cls4d23 Sumida Corporation, cls4d23 Datasheet
cls4d23
Manufacturer Part Number
cls4d23
Description
Power Inductor Power Transformer
Manufacturer
Sumida Corporation
Datasheet
1.CLS4D23.pdf
(2 pages)
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
cls4d23B-110NC
Manufacturer:
SUMIDA
Quantity:
24 000
Company:
Part Number:
cls4d23B-170NC
Manufacturer:
SUMIDA
Quantity:
24 000
Company:
Part Number:
cls4d23B-220NC
Manufacturer:
SUMIDA
Quantity:
24 000
Company:
Part Number:
cls4d23B-2R2NC
Manufacturer:
SUMIDA
Quantity:
24 000
Company:
Part Number:
cls4d23B-3R6NC
Manufacturer:
SUMIDA
Quantity:
24 000
Type: CLS4D23
◆ Product Description
◆ Feature
◆ Dimensions (mm)
◆ Schematics (Bottom)
・5.2×5.0mm Max.(L×W), 2.5mm Max. Height.
・4 Terminal pins’ type gives a flexible design as inductors or transformers
・Custom design is available.
・Max. Operating frequency 1MHz, Max.
・2 in 1 Coils for high efficient up-down DC-DC converters (SEPIC, Zeta circuits to be used).
・Can be also used as DC-DC converter inductors.
・Ideally used in the power supply for DSC、Note PC、DVC and W-LED backlighting.
・RoHS Compliance
S
(SEPIC,ZETA circuit).
“ S” indicates winding start.
2
1
Please refer to the sales offices on our website for a representative near you
4.8 ±0.2
4
3
S
Power Inductor & 2 in 1 Power Transformer < SMD Type: CLS Series>
www.sumida.com
Max.2.5
◆ Land Pattern (mm)
4.2
2.6
3.1
1.5
1/2
Related parts for cls4d23
cls4d23 Summary of contents
Page 1
... Type: CLS4D23 ◆ Product Description ・5.2×5.0mm Max.(L×W), 2.5mm Max. Height. ・4 Terminal pins’ type gives a flexible design as inductors or transformers (SEPIC,ZETA circuit). ・Custom design is available. ◆ Feature ・Max. Operating frequency 1MHz, Max. ・ Coils for high efficient up-down DC-DC converters (SEPIC, Zeta circuits to be used). ...
Page 2
... CLS4D23NP -2R2N□ CLS4D23NP -3R6N□ D CLS4D23NP -5R3N□ E CLS4D23NP -7R3N□ CLS4D23NP -11ØN□ CLS4D23NP -17ØN□ H CLS4D23NP -22ØN□ I ※ Description Of Part Name CLS4D23NP -1R2N□ ※1. Saturation Current: The DC current at which the inductance decreases to 90% of it’s nominal value. ...