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�OKL-T/6-W12� Series�
�Programmable� Output� 6-Amp� i� LGA� SMT� PoLs�
�TECHNICAL� NOTES�
�Output� Voltage� Adustment�
�The� output� voltage� may� be� adjusted� over� a� limited� range� by� connecting� an�
�external� trim� resistor� (Rtrim)� between� the� Trim� pin� and� Ground.� The� Rtrim�
�is� recommended� to� have� a� ±0.5%� accuracy� (or� better)� with� low� tempera-�
�ture� coef?cient,� ±100� ppm/°C� or� better.� Mount� the� resistor� close� to� the�
�converter� with� very� short� leads� or� use� a� surface� mount� trim� resistor.�
�In� the� tables� below,� the� calculated� resistance� is� given.� Do� not� exceed� the�
�speci?ed� limits� of� the� output� voltage� or� the� converter’s� maximum� power� rating�
�when� applying� these� resistors.� Also,� avoid� high� noise� at� the� Trim� input.� However,�
�to� prevent� instability,� you� should� never� connect� any� capacitors� to� Trim.�
�OKL-T/6-W12�
�sure� the� operating� input� voltage� is� well� above� the� UV� Shutdown� voltage� AT�
�ALL� TIMES.�
�Start-Up� Time�
�Assuming� that� the� output� current� is� set� at� the� rated� maximum,� the� Vin� to�
�Vout� Start-Up� Time� (see� Speci?cations)� is� the� time� interval� between� the�
�point� when� the� ramping� input� voltage� crosses� the� Start-Up� Threshold� and�
�the� fully� loaded� regulated� output� voltage� enters� and� remains� within� its�
�speci?ed� accuracy� band.� Actual� measured� times� will� vary� with� input� source�
�impedance,� external� input� capacitance,� input� voltage� slew� rate� and� ?nal�
�value� of� the� input� voltage� as� it� appears� at� the� converter.�
�These� converters� include� a� soft� start� circuit� to� moderate� the� duty� cycle� of�
�its� PWM� controller� at� power� up,� thereby� limiting� the� input� inrush� current.�
�Output� Voltage�
�5.0� V.�
�3.3� V.�
�2.5� V.�
�2.0� V.�
�1.8� V.�
�1.5� V.�
�1.2� V.�
�1.0� V.�
�0.591� V.�
�Calculated� Rtrim� (KΩ)�
�1.34�
�2.18�
�3.1�
�4.19�
�4.88�
�6.50�
�9.70�
�14.45�
�∞� (open)�
�The� On/Off� Remote� Control� interval� from� On� command� to� Vout� regulated�
�assumes� that� the� converter� already� has� its� input� voltage� stabilized� above� the�
�Start-Up� Threshold� before� the� On� command.� The� interval� is� measured� from� the�
�On� command� until� the� output� enters� and� remains� within� its� speci?ed� accuracy�
�band.� The� speci?cation� assumes� that� the� output� is� fully� loaded� at� maximum�
�rated� current.� Similar� conditions� apply� to� the� On� to� Vout� regulated� speci?cation�
�such� as� external� load� capacitance� and� soft� start� circuitry.�
�Recommended� Input� Filtering�
�The� user� must� assure� that� the� input� source� has� low� AC� impedance� to�
�provide� dynamic� stability� and� that� the� input� supply� has� little� or� no� inductive�
�content,� including� long� distributed� wiring� to� a� remote� power� supply.� The�
�R� TRIM� (k� ?� )� =� _____________�
�Resistor Trim Equation,OKL-T/6-W12 models:�
�5.91�
�V� OUT� –� 0.591�
�Do� not� connect� any� additional� components� between� the� Vtrim� pin� and� Vout�
�or� between� the� Trim� and� Sense� pins.� Use� only� the� speci?ed� connections� as�
�recommended� per� this� data� sheet.�
�Input� Fusing�
�Certain� applications� and/or� safety� agencies� may� require� fuses� at� the� inputs�
�of� power� conversion� components.� Fuses� should� also� be� used� when� there�
�is� the� possibility� of� sustained� input� voltage� reversal� which� is� not� current-�
�limited.� For� greatest� safety,� we� recommend� a� fast� blow� fuse� installed� in� the�
�ungrounded� input� supply� line.�
�The� installer� must� observe� all� relevant� safety� standards� and� regulations.�
�For� safety� agency� approvals,� install� the� converter� in� compliance� with� the�
�end-user� safety� standard.�
�Input� Under-Voltage� Shutdown� and� Start-Up� Threshold�
�Under� normal� start-up� conditions,� converters� will� not� begin� to� regulate�
�properly� until� the� ramping-up� input� voltage� exceeds� and� remains� at� the�
�Start-Up� Threshold� Voltage� (see� Speci?cations).� Once� operating,� convert-�
�ers� will� not� turn� off� until� the� input� voltage� drops� below� the� Under-Voltage�
�Shutdown� Limit.� Subsequent� restart� will� not� occur� until� the� input� voltage�
�rises� again� above� the� Start-Up� Threshold.� This� built-in� hysteresis� prevents�
�any� unstable� on/off� operation� at� a� single� input� voltage.�
�Users� should� be� aware� however� of� input� sources� near� the� Under-Voltage�
�Shutdown� whose� voltage� decays� as� input� current� is� consumed� (such� as�
�capacitor� inputs),� the� converter� shuts� off� and� then� restarts� as� the� external�
�capacitor� recharges.� Such� situations� could� oscillate.� To� prevent� this,� make�
�converter� will� operate� with� no� additional� external� capacitance� if� these�
�conditions� are� met.�
�For� best� performance,� we� recommend� installing� a� low-ESR� capacitor�
�immediately� adjacent� to� the� converter’s� input� terminals.� The� capacitor� should�
�be� a� ceramic� type� such� as� the� Murata� GRM32� series� or� a� polymer� type.� Initial�
�suggested� capacitor� values� are� 10� to� 22� μF,� rated� at� twice� the� expected�
�maximum� input� voltage.� Make� sure� that� the� input� terminals� do� not� go� below� the�
�undervoltage� shutdown� voltage� at� all� times.� More� input� bulk� capacitance� may�
�be� added� in� parallel� (either� electrolytic� or� tantalum)� if� needed.�
�Recommended� Output� Filtering�
�The� converter� will� achieve� its� rated� output� ripple� and� noise� with� no�
�additional� external� capacitor.� However,� the� user� may� install� more� exter-�
�nal� output� capacitance� to� reduce� the� ripple� even� further� or� for� improved�
�dynamic� response.� Again,� use� low-ESR� ceramic� (Murata� GRM32� series)�
�or� polymer� capacitors.� Initial� values� of� 10� to� 47� μF� may� be� tried,� either�
�single� or� multiple� capacitors� in� parallel.� Mount� these� close� to� the� converter.�
�Measure� the� output� ripple� under� your� load� conditions.�
�Use� only� as� much� capacitance� as� required� to� achieve� your� ripple� and�
�noise� objectives.� Excessive� capacitance� can� make� step� load� recovery�
�sluggish� or� possibly� introduce� instability.� Do� not� exceed� the� maximum� rated�
�output� capacitance� listed� in� the� speci?cations.�
�Input� Ripple� Current� and� Output� Noise�
�All� models� in� this� converter� series� are� tested� and� speci?ed� for� input�
�re?ected� ripple� current� and� output� noise� using� designated� external� input/�
�output� components,� circuits� and� layout� as� shown� in� the� ?gures� below.� The�
�Cbus� and� Lbus� components� simulate� a� typical� DC� voltage� bus.� Please� note�
�that� the� values� of� Cin,� Lbus� and� Cbus� will� vary� according� to� the� speci?c�
�converter� model.�
�www.murata-ps.com/support�
�MDC_OKL-T/6-W12� Series.B01� Page� 13� of� 17�
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相关代理商/技术参数
OKL-T/6-W12N-C
制造商:Murata Power Solutions 功能描述:DC/DC Converter
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功能描述:DC/DC转换器 12Vin .59-5.5Vout 6A 30W Pos Polarity
RoHS:否 制造商:Murata 产品: 输出功率: 输入电压范围:3.6 V to 5.5 V 输入电压(标称): 输出端数量:1 输出电压(通道 1):3.3 V 输出电流(通道 1):600 mA 输出电压(通道 2): 输出电流(通道 2): 安装风格:SMD/SMT 封装 / 箱体尺寸:
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制造商:MURATA 制造商全称:Murata Manufacturing Co., Ltd. 功能描述:Programmable Output 6-Amp iLGA SMT PoLs
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RoHS:否 制造商:Murata 产品: 输出功率: 输入电压范围:3.6 V to 5.5 V 输入电压(标称): 输出端数量:1 输出电压(通道 1):3.3 V 输出电流(通道 1):600 mA 输出电压(通道 2): 输出电流(通道 2): 安装风格:SMD/SMT 封装 / 箱体尺寸:
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OKL-T1-W12
制造商:MURATA-PS 制造商全称:Murata Power Solutions Inc. 功能描述:Programmable Output 1-Amp iLGA SMT PoLs
OKL-T1-W12N-C
制造商:MURATA-PS 制造商全称:Murata Power Solutions Inc. 功能描述:Programmable Output 1-Amp iLGA SMT PoLs
OKL-T1-W12P-C
制造商:MURATA-PS 制造商全称:Murata Power Solutions Inc. 功能描述:Programmable Output 1-Amp iLGA SMT PoLs