OPTOISO 3.75KV GATE DRIVER 8SMD
LITELINK III EVALUATION BOARD
SWITCH OPT ISOL AC SS PWR 16-PIN
RELAY SSR OPTOMOS DUAL NO 8-SOIC
RELAY OPTOMOS SP-NO 120MA 4-SMD
RELAY OPTOMOS 100MA DP-NO 8-SMD
RELAY OPTOMOS 120MA DP-NO 8FLTPK
RELAY OPTOMOS SP-NC 200MA 4-SIP
RELAY OPTOMOS 120MA SPDT 8-SMD
The CPC44055ST is an 800V Voltage-Controlled Device in Unique SuperSIP Package
Beverly, Massachusetts, USA – September 15, 2015 – IXYS Integrated Circuits Division (ICD), Inc.,an IXYS Company, (NASDAQ: IXYS), announced the availability of the CPC44055ST 20A(rms), (5A free-air), AC Power Switch. The voltage-controlled CPC44055ST features zero-cross turn-on circuitry, is specified with an 800V peak blocking voltage and is the latest addition to the SuperSIP family. Previously, IXYS ICD released the CPC40055ST AC Power Switch which is a current-controlled device with similar specifications. Tightly controlled zero-cross circuitry ensures low noise switching of AC loads by minimizing the generation of transients.
The CPC44055ST’s optically coupled input and output circuits provide exceptional noise immunity and 2500V(rms) of isolation between the control input and the output. As a result, the CPC44055ST is well suited for industrial environments where electromagnetic interference would disrupt the operation of plant facility communications and control systems.
The unique SuperSIP package pioneered by IXYS ICD enables Solid State Relays to achieve the highest load current available in any similarly sized package and is pin-to-pin compatible with the industry standard AC Output Module. This package features a unique process in which the silicon chips are soft-soldered onto a ceramic Direct Copper Bond (DCB) substrate instead of the traditional copper leadframe. The DCB ceramic, the same substrate used in high power modules, provides not only 2500V(rms) of input-to-output isolation but also very low thermal impedance (0.35 C/W).
This device can be used with a heatsink to achieve 20A(rms) output current or without a heatsink to achieve 5A(rms). The CPC44055ST requires only 5V of input control voltage to operate. Additionally, the SuperSIP package meets UL508 (Industrial Controls) pin-to-pin distance requirements.
Typical applications include AC motors up to 1/2 HP, AC line power control , high intensity lighting, UPS, Appliances and factory automation.
Additional Information about IXYS IC Division's CPC44055ST
Price and Availability
The CPC44055ST is available in production quantities. OEM pricing is $4.52 in quantities of 25KU.
For additional information, please contact your local sales representative:
About IXYS ICD and IXYS, Inc.
IXYS Integrated Circuits Division, (ICD), a leader in the design and manufacture of solid state relays and high voltage integrated circuits, is a wholly owned subsidiary of IXYS Corporation. IXYS Corporation develops and markets primarily high performance power semiconductor devices that are used in controlling and converting electrical power efficiently in power systems for the telecommunication and internet infrastructure, motor drives, medical systems and transportation. IXYS also serves its markets with a combination of digital and analog integrated circuits, power systems and RF GaAs and GaN based products. Additional information about IXYS Integrated Circuits Division, Zilog and IXYS may be found at www.ixysic.com, www.zilog.com and www.ixys.com.
Safe Harbor Statement
Any statements contained in this press release that are not statements of historical fact, including the performance, rating, availability, reliability, operation and suitability of products for various applications, may be deemed to be forward-looking statements. There are a number of important factors that could cause the results of IXYS to differ materially from those indicated by these forward-looking statements, including, among others, risks detailed from time to time in the Company's SEC reports, including its Form 10-Q for the fiscal quarter ended September 30, 2013. The Company undertakes no obligation to publicly release the results of any revisions to these forward-looking statements.