AT90CAN32_08中文资料

型 号产 品 描 述文 档RoHS I/O 口工 作 温 度IC AVR MCU FLASH 8K 24SOIC 下 载否19-40°C ~ 105°C IC MCU AVR 8K FLASH ISP 32QFN 下 载否20-40°C ~ 105°C 下 载MCU AVR 16K FLASH 16MHZ24SOIC 下 载否19-40°C ~ 105°C SOIC下 载MCU AVR 8K FLASH 16MHZ 32-QFN 下 载否27-40°C ~ 105°C MCU AVR USB 8K FLASH 32-QFN 下 载否22-40°C ~ 85°C MCU AVR 8K FLASH 16MHA 32SOIC 下 载否27-40°C ~ 105°C IC MCU AVR 8K FLASH ISP 32QFN 下 载否20-40°C ~ 105°C IC MCU AVR 8K FLASH ISP 20SOIC 下 载否16-40°C ~ 105°C MCU AVR 8K FLASH 16MHZ 32-QFN 下 载否27-40°C ~ 105°C MCU AVR 16K FLASH 16MHZ 32-QFN 下 载否27-40°C ~ 105°C IC AVR MCU FLASH 8K 32SOIC 下 载否27-40°C ~ 105°C IC AVR MCU 16K FLASH 32TQFP下 载否22-40°C ~ 85°C 下 载IC AVR MCU 16K FLASH 32TQFP 下 载是22-40°C ~ 85°C MCU AVR 16K FLASH 16MHZ 32-下 载否27-40°C ~ 105°C MCU AVR 16K FLASH 16MHZ 32-SOIC下 载否27-40°C ~ 105°C QFN 下 载MCU AVR USB 16K FLASH 32-TQFP 下 载否22-40°C ~ 85°C 型 号产 品 描 述文 档RoHS I/O 口工 作 温 度TQFP 下 载否53-40°C ~ 85°C MCU AVR 64K FLASH 16MHZ 下 载否48-40°C ~ 85°C 下 载MCU AVR 64K FLASH 16MHZ 64TQFP 下 载否53-40°C ~ 85°C 64TQFP 下 载MCU AVR 64K FLASH 16MHZ 64QFN 下 载否48-40°C ~ 85°C 64TQFP 下 载否48-40°C ~ 85°C MCU AVR 128K FLASH 16MHZ 下 载否48-40°C ~ 85°C 下 载IC MCU AVR 128K FLASH 64TQFP 下 载否53-40°C ~ 85°C IC MCU AVR 32K FLASH 64-TQFP下 载否53-40°C ~ 85°Cicbom-电子元气价格查询网站---Atmel > AT90系列单片机AT90CAN128-16AUR AT90CAN32-16AUAT90CAN64-16AUR AT90USB647-AUR AT90USB647-MUR AT90USB1286-AUR AT90USB1286-MUR AT90CAN128-16MUR AT90PWM3B-16MU AT90USB162-16AUAT90CAN32-16AURAT90USB646-AUR AT90USB646-MUR AT90USB162-16AUR AT90PWM316-16MUR AT90PWM316-16SUR AT90USB82-16MUR AT90PWM3B-16SUR AT90PWM81-16MF AT90PWM81-16SF AT90PWM3-16MQT AT90PWM316-16MU AT90PWM2-16SQ AT90PWM81-16MN AT90PWM81-16SN AT90PWM216-16SUR AT90PWM2-16SQR AT90PWM3B-16MUR AT90PWM3-16SQ AT90USB162-16AUR AT90USB162-16AURIC MCU AVR 64K FLASH 64-TQFP 下 载否53-40°C ~ 85°C MCU AVR 64K FLASH 15MHZ 64-QFN下 载否53-40°C ~ 85°C MCU AVR 32K FLASH 15MHZ 64-QFN下 载否53-40°C ~ 85°C SOIC 下 载是27-40°C ~ 105°C MCU AVR 16K ISP FLSH下 载是27-40°C ~ 105°C AT90PWM316-16SU AT90CAN32-15MT AT90PWM3B-16SU AT90CAN64-15MT AT90CAN64-16AUIC AVR MCU 16K FLASH 32QFN 下 载是22-40°C ~ 85°C IC MCU 4K FLSH 4MHZ LV IT 40DIP 下 载否32-40°C ~ 85°C IC MCU 4K FLSH 8MHZ IT 44TQFP 下 载否32-40°C ~ 85°C AT90S4414-8AI AT90S4414-4PI AT90USB162-16MUR价格$0.85 $1.08 $1.10 $1.12 $0.88$1.18 $0.92 $0.92 $0.98 $0.96 $1.07$1.18 $1.21 $1.12$1.23$1.02$2.00 $1.56价格$2.00 $2.50 $2.24 $2.42 $2.68 $2.54 $3.13 $2.90 $2.88$3.56 $3.82$3.82$3.69 $3.47 $4.55$4.55 $4.85 $5.64 $6.14价格$6.31 $5.52 $6.21 $6.58 $6.88 $5.62 $7.10 $7.00$6.90$6.51 $7.21 $6.80 $7.93 $8.49 $8.52 $10.73 $9.96 $11.05价格$0.97 $5.31 $1.83 $1.80 $1.72 $1.86 $1.56$2.12 $3.98 $3.48 $1.16$1.89价格$0.88 $0.91 $0.98 $0.99。

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我司提供A VR mkii仿真下载器|A VR编程烧录器的中文版本使用说明书，用户也可根据需要参考A VRstudio中help文档的英文使用说明。

Features•Protocol–USB Used as Physical Layer–Device Firmware Upgrade Class Compliant–USB Clock Auto-Configuration•In-System Programming–Read/Write Flash and EEPROM Memories–Read Device ID–Full-chip Erase–Read/Write Configuration Bytes–Security Setting from ISP Command–Remote Application Start Command•In-Application Programming/Self Programming (IAP)–Read/Write Flash and EEPROM Memories–Read Device ID–Block Erase–Read/Write Configuration Bytes–Bootloader StartDescriptionThis document describes the USB bootloader functionalities as well as the USB proto-col to efficiently perform operations on the on-chip Flash (EEPROM) memories. Additional information on the AT89C5131A product can be found in the AT89C5131A datasheet and the AT89C5131A errata sheet available on the Atmel web site.The bootloader software package (binary) currently used for production is available from the Atmel web site.Bootloader Revision Purpose of Modifications DateRevision 1.0.2 First release25/03/2003 Revision 1.2.0Bootloader improvement20/03/200724287E–USB–04/08AT89C5131A USB BootloaderFunctional DescriptionThe AT89C5131A bootloader facilitates In-System Programming and In-Application Programming.In-System Programming Capability (IAP)In-System Programming allows the user to program or reprogram a microcontroller on-chip Flash memory without removing it from the system and without the need of a pre-programmed application.The USB bootloader can manage a communication with a host through the USB bus. It can also access and perform requested operations on the on-chip Flash memory.In-Application Programming or Self Programming Capability (ISP)In-Application Programming (IAP) allows the reprogramming of a microcontroller on-chip Flash memory without removing it from the system and while the embedded application is running.The USB bootloader contains some Application Programming Interface routines named API rou-tines that allow IAP by using the user’s firmware.Block DiagramThis section describes the different parts of the bootloader. Figure 1 shows the on-chip boot-loader and IAP processes.Figure 1. Bootloader Process DescriptionISP CommunicationManagementUser ApplicationUSB Protocol CommunicationManagementFlash MemoryExternal Host Via theFlash Memory IAP ManagementUser Call On-chip34287E–USB–04/08AT89C5131A USB BootloaderISP Communication ManagementThe purpose of this process is to manage the communication and its protocol between the on-chip bootloader and an external device (host). The on-chip bootloader implements a USB proto-col (see section “Protocol”). This process translates serial communication frames (USB) into Flash memory accesses (read, write, erase...).User Call Management Several Application Program Interface (API) calls are available to the application program toselectively erase and program Flash pages. All calls are made through a common interface (API calls) included in the bootloader. The purpose of this process is to translate the application request into internal Flash memory operations.Flash Memory ManagementThis process manages low level access to the Flash memory (performs read and write access).Bootloader ConfigurationConfiguration and Manufacturer InformationThe table below lists Configuration and Manufacturer byte information used by the bootloader.This information can be accessed through a set of API or ISP commands.Mnemonic Description Default ValueBSB Boot Status Byte FFh SBV Software Boot Vector FCh SSB Software Security Byte FFh EB Extra ByteFFh P1_CF Port 1 Configuration FEh P3_CF Port 3 Configuration FFh P4_CF Port 4 ConfigurationFFh Manufacturer 58h Id1: Family code D7h Id2: Product Name F7h Id3: Product RevisionDFh44287E–USB–04/08AT89C5131A USB BootloaderMapping and Default Value of Hardware Security Byte The 4 MSB of the Hardware Byte can be read/written by software (this area is called Fuse bits).The 4 LSB can only be read by software and written by hardware in parallel mode (with parallel programmer devices).Note:U: Unprogrammed = 1P: Program = 0SecurityThe bootloader has Software Security Byte (SSB) to protect itself from user access or ISP access.The Software Security Byte (SSB) protects from ISP accesses. The command "Program Soft-ware Security Bit" can only write a higher priority level. There are three levels of security:•Level 0: NO_SECURITY (FFh)This is the default level.From level 0, one can write level 1 or level 2.•Level 1: WRITE_SECURITY (FEh)In this level it is impossible to write in the Flash memory.The Bootloader returns an err_WRITE status.From level 1, one can write only level 2.•Level 2: RD_WR_SECURITY (FCh)Level 2 forbids all read and write accesses to/from the Flash memory.The Bootloader returns an err_WRITE or an err_VENDOR status.Only a full chip erase command can reset the software security bits.Bit PositionMnemonicDefault ValueDescription 7X2B U To start in x1 mode6BLJB P To map the boot area in code area between F800h-FFFFh 5OSCON1U Oscillator control (bit 1)4OSCON0U Oscillator control (bit 0)3reserved U 2LB2P To lock the chip (see datasheet)1LB1U 0LB0ULevel 0Level 1Level 2Flash/EEPROM Any access allowed Read only access allowed All access not allowed Fuse bitAny access allowed Read only access allowed All access not allowed BSB & SBV & EB Any access allowed Any access allowed Any access allowed SSBAny access allowed Write level2 allowed Read only access allowed Manufacturer info Read only access allowed Read only access allowed Read only access allowed Bootloader info Read only access allowed Read only access allowed Read only access allowed Erase block Allowed Not allowed Not allowed Full chip erase Allowed Allowed Allowed Blank CheckAllowedAllowedAllowed54287E–USB–04/08AT89C5131A USB BootloaderIn-System ProgrammingISP allows the user to program or reprogram a microcontroller’s on-chip Flash memory through the USB bus without removing it from the system and without the need of a pre-programmed application.This section describes how to start the USB bootloader and the higher level protocol over the USB.Boot ProcessThe bootloader can be activated in two ways: •Hardware conditions •Regular boot processFigure 3 and Figure 4 describe the boot process flows for low pin count and high pin count products.High Pin CountHardware ConditionsThe Hardware conditions (EA = 1, PSEN = 0) during the RESET rising edge force the on-chip bootloader execution. In this way the bootloader can be carried out regardless of the user Flash memory content. It is recommended to pull the PSEN pin down to ground though a 1K resistor to prevent the PSEN pin from being damaged (see Figure 2 below).Figure 2. ISP Hardware conditionsAs PSEN is an output port in normal operating mode (running user application or bootloader code) after reset, it is recommended to release PSEN after rising edge of reset signal. The hard-ware conditions are sampled at reset signal rising edge, thus they can be released at any time when reset input is high.Low Pin CountHardware ConditionsThe Hardware Condition forces the bootloader execution from reset.The default factory Hardware Condition is assigned to port P1.•P1 must be equal to FEhIn order to offer the best flexibility, the user can define its own Hardware Condition on one of the following Ports:•Port1ALEEAVCC/PSENRSTGND1K UnconnectedVCCVSS VCCGNDGND C1C2CrystalGND XTAL2XTAL1Bootloader64287E–USB–04/08AT89C5131A USB Bootloader•Port3•Port4 (only bit0 and bit1)The Hardware Condition configuration are stored in three bytes called P1_CF, P3_CF, P4_CF.These bytes can be modified by the user through a set of API or through an ISP command. There is a priority between P1_CF, P3_CF and P4_CF (see Figure 4 on page 9).Note:The BLJB must be at 0 (programmed) to be able to restart the bootloader.If the BLJB is equal to 1 (unprogrammed) only the hardware parallel programmer can change this bit (see AT89C5131A datasheet for more details).74287E–USB–04/08AT89C5131A USB BootloaderSoftware Boot VectorThe default value [FF]00h is used in ISP mode. The boot address is, in this mode, the lowest adress of FM1 USB bootloader.The Software Boot Vector (SBV) can be used to force the execution of a user bootloader starting at address [SBV]00h in the application area (FM0).The way to start this user bootloader is described in section “Boot Process”.FLIP Software ProgramFLIP is a PC software program running under Windows ® 9x/Me/2000/XP and Linux ® which can be used in ISP mode and which supports all Atmel C51 Flash microcontroller and USB protocol communication media.The FLIP software program is free and is available from the Atmel web site.USB BootloaderApplicationUser Bootloader[SBV]00hFM1FM0[FC]00h84287E–USB–04/08AT89C5131A USB Bootloader94287E–USB–04/08AT89C5131A USB BootloaderFigure 4. Low-pin Count Regular Boot Process104287E–USB–04/08AT89C5131A USB BootloaderPhysical LayerThe USB norm specifies all the transfers over the USB line. The USB specification also includes several CLASS and SUB-CLASS specifications. These stand-alone documents are used by the manufacturer to implement a USB link between a PC and a device supporting the In System Programming. Mostly, the USB specification is implemented by hardware (automatic reply,handshakes, timings, ...) and the USB Classes and SubClasses are implemented by software at a data level.Figure 5. USB Bus TopographyThe USB is used to transmit information that has the following configuration:•USB DFU using the Default Control Endpoint only (endpoint 0) with a 32 bytes length.•48 MHz for USB controller: USB clock configuration performed by the bootloader48 MHz Frequency Auto-Configuration The bootloader includes a function which will automatically setup the PLL frequency (48MHz)versus the different XTAL configuration used on the application.The table below shows the allowed frequencies compatible with the USB bootloader48 MHz auto-generation.PC (Host)Application (Device)USB LineDownstream Transfer: OUT Upstream Transfer: INPC DriverPC ApplicationDevice driver/API Firmware6 MHz8 MHz 12 MHz 16 MHz 20 MHz 24 MHz 32 MHz 40 MHz 48 MHz X1 or X2Clock ModesOKOKOKOKOKOKOKOKOK114287E–USB–04/08AT89C5131A USB BootloaderFigure 6. 48 MHz Frequency Auto-ConfigurationMAINUSB Connected?Suspend/ResumeConfigure PLL for Frequency X Configure Timer 0SOF Detected?Timer 0 Overflow?USB SchedulerChange FrequencyResume Detected?YesNoNoYesYesNoYesNo124287E–USB–04/08AT89C5131A USB BootloaderProtocolDevice Firmware Upgrade IntroductionDevice Firmware Upgrade is the mechanism for accomplishing the task of upgrading the device firmware. Any class of USB device can exploit this capability by supporting the requirements specified in this document.Because it is impractical for a device to concurrently perform both DFU operations and its nor-mal run-time activities, those normal activities must cease for the duration of the DFU operations. Doing so means that the device must change its operating mode; i.e., a printer is not a printer while it is undergoing a firmware upgrade; it is a PROM programmer. However, a device that supports DFU is not capable of changing its mode of operation on its own. External (human or host operating system) intervention is required.DFU Specific RequestsIn addition of the USB standard requests, 7 DFU class-specific requests are employed to accomplish the upgrade operations (Table 1):DFU Descriptors Set The device exports the DFU descriptor set, which contains:• A DFU device descriptor • A single configuration descriptor• A single interface descriptor (including descriptors for alternate settings, if present)•A single functional descriptorDFU Device DescriptorThis descriptor is only present in the DFU mode descriptor set. The DFU class code is reported in the bDeviceClass field of this descriptor.Table 2. USB ParametersTable 1. DFU Class-specific RequestsbmRequestType bRequest wValue wIndex wLength Data 0010 0001b DFU_DETACH (0)wTimeout Interface (4)Zero none 0010 0001b DFU_DNLOAD (1)wBlock Interface (4)Length Firmware 1010 0001b DFU_UPLOAD (2)wBlock Interface (4)Length Firmware 1010 0001b DFU_GETSTATUS (3)Zero Interface (4)6Status 0010 0001b DFU_CLRSTATUS (4)Zero Interface (4)Zero none 1010 0001b DFU_GETSTATE (5)Zero Interface (4)1State 0010 0001bDFU_ABORT (6)ZeroInterface (4)ZerononeParameter Atmel – AT89C5131A BootloaderVendor ID 0x03EB Product ID 0x2FFD Release Number0x0000134287E–USB–04/08AT89C5131A USB BootloaderTable 3. DFU Mode Device DescriptorDFU Configuration DescriptorThis descriptor is identical to the standard configuration descriptor described in the USB DFU specification version 1.0, with the exception that the bNumInterfaces field must contain the value 01h.DFU Interface DescriptorThis is the descriptor for the only interface available when operating in DFU mode. Therefore,the value of the bInterfaceNumber field is always zero.Table 4. DFU Mode Interface Descriptoreach alternate setting employ a string descriptor to indicate the target memory segment; e.g., “EEPROM”. Details concern-ing other possible uses of alternate settings are beyond the scope of this document. However, their use is intentionally not restricted because the authors anticipate that implementers will devise additional creative uses for alternate settings.Offset Field Size Value Description0bLength 112h Size of this descriptor, in bytes 1bDescriptorType101h DFU FUNCTIONAL descriptor type2bcdUSB 20100h USB specification release number in binary coded decimal 4bDeviceClass 1FEh Application Specific Class Code 5bDeviceSubClass 101h Device Firmware Upgrade Code6bDeviceProtocol 100h The device does not use a class specific protocol on this interface 7bMaxPacketSize0132Maximum packet size for endpoint zero 8idVendor 203EBh Vendor ID 10idProduct 22FFDh Product ID12bcdDevice 20x0000Device release number in binary coded decimal 14iManufacturer 10Index of string descriptor 15iProduct 10Index of string descriptor 16iSerialNumber 10Index of string descriptor 17bNumConfigurations101hOne configuration only for DFUOffset Field Size Value Description0bLength 109h Size of this descriptor, in bytes 1bDescriptorType 104h INTERFACE descriptor type 2bInterfaceNumber 100h Number of this interface 3bAlternateSetting 100h Alternate setting (1)4bNumEndpoints 100h Only the control pipe is used 5bInterfaceClass 1FEh Application Specific Class Code 6bInterfaceSubClass 101h Device Firmware Upgrade Code7bInterfaceProtocol100h The device doesn’t use a class specific protocol on this interface 8iInterface100hIndex of the String descriptor for this interface144287E–USB–04/08AT89C5131A USB BootloaderDFU Functional DescriptorTable 5. DFU Functional DescriptorCommand Description This protocol allows to:•Initiate the communication•Program the Flash or EEPROM Data •Read the Flash or EEPROM Data •Program Configuration Information•Read Configuration and Manufacturer Information •Erase the Flash •Start the applicationOverview of the protocol is detailed in Appendix-A.Offset Field Size Value Description0bLength 107h Size of this descriptor, in bytes 1bDescriptorType121hDFU FUNCTIONAL descriptor type 2bmAttributes 1Bit maskDFU Attributes:bit 7..3: reservedbit 2: device is able to communicate via USB after Manifestation phase 1 = yes, 0 = no, must see bus resetbit 1: bitCanUpload : upload capable 1 = yes, 0 = no bit 0: bitCanDnload : download capable 1 = yes, 0 = no 3wDetachTimeOut 2NumberTime in milliseconds that the device will wait after receipt of the DFU_DETACH request.If this time elapses without a USB reset, the device will terminate the Reconfiguration phase and revert back to normal operation. This represents the maximum time that the device can wait (depending on its timers, ...). The Host may specify a shorter timeout in the DFU_DETACH request.5wTransferSize 2NumberMaximum number of bytes that the device can accept per control-write transaction154287E–USB–04/08AT89C5131A USB BootloaderDevice StatusGet StatusThe Host employs the DFU_GETSTATUS request to facilitate synchronization with the device.This status gives information on the execution of the previous request: in progress/OK/Fail/...The device responds to the DFU_GETSTATUS request with a payload packet containing the fol-lowing data:Table 6. DFU_GETSTATUS ResponsebmRequestType bRequest wValue wIndex wLengthData 1010 0001b DFU_GETSTATUS (3)Zero Interface (4)6Status 0010 0001bDFU_CLRSTATUS (4)ZeroInterface (4)ZerononeOffset Field Size Value DescriptionbStatus1Numb erAn indication of the status resulting from the execution of the most recent request.1bwPollTimeOut 3Numb erMinimum time in milliseconds that the host should wait before sending a subsequentDFU_GETSTATUS. The purpose of this field is to allow the device to dynamically adjust theamount of time that the device expects the host to wait between the status phase of the next DFU_DNLOAD and the subsequent solicitation of the device’s status via DFU_GETSTATUS.4bState 1Numb er An indication of the state that the device is going to enter immediately following transmission of this response.5iString1IndexIndex of status description in string table.Table 7. bStatus valuesStatus Value DescriptionOK 0x00No error condition is presenterrTARGET 0x01File is not targeted for use by this deviceerrFILE 0x02File is for this device but fails some vendor-specific verification test errWRITE 0x03Device id unable to write memory errERASE0x04Memory erase function failed errCHECK_ERASED 0x05Memory erase check failed errPROG 0x06Program memory function failed errVERIFY 0x07Programmed memory failed verificationerrADDRESS 0x08Cannot program memory due to received address that is out of rangeerrNOTDONE 0x09Received DFU_DNLOAD with wLength = 0, but device does not think it has all the data yet.errFIRMWARE 0x0A Device’s firmware is corrupted. It cannot return to run-time operationserrVENDOR0x0BiString indicates a vendor-specific error164287E–USB–04/08AT89C5131A USB BootloaderTable 8. bState ValuesClear StatusAny time the device detects an error and reports an error indication status to the host in the response to a DFU_GETSTATUS request, it enters the dfuERROR state. The device cannot transition from the dfuERROR state, after reporting any error status, until after it has received a DFU_CLRSTATUS request. Upon receipt of DFU_CLRSTATUS, the device sets a status of OK and transitions to the dfuIDLE state. Only then is it able to transition to other states.errUSBR 0x0C Device detected unexpected USB reset signaling errPOR 0x0D Device detected unexpected power on reseterrUNKNOWN 0x0E Something went wrong, but the device does not know what it was errSTALLEDPK0x0FDevice stalled an unexpected requestTable 7. bStatus values (Continued)Status Value DescriptionState Value DescriptionappIDLE 0Device is running its normal applicationappDETACH 1Device is running its normal application, has received the DFU_DETACH request, and is waiting for a USB resetdfuIDLE2Device is operating in the DFU mode and is waiting for requests dfuDNLOAD-SYNC 3Device has received a block and is waiting for the Host to solicit the status via DFU_GETSTATUSdfuDNBUSY 4Device is programming a control-write block into its non volatile memories dfuDNLOAD-IDLE5Device is processing a download operation. Expecting DFU_DNLOAD requestsdfuMANIFEST-SYNC 6Device has received the final block of firmware from the Host and iswaiting for receipt of DFU_GETSTATUS to begin the Manifestation phaseordevice has completed the Manifestation phase and is waiting for receipt of DFU_GETSTATUS.dfuMANIFEST 7Device is in the Manifestation phase.dfuMANIFEST-WAIT-RESET8Device has programmed its memories and is waiting for a USB reset or a power on reset.dfuUPLOAD-IDLE 9The device is processing an upload operation. Expecting DFU_UPLOAD requests.dfuERROR10An error has occurred. Awaiting the DFU_CLRSTATUS request.bmRequestType bRequest wValue wIndex wLengthData 0010 0001bDFU_CLRSTATUS (4)ZeroInterface (4)None174287E–USB–04/08AT89C5131A USB BootloaderDevice StateThis request solicits a report about the state of the device. The state reported is the current state of the device with no change in state upon transmission of the response. The values specified in the bState field are identical to those reported in DFU_GETSTATUS.DFU_ABORT requestThe DFU_ABORT request enables the device to exit from certain states and return to the DFU_IDLE state. The device sets the OK status on receipt of this request. For more information,see the corresponding state transition summary.Programming the Flash or EEPROM DataThe firmware image is downloaded via control-write transfers initiated by the DFU_DNLOAD class-specific request. The host sends between bMaxPacketSize0 and wTransferSize bytes to the device in a control-write transfer. Following each downloaded block, the host solicits the device status with the DFU_GETSTATUS request.As described in the USB DFU Specification, "Firmware images for specific devices are, by defi-nition, vendor specific. It is therefore required that target addresses, record sizes, and all other information relative to supporting an upgrade are encapsulated within the firmware image file. It is the responsibility of the device manufacturer and the firmware developer to ensure that their devices can consume these encapsulated data. With the exception of the DFU file suffix, the content of the firmware image file is irrelevant to the host."Firmware image:•32 bytes: Command•X bytes: X is the number of byte (00h) added before the first significative byte of thefirmware. The X number is calculated to align the beginning of the firmware with the flash page. X = start_address [32]. For example, if the start address is 00AFh (175d), X = 175 [32] = 15.•The firmware•The DFU Suffix on 16 Bytes.Table 9. DFU File SuffixbmRequestType bRequest wValue wIndex wLengthData 1010 0001bDFU_GETSTATE (5)ZeroInterface (4)1StatebmRequestType bRequest wValue wIndex wLengthData 1010 0001bDFU_ABORT (6)ZeroInterface (4)NoneOffset Field Size Value Description-0dwCRC 4Number The CRC of the entire file, excluding dwCRC -4bLength116The length of this DFU suffix including dwCRC-5ucDfuSignature 3 5 : 44h6 : 46h7 : 55hThe unique DFU signature field-8bcdDFU 2BCD 0100h DFU specification number-10idVendor 2IDThe vendor ID associated with this file. Either FFFFh or must match device’s vendor ID184287E–USB–04/08AT89C5131A USB BootloaderRequest From HostWrite CommandThe write command is 6 bytes long. In order to reach the USB specification of the Control type transfers, the write command is completed with 26 (= 32 - 6) non-significant bytes. The total length of the command is then 32 bytes, which is the length of the Default Control Endpoint.FirmwareThe firmware can now be downloaded to the device. In order to be in accordance with the Flash page size (128 bytes), X non-significant bytes are added before the first byte to program. The X number is calculated to align the beginning of the firmware with the Flash page. X =start_address [32]. For example, if the start address is 00AFh (175d), X = 175 [32] = 15.DFU SuffixThe DFU suffix of 16 bytes are added just after the last byte to program. This suffix is reserved for future use.-12idProduct2IDThe product ID associated with this file. Either FFFFf or must match the device’s product ID-14bcdDevice 2BCDThe release number of the device associated with this file. Either FFFFh or a BCD firmware release or version numberOffset Field Size Value DescriptionbmRequestType bRequest wValue wIndex wLength Data 0010 0001bDFU_DNLOAD (1)wBlockInterface (4)LengthFirmwareCommand Identifier data[0]data[1]data[2]data[3]data[4]Description Id_prog_start01h00hstart_addressend_addressInit FLASH programming01hInit EEPROM programming194287E–USB–04/08AT89C5131A USB BootloaderFigure 7. Example of Firmware Download Zero Length DFU_DNLOAD RequestThe Host sends a DFU_DNLOAD request with the wLength field cleared to 0 to the device to indicate that it has completed transferring the firmware image file. This is the final payload packet of a download operation.This operation should be preceded by a Long Jump address specification using the correspond-ing Flash command.Answers from BootloaderAfter each program request, the Host can request the device state and status by sending a DFU_GETSTATUS message.If the device status indicates an error, the host can send a DFU_CLRSTATUS request to the device.OUT Prog_Start + (EP0 fifo length - 6) x 00h SETUP DFU_DNLOADOUT X offset bytes + Firmware Packet 1OUTFirmware Packet 2OUT Firmware Packet n + DFU suffix INZLP204287E–USB–04/08AT89C5131A USB BootloaderReading the Flash or EEPROM DataThe flow described below allows the user to read data in the Flash memory or in the EEPROMdata memory. A blank check command on the Flash memory is possible with this flow.This operation is performed in 2 steps:1.DFU_DNLOAD request with the read command (6 bytes)2.DFU_UPLOAD request which correspond to the immediate previous command.First Request from Host The Host sends a DFU Download request with a Display command in the data field.Second Request from HostThe Host sends a DFU Upload request.Answers from the DeviceThe device send to the Host the firmware from the specified start address to the end address.CommandIdentifierdata[0]data[1]data[2]data[3]data[4]Description Id_display_data03h00hstart_address end_address Display FLASH Data01h Blank Check in FLASH 02hDisplay EEPROM DataOUT Display_Data (6 bytes)SETUP DFU_DNLOAD INZLPIN Firmware Packet 1INFirmware Packet 2IN Firmware Packet n OUTZLPSETUP DFU_UPLOAD214287E–USB–04/08AT89C5131A USB BootloaderAnswers from the Device to a Blank Check Command The Host controller send a GET_STATUS request to the device. Once internal blank check has been completed, the device sends its status.•If the device status is “OK”:the device memory is then blank and the device waits the next Host request.•If the device status is “errCHECK_ERASED”:the device memory is not blank. The device waits for an DFU_UPLOAD request to send the first address where the byte is not 0xFF.Programming Configuration InformationThe flow described below allows the user to program Configuration Information regarding the bootloader functionality.•Boot Process Configuration:–BSB –SBV–P1_CF, P3_CF and P4_CF–Fuse bits (BLJB, X2 and OSCON bits) (see section “Mapping and Default Value of Hardware Security Byte”)Take care that the Program Fuse bit command programs the 4 Fuse bits at the same time.Request from HostTo start the programming operation, the Host sends DFU_DNLOAD request with the Write com-mand in the data field (6 bytes).Answers From BootloaderThe device has two possible answers to a DFU_GETSTATUS request:•If the chip is protected from program access, a “err_WRITE” status is returned to the Host.•Otherwise, the device status is “OK“.Command Identifierdata[0]data[1]data[2]data[3]data[4]Description Id_write_command04h01h 00h Value Write value in BSB 01h Write value in SBV 02hWrite P1_CF03h Write P3_CF 04h Write P4_CF 05h Write value in SSB 06hWrite value in EB02h 00h ValueWrite value in Fuse (HSB)OUT Write_command (6 bytes)SETUP DFU_DNLOAD INZLP。

高清运动摄像机说明书目录安全注意事项特色功能产品附件操作界面按键功能操作说明开启/关闭电池充电摄像正常录像循环录像拍照变焦回放菜单设置遥控器说明连接电视电脑查看文件产品参数安全注意事项使用本产品前，请仔细阅读以下安全注意事项：●请按照说明书指示正确操作机器；如非法操作可能会导致内部元件损坏。

●请勿摔落或撞击本产品，否则容易导致内部组件损坏。

●请勿试图用任何方式修改或拆解此机器，以免造成记录仪的损坏。

●机器在使用一段时间后温度升高，属于正常现象。

●在使用时请勿摸镜头，以免影响拍摄效果。

特色功能G-sensor 功能当重力加速（1g=9.80米/秒^2）时，机器会自动将事故发生时的视频保存为不可删除文件；可以在菜单中进行调节灵敏度高、中、低，如不需要可关闭此功能。

影像旋转当在使用过程中机子需要倒置时，在菜单内“影像旋转”一项选择“开”，开启此功能后机子倒置（即翻转180度）屏上的字符和图像均能和正常使用一样为正向。

SOS功能录像过程中短按上翻键，机器会将当前视频保存为不可删除文件.自动开/关机支持连接车载电源后，汽车启动自动开机录像，熄火自动保存录像并关机;不漏秒无声录像功能在摄像过程中，短按下翻键，可以关闭麦克风,私密谈话可以不担心被录进去宽动态当曝光过度或曝光不足时，可以使录像画面呈现更多的细节。

GPS功能当插入GPS，菜单选择“开”机器搜到信号后LED屏上显示绿色图标。

车牌号码输入车牌号码设置有阿拉伯数字和英文字母2种输入法。

按模式键可转换输入法，按上翻键和下翻键选择你所需要设置的数字或英文字母，按“OK”键确认，设置完成后按“菜单键”退出菜单设置。

产品附件1.自行车支架2.万向支架3.平底支架4.头盔底座5.平底座6.底座支架7.松紧带8.3M胶9.尼龙带扣10.充电器B线12.HDMI线13.遥控器14.防水壳15.GPS模块（可选）操作界面1. 镜头2. LCD 屏3. 浏览键4.菜单键5. 下翻键6. 上翻键7. 复位键8.麦克风9. 工作指示灯 10. 遥控接收孔 11. 充电指示灯 12. 螺母孔 13. 喇叭 14. 开关键 15. 模式键16. 录制/确认键按键功能电源键：短按开机/长按关机.菜单键：短按此键进入菜单设置；连续短按此键可以在模式设置和系统设置间相互切换；上翻键：在菜单内选择上一个选项，在回放模式选择上一个选项，待机状态下，可对图像放大；录像过程中短按此键会对当前视屏加锁下翻键：在菜单内选择下一个选项，在回放模式选择下一个选项，待机状态下，可对图像缩小，录像过程中短按此键可关闭麦克风。

A t m e l改变命名规则的芯片型号对照表乐享集团公司，写于2021年6月16日ATMLU对应ATMEL芯片：换代选型2011-04-25 23:57AT24C01BN-SH-B/T ATMEL ATMLU701 DIP AT24C01B-PU ATMELATMLU702 DIPATMEL ATMLU703 DIPAT24C02BN-SH-B/T ATMEL ATMLU704 DIP AT24C02B-PU ATMEL ATMLU705 DIPATMEL ATMLU706DIPAT24C04BN-SH-B ATMEL ATMLU707 DIP ATMELATMLU708 DIP ATMEL ATMLU709 DIP ATMEL ATMLU710 DIPATMEL ATMLU711 DIPATMEL ATMLU712 DIPATMEL ATMLU713 DIPATMEL ATMLU714 DIPATMELATMLU715 DIPATMEL ATMLU716 DIPAT24C16BN-SH-B ATMEL ATMLU717 DIPATMEL ATMLU718 DIPATMEL ATMLU719 DIPAT24C256BN-SH-T ATMEL ATMLU720 DIP AT24C256B-PU ATMEL ATMLU721 DIPAT24C256N-10SI18 ATMEL ATMLU722 DIP ATMEL ATMLU723 DIPATMEL ATMLU724 DIPAT24C32CN-SH-T ATMEL ATMLU725DIPATMEL ATMLU726 DIPAT24C512BN-SH25-B ATMEL ATMLU727 DIP AT24C512BN-SH-B ATMELATMLU728 DIPAT24C512B-PU25 ATMELATMLU729 DIPATMEL ATMLU730 DIPATMEL ATMLU731 DIPATMELATMLU732 DIPAT24C64CN-SH-B ATMELATMLU733 DIPAT24C64CN-SH-T ATMEL ATMLU734 DIPATMEL ATMLU735 DIPATMEL ATMLU736 DIPAT25DF041A-SH-B ATMEL ATMLU737DIPATMEL ATMLU738 DIPATMEL ATMLU739DIPAT26DF081A-SSU-SL965 ATMEL ATMLU740 DIP AT26DF081A-SU-SL965 ATMEL ATMLU741 DIP AT26DF161-SUATMEL ATMLU742DIPAT26DF321-SU ATMEL ATMLU743DIPAT27BV256-70JU ATMELATMLU744 DIPAT27C010-70PUATMEL ATMLU745 DIPAT27C040-70PU ATMEL ATMLU746DIPAT27C256R-70PU ATMEL ATMLU748DIP AT27C512R-70JU ATMELATMLU749 DIP AT28BV256-20TU ATMEL ATMLU750 DIP AT28C256-15PU ATMEL ATMLU751 DIP AT28C64B-15JU ATMEL ATMLU752 DIP AT28C64B-15PU ATMEL ATMLU801 DIP AT28C64B-15SUATMELATMLU802 DIPAT29C010A-70JU ATMEL ATMLU803 DIP AT29C020-90JU ATMELATMLU804 DIP AT29C020-90TU ATMEL ATMLU805 DIP AT29C040A-90JU ATMEL ATMLU806 DIP AT29C040A-90TU ATMEL ATMLU807DIP AT29LV020-10TUATMEL ATMLU808 DIP AT29LV040A-15JU ATMEL ATMLU809 DIP AT29LV512-12JUATMELATMLU810 DIP AT45DB021B-SU ATMEL ATMLU811DIP AT45DB041D-SU ATMEL ATMLU812 DIP AT45DB081D-SU ATMELATMLU813 DIP AT45DB161D-SU ATMEL ATMLU814 DIP AT45DB161D-TU ATMEL ATMLU815DIP AT45DB321D-SU ATMEL ATMLU816 DIP AT45DB321D-TU ATMEL ATMLU817 DIPAT47BV163A-70TU ATMEL ATMLU819 DIPAT49BV040B-JU ATMEL ATMLU820 DIPAT49BV322DT-70TU ATMEL ATMLU821 DIP AT49BV512-90TU ATMEL ATMLU822 DIPAT73C213 ATMEL ATMLU823 DIPAT76C112 ATMEL ATMLU824 DIPAT76C120H-MU1-JZ208 ATMEL ATMLU825 DIP AT80251G2D-SLSUM ATMEL ATMLU826 DIP AT80C32X2-3CSUM ATMEL ATMLU827 DIPAT80C32X2-RLTUM ATMEL ATMLU828 DIPAT80C32X2-SLSUM ATMEL ATMLU829 DIPAT83C24-TISIL ATMEL ATMLU830 DIPAT88SC0104C-SU ATMEL ATMLU831 DIPAT88SC153-10SU ATMEL ATMLU832 DIPAT89C2051-12PU ATMEL ATMLU833 DIPAT89C2051-12SU ATMEL ATMLU834 DIPAT89C2051-24PU ATMEL ATMLU835 DIPAT89C2051-24SU ATMEL ATMLU836 DIPAT89C4051-24PU ATMEL ATMLU837 DIPAT89C4051-24SU ATMEL ATMLU838 DIPAT89C5131A-S3SUM ATMEL ATMLU839 DIP AT89C51AC2-RLTUM ATMEL ATMLU840 DIPAT89C51CC01CA-RLTUM ATMEL ATMLU841 DIP AT89C51CC01CA-SLSUM ATMEL ATMLU842 DIP AT89C51CC01UA-RLTUM ATMEL ATMLU843 DIP AT89C51CC01UA-SLSUM ATMEL ATMLU844 DIP AT89C51ED2-RDTUM ATMEL ATMLU845 DIP AT89C51ED2-RLTUM ATMEL ATMLU846 DIP AT89C51ED2-SLSUM ATMEL ATMLU847 DIP AT89C51ED2-SMSUM ATMEL ATMLU848 DIP AT89C51RB2-3CSUM ATMEL ATMLU849 DIP AT89C51RB2-RLTUM ATMEL ATMLU850 DIP AT89C51RB2-SLSUM ATMEL ATMLU851 DIP AT89C51RC2-3CSUM ATMEL ATMLU852 DIP AT89C51RC-24JU ATMEL ATMLU901 DIPAT89C51RC-24PU ATMEL ATMLU902 DIPAT89C51RC2-RLTUM ATMEL ATMLU903 DIP AT89C51RC2-SLSUM ATMEL ATMLU904 DIP AT89C51RD2-RLTUM ATMEL ATMLU905 DIP AT89C51RD2-SLRUM ATMEL ATMLU906 DIP AT89C51RD2-SLSUM ATMEL ATMLU907 DIP AT89C51-24PC ATMEL ATMLU908 DIPAT89C51-24PI ATMEL ATMLU909 DIPAT89C52-24JI ATMEL ATMLU910 DIPAT89C52-24PI ATMEL ATMLH701 SOPAT89C55WD-24AU ATMEL ATMLH702 SOP AT89C55WD-24JU ATMEL ATMLH703 SOP AT89C55WD-24PU ATMEL ATMLH704 SOP AT89LS52-16JU ATMEL ATMLH705 SOPAT89LS52-16PU ATMEL ATMLH706 SOPAT89LV51-12AI ATMEL ATMLH707 SOPAT89S51-24AU ATMEL ATMLH708 SOPAT89S51-24PU ATMEL ATMLH709 SOPAT89S52-24AU ATMEL ATMLH710 SOPAT89S52-24JU ATMEL ATMLH711 SOPAT89S52-24PU ATMEL ATMLH712 SOPAT89S54-3CSIM ATMEL ATMLH713 SOPAT89S54-SLSIM ATMEL ATMLH714 SOPAT89S58-SLSIM ATMEL ATMLH715 SOPAT89S8253-24AU ATMEL ATMLH716 SOP AT89S8253-24JU ATMEL ATMLH717 SOP AT89S8253-24PU ATMEL ATMLH718 SOP AT90CAN128-16AU ATMEL ATMLH719 SOP AT90CAN32-16AU ATMEL ATMLH720 SOP AT91M40800-33AU ATMEL ATMLH721 SOP AT91M55800A-33AU ATMEL ATMLH722 SOP AT91RM9200-CJ-002 ATMEL ATMLH723 SOP AT91RM9200-QU-002 ATMEL ATMLH724 SOPAT91SAM7S256-AU-001 ATMEL ATMLH725 SOP AT91SAM7S321-AU ATMEL ATMLH726 SOPAT91SAM7S32-AU-001 ATMEL ATMLH727 SOP AT91SAM7S64-AU-001 ATMEL ATMLH728 SOP AT91SAM7SE32-AU ATMEL ATMLH729 SOPAT91SAM7X256-AU ATMEL ATMLH730 SOPAT91SAM9260-CJ ATMEL ATMLH731 SOPAT91SAM9260-EK ATMEL ATMLH732 SOPAT91SAM9261-EK ATMEL ATMLH733 SOPAT91SAM9261S-CU ATMEL ATMLH734 SOPAT91SAM9263-CU ATMEL ATMLH735 SOPAT91SAM7X-EK ATMEL ATMLH736 SOPAT91SAM-ICE ATMEL ATMLH737 SOPATMEL ATMLH738 SOPATMEL ATMLH739 SOPAT93C46DN-SH-B ATMEL ATMLH740 SOPAT93C46D-TH-T ATMEL ATMLH741 SOPATMEL ATMLH742 SOPATMEL ATMLH743 SOPAT93C66A-10PU27 ATMEL ATMLH744 SOPATMEL ATMLH745 SOPATMEL ATMLH746 SOPATAVRDRAGON ATMEL ATMLH747 SOPATAVRISP2 ATMEL ATMLH748 SOPATF1502AS-15JC44 ATMEL ATMLH749 SOP ATF1508AS-15AC100 ATMEL ATMLH750 SOP ATF1508AS-15JC84 ATMEL ATMLH751 SOP ATF16V8B-15JU ATMEL ATMLH752 SOP ATF16V8B-15PC ATMEL ATMLH801 SOP ATF16V8B-15PU ATMEL ATMLH802 SOP ATF16V8BQL-15JC ATMEL ATMLH803 SOP ATF20V8B-15JC ATMEL ATMLH804 SOP ATJTAGICE2 ATMEL ATMLH805 SOP ATMEGA1280V-8AU ATMEL ATMLH806 SOP ATMEGA128-16AU ATMEL ATMLH807 SOP ATMEGA128L-8AU ATMEL ATMLH808 SOP ATMEGA16-16AU ATMEL ATMLH809 SOP ATMEGA16-16PU ATMEL ATMLH810 SOP ATMEGA162-16PU ATMEL ATMLH811 SOP ATMEGA162V-8AU ATMEL ATMLH812 SOP ATMEGA168-20AU ATMEL ATMLH813 SOP ATMEGA168-20MU ATMEL ATMLH814 SOP ATMEGA168-20PU ATMEL ATMLH815 SOP ATMEGA168V-10AU ATMEL ATMLH816 SOP ATMEGA169P-16AU ATMEL ATMLH817 SOP ATMEGA169PV-8AU ATMEL ATMLH818 SOPATMEGA169V-8AU ATMEL ATMLH819 SOP ATMEGA16L-8AU ATMEL ATMLH820 SOP ATMEGA16L-8PU ATMEL ATMLH821 SOP ATMEGA32-16AU ATMEL ATMLH822 SOP ATMEGA32-16PU ATMEL ATMLH823 SOP ATMEGA325V-8MU ATMEL ATMLH824 SOP ATMEGA32L-8AU ATMEL ATMLH825 SOP ATMEGA32L-8PU ATMEL ATMLH826 SOP ATMEGA48-20AU ATMEL ATMLH827 SOP ATMEGA48V-10AU ATMEL ATMLH828 SOP ATMEGA48V-10PU ATMEL ATMLH829 SOP ATMEGA48V-10MU ATMEL ATMLH830 SOP ATMEGA640V-8AU ATMEL ATMLH831 SOP ATMEGA64-16AU ATMEL ATMLH832 SOP ATMEGA64L-8AU ATMEL ATMLH833 SOP ATMEGA8-16AU ATMEL ATMLH834 SOP ATMEGA8-16PU ATMEL ATMLH835 SOP ATMEGA8515-16AU ATMEL ATMLH836 SOP ATMEGA8515-16JU ATMEL ATMLH837 SOP ATMEGA8515-16PU ATMEL ATMLH838 SOP ATMEGA8515L-8JU ATMEL ATMLH839 SOP ATMEGA8535-16JI ATMEL ATMLH840 SOP ATMEGA8535-16JU ATMEL ATMLH841 SOPATMEGA8535-16PU ATMEL ATMLH842 SOP ATMEGA8535L-8AU ATMEL ATMLH843 SOP ATMEGA8535L-8JU ATMEL ATMLH844 SOP ATMEGA8535L-8PU ATMEL ATMLH845 SOP ATMEGA88-20AU ATMEL ATMLH846 SOP ATMEGA88-20MU ATMEL ATMLH847 SOP ATMEGA88-20PU ATMEL ATMLH848 SOP ATMEGA88V-10AU ATMEL ATMLH849 SOP ATMEGA88V-10MU ATMEL ATMLH850 SOP ATMEGA88V-10PU ATMEL ATMLH851 SOP ATMEGA8L-8AU ATMEL ATMLH852 SOP ATMEGA8L-8PU ATMEL ATMLH901 SOP ATTINY11L-2SU ATMEL ATMLH902 SOP ATTINY13-20SU ATMEL ATMLH903 SOP ATTINY13V-10PU ATMEL ATMLH904 SOP ATTINY13V-10SSU ATMEL ATMLH905 SOP ATTINY13V-10SU ATMEL ATMLH906 SOP ATTINY15L-1PU ATMEL ATMLH907 SOP ATTINY2313-20PU ATMEL ATMLH908 SOP ATTINY2313-20SU ATMEL ATMLH909 SOP ATTINY2313V-10PU ATMEL ATMLH910 SOP AT24C01BN-SH-B/T ATMEL ATMLU701 DIP AT24C01B-PI ATMEL ATMLU702 DIPAT24C02BN-SH-B/T ATMEL ATMLU704 DIP AT24C02B-PI ATMEL ATMLU705 DIPATMEL ATMLU706 DIPAT24C04BN-SH-B ATMEL ATMLU707 DIP ATMEL ATMLU708 DIPATMEL ATMLU709 DIPATMEL ATMLU710 DIPATMEL ATMLU711 DIPATMEL ATMLU712 DIPATMEL ATMLU713 DIPATMEL ATMLU714 DIPATMEL ATMLU715 DIPATMEL ATMLU716 DIPAT24C16BN-SH-B ATMEL ATMLU717 DIP ATMEL ATMLU718 DIPATMEL ATMLU719 DIPAT24C256BN-SH-T ATMEL ATMLU720 DIP AT24C256B-PI ATMEL ATMLU721 DIPAT24C256N-10SI18 ATMEL ATMLU722 DIP ATMEL ATMLU723 DIPATMEL ATMLU724 DIPAT24C32CN-SH-T ATMEL ATMLU725 DIPAT24C512BN-SH25-B ATMEL ATMLU727 DIP AT24C512BN-SH-B ATMEL ATMLU728 DIPAT24C512B-PI25 ATMEL ATMLU729 DIPATMEL ATMLU730 DIPATMEL ATMLU731 DIPATMEL ATMLU732 DIPAT24C64CN-SH-B ATMEL ATMLU733 DIPAT24C64CN-SH-T ATMEL ATMLU734 DIPATMEL ATMLU735 DIPATMEL ATMLU736 DIPAT25DF041A-SH-B ATMEL ATMLU737 DIPATMEL ATMLU738 DIPATMEL ATMLU739 DIPAT26DF081A-SSI-SL965 ATMEL ATMLU740 DIP AT26DF081A-SI-SL965 ATMEL ATMLU741 DIP AT26DF161-SI ATMEL ATMLU742 DIPAT26DF321-SI ATMEL ATMLU743 DIPAT27BV256-70JI ATMEL ATMLU744 DIPAT27C010-70PI ATMEL ATMLU745 DIPAT27C040-70PI ATMEL ATMLU746 DIPAT27C256R-70JI ATMEL ATMLU747 DIPAT27C256R-70PI ATMEL ATMLU748 DIPAT28BV256-20TI ATMEL ATMLU750 DIP AT28C256-15PI ATMEL ATMLU751 DIP AT28C64B-15JI ATMEL ATMLU752 DIP AT28C64B-15PI ATMEL ATMLU801 DIP AT28C64B-15SI ATMEL ATMLU802 DIP AT29C010A-70JI ATMEL ATMLU803 DIP AT29C020-90JI ATMEL ATMLU804 DIP AT29C020-90TI ATMEL ATMLU805 DIP AT29C040A-90JI ATMEL ATMLU806 DIP AT29C040A-90TI ATMEL ATMLU807 DIP AT29LV020-10TI ATMEL ATMLU808 DIP AT29LV040A-15JI ATMEL ATMLU809 DIP AT29LV512-12JI ATMEL ATMLU810 DIP AT45DB021B-SI ATMEL ATMLU811 DIP AT45DB041D-SI ATMEL ATMLU812 DIP AT45DB081D-SI ATMEL ATMLU813 DIP AT45DB161D-SI ATMEL ATMLU814 DIP AT45DB161D-TI ATMEL ATMLU815 DIP AT45DB321D-SI ATMEL ATMLU816 DIP AT45DB321D-TI ATMEL ATMLU817 DIP AT45DB642D-TI ATMEL ATMLU818 DIP AT47BV163A-70TI ATMEL ATMLU819 DIPAT49BV322DT-70TI ATMEL ATMLU821 DIP AT49BV512-90TI ATMEL ATMLU822 DIPAT73C213 ATMEL ATMLU823 DIPAT76C112 ATMEL ATMLU824 DIPAT76C120H-MI1-JZ208 ATMEL ATMLU825 DIP AT80251G2D-SLSIM ATMEL ATMLU826 DIP AT80C32X2-3CSIM ATMEL ATMLU827 DIPAT80C32X2-RLTIM ATMEL ATMLU828 DIPAT80C32X2-SLSIM ATMEL ATMLU829 DIPAT83C24-TISIL ATMEL ATMLU830 DIPAT88SC0104C-SI ATMEL ATMLU831 DIPAT88SC153-10SI ATMEL ATMLU832 DIPAT89C2051-12PI ATMEL ATMLU833 DIPAT89C2051-12SI ATMEL ATMLU834 DIPAT89C2051-24PI ATMEL ATMLU835 DIPAT89C2051-24SI ATMEL ATMLU836 DIPAT89C4051-24PI ATMEL ATMLU837 DIPAT89C4051-24SI ATMEL ATMLU838 DIPAT89C5131A-S3SIM ATMEL ATMLU839 DIP AT89C51AC2-RLTIM ATMEL ATMLU840 DIP AT89C51CC01CA-RLTIM ATMEL ATMLU841 DIP AT89C51CC01CA-SLSIM ATMEL ATMLU842 DIPAT89C51CC01IA-RLTIM ATMEL ATMLU843 DIP AT89C51CC01IA-SLSIM ATMEL ATMLU844 DIP AT89C51ED2-RDTIM ATMEL ATMLU845 DIP AT89C51ED2-RLTIM ATMEL ATMLU846 DIP AT89C51ED2-SLSIM ATMEL ATMLU847 DIP AT89C51ED2-SMSIM ATMEL ATMLU848 DIP AT89C51RB2-3CSIM ATMEL ATMLU849 DIP AT89C51RB2-RLTIM ATMEL ATMLU850 DIP AT89C51RB2-SLSIM ATMEL ATMLU851 DIP AT89C51RC2-3CSIM ATMEL ATMLU852 DIP AT89C51RC-24JI ATMEL ATMLU901 DIPAT89C51RC-24PI ATMEL ATMLU902 DIPAT89C51RC2-RLTIM ATMEL ATMLU903 DIP AT89C51RC2-SLSIM ATMEL ATMLU904 DIP AT89C51RD2-RLTIM ATMEL ATMLU905 DIP AT89C51RD2-SLRIM ATMEL ATMLU906 DIP AT89C51RD2-SLSIM ATMEL ATMLU907 DIP AT89C51-24PC ATMEL ATMLU908 DIPAT89C51-24PI ATMEL ATMLU909 DIPAT89C52-24JI ATMEL ATMLU910 DIPAT89C52-24PI ATMEL ATMLH701 SOPAT89C55WD-24AI ATMEL ATMLH702 SOPAT89C55WD-24JI ATMEL ATMLH703 SOPAT89C55WD-24PI ATMEL ATMLH704 SOPAT89LS52-16JI ATMEL ATMLH705 SOPAT89LS52-16PI ATMEL ATMLH706 SOPAT89LV51-12AI ATMEL ATMLH707 SOPAT89S51-24AI ATMEL ATMLH708 SOPAT89S51-24PI ATMEL ATMLH709 SOPAT89S52-24AI ATMEL ATMLH710 SOPAT89S52-24JI ATMEL ATMLH711 SOPAT89S52-24PI ATMEL ATMLH712 SOPAT89S54-3CSIM ATMEL ATMLH713 SOPAT89S54-SLSIM ATMEL ATMLH714 SOPAT89S58-SLSIM ATMEL ATMLH715 SOPAT89S8253-24AI ATMEL ATMLH716 SOPAT89S8253-24JI ATMEL ATMLH717 SOPAT89S8253-24PI ATMEL ATMLH718 SOPAT90CAN128-16AI ATMEL ATMLH719 SOPAT90CAN32-16AI ATMEL ATMLH720 SOPAT91M40800-33AI ATMEL ATMLH721 SOPAT91M55800A-33AI ATMEL ATMLH722 SOP AT91RM9200-CJ-002 ATMEL ATMLH723 SOP AT91RM9200-QI-002 ATMEL ATMLH724 SOP AT91SAM7S256-AI-001 ATMEL ATMLH725 SOP AT91SAM7S321-AI ATMEL ATMLH726 SOPAT91SAM7S64-AI-001 ATMEL ATMLH728 SOP AT91SAM7SE32-AI ATMEL ATMLH729 SOP AT91SAM7X256-AI ATMEL ATMLH730 SOP AT91SAM9260-CJ ATMEL ATMLH731 SOPAT91SAM9260-EK ATMEL ATMLH732 SOPAT91SAM9261-EK ATMEL ATMLH733 SOPAT91SAM9261S-CI ATMEL ATMLH734 SOP AT91SAM9263-CI ATMEL ATMLH735 SOPAT91SAM7X-EK ATMEL ATMLH736 SOPAT91SAM-ICE ATMEL ATMLH737 SOPATMEL ATMLH738 SOPATMEL ATMLH739 SOPAT93C46DN-SH-B ATMEL ATMLH740 SOPAT93C46D-TH-T ATMEL ATMLH741 SOPATMEL ATMLH742 SOPATMEL ATMLH743 SOPAT93C66A-10PI27 ATMEL ATMLH744 SOPATMEL ATMLH745 SOPATMEL ATMLH746 SOPATAVRDRAGON ATMEL ATMLH747 SOP ATAVRISP2 ATMEL ATMLH748 SOPATF1502AS-15JC44 ATMEL ATMLH749 SOPATF1508AS-15JC84 ATMEL ATMLH751 SOP ATF16V8B-15JI ATMEL ATMLH752 SOP ATF16V8B-15PC ATMEL ATMLH801 SOP ATF16V8B-15PI ATMEL ATMLH802 SOP ATF16V8BQL-15JC ATMEL ATMLH803 SOP ATF20V8B-15JC ATMEL ATMLH804 SOP AT JTAGICE MKII ATMEL ATMLH805 SOP ATMEGA1280V-8AI ATMEL ATMLH806 SOP ATMEGA128-16AI ATMEL ATMLH807 SOP ATMEGA128L-8AI ATMEL ATMLH808 SOP ATMEGA16-16AI ATMEL ATMLH809 SOP ATMEGA16-16PI ATMEL ATMLH810 SOP ATMEGA162-16PI ATMEL ATMLH811 SOP ATMEGA162V-8AI ATMEL ATMLH812 SOP ATMEGA168-20AI ATMEL ATMLH813 SOP ATMEGA168-20MI ATMEL ATMLH814 SOP ATMEGA168-20PI ATMEL ATMLH815 SOP ATMEGA168V-10AI ATMEL ATMLH816 SOP ATMEGA169P-16AI ATMEL ATMLH817 SOP ATMEGA169PV-8AI ATMEL ATMLH818 SOP ATMEGA169V-8AI ATMEL ATMLH819 SOP ATMEGA16L-8AI ATMEL ATMLH820 SOPATMEGA16L-8PI ATMEL ATMLH821 SOP ATMEGA32-16AI ATMEL ATMLH822 SOP ATMEGA32-16PI ATMEL ATMLH823 SOP ATMEGA325V-8MI ATMEL ATMLH824 SOP ATMEGA32L-8AI ATMEL ATMLH825 SOP ATMEGA32L-8PI ATMEL ATMLH826 SOP ATMEGA48-20AI ATMEL ATMLH827 SOP ATMEGA48V-10AI ATMEL ATMLH828 SOP ATMEGA48V-10PI ATMEL ATMLH829 SOP ATMEGA48V-10MI ATMEL ATMLH830 SOP ATMEGA640V-8AI ATMEL ATMLH831 SOP ATMEGA64-16AI ATMEL ATMLH832 SOP ATMEGA64L-8AI ATMEL ATMLH833 SOP ATMEGA8-16AI ATMEL ATMLH834 SOP ATMEGA8-16PI ATMEL ATMLH835 SOP ATMEGA8515-16AI ATMEL ATMLH836 SOP ATMEGA8515-16JI ATMEL ATMLH837 SOP ATMEGA8515-16PI ATMEL ATMLH838 SOP ATMEGA8515L-8JI ATMEL ATMLH839 SOP ATMEGA8535-16JI ATMEL ATMLH840 SOP ATMEGA8535-16JI ATMEL ATMLH841 SOP ATMEGA8535-16PI ATMEL ATMLH842 SOP ATMEGA8535L-8AI ATMEL ATMLH843 SOPATMEGA8535L-8JI ATMEL ATMLH844 SOP ATMEGA8535L-8PI ATMEL ATMLH845 SOP ATMEGA88-20AI ATMEL ATMLH846 SOP ATMEGA88-20MI ATMEL ATMLH847 SOP ATMEGA88-20PI ATMEL ATMLH848 SOP ATMEGA88V-10AI ATMEL ATMLH849 SOP ATMEGA88V-10MI ATMEL ATMLH850 SOP ATMEGA88V-10PI ATMEL ATMLH851 SOP ATMEGA8L-8AI ATMEL ATMLH852 SOP ATMEGA8L-8PI ATMEL ATMLH901 SOP ATTINY11L-2SI ATMEL ATMLH902 SOP ATTINY13-20SI ATMEL ATMLH903 SOP ATTINY13V-10PI ATMEL ATMLH904 SOP ATTINY13V-10SSI ATMEL ATMLH905 SOP ATTINY13V-10SI ATMEL ATMLH906 SOP ATTINY15L-1PI ATMEL ATMLH907 SOP ATTINY2313-20PI ATMEL ATMLH908 SOP ATTINY2313-20SI ATMEL ATMLH909 SOP ATTINY2313V-10PI ATMEL ATMLH910 SOP AT17LV010-10PI 1000 ATMEL0007AT17LV256-10JI 1000 ATMEL0008AT17LV256-10PC 1000 ATMEL0009AT17LV256-10PI 1000 ATMEL0010AT17LV512-10PC 1000 ATMEL0011 AT17LV512-10PC 1000 ATMEL0012 AT17LV512A-10PI 1000 ATMEL0013 AT17LV65-10PI 1000 ATMEL0014 AT22V10-15DC 1000 ATMEL0015 AT22V10-15JC 1000 ATMEL0016 AT22V10-15KC 1000 ATMEL0017 AT22V10-20DC 1000 ATMEL0018 AT22V10-20JC 1000 ATMEL0019 AT22V10-25DC 1000 ATMEL0020 AT22V10-25JC 1000 ATMEL0021 AT22V10-25JI 1000 ATMEL0022 AT22V10-25KC 1000 ATMEL0023 AT22V10-35DC 1000 ATMEL0024 AT22V10-35JC 1000 ATMEL0025 AT22V10-35KC 1000 ATMEL0026 AT22V10-35PC 1000 ATMEL0027 AT22V10L-20PC 1000 ATMEL0028 AT22V10L-25DC 1000 ATMEL0029 AT22V10L-25JC 1000 ATMEL0030 AT22V10L-25JI 1000 ATMEL0031 AT22V10L-35DC 1000 ATMEL0032 AT24C01-10PC 1000 ATMEL0033AT24C01-10PI 1000 ATMEL00351000 ATMEL0036AT24C01-10SC 1000 ATMEL0037 AT24C01A-10PC 8000 ATMEL0038 AT24C01A-10SC 8000 ATMEL0039 8000 ATMEL00408000 ATMEL06018000 ATMEL0041AT24C01BN-SH-B 8000 ATMEL0042 AT24C01BN-SH-T 8000 ATMEL0043 AT24C01B-PU 8000 ATMEL0602AT24C01B-TH-B 8000 ATMEL0044 AT24C01B-TH-T 8000 ATMEL0045 AT24C01BTSU-T 8000 ATMEL0603 AT24C01BU3-UU-T 8000 ATMEL0604 AT24C01B-W-11 8000 ATMEL0046 AT24C01BY6-YH-T 8000 ATMEL0047 8000 ATMEL0048AT24C02-10PC 8000 ATMEL00498000 ATMEL00508000 ATMEL00518000 ATMEL00528000 ATMEL01018000 ATMEL01028000 ATMEL01038000 ATMEL06068000 ATMEL01048000 ATMEL06078000 ATMEL01058000 ATMEL01068000 ATMEL01078000 ATMEL01088000 ATMEL01098000 ATMEL06088000 ATMEL01108000 ATMEL01118000 ATMEL0112 8000 ATMEL0113 8000 ATMEL01148000 ATMEL06098000 ATMEL06108000 ATMEL01158000 ATMEL01168000 ATMEL01178000 ATMEL06118000 ATMEL06138000 ATMEL01188000 ATMEL01198000 ATMEL01208000 ATMEL06148000 ATMEL06158000 ATMEL01218000 ATMEL01228000 ATMEL01238000 ATMEL06168000 ATMEL06178000 ATMEL01248000 ATMEL0125AT24C16-10PI 8000 ATMEL0126 8000 ATMEL0127AT24C164-10PC 8000 ATMEL0128 8000 ATMEL0129AT24C164-10PI 8000 ATMEL0130 AT24C164-10SC 8000 ATMEL0131 8000 ATMEL01328000 ATMEL01338000 ATMEL01348000 ATMEL01368000 ATMEL01378000 ATMEL0138AT24C16N-SC 8000 ATMEL0139 8000 ATMEL01408000 ATMEL01418000 ATMEL01428000 ATMEL01438000 ATMEL01448000 ATMEL01458000 ATMEL0146AT24C256-10PC 8000 ATMEL0147 8000 ATMEL01488000 ATMEL01498000 ATMEL01508000 ATMEL01518000 ATMEL01528000 ATMEL0201AT24C32-10PC 8000 ATMEL0202 AT24C32－ 8000 ATMEL02038000 ATMEL02048000 ATMEL02058000 ATMEL0207AT24C32N-SC 8000 ATMEL0208AT24C32W-10SI 8000 ATMEL02098000 ATMEL02108000 ATMEL06188000 ATMEL02118000 ATMEL02128000 ATMEL02138000 ATMEL02148000 ATMEL06198000 ATMEL02158000 ATMEL02168000 ATMEL02178000 ATMEL02188000 ATMEL02198000 ATMEL06208000 ATMEL02208000 ATMEL0221AT24C64-SC 8000 ATMEL0222AT24RF08CN 1000 ATMEL0223。

AT24C01BN-SH-B/T ATMEL ATMLU701DIP AT24C01B-PU ATMEL ATMLU702DIP AT24C02B-10PU-1.8ATMEL ATMLU703DIP AT24C02BN-SH-B/T ATMEL ATMLU704DIP AT24C02B-PU ATMEL ATMLU705DIP AT24C04-10PU-2.7ATMEL ATMLU706DIP AT24C04BN-SH-B ATMEL ATMLU707DIP AT24C04N-10SU-2.7ATMEL ATMLU708DIP AT24C08A-10PU-2.7ATMEL ATMLU709DIP AT24C08A-10TU-2.7ATMEL ATMLU710DIP AT24C08AN-10SU-2.7ATMEL ATMLU711DIP AT24C128-10PU-2.7ATMEL ATMLU712DIP AT24C128N-10SU-2.7-SL383ATMEL ATMLU713DIP AT24C16A-10PU-2.7ATMEL ATMLU714DIP AT24C16A-10TI-1.8ATMEL ATMLU715DIP AT24C16AN-10SU-2.7ATMEL ATMLU716DIP AT24C16BN-SH-B ATMEL ATMLU717DIP AT24C256B-10PU-1.8ATMEL ATMLU718DIP AT24C256BN-10SU-1.8ATMEL ATMLU719DIP AT24C256BN-SH-T ATMEL ATMLU720DIP AT24C256B-PU ATMEL ATMLU721DIP AT24C256N-10SI18ATMEL ATMLU722DIP AT24C32A-10PU-2.7ATMEL ATMLU723DIP AT24C32AN-10SU-2.7ATMEL ATMLU724DIP AT24C32CN-SH-T ATMEL ATMLU725DIP AT24C512-10PU-2.7ATMEL ATMLU726DIP AT24C512BN-SH25-B ATMEL ATMLU727DIP AT24C512BN-SH-B ATMEL ATMLU728DIP AT24C512B-PU25ATMEL ATMLU729DIP AT24C512N-10SU-2.7ATMEL ATMLU730DIP AT24C64A-10PU-2.7ATMEL ATMLU731DIP AT24C64AN-10SU-2.7ATMEL ATMLU732DIP AT24C64CN-SH-B ATMEL ATMLU733DIP AT24C64CN-SH-T ATMEL ATMLU734DIP AT25128A-10PU-2.7ATMEL ATMLU735DIP AT25256AN-10SU-2.7ATMEL ATMLU736DIP AT25DF041A-SH-B ATMEL ATMLU737DIP AT25F1024AN-10SU-2.7-SL383ATMEL ATMLU738DIP AT25F512AN-10SU-2.7-SL383ATMEL ATMLU739DIP AT26DF081A-SSU-SL965ATMEL ATMLU740DIP AT26DF081A-SU-SL965ATMEL ATMLU741DIP AT26DF161-SU ATMEL ATMLU742DIP AT26DF321-SU ATMEL ATMLU743DIP AT27BV256-70JU ATMEL ATMLU744DIP AT27C010-70PU ATMEL ATMLU745DIP AT27C040-70PU ATMEL ATMLU746DIP AT27C256R-70JU ATMEL ATMLU747DIPAT27C256R-70PU ATMEL ATMLU748DIP AT27C512R-70JU ATMEL ATMLU749DIP AT28BV256-20TU ATMEL ATMLU750DIP AT28C256-15PU ATMEL ATMLU751DIP AT28C64B-15JU ATMEL ATMLU752DIP AT28C64B-15PU ATMEL ATMLU801DIP AT28C64B-15SU ATMEL ATMLU802DIP AT29C010A-70JU ATMEL ATMLU803DIP AT29C020-90JU ATMEL ATMLU804DIP AT29C020-90TU ATMEL ATMLU805DIP AT29C040A-90JU ATMEL ATMLU806DIP AT29C040A-90TU ATMEL ATMLU807DIP AT29LV020-10TU ATMEL ATMLU808DIP AT29LV040A-15JU ATMEL ATMLU809DIP AT29LV512-12JU ATMEL ATMLU810DIP AT45DB021B-SU ATMEL ATMLU811DIP AT45DB041D-SU ATMEL ATMLU812DIP AT45DB081D-SU ATMEL ATMLU813DIP AT45DB161D-SU ATMEL ATMLU814DIP AT45DB161D-TU ATMEL ATMLU815DIP AT45DB321D-SU ATMEL ATMLU816DIP AT45DB321D-TU ATMEL ATMLU817DIP AT45DB642D-TU ATMEL ATMLU818DIP AT47BV163A-70TU ATMEL ATMLU819DIP AT49BV040B-JU ATMEL ATMLU820DIP AT49BV322DT-70TU ATMEL ATMLU821DIP AT49BV512-90TU ATMEL ATMLU822DIP AT73C213ATMEL ATMLU823DIP AT76C112ATMEL ATMLU824DIP AT76C120H-MU1-JZ208ATMEL ATMLU825DIP AT80251G2D-SLSUM ATMEL ATMLU826DIP AT80C32X2-3CSUM ATMEL ATMLU827DIP AT80C32X2-RLTUM ATMEL ATMLU828DIP AT80C32X2-SLSUM ATMEL ATMLU829DIP AT83C24-TISIL ATMEL ATMLU830DIP AT88SC0104C-SU ATMEL ATMLU831DIP AT88SC153-10SU ATMEL ATMLU832DIP AT89C2051-12PU ATMEL ATMLU833DIP AT89C2051-12SU ATMEL ATMLU834DIP AT89C2051-24PU ATMEL ATMLU835DIP AT89C2051-24SU ATMEL ATMLU836DIP AT89C4051-24PU ATMEL ATMLU837DIP AT89C4051-24SU ATMEL ATMLU838DIP AT89C5131A-S3SUM ATMEL ATMLU839DIP AT89C51AC2-RLTUM ATMEL ATMLU840DIP AT89C51CC01CA-RLTUM ATMEL ATMLU841DIP AT89C51CC01CA-SLSUM ATMEL ATMLU842DIPAT89C51CC01UA-RLTUM ATMEL ATMLU843DIP AT89C51CC01UA-SLSUM ATMEL ATMLU844DIP AT89C51ED2-RDTUM ATMEL ATMLU845DIP AT89C51ED2-RLTUM ATMEL ATMLU846DIP AT89C51ED2-SLSUM ATMEL ATMLU847DIP AT89C51ED2-SMSUM ATMEL ATMLU848DIP AT89C51RB2-3CSUM ATMEL ATMLU849DIP AT89C51RB2-RLTUM ATMEL ATMLU850DIP AT89C51RB2-SLSUM ATMEL ATMLU851DIP AT89C51RC2-3CSUM ATMEL ATMLU852DIP AT89C51RC-24JU ATMEL ATMLU901DIP AT89C51RC-24PU ATMEL ATMLU902DIP AT89C51RC2-RLTUM ATMEL ATMLU903DIP AT89C51RC2-SLSUM ATMEL ATMLU904DIP AT89C51RD2-RLTUM ATMEL ATMLU905DIP AT89C51RD2-SLRUM ATMEL ATMLU906DIP AT89C51RD2-SLSUM ATMEL ATMLU907DIP AT89C51-24PC ATMEL ATMLU908DIP AT89C51-24PI ATMEL ATMLU909DIP AT89C52-24JI ATMEL ATMLU910DIP AT89C52-24PI ATMEL ATMLH701SOP AT89C55WD-24AU ATMEL ATMLH702SOP AT89C55WD-24JU ATMEL ATMLH703SOP AT89C55WD-24PU ATMEL ATMLH704SOP AT89LS52-16JU ATMEL ATMLH705SOP AT89LS52-16PU ATMEL ATMLH706SOP AT89LV51-12AI ATMEL ATMLH707SOP AT89S51-24AU ATMEL ATMLH708SOP AT89S51-24PU ATMEL ATMLH709SOP AT89S52-24AU ATMEL ATMLH710SOP AT89S52-24JU ATMEL ATMLH711SOP AT89S52-24PU ATMEL ATMLH712SOP AT89S54-3CSIM ATMEL ATMLH713SOP AT89S54-SLSIM ATMEL ATMLH714SOP AT89S58-SLSIM ATMEL ATMLH715SOP AT89S8253-24AU ATMEL ATMLH716SOP AT89S8253-24JU ATMEL ATMLH717SOP AT89S8253-24PU ATMEL ATMLH718SOP AT90CAN128-16AU ATMEL ATMLH719SOP AT90CAN32-16AU ATMEL ATMLH720SOP AT91M40800-33AU ATMEL ATMLH721SOP AT91M55800A-33AU ATMEL ATMLH722SOP AT91RM9200-CJ-002ATMEL ATMLH723SOP AT91RM9200-QU-002ATMEL ATMLH724SOP AT91SAM7S256-AU-001ATMEL ATMLH725SOP AT91SAM7S321-AU ATMEL ATMLH726SOP AT91SAM7S32-AU-001ATMEL ATMLH727SOPAT91SAM7S64-AU-001ATMEL ATMLH728SOP AT91SAM7SE32-AU ATMEL ATMLH729SOP AT91SAM7X256-AU ATMEL ATMLH730SOP AT91SAM9260-CJ ATMEL ATMLH731SOP AT91SAM9260-EK ATMEL ATMLH732SOP AT91SAM9261-EK ATMEL ATMLH733SOP AT91SAM9261S-CU ATMEL ATMLH734SOP AT91SAM9263-CU ATMEL ATMLH735SOP AT91SAM7X-EK ATMEL ATMLH736SOP AT91SAM-ICE ATMEL ATMLH737SOP AT93C46-10PU-2.7ATMEL ATMLH738SOP AT93C46-10SU-2.7ATMEL ATMLH739SOP AT93C46DN-SH-B ATMEL ATMLH740SOP AT93C46D-TH-T ATMEL ATMLH741SOP AT93C56A-10PU-2.7ATMEL ATMLH742SOP AT93C56A-10SU-2.7ATMEL ATMLH743SOP AT93C66A-10PU27ATMEL ATMLH744SOP AT93C66A-10SU-2.7ATMEL ATMLH745SOP AT93C66A-10SU-2.7-SL383ATMEL ATMLH746SOP ATAVRDRAGON ATMEL ATMLH747SOP ATAVRISP2ATMEL ATMLH748SOP ATF1502AS-15JC44ATMEL ATMLH749SOP ATF1508AS-15AC100ATMEL ATMLH750SOP ATF1508AS-15JC84ATMEL ATMLH751SOP ATF16V8B-15JU ATMEL ATMLH752SOP ATF16V8B-15PC ATMEL ATMLH801SOP ATF16V8B-15PU ATMEL ATMLH802SOP ATF16V8BQL-15JC ATMEL ATMLH803SOP ATF20V8B-15JC ATMEL ATMLH804SOP ATJTAGICE2ATMEL ATMLH805SOP ATMEGA1280V-8AU ATMEL ATMLH806SOP ATMEGA128-16AU ATMEL ATMLH807SOP ATMEGA128L-8AU ATMEL ATMLH808SOP ATMEGA16-16AU ATMEL ATMLH809SOP ATMEGA16-16PU ATMEL ATMLH810SOP ATMEGA162-16PU ATMEL ATMLH811SOP ATMEGA162V-8AU ATMEL ATMLH812SOP ATMEGA168-20AU ATMEL ATMLH813SOP ATMEGA168-20MU ATMEL ATMLH814SOP ATMEGA168-20PU ATMEL ATMLH815SOP ATMEGA168V-10AU ATMEL ATMLH816SOP ATMEGA169P-16AU ATMEL ATMLH817SOP ATMEGA169PV-8AU ATMEL ATMLH818SOP ATMEGA169V-8AU ATMEL ATMLH819SOP ATMEGA16L-8AU ATMEL ATMLH820SOP ATMEGA16L-8PU ATMEL ATMLH821SOP ATMEGA32-16AU ATMEL ATMLH822SOPATMEGA32-16PU ATMEL ATMLH823SOP ATMEGA325V-8MU ATMEL ATMLH824SOP ATMEGA32L-8AU ATMEL ATMLH825SOP ATMEGA32L-8PU ATMEL ATMLH826SOP ATMEGA48-20AU ATMEL ATMLH827SOP ATMEGA48V-10AU ATMEL ATMLH828SOP ATMEGA48V-10PU ATMEL ATMLH829SOP ATMEGA48V-10MU ATMEL ATMLH830SOP ATMEGA640V-8AU ATMEL ATMLH831SOP ATMEGA64-16AU ATMEL ATMLH832SOP ATMEGA64L-8AU ATMEL ATMLH833SOP ATMEGA8-16AU ATMEL ATMLH834SOP ATMEGA8-16PU ATMEL ATMLH835SOP ATMEGA8515-16AU ATMEL ATMLH836SOP ATMEGA8515-16JU ATMEL ATMLH837SOP ATMEGA8515-16PU ATMEL ATMLH838SOP ATMEGA8515L-8JU ATMEL ATMLH839SOP ATMEGA8535-16JI ATMEL ATMLH840SOP ATMEGA8535-16JU ATMEL ATMLH841SOP ATMEGA8535-16PU ATMEL ATMLH842SOP 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AT24C08AN-10SI-2.7ATMEL ATMLU711DIP AT24C128-10PI-2.7ATMEL ATMLU712DIP AT24C128N-10SI-2.7-SL383ATMEL ATMLU713DIP AT24C16A-10PI-2.7ATMEL ATMLU714DIP AT24C16A-10TI-1.8ATMEL ATMLU715DIP AT24C16AN-10SI-2.7ATMEL ATMLU716DIP AT24C16BN-SH-B ATMEL ATMLU717DIP AT24C256B-10PI-1.8ATMEL ATMLU718DIP AT24C256BN-10SI-1.8ATMEL ATMLU719DIP AT24C256BN-SH-T ATMEL ATMLU720DIP AT24C256B-PI ATMEL ATMLU721DIP AT24C256N-10SI18ATMEL ATMLU722DIP AT24C32A-10PI-2.7ATMEL ATMLU723DIP AT24C32AN-10SI-2.7ATMEL ATMLU724DIP AT24C32CN-SH-T ATMEL ATMLU725DIP AT24C512-10PI-2.7ATMEL ATMLU726DIP AT24C512BN-SH25-B ATMEL ATMLU727DIP AT24C512BN-SH-B ATMEL ATMLU728DIP AT24C512B-PI25ATMEL ATMLU729DIP AT24C512N-10SI-2.7ATMEL ATMLU730DIP AT24C64A-10PI-2.7ATMEL ATMLU731DIP AT24C64AN-10SI-2.7ATMEL ATMLU732DIP AT24C64CN-SH-B ATMEL ATMLU733DIP AT24C64CN-SH-T ATMEL ATMLU734DIP AT25128A-10PI-2.7ATMEL ATMLU735DIP AT25256AN-10SI-2.7ATMEL ATMLU736DIP AT25DF041A-SH-B ATMEL ATMLU737DIP AT25F1024AN-10SI-2.7-SL383ATMEL ATMLU738DIP AT25F512AN-10SI-2.7-SL383ATMEL ATMLU739DIP AT26DF081A-SSI-SL965ATMEL ATMLU740DIP AT26DF081A-SI-SL965ATMEL ATMLU741DIP AT26DF161-SI ATMEL ATMLU742DIP AT26DF321-SI ATMEL ATMLU743DIP AT27BV256-70JI ATMEL ATMLU744DIP AT27C010-70PI ATMEL ATMLU745DIP AT27C040-70PI ATMEL ATMLU746DIP AT27C256R-70JI ATMEL ATMLU747DIP AT27C256R-70PI ATMEL ATMLU748DIP AT27C512R-70JI ATMEL ATMLU749DIP AT28BV256-20TI ATMEL ATMLU750DIP AT28C256-15PI ATMEL ATMLU751DIP AT28C64B-15JI ATMEL ATMLU752DIP AT28C64B-15PI ATMEL ATMLU801DIP AT28C64B-15SI ATMEL ATMLU802DIPAT29C010A-70JI ATMEL ATMLU803DIP AT29C020-90JI ATMEL ATMLU804DIP AT29C020-90TI ATMEL ATMLU805DIP AT29C040A-90JI ATMEL ATMLU806DIP AT29C040A-90TI ATMEL ATMLU807DIP AT29LV020-10TI ATMEL ATMLU808DIP AT29LV040A-15JI ATMEL ATMLU809DIP AT29LV512-12JI ATMEL ATMLU810DIP AT45DB021B-SI ATMEL ATMLU811DIP AT45DB041D-SI ATMEL ATMLU812DIP AT45DB081D-SI ATMEL ATMLU813DIP AT45DB161D-SI ATMEL ATMLU814DIP AT45DB161D-TI ATMEL ATMLU815DIP AT45DB321D-SI ATMEL ATMLU816DIP 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AT22V10L-35DC1000ATMEL0032 AT24C01-10PC1000ATMEL0033 AT24C01-10PC2.51000ATMEL0034 AT24C01-10PI1000ATMEL0035 AT24C01-10PI2.51000ATMEL0036 AT24C01-10SC1000ATMEL0037 AT24C01A-10PC8000ATMEL0038 AT24C01A-10SC8000ATMEL0039 AT24C01A-10SI2.78000ATMEL0040 AT24C01A-10SU-1.8V8000ATMEL0601 AT24C01A-10TI2.78000ATMEL0041 AT24C01BN-SH-B8000ATMEL0042 AT24C01BN-SH-T8000ATMEL0043 AT24C01B-PU8000ATMEL0602 AT24C01B-TH-B8000ATMEL0044 AT24C01B-TH-T8000ATMEL0045 AT24C01BTSU-T8000ATMEL0603 AT24C01BU3-UU-T8000ATMEL0604 AT24C01B-W-118000ATMEL0046 AT24C01BY6-YH-T8000ATMEL0047 AT24C01N-10SC2.78000ATMEL0048 AT24C02-10PC8000ATMEL0049 AT24C02-10PC1.88000ATMEL0050 AT24C02-10PI2.78000ATMEL0051 AT24C02-10TI2.78000ATMEL0052 AT24C02AN-10SU2.78000ATMEL0605 AT24C02N-10SC1.88000ATMEL0101 AT24C02N-10SI1.88000ATMEL0102 AT24C04-10PI2.78000ATMEL0103 AT24C04-10PU-2.7V8000ATMEL0606 AT24C04-10TI-2.78000ATMEL0104 AT24C04-10TU-2.78000ATMEL0607 AT24C04A-10TI-2.78000ATMEL0105 AT24C04N-10SI1.88000ATMEL0106 AT24C08-10PI2.78000ATMEL0107 AT24C08A-10TI2.78000ATMEL0108AT24C08AN-10SI2.78000ATMEL0109 AT24C08AN-10SU2.78000ATMEL0608 AT24C1024-10PI2.78000ATMEL0110 AT24C1024W-10SI2.78000ATMEL0111 AT24C11-10PI-1.88000ATMEL0112 AT24C11-10PI-2.78000ATMEL0113 AT24C11-10PI-2.78000ATMEL0114 AT24C11-10PU-1.88000ATMEL0609 AT24C11-10PU-2.78000ATMEL0610 AT24C11-10TI-1.88000ATMEL0115 AT24C11-10TI-2.78000ATMEL0116 AT24C11-10TQ-2.78000ATMEL0117 AT24C11-10TSU-1.88000ATMEL0611 AT24C11-10TU-1.88000ATMEL0612 AT24C11-10TU-2.78000ATMEL0613 AT24C11N-10SI-1.88000ATMEL0118 AT24C11N-10SI-2.78000ATMEL0119 AT24C11N-10SQ-2.78000ATMEL0120 AT24C11N-10SU-1.88000ATMEL0614 AT24C11N-10SU-2.78000ATMEL0615 AT24C11-W1.8-118000ATMEL0121 AT24C11-W2.7-118000ATMEL0122 AT24C128-10PI2.78000ATMEL0123 AT24C128-10TU-1.88000ATMEL0616 AT24C128-10TU-2.78000ATMEL0617 AT24C128N-10SI1.88000ATMEL0124 AT24C128N-10SI2.78000ATMEL0125 AT24C16-10PI8000ATMEL0126 AT24C16-10TC1.88000ATMEL0127 AT24C164-10PC8000ATMEL0128 AT24C164-10PC2.78000ATMEL0129 AT24C164-10PI8000ATMEL0130 AT24C164-10SC8000ATMEL0131 AT24C164-10SI1.88000ATMEL0132 AT24C164-10SI2.78000ATMEL0133 AT24C164-10SI-2.78000ATMEL0134 AT24C16A-10PI2.78000ATMEL0135 AT24C16A-10TI1.88000ATMEL0136 AT24C16AN-10SI1.88000ATMEL0137 AT24C16AN-10SI2.78000ATMEL0138 AT24C16N-SC8000ATMEL0139 AT24C16N-SI2.78000ATMEL0140 AT24C21-10PC2.58000ATMEL0141 AT24C21-10PC-2.58000ATMEL0142 AT24C21-10SC2.58000ATMEL0143 AT24C21-10SI2.58000ATMEL0144 AT24C21-SC2.58000ATMEL0145AT24C256-10CI-2.78000ATMEL0146 AT24C256-10PC8000ATMEL0147 AT24C256-10PI2.78000ATMEL0148 AT24C256-10TI2.78000ATMEL0149 AT24C256N-10SI1.88000ATMEL0150 AT24C256N-10SI2.78000ATMEL0151 AT24C256T1-10TI2.78000ATMEL0152 AT24C257N-10SC-2.78000ATMEL0201 AT24C32-10PC8000ATMEL0202 AT24C32－10PI2.78000ATMEL0203 AT24C32A-10PI2.78000ATMEL0204 AT24C32AN-10SI2.78000ATMEL0205 AT24C32N-10SI1.88000ATMEL0206 AT24C32N-10SI2.78000ATMEL0207 AT24C32N-SC8000ATMEL0208 AT24C32W-10SI8000ATMEL0209 AT24C512-10PI2.78000ATMEL0210 AT24C512-10PU-2.7V8000ATMEL0618 AT24C512-10TI2.78000ATMEL0211 AT24C512-10UI-2.78000ATMEL0212 AT24C512C1-10CI2.78000ATMEL0213 AT24C512N-10SI2.78000ATMEL0214 AT24C512N-10SU2.78000ATMEL0619 AT24C512W-10SI2.78000ATMEL0215 AT24C64-10PC2.78000ATMEL0216 AT24C64-10TI2.78000ATMEL0217 AT24C64A-10PI2.78000ATMEL0218 AT24C64AN-10SI2.78000ATMEL0219 AT24C64AN-10SU1.88000ATMEL0620 AT24C64N-10SI1.88000ATMEL0220 AT24C64N-10SI2.78000ATMEL0221 AT24C64-SC8000ATMEL0222 AT24RF08CN1000ATMEL0223。

1available on our web site at .1.Features•High-performance, Low-power AVR ® 8-bit Microcontroller •Advanced RISC Architecture–133 Powerful Instructions – Most Single Clock Cycle Execution–32 x 8 General Purpose Working Registers + Peripheral Control Registers –Fully Static Operation–Up to 16 MIPS Throughput at 16 MHz –On-chip 2-cycle Multiplier•Non volatile Program and Data Memories–32K/64K Bytes of In-System Reprogrammable Flash (AT90CAN32/64)•Endurance: 10,000 Write/Erase Cycles–Optional Boot Code Section with Independent Lock Bits•Selectable Boot Size: 1K Bytes, 2K Bytes, 4K Bytes or 8K Bytes •In-System Programming by On-Chip Boot Program (CAN, UART)•True Read-While-Write Operation–1K/2K Bytes EEPROM (Endurance: 100,000 Write/Erase Cycles ) (AT90CAN32/64)–2K/4K Bytes Internal SRAM (AT90CAN32/64)–Up to 64K Bytes Optional External Memory Space –Programming Lock for Software Security •JTAG (IEEE std. 1149.1 Compliant) Interface–Boundary-scan Capabilities According to the JTAG Standard –Programming Flash (Hardware ISP), EEPROM, Lock & Fuse Bits –Extensive On-chip Debug Support •CAN Controller 2.0A & 2.0B–15 Full Message Objects with Separate Identifier Tags and Masks–Transmit, Receive, Automatic Reply and Frame Buffer Receive Modes –1Mbits/s Maximum Transfer Rate at 8 MHz–Time stamping, TTC & Listening Mode (Spying or Autobaud)•Peripheral Features–Programmable Watchdog Timer with On-chip Oscillator –8-bit Synchronous Timer/Counter-0•10-bit Prescaler•External Event Counter•Output Compare or 8-bit PWM Output –8-bit Asynchronous Timer/Counter-2•10-bit Prescaler•External Event Counter•Output Compare or 8-Bit PWM Output •32Khz Oscillator for RTC Operation–Dual 16-bit Synchronous Timer/Counters-1 & 3•10-bit Prescaler•Input Capture with Noise Canceler •External Event Counter•3-Output Compare or 16-Bit PWM Output •Output Compare Modulation –8-channel, 10-bit SAR ADC•8 Single-ended Channels •7 Differential Channels•2 Differential Channels With Programmable Gain at 1x, 10x, or 200x –On-chip Analog Comparator–Byte-oriented Two-wire Serial Interface –Dual Programmable Serial USART –Master/Slave SPI Serial Interface•Programming Flash (Hardware ISP)•Special Microcontroller Features–Power-on Reset and Programmable Brown-out Detection –Internal Calibrated RC Oscillator –8 External Interrupt Sources–5 Sleep Modes: Idle, ADC Noise Reduction, Power-save, Power-down & Standby –Software Selectable Clock Frequency –Global Pull-up Disable •I/O and Packages–53 Programmable I/O Lines –64-lead TQFP and 64-lead QFN •Operating Voltages –2.7 - 5.5V•Operating temperature–Industrial (-40°C to +85°C)•Maximum Frequency–8 MHz at 2.7V - Industrial range –16 MHz at 4.5V - Industrial range8-bit Microcontroller 32/64K Bytes of ISP Flash CAN Controller AT90CAN32AT90CAN6427538AS–CAN–09/05AT90CAN32/642.Description2.1Comparison Between AT90CAN32/64 and AT90CAN128AT90CAN32/64 is hardware and software compatible with AT90CAN128, the only difference is the memory size. 2.2Part DesriptionThe AT90CAN32/64 is a low-power CMOS 8-bit microcontroller based on the AVR enhanced RISC architecture. By executing powerful instructions in a single clock cycle, the AT90CAN32/64 achieves throughputs approaching 1 MIPS per MHz allowing the system designer to optimize power consumption versus processing speed.The AVR core combines a rich instruction set with 32 general purpose working registers. All 32 registers are directly connected to the Arithmetic Logic Unit (ALU), allowing two independent registers to be accessed in one single instruction executed in one clock cycle. The resulting architecture is more code efficient while achieving throughputs up to ten times faster than con-ventional CISC microcontrollers.The AT90CAN32/64 provides the following features: 32K/64K bytes of In-System Programmable Flash with Read-While-Write capabilities, 1K/2K bytes EEPROM, 2K/4K bytes SRAM, 53 gen-eral purpose I/O lines, 32 general purpose working registers, a CAN controller, Real Time Counter (RTC), four flexible Timer/Counters with compare modes and PWM, 2 USARTs, a byte oriented Two-wire Serial Interface, an 8-channel 10-bit ADC with optional differential input stage with programmable gain, a programmable Watchdog Timer with Internal Oscillator, an SPI serial port, IEEE std. 1149.1 compliant JTAG test interface, also used for accessing the On-chip Debug system and programming and five software selectable power saving modes.The Idle mode stops the CPU while allowing the SRAM, Timer/Counters, SPI/CAN ports and interrupt system to continue functioning. The Power-down mode saves the register contents but freezes the Oscillator, disabling all other chip functions until the next interrupt or Hardware Reset. In Power-save mode, the asynchronous timer continues to run, allowing the user to main-tain a timer base while the rest of the device is sleeping. The ADC Noise Reduction mode stops the CPU and all I/O modules except Asynchronous Timer and ADC, to minimize switching noise during ADC conversions. In Standby mode, the Crystal/Resonator Oscillator is running while the rest of the device is sleeping. This allows very fast start-up combined with low power consumption.The device is manufactured using Atmel’s high-density nonvolatile memory technology. The On-chip ISP Flash allows the program memory to be reprogrammed in-system through an SPI serial interface, by a conventional nonvolatile memory programmer, or by an On-chip Boot program running on the AVR core. The boot program can use any interface to download the application program in the application Flash memory. Software in the Boot Flash section will continue to run while the Application Flash section is updated, providing true Read-While-Write operation. By combining an 8-bit RISC CPU with In-System Self-Programmable Flash on a monolithic chip,Table 2-1.Memory Size SummaryDevice Flash EEPROM RAM AT90CAN3232K Bytes 1K Byte 2K Bytes AT90CAN6464K Bytes 2K Bytes 4K Bytes AT90CAN128128K Bytes4K Byte4K Bytes37538AS–CAN–09/05AT90CAN32/64the Atmel AT90CAN32/64 is a powerful microcontroller that provides a highly flexible and cost effective solution to many embedded control applications.The AT90CAN32/64 AVR is supported with a full suite of program and system development tools including: C compilers, macro assemblers, program debugger/simulators, in-circuit emula-tors, and evaluation kits.47538AS–CAN–09/05AT90CAN32/642.3Block DiagramFigure 2-1.Block Diagram57538AS–CAN–09/05AT90CAN32/642.4Pin ConfigurationsFigure 2-2.Pinout AT90CAN32/64 - TQFP67538AS–CAN–09/05AT90CAN32/64Figure 2-3.Pinout AT90CAN32/64 - QFN77538AS–CAN–09/05AT90CAN32/642.5Pin Descriptions2.5.1VCCDigital supply voltage.2.5.2GNDGround.2.5.3Port A (PA7..PA0)Port A is an 8-bit bi-directional I/O port with internal pull-up resistors (selected for each bit). The Port A output buffers have symmetrical drive characteristics with both high sink and source capability. As inputs, Port A pins that are externally pulled low will source current if the pull-up resistors are activated. The Port A pins are tri-stated when a reset condition becomes active, even if the clock is not running.Port A also serves the functions of various special features of the AT90CAN32/64 as listed on I/O-Ports paragraph of the complete Datasheet.2.5.4Port B (PB7..PB0)Port B is an 8-bit bi-directional I/O port with internal pull-up resistors (selected for each bit). The Port B output buffers have symmetrical drive characteristics with both high sink and source capability. As inputs, Port B pins that are externally pulled low will source current if the pull-up resistors are activated. The Port B pins are tri-stated when a reset condition becomes active, even if the clock is not running.Port B also serves the functions of various special features of the AT90CAN32/64 as listed on I/O-Ports paragraph of the complete Datasheet.2.5.5Port C (PC7..PC0)Port C is an 8-bit bi-directional I/O port with internal pull-up resistors (selected for each bit). The Port C output buffers have symmetrical drive characteristics with both high sink and source capability. As inputs, Port C pins that are externally pulled low will source current if the pull-up resistors are activated. The Port C pins are tri-stated when a reset condition becomes active, even if the clock is not running.Port C also serves the functions of special features of the AT90CAN32/64 as listed on I/O-Ports paragraph of the complete Datasheet.2.5.6Port D (PD7..PD0)Port D is an 8-bit bi-directional I/O port with internal pull-up resistors (selected for each bit). The Port D output buffers have symmetrical drive characteristics with both high sink and source capability. As inputs, Port D pins that are externally pulled low will source current if the pull-up resistors are activated. The Port D pins are tri-stated when a reset condition becomes active, even if the clock is not running.Port D also serves the functions of various special features of the AT90CAN32/64 as listed on I/O-Ports paragraph of the complete Datasheet.2.5.7Port E (PE7..PE0)Port E is an 8-bit bi-directional I/O port with internal pull-up resistors (selected for each bit). The Port E output buffers have symmetrical drive characteristics with both high sink and source capability. As inputs, Port E pins that are externally pulled low will source current if the pull-up87538AS–CAN–09/05AT90CAN32/64resistors are activated. The Port E pins are tri-stated when a reset condition becomes active, even if the clock is not running.Port E also serves the functions of various special features of the AT90CAN32/64 as listed on I/O-Ports paragraph of the complete Datasheet.2.5.8Port F (PF7..PF0)Port F serves as the analog inputs to the A/D Converter.Port F also serves as an 8-bit bi-directional I/O port, if the A/D Converter is not used. Port pins can provide internal pull-up resistors (selected for each bit). The Port F output buffers have sym-metrical drive characteristics with both high sink and source capability. As inputs, Port F pins that are externally pulled low will source current if the pull-up resistors are activated. The Port F pins are tri-stated when a reset condition becomes active, even if the clock is not running.Port F also serves the functions of the JTAG interface. If the JTAG interface is enabled, the pull-up resistors on pins PF7(TDI), PF5(TMS), and PF4(TCK) will be activated even if a reset occurs.2.5.9Port G (PG4..PG0)Port G is a 5-bit I/O port with internal pull-up resistors (selected for each bit). The Port G output buffers have symmetrical drive characteristics with both high sink and source capability. As inputs, Port G pins that are externally pulled low will source current if the pull-up resistors are activated. The Port G pins are tri-stated when a reset condition becomes active, even if the clock is not running.Port G also serves the functions of various special features of the AT90CAN32/64 as listed on I/O-Ports paragraph of the complete Datasheet.2.5.10RESETReset input. A low level on this pin for longer than the minimum pulse length will generate a reset. The minimum pulse length is given in characteristics. Shorter pulses are not guaranteed to generate a reset. The I/O ports of the AVR are immediately reset to their initial state even if the clock is not running. The clock is needed to reset the rest of the AT90CAN32/64.2.5.11XTAL1Input to the inverting Oscillator amplifier and input to the internal clock operating circuit.2.5.12XTAL2Output from the inverting Oscillator amplifier.2.5.13AVCCAVCC is the supply voltage pin for the A/D Converter on Port F. It should be externally con-nected to V CC , even if the ADC is not used. If the ADC is used, it should be connected to V CC through a low-pass filter.2.5.14AREFThis is the analog reference pin for the A/D Converter.97538AS–CAN–09/05AT90CAN32/643.Register SummaryAddressNameBit 7Bit 6Bit 5Bit 4Bit 3Bit 2Bit 1Bit 0Comment(0xFF)Reserved (0xFE)Reserved (0xFD)Reserved (0xFC)Reserved (0xFB)Reserved (0xFA)CANMSG MSG 7MSG 6MSG 5MSG 4MSG 3MSG 2MSG 1MSG 0(0xF9)CANSTMH TIMSTM15TIMSTM14TIMSTM13TIMSTM12TIMSTM11TIMSTM10TIMSTM9TIMSTM8(0xF8)CANSTML TIMSTM7TIMSTM6TIMSTM5TIMSTM4TIMSTM3TIMSTM2TIMSTM1TIMSTM0(0xF7)CANIDM1IDMSK 28IDMSK 27IDMSK 26IDMSK 25IDMSK 24IDMSK 23IDMSK 22IDMSK 21(0xF6)CANIDM2IDMSK 20IDMSK 19IDMSK 18IDMSK 17IDMSK 16IDMSK 15IDMSK 14IDMSK 13(0xF5)CANIDM3IDMSK 12IDMSK 11IDMSK 10IDMSK 9IDMSK 8IDMSK 7IDMSK 6IDMSK 5(0xF4)CANIDM4IDMSK 4IDMSK 3IDMSK 2IDMSK 1IDMSK 0RTRMSK –IDEMSK (0xF3)CANIDT1IDT 28IDT 27IDT 26IDT 25IDT 24IDT 23IDT 22IDT 21(0xF2)CANIDT2IDT 20IDT 19IDT 18IDT 17IDT 16IDT 15IDT 14IDT 13(0xF1)CANIDT3IDT 12IDT 11IDT 10IDT 9IDT 8IDT 7IDT 6IDT 5(0xF0)CANIDT4IDT 4IDT 3IDT 2IDT 1IDT 0RTRTAG RB1TAG RB0TAG (0xEF)CANCDMOB CONMOB1CONMOB0RPLV IDE DLC3DLC2DLC1DLC0(0xEE)CANSTMOB DLCW TXOK RXOK BERR SERR CERR FERR AERR (0xED)CANPAGE MOBNB3MOBNB2MOBNB1MOBNB0AINC INDX2INDX1INDX0(0xEC)CANHPMOB HPMOB3HPMOB2HPMOB1HPMOB0CGP3CGP2CGP1CGP0(0xEB)CANREC REC7REC6REC5REC4REC3REC2REC1REC0(0xEA)CANTEC TEC7TEC6TEC5TEC4TEC3TEC2TEC1TEC0(0xE9)CANTTCH TIMTTC15TIMTTC14TIMTTC13TIMTTC12TIMTTC11TIMTTC10TIMTTC9TIMTTC8(0xE8)CANTTCL TIMTTC7TIMTTC6TIMTTC5TIMTTC4TIMTTC3TIMTTC2TIMTTC1TIMTTC0(0xE7)CANTIMH CANTIM15CANTIM14CANTIM13CANTIM12CANTIM11CANTIM10CANTIM9CANTIM8(0xE6)CANTIML CANTIM7CANTIM6CANTIM5CANTIM4CANTIM3CANTIM2CANTIM1CANTIM0(0xE5)CANTCON TPRSC7TPRSC6TPRSC5TPRSC4TPRSC3TPRSC2TRPSC1TPRSC0(0xE4)CANBT3–PHS22PHS21PHS20PHS12PHS11PHS10SMP (0xE3)CANBT2–SJW1SJW0–PRS2PRS1PRS0–(0xE2)CANBT1–BRP5BRP4BRP3BRP2BRP1BRP0–(0xE1)CANSIT1–SIT14SIT13SIT12SIT11SIT10SIT9SIT8(0xE0)CANSIT2SIT7SIT6SIT5SIT4SIT3SIT2SIT1SIT0(0xDF)CANIE1–IEMOB14IEMOB13IEMOB12IEMOB11IEMOB10IEMOB9IEMOB8(0xDE)CANIE2IEMOB7IEMOB6IEMOB5IEMOB4IEMOB3IEMOB2IEMOB1IEMOB0(0xDD)CANEN1–ENMOB14ENMOB13ENMOB12ENMOB11ENMOB10ENMOB9ENMOB8(0xDC)CANEN2ENMOB7ENMOB6ENMOB5ENMOB4ENMOB3ENMOB2ENMOB1ENMOB0(0xDB)CANGIE ENIT ENBOFF ENRX ENTX ENERR ENBX ENERG ENOVRT (0xDA)CANGIT CANIT BOFFIT OVRTIMBXOK SERG CERG FERG AERG (0xD9)CANGSTA –OVRG –TXBSY RXBSY ENFG BOFF ERRP (0xD8)CANGCON ABRQOVRQTTCSYNTTCLISTENTESTENA/STBSWRES(0xD7)Reserved (0xD6)Reserved (0xD5)Reserved (0xD4)Reserved (0xD3)Reserved (0xD2)Reserved (0xD1)Reserved (0xD0)Reserved (0xCF)Reserved (0xCE)UDR1UDR17UDR16UDR15UDR14UDR13UDR12UDR11UDR10(0xCD)UBRR1H ––––UBRR111UBRR110UBRR19UBRR18(0xCC)UBRR1L UBRR17UBRR16UBRR15UBRR14UBRR13UBRR12UBRR11UBRR10(0xCB)Reserved (0xCA)UCSR1C –UMSEL1UPM11UPM10USBS1UCSZ11UCSZ10UCPOL1(0xC9)UCSR1B RXCIE1TXCIE1UDRIE1RXEN1TXEN1UCSZ12RXB81TXB81(0xC8)UCSR1A RXC1TXC1UDRE1FE1DOR1UPE1U2X1MPCM1(0xC7)Reserved (0xC6)UDR0UDR07UDR06UDR05UDR04UDR03UDR02UDR01UDR00(0xC5)UBRR0H ––––UBRR011UBRR010UBRR09UBRR08(0xC4)UBRR0L UBRR07UBRR06UBRR05UBRR04UBRR03UBRR02UBRR01UBRR00(0xC3)Reserved (0xC2)UCSR0C –UMSEL0UPM01UPM00USBS0UCSZ01UCSZ00UCPOL0(0xC1)UCSR0B RXCIE0TXCIE0UDRIE0RXEN0TXEN0UCSZ02RXB80TXB80(0xC0)UCSR0A RXC0TXC0UDRE0FE0DOR0UPE0U2X0MPCM0(0xBF)Reserved107538AS–CAN–09/05AT90CAN32/64(0xBE)Reserved (0xBD)Reserved (0xBC)TWCR TWINT TWEA TWSTA TWSTO TWWC TWEN –TWIE (0xBB)TWDR TWDR7TWDR6TWDR5TWDR4TWDR3TWDR2TWDR1TWDR0(0xBA)TWAR TWAR6TWAR5TWAR4TWAR3TWAR2TWAR1TWAR0TWGCE (0xB9)TWSR TWS7TWS6TWS5TWS4TWS3–TWPS1TWPS0(0xB8)TWBR TWBR7TWBR6TWBR5TWBR4TWBR3TWBR2TWBR1TWBR0(0xB7)Reserved (0xB6)ASSR –––EXCLKAS2TCN2UBOCR2UBTCR2UB(0xB5)Reserved (0xB4)Reserved (0xB3)OCR2A OCR2A7OCR2A6OCR2A5OCR2A4OCR2A3OCR2A2OCR2A1OCR2A0(0xB2)TCNT2TCNT27TCNT26TCNT25TCNT24TCNT23TCNT22TCNT21TCNT20(0xB1)Reserved (0xB0)TCCR2A FOC2AWGM20COM2A1COM2A0WGM21CS22CS21CS20(0xAF)Reserved (0xAE)Reserved (0xAD)Reserved (0xAC)Reserved (0xAB)Reserved (0xAA)Reserved (0xA9)Reserved (0xA8)Reserved (0xA7)Reserved (0xA6)Reserved (0xA5)Reserved (0xA4)Reserved (0xA3)Reserved (0xA2)Reserved (0xA1)Reserved (0xA0)Reserved (0x9F)Reserved (0x9E)Reserved (0x9D)OCR3CH OCR3C15OCR3C14OCR3C13OCR3C12OCR3C11OCR3C10OCR3C9OCR3C8(0x9C)OCR3CL OCR3C7OCR3C6OCR3C5OCR3C4OCR3C3OCR3C2OCR3C1OCR3C0(0x9B)OCR3BH OCR3B15OCR3B14OCR3B13OCR3B12OCR3B11OCR3B10OCR3B9OCR3B8(0x9A)OCR3BL OCR3B7OCR3B6OCR3B5OCR3B4OCR3B3OCR3B2OCR3B1OCR3B0(0x99)OCR3AH OCR3A15OCR3A14OCR3A13OCR3A12OCR3A11OCR3A10OCR3A9OCR3A8(0x98)OCR3AL OCR3A7OCR3A6OCR3A5OCR3A4OCR3A3OCR3A2OCR3A1OCR3A0(0x97)ICR3H ICR315ICR314ICR313ICR312ICR311ICR310ICR39ICR38(0x96)ICR3L ICR37ICR36ICR35ICR34ICR33ICR32ICR31ICR30(0x95)TCNT3H TCNT315TCNT314TCNT313TCNT312TCNT311TCNT310TCNT39TCNT38(0x94)TCNT3L TCNT37TCNT36TCNT35TCNT34TCNT33TCNT32TCNT31TCNT30(0x93)Reserved (0x92)TCCR3C FOC3A FOC3B FOC3C ––––(0x91)TCCR3B ICNC3ICES3–WGM33WGM32CS32CS31CS30(0x90)TCCR3A COM3A1COM3A0COM3B1COM3B0COM3C1COM3C0WGM31WGM30(0x8F)Reserved (0x8E)Reserved (0x8D)OCR1CH OCR1C15OCR1C14OCR1C13OCR1C12OCR1C11OCR1C10OCR1C9OCR1C8(0x8C)OCR1CL OCR1C7OCR1C6OCR1C5OCR1C4OCR1C3OCR1C2OCR1C1OCR1C0(0x8B)OCR1BH OCR1B15OCR1B14OCR1B13OCR1B12OCR1B11OCR1B10OCR1B9OCR1B8 (0x8A)OCR1BL OCR1B7OCR1B6OCR1B5OCR1B4OCR1B3OCR1B2OCR1B1OCR1B0(0x89)OCR1AH OCR1A15OCR1A14OCR1A13OCR1A12OCR1A11OCR1A10OCR1A9OCR1A8(0x88)OCR1AL OCR1A7OCR1A6OCR1A5OCR1A4OCR1A3OCR1A2OCR1A1OCR1A0(0x87)ICR1H ICR115ICR114ICR113ICR112ICR111ICR110ICR19ICR18(0x86)ICR1L ICR17ICR16ICR15ICR14ICR13ICR12ICR11ICR10(0x85)TCNT1H TCNT115TCNT114TCNT113TCNT112TCNT111TCNT110TCNT19TCNT18(0x84)TCNT1L TCNT17TCNT16TCNT15TCNT14TCNT13TCNT12TCNT11TCNT10(0x83)Reserved (0x82)TCCR1C FOC1A FOC1B FOC1C –––––(0x81)TCCR1B ICNC1ICES1–WGM13WGM12CS12CS11CS10(0x80)TCCR1A COM1A1COM1A0COM1B1COM1B0COM1C1COM1C0WGM11WGM10(0x7F)DIDR1––––––AIN1D AIN0D (0x7E)DIDR0ADC7DADC6DADC5DADC4DADC3DADC2DADC1DADC0D(0x7D)ReservedAddressNameBit 7Bit 6Bit 5Bit 4Bit 3Bit 2Bit 1Bit 0Comment117538AS–CAN–09/05AT90CAN32/64(0x7C)ADMUX REFS1REFS0ADLAR MUX4MUX3MUX2MUX1MUX0(0x7B)ADCSRB –ACME –––ADTS2ADTS1ADTS0(0x7A)ADCSRA ADEN ADSC ADATE ADIF ADIE ADPS2ADPS1ADPS0(0x79)ADCH - / ADC9- / ADC8- / ADC7- / ADC6- / ADC5- / ADC4ADC9 / ADC3ADC8 / ADC2(0x78)ADCL ADC7 / ADC1ADC6 / ADC0ADC5 / -ADC4 / -ADC3 / -ADC2 / -ADC1 / -ADC0 /(0x77)Reserved (0x76)Reserved (0x75)XMCRB XMBK ––––XMM2XMM1XMM0(0x74)XMCRA SRESRL2SRL1SRL0SRW11SRW10SRW01SRW00(0x73)Reserved (0x72)Reserved (0x71)TIMSK3––ICIE3–OCIE3COCIE3BOCIE3A TOIE3(0x70)TIMSK2––––––OCIE2A TOIE2(0x6F)TIMSK1––ICIE1–OCIE1COCIE1BOCIE1A TOIE1(0x6E)TIMSK0––––––OCIE0ATOIE0(0x6D)Reserved (0x6C)Reserved (0x6B)Reserved (0x6A)EICRB ISC71ISC70ISC61ISC60ISC51ISC50ISC41ISC40(0x69)EICRA ISC31ISC30ISC21ISC20ISC11ISC10ISC01ISC00(0x68)Reserved (0x67)Reserved (0x66)OSCCAL –CAL6CAL5CAL4CAL3CAL2CAL1CAL0(0x65)Reserved (0x64)Reserved (0x63)Reserved (0x62)Reserved (0x61)CLKPR CLKPCE–––CLKPS3CLKPS2CLKPS1CLKPS0(0x60)WDTCR –––WDCE WDE WDP2WDP1WDP00x3F (0x5F)SREG I T H S V N Z C 0x3E (0x5E)SPH SP15SP14SP13SP12SP11SP10SP9SP80x3D (0x5D)SPL SP7SP6SP5SP4SP3SP2SP1SP00x3C (0x5C)Reserved 0x3B (0x5B)RAMPZ –––––––RAMPZ0(1)0x3A (0x5A)Reserved 0x39 (0x59)Reserved 0x38 (0x58)Reserved 0x37 (0x57)SPMCSR SPMIE RWWSB–RWWSREBLBSETPGWRTPGERS SPMEN 0x36 (0x56)Reserved ––––––––0x35 (0x55)MCUCR JTD ––PUD ––IVSEL IVCE 0x34 (0x54)MCUSR –––JTRF WDRF BORF EXTRF PORF 0x33 (0x53)SMCR ––––SM2SM1SM0SE 0x32 (0x52)Reserved 0x31 (0x51)OCDR IDRD/OCDR7OCDR6OCDR5OCDR4OCDR3OCDR2OCDR1OCDR00x30 (0x50)ACSR ACD ACBG ACO ACI ACIE ACIC ACIS1ACIS00x2F (0x4F)Reserved 0x2E (0x4E)SPDR SPD7SPD6SPD5SPD4SPD3SPD2SPD1SPD00x2D (0x4D)SPSR SPIF WCOL –––––SPI2X 0x2C (0x4C)SPCR SPIE SPE DORD MSTR CPOL CPHA SPR1SPR00x2B (0x4B)GPIOR2GPIOR27GPIOR26GPIOR25GPIOR24GPIOR23GPIOR22GPIOR21GPIOR200x2A (0x4A)GPIOR1GPIOR17GPIOR16GPIOR15GPIOR14GPIOR13GPIOR12GPIOR11GPIOR100x29 (0x49)Reserved 0x28 (0x48)Reserved 0x27 (0x47)OCR0A OCR0A7OCR0A6OCR0A5OCR0A4OCR0A3OCR0A2OCR0A1OCR0A00x26 (0x46)TCNT0TCNT07TCNT06TCNT05TCNT04TCNT03TCNT02TCNT01TCNT000x25 (0x45)Reserved 0x24 (0x44)TCCR0A FOC0A WGM00COM0A1COM0A0WGM01CS02CS01CS000x23 (0x43)GTCCR TSM –––––PSR2PSR3100x22 (0x42)EEARH ––––EEAR11EEAR10EEAR9EEAR8(2)0x21 (0x41)EEARL EEAR7EEAR6EEAR5EEAR4EEAR3EEAR2EEAR1EEAR00x20 (0x40)EEDR EEDR7EEDR6EEDR5EEDR4EEDR3EEDR2EEDR1EEDR00x1F (0x3F)EECR ––––EERIE EEMWE EEWE EERE 0x1E (0x3E)GPIOR0GPIOR07GPIOR06GPIOR05GPIOR04GPIOR03GPIOR02GPIOR01GPIOR000x1D (0x3D)EIMSK INT7INT6INT5INT4INT3INT2INT1INT00x1C (0x3C)EIFR INTF7INTF6INTF5INTF4INTF3INTF2INTF1INTF00x1B (0x3B)ReservedAddressNameBit 7Bit 6Bit 5Bit 4Bit 3Bit 2Bit 1Bit 0Comment127538AS–CAN–09/05AT90CAN32/64Notes: 1.Address bits exceeding PCMSB (c.f complete Datasheet) are don’t care.2.Address bits exceeding EEAMSB (c.f complete Datasheet) are don’t care.3.For compatibility with future devices, reserved bits should be written to zero if accessed. Reserved I/O memory addressesshould never be written.4.I/O Registers within the address range 0x00 - 0x1F are directly bit-accessible using the SBI and CBI instructions. In theseregisters, the value of single bits can be checked by using the SBIS and SBIC instructions.5.Some of the status flags are cleared by writing a logical one to them. Note that, unlike most other AVRs, the CBI and SBIinstructions will only operate on the specified bit, and can therefore be used on registers containing such status flags. The CBI and SBI instructions work with registers 0x00 to 0x1F only.6.When using the I/O specific commands IN and OUT, the I/O addresses 0x00 - 0x3F must be used. When addressing I/ORegisters as data space using LD and ST instructions, 0x20 must be added to these addresses. The AT90CAN32/64 is a complex microcontroller with more peripheral units than can be supported within the 64 location reserved in Opcode for the IN and OUT instructions. For the Extended I/O space from 0x60 - 0xFF in SRAM, only the ST/STS/STD and LD/LDS/LDD instructions can be used.0x1A (0x3A)Reserved 0x19 (0x39)Reserved 0x18 (0x38)TIFR3––ICF3–OCF3C OCF3B OCF3A TOV30x17 (0x37)TIFR2––––––OCF2A TOV20x16 (0x36)TIFR1––ICF1–OCF1C OCF1B OCF1A TOV10x15 (0x35)TIFR0––––––OCF0A TOV00x14 (0x34)PORTG –––PORTG4PORTG3PORTG2PORTG1PORTG00x13 (0x33)DDRG –––DDG4DDG3DDG2DDG1DDG00x12 (0x32)PING –––PING4PING3PING2PING1PING00x11 (0x31)PORTF PORTF7PORTF6PORTF5PORTF4PORTF3PORTF2PORTF1PORTF00x10 (0x30)DDRF DDF7DDF6DDF5DDF4DDF3DDF2DDF1DDF00x0F (0x2F)PINF PINF7PINF6PINF5PINF4PINF3PINF2PINF1PINF00x0E (0x2E)PORTE PORTE7PORTE6PORTE5PORTE4PORTE3PORTE2PORTE1PORTE00x0D (0x2D)DDRE DDE7DDE6DDE5DDE4DDE3DDE2DDE1DDE00x0C (0x2C)PINE PINE7PINE6PINE5PINE4PINE3PINE2PINE1PINE00x0B (0x2B)PORTD PORTD7PORTD6PORTD5PORTD4PORTD3PORTD2PORTD1PORTD00x0A (0x2A)DDRD DDD7DDD6DDD5DDD4DDD3DDD2DDD1DDD00x09 (0x29)PIND PIND7PIND6PIND5PIND4PIND3PIND2PIND1PIND00x08 (0x28)PORTC PORTC7PORTC6PORTC5PORTC4PORTC3PORTC2PORTC1PORTC00x07 (0x27)DDRC DDC7DDC6DDC5DDC4DDC3DDC2DDC1DDC00x06 (0x26)PINC PINC7PINC6PINC5PINC4PINC3PINC2PINC1PINC00x05 (0x25)PORTB PORTB7PORTB6PORTB5PORTB4PORTB3PORTB2PORTB1PORTB00x04 (0x24)DDRB DDB7DDB6DDB5DDB4DDB3DDB2DDB1DDB00x03 (0x23)PINB PINB7PINB6PINB5PINB4PINB3PINB2PINB1PINB00x02 (0x22)PORTA PORTA7PORTA6PORTA5PORTA4PORTA3PORTA2PORTA1PORTA00x01 (0x21)DDRA DDA7DDA6DDA5DDA4DDA3DDA2DDA1DDA00x00 (0x20)PINAPINA7PINA6PINA5PINA4PINA3PINA2PINA1PINA0AddressNameBit 7Bit 6Bit 5Bit 4Bit 3Bit 2Bit 1Bit 0Comment137538A–CAN–09/05AT90CAN32/644.Ordering InformationNotes:1.These devices can also be supplied in wafer form. Please contact your local Atmel sales office for detailed ordering informa-tion and minimum quantities.2.For information only.3.Check for Availability.5.Packaging InformationOrdering Code(1)Speed (MHz)Power Supply (V)Package Operation Range Product Marking AT90CAN32-16AI 16 2.7 - 5.564A Industrial (-40° to +85°C)AT90CAN32-IL AT90CAN32-16MI 16 2.7 - 5.564M1Industrial (-40° to +85°C)AT90CAN32-IL AT90CAN32-16AU 16 2.7 - 5.564A Industrial (-40° to +85°C) GreenAT90CAN32-UL AT90CAN32-16MU 16 2.7 - 5.564M1Industrial (-40° to +85°C) GreenAT90CAN32-UL AT90CAN64-16AI (3)16 2.7 - 5.564A Industrial (-40° to +85°C)AT90CAN64-IL AT90CAN64-16MI (3)16 2.7 - 5.564M1Industrial (-40° to +85°C)AT90CAN64-IL AT90CAN64-16AU (3)16 2.7 - 5.564A Industrial (-40° to +85°C) GreenAT90CAN64-UL AT90CAN64-16MU (3)16 2.7 - 5.564M1Industrial (-40° to +85°C) GreenAT90CAN64-UL AT90CAN128-16AI (2)16 2.7 - 5.564A Industrial (-40° to +85°C)AT90CAN128-IL AT90CAN128-16MI (2)16 2.7 - 5.564M1Industrial (-40° to +85°C)AT90CAN128-IL AT90CAN128-16AU (2)16 2.7 - 5.564A Industrial (-40° to +85°C) GreenAT90CAN128-UL AT90CAN128-16MU (2)162.7 - 5.564M1Industrial (-40° to +85°C) GreenAT90CAN128-ULPackage Type64A 64-Lead, Thin (1.0 mm) Plastic Gull Wing Quad Flat Package (TQFP)64M164-Lead, Quad Flat No lead (QFN)147538A–CAN–09/05AT90CAN32/645.1TQFP64157538A–CAN–09/05AT90CAN32/645.2QFN647538A–CAN–09/05© Atmel Corporation 2005. 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1Features•High-performance, Low-power 8-bit AVR ® RISC Architecture –120 Powerful Instructions–Most Single Clock Cycle Execution •Up to 64K Bytes Flash Program Memory –Endurance: 10K Write/Erase Cycles •Up to 64K Bytes EEPROM User Memory –Endurance: 250K Write/Erase Cycles •Up to 2.5K Bytes RAM •Cryptoprocessor–Pre-programmed Functions for Cryptography and Authentication •Supervisor Mode (Memory Management)•One or Two ISO 7816 I/O Ports •Random Number Generator •One or Two 16-bit Timers•2-level, 6-vector Interrupt Controller •Security Features–Power-down Protection–Low-frequency and High-frequency Protection –Logical Scrambling on Program Code •Low-power Idle and Power-down Modes •Bond Pad Locations Conform to ISO 7816•V CC : 3.0V ± 10%, 5.0V ± 10%DescriptionThe AT90SC series is a low-power, high-performance, 8-bit microcontroller with Flash program memory and EEPROM data memory, based on the AVR RISC architecture.By executing powerful instructions in a single clock cycle, the AT90SC achieves throughputs close to 1 MIPS per MHz. Its Harvard architecture includes 32 general-purpose working registers directly connected to the ALU, allowing two independent registers to be accessed in one single instruction executed in one clock cycle.Some products in the AT90SC family feature a cryptoprocessor: a 16-bit crypto engine dedicated to performing fast encryption or authentication functions (see table below). Additional security features include power and frequency protection logic, log-ical scrambling on program data and addresses, and memory accesses controlled by a supervisor mode.The AT90SC family provides up to 128K bytes of Atmel ’s high-density, nonvolatile memory technology. The on-chip downloadable Flash allows the program memory to be reprogrammed in-system. This technology combined with the versatile 8-bit CPU on a monolithic chip provides a highly flexible and cost-effective solution to many smart card applications. Table 1. The AT90SC FamilyDevice Program Memory Flash BytesUser Memory EEPROM BytesRAM BytesCrypto-processorI/O Ports A T90SC1616C 16K 16K 1K Y es 2A T90SC323232K 32K 1.5K No 1A T90SC3232C 32K 32K 1K Y es 1A T90SC6464C64K64K2.5KY es2AT90SC2Block DiagramNote: 1.Only available on products featuring a cryptoprocessor.2.Only available on products not featuring a cryptoprocessor.3.Currently available only on A T90SC1616C and A T90SC6464C.Pin DescriptionVCCSupply voltage.GND Ground.RSTReset input. A low level on this pin for two clock cycles while the AT90SC is running resets the device.This pin includes an internal pull-up resistor.CLKClock input to internal clock operating circuit.This pin includes an internal pull-up resistor.IN/OUTOn products with a single IN/OUT pin, IN/OUT is a single bit open drain bi-directional I/O port. This bi-directional pin includes a pull-up resistor.Products with a second I/O port can be configured as open drain with pull-up or as a true CMOS I/O port.AT90SC38-bit AVR RISC Microcontroller CPUThe AVR uses a Harvard architecture concept with sepa-rate memories and buses for program and data. The program memory is accessed with a two stage pipeline.While one instruction is being executed, the next instruction is prefetched from the program memory. This concept enables instructions to be executed in every clock cycle.The fast-access register file concept contains 32 x 8 gen-eral purpose working registers with a single clock cycle access time. This means that during one single clock cycle,one ALU operation is executed. Two operands are output from the register file, the operation is executed, and the result is stored back in the register file in one clock cycle.The timer and other I/O functions are located in the I/O memory space. The 64 addresses of the I/O memory space can be accessed directly as I/O registers or as memory space.Memory OrganizationThe AT90SC microcontrollers have the following memory organization as shown in Figures 1 and 2.Program memory:•16-bit addressable EEPROM user memory •16-bit addressable Flash program memory Data memory:•8-bit addressable EEPROM user memory •8-bit addressable SRAM shared between AVR and crypto engine •8-bit registers addressable as data memoryThe EEPROM is shared between program memory and data memory depending on the mode. The portion of EEPROM dedicated to each function is flexible and varies according to the application.Program memory is read-only in normal operation mode.Both Flash and EEPROM memory locations are directly addressable. The EEPROM memory locations follow the Flash memory in the program address space.Program MemoryThe AT90SC microcontroller has separate address spaces for program memory and data memory. Up to 64K bytes of Flash program memory are available. Figure 1 shows the program memory.Data MemoryThe AT90SC can directly address up to 64K bytes of data memory. The LOAD and STORE instructions access the whole data memory.The AT90SC family also features 96 bytes of register and I/O space and up to 2.5K bytes of SRAM.The I/O space of the RAM can be accessed by direct addressing.The 128-byte last page of the EEPROM user memory is an OTP memory (64 bytes) and bit addressable memory (64bytes).Figure 1. The AT90SC Program MemoryFigure 2. The AT90SC Data Memory元器件交易网AT90SC4Flash Program Memory•Page size of 128 bytes•Minimum endurance of 10K write/erase cycles •Data retention for a minimum of 40 yearsThe AT90SC contains up to 64K bytes of downloadable Flash memory for program storage. Since all instructions are 16-bit words, the Flash is organized as 32K x 16. The Flash memory is read-only except during the program download mode. This mode is selected by setting a bit in the memory control I/O register.Once the Flash memory is loaded, a security feature dis-ables the download function, making the writing of the Flash impossible.EEPROM User Memory•Erasure and Writing:- Byte-by-byte - Bit mode- Page mode (128 bytes per page)•Minimum endurance of 250K write/erase cycles •Data retention for a minimum of 40 yearsThe user memory is organized as up to 32K x 16. A write mode bit in the memory control register selects byte by byte or page mode. During the write cycle, a bit is set in the memory control register, disabling pending write opera-tions. When the write cycle is finished, this bit is cleared and an interrupt request is generated.In addition, the AT90SC features a pseudo bit mode which allows individual bits to be overwritten (one to zero).Bit Addressable MemoryThe 64 bytes of bit addressable memory are found in the last 128-byte page of the EEPROM address space and represent the first 64 bytes of this page.OTP MemoryThe 64 bytes of OTP (One-Time Programmable) Memory are found in the last 128-byte page of the EEPROM address space and represent the last 64 bytes of this page.CryptoprocessorThe cryptoprocessor is a 16-bit crypto engine dedicated to performing fast encryption or authentication functions. It isbased on a parallel RISC architecture allowing most instructions to be performed in a single clock cycle. The crypto engine can run in parallel with the microcontroller.An internal 16 x 16 multiplier provides 32-bit results within one cycle.The cryptoprocessor runs on its own internal clock.The cryptoprocessor ROM stores the program code which contains the following catalog of functions: •Reset and self test•Random Number Generation•Exponentiation with CRT (241 to 1024)•Exponentiation without CRT (241 to 1024)•DSARAM Memory SharingThe cryptoprocessor and the AVR share the RAM memory as follows: when the cryptoprocessor is inactive, the entire RAM can be accessed by the CPU. When the cryptopro-cessor is active, the shared RAM is not accessible by the CPU.Operational ModesThe AT90SC features two operational modes:• A supervisor mode with a privileged access to data, active when code is executed from the supervisor memory • A user mode with data access restrictions, active when code is executed from EEPROM user memory The supervisor and user locations are programmed in I/O registers.In user mode, direct read and write access to I/O registers and EEPROM is not allowed. Furthermore, a programma-ble zone in the RAM can be reserved for supervisor mode.Any attempt to access the I/O, EEPROM or reserved RAM area generates a maskable interrupt.Also, any jump to the supervisor zone in user mode gener-ates a non-maskable security interrupt. The AT90SC provides a supervisor call instruction to branch at a defined vector address of the supervisor zone.This powerful hardware solution is specially designed to ensure full separation between applications. It provides secure protection against program dumping and secure data access control.元器件交易网AT90SC5Security FeaturesFor security reasons the following list is not exhaustive.•Shipping and Initialization are protected by a Transport Code •Power-down/up protection•Low-frequency protection against static analysis •High-frequency protection against intrusion •Unique serial number •Supervisor mode •Secured test structure •Logical scrambling •Secure layoutISO 7816 I/O PortsThe ISO 7816 I/O pins are controlled by the CPU. They can be configured to generate an interrupt on:- Low level - Positive edge - Negative edge- Positive or negative edgeInterrupt ControllerThe AT90SC has a total of six interrupt vectors: security,I/O pins 0 and 1, timer, EEPROM end of write cycle and a cryptoprocessor interrupt.Each of these interrupt sources can be individually enabled or disabled by setting or clearing a bit in the Interrupt Mask Register located in the I/O memory space. This register also contains a global disable bit which disables all inter-rupts at once.One priority level can be programmed in the Interrupt Prior-ity register. A second priority level is given by the vector number.The interrupt controller is able to memorize interrupts. It sends them to the microcontroller in the correct order according to their priority level.Reduced Power ModeTo exploit the power savings for smart cards available in CMOS circuitry, Atmel ’s microcontrollers have two soft-ware-invoked reduced power modes.Idle ModeDuring Idle Mode, the CPU is disabled while all on-chip peripherals (RAM, I/O registers, timer and serial port)remain active. This mode is invoked by a SLEEP instruc-tion and by an enabled bit in an I/O register. Idle Mode can be terminated by any enabled interrupt or by a hardware reset.If a reset occurs during sleep mode, the CPU awakes and executes from the reset vector.If an interrupt occurs, the CPU awakes and executes the interrupt routine, and resumes execution from the instruc-tion following SLEEP.Power-down ModeDuring Power-down Mode, the clock is frozen. The on-chip RAM and I/O registers retain their values during Power-down Mode. The SLEEP instruction forces this mode. Exit from Power-down can be initiated either by a hardware reset or by the enabled external interrupt. Reset redefines the I/O registers but does not change the on-chip RAM.The I/O registers keep their value if the exit from Power-down is generated by an external interrupt.Download ModeThe AT90SC microcontroller has a special mode which allows the Flash to be written for new software download.The new software is loaded through the ISO port and writ-ten into the Flash memory. This download mode is software controlled, so if the software in use does not con-tain the download facility, no new program can be loaded. If the product contains only Flash for the code, during pro-gram download (OS or application) the code is fetched from the EEPROM.TimersThe AT90SC provides one or two 16-bit general timers with prescalers. The timers can run on a 16-bit counter or on an 8-bit counter with auto-reload mode.元器件交易网AT90SC6The Instruction SetAll members of the AT90SC series execute the same instruction set. The 16-bit instruction set provides a variety of fast addressing modes to facilitate byte and word opera-tions on small data structures. The instruction set supports 32 general-purpose registers for efficient implementation of software.Addressing ModeThe AT90SC AVR RISC microcontroller supports powerful and efficient addressing modes for access to program and data memory:•Direct I/O addressing•Direct Register addressing with one or two registers •Data direct : Operand address is specified by a 16-bit code •Indirect address data: Operand address is a 16-bit register •Indirect data with displacement : Operand address is a 16-bit register with a 6-bit offset •Indirect data with pre-decrement and post-increment: Operand address is a 16-bit register •Access to program memory : Operand address is a 16-bit register for access in byte LPM instruction •Indirect program addressing : Operand address is a 16-bit register for IJMP and ICALL •Relative program addressing : Operand address is a 16-bit PC with an offset of -2048 to +2047•Direct program addressingInstruction type •Data Transfers- From/to internal I/O, RAM, Registers - From/to internal EEPROM - From Flash •Arithmetic and logical Instruction - Manipulation, one or two registers - Manipulation, constant and register •Boolean Instruction- Manipulation and test on bit •Branch instruction - Relative branch - Indirect branch - Conditional skip- Unconditional branch - Conditional branch- Subroutine call and return - Interrupt returnMaster Clock GenerationThe master clock of the CPU is generated by the external ISO 7816 clock.Development ToolsA complete set of AT90SC development tools and a hard-ware emulator are available.© Atmel Corporation 1999.Atmel Corporation makes no warranty for the use of its products, other than those expressly contained in the Company ’s standard war-ranty which is detailed in Atmel ’s Terms and Conditions located on the Company ’s web site. The Company assumes no responsibility for any errors which may appear in this document, reserves the right to change devices or specifications detailed herein at any time without notice, and does not make any commitment to update the information contained herein. No licenses to patents or other intellectual prop-erty of Atmel are granted by the Company in connection with the sale of Atmel products, expressly or by implication. Atmel ’s products are not authorized for use as critical components in life support devices or systems.Atmel HeadquartersAtmel OperationsCorporate Headquarters2325 Orchard Parkway San Jose, CA 95131TEL (408) 441-0311FAX (408) 487-2600EuropeAtmel U.K., Ltd.Coliseum Business Centre Riverside WayCamberley, Surrey GU15 3YL EnglandTEL (44) 1276-686-677FAX (44) 1276-686-697AsiaAtmel Asia, Ltd.Room 1219Chinachem Golden Plaza 77 Mody Road Tsimhatsui East Kowloon Hong KongTEL (852) 2721-9778FAX (852) 2722-1369JapanAtmel Japan K.K.9F, Tonetsu Shinkawa Bldg.1-24-8 ShinkawaChuo-ku, Tokyo 104-0033JapanTEL (81) 3-3523-3551FAX (81) 3-3523-7581Atmel Colorado Springs1150 E. Cheyenne Mtn. Blvd.Colorado Springs, CO 80906TEL (719) 576-3300FAX (719) 540-1759Atmel RoussetZone Industrielle13106 Rousset Cedex FranceTEL (33) 4-4253-6000FAX (33) 4-4253-6001Fax-on-DemandNorth America:1-(800) 292-8635International:1-(408) 441-0732e-mailliterature@Web Site BBS1-(408) 436-43091065CS –10/99/5MMarks bearing ® and/or ™ are registered trademarks and trademarks of Atmel Corporation.Terms and product names in this document may be trademarks of others.。

AVR的ISP接口定义大部分AVR MCU的ISP数据端口亦为 SCK、MOSI、MISO引脚（如Attiny13/24/2313，Atmega48/88/168，Atmega16/32/162，Atmega8515/8535等），如下：MISO MISOVCC VCCSCK SCKMOSI MOSIRESET RESETGND GND少部分AVRMCU的ISP数据端口则不是使用这些接口，而是：SCK、PDI、PDO引脚（如ATmega64/128/1281等），如下：MISO PDOVCC VCCSCK SCKMOSI PDIRESET RESETGND GND以上仅例举出常用的AVR型号的连接方式，若您使用的AVR型号没有被列举到，请查看相关型号的PDF文档，里面的编程章节将有介绍使用ISP时，需连接哪些引脚。

下面是标准的接口排列：ATMEL指定的ISP_10PIN标准接口ATMEL指定的ISP_6PIN标准接口USB AVR SKII V2.0(usb avr仿真器/调试器)问：USB AVR SKII V2.0 与 V1.0 的区别？答：USB驱动IC不同，V2.0 版本采用的USB芯片FT232，V1.0版本的PL2303，在JTAG仿真调试方面兼容性、稳定性稍差。

·基于ATMEL原厂提供的方案而设计：支持AVRStudio，借鉴了ATMEL原厂生产的JTAGICE仿真器与AVRISP下载器，使用方法同它们一致，简单易用，稳定可靠。

·支持的软件：- 直接支持AVRStudio、WINAVR(GCC)、IAR- 支持IAR、ICCAVR、CVAVR等生成的调试与烧写文件·自动识别JTAG与AVRISP：- 接入目标板的JTAG接口，使用“JTAG ICE”方式进行连接，调试器识别为JTAGICE仿真器。

- 接入目标板的ISP接口，使用“STK500 or AVRISP”方式进行连接，调试器识别为AVRISP下载器。

Atmel芯片新命名型号对照表ATTINY28L ATMEL ATMLU701 DIP ATTINY26L ATMEL ATMLU702 DIP ATTINY26 ATMEL ATMLU703 DIP ATTINY24 ATMEL ATMLU704 DIP ATTINY2313V ATMEL ATMLU705 DIP ATTINY2313 ATMEL ATMLU706 DIP ATTINY15L ATMEL ATMLU707 DIP ATTINY13V ATMEL ATMLU708 DIP ATTINY13 ATMEL ATMLU709 DIP ATTINY11L ATMEL ATMLU710 DIP ATMEGA8L ATMEL ATMLU711 DIP ATMEGA88V ATMEL ATMLU712 DIP ATMEGA88 ATMEL ATMLU713 DIP ATMEGA8535L ATMEL ATMLU714 DIP ATMEGA8535 ATMEL ATMLU715 DIP ATMEGA8515L ATMEL ATMLU716 DIP ATMEGA8515 ATMEL ATMLU717 DIP ATMEGA8 ATMEL ATMLU718 DIP ATMEGA64L ATMEL ATMLU719 DIP ATMEGA64 ATMEL ATMLU720 DIP ATMEGA640V ATMEL ATMLU721 DIP ATMEGA48V ATMEL ATMLU722 DIP ATMEGA48 ATMEL ATMLU723 DIP ATMEGA32L ATMEL ATMLU724 DIP ATMEGA325V ATMEL ATMLU725 DIP ATMEGA32 ATMEL ATMLU726 DIP ATMEGA16L ATMEL ATMLU727 DIP ATMEGA169V ATMEL ATMLU728 DIP ATMEGA169PV ATMEL ATMLU729 DIP ATMEGA169P ATMEL ATMLU730 DIP ATMEGA168V ATMEL ATMLU731 DIP ATMEGA168 ATMEL ATMLU732 DIP ATMEGA162V ATMEL ATMLU733 DIP ATMEGA162 ATMEL ATMLU734 DIP ATMEGA16 ATMEL ATMLU735 DIP ATMEGA128L ATMEL ATMLU736 DIP ATMEGA128 ATMEL ATMLU737 DIP ATMEGA1280V ATMEL ATMLU738 DIP ATJTAGICE2 ATMEL ATMLU739 DIP ATF20V8B ATMEL ATMLU740 DIP ATF16V8BQL ATMEL ATMLU741 DIPATF16V8B ATMEL ATMLU742 DIPATF1508AS ATMEL ATMLU743 DIP ATF1502AS ATMEL ATMLU744 DIP ATAVRISP2 ATMEL ATMLU745 DIP ATAVRDRAGON ATMEL ATMLU746 DIP AT93C66A ATMEL ATMLU747 DIPAT93C56A ATMEL ATMLU748 DIPAT93C46DN ATMEL ATMLU749 DIPAT93C46DH ATMEL ATMLU750 DIPAT93C46 ATMEL ATMLU751 DIPAT91SAM ATMEL ATMLU752 DIPAT91SAM9263 ATMEL ATMLU801 DIP AT91SAM9261S ATMEL ATMLU802 DIP AT91SAM9261 ATMEL ATMLU803 DIP AT91SAM9260 ATMEL ATMLU804 DIP AT91SAM7X ATMEL ATMLU805 DIPAT91SAM7X256 ATMEL ATMLU806 DIP AT91SAM7SE32 ATMEL ATMLU807 DIP AT91SAM7S64 ATMEL ATMLU808 DIP AT91SAM7S32 ATMEL ATMLU809 DIP AT91SAM7S321 ATMEL ATMLU810 DIP AT91SAM7S256 ATMEL ATMLU811 DIP AT91RM9200 ATMEL ATMLU812 DIP AT91M55800A ATMEL ATMLU813 DIP AT91M40800 ATMEL ATMLU814 DIPAT90CAN32 ATMEL ATMLU815 DIPAT90CAN128 ATMEL ATMLU816 DIP AT89S8253 ATMEL ATMLU817 DIPAT89S58 ATMEL ATMLU818 DIPAT89S54 ATMEL ATMLU819 DIPAT89S52 ATMEL ATMLU820 DIPAT89S51 ATMEL ATMLU821 DIPAT89LV51 ATMEL ATMLU822 DIPAT89LS52 ATMEL ATMLU823 DIPAT89C55WD ATMEL ATMLU824 DIPAT89C52 ATMEL ATMLU825 DIPAT89C51RD2 ATMEL ATMLU826 DIP AT89C51RC2 ATMEL ATMLU827 DIP AT89C51RC ATMEL ATMLU828 DIPAT89C51RC2 ATMEL ATMLU829 DIP AT89C51RB2 ATMEL ATMLU830 DIP AT89C51ED2 ATMEL ATMLU831 DIPAT89C51CC01UA ATMEL ATMLU832 DIP AT89C51CC01CA ATMEL ATMLU833 DIP AT89C51AU2 ATMEL ATMLU834 DIPAT89C5131A ATMEL ATMLU835 DIPAT89C51 ATMEL ATMLU836 DIPAT89C4051 ATMEL ATMLU837 DIPAT89C2051 ATMEL ATMLU838 DIPAT88SC153 ATMEL ATMLU839 DIPAT88SC0104C ATMEL ATMLU840 DIP AT49BV512 ATMEL ATMLU841 DIPAT49BV322DT ATMEL ATMLU842 DIP AT49BV040B ATMEL ATMLU843 DIPAT47BV163A ATMEL ATMLU844 DIPAT45DB642DU ATMEL ATMLU845 DIP AT45DB321DU ATMEL ATMLU846 DIP AT45DB321D ATMEL ATMLU847 DIPAT45DB161DU ATMEL ATMLU848 DIP AT45DB161D ATMEL ATMLU849 DIPAT45DB081D ATMEL ATMLU850 DIPAT45DB041D ATMEL ATMLU851 DIPAT45DB021B ATMEL ATMLU852 DIPAT29LV512 ATMEL ATMLU901 DIPAT29LV040A ATMEL ATMLU902 DIPAT29LV020 ATMEL ATMLU903 DIPAT29C040A ATMEL ATMLU904 DIPAT29C020 ATMEL ATMLU905 DIPAT29C010A ATMEL ATMLU906 DIPAT28C64B ATMEL ATMLU907 DIPAT28C256 ATMEL ATMLU908 DIPAT28BV256 ATMEL ATMLU909 DIPAT27C512R ATMEL ATMLU910 DIPAT27C256R ATMEL ATMLH701 SOPAT27C040 ATMEL ATMLH702 SOPAT27C010 ATMEL ATMLH703 SOPAT27BV256 ATMEL ATMLH704 SOPAT26DF321 ATMEL ATMLH705 SOPAT26DF161 ATMEL ATMLH706 SOPAT26DF081A ATMEL ATMLH707 SOPAT25F512AN ATMEL ATMLH708 SOPAT25F1024AN ATMEL ATMLH709 SOP AT25DF041A ATMEL ATMLH710 SOPAT25256AN ATMEL ATMLH711 SOPAT24C64CN ATMEL ATMLH713 SOP AT24C64AN ATMEL ATMLH714 SOP AT24C64A ATMEL ATMLH715 SOP AT24C512N ATMEL ATMLH716 SOP AT24C512B ATMEL ATMLH717 SOP AT24C512BN ATMEL ATMLH718 SOP AT24C512 ATMEL ATMLH719 SOPAT24C32CN ATMEL ATMLH720 SOP AT24C32AN ATMEL ATMLH721 SOP AT24C32A ATMEL ATMLH722 SOP AT24C256N ATMEL ATMLH723 SOP AT24C256B ATMEL ATMLH724 SOP AT24C256BN ATMEL ATMLH725 SOP AT24C256B ATMEL ATMLH726 SOP AT24C16BN ATMEL ATMLH727 SOP AT24C16AN ATMEL ATMLH728 SOP AT24C16A ATMEL ATMLH729 SOP AT24C128N ATMEL ATMLH730 SOP AT24C128 ATMEL ATMLH731 SOPAT24C08AN ATMEL ATMLH732 SOP AT24C08A ATMEL ATMLH733 SOP AT24C04N ATMEL ATMLH734 SOP AT24C04BN ATMEL ATMLH735 SOP AT24C04 ATMEL ATMLH736 SOPAT24C02B ATMEL ATMLH737 SOP AT24C02BN ATMEL ATMLH738 SOP AT24C02B ATMEL ATMLH739 SOP AT24C01B ATMEL ATMLH740 SOP AT24C01BN ATMEL ATMLH741 SOP ATTINY28L ATMEL ATMLU701 SOP ATTINY26L ATMEL ATMLU702 SOP ATTINY26 ATMEL ATMLU703 SOP ATTINY24 ATMEL ATMLU704 SOP ATTINY2313V ATMEL ATMLU705 SOP ATTINY2313 ATMEL ATMLU706 SOP ATTINY15L ATMEL ATMLU707 SOP ATTINY13V ATMEL ATMLU708 SOP ATTINY13 ATMEL ATMLU709 SOP ATTINY11L ATMEL ATMLU710 SOP ATMEGA8L ATMEL ATMLU711 SOP ATMEGA88V ATMEL ATMLU712 SOPATMEGA8535L ATMEL ATMLU714 SOP ATMEGA8535 ATMEL ATMLU715 SOP ATMEGA8515L ATMEL ATMLU716 SOP ATMEGA8515 ATMEL ATMLU717 SOP ATMEGA8 ATMEL ATMLU718 SOP ATMEGA64L ATMEL ATMLU719 SOP ATMEGA64 ATMEL ATMLU720 SOP ATMEGA640V ATMEL ATMLU721 SOP ATMEGA48V ATMEL ATMLU722 SOP ATMEGA48 ATMEL ATMLU723 SOP ATMEGA32L ATMEL ATMLU724 SOP ATMEGA325V ATMEL ATMLU725 SOP ATMEGA32 ATMEL ATMLU726 SOP ATMEGA16L ATMEL ATMLU727 SOP ATMEGA169V ATMEL ATMLU728 SOP ATMEGA169PV ATMEL ATMLU729 SOP ATMEGA169P ATMEL ATMLU730 SOP ATMEGA168V ATMEL ATMLU731 SOP ATMEGA168 ATMEL ATMLU732 SOP ATMEGA162V ATMEL ATMLU733 SOP ATMEGA162 ATMEL ATMLU734 SOP ATMEGA16 ATMEL ATMLU735 SOP ATMEGA128L ATMEL ATMLU736 SOP ATMEGA128 ATMEL ATMLU737 SOP ATMEGA1280V ATMEL ATMLU738 SOP ATJTAGICE2 ATMEL ATMLU739 SOP ATF20V8B ATMEL ATMLU740 SOPATF16V8BQL ATMEL ATMLU741 SOP ATF16V8B ATMEL ATMLU742 SOPATF1508AS ATMEL ATMLU743 SOP ATF1502AS ATMEL ATMLU744 SOP ATAVRISP2 ATMEL ATMLU745 SOP ATAVRDRAGON ATMEL ATMLU746 SOP AT93C66A ATMEL ATMLU747 SOPAT93C56A ATMEL ATMLU748 SOPAT93C46DN ATMEL ATMLU749 SOPAT93C46DH ATMEL ATMLU750 SOPAT93C46 ATMEL ATMLU751 SOPAT91SAM ATMEL ATMLU752 SOPAT91SAM9263 ATMEL ATMLU801 SOP AT91SAM9261S ATMEL ATMLU802 SOPAT91SAM9260 ATMEL ATMLU804 SOP AT91SAM7X ATMEL ATMLU805 SOPAT91SAM7X256 ATMEL ATMLU806 SOP AT91SAM7SE32 ATMEL ATMLU807 SOP AT91SAM7S64 ATMEL ATMLU808 SOP AT91SAM7S32 ATMEL ATMLU809 SOP AT91SAM7S321 ATMEL ATMLU810 SOP AT91SAM7S256 ATMEL ATMLU811 SOP AT91RM9200 ATMEL ATMLU812 SOPAT91M55800A ATMEL ATMLU813 SOP AT91M40800 ATMEL ATMLU814 SOPAT90CAN32 ATMEL ATMLU815 SOPAT90CAN128 ATMEL ATMLU816 SOPAT89S8253 ATMEL ATMLU817 SOPAT89S58 ATMEL ATMLU818 SOPAT89S54 ATMEL ATMLU819 SOPAT89S52 ATMEL ATMLU820 SOPAT89S51 ATMEL ATMLU821 SOPAT89LV51 ATMEL ATMLU822 SOPAT89LS52 ATMEL ATMLU823 SOPAT89C55WD ATMEL ATMLU824 SOPAT89C52 ATMEL ATMLU825 SOPAT89C51RD2 ATMEL ATMLU826 SOPAT89C51RC2 ATMEL ATMLU827 SOPAT89C51RC ATMEL ATMLU828 SOPAT89C51RC2 ATMEL ATMLU829 SOPAT89C51RB2 ATMEL ATMLU830 SOPAT89C51ED2 ATMEL ATMLU831 SOPAT89C51CC01UA ATMEL ATMLU832 SOP AT89C51CC01CA ATMEL ATMLU833 SOP AT89C51AU2 ATMEL ATMLU834 SOPAT89C5131A ATMEL ATMLU835 SOPAT89C51 ATMEL ATMLU836 SOPAT89C4051 ATMEL ATMLU837 SOPAT89C2051 ATMEL ATMLU838 SOPAT88SC153 ATMEL ATMLU839 SOPAT88SC0104C ATMEL ATMLU840 SOP AT49BV512 ATMEL ATMLU841 SOPAT49BV322DT ATMEL ATMLU842 SOP AT49BV040B ATMEL ATMLU843 SOPAT47BV163A ATMEL ATMLU844 SOPAT45DB321DU ATMEL ATMLU846 SOP AT45DB321D ATMEL ATMLU847 SOP AT45DB161DU ATMEL ATMLU848 SOP AT45DB161D ATMEL ATMLU849 SOP AT45DB081D ATMEL ATMLU850 SOP AT45DB041D ATMEL ATMLU851 SOP AT45DB021B ATMEL ATMLU852 SOP AT29LV512 ATMEL ATMLU901 SOP AT29LV040A ATMEL ATMLU902 SOP AT29LV020 ATMEL ATMLU903 SOP AT29C040A ATMEL ATMLU904 SOP AT29C020 ATMEL ATMLU905 SOPAT29C010A ATMEL ATMLU906 SOP AT28C64B ATMEL ATMLU907 SOPAT28C256 ATMEL ATMLU908 SOPAT28BV256 ATMEL ATMLU909 SOP AT27C512R ATMEL ATMLU910 SOP AT27C256R ATMEL ATMLH701 DIPAT27C040 ATMEL ATMLH702 DIPAT27C010 ATMEL ATMLH703 DIPAT27BV256 ATMEL ATMLH704 DIPAT26DF321 ATMEL ATMLH705 DIPAT26DF161 ATMEL ATMLH706 DIPAT26DF081A ATMEL ATMLH707 DIP AT25F512AN ATMEL ATMLH708 DIP AT25F1024AN ATMEL ATMLH709 DIP AT25DF041A ATMEL ATMLH710 DIP AT25256AN ATMEL ATMLH711 DIPAT25128A ATMEL ATMLH712 DIPAT24C64CN ATMEL ATMLH713 DIPAT24C64AN ATMEL ATMLH714 DIPAT24C64A ATMEL ATMLH715 DIPAT24C512N ATMEL ATMLH716 DIPAT24C512B ATMEL ATMLH717 DIPAT24C512BN ATMEL ATMLH718 DIP AT24C512 ATMEL ATMLH719 DIPAT24C32CN ATMEL ATMLH720 DIPAT24C32AN ATMEL ATMLH721 DIPAT24C32A ATMEL ATMLH722 DIPAT24C256N ATMEL ATMLH723 DIPAT24C256B ATMEL ATMLH724 DIPAT24C256B ATMEL ATMLH726 DIP AT24C16BN ATMEL ATMLH727 DIP AT24C16AN ATMEL ATMLH728 DIP AT24C16A ATMEL ATMLH729 DIP AT24C128N ATMEL ATMLH730 DIP AT24C128 ATMEL ATMLH731 DIP AT24C08AN ATMEL ATMLH732 DIP AT24C08A ATMEL ATMLH733 DIP AT24C04N ATMEL ATMLH734 DIP AT24C04BN ATMEL ATMLH735 DIP AT24C04 ATMEL ATMLH736 DIP AT24C02B ATMEL ATMLH737 DIP AT24C02BN ATMEL ATMLH738 DIP AT24C02B ATMEL ATMLH739 DIP AT24C01B ATMEL ATMLH740 DIP AT24C01BN ATMEL ATMLH741 DIP。

引言CAN(Controller Area NetWork)总线技术是一种有效支持分布式控制和实时控制的串行通信网络，广泛应用于工业控制。

其硬件连接简单，可靠性好，实时性和性价比高，能够很好地满足计算机联锁系统通信网络对实时性和可靠性的要求。

AVR单片机是由Atmel公司研发的增强型内置Flash的RISC高速8位单片机。

本设计使用的是AVR系列新型单片机AT90CAN128，它自带CAN控制器，使得通信部分的硬件电路设计大大简化，因此增强了系统可靠性。

1CAN总线技术简介CAN总线是德国Bosch公司20世纪80年代初为解决现代汽车中众多的控制与测试仪器之间的数据交换而开发的一种串行数据通信协议。

它是一种多主总线，通信介质可以是双绞线、同轴电缆或光导纤维。

通信速率可达1Mbps。

CAN总线通信接口中集成了CAN协议的物理层和数据链路层功能，可完成对通信数据的成帧处理，包括位填充、数据块编码、循环冗余检验、优先级判别等工作。

CAN总线具有以下技术特性：①废除了传统的站地址编码，改为对通信数据块进行编码。

采用这种方法的优点是，可使网络内的节点个数在理论上不受限制，数据块的标识码可由11位或29位二进制数组成，因此可以定义211或229个不同的数据块；这种按数据块编码的方式，还可使不同的节点同时接收到相同的数据，这一点在分布式控制系统中非常有用。

②数据段长度最多为8个字节，可满足通常工业领域中控制命令、工作状态及测试数据的一般要求。

同时，8个字节不会占用总线时间过长，从而保证了通信的实时性。

CAN 协议采用CRC校验并可提供相应的错误处理功能，保证了数据通信的可靠性。

③CAN采用非破坏总线仲裁技术。

当多个节点同时向总线发送信息出现冲突时，优先级较低的节点会主动退出发送，而优先级最高的节点可不受影响地继续传输数据，从而大大节省了总线冲突仲裁时间。

即使在网络负载很重的情况下，也不会出现网络瘫痪的情况。

2AT90CAN128功能简介2．1基本特性AT90C2AN128微控制器采用具有先进的RISC结构和低功耗的8位单片机，在一个时钟周期内执行一条指令，因此可以达到接近1MIPS／MHz的性能。

HZ-001 USP/ASP/ISP下载器使用手册一， 产品功能简介.二， 驱动安装将HZ-001 USP/ASP/ISP 下载器（以下简称：下载器）插入电脑USB 口如下图。

标准ATMEL ISP 接口，可将ISP 线插入使之与目标学习板编程器之连接下载速度选择开关，默认不接短块为快速，接上时为慢速。

为产品固默认为开用户不能插上短路产品不能正常使用，或损坏产品。

ATMEGA8MCU 控制芯片红灯，电源指示5V 电源跳线开关，作为目标板之电源开关，短路帽插上时为开，否则为关！蓝灯，工作指示此时红灯会亮！电脑会显示找到新硬件：接着将赠送的驱动CD-ROM光盘插入电脑光驱，选自动安装或从列表或指定位置安装（高级）点下一步：完成安装后在《我的电脑》设备管理器上显示：此表示显示安装下载器成功三， 下载器软件使用！1，简单使用如下：此ISP软件不用安装，将光盘（ISP编程下载软件）COPY到桌面（或指定的文件夹下）直接点击PROGISP. EXE 即可打开软件，以下载AT89S51单片机程序为例，按如下图指示选择选项，将ISP线连接到目标板，再后点“自动”就可以将要下载的HEX文件烧录到单片机中！二，详细使用请参考以下配置： Eprogisp的主界面(基本配置)progisp的主界面(熔丝导航)程序启动后默认为非脱机数据模式，如果“脱机数据“选择后，“自动”等按钮将会变为”写入映像”如下图的按钮，用来对脱机编程下载器的脱机数据的读写操作。

脱机数据的编程内容及选项与正常操作时选项相同。

（关于脱机编程的详细情况见脱机下载器的说明书）1，正常编程的步骤。

连接好目标板，加电，先调入编程数据，选择熔丝位，选择自动完成的设置。

按下“自动“完成编程。

（“脱机数据“一定不能选择）2，下载脱机数据。

插入脱机下载器,调入需要脱机编程的数据，选择熔丝位，选择“脱机数据“，选择脱机操作的自动完成的设置的参数。

按下“写入映像”完成数据下载（“下载脱机数据“一定要选择）特别提示：“提供时钟“选择后配合本工作室的下载器，可以为目标板的cpu提供时钟，这样可以解锁被锁定的芯片三、工程管理。

特点•高性能，低功耗的AVR ® 8位微控制器•先进的RISC结构- 133 - 最强大的单时钟周期指令执行- 32个8位通用工作寄存器+外设控制寄存器- 全静态工作- 高达16 MIPS的吞吐量为16兆赫- 片2周期乘法器•非挥发性程序和数据存储器- 在系统内32K/64K/128K字节可重编程闪存（AT90CAN32/64/128）•耐久性：10,000写入/擦除周期- 可选启动代码段与独立锁定位•可选启动大小：1K字节，2K字节，4K字节或8K字节•在系统编程的片上引导程序（CAN总线，UART 的，...）•真正的了解，同时，写操作- 1K/2K/4K字节的EEPROM（耐力：100,000写入/擦除周期）（AT90CAN32/64/128）- 2K/4K/4K字节内部SRAM（AT90CAN32/64/128）- 高达64K字节可选外部存储空间- 编程软件安全锁•JTAG接口（IEEE标准。

1149.1兼容）接口- 边界扫描功能根据JTAG标准- 编程闪存（硬件的ISP）的EEPROM，熔丝位和锁定- 广泛的片上调试支持•CAN控制器的电流及2.0B - 的ISO 16845认证（1）- 15个具有独立完整的邮件对象标识标签和面具- 发送，接收，自动回复和帧缓冲区接收模式- 1Mbits / s的8 MHz的最大传输速率- 冲压时，公车及听力模式（间谍或自动波特）•外设特点- 可编程看门狗定时器，带有片上振荡器- 8位同步Timer/Counter-0•10位预分频器•外部事件计数器•输出比较或8位PWM输出- 8位异步Timer/Counter-2•10位预分频器•外部事件计数器•输出比较或8位PWM输出•32kHz振荡器实时时钟运行- 双通道16位同步Timer/Counters-1＆3•10位预分频器•输入捕获噪声抵消•外部事件计数器•3输出比较或16位PWM输出•输出比较调制- 8通道，10位SAR ADC•8个单端通道•7个差分通道•2个差分通道，再加上1倍，10倍，或200x中可编程增益- 片内模拟比较器- 字节为导向的两线串行接口- 双可编程串行的USART- 主/从SPI串行接口•编程闪存（硬件的ISP）•特殊的处理器特点- 上电复位和可编程欠压检测- 内部RC振荡器校准- 8个外部中断源- 5睡眠模式：空闲，ADC噪声降低，电力保存，掉电和待机- 软件可选的时钟频率- 全球拉禁用•I / O和软件包- 53可编程I / O口线- 64引脚TQFP和64引脚QFN封装•工作电压：2.7 - 5.5V的•工作温度：工业（-40 ° C至+85℃）•最大工作频率：在2.7V 8兆赫，16兆赫在4.5V 注：1。

USB AVRISP XPII（深圳微雪出品版权所有）1.1 产品简介·基于AT AVRISP mkII 设计本款AVR ISP下载器使用方法同AT AVRISP mkII下载器完全相同。

简单易用，稳定可靠。

为了与“AT AVRISP MKII”区分开来，我们命名为“USB AVRISP XPII”。

·采用AT AVRISP mkII 固件在AVRStudio里识别为AVRISP mkII，所以，在AVR Studio里面选择的是mkII。

（为了与mkII 区分开来，产品命名为“XPII”）·支持的软件- 直接支持AVRStudio、WINAVR(GCC)- 支持IAR、ICCAVR、CVAVR等生成的烧写文件·支持的器件与AT AVRISP mkII下载器支持的器件型号相同，最新版支持XMEGA。

- 支持所有带ISP、PDI接口的AVR（主流AVR带ISP接口，xmega带PDI接口）- 支持AT86RF401/AT89S51/AT89S52（下载S51/S52时，推荐MCU的RESET只连接下载器，不连接外部复位电路）至2010.01.01，支持以下型号：（以下信息对应的是AVRStudio 4.18 sp1版本，至2010.01.01的最新版本）ISPATmega系列ATmega128 ATmega1280 ATmega1281 ATmega1284 ATmega1284P ATmega128A ATmega16 ATmega162 ATmega164A ATmega164P ATmega164PA ATmega165 ATmega165A ATmega165P ATmega168 ATmega168A ATmega168P ATmega168PA ATmega169 ATmega169A ATmega169P ATmega169PA ATmega16A ATmega16HVB ATmega16U2 ATmega16U4 ATmega2560 ATmega2561 ATmega32 ATmega324A ATmega324P ATmega324PA ATmega325 ATmega3250 ATmega3250A ATmega3250P ATmega325A ATmega325P ATmega328 ATmega328P ATmega329 ATmega3290 ATmega3290A ATmega3290P ATmega329A ATmega329P ATmega329PA ATmega32A ATmega32C1 ATmega32HVB ATmega32M1 ATmega32U2 ATmega32U4 ATmega32U6 ATmega48 ATmega48A ATmega48P ATmega48PA ATmega64 ATmega640 ATmega644 ATmega644A ATmega644P ATmega644PA ATmega645 ATmega6450 ATmega6450A ATmega6450P ATmega645A ATmega645P ATmega649 ATmega6490 ATmega6490A ATmega6490P ATmega649A ATmega649P ATmega64A ATmega64HVE ATmega8 ATmega8515 ATmega8535 ATmega88 ATmega88A ATmega88P ATmega88PA ATmega8A ATmega8HVD ATmega8U2ATtiny系列ATtiny12 ATtiny13 ATtiny13A ATtiny15 ATtiny167 ATtiny2313 ATtiny2313A ATtiny24 ATtiny24A ATtiny25 ATtiny26 ATtiny261 ATtiny261A ATtiny4313 ATtiny43U ATtiny44 ATtiny44A ATtiny45 ATtiny461 ATtiny461A ATtiny48 ATtiny84 ATtiny85 ATtiny861 ATtiny861A ATtiny88支持低压器件：支持上述器件相应的低压型号（例如后缀带“L”、“V”的AVR：ATmega16L、ATmega48V）新器件不断增加中......·功能、性能- 编程功能：与ATMEL原装AT AVRISP mkII下载器编程功能相同，可烧写FLASH ROM、EEPROM、熔丝位、加密位等功能。

基于CAN总线的低成本远程通信的智能节点设计[接口电路]发布时间：2009-04-29 22:33:22在传统的工业控制领域中，大部分的通信采用RS232和RS485来实现，但RS232总线采用负逻辑电平方式，有着通信距离近，抗干扰性能差等缺点；而R S485总线虽然采用差分方式传输，但其通讯速度慢，组网一般采用主从方式，在实时的多主网络里面很受限制。

而CAN的结构简单，在传输时，只有两根线与外部连接，且内部含有错误探测和管理模块；通信方式上，可以多主方式工作，网络上任意一个节点均可以在任一时刻主动向其他节点发送信息，可以点对点，点对多点以及全局广播方式收发数据，采用非破坏性总线总裁技术，当两个节点同时向总线上发送数据时，优先级低的节点主动停止发送，优先级高的节点可以不受影响的继续传输，可大大节省了总线仲裁冲突时间，在网络负载很重的情况下，也不会出现网络瘫痪。

最远的通信距离可以到10km，最大传输速率可达到1Mb/s。

本文介绍了一种采用CAN总线方式低成本远程通信节点的设计，具有设计电路结构简单，通信速度快，可靠性高，通信距离远等优点，特别适合严重干扰的工业恶劣环境下工作。

一、硬件电路设计系统采用AT90CAN32芯片作为主控制器，AT90CAN32芯片具有32KBf l ash、2KB RAM、1K EEPROM、8路10位ADC、1路UART、1路CAN、1路SPI、2个16位定时器、2个8位定时器、8路外部中断输入，看门狗电路等丰富的资源，最高的处理速度可以到16MIPS，采用AT90CAN32芯片作为主控制器设计的CAN总线节点，可以节约大量的外部扩展电路，简化设计，并且可靠性大大提高。

由于AT90CAN32芯片内置了CAN控制器，利用其内部集成的CAN控制器构成CAN总线收发网络，所以设计的CAN通讯的电路被大大简化，图1为C AN通信的结构框图。

在这个结构图中，采用AT90CAN32内部集成的CAN控制器，采用了高速光耦6N137来隔离通信网络中的干扰，SJA1050芯片作为CAN总线的收发器，图2为CAN通信部分的电路图。