MAX4074AKESA中文资料

M A X471M A X472的中文资料大全(总4页)-本页仅作为预览文档封面，使用时请删除本页-MAX471/MAX472的特点、功能美国美信公司生产的精密高端电流检测放大器是一个系列化产品，有MAX471/MA X472、 MAX4172/MAX4173等。

它们均有一个电流输出端，可以用一个电阻来简单地实现以地为参考点的电流/电压的转换，并可工作在较宽电压内。

MAX471/MAX472具有如下特点：●具有完美的高端电流检测功能；●内含精密的内部检测电阻（MAX471）；●在工作温度范围内，其精度为2%；●具有双向检测指示，可监控充电和放电状态；●内部检测电阻和检测能力为3A，并联使用时还可扩大检测电流范围；●使用外部检测电阻可任意扩展检测电流范围（MAX472）；●最大电源电流为100μA；●关闭方式时的电流仅为5μA；●电压范围为3～36V；●采用8脚DIP/SO/STO三种封装形式。

MAX471/MAX472的引脚排列如图1所示，图2所示为其内部功能框图。

表1为MAX471/MAX472的引脚功能说明。

MAX471的电流增益比已预设为500μA/A，由于2kΩ的输出电阻（ROUT）可产生1V/A的转换，因此±3A时的满度值为3V.用不同的ROUT电阻可设置不同的满度电压。

但对于MAX471，其输出电压不应大于VRS+。

对于MAX472，则不能大于。

MAX471引脚图如图１所示，MAX472引脚图如图２所示。

MAX471/MAX472的引脚功能说明引脚名称功能MAX471MAX47211SHDN关闭端。

正常运用时连接到地。

当此端接高电平时，电源电流小于5μA2，3-RS+内部电流检测电阻电池（或电源端）。

“+”仅指示与SIGN输出有关的流动方向。

封装时已将2和3连在了一起-2空脚-3RG1增益电阻端。

通过增益设置电阻连接到电流检测电阻的电池端44GND地或电池负端55SIGN集电极开路逻辑输出端。

AO4704AO4704SymbolTyp Max 28405475R θJL 2130SymbolTyp Max 36406775R θJL 2530Maximum Junction-to-LeadCSteady-State°C/WParameterUnits Maximum Junction-to-AmbientAt ≤ 10s R θJA °C/W Maximum Junction-to-AmbientASteady-State °C/W °C/W Maximum Junction-to-AmbientASteady-State Thermal Characteristics: Schottky Maximum Junction-to-Lead CSteady-State°C/WThermal Characteristics ParameterUnits Maximum Junction-to-AmbientAt ≤ 10s R θJA °C/W A: The value of R θJA is measured with the device mounted on 1in 2 FR-4 board with 2oz. Copper, in a still air environment with T A =25°C. The value in any given application depends on the user's specific board design. The current rating is based on the t ≤ 10s thermal resistance rating.B: Repetitive rating, pulse width limited by junction temperature.C. The R θJA is the sum of the thermal impedence from junction to lead R θJL and lead to ambient.D. The static characteristics in Figures 1 to 6 are obtained using 80 µs pulses, duty cycle 0.5% max.E. These tests are performed with the device mounted on 1 in 2 FR-4 board with 2oz. Copper, in a still air environment with T A =25°C. The SOA curve provides a single pulse rating.F. The Schottky appears in parallel with the MOSFET body diode, even though it is a separate chip. Therefore, we provide the net forward drop, capacitance and recovery characteristics of the MOSFET and Schottky. However, the thermal resistance is specified for each chip separately.Rev5: August 2005THIS PRODUCT HAS BEEN DESIGNED AND QUALIFIED FOR THE CONSUMER MARKET. APPLICATIONS OR USES AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS ARE NOT AUTHORIZED. AOS DOES NOT ASSUME ANY LIABILITY ARISINGOUT OF SUCH APPLICATIONS OR USES OF ITS PRODUCTS. AOS RESERVES THE RIGHT TO IMPROVE PRODUCT DESIGN,FUNCTIONS AND RELIABILITY WITHOUT NOTICE.AO4704SymbolMin TypMaxUnits BV DSS 30V0.0070.053.2101220I GSS 100nA V GS(th)0.6 1.12V I D(ON)40A 9.111.5T J =125°C13.316.510.513m Ωg FS 3037S V SD 0.450.5V I S5A DYNAMIC PARAMETERS C iss 36564050pF C oss 322pF C rss 168pF R g0.86 1.1ΩSWITCHING PARAMETERS Q g (4.5V)30.536nC Q gs 4.6nC Q gd 8.6nC t D(on) 6.29ns t r 4.87ns t D(off)5575ns t f 7.311ns t rr 20.325ns Q rr8.412.5nCTHIS PRODUCT HAS BEEN DESIGNED AND QUALIFIED FOR THE CONSUMER MARKET. APPLICATIONS OR USES AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS ARE NOT AUTHORIZED. AOS DOES NOT ASSUME ANY LIABILITY ARISING OUT OF SUCH APPLICATIONS OR USES OF ITS PRODUCTS. AOS RESERVES THE RIGHT TO IMPROVE PRODUCT DESIGN,FUNCTIONS AND RELIABILITY WITHOUT NOTICE.Gate resistanceGate Drain Charge Body Diode+Schottky Reverse Recovery ChargeI F =13A, dI/dt=100A/µsBody Diode+Schottky Reverse Recovery Time Turn-Off DelayTime V GS =10V, V DS =15V, R L =1.1Ω, R GEN =0ΩTurn-Off Fall TimeTotal Gate Charge Gate Source Charge I F =13A, dI/dt=100A/µs On state drain currentForward TransconductanceDiode + Schottky Forward Voltage I S =1A,V GS =0VV GS =4.5V, V DS =5V Turn-On DelayTime V GS =10V, V DS =15V, I D =13AV GS =0V, V DS =0V, f=1MHzTurn-On Rise Time Electrical Characteristics (T J =25°C unless otherwise noted)STATIC PARAMETERS Parameter Conditions I DSS mA Gate Threshold Voltage Drain-Source Breakdown Voltage I D =250µA, V GS =0VZero Gate Voltage Drain Current.(Set by Schottky leakage)Gate-Body leakage current V DS =V GS I D =250µA V R =30VV DS =0V, V GS = ±12V R DS(ON)Static Drain-Source On-Resistancem ΩV GS =4.5V, I D =12.2AV GS =10V, ID=13AV R =30V, T J =125°CV R =30V, T J =150°C Reverse Transfer Capacitance V DS =5V, I D =13AOutput Capacitance (FET+Schottky)Maximum Body-Diode + Schottky Continuous CurrentV GS =0V, V DS =15V, f=1MHz Input Capacitance A: The value of R θJA is measured with the device mounted on 1in 2 FR-4 board with 2oz. Copper, in a still air environment with T A =25°C. The value in any given application depends on the user's specific board design. The current rating is based on the t ≤ 10s thermal resistance rating.B: Repetitive rating, pulse width limited by junction temperature.C. The R θJA is the sum of the thermal impedence from junction to lead R θJL and lead to ambient.D. The static characteristics in Figures 1 to 6 are obtained using 80 µs pulses, duty cycle 0.5% max.E. These tests are performed with the device mounted on 1 in 2 FR-4 board with 2oz. Copper, in a still air environment with T A =25°C. The SOA curve provides a single pulse rating.F. The Schottky appears in parallel with the MOSFET body diode, even though it is a separate chip. Therefore, we provide the net forward drop, capacitance and recovery characteristics of the MOSFET and Schottky. However, the thermal resistance is specified for each chip separately Rev5: August 2005.AO4704AO4704。

General Description The MAX3483, MAX3485, MAX3486, MAX3488,MAX3490, and MAX3491 are 3.3V , low-power transceivers forRS-485 and RS-422 communication. Each part containsone driver and one receiver. The MAX3483 and MAX3488feature slew-rate-limited drivers that minimize EMI andreduce reflections caused by improperly terminatedcables, allowing error-free data transmission at data ratesup to 250kbps. The partially slew-rate-limited MAX3486transmits up to 2.5Mbps. The MAX3485, MAX3490, andMAX3491 transmit at up to 10Mbps.Drivers are short-circuit current-limited and are protectedagainst excessive power dissipation by thermal shutdowncircuitry that places the driver outputs into a high-imped-ance state. The receiver input has a fail-safe feature thatguarantees a logic-high output if both inputs are opencircuit.The MAX3488, MAX3490, and MAX3491 feature full-duplex communication, while the MAX3483, MAX3485, andMAX3486 are designed for half-duplex communication.Applications ●Low-Power RS-485/RS-422 Transceivers ●Telecommunications ●Transceivers for EMI-Sensitive Applications ●Industrial-Control Local Area NetworksFeatures●Operate from a Single 3.3V Supply—No Charge Pump!●Interoperable with +5V Logic ●8ns Max Skew (MAX3485/MAX3490/MAX3491)●Slew-Rate Limited for Errorless Data Transmission (MAX3483/MAX3488)●2nA Low-Current Shutdown Mode (MAX3483/MAX3485/MAX3486/MAX3491)●-7V to +12V Common-Mode Input Voltage Range ●Allows up to 32 Transceivers on the Bus ●Full-Duplex and Half-Duplex Versions Available ●Industry Standard 75176 Pinout (MAX3483/MAX3485/MAX3486)●Current-Limiting and Thermal Shutdown for Driver Overload Protection 19-0333; Rev 1; 5/19Ordering Information continued at end of data sheet.*Contact factory for for dice specifications.PARTTEMP . RANGE PIN-PACKAGE MAX3483CPA0°C to +70°C 8 Plastic DIP MAX3483CSA0°C to +70°C 8 SO MAX3483C/D0°C to +70°C Dice*MAX3483EPA-40°C to +85°C 8 Plastic DIP MAX3483ESA-40°C to +85°C 8 SO MAX3485CPA0°C to +70°C 8 Plastic DIP MAX3485CSA0°C to +70°C 8 SO MAX3485C/D0°C to +70°C Dice*MAX3485EPA-40°C to +85°C 8 Plastic DIP MAX3485ESA -40°C to +85°C 8 SO PARTNUMBERGUARANTEED DATA RATE (Mbps)SUPPLY VOLTAGE (V)HALF/FULL DUPLEX SLEW-RATE LIMITED DRIVER/RECEIVER ENABLE SHUTDOWN CURRENT (nA)PIN COUNT MAX34830.25 3.0 to 3.6Half Yes Yes 28MAX348510Half No No 28MAX34862.5Half Yes Yes 28MAX34880.25Half Yes Yes —8MAX349010Half No No —8MAX349110Half No Yes 214MAX3483/MAX3485/MAX3486/MAX3488/MAX3490/MAX3491Selection TableOrdering Information找电子元器件上宇航军工Figure 1. MAX3483/MAX3485/MAX3486 Pin Configuration and Typical Operating Circuit Figure 2. MAX3488/MAX3490 Pin Configuration and Typical Operating Circuit Figure 3. MAX3491 Pin Configuration and Typical Operating CircuitMAX3486/MAX3488/MAX3490/MAX3491True RS-485/RS-422 TransceiversFigure 22. MAX3488/MAX3490/MAX3491 Full-Duplex RS-485 NetworkFigure 23. Line Repeater for MAX3488/MAX3490/MAX3491MAX3486/MAX3488/MAX3490/MAX3491True RS-485/RS-422 Transceivers。

For pricing, delivery, and ordering information,please contact Maxim/Dallas Direct!at 1-888-629-4642, or visit Maxim’s website at .General DescriptionThe MAX481, MAX483, MAX485, MAX487–MAX491, and MAX1487 are low-power transceivers for RS-485 and RS-422 communication. Each part contains one driver and one receiver. The MAX483, MAX487, MAX488, and MAX489feature reduced slew-rate drivers that minimize EMI and reduce reflections caused by improperly terminated cables,thus allowing error-free data transmission up to 250kbps.The driver slew rates of the MAX481, MAX485, MAX490,MAX491, and MAX1487 are not limited, allowing them to transmit up to 2.5Mbps.These transceivers draw between 120µA and 500µA of supply current when unloaded or fully loaded with disabled drivers. Additionally, the MAX481, MAX483, and MAX487have a low-current shutdown mode in which they consume only 0.1µA. All parts operate from a single 5V supply.Drivers are short-circuit current limited and are protected against excessive power dissipation by thermal shutdown circuitry that places the driver outputs into a high-imped-ance state. The receiver input has a fail-safe feature that guarantees a logic-high output if the input is open circuit.The MAX487 and MAX1487 feature quarter-unit-load receiver input impedance, allowing up to 128 MAX487/MAX1487 transceivers on the bus. Full-duplex communi-cations are obtained using the MAX488–MAX491, while the MAX481, MAX483, MAX485, MAX487, and MAX1487are designed for half-duplex applications.________________________ApplicationsLow-Power RS-485 Transceivers Low-Power RS-422 Transceivers Level TranslatorsTransceivers for EMI-Sensitive Applications Industrial-Control Local Area Networks__Next Generation Device Features♦For Fault-Tolerant ApplicationsMAX3430: ±80V Fault-Protected, Fail-Safe, 1/4Unit Load, +3.3V, RS-485 TransceiverMAX3440E–MAX3444E: ±15kV ESD-Protected,±60V Fault-Protected, 10Mbps, Fail-Safe, RS-485/J1708 Transceivers♦For Space-Constrained ApplicationsMAX3460–MAX3464: +5V, Fail-Safe, 20Mbps,Profibus RS-485/RS-422 TransceiversMAX3362: +3.3V, High-Speed, RS-485/RS-422Transceiver in a SOT23 PackageMAX3280E–MAX3284E: ±15kV ESD-Protected,52Mbps, +3V to +5.5V, SOT23, RS-485/RS-422,True Fail-Safe ReceiversMAX3293/MAX3294/MAX3295: 20Mbps, +3.3V,SOT23, RS-855/RS-422 Transmitters ♦For Multiple Transceiver ApplicationsMAX3030E–MAX3033E: ±15kV ESD-Protected,+3.3V, Quad RS-422 Transmitters ♦For Fail-Safe ApplicationsMAX3080–MAX3089: Fail-Safe, High-Speed (10Mbps), Slew-Rate-Limited RS-485/RS-422Transceivers♦For Low-Voltage ApplicationsMAX3483E/MAX3485E/MAX3486E/MAX3488E/MAX3490E/MAX3491E: +3.3V Powered, ±15kV ESD-Protected, 12Mbps, Slew-Rate-Limited,True RS-485/RS-422 TransceiversMAX481/MAX483/MAX485/MAX487–MAX491/MAX1487Low-Power, Slew-Rate-Limited RS-485/RS-422 Transceivers______________________________________________________________Selection Table19-0122; Rev 8; 10/03Ordering Information appears at end of data sheet.M A X 481/M A X 483/M A X 485/M A X 487–M A X 491/M A X 1487Low-Power, Slew-Rate-Limited RS-485/RS-422 Transceivers 2_______________________________________________________________________________________ABSOLUTE MAXIMUM RATINGSSupply Voltage (V CC ).............................................................12V Control Input Voltage (RE , DE)...................-0.5V to (V CC + 0.5V)Driver Input Voltage (DI).............................-0.5V to (V CC + 0.5V)Driver Output Voltage (A, B)...................................-8V to +12.5V Receiver Input Voltage (A, B).................................-8V to +12.5V Receiver Output Voltage (RO).....................-0.5V to (V CC +0.5V)Continuous Power Dissipation (T A = +70°C)8-Pin Plastic DIP (derate 9.09mW/°C above +70°C)....727mW 14-Pin Plastic DIP (derate 10.00mW/°C above +70°C)..800mW 8-Pin SO (derate 5.88mW/°C above +70°C).................471mW14-Pin SO (derate 8.33mW/°C above +70°C)...............667mW 8-Pin µMAX (derate 4.1mW/°C above +70°C)..............830mW 8-Pin CERDIP (derate 8.00mW/°C above +70°C).........640mW 14-Pin CERDIP (derate 9.09mW/°C above +70°C).......727mW Operating Temperature RangesMAX4_ _C_ _/MAX1487C_ A...............................0°C to +70°C MAX4__E_ _/MAX1487E_ A.............................-40°C to +85°C MAX4__MJ_/MAX1487MJA...........................-55°C to +125°C Storage Temperature Range.............................-65°C to +160°C Lead Temperature (soldering, 10sec).............................+300°CDC ELECTRICAL CHARACTERISTICS(V CC = 5V ±5%, T A = T MIN to T MAX , unless otherwise noted.) (Notes 1, 2)Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability.V V IN = -7VV IN = 12V V IN = -7V V IN = 12V Input Current (A, B)I IN2V TH k Ω48-7V ≤V CM ≤12V, MAX487/MAX1487R INReceiver Input Resistance -7V ≤V CM ≤12V, all devices except MAX487/MAX1487R = 27Ω(RS-485), Figure 40.4V ≤V O ≤2.4VR = 50Ω(RS-422)I O = 4mA, V ID = -200mV I O = -4mA, V ID = 200mV V CM = 0V-7V ≤V CM ≤12V DE, DI, RE DE, DI, RE MAX487/MAX1487,DE = 0V, V CC = 0V or 5.25VDE, DI, RE R = 27Ωor 50Ω, Figure 4R = 27Ωor 50Ω, Figure 4R = 27Ωor 50Ω, Figure 4DE = 0V;V CC = 0V or 5.25V,all devices except MAX487/MAX1487CONDITIONSk Ω12µA ±1I OZRThree-State (high impedance)Output Current at ReceiverV 0.4V OL Receiver Output Low Voltage 3.5V OH Receiver Output High Voltage mV 70∆V TH Receiver Input Hysteresis V -0.20.2Receiver Differential Threshold Voltage-0.2mA 0.25mA-0.81.01.55V OD2Differential Driver Output (with load)V 2V 5V OD1Differential Driver Output (no load)µA±2I IN1Input CurrentV 0.8V IL Input Low Voltage V 2.0V IH Input High Voltage V 0.2∆V OD Change in Magnitude of Driver Common-Mode Output Voltage for Complementary Output States V 0.2∆V OD Change in Magnitude of Driver Differential Output Voltage for Complementary Output States V 3V OC Driver Common-Mode Output VoltageUNITS MINTYPMAX SYMBOL PARAMETERMAX481/MAX483/MAX485/MAX487–MAX491/MAX1487Low-Power, Slew-Rate-Limited RS-485/RS-422 Transceivers_______________________________________________________________________________________3SWITCHING CHARACTERISTICS—MAX481/MAX485, MAX490/MAX491, MAX1487(V CC = 5V ±5%, T A = T MIN to T MAX , unless otherwise noted.) (Notes 1, 2)DC ELECTRICAL CHARACTERISTICS (continued)(V CC = 5V ±5%, T A = T MIN to T MAX , unless otherwise noted.) (Notes 1, 2)ns 103060t PHLDriver Rise or Fall Time Figures 6 and 8, R DIFF = 54Ω, C L1= C L2= 100pF ns MAX490M, MAX491M MAX490C/E, MAX491C/E2090150MAX481, MAX485, MAX1487MAX490M, MAX491MMAX490C/E, MAX491C/E MAX481, MAX485, MAX1487Figures 6 and 8, R DIFF = 54Ω,C L1= C L2= 100pF MAX481 (Note 5)Figures 5 and 11, C RL = 15pF, S2 closedFigures 5 and 11, C RL = 15pF, S1 closed Figures 5 and 11, C RL = 15pF, S2 closed Figures 5 and 11, C RL = 15pF, S1 closed Figures 6 and 10, R DIFF = 54Ω,C L1= C L2= 100pFFigures 6 and 8,R DIFF = 54Ω,C L1= C L2= 100pF Figures 6 and 10,R DIFF = 54Ω,C L1= C L2= 100pF CONDITIONS ns 510t SKEW ns50200600t SHDNTime to ShutdownMbps 2.5f MAX Maximum Data Rate ns 2050t HZ Receiver Disable Time from High ns 103060t PLH 2050t LZ Receiver Disable Time from Low ns 2050t ZH Driver Input to Output Receiver Enable to Output High ns 2050t ZL Receiver Enable to Output Low 2090200ns ns 134070t HZ t SKD Driver Disable Time from High |t PLH - t PHL |DifferentialReceiver Skewns 4070t LZ Driver Disable Time from Low ns 4070t ZL Driver Enable to Output Low 31540ns51525ns 31540t R , t F 2090200Driver Output Skew to Output t PLH , t PHL Receiver Input to Output4070t ZH Driver Enable to Output High UNITS MIN TYP MAX SYMBOL PARAMETERFigures 7 and 9, C L = 100pF, S2 closed Figures 7 and 9, C L = 100pF, S1 closed Figures 7 and 9, C L = 15pF, S1 closed Figures 7 and 9, C L = 15pF, S2 closedM A X 481/M A X 483/M A X 485/M A X 487–M A X 491/M A X 1487Low-Power, Slew-Rate-Limited RS-485/RS-422 Transceivers 4_______________________________________________________________________________________SWITCHING CHARACTERISTICS—MAX483, MAX487/MAX488/MAX489(V CC = 5V ±5%, T A = T MIN to T MAX , unless otherwise noted.) (Notes 1, 2)SWITCHING CHARACTERISTICS—MAX481/MAX485, MAX490/MAX491, MAX1487 (continued)(V CC = 5V ±5%, T A = T MIN to T MAX , unless otherwise noted.) (Notes 1, 2)3001000Figures 7 and 9, C L = 100pF, S2 closed Figures 7 and 9, C L = 100pF, S1 closed Figures 5 and 11, C L = 15pF, S2 closed,A - B = 2VCONDITIONSns 40100t ZH(SHDN)Driver Enable from Shutdown toOutput High (MAX481)nsFigures 5 and 11, C L = 15pF, S1 closed,B - A = 2Vt ZL(SHDN)Receiver Enable from Shutdownto Output Low (MAX481)ns 40100t ZL(SHDN)Driver Enable from Shutdown toOutput Low (MAX481)ns 3001000t ZH(SHDN)Receiver Enable from Shutdownto Output High (MAX481)UNITS MINTYP MAX SYMBOLPARAMETERt PLH t SKEW Figures 6 and 8, R DIFF = 54Ω,C L1= C L2= 100pFt PHL Figures 6 and 8, R DIFF = 54Ω,C L1= C L2= 100pFDriver Input to Output Driver Output Skew to Output ns 100800ns ns 2000MAX483/MAX487, Figures 7 and 9,C L = 100pF, S2 closedt ZH(SHDN)Driver Enable from Shutdown to Output High2502000ns2500MAX483/MAX487, Figures 5 and 11,C L = 15pF, S1 closedt ZL(SHDN)Receiver Enable from Shutdown to Output Lowns 2500MAX483/MAX487, Figures 5 and 11,C L = 15pF, S2 closedt ZH(SHDN)Receiver Enable from Shutdown to Output Highns 2000MAX483/MAX487, Figures 7 and 9,C L = 100pF, S1 closedt ZL(SHDN)Driver Enable from Shutdown to Output Lowns 50200600MAX483/MAX487 (Note 5) t SHDN Time to Shutdownt PHL t PLH , t PHL < 50% of data period Figures 5 and 11, C RL = 15pF, S2 closed Figures 5 and 11, C RL = 15pF, S1 closed Figures 5 and 11, C RL = 15pF, S2 closed Figures 5 and 11, C RL = 15pF, S1 closed Figures 7 and 9, C L = 15pF, S2 closed Figures 6 and 10, R DIFF = 54Ω,C L1= C L2= 100pFFigures 7 and 9, C L = 15pF, S1 closed Figures 7 and 9, C L = 100pF, S1 closed Figures 7 and 9, C L = 100pF, S2 closed CONDITIONSkbps 250f MAX 2508002000Maximum Data Rate ns 2050t HZ Receiver Disable Time from High ns 25080020002050t LZ Receiver Disable Time from Low ns 2050t ZH Receiver Enable to Output High ns 2050t ZL Receiver Enable to Output Low ns ns 1003003000t HZ t SKD Driver Disable Time from High I t PLH - t PHL I DifferentialReceiver SkewFigures 6 and 10, R DIFF = 54Ω,C L1= C L2= 100pFns 3003000t LZ Driver Disable Time from Low ns 2502000t ZL Driver Enable to Output Low ns Figures 6 and 8, R DIFF = 54Ω,C L1= C L2= 100pFns 2502000t R , t F 2502000Driver Rise or Fall Time ns t PLH Receiver Input to Output2502000t ZH Driver Enable to Output High UNITS MIN TYP MAX SYMBOL PARAMETERMAX481/MAX483/MAX485/MAX487–MAX491/MAX1487Low-Power, Slew-Rate-Limited RS-485/RS-422 Transceivers_______________________________________________________________________________________530002.5OUTPUT CURRENT vs.RECEIVER OUTPUT LOW VOLTAGE525M A X 481-01OUTPUT LOW VOLTAGE (V)O U T P U T C U R R E N T (m A )1.515100.51.02.0203540450.90.1-50-252575RECEIVER OUTPUT LOW VOLTAGE vs.TEMPERATURE0.30.7TEMPERATURE (°C)O U T P U TL O W V O L T A G E (V )500.50.80.20.60.40100125-20-41.5 2.0 3.0 5.0OUTPUT CURRENT vs.RECEIVER OUTPUT HIGH VOLTAGE-8-16M A X 481-02OUTPUT HIGH VOLTAGE (V)O U T P U T C U R R E N T (m A )2.5 4.0-12-18-6-14-10-203.54.5 4.83.2-50-252575RECEIVER OUTPUT HIGH VOLTAGE vs.TEMPERATURE3.64.4TEMPERATURE (°C)O U T P UT H I G H V O L T A G E (V )0504.04.63.44.23.83.01001259000 1.0 3.0 4.5DRIVER OUTPUT CURRENT vs.DIFFERENTIAL OUTPUT VOLTAGE1070M A X 481-05DIFFERENTIAL OUTPUT VOLTAGE (V)O U T P U T C U R R E N T (m A )2.0 4.05030806040200.5 1.5 2.53.5 2.31.5-50-2525125DRIVER DIFFERENTIAL OUTPUT VOLTAGEvs. TEMPERATURE1.72.1TEMPERATURE (°C)D I F FE R E N T I A L O U T P U T V O L T A G E (V )751.92.21.62.01.8100502.4__________________________________________Typical Operating Characteristics(V CC = 5V, T A = +25°C, unless otherwise noted.)NOTES FOR ELECTRICAL/SWITCHING CHARACTERISTICSNote 1:All currents into device pins are positive; all currents out of device pins are negative. All voltages are referenced to deviceground unless otherwise specified.Note 2:All typical specifications are given for V CC = 5V and T A = +25°C.Note 3:Supply current specification is valid for loaded transmitters when DE = 0V.Note 4:Applies to peak current. See Typical Operating Characteristics.Note 5:The MAX481/MAX483/MAX487 are put into shutdown by bringing RE high and DE low. If the inputs are in this state for lessthan 50ns, the parts are guaranteed not to enter shutdown. If the inputs are in this state for at least 600ns, the parts are guaranteed to have entered shutdown. See Low-Power Shutdown Mode section.M A X 481/M A X 483/M A X 485/M A X 487–M A X 491/M A X 1487Low-Power, Slew-Rate-Limited RS-485/RS-422 Transceivers 6___________________________________________________________________________________________________________________Typical Operating Characteristics (continued)(V CC = 5V, T A = +25°C, unless otherwise noted.)120008OUTPUT CURRENT vs.DRIVER OUTPUT LOW VOLTAGE20100M A X 481-07OUTPUT LOW VOLTAGE (V)O U T P U T C U R R E N T (m A )6604024801012140-1200-7-5-15OUTPUT CURRENT vs.DRIVER OUTPUT HIGH VOLTAGE-20-80M A X 481-08OUTPUT HIGH VOLTAGE (V)O U T P U T C U R R E N T (m A )-31-603-6-4-2024-100-40100-40-60-2040100120MAX1487SUPPLY CURRENT vs. TEMPERATURE300TEMPERATURE (°C)S U P P L Y C U R R E N T (µA )20608050020060040000140100-50-2550100MAX481/MAX485/MAX490/MAX491SUPPLY CURRENT vs. TEMPERATURE300TEMPERATURE (°C)S U P P L Y C U R R E N T (µA )257550020060040000125100-50-2550100MAX483/MAX487–MAX489SUPPLY CURRENT vs. TEMPERATURE300TEMPERATURE (°C)S U P P L Y C U R R E N T (µA )257550020060040000125MAX481/MAX483/MAX485/MAX487–MAX491/MAX1487Low-Power, Slew-Rate-Limited RS-485/RS-422 Transceivers_______________________________________________________________________________________7______________________________________________________________Pin DescriptionFigure 1. MAX481/MAX483/MAX485/MAX487/MAX1487 Pin Configuration and Typical Operating CircuitM A X 481/M A X 483/M A X 485/M A X 487–M A X 491/M A X 1487__________Applications InformationThe MAX481/MAX483/MAX485/MAX487–MAX491 and MAX1487 are low-power transceivers for RS-485 and RS-422 communications. The MAX481, MAX485, MAX490,MAX491, and MAX1487 can transmit and receive at data rates up to 2.5Mbps, while the MAX483, MAX487,MAX488, and MAX489 are specified for data rates up to 250kbps. The MAX488–MAX491 are full-duplex trans-ceivers while the MAX481, MAX483, MAX485, MAX487,and MAX1487 are half-duplex. In addition, Driver Enable (DE) and Receiver Enable (RE) pins are included on the MAX481, MAX483, MAX485, MAX487, MAX489,MAX491, and MAX1487. When disabled, the driver and receiver outputs are high impedance.MAX487/MAX1487:128 Transceivers on the BusThe 48k Ω, 1/4-unit-load receiver input impedance of the MAX487 and MAX1487 allows up to 128 transceivers on a bus, compared to the 1-unit load (12k Ωinput impedance) of standard RS-485 drivers (32 trans-ceivers maximum). Any combination of MAX487/MAX1487 and other RS-485 transceivers with a total of 32 unit loads or less can be put on the bus. The MAX481/MAX483/MAX485 and MAX488–MAX491 have standard 12k ΩReceiver Input impedance.Low-Power, Slew-Rate-Limited RS-485/RS-422 Transceivers 8_______________________________________________________________________________________Figure 2. MAX488/MAX490 Pin Configuration and Typical Operating CircuitFigure 3. MAX489/MAX491 Pin Configuration and Typical Operating CircuitMAX483/MAX487/MAX488/MAX489:Reduced EMI and ReflectionsThe MAX483 and MAX487–MAX489 are slew-rate limit-ed, minimizing EMI and reducing reflections caused by improperly terminated cables. Figure 12 shows the dri-ver output waveform and its Fourier analysis of a 150kHz signal transmitted by a MAX481, MAX485,MAX490, MAX491, or MAX1487. High-frequency har-monics with large amplitudes are evident. Figure 13shows the same information displayed for a MAX483,MAX487, MAX488, or MAX489 transmitting under the same conditions. Figure 13’s high-frequency harmonics have much lower amplitudes, and the potential for EMI is significantly reduced.MAX481/MAX483/MAX485/MAX487–MAX491/MAX1487Low-Power, Slew-Rate-Limited RS-485/RS-422 Transceivers_______________________________________________________________________________________9_________________________________________________________________Test CircuitsFigure 4. Driver DC Test Load Figure 5. Receiver Timing Test LoadFigure 6. Driver/Receiver Timing Test Circuit Figure 7. Driver Timing Test LoadM A X 481/M A X 483/M A X 485/M A X 487–M A X 491/M A X 1487Low-Power, Slew-Rate-Limited RS-485/RS-422 Transceivers 10_______________________________________________________Switching Waveforms_________________Function Tables (MAX481/MAX483/MAX485/MAX487/MAX1487)Figure 8. Driver Propagation DelaysFigure 9. Driver Enable and Disable Times (except MAX488 and MAX490)Figure 10. Receiver Propagation DelaysFigure 11. Receiver Enable and Disable Times (except MAX488and MAX490)Table 1. TransmittingTable 2. ReceivingLow-Power Shutdown Mode (MAX481/MAX483/MAX487)A low-power shutdown mode is initiated by bringing both RE high and DE low. The devices will not shut down unless both the driver and receiver are disabled.In shutdown, the devices typically draw only 0.1µA of supply current.RE and DE may be driven simultaneously; the parts are guaranteed not to enter shutdown if RE is high and DE is low for less than 50ns. If the inputs are in this state for at least 600ns, the parts are guaranteed to enter shutdown.For the MAX481, MAX483, and MAX487, the t ZH and t ZL enable times assume the part was not in the low-power shutdown state (the MAX485/MAX488–MAX491and MAX1487 can not be shut down). The t ZH(SHDN)and t ZL(SHDN)enable times assume the parts were shut down (see Electrical Characteristics ).It takes the drivers and receivers longer to become enabled from the low-power shutdown state (t ZH(SHDN ), t ZL(SHDN)) than from the operating mode (t ZH , t ZL ). (The parts are in operating mode if the –R —E –,DE inputs equal a logical 0,1 or 1,1 or 0, 0.)Driver Output ProtectionExcessive output current and power dissipation caused by faults or by bus contention are prevented by two mechanisms. A foldback current limit on the output stage provides immediate protection against short cir-cuits over the whole common-mode voltage range (see Typical Operating Characteristics ). In addition, a ther-mal shutdown circuit forces the driver outputs into a high-impedance state if the die temperature rises excessively.Propagation DelayMany digital encoding schemes depend on the differ-ence between the driver and receiver propagation delay times. Typical propagation delays are shown in Figures 15–18 using Figure 14’s test circuit.The difference in receiver delay times, | t PLH - t PHL |, is typically under 13ns for the MAX481, MAX485,MAX490, MAX491, and MAX1487 and is typically less than 100ns for the MAX483 and MAX487–MAX489.The driver skew times are typically 5ns (10ns max) for the MAX481, MAX485, MAX490, MAX491, and MAX1487, and are typically 100ns (800ns max) for the MAX483 and MAX487–MAX489.MAX481/MAX483/MAX485/MAX487–MAX491/MAX1487Low-Power, Slew-Rate-Limited RS-485/RS-422 Transceivers______________________________________________________________________________________1110dB/div0Hz5MHz500kHz/div10dB/div0Hz5MHz500kHz/divFigure 12. Driver Output Waveform and FFT Plot of MAX481/MAX485/MAX490/MAX491/MAX1487 Transmitting a 150kHz SignalFigure 13. Driver Output Waveform and FFT Plot of MAX483/MAX487–MAX489 Transmitting a 150kHz SignalM A X 481/M A X 483/M A X 485/M A X 487–M A X 491/M A X 1487Low-Power, Slew-Rate-Limited RS-485/RS-422 Transceivers 12______________________________________________________________________________________V CC = 5V T A = +25°CV CC = 5V T A = +25°CV CC = 5V T A = +25°CV CC = 5V T A = +25°CFigure 14. Receiver Propagation Delay Test CircuitFigure 15. MAX481/MAX485/MAX490/MAX491/MAX1487Receiver t PHLFigure 16. MAX481/MAX485/MAX490/MAX491/MAX1487Receiver t PLHPHL Figure 18. MAX483, MAX487–MAX489 Receiver t PLHLine Length vs. Data RateThe RS-485/RS-422 standard covers line lengths up to 4000 feet. For line lengths greater than 4000 feet, see Figure 23.Figures 19 and 20 show the system differential voltage for the parts driving 4000 feet of 26AWG twisted-pair wire at 110kHz into 120Ωloads.Typical ApplicationsThe MAX481, MAX483, MAX485, MAX487–MAX491, and MAX1487 transceivers are designed for bidirectional data communications on multipoint bus transmission lines.Figures 21 and 22 show typical network applications circuits. These parts can also be used as line repeaters, with cable lengths longer than 4000 feet, as shown in Figure 23.To minimize reflections, the line should be terminated at both ends in its characteristic impedance, and stub lengths off the main line should be kept as short as possi-ble. The slew-rate-limited MAX483 and MAX487–MAX489are more tolerant of imperfect termination.MAX481/MAX483/MAX485/MAX487–MAX491/MAX1487Low-Power, Slew-Rate-Limited RS-485/RS-422 Transceivers______________________________________________________________________________________13DIV Y -V ZRO5V 0V1V0V -1V5V 0V2µs/divFigure 19. MAX481/MAX485/MAX490/MAX491/MAX1487 System Differential Voltage at 110kHz Driving 4000ft of Cable Figure 20. MAX483, MAX487–MAX489 System Differential Voltage at 110kHz Driving 4000ft of CableFigure 21. MAX481/MAX483/MAX485/MAX487/MAX1487 Typical Half-Duplex RS-485 NetworkM A X 481/M A X 483/M A X 485/M A X 487–M A X 491/M A X 1487Low-Power, Slew-Rate-Limited RS-485/RS-422 Transceivers 14______________________________________________________________________________________Figure 22. MAX488–MAX491 Full-Duplex RS-485 NetworkFigure 23. Line Repeater for MAX488–MAX491Isolated RS-485For isolated RS-485 applications, see the MAX253 and MAX1480 data sheets.MAX481/MAX483/MAX485/MAX487–MAX491/MAX1487Low-Power, Slew-Rate-Limited RS-485/RS-422 Transceivers______________________________________________________________________________________15_______________Ordering Information_________________Chip TopographiesMAX481/MAX483/MAX485/MAX487/MAX1487N.C. RO 0.054"(1.372mm)0.080"(2.032mm)DE DIGND B N.C.V CCARE * Contact factory for dice specifications.__Ordering Information (continued)M A X 481/M A X 483/M A X 485/M A X 487–M A X 491/M A X 1487Low-Power, Slew-Rate-Limited RS-485/RS-422 Transceivers 16______________________________________________________________________________________TRANSISTOR COUNT: 248SUBSTRATE CONNECTED TO GNDMAX488/MAX490B RO 0.054"(1.372mm)0.080"(2.032mm)N.C. DIGND Z A V CCYN.C._____________________________________________Chip Topographies (continued)MAX489/MAX491B RO 0.054"(1.372mm)0.080"(2.032mm)DE DIGND Z A V CCYREMAX481/MAX483/MAX485/MAX487–MAX491/MAX1487Low-Power, Slew-Rate-Limited RS-485/RS-422 Transceivers______________________________________________________________________________________17Package Information(The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline information go to /packages .)S O I C N .E P SM A X 481/M A X 483/M A X 485/M A X 487–M A X 491/M A X 1487Low-Power, Slew-Rate-Limited RS-485/RS-422 Transceivers 18______________________________________________________________________________________Package Information (continued)(The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline information go to /packages .)MAX481/MAX483/MAX485/MAX487–MAX491Low-Power, Slew-Rate-Limited RS-485/RS-422 TransceiversMaxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim product. No circuit patent licenses are implied. Maxim reserves the right to change the circuitry and specifications without notice at any time.Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600 ____________________19©2003 Maxim Integrated ProductsPrinted USAis a registered trademark of Maxim Integrated Products.M A X 481/M A X 483/M A X 485/M A X 487–M A X 491/M A X 1487P D I P N .E PSPackage Information (continued)(The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline information go to /packages .)。

Rev. 1.0 8/11Copyright © 2011 by Silicon Laboratories Si4840/44-A10特征应用描述Si4840/44是第一代模拟调谐数字显示CMOS 调幅/调频/短波无线电接收器集成电路，集成了从天线输入到音频输出的完整接收器功能。

芯片保持了模拟调谐功能的同时，与主机 MCU 一起工作，在 LED 上可以显示频率、立体声/单声道等信息。

借助Silicon Lab 已证实并享有专利的数字低中频接收器架构，Si4840/44提供 了卓越的射频性能和抗干扰能力。

集成于Si4840/44中的优越控制算法提供了方便和可靠的控制接口，同时消除了传统解决方案中手动调谐外部元件的缺点。

功能框图⏹ 支持全球FM 波段 (64–109 MHz)⏹支持全球AM 波段 (504–1750 kHz)⏹支持SW 波段 (Si4844 独有)(2.3–28.5 MHz)⏹可选择支持所有AM/FM 区域波段⏹2线控制接口⏹单声道/立体声，及有效台指示⏹数字音量支持⏹低音/高音支持⏹无需手动调整的最小BOM 组件⏹卓越的真实世界性能⏹自动频率控制(AFC) ⏹依据EN55020标准⏹ 2.0 to 3.6 V 电源电压(T = 25 °C),可用两节AAA 电池供电⏹支持广泛的铁氧体棒和空气环天线 ⏹24引脚的SSOP 外形封装⏹依据RoHS 标准⏹便携式收音机⏹立体声收音机⏹小型/微型系统⏹收录机⏹时钟收音机⏹消费类电子产品的模块⏹娱乐系统⏹玩具，灯具及任何需要 AM/FM 无线电的应用⏹迷你影响⏹iPod/iPhone 底座系统该产品的功能和/或架构涵盖于以下一个或多个专利，以及国内外正申请和发布的其他专利中: 7,127,217; 7,272,373;7,272,375; 7,321,324; 7,355,476; 7,426,376; 7,471,940; 7,339,503; 7,339,504.订购信息:See page 19.Si4840/44-A10Si4840/44-A10Rev. 1.03目录表SectionPage1. 电器规范 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .42. 典型应用电路图 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .113. 材料清单 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .124. 功能描述 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .134.1 概述 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .134.2 FM 接收器 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .144.3 AM 接收器 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .144.4 SW 接收器 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .144.5 频率调谐 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .144.6 波段选择 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .144.7 低音和高音 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .144.8 音量控制 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .144.9 立体声处理 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .154.10 立体声数模转换 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .154.11 软静音 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .154.12 参考时钟 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .154.13 记忆状态 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .154.14 命令编程 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .155. 命令及属性 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .166. 引脚描述 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .186.1 Si4840/44-A10 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .187. 订购指南 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .198. 封装外形: Si4840/44-A10 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .209. PCB 封装格式: Si4840/44-A10 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2110. 封装标识（顶部标识） . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2210.1 Si4840/44-A10 顶部标识 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2211. 附加的参考资源 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .23版本更新变更列表 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .25联系信息 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26Si4840/44-A101. 电器规范表1. 推荐工作环境1,2参数符号测试环境最小值典型值最大值单位电源电压3V DD2— 3.6V 电源上电时间V DDRISE10——µs 备注:1.除非另有说明，数据表中的典型值适用于V DD= 3.3 V 和 25 °C环境。

Maxim4XX系列选型大全Maxim型号MAX400 超低失调电压运算放大器MAX4000 2.5GHz、45dB、RF检测控制器MAX4001 2.5GHz、45dB、RF检测控制器MAX4001EVKIT MAX4000、MAX4001、MAX4002评估板MAX4002 2.5GHz、45dB、RF检测控制器MAX4003 100MHz至2500MHz、45dB RF检测器，UCSP封装MAX4003EVKIT MAX4003评估板MAX4004 高精度、高端电流监测，SOT23封装MAX4006 高精度、高端电流监测，SOT23封装MAX4007 高精度、76V、高端电流监测，SOT23封装MAX4008 高精度、76V、高端电流监测，SOT23封装MAX4012 低成本、高速、单电源运算放大器，满摆幅输出MAX4014 低成本、高速、单电源、增益为+2的缓冲器，满摆幅输出，SOT23封装MAX4016 低成本、高速、单电源运算放大器，满摆幅输出MAX4017 低成本、高速、单电源、增益为+2的缓冲器，满摆幅输出，SOT23封装MAX4018 低成本、高速、单电源运算放大器，满摆幅输出MAX4019 低成本、高速、单电源、增益为+2的缓冲器，满摆幅输出，SOT23封装MAX4020 低成本、高速、单电源运算放大器，满摆幅输出MAX4022 低成本、高速、单电源、增益为+2的缓冲器，满摆幅输出，SOT23封装MAX4023 三路和四路、2:1视频多路复用器-放大器，带有固定和可设置增益MAX4024 三路和四路、2:1视频多路复用器-放大器，带有固定和可设置增益MAX4025 三路和四路、2:1视频多路复用器-放大器，带有固定和可设置增益MAX4026 三路和四路、2:1视频多路复用器-放大器，带有固定和可设置增益MAX4027 225MHz、三组、2路视频多路复用器-放大器MAX4028 三路/四路、2:1视频复用器-放大器，具有输入钳位MAX4029 三路/四路、2:1视频复用器-放大器，具有输入钳位MAX4029EVKIT MAX4029评估板MAX4030E 低成本、144MHz、双/三路运算放大器，带有±15kV ESD保护MAX4031E 低成本、144MHz、双/三路运算放大器，带有±15kV ESD保护MAX4032 5V、6dB视频缓冲器，具有同步头钳位、输出下垂纠正和150nA关断电流MAX4036 低IBIAS、+1.4V/800nA、满摆幅运算放大器，带有+1.2V缓冲基准MAX4037 低IBIAS、+1.4V/800nA、满摆幅运算放大器，带有+1.2V缓冲基准MAX4038 低IBIAS、+1.4V/800nA、满摆幅运算放大器，带有+1.2V缓冲基准MAX4039 低IBIAS、+1.4V/800nA、满摆幅运算放大器，带有+1.2V缓冲基准MAX404 视频运算放大器MAX4040 单/双/四路、低成本、SOT23封装、微功耗、满摆幅输入/输出运算放大器MAX4041 单/双/四路、低成本、SOT23封装、微功耗、满摆幅输入/输出运算放大器MAX4042 单/双/四路、低成本、SOT23封装、微功耗、满摆幅输入/输出运算放大器MAX4043 单/双/四路、低成本、SOT23封装、微功耗、满摆幅输入/输出运算放大器MAX4044 单/双/四路、低成本、SOT23封装、微功耗、满摆幅输入/输出运算放大器MAX405 精密视频缓冲放大器MAX4051 低电压、CMOS模拟多路复用器/开关MAX4051A 低电压、CMOS模拟多路复用器/开关MAX4052 低电压、CMOS模拟多路复用器/开关MAX4052A 低电压、CMOS模拟多路复用器/开关MAX4053 低电压、CMOS模拟多路复用器/开关MAX4053A 低电压、CMOS模拟多路复用器/开关MAX406 单、双、四路、1.2μA最大静态电流、单电源运算放大器MAX4060 差分麦克风前置放大器，内部偏置并可完全关断MAX4060EVKIT MAX4060评估板MAX4061 差分麦克风前置放大器，内部偏置并可完全关断MAX4062 差分麦克风前置放大器，内部偏置并可完全关断MAX4063 差分麦克风前置放大器，内部偏置并可完全关断MAX4063EVKIT MAX4063评估板MAX4066 低成本、低电压、四路、SPST、CMOS模拟开关MAX4066A 低成本、低电压、四路、SPST、CMOS模拟开关MAX4069 双向、高边、电流检测放大器，内置电压基准MAX407 单、双、四路、1.2μA最大静态电流、单电源运算放大器MAX4070 双向、高边、电流检测放大器，内置电压基准MAX4071 双向、高边、电流检测放大器，内置电压基准MAX4072 双向、高边、电流检测放大器，内置电压基准MAX4073 低成本、SC70封装、电压输出、高端电流检测放大器MAX4073F 低成本、SC70封装、电压输出、高端电流检测放大器MAX4073H 低成本、SC70封装、电压输出、高端电流检测放大器MAX4073T 低成本、SC70封装、电压输出、高端电流检测放大器MAX4074 微功耗、SOT23封装、满摆幅、固定增益、增益放大器和开环增益运算放大器MAX4075 微功耗、SOT23封装、满摆幅、固定增益、增益放大器和开环增益运算放大器MAX4076 微功耗、SOT23封装、满摆幅、固定增益、增益放大器和开环增益运算放大器MAX4077 微功耗、SOT23封装、满摆幅、固定增益、增益放大器和开环增益运算放大器MAX4078 微功耗、SOT23封装、满摆幅、固定增益、增益放大器和开环增益运算放大器MAX4079 完备的音频/视频后端方案MAX4079EVKIT MAX4079评估板MAX408 单/双/四路、高速、快速稳定、高输出电流的运算放大器MAX4080 76V、高边、电流检测放大器，带有电压输出MAX4080EVKIT MAX4080/MAX4081评估板MAX4081 76V、高边、电流检测放大器，带有电压输出MAX409 单、双、四路、1.2μA最大静态电流、单电源运算放大器MAX4090 3V/5V、6dB视频缓冲器，具有同步头钳位和150nA 关断电流MAX4090A 3V/5V、6dB视频缓冲器，具有同步头钳位和150nA 关断电流MAX4090EVKIT MAX4090评估板MAX4091 单/双/四路、微功耗、单电源、满摆幅运算放大器MAX4092 单/双/四路、微功耗、单电源、满摆幅运算放大器MAX4094 单/双/四路、微功耗、单电源、满摆幅运算放大器MAX410 单/双/四路、28MHz、低噪声、低电压、精密运算放大器MAX4100 500MHz、低功耗运算放大器MAX4101 500MHz、低功耗运算放大器MAX4102 250MHz、广播级质量的、低功耗视频运算放大器MAX4103 250MHz、广播级质量的、低功耗视频运算放大器MAX4104 740MHz、低噪声、低失真运算放大器，SOT23-5封装MAX4104EVKIT MAX4104、MAX4105、MAX4304、MAX4305评估板MAX4105 740MHz、低噪声、低失真运算放大器，SOT23-5封装MAX4106 350MHz、超低噪声运算放大器MAX4107 350MHz、超低噪声运算放大器MAX4108 400MHz、超低失真运算放大器MAX4109 400MHz、超低失真运算放大器MAX4111 330MHz、缓冲驱动视频交叉点开关芯片MAX4112 单/双/四路、400MHz、低功耗、电流反馈放大器MAX4113 单/双/四路、400MHz、低功耗、电流反馈放大器MAX4117 单/双/四路、400MHz、低功耗、电流反馈放大器MAX4118 单/双/四路、400MHz、低功耗、电流反馈放大器MAX4119 单/双/四路、400MHz、低功耗、电流反馈放大器MAX412 单/双/四路、28MHz、低噪声、低电压、精密运算放大器MAX4120 单/双/四路、400MHz、低功耗、电流反馈放大器MAX4121 330MHz、缓冲驱动视频交叉点开关芯片MAX4122 单/双/四路、宽带、低功耗、单电源、满摆幅输入/输出运算放大器MAX4123 单/双/四路、宽带、低功耗、单电源、满摆幅输入/输出运算放大器MAX4124 单/双/四路、宽带、低功耗、单电源、满摆幅输入/输出运算放大器MAX4125 单/双/四路、宽带、低功耗、单电源、满摆幅输入/输出运算放大器MAX4126 单/双/四路、宽带、低功耗、单电源、满摆幅输入/输出运算放大器MAX4127 单/双/四路、宽带、低功耗、单电源、满摆幅输入/输出运算放大器MAX4128 单/双/四路、宽带、低功耗、单电源、满摆幅输入/输出运算放大器MAX4129 单/双/四路、宽带、低功耗、单电源、满摆幅输入/输出运算放大器MAX4130 单/双/四路、宽带、低功耗、单电源、满摆幅输入/输出运算放大器MAX4131 单/双/四路、宽带、低功耗、单电源、满摆幅输入/输出运算放大器MAX4132 单/双/四路、宽带、低功耗、单电源、满摆幅输入/输出运算放大器MAX4133 单/双/四路、宽带、低功耗、单电源、满摆幅输入/输出运算放大器MAX4134 单/双/四路、宽带、低功耗、单电源、满摆幅输入/输出运算放大器MAX4135 1路输入/6路输出、视频分配放大器MAX4136 1路输入/6路输出、视频分配放大器MAX4137 1路输入/4路输出、视频分配放大器MAX4138 1路输入/4路输出、视频分配放大器MAX414 单/双/四路、28MHz、低噪声、低电压、精密运算放大器MAX4141 330MHz、4x1精密视频多路复用器MAX4141EVKIT MAX4141评估板MAX4142 250MHz、低功耗、高输出电流的差分线驱动器MAX4144 高速、低失真、差分线接收器MAX4145 高速、低失真、差分线接收器MAX4146 高速、低失真、差分线接收器MAX4147 300MHz、低功耗、高输出电流、差分线驱动器MAX4158 350MHz/250MHz、2通道视频多路复用器-放大器MAX4159 350MHz/250MHz、2通道视频多路复用器-放大器MAX4159EVKIT MAX4159、MAX4259评估板MAX4162 SOT23封装、微功耗、单电源、满摆幅输入/输出运算放大器MAX4163 SOT23封装、微功耗、单电源、满摆幅输入/输出运算放大器MAX4163EBL SOT23封装、微功耗、单电源、满摆幅输入/输出运算放大器MAX4164 SOT23封装、微功耗、单电源、满摆幅输入/输出运算放大器MAX4165 高输出驱动、精密的低功耗、单电源、满摆幅输入/输出运算放大器，带有关断MAX4166 高输出驱动、精密的低功耗、单电源、满摆幅输入/输出运算放大器，带有关断MAX4167 高输出驱动、精密的低功耗、单电源、满摆幅输入/输出运算放大器，带有关断MAX4168 高输出驱动、精密的低功耗、单电源、满摆幅输入/输出运算放大器，带有关断MAX4169 高输出驱动、精密的低功耗、单电源、满摆幅输入/输出运算放大器，带有关断MAX417 单、双、四路、1.2μA最大静态电流、单电源运算放大器MAX4172 低成本、精密的、高端电流检测放大器MAX4173 低成本、SOT23封装、电压输出、高端电流检测放大器MAX4173EVKIT MAX4173评估板MAX4173F 低成本、SOT23封装、电压输出、高端电流检测放大器MAX4173H 低成本、SOT23封装、电压输出、高端电流检测放大器MAX4173T 低成本、SOT23封装、电压输出、高端电流检测放大器MAX4174 SOT23封装、满摆幅、固定增益、增益放大器/开环运算放大器MAX4175 SOT23封装、满摆幅、固定增益、增益放大器/开环运算放大器MAX4178 330MHz、增益为+1/+2、闭环缓冲器MAX418 单、双、四路、1.2μA最大静态电流、单电源运算放大器MAX4180 单/双/四路、270MHz、1mA、SOT23封装、电流反馈放大器，带有关断MAX4180EVKIT MAX4180、MAX4181评估板MAX4181 单/双/四路、270MHz、1mA、SOT23封装、电流反馈放大器，带有关断MAX4182 单/双/四路、270MHz、1mA、SOT23封装、电流反馈放大器，带有关断MAX4183 单/双/四路、270MHz、1mA、SOT23封装、电流反馈放大器，带有关断MAX4184 单/双/四路、270MHz、1mA、SOT23封装、电流反馈放大器，带有关断MAX4185 单/双/四路、270MHz、1mA、SOT23封装、电流反馈放大器，带有关断MAX4186 单/双/四路、270MHz、1mA、SOT23封装、电流反馈放大器，带有关断MAX4187 单/双/四路、270MHz、1mA、SOT23封装、电流反馈放大器，带有关断MAX4188 单/三路、低毛刺、250MHz、电流反馈放大器，带有高速禁止功能MAX4188EVKIT MAX4188评估板MAX4189 单/三路、低毛刺、250MHz、电流反馈放大器，带有高速禁止功能MAX419 单、双、四路、1.2μA最大静态电流、单电源运算放大器MAX4190 单/三路、低毛刺、250MHz、电流反馈放大器，带有高速禁止功能MAX4193 CMOS、微功耗、升压型开关调节器MAX4194 微功耗、单电源、满摆幅、精密仪表放大器MAX4195 微功耗、单电源、满摆幅、精密仪表放大器MAX4196 微功耗、单电源、满摆幅、精密仪表放大器MAX4197 微功耗、单电源、满摆幅、精密仪表放大器MAX4198 微功耗、单电源、满摆幅、精密差分放大器MAX4199 微功耗、单电源、满摆幅、精密差分放大器MAX420 ±15V斩波自稳零型运算放大器MAX4200 超高速、低噪声、低功耗、SOT23封装的开环缓冲器MAX4201 超高速、低噪声、低功耗、SOT23封装的开环缓冲器MAX4201EVKIT MAX4201评估板MAX4202 超高速、低噪声、低功耗、SOT23封装的开环缓冲器MAX4203 超高速、低噪声、低功耗、SOT23封装的开环缓冲器MAX4204 超高速、低噪声、低功耗、SOT23封装的开环缓冲器MAX4205 超高速、低噪声、低功耗、SOT23封装的开环缓冲器MAX4206 精密的互阻对数放大器，动态范围大于105MAX4206EVKIT MAX4206评估板MAX4207 精密的互阻对数放大器，动态范围大于105MAX4208 超低失调/漂移、高精度仪表放大器，提供REF缓冲器MAX4208EVKIT MAX4208评估板MAX4209 超低失调/漂移、高精度仪表放大器，提供REF缓冲器MAX4209EVKIT MAX4209评估板MAX421 ±15V斩波自稳零型运算放大器MAX4210 高端功率、电流监视器MAX4210EEVKIT MAX4210E、MAX4210A/B/C/D/F评估板MAX4211 高端功率、电流监视器MAX4211EEVKIT MAX4211A/B/C/D/E/F评估板MAX4212 微型、300MHz、单电源、满摆幅运算放大器，带有使能端MAX4213 微型、300MHz、单电源、满摆幅运算放大器，带有使能端MAX4213EVKIT MAX4213、MAX4215评估板MAX4214 高速、单电源、增益为+2、闭环、满摆幅缓冲器，带有使能端MAX4215 高速、单电源、增益为+2、闭环、满摆幅缓冲器，带有使能端MAX4216 微型、300MHz、单电源、满摆幅运算放大器，带有使能端MAX4217 高速、单电源、增益为+2、闭环、满摆幅缓冲器，带有使能端MAX4218 微型、300MHz、单电源、满摆幅运算放大器，带有使能端MAX4219 高速、单电源、增益为+2、闭环、满摆幅缓冲器，带有使能端MAX4220 微型、300MHz、单电源、满摆幅运算放大器，带有使能端MAX4221 330MHz、缓冲驱动视频交叉点开关芯片MAX4222 高速、单电源、增益为+2、闭环、满摆幅缓冲器，带有使能端MAX4223 1GHz、低功耗、SOT23封装、电流反馈放大器，带有关断MAX4223EVKIT MAX4223、MAX4224评估板MAX4224 1GHz、低功耗、SOT23封装、电流反馈放大器，带有关断MAX4225 1GHz、低功耗、SOT23封装、电流反馈放大器，带有关断MAX4226 1GHz、低功耗、SOT23封装、电流反馈放大器，带有关断MAX4227 1GHz、低功耗、SOT23封装、电流反馈放大器，带有关断MAX4228 1GHz、低功耗、SOT23封装、电流反馈放大器，带有关断MAX423 ±15V斩波自稳零型运算放大器MAX4230 高输出驱动、10MHz、10V/μs、满摆幅输入/输出运算放大器，带有关断，SC70封装MAX4231 高输出驱动、10MHz、10V/μs、满摆幅输入/输出运算放大器，带有关断，SC70封装MAX4231EVKIT MAX4336、MAX4231评估板MAX4232 高输出驱动、10MHz、10V/μs、满摆幅输入/输出运算放大器，带有关断，SC70封装MAX4233 高输出驱动、10MHz、10V/μs、满摆幅输入/输出运算放大器，带有关断，SC70封装MAX4233EVKIT MAX4338、MAX4233评估板MAX4234 高输出驱动、10MHz、10V/μs、满摆幅输入/输出运算放大器，带有关断，SC70封装MAX4236 SOT23封装、甚高精密、3V/5V、满摆幅运算放大器MAX4237 SOT23封装、甚高精密、3V/5V、满摆幅运算放大器MAX4238 超低失调/漂移、低噪声、精密的SOT23封装放大器MAX4239 超低失调/漂移、低噪声、精密的SOT23封装放大器MAX4240 单/双/四路、+1.8V/10μA、SOT23封装、超摆幅运算放大器MAX4241 单/双/四路、+1.8V/10μA、SOT23封装、超摆幅运算放大器MAX4242 单/双/四路、+1.8V/10μA、SOT23封装、超摆幅运算放大器MAX4243 单/双/四路、+1.8V/10μA、SOT23封装、超摆幅运算放大器MAX4244 单/双/四路、+1.8V/10μA、SOT23封装、超摆幅运算放大器MAX4245 超小型、满摆幅输入/输出、带有禁止功能、单/双电源供电、低功耗运算放大器MAX4246 超小型、满摆幅输入/输出、带有禁止功能、单/双电源供电、低功耗运算放大器MAX4247 超小型、满摆幅输入/输出、带有禁止功能、单/双电源供电、低功耗运算放大器MAX4249 UCSP封装、单电源、低噪声、低失真、满摆幅运算放大器MAX4250 UCSP封装、单电源、低噪声、低失真、满摆幅运算放大器MAX4251 UCSP封装、单电源、低噪声、低失真、满摆幅运算放大器MAX4252 UCSP封装、单电源、低噪声、低失真、满摆幅运算放大器MAX4253 UCSP封装、单电源、低噪声、低失真、满摆幅运算放大器MAX4254 UCSP封装、单电源、低噪声、低失真、满摆幅运算放大器MAX4255 UCSP封装、单电源、低噪声、低失真、满摆幅运算放大器MAX4256 UCSP封装、单电源、低噪声、低失真、满摆幅运算放大器MAX4257 UCSP封装、单电源、低噪声、低失真、满摆幅运算放大器MAX4258 350MHz/250MHz、2通道视频多路复用器-放大器MAX4259 350MHz/250MHz、2通道视频多路复用器-放大器MAX4265 超低失真、单电源、300MHz运算放大器，带有使能端MAX4266 超低失真、单电源、300MHz运算放大器，带有使能端MAX4267 超低失真、单电源、300MHz运算放大器，带有使能端MAX4268 超低失真、单电源、300MHz运算放大器，带有使能端MAX4269 超低失真、单电源、300MHz运算放大器，带有使能端MAX427 低噪声、高精度运算放大器MAX4270 超低失真、单电源、300MHz运算放大器，带有使能端MAX4271 3V至12V、限流型、热插拔控制器，带有自动重试以及DualSpeed/BiLevel故障保护MAX4272 3V至12V、限流型、热插拔控制器，带有自动重试以及DualSpeed/BiLevel故障保护MAX4273 3V至12V、限流型、热插拔控制器，带有自动重试以及DualSpeed/BiLevel故障保护MAX4273EVKIT MAX4273评估板MAX4274 SOT23封装、满摆幅、固定增益、增益放大器/开环运算放大器MAX4275 SOT23封装、满摆幅、固定增益、增益放大器/开环运算放大器MAX4278 330MHz、增益为+1/+2、闭环缓冲器MAX428 单/双/四路、高速、快速稳定、高输出电流的运算放大器MAX4281 SOT23封装、满摆幅、固定增益、增益放大器/开环运算放大器MAX4282 SOT23封装、满摆幅、固定增益、增益放大器/开环运算放大器MAX4284 SOT23封装、满摆幅、固定增益、增益放大器/开环运算放大器MAX4285 +3V/+5V、250MHz、SOT23封装ADC缓冲放大器，带有高速禁止功能MAX4286 +3V/+5V、250MHz、SOT23封装ADC缓冲放大器，带有高速禁止功能MAX4287 +3V/+5V、250MHz、SOT23封装ADC缓冲放大器，带有高速禁止功能MAX4288 +3V/+5V、250MHz、SOT23封装ADC缓冲放大器，带有高速禁止功能MAX4289 1.0V、微功耗、SOT23封装、运算放大器MAX4291 超小型、+1.8V、微功耗、满摆幅输入/输出运算放大器MAX4292 超小型、+1.8V、微功耗、满摆幅输入/输出运算放大器MAX4294 超小型、+1.8V、微功耗、满摆幅输入/输出运算放大器MAX4295 单声道/立体声、2W、开关模式(D类)音频功率放大器MAX4295EVKIT MAX4295评估板MAX4298 超高PSRR立体声驱动器+ 麦克风放大器+ 100mA 线性稳压器MAX4299 超高PSRR立体声驱动器+ 麦克风放大器+ 100mA 线性稳压器MAX4299EVKIT MAX4299评估板MAX430 ±15V斩波自稳零型运算放大器MAX4304 740MHz、低噪声、低失真运算放大器，SOT23-5封装MAX4305 740MHz、低噪声、低失真运算放大器，SOT23-5封装MAX4308 400MHz、超低失真运算放大器MAX4309 400MHz、超低失真运算放大器MAX4310 高速、低功耗、单电源、多通道、视频多路复用器-放大器MAX4311 高速、低功耗、单电源、多通道、视频多路复用器-放大器MAX4312 高速、低功耗、单电源、多通道、视频多路复用器-放大器MAX4313 高速、低功耗、单电源、多通道、视频多路复用器-放大器MAX4313EVKIT MAX4310、MAX4313评估板MAX4314 高速、低功耗、单电源、多通道、视频多路复用器-放大器MAX4315 高速、低功耗、单电源、多通道、视频多路复用器-放大器MAX432 ±15V斩波自稳零型运算放大器MAX4321 低成本、低电压、满摆幅输入/输出、SOT23封装5MHz运算放大器MAX4322 单/双/四路、低成本、UCSP/SOT23封装、低功耗、满摆幅输入/输出运算放大器MAX4323 单/双/四路、低成本、UCSP/SOT23封装、低功耗、满摆幅输入/输出运算放大器MAX4326 单/双/四路、低成本、UCSP/SOT23封装、低功耗、满摆幅输入/输出运算放大器MAX4327 单/双/四路、低成本、UCSP/SOT23封装、低功耗、满摆幅输入/输出运算放大器MAX4329 单/双/四路、低成本、UCSP/SOT23封装、低功耗、满摆幅输入/输出运算放大器MAX4330 单/双/四路、低功耗、单电源、满摆幅输入/输出运算放大器，带有关断MAX4331 单/双/四路、低功耗、单电源、满摆幅输入/输出运算放大器，带有关断MAX4332 单/双/四路、低功耗、单电源、满摆幅输入/输出运算放大器，带有关断MAX4333 单/双/四路、低功耗、单电源、满摆幅输入/输出运算放大器，带有关断MAX4334 单/双/四路、低功耗、单电源、满摆幅输入/输出运算放大器，带有关断MAX4335 SC70/SOT23-8封装、50mA输出电流、满摆幅输入/输出运算放大器，带有关断/静音MAX4336 SC70/SOT23-8封装、50mA输出电流、满摆幅输入/输出运算放大器，带有关断/静音MAX4336EVKIT MAX4336、MAX4231评估板MAX4337 SC70/SOT23-8封装、50mA输出电流、满摆幅输入/输出运算放大器，带有关断/静音MAX4338 SC70/SOT23-8封装、50mA输出电流、满摆幅输入/输出运算放大器，带有关断/静音MAX4338EVKIT MAX4338、MAX4233评估板MAX435 250MHz宽带跨导放大器，差分输出MAX4350 超小型、低成本、210MHz、双电源运算放大器，满摆幅输出MAX4351 超小型、低成本、210MHz、双电源运算放大器，满摆幅输出MAX4352 低成本、+3V/+5V、620μA、200MHz、单电源运算放大器，满摆幅输出MAX4353 低成本、+3V/+5V、620μA、200MHz、单电源运算放大器，满摆幅输出MAX4354 低成本、+3V/+5V、620μA、200MHz、单电源运算放大器，满摆幅输出MAX4355 16x16、无阻塞视频交叉点开关，带有输入/输出缓冲器MAX4356 16 x 16、无阻塞视频交叉点开关，带有屏幕显示插入及输入/输出缓冲器MAX4357 32 x 16、无阻塞视频交叉点开关，带有输入/输出缓冲器MAX4358 32 x 16、无阻塞视频交叉点开关，带有屏幕显示及I/O缓冲器MAX4358EVKIT MAX4358评估板MAX4359 低成本4x4、8x4、8x8视频交叉点开关MAX436 250MHz宽带跨导放大器，差分输出MAX4360 低成本4x4、8x4、8x8视频交叉点开关MAX4361 ADSL驱动器/接收器，适用于用户端设备MAX4362 ADSL驱动器/接收器，适用于用户端设备MAX4363 ADSL驱动器/接收器，适用于用户端设备MAX4364 1.4W及1W、超小型、音频功率放大器，带有关断MAX4364EVKIT MAX4364评估板MAX4365 1.4W及1W、超小型、音频功率放大器，带有关断MAX4365EVKIT MAX4365评估板MAX4366 330mW、超小型、音频功率放大器，带有关断MAX4366EVKIT MAX4366、MAX4367、MAX4368评估板MAX4367 330mW、超小型、音频功率放大器，带有关断MAX4368 330mW、超小型、音频功率放大器，带有关断MAX4369 双路、满摆幅、高输出驱动运算放大器，UCSP封装MAX437 低噪声、高精度运算放大器MAX4370 电流调节热插拔控制器，带有DualSpeed/BiLevel故障保护MAX4372 低成本、UCSP/SOT23封装、微功耗、高端电流检测放大器，带有电压输出MAX4372F 低成本、UCSP/SOT23封装、微功耗、高端电流检测放大器，带有电压输出MAX4372H 低成本、UCSP/SOT23封装、微功耗、高端电流检测放大器，带有电压输出MAX4372T 低成本、UCSP/SOT23封装、微功耗、高端电流检测放大器，带有电压输出MAX4373 低成本、微功耗、高端电流检测放大器+ 比较器 + 电压基准ICMAX4374 低成本、微功耗、高端电流检测放大器 + 比较器 + 电压基准ICMAX4375 低成本、微功耗、高端电流检测放大器 + 比较器 + 电压基准ICMAX4376 单/双/四路、高端电流检测放大器，内部设定增益MAX4377 单/双/四路、高端电流检测放大器，内部设定增益MAX4378 单/双/四路、高端电流检测放大器，内部设定增益MAX4380 超小型、低成本、210MHz、单电源运算放大器，带有满摆幅输出及禁止功能MAX4381 超小型、低成本、210MHz、单电源运算放大器，带有满摆幅输出及禁止功能MAX4382 超小型、低成本、210MHz、单电源运算放大器，带有满摆幅输出及禁止功能MAX4383 超小型、低成本、210MHz、单电源运算放大器，带有满摆幅输出及禁止功能MAX4383EVKIT MAX4383评估板MAX4384 超小型、低成本、210MHz、单电源运算放大器，带有满摆幅输出及禁止功能MAX4385E 低成本、230MHz、单/四路运算放大器，带有满摆幅输出及±15kV ESD保护MAX4386E 低成本、230MHz、单/四路运算放大器，带有满摆幅输出及±15kV ESD保护MAX4387 +3V/+5V、250MHz、SOT23封装ADC缓冲放大器，带有高速禁止功能MAX4388 +3V/+5V、250MHz、SOT23封装ADC缓冲放大器，带有高速禁止功能MAX4389 超小型、低成本、85MHz运算放大器，带有满摆幅输出及禁止功能MAX4390 超小型、低成本、85MHz运算放大器，带有满摆幅输出及禁止功能MAX4391 CMOS、微功耗、反相开关型稳压器MAX4392 超小型、低成本、85MHz运算放大器，带有满摆幅输出及禁止功能MAX4393 超小型、低成本、85MHz运算放大器，带有满摆幅输出及禁止功能MAX4394 超小型、低成本、85MHz运算放大器，带有满摆幅输出及禁止功能MAX4395 超小型、低成本、85MHz运算放大器，带有满摆幅输出及禁止功能MAX4396 超小型、低成本、85MHz运算放大器，带有满摆幅输出及禁止功能MAX4397 用于双SCART连接器的音频/视频开关MAX4397DA 用于双SCART连接器的音频/视频开关MAX4397EVKIT MAX4397评估系统/评估板MAX4397SA 用于双SCART连接器的音频/视频开关MAX4399 用于三SCART连接器的音频/视频开关MAX4399EVCMODU MAX4399评估系统/评估板MAX4399EVKIT MAX4399评估系统/评估板MAX440 8通道、高速、视频多路复用器-放大器MAX4400 单/双/四路、低成本、单电源、满摆幅运算放大器，带有关断MAX4401 单/双/四路、低成本、单电源、满摆幅运算放大器，带有关断MAX4402 单/双/四路、低成本、单电源、满摆幅运算放大器，带有关断MAX4403 单/双/四路、低成本、单电源、满摆幅运算放大器，带有关断MAX4409 80mW、DirectDrive、立体声耳机放大器，带有共模检测MAX441 8通道、高速、视频多路复用器-放大器MAX4410 80mW、DirectDrive、立体声耳机驱动器，带有关断MAX4410EVKIT MAX4410评估板MAX4411 80mW、固定增益、DirectDrive、立体声耳机放大器，带有关断MAX4411B 80mW、固定增益、DirectDrive、立体声耳机放大器，带有关断MAX4411EVKIT MAX4411评估板MAX4412 低成本、低功耗、超小型、3V/5V、500MHz单电源运算放大器，满摆幅输出MAX4413 低成本、低功耗、超小型、3V/5V、500MHz单电源运算放大器，满摆幅输出MAX4414 低功耗、+3V/+5V、400MHz单电源运算放大器，满摆幅输出MAX4415 低功耗、+3V/+5V、400MHz单电源运算放大器，满摆幅输出MAX4416 低功耗、+3V/+5V、400MHz单电源运算放大器，满摆幅输出MAX4417 低功耗、+3V/+5V、400MHz单电源运算放大器，满摆幅输出MAX4418 低功耗、+3V/+5V、400MHz单电源运算放大器，满摆幅输出MAX4419 低功耗、+3V/+5V、400MHz单电源运算放大器，满摆幅输出MAX442 140MHz、2通道、视频多路复用放大器MAX4420 高速、6A MOSFET驱动器(同相)MAX4426 双路、高速、1.5A MOSFET驱动器MAX4427 双路、高速、1.5A MOSFET驱动器MAX4428 双路、高速、1.5A MOSFET驱动器MAX4429 高速、6A MOSFET驱动器(同相)MAX4430 双电源、180MHz、16位准确度、超低失真运算放大器MAX4431 双电源、180MHz、16位准确度、超低失真运算放大器MAX4432 双电源、180MHz、16位准确度、超低失真运算放大器MAX4433 双电源、180MHz、16位准确度、超低失真运算放大器MAX4434 单电源、150MHz、16位精度、超低失真运算放大器MAX4435 单电源、150MHz、16位精度、超低失真运算放大器MAX4436 单电源、150MHz、16位精度、超低失真运算放大器MAX4437 单电源、150MHz、16位精度、超低失真运算放大器MAX4444 超高速、低失真、差分至单端线接收器，带有使能端MAX4444EVKIT MAX4444、MAX4445评估板MAX4445 超高速、低失真、差分至单端线接收器，带有使能端MAX4447 6500V/μs、宽带、高输出电流、单端至差分线驱动器，带有使能端MAX4447EVKIT MAX4447、MAX4448、MAX4449评估板MAX4448 6500V/μs、宽带、高输出电流、单端至差分线驱动器，带有使能端MAX4448EVKIT MAX4447、MAX4448、MAX4449评估板MAX4449 6500V/μs、宽带、高输出电流、单端至差分线驱动器，带有使能端MAX4449EVKIT MAX4447、MAX4448、MAX4449评估板MAX4450 超小型、低成本、210MHz、单电源运算放大器，满摆幅输出MAX4450EVKIT MAX4450评估板MAX4451 超小型、低成本、210MHz、单电源运算放大器，满摆幅输出MAX4452 低成本、+3V/+5V、620μA、200MHz、单电源运算放大器，满摆幅输出MAX4453 低成本、+3V/+5V、620μA、200MHz、单电源运算放大器，满摆幅输出MAX4454 低成本、+3V/+5V、620μA、200MHz、单电源运算放大器，满摆幅输出MAX4455 任意图形随屏显示视频发生器MAX4455EVKIT MAX4455评估板/评估系统MAX4455EVSYS MAX4455评估板/评估系统MAX4456 低成本4x4、8x4、8x8视频交叉点开关MAX4460 SOT23封装、3V/5V、单电源、满摆幅仪表放大器MAX4461 SOT23封装、3V/5V、单电源、满摆幅仪表放大器MAX4462 SOT23封装、3V/5V、单电源、满摆幅仪表放大器MAX4464 单/双/四路、+1.8V/750nA、SC70封装、满摆幅运算放大器MAX4465 低成本、微功耗、SC70/SOT23-8封装、麦克风前置放大器，可完全关断MAX4466 低成本、微功耗、SC70/SOT23-8封装、麦克风前置放大器，可完全关断MAX4467 低成本、微功耗、SC70/SOT23-8封装、麦克风前置放大器，可完全关断MAX4468 低成本、微功耗、SC70/SOT23-8封装、麦克风前置放大器，可完全关断MAX4469 低成本、微功耗、SC70/SOT23-8封装、麦克风前置放大器，可完全关断MAX4470 单/双/四路、+1.8V/750nA、SC70封装、满摆幅运算放大器MAX4471 单/双/四路、+1.8V/750nA、SC70封装、满摆幅运算放大器MAX4472 单/双/四路、+1.8V/750nA、SC70封装、满摆幅运算放大器MAX4473 低成本、低电压、PA功率控制放大器，用于GSM应用MAX4474 单/双/四路、+1.8V/750nA、SC70封装、满摆幅运算放大器MAX4475 SOT23封装、低噪声、低失真、宽带、满摆幅运算放大器MAX4476 SOT23封装、低噪声、低失真、宽带、满摆幅运算放大器MAX4477 SOT23封装、低噪声、低失真、宽带、满摆幅运算放大器MAX4478 SOT23封装、低噪声、低失真、宽带、满摆幅运算放大器MAX448 单/双/四路、高速、快速稳定、高输出电流的运算放大器MAX4480 单/双/四路、低成本、单电源、满摆幅运算放大器，带有关断MAX4481 单/双/四路、低成本、单电源、满摆幅运算放大器，带有关断。