`描述This reference design generates an isolated 2W dual output (+3.3V & -3.3V) from AC
2015-03-12 10:29:05
, 3.3V/100mA, and 16V/100mA triple-output bias supply with high voltage DC input (270VDC to 410VDC input
2018-09-25 09:41:44
output at all times during power-up and normal operation. 為什么3.3V輸出電壓一定不能大于5V?有哪些方面的考量���?若在開機和關(guān)機狀態(tài)下
2013-01-27 18:48:00
power_supply框架包括哪些功能?power_supply框架工作流程是怎樣的���?如何在power_supply框架下去添加充電IC驅(qū)動?
2021-07-28 06:02:56
switching noise, the power supply can be automaticallysynchronized at the fixed frequency
2009-03-27 15:56:42
Design Engineers are constantly pushed to reduce thespace and cost of the power supply
2009-05-12 11:01:35
我用的5V的電壓 ���,然后用了ME6219C將5V的電壓轉(zhuǎn)換成了3.3V的電壓���,3.3V的電壓用來給NRF24L01供電,不接NRF,VCC的電壓是3.3V���,接上NRF后,VCC的電壓就變成了4.4V了���,接上其他的負載���,比如LED燈���,電壓還是3.3���。為什么?
2016-07-14 16:18:53
您好���,我使用PIC18F47 K40帶5V電源。在端口B���,我選擇了SPI接口���。我打開了SDO和SCK PIN的集合���。用一個3.3V的上拉電阻���,我可以使用3.5V的奴隸,而不是5V容忍的接口
2019-05-10 12:45:24
我想對STM32G031K8T6獨立供電���,以測試ADC功能。
按照UM2591的描述:使用3V3供電時���,要斷開SB2和SB3���。我照做后,使用穩(wěn)壓源3.3V供電���,固件不能運行���。必須在斷開JP1
2024-04-07 07:05:39
SWITCH POWER SUPPLY DESIGN
2012-08-16 11:53:46
THS4130全差動放大器是否可以正負3.3V供電���?
參數(shù)標稱:VCC = 5 V Single Supply to ±15 V Dual Supply
2024-09-25 08:10:35
supply voltage of 3.3V is continously provided to the device? Regards, Prachi#lsm6ds33
2018-09-14 09:54:59
各位前輩:在選擇一款陀螺儀���,有如下兩個指標:Analog supply voltage 5VDigital supply voltage 3.3V因為根據(jù)使用條件,只能提供3.3v的電壓���,不知道是不是能用所以想請問大家這兩個電壓分別代表什么意思���?多謝?��。。���?��!
2017-06-05 17:05:12
請問ISO7740 (或是 ISO7741) 的 Side1 與 Side2 的 power supply 可以分別提供不同的電源嗎? 謝謝!
比如Side1 供給3.3V, 同時採用 3.3V 的訊號位準; 而 Side2供給5V, 同時採用 5V 的訊號位準.
2024-12-17 06:45:30
supply(...)主要特色Main power supply 5V to 3.3V 1.2A output synchronous buckBack-up power supplyboost up
2018-09-21 08:56:19
terrestrial appli-cations and digital set-top boxes. This television tunerdraws only 760mW of power from a +3.3V supply voltage.Th
2008-06-30 12:41:47
30 voltages inbattery-powered systems. The ISL6237 includes twopulse-width modulation (PWM) controllers, 5V/3.3V and1.5V/1.05V. The o
2009-03-05 17:11:23132 describing a 15V, 130mA non-isolated power supply using a LNK305P from Power Integrations.This document contains the power supply specification, sch
2009-06-28 22:38:0129 1.8W non-isolated Power Supply using LNK304:This document is an engineering report describing a 12V
2009-07-01 00:21:0729 The AD822 is a dual precision, low power FET input op ampthat can operate from a single supply of 3
2009-08-28 16:14:3720
Power Supply Management—Principles, Problems, and Parts:INTRODUCTION
Power supply
2009-09-25 08:18:5426 is ideally suited for systems which contain both5V and 3.3V logic, with prime power provided from a 5V bus.Because the LM3940 is a
2009-09-30 15:04:2531 power into an 8Wload with 1% THD+N from a 3.3V power supply.Boomer® audio power amplifiers were designed specificallyto prov
2009-10-09 09:26:1829 interconnect applications.The device operates from a single 3.3V or 5.0Vpower supply and includes one differential line driver
2009-10-13 09:27:4417 interconnect applications.The device operates from a single 3.3V or 5.0Vpower supply and includes one differential line driver
2009-10-13 09:30:175 The DS90C3201 is a 3.3V single/dual FPD-Link 10-bit colortransmitter is designed to be used
2009-10-14 10:26:4711 Power Supply Cookbook was written by a practicing design engineer for practicingdesign engineers.
2009-10-16 11:42:5533 trackersfor photovoltaic applications. This uses a variable voltage analog DC power supply with a resistor atits output to give a curve th
2009-10-19 09:41:0514 5V to 3.3V to offer higher performance at lower cost. Replacing traditional 5V digital controlcircuitry by 3.3V designs introduce no addi
2009-11-12 14:28:0510 with an internal temperature sensor. The part operates from a single 3.3V power supply and features throughput rates up to 1MSPS. The device contains
2009-12-07 15:52:3619 atx switching power supply:
2009-12-24 11:51:0054 that are designed to power the latest ECL (x965.2V) and GaAs (-2.0V) ICs from an existing +5.0V or +3.3V source.
These regulators are simi
2010-11-16 21:52:4310 that are designed to power the latest ECL (x965.2V) and GaAs (-2.0V) ICs from an existing +5.0V or +3.3V source.
These regulators are simi
2010-11-16 21:56:5421 that are designed to power the latest ECL (x965.2V) and GaAs (-2.0V) ICs from an existing +5.0V or +3.3V source.
These regulators are simi
2010-11-18 10:51:1326 that are designed to power the latest ECL (x965.2V) and GaAs (-2.0V) ICs from an existing +5.0V or +3.3V source.
These regulators are simi
2010-11-18 10:53:3113 that are designed to power the latest ECL (x965.2V) and GaAs (-2.0V) ICs from an existing +5.0V or +3.3V source.
These regulators are simi
2010-11-18 10:54:4018 3.3V, HD Video Filter Amplifiers Save Power in Set-Top Boxes and Portable Equipment
2008-12-10 11:50:46
1691 Power Supply and Accurate Current Monitor for Avalanche Photodiode (APD) Biasing Applications
2009-04-02 08:38:341619 or 5V logic supply from AC power. It uses the MAX6330 shunt regulator which can supply up to 50mA as well as offering a reset output (power-on r
2009-04-23 09:43:14812 
The paramount need in battery-powered and portable electronics—saving power—is also the major benefit in moving from 5V to 3.3V (and lower
2009-04-29 12:00:161693 
supply. The Figure 1 circuit generates three such isolated voltages from a 5V input: +3.3V at 100mA, -24V at 100mA, and -72V at 25mA. It fea
2009-05-04 09:32:481305 
that is capable of providing a 7A 3.3V output from a 40VDC–60VDC input at an efficiency of 83%–90%. The converter employs a MAX5052A current-mode PW
2009-05-07 10:08:541490 
performance 3.3 V power supply SiGe transimpedance amplifier (TIA) optimized for small form factor Metro-Access and Etherne
2009-09-23 09:51:031605 integrates one boost converter, one 1.8V/3.3V regulator controller, and two gate voltage regulators. The device comes in several versions to sa
2011-08-01 16:33:3413 processesin order to accommodate increased transistor counts.These new processors require high current power at 3.3V,developed from the 5V input
2011-09-01 12:09:1645 as either high range (HR) or high performance (HP) banks. HR I/O banks can be operated from 1.2V to 3.3V, wher
2012-01-26 18:47:1575 仙童3.3V高速的光耦器
2012-08-31 15:11:388029 
Abstract: This document details the Riverside (MAXREFDES8#) subsystem reference design, a 3.3V
2012-11-07 15:36:3126 Abstract: This document details the Lakewood (MAXREFDES7#) subsystem reference design, a 3.3V input
2012-11-07 15:38:2027 3.3V—5V連接技巧與訣竅3.3V—5V連接技巧與訣竅3.3V—5V連接技巧與訣竅3.3V—5V連接技巧與訣竅3.3V—5V連接技巧與訣竅3.3V—5V連接技巧與訣竅3.3V—5V連接技巧與訣竅
2015-12-14 14:11:200 supply utilizing a TOP267VG. The TOP267VG is part of the TOPSwitch-JX IC family from Power Integrations.
2016-05-11 15:18:1421 from a transformer secondary and provide a control pin that selects which regulator (3.3V or 5V
2017-04-10 11:28:155 converter provides up to 2W of regulated, isolated power at 3.3V to 24V from a 5.0V input supply or from a 3.3V supply.
2017-09-11 10:23:013 The ADM3202/ADM3222/ADM1385 transceivers are high speed���, 2-channel RS-232/V.28 interface devices that operate from a single 3.3 V power supply.
2017-09-29 09:06:3215 The AD9204 operates from a single 1.8 V analog power supply and features a separate digital output
2017-10-10 17:09:462 The AD9231 operates from a single 1.8 V analog power supply and features a separate digital output
2017-10-11 09:23:059 The AD9251 operates from a single 1.8 V analog power supply and features a separate digital output
2017-10-11 10:31:532 The AD9609 operates from a single 1.8 V analog power supply and features a separate digital output
2017-10-11 12:45:194 The AD9629 operates from a single 1.8 V analog power supply and features a separate digital output
2017-10-11 12:52:512 The AD9649 operates from a single 1.8 V analog power supply and features a separate digital output
2017-10-11 14:13:073 supply (Normal Mode) and a single +3.3 V to +5 V supply (Biased Mode)���。
2017-10-16 15:16:377 [TI設(shè)計參考]3.3V電源調(diào)節(jié)器���。
2018-05-30 10:05:1814 不過現(xiàn)在的機械硬盤的主控電路并不一定需要+3.3V的供電,因為它們大都自帶有+5V轉(zhuǎn)+3.3V的電壓轉(zhuǎn)換電路���,因此即便只有+12V和+5V供電也可以正常工作,必須用到+3.3V的機會其實已經(jīng)大大減少���。
2018-09-28 14:56:3341864 5V轉(zhuǎn)3.3V的N種方法
2020-02-04 15:16:5425944 的電壓穩(wěn)壓成固定 3.3V 呢���? 里面包含了升壓 3V 轉(zhuǎn) 3.3V 和降壓 3.3V-4.2V 轉(zhuǎn) 3.3V.
2020-11-03 08:00:0036 LDO芯片���,PW6206, DC-DC降壓IC:PW2312PW2330PW2250.18V降壓3.3V���,15V降壓3.3V的降壓IC和LDO芯片方案
2020-11-24 08:00:007 18V降壓3.3V,15V降壓3.3V的降壓IC和LDO芯片方案
2020-11-25 17:56:0924 18V轉(zhuǎn)3.3V���,15V轉(zhuǎn)3.3V的電源芯片和40V的LDO
2020-11-25 17:50:5811 15V 降壓 3.3V,18V 降壓 3.3v 電源芯片���,降壓芯片���,穩(wěn)壓芯片,的幾款大電流 DC-DC 降壓和 LDO���,芯片選型和電路圖���,恒壓輸出的好幾款芯片���,低功耗大電流降壓 IC 15V 降壓
2020-11-30 08:00:0023 3.7V 降壓 3.3V,5V 降壓 3.3V 降壓 IC���,3A 降壓芯片���,降壓芯片和 LDO,高效率穩(wěn)壓芯片���,低功耗 LDO 和 DC 芯片���,穩(wěn)壓固定 3.3V 芯片,升降壓 3.3V 芯片���,芯片
2020-11-30 08:00:0032 3.3V 降壓 1.8V���,3V 降壓 1.8V 穩(wěn)壓芯片,降壓芯片���,電源芯片和 LDO���,輸出 3A 芯片,外圍簡單降壓芯片���,固定穩(wěn)壓 1.8V 的 IC���,效率 95%降壓芯片,三極管穩(wěn)壓 IC
2020-11-30 08:00:0026 5V 降壓 3.3V���,18V 降壓 3.3v 電源芯片���,降壓芯片,穩(wěn)壓芯片���,的幾款大電流 DC-DC 降壓和 LDO���,芯片選型和電路圖,恒壓輸出的好幾款芯片���,低功耗大電流降壓 IC 15V 降壓
2020-12-08 08:00:0029 9V 降壓 3.3V���,12V 降壓 3.3V 的 DC-DC 降壓芯片���,外圍極簡 3A 的 LDO,持續(xù)穩(wěn)定輸出芯片方案���,穩(wěn)壓芯片���,開關(guān)芯片,低紋波低功耗電源 IC���,給 MCU 供電和 3A 降壓
2020-12-08 08:00:0033 1.2V升壓到3V和3.3V的升壓芯片
2020-12-24 09:25:3913 1V 轉(zhuǎn) 3.3V 供電是簡單的���,僅需要一個芯片和三個外圍元件即可組成這樣的一個 1V 轉(zhuǎn) 3.3V 的電路圖和升壓電路了?��?梢猿掷m(xù)穩(wěn)定地供電 3.3V 給模塊或者 MCU 燈電路���。讓后端工作穩(wěn)定
2020-12-24 08:00:004 LT8618-3.3 Demo Circuit - High Efficiency 3.3V Step-Down Converter (5.5-65V to 3.3V @ 100mA)
2021-01-30 11:43:151 LT8603 Demo Circuit - Cold Crank Tolerant Automotive Triple Output Supply (3-42V to 5V @ 1.5A, 3.3V @ 2.5A, 1.8V @ 1.8A)
2021-02-04 08:50:050 LTC3890-2 Demo Circuit - Automotive 12V SEPIC and 3.3V Step-Down Converter (10-18V to 12V @ 3A & 3.3V @ 10A)
2021-02-04 14:51:272 LTC3891 Project - Low Iq, Synchronous Step-Down Supply with Inductor DCR Current Sensing (4.5-60V to 3.3V @ 5A)
2021-02-22 13:42:270 LTC3891 Project - Low Iq, Synchronous Step-Down Supply with Rsense Current Sensing (4.5-60V to 3.3V @ 5A)
2021-02-22 15:31:343 LT3066 Demo Circuit - 3.3V Supply with 497mA Precision Current Limit (3.6-45V to 3.3V @ 450mA)
2021-03-11 11:02:194 LT8618-3.3演示電路-高效3.3V降壓轉(zhuǎn)換器(5.5-65V至3.3V@100 mA)
2021-03-23 03:50:311 DN33-為3.3V數(shù)字系統(tǒng)供電
2021-04-19 13:59:337 LT1584-3.3演示電路-3.3V���、7A線性調(diào)節(jié)器(4.75-7V至3.3V@7A)
2021-06-06 19:26:204 LT1585-3.3演示電路-3.3V���、4.6A穩(wěn)壓器(4.75-7V至3.3V@4.6A)
2021-06-07 08:13:4410 LT3007演示電路-3.3V���,20 mA電源���,帶關(guān)機(3.8-45V至3.3V,20 mA時)
2021-06-07 14:04:0430 LTC3525-3.3演示電路-單堿性或NiMH至3.3V轉(zhuǎn)換器(1-1.6V至3.3V@60 mA)
2021-06-10 14:36:5881 DDR內(nèi)存是3.3V���,DDR1內(nèi)存是2.5V參考電壓是1.25V,DDR2內(nèi)存是1.8V電壓參考電壓是0.9V���。 CPU供電是雙12V的���,3.3V主要是供給開機���,復位5VSB(待機電壓)內(nèi)存電壓偏低
2021-06-23 16:28:355863 如果嘗試輸入大于VDD,3.3V的電壓���,它們會將輸入電壓箝位為VDD���,3.3V(加上正向二極管電壓,通常為0.7V)���。
2022-09-05 09:17:245726 電子發(fā)燒友網(wǎng)站提供《3.3V USBasp修改開源分享.zip》資料免費下載
2023-01-03 10:21:591 本電路采用電壓調(diào)整器TL431A���,首先生成2.495V的基準電壓,再經(jīng)過同相放大生成3.3V電壓���,為保證3.3V電源的帶載能力���,后增加一功率三極管,這樣3.3V電源電流是從5V處取得���,從而提高了3.3V電源的輸出能力���,整個電路的功耗也很小���。
2023-03-27 11:50:329610 
低電壓TVS瞬變抑制二極管在實際應(yīng)用中,很常用���,比如3.3V、5V���、6V���、6.5V、7V���、7.5V���、8V、8.5V���、9V等等���。關(guān)于3.3V的TVS二極管���,之前TVS廠家東沃電子(DOWOSEMI)向
2022-09-29 17:40:505641 
SD NAND默認是3.3V的,有些MCU只支持1.8V���,為了適配1.8V���,SD NAND需要內(nèi)部用命令把3.3V轉(zhuǎn)換成1.8V,下圖是SD協(xié)議規(guī)范
2023-09-21 14:19:034817 
開關(guān)電源輸出的5V轉(zhuǎn)化為專門用于芯片供電的3.3V電壓
2023-11-02 14:59:050 電源中+3.3V有什么用���?如果3.3 V電源的異常輸出���,如何解決呢? +3.3V電源在電子設(shè)備中具有重要的作用���。它是一種低壓電源���,廣泛應(yīng)用于數(shù)字電路���、模擬電路以及微控制器、傳感器等各種集成電路的供電
2023-11-16 14:16:005112 在嵌入式系統(tǒng)和通信領(lǐng)域���,串口(Serial Port)是一種常見的接口類型���,用于進行數(shù)據(jù)傳輸。然而���,不同的設(shè)備可能使用不同的電壓標準,例如3.3V和5V���。當需要在這兩種電壓設(shè)備之間進行通信時���,可能會
2023-12-19 13:51:3012486 電子發(fā)燒友網(wǎng)站提供《低功耗,1.8/2.5/3.3V 輸入���,3.3V CMOS輸出���,單路施密特觸發(fā)器反向器柵極數(shù)據(jù)表.pdf》資料免費下載
2024-05-09 10:34:040
電子發(fā)燒友App
工商網(wǎng)監(jiān)
評論