onsemi NCP5623DTBR2G

Tape & Reel (TR) NCP5623 Charge Pump I2C PWM led driver 5.1mm 30mA 5.5V 235mW
Production

Price and Stock

Authorized Distributors
Non-Authorized Stocking Distributors
Non-Authorized Dealers

Technical Specifications

Physical
Case/PackageTSSOP
Contact PlatingGold
MountSurface Mount
Number of Pins14
Technical
Ambient Temperature Range High85 °C
Frequency1.2 MHz
Max Input Voltage5.5 V
Max Junction Temperature (Tj)150 °C
Max Operating Temperature85 °C
Max Power Dissipation200 mW
Max Supply Current350 µA
Max Supply Voltage5.5 V
Min Input Voltage2.7 V
Min Operating Temperature-40 °C
Min Supply Voltage2.7 V
Nominal Supply Current350 µA
Number of Outputs3
Number of Segments3
Output Current90 mA
Output Voltage5.7 V
PackagingDigi-Reel®
Power Dissipation235 mW
Schedule B8542390000
Switching Frequency1 MHz
TopologyCharge Pump
Dimensions
Height1.05 mm
Length5.1 mm
Width4.5 mm

Documents

Download datasheets and manufacturer documentation for onsemi NCP5623DTBR2G.

Augswan
Datasheet10 pages15 years ago
element14 APAC
Datasheet10 pages15 years ago
Upverter
Technical Drawing1 page4 years ago
iiiC
Datasheet10 pages15 years ago

Inventory History

3 month trend:
-99.90%

Supply Chain

Lifecycle StatusProduction (Last Updated: 3 years ago)
Manufacturer Lifecycle StatusLIFETIME (Last Updated: 4 days ago)

Engineering Resources

View Evaluation kits and Reference designs for onsemi NCP5623DTBR2G.

Related Parts

Descriptions

Descriptions of onsemi NCP5623DTBR2G provided by its distributors.

Tape & Reel (TR) NCP5623 Charge Pump I2C PWM led driver 5.1mm 30mA 5.5V 235mW
LED Driver 3 Segment 1000uA Supply Current 14-Pin TSSOP W T/R
LED DRVR 3Segment 3.3V/5V 14-Pin TSSOP T/R - Tape and Reel
Linear LED Driver, 2.7 V to 5.5 V, 90 mA, 14 Pins, TSSOP
Led Driver, Linear, 1Mhz, Tssop-14; Device Topology:Linear; No. Of Outputs:3Outputs; Output Current:90Ma; Output Voltage:-; Driver Case Style:Tssop; No. Of Pins:14Pins; Input Voltage Min:2.7V; Input Voltage Max:5.5V; Product Range:- Rohs Compliant: Yes |Onsemi NCP5623DTBR2G
The NCP5623 mixed analog circuit is a triple output LED driver dedicated to the RGB illumination or backlight LCD display. The IC is housed in industrial standard TSSOP-14 package suitable for consumer electronic applications.

Manufacturer Aliases

onsemi has several brands around the world that distributors may use as alternate names. onsemi may also be known as the following names:

  • ON Semiconductor
  • ONS
  • ONSEMICON
  • ON SEM
  • ON SEMICONDUCTO
  • ON SEMICONDUCTORS
  • ONSEMIC
  • ON Semicondu
  • OSC
  • ONSE
  • ON SEMICOND
  • ON Semiconductor / Fairchild
  • SCG
  • ON Semiconductor Cor
  • ON SEMICO
  • ONSM
  • MOT/ON SEMI
  • Fairchild/ONSemiconductor
  • ON SEMICONDUCTOR CORP
  • ON Semiconductor Corporation
  • ON4
  • onsemi / Fairchild
  • ON SEMICONDUCT
  • ON-SEMI SCG
  • ON SEMICONDUTOR
  • ON Semiconductor Inc.
  • onsemiconductor

Technical Specifications

Physical
Case/PackageTSSOP
Contact PlatingGold
MountSurface Mount
Number of Pins14
Technical
Ambient Temperature Range High85 °C
Frequency1.2 MHz
Max Input Voltage5.5 V
Max Junction Temperature (Tj)150 °C
Max Operating Temperature85 °C
Max Power Dissipation200 mW
Max Supply Current350 µA
Max Supply Voltage5.5 V
Min Input Voltage2.7 V
Min Operating Temperature-40 °C
Min Supply Voltage2.7 V
Nominal Supply Current350 µA
Number of Outputs3
Number of Segments3
Output Current90 mA
Output Voltage5.7 V
PackagingDigi-Reel®
Power Dissipation235 mW
Schedule B8542390000
Switching Frequency1 MHz
TopologyCharge Pump
Dimensions
Height1.05 mm
Length5.1 mm
Width4.5 mm

Documents

Download datasheets and manufacturer documentation for onsemi NCP5623DTBR2G.

Augswan
Datasheet10 pages15 years ago
element14 APAC
Datasheet10 pages15 years ago
Upverter
Technical Drawing1 page4 years ago
iiiC
Datasheet10 pages15 years ago

Compliance

Environmental Classification
Halogen FreeHalogen Free
Lead FreeLead Free
Radiation HardeningNo
REACH SVHCNo SVHC
RoHSCompliant
Compliance Statements
Rohs Statement1 page11 years ago
Rohs Statement3 pages3 years ago
Reach Statement8 pages9 years ago