ホーム
検索
left arrow 戻る: ホーム
Clear Search Box Icon

“MAX4626” の検索結果

絞り込み

絞り込み

filter-icon
製品カテゴリ
filter-icon
資料
  • データシート 73
    • データシート 73
  • ビデオ 1
  • 技術資料 21
  • 製品評価用ボード 11
  • 評価用設計サポートファイル 4
filter-icon
マーケット・ソリューション
filter-icon
ツールおよびモデル
filter-icon
テクノロジー・ソリューション
filter-icon
サイトのセクション
  • 73
filter-icon
結果の種類
  • 2
  • 27
  • 20
  • 8
filter-icon
グループ、フォーラム&ライブラリ
  • 7
  • 4
  • 2
  • 1
  • 1
  • 2
  • 11
  • 2
filter-icon
  • 2
  • 1
  • 5
  • 1
  • 1
  • 1
  • 1
  • 27
filter-icon
  • 5
  • 5
  • 4
  • 4
  • 4
  • 4
  • 3
  • 3
Analog Devices Inc. logo Analog.com
73
engineer-zone-play-icon EngineerZone
57

Analog.comの検索結果

73
関連性
関連性
古い順
新着順

並び替え:

  • Resource_types.lvl0:データシート
Clear All Filters Icon
External Link Icon arrow External Link Icon External Link Icon Tag pst-icon
  1. MAX4626-MAX4628_jp: 0.5Ω、低電圧、単一電源、SPSTアナログスイッチ Data Sheet
    データシート
    MAX4626/MAX4627/MAX4628は、+1.

    PDF

    MAX4626-MAX4628_jp: 0.5Ω、低電圧、単一電源、SPSTアナログスイッチ Data Sheet

    580.00K

  2. MAX4664-MAX4666_jp: 5Ω、クワッド、SPST CMOSアナログスイッチ Data Sheet
    データシート
    MAX4664/MAX4665/MAX4666は、5Ω (max)のオン抵抗を特長とするクワッドアナログスイッチです。スイッチ間のオン抵抗は0.

    PDF

    MAX4664-MAX4666_jp: 5Ω、クワッド、SPST CMOSアナログスイッチ Data Sheet

    174.00K

  3. MAX4826-MAX4831_jp: NO-LOADフラグ付き、50mA/100mA電流制限スイッチ、µDFNパッケージ Data Sheet
    データシート
    スイッチファミリのMAX4826~MAX4831は電流制限を備え、障害負荷状態に起因するホストデバイスの損傷を防止します。これらのアナログスイッチは0.

    PDF

    MAX4826-MAX4831_jp: NO-LOADフラグ付き、50mA/100mA電流制限スイッチ、µDFNパッケージ Data Sheet

    655.00K

  4. MAX14626: High-Voltage Reverse-Input-Capable 4–20mA Current Loop Protector Data Sheet
    データシート
    The MAX14626 current loop protector features a current-limit switch to prevent damage to the analog input module from sensor failure.

    PDF

    MAX14626: High-Voltage Reverse-Input-Capable 4–20mA Current Loop Protector Data Sheet

    650.00K

  5. MAX44265: Rail-to-Rail, 200kHz Op Amp with Shutdown in a Tiny, 6-Bump WLP Data Sheet
    データシート
    The MAX44265 op amp features a maximized ratio of gain bandwidth (GBW) to supply current and is ideal for battery-powered applications such as handsets, tablets, notebooks, and portable medical equipment.

    PDF

    MAX44265: Rail-to-Rail, 200kHz Op Amp with Shutdown in a Tiny, 6-Bump WLP Data Sheet

    358.00K

  6. MAX4265-MAX4270_jp: イネーブル付き、超低歪み、単一電源、300MHzオペアンプ Data Sheet
    データシート
    超低歪み、電圧フィードバックオペアンプMAX4265~MAX4270は、広帯域幅にわたって超低歪みを維持しつつ、100Ω負荷を駆動することができます。本製品は、5MHzにおいて-90dBc、100MHzにおいて-59dBc (MAX4269)という優れたスプリアスフリーダイナミックレンジ(SFDR)性能を備えています。加えて、+4.

    PDF

    MAX4265-MAX4270_jp: イネーブル付き、超低歪み、単一電源、300MHzオペアンプ Data Sheet

    497.00K

  7. MAX44269: 1.3mm x 1.3mm, Low-Power Dual Comparator Data Sheet
    データシート
    The MAX44269 is an ultra-small and low-power dual comparator ideal for battery-powered applications such as cell phones, notebooks, and portable medical devices that have extremely aggressive board space and power constraints.

    PDF

    MAX44269: 1.3mm x 1.3mm, Low-Power Dual Comparator Data Sheet

    2.00M

  8. MAX44269EVKIT: Evaluation Kit for the MAX44269 Data Sheet
    データシート
    The MAX44269 evaluation kit (EV kit) is a fully assembled and tested PCB that evaluates the MAX44269 dual comparator in a 1.

    PDF

    MAX44269EVKIT: Evaluation Kit for the MAX44269 Data Sheet

    1.00M

  9. MAX4667-MAX4669_jp: 2.5Ω、デュアル、SPST CMOSアナログスイッチ Data Sheet
    データシート
    MAX4667/MAX4668/MAX4669は、2.

    PDF

    MAX4667-MAX4669_jp: 2.5Ω、デュアル、SPST CMOSアナログスイッチ Data Sheet

    171.00K

  10. MAX44267: +15V単一電源、デュアルオペアンプ、出力範囲±10V Data Sheet
    データシート
    高精度、低ノイズ、低ドリフトデュアルオペアンプのMAX44267は、出力がゼロを通過することが可能な真のゼロ出力を提供し、ADCのダイナミックレンジを最大化して分解能を高めます。さらに、入力コモンモード範囲は+13.

    PDF

    MAX44267: +15V単一電源、デュアルオペアンプ、出力範囲±10V Data Sheet

    2.00M

  • <<
  • <
  • 1
  • 2
  • 3
  • 4
  • 5
  • >
  • >>

結果 - EngineerZone®

57
    Clear All Filters Icon
    1. Can you please provide the FIT rates of the follwing OpAmps: AD8012, MAX4226 and ADA4861 ? Thank you and best regards, Carsten

      Forum Thread
      Answered
      Operational Amplifiers
      21 August, 2024
      Can you please provide the FIT rates of the follwing OpAmps: AD8012, MAX4226 and ADA4861 ? Thank you and best regards, Carsten
      Operational Amplifiers (Op Amps)hardwaread8012Low Noise Op Amps (= 10nV/vHz)Current Feedback Op Amps

    2. MAX14626 Common Voltage and Current Loop Input Protection

      Forum Thread
      Answered
      Power Management
      13 June, 2024
      I have an application with generic IO pins configurable as either voltage, 0~10VDC, and current loop, 4~20mA, inputs. The voltage input is always low-current, i.e. <20mA, so I was hoping to use the MAX14626 as a common protection device for the input pin regardless of it …
      hardwareand Protectionpower monitorCurrent Limit SwitchesMAX14626MAX14626ETT+Tcontrol

    3. Continuous Timer on MAX626660 using TMR0

      Forum Thread
      Answered
      Other Products (EN)
      14 February, 2023
      I am trying to use TMR0 on a MAX326660 as a continuous general timer, but using the SDK automatically starts outputting a PWM signal on P0_3 and P0_5 which is interfering with my UART receive. I switched to TMR1 and had it working, but then realized I need …
      initialization codesoftwareMAX626660

    4. What does the G075 suffix of MAX4326EUA+TG075 mean?

      Docs & FAQs
      Amplifiers
      The G075 customer special traveler references 2500 parts per reel required, no partials allowed. All the electrical specifications will be the same as those shown in the datasheet for the MAX4326.
      MAX4326KA-10177MAX4326EUA+TG075

    5. MAX14626: Where to place current loop protector in current loop?

      Docs & FAQs
      Other Products (EN)
      In the application diagram of the datasheet, the current loop protector is placed after the sensor device and before the analog readout. This is because most of the time, the supply bus will drive more than one sensor. If we put the current loop protector before the sensors and …
      power managementKA-08272MAX14626LTspicecurrent protectorIsolated Gate Drive &amp; Sense Signal Chainscurrent loopposition

    6. Is there an equivalent model of the input stage of the MAX14626 to simulate a surge at the input?

      Docs & FAQs
      Other Products (EN)
      We can estimate the input impedance. The MAX14626 is in normal mode (loop current is < 25mA): Zin=(Vdrop/Iloop + RLOAD) ||(Vin/IQ), where RLOAD (typ)= 250 Ohm, IQ = 56uA (max), Vdrop = 2.8V @ Iloop = 24mA. That gives us an estimate of ~300 Ohm to 370 Ohm (max). The MAX14626 …
      KA-05595MAX14626MAX14626ETT+

    7. How do I connect the MAX4656 EP?

      Docs & FAQs
      Switches/Multiplexers
      Most of the exposed pads (EP) of components are connected to the GND; however, the MAX4656 is different. Its EP is best connected to the V+ pin; if the EP is floated, the component can also work; however, do not connect to the GND to avoid short circuit.
      MAX4656ESA+000102896MAX4656 EP EP connection

    8. Pins 2, 3, 4 of the IC of MAX14626 EVKIT are connected to GND, but those in MAXREFDES61# and MAXREFDES46# are both floating. What should these three pins be connected to?

      Docs & FAQs
      Other Products (EN)
      With a certain configuration, these three pins will make IC enter test mode; test mode is a hidden function not open to customers. Therefore, to avoid inadvertently entering the test mode, it is recommended that you connect the three pins of I.C. (2,3,4) to GND.
      MAX14626MAX14626ETT+000102707

    9. Are there replacements or upgrades for the MAX6626PMUT and MAX6626RMUT?

      Docs & FAQs
      Data Converters
      Answer:The MAX6626PMUT#TG16 and MAX6626RMUT#TG16 are the RoHS exempted parts that contained tin-lead (Sn-Pb) solder balls internally in the flip-chip package that is otherwise a lead(Pb)-free package whose lead-frame is 100% matte tin over copper lead frame. Now, these RoHS exempted flip …
      000100827MAX6626PMUT#G16

    10. How to connect pins 2, 3 and 4 in the MAX14626?

      Docs & FAQs
      Other Products (EN)
      Looking at the data sheet for the MAX14626 on page 5 it uses the phrase for pins 2,3,4 "Connect I.C. to GND" yet looking at the schematic for the reference design MAXREFDES61 where these devices are used the pins 2,3 & 4 remain unconnected.Should the pins …
      000100791MAX14626ETT+

    • <<
    • <
    • 1
    • 2
    • 3
    • 4
    • 5
    • 6
    • >
    • >>
  • 会社概要
  • 採用情報
  • ニュースルーム
  • 私たちの活動 Signals+
  • 投資家向け情報
  • 販売拠点
  • Analog.comに関する最新情報
  • ADIについてのお問合せ
  • お問合せ
  • EngineerZone
  • 資料
  • Wiki
  • アナログ・ダイアログ
  • 法務とリスク
  • アクセシビリティ
  • プライバシーポリシー
  • プライバシー設定
  • Cookie使用の設定