Arduino IR Kit 对比 Circuit Laboratory HD 的使用情况和统计数据
Features:
- Replace all your remote controls with your phone.
- Create your own universal IR remote control with Arduino+Bluetooth shield or Module.
- Send and receive infrared signals with any protocols.
- Store your IR database on your phone.
- Auto-connect to Arduino.
- Sort and rename each IR button.
- Change icon of each IR button.
- Open source Arduino Code.
What devices can you control using this app?
- You can control any IR device in this world .....Yes, That's True!
Requirements:
- Arduino Board (UNO, MEGA, Leonardo, Nano, Pro).
- Infrared LED.
- Infrared Receiver.
- Bluetooth BLE Module or Shield.
- Arduino Sketch(URL provided inside the app).
Instructions:
- This is a DIY solution.
- Upload Arduino code to your Arduino board.
- Wire the Bluetooth module as per the diagram provided in the app.
- Connect your IR LED to pin 3 for Uno, pin 13 Leonardo or pin 9 for Mega.
- Connect your IR Receiver to pin 11 for Uno, Leonardo, Mega, etc.
- Open the app, then connect to your Arduino using Bluetooth.
- Enable IR Receiver from the app setting tab.
- Bring any remote that you want to add.
- Start sending command to Arduino and see the magic!
Tested on iOS with:
- Bluetooth Module or shield (HM-10, TI, CC2541, Bluefruit LE UART or SPI, Feather 32u4 Bluefruit).
- Arduino (Uno, Leo, Mega, Pro, Nano, Micro,Feather Bluefruit)
- IR Transmitter (Any Kind will work).
- IR Receiver ( VS1838b or any compatible IR Reciever).
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Circuit Lab HD is an electronic circuit analysis tool based on the modified node analysis method. It uses the same models of Spice.
Four kind of analysis may be conducted:
- DC: linear and non linear circuits with continuous voltage and current sources;
- AC: linear and non linear circuits with sinusoidal voltage and current sources;
- Multifrequency AC Analysis: linear and non linear circuits with sinusoidal voltage and current sources. It allows to analyze the circuit behavior in a range of frequencies. Useful to study the bandwidth of the circuit;
- Transient: linear and non linear circuits, with sinusoidal and pulse voltage sources.
User can graphically draw the circuit dragging and dropping components, then the circuit can be analyzed.
Circuit may be controlled by means of the following gestures:
- Drag: to move the circuit into the desired position
- Tap on a component: to modify the component's parameters
- Pinch: to zoom in and out
- Double finger double Tap: to reset position and zoom level to the original values
Tapping DC button, user gets voltage at each circuit's node.
Tapping AC button, user gets voltage phasors at each circuit node or the bode graph of the
voltage at each circuit node (see 06 BJT - Common Emitter).
User can select the desired phasors to get the related graphs which may be controlled by means of the following gestures:
- Drag: To move the chart in the desired position;
- Pinch: To enlarge or shrinks the graph;
- Double Tap with two fingers to restore the position and zoom level to the original values.
Tapping Transient button, user can analyze circuit's behavior during time and get graphs of voltages and currents
function of time. These graphs may be controlled by means of the following gestures:
- Drag: To move the chart in the desired position;
- Pinch: To enlarge or shrinks the graph;
- Double Tap with two fingers to restore the position and zoom level to the original values.
Moreover, user can enable a mobile cursor to read the values in the different points of time (tap on the graph to display the cursor, tap to remove it and move it to read the values).
Each circuit can contain:
- Resistors
- Capacitors
- Inductors
- Mutual coupled inductors
- Independent sinusoidal voltage generators
- Independent voltage pulse generators (with which you can also generate square, triangular and sawtooth waves);
- Independent sinusoidal current generators
- Controlled voltage generators
- Controlled current generators
- Operation Amplifier
- Diodes
- Zener Diodes
- NPN and PNP Bjts
- Channel-N and Channel-P JFet
- Channel-N and Channel-P Mosfet
In addition, there are the following measuring instruments:
- Voltmeter;
- Ammeter.
User can manage his own components library to store most used components.
For each component, a short video is available to demonstrate how to insert it into the circuit and edit it's characteristics. In addition, there are some more detailed video tutorials to learn how to use the application.
Circuits may be easily stored and reused.
User can print:
- Circuits and component's list
- Transient Analysis graphs (the mobile cursor is also printed if visible)
Circuits can be easily shared through iCloud, by mail in the internal format so that can be reused by other users (on iPhone too) and in PDF format and they are compatible with Circuit Lab for Mac.
Visit my site for video tutorials and details about operational amplifier's internal model, diode's internal model and Bjt's internal model.
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Arduino IR Kit与Circuit Laboratory HD排名比较
对比 Arduino IR Kit 与 Circuit Laboratory HD 在过去 28 天内的排名趋势
排名
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Arduino IR Kit 对比 Circuit Laboratory HD 的排名,按国家/地区比较
对比 Arduino IR Kit 与 Circuit Laboratory HD 在过去 28 天内的排名趋势
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Arduino IR Kit VS.
Circuit Laboratory HD
十二月 23, 2024