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    INVERTING AMPLIFIER Search Results

    INVERTING AMPLIFIER Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    TC75S102F Toshiba Electronic Devices & Storage Corporation Operational Amplifier, 1.5V to 5.5V, I/O Rail to Rail, IDD=0.27μA, SOT-25 Visit Toshiba Electronic Devices & Storage Corporation
    7UL1G07FU Toshiba Electronic Devices & Storage Corporation One-Gate Logic(L-MOS), Non-Inverter Buffer (Open Drain), USV, -40 to 85 degC Visit Toshiba Electronic Devices & Storage Corporation
    MGN1S1208MC-R7 Murata Manufacturing Co Ltd DC-DC 1W SM 12-8V GAN Visit Murata Manufacturing Co Ltd
    MGN1D120603MC-R7 Murata Manufacturing Co Ltd DC-DC 1W SM 12-6/-3V GAN Visit Murata Manufacturing Co Ltd
    MGN1S1212MC-R7 Murata Manufacturing Co Ltd DC-DC 1W SM 12-12V GAN Visit Murata Manufacturing Co Ltd

    INVERTING AMPLIFIER Datasheets Context Search

    Catalog Datasheet MFG & Type Document Tags PDF

    Untitled

    Abstract: No abstract text available
    Text: CD4049UBC,CD4049UBM,CD4050BC,CD4050BM CD4049UBM CD4049UBC Hex Inverting Buffer CD4050BM CD4050BC Hex Non-Inverting Buffer Literature Number: SNOS364A CD4049UBM CD4049UBC Hex Inverting Buffer CD4050BM CD4050BC Hex Non-Inverting Buffer General Description Features


    Original     		CD4049UBC CD4049UBM CD4050BC CD4050BM CD4050BM SNOS364A PDF

    ttl et cmos

    Abstract: No abstract text available
    Text: MM54C901,MM54C902,MM54C903,MM54C904, MM74C901,MM74C902,MM74C903,MM74C904 MM54C901 MM74C901 Hex Inverting TTL Buffer MM54C902 MM74C902 Hex Non-Inverting TTL Buffer MM54C903 MM74C903 Hex Inverting CMOS Buffer MM54C904 MM74C904 Hex Non-Inverting CMOS Buffer Literature Number: SNOS341A


    Original     		MM54C901 MM54C902 MM54C903 MM54C904, MM74C901 MM74C902 MM74C903 MM74C904 ttl et cmos PDF

    Untitled

    Abstract: No abstract text available
    Text: MM54C240,MM54C244,MM74C240,MM74C244 MM54C240 MM74C240 Inverting MM54C244 MM74C244 Non-Inverting Octal Buffers and Line Drivers with TRI-STATE RM Outputs Literature Number: SNOS331A MM54C240 MM74C240 Inverting MM54C244 MM74C244 Non-Inverting Octal Buffers and Line Drivers with TRI-STATE Outputs


    Original     		MM54C240 MM54C244 MM74C240 MM74C244 MM74C244 SNOS331A PDF

    Untitled

    Abstract: No abstract text available
    Text: User's Guide SNVA363E – September 2008 – Revised April 2013 AN-1888 LM22670 Evaluation Board Inverting Topology 1 Introduction The LM22670 inverting evaluation board is designed to demonstrate the capabilities of the LM22670 switching regulator in a polarity-inverting topology. The LM22670 inverting evaluation board schematic


    Original     		SNVA363E AN-1888 LM22670 LM22670 PDF

    LM22670MR-ADJ

    Abstract: NIPPON CAPACITORS MSS1260-103MLD fet testing on board with multimeter AN-1888 shottky diode aero C4532X7R1H475M CMSH5-60 CRCW06032K55FKEA LM22670
    Text: National Semiconductor Application Note 1888 Frederik Dostal July 9, 2009 Introduction Evaluation Board Startup The LM22670 inverting evaluation board is designed to demonstrate the capabilities of the LM22670 switching regulator in a polarity-inverting topology. The LM22670 inverting


    Original     		LM22670 AN-1888 LM22670MR-ADJ NIPPON CAPACITORS MSS1260-103MLD fet testing on board with multimeter AN-1888 shottky diode aero C4532X7R1H475M CMSH5-60 CRCW06032K55FKEA PDF

    LM2267X

    Abstract: TDK C4532X7R1H475M AN-1888 C4532X7R1H475M CMSH5-60 CRCW06032K55FKEA LM22670 LM22670INVEVAL LM22670MR-ADJ MSS1260-103MLD
    Text: National Semiconductor Application Note 1888 Frederik Dostal October 14, 2008 Introduction Evaluation Board Startup The LM22670 inverting evaluation board is designed to demonstrate the capabilities of the LM22670 switching regulator in a polarity-inverting topology. The LM22670 inverting


    Original     		LM22670 AN-1888 LM2267X TDK C4532X7R1H475M AN-1888 C4532X7R1H475M CMSH5-60 CRCW06032K55FKEA LM22670INVEVAL LM22670MR-ADJ MSS1260-103MLD PDF

    Untitled

    Abstract: No abstract text available
    Text: 19-3700; Rev 0; 3/08 16VP-P Class G Amplifier with Inverting Boost Converter Features The MAX9738 features a mono Class G power amplifier with an integrated inverting boost converter. The Class G amplifier is specifically designed to drive the high capacitance of a ceramic/piezoelectric loudspeaker. The inverting boost converter can typically


    Original     		16VP-P MAX9738 400mA 20-BUMP W202A2 PDF

    MAX9738

    Abstract: mosfet dc to dc boost converter 5.5v 0.1f TG45 ceramic speaker "Class G Amplifier"
    Text: 19-3700; Rev 0; 3/08 16VP-P Class G Amplifier with Inverting Boost Converter Features ♦ Integrated Inverting Boost Converter ♦ 2.7V to 5.5V Single-Supply Operation ♦ 16VP-P Output Voltage Swing, Ideal for Driving a Ceramic Speaker The MAX9738 features a mono Class G power amplifier with an integrated inverting boost converter. The


    Original     		16VP-P MAX9738 400mA 20-BUMP W202A2 mosfet dc to dc boost converter 5.5v 0.1f TG45 ceramic speaker "Class G Amplifier" PDF

    LV5254LG

    Abstract: 4.5V TO 100V INPUT REGULATOR
    Text: Ordering number : ENA0584 Bi-CMOS LSI LV5254LG Inverting Charge Pump Regulator IC Overview The LV5254LG is an inverting charge pump regulator IC. Functions • Inverting charge pump regulator Specifications Absolute Maximum Ratings at Ta = 25°C, SGND and PGND = 0V


    Original     		ENA0584 LV5254LG LV5254LG A0584-14/14 4.5V TO 100V INPUT REGULATOR PDF

    Untitled

    Abstract: No abstract text available
    Text: Ordering number : ENA0584 Bi-CMOS LSI LV5254LG Inverting Charge Pump Regulator IC Overview The LV5254LG is an inverting charge pump regulator IC. Functions • Inverting charge pump regulator Specifications Absolute Maximum Ratings at Ta = 25°C, SGND and PGND = 0V


    Original     		ENA0584 LV5254LG LV5254LG A0584-14/14 PDF

    Untitled

    Abstract: No abstract text available
    Text: Ordering number : ENA0584 LV5254LG Bi-CMOS LSI Inverting Charge Pump Regulator IC http://onsemi.com Overview The LV5254LG is an inverting charge pump regulator IC. Functions • Inverting charge pump regulator Specifications Absolute Maximum Ratings at Ta = 25°C, SGND and PGND = 0V


    Original     		ENA0584 LV5254LG LV5254LG A0584-14/14 PDF

    H 7057

    Abstract: "multiple aperture Window Discriminator" Op Amp Circuit Collection 1978 H7057 Vishay Ultronix Grand Junction CO Q81, 1K zero crossing detector wein bridge oscillator FET circuit collection Vishay Ultronix Grand Junction CO Q81 adjustable Q notch filter
    Text: SECTION 1 BASIC CIRCUITS Inverting Amplifier Non-Inverting Amplifier VOUT e b R2 VIN R1 VOUT e RIN e R1 R1 a R2 VIN R1 TL H 7057 – 2 TL H 7057 – 1 Difference Amplifier VOUT e  R3 R1 a R2 a R4 Inverting Summing Amplifier J R1 V R4 2b R2 V1 R1 VOUT e b R4


    Original     		PDF

    AN-31

    Abstract: Op Amp Circuit Collection Reference Vishay Ultronix Grand Junction CO Q81 Q81, 1K, 3500 ppm "multiple aperture Window Discriminator" noise detector using instrumentation amplifier CO Q81 zero crossing detector in rectifier circuit Vishay Q81
    Text: National Semiconductor Application Note 31 September 2002 Note: National Semiconductor recommends replacing 2N2920 and 2N3728 matched pairs with LM394 in all application circuits. Section 1—Basic Circuits Inverting Amplifier Non-Inverting Amplifier Op Amp Circuit Collection


    Original     		2N2920 2N3728 LM394 AN-31 AN007057 AN-31 Op Amp Circuit Collection Reference Vishay Ultronix Grand Junction CO Q81 Q81, 1K, 3500 ppm "multiple aperture Window Discriminator" noise detector using instrumentation amplifier CO Q81 zero crossing detector in rectifier circuit Vishay Q81 PDF

    CA3262

    Abstract: CA3262E MS-001-BB CA3262A CA3262AE CA3262AM CA3262AQ
    Text: CA3262A, CA3262 Quad-Gated, Inverting Power Drivers August 1997 Features Description • • • • • • The CA3262 and CA3262A are used to interface low-level logic to high current loads. Each Power Driver has four inverting switches consisting of a non-inverting logic input


    Original     		CA3262A, CA3262 CA3262 CA3262A CA3262E MS-001-BB CA3262AE CA3262AM CA3262AQ PDF

    op 277

    Abstract: Isolation Amplifier Model 277 "Isolation Amplifier" circuit diagram of instrumentation amplifier high Voltage Instrumentation Amplifier DIAGRAM OF power amplifier "Signal Conditioning" Isolation amplifier and application
    Text: Precision Isolation Amplifier High CMV/CMR, ±15V Floating Model 277 FEATURES Versatile Op Amp Front End: Inverting, Non-Inverting, Differential Applications Low Nonlinearity: 0.025% max, Model 277K Low Input Offset Voltage Drift: 1µV/°C max, Model 277K


    Original     		160dB l60dB op 277 Isolation Amplifier Model 277 "Isolation Amplifier" circuit diagram of instrumentation amplifier high Voltage Instrumentation Amplifier DIAGRAM OF power amplifier "Signal Conditioning" Isolation amplifier and application PDF

    Untitled

    Abstract: No abstract text available
    Text: PN5116 P-CHANNEL JFET Linear Systems replaces discontinued Siliconix PN5116 This analog switch is designed for inverting switching into inverting input of an Operational Amplifier. The TO-92 provides a low cost option and ease of manufacturing. FEATURES


    Original     		PN5116 PN5116 500mW PDF

    Untitled

    Abstract: No abstract text available
    Text: LS5116 P-CHANNEL JFET Linear Systems replaces discontinued Siliconix 2N5116 This analog switch is designed for inverting switching into inverting input of an Operational Amplifier. The TO-92 provides a low cost option and ease of manufacturing. FEATURES


    Original     		LS5116 2N5116 500mW PDF

    SST5114

    Abstract: No abstract text available
    Text: SST5114 P-CHANNEL JFET Linear Systems replaces discontinued Siliconix SST5114 This analog switch is designed for inverting switching into inverting input of an Operational Amplifier. The SOT-23 package provides ease of manufacturing, and a lower cost assembly option.


    Original     		SST5114 SST5114 OT-23 500mW SST511 PDF

    Untitled

    Abstract: No abstract text available
    Text: LS5116 P-CHANNEL JFET Linear Systems replaces discontinued Siliconix 2N5116 This analog switch is designed for inverting switching into inverting input of an Operational Amplifier. The SOT-23 provides a low cost option and ease of manufacturing. FEATURES


    Original     		LS5116 2N5116 OT-23 500mW PDF

    Untitled

    Abstract: No abstract text available
    Text: SST5116 P-CHANNEL JFET Linear Systems replaces discontinued Siliconix SST5116 This analog switch is designed for inverting switching into inverting input of an Operational Amplifier. The SOT-23 provides a low cost option and ease of manufacturing. FEATURES


    Original     		SST5116 SST5116 OT-23 500mW PDF

    Untitled

    Abstract: No abstract text available
    Text: TransformingMagneticsTM SwitchmodePower Switchmode Power Glossary amplifier, differential An amplifier with two signal ports whose output voltage amplitude and polarity are proportional to the voltage difference and polarity between the voltages applied to the inverting and non-inverting input ports.


    Original     		PDF

    AFAA

    Abstract: No abstract text available
    Text: LS5114 P-CHANNEL JFET Linear Systems replaces discontinued Siliconix 2N5114 This analog switch is designed for inverting switching into inverting input of an Operational Amplifier. The SOT-23 package provides ease of manufacturing, and a lower cost assembly option.


    Original     		LS5114 2N5114 OT-23 2N5114Â LS5114 500mWÂ OT-23 AFAA PDF

    Untitled

    Abstract: No abstract text available
    Text: £B CA3262A, CA3262 Quad-Gated Inverting Power Drivers November 1995 Features Description • Independent Over-Current Limiting On Each Output The CA3262 and CA3262A are used to interface low-level logic to high current loads. Each Power Driver has four inverting switches consisting of a non-inverting logic input


    OCR Scan     		CA3262A, CA3262 CA3262 CA3262A PDF

    DC swinging choke

    Abstract: magnetic amplifier saturable core AC reactor choke
    Text: IVidcom Switchmode power glossary amplifier, differential An amplifier with two signal ports whose output voltage amplitude and polarity are proportional to the voltage difference and polarity between the voltages applied to the inverting and non-inverting input ports.


    OCR Scan     		PDF