Circuit Laboratory 对比 HVAC RefCharge 的使用情况和统计数据
Circuit Lab is an electronic circuit analysis tool based on the modified node analysis method.
Four kind of analysis may be conducted:
- DC: linear and non linear circuits with continuous voltage and current sources;
- AC: linear e 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 (available as In App Purchases).
User can graphically draw the circuit and 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 BJT 16 - Common Emitter).
Phasor graphs may be controlled by means of the following gesture:
- Drag: to move the graph into the desired position
- Pinch: to zoom in and out
- Double Finger Double Tap: to reset position and zoom level to the original values
Pressing Transient button, user can analyze circuit's behavior during time and get graphs of voltages and currents function of time.
Each circuit can contain:
- Resistors
- Capacitors
- Inductors
- Mutual Coupled Inductors
- Independent sinusoidal voltage generators
- Independent pulse voltage generators
- Independent sinusoidal current generators
- Controlled voltage generators
- Controlled current generators
- Operation Amplifier
- Diodes
- Zener Diodes
- Bjt NPN and PNP
- Channel-N and Channel-P JFet
- Channel-N and Channel-P Mosfet
For each component, a short video is available to demonstrate how to insert it into the circuit and edit it's characteristics.
Circuits may be easily stored and reused.
User can print:
- Circuits and component's list
- Transient Analysis graphs
Circuits can be easily shared through iCloud, by mail in the internal format so that can be reused by other users (on iPad too) and in PDF format.
Visit my site for video tutorials and details about operational amplifier's internal model and diode's internal model.
- Apple 应用商店
- 付费
- 生产力
商店排名
- -
The HVAC RefCharge app is a refrigerant charging calculator that allows HVAC technicians to perform superheat and subcool refrigerant charge calculations on-the-fly. This app includes pressure/temperature data for over 100 refrigerants.
This is a universal app that works on both the iPhone and iPad.
This app now includes the HVAC Equipment Locator. Click here for details: http://bit.ly/1yTq539
The following is a list of additional features:
1. Perform superheat refrigerant charge calculations for 100+ different refrigerants. Input the indoor wet-bulb and outdoor dry-bulb temps. to get the target superheat temperature. Then, specify the suction line temperature and pressure to get the actual superheat temperature. The difference tells you whether to charge or not. Also, the app auto-assigns the dew version of azeotropic refrigerant to superheat, if applicable.
2. Perform subcool refrigerant charge calculations for 100+ different refrigerants. Input the indoor wet-bulb and outdoor dry-bulb temps. to get the target subcool temperature. Then, specify the liquid line temperature and pressure to get the actual subcool temperature. The difference tells you whether to charge or not. Also, the app auto-assigns the bubble version of azeotropic refrigerant to subcool, if applicable.
3. Use an interactive slider control to increase or decrease all values and immediately observe calculated results. Also, the slider control allows for "incremental" changes so you can ever-so-slightly change values to observe newly calculated results.
4. Specify atmospheric pressure (other than standard 14.7 psi) so that calculated pressures are adjusted for high elevations like those in Denver and elsewhere.
5. Customize input types so that you can specify manufacturer-specified target superheat/subcool or input indoor dry-bulb/indoor relative humidity in place of indoor wet-bulb temperature.
6. Take a photo and assign it to the project
7. Send an email that includes all inputs, results, and the photo with a custom message
8. Display input and result values in either English or Metric units
- Apple 应用商店
- 付费
- 生产力
商店排名
- -
Circuit Laboratory与HVAC RefCharge排名比较
对比 Circuit Laboratory 与 HVAC RefCharge 在过去 28 天内的排名趋势
排名
没有可用的数据
Circuit Laboratory 对比 HVAC RefCharge 的排名,按国家/地区比较
对比 Circuit Laboratory 与 HVAC RefCharge 在过去 28 天内的排名趋势
所有品类
没有可用的数据
生产力
通过免费试用版比较任何网站
Circuit Laboratory VS.
HVAC RefCharge
十二月 28, 2024