Difference between revisions of "GPIO"
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== Hardware == | == Hardware == | ||
| − | It's best to connect a LED to the GPIO to test your setup. You could dim this LED with the PWM mode commands. | + | It's best to connect a LED to the GPIO to test your setup. You could dim this LED with the PWM mode commands. Be aware that the ESP8266 only supplys 3.3V at a max current of only ~10mA. |
---- | ---- | ||
| Line 9: | Line 9: | ||
---- | ---- | ||
| − | = | + | = ESP Easy = |
| + | You dont need a Device definition (task) to control basic GPIO output. You can always control all the pins by HTTP. | ||
| − | == | + | == Commands == |
| − | == | + | {| class="wikitable mw-collapsible sortable" |
| − | + | ! style="width: 15%|Command | |
| + | ! GPIO | ||
| + | ! style="width: 10%|Value | ||
| + | ! Information | ||
| + | ! style="width: 25%|HTTP example | ||
| + | ! style="width: 15%|MQTT example<BR>(topic: <MQTT subscribe template>/cmd) | ||
| + | |- | ||
| − | We can control | + | | GPIO,<gpio>,<value> |
| + | | 0...16 | ||
| + | | 2 (HIGH-Z)<BR>or<BR>1 (HIGH)<BR>or<BR>0 (LOW) | ||
| + | | '''Basic on/off.''' We can control a pin with simple http url commands. To change the pin to high or low steady output. Setting GPIO to "2" means that it will be able to detect low level relays (with high impedance, "Z"). | ||
| + | | http://<espeasyip>/control?cmd=GPIO,12,1<BR>http://<espeasyip>/control?cmd=GPIO,12,0 | ||
| + | | GPIO,12,1<BR>GPIO,12,0 | ||
| + | |- | ||
| − | '''< | + | | PWM,<GPIO>,<state><BR>PWM,<GPIO>,<state>,<duration> |
| + | | 0...'''15''' | ||
| + | | 0...1023 | ||
| + | | '''To set a certain PWM level.''' If you have set a certain GPIO to a PWM level and want to use it as a regular HIGH/LOW pin you need to reset by setting the PWM level to 0. You can use the duration (ms) parameter to create a fading. | ||
| + | | http://<espeasyip>/control?cmd=PWM,13,500<BR>http://<espeasyip>/control?cmd=PWM,13,0 | ||
| + | | PWM,13,500<BR>PWM,13,0 | ||
| + | |- | ||
| − | ''' | + | | Pulse,<GPIO>,<value> |
| + | | 0...16 | ||
| + | | <state>,<duration> | ||
| + | | '''To send a ''short'' pulse to a certain pin.''' Example to send an active high (1) pulse on GPIO 14 for 500 mSeconds. Pulse duration is in milliseconds. State is 1 or 0. | ||
| + | | http://<espeasyip>/control?cmd=Pulse,14,1,500 | ||
| + | | Pulse,14,1,500 | ||
| + | |- | ||
| + | | LongPulse,<GPIO>,<value> | ||
| + | | 0...16 | ||
| + | | <state>,<duration> | ||
| + | | '''To send a ''long'' pulse to a certain pin.''' A long pulse is basically the same as the plain pulse. The only difference is the time base in seconds rather than in milliseconds. So it's more suitable for longer duration. Example to send an active high (1) pulse on GPIO 15 for 10 minutes. | ||
| + | | http://<espeasyip>/control?cmd=LongPulse,15,1,600 | ||
| + | | LongPulse,15,1,600 | ||
| + | |- | ||
| − | To | + | | LongPulse_mS,<GPIO>,<value> |
| + | | 0...16 | ||
| + | | <state>,<duration> | ||
| + | | '''To send a ''long'' pulse to a certain pin.''' A long pulse (mS) is the same as the regular long pulse. The only difference is the time base in milliseconds rather than in seconds. Example to send an active high (1) pulse on GPIO 15 for 1 second. | ||
| + | | http://<espeasyip>/control?cmd=LongPulse_mS,15,1,1000 | ||
| + | | LongPulse_mS,15,1,1000 | ||
| + | |- | ||
| − | ''' | + | | Servo,<value1>,<GPIO>,<value2> |
| + | | 0...16 | ||
| + | | value1: servo number<BR>value2: position | ||
| + | | '''To control a Servo Motor.''' We currently support a maximum of two servo motors so you can build a pan & tilt device if you like. Example to set servo 1 on GPIO 2 to a 90 degree position and servo 2 on GPIO 16 to a 45 degree position. | ||
| + | | http://<espeasyip>/control?cmd=Servo,1,2,90<BR>http://<espeasyip>/control?cmd=Servo,2,16,45 | ||
| + | | Servo,1,2,90<BR>Servo,2,16,45 | ||
| + | |- | ||
| + | |} | ||
| + | == Tones, melodies and ringtones == | ||
| − | + | For using tone and rtttl commands you should head over to the [[Buzzer (RTTTL)]] section. | |
| − | + | == Caveats: User Beware! == | |
| − | + | <div style="border-bottom:1px solid black; background: red; padding:0.4em 1em; font-size:110%; font-weight:bold; font-color: white;"><span style="color:white">There are many pins called GPIO but be aware: These pins differ even they are all called GPIO!</span></div> | |
| − | + | <div style="border-bottom:1px solid red; background:#F6CECE; padding:0.4em 1em 0.4em;">The ESP8266 is a small chip with a lots of possibilities. The GPIO16 (D0) is a good example: Besides GPIO it is used for waking up from deep sleep. Internally it is connected to a hardware timer and does not have all possibilities of other GPIOs in exchange. This also means that a DS18B20 will not work on GPIO16, neither will any other plugin using interrupts work. | |
| − | + | For a full list of GPIO pins and hints what's connected inside the chip see the [[Configuration]] page.</div> | |
| − | |||
Latest revision as of 22:41, 7 June 2018
Contents
Introduction
The ESP module can control things with it's build-in GPIO output pins. We can turn these on or off or we can set these pins to a special Pulse modulated value (PWM output). And it's also possible to send short pulses (single puls) to one of these pins to control specific devices that are switched with a single short high or low signal.
Hardware
It's best to connect a LED to the GPIO to test your setup. You could dim this LED with the PWM mode commands. Be aware that the ESP8266 only supplys 3.3V at a max current of only ~10mA.
ESP Easy
You dont need a Device definition (task) to control basic GPIO output. You can always control all the pins by HTTP.
Commands
| Command | GPIO | Value | Information | HTTP example | MQTT example (topic: <MQTT subscribe template>/cmd) |
|---|---|---|---|---|---|
| GPIO,<gpio>,<value> | 0...16 | 2 (HIGH-Z) or 1 (HIGH) or 0 (LOW) |
Basic on/off. We can control a pin with simple http url commands. To change the pin to high or low steady output. Setting GPIO to "2" means that it will be able to detect low level relays (with high impedance, "Z"). | http://<espeasyip>/control?cmd=GPIO,12,1 http://<espeasyip>/control?cmd=GPIO,12,0 |
GPIO,12,1 GPIO,12,0 |
| PWM,<GPIO>,<state> PWM,<GPIO>,<state>,<duration> |
0...15 | 0...1023 | To set a certain PWM level. If you have set a certain GPIO to a PWM level and want to use it as a regular HIGH/LOW pin you need to reset by setting the PWM level to 0. You can use the duration (ms) parameter to create a fading. | http://<espeasyip>/control?cmd=PWM,13,500 http://<espeasyip>/control?cmd=PWM,13,0 |
PWM,13,500 PWM,13,0 |
| Pulse,<GPIO>,<value> | 0...16 | <state>,<duration> | To send a short pulse to a certain pin. Example to send an active high (1) pulse on GPIO 14 for 500 mSeconds. Pulse duration is in milliseconds. State is 1 or 0. | http://<espeasyip>/control?cmd=Pulse,14,1,500 | Pulse,14,1,500 |
| LongPulse,<GPIO>,<value> | 0...16 | <state>,<duration> | To send a long pulse to a certain pin. A long pulse is basically the same as the plain pulse. The only difference is the time base in seconds rather than in milliseconds. So it's more suitable for longer duration. Example to send an active high (1) pulse on GPIO 15 for 10 minutes. | http://<espeasyip>/control?cmd=LongPulse,15,1,600 | LongPulse,15,1,600 |
| LongPulse_mS,<GPIO>,<value> | 0...16 | <state>,<duration> | To send a long pulse to a certain pin. A long pulse (mS) is the same as the regular long pulse. The only difference is the time base in milliseconds rather than in seconds. Example to send an active high (1) pulse on GPIO 15 for 1 second. | http://<espeasyip>/control?cmd=LongPulse_mS,15,1,1000 | LongPulse_mS,15,1,1000 |
| Servo,<value1>,<GPIO>,<value2> | 0...16 | value1: servo number value2: position |
To control a Servo Motor. We currently support a maximum of two servo motors so you can build a pan & tilt device if you like. Example to set servo 1 on GPIO 2 to a 90 degree position and servo 2 on GPIO 16 to a 45 degree position. | http://<espeasyip>/control?cmd=Servo,1,2,90 http://<espeasyip>/control?cmd=Servo,2,16,45 |
Servo,1,2,90 Servo,2,16,45 |
Tones, melodies and ringtones
For using tone and rtttl commands you should head over to the Buzzer (RTTTL) section.
Caveats: User Beware!
There are many pins called GPIO but be aware: These pins differ even they are all called GPIO!
The ESP8266 is a small chip with a lots of possibilities. The GPIO16 (D0) is a good example: Besides GPIO it is used for waking up from deep sleep. Internally it is connected to a hardware timer and does not have all possibilities of other GPIOs in exchange. This also means that a DS18B20 will not work on GPIO16, neither will any other plugin using interrupts work.
For a full list of GPIO pins and hints what's connected inside the chip see the Configuration page.
