Applications

MultiLayer Ceramic Capacitors can store large amounts of energy in a minimum of space. They are insensitive to temperature, moisture and polarity reversal. These ceramic components make ideal surface mount devices (SMDs) and are eminently suitable for telecommunications, automotive and entertainment electronics applications.

Multilayer Varistors or MLV's are tiny ceramic chips terminated on each end. They can be used to protect circuits from electrostatic discharge and other high voltage surges. As with disc varistors, the purpose of an MLV is to protect an electronic circuit by carrying away unwanted high voltage spikes.

Multilayer Inductors (MLI) are manufactured using semiconductor material typically based on ferrites with inorganic dopants (a black, nonconductive, brittle magnetic material).
MLI´s are inductors constructed by layering the coil between the layers of core material. When using tape cast ceramic layers, holes are punched and filled with the conductor used to make the interconnection between the spiral's circles screen printed in the subsequent layers. The coil normally consists of a bare metal material (no insulation). This technology is normally referred to as “non-wirewound”. Two technologies exist to manufacture these components: the so called wet technology using screen printing and the dry technology using tape casting. A comparison can be found in the paper by Oostra and Höppener in 2001.

The inductance value can be made larger by adding additional layers for a giving spiral pattern. These are all ploys to multiply the inductance of a given coil by the "permeability" of the core material. Packing methods for chip inductors include tape reel, tray, tube, or bulk pack. Common applications include common mode choke, general purpose, high current, high frequency, power inductor, and RF choke.

Piezo Actuators are key components of piezoelectric fuel injection systems in diesel and gasoline engines. With their low mass and short switching times, piezo actuators are far superior to the conventional solenoid valves used to actuate the injection needles in fuel injection valves. Thanks to piezo technology, the injection process can be divided into seven injection events at four times the switching speed. Whereas solenoid valves have a fixed displacement, that of a piezo actuator can be varied. Key benefits are lower fuel consumption, and reduced exhaust and noise emissions. The piezo actuator uses the inverse piezo effect. If a voltage is applied to a piezoelectric crystal, its dimensions change. But this effect cannot be exploited and no significant displacement obtained until several hundred layers of piezoelectric material are superimposed. Depending on type, piezo actuators contain up to 1,800 ceramic layers in a stack up to 45 mm high. This results in a displacement of 65 micrometers – enough to operate the needle in the injection nozzle and inject fuel into the cylinder.

PTC and NTC thermistors are ceramic components whose resistance varies with temperature. They are mainly used to measure and control temperature in automotive electronics and domestic appliances. Thermistors also protect electric motors against overload.

Solid Oxide Fuel Cells are devices that convert chemical energy into electrical and thermal energy, combining oxygen and hydrogen. They operate at high temperatures (600...1000°C). Single SOFC cells consist of three main components: two porous electrode layers separated by a dense, oxygen-conducting electrolyte layer (the structure thickness is less than 1 mm (0.04")). The cathode receives oxygen (usually from hot air), and the anode receives hydrogen, often derived from a hydrocarbonyl fuel. The oxygen ions, created by surface reactions in the cathode, migrate from the cathode to the anode through the electrolyte and combine with hydrogen. Water and free electrons are produced and a current flow is created through an external load. The most common electrolyte material is Yttria Stabilized Zirconia (YSZ); the cathode is generally made up of porous perovskite-structured ceramics. The currently preferred SOFC anode material is a porous Ni-YSZ cermet.

The SOFC cells fabrication process consists of:

• tape casting of the anode and cathode layers
• deposition of the electrolyte on either the cathode or the anode layer
• co-sintering of the stack.

Please visit our website on printed electronics for more information.

Solar cells convert sunlight directly into electricity. Solar cells are often used to power calculators and watches. They are made of semiconducting materials similar to those used in computer chips. When sunlight is absorbed by these materials, the solar energy knocks electrons loose from their atoms, allowing the electrons to flow through the material to produce electricity. This process of converting light (photons) to electricity (voltage) is called the photovoltaic (PV) effect.