Texas Instruments_TLV333IDBVR

Texas Instruments
TLV333IDBVR  
OP Amps, Buffer Amps ICs

Texas Instruments
TLV333IDBVR
687-TLV333IDBVR
Ersa
Texas Instruments-TLV333IDBVR-datasheets-7529620.pdf
IC OPAMP ZER-DRIFT 1CIRC SOT23-5
In Stock : 30445

Not available to buy online? Want the lower wholesale price? Please Send RFQ to get best price, we will respond immediately

QUICK RFQ
ADD TO RFQ LIST
ersa FreeSample ersa flow
  • Quantity
  • Unit Price
  • Ext. Price
    • 5+
    • $0.22783
    • $1.14
    • 50+
    • $0.17938
    • $8.97
    • 150+
    • $0.15571
    • $23.36
    • 500+
    • $0.13462
    • $67.31
    • 3000+
    • $0.12882
    • $386.46
    • 6000+
    • $0.12534
    • $752.04
    ADD TO CART
    QUICK ORDER
    $0.00000    $0.00
    ISO9001
    Quality Policy
    ISO45001
    ISO14001
    Tech Specifications Documents Description Related Parts Relevant Search Shopping Guide

    TLV333IDBVR Description

    The TLV333IDBVR is a low-power, low-voltage, micropower voltage supervisor from Texas Instruments. It is designed to monitor the supply voltage in a wide range of applications and provide an output signal indicating the status of the supply voltage.

    Description:

    The TLV333IDBVR is a small, surface-mount device that comes in a SOT-23 package. It has a very low power consumption, making it ideal for battery-powered applications. The device has a wide operating voltage range, from 1.5V to 28V, and a typical supply current of only 2.5µA.

    Features:

    • Low power consumption: 2.5µA typical supply current
    • Wide operating voltage range: 1.5V to 28V
    • Active-high or active-low output options
    • Open-drain or push-pull output configuration
    • Short-circuit and over-voltage protection
    • Small SOT-23 package

    Applications:

    The TLV333IDBVR is suitable for a variety of applications where voltage monitoring is required. Some of the applications include:

    1. Battery-powered devices: The low power consumption of the TLV333IDBVR makes it ideal for monitoring the voltage in battery-powered devices, such as portable electronics, wireless sensors, and medical devices.
    2. Power supply monitoring: The TLV333IDBVR can be used to monitor the output voltage of power supplies, such as in industrial control systems, telecommunications equipment, and computer peripherals.
    3. Brownout detection: The device can be used to detect brownouts (temporary drops in voltage) in power supply systems and provide an output signal to trigger appropriate action, such as switching to a backup power source.
    4. Reset circuits: The TLV333IDBVR can be used to generate a reset signal for microcontrollers or other digital circuits when the supply voltage drops below a specified threshold.
    5. Automotive applications: The device can be used in automotive systems to monitor the voltage of the vehicle's battery or other power sources.

    In summary, the TLV333IDBVR is a versatile, low-power voltage supervisor from Texas Instruments that can be used in a wide range of applications to monitor and protect against voltage fluctuations. Its small size, low power consumption, and wide operating voltage range make it an ideal choice for battery-powered and other low-power applications.

    Tech Specifications

    Number of Channels per Chip
    Unit Weight
    Power Supply Type
    Typical Output Current (mA)
    Rail-to-rail
    Product
    PPAP
    Gain Bandwidth Product
    Automotive
    RoHS
    REACH Status
    Input common mode headroom (to negative supply) (typ) (V)
    Operating temperature range (°C)
    PSRR - Power Supply Rejection Ratio
    Current - Supply
    Output swing headroom (to negative supply) (typ) (V)
    Standard Package Name
    Shut Down Support
    Mounting
    Minimum Single Supply Voltage (V)
    Iout (typ) (A)
    Manufacturer Type
    Package
    Minimum CMRR (dB)
    Maximum Quiescent Current (mA)
    Total supply voltage (+5 V = 5, ±5 V = 10) (max) (V)
    GBW (typ) (MHz)
    en - Input Voltage Noise Density
    Output Type
    Vos - Input Offset Voltage
    Minimum CMRR Range (dB)
    Process Technology
    Typical Gain Bandwidth Product (MHz)
    Package Height
    Maximum Operating Temperature
    Ib - Input Bias Current
    RoHS Status
    Number of channels
    Iq per channel (typ) (mA)
    Minimum Operating Temperature
    Voltage - Input Offset
    Type
    Vos (offset voltage at 25°C) (max) (mV)
    Output Current per Channel
    Part Status
    Input Offset Voltage Drift (uV/°C)
    Lead finish / Ball material
    Number of Circuits
    Package Width
    GBP - Gain Bandwidth Product
    Voltage - Supply Span (Max)
    Maximum Input Offset Voltage (mV)
    Typical Output Resistance (Ohm)
    Product Status
    Current - Input Bias
    Rail to Rail
    Supplier Package
    Package / Case
    Number of Channels
    Typical Voltage Gain (dB)
    Typical Input Bias Current (uA)
    EU RoHS
    Carrier
    Amplifier Type
    Maximum Dual Supply Voltage (V)
    Input common mode headroom (to positive supply) (typ) (V)
    Moisture Sensitivity Level (MSL)
    Typical Input Noise Voltage Density (nV/rtHz)
    Operating Temperature
    Architecture
    Typical Slew Rate (V/us)
    Output swing headroom (to positive supply) (typ) (V)
    ECCN
    MSL rating / Peak reflow
    Mounting Type
    Pin Count
    In - Input Noise Current Density
    Ios - Input Offset Current
    Minimum PSRR (dB)
    Shutdown
    Vcm - Common Mode Voltage
    Voltage - Supply Span (Min)
    Lead Shape
    HTSUS
    Pins
    USHTS
    PCB changed
    HTS
    Rating
    ECCN (US)
    Total supply voltage (+5 V = 5, ±5 V = 10) (min) (V)
    Supplier Device Package
    Supply Voltage - Min
    Minimum Operating Temperature (°C)
    Maximum Operating Temperature (°C)
    Operating Supply Current
    SR - Slew Rate
    Mfr
    Features
    CMRR (typ) (dB)
    Supply Voltage - Max
    Offset drift (typ) (µV/°C)
    Mounting Style
    Input Type
    Typical Noninverting Input Current Noise Density (pA/rtHz)
    Slew Rate
    Package Length
    Minimum Dual Supply Voltage (V)
    Vn at 1 kHz (typ) (nV√Hz)
    CMRR - Common Mode Rejection Ratio
    REACH
    Series
    Maximum Single Supply Voltage (V)
    Slew rate (typ) (V/µs)
    Base Product Number
    Input bias current (max) (pA)

    TLV333IDBVR Documents

    Download datasheets and manufacturer documentation for TLV333IDBVR

    Ersa Multi Dev 29/Sep/2022      
    Ersa TLV333, 2333, 4333 Datasheet      
    Ersa OPA2317/OPA317/TLV2333 07/Dec/2016       OPA2317/OPA317/TLV2333 REVB 6/Jan/2017      

    Related Parts

    Micron Technology_MT28F800B5WP-8 B_IC FLASH 8MBIT PARALLEL 48TSOP I

    MT28F800B5WP-8 B

    Micron Technology
    Nexperia_74HC4051PW,118_IC MUX 8:1 120OHM 16TSSOP

    74HC4051PW,118

    Nexperia
    ROHM Semiconductor_BA08CC0WFP-E2_IC REG LINEAR 8V 1A TO252-5

    BA08CC0WFP-E2

    ROHM Semiconductor
    Intel_EP20K100FC324-1V_IC FPGA 252 I/O 324FBGA

    EP20K100FC324-1V

    Intel
    onsemi_MC78M06CDTG_IC REG LINEAR 6V 500MA DPAK

    MC78M06CDTG

    onsemi
    Skyworks Solutions, Inc._SI5320-G-BC_IC CLOCK MULTIPLIER 63CBGA

    SI5320-G-BC

    Skyworks Solutions, Inc.
    onsemi_MC74VHCT32AMG_IC GATE OR 4CH 2-INP SOEIAJ-14

    MC74VHCT32AMG

    onsemi
    onsemi_74ALVC16373MTD_IC LATCH TRANSP 16BIT LV 48TSSOP

    74ALVC16373MTD

    onsemi
    Intel_EP2S15F484C3_IC FPGA 342 I/O 484FBGA

    EP2S15F484C3

    Intel
    onsemi_NCP1402SN30T1G_IC REG BOOST 3V 130MA 5TSOP

    NCP1402SN30T1G

    onsemi
    Microchip Technology_MCP111T-290E/TT_IC SUPERVISOR 1 CHANNEL SOT23-3

    MCP111T-290E/TT

    Microchip Technology
    Microchip Technology_SY58040UMG_IC CROSSPOINT SW 1 X 4:4 44MLF

    SY58040UMG

    Microchip Technology
    Microchip Technology_MIC2954-03WS-TR_IC REG LINEAR 5V 250MA SOT223-3

    MIC2954-03WS-TR

    Microchip Technology
    Microchip Technology_PIC16F690-I/SS_IC MCU 8BIT 7KB FLASH 20SSOP

    PIC16F690-I/SS

    Microchip Technology
    onsemi_LM385BD-1.2G_IC VREF SHUNT 1% 8SOIC

    LM385BD-1.2G

    onsemi
    Microchip Technology_AT49F512-55VU_IC FLASH 512KBIT PARALLEL 32VSOP

    AT49F512-55VU

    Microchip Technology
    Microchip Technology_QT112-ISG_IC SENSOR TOUCH/PROX 1CHAN 8SOIC

    QT112-ISG

    Microchip Technology
    Microchip Technology_MCP131-270E/TO_IC SUPERVISOR 1 CHANNEL TO92-3

    MCP131-270E/TO

    Microchip Technology

    Relevant Search

    INA128UPGA204BPLM248NMC3403DTHS3095DRTL051CPLMP2231AMFE/NOPBTSV912AIDGKRINA180A2QDBVRQ1TLV2622IPLMH6559MA/NOPBLM2904BTQDGKRQ1OPA2607QDGKRQ1OPA1S2384IDRCRTLE2161BMJGBLM2902PWRG3OPA1677DROPA2237EA/250G4

    Shopping Guide

    Payment Methods
    Payment Methods include Prepayment TT (bank transfer), Western Union, and PayPal. Customers are responsible for shipping costs, bank charges, customs duties and taxes.
    Shipping Rate
    Shipments are made once a day around 5pm, excluding Sundays. Once shipped, the estimated delivery time is usually 5-7 business days, depending on the courier you choose.
    Delivery Methods
    Provide DHL, FedEx, UPS, EMS, SF Express and Registered Airmail International Delivery Service
    Index:
    0 1 2 3 4 5 6 7 8 9 A B C D E F G H I J K L M N O P Q R S T U V W X Y Z
    Follow Us
    Please find more information about us from below social media and interact with us!
    ErsaErsaErsaErsa
    Information
    About Contact Certification Product Index All Manufacturers Blog
    Policies
    Shipping & Delivering Refund & Return Terms of Condition Privacy Policy
    Tools
    RFQ BOM PCB
    ERSA LIMITED
    [email protected] TEL.:+65 (3) 1252045
    260B ANG MO KIO STREET 21 #18-153 KEBUN BARU COURT SINGAPORE
    FLAT/RM A7/F KIMLEY COMMERCIAL BUILDING 142-146 QUEEN'S ROAD CENTRAL HK
    ISO9001Quality PolicyISO45001ISO14001paypalvisaamexooFedEXDHLUPSTNTOthers

    ©2025 ERSA Electronics Corporation.