Ks0266 keyestudio Eight-channel Solid State Relay Module: Difference between revisions
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==Introduction== | ==Introduction== | ||
Keyestudio eight-channel solid state relay is | Keyestudio eight-channel solid state relay is '''active at HIGH''' level, that is to say, the input control signal is the high level (3.3-5 V), the relay is on; while the input control signal is high level (0-2.5 V), the relay is off. <br> | ||
Solid State Relay is a new kind of contactless switching device which is composed of all solid state electronic components. Compared with the electromagnetic relay, | |||
The output control terminal of | Solid State Relay is a new kind of contactless switching device which is composed of all solid state electronic components.<br> | ||
Compared with the electromagnetic relay, it has higher reliability, with the features of non-contact, long service life, fast speed and less outside interference. <br> | |||
<span style=color:red> The output control terminal of keyestudio solid-state relay must be connected to the circuit, '''can only be AC (Alternating Current)''' , so that the solid state relay can be disconnected normally. </span><br> | |||
<br>[[File:KS0266(2).jpg|500px|frameless|thumb]]<br> | <br>[[File:KS0266(2).jpg|500px|frameless|thumb]]<br> | ||
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==Sample Code== | ==Sample Code== | ||
<pre> | <pre> | ||
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==Buy from == | ==Buy from == | ||
Revision as of 11:44, 3 June 2019
Keyestudio Eight-channel Solid State Relay Module
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Introduction
Keyestudio eight-channel solid state relay is active at HIGH level, that is to say, the input control signal is the high level (3.3-5 V), the relay is on; while the input control signal is high level (0-2.5 V), the relay is off.
Solid State Relay is a new kind of contactless switching device which is composed of all solid state electronic components.
Compared with the electromagnetic relay, it has higher reliability, with the features of non-contact, long service life, fast speed and less outside interference.
The output control terminal of keyestudio solid-state relay must be connected to the circuit, can only be AC (Alternating Current) , so that the solid state relay can be disconnected normally.
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Performance Parameters
- Electrical parameters:
| Voltage | Static Current | Working Current | Trigger Voltage | Trigger Current | |
|---|---|---|---|---|---|
| Channel 1 | DC 5V | 0mA | 13.8mA | 3.3-5V | 2mA |
| Channel 2 | DC 5V | 0mA | 26.8mA | 3.3-5V | 2mA |
| Channel 3 | DC 5V | 0mA | 37mA | 3.3-5V | 2mA |
| Channel 4 | DC 5V | 0mA | 48mA | 3.3-5V | 2mA |
| Channel 5 | DC 5V | 0mA | 59mA | 3.3-5V | 2mA |
| Channel 6 | DC 5V | 0mA | 70mA | 3.3-5V | 2mA |
| Channel 7 | DC 5V | 0mA | 81mA | 3.3-5V | 2mA |
| Channel 8 | DC 5V | 0mA | 90mA | 3.3-5V | 2mA |
- Output port: AC240V/2A
Connection Diagram
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Sample Code
int BASE = 3 ; //The first relay I/O port
int NUM = 8 ; //Total number of relay
void setup()
{
for (int i = BASE; i < BASE + NUM; i ++)
{
pinMode(i, OUTPUT); //Set the digital I/O port to output
}
}
void loop()
{
for (int i = BASE; i < BASE + NUM; i ++)
{
digitalWrite(i, HIGH); //Set the digital I/O port outputs to "HIGH", that is, gradually open relay
delay(200); //delay
}
for (int i = BASE; i < BASE + NUM; i ++)
{
digitalWrite(i, LOW); //Set the digital I/O port outputs to "LOW", that is, gradually close relay
delay(200); //delay
}
}
Result
Wiring as the above image, after powered-on, eight-channel solid state relays are first connected and then broken successively,repeating alternately.
Resource
- PDF:
https://drive.google.com/open?id=1bVGkOans_UoWegSrJs8Ft3D4GEKakp-1
- Code:
https://drive.google.com/open?id=1tOdLplPqGoc6RrVa1OffPwOZtjCF9Axl