ZLB-DESIGNKIT-001

Bivar
749-ZLBDESIGNKIT001
ZLB-DESIGNKIT-001

Tillverk:

Beskrivning:
LED-belysningsutvecklingsverktyg Includes Board Mounted Light Pipes

Livscykel:
Ny produkt:
Nytt från denna tillverkare.

På lager: 30

Lager:
30 Kan skickas omedelbart
Minst: 1   Flera: 1
Enhetspris:
-,-- kr
Ext. pris:
-,-- kr
Est. Pris:

Prissättning (SEK)

Antal Enhetspris
Ext. pris
315,99 kr 315,99 kr

Produktattribut Attributvärde Välj attribut
BIVAR
Produktkategori: LED-belysningsutvecklingsverktyg
RoHS-direktivet:  
Design Kits
Bulk
Märke: Bivar
Produkttyp: LED Lighting Development Tools
Fabriksförpackningskvantitet: 1
Underkategori: Development Tools
Hittade produkter:
Markera minst en kryssruta för att visa liknande produkter
Markera minst en kryssruta ovan för att visa liknande produkter i denna kategori.
Attribut som valts: 0

Efterlevnadskoder
USHTS:
3926909989
MXHTS:
3926909988
ECCN:
EAR99
Ursprungsklassificeringar
Ursprungsland:
Kina
Monteringsland:
Ej tillgänglig
Distributionsland:
Ej tillgänglig
Landet kan komma att ändras vid leveranstillfället.

ZeroLightBleed™ Design Kit

BIVAR ZeroLightBleed™ Design Kit is designed to deliver maximum light transmission in light pipes by channeling light directly to the lens. The ZeroLightBleed™ solution is an innovative adapter technology that includes a built-in surface-mount LED.

31FL323x LED Lighting Development Boards

ISSI 31FL323x LED Lighting Development Boards are development tools that evaluate ISSI multi-channel LED drivers. LED drivers are electrical circuits used to power light-emitting diodes. The fully assembled and tested board is powered by the Arm® Cortex®-M3 or 80C51 (IS31FL3235A-QFLS2-EB) with a 5V operating supply voltage. The evaluation boards have multiple display modes.

IS31LT3360 Demonstration Board

ISSI IS31LT3360 Demonstration Board is a fully assembled and tested PCB that uses the IS31LT3360 continuous mode inductive step-down converter. This ISSI board is designed to drive single or multiple series connected LEDs. This performance is achieved efficiently from a voltage source higher than the LED voltage.