AT28C64X-12PC中文资料

Features•Fast Read Access Time - 120 ns•Fast Byte Write - 200 µs or 1 ms•Self-Timed Byte Write CycleInternal Address and Data LatchesInternal Control TimerAutomatic Clear Before Write•Direct Microprocessor ControlREADY/BUSY Open Drain OutputDATA Polling•Low Power30 mA Active Current100 µA CMOS Standby Current•High ReliabilityEndurance: 104 or 105 CyclesData Retention: 10 Years•5V ± 10% Supply•CMOS and TTL Compatible Inputs and Outputs •JEDEC Approved Byte-Wide Pinout•Commercial and Industr ial Temperature RangesDescriptionThe AT28C64 is a low-power, high-performance 8,192 words by 8 bit nonvolatile Electrically Erasable and Programmable Read Only Memory with popular, easy to use features. The device is manufactured with Atmel’s reliable no nvolatile technol-ogy.(continuedPDIP, SOICTop ViewPin ConfigurationsTSOPTop ViewLCC, PLCCTop ViewNote: PLCC package pins 1 and 17 are DON’T CONNECT.AT28C64/X2-193Description(ContinuedBlock DiagramThe AT28C64 is accessed like a Static RAM for the read or write cycles without the need for external components.During a byte write, the address and data are latched in-ternally, freeing the microprocessor address and data bus for other operations. Following the initiation of a write cy-cle, the device will go to a busy state and automatically clear and write the latched data using an internal control timer. The device includes two methods for detecting the end of a write cycle, level detection of RDY/BUSY (unless pin1 is N.C. and DATA POLLING of I/O 7. Once the end of a write cycle has been detected,a new access for a read or write can begin.The CMOS technology offers fast access times of 120 ns at low power dissipation. When the chip is deselected the standby current is less than 100 µA.Atmel’s 28C64 has additional features to ensure high quality and manufacturability. The device utilizes error cor-rection internally for extended endurance and for im-proved data retention characteristics. An extra 32-bytes of E 2PROM are available for device identification or tracking.*NOTICE: Stresses beyond those listed under “Absolute Maxi-mum Ratings” may cause permanent damage to the device.This is a stress rating only and functional operation of the device at these or any other conditions beyond those indi-cated in the operational sections of this specification is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability.Absolute Maximum Ratings*2-194AT28C64/XDevice OperationREAD: The AT28C64 is accessed like a Static RAM.When CE and OE are low and WE is high, the data stored at the memory location determined by the address pins is asserted on the outputs. The outputs are put in a high im-pedance state whenever CE or OE is high. This dual line control gives designers increased flexibility in preventing bus contention.BYTE WRITE: Writing data into the AT28C64 is similar to writing into a Static RAM. A low pulse on the WE or CE input with OE high and CE or WE low (respectively initi-ates a byte write. The address location is latched on the falling edge of WE (or CE; the new data is latched on the rising edge. Internally, the device performs a self-clear be-fore write. Once a byte write has been started, it will auto-matically time itself to completion. Once a programming operation has been initiated and for the duration of t WC , a read operation will effectively be a polling operation.FAST BYTE WRITE: The AT28C64E offers a byte write time of 200 µs maximum. This feature allows the entire device to be rewritten in 1.6 seconds.READY/BUSY: Pin 1 is an open drain READY/BUSY output that can be used to detect the end of a write cycle.RDY/BUSY is actively pulled low during the write cycle and is released at the completion of the write. The open drain connection allows for OR-tying of several devices to the same RDY/BUSY line. Pin 1 is not connected for theAT28C64X.DATA POLLING: The AT28C64 provides DATA POLL-ING to signal the completion of a write cycle. During a write cycle, an attempted read of the data beingwritten results in the complement of that data for I/O 7 (the other outputs are indeterminate. When the write cycle is fin-ished, true data appears on all outputs.WRITE PROTECTION: Inadvertent writes to the device are protected against in the following ways. (a V CC sense— if V CC is below 3.8V (typical the write function is inhibited. (b V CC power on delay— once V CC h a s reached 3.8V the device will automatically time out 5 ms (typical before allowing a byte write. (c Write Inhibit—holding any one of OE low, CE high or WE high inhibits byte write cycles.CHIP CLEAR: The contents of the entire memory of the AT28C64 may be set to the high state by the CHIP CLEAR operation. By setting CE low and OE to 12 volts, the chip is cleared when a 10 msec low pulse is applied to WE.DEVICE IDENTIFICATION: A n e x t r a 32-by t es of E 2PROM memory are available to the user for device identification. By raising A9 to 12 ± 0.5V and using ad-dress locations 1FE0H to 1FFFH the additional bytes may be written to or read from in the same manner as the regu-lar memory array.AT28C64/X2-195DC CharacteristicsDC and AC Operating Range3. V H = 12.0V ± 0.5V.Notes: 1.X can be V IL or V IH .2.Refer to AC Programming Waveforms. Operating Modes2-196AT28C64/XAC Read CharacteristicsNotes: 1.CE may be delayed up to t ACC - t CE after the addresstransition without impact on t ACC .2.OE may be delayed up to t CE - t OEafter the falling edge of CE without impact on t CE or by t ACC - t OE after an address change without impact on t ACC .3.t DF is specified from OE or CE whichever occurs first (C L = 5 pF.4.This parameter is characterized and is not 100% tested.AC Read Waveforms(1, 2, 3, 4t R , t F < 20 nsInput Test Waveforms andMeasurement LevelOutput Test LoadPin Capacitance (f = 1 MHz, T = 25°C (1Note: 1. This parameter is characterized and is not 100% tested. AT28C64/X2-197AC Write CharacteristicsAC Write WaveformsWEControlledCE Controlled2-198AT28C64/X(1Notes: 1.These parameters are characterized and not 100% tested.2.See AC Read Characteristics.Chip Erase Waveformst S = t H = 1 µsec (min.t W = 10 msec (min.V H = 12.0V ± 0.5V AT28C64/X2-1992-200AT28C64/XOrdering Information (1Note: 1.See Valid Part Number table below. AT28C64/X2-2012-202AT28C64/XAT28C64/X Ordering Information tACC (ns 150 ICC (mA Active 30 Standby 0.1 AT28C64X-15JC AT28C64X-15PC AT28C64X-15SC AT28C64X-15TC AT28C64X-15JI AT28C64X-15PI AT28C64X-15SI AT28C64X-15TI AT28C64X-20JCAT28C64X-20PC AT28C64X-20SC AT28C64X-20TC AT28C64X-20JI AT28C64X-20PI AT28C64X-20SI AT28C64X-20TI AT28C64X-25JC AT28C64X-25PCAT28C64X-25SC AT28C64X-25TC AT28C64X-25JI AT28C64X-25PI AT28C64X-25SI AT28C64X-25TI Ordering Code Package 32J 28P6 28S 28T 32J 28P6 28S 28T 32J 28P6 28S 28T 32J 28P6 28S 28T 32J 28P6 28S 28T 32J 28P6 28S 28T Operation Range Commercial (0°C to 70°C 45 0.1 Industrial (-40°C to 85°C 200 30 0.1 Commercial (0°C to 70°C 45 0.1 Industrial (-40°C to 85°C 250 30 0.1 Commercial (0°C to 70°C 45 0.1 Industrial (-40°C to 85°C Valid Part Numbers The following table lists standard Atmel products that can be ordered. Device Numbers AT28C64 X AT28C64 X AT28C64 X AT28C64 X Speed 12 15 20 25 Package and Temperature Combinations JC, JI, PC, PI, SC, SI, TC, TI JC, JI, PC, PI, SC, SI, TC, TI JC, JI, PC, PI, SC, SI, TC, TI JC, JI, PC, PI, SC, SI, TC, TI Package Type 32J 28P6 28S 28T 32 Lead, Plastic J-Leaded Chip Carrier (PLCC 28 Lead, 0.600" Wide Plastic Dual Inline Package (PDIP 28 Lead, 0.300" Wide,Plastic Gull Wing Small Outline (SOIC 28 Lead, Plastic Thin Small Outline Package (TSOP 2-203。

汽车电子常用芯片型号代换资料汽车电子, 存储器标志印字芯片功能代换型号BOSCH3003930061 ADC0809B22AN 存储器 93C06B34AB 存储器 24C02B43AB 存储器 24C02B46AJ 存储器 24C02B49AJ 存储器 24C02B52AP 存储器 24C02B54AH 存储器 24C02B57120 存储器 27C64B57324 存储器 2732AB57347 存储器 27C64B57423 存储器 27C256B57449 74HC74B57477 存储器 27C64B57519 存储器 27C64B57581 74HC573B57604 存储器 27C256B57605 存储器 27256B57607 存储器 27C128B57610 存储器 27C128B57618 存储器 87C257B57618 存储器 87C64B57625 存储器 2764AB57654 存储器 27C256B57696 存储器 27C256B57701 存储器 27C256B57733 4x位开关 TLE4211, TLE6220 B57764 存储器 87C257B57764 存储器 87C64B57771 存储器 27C256B57922 存储器 87C257B57960 存储器 27C256B57995 存储器 TMS27C256B58014 存储器 27C256B58038 存储器 27C256B58094 存储器 27C510B58126 存储器 27C010B58127 存储器 27C512B58150 存储器 87C257B58157 存储器 27C512B58185 存储器 87C257B58196 存储器 NS93C46B58234 存储器 27C256B58235 存储器 87C257B58239 存储器 27C512B58240 6 x位开关 TLE4216G, TLE4226GB58241 4 x位开关 TLE4214G, TLE6225B58243 存储器 CJ87BC6QGB58244 I87M12B58258 存储器 24C02B58265 控制器 CAN控制器??B58275 存储器 27C1024B58286 控制器 SAB80C166B58293 存储器 27C512B58331 存储器 28F010B58334 存储器 28C64B58380 存储器 24C02B58381 存储器 AM28F512B58399 存储器 AM29F010B58400 存储器 87C510B58424 存储器 27C512B58502 ABS,ASR系统IC TLE5200G, TLE6210G B58504 ABS,ASR系统IC TLE5201G, TLE6211G B58505 2 x位开关 TLE5225G, TLE6215GB58517 存储器 28F020B58533 存储器 27C4096B58539 存储器 27C256B58541 存储器 27C512B58542 存储器 27C512B58543 存储器 27C512B58544 存储器 27C1001B58545 存储器 87C257B58546 存储器 87C510B58547 存储器 27C1001B58548 存储器 TMS27PC210 = 27C1024B58550 存储器 27C512B58590 AS87C196ENB58637 4 x位开关 TLE5226G, TLE6216GB58639 存储器 87PC110B58732 4 x位开关 TLE5216G, TLE6220B58755 存储器 AM29F200B58768 存储器 AM29F400ABB58791 存储器 AM29F200ABB58813 存储器 93C56B58911 存储器 TMS27C010AB58335 存储器 AT28C64BB58601 存储器 AM29F200BB9411 存储器 AM27C256DELCO08393 功放 TDA7372A96405 功放 TDA7376B9355092 存储器 24C049355093 存储器 24C0816124342 功放 TDA736016175974 RDS解调器 SAA6579 16219796 功放 TDA7454 100% , not TDA7384 16233541 存储器 M27C256BPIONEERPA2024A 电源 TA8244HPA3002 功放 HA1397PA3005 功放 HA1384PA3027A 功放 HA13150APA3029A 功放 HA13151PA3029B 功放 HA13151PAL001A 功放 TDA7394PAL002A 功放 TDA7394PAL003A 功放 TDA7384APAL005A 功放 TDA7385PAL006A 功放 TDA7560PAL007A 功放 TDA7560PAU001A 功放 HA13151VISTEON0022FBCAC 电源 TL751M100040FBCAC 电源 TL751M1077002 I2C存储器 24C167008FB 电源 78L0570001BB RDS解调器 TDA733070001SE RDS解调器 TDA733070001RR RDS解调器 TDA7330 ??70002FE 音频处理器 TDA731170003AB 功放 TDA200370003SC FREQ. SYNTH.70003SE RDS解调器 TDA733070005EB PLL立体声译码器 TDA159170005EH 音频处理器 TDA7340P70006SE 音频处理器 TDA734070008AB 功放 TDA736070009AB 功放 11 pins70010AB 功放 TDA735070010BB 双运放 TDA342070010FB 电源 TL751M1070011AB 功放 TDA7350with some modifications 70011SB 音频处理器 TDA152470014BB 控制放大器 LM83770016SE 音频处理器 TDA7460N70017AB 驱动放大 TDA723770017FB 电源 TA1483270019SB 音频处理器70023AB 功放 TDA739170024AB 功放 TDA737570024SB 杜比电路 TEA065570025SB AMS LA201070026SB FRONT END70027SB70028SB IF/DET70029SB 音频处理器 TDA730670032AB 前置放大 TDA1523 ??70033BB 控制放大器 LM83770034AB 功放 TDA1519B70039AB 功放 TDA8566Q70042FB 电源 L084, L495370043AB TEA0675 or TDA8586Q70045SB 杜比电路 TEA067570047SB 杜比电路 TEA0675T70052AB 功放 TDA8586Q70082FB 电源70530FB 电源70670FS 前置放大 TEA0676T71005DC LCD显示驱动 PCF857771005TB 多频调制 DS36277N7100130 PCF8576TN700700CFFB000 电源 PHIL, HSOP-20 F2DF-14A652-EA 电源 TL751M10SONY159-00 功放 HA13151160-00 功放 HA13151180-00 功放 HA13152260-41 功放 HA13151260-77 功放 HA13150A279-82 功放 HA13151279-87 功放 HA13151279-89 功放 HA13152360-47 功放 HA13153365-41 功放 HA13155368-11 电子音量 LC75372E 369-41 功放 HA13155369-42 功放 HA13153426-49 功放 HA13155448-48 功放 HA13157448-61 功放 HA13156490-48 功放 HA13158PICKUPSOPTIMA-150S JVC OPTIMA-6S KSP-1H KENWOOD KSS-213F RAE0142Z MATSUSHITA RAE0144 1121 SONY KSS-210AKSS-168A SONY KSS-320BKSS-412A SONY KSS-401AKSS-401A SONY KSS-412AKSS-313A SONY KSS-313CKSS-240 SONY KSS-390KSS-314A SONY KSS-313A SOH-AAU SAMSUNG KSS-213KSS-540A SONY KSS-541AKSS-520A SONY KSS-521AMOTOROLAMC13304T3 功放 TA8215MC13306T3S 功放 TA8205MC13309T3 功放 TA8215MC13320T3 功放CHRYSLER 4632512 音频处理器 TDA7314S 4651311 功放 TDA1553Q4391943 74HC004392073 27C2564392075 74HC144517571 74HC3734517572 74HC74 ??4632511 TDA1591T4632858 TDA3601AQ4632990 M28F1024651350 L9222AOTHERSM851G OKI , 存储器 93C4616811G OKI , 存储器 93C4616911 OKI , 存储器 59C11 ADxxxx YAZAKI, 存储器 93C46 8-bit ABxxxx YAZAKI, 存储器 ER59C11标志印字芯片功能代换型号BOSCH3003930061 ADC0809B22AN 存储器 93C06B34AB 存储器 24C02B43AB 存储器 24C02B46AJ 存储器 24C02B49AJ 存储器 24C02B52AP 存储器 24C02B54AH 存储器 24C02B57120 存储器 27C64B57324 存储器 2732AB57347 存储器 27C64B57423 存储器 27C256B57449 74HC74B57477 存储器 27C64B57519 存储器 27C64B57581 74HC573B57604 存储器 27C256B57605 存储器 27256B57607 存储器 27C128B57610 存储器 27C128B57618 存储器 87C64B57625 存储器 2764AB57654 存储器 27C256B57696 存储器 27C256B57701 存储器 27C256B57733 4x位开关 TLE4211, TLE6220B57764 存储器 87C257B57764 存储器 87C64B57771 存储器 27C256B57808 存储器 27C256B57922 存储器 87C257B57960 存储器 27C256B57995 存储器 TMS27C256B58014 存储器 27C256B58038 存储器 27C256B58094 存储器 27C510B58126 存储器 27C010B58127 存储器 27C512B58150 存储器 87C257B58157 存储器 27C512B58185 存储器 87C257B58196 存储器 NS93C46B58234 存储器 27C256B58235 存储器 87C257B58239 存储器 27C512B58240 6 x位开关 TLE4216G, TLE4226G B58241 4 x位开关 TLE4214G, TLE6225 B58243 存储器 CJ87BC6QGB58244 I87M12B58258 存储器 24C02B58265 控制器 CAN控制器??B58275 存储器 27C1024B58286 控制器 SAB80C166B58293 存储器 27C512B58331 存储器 28F010B58380 存储器 24C02B58381 存储器 AM28F512B58399 存储器 AM29F010B58400 存储器 87C510B58424 存储器 27C512B58502 ABS,ASR系统IC TLE5200G, TLE6210G B58504 ABS,ASR系统IC TLE5201G, TLE6211G B58505 2 x位开关 TLE5225G, TLE6215GB58517 存储器 28F020B58530 存储器 AM29F010B58533 存储器 27C4096B58539 存储器 27C256B58541 存储器 27C512B58542 存储器 27C512B58543 存储器 27C512B58544 存储器 27C1001B58545 存储器 87C257B58546 存储器 87C510B58547 存储器 27C1001B58548 存储器 TMS27PC210 = 27C1024B58550 存储器 27C512B58590 AS87C196ENB58637 4 x位开关 TLE5226G, TLE6216GB58639 存储器 87PC110B58732 4 x位开关 TLE5216G, TLE6220B58755 存储器 AM29F200B58768 存储器 AM29F400ABB58791 存储器 AM29F200ABB58813 存储器 93C56B58911 存储器 TMS27C010AB58335 存储器 AT28C64BB58601 存储器 AM29F200BB9411 存储器 AM27C256DELCO08393 功放 TDA7372A96405 功放 TDA7376B9355092 存储器 24C049355093 存储器 24C0816124342 功放 TDA736016175974 RDS解调器 SAA6579 16219796 功放 TDA7454 100% , not TDA7384 16233541 存储器 M27C256BPIONEERPA2024A 电源 TA8244HPA3002 功放 HA1397PA3005 功放 HA1384PA3027A 功放 HA13150APA3029A 功放 HA13151PA3029B 功放 HA13151PAL001A 功放 TDA7394PAL002A 功放 TDA7394PAL003A 功放 TDA7384APAL005A 功放 TDA7385PAL006A 功放 TDA7560PAL007A 功放 TDA7560PAU001A 功放 HA13151VISTEON0022FBCAC 电源 TL751M100040FBCAC 电源 TL751M1077002 I2C存储器 24C167008FB 电源 78L0570001BB RDS解调器 TDA733070001SE RDS解调器 TDA733070001RR RDS解调器 TDA7330 ??70002FE 音频处理器 TDA731170003AB 功放 TDA200370003SC FREQ. SYNTH.70003SE RDS解调器 TDA733070005EB PLL立体声译码器 TDA159170005EH 音频处理器 TDA7340P70006SE 音频处理器 TDA734070008AB 功放 TDA736070009AB 功放 11 pins70010AB 功放 TDA735070010BB 双运放 TDA342070010FB 电源 TL751M1070011AB 功放 TDA7350with some modifications 70011SB 音频处理器 TDA152470014BB 控制放大器 LM83770016SE 音频处理器 TDA7460N70017AB 驱动放大 TDA723770017FB 电源 TA1483270019SB 音频处理器70023AB 功放 TDA739170024AB 功放 TDA737570024SB 杜比电路 TEA065570025SB AMS LA201070026SB FRONT END70027SB70028SB IF/DET70029SB 音频处理器 TDA730670032AB 前置放大 TDA1523 ??70033BB 控制放大器 LM83770034AB 功放 TDA1519B70039AB 功放 TDA8566Q70042FB 电源 L084, L495370043AB TEA0675 or TDA8586Q70045SB 杜比电路 TEA067570047SB 杜比电路 TEA0675T70052AB 功放 TDA8586Q70082FB 电源70530FB 电源70670FS 前置放大 TEA0676T71005DC LCD显示驱动 PCF857771005TB 多频调制 DS36277N7100130 PCF8576TN700700CFFB000 电源 PHIL, HSOP-20F2DF-14A652-EA 电源 TL751M10SONY159-00 功放 HA13151160-00 功放 HA13151180-00 功放 HA13152260-41 功放 HA13151260-77 功放 HA13150A279-82 功放 HA13151279-87 功放 HA13151279-89 功放 HA13152360-47 功放 HA13153365-41 功放 HA13155368-11 电子音量 LC75372E 369-41 功放 HA13155369-42 功放 HA13153426-49 功放 HA13155448-48 功放 HA13157448-61 功放 HA13156490-48 功放 HA13158PICKUPSOPTIMA-150S JVC OPTIMA-6SKSP-1H KENWOOD KSS-213F RAE0142Z MATSUSHITA RAE0144 1121 SONY KSS-210AKSS-168A SONY KSS-320BKSS-412A SONY KSS-401AKSS-401A SONY KSS-412AKSS-313A SONY KSS-313CKSS-240 SONY KSS-390KSS-314A SONY KSS-313ASOH-AAU SAMSUNG KSS-213KSS-540A SONY KSS-541AKSS-520A SONY KSS-521AMOTOROLAMC13304T3 功放 TA8215MC13306T3S 功放 TA8205MC13309T3 功放 TA8215MC13320T3 功放CHRYSLER4632512 音频处理器 TDA7314S4651311 功放 TDA1553Q4391943 74HC004392073 27C2564392075 74HC144517571 74HC3734517572 74HC74 ??4632511 TDA1591T4632858 TDA3601AQ4632990 M28F1024651350 L9222AOTHERSM851G OKI , 存储器 93C4616811G OKI , 存储器 93C4616911 OKI , 存储器 59C11 ADxxxx YAZAKI, 存储器 93C46 8-bit ABxxxx YAZAKI, 存储器 ER59C11第1部分汽车音响常用集成电路1.1 收音系统电路1.1.1 AN7222 AM调谐，AM/FM中频放大电路1.1.2 AN7254 FM前端电路1.1.3 AN7463S 带消噪的FM立体声解码器1.1.4 BA403 FM中频放大器1.1.5 BA1310 锁相环式FM立体声解码器1.1.6 BA1332/BA1332L 锁相环式FM立体声解码器1.1.7 BA1350 带噪声抑制的FM立体声解码器1.1.8 BA1405/BA1405F FM立体声调制器1.1.9 CX20029 AM/FM立体声收音机电路1.1.10 CXA1101P/CXA1101M 双通道杜比B型降噪电路1.1.11 CXA1102P/CXA1102M 双通道杜比B型降噪电路1.1.12 CXA1238M/CXA1238S AM/FM立体声收音电路1.1.13 HA11219 FM噪声抑制电路1.1.14 HA12134A 双通道杜比B型降噪电路1.1.15 KA2244 FM中频放大器1.1.16 KA2261 锁相环式FM立体声解码器1.1.17 KB4409 锁相环式FM立体声解码器1.1.18 KIA6010SN FM噪声抑制电路1.1.19 LA1130 AM调谐电路1.1.20 LA1132 AM调谐电路1.1.21 LA1135 AM调谐电路1.1.22 LA1140 FM中频放大器1.1.23 LA1175 FM调谐电路1.1.24 LA1862M FM立体声解码器1.1.25 LA2110 FM消噪电路1.1.26 LA3365 锁相环式FM立体声解码器1.1.27 LA3370 锁相环式FM立体声解码器1.1.28 LA3375 锁相环式FM立体声解码器1.1.29 LA3430 带消噪功能的锁相环式FM立体声解码器1.1.30 LB3500 FM本振频率1/8分频器1.1.31 LC7218/LC7218M/LC7218JM 电子调谐PLL频率合成器1.1.32 LC7219/LC7219M/LC7219JM 电子调谐PLL频率合成器1.1.33 LC72131/LC72131M AM/FM PLL频率合成器1.1.34 LC72146/LC72146M/LC72146V 电子调谐PLL频率合成器1.1.35 LC72191/LC72191M/LC72191JM 立体声电子调谐PLL频率合成器1.1.36 LC72722/LC72722M/LC72722PM 单片RDS信号处理系统1.1.37 LM7001/LM7001M 电子调谐辅助微处理器1.1.38 TA7343AP/TA7343AF 锁相环式FM立体声解码器1.1.39 TA7358P/AP FM调谐电路1.1.40 TA7640AP AM调谐，AM/FM中频放大器1.1.41 TA8122N/TA8122F 3V AM/FM调谐电路1.1.42 TA8127N/TA8127F 3V AM/FM调谐电路1.1.43 TA8132N/TA8132F AM/FM中放及立体声解码器1.1.44 TA8164P 3V AM/FM收音机电路1.1.45 TC9246F/TC9246P 数字音响锁相环电路1.1.46 TD7104P/TD7104F 数字合成调谐器用ECL预引比例器1.1.47 TDA1579/TDA1579T 交通告警无线传输解码器1.1.48 TEA0652 杜比B/C型降噪电路1.1.49 TEA5560 FM中频放大器1.1.50 μPB553AC 150M Hz低功耗分频电路1.1.51 μPC1167C2 FM中频放大器1.1.52 μPC1171C AM调谐电路1.1.53 μPC1191V AM调谐电路1.1.54 μPC1200V FM中频放大器1.1.55 μPC1215V AM电子调谐电路1.2 磁带放音系统电路1.2.1 AN6263N 磁带暂停检测电路1.2.2 BA338/BA338L 自动选曲电路1.2.3 BA3430S/BA3430F/BA3430FS 带静噪检测的立体声前置放大器1.2.4 BA6219B/BA6219BFP Y 双向电机驱动器1.2.5 BA6285FP/BA6285FS 双向电机驱动器1.2.6 CXA2509AQ 带选曲功能的均衡放大器1.2.7 D7784P 双声道磁头选择开关、自动翻转及放大器1.2.8 LA2000/LA2000S 单曲自动选曲电路1.2.9 LB1641 双向电机驱动器1.2.10 LB1649 双桥式电机驱动器1.2.11 LB1836M 桥式电机驱动器1.2.12 MM1322XFBE 电机驱动控制电路1.2.13 TA7291P/TA7291S/TA7291F 电机驱动控制电路1.2.14 μPC1470H 电机速度控制器1.3 音频处理电路1.3.1 AN214 4.4W音频功率放大器1.3.2 AN7168 5.8W×2双通道音频功率放大器1.3.3 AN7178 5.7W×2双通道音频功率放大器1.3.4 AN7310N 立体声双通道音频前置放大器1.3.5 AN7311 立体声双通道音频前置放大器1.3.6 BA328 双通道音频前置放大器1.3.7 BA5406 5W×2音频功率放大器1.3.8 CXA1646Q 电子音量控制电路1.3.9 CXA1946AQ 电子音量控制电路1.3.10 HA13001 5.5W×2(BTL 17.5W)音频功率放大器1.3.11 HA13119 5.5W×2音频功率放大器1.3.12 HA13150A 21W×4 BTL音频功率放大器1.3.13 HA13151/HA13151A 14W×4 BTL音频功率放大器1.3.14 HA 13153 15W×4 BTL音频功率放大器1.3.15 HA 13155 33W×4 BTL音频功率放大器1.3.16 LA2900M 双通道高电平线路放大器1.3.17 LA3160 双通道音频前置放大器1.3.18 LA4440 6W×2(BTL 19W)音频功率放大器1.3.19 LA4445 5.5W×2音频功率放大器1.3.20 LA4743B 45W×4(BTL 19W)音频功率放大器1.3.21 LA47501 50W×4(BTL 19W)音频功率放大器1.3.22 LC7538NM 电子音色控制电路1.3.23 LC75373ED 电子音量控制电路1.3.24 LC75383ED 电子音量控制电路1.3.25 M51522AL 双通道音频前置放大器1.3.26 TA7227P 5.5W×2音频功率放大器1.3.28 TA7240P/TA7240AP 5.8W×2音频功率放大器1.3.29 TA7270P 5.8W×2音频功率放大器1.3.30 TA7325P 双通道音频前置放大器1.3.31 TA7630P 双通道音量、音调、平衡控制电路1.3.32 TA8207K 4.5W×2音频功率放大器1.3.33 TA8210AH/TA8210AL 22W×2音频功率放大器1.3.34 TA8260AH 40W(BTL)×4音频功率放大器1.3.35 TA8263BH 43W(BTL)×4音频功率放大器1.3.36 TC9482N/TC9482F 电子音量控制器1.3.37 TDA1520 20W音频功率放大器1.3.38 TDA1557Q 22W×2音频功率放大器1.3.39 TDA2003H/TDA2003V 10W音频功率放大器1.3.40 TDA2004 10W×2音频功率放大器1.3.41 TDA2005 10W×2(BTL 20W)音频功率放大器1.3.42 TDA2009 10W×2音频功率放大器1.3.43 TDA2030/TDA2030A 18W音频功率放大器1.3.44 TDA7313/TDA7313D 音频处理电路1.3.45 TDA7314S 音频处理电路1.3.46 TDA7381A 24W×4音频功率放大器1.3.47 TDA7384A 35W×4音频功率放大器1.3.48 TDA7385A 30W×4音频功率放大器1.3.49 TDA8561Q 24W×4(BTL)或12W×4音频功率放大器1.3.50 TEA6320T 音量衰减控制电路1.3.51 μPC566H 低噪声音频前置放大器1.3.52 μPC1154H 4.8W音频功率放大器1.3.53 μPC1185H 5.8W×2音频功率放大器1.3.54 μPC1228H 双通道音频前置放大器1.3.55 μPC1230H 20W(BTL)音频功率放大器1.3.56 μPC2500H 45W音频功率放大器1.4 LED及LCD显示电路1.4.1 BA3834F/BA3834S 频谱显示带通滤波器1.4.2 BU2092/BU2092F/BU2092FV 12位串入并出LCD驱动器1.4.3 KA2284 5点双LED电平指示驱动器1.4.4 LC7265 接收频率显示电路1.4.5 LC7267 接收频率及时间显示电路1.4.6 LC75853NE/LC75853NW 带键入功能的1/4占空比LCD显示驱动器1.4.7 LC75854W 带键入功能的1/4占空比LCD 显示驱动器1.4.8 NJU6432BFB2 双LCD显示驱动器1.5 电源电路1.5.1 BA033FP 3.3V低压降3端稳压器1.5.2 BA4906 V2 汽车立体声系统电源电路1.5.3 BA6161F/BA6161N 电子调谐用开关电源稳压器1.5.4 CA3524E 开关电源稳压控制器1.5.5 KIA7019P/F～KIA7045P/F 电压检测器1.5.6 NJM2360AD/NJM2360AM 高精度DC/DC 变换控制器1.5.7NJM2368D/NJM2368E/NJM2368M/NJM2368V 开关电源稳压控制器1.5.8 S 801XX系列内置延时电路的高精度电压检测器1.5.9 S 808XX系列超小型封装高精度电压检测器1.5.10 TA76431F/TA76431S 电压精密调节器1.5.11 TDA3606 带电池检测的多电压稳压器1.5.12 TL494CN/TL494N 脉宽调制式开关稳压电路1.5.13 7805～7824系列5～24V/1A三端固定正稳压器1.5.14 78L05～78L24系列5～24V/0.3A三端固定正稳压器1.5.15 78M05～78M24系列5～24V/0.5A三端固定正稳压器1.5.16 7905～7924系列-5～-24V/1A三端固定负稳压器1.6 微处理器与微控制器1.6.1 DT9702 系统控制微处理器1.6.2 LC7230 带LCD驱动的PLL及控制器1.6.3 LC72323A 8909 带LCD驱动器的PLL及控制器1.6.4 μPD1701C 011 PLL频率合成数字调谐电路1.6.5 μPD1708AG026 数字调谐微处理器1.6.6 μPD1719G011 数字调谐微处理器1.7 CD及MD放音系统电路1.7.1 BA5984FP CD及MD机用5通道BTL电机驱动器1.7.2 BA6796FP CD机用5通道BTL电机驱动器1.7.3 CXA1782BQ 射频信号处理器1.7.4 CXA2523AR MD机射频矩阵放大器1.7.5 CXD2507AQ CD机数字信号处理器1.7.6 CXD2655BR MD机数字信号处理器1.7.7 LC89051V 数字音响接口接收器1.7.8 MN6479A 数字滤波电路1.7.9 TA2058F CD机功率驱动器1.7.10 TC9426F 数字伺服信号处理电路1.7.11 5M5877AM 数字滤波器及D/A变换器1.8 其他电路1.8.1 BA3121/BA3121F/BA3121N 接地隔离放大器1.8.2 BA3129/BA3129F 带开关2×2运算放大器1.8.3 BA4558/BA4558F/BA4558N 双运算放大器1.8.4 LM324N/LM324D 四运算放大器1.8.5 NJM2058D/NJM2058M/NJM2058V四运算放大器1.8.6NJM2100D/NJM2100L/NJM2100M/NJM2100V 双运算放大器1.8.7 NJM2103D/NJM2103L/NJM2103M系统恢复电路1.8.8 NJM2114D/NJM2114L/NJM2114M高性能低噪声双运算放大器1.8.9 NJM2903D/NJM2903L/NJM2903M双电压比较器1.8.10 NJM2904D/NJM2904L/NJM2904M双运算放大器1.8.11NJM4580D/NJM4580L/NJM4580M/NJM4580V 双运算放大器1.8.12 TA2050S/TA2050F接地隔离电路1.8.13 μPC358C/μPC358G/μPC358HA双运算放大器1.8.14 μPC1490H 红外遥控接收电路1.8.15 μPC4570C/μPC4570G/μPC4570HA 超低噪声宽带双运算放大器1.8.16 μPD6121G530 红外遥控接收电路1.8.17 24C01/24C02/24C04/24C08 1k/2k/4k/8k双线串行EEPROM1.8.18 24LC01/24LC02/24LC04/24LC08 1k/2k/4k/8k双线串行EEPROM1.9 汽车音响常用逻辑集成电路内部逻辑电路图1.10 汽车音响常用集成电路封装形式第2部分汽车音响集成电路实测数据2.1 实测集成电路型号表2.2 实测集成电路数据表2.3 实测汽车音响调谐器数据表第3部分汽车音响集成电路直接互换表3.1 汽车音响集成电路直接互换表(按字母顺序排列) 3.2 汽车音响集成电路直接互换表(按数字顺序排列)附录A 几种品牌汽车音响集成电路组合方案附录B 常用集成电路封装缩写英汉对照附录C 汽车音响常用集成电路厂商型号识别表附录D 汽车音响集成电路常用英汉词汇对照表参考资料。

Micron Parallel NOR Flash Embedded Memory (P30-65nm)JS28F256P30B/TFx, RC28F256P30B/TFx, PC28F256P30B/TFx,RD48F4400P0VBQEx, RC48F4400P0VB0Ex,PC48F4400P0VB0Ex, PF48F4000P0ZB/TQExFeatures•High performance–100ns initial access for Easy BGA–110ns initial access for TSOP–25ns 16-word asychronous page read mode–52 MHz (Easy BGA) with zero WAIT states and 17ns clock-to-data output synchronous burstread mode–4-, 8-, 16-, and continuous word options for burst mode–Buffered enhanced factory programming (BEFP) at 2 MB/s (TYP) using a 512-word buffer– 1.8V buffered programming at 1.14 MB/s (TYP) using a 512-word buffer•Architecture–MLC: highest density at lowest cost–Asymmetrically blocked architecture–Four 32KB parameter blocks: top or bottom con-figuration–128KB main blocks–Blank check to verify an erased block•Voltage and power–V CC (core) voltage: 1.7V to 2.0V–V CCQ (I/O) voltage: 1.7V to 3.6V–Standy current: 65µA (TYP) for 256Mb–52 MHz continuous synchronous read current: 21mA (TYP), 24mA (MAX)•Security–One-time programmable register: 64 OTP bits, programmed with unique information from Mi-cron; 2112 OTP bits available for customer pro-gramming–Absolute write protection: V PP = V SS–Power-transition erase/program lockout–Individual zero-latency block locking–Individual block lock-down–Password access•Software–25μs (TYP) program suspend–25μs (TYP) erase suspend–Flash Data Integrator optimized–Basic command set and extended function Inter-face (EFI) command set compatible–Common flash interface•Density and Packaging–56-lead TSOP package (256Mb only)–64-ball Easy BGA package (256Mb, 512Mb)–QUAD+ and SCSP packages (256Mb, 512Mb)–16-bit wide data bus•Quality and reliabilty–JESD47 compliant–Operating temperature: –40°C to +85°C–Minimum 100,000 ERASE cycles per block–65nm process technologyStatus RegisterRead Status RegisterTo read the status register, issue the READ STATUS REGISTER command at any address.Status register information is available at the address that the READ STATUS REGISTER,WORD PROGRAM, or BLOCK ERASE command is issued to. Status register data is auto-matically made available following a word program, block erase, or block lock com-mand sequence. Reads from the device after any of these command sequences will out-put the devices status until another valid command is written (e.g. READ ARRAY com-mand).The status register is read using single asynchronous mode or synchronous burst modereads. Status register data is output on DQ[7:0], while 0x00 is output on DQ[15:8]. Inasynchronous mode, the falling edge of OE# or CE# (whichever occurs first) updatesand latches the status register contents. However, when reading the status register insynchronous burst mode, CE# or ADV# must be toggled to update status data.The device write status bit (SR7) provides the overall status of the device. SR[6:1]present status and error information about the PROGRAM, ERASE, SUSPEND, V PP, andBLOCK LOCK operations.Note: Reading the status register is a nonarray READ operation. When the operation oc-curs in asynchronous page mode, only the first data is valid and all subsequent data areundefined. When the operation occurs in synchronous burst mode, the same data wordrequested will be output on successive clock edges until the burst length requirementsare satisfied.Table 16: Status Register DescriptionNotes: 1.Default value = 0x80.2.Always clear the status register prior to resuming ERASE operations. This eliminates sta-tus register ambiguity when issuing commands during ERASE SUSPEND. If a commandsequence error occurs during an ERASE SUSPEND, the status register contains the com-mand sequence error status (SR[7,5,4] set). When the ERASE operation resumes and fin-ishes, possible errors during the operation cannot be detected via the status register be-cause it contains the previous error status.3.When bits 5:4 indicate a PROGRAM/ERASE operation error, either a CLEAR STATUS REG-ISTER 50h) or a RESET command must be issued with a 15µs delay.Clear Status RegisterThe CLEAR STATUS REGISTER command clears the status register. It functions inde-pendently of V PP. The device sets and clears SR[7,6,2], but it sets bits SR[5:3,1] withoutclearing them. The status register should be cleared before starting a command se-quence to avoid any ambiguity. A device reset also clears the status register.Configuration RegisterRead Configuration RegisterThe read configuration register (RCR) is a 16-bit read/write register used to select busread mode (synchronous or asynchronous) and to configure device synchronous burstread characteristics. To modify RCR settings, use the CONFIGURE READ CONFIGURA-TION REGISTER command. RCR contents can be examined using the READ DEVICEIDENTIFIER command and then reading from offset 0x05. On power-up or exit from re-set, the RCR defaults to asynchronous mode. RCR bits are described in more detail be-low.Note: Reading the configuration register is a nonarray READ operation. When the oper-ation occurs in asynchronous page mode, only the first data is valid, and all subsequentdata are undefined. When the operation occurs in synchronous burst mode, the sameword of data requested will be output on successive clock edges until the burst lengthrequirements are satisfied.Table 17: Read Configuration RegisterRead ModeThe read mode (RM) bit selects synchronous burst mode or asynchronous page modeoperation for the device. When the RM bit is set, asynchronous page mode is selected(default). When RM is cleared, synchronous burst mode is selected.Latency CountThe latency count (LC) bits tell the device how many clock cycles must elapse from therising edge of ADV# (or from the first valid clock edge after ADV# is asserted) until thefirst valid data word is driven to DQ[15:0]. The input clock frequency is used to deter-mine this value. The First Access Latency Count figure shows the data output latency fordifferent LC settings.Figure 13: First Access Latency CountCLK [C]Address [A]ADV# [V]DQ[15:0] [D/Q]DQ[15:0] [D/Q]DQ[15:0] [D/Q]DQ[15:0] [D/Q]DQ[15:0] [D/Q]DQ[15:0] [D/Q]DQ[15:0] [D/Q]DQ[15:0] [D/Q]Note: 1.First Access Latency Count Calculation:•1 / CLK frequency = CLK period (ns)•n x (CLK period) ≥t AVQV (ns) – t CHQV (ns)•Latency Count = n。

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。

汽车电子常用芯片型号代换资料汽车电子常用芯片型号代换资料汽车电子, 存储器标志印字芯片功能代换型号BOSCH3003930061 ADC0809B22AN 存储器 93C06B34AB 存储器 24C02B43AB 存储器 24C02B46AJ 存储器 24C02B49AJ 存储器 24C02B52AP 存储器 24C02B54AH 存储器 24C02B57120 存储器 27C64B57324 存储器 2732AB57347 存储器 27C64B57423 存储器 27C256B57449 74HC74B57477 存储器 27C64B57519 存储器 27C64B57581 74HC573B57604 存储器 27C256B57605 存储器 27256B57607 存储器 27C128B57610 存储器 27C128B57618 存储器 87C257B57618 存储器 87C64B57625 存储器 2764AB57654 存储器 27C256B57701 存储器 27C256B57733 4x位开关 TLE4211, TLE6220 B57764 存储器 87C257 B57764 存储器 87C64B57771 存储器 27C256B57922 存储器 87C257B57960 存储器 27C256B57995 存储器 TMS27C256B58014 存储器 27C256B58038 存储器 27C256B58094 存储器 27C510B58126 存储器 27C010B58127 存储器 27C512B58150 存储器 87C257B58157 存储器 27C512B58185 存储器 87C257B58196 存储器 NS93C46B58234 存储器 27C256B58235 存储器 87C257B58239 存储器 27C512B58240 6 x位开关 TLE4216G, TLE4226GB58241 4 x位开关 TLE4214G, TLE6225B58243 存储器 CJ87BC6QGB58244 I87M12B58258 存储器 24C02B58265 控制器 CAN控制器??B58275 存储器 27C1024B58286 控制器 SAB80C166B58293 存储器 27C512B58331 存储器 28F010B58380 存储器 24C02B58381 存储器 AM28F512B58399 存储器 AM29F010B58400 存储器 87C510B58424 存储器 27C512B58502 ABS,ASR系统IC TLE5200G, TLE6210G B58504 ABS,ASR系统IC TLE5201G, TLE6211G B58505 2 x位开关TLE5225G, TLE6215GB58517 存储器 28F020B58533 存储器 27C4096B58539 存储器 27C256B58541 存储器 27C512B58542 存储器 27C512B58543 存储器 27C512B58544 存储器 27C1001B58545 存储器 87C257B58546 存储器 87C510B58547 存储器 27C1001B58548 存储器 TMS27PC210 = 27C1024B58550 存储器 27C512B58590 AS87C196ENB58637 4 x位开关 TLE5226G, TLE6216GB58639 存储器 87PC110B58732 4 x位开关 TLE5216G, TLE6220B58755 存储器 AM29F200B58768 存储器 AM29F400ABB58791 存储器 AM29F200ABB58813 存储器 93C56B58911 存储器 TMS27C010AB58335 存储器 AT28C64BB58601 存储器 AM29F200BB9411 存储器 AM27C256DELCO08393 功放 TDA7372A96405 功放 TDA7376B9355092 存储器 24C049355093 存储器 24C0816124342 功放 TDA736016175974 RDS解调器SAA6579 16219796 功放TDA7454 100% , not TDA7384 16233541 存储器 M27C256BPIONEERPA2024A 电源 TA8244HPA3002 功放 HA1397PA3005 功放 HA1384PA3027A 功放 HA13150APA3029A 功放 HA13151PA3029B 功放 HA13151PAL001A 功放 TDA7394PAL002A 功放 TDA7394PAL003A 功放 TDA7384APAL005A 功放 TDA7385PAL006A 功放 TDA7560PAL007A 功放 TDA7560PAU001A 功放 HA13151VISTEON0022FBCAC 电源 TL751M100040FBCAC 电源 TL751M1077002 I2C存储器 24C167008FB 电源 78L0570001BB RDS解调器 TDA733070001SE RDS解调器 TDA733070001RR RDS解调器 TDA7330 ??70002FE 音频处理器 TDA731170003AB 功放 TDA200370003SC FREQ. SYNTH.70003SE RDS解调器 TDA733070005EB PLL立体声译码器 TDA159170005EH 音频处理器 TDA7340P70006SE 音频处理器 TDA734070008AB 功放 TDA736070009AB 功放 11 pins70010AB 功放 TDA735070010BB 双运放 TDA342070010FB 电源 TL751M1070011AB 功放 TDA7350with some modifications 70011SB 音频处理器 TDA152470014BB 控制放大器 LM83770016SE 音频处理器 TDA7460N70017AB 驱动放大 TDA723770017FB 电源 TA1483270019SB 音频处理器70023AB 功放 TDA739170024AB 功放 TDA737570024SB 杜比电路 TEA065570025SB AMS LA201070026SB FRONT END70027SB70028SB IF/DET70029SB 音频处理器 TDA730670032AB 前置放大 TDA1523 ??70033BB 控制放大器 LM83770034AB 功放 TDA1519B70039AB 功放 TDA8566Q70042FB 电源 L084, L495370043AB TEA0675 or TDA8586Q70045SB 杜比电路 TEA067570047SB 杜比电路 TEA0675T70052AB 功放 TDA8586Q70082FB 电源70530FB 电源70670FS 前置放大 TEA0676T71005DC LCD显示驱动 PCF857771005TB 多频调制 DS36277N7100130 PCF8576TN700700CFFB000 电源 PHIL, HSOP-20 F2DF-14A652-EA 电源TL751M10SONY159-00 功放 HA13151160-00 功放 HA13151180-00 功放 HA13152260-41 功放 HA13151260-77 功放 HA13150A279-82 功放 HA13151279-87 功放 HA13151279-89 功放 HA13152360-47 功放 HA13153365-41 功放 HA13155368-11 电子音量 LC75372E 369-41 功放 HA13155369-42 功放 HA13153426-49 功放 HA13155448-48 功放 HA13157448-61 功放 HA13156490-48 功放 HA13158PICKUPSOPTIMA-150S JVC OPTIMA-6S KSP-1H KENWOOD KSS-213F RAE0142Z MATSUSHITA RAE0144 1121 SONY KSS-210A KSS-168A SONY KSS-320BKSS-412A SONY KSS-401AKSS-401A SONY KSS-412AKSS-313A SONY KSS-313CKSS-240 SONY KSS-390KSS-314A SONY KSS-313A SOH-AAU SAMSUNG KSS-213KSS-540A SONY KSS-541AKSS-520A SONY KSS-521AMOTOROLAMC13304T3 功放 TA8215MC13306T3S 功放 TA8205MC13309T3 功放 TA8215MC13320T3 功放CHRYSLER 4632512 音频处理器TDA7314S 4651311 功放TDA1553Q4391943 74HC004392073 27C2564392075 74HC144517571 74HC3734517572 74HC74 ??4632511 TDA1591T4632858 TDA3601AQ4632990 M28F1024651350 L9222AOTHERSM851G OKI , 存储器 93C4616811G OKI , 存储器 93C4616911 OKI , 存储器 59C11 ADxxxx YAZAKI, 存储器 93C46 8-bit ABxxxx YAZAKI, 存储器 ER59C11标志印字芯片功能代换型号BOSCH3003930061 ADC0809B22AN 存储器 93C06B34AB 存储器 24C02B43AB 存储器 24C02B46AJ 存储器 24C02B49AJ 存储器 24C02B52AP 存储器 24C02B54AH 存储器 24C02B57120 存储器 27C64B57324 存储器 2732AB57347 存储器 27C64B57423 存储器 27C256B57449 74HC74B57477 存储器 27C64B57519 存储器 27C64B57581 74HC573B57604 存储器 27C256B57605 存储器 27256B57607 存储器 27C128B57610 存储器 27C128B57618 存储器 87C64B57625 存储器 2764AB57654 存储器 27C256B57696 存储器 27C256B57701 存储器 27C256B57733 4x位开关 TLE4211, TLE6220B57764 存储器 87C257B57764 存储器 87C64B57771 存储器 27C256B57808 存储器 27C256B57922 存储器 87C257B57960 存储器 27C256B57995 存储器 TMS27C256B58014 存储器 27C256B58038 存储器 27C256B58094 存储器 27C510B58126 存储器 27C010B58127 存储器 27C512B58150 存储器 87C257B58157 存储器 27C512B58185 存储器 87C257B58196 存储器 NS93C46B58234 存储器 27C256B58235 存储器 87C257B58239 存储器 27C512B58240 6 x位开关TLE4216G, TLE4226G B58241 4 x位开关TLE4214G, TLE6225 B58243 存储器 CJ87BC6QGB58244 I87M12B58258 存储器 24C02B58265 控制器 CAN控制器??B58275 存储器 27C1024B58286 控制器 SAB80C166B58293 存储器 27C512B58331 存储器 28F010B58380 存储器 24C02B58381 存储器 AM28F512B58399 存储器 AM29F010B58400 存储器 87C510B58424 存储器 27C512B58502 ABS,ASR系统IC TLE5200G, TLE6210G B58504 ABS,ASR系统IC TLE5201G, TLE6211G B58505 2 x位开关TLE5225G, TLE6215GB58517 存储器 28F020B58530 存储器 AM29F010B58533 存储器 27C4096B58539 存储器 27C256B58541 存储器 27C512B58542 存储器 27C512B58543 存储器 27C512B58544 存储器 27C1001B58545 存储器 87C257B58546 存储器 87C510B58547 存储器 27C1001B58548 存储器 TMS27PC210 = 27C1024B58550 存储器 27C512B58590 AS87C196ENB58637 4 x位开关 TLE5226G, TLE6216GB58639 存储器 87PC110B58732 4 x位开关 TLE5216G, TLE6220B58755 存储器 AM29F200B58768 存储器 AM29F400ABB58791 存储器 AM29F200ABB58813 存储器 93C56B58911 存储器 TMS27C010AB58335 存储器 AT28C64BB58601 存储器 AM29F200BB9411 存储器 AM27C256DELCO08393 功放 TDA7372A9355092 存储器 24C049355093 存储器 24C0816124342 功放 TDA736016175974 RDS解调器SAA6579 16219796 功放TDA7454 100% , not TDA7384 16233541 存储器 M27C256BPIONEERPA2024A 电源 TA8244HPA3002 功放 HA1397PA3005 功放 HA1384PA3027A 功放 HA13150APA3029A 功放 HA13151PA3029B 功放 HA13151PAL001A 功放 TDA7394PAL002A 功放 TDA7394PAL003A 功放 TDA7384APAL005A 功放 TDA7385PAL006A 功放 TDA7560PAL007A 功放 TDA7560PAU001A 功放 HA13151VISTEON0022FBCAC 电源 TL751M100040FBCAC 电源 TL751M1077002 I2C存储器 24C167008FB 电源 78L0570001BB RDS解调器 TDA733070001SE RDS解调器 TDA733070001RR RDS解调器 TDA7330 ??70002FE 音频处理器 TDA731170003AB 功放 TDA200370003SC FREQ. SYNTH.70003SE RDS解调器 TDA733070005EB PLL立体声译码器 TDA159170005EH 音频处理器 TDA7340P70006SE 音频处理器 TDA734070009AB 功放 11 pins70010AB 功放 TDA735070010BB 双运放 TDA342070010FB 电源 TL751M1070011AB 功放 TDA7350with some modifications 70011SB 音频处理器 TDA152470014BB 控制放大器 LM83770016SE 音频处理器 TDA7460N70017AB 驱动放大 TDA723770017FB 电源 TA1483270019SB 音频处理器70023AB 功放 TDA739170024AB 功放 TDA737570024SB 杜比电路 TEA065570025SB AMS LA201070026SB FRONT END70027SB70028SB IF/DET70029SB 音频处理器 TDA730670032AB 前置放大 TDA1523 ??70033BB 控制放大器 LM83770034AB 功放 TDA1519B70039AB 功放 TDA8566Q70042FB 电源 L084, L495370043AB TEA0675 or TDA8586Q70045SB 杜比电路 TEA067570047SB 杜比电路 TEA0675T70052AB 功放 TDA8586Q70082FB 电源70530FB 电源70670FS 前置放大 TEA0676T71005DC LCD显示驱动 PCF857771005TB 多频调制 DS36277N7100130 PCF8576TN700700CFFB000 电源 PHIL, HSOP-20F2DF-14A652-EA 电源 TL751M10SONY159-00 功放 HA13151160-00 功放 HA13151180-00 功放 HA13152260-41 功放 HA13151260-77 功放 HA13150A279-82 功放 HA13151279-87 功放 HA13151279-89 功放 HA13152360-47 功放 HA13153365-41 功放 HA13155368-11 电子音量 LC75372E 369-41 功放 HA13155369-42 功放 HA13153426-49 功放 HA13155448-48 功放 HA13157448-61 功放 HA13156490-48 功放 HA13158PICKUPSOPTIMA-150S JVC OPTIMA-6SKSP-1H KENWOOD KSS-213F RAE0142Z MATSUSHITA RAE0144 1121 SONY KSS-210AKSS-168A SONY KSS-320BKSS-412A SONY KSS-401AKSS-401A SONY KSS-412AKSS-313A SONY KSS-313CKSS-240 SONY KSS-390KSS-314A SONY KSS-313ASOH-AAU SAMSUNG KSS-213KSS-540A SONY KSS-541AKSS-520A SONY KSS-521AMOTOROLAMC13304T3 功放 TA8215MC13306T3S 功放 TA8205MC13309T3 功放 TA8215MC13320T3 功放CHRYSLER4632512 音频处理器 TDA7314S4651311 功放 TDA1553Q4391943 74HC004392073 27C2564392075 74HC144517571 74HC3734517572 74HC74 ??4632511 TDA1591T4632858 TDA3601AQ4632990 M28F1024651350 L9222AOTHERSM851G OKI , 存储器 93C4616811G OKI , 存储器 93C4616911 OKI , 存储器 59C11 ADxxxx YAZAKI, 存储器 93C46 8-bit ABxxxx YAZAKI, 存储器 ER59C11第1部分汽车音响常用集成电路1.1 收音系统电路1.1.1 AN7222 AM调谐，AM/FM中频放大电路1.1.2 AN7254 FM前端电路1.1.3 AN7463S 带消噪的FM立体声解码器 1.1.4 BA403 FM中频放大器1.1.5 BA1310 锁相环式FM立体声解码器1.1.6 BA1332/BA1332L 锁相环式FM立体声解码器1.1.7 BA1350 带噪声抑制的FM立体声解码器 1.1.8 BA1405/BA1405F FM立体声调制器1.1.9 CX20029 AM/FM立体声收音机电路 1.1.10 CXA1101P/CXA1101M 双通道杜比B型降噪电路1.1.11 CXA1102P/CXA1102M 双通道杜比B型降噪电路1.1.12 CXA1238M/CXA1238S AM/FM立体声收音电路1.1.13 HA11219 FM噪声抑制电路1.1.14 HA12134A 双通道杜比B型降噪电路 1.1.15 KA2244 FM 中频放大器1.1.16 KA2261 锁相环式FM立体声解码器1.1.17 KB4409 锁相环式FM立体声解码器1.1.18 KIA6010SN FM噪声抑制电路1.1.19 LA1130 AM调谐电路1.1.20 LA1132 AM调谐电路1.1.21 LA1135 AM调谐电路1.1.22 LA1140 FM中频放大器1.1.23 LA1175 FM调谐电路1.1.24 LA1862M FM立体声解码器1.1.25 LA2110 FM消噪电路1.1.26 LA3365 锁相环式FM立体声解码器 1.1.27 LA3370 锁相环式FM立体声解码器1.1.28 LA3375 锁相环式FM立体声解码器1.1.29 LA3430 带消噪功能的锁相环式FM立体声解码器1.1.30 LB3500 FM本振频率1/8分频器1.1.31 LC7218/LC7218M/LC7218JM 电子调谐PLL频率合成器1.1.32 LC7219/LC7219M/LC7219JM 电子调谐PLL频率合成器1.1.33 LC72131/LC72131M AM/FM PLL频率合成器1.1.34 LC72146/LC72146M/LC72146V 电子调谐PLL频率合成器1.1.35 LC72191/LC72191M/LC72191JM 立体声电子调谐PLL频率合成器1.1.36 LC72722/LC72722M/LC72722PM 单片RDS信号处理系统1.1.37 LM7001/LM7001M 电子调谐辅助微处理器1.1.38 TA7343AP/TA7343AF 锁相环式FM立体声解码器1.1.39 TA7358P/AP FM调谐电路1.1.40 TA7640AP AM调谐，AM/FM中频放大器 1.1.41 TA8122N/TA8122F 3V AM/FM调谐电路1.1.42 TA8127N/TA8127F 3V AM/FM调谐电路1.1.43 TA8132N/TA8132F AM/FM中放及立体声解码器1.1.44 TA8164P 3V AM/FM收音机电路1.1.45 TC9246F/TC9246P 数字音响锁相环电路1.1.46 TD7104P/TD7104F 数字合成调谐器用ECL预引比例器1.1.47 TDA1579/TDA1579T 交通告警无线传输解码器1.1.48 TEA0652 杜比B/C型降噪电路1.1.49 TEA5560 FM中频放大器1.1.50 μPB553AC 150M Hz低功耗分频电路1.1.51 μPC1167C2 FM中频放大器1.1.52 μPC1171C AM调谐电路1.1.53 μPC1191V AM调谐电路1.1.54 μPC1200V FM中频放大器1.1.55 μPC1215V AM电子调谐电路1.2 磁带放音系统电路1.2.1 AN6263N 磁带暂停检测电路1.2.2 BA338/BA338L 自动选曲电路1.2.3 BA3430S/BA3430F/BA3430FS 带静噪检测的立体声前置放大器1.2.4 BA6219B/BA6219BFP Y 双向电机驱动器1.2.5 BA6285FP/BA6285FS 双向电机驱动器 1.2.6 CXA2509AQ 带选曲功能的均衡放大器 1.2.7 D7784P 双声道磁头选择开关、自动翻转及放大器1.2.8 LA2000/LA2000S 单曲自动选曲电路1.2.9 LB1641 双向电机驱动器1.2.10 LB1649 双桥式电机驱动器1.2.11 LB1836M 桥式电机驱动器1.2.12 MM1322XFBE 电机驱动控制电路1.2.13 TA7291P/TA7291S/TA7291F 电机驱动控制电路1.2.14 μPC1470H 电机速度控制器1.3 音频处理电路1.3.1 AN214 4.4W音频功率放大器1.3.2 AN7168 5.8W×2双通道音频功率放大器1.3.3 AN7178 5.7W×2双通道音频功率放大器1.3.4 AN7310N 立体声双通道音频前置放大器1.3.5 AN7311 立体声双通道音频前置放大器1.3.6 BA328双通道音频前置放大器1.3.7 BA5406 5W×2音频功率放大器1.3.8 CXA1646Q 电子音量控制电路1.3.9 CXA1946AQ 电子音量控制电路1.3.10 HA13001 5.5W×2(BTL 17.5W)音频功率放大器1.3.11 HA13119 5.5W×2音频功率放大器1.3.12 HA13150A 21W×4 BTL音频功率放大器1.3.13 HA13151/HA13151A 14W×4 BTL音频功率放大器1.3.14 HA 13153 15W×4 BTL音频功率放大器 1.3.15 HA 13155 33W×4 B TL音频功率放大器1.3.16 LA2900M 双通道高电平线路放大器1.3.17 LA3160 双通道音频前置放大器1.3.18 LA4440 6W×2(BTL 19W)音频功率放大器1.3.19 LA4445 5.5W×2音频功率放大器1.3.20 LA4743B 45W×4(BTL 19W)音频功率放大器1.3.21 LA47501 50W×4(BTL 19W)音频功率放大器1.3.22 LC7538NM 电子音色控制电路1.3.23 LC75373ED 电子音量控制电路1.3.24 LC75383ED 电子音量控制电路1.3.25 M51522AL 双通道音频前置放大器1.3.26 TA7227P 5.5W×2音频功率放大器 1.3.28 TA7240P/TA7240AP 5.8W×2音频功率放大器1.3.29 TA7270P 5.8W×2音频功率放大器 1.3.30 TA7325P 双通道音频前置放大器。

YX- C多功能编程器YX- C多功能编程器是我们根据国外资料仿制的一种廉价、功能繁多的普及型编程器。

YX- C多功能编程器经过并口与PC连接, 支持Win9x、Me、XP、NT以及操作系统; 英文软件(性能稳定), 适合电脑公司、电子爱好者、电子产品维修等工作人员使用。

使用前只需要将”YX- C程序”复制到电脑硬盘中即可。

打开文件夹”YX- C程序”, 双击”EpromM51.exe”一、软件运行窗口如下:二、菜单栏:1、File( 文件) : 下拉菜单中Load打开需要编程的文件。

下拉菜单中Save as‥另存为编程器读入文件作为备用。

下拉菜单中Exit为退出程序。

2、Edit( 编辑) : 编辑数据。

3、Device( 选择元件) : 选择芯片类型。

4、Action( 操作) : 对芯片进行操作, 如: 读写、编程/RAM 测试、比较/校验、空白检查、擦除芯片、获取ID、清空缓存、颠倒数据、交换字节等。

5、Help( 帮助) : 联机测试等。

6、主窗口介绍:三、工具栏:1、打开文件。

把编译好的数据调入编程器中。

能够打开的文件类型为: 二进制( *.BIN) 、十六进制( *.HEX) 等。

2、另存为一个文件。

把正在编辑中的数据另外保存为一个*.bin文件。

3、清除缓存。

4、读取芯片数据。

5、校验数据。

6、空白测试。

检测芯片存储器是否为空。

7、获取芯片ID。

8、芯片编程。

9、擦除( 清空) 芯片。

四、支持芯片列表EPROM :27C16、27C32、27C64、27C128、27C256、27C512、27C010、27C020、27C040、27C1001M27C1001、M27C 、M27C400127C080, M27C801, M87C2572716(Vpp25V)、2732、2764、27128、27256、27512、27010FLASH Memory :28F64、28F128、28F256、28F512、28F010、28F020MX26C1000、MX26C 、MX28F1000、MX28FAm28F256A、Am28F512A、Am28F010A、Am28F020AIntel:i28F001BX、28F004、28F008、28F016SST28SF040A 、LE28F400129F64、29F128、29F256、29F512、29F010、29F020、29F040、29F08029F001、29F002、29F004、29F008、29F016、29F032AT29C256、AT29C512、AT29C010A、AT29C020、AT29C040、AT29C040AW29EE512、W29EE011、W29EE012、W29C020(128)、W29C040PH29EE010(W29EE011)ASD AE29F1008 (AT29C010)、AE29F (AT29C020)AT49F512、AT49F010、AT49F020、AT49F040SST39SF010、SST3S9F020 、SST39SF040AT49F001、AT49F002 、AT49F008AAm29F512、Am29F010、Am29F020、Am29F040、HY29F080 29F002、29F002T、Pm29F002TEEPROM :28C65、28C64、28C128、28C256、28C512、28C010、28C020、28C040M28C16A/17A (DIP28)28C16、XLS2816 (DIP24)AT28C64B、AT28C256、AT28C512、AT28C010、AT28C020、AT28C040电擦EPROM :W27E512、W27E010、W27C010、W27C020、W27C040 SST27SF256、SST27SF512、SST27SF010、SST27SF020MX26C4000Vcc = 3.3-3.6V SST37VF512、SST37VF010、SST37VF020、SST37VF040串行(I2C) EEPROM :24C02、24C04、24C08、24C16、85C72、85C82、85C92 24C32、24C64、24C128、24C256、24C512 (全部C、LC系列) PCF8572 或8572, PCF8582或8582, PCF8592或8592Microwire EEPROM :8位模式: 93C06、93C46、93LC46、93C56、93C57、93C66、93C76、93C86、93C13、93C1416位模式: AT59C11、AT59C22、AT59C13CAT35C102、CAT35C104、CAT35C10893C06A 、93C46X、93C56、93C66、93C76、93C86 (NS)SPI EEPROM :Atmel: AT25010、020、040 (A8-A0)AT25080、160、320、640、128、256 (A15-A0)ST: W95010....256、Microchip 25x010 - 25x64025010、25020、2504025C080、25C160、25C320、25C640、25C128、25C256、25C512 AT25HP256、AT25HP512AT25HP1024CAT64LCxxx (16位数据I/O)CAT64LC010、CAT64LC020、CAT64LC040。

1/24June 2000M28C6464Kbit (8K x 8)Parallel EEPROMWith Software Data ProtectionsFast Access Time:–90ns at V CC =5V for M28C64and M28C64-A –120ns at V CC =3V for M28C64-xxWsSingle Supply Voltage:–4.5V to 5.5V for M28C64and M28C64-A –2.7V to 3.6V for M28C64-xxWs Low Power ConsumptionsFast BYTE and PAGE WRITE (up to 64Bytes)–1ms at V CC =4.5V for M28C64-A –3ms at V CC =4.5V for M28C64–5ms at V CC =2.7V for M28C64-xxWsEnhanced Write Detection and Monitoring:–Ready/Busy Open Drain Output –Data Polling –Toggle Bit–Page Load Timer Statuss JEDEC Approved Bytewide Pin-Out s Software Data Protections 100000Erase/Write Cycles (minimum)sData Retention (minimum):–40Years for M28C64and M28C64-xxW –10Years for M28C64-AFigure 1.Logic DiagramAI01350C13A0-A12W DQ0-DQ7V CCM28C64GEV SS8RBTable 1.Signal NamesA0-A12Address Input DQ0-DQ7Data Input /Output W Write Enable E Chip Enable G Output Enable RB Ready /Busy V CC Supply Voltage V SSGroundPDIP28(BS)SO28(MS)300mil width PLCC32(KA)281TSOP28(NS)8x 13.4mm281M28C642/24Figure 2A.DIP ConnectionsNote:1.NC =Not Connected Figure 2B.PLLC ConnectionsNote:1.NC =Not Connected2.DU =Do Not UseA1A0DQ0A7A4A3A2A6A5NC A10A8A9DQ7W A11G E DQ5DQ1DQ2DQ3V SSDQ4DQ6A12RB V CCAI01351CM28C6481234567910111213141615282726252423222120191817AI01352DN CA8A10D Q 417A0NC DQ0D Q 1D Q 2D U D Q 3A6A3A2A1A5A49W A91R B A11DQ6A 7DQ732D U V C C M28C64A 12NC D Q 5G E 25V S S Figure 2C.SO ConnectionsNote:1.NC =Not ConnectedFigure 2D.TSOP ConnectionsNote:1.NC =Not ConnectedDQ0DQ1A3A0A2A1A10E NC DQ7G DQ5V CC DQ4A9W A4RB A7AI01353CM28C648234567910111213142221201918171615DQ2V SSA6A5DQ6282726252423A11DQ31A12A8A1A0DQ0A5A2A4A3A9A11DQ7A8G E DQ5DQ1DQ2DQ3DQ4DQ6NC W A12A6RB V CC A7AI01354CM28C642812278141521V SS A10DESCRIPTIONThe M28C64devices consist of 8192x8bits of low power,parallel EEPROM,fabricated with STMicroelectronics’proprietary single polysilicon CMOS technology.The devices offer fast access time,with low power dissipation,and require a single voltage supply (5V or 3V,depending on the option chosen).The device has been designed to offer a flexible microcontroller interface,featuring both hardwareand software handshaking,with Ready/Busy,Data Polling and Toggle Bit.The device supports a 64byte Page Write operation.Software Data Protection (SDP)is also supported,using the standard JEDEC algorithm.3/24M28C64Figure 3.Block DiagramAI01355ADDRESS LATCHA6-A12(Page Address)X D E C O D ECONTROL LOGIC64K ARRAYADDRESS LATCHA0-A5Y DECODE V PP GENRESET SENSE AND DATA LATCHI/O BUFFERSRBEGWPAGE LOAD TIMER STATUS TOGGLE BIT DATA POLLINGDQ0-DQ7Table 2.Absolute Maximum Ratings 1Note:1.Except for the rating “Operating Temperature Range”,stresses above those listed in the Table “Absolute Maximum Ratings”maycause permanent damage to the device.These are stress ratings only,and operation of the device at these or any other conditions above those indicated in the Operating sections of this specification is not implied.Exposure to Absolute Maximum Rating condi-tions for extended periods may affect device reliability.Refer also to the ST SURE Program and other relevant quality -STD-883C,3015.7(100pF,1500Ω)Symbol ParameterValue Unit T A Ambient Operating Temperature -40to 125°C T STG Storage Temperature -65to 150°C V CC Supply Voltage -0.3to V CC +1V V IO Input or Output Voltage -0.6to V CC +0.6V V I Input Voltage-0.3to 6.5V V ESDElectrostatic Discharge Voltage (Human Body model)24000VM28C644/24Table 3.Operating Modes 1Note:1.0=V IL ;1=V IH ;X =V IH or V IL ;V=12V ±5%.ModeE G W DQ0-DQ7Stand-by 1X X Hi-Z Output Disable X 1X Hi-Z Write Disable X X 1Hi-Z Read 001Data Out Write 010Data In Chip EraseVHi-ZSIGNAL DESCRIPTIONThe external connections to the device are summarized in Table 1,and their use in Table 3.Addresses (A0-A12).The address inputs are used to select one byte from the memory array during a read or write operation.Data In/Out (DQ0-DQ7).The contents of the data byte are written to,or read from,the memory array through the Data I/O pins.Chip Enable (E).The chip enable input must be held low to enable read and write operations.When Chip Enable is high,power consumption is reduced.Output Enable (G).The Output Enable input controls the data output buffers,and is used to initiate read operations.Write Enable (W).The Write Enable input controls whether the addressed location is to be read,from or written to.Ready/Busy (RB).Ready/Busy is an open drain output that can be used to detect the end of the internal write cycle.DEVICE OPERATIONIn order to prevent data corruption and inadvertent write operations,an internal V CC comparator inhibits the Write operations if the V CC voltage is lower than V WI (see Table 4A and Table 4B).Once the voltage applied on the V CC pin goes over the V WI threshold (V CC >V WI ),write access to the memory is allowed after a time-out t PUW ,as specified in Table 4A and Table 4B.Further protection against data corruption is offered by the E and W low pass filters:any glitch,on the E and W inputs,with a pulse width less than 10ns (typical)is internally filtered out to prevent inadvertent write operations to the memory.Table 4A.Power-Up Timing 1for M28C64(5V range)(T A =0to 70°C or –40to 85°C or –40to 125°C;V CC =4.5to 5.5V)Note:1.Sampled only,not 100%tested.Table 4B.Power-Up Timing 1for M28C64-xxW (3V range)(T A =0to 70°C or –40to 85°C;V CC =2.7to 3.6V)Note:1.Sampled only,not 100%tested.Symbol ParameterMin.Max.Unit t PUR Time Delay to Read Operation1µs t PUW Time Delay to Write Operation (once V CC ≥V WI )10ms V WIWrite Inhibit Threshold3.04.2VSymbol ParameterMin.Max.Unit t PUR Time Delay to Read Operation1µs t PUW Time Delay to Write Operation (once V CC ≥V WI )15ms V WIWrite Inhibit Threshold1.52.5V5/24M28C64ReadThe device is accessed like a static RAM.When E and G are low,and W is high,the contents of the addressed location are presented on the I/O pins.Otherwise,when either G or E is high,the I/O pins revert to their high impedance state.WriteWrite operations are initiated when both W and E are low and G is high.The device supports both W-controlled and E-controlled write cycles (as shown in Figure 11and Figure 12).The address is latched during the falling edge of W or E (which ever occurs later)and the data is latched on the rising edge of W or E (which ever occurs first).After a delay,t WLQ5H ,that cannot be shorter than the value specified in Table 10A to Table 10C,the internal write cycle starts.It continues,under internal timing control,until the write operation is complete.The commencement of this period can be detected by reading the Page Load Timer Status on DQ5.The end of the cycle can be detected by reading the status of the Data Polling and the Toggle Bit functions on DQ7and DQ6.Page WriteThe Page Write mode allows up to 64bytes to be written on a single page in a single go.This is achieved through a series of successive Write operations,no two of which are separated by more than the t WLQ5H value (as specified in Table 10A to Table 10C).All bytes must be located on the same page address (A12-A6must be the same for all bytes).The internal write cycle can start at any instant after t WLQ5H .Once initiated,the write operation is internally timed,and continues,uninterrupted,until completion.As with the single byte Write operation,described above,the DQ5,DQ6and DQ7lines can be used to detect the beginning and end of the internally controlled phase of the Page Write cycle.Software Data Protection (SDP)The device offers a software-controlled write-protection mechanism that allows the user to inhibit all write operations to the device.This can be useful for protecting the memory from inadvertent write cycles that may occur during periods of instability (uncontrolled bus conditions when excessive noise is detected,or when power supply levels are outside their specified values).By default,the device is shipped in the “unprotected”state:the memory contents can be freely changed by the user.Once the Software Data Protection Mode is enabled,all write commands are ignored,and have no effect on the memory contents.The device remains in this mode until a valid Software Data Protection disable sequence is received.The device reverts to its “unprotected”state.The status of the Software Data Protection (enabled or disabled)is represented by a non-Figure 4.Software Data Protection Enable Algorithm and Memory WriteNote:1.The most significant address bits (A12to A6)differ during these specific Page Write operations.AI01356CWrite AAh in Address 1555hWrite 55h in Address 0AAAh Write A0h in Address 1555h SDP is setWrite AAh in Address 1555h Write 55h in Address 0AAAh Write A0h in Address 1555hPage Write (1up to 64bytes)Write to Memory When SDP is SETSDP Enable AlgorithmPage WriteTiming (see note 1)Page WriteTiming (see note 1)Write is enabledPhysical Page Write InstructionM28C646/24volatile latch,and is remembered across periods of the power being off.The Software Data Protection Enable command consists of the writing of three specific data bytes to three specific memory locations (each location being on a different page),as shown in Figure 4.Similarly to disable the Software Data Protection,the user has to write specific data bytes into six different locations,as shown in Figure 5.This complex series of operations protects against the chance of inadvertent enabling or disabling of the Software Data Protection mechanism.When SDP is enabled,the memory array can still have data written to it,but the sequence is more complex (and hence better protected from inadvertent use).The sequence is as shown in Figure 4.This consists of an unlock key,to enable the write action,at the end of which the SDP continues to be enabled.This allows the SDP to be enabled,and data to be written,within a single Write cycle (t WC ).Software Chip EraseUsing this function,available on the M28C64but not on the M28C64-A or M28C64-xxW,the contents of the entire memory are erased (set to FFh)by holding Chip Enable (E)low,and holding Output Enable (G)at V CC +7.0V.The chip is cleared when a 10ms low pulse is applied to the Write Enable (W)signal (see Figure 7and Table 5for details).Status BitsThe devices provide three status bits (DQ7,DQ6and DQ5),and one output pin (RB),for use during write operations.These allow the application to use the write time latency of the device for getting on with other work.These signals are available on the I/O port bits DQ7,DQ6and DQ5(but only during programming cycle,once a byte or more has been latched into the memory)or continuously on the RB output pin.Data Polling bit (DQ7).The internally timed write cycle starts after t WLQ5H (defined in Table 10A to Table 10C)has elapsed since the previous byte was latched in to the memory.The value of the DQ7bit of this last byte,is used as a signalFigure 5.Software Data Protection Disable AlgorithmAI01357BWrite AAh in Address 1555h Write 55h in Address 0AAAh Write 80h in Address 1555h Unprotected StateWrite AAh in Address 1555h Write 55h in Address 0AAAh Write 20h in Address 1555h Page WriteTimingFigure 6.Status Bit AssignmentAI02815DPTBPLTSHi-ZHi-ZHi-ZHi-ZHi-ZDP TB PLTS Hi-Z DQ7DQ6DQ5DQ4DQ3DQ2DQ1DQ0=Data Polling =Toggle Bit=Page Load Timer Status =High impedance7/24M28C64Table 5.Chip Erase AC Characteristics 1for M28C64and M28C64-xxW (T A =0to 70°C or –40to 85°C or –40to 125°C;V CC =4.5to 5.5V)(T A =0to 70°C or –40to 85°C;V CC =2.7to 3.6V)Note:1.Sampled only,not 100%tested.Symbol ParameterTest Condition Min.Max.Unit t ELWL Chip Enable Low to Write Enable Low G =V CC +7V 1µs t WHEH Write Enable High to Chip Enable High G =V CC +7V 0ns t WLWH2Write Enable Low to Write Enable High G =V CC +7V 10ms t GLWH Output Enable Low to Write Enable High G =V CC +7V 1µs t WHRHWrite Enable High to Write Enable LowG =V CC +7V3msthroughout this write operation:it is inverted while the internal write operation is underway,and is inverted back to its original value once the operation is complete.Toggle bit (DQ6).The device offers another way for determining when the internal write cycle is completed.During the internal Erase/Write cycle,DQ6toggles from ’0’to ’1’and ’1’to ’0’(the first read value being ’0’)on subsequent attempts to read any byte of the memory.When the internal write cycle is complete,the toggling is stopped,and the values read on DQ7-DQ0are those of the addressed memory byte.This indicates that the device is again available for new Read and Write operations.Page Load Timer Status bit (DQ5).An internal timer is used to measure the period between successive Write operations,up to t WLQ5H (defined in Table 10A to Table 10C).The DQ5line is held low to show when this timer is running (hence showing that the device has received one write operation,and is waiting for the next).The DQ5line is held high when the counter hasoverflowed (hence showing that the device is now starting the internal write to the memory array).Ready/Busy pin.The RB pin is an open drain output that is held low during the erase/write cycle,and that is released (allowed to float)at the completion of the programming cycle.Figure 7.Chip Erase AC Waveforms (M28C64and M28C64-xxW)AI01484BEGWtWLWH2tELWLtGLWHtWHRHtWHEHM28C648/24Table 6A.Read Mode DC Characteristics for M28C64and M28C64-A (5V range)(T A =0to 70°C or –40to 85°C or –40to 125°C;V CC =4.5to 5.5V)Note:1.All inputs and outputs open circuit.Table 6B.Read Mode DC Characteristics for M28C64-xxW (3V range)(T A =0to 70°C or –40to 85°C;V CC =2.7to 3.6V)Note:1.All inputs and outputs open circuit.Symbol ParameterTest Condition Min.Max.Unit I LI Input Leakage Current 0V ≤ V IN ≤V CC 10µA I LO Output Leakage Current 0V ≤V OUT ≤V CC10µA I CC1Supply Current (TTL inputs)E =V IL ,G =V IL ,f =5MHz 30mA Supply Current (CMOS inputs)E =V IL ,G =V IL ,f =5MHz25mA I CC11Supply Current (Stand-by)TTL E =V IH 1mA I CC21Supply Current (Stand-by)CMOS E >V CC -0.3V100µA V IL Input Low Voltage -0.30.8V V IH Input High Voltage 2V CC +0.5V V OL Output Low Voltage I OL =2.1mA 0.4V V OHOutput High VoltageI OH =-400µA2.4VSymbol ParameterTest Condition Min.Max.Unit I LI Input Leakage Current 0V ≤ V IN ≤V CC 10µA I LO Output Leakage Current 0V ≤V OUT ≤V CC10µA I CC1Supply Current (CMOS inputs)E =V IL ,G =V IL ,f =5MHz,V CC =3.3V 8mA E =V IL ,G =V IL ,f =5MHz,V CC =3.6V10mA I CC21Supply Current (Stand-by)CMOS E >V CC -0.3V20µA V IL Input Low Voltage -0.30.6V V IH Input High Voltage 2V CC +0.5V V OL Output Low Voltage I OL =1.6mA 0.2V CCV V OHOutput High VoltageI OH =-400µA0.8V CCV9/24M28C64Table 7.Input and Output Parameters 1(T A =25°C,f =1MHz)Note:1.Sampled only,not 100%tested.Table 8.AC Measurement ConditionsSymbol ParameterTest Condition Min.Max.Unit C IN Input Capacitance V IN =0V 6pF C OUTOutput CapacitanceV OUT =0V12pFInput Rise and Fall Times≤20ns Input Pulse Voltages (M28C64,M28C64-A)0.4V to 2.4V Input Pulse Voltages (M28C64-xxW)0V to V CC -0.3V Input and Output Timing Reference Voltages (M28C64,M28C64-A)0.8V to 2.0V Input and Output Timing Reference Voltages (M28C64-xxW)0.5V CCFigure 8.AC Testing Input Output WaveformsAI02101B4.5V to5.5V Operating Voltage 2.7V to 3.6V Operating Voltage V CC –0.3V0V0.5V CC2.4V0.4V2.0V 0.8VFigure 9.AC Testing Equivalent Load CircuitAI02102BOUTC L =100pFC L includes JIG capacitanceI OLDEVICE UNDER TESTI OHM28C6410/24Table 9A.Read Mode AC Characteristics for M28C64and M28C64-A (5V range)(T A =0to 70°C or –40to 85°C;V CC =4.5to 5.5V)Note:1.Output Hi-Z is defined as the point at which data is no longer driven.Table 9B.Read Mode AC Characteristics for M28C64(5V range)(T A =–40to 125°C;V CC =4.5to 5.5V)Note:1.Output Hi-Z is defined as the point at which data is no longer driven.SymbolAlt.ParameterTest Condit ion M28C64Unit-90-12-15MinMax MinMax MinMax t AVQV t ACC Address Valid to Output Valid E =V IL ,G =V IL 90120150ns t ELQV t CE Chip Enable Low to Output Valid G =V IL 90120150ns t GLQV t OE Output Enable Low to Output Valid E =V IL 404550ns t EHQZ 1t DF Chip Enable High to Output Hi-Z G =V IL 040045050ns t GHQZ 1t DF Output Enable High to Output Hi-Z E =V IL 040045050ns t AXQXt OHAddress Transition to Output TransitionE =V IL ,G =V IL00ns SymbolAlt.ParameterTest Condit ion M28C64Unit-12MinMax t AVQV t ACC Address Valid to Output Valid E =V IL ,G =V IL 120ns t ELQV t CE Chip Enable Low to Output Valid G =V IL 120ns t GLQV t OE Output Enable Low to Output Valid E =V IL 45ns t EHQZ 1t DF Chip Enable High to Output Hi-Z G =V IL 065ns t GHQZ 1t DF Output Enable High to Output Hi-Z E =V IL 065ns t AXQXt OHAddress Transition to Output TransitionE =V IL ,G =V ILns11/24Table 9C.Read Mode AC Characteristics for M28C64-xxW (3V range)(T A =0to 70°C or –40to 85°C;V CC =2.7to 3.6V)Note:1.Output Hi-Z is defined as the point at which data is no longer driven.SymbolAlt.ParameterTest Condit ion M28C64-xxWUnit-12-15-20-25-30MinMax Min Max Min Max Min MaxMinMax t AVQV t ACC Address Valid to Output Valid E =V IL ,G =V IL 120150200250300ns t ELQV t CE Chip Enable Low to Output Valid G =V IL 120150200250300ns t GLQV t OE Output Enable Low to Output Valid E =V IL 8080100150150ns t EHQZ 1t DF Chip Enable High to Output Hi-Z G =V IL 045050055060060ns t GHQZ 1t DF Output Enable High to Output Hi-Z E =V IL 045050055060060ns t AXQXt OHAddress Transition to Output TransitionE =V IL ,G =V IL00ns Figure 10.Read Mode AC Waveforms (with Write Enable,W,high)Note:1.Write Enable (W)=V IHAI00749BVALIDtAVQVtAXQXtGLQVtEHQZtGHQZDATA OUTA0-A12EGDQ0-DQ7tELQVHi-Z12/24Table 10A.Write Mode AC Characteristics for M28C64and M28C64-A (5V range)(T A =0to 70°C or –40to 85°C;V CC =4.5to 5.5V)Note:1.With a 3.3k Ωpull-up resistor.Symbol Alt.ParameterTest Condition M28C64Unit Min Maxt AVWL t AS Address Valid to Write Enable Low E =V IL ,G =V IH 0ns t AVEL t AS Address Valid to Chip Enable Low G =V IH ,W =V IL0ns t ELWL t CES Chip Enable Low to Write Enable Low G =V IH 0ns t GHWL t OES Output Enable High to Write Enable Low E =V IL 0ns t GHEL t OES Output Enable High to Chip Enable Low W =V IL 0ns t WLEL t WES Write Enable Low to Chip Enable Low G =V IH0ns t WLAX t AH Write Enable Low to Address Transition 50ns t ELAX t AH Chip Enable Low to Address Transition 50ns t WLDV t DV Write Enable Low to Input Valid E =V IL ,G =V IH 1µs t ELDV t DV Chip Enable Low to Input Valid G =V IH ,W =V IL1µs t ELEH t WP Chip Enable Low to Chip Enable High 50ns t WHEH t CEH Write Enable High to Chip Enable High 0ns t WHGL t OEH Write Enable High to Output Enable Low 0ns t EHGL t OEH Chip Enable High to Output Enable Low 0ns t EHWH t WEH Chip Enable High to Write Enable High 0ns t WHDX t DH Write Enable High to Input Transition 0ns t EHDX t DH Chip Enable High to Input Transition 0ns t WHWL t WPH Write Enable High to Write Enable Low 501000ns t WLWH t WP Write Enable Low to Write Enable High 50ns t WLQ5Ht BLCTime-out after last byte write (M28C64)100µs Time-out after last byte write (M28C64-A)20µs t Q5HQ5X t WC Write Cycle Time (M28C64)3ms Write Cycle Time (M28C64-A)1ms t WHRL t DB Write Enable High to Ready/Busy Low Note 1150ns t EHRL t DB Chip Enable High to Ready/Busy Low Note 1150ns t DVWH t DS Data Valid before Write Enable High 50ns t DVEHt DSData Valid before Chip Enable High50nsTable10B.Write Mode AC Characteristics for M28C64(5V range) (T A=–40to125°C;V CC=4.5to5.5V)Symbol Alt.Parameter Test ConditionM28C64Unit Min Maxt AVWL t AS Address Valid to Write Enable Low E=V IL,G=V IH0ns t AVEL t AS Address Valid to Chip Enable Low G=V IH,W=V IL0ns t ELWL t CES Chip Enable Low to Write Enable Low G=V IH0ns t GHWL t OES Output Enable High to Write Enable Low E=V IL0ns t GHEL t OES Output Enable High to Chip Enable Low W=V IL0ns t WLEL t WES Write Enable Low to Chip Enable Low G=V IH0ns t WLAX t AH Write Enable Low to Address Transition75ns t ELAX t AH Chip Enable Low to Address Transition75ns t WLDV t DV Write Enable Low to Input Valid E=V IL,G=V IH1µs t ELDV t DV Chip Enable Low to Input Valid G=V IH,W=V IL1µs t ELEH t WP Chip Enable Low to Chip Enable High50ns t WHEH t CEH Write Enable High to Chip Enable High0ns t WHGL t OEH Write Enable High to Output Enable Low0ns t EHGL t OEH Chip Enable High to Output Enable Low0ns t EHWH t WEH Chip Enable High to Write Enable High0ns t WHDX t DH Write Enable High to Input Transition0ns t EHDX t DH Chip Enable High to Input Transition0ns t WHWL t WPH Write Enable High to Write Enable Low501000ns t WLWH t WP Write Enable Low to Write Enable High50nst WLQ5H t BLC Time-out after last byte write(M28C64)100µs Time-out after last byte write(M28C64-A)20µst Q5HQ5X t WC Write Cycle Time(M28C64)3ms Write Cycle Time(M28C64-A)1mst WHRL t DB Write Enable High to Ready/Busy Low Note1150ns t EHRL t DB Chip Enable High to Ready/Busy Low Note1150ns t DVWH t DS Data Valid before Write Enable High50ns t DVEH t DS Data Valid before Chip Enable High50ns13/2414/24Table 10C.Write Mode AC Characteristics for M28C64-xxW (3V range)(T A =0to 70°C or –40to 85°C;V CC =2.7to 3.6V)Note:1.With a 3.3k Ωpull-up resistor.Symbol Alt.ParameterTest Condition M28C64-xxW Unit Min Maxt AVWL t AS Address Valid to Write Enable Low E =V IL ,G =V IH 0ns t AVEL t AS Address Valid to Chip Enable Low G =V IH ,W =V IL0ns t ELWL t CES Chip Enable Low to Write Enable Low G =V IH 0ns t GHWL t OES Output Enable High to Write Enable Low E =V IL 0ns t GHEL t OES Output Enable High to Chip Enable Low W =V IL 0ns t WLEL t WES Write Enable Low to Chip Enable Low G =V IH0ns t WLAX t AH Write Enable Low to Address Transition 100ns t ELAX t AH Chip Enable Low to Address Transition 100ns t WLDV t DV Write Enable Low to Input Valid E =V IL ,G =V IH 1µs t ELDV t DV Chip Enable Low to Input Valid G =V IH ,W =V IL1µs t ELEH t WP Chip Enable Low to Chip Enable High 1001000ns t WHEH t CEH Write Enable High to Chip Enable High 0ns t WHGL t OEH Write Enable High to Output Enable Low 0ns t EHGL t OEH Chip Enable High to Output Enable Low 0ns t EHWH t WEH Chip Enable High to Write Enable High 0ns t WHDX t DH Write Enable High to Input Transition 0ns t EHDX t DH Chip Enable High to Input Transition 0ns t WHWL t WPH Write Enable High to Write Enable Low 501000ns t WLWH t WP Write Enable Low to Write Enable High 100ns t WLQ5H t BLC Time-out after the last byte write 100µs t Q5HQ5X t WC Write Cycle Time5ms t WHRL t DB Write Enable High to Ready/Busy Low Note 1150ns t EHRL t DB Chip Enable High to Ready/Busy Low Note 1150ns t DVWH t DS Data Valid before Write Enable High 50ns t DVEHt DSData Valid before Chip Enable High50ns15/24Figure 11.Write Mode AC Waveforms (Write Enable,W,controlled)Figure 12.Write Mode AC Waveforms (Chip Enable,E,controlled)AI01126VALIDtAVWLA0-A12EGDQ0-DQ7DATA INWtWLAXtELWLtGHWLtWLDVtWHEHtWHGLtWLWH tWHWLtWHDXtDVWHRBtWHRLAI00751VALIDtAVELA0-A12EGDQ0-DQ7DATA IN WtELAXtGHELtWLELtELDVtEHGLtEHDXtDVEHRBtEHRLtELEHtEHWH16/24Figure 13.Page Write Mode AC Waveforms (Write Enable,W,controlled)Figure 14.Software Protected Write Cycle WaveformsNote:1.A12to A6must specify the same page address during each high-to-low transition of W (or E).G must be high only when W and Eare both low.tQ5HQ5XAI00752DA0-A12EGDQ0-DQ7(in)WAddr 0DQ5(out)RBAddr 1Addr 2Addr ntWLQ5HtWLWHtWHWLtWHRLByte 0Byte 1Byte 2Byte nAI01358BA0-A5EGDQ0-DQ7WtWLWHtDVWHByte 0tWHWLA6-A12tWLAXtWHDXtAVEL1555h0AAAh1555hByte 62Byte 63AAh55hA0hByte AddressPage Address17/24Figure 15.Data Polling Sequence WaveformsFigure 16.Toggle Bit Sequence WaveformsNote:1.The Toggle Bit is first set to ‘0’.AI00753CA0-A12EGDQ7WDQ7DQ7DQ7DQ7DQ7READYLAST WRITE INTERNAL WRITE SEQUENCE Address of the last byte of the Page Write instructionAI00754DA0-A12EGDQ6WREADYLAST WRITEINTERNAL WRITE SEQUENCE(1)TOGGLE18/24Table 11.Ordering Information SchemeNote:1.Available only with 120ns speed (-12),5V operating range (-blank),and -40to 85°C temperature range (-6).2.Available for the M28C64only.3.Available for the 3V range (-xxW)only.4.Not available for the 1ms write time option (-A).5.Available only for the “M28C64-12MS 3”(5V range,SO28package)Example:M28C64–A12BS6TWrite TimeOptionblank t WC =3ms at 4.5V to 5.5V;t WC =5ms at 2.7V to 3.6V TTape and Reel PackingA 1t WC =1ms at 4.5V to 5.5VSpeedTemperature Range 90290ns 10°C to 70°C 12120ns 6–40°C to 85°C 15150ns 3–40°C to 125°C 5203200ns 253250ns 303300nsPackage BSPDIP28Operating Voltage KA PLCC32blank 4.5V to 5.5V MS SO28(300mil width)W 42.7V to3.6VNSTSOP28(8x 13.4mm)ORDERING INFORMATIONDevices are shipped from the factory with the memory content set at all ‘1’s (FFh).The notation used for the device number is as shown in Table 11.For a list of available options (speed,package,etc.)or for further information on any aspect of this device,please contact your nearest ST Sales Office.Figure17.PDIP28(BS)Note: 1.Drawing is not to scale.PDIPA2A1ALB1B e1DSE1EN1CαeAeBD2Table12.PDIP28-28pin Plastic DIP,600mils widthSymb.mm inchesTyp.Min.Max.Typ.Min.Max.A 3.94 5.080.1550.200A10.38 1.780.0150.070A2 3.56 4.060.1400.160B0.380.560.0150.021B1 1.14 1.780.0450.070C0.200.300.0080.012D34.7037.34 1.366 1.470E14.8016.260.5830.640E112.5013.970.4920.550e1 2.54––0.100––eA15.2017.780.5980.700L 3.05 3.820.1200.150S 1.02 2.290.0400.090α0°15°0°15°N282819/2420/24Table 13.PLCC32-32lead Plastic Leaded Chip Carrier,rectangularSymbolmminches Typ.Min.Max.Typ.Min.Max.A 2.54 3.560.1000.140A1 1.52 2.410.0600.095A2–0.38–0.015B 0.330.530.0130.021B10.660.810.0260.032D 12.3212.570.4850.495D111.3511.560.4470.455D29.9110.920.3900.430E 14.8615.110.5850.595E113.8914.100.5470.555E212.4513.460.4900.530e 1.27––0.050––F 0.000.250.0000.010R 0.89––0.035––N 3232Nd 77Ne 99CP0.100.004Figure 18.PLCC (KA)Note: 1.Drawing is not to scale.PLCCD NeE1E1ND1NdCPBD2/E2eB1A1AR0.51(.020)1.14(.045)F A2。

MICRO Hi-Fi SYSTEM ] USER GUIDE 3want to play.station sound effect.SLEEP Turn on or offMP3 Info while a file isimpressions. To change the functions, you can scroll throughthem and select one. (see Listening to the CDs)once to repeat the track REPEAT twice to CD. The MICRO Hi-Fi SYSTEM ] USER GUIDE 5MICRO Hi-Fi SYSTEM ] USER GUIDE 7Listen to cassette tapes - more you can doTo Play Fast backward or ForwardAfter pressing bb /BB during playback, or stop, press B at a point you want.Listening to the radio - more you can doLook for radio stations automaticallyPress - TUNING +(o r TUN.- /TUN.+) for more than 0.5 second. The tuner will scan automatically and stop when it finds a radio station.Delete all the saved stationsPress and hold PROGRAM MEMORY or PROGRAM/MEMO for two sec-onds. “CLEAR” shows. Press STOP CLEAR (or x )to erase all the saved stations.Choose a ‘preset number’for a radio stationSelect a station you want by pressing - TUNING +or TUN.- /TUN.+.Press PROGRAM MEMORY or PROGRAM/MEMO ,the station flashes.Press - PRESET +or PRESET/FOLDER to select the preset number you want. Press PROGRAM MEMORY or PROGRAM/MEMO to save it.Improve poor FM receptionPress MODE/RIF on the front panel . This will change the tuner from stereo to mono and usually improve the reception.See information about your radio stations - OPTIONALThe FM tuner is supplied with the Radio Data System (RDS) facility. This shows the letters RDS on the display, plus information about the radio sta-tion being listened to. Press RDS on the front panel several times to view the information.PTY - Programme Type, such as News, Sport, Jazz Music.RT - Radio Text, the name of the radio station.CT - Time Control, the time at the location of the radio station.PS - Programme Service name, the name of channel.You can search the radio stations by programme type by pressing- PRESET +. The display will show the last PTY in use. Press - PRESET +one or more times to select your preferred programme type. Press and hold - TUNING +. The tuner will search automatically. When a station is found the search will stop.MICRO Hi-Fi SYSTEM ] USER GUIDE 9Use your player as an alarm clockPress and hold TIMER for two seconds. Each function, TUNER, CD, USB (in the USB supplied models)flashes for two seconds. Press SET when the function you want to be woken by is showing.If you choose TUNER you will be shown the stations you have saved as presets. Use - TUNING + to select the station you want, then press SET . You will be shown the ON TIME display. This is where you set the time you want the alarm to go off. Use - TUNING +to change the hours and minutes and SET to save.You will then be shown the OFF TIME display. This is where you set the time you want the function to stop. Use - TUNING +to change the hours and minutes and press SET to save.Next you will be shown the volume (VOL) you want to be woken by. Use - TUNING +to change the volume and SET to save. Switch the system off. The clock icon shows that the alarm is set.When the system is turned off you can check the time the alarm is set for by pressing TIMER . You can also turn the alarm on and off by pressing TIMER . To set the alarm to go off at a different time, switch the system on and reprogramme following the same steps as initially.About MP3/WMAMP3/WMA Disc compatibility with this unit is limited as follows:• Sampling Frequency : 8 - 48 kHz (MP3), 32 - 48 kHz (WMA)•Bit rate : 8 - 320 kbps (MP3), 48 - 320 kbps (WMA)• CD-R physical format should be “ISO 9660”• If you record MP3/WMA files using the software which cannot create a FILE SYSTEM, for example “Direct-CD” etc., it is impossible to playback MP3 files. We recommend that you use “Easy-CD Creator”, which creates an ISO 9660 file system.•File names should be named using 30 letters or less and mustincorporate “.mp3”,“.wma” extension e.g. “********.MP3” or “********.WMA”•Do not use special letters such as “/ : * ? “ < >”etc.•Even if the total number of files on the disc has more than 1000, it will only be shown up to 999.MICRO Hi-Fi SYSTEM ] USER GUIDE 11Designs and specifications are subject to change without notice.。

AT28C64B 64Kbit,并行EEPROMs 存储器AT28C64B 器件操作(1)ATMEL 爱特梅尔AT28C64B 程序存储器芯片读操作ATMEL 爱特梅尔AT28C64B 程序存储器芯片读操作访问就像使用静态RAM 一样,当CE 和OE 为低电平,WE 为高电平,由地址引脚上电平决定的存储单元中的存储的数据就被读出。

无论何时CE 或OE 为高电平时,AT28C64B 输出引脚上都呈高阻状态。

AT28C64B 这种双信号控制机制给设计者防止总线冲突带来灵活性。

(2)ATMEL 爱特梅尔AT28C64B 程序存储器芯片后备状态CE 信号是芯片选择控制信号,实际上同时也作为电源控制信号。

当其为高电平时,ATMEL 爱特梅尔AT28C64B 程序存储器芯片就进入低功耗后备状态。

这时ATMEL 爱特梅尔AT28C64B 程序存储器芯片输出呈高阻状态,并与OE 信号无关。

(3)ATMEL 爱特梅尔AT28C64B 程序存储器芯片数据保护为了确保数据的完整性和安全性,持别是在上电和掉电过渡过程中,可以用以下方法实现数据保护：①利用内部检测电路对电源电压Vcc 进行检测,当ATMEL 爱特梅尔AT28C64B 程序存储器芯片检测到的电压低于规定的阂值时,AT28C64B 就禁止内部非易失性编程操作的初姑化。

当达到阂值电压时,AT28C64B 芯片在允许字节写入之前将自动输出5阳的定时脉冲。

②ATMEL 爱特梅尔AT28C64B 程序存储器芯片片内有一个丽信号滤波电路,可以防止而信号负脉冲从初姑化到写入周期所持续的时间小于10ns。

③ATMEL爱特梅尔AT28C64B程序存储器芯片在上电和掉电期间,通过保持WE或CE 为高电平,或者OE为低电乎都可以封锁字节写入周期。

(4)ATMEL爱特梅尔AT28C64B程序存储器芯片写操作把数据写入AT28C64B芯片类似于静态RAM的操作,当OE为高电平、WE或CE为低电平时,相对应的CE或WE信号为低电平,就对字节写入操作进行韧始化。

ATMLU对应ATMEL芯片：换代选型2011-04-25 23:57AT24C01BN-SH-B/T ATMEL ATMLU701 DIP AT24C01B-PU ATMEL ATMLU702 DIPAT24C02B-10PU-1.8 ATMEL ATMLU703 DIPAT24C02BN-SH-B/T ATMEL ATMLU704 DIP AT24C02B-PU ATMEL ATMLU705 DIPAT24C04-10PU-2.7 ATMEL ATMLU706 DIP AT24C04BN-SH-B ATMEL ATMLU707 DI PAT24C04N-10SU-2.7 ATMEL ATMLU708 DIPAT24C08A-10PU-2.7 ATMEL ATMLU709 DIPAT24C08A-10TU-2.7 ATMEL ATMLU710 DIPAT24C08AN-10SU-2.7 ATMEL ATMLU711 DIPAT24C128-10PU-2.7 ATMEL ATMLU712 DIPAT24C128N-10SU-2.7-SL383 ATMEL ATMLU713 DIPAT24C16A-10PU-2.7 ATMEL ATMLU714 DIPAT24C16A-10TI-1.8 ATMEL ATMLU715 DIP AT24C16AN-10SU-2.7 ATMEL ATMLU716 DIPAT24C16BN-SH-B ATMEL ATMLU717 DIP AT24C256B-10PU-1.8 ATMEL ATMLU718 DIPAT24C256BN-10SU-1.8 ATMEL ATMLU719DIPAT24C256BN-SH-T ATMEL ATMLU720 DIPAT24C256B-PU ATMELATMLU721 DIPAT24C256N-10SI18 ATMEL ATMLU722 DIPAT24C32A-10PU-2.7 ATMEL ATMLU723 DIPAT24C32AN-10SU-2.7 ATMEL ATMLU724 DIPAT24C32CN-SH-T ATMEL ATMLU72 5 DIPAT24C512-10PU-2.7 ATMEL ATMLU726 DIPAT24C512BN-SH25-B ATMEL ATMLU727 DIPAT24C512BN-SH-B ATMEL ATMLU728 DIP29 DIPAT24C512N-10SU-2.7 ATMEL ATMLU730 DIPAT24C64A-10PU-2.7 ATMEL ATMLU731 DIPAT24C64AN-10SU-2.7 ATMEL ATMLU732 DIPAT24C64CN-SH-B ATMEL ATMLU7 33 DIPAT24C64CN-SH-T ATMEL ATMLU73 4 DIPAT25128A-10PU-2.7 ATMEL ATMLU735 DIPAT25256AN-10SU-2.7 ATMEL ATMLU736 DIPAT25DF041A-SH-B ATMEL ATMLU737 DIPAT25F1024AN-10SU-2.7-SL383 ATMELATMLU738 DIPAT25F512AN-10SU-2.7-SL383 ATMELATMLU739 DIPAT26DF081A-SSU-SL965 ATMELATMLU740 DIPAT26DF081A-SU-SL965 ATME L ATMLU741 DIPAT26DF161-SUATMEL ATMLU742 DIPAT26DF321-SU ATMELATMLU743 DIPAT27BV256-70JU ATMEL ATMLU744 DIPAT27C010-70PU ATMEL ATMLU74 5 DIPAT27C040-70PU ATMEL ATMLU746DIPAT27C256R-70JU ATMEL ATMLU747DIPAT27C256R-70PU ATMEL ATMLU748DIPAT27C512R-70JU ATMEL ATMLU749 DIPAT28BV256-20TU ATMEL ATMLU750 DIPDIPAT28C64B-15JU ATMEL ATMLU752 DIPAT28C64B-15PU ATMEL ATMLU801 DIPAT28C64B-15SU ATMEL ATMLU802 DIPAT29C010A-70JU ATMEL ATMLU803 DIPAT29C020-90JU ATMEL ATMLU80 4 DIPAT29C020-90TU ATMEL ATMLU805 DIPAT29C040A-90JU ATMEL ATMLU806 DIPAT29C040A-90TU ATMEL ATMLU807DIPAT29LV020-10TU ATMEL ATMLU808 DIPAT29LV040A-15JU ATMEL ATMLU809 DIPAT29LV512-12JU ATMEL ATMLU810 DIPAT45DB021B-SU ATMEL ATMLU811 DIPAT45DB041D-SU ATMEL ATMLU812 DIPAT45DB081D-SU ATMEL ATMLU813DIPAT45DB161D-SU ATMEL ATMLU814 DIPAT45DB161D-TU ATMEL ATMLU815DIPAT45DB321D-SU ATMEL ATMLU816 DIPAT45DB321D-TU ATMEL ATMLU817 DIPAT45DB642D-TU ATMEL ATMLU818 DIPAT47BV163A-70TU ATMEL ATMLU819 DIPAT49BV040B-JU ATMEL ATMLU820 DIPAT49BV322DT-70TU ATMEL ATMLU821 DIPAT49BV512-90TU ATMEL ATMLU822 DIPAT73C213 ATMEL ATMLU823 DIPAT76C112 ATMEL ATMLU824 DIPAT76C120H-MU1-JZ208 ATMEL ATMLU825 DIPAT80251G2D-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 DIP AT89C51CC01CA-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 SOPAT89C55WD-24JU ATMEL ATMLH703 SOPAT89C55WD-24PU ATMEL ATMLH704 SOPAT89LS52-16JU ATMEL ATMLH705 SOPAT89LS52-16PU ATMEL ATMLH706 SOPAT89LV51-12AI ATMEL ATMLH707 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 SOPAT89S8253-24JU ATMEL ATMLH717 SOPAT89S8253-24PU ATMEL ATMLH718 SOPAT90CAN128-16AU ATMEL ATMLH719 SOPAT90CAN32-16AU ATMEL ATMLH720 SOPAT91M40800-33AU ATMEL ATMLH721 SOPAT91M55800A-33AU ATMEL ATMLH722 SOPAT91RM9200-CJ-002 ATMEL ATMLH723 SOPAT91RM9200-QU-002 ATMEL ATMLH724 SOPAT91SAM7S256-AU-001 ATMEL ATMLH725 SOPAT91SAM7S321-AU ATMEL ATMLH726 SOPAT91SAM7S32-AU-001 ATMEL ATMLH727 SOPAT91SAM7S64-AU-001 ATMEL ATMLH728 SOPAT91SAM7SE32-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 SOPAT93C46-10PU-2.7 ATMEL ATMLH738 SOPAT93C46-10SU-2.7 ATMEL ATMLH739 SOPAT93C46DN-SH-B ATMEL ATMLH740 SOPAT93C46D-TH-T ATMEL ATMLH741 SOPAT93C56A-10PU-2.7 ATMEL ATMLH742 SOPAT93C56A-10SU-2.7 ATMEL ATMLH743 SOPAT93C66A-10PU27 ATMEL ATMLH744 SOPAT93C66A-10SU-2.7 ATMEL ATMLH745 SOPAT93C66A-10SU-2.7-SL383 ATMEL ATMLH746 SOP ATAVRDRAGON ATMEL ATMLH747 SOPATAVRISP2 ATMEL ATMLH748 SOPATF1502AS-15JC44 ATMEL ATMLH749 SOPATF1508AS-15AC100 ATMEL ATMLH750 SOPATF1508AS-15JC84 ATMEL ATMLH751 SOPATF16V8B-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 SOP ATMEGA169V-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 SOP ATMEGA8535-16PU ATMEL ATMLH842 SOP ATMEGA8535L-8AU ATMEL ATMLH843 SOPATMEGA8535L-8PU ATMEL ATMLH845 SOP ATMEGA88-20AU ATMEL ATMLH846 SOPATMEGA88-20MU ATMEL ATMLH847 SOPATMEGA88-20PU ATMEL ATMLH848 SOPATMEGA88V-10AU ATMEL ATMLH849 SOPATMEGA88V-10MU ATMEL ATMLH850 SOPATMEGA88V-10PU ATMEL ATMLH851 SOPATMEGA8L-8AU ATMEL ATMLH852 SOPATMEGA8L-8PU ATMEL ATMLH901 SOPATTINY11L-2SU ATMEL ATMLH902 SOPATTINY13-20SU ATMEL ATMLH903 SOPATTINY13V-10PU ATMEL ATMLH904 SOPATTINY13V-10SSU ATMEL ATMLH905 SOPATTINY13V-10SU ATMEL ATMLH906 SOPATTINY15L-1PU ATMEL ATMLH907 SOPATTINY2313-20PU ATMEL ATMLH908 SOPATTINY2313-20SU ATMEL ATMLH909 SOPATTINY2313V-10PU ATMEL ATMLH910 SOPAT24C01BN-SH-B/T ATMEL ATMLU701 DIPAT24C01B-PI ATMEL ATMLU702 DIPAT24C02B-10PI-1.8 ATMEL ATMLU703 DIPAT24C02BN-SH-B/T ATMEL ATMLU704 DIPAT24C02B-PI ATMEL ATMLU705 DIPAT24C04-10PI-2.7 ATMEL ATMLU706 DIPAT24C04BN-SH-B ATMEL ATMLU707 DIPAT24C04N-10SI-2.7 ATMEL ATMLU708 DIPAT24C08A-10PI-2.7 ATMEL ATMLU709 DIPAT24C08A-10TI-2.7 ATMEL ATMLU710 DIPAT24C08AN-10SI-2.7 ATMEL ATMLU711 DIPAT24C128-10PI-2.7 ATMEL ATMLU712 DIPAT24C128N-10SI-2.7-SL383 ATMEL ATMLU713 DIP AT24C16A-10PI-2.7 ATMEL ATMLU714 DIPAT24C16A-10TI-1.8 ATMEL ATMLU715 DIPAT24C16AN-10SI-2.7 ATMEL ATMLU716 DIPAT24C16BN-SH-B ATMEL ATMLU717 DIPAT24C256B-10PI-1.8 ATMEL ATMLU718 DIPAT24C256BN-10SI-1.8 ATMEL ATMLU719 DIPAT24C256BN-SH-T ATMEL ATMLU720 DIPAT24C256B-PI ATMEL ATMLU721 DIPAT24C256N-10SI18 ATMEL ATMLU722 DIPAT24C32A-10PI-2.7 ATMEL ATMLU723 DIPAT24C32AN-10SI-2.7 ATMEL ATMLU724 DIPAT24C32CN-SH-T ATMEL ATMLU725 DIPAT24C512-10PI-2.7 ATMEL ATMLU726 DIPAT24C512BN-SH25-B ATMEL ATMLU727 DIPAT24C512BN-SH-B ATMEL ATMLU728 DIPAT24C512B-PI25 ATMEL ATMLU729 DIPAT24C512N-10SI-2.7 ATMEL ATMLU730 DIPAT24C64A-10PI-2.7 ATMEL ATMLU731 DIPAT24C64AN-10SI-2.7 ATMEL ATMLU732 DIPAT24C64CN-SH-B ATMEL ATMLU733 DIPAT24C64CN-SH-T ATMEL ATMLU734 DIPAT25128A-10PI-2.7 ATMEL ATMLU735 DIPAT25256AN-10SI-2.7 ATMEL ATMLU736 DIPAT25DF041A-SH-B ATMEL ATMLU737 DIPAT25F1024AN-10SI-2.7-SL383 ATMEL ATMLU738 DIP AT25F512AN-10SI-2.7-SL383 ATMEL ATMLU739 DIP AT26DF081A-SSI-SL965 ATMEL ATMLU740 DIPAT26DF081A-SI-SL965 ATMEL ATMLU741 DIPAT26DF161-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 DIPAT27C512R-70JI ATMEL ATMLU749 DIPAT28BV256-20TI ATMEL ATMLU750 DIPAT28C256-15PI ATMEL ATMLU751 DIPAT28C64B-15JI ATMEL ATMLU752 DIPAT28C64B-15PI ATMEL ATMLU801 DIPAT28C64B-15SI ATMEL ATMLU802 DIPAT29C010A-70JI ATMEL ATMLU803 DIPAT29C020-90JI ATMEL ATMLU804 DIPAT29C020-90TI ATMEL ATMLU805 DIPAT29C040A-90JI ATMEL ATMLU806 DIPAT29C040A-90TI ATMEL ATMLU807 DIPAT29LV020-10TI ATMEL ATMLU808 DIPAT29LV040A-15JI ATMEL ATMLU809 DIPAT29LV512-12JI ATMEL ATMLU810 DIPAT45DB021B-SI ATMEL ATMLU811 DIPAT45DB041D-SI ATMEL ATMLU812 DIPAT45DB081D-SI ATMEL ATMLU813 DIPAT45DB161D-SI ATMEL ATMLU814 DIPAT45DB161D-TI ATMEL ATMLU815 DIPAT45DB321D-SI ATMEL ATMLU816 DIPAT45DB321D-TI ATMEL ATMLU817 DIPAT47BV163A-70TI ATMEL ATMLU819 DIPAT49BV040B-JI ATMEL ATMLU820 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 DIP AT89C51CC01IA-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 DIPAT89C52-24PI 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 SOPAT91SAM7S32-AI-001 ATMEL ATMLH727 SOP AT91SAM7S64-AI-001 ATMEL ATMLH728 SOP AT91SAM7SE32-AI ATMEL ATMLH729 SOPAT91SAM7X256-AI ATMEL ATMLH730 SOPAT91SAM9260-CJ ATMEL ATMLH731 SOPAT91SAM9260-EK ATMEL ATMLH732 SOPAT91SAM9261-EK ATMEL ATMLH733 SOPAT91SAM9261S-CI ATMEL ATMLH734 SOPAT91SAM9263-CI ATMEL ATMLH735 SOPAT91SAM7X-EK ATMEL ATMLH736 SOPAT91SAM-ICE ATMEL ATMLH737 SOPAT93C46-10PI-2.7 ATMEL ATMLH738 SOP AT93C46-10SI-2.7 ATMEL ATMLH739 SOP AT93C46DN-SH-B ATMEL ATMLH740 SOPAT93C46D-TH-T ATMEL ATMLH741 SOPAT93C56A-10PI-2.7 ATMEL ATMLH742 SOP AT93C56A-10SI-2.7 ATMEL ATMLH743 SOPAT93C66A-10SI-2.7 ATMEL ATMLH745 SOPAT93C66A-10SI-2.7-SL383 ATMEL ATMLH746 SOP ATAVRDRAGON ATMEL ATMLH747 SOPATAVRISP2 ATMEL ATMLH748 SOPATF1502AS-15JC44 ATMEL ATMLH749 SOPATF1508AS-15AC100 ATMEL ATMLH750 SOPATF1508AS-15JC84 ATMEL ATMLH751 SOPATF16V8B-15JI ATMEL ATMLH752 SOPATF16V8B-15PC ATMEL ATMLH801 SOPATF16V8B-15PI ATMEL ATMLH802 SOPATF16V8BQL-15JC ATMEL ATMLH803 SOPATF20V8B-15JC ATMEL ATMLH804 SOPAT JTAGICE MKII ATMEL ATMLH805 SOP ATMEGA1280V-8AI ATMEL ATMLH806 SOP ATMEGA128-16AI ATMEL ATMLH807 SOP ATMEGA128L-8AI ATMEL ATMLH808 SOP ATMEGA16-16AI ATMEL ATMLH809 SOPATMEGA16-16PI ATMEL ATMLH810 SOPATMEGA162-16PI 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 SOPATMEGA32-16AI ATMEL ATMLH822 SOPATMEGA32-16PI ATMEL ATMLH823 SOPATMEGA325V-8MI ATMEL ATMLH824 SOP ATMEGA32L-8AI ATMEL ATMLH825 SOPATMEGA32L-8PI ATMEL ATMLH826 SOPATMEGA48-20AI ATMEL ATMLH827 SOPATMEGA48V-10AI ATMEL ATMLH828 SOP ATMEGA48V-10PI ATMEL ATMLH829 SOP ATMEGA48V-10MI ATMEL ATMLH830 SOP ATMEGA640V-8AI ATMEL ATMLH831 SOP ATMEGA64-16AI ATMEL ATMLH832 SOPATMEGA64L-8AI ATMEL ATMLH833 SOPATMEGA8-16AI ATMEL ATMLH834 SOPATMEGA8-16PI ATMEL ATMLH835 SOPATMEGA8515-16JI 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 SOP ATMEGA8535L-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 ATMEL0011AT17LV512-10PC 1000 ATMEL0012AT17LV512A-10PI 1000 ATMEL0013AT17LV65-10PI 1000 ATMEL0014AT22V10-15DC 1000 ATMEL0015AT22V10-15JC 1000 ATMEL0016AT22V10-15KC 1000 ATMEL0017AT22V10-20DC 1000 ATMEL0018AT22V10-20JC 1000 ATMEL0019AT22V10-25DC 1000 ATMEL0020AT22V10-25JC 1000 ATMEL0021AT22V10-25JI 1000 ATMEL0022AT22V10-25KC 1000 ATMEL0023AT22V10-35DC 1000 ATMEL0024AT22V10-35JC 1000 ATMEL0025AT22V10-35KC 1000 ATMEL0026AT22V10-35PC 1000 ATMEL0027AT22V10L-20PC 1000 ATMEL0028AT22V10L-25DC 1000 ATMEL0029AT22V10L-25JC 1000 ATMEL0030AT22V10L-25JI 1000 ATMEL0031AT22V10L-35DC 1000 ATMEL0032AT24C01-10PC 1000 ATMEL0033AT24C01-10PC2.5 1000 ATMEL0034 AT24C01-10PI 1000 ATMEL0035AT24C01-10PI2.5 1000 ATMEL0036 AT24C01-10SC 1000 ATMEL0037AT24C01A-10PC 8000 ATMEL0038AT24C01A-10SC 8000 ATMEL0039AT24C01A-10SI2.7 8000 ATMEL0040 AT24C01A-10SU-1.8V 8000 ATMEL0601 AT24C01A-10TI2.7 8000 ATMEL0041 AT24C01BN-SH-B 8000 ATMEL0042AT24C01BN-SH-T 8000 ATMEL0043AT24C01B-PU 8000 ATMEL0602AT24C01B-TH-B 8000 ATMEL0044AT24C01B-TH-T 8000 ATMEL0045AT24C01BTSU-T 8000 ATMEL0603AT24C01BU3-UU-T 8000 ATMEL0604 AT24C01B-W-11 8000 ATMEL0046AT24C01BY6-YH-T 8000 ATMEL0047 AT24C01N-10SC2.7 8000 ATMEL0048 AT24C02-10PC 8000 ATMEL0049AT24C02-10PC1.8 8000 ATMEL0050 AT24C02-10PI2.7 8000 ATMEL0051 AT24C02-10TI2.7 8000 ATMEL0052 AT24C02AN-10SU2.7 8000 ATMEL0605 AT24C02N-10SC1.8 8000 ATMEL0101 AT24C02N-10SI1.8 8000 ATMEL0102 AT24C04-10PI2.7 8000 ATMEL0103 AT24C04-10PU-2.7V 8000 ATMEL0606 AT24C04-10TI-2.7 8000 ATMEL0104 AT24C04-10TU-2.7 8000 ATMEL0607 AT24C04A-10TI-2.7 8000 ATMEL0105 AT24C04N-10SI1.8 8000 ATMEL0106 AT24C08-10PI2.7 8000 ATMEL0107 AT24C08A-10TI2.7 8000 ATMEL0108AT24C08AN-10SU2.7 8000 ATMEL0608 AT24C1024-10PI2.7 8000 ATMEL0110 AT24C1024W-10SI2.7 8000 ATMEL0111 AT24C11-10PI-1.8 8000 ATMEL0112 AT24C11-10PI-2.7 8000 ATMEL0113 AT24C11-10PI-2.7 8000 ATMEL0114 AT24C11-10PU-1.8 8000 ATMEL0609 AT24C11-10PU-2.7 8000 ATMEL0610 AT24C11-10TI-1.8 8000 ATMEL0115 AT24C11-10TI-2.7 8000 ATMEL0116 AT24C11-10TQ-2.7 8000 ATMEL0117 AT24C11-10TSU-1.8 8000 ATMEL0611 AT24C11-10TU-1.8 8000 ATMEL0612 AT24C11-10TU-2.7 8000 ATMEL0613 AT24C11N-10SI-1.8 8000 ATMEL0118 AT24C11N-10SI-2.7 8000 ATMEL0119 AT24C11N-10SQ-2.7 8000 ATMEL0120 AT24C11N-10SU-1.8 8000 ATMEL0614 AT24C11N-10SU-2.7 8000 ATMEL0615 AT24C11-W1.8-11 8000 ATMEL0121 AT24C11-W2.7-11 8000 ATMEL0122 AT24C128-10PI2.7 8000 ATMEL0123 AT24C128-10TU-1.8 8000 ATMEL0616 AT24C128-10TU-2.7 8000 ATMEL0617 AT24C128N-10SI1.8 8000 ATMEL0124 AT24C128N-10SI2.7 8000 ATMEL0125 AT24C16-10PI 8000 ATMEL0126AT24C16-10TC1.8 8000 ATMEL0127 AT24C164-10PC 8000 ATMEL0128AT24C164-10PC2.7 8000 ATMEL0129 AT24C164-10PI 8000 ATMEL0130AT24C164-10SC 8000 ATMEL0131AT24C164-10SI1.8 8000 ATMEL0132 AT24C164-10SI2.7 8000 ATMEL0133 AT24C164-10SI-2.7 8000 ATMEL0134 AT24C16A-10PI2.7 8000 ATMEL0135 AT24C16A-10TI1.8 8000 ATMEL0136 AT24C16AN-10SI1.8 8000 ATMEL0137 AT24C16AN-10SI2.7 8000 ATMEL0138 AT24C16N-SC 8000 ATMEL0139AT24C16N-SI2.7 8000 ATMEL0140AT24C21-10PC2.5 8000 ATMEL0141 AT24C21-10PC-2.5 8000 ATMEL0142AT24C21-10SI2.5 8000 ATMEL0144 AT24C21-SC2.5 8000 ATMEL0145AT24C256-10CI-2.7 8000 ATMEL0146 AT24C256-10PC 8000 ATMEL0147AT24C256-10PI2.7 8000 ATMEL0148 AT24C256-10TI2.7 8000 ATMEL0149 AT24C256N-10SI1.8 8000 ATMEL0150 AT24C256N-10SI2.7 8000 ATMEL0151 AT24C256T1-10TI2.7 8000 ATMEL0152 AT24C257N-10SC-2.7 8000 ATMEL0201 AT24C32-10PC 8000 ATMEL0202AT24C32－10PI2.7 8000 ATMEL0203 AT24C32A-10PI2.7 8000 ATMEL0204 AT24C32AN-10SI2.7 8000 ATMEL0205 AT24C32N-10SI1.8 8000 ATMEL0206 AT24C32N-10SI2.7 8000 ATMEL0207 AT24C32N-SC 8000 ATMEL0208AT24C32W-10SI 8000 ATMEL0209AT24C512-10PI2.7 8000 ATMEL0210 AT24C512-10PU-2.7V 8000 ATMEL0618 AT24C512-10TI2.7 8000 ATMEL0211 AT24C512-10UI-2.7 8000 ATMEL0212 AT24C512C1-10CI2.7 8000 ATMEL0213 AT24C512N-10SI2.7 8000 ATMEL0214 AT24C512N-10SU2.7 8000 ATMEL0619 AT24C512W-10SI2.7 8000 ATMEL0215 AT24C64-10PC2.7 8000 ATMEL0216 AT24C64-10TI2.7 8000 ATMEL0217 AT24C64A-10PI2.7 8000 ATMEL0218 AT24C64AN-10SI2.7 8000 ATMEL0219 AT24C64AN-10SU1.8 8000 ATMEL0620 AT24C64N-10SI1.8 8000 ATMEL0220 AT24C64N-10SI2.7 8000 ATMEL0221 AT24C64-SC 8000 ATMEL0222AT24RF08CN 1000 ATMEL0223。

LZ多功能编程器多功能编程器，功能强大。

支持绝大多数的EPROM、EEPROM、FLASH和串行EEPROM系列芯片，并且还直接支持一些常用的51单片机，AVR系列单片机，PIC单片机芯片；价格及低，性价比很高；既适合于电子和电脑爱好者使用，也适合于电子电单片机开发人员和脑维修人员使用。

特性：1、使用32 Pin ZIF插座 18 Pin针型DIP插座，工作性能稳定。

2、使用PC 打印口通讯，具有极高的写片速度。

3、采用 WINDOWS下的图形界面，使用鼠标进行操作，支持 Windows ME/98/95/2000系统。

4、性能价格比高，可以支持810、815、845主板上使用的FWH BIOS芯片。

5、不用添加适配器就可以支持200多种器件，在添加适配器后，可以支持51系列单片机的全系列型号，和最新的大容量程序芯片！支持3.3V及2.9V电压的芯片。

6、具有编程指示！控制程序工作界面友好，对芯片的各种操作变得十分简单，无论是电子还是电脑爱好者都可应用范围和一些特点：1.用来开发单片机：为使单片机爱好者学习和开发更方便, 本编程器配套有各种适配器,比如：MCS-51单片机适配器、PIC单片机适配器和AVR单片机适配器。

这样只需根据需要购买相应的适配器，即可对MCS-51系列单片机，AVR系列单片机和PIC系列单片机进行编程。

2.用来刷新BIOS芯片对于电脑爱好者，则可用此编程器对电脑的各种板卡的BIOS芯片进行编程。

比如修复被病毒破坏的主板BIOS芯片，对主板、显卡等的BIOS芯片进行升级以提升计算机性能，等等。

3.多功能编程器，在电路设计上，采用科学的布线设计，将全部电路用大面积的地线包围起来，使电路工作更加稳定、可靠。

配有汉化的驱动程序，对E文烦感的爱好者也可以轻松使用它。

4.配有汉化的驱动程序，对E文烦感的爱好者也可以轻松使用它。

多功能BIOS 编程器支持的芯片 芯片类型 芯片型号单片机芯片 需51适配器转换座 89系列：Atmel ：AT89C51、52、55、 AT89LV51、52、55AT89S8252 (8K+2K)、 AT89S53、 AT89LS8252、AT89LS53AT89C1051、AT89C2051、AT89C4051 (20pin)AT89C51RC (32KB)、 AT89C55WD (6.2V)SST89C54/58、 SI89C52Intel ：i87C51、 i87C51FA 、 i87C51FBi8xC51、i8xC52、i8xC54、i8xC5890系列：AT90S1200、AT90S231390S2333、 90S4433、 90S4414、 90S8515、 90S4434、 90S8535，AT90S231316位EPROM(DIP40)(1-4Mbit)27C1024 (27C210)、 27C2048 (27C2002)、 27C4096 (27C4002) 需使用Eprom DIP40转换座 16位EPROM(DIP42)(4-32Mbit)M27C400(DIP40)、 27C800、 27C160、 27C322 需使用Eprom DIP42转换座 电擦除EPROM W27E512、 W27E010、 W27C010、 W27C020、 W27C040SST27SF256、 SST27SF512、 SST27SF010、 SST27SF020MX26C4000Vcc = 3.3-3.6V SST37VF512、 SST37VF010、 SST37VF020、 SST37VF040EEPROM 28C65、28C64、 28C128、 28C256、28C512、 28C010、 28C020、 28C040M28C16A/17A (DIP28)28C16、XLS2816 (DIP24)AT28C64B 、AT28C256、AT28C512、AT28C010、AT28C020、AT28C040FLASH Memory28F64、 28F128、 28F256、 28F512、28F010、 28F020MX26C1000、 MX26C2000、 MX28F1000、 MX28F2000Am28F256A 、 Am28F512A 、 Am28F010A 、 Am28F020Aintel ：i28F001BX 、 28F004、 28F008、 28F016SST28SF040A 、LE28F400129F64、 29F128、 29F256、 29F512、29F010、 29F020、 29F040、 29F08029F001、29F002、 29F004、 29F008、 29F016、 29F032AT29C256、 AT29C512、AT29C010A 、 AT29C020、 AT29C040、AT29C040AW29EE512、W29EE011、 W29EE012、 W29C020(128)、W29C040PH29EE010(W29EE011)ASD AE29F1008 (AT29C010)、 AE29F2008 (AT29C020)AT49F512、 AT49F010、 AT49F020、 AT49F040SST39SF010、 SST3S9F020 、SST39SF040AT49F001、AT49F002 、 AT49F008AAm29F512、 Am29F010、 Am29F020、 Am29F040、HY29F08029F002、 29F002T 、 Pm29F002T 使用TSOP48转换座支持： Am29F400、Am29F800、29F160、29F320 (read 、write byte mode) HY29F200、 HY29F400、 HY29F800 、 AT49F2048A 、 AT49F4096A 、 AT49F8192A使用TSOP48转换座支持（Vpp12V ）： i28F200、i28F400、i28F800、i28F160 (TSOP48)28F001(DIP32 or PLCC32)使用TSOP48LV转换座支持：29LV200、 29LV400、29LV800、29LV160、29LV320 (read、write byte mode)使用Firmware Hub/LPC (PLCC32)转换座支持：Firmware Hub芯片：82802AB、 82802AC、 AT49LW040、 AT49LW080SST49LF002A、 SST49LF003A、 SST49LF004A、 SST49LF008A LPC flash芯片：SST49LF020、 SST49LF040串行(I2C) EEPROM 24C02、24C04、24C08、24C16、 85C72、 85C82、 85C9224C32、24C64、24C128、24C256、24C512 (全部C、LC系列) PCF8572 或8572，PCF8582或8582，PCF8592或8592Microwire EEPROM 8位模式：93C06、 93C46、 93LC46、 93C56、 93C57、93C66、 93C76、 93C86、93C13、93C1416位模式：AT59C11、 AT59C22、 AT59C13CAT35C102、 CAT35C104、 CAT35C10893C06A 、93C46X、93C56、93C66、93C76、93C86 (NS)PIC单片机16C5X、17XXX、18XXX系列使用PIC单片机转换座支持：12C508、12C508A、12C509、12C509A 12CE518、12CE519 12C671、12C672、12CE673、12CE674 16C505 16C61、16C620、16C621、16C622A 16F627、16F628、16C71、16C715 16C84、16F83、16F84、16F84A 16C64A、16C65A、16C65B、16C67 16C74A、16C74B、16C77 16F871、16F874、16F877 16C62A、16C62B、16C63、16C63A、16C66 16C72、16C72A、16C73A、16C73B、16C76 16F870、16F872、16F873、16F876SPI EEPROM Atmel：AT25010、020、 040 (A8-A0)AT25080、 160、 320、 640、 128、 256 (A15-A0)ST：W95010....256、 Microchip 25x010 - 25x64025010、25020、2504025C080、25C160、25C320、25C640、25C128、25C256、25C512 AT25HP256、AT25HP512AT25HP1024CAT64LCxxx (16位数据I/O)CAT64LC010、 CAT64LC020、 CAT64LC040测试SRAM、非易失SRAM功能DS1220、DS1225Y、 DS1230Y/AB、 DS1245Y/AB、 DS1249Y/AB 6116、 6264、 62256、 62512、 628128EPROM 27C16、27C32、27C64、27C128、27C256、27C512、27C010、27C020、27C040、27C1001 M27C1001、M27C2001、M27C400127C080，M27C801，M87C2572716(Vpp25V)、2732、2764、27128、27256、27512、27010需使用Atmel AT89 PLCC44转换座P8048AH、 P8049AH、P8050AH、 P8042AH （Vea = 12V）P8041、 P8042OTP (read/verify/Progam)P8748、P8749H、P8742H（Vea = 18V）EPROM (read/verify/Progam)D8748、D8749、D8742、D8741、 D8742（Vea = 18V）从上面的列表中，我们可以发现，如果我们使用FWH(PLCC32)转换座，我们用此编程器可以支持最新几乎所有主板上的BIOS芯片，多功能BIOS编程器都可以支持，真正是一款性价比较高的编程器。

YX-2004C多功能编程器YX-2004C 多功能编程器是我们根据国外资料仿制的一种廉价、功能繁多的普及型编程器。

YX-2004C 多功能编程器通过并口与PC连接，支持Win9x、Me、XP、NT以及2000 操作系统；英文软件( 性能稳定) ，适合电脑公司、电子爱好者、电子产品维修等工作人员使用。

使用前只需要将“YX-2004C 程序”复制到电脑硬盘中即可。

打开文件夹“YX-2004C程序”，双击“EpromM51.exe”一、软件运行窗口如下：二、菜单栏：1、File（文件）：下拉菜单中Load 打开需要编程的文件。

下拉菜单中Save as‥另存为编程器读入文件作为备用。

下拉菜单中Exit 为退出程序。

2、Edit （编辑）：编辑数据。

3、Device （选择元件）：选择芯片类型。

4、Action （操作）：对芯片进行操作，如：读写、编程/RAM测试、比较/ 校验、空白检查、擦除芯片、获取ID、清空缓存、颠倒数据、交换字节等。

5、Help （帮助）：联机测试等。

6、主窗口介绍：三、工具栏：1、打开文件。

把编译好的数据调入编程器中。

可以打开的文件类型为：二进制（*.BIN ）、十六进制（*.HEX）等。

2、另存为一个文件。

把正在编辑中的数据另外保存为一个*.bin 文件。

3、清除缓存。

4、读取芯片数据。

5、校验数据。

6、空白测试。

检测芯片存储器是否为空。

7、获取芯片ID。

8、芯片编程。

9、擦除（清空）芯片。

四、支持芯片列表EPROM：27C16、27C32、27C64、27C128、27C256、27C512、27C010、27C020、27C040、27C1001 M27C1001、M27C2001、M27C400127C080，M27C801，M87C2572716(Vpp25V) 、2732、2764、27128、27256、27512、27010FLASH Memory ：28F64、28F128 、28F256 、28F512 、28F010、28F020MX26C1000、MX26C2000、MX28F1000、MX28F2000Am28F256A、Am28F512A、Am28F010A、Am28F020AIntel ：i28F001BX、28F004 、28F008 、28F016SST28SF040A、LE28F400129F64、29F128 、29F256 、29F512 、29F010、29F020 、29F040 、29F08029F001、29F002、29F004 、29F008 、29F016 、29F032AT29C256、AT29C512、AT29C010A、AT29C020、AT29C040、AT29C040AW29EE512、W29EE011、W29EE012、W29C020(128) 、W29C040PH29EE010(W29EE011)ASD AE29F1008 (AT29C010) 、AE29F2008 (AT29C020)AT49F512、AT49F010、AT49F020 、AT49F040SST39SF010、SST3S9F020 、SST39SF040AT49F001、AT49F002 、AT49F008AAm29F512、Am29F010、Am29F020、Am29F040、HY29F08029F002、29F002T 、Pm29F002TEEPROM：28C65、28C64、28C128、28C256、28C512、28C010、28C020、28C040M28C16A/17A (DIP28)28C16、XLS2816 (DIP24)AT28C64B、AT28C256、AT28C512、AT28C010、AT28C020、AT28C040电擦EPROM：W27E512、W27E010、W27C010、W27C020、W27C040SST27SF256、SST27SF512、SST27SF010、SST27SF020MX26C4000Vcc = 3.3-3.6V SST37VF512 、SST37VF010、SST37VF020、SST37VF040串行(I 2C) EEPROM ：24C02、24C04、24C08、24C16、85C72 、85C82、85C9224C32、24C64、24C128、24C256、24C512 ( 全部C、LC 系列)PCF8572 或8572，PCF8582或8582，PCF8592或8592Microwire EEPROM ：8 位模式：93C06、93C46 、93LC46 、93C56 、93C57 、93C66、93C76 、93C86、93C13、93C1416 位模式：AT59C11、AT59C22、AT59C13CAT35C102、CAT35C104、CAT35C10893C06A 、93C46X、93C56、93C66、93C76、93C86 (NS)SPI EEPROM：Atmel ：AT25010、020、040 (A8-A0)AT25080、160 、320 、640 、128 、256 (A15-A0)ST：W95010....256 、Microchip 25x010 - 25x64025010、25020、2504025C080、25C160、25C320、25C640、25C128、25C256、25C512AT25HP256、AT25HP512AT25HP1024CAT64LCxxx (16 位数据I/O)CAT64LC010、CAT64LC020、CAT64LC040PIC 单片机：17XXX、18XXX系列16C84, 16F84, 16F84A ,16F627/16F62812C508/A, 12C509/A, 12CE518, 12CE519, 16C50516C620 16C621, 16C622, 16CE623, 16CE624, 16CE625, 16C710/71151 系列单片机( 需要51AVR适配器) ：AT89C51、52、55、AT89LV51、52、55AT89S51、AT89S52、AT89S53、AT89LS51、AT89LS52、AT89SL53AT89S8252 (8K+2K) 、AT89LS8252、AT89LS53AT89C1051、AT89C2051、AT89C4051 (20pin)AT89C51RC (32KB)、AT89C55WD (6.2V)AT89LV52,AT89C55,AT89LV55 AT89S8252,AT89LS8252,AT89S53,AT89LS53 AT87F51,AT87F52 i87C51 、i87C51FA 、i87C51FBi8xC51 、i8xC52 、i8xC54 、i8xC58i87C51,i87C51FA,i87C51FB,i87C51FC,i87C52,i87C54,i87C58 AT89C51RC (32KB), AT89C55WD等AT90S1200、AT90S231390S2333、90S4433 、90S4414 、90S8515 、90S4434 、90S8535 ，AT90S2313四、举例操作说明使用编程器对W27C020进行读、擦除和写1、打开文件夹“YX-2004C 程序”，双击“EpromM51.exe”操作软件运行窗口如下：2 、用鼠标点击“Device ”，在下拉菜单中点击“EPROM Electrical Erase ”，再在下拉菜单中点击“Winboad 27E/27C ”，最后在下拉菜单中点击“W27x020 （Vpe=14V）”。

计算机组成原理实验报告课程名称计算机组成原理实验学院计算机学院专业班级计算机科学与技术学号学生姓名指导教师2015年 5 月19 日计算机学院学号：姓名教师评定实验题目基础汇编语言程序设计实验一、实验目的：1、学习和了解TEC-XP+教学实验监控命令的用法;2、学习和了解TEC-XP+教学实验系统的指令系统;3、学习简单的TEC-XP+教学实验系统汇编程序设计二、实验设备与器材：工作良好的PC机; TEC-XP+教学实验系统和仿真终端软件PCEC。

三、实验说明和原理：实验原理在于汇编语言能够直接控制底层硬件的状态，通过简单的汇编指令查看、显示、修改寄存器、存储器等硬件内容。

实验箱正如一集成的开发板，而我们正是通过基础的汇编语言对开发板进行使用和学习，过程中我们不仅需要运用汇编语言的知识，还需要结合数字逻辑中所学的关于存储器、触发器等基本器件的原理，通过串口通讯，实现程序的烧录，实验箱与PC端的通讯。

四、实验内容：1、学习联机使用TEC－XP+教学实验系统和仿真终端软件PCEC；2、学习使用WINDOWS界面的串口通讯软件；3、使用监控程序的R命令显示/修改寄存器内容、D命令显示存储内容、E命令修改存储内容；4、使用A命令写一小段汇编程序，U命令反汇编输入的程序，用G命令连续运行该程序，用T、P命令单步运行并观察程序单步执行情况。

五、实验步骤：1、准备一台串口工作良好的PC机器;2、将TEC-XP+放在实验台上,打开实验箱的盖子,确定电源处于断开状态;3、将黑色的电源线一段接220V交流电源,另一端插在TEC-XP+实验箱的电源插座里;4、取出通讯线,将通讯线的9芯插头接在TEC-XP+实验箱上的串口"COM1"或"COM2"上,另一端接到PC机的串口上;5、将TEC-XP+实验系统左下方的六个黑色的控制机器运行状态的开关置于正确的位置,再找个实验中开关应置为001100(连续、内存读指令、组合逻辑、联机、16位、MACH),6、控制开关的功能在开关上、下方有标识;开关拨向上方表示"1",拨向下方表示"0","X"表示任意,其他实验相同;7、打开电源,船型开关盒5V电源指示灯亮;在PC机上运行PCEC16.EXE文件,根据连接的PC机的串口设置所用PC机的串口为"1"或"2",其他的设置一般不用改动,直接回车即可; （8）按一下"RESET"按键,再按一下"START"按键,六、思考题：思考题：若把IN 81，SHR R0，JRNC 2028三个语句换成4个MVRR R0，R0语句，该程序执行过程会出现什么现象？试分析并实际执行一次。

Features•Fast Read Access Time – 150 ns •Automatic Page Write Operation –Internal Address and Data Latches for 64 Bytes •Fast Write Cycle Times–Page Write Cycle Time: 10 ms Maximum –1 to 64-byte Page Write Operation •Low Power Dissipation –40 mA Active Current–100 µA CMOS Standby Current•Hardware and Software Data Protection•DATA Polling and Toggle Bit for End of Write Detection •High Reliability CMOS Technology –Endurance: 100,000 Cycles –Data Retention: 10 Years •Single 5V ± 10% Supply•CMOS and TTL Compatible Inputs and Outputs •JEDEC Approved Byte-wide Pinout•Commercial and Industrial Temperature RangesDescriptionThe AT28C64B is a high-performance electrically-erasable and programmable read only memory (EEPROM). Its 64K of memory is organized as 8,192 words by 8 bits.Manufactured with Atmel ’s advanced nonvolatile CMOS technology, the device offers access times to 150 ns with power dissipation of just 220 mW. When the device is deselected, the CMOS standby current is less than 100 µA.Pin ConfigurationsPin Name Function A0 - A12Addresses CE Chip Enable OE Output Enable WE Write Enable I/O0 - I/O7Data Inputs/Outputs NC No Connect DCDon ’t Connect PDIP , SOIC T op ViewTop ViewPLCC Top ViewNote:PLCC package pins 1 and 17 are DON ’T CONNECT.(continued)The AT28C64B is accessed like a Static RAM for the read or write cycle without the need for external components.The device contains a 64-byte page register to allow writing of up to 64 bytes simultaneously. During a write cycle, the addresses and 1 to 64 bytes of data are internally latched,freeing the address and data bus for other operations. Fol-lowing the initiation of a write cycle, the device will automat-ically write the latched data using an internal control timer.ING of I/O 7. Once the end of a write cycle has been detected, a new access for a read or write can begin.Atmel ’s AT28C64B has additional features to ensure high quality and manufacturability. The device utilizes internal error correction for extended endurance and improved data retention characteristics. An optional software data protec-tion mechanism is available to guard against inadvertent writes. The device also includes an extra 64 bytes of EEPROM for device identification or tracking.Block DiagramAbsolute Maximum Ratings*Temperature Under Bias................................-55°C to +125°C *NOTICE:Stresses beyond those listed under “Absolute Maximum Ratings ” may cause permanent dam-age to the device. This is a stress rating only and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of this specification is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliabilityStorage Temperature.....................................-65°C to +150°C All Input Voltages (including NC Pins)with Respect to Ground...................................-0.6V to +6.25V All Output Voltageswith Respect to Ground.............................-0.6V to V CC + 0.6V Voltage on OE and A9with Respect to Ground...................................-0.6V to +13.5VAT28C64B Device OperationREAD: The AT28C64B is accessed like a Static RAM. at the memory location determined by the address pins is asserted on the outputs. The outputs are put in the high-line control gives designers flexibility in preventing bus con-tention in their systems.BYTE WRITE: A low pulse on the WE or CE input with CE The address is latched on the falling edge of CE or WE, whichever occurs last. The data is latched by the first rising will automatically time itself to completion. Once a pro-gramming operation has been initiated and for the duration of t WC, a read operation will effectively be a polling operation.PAGE WRITE: The page write operation of the AT28C64B allows 1 to 64 bytes of data to be written into the device during a single internal programming period. A page write operation is initiated in the same manner as a byte write; after the first byte is written, it can then be followed by 1 to 63 additional bytes. Each successive byte must be loaded within 150µs (t BLC) of the previous byte. If the t BLC limit is exceeded, the AT28C64B will cease accepting data and commence the internal programming operation. All bytes during a page write operation must reside on the same page as defined by the state of the A6 to A12 inputs. For tion, A6 to A12 must be the same.The A0 to A5 inputs specify which bytes within the page are to be written. The bytes may be loaded in any order and may be altered within the same load period. Only bytes which are specified for writing will be written; unnecessary cycling of other bytes within the page does not occur. DATA POLLING: The AT28C64B features DATA Polling to indicate the end of a write cycle. During a byte or page write cycle an attempted read of the last byte written will result in the complement of the written data to be presented on I/O7. Once the write cycle has been completed, true data is valid on all outputs, and the next write cycle may begin. DATA Polling may begin at any time during the write cycle.TOGGLE BIT:provides another method for determining the end of a write cycle. During the write operation, successive attempts to read data from the device will result in I/O6 toggling between one and zero. Once the write has completed, I/O6 will stop toggling, and valid data will be read. Toggle bit reading may begin at any time during the write cycle.DATA PROTECTION: If precautions are not taken, inad-vertent writes may occur during transitions of the host sys-tem power supply. Atmel has incorporated both hardware and software features that will protect the memory against inadvertent writes.HARDWARE DATA PROTECTION: Hardware features protect against inadvertent writes to the AT28C64B in the following ways: (a) V CC sense – if V CC is below 3.8V (typi-cal), the write function is inhibited; (b) V CC power-on delay – once V CC has reached 3.8V, the device will automatically time out 5 ms (typical) before allowing a write; (c)write inhibit –inhibits write cycles; and (d) noise filter – pulses of less than 15 ns (typical) on the WE or CE inputs will not initiate a write cycle.SOFTWARE DATA PROTECTION: A software controlled data protection feature has been implemented on the AT28C64B. When enabled, the software data protection (SDP), will prevent inadvertent writes. The SDP feature may be enabled or disabled by the user; the AT28C64B is shipped from Atmel with SDP disabled.SDP is enabled by the user issuing a series of three write commands in which three specific bytes of data are written to three specific addresses (refer to the “Software Data Protection Algorithm” diagram in this datasheet). After writ-ing the 3-byte command sequence and waiting t WC, the entire AT28C64B will be protected against inadvertent writes. It should be noted that even after SDP is enabled, the user may still perform a byte or page write to the AT28C64B by preceding the data to be written by the same 3-byte command sequence used to enable SDP.Once set, SDP remains active unless the disable command sequence is issued. Power transitions do not disable SDP, and SDP protects the AT28C64B during power-up and power-down conditions. All command sequences must conform to the page write timing specifications. The data in the enable and disable command sequences is not actually written into the device; their addresses may still be written with user data in either a byte or page write operation. After setting SDP, any attempt to write to the device without the 3-byte command sequence will start the internal write timers. No data will be written to the device. However, for the duration of t WC, read operations will effectively be poll-ing operations.DEVICE IDENTIFICATION: An extra 64 bytes of EEPROM memory are available to the user for device identification. By raising A9 to 12V ± 0.5V and using address locations 1FC0H to 1FFFH, the additional bytes may be written to or read from in the same manner as the regular memory array.元器件交易网Notes:1.X can be V IL or V IH .2.Refer to the “AC Write Waveforms ” diagrams in this datasheet.3.V H = 12.0V ± 0.5V .DC and AC Operating RangeAT28C64B-15AT28C64B-20AT28C64B-25OperatingTemperature (Case)Com.0°C - 70°C 0°C - 70°C 0°C - 70°C Ind.-40°C - 85°C -40°C - 85°C -40°C - 85°C V CC Power Supply5V ± 10%5V ± 10%5V ± 10%Operating ModesMode CE OE WE I/O Read V IL V IL V IH D OUT Write (2)V IL V IH V IL D IN Standby/Write Inhibit V IH X (1)X High ZWrite Inhibit X X V IH Write Inhibit X V IL X Output Disable X V IH XHigh Z Chip Erase V ILV H (3)V IL High ZDC CharacteristicsSymbol Parameter ConditionMinMax Units I LI Input Load Current V IN = 0V to V CC + 1V 10µA I LO Output Leakage Current V I/O = 0V to V CC10µA I SB1V CC Standby Current CMOS CE = V CC - 0.3V to V CC + 1V Com., Ind.100µA I SB2V CC Standby Current TTL CE = 2.0V to V CC + 1V 2mA I CC V CC Active Current f = 5 MHz; I OUT = 0 mA40mA V IL Input Low Voltage 0.8V V IH Input High Voltage 2.0V V OL Output Low Voltage I OL = 2.1 mA 0.40V V OHOutput High VoltageI OH = -400 µA2.4V元器件交易网AT28C64BAC Read Waveforms (1)(2)(3)(4)Notes:1.ACC - t CE after the address transition without impact on t ACC .2.CE - t OE CE or by t ACC - t OE after an address changewithout impact on t ACC .3.t DF is specified from OE or CE whichever occurs first (C L = 5 pF).4.This parameter is characterized and is not 100% tested.Input Test Waveforms and Measurement LevelOutput Test LoadNote:1.This parameter is characterized and is not 100% tested.AC Read CharacteristicsSymbol ParameterAT28C64B-15AT28C64B-20AT28C64B-25Units MinMax MinMax MinMax t ACC Address to Output Delay 150200250ns t CE (1)CE to Output Delay 150200250ns t OE (2)OE to Output Delay 0700800100ns t DF (3)(4)CE or OE to Output Float 050055060ns t OHOutput Hold from OE, CE or Address, whichever occurred first00nsR F Pin Capacitancef = 1 MHz, T = 25°C (1)Symbol Typ Max Units Conditions C IN 46pF V IN = 0V C OUT 812pFV OUT = 0V元器件交易网AC Write WaveformsWE ControlledAC Write CharacteristicsSymbol ParameterMin MaxUnits t AS , t OES Address, OE Setup Time 0ns t AH Address Hold Time 50ns t CS Chip Select Setup Time 0ns t CH Chip Select Hold Time 0ns t WP Write Pulse Width (WE or CE)100ns t DS Data Setup Time 50ns t DH , t OEHData, OE Hold Timens元器件交易网AT28C64BPage Mode Write Waveforms (1)(2)Notes: 1.A6 through A12 must specify the same page address during each high to low transition of WE (or CE).2.OE must be high only when WE and CE are both low.Chip Erase Waveformst S = t H = 1 µsec (min.)t W = 10 msec (min.)V H = 12.0 ± 0.5VPage Mode CharacteristicsSymbol Parameter MinMax Units t WC Write Cycle Time10ms t WC Write Cycle Time (option available; contact Atmel sales office for ordering part number)02ms t AS Address Setup Time 0ns t AH Address Hold Time 50ns t DS Data Setup Time 50ns t DH Data Hold Time 0ns t WP Write Pulse Width 100ns t BLC Byte Load Cycle Time 150µs t WPHWrite Pulse Width High50ns元器件交易网Software Data Protection Enable Algorithm (1)Notes for software program code:1.Data Format: I/O7 - I/O0 (Hex);Address Format: A12 - A0 (Hex).2.Write Protect state will be activated at end ofwrite even if no other data is loaded.3.Write Protect state will be deactivated at end ofwrite period even if no other data is loaded.4. 1 to 64 bytes of data are loaded.Software Data Protection Disable Algorithm (1)Software Protected Write Cycle Waveforms (1)(2)Notes: 1.A6 through A12 must specify the same page address during each high to low transition of WE (or CE) after the software code has been entered.2.元器件交易网AT28C64BNotes:1.These parameters are characterized and not 100% tested.2.See “AC Read Characteristics ”.Notes:1.These parameters are characterized and not 100% tested.2.See “AC Read Characteristics ”.Toggle Bit Waveforms (1)(2)(3)Notes: 1.2.Beginning and ending state of I/O6 will vary.3.Any address location may be used but the address should not vary.Data Polling Characteristics (1)Symbol Parameter Min TypMaxUnits t DH Data Hold Time 0ns t OEH OE Hold Time 0ns t OE OE to Output Delay (2)ns t WR Write Recovery TimensToggle Bit Characteristics (1)Symbol Parameter Min TypMaxUnits t DH Data Hold Time 10ns t OEH OE Hold Time 10ns t OE OE to Output Delay (2)ns t OEHP OE High Pulse 150ns t WR Write Recovery Time0ns元器件交易网元器件交易网AT28C64BNote:1.See “Valid Part Numbers ” table below.Ordering Information (1)t ACC (ns)I CC (mA)Ordering Code Package Operation Range Active Standby 150400.1A T28C64B-15JC A T28C64B-15PC A T28C64B-15SC A T28C64B-15TC 32J 28P628S 28T Commercial (0°C to 70°C)A T28C64B-15JI A T28C64B-15PI A T28C64B-15SI A T28C64B-15TI32J 28P628S 28T Industrial (-40°C to 85°C)200400.1A T28C64B-20JC A T28C64B-20PC A T28C64B-20SC A T28C64B-20TC 32J 28P628S 28T Commercial (0°C to 70°C)A T28C64B-20JI A T28C64B-20PI A T28C64B-20SI A T28C64B-20TI32J 28P628S 28T Industrial (-40°C to 85°C)250400.1A T28C64B-25JC A T28C64B-25PC A T28C64B-25SC A T28C64B-25TC 32J 28P628S 28T Commercial (0°C to 70°C)A T28C64B-25JI A T28C64B-25PI A T28C64B-25SI A T28C64B-25TI32J 28P628S 28TIndustrial (-40°C to 85°C)Valid Part NumbersThe following table lists standard Atmel products that can be ordered.Device Numbers Speed Package and Temperature Combinations AT28C64B 15JC, JI, PC, PI, SC, SI, TC, TI AT28C64B 20JC, JI, PC, PI, SC, SI, TC, TI AT28C64B 25JC, JI, PC, PI, SC, SI, TC, TI AT28C64B–WDie ProductsReference Section: Parallel EEPROM Die Products元器件交易网AT28C64B12Packaging Information© 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.Marks bearing ® and/or ™ are registered trademarks and trademarks of Atmel Corporation.Terms and product names in this document may be trademarks of others.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) 436-43090270H –12/99/xM。

集成电路英文代码及中文对照〔一〕我的文摘2021-11-21 11:32:53 阅读111 评论0 字号：大中小订阅产品名称型号规格性能说明LMLM24J 四运放(军用级)LM148J 通用四运放LM1875T 无线电控制/接收器LM224J 四运放(工业级)LM258N 别离式双电源双运放LM2901N 四电压比拟器LM2904N 四运放LM301AN 通用运算放大器LM308N 单比拟器LM311P 单比拟器LM317L 可调三端稳压器/100mALM317TLM317K 可调三端稳压器/3ALM318 高速宽带运放LM324K 通用四运放LM331N V-F/F-V转换器基准电压电路LM336 5V 基准电压电路LM337T 基准电压电路1ALM338K 可调三端稳压器5ALM339N 四比拟器LM348N 四741运放LM358N 低功耗双运放LM361N 高速差动比拟器LM386N 声频功率放大器LM3914N 十段点线显示驱动LM393N 低功耗低失调双比拟器LM399H 精细基准源(6.9)LM723CN 可调正式负稳压器LM733CN 视频放大器LM741J 单运放LM741CN 双运放NENE521 高速双差分比拟器NE5532 双运放NE5534 双运放NE555N 单运放NE555J 时基电路军品极NE556 双级型双时基电路NE564 锁相环NE565 锁相环NE567 音调译码器NE592 视频放大器OPOP07 低噪声运放OP27 超低噪声精细运放OP37 超低噪声精细运放光电耦合4N25 晶体管输出4N25MC 晶体管输出4N26 晶体管输出4N27 晶体管输出4N28 晶体管输出4N29 达林顿输出4N30 达林顿输出4N31 达林顿输出4N32 达林顿输出4N33 达林顿输出4N33MC 达林顿输出4N35 达林顿输出4N36 晶体管输出4N37 晶体管输出4N38 晶体管输出4N39 可控硅输出6N135 高速光耦晶体管输出6N136 高速光耦晶体管输出6N137 高速光耦晶体管输出6N138 达林顿输出6N139 达林顿输出MOC3020 可控硅驱动输出MOC3021 可控硅驱动输出MOC3023 可控硅驱动输出MOC3030 可控硅驱动输出MOC3040 过零触发可控硅输出MOC3041 过零触发可控硅输出MOC3061 过零触发可控硅输出MOC3081 过零触发可控硅输出TLP521-1 单光耦TLP521-2 双光耦TLP521-4 四光耦TLP621 四光耦TIL113 达林顿输出TIL117 TLL逻辑输出PC814 单光耦PC817 单光耦H11A2 晶体管输出H11D1 高压晶体管输出H11G2 电阻达林顿输出LFLF347N 宽带JFET输入四运放LF351N 宽带JFET输入运放LF353N JFET输入宽带运放LF355N JFET输入运放LF357N JFET宽带非全裣运放LF398N 采样/保持电路LF412N 低偏向飘移输入运放MCMC1377 彩色电视编码器MC1403 精细电压基准源(2.5)MC1413 周边七段驱动阵列MC1416 周边七段驱动陈列MC14409 二进制脉冲拨号器MC14433 3位半A/D转换器MC14489 多字符LED显示驱动器MC145026 编码器VD5026 编码器MC145027 译码器VD5027 译码器MC145028 译码器MC145030 编码译码器MC145106 频率合成器MC145146 4位数据总线TLTL062 低功耗JEFT输入双运放TL072 低噪声JEFTTL082TL084TL431TL494ULNULN2003 周边七段驱动陈列ULN2004 周边七段驱动陈列ULN2803 周边八段驱动陈列ULN2804 周边八段驱动陈列ICLICL7106 3位ADC/驱动LCDICL7107 3位半ADC/驱动LEDICL7109 4位半ADC/驱动LEDICL7129 4位半ADC/LCD驱动ICL7135 ADC/LCD驱动BCD输出ICL7136 3位半CMOSADC/LCD驱动ICL7218 CMOS低功耗运算放大器ICL7650 整零运放斩波ICL7652 整零运放斩波ICL7660 CMOS直流-直流转换器ICL8038 函数信号发生器ICL8049 反对数放大器CACA3140 单BIMOS运行CA3240 单BIMOS运行UCUC3842 WM电流型控制器UC3845 PWM电流型控制器DSDS12887 非易失实时时钟芯片L3845 中继接口电路SGSG3524 PWM解调调制器SG3525 PWM解调调制器20216 前置放大器MTMT8814 8x12模拟交换矩阵MT8816 8x模拟交换矩阵MT8870 综合DTMF接收器MT8870 综合DTMF接收器MT8880 综合DTMF发生接收器MIC24LC01 128x8串行EEPROM24LC02 256x8串行EEPROM24LC04 512x8串行EEPROM24LC16 2Kx8串行EEPROM93LC46 64x16串行EEPROM93LC56 256x16串行EEPROM93LC66 512x8 256x16 EEPROMPIC16C52 384x12 单片机PIC16C54 512x12 单片机PCI16C56 512x12 单片机PIC16C57 2048x12 单片机ATAT24C01 128x8串行EEPROMAT24C02 256x8串行EEPROMAT24C04 512x8串行EEPROMAT24C16 2Kx8串行EEPROMAT93C46 64x16串行EEPROMAT93C56 256x16串行EEPROMATF16V8 FLASH200门ATF20V8 FLASH300门高速ATF22V10 FLASH500门高速低电流AT28C16 2Kx8CMOS并行EEPROMAT28C17 2Kx8CMOS并行EEPROMAT28C64 8Kx8并行EEPROMAT28C256 32Kx8并行EEPROMAT28F010 128Kx8并行EEPROMA29C040 512Kx8 FLASH EEPROMHM6116 2Kx8 CMOS 静态PAMHY6264 8Kx8 CMOS 静态RAMHM6264 8Kx8 CMOS 静态RAMIS62C64 8Kx8 高速CMOS 静态RAMHY62256 32Kx8 CMOS 静态RAMHM62256 32Kx8 CMOS 静态RAMHM628128 128Kx8 CMOS 静态RAMHM628256 256Kx8 CMOS 静态RAMHM628512 512Kx8 CMOS 静态RAMHM628512 512Kx8 CMOS 静态RAM TCMTCM5087 双音调发生器MM5832 实时钟电路TCTC14433 3位半A/D转换器TC232 并行/串行接口电路TC7106 3位半ADC/LCD驱动TC7107 3位半ADC/LED驱动TC7116 3位半ADC/LCD驱动带保TC7129 4位半ADC/LCDTC7135 4位半ADC/LCD，BCD输出TC7650 整零运放斩波7575107 四差分线驱动器75174 四差分线驱动器75175 三态四差分接收器75176 差分总线接收器75188 四线驱动器75189 四线驱动器75451 双外围驱动器75452 双外围驱动器集成电路英文代码及中文对照〔二〕我的文摘2021-11-21 11:37:11 阅读191 评论0 字号：大中小订阅。