For rapid evaluation of the Silicon Carbide (SiC) pin fin power modules, CISSOID has developed a 3D-printed reference cooler (ACC-PLA1959E). 

This cooler is designed for tabletop laboratory use and includes both pressure and temperature measurement ports on the input and output sides. It is 3D printed in PA12 material and can be used with fluid temperatures up to 70°C.

The complete kit (ACC-PLA1008D) consists of the reference cooler and the necessary materials to mount one of CISSOIDs Intelligent Power Modules.

For rapid evaluation of the Silicon Carbide (SiC) pin fin power modules, CISSOID has developed a 3D-printed compact cooler (ACC-PLA1961A).

The complete kit (ACC-PLA1077A) consists of the compact cooler and the necessary materials to mount one of CISSOIDs Intelligent Power Modules.

The CHT-AMATHEA is a Medium Power 80V/3A dual-diode designed to achieve high performance in an extremely wide temperature range: typical operation temperature goes from -55°C to 225°C. 3 product flavours are available: Common Anode Common Cathode Dual Series The CHT-AMALTHEA is available in a metal can TO-257 package.

The CHT-ADC10 is a high-temperature, ultra-low-power, highly stable analog-to-digital converter. This successive approximation ADC is based on an R-2R network and features 10 bits of resolution and a strictly monotonic characteristic from -55°C up to +225°C. An optional internal clock generator is included to provide standalone operation. It includes Sample&Hold and µP interface with possibility of serial data transfer. The maximum sampling rate is 25kS/s.

CHT-ATLAS is a high-temperature, high reliability power transistor driver integrated circuit specifically designed to drive widebandgap power transistors, in particular Gallium Nitride (GaN) and Silicon Carbide (SiC) devices including normally-On and normally-Off JFETs, MOSFETs and BJTs. It is also used with standard silicon MOSFETs and IGBTs in standard temperature applications (e.g. 125°C) where it brings an increase in reliability and lifetime by an order of magnitude compared to traditional solutions. The circuit features 2 independent push-pull channels capable of sourcing/sinking 2A each. When configured together to drive a single power switch, the combination of the 2 distinct channels allows driving of specific devices that require for instance a dynamic pulse of current in combination with a continuous current in order to be properly turned-on. The circuit includes a soft-shut-down capability that slowly shuts down the power transistor in case of fault.

CHT-CALLISTO features high temperature dual common anode 80V / 300mA diodes packaged in a hermetically sealed TO18 metal can. It is designed to achieve high performance in an extremely wide temperature range: typical operation temperature goes from -55°C to 225°C while keeping leakage currents low. This dual diode can be used in a variety of applications, including rectification and general purpose.

The CG50LP is CISSOID’s 2nd generation clock generator IC. It combines the unrivalled robustness of its predecessor device CG50, while bringing additional features, lower pin count and ~40% current consumption reduction (compared to CG50). The CG50LP is a high-temperature crystal clock Generator integrated circuit that features a built-in frequency divider selectable from 1 to 512, an enable/disable control signal and an external clock input. Its output driver capability is programmable (8/16mA) as well as the crystal driver strength. Using an external crystal, it brings reliable precision performance throughout the -55 to +225°C temperature range, as well as unrivalled lifetime at any temperature within this range.

The CHT-555 is a high-temperature, low-power, highly stable device for generating accurate time delays or oscillations, with enhanced capabilities compared to the well known NE555.

CHT-74xx Logic Family is optimized for High-Temperature, High Reliability applications. It brings digital functions to system designers targeting high temperature electronics, up to +225°C. The CHT-7400 contains 4 independent high-temperature 2-input NAND gates. It can operate with supply voltage from 3V to 5.5V.

CHT-74xx Logic Family is optimized for High-Temperature, High Reliability applications. It brings digital functions to system designers targeting high temperature electronics, up to +225°C. The CHT-74021 contains 4 independent high-temperature 2-input NOR gates. It can operate with supply a voltage from 3V to 5.5V.

CHT-74xx Logic Family is optimized for High-Temperature, High Reliability applications. It brings digital functions to system designers targeting high temperature electronics, up to +225°C. The CHT-7404 contains 6 independent high-temperature inverters. It can operate with a supply voltage from 3V to 5.5V.

CHT-74xx Logic Family is optimized for High-Temperature, High Reliability applications. It brings digital functions to system designers targeting high temperature electronics, up to +225°C. The CHT-7408 contains 4 independent high-temperature 2-input AND gates. It can operate with supply voltage from 3V to 5.5V.

CHT-74xx Logic Family is optimized for High-Temperature, High Reliability applications. It brings digital functions to system designers targeting high temperature electronics, up to +225°C. The CHT-74132 contains 4 independent high-temperature 2-input NAND gates with Schmitt trigger. It can operate with supply voltage from 3V to 5.5V.

CHT-74xx Logic Family is optimized for High-Temperature, High Reliability applications. It brings digital functions to system designers targeting high temperature electronics, up to +225°C. The CHT-7432 contains 4 independent high-temperature 2-input OR gates. It can operate with supply voltage from 3V to 5.5V.

CHT-74xx Logic Family is optimized for High-Temperature, High Reliability applications. It brings digital functions to system designers targeting high temperature electronics, up to +225°C. The CHT-744040 is a high-temperature 12-stage asynchronous binary counter. It can operate with supply voltage from 3V to 5.5V.

CHT-74xx Logic Family is optimized for High-Temperature, High Reliability applications. It brings digital functions to system designers targeting high temperature electronics, up to +225°C. The CHT-7474 contains 2 independent high-temperature positive-edge triggered D-type Flip-flop. It can operate with a supply voltage from 3V to 5.5V.

CHT-74xx Logic Family is optimized for High-Temperature, High Reliability applications. It brings digital functions to system designers targeting high temperature electronics, up to +225°C. The CHT-7486 contains 4 independent high-temperature 2-input XOR gates. It can operate with supply voltage from 3V to 5.5V.

CHT-HADES2P is a high-temperature, high reliability single chip primary side of a gate driver solution. It implements a current mode controlled DC-DC flyback converter for the generation of the on-board power supplies and the isolated data transmission from the external control interface to the 2 secondary sides and performs local fault management. This device has been designed in a way to reduce as much as possible the required number of external passive devices and to limit the requirement in high capacitor values (large footprint at high temperature). Its features a UVLO monitoring on the incoming power supply, a linear voltage regulator to generate the local 5V supply voltage and an on/off keying modulation of the data signal towards the secondary side. It offers wide voltage range for the input PWM signals (5 to 15V) and hysteresis to enhance immunity to system noise; it also features a spike filtering function on those PWM signals to prevent spurious turn-on/turn-off of the secondary gate drivers.

CHT-HADES2S is a high-temperature, high reliability single chip fully integrated gate driver specifically designed to drive wide-bandgap high voltage / high power transistors, in particular Gallium Nitride (GaN) and Silicon Carbide (SiC) devices. It offers the most compact solution available on the market thanks to its small size and the low number of external components it requires. It also features the highest output current in the industry for products of this type. CHT-HADES2S can be used with standard silicon MOSFETs and IGBTs in standard temperature applications (e.g. 125°C) where it brings an increase in reliability and lifetime by an order of magnitude compared to traditional solutions. The circuit features push-pull transistors capable of sourcing/sinking up to 12A each. It includes as well soft-shutdown, under-voltage lockout, desaturation detection, Active Miller Clamping, over-temperature sensing and isolation interface to primary function. CHT-HADES2S can be used either stand-alone or in combination with CHT-HADES2P, which generates control signal to drive high bandwidth transistors.

The CHT-OPA is a general-purpose quad operational amplifier for applications over the temperature range from -55 to 225°C. The CHT-OPA can operate with both single and symmetrical power supplies. The supply voltages range goes from 4.5 to 20V.