LTR10LEZPFS
Niederohmiger Hochleistungs-Chip-Widerstand (Breiter Anschlusstyp)

Hochleistungs-Chipwiderstände haben die Anschlüsse an den Längsseiten der rechteckigen Form und weisen eine weit höhere Nennleistung als die Standardwiderstände auf. Diese Struktur hat einen kurzen Abstand zwischen den beiden Anschlüssen und erreicht eine starke Lötfixierung.

Data Sheet Kaufen
Data Sheet Kaufen

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* Fractions not supported (decimals only)

Produktdetails

 
Teilenummer | LTR10LEZPFS
Status | Empfohlen
Gehäuse | LTR10
Einheitenmenge | 5000
Minimale Gehäusemenge | 5000
Gehäusetyp | Taping
RoHS | Ja
Product Longevity Program | 10 Years

Spezifikationen:

Automotive grade

Yes

Size[mm](inch)

1220(0508)

Rated Power[W]

1

Resistance Tolerance

F (±1%)

Resistance range[Ω]

0.033 to 0.091

Resistance(Min.)[Ω]

0.033

Resistance(Max.)[Ω]

0.091

Temperature Coefficient[ppm/°C]

0 to 150

Operating Temperature[°C]

-55 to 155

Type

For current sensing (Wide terminal)

Operating Temperature (Max.)[°C]

155

Common Standard

AEC-Q200 (Automotive Grade)

Find Similar

Eigenschaften:

  • Chip Resistors for current detection: 10mΩ~
  • High joint reliability with long side terminations.
  • Improvement of rated power enables to displace smaller size of resistors, and it contributes space savings in your set.
  • ROHM resistors have obtained ISO9001 / TS16949 certification.
  • Corresponds to AEC-Q200.

Reference Design / Application Evaluation Kit

 
    • Reference Design - REFLD002
    • Laser Driver Reference Design with GaN HEMT for High-Resolution LiDAR

    • The range of uses for LiDAR sensors is expanding to include not only autonomous driving, but also applications in the industrial and infrastructure fields. LiDAR sensors are required to have longer sensing distance and higher resolution, and in addition to improving the characteristics of the laser diode, it is necessary to drive the laser diode at higher speeds and power. ROHM offers a lineup of 905nm high power narrow emission width laser diodes. (RLD90QZWx Series) Reference designs are available that includes EcoGAN™, a next-generation device capable of high-speed drive, along with a high-speed gate driver for GaN HEMTs that contribute to improved LiDAR sensor characteristics (distance and resolution) .

      • Enables high-speed driving of laser diodes - a key device in LiDAR applications
      • Includes next-gen EcoGaN™ devices
      • Built-in high-speed gate driver for GaN HEMTs (BD2311NVX-C)
      • Two circuit types: square wave and resonant

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