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参数资料
| 型号: | MC14489BDWR2 |
| 厂商: | Freescale Semiconductor |
| 文件页数: | 6/22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 |
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�
�PIN� DESCRIPTIONS�
�DIGITAL� INTERFACE�
�Data� In� (Pin� 12)�
�Serial� Data� Input.� The� bit� stream� begins� with� the� MSB� and�
�is� shifted� in� on� the� low–to–high� transition� of� Clock.� When� the�
�device� is� not� cascaded,� the� bit� pattern� is� either� 1� byte� (8� bits)�
�long� to� change� the� configuration� register� or� 3� bytes� (24� bits)�
�long� to� update� the� display� register.� For� two� chips� cascaded,�
�the� pattern� is� either� 4� or� 6� bytes,� respectively.� The� display�
�does� not� change� during� shifting� (until� Enable� makes� a� low–�
�to–high� transition)� which� allows� slow� serial� data� rates,� if� de-�
�sired.�
�The� bit� stream� needs� neither� address� nor� steering� bits� due�
�to� the� innovative� BitGrabber� registers.� Therefore,� all� bits� in�
�the� stream� are� available� to� be� data� for� the� two� registers.� Ran-�
�dom� access� of� either� register� is� provided.� That� is,� the� regis-�
�ters� may� be� accessed� in� any� sequence.� Data� is� retained� in�
�the� registers� over� a� supply� range� of� 3� to� 5.5� V.� Formats� are�
�shown� in� Figures� 8� through� 14� and� summarized� in� Table� 2.�
�Information� on� the� segment� decoder� is� given� in� Table� 1.�
�Data� In� typically� switches� near� 50%� of� VDD� and� has� a�
�Schmitt–triggered� input� buffer.� These� features� combine� to�
�maximize� noise� immunity� for� use� in� harsh� environments� and�
�bus� applications.� This� input� can� be� directly� interfaced� to�
�CMOS� devices� with� outputs� guaranteed� to� switch� near� rail–�
�to–rail.� When� interfacing� to� NMOS� or� TTL� devices,� either� a�
�level� shifter� (MC14504B,� MC74HCT04A)� or� pullup� resistor� of�
�1� k� ?� to� 10� k� ?� must� be� used.� Parameters� to� be� considered�
�when� sizing� the� resistor� are� the� worst–case� IOL� of� the� driving�
�device,� maximum� tolerable� power� consumption,� and� maxi-�
�mum� data� rate.�
�Clock� (Pin� 11)�
�Serial� Data� Clock� Input.� Low–to–high� transitions� on� Clock�
�shift� bits� available� at� Data� In,� while� high–to–low� transitions�
�shift� bits� from� Data� Out.� The� chip’s� 24–1/2–stage� shift� regis-�
�ter� is� static,� allowing� clock� rates� down� to� dc� in� a� continuous� or�
�intermittent� mode.� The� Clock� input� does� not� need� to� be� syn-�
�chronous� with� the� on–chip� clock� oscillator� which� drives� the�
�multiplexing� circuit.�
�Eight� clock� cycles� are� required� to� access� the� configuration�
�register,� while� 24� are� needed� for� the� display� register� when� the�
�MC14489B� is� not� cascaded.� See� Figures� 8� and� 9.�
�As� shown� in� Figure� 10,� two� devices� may� be� cascaded.� In�
�this� case,� 32� clock� cycles� access� the� configuration� register�
�and� 48� access� the� display� register,� as� depicted� in� Figure� 10.�
�Cascading� of� 3,� 4,� 5,� and� 6� devices� is� shown� in� Figures� 11,�
�12,� 13,� and� 14,� respectively.� Also,� reference� Table� 2.�
�Clock� typically� switches� near� 50%� of� V� DD� and� has� a�
�Schmitt–triggered� input� buffer.� Slow� Clock� rise� and� fall� times�
�are� tolerated.� See� the� last� paragraph� of� Data� In� for� more� in-�
�formation.�
�NOTE�
�To� guarantee� proper� operation� of� the� power–on�
�reset� (POR)� circuit,� the� Clock� pin� must� NOT� be�
�floated� or� toggled� during� power–up.� That� is,� the�
�Clock� pin� must� be� stable� until� the� V� DD� pin�
�reaches� at� least� 3� V.�
�If� control� of� the� Clock� pin� during� power–up� is� not�
�practical,� then� the� MC14489B� must� be� reset� via� bit�
�C0� in� the� C� register.� To� accomplish� this,� C0� is� re-�
�set� low,� then� set� high.�
�MC14489B�
�6�
�Enable� (Pin� 10)�
�Active–Low� Enable� Input.� This� pin� allows� the� MC14489B� to�
�be� used� on� a� serial� bus,� sharing� Data� In� and� Clock� with� other�
�peripherals.� When� Enable� is� in� an� inactive� high� state,� Data�
�Out� is� forced� to� a� known� (low)� state,� shifting� is� inhibited,� and�
�the� port� is held� in� the� initialized� state.� To� transfer� data� to� the�
�device,� Enable� (which� initially� must� be� inactive� high)� is� taken�
�low,� a� serial� transfer� is� made� via� Data� In� and� Clock,� and�
�Enable� is� taken� high.� The� low–to–high� transition� on� Enable�
�transfers� data� to� either� the� configuration� or� display� register,�
�depending� on� the� data� stream� length.�
�Every� rising� edge� on� Enable� initiates� a� blanking� interval�
�while� data� is� loaded.� Thus,� continually� loading� the� device� with�
�the� same� data� may� cause� the� LEDs� on� some� banks� to� appear�
�dimmer� than� others.�
�NOTE�
�Transitions� on� Enable� must� not� be� attempted�
�while� Clock� is� high.� This� puts� the� device� out� of�
�synchronization� with� the� microcontroller.� Resyn-�
�chronization� occurs� when� Enable� is� high� and�
�Clock� is� low.�
�This� input� is� also� Schmitt–triggered� and� switches� near� 50%�
�of� VDD,� thereby� minimizing� the� chance� of� loading� erroneous�
�data� in� the� registers.� See� the� last� paragraph� of� Data� In� for�
�more� information.�
�Data� Out� (Pin� 18)�
�Serial� Data� Output.� Data� is� transferred� out� of� the� shift� regis-�
�ter� through� Data� Out� on� the� high–to–low� transition� of� Clock.�
�This� output� is� a� no� connect,� unless� used� in� one� of� the� man-�
�ners� discussed� below.�
�When� cascading� MC14489B’s,� Data� Out� feeds� Data� In� of� the�
�next� device� per� Figures� 10,� 11,� 12,� 13,� and� 14.�
�Data� Out� could� be� fed� back� to� an� MCU/MPU� to� perform� a�
�wrap–around� test� of� serial� data.� This� could� be� part� of� a� sys-�
�tem� check� conducted� at� power–up� to� test� the� integrity� of� the�
�system’s� processor,� pc� board� traces,� solder� joints,� etc.�
�The� pin� could� be� monitored� at� an� in–line� Q.A.� test� during�
�board� manufacturing.�
�Finally,� Data� Out� facilitates� troubleshooting� a� system.�
�DISPLAY� INTERFACE�
�Rx� (Pin� 8)�
�External� Current–Setting� Resistor.� A� resistor� tied� between�
�this� pin� and� ground� (VSS)� determines� the� peak� segment� drive�
�current� delivered� at� pins� a� through� h.� Pin� 8’s� resistor� ties� into�
�a� current� mirror� with� an� approximate� current� gain� of� 10� when�
�bit� D23� =� high� (brighten).� With� D23� =� low,� the� peak� current� is�
�reduced� about� 50%.� Values� for� Rx� range� from� 700� ?� to� infin-�
�ity.� When� Rx� =� ∞� (open� circuit),� the� display� is� extinguished.�
�For� proper� current� control,� resistors� having� ±� 1%� tolerance�
�should� be� used.� See� Figure� 7.�
�CAUTION�
�Small� Rx� values� may� cause� the� chip� to� overheat�
�if� precautions� are� not� observed.� See� Thermal�
�Considerations.�
�MOTOROLA�
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