Differences

This shows you the differences between two versions of the page.

--- actor:relay_moduls [2026/05/14 18:38] – [Current Required] vamsan
+++ actor:relay_moduls [2026/05/14 22:00] (current) – [Current Required] vamsan
@@ Line 3: / Line 3: @@
 Understanding relay voltage ratings is essential for microcontrollers. For Arduino, 5V/3.3V relays are typical, whereas Raspberry Pi Micro and ESP32/3286 generally require 3.3V relays.
+For high-speed AC switching, it is recommended to use a [[ssr_moduls|Multi-channel Solid State Relay (SSR) Module]] instead.
+{{ :actor:multi_channel_relay_1.png |Multi-channel optocoupled relay module}}
 These voltage ratings, such as //"5VDC"// or //"3VDC,"// are marked on the relays along with the maximum load capacity for AC and DC, for example, 10A at 250V AC or 30V DC, and 12A at 125V AC or 28V DC. In my experience, these maximum values are often overstated; I usually cut them in half. For example, for 240V AC, I consider a safe maximum of 5A, roughly 1000 Watts.
+{{ :actor:multi_channel_relay_2.png?400 |Multi-channel optocoupled relay module schema}}
-{{ :actor:multi_channel_relay_1.png |Multi-channel optocoupled relay module}}
 ==== Current Required ====
@@ Line 17: / Line 21: @@
   * **With the VCC/JD-VCC Jumper Removed (Recommended Setup):** The VCC pin consumes approximately 0.5 mA of idle current to bias the optocoupler circuit. The microcontroller does not provide power to the coil. A separate power supply module must be used, and the load it supplies should be considered.
   * **With the VCC/JD-VCC Jumper On (Shared Power Setup):** The microcontroller needs to provide high current for the mechanical coils through its 5V pin. Each active relay coil draws between 70 mA and 100 mA. <color red>Turning on four relays at once could require up to 400 mA, which can overload and potentially crash microcontrollers like Raspberry Pi, Arduino, or ESP32.</color>
+<color red>If the Arduino output becomes overloaded, the unit will turn off and then restart. If the overload continues, the relays will cycle on and off, producing a distinctive clicking sound.</color>
+{{page>:tarhal}}
+==== Compare various multi-channel optocoupled relay modules ====
+^Module Name^Channel Count^Controller/Coil DC Input^Output Capacity (Max DC)^Output Capacity (Max AC)^Controller-Side Input Current (Per Active Pin)|
+|HL-54|4 Channels|5V |DC30V DC @ 10A|250V AC @ 10A|2 mA – 5 mA (Logic Only via Optocoupler)|
+|HW-316|4 Channels|5V DC30V DC @ 10A|250V AC @ 10A|15 mA – 20 mA|
+|KY-019|1 Channel (Available up to 8)|5V DC (3.3V to 12V variants)|30V DC @ 10A (Some boards 28V @ 5A)|250V AC @ 10A (Some boards 50V @ 5A)|15 mA – 20 mA (Transistor base/LED pull)|
+|HFD4/3-S \\ (Raw Relay)|1 Channel (Component)|3V DC (Standalone coil)|220V DC @ 2A|250V AC @ 0.5A|33.3 mA (Requires external driver circuit/diode)|
+|FY-T734 \\ (GEYA)|4 Channels|5V DC, 12V or 24V AC/DC|30V DC @ 10A|250V AC @ 10A|~21.8 mA (Industrial terminal input)|
+===== Sensor topics on lamaPLC =====
+{{topic>sensor}}
+\\
+\\
+{{tag>Multi-channel optocoupled relay actor modul Arduino HL-54 HW-316 KY-019 HFD4/3-S FY-T734 Geya}}
+\\
+This page has been accessed for: Today: {{counter|today}}, Until now: {{counter|total}}

Tools

menus and quick search

quick search

site status

location indicator

Page Tools

meta data for this page

Differences