Solis-1P8K-4G-US, Solis-1P8.6K-4G-US, Solis-1P9K-4G-US, Solis-1P10K-4G-US Figure 1.2 Bottom side view DC Switch Water drill hole DC input RS 485 AC input Wiring box LCD display 4 buttons LED lights 6.3 Settings 6.3.1 Set Time 6.3.2 Set Address 6.4 Advanced Info. 6.4.1 Alarm Message Contents.2. No more coding in the dark. Blocs Introducing Solis for Mac, your code editors best friend. I've always been fascinated with the process of building content for. 20 21 19 22 18 23 17 24 16 25 15 26 14 27 13 28 12 29 11 30 10 31 9 32 8 33 7 34 6 35 5 36 4 37 3 38 2 39 1 40 CircuiTikZ Massimo A. Redaelli [email protected] Stefan Lindner [email protected]. Solis-3K-2G-US Solis-3.6K-2G-US Solis-4K-2G-US Solis-4.6K-2G-US Solis-5K-2G-US Figure 1.2 Bottom side view DC Switch Water drill hole DC input RS 485 AC input Wiring box LCD display 4 buttons LED lights 6. Operation 6.1 Main Menu 6.2 Information 6.3 Settings 6.3.1 Set Time 6.3.2 Set Address 6.4 Advanced Info. 6.4.1 Alarm Message Contents.2.
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- Solis 1 0 4 – Codes Editors Integrator Circuit Layout
Solis is backed buy a locally supported industry standard 5 year ‘out of the box’ Warranty. You also have the option of purchasing plus five years, for an extended 10 year Warranty. This is available on all Solis inverters through our wholesale network.
This tutorial demonstrate how to use 0.96″ small I2C based Display with NodeMCU ESP8266 using only two IO lines. Interfacing of large 16×2 LCD is difficult with ESP, as it requires 6 IO Lines. This is shown in this post How to Interface 16×2 LCD with NodeMCU ESP8266 with only three wires?
Components Required
- OLED Display 0.96″ Four Wire I2C Type Display
- NodeMCU ESP8266
- Connecting Wires
- USB Cable and Laptop
OLED Display 0.96″
This is a 0.96 inch blue/white OLED display module can be interfaced with any microcontroller using SPI/IIC protocols. It is having a resolution of 128×64.
OLED (Organic Light-Emitting Diode) is a self light-emitting technology composed of a thin, multi-layered organic film placed between an anode and cathode. In contrast to LCD technology, OLED does not require a backlight. OLED possesses high application potential for virtually all types of displays and is regarded as the ultimate technology for the next generation of flat-panel displays.
OLEDs basic structure consists of organic materials positioned between the cathode and the anode, which is composed of electric conductive transparent Indium Tin Oxide (ITO). The organic materials compose a multi-layered thin film, which includes the Hole Transporting Layer (HTL), Emission Layer (EML) and the Electron Transporting Layer (ETL). By applying the appropriate electric voltage, holes and electrons are injected into the EML from the anode and the cathode, respectively. The holes and electrons combine inside the EML to form excitons, after which electro luminescence occurs. The transfer material, emission layer material and choice of electrode are the key factors that determine the quality of OLED components.
Setting up OLED Display I2C Connection with NodeMCU ESP8266
Make connections as shown, Connect VDD to 3.3V, GND to GND, D1 to SCL and D2 to SDA.
![Integrator Integrator](https://screenshots.macupdate.com/JPG/60614/60614_1542811413_scr_uc1.jpg)
Features:
- OLED Driver IC: SSD1306
- Resolution: 128 x 64
- Visual Angle: >160°
- Input Voltage: 3.3V ~ 6V
- Compatible I/O Level: 3.3V, 5V
- Mini Size: 2.7 x 2.8cm
- Only Need 2 I/O Port to Control
- Pixel Color: Blue
- Full Compatible with Arduino
- Working temperature: -30°C ~ 70°C
- Module volume ( generous ): 27.0 x 27.0 x 4.1mm
- Factory configured for SPI protocol (can be easily changed to IIC)
Installing Required Libraries for OLED Display
To install OLED display Library for ESP8266 goto Sketch>Include Library>Manage Libraries and search for SD1306 that’s the display. Click on install as shown below.
NodeMCU ESP8266 OLED Display Code Arduino IDE
Note that it uses same labeling of IO pins used on NodeMCU.
NodeMCU OLED Display Code Example
2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 42 44 46 48 50 52 54 56 58 60 62 64 66 68 70 72 74 76 78 80 82 84 86 88 90 92 94 96 98 | * https://circuits4you.com * #include <Wire.h> // Only needed for Arduino 1.6.5 and earlier #include 'SSD1306Wire.h' // legacy include: `#include 'SSD1306.h'` SSD1306Wiredisplay(0x3c,D2,D1);//D2=SDK D1=SCK As per labeling on NodeMCU // // voidsetup(){ Serial.begin(115200); display.init(); display.flipScreenVertically(); } // // drawFontFaceDemo(); drawRectDemo(); voiddrawCircleDemo(); } // // clear the display // Font Demo1 // create more fonts at http://oleddisplay.squix.ch/ display.setFont(ArialMT_Plain_10); display.setFont(ArialMT_Plain_16); display.setFont(ArialMT_Plain_24); // write the buffer to the display } voiddrawRectDemo(){ display.clear(); for(inti=0;i<10;i++){ display.setPixel(10-i,i); display.drawRect(12,12,20,20); // Fill the rectangle display.drawHorizontalLine(0,40,20); // Draw a line horizontally // write the buffer to the display } voiddrawCircleDemo(){ display.clear(); for(inti=1;i<8;i++){ display.drawCircle(32,32,i*3); display.setColor(BLACK); display.fillCircle(96,32,32-i*3); display.display(); |
After uploading display will show Hello World and some square and circles. If you see compilation errors check that you have installed proper library required for OLED Display.
We are a Service-Disabled Veteran Owned Small Business (SDVOSB)
At Solis we understand applied remote sensing from energetic signatures through product visualization.
Our scientists have developed critical solutions for our customers by building and applying our expertise in these select areas:
Signature Acquisition, Measurement and Analysis
Our team possesses extraordinary abilities to acquire and exploit complex signatures with state of the art, full-range instrumentation and capitalize on our industry recognized expertise to quantify and validate this complex data. Our scientists and analysts have over 20 years of experience providing support to signature collection from laboratory clean rooms to austere environments. Our team has collected over 6000 unique full-range hyperspectral signatures assisting our customers in innovating proven processes, operationalizing analytical ideas and exploring new mission areas.
Scientific Methodology
Using sound science and novel approaches, we deconstruct the phenomenology of an event, material, or effluent and develop solid methodologies to provide our customers a blueprint for success. This step in the remote sensing continuum provides increased value by developing unique strategies to close the loop on the most challenging requirements. We offer novel workflow solutions to decrease the level of scientist interaction in the analytical process and accelerate the data collection-to-dissemination cycle.
Tool Development
We provide innovative remote sensing applications to solve our customers’ most difficult problems and increase efficiency. Our developers work together with our applied science staff to enhance and refine algorithms, tools and applications, resulting in systems and products tailored to our customers’ detailed requirements. Experienced has proven this holistic approach reduces the development cycle and ensures more robust, accurate and stable end products at an effective cost. Our tools and algorithms are focused to quantitatively measure, verify, and validate complex data, characterize materials, and assist the end user with injecting scientifically authenticated information into their decision process.
System Validation
Aiseesoft mac video converter ultimate 9 2 62 cc. Through scientific rigor, our state of the art solutions enable our customers to operationalize advanced remote sensing systems, sensors, and data sources to enhance their current capabilities. We have a solid history of providing systems engineering and technical support for test, evaluation and certification of ground, aerial and space-based remote sensing platforms. We have experience developing, conducting and executing validation experiments for any platform, in any environment, at any location.
Solis 1 0 4 – Codes Editors Integrator Circuit Diagram
Data collection
We advise on optimal collection parameters to allow dynamic use of our customers’ always limited resources. Our team has a wealth of knowledge supporting remote sensing system collections and can design, plan, and implement multi-modal collection schemes. Our collection solutions efficiently leverage the latest techniques of applied science to convert raw digits into high-fidelity data, satisfying customer needs. We are well versed in complete end-to-end mission planning; including sensor calibration, ground and airborne sensor operation, real-time data collection, sensor calibration and atmospheric compensation. The team has also collected all supporting test and evaluation data for advanced remote sensing systems. We can assist our customers with collection of supporting weather data, ground control points, and we are experts with all aspects of ground truth sensor operations.
Exploitation
We can derive maximum utility from any data source by applying our deep-rooted experience in non-literal exploitation methodologies, acquired from many decades of hands-on experience. Our pioneering applications in remote sensing have assisted our customers to expand their capabilities and capitalize on their potential. By applying innovative exploitation processes we are able to accurately discriminate, locate and identify intricate clues in complex data, allowing our customers to disseminate confident and accurate information to end users. This allows for rapid turnaround of concepts and new missions not previously considered attainable.
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Mission Statement
Solis Applied Science is a small business specializing in full-spectrum remote sensing and image science services for Federal, Civil and commercial customers. Our innovative, technology-based solutions for planning, collection and analysis of scientific data help produce practical answers for some of our customers most complex questions. The Solis team offers expertise in algorithm development, data visualization and the physical sciences. Through developing novel applications and methods, our clients are able to make better calculated decisions and strategically manage dynamic challenges.
Solis 1 0 4 – Codes Editors Integrator Circuit Panel
Solis Careers
- Program Manager
- Imagery Scientist
- Remote Sensing Analyst
- Software Developer Send your Resume
If you have any questions or would like to learn more, please contact us Located in Falls Church, VA
Email: [email protected]
Email: [email protected]