The DSC N-650 Differential Scanning Calorimeter measures heat flow of a sample as a function of temperature or time. The heat flux plate monitors the temperature differential between the sample and an inert reference as the sample undergoes a transition or reaction. This temperature differential is proportional to the heat absorbed or given off by the sample during a temperature program. The calorimeter is calibrated with reference standard materials and the thermal analysis software applies calibration factors to precisely and accurately determine the temperature range of a sample transition and the enthalpy of the transition.

The design of the DSC N-650 provides sensitive energy measurement and minimizes thermal cross talk between the sample and reference sensor. Its design gives more than two times the sensitivity than other DSC's on the market. Its reproducibility is good and the signal to noise ratio excellent due to precision electronics. Equipped with the DSC N-650 and the thermal analysis software, an analyst can measure transition enthalpies, glass transition temperatures, heat capacities, purity, reaction kinetics, and more.

1. Wide Temperature Range
DSC N-650 has wide temperature range(-150 to 725℃), and it allows users could measure various samples i.e. organic, inorganic and sometimes even metal sample.

2. Various cooling options
Water cooling, LN2 cooling, and mechanical cooling is available with DSC N-650, and users can select the most suitable cooling option according to their applications.

3. Selectable Heat Flux Plate
We offers 4 different types of heat flux plate so that users could make the best choice for their samples.

4. Dual PID control
DSC N-650 employs Dual PID control and therefore high temperature accuracy secured.

STA N-series Simultaneous Thermal Analyzer offers the ability to perform DSC & TGA experiments simultaneously. DSC measures heat flow of a sample as a function of temperature or time. The heat flux plate monitors the temperature differential between the sample and an inert reference as the sample undergoes a transition or reaction. This temperature differential is proportional to the heat absorbed or given off by the sample during a temperature program. The STA instrument is calibrated with standard reference materials and the thermal analysis software applies calibration factors to precisely and accurately determine the temperature range of a sample transition and the enthalpy of the transition.
TGA measures weight changes as a function of a precisely controlled temperature profile. The STA system allows for multiple heating, cooling and isothermal segments to be linked together to achieve a complex temperature program.
Gas switching is also supported when setting up the temperature program. The vertical hangdown design offers stable and smooth weight readings to be recorded during the experiment. The STA’s small mass furnace responds quickly to changes in the temperature profile and cools down quickly for fast turn around between experiments.

1. Simultaneous DSC, DTA, and TGA
STA N-series provides DSC, DTA and TGA data simultaneously beside competitors are offering TGA and DTA data only.

2. Conversion Kit
STA N-series can be converted into both low temp. STA N-650 and high temp. STA N-1000/1500 by using ‘Conversion Kit(optional accessory)’. This allows customers can perform a cryogenic and high temp. experiments according to their demand needless to purchase additional instrument.

3. Water Cooling System
STA N-series employs ‘Water Cooling system’, and thus cooling speed is very fast comparing to others(at least two times faster) and also safe to use.

4. EGA(Evolved Gas Analysis) Mode
By using the ‘EGA Mode’, users can connect STA N-series with FT-IR or GC-MS needless to exchange the Furnace.

5. Dual PID control
TGA N-series employs Dual PID control and therefore high temperature accuracy secured

The TGA N-1000/1500 measures weight changes as a function of a precisely controlled temperature profile. The system allows for multiple heating, cooling and
isothermal segments to be linked together to achieve a complex temperature
program.
Gas switching is also supported when setting up the temperature program. The vertical hangdown design offers stable and smooth weight readings to be recorded
during the experiment. The TGA's small mass furnace responds quickly to changes in the temperature profile and cools down quickly for fast turn around between experiments.
The TGA N-1000 / 1500 utilizes the advanced easy to use TA PC for Windows software. The Acquisition program sets up the experiment and plots the real time data. The Analysis program performs all calculations and provides hard copy outputs.

1. Vertical Hangdown Design
SCINCO's TGA is employing hangdown type operating principle, and thus high sensitivity is achieved.

2. Water Cooling System
TGA N-series employs ‘Water Cooling system’, and thus cooling speed is very fast comparing to others(at least two times faster) and also safe to use.

3. EGA(Evolved Gas Analysis) Mode
By using the ‘EGA Mode’, users can connect TGA N-series with FT-IR or MS needless to exchang the furnace.

4. Dual PID control
TGA N-series employs Dual PID control and therefore high temperature accuracy secured.