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BSS123

N-Channel Logic Level Enhancement Mode Field Effect Transistor 100V, 170 mA, 6Ω, 3000-REEL

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Price Range $0.0280 / $0.3730

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Distributors with Stock

Part Number Description Manufacturer Compare
BSS123-7-F Transistors Small Signal Field-Effect Transistor, 0.17A I(D), 100V, 1-Element, N-Channel, Silicon, Metal-oxide Semiconductor FET, GREEN, PLASTIC PACKAGE-3 Diodes Incorporated BSS123 vs BSS123-7-F
BSS123LT1G Transistors Power MOSFET 170 mA, 100 V, N-Channel SOT-23, SOT-23 (TO-236) 3 LEAD, 3000-REEL ON Semiconductor BSS123 vs BSS123LT1G
BSS123 Transistors N-Channel Logic Level Enhancement Mode Field Effect Transistor 100V, 170 mA, 6Ω, 3000-REEL ON Semiconductor BSS123 vs BSS123
Part Number Description Manufacturer Compare
2N7002 Transistors Small Signal Field-Effect Transistor NTE Electronics Inc BSS123 vs 2N7002
2N7002K-7 Transistors Small Signal Field-Effect Transistor, 0.3A I(D), 60V, 1-Element, N-Channel, Silicon, Metal-oxide Semiconductor FET, GREEN, PLASTIC PACKAGE-3 Diodes Incorporated BSS123 vs 2N7002K-7
BSS123LT1G Transistors Power MOSFET 170 mA, 100 V, N-Channel SOT-23, SOT-23 (TO-236) 3 LEAD, 3000-REEL ON Semiconductor BSS123 vs BSS123LT1G
BSS123-7-F Transistors Small Signal Field-Effect Transistor, 0.17A I(D), 100V, 1-Element, N-Channel, Silicon, Metal-oxide Semiconductor FET, GREEN, PLASTIC PACKAGE-3 Diodes Incorporated BSS123 vs BSS123-7-F
2N7002K Transistors N-Channel Small Signal MOSFET 60V 380mA 1.6 Ω, 3000-REEL ON Semiconductor BSS123 vs 2N7002K
2N7002K-T1-E3 Transistors TRANSISTOR 300 mA, 60 V, N-CHANNEL, Si, SMALL SIGNAL, MOSFET, TO-236, LEAD FREE PACKAGE-3, FET General Purpose Small Signal Vishay Siliconix BSS123 vs 2N7002K-T1-E3
2N7002-7-F Transistors Small Signal Field-Effect Transistor, 0.115A I(D), 60V, 1-Element, N-Channel, Silicon, Metal-oxide Semiconductor FET, GREEN, PLASTIC PACKAGE-3 Diodes Incorporated BSS123 vs 2N7002-7-F
2N7002LT1G Transistors N-Channel Small Signal MOSFET 60V 115mA 7.5 Ω, SOT-23 (TO-236) 3 LEAD, 3000-REEL ON Semiconductor BSS123 vs 2N7002LT1G
2N7002ET1G Transistors N-Channel Small Signal MOSFET 60V, 310mA, 2.5 Ω, SOT-23 (TO-236) 3 LEAD, 3000-REEL ON Semiconductor BSS123 vs 2N7002ET1G

Global Popularity

Popularity in Transistors

Popularity in Small Signal Field-Effect Transistors

Popularity by Region

Very High

Medium

Good

Low

  • 1. China
    100
  • 2. United States of America
    99
  • 3. India
    93
  • 4. Canada
    88
  • 5. Germany
    86
  • 6. South Korea
    83
  • 7. Israel
    81
  • 8. SGP
    78
  • 9. Thailand
    77
  • 10. Mexico
    76

Estimated Price History

Estimated Stock History

Market Price Analysis

No data available
  • 1. Newark element14 $0.0280 Buy Now
  • 2. Newark element14 $0.0560 Buy Now
  • 3. Newark element14 $0.0590 Buy Now
  • 4. Future Electronics $0.3150 Buy Now
  • 5. Farnell element14 $0.3340 Buy Now
  • 6. Farnell element14 $0.3340 Buy Now
  • 7. element14 Asia-Pacific $0.3420 Buy Now
  • 8. element14 Asia-Pacific $0.3420 Buy Now
  • 9. Newark element14 $0.3730 Buy Now

Datasheets & Reference Designs

Reference Designs

  • Intel® Atom™ E6xx (Tunnel Creek) CPU/GPU core reference design for Embedded PCs
    PMP5835: 12VIN Intel Atom E6xx (Tunnel Creek) CPU Core Power Design for Industrial PCs; this design enables a small CPU core regulator power supply area and excellent thermal performance, one of they key design requirements of COM express modules and single board computers used in industrial automation and process control.
  • High Power Density 9 to 15V In Intel Atom C2000 SoC VCCP & VNN Rail for Microservers Ref Design
    TIDA-00507: The TI TPS53625 VR12 reference design (TIDA-00507), supporting Intel® Atom™ C2000, uses TI's driverless PWM architecture with TI power stages for high power density, high efficiency, and low component count while meeting Intel voltage tolerance requirements with low ripple and high output current monitoring accuracy.
  • Flyback for Automotive (16V @ 5A)
  • High Efficiency 400W AC/DC Power Supply Reference Design - PMP11064.1 - TI Tool Folder
    PMP11064: PMP11064 is a high-efficiency AC/DC power supply reference design with universal AC input and 20V/20A output. Interleaved transition mode PFC and LLC series resonant converter is applied for 20V/20A main power. A PSR Flyback with MOSFET integrated controller is applied as the auxiliary supply. 91.2% efficiency is achieved at low line and full load. 93.1% efficiency is achieved at high line and full load.
  • 15 Cell Lithium Ion Battery Controller Analog Front End Reference Design
    TIDA-00255: The TIDA00255 reference design utilizes the bq76940 analog front end (AFE) IC. It measures cell voltages, and die temperature or external thermistor voltage using a 14 bit ADC. Current is measured separately by a separate 16 bit coulomb counter. The design can turn off low side power FETs to stop discharge or charge based on selected hardware limits. A microcontroller not included in this design would be part of the battery controller to communicate to the AFE to set protection thresholds, turn on the power FETs, provide fault recovery and turn off the FETs for over or under temperature conditions. A battery controller design may contain other features which are not part of this reference design such as secondary over voltage protection, gauging, and isolated communication to let the system know the state of the battery.
  • High Efficiency 350W AC/DC Power Supply Reference Design
    PMP11303.1: PMP11303 is high-efficiency AC/DC power supply reference design with universal AC input and 25V/13.5A and 12V/1A outputs. LLC+PFC combo IC UCC29950 is applied for the main power stages with 25V/13.5A output while UCC28730 is applied for the auxiliary power with 12V/1A output. This design has low no load power comsumption (152mW@230VAC) and over 93% peak efficiency. This design also meet 80PLUS Gold requirement for 115VAC Internal power supplies.
  • 9Vdc-57Vdc Input, 56V/20W Isolated Flyback
    PMP6963: This reference design uses the TPS40210 current mode controller to generate an isolated 56V/0.35A output from a wide 9V - 57V DC input. This design uses diode rectification on the output stage and achieves efficiencies up to 89% at full load with peaks over 90%.
  • High Power Density 9V to 15V input, Intel® Pentium™ N3700 VCC0+VCC1 power design for Industrial PCs
    TIDA-00572: The TI TPS1623 VR12.1 reference design, supporting Intel® Pentium™ N3700 , uses TI's driverless PWM architecture with TI power stages for high power density, high efficiency, and low component count while meeting Intel voltage tolerance requirements with low ripple, tight loadline, and high output current monitoring accuracy.
  • Intel IMVP6+ Atom CPU Core Power Design
    PMP5114: High power density Intel IMVP6+ Atom CPU Core power supply for Embedded PCs; this design enables high power density and flexible configuration with the use of discrete TI NexFETs while meeting all Intel specifications
  • 85 to 265VAC Input 12V@3A High Efficiency Adapator Reference Design
    PMP9715: This reference design provides an isolated 12V/36W output from a universal AC input range with over 89% peak efficiency. The UCC24610 synchronous rectifier controller and CSD19531Q5A FET reduce the rectifier loss and provide high efficiency with a minimal increase in cost. The UCC28740 flyback controller uses a combination of peak current modulation and frequency modulation to maintain excellent efficiency at lighter loads and minimize no load power consumption. The current regulation feature of the UCC28740 provides accurate current limit protection. This compact design consumes a volume of only 2.0" x 2.0" x 0.75".
  • Intel IMVP7 2nd Generation Core Mobile (Core i7) Power Management Reference Design
    TIDA-00020: The Intel Core i7 power management design is a complete solution for the Intel™ IMVP-7 Serial VID (SVID) Power System The design features an IMVP-7 3-Phase CPU supply, a single-phase GPU Vcore supply, a 1.05VCCIO supply, and a DDR3L/DDR4 memory rail. To greatly improve power density and thermal performance, TI's 5-mm x 6mm NEXFET Power Block MOSFETs are used.
  • Intel IMVP7 3rd Generation Core Mobile (Core i7) Power Management Reference Design
    TIDA-00021: The Intel Core i7 power management design is a complete solution for Intel IMVP-7 SVID. A GUI communication program is available along with several test points on the board to evaluate the static and dynamic performance of the CPU's DC/DC Controller. The design features an IMVP-7 3-Phase CPU supply, a 2 Phase GPU Vcore supply, a 1.05VCCIO supply, and a DDR3L/DDR4 memory rail. To greatly improve power density and thermal performance, TI's 5-mm x 6mm NEXFET Power Block MOSFETs are used.
  • High Efficiency 350W AC/DC Power Supply Reference Design
    PMP11303.2: PMP11303 is high-efficiency AC/DC power supply reference design with universal AC input and 25V/13.5A and 12V/1A outputs. LLC+PFC combo IC UCC29950 is applied for the main power stages with 25V/13.5A output while UCC28730 is applied for the auxiliary power with 12V/1A output. This design has low no load power comsumption (152mW@230VAC) and over 93% peak efficiency. This design also meet 80PLUS Gold requirement for 115VAC Internal power supplies.
  • Buck, Boost (7.5V @ .5A, 8.5V @ 1.5A, 3.3V @ 2.6A, 5V @ 3.3A, 2.5V @ 1A, 1.6V @ 400mA)
  • Universal AC Input, 12V/3A Single stage PFC-Flyback Reference Design with Synchronous Rectification
    PMP9730: The PMP9730 reference design employs the UCC28051 power factor correction controller to implement a single stage PFC-Flyback AC/DC converter that generates an isolated 12V output at 3A from a universal AC input. The design features UCC28910 primary side regulation Flyback switcher for generating the VDD bias rails and the UCC24610 for 2ndary side synchronous rectification. This provides an excellent solution for systems such as motor drives requiring an isolated bus voltage, good power factor and high efficiency.
  • High Power Density 9 to 15V In Intel Atom C2000 SoC VCCP & VNN Rail for Microservers Ref Design
    TIDA-00507.1: The TI TPS53625 VR12 reference design (TIDA-00507.1), supporting Intel® Atom™ C2000, uses TI's driverless PWM architecture with TI power stages for high power density, high efficiency, and low component count while meeting Intel voltage tolerance requirements with low ripple and high output current monitoring accuracy.
  • Load Switch Based Ship Mode Reference Design for Wearables
    TIDA-00556: The purpose of this design is to showcase a low power, space saving "ship mode" solution targeted specifically for wearables and other small portable electronics that can be implemented with a simple, low cost load switch.

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