LM339DR
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Texas Instruments LM339DR

Part Number:
LM339DR
Manufacturer:
Texas Instruments
Ventron No:
3196924-LM339DR
Description:
IC QUAD DIFF COMP 14-SOIC
ECAD Model:
Datasheet:
LM2901,2903,339,393 Technical Note
Payment:
Payment
Delivery:
Delivery

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Reference Price ( In US Dollars )

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Qty

Unit Price

Ext Price

  • 10

    $0.0571

    $0.57

  • 100

    $0.0471

    $4.71

  • 300

    $0.0420

    $12.60

  • 2500

    $0.0335

    $83.75

  • 5000

    $0.0305

    $152.50

  • 10000

    $0.0290

    $290.00

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  • LM339DR Detail Images
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Specifications
Texas Instruments LM339DR technical specifications, attributes, parameters and parts with similar specifications to Texas Instruments LM339DR.
  • Factory Lead Time
    10 Weeks
  • Mount
    Surface Mount
  • Mounting Type

    Mounting Type refers to the method by which an electronic component is attached to a printed circuit board (PCB) or other surface. Common mounting types include: * Through-hole: Component leads are inserted into holes in the PCB and soldered on the other side. * Surface-mount: Component is placed on the surface of the PCB and soldered in place. * Press-fit: Component is pressed into place on the PCB without soldering. * Socket: Component is inserted into a socket on the PCB, allowing for easy replacement. The mounting type is determined by factors such as the component's size, shape, and power requirements.

    Surface Mount
  • Package / Case

    Package / Case refers to the physical housing or enclosure that encapsulates an electronic component. It provides protection, facilitates handling, and enables electrical connections. The package type determines the component's size, shape, pin configuration, and mounting options. Common package types include DIP (dual in-line package), SOIC (small outline integrated circuit), and BGA (ball grid array). The package also influences the component's thermal and electrical performance.

    14-SOIC (0.154, 3.90mm Width)
  • Number of Pins

    Number of Pins: Indicates the number of electrical connections available on the component. These pins are used to connect the component to other components or circuits on a printed circuit board (PCB). The number of pins determines the functionality and connectivity options of the component. It is important to ensure that the component has the correct number of pins for the intended application.

    14
  • Operating Temperature

    Operating Temperature is the range of temperatures at which an electronic component can function properly. It is typically specified in degrees Celsius (°C) and indicates the minimum and maximum temperatures at which the component can operate without experiencing damage or degradation. Operating Temperature is an important parameter to consider when designing electronic circuits, as it ensures that the components will function reliably in the intended operating environment.

    0°C~70°C
  • Packaging
    Tape & Reel (TR)
  • Published
    2008
  • Series

    Series, in the context of electronic components, refers to the arrangement of components in a circuit. When components are connected in series, they form a single path for current to flow through. The total resistance of a series circuit is the sum of the individual resistances of each component. Series connections are often used to control the flow of current in a circuit, as the total resistance can be adjusted by changing the number or type of components in the series.

    Trophy
  • Pbfree Code
    yes
  • Part Status

    Part Status is an electronic component parameter that indicates the availability and production status of a component. It is typically used to inform customers about the availability of a component, whether it is in production, end-of-life, or obsolete. Part Status can also provide information about any restrictions or limitations on the component's use, such as whether it is only available for certain applications or if it has been discontinued.

    Last Time Buy
  • Moisture Sensitivity Level (MSL)

    Moisture Sensitivity Level (MSL) is a measure of the susceptibility of a surface mount electronic component to moisture-induced damage during soldering. It is classified into six levels, from 1 (least sensitive) to 6 (most sensitive). MSL is determined by the materials used in the component's construction, including the solderability of its terminals and the presence of moisture-absorbing materials. Components with higher MSL ratings require more stringent handling and storage conditions to prevent moisture absorption and subsequent damage during soldering.

    1 (Unlimited)
  • Number of Terminations
    14
  • ECCN Code
    EAR99
  • Subcategory
    Comparator
  • Technology

    Technology, in the context of electronic components, refers to the specific manufacturing process and materials used to create the component. It encompasses the semiconductor fabrication techniques, such as the type of transistor used (e.g., MOSFET, BJT), the gate oxide thickness, and the interconnect materials. Technology also includes the packaging type, such as surface mount or through-hole, and the leadframe or substrate material. The technology used impacts the component's performance characteristics, such as speed, power consumption, and reliability.

    BIPOLAR
  • Terminal Position
    DUAL
  • Terminal Form
    GULL WING
  • Number of Functions
    4
  • Supply Voltage

    Supply Voltage is the voltage required to power an electronic component. It is typically measured in volts (V) and is specified in the component's datasheet. The supply voltage must be within the specified range for the component to function properly. If the supply voltage is too low, the component may not function at all. If the supply voltage is too high, the component may be damaged.

    5V
  • Terminal Pitch
    1.27mm
  • Base Part Number
    LM339
  • Pin Count
    14
  • Output Type

    Output type refers to the type of signal or power that an electronic component can produce. It can be analog or digital, AC or DC, and can vary in voltage, current, or power levels. The output type is determined by the component's design and is crucial for matching it with other components in a circuit. Understanding the output type ensures proper signal processing, power delivery, and overall system functionality.

    CMOS, MOS, Open-Collector, TTL
  • Number of Elements
    4
  • Power Supplies
    5V
  • Output Current

    Output Current is the maximum amount of current that an electronic component can deliver to a load without exceeding its specified operating limits. It is typically measured in amperes (A) or milliamperes (mA). Output Current is a critical parameter for selecting electronic components, as it determines the amount of power that the component can provide to a load.

    16mA
  • Quiescent Current

    Quiescent current is the amount of current drawn by an electronic component when it is not actively performing its intended function. It is typically measured in milliamps (mA) or microamps (µA). Quiescent current is important because it can affect the overall power consumption of a circuit, especially in battery-powered devices. Components with high quiescent current can drain batteries more quickly than those with low quiescent current.

    2.5mA
  • Response Time

    Response time is the time it takes for an electronic component to react to a change in input. It is typically measured in nanoseconds (ns) or microseconds (µs). A shorter response time indicates that the component can react more quickly to changes in input, which can be important for applications that require fast processing speeds.

    1300 ns
  • Voltage - Supply, Single/Dual (±)
    2V~36V ±1V~18V
  • Input Offset Voltage (Vos)

    Input Offset Voltage (Vos) is a parameter that specifies the voltage difference between the non-inverting and inverting inputs of an operational amplifier (op-amp) when the output voltage is zero. It represents the amount of voltage that must be applied to the inputs to bring the output to zero. Vos is caused by mismatches in the internal transistors of the op-amp and can vary with temperature and other factors. A low Vos is desirable for precision applications where accurate signal processing is required.

    7mV
  • Voltage Gain
    106.02dB
  • Supply Voltage Limit-Max
    36V
  • Input Bias Current

    Input bias current is the small amount of current that flows into the input terminal of an electronic component, such as an operational amplifier or transistor. It is caused by the internal construction of the component and is typically measured in nanoamperes (nA). Input bias current can affect the accuracy of the component's output and must be taken into account when designing circuits.

    250nA
  • Voltage - Input Offset (Max)
    7mV @ 5V
  • Current - Input Bias (Max)
    0.25μA @ 5V
  • Current - Output (Typ)
    16mA @ 5V
  • Height Seated (Max)
    1.65mm
  • Length

    Length, in the context of electronic components, refers to the physical dimension of a component along its longest axis. It is typically measured in millimeters (mm) or inches (in). Length is a crucial parameter for determining the physical size and space requirements of a component on a printed circuit board (PCB) or other assembly. It also affects the component's electrical characteristics, such as inductance and capacitance, which can be influenced by the length of conductors or traces within the component.

    8.65mm
  • Width
    3.9mm
  • Radiation Hardening
    No
  • RoHS Status
    ROHS3 Compliant
Description
LM339DR Overview
This component is manufactured by Texas Instruments and falls under the category of Linear - Comparators. It is a chip with 14 pins and can operate within a temperature range of 0°C to 70°C. The packaging for this chip is Tape & Reel (TR) and its terminal position is DUAL. It has 4 functions and can be powered by a single or dual voltage supply, with a range of 2V to 36V and ±1V to ±18V respectively. The maximum supply voltage limit is 36V. The chip has a maximum input offset voltage of 7mV at 5V and can output a current of 16mA at 5V. Its width measures 3.9mm.

LM339DR Features
CMOS, MOS, Open-Collector, TTL output capability
General Purpose IC
Employing 4 elements
Operates under 0°C~70°C
Quiescent Current: 2.5mA
Voltage Gain: 106.02dB

LM339DR Applications
There are a lot of ROHM Semiconductor LM339DR linear comparators applications.

Industrial
Mobile Phones
Battery management and protection
Multivibrators and High-Voltage Digital Logic Gates
Window Comparators
Infotainment & cluster
Automotive
Limit Comparators
Zero-Crossing Detectors
High-Speed Differential Line Receiver
LM339DR More Descriptions
Integrated Circuit Comparator; CH: 4; differential; 25nA; 2-30V; 0 70 deg.C; SMD; SOIC14
Differential Comparator, Quad 0.3 Us Soi; Msl:Msl 1 - Unlimited; Svhc:No Svhc (15-Jan-2019) Rohs Compliant: Yes |TEXAS INSTRUMENTS LM339DR
DIFFERENTIAL COMPARATOR, QUAD 0.3 uS SOI; DIFFERENTIAL COMPARATOR, QUAD 0.3 uS SOIC-14; Comparator Type:Differential; No. of Comparators:4 Comparators; Response Time:1.3µs; Supply Voltage Range:2V to 36V; Comparator Case Style:SOIC; No. of Pins:14Pins; Product Range:-
LM339DR Detail Images
Certification
  • ISO 9001
  • ISO 13485
  • ISO 45001
  • ASA
  • ESD
  • DUNS
  • SMTA
  • ROHS

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