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--- en:iot-open:practical:hardware:sut:esp32:emb3_1 [2024/03/14 13:53] – [EMB3: Use of integrated temperature and humidity sensor] pczekalski
+++ en:iot-open:practical:hardware:sut:esp32:emb3_1 [2024/06/29 15:54] (current) – [Prerequisites] pczekalski
@@ Line 6: / Line 6: @@
 <code ini>
   lib_deps =
-             adafruit/DHT sensor library@^1.4.4
+             adafruit/DHT sensor library@^1.4.6
 	     adafruit/Adafruit Unified Sensor@^1.1.9
 </code>
@@ Line 13: / Line 13: @@
   * [[en:iot-open:practical:hardware:sut:esp32:emb5_1|]],
   * [[en:iot-open:practical:hardware:sut:esp32:emb6_1|]],
-  * [[en:iot-open:practical:hardware:sut:esp32:emb7_1|]],
+  * [[en:iot-open:practical:hardware:sut:esp32:emb7_1|]].
+It is also possible to present the temperature as the LED colour changes with a PWM-controlled LED or LED stripe. Their usage is described here:
+  * [[en:iot-open:practical:hardware:sut:esp32:emb8_1]]
   * [[en:iot-open:practical:hardware:sut:esp32:emb9a_1|]].
@@ Line 25: / Line 28: @@
 In this scenario, we only focus on reading the sensor (temperature and humidity). Information on how to display measurements is part of other scenarios that you should refer to to create a fully functional solution (see links above).
 ==== Task to be implemented ====
-//Describe a task to be implemented by the scenario user.//
+Present the current temperature, and humidity on any display (e.g. LCD). Remember to add units (C, %Rh).
 ==== Start ====
@@ Line 45: / Line 48: @@
 #define DHTPIN 47
 </code>
-=== Step n ===
-//Describe activities done in Step n.//
+=== Step 3 ===
+Declare controller class and variables to store data:
+<code c>
+static DHT dht(DHTPIN, DHTTYPE,50);
+static float hum = 0;
+static float temp = 0;
+static boolean isDHTOk = false;
+</code>
+=== Step 4 ===
+Initialise sensor (mind the ''delay(100);'' after initialisation as the DHT11 sensor requires some time to initialise before one can read the temperature and humidity:
+<code c>
+  dht.begin();
+  delay(100);
+</code>
+=== Step 5 ===
+Reat the data and check whether the sensor works OK. In the case of the DHT sensor and its controller class, we check the correctness of the readings once the reading is finished. The sensor does not return any status but checks if the reading is okay. This can be done by comparing the readings with the ''NaN'' (not a number) value, each separately:
+<code c>
+   hum = dht.readHumidity();
+   temp = dht.readTemperature();
+   (isnan(hum) || isnan(temp))?isDHTOk = false:isDHTOk = true;
+</code>
+<note important>Do not read the sensor too frequently! Doing so will cause lots of ''NaN'' numbers. Please give it some 250ms, at least, between consecutive readings, whether you do it asynchronously or using a blocking call of ''delay(250);'' in the loop.</note>
 ==== Result validation ====
@@ Line 54: / Line 80: @@
 ===== FAQ =====
-This section is to be extended as new questions appear. \\
+**I've got NaN (Not a Number) readings. What to do?**: Check if GPIO is OK (should be D22), check if you initialised controller class and most of all, give the sensor some recovery time (at least 250ms) between consecutive readings.
-When using the printed version of this manual, please refer to the latest online version of this document to obtain the valid and up-to-date list of the FAQ.
-//Provide some FAQs in the following form:\\
-**Question?**: Answer.
-//
+<WRAP noprint>
 ===== Project information =====
 {{:en:iot-open:logo_iot_200_px.png?200|}}\\
@@ Line 76: / Line 99: @@
 {{:en:iot-open:ccbync.png?100|}}
 </figure>
+</WRAP>

en/iot-open/practical/hardware/sut/esp32/emb3_1.1710424405.txt.gz · Last modified: 2024/03/14 13:53 by pczekalski