MAX4234中文资料
MAX4238AUT-T中文资料
General DescriptionThe MAX4238/MAX4239 are low-noise, low-drift, ultra-high precision amplifiers that offer near-zero DC offset and drift through the use of patented autocorrelating zeroing techniques. This method constantly measures and compensates the input offset, eliminating drift over time and temperature and the effect of 1/f noise. Both devices feature Rail-to-Rail ®outputs, operate from a single 2.7V to 5.5V supply, and consume only 600µA.An active-low shutdown mode decreases supply cur-rent to 0.1µA.The MAX4238 is unity-gain stable with a gain-band-width product of 1MHz, while the decompensated MAX4239 is stable with A V ≥10V/V and a GBWP of 6.5MHz. The MAX4238/MAX4239 are available in 8-pin narrow SO and 6-pin SOT23 packages.ApplicationsThermocouples Strain Gauges Electronic Scales Medical Instrumentation Instrumentation AmplifiersFeatureso Ultra-Low, 0.1µV Offset Voltage2.0µV (max) at +25°C2.5µV (max) at -40°C to +85°C3.5µV (max) at -40°C to +125°C o Low 10nV/o C Drifto Specified over the -40o C to +125o C Automotive Temperature Range o Low Noise: 1.5µV P-P from DC to 10Hz o 150dB A VOL , 140dB PSRR, 140dB CMRR o High Gain-Bandwidth Product1MHz (MAX4238)6.5MHz (MAX4239)o 0.1µA Shutdown Mode o Rail-to-Rail Output (R L = 1k Ω)o Low 600µA Supply Current o Ground-Sensing Inputo Single 2.7V to 5.5V Supply Voltage Rangeo Available in a Space-Saving 6-Pin SOT23 PackageMAX4238/MAX4239Ultra-Low Offset/Drift, Low-Noise,Precision SOT23 Amplifiers________________________________________________________________Maxim Integrated Products1Typical Application Circuit19-2424; Rev 1; 12/02For pricing, delivery, and ordering information,please contact Maxim/Dallas Direct!at 1-888-629-4642, or visit Maxim’s website at .Pin Configurations appear at end of data sheet.Rail-to-Rail is a registered trademark of Nippon Motorola, Ltd.Ordering InformationM A X 4238/M A X 4239Ultra-Low Offset/Drift, Low-Noise, Precision SOT23 Amplifiers 2_______________________________________________________________________________________ABSOLUTE MAXIMUM RATINGSELECTRICAL CHARACTERISTICS(2.7V ≤V CC ≤5.5V, V CM = GND = 0V, V OUT = V CC /2, R L = 10k Ωconnected to V CC /2, SHDN = V CC , T A = +25°C ,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.Power-Supply Voltage (V CC to GND).......................................6V All Other Pins.................................(GND - 0.3V) to (V CC + 0.3V)Output Short-Circuit Duration(OUT shorted to V CC or GND)...............................Continuous Continuous Power Dissipation (T A = +70°C)6-Pin Plastic SOT23 (derate 9.1mW/°C above +70°C).727mW 8-Pin Plastic SO (derate 5.88mW/°C above +70°C).....471mWOperating Temperature Range..........................-40°C to +125°C Junction Temperature......................................................+150°C Storage Temperature Range..............................-65°C to +150°C Lead Temperature (soldering, 10s).................................+300°CMAX4238/MAX4239Ultra-Low Offset/Drift, Low-Noise,Precision SOT23 Amplifiers_______________________________________________________________________________________3ELECTRICAL CHARACTERISTICS (continued)(2.7V ≤V CC ≤5.5V, V CM = GND = 0V, V OUT = V CC /2, R L = 10k Ωconnected to V CC /2, SHDN = V CC , T A = +25°C , unless otherwise noted.)M A X 4238/M A X 4239Ultra-Low Offset/Drift, Low-Noise, Precision SOT23 Amplifiers 4_______________________________________________________________________________________ELECTRICAL CHARACTERISTICS(2.7V ≤V CC ≤5.5V, V CM = GND = 0V, V OUT = V CC /2, R L = 10k Ωconnected to V CC /2, SHDN = V CC , T A = -40°C to +125°C , unless other-wise noted.) (Note 5)testing. Devices are screened during production testing to eliminate defective units.Note 2:IN+ and IN- are gates to CMOS transistors with typical input bias current of 1pA. CMOS leakage is so small that it isimpractical to test and guarantee in production. Devices are screened during production testing to eliminate defective units.Note 3:Leakage does not include leakage through feedback resistors.Note 4:Overload recovery time is the time required for the device to recover from saturation when the output has beendriven to either rail.Note 5:Specifications are 100% tested at T A = +25°C, unless otherwise noted. Limits over temperature are guaranteed by design.MAX4238/MAX4239Ultra-Low Offset/Drift, Low-Noise,Precision SOT23 Amplifiers_______________________________________________________________________________________5Typical Operating Characteristics(V CC = 5V, V CM = 0V, R L = 10k Ωconnected to V CC /2, SHDN = V CC , T A = +25°C, unless otherwise noted.)MAX4239GAIN AND PHASE vs. FREQUENCY (T A = +25°C)FREQUENCY (Hz)G A I N A N D P H A S E (d B /D E G R E E S )1M100k10k1k-160-140-120-100-80-60-40-20020406080-1800.1k10MMAX4238GAIN AND PHASE vs. FREQUENCY (T A = -40°C)FREQUENCY (Hz)G A I N A N D P H A S E (d B /D E G R E E S )1M100k10k1k-160-140-120-100-80-60-40-20020406080-1800.1k10MMAX4238GAIN AND PHASE vs. FREQUENCY (T A = +25°C)FREQUENCY (Hz)G A I N A N D P H A S E (d B /D E G R E E S )1M100k10k1k-160-140-120-100-80-60-40-20020406080-1800.1k10MOUTPUT LOW VOLTAGE vs. OUTPUT SINK CURRENTSINK CURRENT (mA)O U T P U T L O W V O L T A G E (V )151050.050.100.150.200.250.350.300020OUTPUT HIGH VOLTAGE vs. OUTPUT SOURCE CURRENTSOURCE CURRENT (mA)O U T P U T H I G H V O L T A G E(V )151050.050.100.150.200.250.300020OFFSET VOLTAGEvs. COMMON-MODE VOLTAGECOMMON-MODE VOLTAGE (V)O F F S E T V O L T A G E (µV )2.71.80.9-0.20.20.4-0.43.6OFFSET VOLTAGE vs. SUPPLY VOLTAGESUPPLY VOLTAGE (V)O F F S E T V O L T A G E (µV )4.84.13.4-0.200.20.4-0.42.75.5INPUT OFFSET DISTRIBUTIONOFFSET VOLTAGE (µV)P E R C E N T A G E O F U N I T S (%)1.51.20.90.60.30-0.3-0.6-0.9-1.2-1.510203040500MAX4238GAIN AND PHASE vs. FREQUENCY (T A = +125°C)FREQUENCY (Hz)G A I N A N D P H A S E (d B /D E G R E E S )1M100k10k1k-160-140-120-100-80-60-40-20020406080-1800.1k10MM A X 4238/M A X 4239Ultra-Low Offset/Drift, Low-Noise, Precision SOT23 Amplifiers 6_______________________________________________________________________________________Typical Operating Characteristics (continued)(V CC = 5V, V CM = 0V, R L = 10k Ωconnected to V CC /2, SHDN = V CC , T A = +25°C, unless otherwise noted.)COMMON-MODE REJECTION RATIOvs. FREQUENCYFREQUENCY (kHz)C M R R (d B )100100.11-140-120-100-80-60-40-2000.011000-160POWER-SUPPLY REJECTION RATIOvs. FREQUENCYM A X 4238/39 t o c 13FREQUENCY (kHz)P S R R (d B )100100.11-140-120-100-80-60-40-200-1600.011000MAX4239GAIN AND PHASE vs. FREQUENCY (T A = -40°C)FREQUENCY (Hz)G A I N A N D P H A S E (d B /D E G R E E S )1M100k10k1k-160-140-120-100-80-60-40-20020406080-1800.1k10MMAX4239SMALL-SIGNAL TRANSIENT RESPONSEMAX4238/39 toc17A V = 10V/V R L = 2k ΩC L = 100pF10µs/divOUTIN500mV/div50mV/divMAX4238LARGE-SIGNAL TRANSIENT RESPONSEMAX4238/39 toc15A V = 1V/V R L = 2k ΩC L = 100pF10µs/divOUT IN 1V/div1V/divMAX4239GAIN AND PHASE vs. FREQUENCY (T A = +125°C)FREQUENCY (Hz)G A I N A N D P H A S E (d B /D E G R E E S )1M100k10k1k-160-140-120-100-80-60-40-20020406080-1800.1k10MOVERVOLTAGE RECOVERY TIMEMAX4238/39 toc18A V = 100V/V R L = 10k ΩV CC = 2.5V V EE = -2.5V400µs/divOUT IN1V/div50mV/divMAX4238SMALL-SIGNAL TRANSIENT RESPONSEMAX4238/39 toc16A V = 1V/V R L = 2k ΩC L = 100pF10µs/divOUT 50mV/divIN50mV/divSUPPLY CURRENT vs. SUPPLY VOLTAGESUPPLY VOLTAGE (V)S U P P L Y C U R R E N T (µA )432120030040050060010005Detailed DescriptionThe MAX4238/MAX4239 are high-precision amplifiers that have less than 2.5µV of input-referred offset and low 1/f noise. These characteristics are achieved through a patented autozeroing technique that samples and cancels the input offset and noise of the amplifier.The pseudorandom clock frequency varies from 10kHz to 15kHz, reducing intermodulation distortion present in chopper-stabilized amplifiers.Offset Error SourcesTo achieve very low offset, several sources of error common to autozero-type amplifiers need to be consid-ered. The first contributor is the settling of the samplingcapacitor. This type of error is independent of input-source impedance, or the size of the external gain-set-ting resistors. Maxim uses a patented design technique to avoid large changes in the voltage on the sampling capacitor to reduce settling time errors.The second error contributor, which is present in both autozero and chopper-type amplifiers, is the charge injection from the switches. The charge injection appears as current spikes at the input, and combined with the impedance seen at the amplifier ’s input, con-tributes to input offset voltage. Minimize this feedthrough by reducing the size of the gain-setting resistors and the input-source impedance. A capacitor in parallel with the feedback resistor reduces the amount of clock feedthrough to the output by limiting the closed-loop bandwidth of the device.The design of the MAX4238/MAX4239 minimizes the effects of settling and charge injection to allow specifi-cation of an input offset voltage of 0.1µV (typ) and less than 2.5µV over temperature (-40°C to +85°C).1/f Noise1/f noise, inherent in all semiconductor devices, is inversely proportional to frequency. 1/f noise increases 3dB/octave and dominates amplifier noise at lower fre-quencies. This noise appears as a constantly changing voltage in series with any signal being measured. The MAX4238/MAX4239 treat 1/f noise as a slow varying offset error, inherently canceling the 1/f noise.MAX4238/MAX4239Ultra-Low Offset/Drift, Low-Noise,Precision SOT23 Amplifiers_______________________________________________________________________________________7Typical Operating Characteristics (continued)(V CC = 5V, V CM = 0V, R L = 10k Ωconnected to V CC /2, SHDN = V CC , T A = +25°C, unless otherwise noted.)SHUTDOWN WAVEFORMMAX4238/39 toc20R L = 10k ΩC L = 100pF10µs/divOUT2V/div1V/divSHDNDC TO 10Hz NOISEMAX4238/39 toc19V CC = 2.5V V EE = -2.5V1s/divOUT 2µV/divM A X 4238/M A X 4239Output Overload RecoveryAutozeroing amplifiers typically require a substantial amount of time to recover from an output overload. This is due to the time it takes for the null amplifier to correct the main amplifier to a valid output. The MAX4238/MAX4239 require only 3.3ms to recover from an output overload (see El ectrical Characteristics and Typical Operating Characteristics ).ShutdownThe MAX4238/MAX4239 feature a low-power (0.1µA)shutdown mode. When SHDN is pulled low, the clock stops and the device output enters a high-impedance state. Connect SHDN to V CC for normal operation.Applications InformationMinimum and Maximum GainConfigurationsThe MAX4238 is a unity-gain stable amplifier with a gain-bandwidth product (GBWP) of 1MHz. The MAX4239 is decompensated for a GBWP of 6.5MHz and is stable with a gain of 10V/V. Unlike conventional operational ampli-fiers, the MAX4238/MAX4239 have a maximum gain specification. To maintain stability, set the gain of the MAX4238 between A V = 1000V/V to 1V/V, and set the gain of the MAX4239 between A V = 6700V/V and 10V/V.ADC Buffer AmplifierThe low offset, fast settling time, and 1/f noise cancella-tion of the MAX4238/MAX4239 make these devices ideal for ADC buffers. The MAX4238/MAX4239 are well suited for low-speed, high-accuracy applications such as strain gauges (see Typical Application Circuit ).Error Budget ExampleWhen using the MAX4238/MAX4239 as an ADC buffer,the temperature drift should be taken into account when determining the maximum input signal. With a typical off-set drift of 10nV/°C, the drift over a 10°C range is 100nV.Setting this equal to 1/2LSB in a 16-bit system yields a full-scale range of 13mV. With a single 2.7V supply, an acceptable closed-loop gain is A V = 200. This provides sufficient gain while maintaining headroom.Chip InformationTRANSISTOR COUNT: 821PROCESS: BiCMOSUltra-Low Offset/Drift, Low-Noise, Precision SOT23 Amplifiers 8_______________________________________________________________________________________MAX4238/MAX4239Ultra-Low Offset/Drift, Low-Noise,Precision SOT23 Amplifiers_______________________________________________________________________________________9Package 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 .)M A X 4238/M A X 4239Ultra-Low Offset/Drift, Low-Noise, Precision SOT23 Amplifiers Maxim cannot assume responsibil ity for use of any circuitry other than circuitry entirel y embodied in a Maxim product. No circuit patent l icenses are implied. Maxim reserves the right to change the circuitry and specifications without notice at any time.10____________________Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600©2002 Maxim Integrated ProductsPrinted USAis a registered trademark of Maxim Integrated Products.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 .)。
MAX4252中文资料
19-1295; Rev 2; 4/98
SOT23, Single-Supply, Low-Noise, Low-Distortion, Rail-to-Rail Op Amps
General Description
The MAX4249–MAX4257 low-noise, low-distortion operational amplifiers offer Rail-to-Rail® outputs and singlesupply operation down to 2.4V. They draw only 400µA of quiescent supply current per amplifier while featuring ultra-low distortion (0.0002% THD), as well as low input voltage noise density (7.9nV/√Hz) and low input current noise density (0.5fA/ √ Hz ). These features make the devices an ideal choice for portable/battery-powered applications that require low distortion and/or low noise. For additional power conservation, the MAX4249/ MAX4251/MAX4253/MAX4256 offer a low-power shutdown mode that reduces supply current to 0.5µA and puts the amplifiers’ outputs into a high-impedance state. The MAX4249–MAX4257’s outputs swing rail-to-rail and their input common-mode voltage range includes ground. The MAX4250–MAX4254 are unity-gain stable; the MAX4249/MAX4255/MAX4256/MAX4257 are internally compensated for gains of 10V/V or greater. The single MAX4250/MAX4255 re available in a space-saving, 5-pin SOT23 package.
MAX4236-MAX4237高精度运算放大器简介
MAX4236/MAX4237高精度运算放大器简介MAX4236/MAX4237 为高精度运放,在不采用斩波技术的情况下取得了优异的低失调电压和低失调电压温度系数。
MAX4236 和MAX4237 的典型大信号开环电压增益为120dB。
这些器件的输入偏置电流极小,仅为1pA。
MAX4236 的增益带宽积为1.7MHz,单位增益稳定。
而MAX4237 可稳定工作于大于5V/V 的闭环增益,增益带宽积为7.5MHz。
两种器件均有关断功能,使静态电流降至小于0.1µA,输出呈高阻态。
MAX4236/MAX4237 的共模输入范围可低于负电源,输出可达到满摆幅。
这些特性使其非常适合于采用+3V 或+5V 单电源供电的应用。
MAX4236/MAX4237 的额定温度范围为-40°C 至+85°C,可提供微型SOT23,µMAX®和SO 封装。
对于较高精度的应用,A 级µMAX 和SO 封装的器件经过测试可以保证在+25°C 下失调不超过20µV,漂移小于2µV/°C。
关键特性超低失调电压20µV (最大值,A 级,+25°C) 50µV (最大值,B 级,6 引脚SOT23,+25°C)超低失调漂移2µV/°C (最大值,A 级) 4.5µV/°C (最大值,B 级,6 引脚SOT23) 5.5µV/°C (最大值,6 引脚SOT23)超低输入偏置电流:1pA 高开环电压增益:110dB (最小值,RL = 100kΩ) 适用于+3V 和+5V 单电源系统输入允许到地:共模输入范围覆盖电源负端驱动1kΩ负载时输出可达满摆幅350µA 静态电流增益带宽积 1.7MHz (MAX4236,AV = 1V/V) 7.5MHz (MAX4237,AV = 5V/V)具有带200pF 容性负载的能力关断模式:静态电流仅0.1µA,输出置于高阻状态提供节省空间的SOT23 和µMAX 封装应用/使用。
MAX4164ESD+中文资料
ELECTRICAL CHARACTERISTICS: 3V Operation
(VDD = 3V, VSS = 0, VCM = VDD/2, VOUT = VDD/2, RL tied to VDD/2, TA = -40°C to +85°C, unless otherwise noted. Typical values are at TA = +25°C.) (Note 1)
PARAMETER
SYMBOL
CONDITIONS
MIN TYP MAX UNITS
Operating Voltage Range Supply Current (Per Amplifier) Input Bias Current (Note 2)
Input Offset Voltage
________________________________________________________________ Maxim Integrated Products 1
For pricing, delivery, and ordering information, please contact Maxim/Dallas Direct! at 1-888-629-4642, or visit Maxim’s website at .
________________________Applications
Battery-Powered Devices pH Probes Portable Equipment Low-Power, Low-Voltage Equipment
Medical Instruments Ionization Detectors Cellular Phones
MAX9424中文资料
Data and Clock Driver and Buffer Central Office Backplane Clock Distribution DSLAM Backplane Base Station ATE
TOP VIEW
Features
o 0.24ps RMS Added Random Jitter
o Functionally Compatible with SK4426 (MAX9424) SK4430 (MAX9425) SK4436 (MAX9426) SK4440 (MAX9427)
o Integrated 50Ω Outputs (MAX9425/MAX9427)
o Integrated 100Ω Inputs (MAX9426/MAX9427)
元器件交易网
19-2390; Rev 0; 4/02
MAX9424–MAX9427
Lowest Jitter Quad PECL-to-ECL Differential Translators
General Description
The MAX9424–MAX9427 high-speed, low-skew quad PECL-to-ECL translators are designed for high-speed data and clock driver applications. These devices feature an ultra-low 0.24ps(RMS) random jitter and channel-tochannel skew is less than 90ps in asynchronous mode. The four channels can be operated synchronously with an external clock, or in asynchronous mode determined by the state of the SEL input. An enable input provides the ability to force all the outputs to a differential low state. The parts differ from one another by their input and output termination options. The input options are an open input or an internal differential 100Ω termination. The output options are an open-emitter output or a series 50Ω termination. See Ordering Information. The MAX9424–MAX9427 operate from a positive voltage supply of +2.375V to +5.5V, and a negative supply voltage of -2.375V to -5.5V and operate across the extended temperature range of -40°C to +85°C. They are offered in 32-pin 5mm x 5mm TQFP and space-saving 5mm x 5mm QFN packages.
集成运算放大器
集成运算放大器资料①提示:可按Ctrl+F键进行查找通用运放(130种)返回ALD1704 XALD1722 XALD2704 XALD2722 XALD4704 XAPA4558 APC558 BA10358 XBA14741 XBA4558X ELM842 AELM854x AFAN4272G1211G1212HA17301PHA17324XHA17358XHA17741XHA17747XKA1458XKA201AKA224KA248KA258KA2902KA2904KA301AKA324KA3303KA3403KA348KA358KA4558XKA5532KA741XKF347XKF351KF353KF442XKIA324XKIA358XLM258LM2904XLM358LM6142LM6144LMH6645LMH6646LMH6647LS404MAX4352MAX4353MAX4354MAX4452MAX4453MAX4454MB3614MB3615MB47358MC3405MM3002NCV2904NE5230NJM12902NJM12904NJM13403NJM13404NJM14558NJM1458NJM2058NJM2059NJM206NJM210NJM2107NJM2112NJM2115NJM2119NJM2120NJM2123NJM2125NJM2143NJM2172NJM2902NJM324NJM3403ANJM3404ANJM353NJM4558NJM4559NJM4560NJM4562NJM4565NJM458NJM4741NJM741OP02OP04OP09OP11OP14SA5230TA74358PTA75060PTA75061PTA75062XTA75064XTA75070PTA75071XTA75072XTA75074XTA75254PTA75324XTA75358XTA75458XTA75557XTA75558XTA75559XTA75902XTA75S01FTA75W01FUTLC252XTLC254XTS274XTS902TS912TS914TSH24UA741UTCM210宽频带运放(21种)返回AD840AD841BB3554 MC33071X MC33072X M C33074XMC34071XMC34072XMC34074XMC4558M X3554NJM2116NJM2136TS612TS613T S634TSH110TSH111TSH112TSH113T SH114精密运放(含低漂移、零漂移、低偏流、低偏压、低失调运放和仪器运放)(75种)返回AD70 4AD70 5AD70 6AD70 7AD70 8AD82 4AD84 5AD84 6ALD1702XALD1703ALD1712XALD2702XALD2711XALD4702XLMV301LT1006LT1013LT1014LT1152LT1250LT1884LT1885LTC1051LTC1053LTC2050XLTC2051LTC2052MAX400MAX480MM1278MM6558MXL1001MXL1013MXL1014MXL1178MXL1179NJM062NJM064NJM072XNJM074NJM082XNJM084NJM2097NJMOP-07NJU7042NJU7051NJU7052NJU7054NJU7061NJU7062NJU7064OP07-1OP07-2OP07COP-10OP-12OP-15OP-16OP-17OP177OP193OP20OP293OP493OP-80OP90OP-90OP-97PM-1012PM-155APM-156APM-157ATS27M4XTS512XUA748低电压运放(63种)返回AD8517 AD8527 AD8631 AD8632 CMC7101A CMV7101 CMV7106 DS4802 FAN4113 FAN4114 LMV921 LMV922 LMV924L MV981LT1884LT1885MAX4240MAX4241MAX4242MAX4243MAX4244MAX4289MAX4291MAX4292MAX4294MAX4464M AX4470MAX4471MAX4472MAX4474MC33501MC33502MC33503MIC7111NCS2001NCS7101NE5230NE5234NJU7001N JU7002NJU7004NJU7007NJU7008NJU7017NJU7018NJU7019NJU7021NJU7022NJU7024NJU7031NJU7032NJU7034S A5230SA5234TS1851TS1852TS1854TS1871TS1872TS1874UTCLMV358XC221A1100MRXC221A1200MR比较器(7种)返回ALD2301X ALD2302X ALD2303X ALD4302X MB4204SA58603TA75W393FU 低功率微功耗运放(90种) 返回ALD1701 XALD1706 XALD1721 XALD1726 XALD2701 XALD2706 XALD2721 XALD2726 XALD4701 X ALD4706XCMC7106CMV1010CMV1016CMV1020CMV1026CMV1030CMV1036ELM832ALM124LM158LM158xLM224-1LM224-2LM258-1LM258-2LM258xLM2902LM2902XLM2904-1LM2904-2LM2904XLM324X-1LM324X-2LM358LM358x-1LM358x-2LMC6442LMH6642LMH6643LMH6644MAX433MAX4331MAX4332MAX4333MAX4334MC3303MC33171MC33172MC3403MC3503MC35171MC35172MCP606MCP607MCP608MCP609MIC861MIC91MIC911MIC912MIC913MIC914MIC915MIC916MIC918MIC919NCV2902NCV2904NE532NJM022NJM022BNJM213NJU7011NJU7012NJU7013NJU7014NJU7015NJU7016NJU7091ANJU7092ANJU7093ANJU7094NJU7095NJU7096SA532SA534SE532TS931TS932TS934低噪声运放(45种)返回HA-5127XHA-5137HA-5137AHA-5147HS-5104ARH HS-5104ARH-T KIA4558XKIA4559XLM381X L M387XLM833LMH6654LMH6655LT1792LT1793MC33077MC33078MC33079-1M C33079-2MXL1007NE5532X-1NE5532X-2NE5534X-1NE5534X-2NJM2041NJM2043NJM2068N JM2114NJM2122NJM5532NJM5534OP113OP213OP27OP37OP413R F2304RF2314SA5534XSE5532XSE5534X-1SE5534X-2TC7652TS522TS524高速运放(29种) 返回AD711A D848B A15532X N JM2716T LV2781XAD712 AD713 AD843 AD844 AD847AD849ALD1502ALD2502ALD4501BA15218XBA4510XBA4560XFAN4230NJM2121NJM2710NJM318TL3X071XTL3X072XTL3X074XTLV2780XTLV2782XTLV2783XTLV2784XTLV2785X低失真运放(5种)返回INA103I NA163L T1115L T1806L T1807高输出电流高驱动能力运放(12种) 返回A D842 LMH6672 MAX4230M AX4231MAX4232MAX4233M AX4234MC33076NJM3414AN JM4556AOP176OP279可编程运放(5种)返回LC7972X L T1167T LC251X T S271X T S652其他特殊运放(18种)返回B A10324X BA3131FS CA3160X ICL7650X ICL7652X I CL7653XLM10LM201ALM301ALT1794M AX420MAX421MAX422MAX423MM1462XN JM13600NJM13700NJM2140第二部分模拟电路实验实验2.9 集成运算放大器的测试[要点提示]一、实验目的二、实验预习要求三、实验原理四、实验仪器设备五、练习内容及方法六、实验报告[内容简介]一、实验目的掌握集成运算放大器主要参数的测试方法。
OPA4234UA中文资料
Channel Separation (Dual, Quad)
VOS
dVOS/dT PSRR
VCM = 2.5V
Operating Temperature Range VS = +2.7V to +30V, VCM = 1.7V
±40 ±100 ±0.5
3 0.2 0.3
±100 ±150
±3 10
T
±250
µV
T
±350
µV
T
T
µV/°C
T
20
µV/V
T
µV/mo
T
µV/V
INPUT BIAS CURRENT Input Bias Current(2) Input Offset Current
IB
VCM = 2.5V
IOS
Overload Recovery Time
G = 1, 3V Step, CL = 100pF
15
G = 1, 3V Step, CL = 100pF
25
(VIN) (Gain) = VS
16
T
MHz
T
V/µs
T
µs
T
µs
T
µs
OUTPUT
Voltage Output: Positive
RL = 10kΩ to VS/2
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MAX4332中文资料
(MAX4330) o +2.3V to +6.5V Single-Supply Operation o Rail-to-Rail Input Common-Mode Voltage Range o Rail-to-Rail Output Voltage Swing o 250µV Offset Voltage o Low-Power, 9µA (per amp) Shutdown Mode
For free samples & the latest literature: , or phone 1-800-998-8800. For small orders, phone 408-737-7600 ext. 3468.
元器件交易网
PARAMETER
SYMBOL
CONDITIONS
MIN TYP MAX UNITS
MAX433_EUA/EUB
±0.65 ±1.5
Input Offset Voltage
MAX4330EUK
VOS
VCM = VEE to VCC
MAX4331ESA
MAX4332ESA/MAX4333ESD
±0.65 ±1.5
(short to either supply) Continuous Power Dissipation (TA = +70°C)
5-Pin SOT23 (derate 7.1mW/°C above +70°C).............571mW 8-Pin SO (derate 5.88mW/°C above +70°C).................471mW 8-Pin µMAX (derate 4.10mW/°C above +70°C) ............330mW
MAX4230–MAX4234系列高输出驱动CMOS运算放大器
MAX4230–MAX4234系列高输出驱动CMOS运算放大
器
MAX4230–MAX4234 系列单/双/四、高输出驱动CMOS 运放具有200mA
的峰值输出电流,可满摆幅输入、输出,工作于2.7V 至5.5V 单电源。
这些放
大器的转换速率高达10V/µs,增益带宽积(GBWP)为10MHz。
MAX4230–
MAX4234 既能驱动典型的头戴式耳机(32Ω),也可以在无线手机中用来偏置
RF 功率放大器(PA)。
MAX4230 采用5 引脚SC70 封装,具有关断模式的
单运放MAX4231 为6 引脚SC70 封装和1.5mm x 1.0mm x 0.5mm UCSP™封装和薄型µDFN封装。
双运放MAX4233 提供节省空间的10 焊球晶片级封装(UCSP)封装,是目前占位面积最小的、具有关断模式的双运放。
这些运放专为PA 控制电路而设计,用于无线手机中RF PA 的偏置。
MAX4231/MAX4233 具有一种/SHDN,可驱动至低电平。
这样可以在必要的时
候完全关闭RF PA,防止无用信号进到RF 天线中。
MAX4230 系列具有低失调、宽频带和高输出驱动等特性,而封装仅为
细小的2.1mm x 2.0mm SC70。
这些器件满足汽车级工作温度范围(-40°C至+125°C)。
关键特性
输出驱动电流可达200mA
满摆幅输入和输出
每运放电源电流1.1mA
2.7V 至5.5V 单电源工作
增益带宽积10MHz
高压摆率:10V/µs
100dB 电压增益(RL = 100kΩ)。
MAX3243中文资料
元器件交易网IMPORTANT NOTICETexas Instruments and its subsidiaries (TI) reserve the right to make changes to their products or to discontinueany product or service without notice, and advise customers to obtain the latest version of relevant informationto verify, before placing orders, that information being relied on is current and complete. All products are soldsubject to the terms and conditions of sale supplied at the time of order acknowledgement, including thosepertaining to warranty, patent infringement, and limitation of liability.TI warrants performance of its semiconductor products to the specifications applicable at the time of sale inaccordance with TI’s standard warranty. Testing and other quality control techniques are utilized to the extentTI deems necessary to support this warranty. Specific testing of all parameters of each device is not necessarilyperformed, except those mandated by government requirements.CERTAIN APPLICATIONS USING SEMICONDUCTOR PRODUCTS MAY INVOLVE POTENTIAL RISKS OFDEATH, PERSONAL INJURY, OR SEVERE PROPERTY OR ENVIRONMENTAL DAMAGE (“CRITICALAPPLICATIONS”). TI SEMICONDUCTOR PRODUCTS ARE NOT DESIGNED, AUTHORIZED, ORWARRANTED TO BE SUITABLE FOR USE IN LIFE-SUPPORT DEVICES OR SYSTEMS OR OTHERCRITICAL APPLICATIONS. INCLUSION OF TI PRODUCTS IN SUCH APPLICATIONS IS UNDERSTOOD TOBE FULLY AT THE CUSTOMER’S RISK.In order to minimize risks associated with the customer’s applications, adequate design and operatingsafeguards must be provided by the customer to minimize inherent or procedural hazards.TI assumes no liability for applications assistance or customer product design. TI does not warrant or representthat any license, either express or implied, is granted under any patent right, copyright, mask work right, or otherintellectual property right of TI covering or relating to any combination, machine, or process in which suchsemiconductor products or services might be or are used. TI’s publication of information regarding any thirdparty’s products or services does not constitute TI’s approval, warranty or endorsement thereof.Copyright © 2000, Texas Instruments Incorporated。
MAX4243中文资料
_____________________Selector Guide
PART MAX4240 MAX4241 MAX4242 MAX4243 MAX4244 NO. OF AMPS 1 1 2 2 4 SHUTDOWN — Yes — Yes — PIN-PACKAGE 5-pin SOT23 8-pin µMAX/SO 8-pin µMAX/SO 10-pin µMAX, 14-pin SO 14-pin SO
_________________Pin Configurations
TOP VIEW
OUT 1 5 VCC
VEE 2
MAX4240
IN+ 3
4
IN-
Beyond-the-Rails is a trademark of Maxim Integrated Products. Rail-to-Rail is a registered trademark of Nippon Motorola Ltd.
________________________Applications
Two-Cell BatteryPowered Systems Portable/Battery-Powered Electronic Equipment Digital Scales Strain Gauges Sensor Amplifiers Cellular Phones Notebook Computers PDAs
元器件交易网
Single/Dual/Quad, +1.8V/10µA, SOT23, Beyond-the-Rails Op Amps MAX4240–MAX4244
ABSOLUTE MAXIMUM RATINGS
MAX323
MAX323精密,单电源,SPST模拟开关。
(Precision, Single-Supply,SPST Analog Switches)这些是我用有道翻译的,中英文我全部写出吧General DescriptionThe MAX323/MAX324/MAX325 are precision, dual,SPST analog switches. They are single-supply devicesdesigned to operate from +2.7V to +16V. The MAX323has two normally open (NO) switches, and the MAX324has two normally closed (NC) switches. The MAX325has one NO and one NC switch. Low power consumption(5μW) makes these parts ideal for battery-poweredequipment. These switches offer low leakage currents(100pA max) and fast switching speeds (tON = 150nsmax, tOFF = 100ns max).When powered from a 5V supply, the MAX323 seriesoffers 2½ max matching between channels, 60½ maxon-resistance, and 6½ max RON flatness.These switches also offer 5pC max charge injection,and a minimum of 2000V ESD per Method 3015.7.For equivalent devices specified for dual-supply operation,see the MAX320/MAX321/MAX322 data sheet. Forquad versions of the MAX320 series, see MAX391/MAX392/MAX393 data sheet.总体描述MAX323 / MAX324 / MAX325的精度,是二元性的,SPST模拟转换器。
Maxim4XX系列选型大全
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。
MAX6323-MAX6324中文资料
SUFFIX
FAST
MAX
UNITS
SLOW
MIN
UNITS
A
1.5
ms
10
B
15
ms
100
ms
C
15
ms
300
D
15
ms
10
s
E
15
ms
60
F
23
ms
47
ms
G
39
ms
82
H
719
ms
1.3
s
*See Figure 1 for operation.
________________________________________________________________ Maxim Integrated Products 1
Medical
Embedded Control Systems
Features
♦ Min/Max (Windowed) Watchdog, 8 Factory-Trimmed Timing Options
♦ Pulsed Open-Drain, Active-Low Watchdog Output ♦ Power-On Reset ♦ Precision Monitoring of +2.5V, +3.0V, +3.3V,
MAX4474EUA中文资料
General DescriptionThe MAX4464/MAX4470/MAX4471/MAX4472/MAX4474family of micropower op amps operate from a single +1.8V to +5.5V supply and draw only 750nA of supply current. The MAX4470 family feature ground-sensing inputs and Rail-to-Rail ®output. The ultra-low supply current, low-operating voltage, and rail-to-rail output capabilities make these operational amplifiers ideal for use in single lithium ion (Li+), or two-cell NiCd or alka-line battery systems.The rail-to-rail output stage of the MAX4464/MAX4470/ MAX4471/MAX4472/MAX4474 amplifiers is capable of driving the output voltage to within 4mV of the rail with a 100k Ωload, and can sink and source 11mA with a +5V supply. These amplifiers are available in both fully com-pensated and decompensated versions. The single MAX4470, dual MAX4471, and the quad MAX4472 are unity-gain stable. The single MAX4464 and the dual MAX4474 are stable for closed-loop gain configurations of ≥+5V/V. These amplifiers are available in space-sav-ing SC70, SOT23, µMAX, and TSSOP packages.ApplicationsFeatureso Ultra-Low 750nA Supply Current Per Amplifier o Ultra-Low +1.8V Supply Voltage Operation o Ground-Sensing Input Common-Mode Range o Outputs Swing Rail-to-Railo Outputs Source and Sink 11mA of Load Current o No Phase Reversal for Overdriven Inputs o High 120dB Open-Loop Voltage Gain o Low 500µV Input Offset Voltage o 9kHz Gain-Bandwidth Product (MAX4470/MAX4471/MAX4472)o 40kHz Gain-Bandwidth Product (MAX4464/MAX4474)o 250pF (min) Capacitive Load Capability o Available in Tiny 5-Pin SC70 and 8-Pin SOT23PackagesMAX4464/MAX4470/MAX4471/MAX4472/MAX4474Single/Dual/Quad, +1.8V/750nA, SC70,Rail-to-Rail Op Amps________________________________________________________________Maxim Integrated Products 1Pin Configurations19-2021; Rev 2; 2/03For pricing, delivery, and ordering information,please contact Maxim/Dallas Direct!at 1-888-629-4642, or visit Maxim’s website at .Ordering InformationRail-to-Rail is a registered trademark of Nippon Motorola, Ltd.Selector GuideBattery-Powered SystemsPortable Instrumentation Pagers and Cellphones Micropower ThermostatsElectrometer Amplifiers Solar-Powered Systems Remote Sensor Active Badges pH MetersM A X 4464/M A X 4470/M A X 4471/M A X 4472/M A X 4474Single/Dual/Quad, +1.8V/750nA, SC70, Rail-to-Rail Op Amps 2_______________________________________________________________________________________ABSOLUTE MAXIMUM RATINGSELECTRICAL CHARACTERISTICSStresses 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 DD to V SS ...............................................................-0.3V to +6V IN_+ or IN_-......................................(V SS - 0.3V) to (V DD + 0.3V)OUT_ Shorted to V SS or V DD ......................................Continuous Continuous Power Dissipation (T A = +70°C)5-Pin SC70 (derate 3.1mW/°C above +70°C)...................247mW 5-Pin SOT23 (derate 7.1mW/°C above +70°C).................571mW 8-Pin SOT23 (derate 8.9mW/°C above +70°C).................714mW 8-Pin µMAX (derate 4.5mW/°C above +70°C)..................362mW8-Pin SO (derate 5.88mW/°C above +70°C)....................471mW 14-Pin TSSOP (derate 9.1mW/°C above +70°C)...........727mW 14-Pin SO (derate 8.33mW/°C above +70°C)...............667mW Operating Temperature Range .........................-40°C to +85°C Junction Temperature .....................................................+150°C Storage Temperature Range.............................-65°C to +150°C Lead Temperature (soldering, 10s) ................................+300°CMAX4464/MAX4470/MAX4471/MAX4472/MAX4474Single/Dual/Quad, +1.8V/750nA, SC70,Rail-to-Rail Op Amps_______________________________________________________________________________________3ELECTRICAL CHARACTERISTICS (continued)ELECTRICAL CHARACTERISTICSM A X 4464/M A X 4470/M A X 4471/M A X 4472/M A X 4474Single/Dual/Quad, +1.8V/750nA, SC70, Rail-to-Rail Op Amps 4_______________________________________________________________________________________Typical Operating Characteristics(V DD = +5V, V SS = 0, V CM = 0, R L = 100k Ωto V DD /2, T A = +25°C, unless otherwise noted.)0.20.10.50.40.30.70.80.60.91.5 3.0 3.52.0 2.5 4.0 4.5 5.0 5.5 6.0SUPPLY CURRENT PER AMPLIFIER vs.SUPPLY VOLTAGEM A X 4470–74 t o c 01SUPPLY VOLTAGE (V)S U P P L Y C U R R E N T (µA )0.20.10.50.40.30.70.80.60.9-500-25255075100SUPPLY CURRENT PER AMPLIFIER vs.TEMPERATUREM A X 4470–74 t o c 02TEMPERATURE (°C)S U P P L Y C U R R E N T (µA )00.100.050.300.200.250.150.400.450.350.50-50-25255075100OFFSET VOLTAGE vs.TEMPERATUREM A X 4470–74 t o c 03TEMPERATURE (°C)O F F S E T V O L T A G E (m V )00.100.050.200.150.300.250.350.450.400.501.01.50.52.02.53.03.54.0OFFSET VOLTAGEvs. COMMON-MODE VOLTAGEM A X 4470-74 t o c 04COMMON-MODE VOLTAGE (V)O F F S E T V O L T A G E (m V )-400-350-150-250-200-300-50-1000-50-25255075100INPUT BIAS CURRENT vs.TEMPERATUREM A X 4470–74 t o c 05TEMPERATURE (°C)I N P U T B I A S C U R R E N T (p A )-90-70-80-40-50-60-20-10-3000 1.51.00.5 2.0 2.5 3.0 3.5 4.0INPUT BIAS CURRENT MON-MODE VOLTAGEM A X 4470–74 t o c 06COMMON-MODE VOLTAGE (V)I N P U T B I A S C U R R E N T (p A )0-1001010010k1kPOWER-SUPPLY REJECTION RATIO vs.FREQUENCY-80-90M A X 4470–74 t o c 07FREQUENCY (Hz)P S R R (d B )-60-70-40-30-50-20-1000.21.00.60.80.41.41.21.6-50-25255075100OUTPUT VOLTAGE SWING LOW vs.TEMPERATURETEMPERATURE (°C)V O L - V S S (m V )142356-500-25255075100OUTPUT VOLTAGE SWING HIGH vs.TEMPERATURETEMPERATURE (°C)V D D - V O H (m V )MAX4464/MAX4470/MAX4471/MAX4472/MAX4474Single/Dual/Quad, +1.8V/750nA, SC70,Rail-to-Rail Op Amps_______________________________________________________________________________________5-120-100-110-60-80-70-90-40-30-50-20-50-25255075100COMMON-MODE REJECTION RATIO vs.TEMPERATURETEMPERATURE (°C)C M R R (d B )00.40.20.80.61.21.01.4-5025-255075100MINIMUM SUPPLY VOLTAGEvs. TEMPERATUREM A X 4470-74 t o c 11TEMPERATURE (°C)M I N I M UM S U P P L Y V O L T A G E (V )607080901001101201301402.53.0 3.54.0 4.55.0A VOL vs. OUTPUT VOLTAGE SWINGOUTPUT VOLTAGE (Vp-p)A V O L (dB )11001k 10k10100kMAX4470/MAX4471/MAX4472GAIN AND PHASE vs. FREQUENCYFREQUENCY (Hz)G A I N (d B )P H A S E (d e g )80706050403020-60100-10-20-30-40-509045-1350-45-9011001k10k10100kMAX4470/MAX4471/MAX4472GAIN AND PHASE vs. FREQUENCYFREQUENCY (Hz)G A I N (d B )P H A S E (d e g )80706050403020-60100-10-20-30-40-501801359045-1350-45-90-40-140101001k 10k100kCROSSTALK vs. FREQUENCY-100-120FREQUENCY (Hz)C R O S S T A L K (d B )-80-6010.000.011010010k1kMAX4470/MAX4471/MAX4472TOTAL HARMONIC DISTORTION PLUS NOISE vs. FREQUENCYM A X 4470–74 t o c 16FREQUENCY (Hz)T H D + N (%)0.101.0010k 10101k 100100k10kVOLTAGE NOISE DENSITY vs.FREQUENCYM A X 4470–74 t o c 17FREQUENCY (Hz)1001k N O I S E (n V /√H z )100k10010k100k 1MMAX4470/MAX4471/MAX4472 STABILITY vs. CAPACITIVE AND RESISTIVE LOADSRESISTIVE LOAD (Ω)1k10kC A P A C I T I V E L O AD (p F )Typical Operating Characteristics (continued)(V DD = +5V, V SS = 0, V CM = 0, R L = 100k Ωto V DD /2, T A = +25°C, unless otherwise noted.)500µs/divMAX4470/MAX4471/MAX4472SMALL-SIGNAL STEP RESPONSEINPUT 50mV/divOUTPUT 50mV/divV DD = +5V A V = +1V/V R L = 1M Ω C L = 250pF500µs/div MAX4470/MAX4471/MAX4472SMALL-SIGNAL STEP RESPONSEINPUT 50mV/divOUTPUT 50mV/div V DD = +5V A V = +1V/V R L = 1M Ω C L = 1000pF500µs/div MAX4470/MAX4471/MAX4472LARGE-SIGNAL STEP RESPONSEV DD = +5V A V = +1V/V R L = 1M ΩC L = 12pFINPUT 500mV/divOUTPUT 500mV/div500µs/divMAX4470/MAX4471/MAX4472LARGE-SIGNAL STEP RESPONSEINPUT 500mV/divOUTPUT 500mV/divV DD = +5V A V = +1V/V R L = 1M Ω C L = 1000pF052010152530010050150200250300MAX4470/MAX4471/MAX4472PERCENT OVERSHOOT vs. CAPACITIVE LOADC LOAD (pF)P E R C E N T O V E R S H O O T (%)3-71001k 10kMAX4470/MAX4471/MAX4472SMALL-SIGNAL GAIN vs. FREQUENCY-5-6FREQUENCY (Hz)G A I N (d B )-3-4-10-2123-71001k 100k10k MAX4470/MAX4471/MAX4472SMALL-SIGNAL GAIN vs. FREQUENCY-5-6FREQUENCY (Hz)G A I N (d B )-3-4-10-212M A X 4464/M A X 4470/M A X 4471/M A X 4472/M A X 4474Single/Dual/Quad, +1.8V/750nA, SC70, Rail-to-Rail Op Amps 6_______________________________________________________________________________________0128416202428323640021345I OUT vs. V OUTV OUT (V)I O U T (m A )500µs/div MAX4470/MAX4471/MAX4472SMALL-SIGNAL STEP RESPONSE V DD = +5V A V = +1V/V R L = 1M ΩC L = 12pFINPUT 500mV/divOUTPUT 500mV/div Typical Operating Characteristics (continued)(V DD = +5V, V SS = 0, V CM = 0, R L = 100k Ωto V DD /2, T A = +25°C, unless otherwise noted.)MAX4464/MAX4470/MAX4471/MAX4472/MAX4474Single/Dual/Quad, +1.8V/750nA, SC70,Rail-to-Rail Op Amps_______________________________________________________________________________________7Typical Operating Characteristics (continued)(V DD = +5V, V SS = 0, V CM = 0, R L = 100k Ωto V DD /2, T A = +25°C, unless otherwise noted.)3-71001k 10k 100k MAX4470/MAX4471/MAX4472SMALL-SIGNAL GAIN vs. FREQUENCY-5FREQUENCY (Hz)G A I N (d B )-3-112-6-4-203-71001k 10k MAX4470/MAX4471/MAX4472LARGE-SIGNAL GAIN vs. FREQUENCY-5-6FREQUENCY (Hz)G A I N (d B )-3-4-10-2123-71001k 10kMAX4470/MAX4471/MAX4472LARGE-SIGNAL GAIN vs. FREQUENCY-5-6FREQUENCY (Hz)G A I N (d B )-3-4-10-2123-71001k 10kMAX4470/MAX4471/MAX4472LARGE-SIGNAL GAIN vs. FREQUENCY-5-6FREQUENCY (Hz)G A I N (d B )-3-4-10-21280-6011k 10k100k10FREQUENCY (Hz)G A I N (d B )10100MAX4464/MAX4474GAIN AND PHASE vs. FREQUENCY7060504030200-10-20-30-40-5018013590450-45-90-135P H A S E (d e g r e e s )80-6011k 10k100k10FREQUENCY (Hz)G A I N (d B )10100MAX4464/MAX4474GAIN AND PHASE vs. FREQUENCY7060504030200-10-20-30-40-5018013590450-45-90-135P H A S E (d e g r e e s )0.0011010k1k100MAX4464/MAX4474TOTAL HARMONIC DISTORTION PLUS NOISE vs. FREQUENCY100.0110.1M A X 4464 t o c 34FREQUENCY (Hz)T H D + N (%)100,00010010k100k 1MMAX4464/MAX4474STABILITY vs. CAPACITIVE AND RESISTIVE LOADSRESISTIVE LOAD (Ω)C A P A C I T I V E L O AD (p F )100010,000OUTPUT 50mV/divINPUT 10mV/divMAX4464/MAX4474SMALL-SIGNAL STEP RESPONSE500µs/divV DD = +5V A V = +5V/V R L = 1M ΩC L = 8pFM A X 4464/M A X 4470/M A X 4471/M A X 4472/M A X 4474Single/Dual/Quad, +1.8V/750nA, SC70, Rail-to-Rail Op Amps 8_______________________________________________________________________________________OUTPUT 50mV/div INPUT 10mV/divMAX4464/MAX4474SMALL-SIGNAL STEP RESPONSEM A X 4464 t o c 37500µs/div V DD = +5V A V = +5V/V R L = 1M ΩC L = 250pFOUTPUT 50mV/div INPUT 10mV/divMAX4464/MAX4474SMALL-SIGNAL STEP RESPONSEM A X 4464 t o c 38500µs/div V DD = +5V A V = +5V/V R L = 1M ΩC L = 1000pFOUTPUT 500mV/divINPUT 100mV/divMAX4464/MAX4474LARGE-SIGNAL STEP RESPONSE500µs/divV DD = +5V A V = +5V/V R L = 1M ΩC L = 8pFOUTPUT 500mV/divINPUT 100mV/divMAX4464/MAX4474LARGE-SIGNAL STEP RESPONSE500µs/divV DD = +5V A V = +5V/V R L = 1M ΩC L = 1000pF10520152530010015050200250300MAX4464/MAX4474PERCENT OVERSHOOT vs. CAPACITIVE LOADC LOAD (pF)P E R C E N T O V E R S H O O T (%)2-7100100k10k 1k MAX4464/MAX4474SMALL-SIGNAL NORMALIZED GAINvs. FREQUENCY-4-60-23-3-51-1FREQUENCY (Hz)G A I N (d B )2-7100100k10k1kMAX4464/MAX4474SMALL-SIGNAL NORMALIZED GAINvs. FREQUENCY-4-60-23-3-51-1FREQUENCY (Hz)G A I N (d B )Typical Operating Characteristics (continued)(V DD = +5V, V SS = 0, V CM = 0, R L = 100k Ωto V DD /2, T A = +25°C, unless otherwise noted.)MAX4464/MAX4470/MAX4471/MAX4472/MAX4474Single/Dual/Quad, +1.8V/750nA, SC70,Rail-to-Rail Op Amps2-7100100k 10k 1k MAX4464/MAX4474LARGE-SIGNAL NORMALIZED GAINvs. FREQUENCY-4-60-23-3-51-1FREQUENCY (Hz)G A I N (d B )2-7100100k10k 1k MAX4464/MAX4474LARGE-SIGNAL NORMALIZED GAINvs. FREQUENCY-4-60-23-3-51-1FREQUENCY (Hz)G A I N (d B )2-7100100k 10k 1k MAX4464/MAX4474SMALL-SIGNAL NORMALIZED GAINvs. FREQUENCY-4-60-23-3-51-1FREQUENCY (Hz)G A I N (d B )2-7100100k10k 1k MAX4464/MAX4474LARGE-SIGNAL NORMALIZED GAINvs. FREQUENCY-4-60-23-3-51-1FREQUENCY (Hz)G A I N (d B )Typical Operating Characteristics (continued)(V DD = +5V, V SS = 0, V CM = 0, R L = 100k Ωto V DD /2, T A = +25°C, unless otherwise noted.)M A X 4464/M A X 4470/M A X 4471/M A X 4472/M A X 4474Single/Dual/Quad, +1.8V/750nA, SC70, Rail-to-Rail Op Amps 10______________________________________________________________________________________Figure 2. Compensation for Feedback Node CapacitanceApplications InformationGround SensingThe common-mode input range of the MAX4470 family extends down to ground, and offers excellent common-mode rejection. These devices are guaranteed not to undergo phase reversal when the input is overdriven.Power Supplies and LayoutThe MAX4470 family operates from a single +1.8V to +5.5V power supply. Bypass power supplies with a 0.1µF ceramic capacitor placed close to the V DD pin. Ground layout improves performance by decreasing the amount of stray capacitance and noise at the op amp ’s inputs and outputs. To decrease stray capacitance, mini-mize PC board lengths and resistor leads, and place external components close to the op amps ’ pins.BandwidthThe MAX4470/MAX4471/MAX4472 are internally compensated for unity-gain stability and have a typical gain-bandwidth of 9kHz. The MAX4464/MAX4474 have a 40kHz typical gain-bandwidth and are stable for a gain of +5V/V or greater.StabilityThe MAX4464/MAX4470/MAX4471/MAX4472/MAX4474maintain stability in their minimum gain configuration while driving capacitive loads. Although this product family is primarily designed for low-frequency applica-tions, good layout is extremely important because low-power requirements demand high-impedance circuits.The layout should also minimize stray capacitance at the amplifier inputs. However some stray capacitance may be unavoidable, and it may be necessary to add a 2pF to 10pF capacitor across the feedback resistor as shown in Figure 2. Select the smallest capacitor value that ensures stability.Chip InformationMAX4470/MAX4464 TRANSISTOR COUNT: 147MAX4471/MAX4474 TRANSISTOR COUNT: 293MAX4472 TRANSISTOR COUNT: 585PROCESS: BiCMOSMAX4464/MAX4470/MAX4471/MAX4472/MAX4474Rail-to-Rail Op Amps______________________________________________________________________________________11M A X 4464/M A X 4470/M A X 4471/M A X 4472/M A X 4474Rail-to-Rail Op AmpsS C 70, 5L .E P SPackage 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 .MAX4464/MAX4470/MAX4471/MAX4472/MAX4474Rail-to-Rail Op AmpsPackage 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 .M A X 4464/M A X 4470/M A X 4471/M A X 4472/M A X 4474Rail-to-Rail Op Amps Maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim product. No circuit patent licenses areimplied. Maxim reserves the right to change the circuitry and specifications without notice at any time.14____________________Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600©2003 Maxim Integrated ProductsPrinted USAis a registered trademark of Maxim Integrated Products.S O I C N .E P SPackage 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 .。
MAX4524C中文资料
_______________Ordering Information
PART
TEMP RANGE
MAX4524CUB MAX4524C/D MAX4524EUB
0°C to +70°C 0°C to +70°C -40°C to +85°C
MAX4524ETB -40°C to +85°C
MAX4525CUB MAX4525C/D MAX4525EUB
RFLAT
V+ = 5.5V; ICOM = 1mA; VCOM = 1.5V, 2.5Байду номын сангаас, 3.5V
+25°C
5
12
Ω
NO/NC Off-Leakage (Note 5)
INO(OFF), INC(OFF),
V+ = 5.5V; VNO = 1V, 4.5V; VCOM = 4.5V, 1V
+25°C C, E
(pulsed at 1ms,10% duty cycle)....................................±40mA ESD per Method 3015.7 ..................................................>2000V
These devices operate from a single supply of +2V to +12V and are optimized for operation with +3V or +5V supplies. On-resistance is 200Ω with a +5V supply and 500Ω with a +3V supply. Each switch can handle Railto-Rail® analog signals. The off-leakage current is only 2nA at +25°C or 20nA at +85°C.
MAX44244-MAX44248 (2)
PARAMETER POWER SUPPLY Supply Voltage Range
Power-Supply Rejection Ratio (Note 3)
Quiescent Current Per Amplifier (MAX4244 Only)
Quiescent Current Per Amplifier (MAX44245/MAX44248 Only)
Applications
Sensors Interfaces
4-20mA and 0 to10V Transmitters
PLC Analog I/O Modules
Weight Scales
Portable Medical Devices
Features
S Very Low Input Voltage Offset 7.5µV (max) S Low 30nV/NC Offset Drift (max) S Low 90µA Quiescent Current per Amplifier S Low Input Noise
µMAX is a registered trademark of Maxim Integrated Products, Inc.
Typical Operating Circuit
MAX6033 REF
MAX5216 DAC
VREF R1
R2
R3
MAX44244
LP+
ISIG (4-20mA)
RSENSE LP-
The low offset and noise specifications and high supply range make the devices ideal for sensor interfaces and transmitters.
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PARAMETER
SYMBOL
CONDITIONS
MIN
Operating Supply Voltage Range
VDD
Inferred from PSRR test
2.7
Input Offset Voltage
VOS
Input Bias Current
IB
VCM = VSS to VDD
Input Offset Current
DC ELECTRICAL CHARACTERISTICS
(VDD = 2.7V, VSS = 0V, VCM = VDD/2, VOUT = (VDD/2), RL = ∞ connected to (VDD/2), VSHDN = VDD, TA = +25°C, unless otherwise noted.) (Note 2)
Note 1: Package power dissipation should also be observed.
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.
MAX4230AXK-T MAX4230AUK-T MAX4231AXT-T MAX4231AUT-T
-40°C to +125°C -40°C to +125°C -40°C to +125°C -40°C to +125°C
5 SC70-5 5 SOT23-5 6 SC70-6 6 SOT23-6
IOS
VCM = VSS to VDD
Selector Guide appears at end of data sheet. Pin Configurations appear at end of data sheet.
UCSP is a trademark of Maxim Integrated Products, Inc.
Features
元器件交易网
MAX4230–MAX4234
High-Output-Drive, 10MHz, 10V/µs, Rail-to-Rail I/O Op Amps with Shutdown in SC70
ABSOLUTE MAXIMUM RATINGS
Supply Voltage (VDD to VSS) ....................................................6V All Other Pins ....................................(VSS - 0.3V) + (VDD + 0.3V) Output Short-Circuit Duration to VDD or VSS (Note 1) ..................1s Continuous Power Dissipation (TA = +70°C)
CLOAD
____________________________________ Maxim Integrated Products 1
For pricing, delivery, and ordering information, please contact Maxim/Dallas Direct! at 1-888-629-4642, or visit Maxim’s website at .
The MAX4230–MAX4234 single/dual/quad, high-outputdrive CMOS op amps feature 200mA of peak output current, rail-to-rail input, and output capability from a single 2.7V to 5.5V supply. These amplifiers exhibit a high slew rate of 10V/µs and a gain-bandwidth product (GBWP) of 10MHz. The MAX4230–MAX4234 can drive typical headset levels (32Ω), as well as bias an RF power amplifier (PA) in wireless handset applications. The MAX4230 comes in a tiny 5-pin SC70 package and the MAX4231, single with shutdown, is offered in the 6-pin SC70 package. The dual op-amp MAX4233 is offered in the space-saving 10-bump UCSP™, providing the smallest footprint area for a dual op amp with shutdown. These op amps are designed to be part of the PA control circuitry, biasing RF PAs in wireless headsets. The MAX4231/MAX4233 offer a SHDN feature that drives the output low. This ensures that the RF PA is fully disabled when needed, preventing unconverted signals to the RF antenna. The MAX4230 family offers low offsets, wide bandwidth, and high-output drive in a tiny 2.1mm x 2.0mm spacesaving SC70 package. These parts are offered over the automotive temperature range (-40°C to +125°C).
MAX4230–MAX4234
元器件交易网
19-2164; Rev 4; 5/04
High-Output-Drive, 10MHz, 10V/µs, Rail-to-Rail I/O Op Amps with Shutdown in SC70
General Description
5-Pin SC70 (derate 3.1mW/°C above +70°C) ..............247mW 5-Pin SOT23 (derate 7.1mW/°C above +70°C)............571mW 6-Pin SC70 (derate 3.1mW/°C above +70°C) ..............245mW 6-Pin SOT23 (derate 8.7mW/°C above +70°C) ...........696mW 8-Pin SOT23 (derate 8.9mW/°C above +70°C) ...........714mW
ACS ABZZ ABA AAUV
Ordering Information continued at end of data sheet.
Typical Operating Circuit
DAC R
2.7V TO 5.5V
MAX4231 SHDN
C RF
ANTENNA
PA IOUT = 30mA
RISO
Applications
RF PA Biasing Controls in Handset Applications Portable/Battery-Powered Audio Applications Portable Headphone Speaker Drivers (32Ω) Audio Hands-Free Car Phones (Kits) Laptop/Notebook Computers/TFT Panels Sound Ports/Cards Set-Top Boxes Digital-to-Analog Converter Buffers Transformer/Line Drivers Motor Drivers