Supplier sections

Abracon LLC

Advantech

Alliance Memory

American Technical Ceramics

Analog Devices

Antenova

Arcol

Arcolectric

Avalue

Bel components

Bergquist

Binder

Bivar

Bloomice

Bolb Inc

Bourns

Boyd

Bulgin

Bussmann

C&K

Calinar

Cambion

CamdenBoss

Carclo

CEL

Ceramate

Cliff Electronic Components

Conquer

Cornell Dubilier

Cosmic

Co-Tron

Cree

Cre-Sound

CTC

CTi

Deltron

Digi International

Diptronics

EAO

Eaton Bussmann/Coiltronics

ECE

Ecliptek

Efficient Power Conversion

Efore

Ekinglux

Elettronica Rossoni

EPCOS

EPOC

ESI

Eurohm

Fischer

Fox Electronics

Haimooo

Hammond Manufacturing

Harting

Harwin

Herald

Hirose

Hirschmann

Hittite

Honeywell

Hongfa

Hope RF

Hudson

Ilsi

Inalways

Invac

Ixys

JDI Europe

JNC

Kang yang

Keystone

Khatod

Kingtek

KOA

KYOCERA AVX

Laird Technologies

LEDIL

Linear Technology

LITE-ON Optoelectronics

Littelfuse

Lumberg

Lumileds

Magnetix

Magnetone

Marl

Mascot

Mitsubishi

Mmd

M-Pro

Mueller

Murata

MurataPS

Neutrik

Nichicon

Nover

Ohmite

OKO

Omron

Panasonic

PANJIT

Phoenix Contact

Pickering

Piher

Polymer Optics

Quay RF

Renata

RF360

ROHM

Roxburgh

Samsung

Schaffner

Schurter

Sensirion

Shindengen

SIMCom

Solomon Systech

STMicroelectronics

Studiomate

Taicom

Taiwan Semiconductor

Taiway

Taoglas

TDK

Tdk Invensense

Telit Cinterion

Tianbo

Titan-Opto

Tokyo Parts

Toshiba

Varta

Vigortronix

Walsin

Warth

WIMA

Winbond

Introducing the award-winning HEX-BOX enclosures from CamdenBoss ideal for IoT applications, samples available from Anglia

Manufactured in the UK by CamdenBoss, the versatile Hex-Box enclosure family has been designed with a focus on user-friendly customisation and flexibility at heart.

Click Here

Rate this page

You can now follow us on Blogger, Facebook, LinkedIn, Twitter, WordPress, Live Journal or You Tube by clicking on the logos below.

Anglia delivers by

Recognised as the UK’s number one for reliability, flexibility and customer service.

CeraLink Capacitors from TDK offer a compact solution for converters

The CeraLink™ capacitor product range from TDK is a highly compact solution for the snubber and DC links of converters with special requirements with respect to space, temperature or ESL. E.g. they are ideal in connection with SiC or GaN based devices. These capacitors are based on the ceramic material PLZT (lead lanthanum zirconate titanate). In contrast to conventional ceramic capacitors, CeraLink has its maximum capacitance at the application voltage and due to their patented antiferroelectric capacitor technology, the capacitance of TDK CeraLink capacitors rises with increasing voltage.

Two designs are currently available:
LP series (B58031*) - SMD low profile series with a capacitance of 1 µF and a rated voltage of 500 V DC, or 0,5µF and a rated voltage of 700V. click here to download the datasheet.

SP series (B58033*) - Solder-pin series with a capacitance of 20 µF and a rated voltage of 500 V DC, click here to download the datasheet.

Both types offer extremely low ESL values of below 3.5 nH. The capacitors are designed for an operating temperature of -40°C to +150°C.

Thanks to their extremely low ESL and ESR properties, CeraLink capacitors can support higher switching frequencies and the use of lower-cost and more robust semiconductors. Furthermore, capacitor value, board space, magnetics, heat sink and so on can also be reduced significantly so that the total cost of solution (TCS) can typically be reduced by more than 40 percent.

A great advantage of the SMD low-profile CeraLink versions is that they can even be embedded in IGBT modules thanks to their compact dimensions. This results in a very low-inductance design, so that no significant overvoltages are produced when the semiconductors are switched.

Click here to view a video overview of the Ceralink capacitors from TDK

Outstanding ESR performance at high temperatures

Low leakage currents (isolation) aging degradation

A key parameter for power electronics is the self-discharging time constant and its temperature dependence. High values even at high temperatures minimize the risk of high temperature failure modes such as thermal runaway. Due to its structure, the ceramic material used in CeraLink capacitors is superior to that of existing ceramic systems and therefore outstanding aging properties can be expected.

High current rating both with and without cooling

This measurement was taken at +85°C ambient temperature. Due to the high thermal conductivity of the copper electrodes, CeraLink capacitors can be cooled very effectively. The permissible current is only limited by the device temperature. Even without forced cooling (no air flow, no heat sink) it is possible to apply several A/°F.

Main applications