参数资料
| 型号: | X5648S14 |
| 厂商: | Intersil |
| 文件页数: | 6/18页 |
| 文件大小: | 0K |
| 描述: | IC SUPERVISOR CPU 64K EE 14-SOIC |
| 标准包装: | 50 |
| 类型: | 简单复位/加电复位 |
| 监视电压数目: | 1 |
| 输出: | 开路漏极或开路集电极 |
| 复位: | 低有效 |
| 复位超时: | 最小为 100 ms |
| 电压 - 阀值: | 4.38V |
| 工作温度: | 0°C ~ 70°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 14-SOIC(0.154",3.90mm 宽) |
| 供应商设备封装: | 14-SOICN |
| 包装: | 管件 |
��
�
�X5648,� X5649�
�Table� 2.� Block� Protect� Matrix�
�WREN� CMD�
�Status� Register�
�Device� Pin�
�Block�
�Block�
�Status� Register�
�WPEN,� BL0,� BL1�
�WEL�
�0�
�1�
�1�
�1�
�WPEN�
�X�
�1�
�0�
�X�
�WP#�
�X�
�0�
�X�
�1�
�Protected� Block�
�Protected�
�Protected�
�Protected�
�Protected�
�Unprotected� Block�
�Protected�
�Writable�
�Writable�
�Writable�
�WD0,� WD1�
�Protected�
�Protected�
�Writable�
�Writable�
�The� Write� Enable� Latch� (WEL)� bit� indicates� the� sta-�
�tus� of� the� write� enable� latch.� When� WEL� =� 1,� the�
�latch� is� set� HIGH� and� when� WEL� =� 0� the� latch� is� reset�
�LOW.� The� WEL� bit� is� a� volatile,� read� only� bit.� It� can�
�be� set� by� the� WREN� instruction� and� can� be� reset� by�
�the� WRDS� instruction.�
�The� block� lock� bits,� BL0� and� BL1,� set� the� level� of� block�
�lock� protection.� These� nonvolatile� bits� are� pro-�
�grammed� using� the� WRSR� instruction� and� allow� the�
�user� to� protect� one� quarter,� one� half,� all� or� none� of� the�
�EEPROM� array.� Any� portion� of� the� array� that� is� block�
�lock� protected� can� be� read� but� not� written.� It� will�
�remain� protected� until� the� BL� bits� are� altered� to� disable�
�block� lock� protection� of� that� portion� of� memory.�
�Setting� the� WP� pin� LOW� while� WPEN� is� a� “1”� while� an�
�internal� write� cycle� to� the� status� register� is� in� progress�
�will� not� stop� this� write� operation,� but� the� operation� dis-�
�ables� subsequent� write� attempts� to� the� status� register.�
�When� WP� is� HIGH,� all� functions,� including� nonvolatile�
�writes� to� the� status� register� operate� normally.� Setting�
�the� WPEN� bit� in� the� status� register� to� “0”� blocks� the�
�WP� pin� function,� allowing� writes� to� the� status� register�
�when� WP� is� HIGH� or� LOW.� Setting� the� WPEN� bit� to�
�“1”� while� the� WP� pin� is� LOW� activates� the� programma-�
�ble� ROM� mode,� thus� requiring� a� change� in� the� WP� pin�
�prior� to� subsequent� status� register� changes.� This�
�allows� manufacturing� to� install� the� device� in� a� system�
�with� WP� pin� grounded� and� still� be� able� to� program� the�
�Status�
�Register� Bits�
�Array� Addresses� Protected�
�status� register.� Manufacturing� can� then� load� configura-�
�tion� data,� manufacturing� time� and� other� parameters�
�into� the� EEPROM,� then� set� the� portion� of� memory� to�
�BL1�
�0�
�0�
�1�
�1�
�BL0�
�0�
�1�
�0�
�1�
�X5648/X5649�
�None�
�$1800-$1FFF�
�$1000-$1FFF�
�$0000-$1FFF�
�be� protected� by� setting� the� block� lock� bits,� and� finally�
�set� the� “OTP� mode”� by� setting� the� WPEN� bit.� Data�
�changes� now� require� a� hardware� change.�
�Read� Sequence�
�When� reading� from� the� EEPROM� memory� array,� CS� is�
�first� pulled� low� to� select� the� device.� The� 8-bit� READ�
�The� FLAG� bit� shows� the� status� of� a� volatile� latch� that�
�can� be� set� and� reset� by� the� system� using� the� SFLB�
�and� RFLB� instructions.� The� flag� bit� is� automatically�
�reset� upon� power-up.�
�The� nonvolatile� WPEN� bit� is� programmed� using� the�
�WRSR� instruction.� This� bit� works� in� conjunction� with� the�
�WP� pin� to� provide� an� in-circuit� programmable� ROM� func-�
�tion� (Table� 2).� WP� is� LOW� and� WPEN� bit� programmed�
�HIGH� disables� all� status� register� write� operations.�
�In� Circuit� Programmable� ROM� Mode�
�This� mechanism� protects� the� block� lock� and� watchdog�
�bits� from� inadvertent� corruption.�
�In� the� locked� state� (programmable� ROM� Mode)� the�
�WP� pin� is� LOW� and� the� nonvolatile� bit� WPEN� is� “1”.�
�This� mode� disables� nonvolatile� writes� to� the� device’s�
�status� register.�
�6�
�instruction� is� transmitted� to� the� device,� followed� by� the�
�16-bit� address.� After� the� READ� opcode� and� address�
�are� sent,� the� data� stored� in� the� memory� at� the� selected�
�address� is� shifted� out� on� the� SO� line.� The� data� stored�
�in� memory� at� the� next� address� can� be� read� sequen-�
�tially� by� continuing� to� provide� clock� pulses.� The�
�address� is� automatically� incremented� to� the� next�
�higher� address� after� each� byte� of� data� is� shifted� out.�
�When� the� highest� address� is� reached,� the� address�
�counter� rolls� over� to� address� $0000� allowing� the� read�
�cycle� to� be� continued� indefinitely.� The� read� operation�
�is� terminated� by� taking� CS� high.� Refer� to� the� read�
�EEPROM� array� sequence� (Figure� 1).�
�To� read� the� status� register,� the� CS� line� is� first� pulled� low�
�to� select� the� device� followed� by� the� 8-bit� RDSR� instruc-�
�tion.� After� the� RDSR� opcode� is� sent,� the� contents� of� the�
�status� register� are� shifted� out� on� the� SO� line.� Refer� to�
�the� read� status� register� sequence� (Figure� 2).�
�FN8136.0�
�March� 17,� 2005�
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