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参数资料
| 型号: | SST39VF1602C-70-4I-EKE |
| 厂商: | Microchip Technology |
| 文件页数: | 2/33页 |
| 文件大小: | 0K |
| 描述: | IC FLASH MPF 16MBIT 70NS 48TSOP |
| 标准包装: | 96 |
| 系列: | SST39 MPF™ |
| 格式 - 存储器: | 闪存 |
| 存储器类型: | FLASH |
| 存储容量: | 16M (1M x 16) |
| 速度: | 70ns |
| 接口: | 并联 |
| 电源电压: | 2.7 V ~ 3.6 V |
| 工作温度: | -40°C ~ 85°C |
| 封装/外壳: | 48-TFSOP(0.724",18.40mm 宽) |
| 供应商设备封装: | 48-TSOP |
| 包装: | 托盘 |
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�16� Mbit� Multi-Purpose� Flash� Plus�
�SST39VF1601C� /� SST39VF1602C�
�Data� Sheet�
�Device� Operation�
�Commands� are� used� to� initiate� the� memory� operation� func-�
�tions� of� the� device.� Commands� are� written� to� the� device�
�using� standard� microprocessor� write� sequences.� A� com-�
�mand� is� written� by� asserting� WE#� low� while� keeping� CE#�
�low.� The� address� bus� is� latched� on� the� falling� edge� of� WE#�
�or� CE#,� whichever� occurs� last.� The� data� bus� is� latched� on�
�the� rising� edge� of� WE#� or� CE#,� whichever� occurs� first.�
�The� SST39VF1601C/1602C� also� have� the� Auto� Low�
�Power� mode� which� puts� the� device� in� a� near� standby� mode�
�after� data� has� been� accessed� with� a� valid� Read� operation.�
�This� reduces� the� I� DD� active� read� current� from� typically� 9� mA�
�to� typically� 3� μA.� The� Auto� Low� Power� mode� reduces� the�
�typical� I� DD� active� read� current� to� the� range� of� 2� mA/MHz� of�
�Read� cycle� time.� The� device� exits� the� Auto� Low� Power�
�mode� with� any� address� transition� or� control� signal� transition�
�used� to� initiate� another� Read� cycle,� with� no� access� time�
�penalty.� Note� that� the� device� does� not� enter� Auto-Low�
�Power� mode� after� power-up� with� CE#� held� steadily� low,�
�until� the� first� address� transition� or� CE#� is� driven� high.�
�Read�
�The� Read� operation� of� the� SST39VF1601C/1602C� is�
�controlled� by� CE#� and� OE#,� both� have� to� be� low� for� the�
�system� to� obtain� data� from� the� outputs.� CE#� is� used� for�
�device� selection.� When� CE#� is� high,� the� chip� is� dese-�
�lected� and� only� standby� power� is� consumed.� OE#� is� the�
�output� control� and� is� used� to� gate� data� from� the� output�
�pins.� The� data� bus� is� in� high� impedance� state� when�
�either� CE#� or� OE#� is� high.� Refer� to� the� Read� cycle� timing�
�diagram� for� further� details� (Figure� 6).�
�Any� commands� issued� during� the� internal� Program� opera-�
�tion� are� ignored.� During� the� command� sequence,� WP#�
�should� be� statically� held� high� or� low.�
�Sector/Block-Erase� Operation�
�The� Sector-� (or� Block-)� Erase� operation� allows� the� system�
�to� erase� the� device� on� a� sector-by-sector� (or� block-by-�
�block)� basis.� The� SST39VF1601C/1602C� offer� both� Sec-�
�tor-Erase� and� Block-Erase� mode.�
�The� sector� architecture� is� based� on� a� uniform� sector� size� of�
�2� KWord.� The� Block-Erase� mode� is� based� on� non-uniform�
�block� sizes—thirty-one� 32� KWord,� one� 16� KWord,� two� 4�
�KWord,� and� one� 8� KWord� blocks.� See� Figure� 5� for� top� and�
�bottom� boot� device� block� addresses.� The� Sector-Erase�
�operation� is� initiated� by� executing� a� six-byte� command�
�sequence� with� Sector-Erase� command� (50H)� and� sector�
�address� (SA)� in� the� last� bus� cycle.� The� Block-Erase� opera-�
�tion� is� initiated� by� executing� a� six-byte� command� sequence�
�with� Block-Erase� command� (30H)� and� block� address� (BA)�
�in� the� last� bus� cycle.� The� sector� or� block� address� is� latched�
�on� the� falling� edge� of� the� sixth� WE#� pulse,� while� the� com-�
�mand� (30H� or� 50H)� is� latched� on� the� rising� edge� of� the�
�sixth� WE#� pulse.� The� internal� Erase� operation� begins� after�
�the� sixth� WE#� pulse.� The� End-of-Erase� operation� can� be�
�determined� using� either� Data#� Polling� or� Toggle� Bit� meth-�
�ods.� See� Figures� 12� and� 13� for� timing� waveforms� and� Fig-�
�ure� 26� for� the� flowchart.� Any� commands� issued� during� the�
�Sector-� or� Block-Erase� operation� are� ignored.� When� WP#�
�is� low,� any� attempt� to� Sector-� (Block-)� Erase� the� protected�
�block� will� be� ignored.� During� the� command� sequence,�
�WP#� should� be� statically� held� high� or� low.�
�Word-Program� Operation�
�The� SST39VF1601C/1602C� are� programmed� on� a� word-�
�by-word� basis.� Before� programming,� the� sector� where� the�
�word� exists� must� be� fully� erased.� The� Program� operation� is�
�accomplished� in� three� steps.� The� first� step� is� the� three-byte�
�load� sequence� for� Software� Data� Protection.� The� second�
�step� is� to� load� word� address� and� word� data.� During� the�
�Word-Program� operation,� the� addresses� are� latched� on� the�
�falling� edge� of� either� CE#� or� WE#,� whichever� occurs� last.�
�The� data� is� latched� on� the� rising� edge� of� either� CE#� or�
�WE#,� whichever� occurs� first.� The� third� step� is� the� internal�
�Program� operation� which� is� initiated� after� the� rising� edge� of�
�the� fourth� WE#� or� CE#,� whichever� occurs� first.� The� Pro-�
�gram� operation,� once� initiated,� will� be� completed� within� 10�
�μs.� See� Figures� 7� and� 8� for� WE#� and� CE#� controlled� Pro-�
�gram� operation� timing� diagrams� and� Figure� 22� for� flow-�
�charts.� During� the� Program� operation,� the� only� valid� reads�
�are� Data#� Polling� and� Toggle� Bit.� During� the� internal� Pro-�
�gram� operation,� the� host� is� free� to� perform� additional� tasks.�
�Erase-Suspend/Erase-Resume� Commands�
�The� Erase-Suspend� operation� temporarily� suspends� a�
�Sector-� or� Block-Erase� operation� thus� allowing� data� to� be�
�read� from� any� memory� location,� or� program� data� into� any�
�sector/block� that� is� not� suspended� for� an� Erase� operation.�
�The� operation� is� executed� by� issuing� one� byte� command�
�sequence� with� Erase-Suspend� command� (B0H).� The�
�device� automatically� enters� read� mode� typically� within� 20�
�μs� after� the� Erase-Suspend� command� had� been� issued.�
�Valid� data� can� be� read� from� any� sector� or� block� that� is� not�
�suspended� from� an� Erase� operation.� Reading� at� address�
�location� within� erase-suspended� sectors/blocks� will� output�
�DQ� 2� toggling� and� DQ� 6� at� ‘1’.� While� in� Erase-Suspend�
�mode,� a� Word-Program� operation� is� allowed� except� for� the�
�sector� or� block� selected� for� Erase-Suspend.�
�?2010� Silicon� Storage� Technology,� Inc.�
�2�
�S71380-04-000�
�05/10�
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| SST39VF1602C-70-4I-MAQE | 功能描述:闪存 2.7V to 3.6V 16Mbit Multi-Purpose 闪存 RoHS:否 制造商:ON Semiconductor 数据总线宽度:1 bit 存储类型:Flash 存储容量:2 MB 结构:256 K x 8 定时类型: 接口类型:SPI 访问时间: 电源电压-最大:3.6 V 电源电压-最小:2.3 V 最大工作电流:15 mA 工作温度:- 40 C to + 85 C 安装风格:SMD/SMT 封装 / 箱体: 封装:Reel |
| SST39VF160-70-4C-BK | 功能描述:闪存 RO 804-39VF16017CB3K RoHS:否 制造商:ON Semiconductor 数据总线宽度:1 bit 存储类型:Flash 存储容量:2 MB 结构:256 K x 8 定时类型: 接口类型:SPI 访问时间: 电源电压-最大:3.6 V 电源电压-最小:2.3 V 最大工作电流:15 mA 工作温度:- 40 C to + 85 C 安装风格:SMD/SMT 封装 / 箱体: 封装:Reel |
| SST39VF160-70-4C-EK | 功能描述:闪存 USE 804-39VF16017CEK RoHS:否 制造商:ON Semiconductor 数据总线宽度:1 bit 存储类型:Flash 存储容量:2 MB 结构:256 K x 8 定时类型: 接口类型:SPI 访问时间: 电源电压-最大:3.6 V 电源电压-最小:2.3 V 最大工作电流:15 mA 工作温度:- 40 C to + 85 C 安装风格:SMD/SMT 封装 / 箱体: 封装:Reel |
| SST39VF160-70-4I-BK | 功能描述:闪存 1M X 16 70ns RoHS:否 制造商:ON Semiconductor 数据总线宽度:1 bit 存储类型:Flash 存储容量:2 MB 结构:256 K x 8 定时类型: 接口类型:SPI 访问时间: 电源电压-最大:3.6 V 电源电压-最小:2.3 V 最大工作电流:15 mA 工作温度:- 40 C to + 85 C 安装风格:SMD/SMT 封装 / 箱体: 封装:Reel |
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