Design Ideal for Labs and Small-Scale Production
Measuring only 27.2" L x 18.9" W x 11" H (690 mm L x 480 mm W x 280 mm H), the MC301N easily installs on virtually any benchtop. Its ability to simulate inline reflow profiles with preheat, soak, reflow, and cooling phases makes it a great choice for labs or other installations where space is often at a premium. The front-loading heating chamber has an effective soldering area of 9.84" x 7.87" (250 x 200 mm) and includes a window for viewing of the soldering process.
Easy Installation - Up and Running in No Time
The MC301N has an average power rating of 3.6 KW (6.3 KW, peak) and requires a 220-240V, single-phase, voltage supply rated at 30 amps. Built-in circulation fans provide air flow for heating and cooling, and hot air is exhausted through a 2.5" flanged outlet on the rear of the unit. For removal of flux fumes, it is recommended to hook up a non active flexible hose or a vent hood.
Exclusive Android-Based Control Application
The MC301N Android-based control app provides an easy-to-use, touch-panel interface with virtual keyboard for setting the temperature and duration of the preheat, soak, reflow, and cooling stages. In the reflow zone, the user can specify the dwell at both the melting and peak temperatures. Based on these settings, the system will also automatically calculate the heating or cooling rate in each stage for verification with solder paste and component manufacturers' specifications. In addition, when heater control is based on the higher temperature measured at the heaters, the system displays the calculated board temperature based on a calibrated offset.
Real-Time Temp Control via On-Board TC
In the MC301N's password-protected advanced settings, the unit can be switched into a separate control mode that uses real-time feedback from a built-in, flying thermocouple. In this mode, with the thermocouple attached at a strategic location on the PCB surface, heater control is based on the actual temperature measured at the thermocouple. As you can see in this screen capture, the target temperature is equal to the thermocouple temperature and there is no offset.
Temp Recordings Easily Saved & Distributed via WiFi
In the run mode, the high-resolution touch-panel displays a graphical representation of the heat zone temperature (red) versus the PCB temperature (yellow) throughout the reflow cycle. For process control and traceability, screens can be saved as separate files and distributed electronically via Email or across networks using the Android OS and built-in WiFi capability.
|Applicable Solder Types||Lead-Free or SnPb|
|Heating Method||IR & Forced Hot Air Convection|
|User Interface||Android Software Platform |
Ultra High Resolution Touchscreen
Integrated WiFi & Networking
|Effective Soldering Area||9.84" x 7.87" (250 mm x 200 mm)|
|Temperature Range||Ambient - 310 °C|
|Temperature Precision||±2 °C|
|Temperature Control Method||PID Control; SSR Contactless Switch Circuit|
|Warm-Up Time||Approx. 2.5 min.|
|Power||3.6 KW (avg.); 6.3 KW (max.)|
|Voltage||220 V, Single Phase, 50/60 Hz|
|Nitrogen Input Pressure||0.6MPa (87 psi)|
|Maximum Flow Rate||120 to 150 l/min|
|N2 Gas Flow||Software Programmable|
|Oxygen Level||3000 ppm with 5 l/min|
|Exhaust Temperature (approx.)||60°C|
|Dimensions||27.2" L x 18.9" W x 11" H |
(690 mm L x 480 mm W x 280 mm H)
|Weight||Approx. 208 lbs. (95 kg)|