iTECPad app for iPhone and iPad


4.8 ( 3438 ratings )
Productivity Catalogs
Developer: RMT Ltd.
Free
Current version: 2.7.2, last update: 7 years ago
First release : 23 Feb 2013
App size: 595.57 Mb

iTECPad is a professional app for engineers and developers that work with thermoelectric coolers (TECs) in the laser and optoelectronics industry sectors. It is developed especially for the iPad to perform analyses and estimations for thermoelectric coolers without any PC support.
iTECPad contains a complete list of RMT Ltd. standard thermoelectric coolers with all necessary information about performance and manufacturing options. There are data sheets for more than 1600 different types of coolers available. The integrated search makes it easy to find appropriate thermoelectric coolers. A key feature of iTECPad is a comprehensive performance analysis for TECs selected by the user. The app provides detailed performance information for TECs under specified application conditions. iTECPad gives a fast and easy unique ability for engineers to find the optimal thermoelectric cooler for their project, without time consuming complex estimations.

Features of iTECPad:
- Detailed data sheets for more than 1600 different thermoelectric coolers (TECs)
- Integrated search by dimensions and performance parameters
- Complete information about manufacturing options and additional features
- Performance plots and values under standard operating conditions (at 300K in vacuum)
- Performance plots and values under user specified operating conditions
- Detailed analysis of TE cooler performance, cooling capacity and power consumption
- Scenario creation, analysis and comparison functions
- Comparison analysis for multiple selected TE coolers, share results by Email or AirPrint
- Power Scan Plots: Determine the active Qmax and optimal operation point of a TEC for a required maximal ∆T. Explore the power consumption profile of a TEC with one tap
- Overview Plots: Display ∆T and voltage for active heat loads in the range [0, Qmax]

iTECPad allows to select the most optimal TE cooler by a detailed analysis of performance and power consumption under specified operating conditions.