BL75R06SM 8K位EEPROM非接触加密存储卡

MOTOROLA系列芯片解密MOTOROLA单片机具有片内FLASH，具有FLASH存储器在线编程功能和保密功能(FLASH编程/查处的电压由芯片内部电荷泵产生)，编程后FLASH位将设为0，擦除后FLASH位将为1，FLASH存储器的加密特性可以阻止未经授权的用户查看FLASH存储器中的内容。

以下龙人成功实现技术突破的MOTOROLA单片机型号，目前我们可针对以下单片机型号提供高效可靠的解密服务：24小时服务热线：086-0755-********E-mail：sales@68HC711XX系列68HC711E9MFN2 68HC711E9MFNE2 68HC711E9VFNE268HC711E9VFN2 68HC705C4A 68HC705C468HC705C8 68HC711E9VFN2 68HC705C8A68HC705C9 68HC705C9A 68HC70568HC705J1A 68HC705SR3 ……MC56F8XX系列MC56F8013VFAE MC56F8014VFAE MC56F8023MFAEMC56F8023VFAE MC56F8025VLD MC56F8036MFAEMC56F8036VFAE MC56F8037VLH MC56F8122VFAMC56F8122VFAE MC56F8123VFB MC56F8123VFBEMC56F8322MFA60 MC56F8322MFAE MC56F8322VFA60MC56F8322VFAE MC56F8323MFB60 MC56F8323MFBEMC56F8323VFB60 MC56F8323VFBE ……MC68HC705XX系列MC68HC11P2(2E74J) MC68HC711P2(1E53M) MC68HC705C4MC68HC705C8 MC68HC705C4A MC68HC705C8AMC68HC705C9 MC68HC705C9A MC68HC705SR3MC68HC705 MC68HC705J1A MC68HC705B16MC68HC705X16 MC68HC705B32 MC68HC705X32MC68HC705B6 MC68HC05B8 MC68HC05B16MC68HC705X16 MC68HC05B32 MC68HC05X32MC68HC705H12(0H57A) MC68HC705B16N MC68HC705B5MC68HC705J2 MC68HC705KJ1 MC68HC705P6MC68HC705P9 MC68705R3 MC68705R5MC68705U3 MC68705U5 XC68HC705P6A(CDW)MC68HC11XX系列MC68HC11A8(AB95T) MC68HC11A8(C96N) MC68HC11E9(1B60R)MC68HC11A8(D26E) MC68HC11E20(3E22B) MC68HC11E9(D82R)MC68HC11E9(E22B) MC68HC11E9(E28B) MC68HC11EA9(2D47J)MC68HC11F1(E87J) MC68HC11F1(2F37E) MC68HC11K1(2D58N)MC68HC11K4(1E62H) MC68HC11K4(OE75J) MC68HC11KA4(1E59B)MC68HC11KS4(0E57S) MC68HC11KS2(0H95B) MC68HC11KS4(0F60M)MC68HC11A0 MC68HC11A1 MC68HC11E1MC68HC11P1 ……MC68HC711XX系列MC68HC711E20(1H19S) MC68HC711E9(4K81H) MC68HC711E9(5C47M)MC68HC711K4(K59D) MC68HC711EA9(0D46J) MC68HC711PH8(0H30R)MC68S711E9(5C47M) MC68HC711KS8(1H96P) MC68HC711D3MC68HC711E20 MC68HC711E9 MC68HC711E9CFN2MC68HC711E9CFN(4.5V) MC68HC711E9CFN3 MC68HC711K4MC68HC711E9CFNE2 MC68HC711E9CFNE3 MC68HC711E9-FNMC68HC711KA2 MC68HC711KA4 MC68HC711KS2MC68HC711L6 XC68HC711D3 ……MC68HC81XX系列MC68HC811E2MP2 MC68HC811E2CP2 MC68HC811E2MC68HC811E2P2 MC68HC811E2VP2 MC68HC812A4CPVMC68HC812A4CPVE MC68HC812A4MPV ……MC68HC908XX系列MC68HC908AS60(3J74Y) MC68HC908AZ60(4J74Y) MC68HC908AZ60(2J74Y) MC68HC908AS60A(1L87J) MC68HC908AZ60A(3K85K) MC68HC908AS20(0H94K) MC68HC908AZ60(1J35D) MC68HC908AZ32(0J66D) MC68HC908AZ32(1H56A) MC68H908AZ32A(1L52H) MC68HC908AB32(3K56G) MC68HC908QT3MC68HC908QT1 MC68HC908QT2 MC68HC908QT4MC68HC908QY1 MC68HC908QY2 MC68HC908QY3MC68HC908QY4 MC68HC908JK1 MC68HC908JK3MC68HC908AP16CB MC68HC908AB32MFU MC68HC908LK24MC68HC908AB32CFU MC68HC908AP16CFA MC68HC908JK8MC68HC908AP16CFB MC68HC908AP32CB MC68HC908LK24MC68HC908AP32CFA MC68HC908AP32CFB MC68HC908AP64CBMC68HC908AP64CFA MC68HC908AP64CFB MC68HC908AP8CBMC68HC908AP8CFA MC68HC908AP8CFB MC68HC908AS32AMC68HC908BD48IB MC68HC908BD48IFB MC68HC908EY16CFAMC68HC908EY16MFA MC68HC908EY16VFA MC68HC908EY8CFAMC68HC908EY8MFA MC68HC908EY8VFA MC68HC908GP32MC68HC908GR16CFA MC68HC908GR16CFJ MC68HC908GR16MFAMC68HC908GR16MFJ MC68HC908GR16VFA MC68HC908GR4CDWMC68HC908GR16VFJ MC68HC908GR4CFA MC68HC908GR4CPMC68HC908GR4MDW MC68HC908GR4MFA MC68HC908GR4MPMC68HC908GR4VDW MC68HC908GR4VFA MC68HC908GR4VPMC68HC908GR8CDW MC68HC908GR8CFA MC68HC908GR8CPMC68HC908GR8MDW MC68HC908GR8MFA MC68HC908GR8MPMC68HC908GR8VDW MC68HC908GR8VFA MC68HC908GR8VPMC68HC908GT16 MC68HC908GT8CB MC68HC908GT8CFBMC68HC908GZ16 MC68HC908GZ32 MC68HC908GZ48MC68HC908GZ60 MC68HC908GZ8 MC68HC908JB12MC68HC908JB16 MC68HC908JK1ECDW MC68HC908JB8MC68HC908JK1CDW MC68HC908JK1CP MC68HC908JB8MC68HC908JK1ECP MC68HC908JK1EMDW MC68HC908JK1EMPMC68HC908JK1MDW MC68HC908JK1MP MC68HC908JK3CDWMC68HC908JK3CP MC68HC908JK3ECDW MC68HC908JK3ECPMC68HC908JK3EMDW MC68HC908JK3EMP MC68HC908JK3MDW MC68HC908JK3MP MC68HC908JK8 MC68HC908JK8MC68HC908JL3CDW MC68HC908JL3CFA MC68HC908JL3CPMC68HC908JL3ECDW MC68HC908JL3ECFA MC68HC908JL3ECPMC68HC908JL3EMDW MC68HC908JL3EMFA MC68HC908JL3EMP MC68HC908JL3MDW MC68HC908JL3MFA MC68HC908JL3MPMC68HC908LB8CDWE MC68HC908LB8MDWE MC68HC908LB8CPE MC68HC908LB8MPE MC68HC908LB8VDWE MC68HC908JL8MC68HC908LB8VPE MC68HC908LD60IFU MC68HC908KX8MC68HC908LD64IFU MC68HC908LJ12CFB MC68HC908KX2MC68HC908LJ12CFBE MC68HC908LJ12CFU MC68HC908LJ12CFU MC68HC908LJ12CFUE MC68HC908LJ12CPB MC68HC908LJ12CPBE MC68HC908LJ24CFQ MC68HC908LJ24CFQE MC68HC908LJ24CFU MC68HC908LJ24CFUE MC68HC908LJ24CPB MC68HC908LJ24CPBE MC68HC908LJ24CPK MC68HC908LJ24CPKE MC68HC908LK24CFQ MC68HC908LK24CFQE MC68HC908LK24CFU MC68HC908LK24CFUE MC68HC908LK24CPB MC68HC908LK24CPBE MC68HC908QB4MC68HC908LK24CPK MC68HC908LK24CPKE MC68HC908QB8MC68HC908LV8CPBE MC68HC908MR16 MC68HC908MR32MC68HC908QC16 MC68HC908QC4 MC68HC908QC8MC68HC908QT1ACFQE MC68HC908QT1AMFQE MC68HC908QF4 MC68HC908QT1AVFQE MC68HC908QT1CDW MC68HC908QL2MC68HC908QT1CFQ MC68HC908QT1CP MC68HC908QL3MC68HC908QT1MDW MC68HC908QT1MFQ MC68HC908QL4MC68HC908QT1MP MC68HC908QT1VDW MC68HC908QT1VFQMC68HC908QT1VP MC68HC908QT2ACFQE MC68HC908QT2AMFQE MC68HC908QT2AVFQE MC68HC908QT2CFQ MC68HC908QT2CDW MC68HC908QT2CP MC68HC908QT2MDW MC68HC908QT2MFQMC68HC908QT2MP MC68HC908QT2VDW MC68HC908QT2VFQMC68HC908QT4ACFQE MC68HC908QT4AMFQE MC68HC908QT2VP MC68HC908QT4AVFQE MC68HC908QT4CDW MC68HC908QT4CFQ MC68HC908QT4MDW MC68HC908QT4MFQ MC68HC908QT4CPMC68HC908QT4VDW MC68HC908QT4VFQ MC68HC908QT4MPMC68HC908QT4VP MC68HC908QY1CDT MC68HC908QY1CDWMC68HC908QY1CP MC68HC908QY1MDT MC68HC908QY1MDWMC68HC908QY1MP MC68HC908QY1VDT MC68HC908QY1VDWMC68HC908QY2CDT MC68HC908QY2CDW MC68HC908QY2CPMC68HC908QY2MDT MC68HC908QY2MDW MC68HC908QY2MPMC68HC908QY2VDT MC68HC908QY2VDW MC68HC908QY2VPMC68HC908QY4CDT MC68HC908QY4CDW MC68HC908QY4CPMC68HC908QY4MDT MC68HC908QY4MDW MC68HC908QY4MPMC68HC908QY4VDT MC68HC908QY4VDW MC68HC908QY4VPMC68HC908QY8 MC68HC908SR12 MC68HC908RF2XC68HC908MR32 ……MC68HC912XX系列MC68HC912DC128A(3K91D) MC68HC912DC128(0K50E) MC68HC912D60(0K13J) MC68HC912DG128(0K50E) MC68HC912DG128(5H55W) MC68HC912B32(9H91F) MC68HC912D60(0K75F) MC68HC912D60A(2K38K) MC68HC912D60(4F73K)MC68HC912DG128A(3K91D) MC9S12DG128B(0L85D) MC68HC912B32(4J54E) MC68HC912BC32 ……MC68HC9S12XX系列MC9S12DT128B(0L85D) MC9S12DB128B(0L85D) MC9S12A128B(0L85D)MC9S12DG256C(2K79X) MC9S12DT256C(2K79X) MC9S12DT128B(1L85D)MC9S12H128(1K78X) MC9S12DP256C(2K79X) MC9S12H256(1K78X)MC9S12DP512(1L00M) MC9S12DT128B(3L40K) ……MC68HRC908XX系列MC68HRC908JK1CDW MC68HRC908JK1CP MC68HRC908JK1ECPMC68HRC908JK1ECDW MC68HRC908JK1EMDW MC68HRC908JK1EMPMC68HRC908JK1MDW MC68HRC908JK3CDW MC68HRC908JK1MPMC68HRC908JK3CP MC68HRC908JK3ECDW MC68HRC908JK3ECPMC68HRC908JK3EMDW MC68HRC908JK3EMP MC68HRC908JK3MDWMC68HRC908JK3MP MC68HRC908JK8 MC68HRC908JL3CPMC68HRC908JL3CDW MC68HRC908JL3CFA MC68HRC908JL3ECPMC68HRC908JL3ECDW MC68HRC908JL3ECFA MC68HRC908JL3EMDWMC68HRC908JL3EMFA MC68HRC908JL3EMP MC68HRC908JL3MDWMC68HRC908JL3MFA MC68HRC908JL3MP MC68HRC908JL8MC68HSC705XX系列MC68HSC705C8A XC68HSC705C9A ……MC68S711E9XX系列MC68S711E9 ……MC908AXX系列MC908AB32CFUE MC908AP16CBE MC908AP32CBEMC908AP32CFAE MC908AP32CFBE MC908AP64CBEMC908AP64CFAE MC908AP64CFBE MC908AP8CBEMC908AP8CFAE MC908AP8CFBE ……MC908BXX系列MC908BD48IBE MC908BD48IFBE MC908EY16ACFJEMC908EY16ACFJE MC908EY16AKFJE MC908EY16AMFJE MC908EY16AVFJE MC908EY8ACFJE MC908EY8AKFJEMC908EY8AVFJE MC908EY8AMFJE ……MC908JL16XX系列MC908JL16CDWE MC908JL16CFJE MC908JL16CPEMC908JL16CSPE ……MC908QTXX系列MC908QT1ACDWE MC908QT1ACPE MC908QT1AMDWE MC908QT1AMPE MC908QT1AVDWE MC908QT1AVPEMC908QT2ACDWE MC908QT2ACPE MC908QT2AMDWE MC908QT2AMPE MC908QT2AVDWE MC908QT2AVPEMC908QT4ACDWE MC908QT4ACPE MC908QT4AMDWE MC908QT4AMPE MC908QT4AVDWE MC908QT4AVPEMC908QYXX系列MC908QY1ACDTE MC908QY1ACDWE MC908QY1ACPEMC908QY1AMDTE MC908QY1AMDWE MC908QY1AMPE MC908QY1AVDTE MC908QY1AVDWE MC908QY1AVPEMC908QY2ACDTE MC908QY2ACDWE MC908QY2ACPEMC908QY2AMDTE MC908QY2AMDWE MC908QY2AMPE MC908QY2AVDTE MC908QY2AVDWE MC908QY2AVPEMC908QY4ACDT MC908QY4ACDWE MC908QY4ACPEMC908QY4AMDTE MC908QY4AMDWE MC908QY4AMPE MC908QY4AVDTE MC908QY4AVDWE MC908QY4AVPEMC912D60XX系列MC912D60ACFU8 MC912D60ACPV8 MC912D60AMFU8MC912D60AMPV8 MC912D60AVFU8 MC912D60AVPV8MC912D60CCFU8 MC912D60CCPV8 MC912D60CMFU8MC912D60CMPV8 MC912D60CVFU8 MC912D60CVPV8MC912D60PCFU8 MC912D60PCPV8 MC912D60PMFU8MC912D60PMPV8 MC912D60PVFU8 MC912D60PVPV8MC912DG128XX系列MC912DG128ACPV MC912DG128AMPV MC912DG128AVPV MC912DG128CCPV MC912DG128CMPV MC912DG128CVPV MC912DG128PCPV MC912DG128PMPV MC912DG128PVPV MC912DT128XX系列MC912DT128ACPV MC912DT128AMPV MC912DT128AVPV MC912DT128CCPV MC912DT128CMPV MC912DT128CVPV MC912DT128PCPV MC912DT128PMPV MC912DT128PVPVMC9RS08KA1CPC MC9RS08KA1CSC MC9RS08KA2CPCMC9RS08KA2CSC ……MC9S08ACXX系列MC9S08AC16CFD MC9S08AC16CFDE MC9S08AC16CFG MC9S08AC16CFGE MC9S08AC16MFD MC9S08AC16MFDE MC9S08AC16MFG MC9S08AC16MFGE MC9S08AC16VFD MC9S08AC16VFDE MC9S08AC16VFG MC9S08AC16VFGE MC9S08AC32CFD MC9S08AC32CFDE MC9S08AC32CFG MC9S08AC32CFGE MC9S08AC32CFU MC9S08AC32CFUE MC9S08AC32CPU MC9S08AC32CPUE MC9S08AC32MFD MC9S08AC32MFDE MC9S08AC32MFG MC9S08AC32MFGE MC9S08AC32MFU MC9S08AC32MFUE MC9S08AC32MPU MC9S08AC32MPUE MC9S08AC32VFD MC9S08AC32VFDE MC9S08AC32VFG MC9S08AC32VFGE MC9S08AC32VFU MC9S08AC32VFUE MC9S08AC32VPU MC9S08AC32VPUE MC9S08AC48CFD MC9S08AC48CFDE MC9S08AC48CFG MC9S08AC48CFGE MC9S08AC48CFU MC9S08AC48CFUE MC9S08AC48CPU MC9S08AC48CPUE MC9S08AC48MFD MC9S08AC48MFDE MC9S08AC48MFG MC9S08AC48MFGE MC9S08AC48MFU MC9S08AC48MFUE MC9S08AC48MPU MC9S08AC48MPUE MC9S08AC48VFD MC9S08AC48VFDE MC9S08AC48VFG MC9S08AC48VFGE MC9S08AC48VFU MC9S08AC48VFUE MC9S08AC48VPU MC9S08AC48VPUE MC9S08AC60CFD MC9S08AC60CFDE MC9S08AC60CFG MC9S08AC60CFGE MC9S08AC60CFU MC9S08AC60CFUE MC9S08AC60CPU MC9S08AC60CPUE MC9S08AC60MFD MC9S08AC60MFDE MC9S08AC60MFG MC9S08AC60MFGE MC9S08AC60MFU MC9S08AC60MFUE MC9S08AC60MPU MC9S08AC60MPUE MC9S08AC60VFD MC9S08AC60VFDE MC9S08AC60VFG MC9S08AC60VFGE MC9S08AC60VFU MC9S08AC60VFUE MC9S08AC60VPU MC9S08AC60VPUE MC9S08AC8CFD MC9S08AC8CFDE MC9S08AC8CFGMC9S08AC8CFGE MC9S08AC8MFD MC9S08AC8MFDEMC9S08AC8MFG MC9S08AC8MFGE MC9S08AC8VFDMC9S08AC8VFDE MC9S08AC8VFG MC9S08AC8VFGEMC9S08AWXX系列MC9S08AW16CFD MC9S08AW16CFDE MC9S08AW16CFG MC9S08AW16CFGE MC9S08AW16CFU MC9S08AW16CFUE MC9S08AW16CPU MC9S08AW16CPUE MC9S08AW16MFD MC9S08AW16MFDE MC9S08AW16MFG MC9S08AW16MFGE MC9S08AW16MFU MC9S08AW16MFUE MC9S08AW16MPUMC9S08AW16VFUE MC9S08AW16VPU MC9S08AW16VPUE MC9S08AW32CFD MC9S08AW32CFDE MC9S08AW32CFG MC9S08AW32CFGE MC9S08AW32CFU MC9S08AW32CFUE MC9S08AW32CPU MC9S08AW32CPUE MC9S08AW32MFD MC9S08AW32MFDE MC9S08AW32MFG MC9S08AW32MFGE MC9S08AW32MFU MC9S08AW32MFUE MC9S08AW32MPU MC9S08AW32MPUE MC9S08AW32VFD MC9S08AW32VFDE MC9S08AW32VFG MC9S08AW32VFGE MC9S08AW32VFU MC9S08AW32VFUE MC9S08AW32VPU MC9S08AW32VPUE MC9S08AW48CFD MC9S08AW48CFDE MC9S08AW48CFG MC9S08AW48CFGE MC9S08AW48CFU MC9S08AW48CFUE MC9S08AW48CPU MC9S08AW48CPUE MC9S08AW48MFD MC9S08AW48MFDE MC9S08AW48MFG MC9S08AW48MFGE MC9S08AW48MFU MC9S08AW48MFUE MC9S08AW48MPU MC9S08AW48MPUE MC9S08AW48VFD MC9S08AW48VFDE MC9S08AW48VFG MC9S08AW48VFGE MC9S08AW48VFU MC9S08AW48VFUE MC9S08AW48VPU MC9S08AW48VPUE MC9S08AW60CFD MC9S08AW60CFDE MC9S08AW60CFG MC9S08AW60CFGE MC9S08AW60CFU MC9S08AW60CFUE MC9S08AW60CPU MC9S08AW60CPUE MC9S08AW60MFD MC9S08AW60MFDE MC9S08AW60MFG MC9S08AW60MFGE MC9S08AW60MFU MC9S08AW60MFUE MC9S08AW60MPU MC9S08AW60MPUE MC9S08AW60VFD MC9S08AW60VFDE MC9S08AW60VFG MC9S08AW60VFGE MC9S08AW60VFU MC9S08AW60VFUE MC9S08AW60VPU MC9S08AW60VPUEMC9S08GBXX系列MC9S08GB32ACFU MC9S08GB32ACFUE MC9S08GB32CFU MC9S08GB32CFUE MC9S08GB60ACFU MC9S08GB60ACFUE MC9S08GB60CFU MC9S08GB60CFUE ……MC9S08GTXX系列MC9S08GT16ACB MC9S08GT16ACFB MC9S08GT16ACFC MC9S08GT16ACFCE MC9S08GT16ACFD MC9S08GT16AMB MC9S08GT16AMFB MC9S08GT16AMFC MC9S08GT16AMFCE MC9S08GT16AMFD MC9S08GT16CB MC9S08GT16CBEMC9S08GT16CFB MC9S08GT16CFBE MC9S08GT16CFDMC9S08GT16CFDE MC9S08GT32ACFB MC9S08GT32ACFBE MC9S08GT32ACFD MC9S08GT32ACFDE MC9S08GT32CB MC9S08GT32CBE MC9S08GT32CFB MC9S08GT32CFBEMC9S08GT32CFD MC9S08GT32CFDE MC9S08GT60ACFB MC9S08GT60ACFB MC9S08GT60ACFD MC9S08GT60ACFDE MC9S08GT60CB MC9S08GT60CBE MC9S08GT60CFBMC9S08GT8ACFCE MC9S08GT8ACFD MC9S08GT8AMB MC9S08GT8AMFB MC9S08GT8AMFC MC9S08GT8AMFCE MC9S08GT8AMFD ……MC9S08JMXX系列MC9S08JM16CGT MC9S08JM16CGTE MC9S08JM16CLD MC9S08JM16CLDE MC9S08JM16MGT MC9S08JM16MGTE MC9S08JM16MLD MC9S08JM16MLDE MC9S08JM16VGT MC9S08JM16VGTE MC9S08JM16VLD MC9S08JM16VLDE MC9S08JM32CGT MC9S08JM32CGTE MC9S08JM32CLD MC9S08JM32CLDE MC9S08JM32CLH MC9S08JM32CLHE MC9S08JM32CQH MC9S08JM32CQHE MC9S08JM32MGT MC9S08JM32MGTE MC9S08JM32MLD MC9S08JM32MLDE MC9S08JM32MLH MC9S08JM32MLHE MC9S08JM32MQH MC9S08JM32MQHE MC9S08JM32VGT MC9S08JM32VGTE MC9S08JM32VLD MC9S08JM32VLDE MC9S08JM32VLH MC9S08JM32VLHE MC9S08JM32VQH MC9S08JM32VQHE MC9S08JM60CGTE MC9S08JM60CLDE MC9S08JM60CLHE MC9S08JM60CQHE MC9S08JM8CGT MC9S08JM8CGTE MC9S08JM8CLD MC9S08JM8CLDE MC9S08JM8MGTMC9S08JM8MGTE MC9S08JM8MLD MC9S08JM8MLDEMC9S08JM8VGT MC9S08JM8VGTE MC9S08JM8VLDMC9S08JM8VLDE ……MC9S08QAXX系列MC9S08QA2CDN MC9S08QA2CDNE MC9S08QA2CFQMC9S08QA2CFQE MC9S08QA2CPA MC9S08QA2CPAEMC9S08QA2MDN MC9S08QA2MDNE MC9S08QA2MFQMC9S08QA2MFQE MC9S08QA2MPA MC9S08QA2MPAE MC9S08QA2VDN MC9S08QA2VDNE MC9S08QA2VFQMC9S08QA2VFQE MC9S08QA2VPA MC9S08QA4CDNMC9S08QA4CDNE MC9S08QA4CFQ MC9S08QA4CFQE MC9S08QA4CPA MC9S08QA4CPAE MC9S08QA4MDNMC9S08QA4MDNE MC9S08QA4MFQ MC9S08QA4MFQE MC9S08QA4MPA MC9S08QA4MPAE MC9S08QA4VDNMC9S08QA4VDNE MC9S08QA4VFQ MC9S08QA4VFQEMC9S08QA4VPA MC9S08QA4VPA E ……MC9S08QDXX系列MC9S08QD2CPC MC9S08QD2CSC MC9S08QD2MPCMC9S08QD2MSC MC9S08QD2VPC MC9S08QD2VSCMC9S08QD4CPC MC9S08QD4CSC MC9S08QD4MPCMC9S08QD4MSC MC9S08QD4VPC MC9S08QD4VSCMC9S08QG4CDNE MC9S08QG4CDTE MC9S08QG4CFFE MC9S08QG4CFQE MC9S08QG4CPAE MC9S08QG8CDNE MC9S08QG8CDTE MC9S08QG8CFFE MC9S08QG8CFQE MC9S08QG8CPBE ……MC9S08RCXX系列MC9S08RC16CFG MC9S08RC16CFJ MC9S08RC16FG MC9S08RC16FJ MC9S08RC32CFG MC9S08RC32CFJMC9S08RC32FG MC9S08RC32FJ MC9S08RC60CFGMC9S08RC60CFJ MC9S08RC60FG MC9S08RC60FJMC9S08RC8CFG MC9S08RC8CFJ MC9S08RC8FGMC9S08RC8FJ ……MC9S08RDXX系列MC9S08RD16CDW MC9S08RD16CFG MC9S08RD16CFJ MC9S08RD16CP MC9S08RD16DW MC9S08RD16FGMC9S08RD16FJ MC9S08RD16P MC9S08RD32CDWMC9S08RD32CFG MC9S08RD32CFJ MC9S08RD32CP MC9S08RD32DW MC9S08RD32FG MC9S08RD32FJMC9S08RD32P MC9S08RD60CDW MC9S08RD60CFG MC9S08RD60CFJ MC9S08RD60CP MC9S08RD60DWMC9S08RD60FG MC9S08RD60FJ MC9S08RD60PMC9S08RD8CDW MC9S08RD8CFG MC9S08RD8CFJMC9S08RD8CP MC9S08RD8DW MC9S08RD8FGMC9S08RD8FJ MC9S08RD8P ……MC9S08REXX系列MC9S08RE16CFG MC9S08RE16CFJ MC9S08RE16FJMC9S08RE32CFG MC9S08RE32CFJ MC9S08RE32FG MC9S08RE32FJ MC9S08RE60CFG MC9S08RE60CFJMC9S08RE60FG MC9S08RE60FJ MC9S08RE8CFGMC9S08RE8CFJ MC9S08RE8FG MC9S08RE8FJMC9S08RGXX系列MC9S08RG32CFG MC9S08RG32CFJ MC9S08RG32FG MC9S08RG32FJ MC9S08RG60CFG MC9S08RG60CFJ MC9S08RG60FG MC9S08RG60FJ ……MC9S08SGXX系列单片机解密MC9S08SG4CSC MC9S08SG4MSC MC9S08SG4MTGMC9S08SG4VSC MC9S08SG4VTG MC9S08SG8CSCMC9S08SG8CTG MC9S08SG8MSC MC9S08SG8MTGMC9S08SG8VSC MC9S08SG8VTG ……MC9S08SH4CSC MC9S08SH4CTG MC9S08SH4MSCMC9S08SH4MTG MC9S08SH4VSC MC9S08SH4VTGMC9S08SH8CTG MC9S08SH8MSC MC9S08SH8MTGMC9S08SH8VSC MC9S08SH8VTG ……MC9S12AXX系列MC9S12A128BCFU MC9S12A128BCPV MC9S12A128BMFU MC9S12A128BMPV MC9S12A128BVFU MC9S12A128BVPV MC9S12A128CFU MC9S12A128CPV MC9S12A128MFUMC9S12A128VFU MC9S12A128MPV MC9S12A128VPVMC9S12A256BCFU MC9S12A256BCPV MC9S12A256BMFU MC9S12A256BMPV MC9S12A256BVFU MC9S12A256BVPV MC9S12A256CFU MC9S12A256CPV MC9S12A256MFUMC9S12A256MPV MC9S12A256VFU MC9S12A256VPVMC9S12A64CFU MC9S12A64CPV MC9S12A64FMC9S12A64MFU MC9S12A64MPV MC9S12A64PVMC9S12A64VFU MC9S12A64VPV ……MC9S12BXX系列MC9S12B128CFU MC9S12B128CPV MC9S12B128MFUMC9S12B128MPV MC9S12B128VFU MC9S12B128VPVMC9S12B64CFU MC9S12B64CPV MC9S12B64MFUMC9S12B64MPV MC9S12B64VFU MC9S12B64VPVMC9S12CXX系列MC9S12C128CFA MC9S12C128CFU MC9S12C128CPBMC9S12C128MFA MC9S12C128MFU MC9S12C128MPB MC9S12C128VFA MC9S12C128VFU MC9S12C128VPBMC9S12C32CFA16 MC9S12C32CFA25 MC9S12C32CFU16 MC9S12C32CFU25 MC9S12C32CPB16 MC9S12C32CPB25 MC9S12C32MFA16 MC9S12C32MFA25 MC9S12C32MFU16 MC9S12C32MFU25 MC9S12C32MPB16 MC9S12C32MPB25 MC9S12C32VFA16 MC9S12C32VFA25 MC9S12C32VFU16 MC9S12C32VFU25 MC9S12C32VPB16 MC9S12C32VPB25 MC9S12C64CFA MC9S12C64CFU MC9S12C64CPBMC9S12C64MFA MC9S12C64MFU MC9S12C64MPBMC9S12C64VFA MC9S12C64VFU MC9S12C64VPBMC9S12C96CFA MC9S12C96CFU MC9S12C96CPBMC9S12C96MFA MC9S12C96MFU MC9S12C96MPBMC9S12C96VFA MC9S12C96VFU MC9S12C96VPBMC9S12D64XX系列MC9S12D64CFU MC9S12D64CPV MC9S12D64FUMC9S12D64MFU MC9S12D64MPV MC9S12D64PVMC9S12D64VFU MC9S12D64VPV ……MC9S12DBXX系列MC9S12DB128BCPV MC9S12DB128BVPV MC9S12DB128BMPV MC9S12DB128MPV MC9S12DB128VPV ……MC9S12DBXX系列MC9S12DB128BCPV MC9S12DB128BVPV MC9S12DB128BMPV MC9S12DB128MPV MC9S12DB128VPV ……MC9S12DGXX系列MC9S12DG128BCFU MC9S12DG128BCPV MC9S12DG128BMFU MC9S12DG128BMPV C9S12DG128BVFU MC9S12DG128BVPV MC9S12DG128CFU MC9S12DG128CPV MC9S12DG128ECFUMC9S12DG128ECPV MC9S12DG128EMFU MC9S12DG128EMPV MC9S12DG128EVFU MC9S12DG128EVPV MC9S12DG128MFU MC9S12DG128MPV MC9S12DG128VFU MC9S12DG128VPVMC9S12DG256BCFU MC9S12DG256BCPV MC9S12DG256BMFU MC9S12DG256BMPV MC9S12DG256BVFU MC9S12DG256BVPV MC9S12DG256CCFU MC9S12DG256CCPV MC9S12DG256CFU MC9S12DG256CMFU MC9S12DG256CMPV MC9S12DG256CPV MC9S12DG256CVFU MC9S12DG256CVPV MC9S12DG256MFU MC9S12DG256MPV MC9S12DG256VFU MC9S12DG256VPVMC9S12DJXX系列MC9S12DJ128BCFU MC9S12DJ128BCPV MC9S12DJ128BMFU MC9S12DJ128BMPV MC9S12DJ128BVFU MC9S12DJ128BVPV MC9S12DJ128CFU MC9S12DJ128CPV MC9S12DJ128ECFUMC9S12DJ128ECPV MC9S12DJ128EMFU MC9S12DJ128EMPV MC9S12DJ128EVFU MC9S12DJ128EVPV MC9S12DJ128MFUMC9S12DJ128MPV MC9S12DJ128VFU MC9S12DJ128VPVMC9S12DJ256BCFU MC9S12DJ256BCPV MC9S12DJ256BMFU MC9S12DJ256BMPV MC9S12DJ256BVFU MC9S12DJ256BVPV MC9S12DJ256CCFU MC9S12DJ256CCPV MC9S12DJ256CFUMC9S12DJ256CMFU MC9S12DJ256CMPV MC9S12DJ256CPVMC9S12DJ256CVFU MC9S12DJ256CVPV MC9S12DJ256MFUMC9S12DJ256MPV MC9S12DJ256VFU MC9S12DJ256VPVMC9S12DJ64CFU MC9S12DJ64CPV MC9S12DJ64FUMC9S12DJ64MFU MC9S12DJ64MPV MC9S12DJ64PVMC9S12DJ64VFU MC9S12DJ64VPV ……MC9S12DPXX系列MC9S12DP256BCPV MC9S12DP256BMPV MC9S12DP256BVPV MC9S12DP256CCPV MC9S12DP256CMPV MC9S12DP256CVPVMC9S12DP256BCPV MC9S12DP256BMPV MC9S12DP256BVPV MC9S12DP256CCPV MC9S12DP256CMPV MC9S12DP256CVPVMC9S12DTXX系列MC9S12DT128BCPV MC9S12DT128BMPV MC9S12DT128BVPV MC9S12DT128CPV MC9S12DT128ECPV MC9S12DT128EMPVMC9S12DT128EVPV MC9S12DT128MPV MC9S12DT128VPVMC9S12DT256BCPV MC9S12DT256BMPV MC9S12DT256BVPV MC9S12DT256CCPV MC9S12DT256CFU MC9S12DT256CMPV MC9S12DT256CPV MC9S12DT256CVPV MC9S12DT256MFUMC9S12DT256MPV MC9S12DT256VFU MC9S12DT256VPVMC9S12EXX系列MC9S12E128CFU MC9S12E128CFUE MC9S12E128CPVMC9S12E128CPVE MC9S12E128MFU MC9S12E128MFUEMC9S12E128MPV MC9S12E128MPVE MC9S12E128VFUMC9S12E128VFUE MC9S12E128VPV MC9S12E128VPVEMC9S12E256CFU MC9S12E256CFUE MC9S12E256CPVMC9S12E256CPVE MC9S12E256MFU MC9S12E256MFUEMC9S12E256MPV MC9S12E256MPVE MC9S12E256VFUMC9S12E256VFU MC9S12E256VPV MC9S12E256VPVEMC9S12E32CFU MC9S12E32CFUE MC9S12E32MFUMC9S12E32MFUE MC9S12E32VFU MC9S12E32VFUEMC9S12E64CFU MC9S12E64CFUE MC9S12E64CPVMC9S12E64CPVE MC9S12E64MFU MC9S12E64MFUEMC9S12E64VPV MC9S12E64MPV MC9S12E64MPVEMC9S12E64VFU MC9S12E64VFUE MC9S12E64VPVEMC9S12GCXX系列MC9S12GC128CFA MC9S12GC128CPB MC9S12GC128MFAMC9S12GC128MFU MC9S12GC128MPB MC9S12GC128VFAMC9S12GC128VFU MC9S12GC128VPB MC9S12GC16CFAMC9S12GC16CFU MC9S12GC16CPB MC9S12GC16MFAMC9S12GC16MFU MC9S12GC16MPB MC9S12GC16VFAMC9S12GC16VFU MC9S12GC16VPB MC9S12GC32CFAMC9S12GC32CFU MC9S12GC32CPB MC9S12GC32MFAMC9S12GC32MFU MC9S12GC32MPB MC9S12GC32VFAMC9S12GC32VFU MC9S12GC32VPB MC9S12GC64CFAMC9S12GC64CFU MC9S12GC64CPB MC9S12GC64MFAMC9S12GC64MFU MC9S12GC64MPB MC9S12GC64VFAMC9S12GC64VFU MC9S12GC64VPB MC9S12GC96CFAMC9S12GC96CFU MC9S12GC96CPB MC9S12GC96MFAMC9S12GC96MFU MC9S12GC96MPB MC9S12GC96VFAMC9S12GC96VFU MC9S12GC96VPB ……MC9S12HN64CAA MC9S12HN64CAL MC9S12HN64CFUMC9S12HN64CPV MC9S12HN64MAA MC9S12HN64MAL MC9S12HN64MFU MC9S12HN64MPV MC9S12HN64VAA MC9S12HN64VAL MC9S12HN64VFU MC9S12HN64VPVMC9S12HZXX系列MC9S12HZ128CAA MC9S12HZ128CAL MC9S12HZ128CFU MC9S12HZ128CPV MC9S12HZ128MAA MC9S12HZ128MAL MC9S12HZ128MFU MC9S12HZ128MPV MC9S12HZ128VAA MC9S12HZ128VAL MC9S12HZ128VFU MC9S12HZ128VPV MC9S12HZ256CAA MC9S12HZ256CAL MC9S12HZ256CFU MC9S12HZ256CPV MC9S12HZ256MAA MC9S12HZ256MAL MC9S12HZ256MFU MC9S12HZ256MPV MC9S12HZ256VAA MC9S12HZ256VAL MC9S12HZ256VFU MC9S12HZ256VPV MC9S12HZ64CAA MC9S12HZ64CAL MC9S12HZ64CFUMC9S12HZ64CPV MC9S12HZ64MAA MC9S12HZ64MALMC9S12HZ64MFU MC9S12HZ64MPV MC9S12HZ64VAAMC9S12HZ64VAL MC9S12HZ64VFU MC9S12HZ64VPVMC9S12KGXX系列MC9S12KG256CFU MC9S12KG256CPV MC9S12KG256MFU MC9S12KG256MPV MC9S12KG256VFU MC9S12KG256VPVMC9S12KTXX系列MC9S12KT256CPV MC9S12KT256MPV MC9S12KT256VPVMC9S12NE64XX系列MC9S12NE64CPV MC9S12NE64CPVE MC9S12NE64VTU MC9S12NE64VTUE ……MC9S12UF32XX系列MC9S12UF32PB MC9S12UF32PBE MC9S12UF32PUMC9S12XAXX系列MC9S12XA128CAA MC9S12XA128CAL MC9S12XA128CFU MC9S12XA128CPV MC9S12XA128MAA MC9S12XA128MAL MC9S12XA128MFU MC9S12XA128MPV MC9S12XA128VAA MC9S12XA128VAL MC9S12XA128VFU MC9S12XA128VPV MC9S12XA256CAA MC9S12XA256CAG MC9S12XA256CAL MC9S12XA256CFU MC9S12XA256CFV MC9S12XA256CPV MC9S12XA256MAA MC9S12XA256MAG MC9S12XA256MAL MC9S12XA256MFU MC9S12XA256MFV MC9S12XA256MPV MC9S12XA256VAA MC9S12XA256VAG MC9S12XA256VAL MC9S12XA256VFU MC9S12XA256VFV MC9S12XA256VPVMC9S12XA512CAA MC9S12XA512CAG MC9S12XA512CALMC9S12XA512CFU MC9S12XA512CFV MC9S12XA512CPVMC9S12XA512MAA MC9S12XA512MAG MC9S12XA512MALMC9S12XA512MFU MC9S12XA512MFV MC9S12XA512MPVMC9S12XA512VAA MC9S12XA512VAG MC9S12XA512VALMC9S12XA512VFU MC9S12XA512VFV MC9S12XA512VPVMC9S12XBXX系列MC9S12XB128CAA MC9S12XB128CA MC9S12XB128CFUMC9S12XB128CPV MC9S12XB128MAA MC9S12XB128MALMC9S12XB128MFU MC9S12XB128MPV MC9S12XB128VAAMC9S12XB128VAL MC9S12XB128VFU MC9S12XB128VPVMC9S12XB256CAA MC9S12XB256CAL MC9S12XB256CFUMC9S12XB256CPV MC9S12XB256MAA MC9S12XB256MALMC9S12XB256MFU MC9S12XB256MPV MC9S12XB256VAAMC9S12XB256VAL MC9S12XB256VFU MC9S12XB256VPVMC9S12XDXX系列MC9S12XD128CAA MC9S12XD128CAL MC9S12XD128CFUMC9S12XD128CPV MC9S12XD128MAA MC9S12XD128MALMC9S12XD128MPV MC9S12XD128VAA MC9S12XD128VALMC9S12XD128VFU MC9S12XD128VPV MC9S12XD256VPVMC9S12XD256CAA MC9S12XD256CAG MC9S12XD256CALMC9S12XD256CFU MC9S12XD256CFV MC9S12XD256CPVMC9S12XD256MAA MC9S12XD256MAG MC9S12XD256MALMC9S12XD256MFU MC9S12XD256MFV MC9S12XD256MPVMC9S12XD256VAA MC9S12XD256VAG MC9S12XD256VALMC9S12XD256VFU MC9S12XD256VFV MC9S12XD64VFUMC9S12XD64CAA MC9S12XD64CFU MC9S12XD64MAAMC9S12XD64MFU MC9S12XD64VAA ……MC9S12XDGXX系列MC9S12XDG128CAA MC9S12XDG128CAL MC9S12XDG128CFU MC9S12XDG128CPV MC9S12XDG128MAA MC9S12XDG128MAL MC9S12XDG128MFU MC9S12XDG128MPV MC9S12XDG128VAA MC9S12XDG128VAL MC9S12XDG128VFU MC9S12XDG128VPVMC9S12XDPXX系列MC9S12XDP512CAG MC9S12XDP512CA MC9S12XDP512CFV MC9S12XDP512CPV MC9S12XDP512MAG MC9S12XDP512MAL MC9S12XDP512MFV MC9S12XDP512MPV MC9S12XDP512VAG MC9S12XDP512VAL MC9S12XDP512VFV MC9S12XDP512VPVMC9S12XDQXX系列MC9S12XDQ256CAA MC9S12XDQ256CAG MC9S12XDQ256CALMC9S12XDQ256CFU MC9S12XDQ256CFV MC9S12XDQ256CPV MC9S12XDQ256MAA MC9S12XDQ256MAG MC9S12XDQ256MAL MC9S12XDQ256MFU MC9S12XDQ256MFV MC9S12XDQ256MPV MC9S12XDQ256VAA MC9S12XDQ256VAG MC9S12XDQ256VAL MC9S12XDQ256VFU MC9S12XDQ256VFV MC9S12XDQ256VPVMC9S12XDTXX系列MC9S12XDT256CAA MC9S12XDT256CAG MC9S12XDT256CAL MC9S12XDT256CFU MC9S12XDT256CFV MC9S12XDT256CPV MC9S12XDT256MAA MC9S12XDT256MAG MC9S12XDT256MAL MC9S12XDT256MFU MC9S12XDT256MFV MC9S12XDT256MPV MC9S12XDT256VAA MC9S12XDT256VAG MC9S12XDT256VA MC9S12XDT256VFU MC9S12XDT256VFV MC9S12XDT256VPV MC9S12XDT384CAA MC9S12XDT384CAG MC9S12XDT384CAL MC9S12XDT384CFV MC9S12XDT384CPU MC9S12XDT384CPV MC9S12XDT384MAA MC9S12XDT384MAG MC9S12XDT384MAL MC9S12XDT384MFV MC9S12XDT384MPU MC9S12XDT384MPV MC9S12XDT384VAA MC9S12XDT384VAG MC9S12XDT384VAL MC9S12XDT384VFV MC9S12XDT384VPU MC9S12XDT384VPV MC9S12XDT512CAA MC9S12XDT512CAG MC9S12XDT512CAL MC9S12XDT512CFU MC9S12XDT512CFV MC9S12XDT512CPV MC9S12XDT512MAA MC9S12XDT512MAG MC9S12XDT512MAL MC9S12XDT512MFU MC9S12XDT512MFV MC9S12XDT512MPV MC9S12XDT512VAA MC9S12XDT512VAG MC9S12XDT512VAL MC9S12XDT512VFU MC9S12XDT512VFV MC9S12XDT512VPVMC9S12XHZXX系列MC9S12XHZ256CAG MC9S12XHZ256CA MC9S12XHZ256MAG MC9S12XHZ256MAL MC9S12XHZ256VAG MC9S12XHZ256VAL MC9S12XHZ384CAG MC9S12XHZ384CAL MC9S12XHZ384MAG MC9S12XHZ384MAL MC9S12XHZ384VAG MC9S12XHZ384VAL MC9S12XHZ512CAG MC9S12XHZ512CAL MC9S12XHZ512MAG MC9S12XHZ512MAL MC9S12XHZ512VAG MC9S12XHZ512VALMCHC908JWXX系列MCHC908JW32FAE MCHC908JW32FC ……DSP56F8XX系列单片机解密(龙人)DSP56F801 DSP56F802 DSP56F803DSP56F805 DSP56F807 DSP56F827DSP56F826 ……P912XDG128XX系列P912XDG128CAA P912XDG128CAA P912XDG128CALP912XDG128CFU P912XDG128CPV P912XDG128MAAP912XDG128MAL P912XDG128MFU P912XDG128MPVP912XDG128VAA P912XDG128VAL P912XDG128VFUP912XDG128VPV ……P9RS08KAXX系列P9RS08KA1CPC P9RS08KA1CSC P9RS08KA2CPCP9RS08KA2CSC ……PC56F80XX系列PC56F8011VFAE PC56F8013VFAE PC56F8014VFAEPC68HC908XX系列PC68HC908GP32 ……PC9S12UFXX系列PC9S12UF32PB PC9S12UF32PBE PC9S12UF32PUPC9S12XFXX系列PC9S12XF128 PC9S12XF256 PC9S12XF384PC9S12XF512 ……PC9S12XHZXX系列PC9S12XHZ256CAG PC9S12XHZ256CAL PC9S12XHZ256MAG PC9S12XHZ256MAL PC9S12XHZ256VAG PC9S12XHZ256VAL PC9S12XHZ384CAG PC9S12XHZ384CAL PC9S12XHZ384MAG PC9S12XHZ384MAL PC9S12XHZ384VAG PC9S12XHZ384VAL PC9S12XHZ512CAG PC9S12XHZ512CAL PC9S12XHZ512MAG PC9S12XHZ512MAL PC9S12XHZ512VAG PC9S12XHZ512VALS9S08AWXX系列S9S08AW16ACFT S9S08AW16ACLS S9S08AW16AMFTS9S08AW16AMLS S9S08AW16AVFT S9S08AW16AVLSS9S08AW8ACFT S9S08AW8ACLS S9S08AW8AMFTS9S08AW8AMLS S9S08AW8AVFT S9S08AW8AVLS11系列motorola单片机解密：MC68HC711系列MC68HC11A8 (AB95T)、MC68HC11A8 (C96N)MC68HC11A8 (D26E)、MC68HC11E20 (3E22B)MC68HC11E9 (1B60R)、MC68HC11E9 (D82R)MC68HC11E9 (E22B)、MC68HC11E9 (E28B)MC68HC11EA9 (2D47J)、MC68HC11F1 (2F37E)MC68HC11F1 (E87J)、MC68HC11K1 (2D58N)MC68HC11K4 (1E62H)、MC68HC11K4 (OE75J)MC68HC11KA4 (1E59B)、MC68HC11KS2 (0H95B)MC68HC11KS4 (0E57S)、MC68HC11KS4 (0F60M)MC68HC711E20 (1H19S)、MC68HC711E9 (4K81H)MC68HC711E9 (5C47M)、MC68HC711EA9 (0D46J)MC68HC711K4 (K59D)、MC68HC711PH8 (0H30R)MC68S711E9 (5C47M)、XC68HC711KS8 (1H96P)MC68HC11P2 (2E74J)、XC68HC711P2 (1E53M)MC68HC705系列MC68HC705C4 (68HC705C4) MC68HC705C4A (68HC705C4A) MC68HC705C8 (68HC705C8) MC68HC705C8A (68HC705C8A) MC68HC705C9 (68HC705C9) MC68HC705C9A (68HC705C9A) MC68HC705SR3 (68HC705SR3) MC68HC705J1A (68HC705J1A) MC68HC705 (68HC705) ……MC68HC705B16 MC68HC705B32MC68HC705X16 MC68HC705X32MC68HC05B6 MC68HC05B8MC68HC05B16 MC68HC05B32MC68HC05X16 MC68HC05X32MC68HC05H12(0H57A) ……MC68HC908系列MC68HC908AZ60(2J74Y) MC68HC908AZ60(4J74Y)MC68HC908AZ60A(3K85K) MC68HC908AS60(3J74Y)MC68HC908AS60A(1L87J) MC68HC908AB32(3K56G)MC68HC08AZ60(1J35D) MC68HC08AZ32(0J66D)MC68HC08AZ32(1H56A) MC68HC08AS20(0H94K)MC68HC08AZ32A(1L52H) ……MC68HC912系列MC68HC912DC128A(3K91D) MC68HC912DC128(0K50E)MC68HC912DG128(5H55W) MC68HC912DG128A(3K91D)MC68HC912DG128(0K50E) MC68HC912D60A(2K38K)MC68HC912D60(0K75F) MC68HC912D60(0K13J)MC68HC912D60(4F73K) MC68HC912B32(4J54E)MC68HC912B32(9H91F) MC9S12DG128B(0L85DMC68HC9S12系列MC9S12DT128B(0L85D) MC9S12A128B(0L85D)MC9S12DB128B(0L85D) MC9S12DT128B(1L85D)MC9S12DG256C(2K79X) MC9S12DT256C(2K79X)MC9S12H128(1K78X) MC9S12H256(1K78X)MC9S12DP256C(2K79X) MC9S12DT128B(3L40K)MC9S12DP512(1L00M) ……【责任编辑：hailee 文章来源：】。

IC卡基础知识培训教材第一章IC卡基础知识一、射频卡的一些基础知识（一）频率（f）1、物理中频率的单位是赫兹（Hz），简称赫。

2、频率单位：赫(Hz)、千赫（KHz）、兆赫（MHz）、吉赫（GHz）等。

3、单位换算：1KHz=1000Hz1MHz=1000KHz=1000000Hz1GHz=1000000KHz（二）常见射频卡的频率1、射频卡，学名叫“非接触式卡”。

虽然有的人把射频卡叫做IC 卡，但因为接触式IC卡也叫IC卡，同时射频IC卡一般指指高频卡，而ID卡习惯叫低频卡，所以还是把非接触式的芯片卡叫为射频卡或非接触式卡来得直接一些。

2、典型的射频卡按戴波频率分为低频射频卡、高频射频卡、超高频射频卡和微波射频卡。

①、低频射频卡的频率为125~134.2KHz（单位：千赫），也称低频率（LF），如EM4100型号的ID卡、T5557卡、EM4305、TI的RI-TRP-R4FF低频只读卡、TI的RI-TEP-W4FF 低频读写卡、HID1326低频薄卡等。

一般为无源被动卡（卡内没有装电池）。

②、高频射频卡的频率为13.56MHz（单位：兆赫），也称高频率（HF），如MF1卡、I-CODE-II卡。

一般为无源卡。

一般为无源被动卡（卡内没有装电池）。

③、超高频射频卡的频率为433.92MHz（单位：兆赫），也称超高频的频率（超高频），如UCODE卡。

433.92MHz一般为有源主动卡（卡内装电池），860~960MHz一般为无源被动卡（卡内没有电池）。

[备注：国内超高频卡与无线电频带的叫法有一定区别。

]④、微波卡的频率为2.45GHz、5.8GHz（单位：吉赫或千兆赫兹），也称微波（uW），如EM4122中的一种微波卡。

2.45GHz、5.8GHz一般为有源主动卡（卡内装电池）。

[备注，微波卡与无线电频带的叫法有一定区别。

]⑤、另有些实验性的射频卡频率：27.125Hz、40.68MHz、24.125GHz等。

PRECHARGE OperationInput A10 determines whether one bank or all banks are to be precharged and, in thecase where only one bank is to be precharged, inputs BA[2:0] select the bank.When all banks are to be precharged, inputs BA[2:0] are treated as “Don’t Care.” After abank is precharged, it is in the idle state and must be activated prior to any READ orWRITE commands being issued.SELF REFRESH OperationThe SELF REFRESH operation is initiated like a REFRESH command except CKE is LOW.The DLL is automatically disabled upon entering SELF REFRESH and is automaticallyenabled and reset upon exiting SELF REFRESH.All power supply inputs (including V REFCA and V REFDQ) must be maintained at valid lev-els upon entry/exit and during self refresh mode operation. V REFDQ may float or notdrive V DDQ/2 while in self refresh mode under certain conditions:•V SS < V REFDQ < V DD is maintained.•V REFDQ is valid and stable prior to CKE going back HIGH.•The first WRITE operation may not occur earlier than 512 clocks after V REFDQ is valid.•All other self refresh mode exit timing requirements are met.The DRAM must be idle with all banks in the precharge state (t RP is satisfied and nobursts are in progress) before a self refresh entry command can be issued. ODT mustalso be turned off before self refresh entry by registering the ODT ball LOW prior to theself refresh entry command (see On-Die Termination (ODT) ( for timing requirements).If R TT,nom and R TT(WR) are disabled in the mode registers, ODT can be a “Don’t Care.”After the self refresh entry command is registered, CKE must be held LOW to keep theDRAM in self refresh mode.After the DRAM has entered self refresh mode, all external control signals, except CKEand RESET#, are “Don’t Care.” The DRAM initiates a minimum of one REFRESH com-mand internally within the t CKE period when it enters self refresh mode.The requirements for entering and exiting self refresh mode depend on the state of theclock during self refresh mode. First and foremost, the clock must be stable (meetingt CK specifications) when self refresh mode is entered. If the clock remains stable andthe frequency is not altered while in self refresh mode, then the DRAM is allowed to exitself refresh mode after t CKESR is satisfied (CKE is allowed to transition HIGH t CKESRlater than when CKE was registered LOW). Since the clock remains stable in self refreshmode (no frequency change), t CKSRE and t CKSRX are not required. However, if theclock is altered during self refresh mode (if it is turned-off or its frequency changes),then t CKSRE and t CKSRX must be satisfied. When entering self refresh mode, t CKSREmust be satisfied prior to altering the clock's frequency. Prior to exiting self refreshmode, t CKSRX must be satisfied prior to registering CKE HIGH.When CKE is HIGH during self refresh exit, NOP or DES must be issued for t XS time. t XSis required for the completion of any internal refresh already in progress and must besatisfied before a valid command not requiring a locked DLL can be issued to the de-vice. t XS is also the earliest time self refresh re-entry may occur. Before a command re-quiring a locked DLL can be applied, a ZQCL command must be issued, t ZQOPER tim-ing must be met, and t XSDLL must be satisfied. ODT must be off during t XSDLL.Figure 93: Self Refresh Entry/Exit TimingCKCK#CommandAddressCKEODT 2RESET#2Exit self refresh mode (asynchronous)Don’t CareIndicates breakin time scale Notes: 1.The clock must be valid and stable, meeting t CK specifications at least t CKSRE after en-tering self refresh mode, and at least t CKSRX prior to exiting self refresh mode, if the clock is stopped or altered between states Ta0 and Tb0. If the clock remains valid and unchanged from entry and during self refresh mode, then t CKSRE and t CKSRX do not apply; however, t CKESR must be satisfied prior to exiting at SRX.2.ODT must be disabled and R TT off prior to entering self refresh at state T1. If both R TT,nom and R TT(WR) are disabled in the mode registers, ODT can be a “Don’t Care.”3.Self refresh entry (SRE) is synchronous via a REFRESH command with CKE LOW.4. A NOP or DES command is required at T2 after the SRE command is issued prior to the inputs becoming “Don’t Care.”5.NOP or DES commands are required prior to exiting self refresh mode until state Te0.6.t XS is required before any commands not requiring a locked DLL.7.t XSDLL is required before any commands requiring a locked DLL.8.The device must be in the all banks idle state prior to entering self refresh mode. For example, all banks must be precharged, t RP must be met, and no data bursts can be in progress.9.Self refresh exit is asynchronous; however, t XS and t XSDLL timings start at the first rising clock edge where CKE HIGH satisfies t ISXR at Tc1. t CKSRX timing is also measured so that t ISXR is satisfied at Tc1.Extended Temperature UsageMicron’s DDR3 SDRAM support the optional extended case temperature (T C) range of0°C to 95°C. Thus, the SRT and ASR options must be used at a minimum.The extended temperature range DRAM must be refreshed externally at 2x (double re-fresh) anytime the case temperature is above 85°C (and does not exceed 95°C). The ex-ternal refresh requirement is accomplished by reducing the refresh period from 64ms to32ms. However, self refresh mode requires either ASR or SRT to support the extendedtemperature. Thus, either ASR or SRT must be enabled when T C is above 85°C or selfrefresh cannot be used until T C is at or below 85°C. Table 75 summarizes the two exten-ded temperature options and Table 76 summarizes how the two extended temperatureoptions relate to one another.Table 75: Self Refresh Temperature and Auto Self Refresh DescriptionTable 76: Self Refresh Mode SummaryPower-Down ModePower-down is synchronously entered when CKE is registered LOW coincident with aNOP or DES command. CKE is not allowed to go LOW while an MRS, MPR, ZQCAL,READ, or WRITE operation is in progress. CKE is allowed to go LOW while any of theother legal operations (such as ROW ACTIVATION, PRECHARGE, auto precharge, or RE-FRESH) are in progress. However, the power-down I DD specifications are not applicableuntil such operations have completed. Depending on the previous DRAM state and thecommand issued prior to CKE going LOW, certain timing constraints must be satisfied(as noted in Table 77). Timing diagrams detailing the different power-down mode entryand exits are shown in Figure 94 (page 176) through Figure 103 (page 180).Table 77: Command to Power-Down Entry ParametersNote: 1.If slow-exit mode precharge power-down is enabled and entered, ODT becomes asyn-chronous t ANPD prior to CKE going LOW and remains asynchronous until t ANPD +t XPDLL after CKE goes HIGH.Entering power-down disables the input and output buffers, excluding CK, CK#, ODT,CKE, and RESET#. NOP or DES commands are required until t CPDED has been satis-fied, at which time all specified input/output buffers are disabled. The DLL should be ina locked state when power-down is entered for the fastest power-down exit timing. Ifthe DLL is not locked during power-down entry, the DLL must be reset after exitingpower-down mode for proper READ operation as well as synchronous ODT operation.During power-down entry, if any bank remains open after all in-progress commands arecomplete, the DRAM will be in active power-down mode. If all banks are closed after allin-progress commands are complete, the DRAM will be in precharge power-downmode. Precharge power-down mode must be programmed to exit with either a slow exitmode or a fast exit mode. When entering precharge power-down mode, the DLL isturned off in slow exit mode or kept on in fast exit mode.The DLL also remains on when entering active power-down. ODT has special timingconstraints when slow exit mode precharge power-down is enabled and entered. Referto Asynchronous ODT Mode (page 197) for detailed ODT usage requirements in slowexit mode precharge power-down. A summary of the two power-down modes is listed inTable 78 (page 175).While in either power-down state, CKE is held LOW, RESET# is held HIGH, and a stableclock signal must be maintained. ODT must be in a valid state but all other input signalsare “Don’t Care.” If RESET# goes LOW during power-down, the DRAM will switch out ofpower-down mode and go into the reset state. After CKE is registered LOW, CKE mustremain LOW until t PD (MIN) has been satisfied. The maximum time allowed for power-down duration is t PD (MAX) (9 × t REFI).The power-down states are synchronously exited when CKE is registered HIGH (with arequired NOP or DES command). CKE must be maintained HIGH until t CKE has beensatisfied. A valid, executable command may be applied after power-down exit latency,t XP, and t XPDLL have been satisfied. A summary of the power-down modes is listed be-low.For specific CKE-intensive operations, such as repeating a power-down-exit-to-refresh-to-power-down-entry sequence, the number of clock cycles between power-down exitand power-down entry may not be sufficient to keep the DLL properly updated. In addi-tion to meeting t PD when the REFRESH command is used between power-down exitand power-down entry, two other conditions must be met. First, t XP must be satisfiedbefore issuing the REFRESH command. Second, t XPDLL must be satisfied before thenext power-down may be entered. An example is shown in Figure 104 (page 181).Table 78: Power-Down Modes。

Introducing the W Family……Introducing the W Family1The The ““W ” Standard Memory Family 4Kb 16Kb 64Kb 256KbP a r a l l e lS P II 2C FM24CL043V 4Kb FM24CL043V 4Kb FM24C04A5V 4Kb FM24C04A 5V 4Kb FM24W043 – 5V 4KbFM24CL163V 16Kb FM24CL163V 16Kb FM24C16A5V 16Kb FM24C16A 5V 16Kb FM24W163 – 5V 16KbFM24CL643V 16Kb FM24CL643V 16Kb FM24C645V 16Kb FM24C645V 16Kb FM24W643 – 5V 64KbFM24L2563V 256Kb FM24L2563V 256Kb FM24C2565V 256Kb FM24C2565V 256Kb FM24W2563 – 5V 256Kb FM25L643V 16Kb FM25L643V 16Kb FM25C645V 16Kb FM25C645V 16Kb FM25W643 – 5V 64Kb FM25L256B 3V 256Kb FM25L256B 3V 256Kb FM25256B 5V 256Kb FM25256B 5V 256Kb FM25W2563 – 5V 256Kb FM16085V 8Kx8FM16085V 8Kx8FM16W083 – 5V 8Kx8FM18L083V 32Kx8FM18L083V 32Kx8FM18085V 32Kx8FM18085V 32Kx8FM18W083 – 5V 32Kx8Existing 5V Existin g 5V Existi ng 3VExisti ng 3V FM25L043V 4KbFM25L043V 4Kb FM25040A 5V 4Kb FM25040A 5V 4Kb FM25W043 – 5V 4Kb FM25L163V 16KbFM25L163V 16Kb FM25C1605V 16Kb FM25C1605V 16Kb FM25W163 – 5V 16Kb Copyright © 2010. Ramtron International Corp. All rights reserved.Valve Proposition of the W Family3Stable supply and long term supportImproved system performance Minimizes the number ofparts stockedWide Operating VoltageImproved Power-up TimeImproved V DD Rise &Fall timeImproved mid density parts standby currentKey Features ImprovedKey AdvantagesRamtronWFamilyRamtron W Family Ramtro n5VParal lelRamtro n 5V Paral lel Ramtro n3VParal lelRamtro n 3V Paral lel Ramtron5VSPIRamtro n 5V SPI Ramtron3VSPI Ramtro n 3V SPI Ramtron5VI 2C Ramtro n 5V I 2C Ramtro n3V I 2C Ramtro n 3V I 2C W-Family covers six standard F-RAM sub-families with better system performance,minimized inventory , and stable supplyCopyright © 2010. Ramtron International Corp. All rights reserved.Foundry Transfer Part Cross Reference Table4FM20L08FM25L512FM1808FM18L08FM25256B FM25L256B FM24C256 FM24L256FM1608FM25640FM25CL64FM24C64FM24CL64FM24CL32FM25C160FM25L16FM24C16A FM24CL16FM25040A FM25L04FM24C04A FM24CL04FM25L512FM1808FM18L08FM25256B FM25L256B FM24C256 FM24L256FM1608FM25640FM25CL64FM24C64FM24CL64FM24CL32FM25C160FM25L16FM24C16A FM24CL16FM25040A FM25L04FM24C04A FM24CL04Pre-TransitionDevicesNew W-FamilyDevicesExisting V-Family DevicesIBM-Sourced DevicesFM18W08 FM25W256FM24W256FM16W08 FM25W64FM24W64FM25W16FM24W16FM25W04FM24W04FM28V100FM25V(N)10FM24V(N)10FM25V(N)05FM24V(N)05FM28V020FM25V(N)02 FM24V(N)02FM28V010FM25V(N)01FM24V(N)011Mb512Kb256Kb 128Kb64Kb 32Kb16Kb4Kb Parallel SPII 2CCopyright © 2010. Ramtron International Corp. All rights reserved.64Kbit and Below Serial5DesignConsiderati onsPre-TransitionDevicesFM24C04A, FM24CL04, FM24C16A, FM24CL16, FM24CL32*, FM24C64, FM24CL64, FM25040A, FM25L04, FM25C160, FM25L16, FM25640,FM25CL64W Family -New FM2xW04FM2xW16FM2xW64V Family - Existing IBM-SourcedReplacement s(Form Fitand Function Equivalent to Pre-Transition Devices)Standby Current 1µA (3V)10µA (5V)3µA (3V)10µA (5V)NATBDOperating Voltage Range2.7 –3.6V4.5 –5.5V 2.7 – 5.5V Same as Pre-Transition DevicesAccess/Cycl e Time 1MHz (IIC)20MHz (SPI)1MHz (IIC)20MHz (SPI)tPU Power Up to First Access Not Specified 150µS V DD Rise Not Specified 30µS/V *: Standby Current: 12µA, tPU Power Up to First Access = 5mS. Copyright © 2010. Ramtron International Corp. All rights reserved.256Kbit Serial6DesignConsiderati onsPre-Transition Devices FM24C256, FM24L256, FM25256B, FM25L256B, FM24C512, FM25L512W Family - NewFM2xW256V Family - Existing FM2xV01FM2xV02FM2xV05FM2xV10IBM-Sourced Replacements(Form Fitand Function Equivalent to Pre-Transition Devices)Standby Current 12µA (3V)150µA (5V)10µA (3V)20µA (5V)150µA TBDOperating Voltage Range2.7 –3.6V4.5 –5.5V 2.7 – 5.5V2.0 –3.6VSame as Pre-Transition Devices Access/Cycl e Time 1MHz (IIC)20MHz (SPI)1MHz (IIC)20MHz (SPI) 3.4MHz (IIC)40MHz (SPI)tPU Power Up to First Access 5mS (IIC)10mS (SPI) 150µS 250µS Copyright © 2010. Ramtron International Corp. All rights reserved.Parallel7DesignConsiderati onsPre-Transition Devices FM1608, FM1808, FM18L08, FM20L08W Family -New FM16W08FM18W08V Family - Existing FM28V020FM28V100IBM-Sourced Replacements Form Fit and Function Equivalent toPre-Transition Devices)Standby Current 15µA (3V)20µA (5V)15µA (3V)20µA (5V)150µA TBDOperating Voltage Range2.7 –3.6V4.5 –5.5V 2.7 – 5.5V2.0 –3.6VSame as Pre-Transition DevicesAccess/Cycl e Time (ns)120/180 (1608)70/130 (1808)70/140 (18L08)70/13060/90tPU Power Up to First Access 1µS150µS 250µS V DD Rise Not Specified 30µS/V 50µS/VPackage and Ordering Code8FM xx X xxx - XXParallel Memory •16= Parallel 64Kb •18 = Parallel 256Kb •25 = SPI •24 = I 2C •W Vdd= 2.7 – 5.5V •(C)L Vdd= 2.7 – 3.6V• VVdd= 2.0 – 3.6VSerial Memory •04 = 4Kbits •16 = 16Kbits •32 = 32Kbits •64 = 64Kbits •256 = 256KbitsParallel Memory •08 = x8 bits •16 = x16 bits PackageG = SOIC RoHS EG = EIAJ RoHSSG = SOIC Parallel RoHSCopyright © 2010. Ramtron International Corp. All rights reserved.Launch Checklist9Launch: samplesarrive at the sales offices Design/Tape Out FabricationAssembly & Test•Product sales presentation•Data sheet/product brief poste d on GSS•Establish pricing Establish pricing –– update pr ice list •Application note•White paper published on GSS•Web banner ads developed •CRM sample entry supported•Update product shortform, flyers.•Arrange sampling inventory along with flyers2Q 2010 3Q 2010 Q4 2010 Q1 2011•Product announcement on Ramtron website •Datasheet live on Ramtron website •Press releaseQualification•ESD, latch-up report completed •500 hours RTN/HTOL completed•3 lots characterization completedCopyright © 2010. Ramtron International Corp. All rights reserved.Tools You can Use10Global Sales Support Sitehttp://ramtron.securesp •Sales Presentations •Target Application Notes•Advertising Materials •Webinar Materials •Literature Download •Product Web LinkCopyright © 2010. Ramtron International Corp. All rights reserved.。

13.56MHz 8Kbits非接触RFID芯片TKS50应用指南2009.6中山达华智能科技股份有限公司------------------------------------------------------------------------版权申明：本文档中包含的信息为中山达华智能科技股份有限公司所有。

未经本公司书面许可，不得擅自复制本文档中的内容。

本公司保留不经事先通知而改变本文档信息的权利。

一、 芯片技术说明(一)概述TKS50，是一款非接触加密存储卡芯片，由射频通讯接口、安全控制单元和 8K Bit EEPROM 组成，读写距离10cm。

主要适用于各种证件、电子钱包、自动收费系统和公共交通自动售检票系统等领域。

该芯片支持 ISO14443 TypeA 射频接口，完全支持 NXP 非接触标准读卡系统的 Reader Ics 芯片，如：MF-RC500、MF-RC522、MF- RC523、MF-RC530、MF-RC531、CL-RC632等。

TKS50 芯片是集众多功能类似 S50 的 RFID 芯片制造商之优点，尽力在设计上免除存在的缺点：例如全球同类芯片的低价位；优异电气性能如长期使用稳定性；对市面各种读头机具的宽范围兼容性；低功耗高灵敏远距离读写特性；用户容易初始化使用无盲区；高可靠长寿命等等。

并经过调研和结合目前市场对该芯片的旺盛需求，在经过近一年的努力改进设计而面世的一款高性能的 ISO14443 TypeA 协议的应用芯片。

(二) 产品特点1 、RF 接口（ISO/IEC 14443 Type A）◆芯片无需电池，数据和电源能量的提供通过无线传输；◆操作距离：最大达到100 毫米（取决于天线）；◆工作温度：-20℃至50℃◆操作频率： 13.56 MHz；◆数据传输速率：106 kbit/s；◆防冲突：可处理同一时间多张卡进入场区的情况；◆数据完整性：防冲突机制；每块有16位CRC检验；每字节有奇偶校验位；检查位数；用编码方式来区分l、0或无信息；信道监测(通过协议顺序和位流分析)。

非接触式IC卡详解一、非接触式IC卡种类IC卡（按接口方式：接触式，非接触式，双界面卡）；（根据内嵌IC：存储器卡，逻辑加密卡，CPU卡）1、逻辑加密卡非加密存储器卡：卡内的集成电路芯片主要是EEPROM，具有数据存储功能，不具有数据处理功能和硬件加密功能。

逻辑加密存储卡：在非加密存储卡的基础上增加了加密逻辑电路，加密逻辑电路通过效验密码方式来保护卡内的数据对于外部访问是否开放，但是是低层次的安全保护，无法防范恶意性的攻击。

2、CPU卡也称智能卡，卡内的集成电路中带有微处理器CPU、存储单元（包括随机存储器RAM、程序存储器ROM(FLASH)、用户数据存储器EEPROM）以及芯片操作系统COS。

装有COS 的CPU卡相当于一台微型计算机，不仅具有数据存储功能，同时具有命令处理和数据安全保护等功能。

3、双界面卡◆双界面卡定义双界面CPU卡(TimeCOS/DI)是基于单芯片的、集接触式与非接触式接口为一体的智能卡，这两种接口共享同一个微处理器、操作系统和EEPROM。

卡片包括一个微处理器芯片和一个与微处理器相连的天线线圈，由读写器产生的电磁场提供能量，通过射频方式实现能量供应和数据传输。

◆产品型号目前，TimeCOS/DI卡有两种：一种是基于飞利浦公司的Mifare PRO—MF2ICD80双接口芯片开发的，其接触部分符合ISO7816和《中国金融集成电路IC卡规范》的要求，非接触部分符合ISO14443规范中的TYPE A类标准。

另一种是即将推出的基于西门子公司的SLE66CLXX系列双接口芯片开发的，接触部分符合ISO7816和《中国金融集成电路IC卡规范》，非接触部分支持ISO14443—TYPE A或TYPE B的双界面卡。

卡片容量有8K BYTE 、16K BYTE可选。

◆产品参数芯片技术性能参数双界面卡的优势i) 一卡多用、一卡通用：卡片支持多应用：一张卡片可以集成多个不同应用多行业、多应用同时发卡。