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参数资料
| 型号: | MC14489BDWR2 |
| 厂商: | Freescale Semiconductor |
| 文件页数: | 20/22页 |
| 文件大小: | 0K |
| 描述: | IC DRIVER LED/LAMP 5CH 20-SOIC |
| 标准包装: | 1 |
| 显示器类型: | LED |
| 配置: | 7 段显示 |
| 接口: | 串行 |
| 电流 - 电源: | 5.5mA |
| 电源电压: | 4.5 V ~ 5.5 V |
| 工作温度: | -40°C ~ 130°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 20-SOIC(0.295",7.50mm 宽) |
| 供应商设备封装: | 20-SOIC |
| 包装: | 剪切带 (CT) |
| 其它名称: | MC14489BDWR2CT |
��
�
�THERMAL� CONSIDERATIONS�
�The� MC14489B� is� designed� to� operate� with� a� chip–junction�
�temperature� (TJ)� ranging� from� –� 40� to� 130� °� C,� as� indicated� in�
�the� electrical� characteristics� tables.� The� ambient� operating�
�temperature� range� (TA)� is� dependent� on� R� θ� JA,� the� internal�
�chip� current,� how� many� anode� drivers� are� used,� the� number�
�of� bank� drivers� used,� the� drive� current,� and� how� the� package�
�is� cooled.� The� maximum� ratings� table� gives� the� thermal� resis-�
�tance,� junction–to–ambient,� of� the� MC14489B� mounted� on� a�
�pc� board� using� natural� convection� to� be� 90� °� C� per� watt� for� the�
�plastic� DIP.� The� SOG� thermal� resistance� is� 100� °� C� per� watt.�
�The� following� general� equation� (1)� is� used� to� determine� the�
�power� dissipated� by� the� MC14489B.�
�That� is,� if� TA� =� 79� °� C,� the� maximum� junction� temperature� is�
�130� °� C.� The� chip’s� average� temperature� for� this� example� is�
�lower� than� 130� °� C� because� all� segments� are� usually� not� illumi-�
�nated� simultaneously� for� an� indefinite� period.�
�Worst–Case� Analysis� Example� 2:�
�16� lamps� (4� banks� and� 4� anode� drivers)�
�SOG� without� heat� sink� on� PC� board�
�iOH� =� 30� mA� max�
�VLED� =� 1.8� V� min�
�VDD� =� 5.5� max�
�where�
�PT� =� PD� +� PI�
�(1)�
�PD� =� (30)(4)(5.5� –� 1.8)(4/5)� =� 355� mW�
�PI� =� (1.5)(5.5)� +� 3[5.5� –� 3(1.0)]� =� 16� mW�
�Ref.� (2)�
�Ref.� (3)�
�PT� =� Total� power� dissipation� of� the� MC14489B�
�PD� =� Power� dissipated� in� the� driver� circuitry� (mW)�
�PI� =� Power� dissipated� by� the� internal� chip�
�Therefore,� PT� =� 355� +� 16� =� 371� mW�
�and� ?� Tchip� =� R� θ� JAPT� =� (100� °� C/W)(0.371)� =� 37� °� C�
�Ref.� (1)�
�circuitry� (mW)�
�The� equations� for� the� two� terms� of� the� general� equation�
�are:�
�Finally,� the� maximum� allowable�
�TA� =� TJmax� –� ?� Tchip� =� 130� –� 37� =� 93� °� C�
�To� extend� the� allowable� ambient� temperature� range� or� to�
�reduce� TJ,� which� extends� chip� life,� a� heat� sink� such� as� shown�
�PD� =� (iOH)� (N)(VDD� –� VLED)(B/5)�
�PI� =� (1.5� mA)(VDD)� +� IRx(VDD� –� IRxRx)�
�(2)�
�(3)�
�in� Figure� 20� can� be� used� in� high–current� applications.� Alter-�
�natively,� heat–spreader� techniques� can� be� used� on� the� PC�
�board,� such� as� running� a� wide� trace� under� the� MC14489B� and�
�using� thermal� paste.� Wide,� radial� traces� from� the� MC14489B�
�leads� also� act� as� heat� spreaders.�
�where�
�iOH� =� Peak� anode� driver� current� (mA)�
�IRx� =� iOH� /10,� with� iOH� =� the� peak� anode� driver� current�
�(mA)� when� the� dimmer� bit� is� high�
�N� =� Number� of� anode� drivers� used�
�B� =� Number� of� bank� drivers� used�
�Rx� =� External� resistor� value� (k� ?� )�
�VDD� =� Maximum� supply� voltage,� referenced� to� VSS�
�(volts)�
�VLED� =� Minimum� anticipated� voltage� drop� across� the�
�LED�
�1.5� mA� =� Operating� supply� current� of� the� MC14489B�
�The� following� two� examples� show� how� to� calculate� the�
�maximum� allowable� ambient� temperature.�
�Worst–Case� Analysis� Example� 1:�
�5–digit� display� with� decimals� (5� banks� and� 8� anode� drivers)�
�DIP� without� heat� sink� on� PC� board�
�iOH� =� 20� mA� max�
�VLED� =� 1.8� V� min�
�VDD� =� 5.25� max�
�AAVID� #5804� or� equivalent�
�(Tel.� 603/524–4443,� FAX� 603/528–1478)�
�Motorola� cannot� recommend� one� supplier� over� another� and�
�in� no� way� suggests� that� this� is� the� only� heat� sink� supplier.�
�Figure� 20.� Heat� Sink�
�Table� 3.� LED� Lamp� and� Common–Cathode� Display�
�Manufacturers�
�Supplier�
�PD� =� (20)(8)(5.25� –� 1.8)(5/5)� =� 552� mW�
�PI� =� (1.5)(5.25)� +� 2[5.25� –� 2(2)]� =� 10� mW�
�Therefore,� PT� =� 552� +� 10� =� 562� mW�
�and� ?� Tchip� =� R� θ� JAPT� =� (90� °� C/W)(0.562)� =� 51� °� C�
�Finally,� the� maximum� allowable�
�TA� =� TJmax� –� ?� Tchip� =� 130� –� 51� =� 79� °� C�
�MC14489B�
�20�
�Ref.� (2)�
�Ref.� (3)�
�Ref.� (1)�
�QT� Optoelectronics�
�Hewlett–Packard� (HP),� Components� Group�
�Industrial� Electronic� Engineers� (IEE),� Component� Products� Div.�
�Purdy� Electronics� Corp.,� AND� Product� Line�
�NOTE:� Motorola� cannot� recommend� one� supplier� over� another�
�and� in� no� way� suggests� that� this� is� a� complete� listing� of�
�LED� suppliers.�
�MOTOROLA�
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