Relay Mini PCB 8-Pin 1A
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Relay Mini PCB 8-Pin 1A

$7.65

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Relay Mini PCB 8-Pin 1A

A Relay Mini PCB 8-Pin 1A is a small, electronic switch designed to be mounted directly onto a Printed Circuit Board (PCB). It has eight pins for connections and its contacts can safely switch a maximum current of 1 Ampere (1A).

 

Key Characteristics

  • Miniature Size: The “Mini” in its name indicates its compact dimensions, making it suitable for circuits where space is limited.
  • PCB Mountable: It’s designed for through-hole soldering onto a PCB, integrating seamlessly into electronic designs.
  • 8-Pin Configuration: These pins serve various purposes, including connecting the coil (which activates the relay) and the switch contacts (which control the electrical load).
  • 1A Current Rating: This is the maximum current that can safely flow through the relay’s contacts when they are closed.
  • Coil Voltage: The relay’s coil operates on a specific DC voltage (e.g., 3V, 5V, 12V, 24V). Applying this voltage to the coil creates a magnetic field that mechanically opens or closes the contacts.
  • Contact Configuration: Many 8-pin mini PCB relays are DPDT (Double Pole, Double Throw), meaning they have two sets of contacts, each with both normally open (NO) and normally closed (NC) positions. This allows for versatile switching operations.
  • Isolation: Relays provide electrical isolation between the control circuit (coil) and the load circuit (contacts), enhancing safety and preventing interference.

Applications

Mini PCB relays like the 8-pin 1A version are widely used in various electronic devices and systems where a low-power signal needs to control a higher-power circuit. Some common applications include:

  • Remote Control Systems: Used to switch power to devices based on signals from a remote.
  • Communication Equipment: For routing or switching signals in telecommunications and data networks.
  • Automatic Control Systems: In automation processes to control motors, lights, or other actuators.
  • Household Appliances: Found in various home electronics to manage power to different components.
  • Automotive Systems: Employed in vehicles to control functions like lights, locks, and windows.
  • Instrumentation and Measurement Devices: For precise signal routing and control in sensitive equipment.
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Description

Relay Mini PCB 8-Pin 1A

*DC 12 V

*NC/NO

A Relay Mini PCB 8-Pin 1A is a miniature, 8-pin, printed circuit board (PCB) mountable relay that can switch a maximum of 1 Ampere (1A) at a specified voltage, typically 12VDC.

It’s a common type of relay used in electronic circuits to control higher voltage or current circuits with a lower voltage signal. These relays are often used in applications like remote control, communication, and automatic control systems. 

Here’s a more detailed breakdown:
  • Miniature:

    The “Mini” designation indicates a small size, making it suitable for mounting directly onto a PCB. 

  • PCB:

    This means it’s designed to be soldered onto a printed circuit board, a common method of mounting electronic components. 

  • 8-Pin:

    The relay has eight pins, which are used for connecting the coil (to activate the relay) and the switch contacts (to control the circuit being switched). 

  • 1A:

    This refers to the maximum current the relay’s contacts can safely switch. 

  • DPDT:

    Many 8-pin relays are DPDT (Double Pole, Double Throw), meaning they have two sets of contacts, each with a normally open (NO) and normally closed (NC) configuration. 

  • Coil Voltage:

    These relays have a coil that operates on a specific DC voltage (e.g., 3V, 5V, 12V, 24V). When the coil is energized, it creates a magnetic field that actuates the switch contacts. 

  • Applications:
    They are widely used in various electronic devices and systems where a low-power signal needs to control a higher-power circuit. 
Additional information
Weight 0.01 kg
Dimensions 4 × 3 × 2 cm
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  • Reduced Voltage Drop: By placing the relay closer to the high-current device and power source, you can use shorter runs of heavier gauge wire for the high-current circuit, minimizing voltage drop and ensuring the device receives adequate power.
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  • Industrial Control: Switching motors, solenoids, and other heavy-duty equipment.
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  • Pin 87a: (Optional) Connect to a device you want to power when the relay is not activated (Normally Closed connection).
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A digital programmable ON/OFF relay is an electronic switch that can be programmed to turn electrical devices on or off at specific times or intervals. It combines the fundamental switching functionality of a traditional relay with the advanced timing and control capabilities of a digital timer or microcontroller. This allows for automated control of various devices and systems without constant human intervention. How it Works At its core, a digital programmable ON/OFF relay operates similarly to a standard relay by using a small electrical current to control a larger electrical circuit. However, the "digital programmable" aspect introduces a sophisticated timing mechanism.
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  • Flexibility and Versatility: Can be configured for a wide array of applications due to various timing modes.
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  • Reliability: Many are solid-state, meaning they have no moving parts, which increases durability and reduces noise compared to electromechanical relays.
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  • Commercial Applications: Used in vending machines, amusement equipment, and commercial appliances.
  • Agriculture: Controlling irrigation pumps or greenhouse lighting.
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  • Cost-Effectiveness: For simpler automation tasks, they offer a more economical solution compared to full-fledged PLCs.
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  • Troubleshooting: Integrated displays often provide alarm messages and I/O status, simplifying troubleshooting.
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Delay relay 0.5 Sec - AC 24 V to AC 24 V
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delay relay 0.5 Sec - AC 24 V to AC 24 V is a type of electrical relay that introduces a 0.5-second time delay in a circuit, specifically designed to operate with a 24-volt AC (Alternating Current) power supply. This means that when the control voltage (24V AC) is applied or removed, the relay's output contacts won't change their state immediately; instead, there will be a half-second pause before they do. Here's a breakdown of what each part of the description means:
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  • to AC 24 V (Output/Load Voltage): While not explicitly stated as "output," this implies that the relay is likely intended to switch a 24V AC load. This means the contacts within the relay are rated to handle 24V AC to control another part of the circuit or a device. It's important to note that the load voltage can sometimes be different from the control voltage, but in this specific phrasing, it suggests both are 24V AC.
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  • Off-Delay (Normally-Open, Timed-Open - NOTO): When the control voltage is applied, the output contacts close immediately. When the control voltage is removed, the 0.5-second delay begins. After this delay, the contacts open.
  • One-Shot: Provides a single output pulse of a specified duration (in this case, 0.5 seconds) when triggered.
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  • HVAC Systems: Timing the activation or deactivation of fans, compressors, or other components.
  • Conveyor Systems: Coordinating the starting or stopping of multiple conveyor belts to prevent material jams.
  • Lighting Control: For example, a short delay before turning on a light in a specific area
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Delay relay 0.5 Sec - AC 24 V to AC 24 V
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A "delay relay 0.5 Sec - AC 24 V to DC 24 V" is a time delay relay that is designed to:
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  • Introduce a delay of 0.5 seconds before its contacts change state. This delay can be an "on-delay" (contacts close/open after 0.5 seconds when power is applied) or an "off-delay" (contacts remain closed/open for 0.5 seconds after power is removed), or other timing functions depending on the specific relay's design.
  • Switch or control a separate circuit, which may be a 24V DC circuit. The "AC 24V to DC 24V" in the description refers to the relay's input power compatibility (it can be powered by either 24V AC or 24V DC) and its output capability (it's often used to control 24V DC loads). It is not a direct AC to DC converter for the load it's switching, but rather indicates its flexible control voltage. The relay itself doesn't convert the power; it merely switches it on or off after a delay. If the controlled circuit specifically requires DC, the relay's contacts would simply switch the 24V DC power to that circuit.
Essentially, it's a versatile timing device used in control systems.   Purpose of Time Delay Relays Time delay relays are crucial in various applications where precise timing of electrical events is required. They serve to:
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  • Create timed sequences: In automated processes, certain steps may need to occur in a specific order with set delays in between. For example, a delay relay could ensure one motor starts before another or that a safety purge cycle completes before a furnace ignites.
  • Control motor starts/stops: They can be used for "soft starting" motors, gradually increasing voltage to reduce inrush current, or for ensuring a motor has fully stopped before another action begins.
  • HVAC systems: They prevent "short cycling" of compressors, which can damage the unit, by introducing a delay between successive starts.
  • Lighting control: Ensuring lights stay on for a set period after activation (e.g., in stairwells) or controlling emergency lighting.
  • Security systems: Providing a brief delay before an alarm triggers, allowing authorized personnel to disarm the system.
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  • Off-delay (Delay on Break): The contacts change state immediately when the control voltage is applied, but only return to their original state after the set time delay has elapsed after the control voltage is removed.
  • Interval: The contacts change state immediately when the control voltage is applied, and then return to their original state after the set time delay.
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In the case of a "delay relay 0.5 Sec", it would likely be an on-delay or interval type, but the exact function would need to be confirmed from the specific model's datasheet.   AC/DC 24V Compatibility The "AC 24 V to DC 24 V" part primarily indicates the coil voltage compatibility of the relay. Many modern time delay relays are designed to accept a wide range of input voltages, including both AC and DC, within a specified range (e.g., 24V AC/DC). This offers flexibility in wiring and application, as the relay can be integrated into systems powered by either AC or DC at that voltage level. It's important to distinguish that this relay itself is not a voltage converter (like a power supply that converts AC to DC). Instead, it's a switching device. If the circuit you are trying to control requires DC and your power source is AC, you would need a separate AC to DC power converter (like a power supply unit) to provide the 24V DC to your load, which the relay's contacts would then switch.
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Benefits:
  • Enhanced Security: Eliminates the risk of lost or stolen keys.
  • Increased Convenience: Users don't need to carry keys.
  • Improved Auditability: Tracks access events for security monitoring.
  • Remote Management: Allows for easy administration and control. 
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Wifi gate opener
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WiFi Gate/Door controller

$76.80
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Keypad Access Control K155ST15
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Keypad Access Control K155ST15

$99.90

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Keypad Access Control K155ST15

*Rain Shield Cover included *EM/ID card/tag reader *Finger Touch *Backlight *2000 Users *DC 12 V *IP 67 (Waterproof) *Doorbell button This unit is a standalone access controller or a Wiegand output keypad/card reader suitable for mounting indoors or outdoors, even in harsh environments. It features a sturdy, vandal proof Zinc Alloy electroplated case available in bright silver or matte silver finishes. The electronics are fully potted, ensuring durability. With support for up to 2000 users in Card, PIN, or Card + PIN configurations, this unit is ideal for small shops, domestic households, as well as commercial and industrial applications such as factories, warehouses, laboratories, banks, and prisons.

Key Features

  • Waterproof: IP68 rated for outdoor use
  • Material: Strong Zinc Alloy Electroplated anti vandal case
  • User Capacity: 2000 users, supports Card, PIN, Card + PIN
  • Adjustable Timers: Door output time, Alarm time, Door Open time
  • Short Circuit Protection: Lock output current short circuit protection
  • Built in Features: Light dependent resistor (LDR) for anti tamper, built in buzzer
  • LED Status Indicators: Red, Yellow, and Green LEDs display the working status

Technical Specifications

  • Operating Voltage: DC 12V ±10%
  • User Capacity: 2000
  • Card Reading Distance: 3 6 cm
  • Active Current: < 60mA
  • Idle Current: 25 ± 5mA
  • Lock Output Load: Max 3A
  • Alarm Output Load: Max 20A
  • Operating Temperature: 45 60
  • Operating Humidity: 10% 90% RH
  • Adjustable Door Relay Time: 0 99 seconds
  • Adjustable Alarm Time: 0 3 minutes
  • Wiegand Interface: Wiegand 26 bit
  • Size: 120 x 76 x 23mm
  • Wiring Connections: Electric Lock, Exit Button, External Alarm, External Reader
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Swing gate opener -Zero ZSW400
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Dual swing gate opener -Zero ZSW400

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$1,237.15

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Dual swing gate opener -Zero ZSW400

*Suitable gate weight: Maximum 200 Kg (Per leaf) Included: *2 x Electromechanical arm *1 x Main control board *1 x Waterproof box *2 x Remote control *2 x Manual release key *1 x Safety sensor
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Exit push button SQTPB701H
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Exit Push Button SQTPB701H

$29.75

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Exit Push Button SQTPB701H

*No Touch *Backlight *DC 12V *COM-NC-NO
A wave exit push button, also known as a touchless exit button or wave-to-exit switch, is a device that allows users to open a door without physically touching it.
It uses motion sensing technology, typically infrared or microwave, to detect a hand gesture and trigger the door to open. This provides a more hygienic and convenient way to exit a space, especially in environments where minimizing physical contact is desirable. 
Here's a more detailed explanation:
Functionality:
  • Touchless Activation:
    The core function is to activate a door release mechanism (like a magnetic lock or strike) with a simple wave of the hand. 
  • Motion Sensing:
    Wave exit buttons utilize sensors (infrared or microwave) to detect the movement of a hand or object in front of the device. 
  • Contactless Exit:
    This eliminates the need to physically push a button, reducing the spread of germs and providing a more hygienic exit solution. 
Common Applications:
  • Healthcare facilities: Hospitals, clinics, and laboratories where hygiene is paramount. 
  • Food service and preparation areas: Restaurants and kitchens where cleanliness is crucial. 
  • High-traffic areas: Office buildings, schools, and public spaces where many people need to exit frequently. 
  • Disabled access: Provides a convenient and accessible way for individuals with mobility limitations to exit. 
Benefits:
  • Hygiene:
    Reduces the risk of spreading germs and viruses by eliminating the need to touch a button. 
  • Convenience:
    Allows for hands-free operation, making it easier to exit with arms full or for individuals with mobility limitations. 
  • Durability:
    Often more durable than traditional push buttons due to fewer moving parts. 
  • Accessibility:
    Provides a more inclusive exit solution for all individuals. 
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