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LTST-C190KGKT

Single Color LED, Green, Water Clear, 1.1mm, GREEN, PLASTIC PACKAGE-2

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Price Range $0.0659

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Distributors with Stock

Part Number Description Manufacturer Compare
LTST-C191KGKT Optoelectronics Single Color LED, Green, Water Clear, 1.1mm, GREEN, PLASTIC, THIN, 2 PIN Lite-On Semiconductor Corporation LTST-C190KGKT vs LTST-C191KGKT
Part Number Description Manufacturer Compare
LTST-C191KGKT Optoelectronics Single Color LED, Green, Water Clear, 1.1mm, GREEN, PLASTIC, THIN, 2 PIN Lite-On Semiconductor Corporation LTST-C190KGKT vs LTST-C191KGKT

Global Popularity

Popularity in Optoelectronics

Popularity in Visible LEDs

Popularity by Region

Very High

Medium

Good

Low

  • 1. United States of America
    100
  • 2. China
    99
  • 3. India
    94
  • 4. Russia
    83
  • 5. Mexico
    83
  • 6. Germany
    82
  • 7. Thailand
    81
  • 8. Canada
    80
  • 9. South Korea
    80
  • 10. HKG
    79

Estimated Price History

Estimated Stock History

Market Price Analysis

No data available
  • 1. Future Electronics $0.0659 Buy Now

Datasheets & Reference Designs

Reference Designs

  • Public Announcement Audio Reference Design utilizing best in class Boost Controller
    PMP10710: PMP10710 is a 200W design for public announcement audio system which can be used in 100W +100W Stereo or 200W Woofer Applications. The design is broadly divided into four main stages:
  • Automotive Power Reference Design for Low Power TDA3x Based Systems
    TIDA-00530: This solution was designed to make an integrated, size-optimized power design for ADAS applications using the TDA3x SoC off of an automotive battery input. By targeting only applications with lower processing needs, we’re able to choose devices and components which are smaller, compared to systems utilizing higher performance processors.
  • SimpleLink™ Wi-Fi® CC3200 Module LaunchPad
    TIDC-CC3200MODLAUNCHXL: The CC3200MODLAUNCHXL is a low-cost evaluation platform which hosts the CC3200MOD. The SimpleLink™ CC3200MOD is a wireless microcontroller (MCU) module that integrates an ARM® Cortex™-M4 based MCU, allowing customers to develop an entire application using a single device. The module LaunchPad also features programmable user buttons, RGB LED for custom applications, temperature and accelerometer sensors, as well as onboard emulation for debugging. The LaunchPad stackable headers interface demonstrates how to expand the functionality of the CC3200MOD when interfacing with other peripherals on existing BoosterPack add-on boards, such as graphical displays, audio codec, antenna selection, environmental sensing, and more.
  • USB-C DFP+ USB-A Power Bank with Input & Output Fast Charger Reference Design
    PMP4451.1: This is a power bank reference design with a USB typc C DFP plus a USB type A port supporting high voltage discharging. Fast charger input is also supported to save more charging time. It can detect the input port attach/detach automatically, as well as the output ports.
  • USB-C DFP + 5V2A Power Bank With Input Fast Charger Reference Design
    PMP11536: PMP11536 is a power bank reference design with a USB typc C DFP plus a USB type A port employing the boost mode of a Maxcharger. Fast charger input is also supported to save more charging time. It can detect the input port attach/detach events automatically, as well as the output ports.
  • 24VDC 10A eFuse and Protection Circuit for Programmable Logic Controllers (PLC)
    TIDA-00233: This sub system design shows an IC based implementation of over voltage, over current, reverse current, reverse polarity and miss wire protection which is more accurate, lower power and faster compared to fuses, PTCs and diodes. Programmable Logic Controller (PLC) I/O modules connected to a field power supply benefit from protection on the 24V field input connectors as power supply faults or miss wiring might damage or cause the module to not operate correctly.
  • 9-40V Automotive Input, 5V@2.1A Smart USB Charger
    PMP7388: This reference design is a complete automotive USB charger solution from the car battery. From a 9V to 40V DC input, this design generates a 5V/2.1A output for smart phones and tablets.
  • iPad® Automotive Charger Reference Design
    TIDA-IPAD-AUTOMOTIVE-CHARGER-REFERENCE-DESIGN: The reference design provides customers an extremely small form factor but still compliant to the iPad® charge current requirement of up to 2.1A at 5V. The switching buck, TPS54340, features switching frequency that is up to 2MHz which is above the audio band requirements. Customers can leverage the small form factor of this reference design and can provide USB charging capability at multiple space-constraint locations within the car. ESD protection on USB pins is provided via TPD2E001.
  • USB-C DFP+ USB-A Power Bank with Input & Output Fast Charger Reference Design
    PMP4451.2: This is a power bank reference design with a USB typc C DFP plus a USB type A port supporting high voltage discharging. Fast charger input is also supported to save more charging time. It can detect the input port attach/detach automatically, as well as the output ports.
  • USB-C DFP+ USB-A Power Bank with Input & Output Fast Charger Reference Design - PMP4451.1 - TI Tool Folder
    PMP4451: This is a power bank reference design with a USB typc C DFP plus a USB type A port supporting high voltage discharging. Fast charger input is also supported to save more charging time. It can detect the input port attach/detach automatically, as well as the output ports.
  • High Perf Single Ended to Diff Active Interface for High Speed ADC Developed by Dallas Logic Corp : Dallas Logic Corporation
    TIDA-00294: This reference design uses the ADC34J22 12b 50Msps JESD204B data converter and the THS4541 fully differential amplifer to demonstrate how to design a high performance active interface for high speed ADCs. This type of circuit can be used in sensor front end, motor control, and test and measurement applications. The circuit model and derivation of the design equations is presented along with the actual implementation on a PCB. Results of this implementation are presented to show very similar performance as compared to a passive AC coupled transformer interface.

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