ACTIVES

 

Technology

Manufacturer

Current Lead-Times

Lead-Times Trend

Comments

 
 

Rectifiers

Diodes Inc

12-24

Increasing

Schottky rectifiers SOT23 and SOD323 20- 24 weeks, PDI123 21 weeks, SBR TO220AB 12-20 weeks, SMA 16-18 weeks.

 

Vishay

16-52

Increasing

There are increased lead times in SMA, SMB, SMC, TO-220, TO-263 and DPAK. Schottkys are most affected with 40-52 weeks lead time.

 

ON Semiconductor

18-42

Increasing

SOD123 flat lead, SOT23 copper and SMA Flat lead 36-42 weeks lead time. Automotive parts 26-32 weeks

 

STMicroelectronics

20-33

Increasing

TURBO 2 Ultrafast High Voltage Rectifiers running about 20 weeks. Everything else is 25-33 weeks.

 

Fairchild

12-14

Stable

 

 

TVS Diodes

Diodes Inc

12-16

Increasing

 

 

Littelfuse

16

Increasing

Purchased ON Semi TVS business Lead times 24 weeks

 

Vishay

25-40

Increasing

SMC at 25 weeks SMA and SMB at 40

 

STMicroelectronics

8

Stable

 

 

Schottky Diodes

Diodes Inc

12-22

Increasing

 

 

Nexperia

20-40

Increasing

SOT23SD/DD from 20 to 45 weeks - SOD523 from 40 weeks - - SOT 89 40 WEEKS - SOT323SD/DD from 40 weeks SOT363 from 30 to 40 weeks SOT353P 20-40 WEEKS SOD123F 30 WEEKS DHVQFN14/16/20/24 from 12 to 24 weeks – DFN PACKAGES 20 weeks – SOD 323 26 WEEKS – SOT 223 40 WEEKS – DSN PACKAFES 20 WEEKS

 

ON Semiconductor

20-40

Increasing

SMA 23-40 WEEKS – SMB 23-40 WEEKS – SMC 28-33 WEEKS – SOT 23 COPPER 20-45 WEEKS – SOT 89 16-30 WEEKS – SOT223 40 WEEKS – TO220 16-22 WEEKS – SOD 923 18-22 WEEKS – SOIC-8-14-16 20-30 WEEKS – SOD123 COPPER 20-30 WEEKS – SOD 323 DPAK 20-30 WEEKS – DFN PACK 20-52 WEEKS – SC 70 18-30 WEEKS

 

Fairchild

16-45

Increasing

 

 

Switching Diodes

Diodes Inc

12-22

Increasing

 

 

Fairchild

16-45

Increasing

 

 

ON Semiconductor

16-40

Increasing

SMA 23-40 WEEKS – SMB 23-40 WEEKS – SMC 28-33 WEEKS – SOT 23 COPPER 20-45 WEEKS – SOT 89 16-30 WEEKS – SOT223 40 WEEKS – TO220 16-22 WEEKS – SOD 923 18-22 WEEKS – SOIC-8-14-16 20-30 WEEKS – SOD123 COPPER 20-30 WEEKS – SOD 323 DPAK 20-30 WEEKS – DFN PACK 20-52 WEEKS – SC 70 18-30 WEEKS

 

Nexperia

20-40

Increasing

SOT23SD/DD from 20 to 45 weeks - SOD523 from 40 weeks - - SOT 89 40 WEEKS - SOT323SD/DD from 40 weeks SOT363 from 30 to 40 weeks SOT353P 20-40 WEEKS SOD123F 30 WEEKS DHVQFN14/16/20/24 from 12 to 24 weeks – DFN PACKAGES 20 weeks – SOD 323 26 WEEKS – SOT 223 40 WEEKS – DSN PACKAFES 20 WEEKS

 

Zener Diodes

Diodes Inc

12-22

Increasing

 

 

Fairchild

10-30

Increasing

 

 

Nexperia

6-40

Increasing

SOT23SD/DD from 20 to 45 weeks - SOD523 from 40 weeks - - SOT 89 40 WEEKS - SOT323SD/DD from 40 weeks SOT363 from 30 to 40 weeks SOT353P 20-40 WEEKS SOD123F 30 WEEKS DHVQFN14/16/20/24 from 12 to 24 weeks – DFN PACKAGES 20 weeks – SOD 323 26 WEEKS – SOT 223 40 WEEKS – DSN PACKAFES 20 WEEKS

 

ON Semiconductor

12-40

Increasing

SMA 23-40 WEEKS – SMB 23-40 WEEKS – SMC 28-33 WEEKS – SOT 23 COPPER 20-45 WEEKS – SOT 89 16-30 WEEKS – SOT223 40 WEEKS – TO220 16-22 WEEKS – SOD 923 18-22 WEEKS – SOIC-8-14-16 20-30 WEEKS – SOD123 COPPER 20-30 WEEKS – SOD 323 DPAK 20-30 WEEKS – DFN PACK 20-52 WEEKS – SC 70 18-30 WEEKS

 

Vishay

12-44

Increasing

SMA SMB - 28-44 WEEKS

 

Bridge Rectifiers

Diodes Inc

16-30

Increasing

DFxx series 25-30 weeks, KBPxx series 21-25 weeks.

 

Fairchild

12-42

Increasing

 

 

Vishay

19-45

Increasing

 

 

General Purpose Transistors

Diodes Inc

12-22

Increasing

 

 

Fairchild

10-40

Increasing

 

 

Nexperia

13-40

Increasing

SOT23SD/DD from 20 to 45 weeks - SOD523 from 40 weeks - - SOT 89 40 WEEKS - SOT323SD/DD from 40 weeks SOT363 from 30 to 40 weeks SOT353P 20-40 WEEKS SOD123F 30 WEEKS DHVQFN14/16/20/24 from 12 to 24 weeks – DFN PACKAGES 20 weeks – SOD 323 26 WEEKS – SOT 223 40 WEEKS – DSN PACKAFES 20 WEEKS

 

ON Semiconductor

12-40

Increasing

SMA 23-40 WEEKS – SMB 23-40 WEEKS – SMC 28-33 WEEKS – SOT 23 COPPER 20-45 WEEKS – SOT 89 16-30 WEEKS – SOT223 40 WEEKS – TO220 16-22 WEEKS – SOD 923 18-22 WEEKS – SOIC-8-14-16 20-30 WEEKS – SOD123 COPPER 20-30 WEEKS – SOD 323 DPAK 20-30 WEEKS – DFN PACK 20-52 WEEKS – SC 70 18-30 WEEKS

 

Rohm Semiconductor

10-60

Increasing

The following packages have been extended to 40 weeks CPT - TSMT356 - TSMT36M - TSMT8 - TSMT8M - SOP8 - UMD2M - USM - EMD2M - EMD2 - TUSH/TUMD2S - PMDU - PMDUM – PSM – PMDS - SSOP5 - SSOP6

 

PASSIVES

 

Trimmers & Pots

BI Tech

8-12

Stable

 

 

Piher

10-14

Stable

 

 

Panasonic

14-16

Decreasing

Pots will be EOL by the end of 2017

 

Vishay

10-14

Stable

 

 

Electrolytic

NIC Components

18-20

Increasing

Leadtimes pushed out. Some pricing has been increased. Pushouts some cases 40 weeks

 

Nichion

18-28

Stable

SMD 10x10,8x10,6.3x7.7 Leadtimes coming down now between 18-24, Snap-in still 28-30, price increases happening

 

Surge

14-19

Increasing

Lead-times pushing out closing on 20 weeks on some products

 

Panasonic

14-18

Decreasing

Some SMD dropping from 18 to 16 weeks. Some price increases.

 

United Chemicon

16-20

Increasing

Leadtimes increasing the 18-20 weeks

 

Capacitors - Tantalum

AVX

20-28

Increasing

Long lead-times across all case sizes

 

Vishay

15-20

Increasing

Lead-times extending on small case sizes A & B

 

Leaded Capacitors - Ceramic

AVX

18-20

Stable

 

 

Murata

18-20

Stable

A lot of parts EOL'd

 

Vishay

12-16

Stable

 

 

NIC Components

14-18

Increasing

 

 

TDK

14-20

Increasing

 

 

Surface Mount General Capacitors – Ceramic

AVX

24+

Increasing

Automotive Specs Sold Out, Allocation on 44 series of parts. Controlled order entry on long list of parts

 

Murata

20-38+

Increasing

Controlled order entry on a long list of parts, mostly large case sizes. EOL notification on many parts

 

Samsung

24+

Increasing

Lead times under pressure, price increases in Q1 2018

 

TDK

24+

Increasing

On severe allocation

 

Taiyo Yuden

30+

Increasing

On severe allocation

 

NIC Components

24+

Increasing

 

 

Yageo

38+

Increasing

Price increase in Q1 2018, Controlled order entry on long list of parts

 

Walsin

40+

Increasing

 

 

Vishay

16+

Stable

 

 


Kt Kingtronics shares you how to bend or cut wires of Axial Lead Diodes. There are several things that you should pay attention to. Please compare with the correct and wrong doing.

Correct

Wrong

Fig.1: Before bending, the diode’s leads must be clamped completely to prevent stress inside the diode. Use the light grey plunger above When clamping and fixing

Fig.1a: Here the diode is not clamped, the diode easy to move and the chip inside with pressured.

Fig.2: Now the bending process begins. Only the wire which must be bent is unclamped, while the diode itself is fixed.

Fig.2a: Now the bending process starts.
The complete wire becomes stressed.

Fig.3: The bending process is done. The diode and the wires are completely clamped, no force or bending moment was created which could damage the internal diode chip.

Fig.3a: The bending process is done.
The diode and the wires are not clamped, a force and bending moment was created damaging the internal diode chip.

Contact us

Tel: (86) 769 8118 8110
Tel: (852) 8106 7033
Fax: (852) 8106 7099
E-mail: info@kingtronics.com
Skype: kingtronics.sales
MSN: kingtronics-sales@hotmail.com
Web: www.Kingtronics.com
YouTube: www.youtube.com/c/Kingtronicskt

About

Kingtronics International Company was established in 1995 located in Dongguan City of China to handle all sales & marketing for factories located in Chengdu, Sichuan and Zhaoqing, Guangdong, China. In 1990, we established the first factory to produce trimming potentiometer and in 1999 we built up new factory in Zhao Qing, Guangdong. Now with around 850 workers, Kingtronics produce trimming potentiometers, dipped tantalum capacitors, multilayer ceramic capacitors, and diode & bridge rectifier. We sell good quality under our brand Kingtronics, and Kt, King, Kingtronics are our three trademarks. All our products are RoHS compliant, and our bridge rectifier have UL approval. Please visit our Products page, you could please download all our PDF datasheet and find cross reference for our Trimming Potentiometer and capacitors.

Tantalum and Ceramic Capacitors Cross Reference ↓ Download
Diodes & Rectifiers List(PDF: 97KB) ↓ Download
Trimming Potentiometer Cross Reference ↓Download

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