IC915-PTC

概述：M8915是一款带有源功率因数校正的高精度非隔离降压型LED恒流控制芯片，M8915集成有源功率因数校正电路，可以实现很高的功率因数和很低的总谐波失真。

由于工作在电感电流临界连续模式，功率MOS管处于零电流开通状态，开关损耗得以减小，同时电感的利用率也较高。

M8915内部集成500V功率MOSFET,只需要很少的外围器件，即可实现优异的恒流特性。

M8915采用专利的浮地构架，对电感电流进行全周期采样，可实现高精度输出恒流控制，并达到优异的线电压调整率和负载调整率。

另外，M8915具有过热调节功能，在驱动电源过热时减小输出电流，以提高系统的可靠性。

特点：应用：■内置有源功率因数校正■GU10/E27 LED球泡灯、射灯■电感电流临界连续模式■LED PAR灯■高性能的线电压调整率和负载调整率■LED日光灯■±3%输出电流精度■其它■内置500V功率MOSFET■启动电流■高达95%的系统效率■多重保护功能LED开路/短路保护电流采样电阻开路保护逐周期原边电流限流芯片供电过压/欠压保护自动重启功能过热调节功能■采用SOP-8封装典型应用：图1 M8915典型应用图管脚排列图:图2 M8915管脚排列图管脚描述：极限参数：电气参数：Tc=25℃注5：规格书的最小、最大规范范围由测试保证，典型值由设计、测试或统计分析保证。

芯片内部结构框图：图3 M8915内部框图应用信息M8915是一款非隔离式、有源功率因数校正LED恒流控制芯片，工作在电感电流临界连续模式，芯片可以实现很高的功率因数和高效率。

启动系统上电后，经过整流后的电压通过启动电阻给VDD引脚的电容充电，当VDD电压上升到启动阈值电压后，芯片内部控制电路开始工作，COMP电压被上拉到1.7V，M8915开始输出脉冲信号，COMP电压从1.7V开始逐渐上升，原边峰值电流随之上升，从而实现输出LED电流的软启动，有效防止输出电流过冲。

上海瀚宇推出低成本915nm泵浦激光器模块来自德国柏林的泵浦激光器和激光器芯片制造商Lumics公司近期推出非制冷的低成本泵浦激光器模块LU0915T050，这款激光器模块采用光纤耦合输出，输出功率可达5W以上，工作波长为915nm。

该激光器采用了Lumics新一代激光器芯片，电-光功率转换效率大于60%。

Lumics推出的新一代激光器芯片的激光二极管组件采用非制冷的TO220封装，100/125um多模光纤输出，组件的封装尺寸只有22x11mm,包括一个2.7mm的螺丝孔，用户可以方便地把模块安装到热沉上。

新的封装设计可以作为一系列高功率单发射激光二极管的封装平台，相关波长的产品包括808nm，915nm和975nm的激光器模块，器件的性能价格比非常优秀。

激光器模块可以采用适合于市场上流行的TO220封装尺寸的标准热沉元件，风冷（AirCooled）工作。

标称寿命为40,000小时MTTF。

LU0915T050的目标应用包括掺镱光纤激光器和光纤放大器。

这款新一代高功率的泵浦激光器模块将能够有效降低光纤激光器/放大器的系统设计成本，并且提升系统性能。

LU0915T050整个模块的组装过程在Lumics全自动光纤主动对准技术的基础上完成，生产过程遵照ISO9001质量体系规范，整个芯片制作过程和模块组装过程中有多次扫描（显示）步骤控制，产品批次性具有高可靠性。

LU0915T050模块标称的典型工作电流5.5A，最大的标称前向电压只有2.1V。

输出多模光纤的数值孔径为0.22（NA），典型的阀值电流为500mA。

激光二极管与接地（ground）隔离。

Lumics特有的芯片技术使得LU0915T050成为市场上高性能激光器之一，另外，Lumics在激光器端面钝化技术的突破能够确保激光器模块长期高可靠的性能表现。

关于Lumics德国Lumics公司是一家致力于光纤耦合激光器的专业公司，公司提供800-1080nm高功率半导体激光器模块和光纤激光器模块，产品的封装形式包括14PIN蝶形，mini双列直插，TO-220同轴等等。

常用开关电源芯片大全第1章DC-DC电源转换器/基准电压源1.1 DC-DC电源转换器1.低噪声电荷泵DC-DC电源转换器AAT3113/AAT31142.低功耗开关型DC-DC电源转换器ADP30003.高效3A开关稳压器AP15014.高效率无电感DC-DC电源转换器FAN56605.小功率极性反转电源转换器ICL76606.高效率DC-DC电源转换控制器IRU30377.高性能降压式DC-DC电源转换器ISL64208.单片降压式开关稳压器L49609.大功率开关稳压器L4970A11.2A高效率单片开关稳压器L497812.1A高效率升压/降压式DC-DC电源转换器L597014.高效率1A降压单片开关稳压器LM1575/LM2575/LM2575HV15.3A降压单片开关稳压器LM2576/LM2576HV16.可调升压开关稳压器LM257717.3A降压开关稳压器LM259618.高效率5A开关稳压器LM267819.升压式DC-DC电源转换器LM2703/LM270420.电流模式升压式电源转换器LM273321.低噪声升压式电源转换器LM275022.小型75V降压式稳压器LM500723.低功耗升/降压式DC-DC电源转换器LT107324.升压式DC-DC电源转换器LT161525.隔离式开关稳压器LT172526.低功耗升压电荷泵LT175127.大电流高频降压式DC-DC电源转换器LT176528.大电流升压转换器LT193529.高效升压式电荷泵LT193730.高压输入降压式电源转换器LT195632.高压升/降压式电源转换器LT343333.单片3A升压式DC-DC电源转换器LT343634.通用升压式DC-DC电源转换器LT346035.高效率低功耗升压式电源转换器LT346437.大电流高效率升压式DC-DC电源转换器LT378238.微型低功耗电源转换器LTC175440.低噪声高效率降压式电荷泵LTC191141.低噪声电荷泵LTC3200/LTC3200-542.无电感的降压式DC-DC电源转换器LTC325143.双输出/低噪声/降压式电荷泵LTC325244.同步整流/升压式DC-DC电源转换器LTC340145.低功耗同步整流升压式DC-DC电源转换器LTC340246.同步整流降压式DC-DC电源转换器LTC340547.双路同步降压式DC-DC电源转换器LTC340748.高效率同步降压式DC-DC电源转换器LTC341649.微型2A升压式DC-DC电源转换器LTC342650.2A两相电流升压式DC-DC电源转换器LTC342851.单电感升/降压式DC-DC电源转换器LTC344052.大电流升/降压式DC-DC电源转换器LTC344254.直流同步降压式DC-DC电源转换器LTC370355.双输出降压式同步DC-DC电源转换控制器LTC373656.降压式同步DC-DC电源转换控制器LTC377057.双2相DC-DC电源同步控制器LTC380258.高性能升压式DC-DC电源转换器MAX1513/MAX151459.精简型升压式DC-DC电源转换器MAX1522/MAX1523/MAX152460.高效率40V升压式DC-DC电源转换器MAX1553/MAX155461.高效率升压式LED电压调节器MAX1561/MAX159962.高效率5路输出DC-DC电源转换器MAX156563.双输出升压式DC-DC电源转换器MAX1582/MAX1582Y64.驱动白光LED的升压式DC-DC电源转换器MAX158365.高效率升压式DC-DC电源转换器MAX1642/MAX164366.2A降压式开关稳压器MAX164467.高效率升压式DC-DC电源转换器MAX1674/MAX1675/MAX167668.高效率双输出DC-DC电源转换器MAX167769.低噪声1A降压式DC-DC电源转换器MAX1684/MAX168570.高效率升压式DC-DC电源转换器MAX169871.高效率双输出降压式DC-DC电源转换器MAX171572.小体积升压式DC-DC电源转换器MAX1722/MAX1723/MAX172473.输出电流为50mA的降压式电荷泵MAX173074.升/降压式电荷泵MAX175975.高效率多路输出DC-DC电源转换器MAX180076.3A同步整流降压式稳压型MAX1830/MAX183177.双输出开关式LCD电源控制器MAX187878.电流模式升压式DC-DC电源转换器MAX189679.具有复位功能的升压式DC-DC电源转换器MAX194780.高效率PWM降压式稳压器MAX1992/MAX199381.大电流输出升压式DC-DC电源转换器MAX61882.低功耗升压或降压式DC-DC电源转换器MAX62983.PWM升压式DC-DC电源转换器MAX668/MAX66984.大电流PWM降压式开关稳压器MAX724/MAX72685.高效率升压式DC-DC电源转换器MAX756/MAX75786.高效率大电流DC-DC电源转换器MAX761/MAX76287.隔离式DC-DC电源转换器MAX8515/MAX8515A88.高性能24V升压式DC-DC电源转换器MAX872789.升/降压式DC-DC电源转换器MC33063A/MC34063A90.5A升压/降压/反向DC-DC电源转换器MC33167/MC3416791.低噪声无电感电荷泵MCP1252/MCP125392.高频脉宽调制降压稳压器MIC220393.大功率DC-DC升压电源转换器MIC229594.单片微型高压开关稳压器NCP1030/NCP103195.低功耗升压式DC-DC电源转换器NCP1400A96.高压DC-DC电源转换器NCP140397.单片微功率高频升压式DC-DC电源转换器NCP141098.同步整流PFM步进式DC-DC电源转换器NCP142199.高效率大电流开关电压调整器NCP1442/NCP1443/NCP1444/NCP1445 100.新型双模式开关稳压器NCP1501101.高效率大电流输出DC-DC电源转换器NCP1550102.同步降压式DC-DC电源转换器NCP1570103.高效率升压式DC-DC电源转换器NCP5008/NCP5009104.大电流高速稳压器RT9173/RT9173A105.高效率升压式DC-DC电源转换器RT9262/RT9262A106.升压式DC-DC电源转换器SP6644/SP6645107.低功耗升压式DC-DC电源转换器SP6691108.新型高效率DC-DC电源转换器TPS54350109.无电感降压式电荷泵TPS6050x110.高效率升压式电源转换器TPS6101x111.28V恒流白色LED驱动器TPS61042112.具有LDO输出的升压式DC-DC电源转换器TPS6112x113.低噪声同步降压式DC-DC电源转换器TPS6200x114.三路高效率大功率DC-DC电源转换器TPS75003115.高效率DC-DC电源转换器UCC39421/UCC39422116.PWM控制升压式DC-DC电源转换器XC6371117.白光LED驱动专用DC-DC电源转换器XC9116118.500mA同步整流降压式DC-DC电源转换器XC9215/XC9216/XC9217 119.稳压输出电荷泵XC9801/XC9802120.高效率升压式电源转换器ZXLB16001.2 线性/低压差稳压器121.具有可关断功能的多端稳压器BAXXX122.高压线性稳压器HIP5600123.多路输出稳压器KA7630/KA7631124.三端低压差稳压器LM2937125.可调输出低压差稳压器LM2991126.三端可调稳压器LM117/LM317127.低压降CMOS500mA线性稳压器LP38691/LP38693 128.输入电压从12V到450V的可调线性稳压器LR8129.300mA非常低压降稳压器（VLDO）LTC3025130.大电流低压差线性稳压器LX8610131.200mA负输出低压差线性稳压器MAX1735132.150mA低压差线性稳压器MAX8875133.带开关控制的低压差稳压器MC33375134.带有线性调节器的稳压器MC33998136.低静态电流低压差稳压器NCP562/NCP563137.具有使能控制功能的多端稳压器PQxx138.五端可调稳压器SI-3025B/SI-3157B139.400mA低压差线性稳压器SPX2975140.五端线性稳压器STR20xx141.五端线性稳压器STR90xx142.具有复位信号输出的双路输出稳压器TDA8133143.具有复位信号输出的双路输出稳压器TDA8138/TDA8138A 144.带线性稳压器的升压式电源转换器TPS6110x145.低功耗50mA低压降线性稳压器TPS760xx146.高输入电压低压差线性稳压器XC6202147.高速低压差线性稳压器XC6204148.高速低压差线性稳压器XC6209F149.双路高速低压差线性稳压器XC64011.3 基准电压源150.新型XFET基准电压源ADR290/ADR291/ADR292/ADR293 151.低功耗低压差大输出电流基准电压源MAX610x152.低功耗1.2V基准电压源MAX6120155.低功耗精密低压降基准电压源REF30xx/REF31xx156.精密基准电压源TL431/KA431/TLV431A第2章AC-DC转换器及控制器1.厚膜开关电源控制器DP104C2.厚膜开关电源控制器DP308P3.DPA-Switch系列高电压功率转换控制器DPA423/DPA424/DPA425/DPA4264.电流型开关电源控制器FA13842/FA13843/FA13844/FA138455.开关电源控制器FA5310/FA53116.PWM开关电源控制器FAN75567.绿色环保的PWM开关电源控制器FAN76018.FPS型开关电源控制器FS6M07652R9.开关电源功率转换器FS6Sxx10.降压型单片AC-DC转换器HV-2405E11.新型反激准谐振变换控制器ICE1QS0112.PWM电源功率转换器KA1M088013.开关电源功率转换器KA2S0680/KA2S088014.电流型开关电源控制器KA38xx15.FPS型开关电源功率转换器KA5H0165R16.FPS型开关电源功率转换器KA5Qxx17.FPS型开关电源功率转换器KA5Sxx18.电流型高速PWM控制器L499019.具有待机功能的PWM初级控制器L599120.低功耗离线式开关电源控制器L659021.LINK SWITCH TN系列电源功率转换器LNK304/LNK305/LNK30622.LINK SWITCH系列电源功率转换器LNK500/LNK501/LNK52023.离线式开关电源控制器M51995A24.PWM电源控制器M62281P/M62281FP25.高频率电流模式PWM控制器MAX5021/MAX502226.新型PWM开关电源控制器MC4460427.电流模式开关电源控制器MC4460528.低功耗开关电源控制器MC4460829.具有PFC功能的PWM电源控制器ML482430.液晶显示器背光灯电源控制器ML487631.离线式电流模式控制器NCP120032.电流模式脉宽调制控制器NCP120533.准谐振式PWM控制器NCP120734.低成本离线式开关电源控制电路NCP121535.低待机能耗开关电源PWM控制器NCP123036.STR系列自动电压切换控制开关STR8xxxx37.大功率厚膜开关电源功率转换器STR-F665438.大功率厚膜开关电源功率转换器STR-G865639.开关电源功率转换器STR-M6511/STR-M652940.离线式开关电源功率转换器STR-S5703/STR-S5707/STR-S570841.离线式开关电源功率转换器STR-S6401/STR-S6401F/STR-S6411/STR-S6411F 442.开关电源功率转换器STR-S651343.离线式开关电源功率转换器TC33369～TC3337444.高性能PFC与PWM组合控制集成电路TDA16846/TDA1684745.新型开关电源控制器TDA1685046.“绿色”电源控制器TEA150447.第二代“绿色”电源控制器TEA150748.新型低功耗“绿色”电源控制器TEA153349.开关电源控制器TL494/KA7500/MB375950.Tiny SwitchⅠ系列功率转换器TNY253、TNY254、TNY25551.Tiny SwitchⅡ系列功率转换器TNY264P～TNY268G52.TOP Switch（Ⅱ）系列离线式功率转换器TOP209～TOP22753.TOP Switch-FX系列功率转换器TOP232/TOP233/TOP23454.TOP Switch-GX系列功率转换器TOP242～TOP25055.开关电源控制器UCX84X56.离线式开关电源功率转换器VIPer12AS/VIPer12ADIP57.新一代高度集成离线式开关电源功率转换器VIPer53第3章功率因数校正控制/节能灯电源控制器1.电子镇流器专用驱动电路BL83012.零电压开关功率因数控制器FAN48223.功率因数校正控制器FAN75274.高电压型EL背光驱动器HV8265.EL场致发光背光驱动器IMP525/IMP5606.高电压型EL背光驱动器/反相器IMP8037.电子镇流器自振荡半桥驱动器IR21568.单片荧光灯镇流器IR21579.调光电子镇流器自振荡半桥驱动器IR215910.卤素灯电子变压器智能控制电路IR216111.具有功率因数校正电路的镇流器电路IR216612.单片荧光灯镇流器IR216713.自适应电子镇流器控制器IR252014.电子镇流器专用控制器KA754115.功率因数校正控制器L656116.过渡模式功率因数校正控制器L656217.集成背景光控制器MAX8709/MAX8709A18.功率因数校正控制器MC33262/MC3426219.固定频率电流模式功率因数校正控制器NCP165320.EL场致发光灯高压驱动器SP440321.功率因数校正控制器TDA4862/TDA486322.有源功率因数校正控制器UC385423.高频自振荡节能灯驱动器电路VK05CFL24.大功率高频自振荡节能灯驱动器电路VK06TL第4章充电控制器1.多功能锂电池线性充电控制器AAT36802.可编程快速电池充电控制器BQ20003.可进行充电速率补偿的锂电池充电管理器BQ20574.锂电池充电管理电路BQ2400xB接口单节锂电池充电控制器BQ2402x7.2A同步开关模式锂电池充电控制器BQ241008.集成PWM开关控制器的快速充电管理器BQ29549.具有电池电量计量功能的充电控制器DS277010.锂电池充电控制器FAN7563/FAN756411.2A线性锂/锂聚合物电池充电控制器ISL629212.锂电池充电控制器LA5621M/LA5621V14.2A恒流/恒压电池充电控制器LT176915.线性锂电池充电控制器LTC173216.带热调节功能的1A线性锂电池充电控制器LTC173317.线性锂电池充电控制器LTC173418.新型开关电源充电控制器LTC198019.开关模式锂电池充电控制器LTC400220.4A锂电池充电器LTC400621.多用途恒压/恒流充电控制器LTC400823.可由USB端口供电的锂电池充电控制器LTC405324.小型150mA锂电池充电控制器LTC405425.线性锂电池充电控制器LTC405826.单节锂电池线性充电控制器LTC405927.独立线性锂电池充电控制器LTC406128.镍镉/镍氢电池充电控制器M62256FP29.大电流锂/镍镉/镍氢电池充电控制器MAX150130.锂电池线性充电控制器MAX150731.双输入单节锂电池充电控制器MAX1551/MAX155532.单节锂电池充电控制器MAX167933.小体积锂电池充电控制器MAX1736B接口单节锂电池充电控制器MAX181135.多节锂电池充电控制器MAX187336.双路输入锂电池充电控制器MAX187438.低成本/多种电池充电控制器MAX190839.开关模式单节锂电池充电控制器MAX1925/MAX192640.快速镍镉/镍氢充电控制器MAX2003A/MAX200341.可编程快速充电控制器MAX712/MAX71342.开关式锂电池充电控制器MAX74543.多功能低成本充电控制器MAX846A44.具有温度调节功能的单节锂电池充电控制器MAX8600/MAX860145.锂电池充电控制器MCP73826/MCP73827/MCP7382846.高精度恒压/恒流充电器控制器MCP73841/MCP73842/MCP73843/MCP73844 647.锂电池充电控制器MCP73861/MCP7386248.单节锂电池充电控制器MIC7905049.单节锂电池充电控制器NCP180050.高精度线性锂电池充电控制器VM7205。

ptc半导体陶瓷发热芯片-回复PTC半导体陶瓷发热芯片，一种具有独特性能的加热元件，其在现代科技应用中扮演着重要的角色。

本文将从介绍PTC半导体陶瓷发热芯片的基本原理，到其在各个领域中的应用，以及其优缺点等方面进行详细探讨。

PTC（Positive Temperature Coefficient）半导体陶瓷发热芯片是一种具有特殊温度-电阻特性的材料。

其电阻值在低温下较小，但当温度升高时电阻会变大。

这一特性使得PTC半导体陶瓷发热芯片在加热过程中能够自动调节电流和温度，从而实现稳定、可靠的加热效果。

PTC半导体陶瓷发热芯片的制作过程采用现代先进的陶瓷工艺。

首先，将高纯度的陶瓷原料进行混合，并在高温下进行烧结，制成具有特定形状和尺寸的陶瓷芯片。

然后，在陶瓷芯片上利用镀膜技术附加电极，形成导电通路。

最后，对陶瓷芯片进行加工成型，并与其他元件进行组装，形成完整的PTC半导体陶瓷发热芯片。

PTC半导体陶瓷发热芯片由于其独特的性能，广泛应用于各个领域。

首先，它常被用作暖风机、取暖器和恒温控制设备等加热设备的加热元件。

在这些设备中，PTC半导体陶瓷发热芯片能够快速实现自动控温，提供恒定的加热效果，从而提高设备的安全性和稳定性。

其次，在汽车行业中，PTC 半导体陶瓷发热芯片也被广泛应用于加热座椅、汽车风窗除霜器等设备中，提供舒适的驾乘环境。

此外，PTC半导体陶瓷发热芯片还常被用于医疗设备、工业加热、电子设备防冻和电路保护等领域。

PTC半导体陶瓷发热芯片相较于其他加热元件而言，具有许多优点。

首先，它具有很好的稳定性和可靠性。

由于其能够根据温度自动调节电流，在使用时能够保持较低的功耗，延长使用寿命。

其次，PTC半导体陶瓷发热芯片加热响应快，加热效果好。

它的加热速度快，能够迅速升温到设定温度，提高了加热效率。

此外，PTC半导体陶瓷发热芯片无需额外的温度控制装置，可以实现自动控温，简化了系统设计。

然而，PTC半导体陶瓷发热芯片也存在一些缺点，如价格较高，制作工艺复杂等，限制了其在某些领域中的应用。

Battery Power Function Pack Design Guide Powering Y our Portable DesignMicrocontrollers PIC16C781MOSFET Drivers TC1411NBattery Chargers MCP73828Charge Pump DC/DC Converters MCP1252-ADJLow Dropout Linear Regulators TC55, TC1016Design ideas in this guide are based on many of the devices featured in Microchip Technology's Battery Management Function Pack, or “Fun Pack.” A complete device list and corresponding data sheets for these products can be found at /funpack Design ideas in this guide use the following devices:Operational Amplifiers MCP6041, MCP602Switching Regulators MCP1601, TC1102Closed loop control with linear regulators.Often the voltage source is “incompatible” with the load. A buffer needs to be placed between the source and load to regulate or control the voltage and/or current.Linear regulators provide closed loop control to “regulate”the voltage at the load. A basic linear regulator has three main components: an operational amplifier, a voltage reference, and a pass transistor . The main purpose of a linear regulator is to produce a constant, accurate outputvoltage at a lower magnitude than the input voltage.TC1016 Linear Regulator Features:n Space-Saving 5-Pin SC-70 Packagen Extremely Low Operating Current for Longer n Battery Life: 53 µA (typ.)n Very Low Dropout Voltage n Rated 80 mA Output CurrentnRequires only 1 µF Ceramic Output Capacitancen High Output Voltage Accuracy: ±0.5% (typ.)n 10 µsec (typ.) Wake-Up Time from SHDN n Power-Saving Shutdown Mode: 0.05 µA(typ.)n Over-Current and Over-Temperature Protection nPin Compatible Upgrade for Bipolar RegulatorsBeyond the basics, linear regulators often offer additional features: over-current protection, thermal protection, and reversed polarity protection to name a few.Microchip offers a line of CMOS, low dropout linear regulators. A low dropout regulator is a type of linearregulator designed to minimize the saturation of the output transistor and to minimize the drive requirements. LDOs can operate with a very small input to output differential.Specifications: Selected Linear RegulatorsTypical Typical Dropout Device Max. Input Output Output Active Voltage @ Max. Name Voltage Voltage Current (mA)Current (µA)I OUT (mV)FeaturesPackages TC1016 6.0 1.8, 2.7, 2.8, 3.08050150Shutdown5-pin SC-70TC5510 1.8, 2.5, 3.0, 3.3, 5.0250 1.13803-pin SOT-23A/SOT-89,3-pin TO-92TC2014 6.0 1.8, 2.5, 3.0, 3.3505545Shutdown, Reference bypass input 5-pin SOT-23A TC2015 6.0 1.8, 2.7, 2.8, 3.0, 3.31005590Shutdown, Reference bypass input 5-pin SOT-23A TC2185 6.0 1.8, 2.7, 2.8, 3.0, 3.315055140Shutdown, Reference bypass input 5-pin SOT-23A TC2116 6.0 1.8, 2.7, 2.8, 3.0, 3.315055140Shutdown, Error output5-pin SOT-23A TC21176.01.8,2.5,3.0, 3.3800806003-pin SOT-223, 3-pin DDPAKSpecifications: Selected Linear Regulator Combination Products:TC1300 6.0 2.5, 2.7, 2.8, 2.85, 30080210Shutdown Reference bypass input,8-pin MSOPLDO plus RESET output TC1301A/B*6.01.5 - 3.3 @ 100 mV300 / 150116104 / 150Dual LDO with RESET & 8-pin MSOP , 8-pin DFNincrementShutdown; TC1301B has individual shutdown*available summer 2003names: voltage step-down converter, DC-to-DC converter,chopper converter, etc. No matter what the name, inductor based, buck derived, switch-mode converters account for 80% to 90% of all converters sold.Microchip offers inductor based buck regulators and controllers. The distinction is whether or not the switch (MOSFET) is internal to the device (regulator) or controlled externally (controller). The schematic represented here depicts a MCP1601 buck regulator with its associatedexternal components.MCP1601 Synchronous Buck Regulator Features:n Input Range of 2.7V to 5.5V n PWM, PFM and LDO Operation n Integrated Switchesn 750 kHz Fixed Switching Frequencyn Oscillator Synchronization to 1 MHz PWM Mode n Auto-Switching from PWM/PFMn100% Duty Cycle Capable for Low Input Voltagen 500 mA Continuous Output Current n Under-Voltage Lock-Out Protection n Over-Temperature Protection n Integrated Soft Start Circuitry n Output Voltage Capability to 0.9Vn Wide Operating Temperature Range: -40°C to +85ºC nSmall MSOP8 PackageEmploying a switch-mode power converter.Anotherapproach to transferring the battery energy to the system load is to employ a switch-mode power converter . The primary advantage of a switch-mode power converter is that it can, ideally, accomplish power conversion and regulation at 100% efficiency. All power loss is due to non-ideal components and power loss in the control circuit.The buck converter is an inductor based switch-mode power converter used to step-down an input source to a lower magnitude output. The buck converter goes by manySpecifications: Selected Switching RegulatorsInput Voltage Output Switching Device OutputBuck/BoostRange (V)Voltage (V)Frequency FeaturesPackages MCP1601 Adjustable Step-Down 2.7 to 5.50.9 to V IN PWM/PFM/UVLO, Auto Switching, LDO 8-pin MSOP LDO TC105 Fixed Step-Down 2.2 to 10 3.0, 3.3, 5.0PFM/PWM Low-power shutdown mode5-pin SOT-23A TC110 Fixed Step-Up 2.0 to 10 3.0, 3.3, 5.0PFM/PWM Soft-start, Low-power shutdown mode 5-pin SOT-23A TC115 Fixed Step-Up 0.9 to 10 3.0, 3.3, 5.0PFM/PWM Feedback voltage sensing, Low-power shutdown mode5-pin SOT-89TC120 Fixed Step-Down 1.8 to 10 3.0, 3.3, 5.0PFM/PWM Soft-start, Low-power shutdown mode 8-pin SOP TC125 Fixed Step-Up 0.9 to 10 3.0, 3.3, 5.0PFM Low-power shutdown mode 5-pin SOT-23A TC126FixedStep-Up0.9 to 103.0, 3.3, 5.0PFMFeedback voltage sensing5-pin SOT-23A34Specifications: Battery Charger FamilyDevice Vcc Typical Supply Name Mode Cell Type Range (V)Current (µA)Features Packages MCP73826Linear Single Cell Lithium Ion 4.5 to 5.5260Small size6-pin SOT-23A MCP73827Linear Single Cell Lithium Ion 4.5 to 5.5250Mode indicator, charge current monitor 8-pin MSOP MCP73828LinearSingle Cell Lithium Ion4.5 to5.5265Charge complete indicator, temperature monitor8-pin MSOPMCP73828 Battery Charger Features:n High Accuracy Preset Voltage Regulation n Programmable Charge Current n Charge Complete IndicatornContinuous Temperature MonitoringUsing the MCP73828 charge management controller.The MCP73828 is a linear charge management controller for use in space-limited, cost sensitive applications. The MCP73828 combines high accuracy constant voltage,controlled current regulation, cell preconditioning, celltemperature monitoring, and charge complete indication in a space saving 8-pin MSOP package. The MCP73828provides a stand-alone charge management solution.n Automatic Power-Down when Input Power Removed n Shutdown Input for Charge Termination Control n Small 8-pin MSOP PackageSpecifications: PIC16C781/782Device OTP/Flash RAM I/O 8-Bit ADCComp-Timers/Max.Name Bytes Words Bytes Pins Packages Channels arators WDT Speed MHz.Other FeaturesPIC16C78117921024x141281620P , 20SO, 20SS, 821-16 bit, 1-8 bit,20Precision Vref, Op Amp, PSMC,PIC16C78235842048x1420JW1-WDT4MHz internal oscillator, DAC TC55 Low Dropout Positive Voltage Regulator Features:n Very Low Operating Current (1µA)n Very Low Dropout Voltage: 120mV typ at 100mA, 380mV typ at200mAn High Output Current: 250mA (V OUT = 5.0V)TC1411N Power MOSFET Driver Features:n Single, Non-inverting, Low-Side Driver, 1A Peak Output Current n Latch-Up Protected: Will Withstand 500mA Reverse Current n Input Will Withstand Negative Inputs Up to 5V nESD Protected: 4kVSwitch-mode, multi-chemistry charge management controller.The PIC16C781/782 are mixed analog/digital microcontrollers that combine the popular PIC®architecture with new mixed signal peripherals. The resulting devices change many of the old conventions of embedded design, and open up new application possibilities for the microcontroller .One of the applications that can take advantage of the PIC16C781/782’s unique peripheral set is a switch-mode,PIC16C781/782 Microcontroller Features:n Complete programmability n Enormous flexibilityn Stand-alone operation or in conjunction with a Smart Battery Pack nSix peripherals including 8x8-bit A/D, 8-bit D/A, V REF , Op Amp, 2x comparators, programmable switch mode controllerMCP602 Op Amp Features:n Specifications rated from 2.7V to 5.5V supplies n 2.8MHz GBWP , Unity gain stable n Low power I DD = 325mA maxnDual (MCP601 sinlge, MCP604 quad, MCP603 w/Chip Select)multi-chemistry charge management controller . This solution provides an enormous amount of design flexibility. The PIC16C781/782 can be used in a variety of switch-mode architectures allowing for diverse input and output voltages, control over charge current, charge voltage, or both. In addition, charge termination and multiple safety features can be incorporated.Specifications: MCP601/2/3/4Device# per package GBWP I Q Typ. (µA)V OS Max (mV)Operating VoltagePackagesMCP601/2/3/41/2/1 with CS/4 2.8 MHz23022.7 to 5.58-pin PDIP , 8-pin SOIC, 8-pin MSOP , 5-pin SOTSpecifications: TC55 Low Dropout Positive Voltage RegulatorDevice Max. Input VoltageOutput Voltage (V)Typ. Dropout Voltage @ 200mVTyp. Output Volt. Accuracy (%)PackagesTC55101.8,2.5,3.0,3.3,5.0380mV±0.53-pin SOT-23A, 3-pin SOT-89, 3-pin TO-92Specifications: TC1411N Power MOSFET DriverDevice Configuration Peak Output Current (A)Output Resistance (RH/RL) (Max. Ω@ 25°C)Max. Supply Voltage (V)PackagesTC1411NSingle, non-inverting111/11168-pin PDIP , 8-pin SOIC56Biasing the backlighting. The MCP1252-ADJ is an inductorless, positive-regulated charge pump DC/DC converter. The device generates an adjustable output voltage. It is specifically designed for applications requiring low noise and high efficiency and is able to deliver up to 120 mA output current. The device allows the input voltage to be lower or higher than the output voltage, by automatically switching between buck/ boostoperation.MCP1252 Charge Pump Features:n Inductorless, Buck/Boost, DC/DC Converter n Low Power: 80 µA (Typical)n 120 mA Output Currentn Wide Operating Temperature Range: -40°C to +85°C n Thermal Shutdown and Short-Circuit Protection nUses Small Ceramic Capacitorsn Low Power Shutdown Mode: 0.1 µA (Typical)n Shutdown Input Compatible with 1.8V Logic n V IN Range: 2.0V to 5.5V n Adjustable Output Voltage n Space-saving, 8-Lead MSOPnSoft-Start Circuitry to Minimize In-Rush CurrentToday's new color displays require a pure white light for back lighting. White light emitting diodes have become the component of choice. The MCP1252-ADJ is an excellent choice for biasing the back lighting. Light intensity is controlled uniformly through the use of ballast resistors.The peak intensity is set by the feedback to theMCP1252-ADJ. Dimming is accomplished by pulse-width modulating the shutdown pin of the device.Selected Regulated Charge Pump DC/DC Converters Specifications:Typical ActiveDevice Input Voltage Output Max. Input Output NameRange (V)VoltageCurrent (µA)Current (mA)FeaturesPackages MCP1252-33X50 2.7 to 5.5Selectable 3.3 or 5.0V 120 120mA for V IN >3.0V Power-Good output, 650 kHz oscillator 8-pin MSOP MCP1252-ADJ 2.0 to 5.5 Adjustable 1.5V to 5.5V 120 120mA for V IN >3.0V Power-Good output, 650 kHz oscillator 8-pin MSOP MCP1253-33X50 2.7 to 5.5 Selectable 3.3 or 5.0V120 120mA for V IN >3.0V Power-Good output, 1 MHz oscillator 8-pin MSOP MCP1253-ADJ 2.0 to 5.5 Adjustable 1.5V to 5.5V120 120mA for V IN >3.0VPower-Good output, 1 MHz oscillator8-pin MSOPTC11422.5 to 5.5-3V to -5V40020Regulated GaAs FET Supply, Internal 200 kHz oscillator, External clock 3 kHzto 500 kHz, Low-power shutdown mode 8-pin MSOPMicrochip also offers Inverting or Doubling Charge Pumps, Multi-Function Charge Pumps and Inverting and Doubling Charge Pumps. See the Microchip website for complete specifications .Driving white light emitting diodes in series. Analternative to the MCP1252 back lighting approach is to drive the white light emitting diodes in series. The series connection provides improved brightness matchingbetween the diodes since they all operate with the sameTC110 Step-Up DC/DC Controller Features:n Assured Start-up at 0.9Vn 50uA (Typ) Supply Current (f OSC = 100kHz)n 300mA Output Current @ V IN > 2.7V n 0.5uA Shutdown Moden 100kHz and 300kHz Switching Frequency Options n Programmable Soft-Start n 84% Typical EfficiencynSmall Package: 5-Pin SOT-23ASelected Switching Regulators Specifications:Input Voltage Output SwitchingDevice Output Buck/Boost Range (V)Voltage (V)Frequency FeaturesPackages TC110 Fixed Step-Up 2.0 to 10 3.0, 3.3, 5.0PFM/PWM Soft-start, Low-power shutdown mode 5-pin SOT-23A TC120FixedStep-Down1.8 to 103.0, 3.3, 5.0PFM/PWMSoft-start, Low-power shutdown mode8-pin SOPcurrent. Light intensity is adjusted by controlling the current through the diodes.The TC110 is a boost controller that can be used to bias the diodes in series as depicted.MCP6041/2/3/4 Operational Amplifier Features:n Low Quiescent Current: 600 nA/Amplifier (typ)n Rail-to-Rail Input: -0.3 V to V DD +0.3 V (max)n Rail-to-Rail Output: V SS +10 mV to V DD -10 mV (max)n Gain Bandwidth Product: 14 kHz (typ)n Wide Supply Voltage Range: 1.4 V to 5.5 V (max)n Unity Gain Stablen Available in Single, Dual and Quad n Chip Select (CS) with MCP6043n5-lead SOT-23 package (MCP6041 only)Selected Op Amp Specifications:Device# per packageGBWP IQ Typ. (µA)V OS Max (mV)Operating VoltageFeatures Packages MCP6041114 kHz 0.63 1.4 to 5.5Rail-to-rail I/O, 8-pin PDIP/SOIC/MSOP MCP61411100 kHz 0.63 1.4 to 5.5Rail-to-rail I/O, G>10 stable 8-pin PDIP/SOIC/MSOP MCP61422100 kHz 0.63 1.4 to 5.5Rail-to-rail I/O, G>10 stable 8-pin PDIP/SOIC/MSOP MCP61431100 kHz 0.63 1.4 to 5.5Rail-to-rail I/O, G>10 stable, CS 8-pin PDIP/SOIC/MSOP MCP61444100 kHz0.631.4 to 5.5Rail-to-rail I/O, G>10 stable14-pin PDIP/SOIC/MSOP7-The following Application Notes and Technical Briefs are available on the Microchip website: Application Notes:AN246:Driving the Analog Inputs of a SAR A/D Converter AN667:Smart Battery Charger with SMBus InterfaceAN693:Understanding A/D Converter Performance Specifications AN779:Using the Microchip TC54 Voltage DetectorAN786:Considerations for Driving Power MOSFETs in High Current, Switch-mode Regulators AN792: A Method to Determine How Much Power a SOT23 Can Dissipate in an ApplicationAN793:Power Management in Portable Applications: Understanding the Buck Switch-mode Power Converter AN799:Matching MOSFET Drivers to MOSFETsTechnical Briefs:TB065:Linear Circuit Devices for Applications in Battery Powered Wireless SystemsEvaluation Boards:Microchip offers a number of boards to help you evaluate device families. Contact your local Microchip sales office for a demonstration.Evaluation boards are available for the following devices featured in this guide.MCP1252/3MCP73826/7/8MCP1601MCP1301Information subject to change. The Microchip name and logo, PIC, PICmicro, are registered trademarks of Microchip Technology Incorporated in the U.S.A. and other coun-tries. All other trademarks mentioned herein are the property of their respective companies. © 2003, Microchip Technology Inc. All rights reserved. DS39610A 5/2003Microchip Technology Inc. • 2355 W. Chandler Blvd. • Chandler, AZ 85224-6199 • (480) 792-7200 • Fax (480) 792-9210Microchip Technology’s Analog & Interface Product Families。

915mhz微波等离子体气相沉积
915MHz微波等离子体气相沉积
（Microwave Plasma Chemical Vapor Deposition，简称MPCVD）是一种用
于制备金刚石薄膜等材料的技术。

该技术利用微波等离子体在低温下将碳源气体分解，并在衬底表面生长高质量的金刚石薄膜。

以下是915MHz微波等离子体气相沉积的主要特点
和应用：
1. 低温沉积：与传统的热丝辅助化学气相沉积法（HFCVD）相比，915MHz微波等离子
体气相沉积可以在较低的温度下生长金刚石薄膜，有利于保持基底的完整性，降低薄膜的制备成本。

2. 环保无污染：微波等离子体是无极放电，减少了气体污染和电极腐蚀问题，有利于环境保护和设备维护。

3. 高离子密度：915MHz微波等离子体具有较高的电离和分解程度，使原料气体分解
充分，有利于提高金刚石薄膜的质量和密度。

4. 宽运行气压范围：微波等离子体在高压下能维持等离子体，有利于生长大尺寸的金刚石薄膜。

5. 良好的重复性和可控性：915MHz微波等离子体气相沉积具有较低的密度涨落，便
于调整等离子体参数（如离子密度、电子温度），从而实现对薄膜生长过程的精确控制。

6. 应用领域：915MHz微波等离子体气相沉积技术已成功应用于制备金刚石薄膜，适
用于电子、光电子、能源等领域。

此外，该技术还可用于生长其他纳米材料，如SiC纳米线等。

总之，915MHz微波等离子体气相沉积作为一种高效、环保、低温的金刚石薄膜制备方法，具有广泛的应用前景。

随着研究的深入和技术的不断优化，这种方法在金刚石器件产业应用中的优势将更加明显。

· 93 ·2023年8月25日第40卷第16期电力技术应用DOI ：10.19399/ki.tpt.2023.16.0291.5～1.7 GHz 小型化LTCC 电桥的设计秦立峰（中国电子科技集团公司第十三研究所，河北 石家庄 050000）摘要：采用低温共烧陶瓷（Low Temperature Co-fired Ceramic，LTCC）工艺技术，仿真设计了一款1.5～ 1.7 GHz 的3 dB 小型化LTCC 电桥，芯片尺寸仅为2.04 mm×1.29 mm×1.16 mm。

该电桥采用2条耦合阿基米德螺旋线的方式来实现，使得耦合层的结构及各项指标能够灵活调试，增加了频率调整的灵活性，同时采用双层平行耦合结构，未占用电桥XY 平面的尺寸，实现了小型化。

在工艺上，该结构采用半孔接触及接地代替了侧印，降低了工艺复杂性，利于批产的实现。

该3 dB 电桥电性能优异，插入损耗为0.6 dB，幅度不平衡度为±0.4 dB，相位不平衡度为±1°，回波损耗为-20 dB，隔离度为20 dB。

关键词：低温共烧陶瓷（LTCC）；小型化；3 dB 电桥；双层平行耦合结构Design of 1.5～1.7 GHz Miniaturized LTCC CouplerQIN Lifeng(The 13th Research Institute of China Electronics Technology Group Corporation, Shijiazhuang 050000, China)Abstract: The paper used Low Temperature Co-fired Ceramic (LTCC) technology to design and simulate a miniaturized 3 dB LTCC coupler, the size is 2.04 mm ×1.29 mm ×1.16 mm. The coupler is realized by two coupled archimedes spirals, which can flexibly adjust the structure and increase the flexibility of frequency modulation. The double-layer parallel structure does not occupy the size of the XY plane of the coupler to realize miniaturization. In terms of technology, the structure adopts half-hole contact and grounding instead of side printing, which reduces the complexity of the process and is conducive to the realization of batch production. At the same time, the coupler has excellent electrical performance, with insertion loss of 0.6 dB, amplitude unbalance of ±0.4 dB, phase unbalance of ±1°, return loss of -20 dB, and isolation of 20 dB.Keywords: Low Temperature Co-fired Ceramic (LTCC); miniaturization; 3 dB coupler; double-layer parallel structure0　引　言近年来，随着全球消费电子市场的高速持续性发展，市场需求体量剧增，其中虚拟现实、无人机、智能家居等集成化极高的产品备受市场青睐，促使电子元器件向小型化发展。

SURFACE MOUNT SCHOTTKY BARRIERRECTIFIERDN:T 20519A0Mechanical DataFeatures◆◆◆◆◆◆Schottky Barrier Chip High Thermal ReliabilityPatented Super Barrier Rectifier Technology High Forward Surge CapabilityUltra Fow Power Loss,High Efficiency Excellent High temperature Stability Plastic material-UL flammability 94V-0Case : JEDEC TO-277 Molded plastic bodyTerminals :Plated Leads Solderable per MIL-STD-202,Method 208 Polarity : Polarity symbol marking on body Mounting Position : AnyWeight : 0.003 ounce, 0.092 gramsRatings at 25 C ambient temperature unless otherwise specified.Single phase half-wave 60Hz,resistive or inductive load,for capacitive load current derate by 20%.Maximum Ratings And Electrical Characteristics◆Dimensions in inches and (millimeters)TO-277ParameterSYMBOLSSB1045L SB 1050L SB 1060L SB 1080L SB 10100L SB 10150L SB 10200L UNITMarking CodeMDD SB 1045LMDD SB 1050LMDD SB 1060LMDD SB 1080LMDD SB 10100LMDD SB 10150LMDD SB 10200LMaximum repetitive peak reverse voltage V RRM 45506080100150200V Maximum working peak reverse voltage V RWM Maximum DC blocking voltage V DC RMS Reverse voltageV RMS 3235425670105140V Average Rectified Output CurrentI (O)10A Non-Repetitive Peak Forward Surge8.3ms Single Half Sine-Wave Superimposed on rated load(JEDEC Method)I FSM 150AForward Voltage Drop at 10.0A T A =25℃V F0.550.600.750.780.92V T A =25℃Peak reverse curent at rated DC blocking voltageT A =125℃I R0.315mA Typical thermal resistance Junctionto AmbientR θJAR θJL 8015℃/W Operating junction and storage temperature range T J ,T STG-55to +150℃Note:1.Valid Provided that are kept at ambient temperature at a distance of 9.5mm from the case.2.Fr-4pcb.2oz.Copper,minimum recommend pad layout .18.8mm×14.4.Anode pad dimensions 5.6mm×14.4m m.Ratings And Characteristic CurvesThe curve above is for reference only.Fig3: Surge Forward Current CapadilityFig2 : Instantaneous Forward Voltage30025020015010050Fig4: Typical Reverse Characteristics10I F S M (A )2100Number of Cycles204060801000.010.11.010100V RM (%)I R R M (m A )0.40.60.81.0VF(V)I F (A )0.1101.00.2Fig.1 - Forward Current Derating CurveA v e r a g e F o r w a r d C u r r e n t ,I (A )F (A V )Ambient Temperature,T ( OC)A 1284SB1045L-SB1050LSB1060LAT =25℃SB1080L-SB10100LSB10150LSB10200Packing informationImportant Notice and DisclaimerMicrodiode Electronics (Jiangsu) reserves the right to make changes to this document and its products and specifications at any time without notice. Customers should obtain and confirm the latest product information and specifications before final design,purchase or use.Microdiode Electronics (Jiangsu) makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, not does Microdiode Electronics (Jiangsu) assume any liability for application assistance or customer product design. Microdiode Electronics (Jiangsu) does not warrant or accept any liability with products which are purchased or used for any unintended or unauthorized application.No license is granted by implication or otherwise under any intellectual property rights of Microdiode Electronics (Jiangsu).Microdiode Electronics (Jiangsu) products are not authorized for use as critical components in life support devices or systems without express written approval of Microdiode Electronics (Jiangsu).Suggested P ad Layoutstandar RS-481-A and specifications listed above.Reel packing0.0730.169Symbol Unit (mm)A C 1.50D 0.2114.301.85EB Unit (inch)0.0595.350.1423.60ItemTolerance TO-277Carrier width Carrier length Carrier depth Sprocket hole11" Reel outside diameter 11" Reel inner diameter Feed hole diameter Sprocket hole position Punch hole position Punch hole pitch Sprocket hole pitch Embossment center Overall tape thickness Tape width P 0P 1E B C d F T W P A D D 1D 2Symbol 0.10.10.1min 0.50.10.31.00.10.050.10.10.10.12.0unit:mm1.55280.0050.013.001.757.508.004.002.000.2512.00Reel widthW 112.304.457.01.60 TO-27711"3,0005.06,00028048,000PACKAGE REEL SIZEREEL COMPONENT SPACING BOX INNER BOX REEL DIA,CARTON SIZE CARTON APPROX.GROSS WEIGHT(kg)(pcs)(m/m)(m/m)(m/m)(pcs)(m/m)(pcs)340*340*43380*380*3809.0。

专利名称：一种高可靠玻封二极管PTC热敏电阻器及制备方法专利类型：发明专利
发明人：辜丽欢,向艳,巨钧栋,陈玲,谢程,文杰,周洪苹
申请号：CN202011579115.2
申请日：20201228
公开号：CN112837875A
公开日：
20210525
专利内容由知识产权出版社提供
摘要：本发明公开了一种高可靠玻封二极管PTC热敏电阻器及制备方法，包括玻封管壳、第一连接引线和第二连接引线，玻封管壳具有封装管腔，玻封管壳的封装管腔安装有PTC热敏电阻芯片，第一连接引线由第一引线和第一引线柱组成，第二连接引线由第二引线和第二引线柱组成，第一引线柱配合安装于玻封管壳上部区域，第二引线柱配合安装于玻封管壳下部区域，第一引线柱端部通过第一焊接片与PTC热敏电阻芯片上表面焊接固定，第二引线柱端部通过第二焊接片与PTC热敏电阻芯片下表面焊接固定。

本发明采用玻封管壳进行整体封装，其电阻芯片与连接引线实现了良好的过渡连接，可有效消除接触电阻，具有良好的PTC效应、质量轻、稳定性好、高可靠性、寿命长等优点。

申请人：成都宏明电子股份有限公司
地址：610000 四川省成都市二环路东二段29号
国籍：CN
代理机构：成都华辰智合知识产权代理有限公司
代理人：秦华云
更多信息请下载全文后查看。

氮化镓晶体管型号-概述说明以及解释1.引言1.1 概述氮化镓晶体管是一种新型的半导体器件，具有广泛的应用前景。

随着科技的不断发展，对高频高功率电子器件的需求日益增加，氮化镓晶体管因其出色的性能而成为电子行业的研究热点之一。

氮化镓晶体管采用氮化镓作为主材料，经过精密的工艺制作而成。

相较于传统的硅基晶体管，氮化镓晶体管具有更高的电子流动速度、更低的电阻和更好的耐高温性能。

这些特点使得氮化镓晶体管在高频和高功率应用中具有独特的优势。

在高频领域，氮化镓晶体管的电子流动速度可达到数十倍于传统硅基晶体管的速度，因此可以实现更高频率的信号放大和处理。

另外，氮化镓晶体管的电阻更低，可以提供更大的输出功率。

这使得氮化镓晶体管成为无线通信领域、雷达系统以及高速数据传输等领域的理想选择。

在高功率应用方面，氮化镓晶体管能够在高温环境下保持较好的工作性能。

相比于硅基晶体管，氮化镓晶体管的耐高温特性更为优越。

这使得氮化镓晶体管在电力放大、激光器和高能电子器件等领域有着广泛的应用前景。

总之，氮化镓晶体管作为一种新兴的半导体器件，具有先进的性能和广泛的应用前景。

随着相关技术的不断推进和完善，相信氮化镓晶体管将在高频高功率应用中发挥更加重要的作用，为电子行业的发展带来更多的创新和突破。

1.2 文章结构文章结构部分的内容可以按照以下方式撰写：文章结构部分旨在介绍本篇长文的组织架构，以帮助读者更好地理解文章的内容和论述逻辑。

本文的结构主要分为引言、正文和结论三个部分。

引言部分是文章的开篇，从整体上介绍了氮化镓晶体管型号的相关背景和意义。

首先，概述了氮化镓晶体管在电子设备中的重要作用和应用前景。

其次，明确了本文的目的，即介绍和分析氮化镓晶体管的不同型号及其特点。

正文部分是文章的核心部分，对氮化镓晶体管的不同型号进行详细介绍和分析。

第一个要点将重点介绍某一特定型号的氮化镓晶体管，包括其基本结构、工作原理、性能特点等方面的内容。

通过对该型号的深入解析，读者可以了解到其在电子设备中的应用领域以及优势。

关键词：应`ELIWELL`温控器IC915PTC12V应`ELIWELL`温控器IC915PTC12V温度控制器IC901、IC902、IC912、IC915、ID961、ID971、ID974、ID985LX、EWCM400、EWCM800、EWCM900、EWCM9000、EWLP120、EWPC915/T、TIC2CWC300、EWPC901/N湿度控制器IC912/R、IC915/R、EWHS280、EWHS、300 EWHS310压力控制器IC912/P、IC915/P、EWPA007、EWPA030、MICTECHIC912/P/R/V-I单输出数显控制器感谢您选用IC912/P/R/V-I产品。

在正式安装使用产品前，请认真仔细地阅读本产品说明书。

请妥善保存此中文产品说明书，以备将来使用。

中文产品说明书是在意大利生产商提供的英文产品说明书的基础上制作的，在实际使用产品时，对此中文说明书若有疑问，请参考英文产品说明书。

输出IC912具有1个开关量输出，用户可以很方便地设定输出的工作是加湿（增压）/去湿（降压）。

举例说明：SP1=%rH、dF1=%rH、HC1=去湿，当湿度≥%rH（SP1+dF1）时，输出工作，当湿度回复到%rH时，输出停止工作；设定点的设定设定点设定步骤如下：1.在仪表显示当前测量值时，按仪表面板上的SET键，仪表将显示SP1。

2.此时按SET键，可以看到当前设定值。

3.再按︽键或︾键，可以改变设定值。

4.按fnc键，仪表将恢复显示传感器测量值，从设定过程中退出。

在设定SP1的过程中，仪表面板上方最右侧的小灯一直亮起，表明仪表正处于设定过程中。

参数设置IC912将所有的参数按对象与功能分类放置在4个参数卷中：rE1、diS、CnF、FPr，进入参数卷的方法如下所列：1.在仪表显示当前传感器测量值时，持续按仪表面板上的SET键至少5秒钟，仪表将显示第一个参数卷代码rE1。

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