- 您现在的位置:买卖IC网 > PDF目录8126 > OKY2-T/10-W5P-C (Murata Power Solutions Inc)CONV DC/DC 33W 5V IN 10A OUT SMD PDF资料下载
参数资料
| 型号: | OKY2-T/10-W5P-C |
| 厂商: | Murata Power Solutions Inc |
| 文件页数: | 8/16页 |
| 文件大小: | 0K |
| 描述: | CONV DC/DC 33W 5V IN 10A OUT SMD |
| 标准包装: | 250 |
| 系列: | Okami™ OKY-T/10-W5 |
| 类型: | 非隔离(POL) |
| 输出数: | 1 |
| 电压 - 输入(最小): | 2.4V |
| 电压 - 输入(最大): | 5.5V |
| Voltage - Output 1: | 0.75 ~ 3.63 V |
| 电流 - 输出(最大): | 10A |
| 电源(瓦) - 制造商系列: | 33W |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 7-DIP SMD 模块 |
| 尺寸/尺寸: | 1.30" L x 0.53" W x 0.33" H(33.0mm x 13.5mm x 8.4mm) |
| 包装: | 带卷 (TR) |
| 工作温度: | -40°C ~ 85°C |
| 效率: | 95.5% |
| 电源(瓦特)- 最大: | 33W |
��
�
�OKY� -T/10� &� T/16-W5� Series�
�Programmable� DOSA-SMT� 10/16-Amp� DC/DC� Converters�
�Dynamic� control� of� the� On/Off� function� should� be� able� to� sink� appropriate�
�signal� current� when� brought� low� and� withstand� appropriate� voltage� when�
�brought� high.� Be� aware� too� that� there� is� a� ?nite� time� in� milliseconds� (see�
�Speci?cations)� between� the� time� of� On/Off� Control� activation� and� stable,�
�regulated� output.� This� time� will� vary� slightly� with� output� load� type� and� current�
�and� input� conditions.�
�Output� Capacitive� Load�
�These� converters� do� not� require� external� capacitance� added� to� achieve� rated�
�speci?cations.� Users� should� only� consider� adding� capacitance� to� reduce�
�switching� noise� and/or� to� handle� spike� current� load� steps.� Install� only� enough�
�capacitance� to� achieve� noise� objectives.� Excess� external� capacitance� may�
�cause� regulation� problems,� degraded� transient� response� and� possible� oscilla-�
�tion� or� instability.�
�Remote� Sense� Input�
�The� Sense� input� is� normally� connected� at� the� load� for� the� respective� Sense�
�polarity� (+Sense� to� the� +Vout� load).� The� sense� input� compensates� for� voltage�
�drops� along� the� output� wiring� such� as� moderate� IR� drops� and� the� current�
�carrying� capacity� of� PC� board� etch.� This� output� drop� (the� difference� between�
�Sense� and� Vout� when� measured� at� the� converter)� should� not� exceed� 0.5V.� Use�
�heavier� connections� if� this� drop� is� excessive.� The� sense� input� also� improves� the�
�stability� of� the� converter� and� load� system� by� optimizing� the� control� loop� phase�
�margin.�
�If� the� Sense� function� is� not� used� for� remote� regulation,� the� user� should� con-�
�nect� the� Sense� to� their� respective� Vout� at� the� converter� pins.�
�Sense� lines� on� the� PCB� should� run� adjacent� to� DC� signals,� preferably�
�Ground.� Any� long,� distributed� wiring� and/or� signi?cant� inductance� introduced�
�into� the� Sense� control� loop� can� adversely� affect� overall� system� stability.� If� in�
�doubt,� test� your� applications� by� observing� the� converter’s� output� transient�
�response� during� step� loads.� There� should� not� be� any� appreciable� ringing� or�
�oscillation.�
�Do� not� exceed� maximum� power� ratings.� Excessive� voltage� differences�
�between� Vout� and� Sense� together� with� trim� adjustment� of� the� output� can� cause�
�the� overvoltage� protection� circuit� to� activate� and� shut� down� the� output.�
�Power� derating� of� the� converter� is� based� on� the� combination� of� maximum�
�output� current� and� the� highest� output� voltage� at� the� ouput� pins.� Therefore� the�
�designer� must� insure:�
�(Vout� at� pins)� x� (Iout)� ≤� (Max.� rated� output� power)�
�Sequence/Tracking� Input� (Optional)�
�After� external� input� power� is� applied� and� the� converter� stabilizes,� a� high�
�impedance� Sequence/Tracking� input� pin� accepts� an� external� analog� volt-�
�age� referred� to� -Vin.� The� output� power� voltage� will� then� track� this� Sequence/�
�Tracking� input� at� a� one-to-one� ratio� up� to� the� nominal� set� point� voltage� for� that�
�converter.� This� Sequencing� input� may� be� ramped,� delayed,� stepped� or� other-�
�wise� phased� as� needed� for� the� output� power,� all� fully� controlled� by� the� user’s�
�external� circuits.� As� a� direct� input� to� the� converter’s� feedback� loop,� response� to�
�the� Sequence/Tracking� input� is� very� fast� (milliseconds).�
�Operation�
�To� use� the� Sequence/Tracking� pin� after� power� start-up� stabilizes,� apply� a�
�output� voltage� will� track� the� Sequence/Tracking� input� (gain� =� 1).� The� output�
�voltage� will� stop� rising� when� it� reaches� the� normal� set� point� for� the� converter.�
�The� Sequence/Tracking� input� may� optionally� continue� to� rise� without� any� effect�
�on� the� output.� Keep� the� Sequence/Tracking� input� voltage� below� the� converter’s�
�input� supply� voltage.�
�Use� a� similar� strategy� on� power� down.� The� output� voltage� will� stay� constant�
�until� the� Sequence/Tracking� input� falls� below� the� set� point.�
�Guidelines� for� Sequence/Tracking� Applications�
�[1]� Leave� the� converter’s� On/Off� Enable� control� in� the� On� setting.� Normally,�
�you� should� just� leave� the� On/Off� pin� open.�
�[2]� Allow� the� converter� to� stabilize� (typically� less� than� 20� mS� after� +Vin�
�power� on)� before� raising� the� Sequence/Tracking� input.� Also,� if� you� wish� to� have�
�a� ramped� power� down,� leave� +Vin� powered� all� during� the� down� ramp.� Do� not�
�simply� shut� off� power.�
�[3]� If� you� do� not� plan� to� use� the� Sequence/Tracking� pin,� leave� it� open.�
�[4]� Observe� the� Output� slew� rate� relative� to� the� Sequence/Tracking� input.�
�A� rough� guide� is� 2� Volts� per� millisecond� maximum� slew� rate.� If� you� exceed�
�this� slew� rate� on� the� Sequence/Tracking� pin,� the� converter� will� simply� ramp�
�up� at� it’s� maximum� output� slew� rate� (and� will� not� necessarily� track� the� faster�
�Sequence/Tracking� input).�
�The� reason� to� carefully� consider� the� slew� rate� limitation� is� in� case� you� want�
�two� different� POL’s� to� precisely� track� each� other.�
�[5]� Be� aware� of� the� input� characteristics� of� the� Sequence/Tracking� pin.� The�
�high� input� impedance� affects� the� time� constant� of� any� small� external� ramp�
�capacitor.� And� the� bias� current� will� slowly� charge� up� any� external� caps� over�
�time� if� they� are� not� grounded.�
�[6]� Allow� the� converter� to� eventually� achieve� its� full� rated� setpoint� output�
�voltage.� Do� not� remain� in� ramp� up/down� mode� inde?nitely.� The� converter� is�
�characterized� and� meets� all� its� speci?cations� only� at� the� setpoint� voltage� (plus�
�or� minus� any� trim� voltage).�
�[7]� The� Sequence/Tracking� is� a� sensitive� input� into� the� feedback� control� loop�
�of� the� converter.� Avoid� noise� and� long� leads� on� this� input.� Keep� all� wiring� very�
�short.� Use� shielding� if� necessary.�
�Pre-Biased� Startup�
�Some� sections� have� external� power� already� partially� applied� (possibly� because�
�of� earlier� power� sequencing)� before� POL� power� up.� Or� leakage� power� is� pres-�
�ent� so� that� the� DC/DC� converter� must� power� up� into� an� existing� output� voltage.�
�This� power� may� either� be� stored� in� an� external� bypass� capacitor� or� supplied� by�
�an� active� source.� These� converters� include� a� pre-bias� startup� mode� to� prevent�
�initialization� problems.�
�This� “pre-biased”� condition� can� also� occur� with� some� types� of� program-�
�mable� logic� or� because� of� blocking� diode� leakage� or� small� currents� passed�
�through� forward� biased� ESD� diodes.� This� feature� is� variously� called� “mono-�
�tonic”� because� the� voltage� does� not� decay� or� produce� a� negative� transient�
�once� the� input� power� is� applied� and� startup� begins.�
�Sequence/Tracking� operation� is� not� available� during� pre-bias� startup.�
�rising� external� voltage� to� the� Sequence/Tracking� input.� As� the� voltage� rises,� the�
�www.murata-ps.com/support�
�MDC_OKY_T10T16.W5.A05� Page� 8� of� 16�
�相关PDF资料 |
PDF描述 |
|---|---|
| OKY-T/16-W5P-C | CONV DC/DC 52.8W 5VIN 16AOUT SMD |
| OKY2-T/10-D12P-C | CONV DC/DC 50W 12VIN 10AOUT SMD |
| OKY-T/16-D12P-C | CONV DC/DC 80W 12VIN 16AOUT SMD |
| MC74LCX573DW | IC LATCH TRANSP OCT LV 20-SOICW |
| OSTTJ0611520 | CONN TERM BLK PLUG 6POS 3.5MM |
相关代理商/技术参数 |
参数描述 |
|---|---|
| OKY-T | 制造商:MURATA 制造商全称:Murata Manufacturing Co., Ltd. 功能描述:Adjustable Output 3 and 5-Amp DOSA-SMT PoLs |
| OKY-T/10 | 制造商:MURATA-PS 制造商全称:Murata Power Solutions Inc. 功能描述:Programmable DOSA-SMT 10/16-Amp DC/DC Converters |
| OKY-T/10-D12N-C | 功能描述:DC/DC转换器 12Vin 0.7525-5.5Vout 10A 50W Neg 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: |
| OKY-T/10-D12P-C | 功能描述:DC/DC转换器 12Vin 0.7525-5.5Vout 10A 50W 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: |
| OKY-T/10-W5 | 制造商:Murata Power Solutions 功能描述:- Rail/Tube |
发布紧急采购,3分钟左右您将得到回复。