pitch, supporting 1 mm increments for stacking heights from 5 mm to 20 mm.
Rotary Backlock connectors (0.5 mm and 1.0 mm pitch) with dual‑sided or upper‑sided contacts, designed for easier FPC/FFC cable insertion and a secure “sure‑lock” connection feel.
Durable connectors designed for reliable office equipment interfaces and secure external connections.
USB‑compliant connectors designed for reliable, high‑speed data and power transmission.
High‑reliability IC connectors designed to maintain stable performance and tolerate momentary power interruptions.
Precision socket designed for reliable testing of electronic devices with a USB Type‑C I/O connector.
Low‑profile circuit jumper connectors designed for quick, reliable PCB connections.
Acton Technology offers OMRON sensors for accurate, reliable detection in industrial, automotive, and consumer electronics. Our lineup includes flow, pressure, vibration, thermal, image, displacement, IoT, and optical sensors, providing precise monitoring, improved safety, and enhanced performance.
High‑accuracy sensors designed for precise flow measurement across a wide range of applications, offering reliable performance and versatile capabilities.
Airflow sensing solutions designed for precise air conditioning control, delivering energy efficiency and consistent performance without compromising quality.
Subminiature sensors engineered for accurate gauge pressure measurement with low power consumption.
World’s smallest class of high‑precision seismic sensors, designed for accurate detection and IoT integration.
Quickly detect vibration or tilt caused by earthquakes, enabling timely action to prevent secondary disasters.
Rapidly detect earthquakes to help prevent secondary disasters, featuring an auto‑level mechanism for mounting tolerance of ±5°.
Contactless temperature sensors with low NETD achieved through integrated ASIC and MEMS design. Provide direct temperature output for simplified software integration, with options from 1 to 1024 elements and a wide measurement range of ‑40 °C to 200 °C.
Compact IoT sensor that measures a variety of environmental parameters for smart monitoring and control.
USB‑type IoT sensor that captures a variety of environmental data for efficient monitoring and management.
Six types of sensing functions
Temperature, humidity, light, barometric pressure, noise, acceleration
Sensors that detect objects by interrupting a light beam between the emitter and receiver, providing accurate and reliable detection.
Compact sensors that detect objects by reflecting light from the emitter to the receiver, ideal for space‑constrained applications.
Compact optical sensors designed for accurate workpiece detection in factory automation applications.
Versatile sensors capable of accurately detecting transparent, mirror, or black targets.
Miniature, long‑distance sensors that detect objects by reflected light and can be installed in virtually any location.
Compact, flexible sensors that detect objects by color to enable stable equipment operation, improve maintenance efficiency, support multifunctionality, and assist in work automation.
Real‑time 3D sensing module that measures distance to humans or objects with high accuracy for advanced detection and control applications. Ask ChatGPT
Ultra‑compact, high‑resolution sensors ideal for precise measurements such as paper thickness detection.
Image sensing components with 10 integrated functions to detect and interpret human presence and conditions. Ask ChatGPT
Light‑touch operation for reliable input, with optional anti‑static FG terminal models to prevent static transfer. Compact design allows easy equipment embedding, and touch electrodes can be mounted using simple screw fastening. Supports 5–15 VDC with open‑collector output.
Development board for quickly creating IoT systems capable of sensing a wide range of environmental parameters.
Acton Technology supplies OMRON EFC sockets and blade pins for high‑precision testing of ultra‑compact, high‑density components. The plate‑shaped design supports pitches as narrow as 0.175 mm, delivering durability, accuracy, and reliability for advanced inspection applications.
OMRON testing sockets are engineered for high‑precision inspection of today’s ultra‑compact, high‑pin‑count electronic components. Ideal for camera and display modules with dense, narrow‑pitch terminals, these sockets ensure accurate testing and delicate handling even in the smallest form factors.
*Based on OMRON research, March 2023.
Specifications are for reference only and may vary based on product customization.
OMRON’s blade pins, made using EFC process technology, enable a minimum pitch of 0.175 mm—far smaller than conventional cylindrical pogo pins—without sacrificing durability. This design meets the narrow‑pitch inspection needs of multifunctional, high‑density mounted products.
OMRON Blade Pin
Plate‑shaped design enables ultra‑narrow pitches down to 0.175 mm for high‑density applications.
Pogo Pin
Cylindrical design limits pitch to a minimum of 0.35 mm, making it less suitable for ultra‑dense layouts compared to plate‑shaped blade pins.
OMRON High‑Frequency Compatible Sockets
Designed for testing high‑frequency circuits in wireless LANs, cellular phones, GPS, and other devices, OMRON sockets support frequencies up to 43.5 GHz. The optimized path length ensures reliable performance with sufficient stroke for accurate inspection.
*Specifications are for reference only and may vary depending on the customized product.
OMRON High‑Frequency Compatible Sockets
OMRON sockets support up to 43.5 GHz with minimal contact resistance for superior high‑frequency performance. Unlike multi‑part pogo pins, our high‑frequency pins are manufactured as a single component using proprietary EFC process technology, eliminating internal contact resistance and ensuring optimal signal integrity.
Durable Custom‑Designed Sockets
OMRON’s custom design recommendations and patented material blend* make our sockets over five times more durable than pogo‑pin types. This extended lifespan reduces socket replacement frequency, improving efficiency at inspection sites.
*Patent No. 5077479
OMRON High‑Current Compatible Sockets
Built for demanding inspection needs, OMRON high‑current sockets handle 2.5 A DC or more with over 500,000 cycles of mechanical durability. Available in multiple variations, they support a wide range of high‑capacity testing applications.
*Specifications are for reference only and may vary depending on the customized product.
OMRON High‑Current Type Sockets
OMRON’s high‑current sockets deliver up to 2.5 A DC per pin or 10 A DC using a bundled multi‑pin structure—ideal for inspecting power semiconductors like QFN packages. Using a unique EFC process, the multiple‑spring design maintains excellent spring properties while handling large currents. This structure ensures accurate contact, durability, and flexible pin movement without sacrificing conduction area.
High‑Current Socket Performance
OMRON’s high‑current sockets are duty‑ratio tested to ensure reliability. In low duty ratio conditions—where current flows for only short periods—they can handle ultra‑high currents of several tens of amperes, making them ideal for inspecting power semiconductors. Designed for continuity testing rather than sustained high‑current loads, they offer a dependable solution for demanding semiconductor inspections.
Kelvin Connection for Accurate High‑Current Measurement
For power semiconductor inspections, OMRON’s Kelvin connection design separates current and voltage measurement terminals, eliminating the impact of lead and contact resistance. This ensures precise resistance measurement even at high currents.
High‑Current Kelvin Measurement with Space‑Saving Blade Pins
OMRON’s high‑current Kelvin sockets use slim, plate‑shaped blade pins with insulating films, enabling multiple pins to contact the same terminal for larger current handling in small‑package devices. Unlike bulky pogo pins, this design saves space, maintains safe insulation, and supports accurate high‑current measurement even in tight layouts.
OMRON’s Kelvin compatible sockets allow current and voltage pins to be arranged separately within the same bundle by simply flipping the pins. This flexibility reduces terminal layout constraints and helps cut design and manufacturing time.
The pins for measuring current and voltage can be easily separated by simply flipping the terminals, making design and production easier.
Pins for measuring current and voltage are mixed, making design and production difficult.
Durable, Application‑Specific Sockets
OMRON’s custom design recommendations and patented material blend* make our sockets over five times more durable than pogo‑pin types, reducing replacements and improving inspection site efficiency.
High‑Hardness Compatible Sockets for Ultra‑Small Devices
For tiny components like MLCCs, crystal oscillators, and SAW filters, conventional thin testing pins wear quickly, cause measurement variations, and risk damaging hard ceramic terminals. OMRON’s high‑hardness compatible sockets provide safe, durable, and accurate continuity inspection for these ultra‑small packages, reducing maintenance needs and improving production efficiency.
*Specifications are for reference only and may vary depending on the customized product.
OMRON’s convex‑tip sockets ensure a stable contact area with conduction pads, while EFC process technology maintains micron‑level dimensional accuracy—even with extremely small pins in mass production.
Reliable Contact for Small, Uneven Terminals
Small devices like crystal oscillators often have hard, uneven ceramic terminals, making accurate measurement difficult with vertical pogo pins. OMRON’s EFC‑technology blade pins use a spring action that rubs the terminal surface, ensuring reliable contact and stable measurement accuracy.
Omron’s probe pin (blade pin) movement for reliable contact
Durable Blade Pins for Stress‑Free Inspection
OMRON’s convex‑tip blade pins resist tip damage, reducing maintenance time and boosting production efficiency. Their robust design also minimizes the risk of damaging customer products, ensuring safe, stress‑free inspections.
Long‑Life Custom Sockets
OMRON’s application‑specific designs and patented material blend* make our sockets over five times more durable than pogo‑pin types, reducing replacements and improving inspection efficiency.
*Patent No. 5077479
High‑Accuracy SOP Testing Without Damage
Delivers precise measurements for small SOP devices while protecting the device under test from damage.
*Specifications are for reference only and may vary depending on the customized product.
SOP Compatible Sockets
OMRON’s SOP sockets use blade pins that clamp the lead frame from both sides, minimizing stress and preventing deformation or damage during inspection of fragile small devices.
Gentle Lead Frame Clamping
Blade pins clamp the lead frame from both sides, preventing deformation and damage during testing.
Lead Frame Deformation Issue
Pressing a rigid, rod‑shaped testing pin against a fragile lead frame can cause deformation.
For small, unstable devices like SOP packages, OMRON’s SOP‑compatible sockets clamp the lead frame from both sides, ensuring precise contact force on each terminal. This design delivers stable electrical contact and high measurement accuracy.
Stable Lead Frame Contact
Blade pins clamp the lead frame from both sides, ensuring secure and stable contact during testing.
Point Contact Limitation
Rod‑shaped terminals make only point contact, making it difficult to accurately connect to the lead frame of small, unstable devices under test.
Durable SOP‑Compatible Sockets
OMRON’s patented material blend* and application‑specific designs make our SOP‑compatible sockets five times more durable than pogo‑pin types, reducing replacements and boosting inspection efficiency.
*Patent No. 5077479
High‑Temperature Compatible Sockets
OMRON sockets withstand environments up to 200 °C, making them ideal for long‑term use in burn‑in tests that apply temperature and voltage loads to eliminate initial failures. Designed in the same size as pogo pins, they can easily replace existing pins.
*Specifications are for reference only and may vary depending on the customized product.
Unlike pogo pins with internal springs that risk welding at high temperatures, OMRON’s high‑temperature pins use an external heat‑resistant spring to prevent this issue. They maintain contact resistance of 100 mΩ or less even after 500,000 operations at 180 °C, ensuring accurate inspections without loss of performance or mechanical life.
In pogo pins, conduction depends on spring movement, which can affect contact stability. OMRON’s high‑temperature pins conduct when the lower plunger clamps the upper plunger from both sides, delivering strong, stable contact force. This design ensures accurate inspections without variations in contact resistance.
Stable Plunger Contact
Upper plunger clamps the lower plunger from both sides, ensuring consistent and reliable contact.
Unstable Spring‑Dependent Contact
Contact relies on the spring touching the plunger, making it prone to instability.
Durable SOP‑Compatible Sockets
OMRON’s patented material blend* and custom designs make our SOP‑compatible sockets five times more durable than pogo‑pin types, reducing replacements and improving inspection efficiency.
*Patent No. 5077479