Product Info
Description
OVERTEMP
Repair
ICC’s large inventory investment includes IC3600SOTD1. ICC’s highly skilled technicians have the training and expertise to repair IC3600SOTD1. In addition, our IC3600SOTD1 repairs come with a warranty. Please fill out our Request a Quote form with IC3600SOTD1 in the Subject Line, and/or include IC3600SOTD1 in the Message, for additional information about ICC’s IC3600SOTD1. A ICC Business Development Leader will assist you with your IC3600SOTD1 needs shortly!
Reman
Purchasing a remanufactured GE IC3600SOTD1 offers substantial savings over new/unused with the functionality and reliability to match. Our assurance in remanufactured products allows ICC to offer 24 Months Warranty.
Exchange
Exchange is the combination of quick supply with applied discount against your old faulty card. Send us your old GE IC3600SOTD1 and we will replace (exchange) with a remanufactured spare, supplied with 24 Months Warranty
IC3600SOTD1 is a GE Fanuc over-temperature board for the turbine control system. The card contains eight potentiometers, commonly known as variable resistors. The amount of energy that can pass through the Variable Resistors is controlled by little screws on the front.
These little screws can be accessed through small holes in the card's faceplate. There are fifty-five light blue resistors with various stripes on the board's exterior. These stripes include a color code as well as a calculation for determining the resistance capabilities of each resistor.
The PCB is made up of four small silver transistors and five small black transistors. Transistors are used to amplify and change electrical and electronic signals.
The board is made up of two square capacitors, four small circular capacitors, three yellow capacitors, two white capacitors, and two black capacitors. Capacitors are used to create electrical fields that store energy for later usage by the PCB. They come in a range of shapes and sizes.
The IC3600SOTD1 contains approximately ten small orange and black diodes. A diode allows energy to flow in only one direction, allowing it to control the flow of energy via the circuit board. There are approximately fifty metal male terminal prongs on the board that connect it to the rest of the system.
