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C-Lin time relay series is designed for control circuits with AC 50/60Hz (≤380V) or DC 24V. It enables timed circuit connection or disconnection with high delay accuracy and a wide time range.
Features include two display modes (up/down timing) and multiple functions such as power-on delay, power-off delay, cycle delay, star-delta delay, and more.
With a modern design and diverse models, it’s ideal for industrial automation. Compliant with GB/T14048.5 and JB/T10047 standards, CCC self-declared.
With a focus on proprietary technology, Xinling Electrical has obtained over 450 patents and 120 software copyrights.
In 2023 , 88 new patents were added, including 23 invention patents, significantly enhancing the unique innovation of its technologies and boosting the competitive edge of its products.
A time relay is a device that controls the timing of electrical events, opening or closing contacts after a predetermined time delay.
The primary difference between a standard relay and a timer relay is that a standard relay operates immediately upon receiving an electrical signal, whereas a timer relay introduces a delay before activating or deactivating its contacts.
A counting relay is designed to count the number of events or pulses in a circuit, activating its output after a specified count has been reached.
A meter counter works by tallying the number of electrical pulses it receives, often used to measure quantities like flow rate or production counts.
A liquid level relay monitors the liquid level in a container, activating or deactivating a pump or alarm when the liquid reaches a certain threshold.
A level relay for conductive liquids detects the level of conductive liquids, using the conductivity to complete a circuit and trigger actions like activating a pump or alarm.
To test a solid-state relay (SSR), begin with a visual inspection to check for any physical damage or loose connections. Next, verify that the input side of the SSR receives the correct control voltage. Use a multimeter to measure the output side, ensuring it responds appropriately when the control input is applied. Finally, connect the SSR to its intended load and confirm it operates as expected under normal conditions.
A solid-state relay operates by using semiconductor components to switch electrical circuits on or off without moving parts, providing faster and more reliable operation compared to electromechanical relays.
The main difference between a standard relay and a solid-state relay lies in their construction and operation: standard relays use electromagnetic coils and moving parts to open or close contacts, while solid-state relays rely on semiconductor components to perform the switching function, offering advantages like faster response times and longer lifespan.
A time relay is a device that controls the timing of electrical events, opening or closing contacts after a predetermined time delay.
The primary difference between a standard relay and a timer relay is that a standard relay operates immediately upon receiving an electrical signal, whereas a timer relay introduces a delay before activating or deactivating its contacts.
A counting relay is designed to count the number of events or pulses in a circuit, activating its output after a specified count has been reached.
A meter counter works by tallying the number of electrical pulses it receives, often used to measure quantities like flow rate or production counts.
A liquid level relay monitors the liquid level in a container, activating or deactivating a pump or alarm when the liquid reaches a certain threshold.
A level relay for conductive liquids detects the level of conductive liquids, using the conductivity to complete a circuit and trigger actions like activating a pump or alarm.
To test a solid-state relay (SSR), begin with a visual inspection to check for any physical damage or loose connections. Next, verify that the input side of the SSR receives the correct control voltage. Use a multimeter to measure the output side, ensuring it responds appropriately when the control input is applied. Finally, connect the SSR to its intended load and confirm it operates as expected under normal conditions.
A solid-state relay operates by using semiconductor components to switch electrical circuits on or off without moving parts, providing faster and more reliable operation compared to electromechanical relays.
The main difference between a standard relay and a solid-state relay lies in their construction and operation: standard relays use electromagnetic coils and moving parts to open or close contacts, while solid-state relays rely on semiconductor components to perform the switching function, offering advantages like faster response times and longer lifespan.
