人造纤维短纤＜85%主要或仅与棉混纺色织布(HS55164300 )进出口分析报告

800-404-ATEC (2832) PANA-MAGNA-MIKE8500-ACCY01Accessory KitPart #Description QtyPANA-85HDC Hard Carry Case for 1MAGNA-MIKE8500PANA-85RPC Rubber Protective Case for 1PANA-MAGNA-MIKE8500PANA-801PR Probe for MagnaMike1PANA-80TB1 Target Balls, 1/16"1PANA-80TB2 Target Balls, 1/8"1PANA-80TB3 Target Balls, 3/16"1800-404-ATEC (2832)PANA-MAGNA-MIKE8500-ACCY01Accessory KitPart #Description QtyPANA-80PRS Probe Stand 1PANA-WINXL Software for Magna Mike1PANA-910-213A Manual, WinXL Software1PANA-910-198B Manual, MagnaMike 85001PANA-704-689-01 Cable, RS232, Special1PANA-238-083Cable, Probe1800-404-ATEC (2832)PANA-MAGNA-MIKE8500-ACCY01Accessory KitPart #Description QtyPANA-36CA Power Supply 1GENE-PC-5-15A Power Cord 120V 15A1PANA-80CAL-TB1Target Ball Alignment Fixture11/16" (Red Label)PANA-80CAL-TB2 Target Ball Alignment Fixture11/8" (Red Label)PANA-80CAL-TB3 Target Ball Alignment Fixture13/16" (Red Label)PANA-80CAL-010 Calibration Reference Fixture10.010" (Blue Label)800-404-ATEC (2832)PANA-MAGNA-MIKE8500-ACCY01Accessory KitPart #Description QtyPANA-80CAL-040Calibration Reference Fixture10.040" (Blue Label)PANA-80CAL-160 Calibration Reference Fixture10.160" (Blue Label)PANA-80ACC-BOX Accessory Box for 180CAL & 80TB Parts800-404-ATEC (2832) PANA-MAGNA-MIKE8500-ACCY02Accessory KitPart #Description QtyPANA-85HDC Hard Carry Case for 1MAGNA-MIKE8500PANA-85RPC Rubber Protective Case for 1PANA-MAGNA-MIKE8500PANA-802PR Probe for MagnaMike1PANA-80TB1 Target Balls, 1/16"1PANA-80TB2 Target Balls, 1/8"1PANA-80TB3 Target Balls, 3/16"1800-404-ATEC (2832)PANA-MAGNA-MIKE8500-ACCY02Accessory KitPart #Description QtyPANA-80PRS Probe Stand 1PANA-WINXL Software for Magna Mike1PANA-910-213A Manual, WinXL Software1PANA-910-198B Manual, MagnaMike 85001PANA-704-689-01 Cable, RS232, Special1PANA-238-081 Cable, Probe1800-404-ATEC (2832)PANA-MAGNA-MIKE8500-ACCY02Accessory KitPart #Description QtyPANA-36CA Power Supply 1GENE-PC-5-15A Power Cord 120V 15A1PANA-80CAL-TB1Target Ball Alignment Fixture11/16" (Red Label)PANA-80CAL-TB2 Target Ball Alignment Fixture11/8" (Red Label)PANA-80CAL-TB3 Target Ball Alignment Fixture13/16" (Red Label)PANA-80CAL-010 Calibration Reference Fixture10.010" (Blue Label)800-404-ATEC (2832)PANA-MAGNA-MIKE8500-ACCY02Accessory KitPart #Description QtyPANA-80CAL-040Calibration Reference Fixture10.040" (Blue Label)PANA-80CAL-160 Calibration Reference Fixture10.160" (Blue Label)PANA-80ACC-BOX Accessory Box for 180CAL & 80TB Parts。

General DescriptionThe MAX8510/MAX8511/MAX8512 ultra-low-noise, low-dropout (LDO) linear regulators are designed to deliver up to 120mA continuous output current. These regulators achieve a low 120mV dropout for 120mA load current. The MAX8510 uses an advanced architecture to achieve ultra-low output voltage noise of 11μV RMS and PSRR of 54dB at 100kHz.The MAX8511 does not require a bypass capacitor, hence achieving the smallest PC board area. The MAX8512’s output voltage can be adjusted with an external divider.The MAX8510/MAX8511 are preset to a variety of voltag-es in the 1.5V to 4.5V range. Designed with a P-channel MOSFET series pass transistor, the MAX8510/MAX8511/MAX8512 maintain very low ground current (40μA).The regulators are designed and optimized to work with low-value, low-cost ceramic capacitors. The MAX8510 requires only 1μF (typ) of output capacitance for stability with any load. When disabled, current consumption drops to below 1μA.Package options include a 5-pin SC70 and a tiny 2mm x 2mm x 0.8mm TDFN package.Applications●Cellular and Cordless Phones ●PDA and Palmtop Computers ●Base Stations●Bluetooth Portable Radios and Accessories ●Wireless LANs ●Digital Cameras ●Personal Stereos●Portable and Battery-Powered EquipmentFeatures●Space-Saving SC70 and TDFN (2mm x 2mm) Packages ●11μV RMS Output Noise at 100Hz to 100kHzBandwidth (MAX8510)●78dB PSRR at 1kHz (MAX8510) ●120mV Dropout at 120mA Load●Stable with 1μF Ceramic Capacitor for Any Load ●Guaranteed 120mA Output●Only Need Input and Output Capacitors (MAX8511) ●Output Voltages: 1.5V, 1.8V, 2.5V, 2.6V, 2.7V, 2.8V,2.85V, 3V,3.3V,4.5V (MAX8510/MAX8511) and Adjustable (MAX8512) ●Low 40μA Ground Current ●Excellent Load/Line Transient●Overcurrent and Thermal Protection19-2732; Rev 5; 5/19Output Voltage Selector Guide appears at end of data sheet.Ordering Information continued at end of data sheet.*xy is the output voltage code (see Output Voltage Selector Guide). Other versions between 1.5V and 4.5V are available in 100mV increments. Contact factory for other versions.+Denotes a lead(Pb)-free/RoHS-compliant package.T = Tape and reel.PART*TEMP RANGE PIN-PACKAGEMAX8510EXKxy+T -40°C to +85°C 5 SC70MAX8510/MAX8511/MAX8512Ultra-Low-Noise, High PSRR,Low-Dropout, 120mA Linear RegulatorsOrdering InformationClick here for production status of specific part numbers.IN to GND ................................................................-0.3V to +7V Output Short-Circuit Duration ...........................................Infinite OUT, SHDN to GND .....................................-0.3V to (IN + 0.3V)FB, BP , N.C. to GND ................................-0.3V to (OUT + 0.3V)Continuous Power Dissipation (T A = +70°C)5-Pin SC70 (derate 3.1mW/°C above +70°C) .............0.247W 8-Pin TDFN (derate 11.9mW/°C above = 70°C) .........0.953W Operating Temperature Range ...........................-40°C to +85°CMilitary Operating Temperature Range .............-55°C to +110°C Junction Temperature ......................................................+150°C Storage Temperature Range ............................-65°C to +150°C Lead Temperature (soldering, 10s) .................................+300°C Soldering Temperature (reflow) .......................................+260°C Lead (Pb)-free packages .................................................+260°C Packages containing lead (Pb) .......................................+240°C(Note 1)SC70Junction-to-Ambient Thermal Resistance (θJA ) ........324°C/W Junction-to-Case Thermal Resistance (θJC ) .............115°C/WTDFNJunction-to-Ambient Thermal Resistance (θJA ) .......83.9°C/W Junction-to-Case Thermal Resistance (θJC ) ...............37°C/W(V IN = V OUT + 0.5V, T A = -40°C to +85°C, unless otherwise noted. C IN = 1μF, C OUT = 1μF, C BP = 10nF. Typical values are at +25°C; the MAX8512 is tested with 2.45V output, unless otherwise noted.) (Note 2)PARAMETER SYMBOL CONDITIONSMIN TYPMAX UNITS Input Voltage Range V IN26VOutput Voltage Accuracy I OUT = 1mA, T A = +25°C-1+1%I OUT = 100µA to 80mA, T A = +25°C -2+2I OUT = 100µA to 80mA-3+3Maximum Output Current I OUT 120mA Current LimitI LIMV OUT = 90% of nominal value 130200300mA Dropout Voltage (Note 3)V OUT ≥ 3V, I OUT = 80mA 80170mVV OUT ≥ 3V, I OUT = 120mA1202.5V ≤ V OUT < 3V, I OUT = 80mA 902002.5V ≤ V OUT < 3V, I OUT = 120mA 1352V ≤ V OUT < 2.5V, I OUT = 80mA 1202502V ≤ V OUT < 2.5V, I OUT = 120mA180Ground Current I Q I OUT = 0.05mA4090µA V IN = V OUT (nom) - 0.1V, I OUT = 0mA 220500Line Regulation V LNR V IN = (V OUT + 0.5V) to 6V, I OUT = 0.1mA 0.001%/V Load RegulationV LDR I OUT = 1mA to 80mA 0.003%/mA Shutdown Supply CurrentI SHDNV SHDN = 0VT A = +25°C 0.0031µAT A = +85°C 0.05Ripple RejectionPSRRf = 1kHz, I OUT = 10mAMAX851078dBMAX8511/MAX851272f = 10kHz, I OUT = 10mA MAX851075MAX8511/MAX851265f = 100kHz, I OUT = 10mAMAX851054MAX8511/ MAX851246MAX8512Low-Dropout, 120mA Linear RegulatorsAbsolute Maximum RatingsStresses 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.Electrical CharacteristicsPackage Thermal Characteristics Note 1: Package thermal resistances were obtained using the method described in JEDEC specification JESD51-7, using a four-layerboard. For detailed information on package thermal considerations, refer to /thermal-tutorial .(V IN = V OUT + 0.5V, T A = -40°C to +85°C, unless otherwise noted. C IN = 1μF, C OUT = 1μF, C BP = 10nF. Typical values are at +25°C; the MAX8512 is tested with 2.45V output, unless otherwise noted.) (Note 2)Note 2: Limits are 100% tested at +25°C. Limits over operating temperature range are guaranteed by design.Note 3: Dropout is defined as V IN - V OUT when V OUT is 100mV below the value of V OUT for V IN = V OUT + 0.5V.Note 4: Time needed for V OUT to reach 90% of final value.(V IN = V OUT + 0.5V, C IN = 1μF, C OUT = 1μF, C BP = 10nF, T A = +25°C, unless otherwise noted.)PARAMETER SYMBOLCONDITIONSMINTYP MAXUNITSOutput Noise Voltage (RMS)f = 100Hz to 100kHz, I LOAD = 10mA MAX851011µVMAX8511/MAX8512230f = 100Hz to 100kHz, I LOAD = 80mA MAX851013MAX8511/MAX8512230Shutdown Exit Delay R LOAD = 50Ω (Note 4)300µs SHDN Logic Low Level V IN = 2V to 6V 0.4V SHDN Logic High Level V IN = 2V to 6V 1.5V SHDN Input Bias Current V IN = 6V, V SHDN = 0V or 6VT A = +25°C µA T A = +85°C 0.01FB Input Bias Current (MAX8512)V IN = 6V,V FB = 1.3VT A = +25°C 0.0060.1µA T A = +85°C0.01Thermal Shutdown 160°C Thermal-Shutdown Hysteresis10°C MAX8510OUTPUT VOLTAGE ACCURACYvs. LOAD CURRENTM A X 8510 t o c 02LOAD CURRENT (mA)% D E V I A T I O N (%)10080604020-0.4-0.200.20.40.6-0.60120MAX8510OUTPUT VOLTAGE ACCURACYvs. TEMPERATURETEMPERATURE (°C)% D E V I A T I O N (%)603510-15-0.8-0.6-0.4-0.200.20.40.60.81.0-1.0-4085MAX8510OUTPUT VOLTAGE vs. INPUT VOLTAGEINPUT VOLTAGE (V)O U T P U T V O L T A G E (V )543210.51.01.52.02.53.00.06MAX8512Low-Dropout, 120mA Linear RegulatorsElectrical Characteristics (continued)Typical Operating Characteristics(V IN = V OUT + 0.5V, C IN = 1μF, C OUT = 1μF, C BP = 10nF, T A = +25°C, unless otherwise noted.)MAX8510DROPOUT VOLTAGE vs. OUTPUT VOLTAGEOUTPUT (V)D R O P O U T V O L T A G E (m V )3.02.82.62.42.2501001502002502.03.2MAX8510GROUND PIN CURRENT vs. TEMPERATUREM A X 8510 t o c 08TEMPERATURE (°C)G R O U N D P I N C U R R E N T (µA )603510-153540455030-4085MAX8510OUTPUT NOISE400µs/divMAX8510GROUND PIN CURRENT vs. INPUT VOLTAGEINPUT VOLTAGE (V)G R O U N D P I N C U R R E N T (µA )43211502005010025030035005MAX8510PSRR vs. FREQUENCYFREQUENCY (kHz)P S R R (d B )1101000.14050601020307080900.011000MAX8510OUTPUT NOISE SPECTRAL DENSITYvs. FREQUENCYMAX8510 toc12FREQUENCY (kHz)O U T P U T N O I S E D E N S I T Y (n V /H z )0.11101001.E+031.E+021.E+041.E+010.011000MAX8510DROPOUT VOLTAGE vs. LOAD CURRENTLOAD CURRENT (mA)D R O P O U T V O L T A G E (m V )1008060402030609012015000120MAX8510GROUND PIN CURRENT vs. LOAD CURRENTLOAD CURRENT (mA)G R O U N D P I N C U R R E N T (µA )10080604020408012016020024000120MAX8511PSRR vs. FREQUENCYFREQUENCY (kHz)P S R R (d B )0.111010040506010203070809000.011000MAX8512Low-Dropout, 120mA Linear RegulatorsTypical Operating Characteristics (continued)(V IN = V OUT + 0.5V, C IN = 1μF, C OUT = 1μF, C BP = 10nF, T A= +25°C, unless otherwise noted.)MAX8510LOAD TRANSIENT RESPONSE1ms/div V OUT 10mV/divMAX8510EXITING SHUTDOWN WAVEFORM20µs/divV OUT = 2.85VR LOAD = 47ΩOUTPUT VOLTAGE 2V/divSHUTDOWN VOLTAGEMAX8510LOAD TRANSIENT RESPONSE NEAR DROPOUT1ms/divV OUT 10mV/divMAX8510ENTERING SHUTDOWN DELAY40µs/divC BP = 0.01µFOUTPUT VOLTAGE 2V/divSHUTDOWN VOLTAGEMAX8510REGION OF STABLE C OUT ESRvs. LOAD CURRENTM A X 8510 t o c 20LOAD CURRENT (mA)C O U T E S R (Ω)806040200.11101000.01120100STABLE REGIONMAX8510OUTPUT NOISE vs. BP CAPACITANCEM A X 8510 t o c 13BP CAPACITANCE (nF)O U T P U T N O I S E (µV )1051015202501100MAX8510LINE TRANSIENT RESPONSE200µs/divV IN = 3.5V TO 4VV OUT 2mV/divMAX8510SHUTDOWN EXIT DELAY20µs/divV OUT 1V/divSHUTDOWN VOLTAGEV OUT = 3V C BP = 100nFMAX8512Low-Dropout, 120mA Linear RegulatorsTypical Operating Characteristics (continued)Detailed DescriptionThe MAX8510/MAX8511/MAX8512 are ultra-low-noise, low-dropout, low-quiescent current linear regulators designed for space-restricted applications. The parts are available with preset output voltages ranging from 1.5V to 4.5V in 100mV increments. These devices can supply loads up to 120mA. As shown in the Functional Diagram , the MAX8510/MAX8511 consist of an innovative bandgap core and noise bypass circuit, error amplifier, P-channel pass transistor, and internal feedback voltage-divider. The MAX8512 allows for adjustable output with an external feedback network.The 1.225V bandgap reference is connected to the error amplifier’s inverting input. The error amplifier compares this reference with the feedback voltage and amplifies the difference. If the feedback voltage is lower than the refer-ence voltage, the pass-transistor gate is pulled low. This allows more current to pass to the output and increases the output voltage. If the feedback voltage is too high, the pass transistor gate is pulled high, allowing less cur-rent to pass to the output. The output voltage is fed back through an internal resistor voltage-divider connected to the OUT pin.An external bypass capacitor connected to BP (MAX8510) reduces noise at the output. Additional blocks include a current limiter, thermal sensor, and shutdown logic.Internal P-Channel Pass TransistorThe MAX8510/MAX8511/MAX8512 feature a 1Ω (typ) P-channel MOSFET pass transistor. This provides sev-eral advantages over similar designs using a PNP pass transistor, including longer battery life. The P-channel MOSFET requires no base drive, which considerably reduces quiescent current. PNP-based regulators waste considerable current in dropout when the pass transistor saturates. They also use high base-drive current under heavy loads. The MAX8510/MAX8511/MAX8512 do not suffer from these problems and consume only 40μA of quiescent current in light load and 220μA in dropout (see the Typical Operating Characteristics ).Output Voltage SelectionThe MAX8510/MAX8511 are supplied with factory-set output voltages from 1.5V to 4.5V, in 100mV increments (see Ordering Information ). The MAX8512 features a user-adjustable output through an external feedback net-work (see the Typical Operating Circuits ).To set the output of the MAX8512, use the following equa-tion:OUT REF V R1R2X -1V=where R2 is chosen to be less than 240kΩ and V REF = 1.225V. Use 1% or better resistors.PINNAMEFUNCTIONMAX8510MAX8511MAX8512SC70TDFN -EP SC70TDFN -EP SC70TDFN -EP 151515IN Unregulated Input Supply 232323GNDGround343434SHDN Shutdown. Pull low to disable the regulator.42————BP Noise Bypass for Low-Noise Operation. Connect a 10nF capacitor from BP to OUT. BP is shorted to OUT in shutdown mode.————42FB Adjustable Output Feedback Point575757OUT Regulated Output Voltage. Bypass with a capacitor to GND. See the Capacitor Selection and Regulator Stability section for more details.—1, 6, 841, 2, 6,—1, 6, 8N.C.No connection. Not internally connected.——————EPExposed Pad (TDFN Only). Internally connected to GND. Connect to a large ground plane to maximize thermal performance. Not intended as an electrical connection point.MAX8512Low-Dropout, 120mA Linear RegulatorsPin DescriptionShutdownThe MAX8510/MAX8511/MAX8512 feature a low-power shutdown mode that reduces quiescent current less than 1μA. Driving SHDN low disables the voltage reference, error amplifier, gate-drive circuitry, and pass transistor (see the Functional Diagram), and the device output enters a high-impedance state. Connect SHDN to IN for normal operation.Current LimitThe MAX8510/MAX8511/MAX8512 include a current lim-iter, which monitors and controls the pass transistor’s gate voltage, limiting the output current to 200mA. For design purposes, consider the current limit to be 130mA (min) to 300mA (max). The output can be shorted to ground for an indefinite amount of time without damaging the part. Thermal-Overload ProtectionThermal-overload protection limits total power dissipation in the MAX8510/MAX8511/MAX8512. When the junction temperature exceeds T J = +160°C, the thermal sensor signals the shutdown logic, turning off the pass transis-tor and allowing the IC to cool down. The thermal sensor turns the pass transistor on again after the IC’s junction temperature drops by 10°C, resulting in a pulsed output during continuous thermal-overload conditions.Thermal-overload protection is designed to protect the MAX8510/MAX8511/MAX8512 in the event of a fault con-dition. For continual operation, do not exceed the abso-lute maximum junction temperature rating of T J = +150°C. Operating Region and Power DissipationThe MAX8510/MAX8511/MAX8512 maximum power dis-sipation depends on the thermal resistance of the case and circuit board, the temperature difference between the die junction and ambient, and the rate of airflow. The power dissipation across the device is:P = I OUT (V IN - V OUT)The maximum power dissipation is:P MAX = (T J - T A) / (θJC + θCA)where T J - T A is the temperature difference between the MAX8510/MAX8511/MAX8512 die junction and the sur-rounding air, θJC is the thermal resistance of the package, and θCA is the thermal resistance through the PC board, copper traces, and other materials to the surrounding air. The GND pin of the MAX8510/MAX8511/MAX8512 per-forms the dual function of providing an electrical connec-tion to ground and channeling heat away. Connect the GND pin to ground using a large pad or ground plane.Noise ReductionFor the MAX8510, an external 0.01μF bypass capaci-tor between BP and OUT with innovative noise bypass scheme reduces output noises dramatically, exhibiting 11μV RMS of output voltage noise with C BP = 0.01μF and C OUT = 1μF. Startup time is minimized by a poweron cir-cuit that precharges the bypass capacitor. Applications InformationCapacitor Selectionand Regulator StabilityUse a 1μF capacitor on the MAX8510/MAX8511/MAX8512 input and a 1μF capacitor on the output. Larger input capacitor values and lower ESRs provide better noise rejection and line-transient response. Reduce output noise and improve load-transient response, stability, and power-supply rejection by using large output capacitors. Note that some ceramic dielectrics exhibit large capaci-tance and ESR variation with temperature. With dielec-trics such as Z5U and Y5V, it may be necessary to use a 2.2μF or larger output capacitor to ensure stability at temperatures below -10°C. With X7R or X5R dielectrics, 1μF is sufficient at all operating temperatures. A graph of the region of stable C OUT ESR vs. load current is shown in the Typical Operating Characteristics.Use a 0.01μF bypass capacitor at BP (MAX8510) for low-output voltage noise. The leakage current going into the BP pin should be less than 10nA. Increasing the capaci-tance slightly decreases the output noise. Values above 0.1μF and below 0.001μF are not recommended. Noise, PSRR, and Transient ResponseThe MAX8510/MAX8511/MAX8512 are designed to deliv-er ultra-low noise and high PSRR, as well as low dropout and low quiescent currents in battery-powered systems. The MAX8510 power-supply rejection is 78dB at 1kHz and 54dB at 100kHz. The MAX8511/MAX8512 PSRR is 72dB at 1kHz and 46dB at 100kHz (see the Power-Supply Rejection Ratio vs. Frequency graph in the Typical Operating Characteristics).When operating from sources other than batteries, improved supply-noise rejection and transient response can be achieved by increasing the values of the input and output bypass capacitors, and through passive filter-ing techniques. The Typical Operating Characteristics show the MAX8510/MAX8511/MAX8512 line- and load-transient responses.MAX8512Low-Dropout, 120mA Linear RegulatorsDropout VoltageA regulator’s minimum dropout voltage determines the lowest usable supply voltage. In battery-powered sys-tems, this determines the useful end-of-life battery volt-age. Because the MAX8510/MAX8511/MAX8512 use aP-channel MOSFET pass transistor, their dropout voltage is a function of drain-to-source on-resistance (RDS(ON)) multiplied by the load current (see the Typical Operating Characteristics ).MAX8512Low-Dropout, 120mA Linear RegulatorsFunctional Diagram*xy is the output voltage code (see Output Voltage Selector Guide). Other versions between 1.5V and 4.5V are available in 100mV increments. Contact factory for other versions.**EP = Exposed pad.+Denotes a lead(Pb)-free/RoHS-compliant package.T = Tape and reel.(Note: Standard output voltage options, shown in bold , are available. Contact the factory for other output voltages between 1.5V and 4.5V. Minimum order quantity is 15,000 units.)PART*TEMP RANGE PIN-PACKAGE MAX8510MXK33/PR3+-55°C to +110°C 5 SC70MAX8510ETAxy+T -40°C to +85°C 8 TDFN-EP** 2mm x 2mm MAX8511EXKxy+T -40°C to +85°C 5 SC70MAX8511ETAxy+T -40°C to +85°C 8 TDFN-EP** 2mm x 2mm MAX8512EXK+T -40°C to +85°C 5 SC70MAX8512ETA+T-40°C to +85°C8 TDFN-EP** 2mm x 2mmPARTV OUT (V)TOP MARKMAX8510EXK16+T 1.6AEX MAX8510EXK18+T 1.8AEA MAX8510ETA25+T 2.5AAO MAX8510EXK27+T 2.7ATD MAX8510ETA28+T 2.8AAR MAX8510EXK29+T 2.85ADS MAX8510MXK33/PR3+ 3.3AUV MAX8510ETA30+T 3AAS MAX8510ETA33+T 3.3AAT MAX8510ETA45+T 4.5AAU MAX8510MXK33/PR3+ 3.3AUV MAX8511EXK15+T 1.5ADU MAX8511ETA18+T 1.8AAV MAX8511ETA25+T 2.5AAP MAX8511ETA26+T 2.6AAW MAX8511EXK28+T 2.8AFA MAX8511ETA29+T 2.85AAX MAX8511EXK89+T 2.9AEH MAX8511EXK31+T 3.1ARS MAX8511ETA33+T 3.3AAY MAX8511EXK45+T4.5AEJ MAX8512ETA+TAdjustableAAQPACKAGE TYPE PACKAGE CODE OUTLINE ND PATTERN NO.8 TDFN T822+121-016890-00645 SC70X5+121-007690-0188MAX8512Low-Dropout, 120mA Linear RegulatorsTypical Operating Circuits (continued)Ordering Information (continued)Output Voltage Selector GuidePackage InformationFor the latest package outline information and land patterns (footprints), go to /packages . Note that a “+”, “#”, or “-” in the package code indicates RoHS status only. Package drawings may show a different suffix character, but the drawing pertains to the package regardless of RoHS status.Chip InformationPROCESS: BiCMOSREVISION NUMBERREVISION DATE DESCRIPTIONPAGES CHANGED 48/11Corrected errors and added lead-free packages 1, 2, 3, 6, 955/19Updated Output Voltage Selector Guide9Maxim Integrated cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim Integrated product. No circuit patent licenses are implied. Maxim Integrated reserves the right to change the circuitry and specifications without notice at any time. The parametric values (min and max limits) shown in the Electrical Characteristics table are guaranteed. Other parametric values quoted in this data sheet are provided for guidance.MAX8512Low-Dropout, 120mA Linear RegulatorsRevision HistoryFor pricing, delivery, and ordering information, please visit Maxim Integrated’s online storefront at https:///en/storefront/storefront.html.。

MR850, MR851, MR852,MR854, MR856MR852 and MR856 are Preferred DevicesAxial Lead FastRecovery RectifiersAxial lead mounted fast recovery power rectifiers are designed for special applications such as dc power supplies, inverters, converters,ultrasonic systems, choppers, low RF interference and free wheeling diodes. A complete line of fast recovery rectifiers having typical recovery time of 100 nanoseconds providing high efficiency at frequencies to 250kHz.Features•These are Pb−Free Devices*Mechanical Characteristics:•Case: Epoxy, Molded•Weight: 1.1 Gram (Approximately)•Finish: All External Surfaces Corrosion Resistant and Terminal Leads are Readily Solderable•Lead Temperature for Soldering Purposes:260°C Max. for 10 Seconds•Available Tape and Reel, 1200 per Reel, by adding a “RL” Suffix to the Part Number•Polarity: Cathode Indicated by Polarity Band*For additional information on our Pb−Free strategy and soldering details, please download the ON Semiconductor Soldering and Mounting Techniques Reference Manual, SOLDERRM/D.Preferred devices are recommended choices for future use and best overall value.A=Assembly LocationMR85x=Device Numberx = 0, 1, 2, 4 or 6YY=YearWW=Work WeekG=Pb−Free PackageMARKING DIAGRAMAMR85xYYWW GGSee detailed ordering and shipping information in the package dimensions section on page 3 of this data sheet.ORDERING INFORMATION(Note: Microdot may be in either location)MAXIMUM RATINGSRatingSymbol MR850MR851MR852MR854MR856Unit Peak Repetitive Reverse Voltage Working Peak Reverse Voltage DC Blocking Voltage V RRM V RWM V R 50100200400600VNon−Repetitive Peak Reverse Voltage V RSM 75150250450650V RMS Reverse VoltageV R(RMS)3570140280420V Average Rectified Forward Current(Single phase resistive load, T A = 80°C)I O 3.0A Non−Repetitive Peak Surge Current(Surge Applied at Rated Load Conditions)I FSM 100(one cycle)A Operating and Storage Junction Temperature RangeT J , T stg−65 to +125−65 to +150°CStresses exceeding Maximum Ratings may damage the device. Maximum Ratings are stress ratings only. Functional operation above the Recommended Operating Conditions is not implied. Extended exposure to stresses above the Recommended Operating Conditions may affect device reliability.THERMAL CHARACTERISTICSCharacteristicSymbol Max Unit Thermal Resistance, Junction−to−Ambient(Recommended Printed Circuit Board Mounting)R q JA28°C/WELECTRICAL CHARACTERISTICSREVERSE RECOVERY CHARACTERISTICSCharacteristicSymbol Min Typ Max Unit Reverse Recovery Time(I F = 1.0 A to V R = 30 Vdc)(I F = 15 A, di/dt = 10 A/m s)t rr−−100150200300nsReverse Recovery Current (I F = 1.0 A to V R = 30 Vdc)I RM(REC)−−2.0AORDERING INFORMATIONDevice Package Shipping†MR850Axial Lead*500 Units / BoxMR851Axial Lead*500 Units / BoxMR851G Axial Lead*500 Units / BoxMR851RL Axial Lead*1200 / Tape & ReelMR851RLG Axial Lead*1200 / Tape & ReelMR852Axial Lead*500 Units / BoxMR852G Axial Lead*500 Units / BoxMR852RL Axial Lead*1200 / Tape & ReelMR852RLG Axial Lead*1200 / Tape & ReelMR854Axial Lead*500 Units / BoxMR854G Axial Lead*500 Units / BoxMR854RL Axial Lead*1200 / Tape & ReelMR854RLG Axial Lead*1200 / Tape & ReelMR856Axial Lead*500 Units / BoxMR856G Axial Lead*500 Units / BoxMR856FF Axial Lead*500 Units / Fan−FoldMR856FFG Axial Lead*500 Units / Fan−FoldMR856RL Axial Lead*1200 / Tape & ReelMR856RLG Axial Lead*1200 / Tape & Reel†For information on tape and reel specifications, including part orientation and tape sizes, please refer to our Tape and Reel Packaging Specifications Brochure, BRD8011/D.*These packages are inherently Pb−Free.PACKAGE DIMENSIONSAXIAL LEAD CASE 267−05(DO−201AD)ISSUE GNOTES:1.DIMENSIONING AND TOLERANCING PER ANSI Y14.5M, 1982.2.CONTROLLING DIMENSION: INCH.STYLE 1:PIN 1.CATHODE (POLARITY BAND)2.ANODEDIM MIN MAX MIN MAX MILLIMETERSINCHES A 0.2870.3747.309.50B 0.1890.209 4.80 5.30D 0.0470.051 1.20 1.30K1.000−−−25.40−−−ON Semiconductor and are registered trademarks of Semiconductor Components Industries, LLC (SCILLC). SCILLC reserves the right to make changes without further notice to any products herein. SCILLC makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does SCILLC assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation special, consequential or incidental damages.“Typical” parameters which may be provided in SCILLC data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. All operating parameters, including “Typicals” must be validated for each customer application by customer’s technical experts. SCILLC does not convey any license under its patent rights nor the rights of others. SCILLC products are not designed, intended, or authorized for use as components in systems intended for surgical implant into the body, or other applications intended to support or sustain life, or for any other application in which the failure of the SCILLC product could create a situation where personal injury or death may occur. Should Buyer purchase or use SCILLC products for any such unintended or unauthorized application, Buyer shall indemnify and hold SCILLC and its officers, employees, subsidiaries, affiliates,and distributors harmless against all claims, costs, damages, and expenses, and reasonable attorney fees arising out of, directly or indirectly, any claim of personal injury or death associated with such unintended or unauthorized use, even if such claim alleges that SCILLC was negligent regarding the design or manufacture of the part. SCILLC is an Equal Opportunity/Affirmative Action Employer. This literature is subject to all applicable copyright laws and is not for resale in any manner.PUBLICATION ORDERING INFORMATION。

Identity Number K1.0024074Model ALEXA Mini LFSensor Type Large Format ARRI ALEV III (A2X) CMOS sensor with Bayer pattern colorfilter arraySensor Maximum Resolution and Size4448 x 309636.70 x 25.54 mm / 1.444 x 1.005"⌀ 44.71 mm / 1.760"Sensor Frame Rates0.75 - 90 fpsWeight∼2.6 kg / ∼5.7 lbs(camera body with LPL lens mount)800 g (MVF-2)Photosite Pitch8.25 μmSensor Active Image Area Photosites LF Open Gate ProRes 4.5K: 4448 x 3096LF Open Gate ARRIRAW 4.5K: 4448 x 3096LF 16:9 ProRes HD: 3840 x 2160LF 16:9 ProRes 2K: 3840 x 2160LF 16:9 ProRes UHD: 3840 x 2160LF 16:9 ARRIRAW UHD: 3840 x 2160LF 2.39:1 ProRes 4.5K: 4448 x 1856LF 2.39:1 ARRIRAW 4.5K: 4448 x 1856Sensor Active Image Area Dimensions LF Open Gate ProRes 4.5K: 36.70 x 25.54 mm / 1.445 x 1.006"LF Open Gate ARRIRAW 4.5K: 36.70 x 25.54 mm / 1.445 x 1.006"LF 16:9 ProRes HD: 31.68 x 17.82 mm / 1.247 x 0.702"LF 16:9 ProRes 2K: 31.68 x 17.82 mm / 1.247 x 0.702"LF 16:9 ProRes UHD: 31.68 x 17.82 mm / 1.247 x 0.702"LF 16:9 ARRIRAW UHD: 31.68 x 17.82 mm / 1.247 x 0.702"LF 2.39:1 ProRes 4.5K: 36.70 x 15.31 mm / 1.445 x 0.603"LF 2.39:1 ARRIRAW 4.5K: 36.70 x 15.31 mm / 1.445 x 0.603" Recording File Container Size LF Open Gate ProRes 4.5K: 4480 x 3096LF Open Gate ARRIRAW 4.5K: 4448 x 3096LF 16:9 ProRes HD: 1920 x 1080LF 16:9 ProRes 2K: 2048 x 1152LF 16:9 ProRes UHD: 3840 x 2160LF 16:9 ARRIRAW UHD: 3840 x 2160LF 2.39:1 ProRes 4.5K: 4480 x 1856LF 2.39:1 ARRIRAW 4.5K: 4448 x 1856Recording File Image Content LF Open Gate ProRes 4.5K: 4448 x 3096LF Open Gate ARRIRAW 4.5K: 4448 x 3096LF 16:9 ProRes HD: 1920 x 1080LF 16:9 ProRes 2K: 2048 x 1152LF 16:9 ProRes UHD: 3840 x 2160LF 16:9 ARRIRAW UHD: 3840 x 2160LF 2.39:1 ProRes 4.5K: 4448 x 1856LF 2.39:1 ARRIRAW 4.5K: 4448 x 1856Exposure Latitude14+ stops over the entire sensitivity range from EI 160 to EI 3200 asmeasured with the ARRI Dynamic Range Test Chart (DRTC-1) Exposure Index Adjustable from EI 160-3200 in 1/3 stopsEI 800 base sensitivityShutter Electronic shutter, 5.0°- 356° or 1s - 1/8000sRecording Formats MXF/ARRIRAWMXF/Apple ProRes 4444 XQMXF/Apple ProRes 4444MXF/Apple ProRes 422 HQRecording Media Codex Compact DrivesRecording Frame Rates LF Open Gate ProRes 4.5K: 0.75 - 40 fpsLF Open Gate ARRIRAW 4.5K: 0.75 - 40 fpsLF 16:9 ProRes HD: 0.75 - 90 fpsLF 16:9 ProRes 2K: 0.75 - 90 fpsLF 16:9 ProRes UHD: 0.75 - 60 fpsLF 16:9 ARRIRAW UHD: 0.75 - 60 fpsLF 2.39:1 ProRes 4.5K: 0.75 - 60 fpsLF 2.39:1 ARRIRAW 4.5K: 0.75 - 60 fpsNote: maximum fps values are preliminary informationRecording Modes Standard real-time recordingNo Pre-recordingNo IntervalometerViewfinder Type Multi Viewfinder MVF-2 with 4" flip-out monitorViewfinder Technology OLED viewfinder displayLCD fold out monitorViewfinder Resolution Pixel1920 x 1080Viewfinder Diopter Adjustable from -5 to +5 dioptersColor Output Rec 709Rec 2020Log CCustom Look (ARRI Look File ALF-2)Look Control Import of custom 3D LUTASC CDL parameters (slope, offset, power, saturation)White Balance Manual and auto white balance, adjustable from 2000K to 11000K in 10KstepsColor correction adjustable range from -16 to +16 CC1 CC corresponds to 035 Kodak CC values or 1/8 Rosco valuesFilters Built-in motorized ND filters 0.6, 1.2, 1.8Fixed optical low pass, UV, IR filterImage Outputs 1x proprietary signal output for MVF-2 viewfinder on VF CoaXPressconnector (video, audio, power, control signals)SDI 1:-HD only, Processed or Clean, with or without a look file applied-1.5G 422 HD (SMPTE ST292-1, up to 30 fps, progessive (p) or progressivesegmented frame (psf))-3G 422 HD (SMPTE ST425-1, up to 60 fps, p)-3G 444 HD (SMPTE ST425-3, up to 30 fps, p)SDI 2:-HD or UHD, Clean only, with or without a look file applied, or SDI 1 clone-1.5G 422 HD (SMPTE ST292-1, up to 30 fps, p or psf)-3G 422 HD (SMPTE ST425-1, up to 60 fps, p)-3G 444 HD (SMPTE ST425-3, up to 30 fps, p)-6G 422 UHD (SMPTE ST2081-10, up to 30 fps, p)“Clean” is an image without surround view or overlays (status, false color,zebra, framelines, etc.)“Processed” is an image with surround view or overlays.Lens Squeeze Factors 1.001.251.301.501.651.802.00Exposure and Focus Tools False ColorZebraZoomAperture and Color PeakingAudio Input1x LEMO 6pin balanced stereo line in with 12V power output(Line input max. level +24dBu correlating to 0dBFS)Audio Output SDI (embedded)3,5mm stereo headphone jack (on MVF-2)Audio Recording 2 channel linear PCM, 24 bit 48 kHzRemote Control Options MVF-2 viewfinder can act as wired remote control with 10m/33ft cableWeb-based remote control from smart phones, tablets and laptops viaWiFi & Ethernet (beta version)Camera Access Protocol (CAP) via Ethernet & WiFiGPIO interface for integration with custom control interfacesWCU-4 hand-unit with control over lens motors and operationalparameters via built-in white radioSXU-1 hand-unit with control over one lens channelOCU-1 and Master Grip control of lens and user buttonsInterfaces1x LEMO 5pin LTC Timecode In/Out1x LEMO 10pin Ethernet for remote control and service1x BNC SYNC IN1x LEMO 7pin EXT multi purpose accessory interface w. RS pin and 24Vpower output1x LEMO 4pin LBUS (on lens mount) for lens motors, daisy chainable1x USB 2.0 in media bay (for user setups, look files etc)Wireless Interfaces Built-in WiFi module (IEEE 802.11b/g)Built-in White Radio for ARRI lens and camera remote controlLens Mounts LPL lens mount with LBUS connectorPL-to-LPL adapterLeitz M mount (available from Leitz)Flange Focal Depth LPL mount: 44 mmwith PL-to-LPL adapter: 52 mmPower Input1x LEMO 8pin (11-34 V DC)Power Consumption Around 65 W when recording ARRIRAW at 24 fps with MVF-2 attached(preliminary information)Power Outputs 1x Fischer 3pin 24V RS1x LEMO 2pin 12V1x LEMO 7pin EXT 24V power outputPower Management-Measurements HxWxL140 x 143 x 188 mm / 5.5 x 5.6 x 7.4"(camera body with LPL lens mount)Operating Temperature-20° C to +45° C / -4° F to +113° F @ 95% relative humidity max, noncondensing, splash and dust proof through sealed electronics Storage Temperature-30° C to +70° C / -22° F to +158° FSound Level< 20 dB(A) at 24fpsSoftware Licenses-。

The 8588A Reference Multimeter is the world’s most stable digitizing multi-meter. Designed for calibration laboratories, this long-scale high-precision reference multi-meter features superior accuracy and long-term stability over a wide measurement range, with an intuitive user interface and a color display.The 8588A delivers reliable and reproducible measurements with exceptional performance suitable for primary levellaboratories. With more than 12 measurement functions, includ-ing the new digitize voltage, digitize current, capacitance, RF power, and external shunts for dc and ac current, the 8588A helps you consolidate your lab’s cost of test into a single mea-surement instrument. Its superb analog performance is aug-mented by Fluke Calibration’s new high-speed system design and the industry’s fastest direct digitizing capability, enabling significant throughput increase for many automated systems demanding a combination of the highest speed and best accuracy.The 8588A holds the indus-try’s best one-year dc voltage accuracy of 2.7 uV/V at 95 % confidence interval, or3.5 uV /V at 99 %, and best 24-hour stability of 0.5 uV/V (95 %) or 0.65 uV/V (99 %),enabling it to outperform other long-scale reference multimeters on the market. The 8588A fur-ther pushes the speed envelope by producing a stable 8.5 digits reading in a mere one second.The 8588A platform consists of two models. The 8588A and 8558A both feature a common intuitive user interface with an easy-to-navigate menu struc-ture for all configurations and a set of matching SCPI-compliantcommands for automated envi-ronments. In addition, both models support a minimum of 100,000 readings per second at 4.5 digits across GPIB, USB or Ethernet.TECHNICAL DATA8588A Reference Multimeter8558A 8.5-Digit Multimeter8588A: The world’s most stable digitizing multimeterThe 8588A is designed for calibration and metrology laboratories that require the highest stability for the most accurate measurements to maintain maximum confidence in traceability.8558A: The industry’s fastest direct 5 mega-samples-per-second digitizing for system automation in labs and manufacturing test environmentsThe 8558A offers a subset of 8588A functions and features at an extremely competitive accuracy and speed performance.8588A key features and performanceDC voltage• 100 mV to 1000 V, (1050 V max)• 2.02x full scale• Maximum resolution: 1 nV • 2.7 μV/V (95 %) 3.5 µV/V (99 %), 1 year• 0.5 μV/V (95 %) 0.65 µV/V (99 %), 24 hour stability • 0 to 10 s reading aperture (200 ns resolution)DC current• 10 uA to 30 A• 2.02x full scale• Maximum resolution: 1 pA • 6.5 µA/V (95 %), 8.4 µA/V (99 %), 1 year• 0 to 10 s reading aperture (200 ns resolution)AC voltage• 10 mV to 1000 V, 1 Hz to 10 MHz, (1050 Vrms max)• 2.02x full scale Vpp, 1.2x full scale Vrms• Maximum resolution: 1 nV • 60 µV/V (95 %), 77 µV/V (99 %), 1 yearAC current• 10 uA to 30 A• 2.02x full scale Vpp, 1 Hz to 100 kHz 1.2x FS Vrms• Maximum resolution: 1 pA • 250 µA/V (95 %), 323 µA/V (99 %), 1 year Resistance• 1Ω to 10 GΩ (20 GΩ max) • 2.02x full scale• Maximum resolution: 10 nΩ• 7 µΩ/Ω (95 %), 9 µΩ/Ω (99 %), 1 year• Low current mode,high voltage mode and current-reversal Tru Ohms™Digitize V• 100 mV to 1000 V, (1050 Vmax)• 2.02x full scale• Maximum resolution: 18 bits• 5 mega-samples per secondsample rate• Up to 20 MHz bandwidthDigitize I• 10 µA to 30 A• 2.02x full scale• Maximum resolution: 18 bits• 5 mega-samples per secondsample rate• Up to 4 MHz bandwidthFrequency or period• Voltage, up to 10 MHz• Current, up to 100 kHz• Frequency up to 100 MHzon BNC• 0.5 µHz/Hz, 1 yearCapacitance• 1 nF to 100 mF• 400 µF/F, 1 yearTemperature• PRT and thermocouple• 5 mK PRT, 25 mK TC, 1 yearRF power• Rhode & Schwarz NRP seriesDC I and AC I external shunt• A40B and any other externalshuntReading speed• 1reading/**************memory• 100,000readings/*****digit into memory• Up to 5,000,000 (5 MS/s)readings /s into volatilememory in digitize V and I• Up to 500,000 readings/stransfer through USB inbinary formatMeasurement memory• 15 million readings volitile• 7.5 million readings volitilewith time stamp* 16 GB non-volitileGPIB, USBTMC, Ethernet• Native SCPI compliant remotecommands• 8508A and 3458A emulationmode• Fully support MET/CAL™ cali-bration procedures library inFluke 8508A emulation• IVI driver• USB thumb drive for conve-nient data transfer in .csvformatTrigger mechanisms• Manual trigger• External BNC Trig In andTrig Out• Internal or level trigger• Timer trigger• Epoch trigger• Line trigger• BUS triggerCE and CSA compliantComparing the 8588A and the 8558AComparing the 8588A and the 8558AStability, simplicity and performance by design The 8588A incorporates excep-tional linearity, low noise and stability in the design. This best-in-class long-scale digital reference multimeter guarantees superior 3.5 ppm one-year dc voltage relative accuracy at99 % confidence level and long-term stability over awide measurement range and functions.The 8588A contains the world’s most stable voltage references and attenuators custom crafted at Fluke Cali-bration. These precision components eliminate the need for daily internal self-calibration to compensate for drift when less-precise components are used. Autozeroing also becomes unnecessary because the ampli-fier offsets are ultra-stable. The 8588A achieves an exceptional 8.5-digit resolution reading in one second, two times shorter than the next best in class, which amounts to considerable productivity improvements.The 8588A is easy and intui-tive to use. It is the ideal lab multimeter for metrologists and calibration laboratory manag-ers who expect and appreciate a straightforward setup that quickly achieves the maximum performance of the instrument.• 3.5 µV/V (99 %), 1 year relative accuracy, dc voltage, without internal self-calibra-tion or auto-adjustments • 0.65 µV/V (99 %), 24 hour stability, dc voltage• 9 µΩ/Ω (99 %), 1 year, resistance• 2.02x full scale stretches lower noise floor to higher signal levels to maximize higher accuracies from the instrument• 0 ns to 100 s aperture setting allows the industry’s widest flexibility to control data capture window Accuracy, offset andstability provide excellentac performanceThe 8588A provides the mostaccurate true ac rms mea-surement available in a FlukeCalibration multimeter.With a 5 mega-sam-ples-per-second samplinganalog-to-digital converterand an extraordinarily stabledc analog path, the 8588Aachieves remarkable ac rmsmeasurement performance thatis ten times faster, two timesless noisy, and more sensitivefor low level signals than otherinstruments in this class. Itutilizes digital rms calculationsto maintain full resolution of awide dynamic range of digitizedsignals.Rapid digital filters are moreeffective than their analogequivalents for faster settling.The digital filters eliminate thedielectric absorption on analogfilters, commonly associatedwith residual slow-tail char-acteristics. The digital filterseffectively shorten settling timeto within 6 cycles of the filterfrequency and less than 1 ppmof the fully settled value. This isup to 10 times faster than otherlong-scale precision digital mul-timeters at low frequencies.Low noise is achieved fromaveraging the collected high-resolution digitized data andthe inherently stable signalpath. De-coupling low levelsignal sensitivity from tempera-ture drift enables the 8588A tomake high accuracy low-levelac measurements. Therefore,temperature drift, offsets, andlong-term instability typicallyassociated with an analog rmsconverter are eliminated.• 77 µV/V (99 %), 1 yearrelative accuracy, for themost accurate ac voltagemeasurement• 323 µA/A (99 %), 1 yearrelative accuracy, ac current• 15 ms settling time at1 kHz ac filter accom-plishes 10x faster ac voltagemeasurement• 2.02x full scale Vpp, 1.2x fullscale Vrms• Up to 30 A for peak accurrent greatly extends accurrent measurement rangeAC voltage measurementAC voltage measurement settingsSoft menu keysLarge, bright full color display30 A terminal™ terminalsThe intuitive user interface and flatmenu structure makes it easy to access configurations and view trend plots,waveforms, FFT, histogram and statistics.easy to learn.Enables industry's widest current measurement range through a single terminal.Multi-language selectionChoice of English, Chinese, French,Japanese, Korean, Russian and Spanish.and easily to a flash drive.Run/Stop triggerToggles the continuous, or free run, measurement state.easily to a flash drive.Usability designed for metrologists by metrologistsThe 8588A is the ideal lab multimeter. It streamlines the measurement process while eliminating misunderstandings, with an easy-to-access user interface in English, Chinese, French, German, Japanese, Korean, Russian and Spanish. An intuitive graphical display lets you easily visualize trends, histograms, complex waveforms, and statistics and perform routine metrology tasks quickly. You can perform both real-time and post-capture analysis for short-term and long-term stabil-ity, identifying and quantifying drifts, run-around noise and uncertainty analysis without the need for an external com-puter or software. You can also quickly visualize post-processed frequency domain signals of fundamental and harmonic amplitude and phase content.Some popular system mul-timeters have complex menustructures and unintuitive com-mands, while others lack anyuser interface, presenting bar-riers to training and operation.By contrast, the 8588A/8558A feature an easy-to-access con-figuration menu that makes it easy to train new users.The front panel features many new usability improve-ments. Visual ConnectionManagement™ output terminals light up to show which termi-nals are active, guiding the user to make the correct connections. The handles are over-molded for comfort and easy transport. USB host ports are placed both on the front and rear of the instrument. Use the ports to export data to external memory devices or simplify firmware updates. For remote communi-cation with a PC, choose from Ethernet, GPIB or USBTMC con-nectors on the rear panel.The 8558A/8558A provide full emulation of the Fluke8508A Reference Multimeter and command compatibility of the Keysight 3458A Digital Multimeter via SCPI commands, making it an ideal replacement for these older instruments.• Graphical display thatenables instantaneousvisualization of trend plot, Trend plotAnalyze: Histogramstatistical analysis, histogramand FFT.• GPIB, USBTMC, Ethernetallows industry standard selection of remote interface.• USB thumb drive enablesquick and easy data transfer to PC in .csv format.• SCPI compliant commandswith 8508A and 3458A emulation mode sim-plifies and accelerates system upgrade process to 8588A/8558A• Programmable front/rearinput switching with scan measurement allows ratio, difference and deviationmeasurements between front and rear terminals in dc voltage and resistance, func-tions with state-of-the-art linearity, noise performance, superb transfer uncertainties. • Capacitance and RF powermeter readout from Rohde & Schwarz NRP Seriesexpands the utility of 8588A in calibrating multi-product calibrators for improved pro-ductivity in calibration labs.Accurate data, delivered amazingly fastShorter test time on the8588A/8558A high-speed digital platform enables you to increase throughput, improve yield and realize a greater return on your investment.The 8588A/8558A digitizesto memory at 200 nanosec-onds per reading and delivers 4.5 digit data to a PC via USB, Ethernet and GPIB at 100,000 readings per second. Fast, high resolution data capture gives you the quantity and quality of information you need to make timely, correct decisions affect-ing system throughput and efficiency.• 0 ns to 100 s aperture setting allows industry’s widest flex-ibility to control data capture window• Reading speed: 1 reading /s @ 8.5 digits to 100,000 reading/***********• Data transfer from memory to PC: up to 500,000 readings /s in binary format through USB, up to 200,000 through Ethernet and GPIBDebug and perfect your device under testThe 8588A/8558A features a5 mega-sample digitizing rate with up to 20 MHz analog band-width, making it the first and only instrument on the market that can characterize extremely low level transient signals at 18-bit resolution. This capabil-ity makes it easier to debug designs, uncover anomalies and perfect your devices under test for use in real life environments.• Voltage sensitivity to hun-dreds of nV and current sensitivity to hundreds of pA allows you uncover ultra-low level transient signals• Up to 20 MHz bandwidth for voltage and 4 MHz for current retains high bandwidth con-tent of the signal measured • 18-bit SAR analog-to-digital converter that achieves 5 mega-samples per second • 5 mega-samples per secondsample rate, into buffer,for capturing complex, fastchanging waveforms• 15 million readings memoryallows large amount of datastorage eliminating theimmediate need to transferdata to a PC• Graphical waveform displayenables real-time visualiza-tion of complex waveforms,increased productivity withfaster access to results andanswersFast, reliable and accuratesystem compatibilityInserting a new instrument intoa tightly synchronized systemcan create overhead and incom-patibility. The 8588A/8558A’sdigital platform includescommon connectivity interfacesplus precise triggering that letsit digitize and transfer data toanywhere in the system foranalysis, with minimal effortand the highest reliability.• GPIB, USBTMC, Ethernetallows industry standardselection of remote interface• USB thumb drive enablequick and easy data transferto PC in .csv format• SCPI compliant commandswith 8508A and 3458A emu-lation mode simplifies andaccelerates system upgradeprocess to 8588A/8558A• Fully supports MET/CALcalibration procedures librarythat commands the Fluke8508A• IVI Driver for industrystandard control of DMM on8588A/8558A• Trigger Mechanisms: ExternalBNC Trigger Trig In and TrigOut, Internal or level trigger,Timer trigger, Epoch trigger,Line trigger, Bus Trigger• Less than 100 ns triggerlatency with external BNCtrigger for digitize voltageand currentTrend PlotAnalyze: FFTTrigger SystemThe MET/CAL™ Calibration Management Software advantageBoth 8588A and 8558A work with Fluke CalibrationMET/CAL™ Calibration Software. With native MET/CAL support or using 8508A emulation mode, you can increase throughput up to four times that of traditional manual and multi-product meth-ods while ensuring calibrations are performed consistently every time. This powerful software documents calibra-tion procedures, processes and results for ease in complying with ISO 17025 and similar quality standards.Support and services when you need them Fluke Calibration offers testing,repair and calibration servicesto meet your needs quickly andat a fair cost while maintainingthe high level of quality that youexpect. Our electrical calibrationlaboratories are accredited forconformance to ISO Guide 17025and we maintain global calibra-tion and repair facilities.Get peace of mind anduptime with a Gold Care-Plan service packageThe 8588A/8558A multimeterscome with a standard one-year factory warranty. You canenhance warranty protectionwith a Priority Gold InstrumentCarePlan service package.A Priority Gold InstrumentCarePlan includes an expe-dited annual calibration toreduce downtime by a weekand extended warranty to helpensure the best long-term per-formance from your instruments.Choose from one-year, three-year or five-year CarePlans.(Note: Priority shipping timesvary by country. Contact yourlocal Fluke Calibration salesrepresentative for details.)Ordering informationModels Description8588A Reference Multimeter8558A8.5 Digit MultimeterStandard accessories Description8588A-LEAD KIT-OSP General purpose probe kit & pouch with 2x 4-way shorting PCBOptional accessories DescriptionY8588Rack mount kit (2U – 3.5 in)Y8588S Slide rack mount kit8588A/CASE Transit case8588A-LEAD Comprehensive measurement lead kitIncludes:• 1x 8588A-LEAD KIT-OSP, general purpose probe kit• 1x 1 m screened 322/0.1 copper (30 Amp Rating) with 6 mm gold plated copperspade terminals• 4x 8588A-LEAD/THERMAL, 1.5 m two core screened low thermal cable with 6 mmgold plated copper spade terminals• 2x Locking adaptor 4 mm binding post to safety8588A-SHORT4-way shorting PCB8588A-LEAD/THERMAL Low thermal lead cable, 1.5 m two core screened low thermal cable with6 mm gold plated copper spade terminals8588A-7000K Cal kit with 1 GOhm standard and connecting leads96000SNS R&S power sensor8588A Reference Multimeter / 8558A 8.5-Digit Multimeter Fluke Calibration 1112 Fluke Calibration 8588A Reference Multimeter / 8558A 8.5-Digit Multimeter Fluke Calibration PO Box 9090, Everett, WA 98206 U.S.A.Fluke Europe B.V. PO Box 1186, 5602 BD Eindhoven, The Netherlands Web access: http://www.flukecal.eu Fluke Calibration. Precision, performance, confidence.™For more information call: In the U.S.A. (877) 355-3225 or Fax (425) 446-5716 In Europe/M-East/Africa +31 (0) 40 2675 200 or Fax +31 (0) 40 2675 222 In Canada (800)-36-FLUKE or Fax (905) 890-6866 From other countries +1 (425) 446-6110 or Fax +1 (425) 446-5716 Web access: ©2019, 2020 Fluke Calibration. Specifications subject to change without notice. Printed in U.S.A. 2/2020 6011948b-en Modification of this document is not permitted without written permissionfrom Fluke Calibration.。

盘点2010最给力的十大女星85后张爱玲说：“出名要趁早。

”正所谓，美女出少年，就像歌里唱的，青春就是我的资本。

85后女星，她们活力四射、朝气蓬勃，她们不需要厚厚的化妆品也可美丽逼人，她们搞怪装可爱也不会被人说失礼，数花容月貌，当看85后女星。

下一站天后，风华正茂的85后女星2010集体上位，娱乐码头为你盘点2010最给力的十大85后女星。

NO.1杨幂也许她的名字乍一听起来，让人有些陌生。

其实早在她4岁时，便有幸出演著名导演陈家林的《唐明皇》里的咸宁公主，6时的小杨幂在《猴娃》中有精彩表演，此剧获得第14届“飞天奖”、第12届“金鹰奖”——最佳儿童连续剧奖，后来又在香港电影《武伏元苏乞儿》中饰演一个小角色，成大后的杨幂，回忆这些拍过的影视作品，其中印象最深是《唐明皇》，对外人表示好奇的与周星弛的合作中，表示已经没什么印象。

真正让她扬名演艺圈的是2004年与黄晓明合作的《神雕侠侣》，18岁的杨幂诠释金庸笔下的“小东邪”郭襄。

这一次的亮相，使观众眼前一亮，记住了这个女子，但正当人们开始关注她，杨幂出人意料毅然专攻学业，最终以专业成绩第1名的成绩成为“北京电影学院”表演系学生。

但是随着09年她与胡歌主演的《仙剑3》的热播，2010年《新红楼梦》中晴雯的号召力。

2010年，杨幂又接拍了多部电视剧：《十二生肖传奇》、《洪武大案》、《京城四少》、《我们同是一家人》以及《宫—锁心玉》；同时还在电影《夺命孤岛》和《人鱼帝国》中出演角色，相信杨幂的人气会一路飘红。

NO.2杨渝渝影视圈小美女杨渝渝凭借电视剧《牛郎织女》的热播落幕，杨渝渝精彩的角色表演，从剧中扮演人物的花痴女转变到后来的专情女，从活泼跳跃的个性转变到成熟稳重的个性，到最后懂得了真爱的力量，给观众留下很深刻的印象,也证实了川妹子杨渝渝的实力。

演员出身的杨渝渝拥有着模特般超完美的身材比例，性感优美的长腿令时尚界大为惊叹！生于重庆的杨渝渝有着“川妹子”典型的“火辣”性格，日常生活中为人热情的她很容易和大家打成一片，率真性格如火焰般能迅速点燃气氛！有着“性感宝贝”、“ 火辣小魔女”之称的她几度现身名流杂志的封面。

CH_A0CH_A1CH_B0CH_B1CH_C0CH_C1CH_D0CH_D1REFIOParallelor SerialData BusControlSignalBusADS8528ADS8548ADS8568 SBAS543A–AUGUST2011–REVISED OCTOBER2011 12-,14-,16-Bit,Eight-Channel,Simultaneous SamplingANALOG-TO-DIGITAL CONVERTERSCheck for Samples:ADS8528,ADS8548,ADS8568FEATURES DESCRIPTIONThe ADS8528/48/68contain eight low-power,12-,•Family of12-,14-,16-Bit,Pin-and14-,or16-bit,successive approximation register Software-Compatible ADCs(SAR)-based analog-to-digital converters(ADCs)with •Maximum Data Rate Per Channel:true bipolar inputs.These channels are grouped in–ADS8528:650kSPS(PAR)or four pairs,thus allowing simultaneous high-speedsignal acquisition of up to650kSPS.480kSPS(SER)–ADS8548:600kSPS(PAR)or The devices support selectable parallel or serial 450kSPS(SER)interface with daisy-chain capability.Theprogrammable reference allows handling of analog –ADS8568:510kSPS(PAR)orinput signals with amplitudes up to±12V.400kSPS(SER)The ADS8528/48/68family supports an auto-sleep •Excellent AC Performance:mode for minimum power dissipation and is available –Signal-to-Noise Ratio:in both QFN-64and LQFP-64packages.The entire ADS8528:73.9dBfamily is specified over a temperature range of–40°C ADS8548:85dB to+125°C.ADS8568:91.5dB–Total Harmonic Distortion:ADS8528:–89dBADS8548:–91dBADS8568:–94dB•Programmable and Buffered InternalReference:0.5V to2.5V or0.5V to3.0VSupports Input Voltage Ranges of Up to±12V•Selectable Parallel or Serial Interface•Scalable Low-Power Operation UsingAuto-Sleep Mode:Only32mW at10kSPS•Fully Specified Over the Extended IndustrialTemperature RangeAPPLICATIONS•Protection Relays•Power Quality Measurement•Multi-Axis Motor Control•Programmable Logic Controllers•Industrial Data AcquisitionPlease be aware that an important notice concerning availability,standard warranty,and use in critical applications of TexasInstruments semiconductor products and disclaimers thereto appears at the end of this data sheet.All trademarks are the property of their respective owners.ADS8528ADS8548ADS8568SBAS543A–AUGUST2011–REVISED This integrated circuit can be damaged by ESD.Texas Instruments recommends that all integrated circuits be handled with appropriate precautions.Failure to observe proper handling and installation procedures can cause damage.ESD damage can range from subtle performance degradation to complete device failure.Precision integrated circuits may be more susceptible to damage because very small parametric changes could cause the device not to meet its published specifications.FAMILY/ORDERING INFORMATION(1)MAXIMUM DATA RATE:RESOLUTION PAR/SER SNR THD PRODUCT(Bits)(kSPS/ch)(dB,typ)(dB,typ)ADS852812650/48073.9–89ADS854814600/45085–91ADS856816510/40091.5–94(1)For the most current package and ordering information,see the Package Option Addendum at the end of this document,or visit thedevice product folder at .ABSOLUTE MAXIMUM RATINGS(1)Over operating free-air temperature range,unless otherwise noted.VALUE UNIT HVDD to AGND–0.3to18VHVSS to AGND–18to0.3VSupply voltageAVDD to AGND–0.3to6VDVDD to DGND–0.3to6V Analog input voltage HVSS–0.3to HVDD+0.3V Reference input voltage with respect to AGND AGND–0.3to AVDD+0.3VDigital input voltage with respect to DGND DGND–0.3to DVDD+0.3V Ground voltage difference AGND to DGND±0.3VInput current to all pins except supply±10mA Maximum virtual junction temperature,T J+150°CHuman body model(HBM)±2500V JEDEC standard22,test method A114-C.01,all pinsESD ratingsCharged device model(CDM)±500V JEDEC standard22,test method C101,all pins(1)Stresses beyond those listed under absolute maximum ratings may cause permanent damage to the device.These are stress ratingsonly and functional operation of the device at these or any other conditions beyond those indicated under recommended operating conditions is not implied.Exposure to absolute-maximum-rated conditions for extended periods may affect device reliability.THERMAL INFORMATIONADS8528/48/68THERMAL METRIC(1)RGC PM UNITS64PINS64PINSθJA Junction-to-ambient thermal resistance2248.5θJCtop Junction-to-case(top)thermal resistance9.09.4θJB Junction-to-board thermal resistance 3.621.9°C/WψJT Junction-to-top characterization parameter0.10.3ψJB Junction-to-board characterization parameter 2.921.4θJCbot Junction-to-case(bottom)thermal resistance0.3n/a(1)For more information about traditional and new thermal metrics,see the IC Package Thermal Metrics application report,SPRA953.ADS8528ADS8548ADS8568 SBAS543A–AUGUST2011–REVISED OCTOBER2011 ELECTRICAL CHARACTERISTICS:ADS8528All minimum/maximum specifications are at T A=–40°C to+125°C,specified supply voltage range,VREF=2.5V(internal),V IN=±10V,and f DATA=max,unless otherwise noted.Typical values are at T A=+25°C,HVDD=15V,HVSS=–15V,AVDD=5V,and DVDD=3.3V.ADS8528PARAMETER CONDITIONS MIN TYP MAX UNIT SAMPLING DYNAMICSConversion time Internal conversion clock 1.33μsSerial interface,all four SDOx active480kSPS Throughput rate f DATAParallel interface650kSPSDC ACCURACYResolution12BitsNo missing codes12Bits Integral linearity error(1)INL–0.75±0.20.75LSB Differential linearity error DNL–0.5±0.20.5LSB Offset error–1.5±0.5 1.5mV Offset error matching–0.650.65mV Offset error drift±3.5μV/°C Gain error Referenced to voltage at REFIO–0.5±0.250.5%Between channels of any pair–0.20.2%Gain error matchingBetween any two channels–0.40.4%Gain error drift Referenced to voltage at REFIO±6ppm/°C AC ACCURACYSignal-to-noise ratio SNR At f IN=10kHz7373.9dB Signal-to-noise ratio+distortion SINAD At f IN=10kHz7373.8dB Total harmonic distortion(2)THD At f IN=10kHz–89–84dB Spurious-free dynamic range SFDR At f IN=10kHz8492dB Channel-to-channel isolation At f IN=10kHz120dBIn4VREF mode48MHz–3dB small-signal bandwidth BWIn2VREF mode24MHz (1)Integral nonlinearity is defined as the maximum deviation from a straight line passing through the end-points of the ideal ADC transferfunction expressed as the number of LSBs or percentage of the specified full-scale range.(2)Calculated on the first nine harmonics of the input frequency.ADS8528ADS8548ADS8568SBAS543A–AUGUST2011–REVISED ELECTRICAL CHARACTERISTICS:ADS8548All minimum/maximum specifications are at T A=–40°C to+125°C,specified supply voltage range,VREF=2.5V(internal),V IN=±10V,and f DATA=max,unless otherwise noted.Typical values are at T A=+25°C,HVDD=15V,HVSS=–15V,AVDD=5V,and DVDD=3.3V.ADS8548PARAMETER CONDITIONS MIN TYP MAX UNIT SAMPLING DYNAMICSConversion time Internal conversion clock 1.45μsSerial interface,all four SDOx active450kSPS Throughput rate f DATAParallel interface600kSPSDC ACCURACYResolution14BitsNo missing codes14Bits Integral linearity error(1)INL–1±0.51LSB Differential linearity error DNL–1±0.251LSB Offset error–1.5±0.5 1.5mV Offset error matching–0.650.65mV Offset error drift±3.5μV/°C Gain error Referenced to voltage at REFIO–0.5±0.250.5%Between channels of any pair–0.20.2%Gain error matchingBetween any two channels–0.40.4%Gain error drift Referenced to voltage at REFIO±6ppm/°C AC ACCURACYSignal-to-noise ratio SNR At f IN=10kHz8485dB Signal-to-noise ratio+distortion SINAD At f IN=10kHz8384dB Total harmonic distortion(2)THD At f IN=10kHz–91–86dB Spurious-free dynamic range SFDR At f IN=10kHz8692dB Channel-to-channel isolation At f IN=10kHz120dBIn4VREF mode48MHz–3dB small-signal bandwidth BWIn2VREF mode24MHz (1)Integral nonlinearity is defined as the maximum deviation from a straight line passing through the end-points of the ideal ADC transferfunction expressed as the number of LSBs or percentage of the specified full-scale range.(2)Calculated on the first nine harmonics of the input frequency.ADS8528ADS8548ADS8568 SBAS543A–AUGUST2011–REVISED OCTOBER2011 ELECTRICAL CHARACTERISTICS:ADS8568All minimum/maximum specifications are at T A=–40°C to+125°C,specified supply voltage range,VREF=2.5V(internal),V IN=±10V,and f DATA=max,unless otherwise noted.Typical values are at T A=+25°C,HVDD=15V,HVSS=–15V,AVDD=5V,and DVDD=3.3V.ADS8568PARAMETER CONDITIONS MIN TYP MAX UNIT SAMPLING DYNAMICSConversion time Internal conversion clock 1.7μsSerial interface,all four SDOx active400kSPS Throughput rate f DATAParallel interface510kSPSDC ACCURACYResolution16BitsNo missing codes16BitsAt T A=–40°C to+85°C,QFN package(RGC)–3±1.53LSBAt T A=–40°C to+125°C,QFN package(RGC)–4±1.54LSB Integral linearity error(1)INLAt T A=–40°C to+85°C,LQFP package(PM)–4±1.54LSBAt T A=–40°C to+125°C,LQFP package(PM)–4.5±1.5 4.5LSBAt T A=–40°C to+85°C–1±0.75 1.75LSB Differential linearity error DNLAt T A=–40°C to+125°C–1±0.752LSB Offset error–1.5±0.5 1.5mV Offset error matching–0.650.65mV Offset error drift±3.5μV/°C Gain error Referenced to voltage at REFIO–0.5±0.250.5%Between channels of any pair–0.20.2%Gain error matchingBetween any two channels–0.40.4%Gain error drift Referenced to voltage at REFIO±6ppm/°C AC ACCURACYAt f IN=10kHz,T A=–40°C to+85°C9091.5dB Signal-to-noise ratio SNRAt f IN=10kHz,T A=–40°C to+125°C8991.5dBAt f IN=10kHz,T A=–40°C to+85°C8790dB Signal-to-noise ratio+distortion SINADAt f IN=10kHz,T A=–40°C to+125°C86.590dBAt f IN=10kHz,T A=–40°C to+85°C–94–90dB Total harmonic distortion(2)THDAt f IN=10kHz,T A=–40°C to+125°C–94–89.5dBAt f IN=10kHz,T A=–40°C to+85°C9095dB Spurious-free dynamic range SFDRAt f IN=10kHz,T A=–40°C to+125°C89.595dB Channel-to-channel isolation At f IN=10kHz120dBIn4VREF mode48MHz–3dB small-signal bandwidth BWIn2VREF mode24MHz (1)Integral nonlinearity is defined as the maximum deviation from a straight line passing through the end-points of the ideal ADC transferfunction expressed as the number of LSBs or percentage of the specified full-scale range.(2)Calculated on the first nine harmonics of the input frequency.ADS8528ADS8548ADS8568SBAS543A–AUGUST2011–REVISED ELECTRICAL CHARACTERISTICS:GENERALAll minimum/maximum specifications are at T A=–40°C to+125°C,specified supply voltage range,VREF=2.5V(internal),V IN=±10V,and f DATA=max,unless otherwise noted.Typical values are at T A=+25°C,HVDD=15V,HVSS=–15V,AVDD=5V,and DVDD=3.3V.ADS8528,ADS8548,ADS8568 PARAMETER CONDITIONS MIN TYP MAX UNIT ANALOG INPUTRANGE pin/RANGE bit=0–4VREF4VREF V Bipolar full-scale range CHXXRANGE pin/RANGE bit=1–2VREF2VREF VInput range=±4VREF10pF Input capacitanceInput range=±2VREF20pF Input leakage current No ongoing conversion–11μA Aperture delay5ns Aperture delay matching Common CONVST for all channels100ps Aperture jitter50ps Power-supply rejection ratio PSRR At output code FFFFh,related to HVDD and HVSS–78dB REFERENCE VOLTAGE OUTPUT(REF OUT)2.5V operation,REFDAC=3FFh 2.485 2.5 2.515V2.5V operation,REFDAC=3FFh at+25°C 2.496 2.5 2.504V Reference voltage VREF3.0V operation,REFDAC=3FFh 2.985 3.0 3.015V3.0V operation,REFDAC=3FFh at+25°C 2.995 3.0 3.005V Reference voltage drift dVREF/dT±10ppm/°C Power-supply rejection ratio PSRR At output code FFFFh,related to AVDD–77dB Output current IREF OUT DC current–22mA Short-circuit current(1)I REFSC50mA Turn-on settling time t REFON10msAt REF_xP/N pins 4.710μF External load capacitanceAt REFIO pin100470nF Tuning range REFDAC Internal reference output voltage range0.2VREF VREF V REFDAC resolution10Bits REFDAC differential nonlinearity DNL DAC–1±0.11LSB REFDAC integral nonlinearity INL DAC–2±0.12LSB REFDAC offset error V OSDAC VREF=0.5V(DAC=0CDh)–4±0.654LSB REFERENCE VOLTAGE INPUT(REF IN)Reference input voltage VREF IN0.5 2.5 3.025VInput resistance100MΩInput capacitance5pF Reference input current1μA (1)Reference output current is not limited internally.ADS8528ADS8548ADS8568 SBAS543A–AUGUST2011–REVISED OCTOBER2011 ELECTRICAL CHARACTERISTICS:GENERAL(continued)All minimum/maximum specifications are at T A=–40°C to+125°C,specified supply voltage range,VREF=2.5V(internal),V IN=±10V,and f DATA=max,unless otherwise noted.Typical values are at T A=+25°C,HVDD=15V,HVSS=–15V,AVDD=5V,and DVDD=3.3V.ADS8528,ADS8548,ADS8568 PARAMETER CONDITIONS MIN TYP MAX UNIT DIGITAL INPUTS(2)Logic family CMOS with Schmitt-TriggerHigh-level input voltage0.7DVDD DVDD+0.3VLow-level input voltage DGND–0.30.3DVDD VInput current V I=DVDD to DGND–5050nA Input capacitance5pF DIGITAL OUTPUTS(2)Output capacitance5pF Load capacitance30pFHigh-impedance-state output current–5050nA Logic family CMOSHigh-level output voltage V OH I OH=100μA DVDD–0.6VI OH=–100μA DGND+Low-level output voltage V OL V0.4POWER-SUPPLY REQUIREMENTSAnalog supply voltage AVDD 4.5 5.0 5.5V Buffer I/O supply voltage DVDD 2.7 3.3 5.5VInput positive supply voltage HVDD 5.015.016.5VInput negative supply voltage HVSS–16.5–15.0–5.0VADS8528,f DATA=maximum37.950.1mAADS8548,f DATA=maximum37.349.3mAADS8568,f DATA=maximum36.648.4mAf DATA=250kSPS,auto-sleep mode20.330.0mAf DATA=200kSPS,auto-sleep mode17mA Analog supply current IAVDDf DATA=10kSPS,normal operation30mAf DATA=10kSPS,auto-sleep mode 4.6mAAuto-sleep mode,no ongoing conversion,7.0mAinternal conversion clockPower-down mode0.03mAf DATA=maximum0.5 2.0mAf DATA=250kSPS0.5 1.4mAf DATA=200kSPS0.5mABuffer I/O supply current IDVDD f=10kSPS0.4mADATAAuto-sleep mode,no ongoing conversion,0.35mAinternal conversion clockPower-down mode0.01mAADS8528,f DATA=maximum 3.0 4.2mAADS8548,f DATA=maximum 2.8 3.9mAADS8568,f DATA=maximum 2.3 3.2mAf DATA=250kSPS 1.8 2.4mAInput positive supply current IHVDD f=200kSPS 1.5mADATAf DATA=10kSPS0.4mAAuto-sleep mode,no ongoing conversion,0.45mAinternal conversion clockPower-down mode0.01mA (2)Specified by design.ADS8528ADS8548ADS8568SBAS543A–AUGUST2011–REVISED ELECTRICAL CHARACTERISTICS:GENERAL(continued)All minimum/maximum specifications are at T A=–40°C to+125°C,specified supply voltage range,VREF=2.5V(internal),V IN=±10V,and f DATA=max,unless otherwise noted.Typical values are at T A=+25°C,HVDD=15V,HVSS=–15V,AVDD=5V,and DVDD=3.3V.ADS8528,ADS8548,ADS8568 PARAMETER CONDITIONS MIN TYP MAX UNIT POWER-SUPPLY REQUIREMENTS(continued)ADS8528,f DATA=maximum 3.4 4.5mAADS8548,f DATA=maximum 3.3 4.4mAADS8568,f DATA=maximum 2.7 3.6mAf DATA=250kSPS 2.1 2.6mAInput negative supply current IHVSS f=200kSPS 1.7mADATAf DATA=10kSPS0.4mAAuto-sleep mode,no ongoing conversion,0.35mAinternal conversion clockPower-down mode0.01mAADS8528,f DATA=maximum287.1430.1mWADS8548,f DATA=maximum279.7419.1mWADS8568,f DATA=maximum259.7389.4mWf DATA=250kSPS,auto-sleep mode161.7255.2mWf DATA=200kSPS,auto-sleep mode151.2mW Power dissipation(3)f DATA=10kSPS,normal operation163.3mWf DATA=10kSPS,auto-sleep mode36.3mWAuto-sleep mode,no ongoing conversion,53.6mWinternal conversion clockPower-down mode0.6mWOperating ambient temperatureT A–4025+125°C range(3)Maximum power dissipation values are specified with HVDD=15V and HVSS=–15V.CONVST_xBUSY(C27 = C26 = 0)FSSCLKSDO_xXCLK (C29 = 1)SDI or DCIN_xADS8528ADS8548ADS8568SBAS543A –AUGUST 2011–REVISED OCTOBER 2011PARAMETER MEASUREMENT INFORMATIONTIMING CHARACTERISTICSFigure 1.Serial Operation Timing Diagram (All Four SDO_x Active)ADS8528ADS8548ADS8568SBAS543A–AUGUST2011–REVISED PARAMETER MEASUREMENT INFORMATION(continued)Table1.Serial Interface Timing Requirements(1)(2)ADS8528,ADS8548,ADS8568TESTPARAMETER CONDITION MIN TYP MAX UNITCONVST_x high to XCLK rising edget SCVX CLKSEL=16ns setup timeADS852866.67nst XCLK External conversion clock period ADS854872.46nsADS856885.11nsADS8528115.0MHz External conversion clock frequency ADS8548113.8MHzADS8568111.75MHz External conversion clock duty cycle4060%t CVL CONVST_x low time20nst ACQ Acquisition time280ns1920t CCLK or t XCLKADS8528,1.33μsCLKSEL=0t CONV Conversion time ADS8548,1.45μsCLKSEL=0ADS8568,1.7μsCLKSEL=0t DCVB CONVST_x high to BUSY high delay25nst BUFS BUSY low to FS low time0nsADS85280ns Bus access finished to next conversiont FSCV ADS854820ns start timeADS856840nst SCLK Serial clock period0.02210μs Serial clock frequency0.145MHzSerial clock duty cycle4060%t DMSB FS low to MSB valid delay12nst HDO Output data to SCLK falling edge hold time5nsSCLK falling edge to new data validt PDDO17ns propagation delayt DTRI FS high to SDO_x three-state delay10nst SUDI Input data to SCLK falling edge setup time3nst HDI Input data to SCLK falling edge hold time5ns(1)Over recommended operating free-air temperature range T A,AVDD=5V,and DVDD=2.7V to5.5V,unless otherwise noted.(2)All input signals are specified with t R=t F=1.5ns(10%to90%of DVDD)and timed from a voltage level of(V IL+V IH)/2.CONVST_xBUSY (C27 = C26 = 0)CSDB[15:0]RDFigure2.Parallel Read Access Timing DiagramTable2.Parallel Interface Timing Requirements(Read Access)(1)(2)ADS8528,ADS8548,ADS8568TESTPARAMETER CONDITION MIN TYP MAX UNITt CVL CONVST_x low time20nst ACQ Acquisition time280ns1920t CCLK or t XCLKADS8528,1.33µsCLKSEL=0t CONV Conversion time ADS8548,1.45µsCLKSEL=0ADS8568,1.7µsCLKSEL=0t DCVB CONVST_x high to BUSY high delay25nst BUCS BUSY low to CS low time0nsADS85280ns Bus access finished to next conversiont CSCV ADS854820ns start time(3)ADS856840nst CSRD CS low to RD low time0nst RDCS RD high to CS high time0nst RDL RD pulse width20nst RDH Minimum time between two read accesses2nsRD or CS falling edge to data valid propagationt PDDO15ns delayt HDO Output data to RD or CS rising edge hold time5nst DTRI CS high to DB[15:0]three-state delay10ns(1)Over recommended operating free-air temperature range T A,AVDD=5V,and DVDD=2.7V to5.5V,unless otherwise noted.(2)All input signals are specified with t R=t F=1.5ns(10%to90%of DVDD)and timed from a voltage level of(V IL+V IH)/2.(3)Refer to CS signal or RD,whichever occurs first.CSDB[15:0]WRR = 200SER WR = 130SW WR = 200WR = 130C = 20pFS C = 20pFS CH_XXAGNDInput range:2VREF±R = 200SERWR = 130SW WR = 200WR = 130C = 10pFS C = 10pFS CH_XXAGNDInput range:4VREF±Figure 3.Parallel Write Access Timing DiagramTable 3.Parallel Interface Timing Requirements (Write Access)(1)(2)ADS8528,ADS8548,ADS8568PARAMETERMIN TYPMAXUNIT t CSWR CS low to WR low time 0ns t WRL WR low pulse width15ns t WRH Minimum time between two write accesses 10ns t WRCS WR high to CS high time0ns t SUDI Output data to WR rising edge setup time 5ns t HDI Data output to WR rising edge hold time5ns(1)Over recommended ambient temperature range T A ,AVDD =5V,and DVDD =2.7V to 5.5V,unless otherwise noted.(2)All input signals are specified with t R =t F =1.5ns (10%to 90%of DVDD)and timed from a voltage level of (V IL +V IH )/2.EQUIVALENT CIRCUITSFigure 4.Equivalent Input Circuits12345678910111213141516484746454443424140393837363534331718192021222324252627282930313264636261605958575655545352515049HVDD CH_A1REFAN AVDD AGND REFAP CH_A0/SW CONVST_D CONVST_C CONVST_B CONVST_A ASLEEP BUSY/INT RANGE/XCLK DB0/DCIN_DHW HVSS CH_D1REFDN AVDD AGND REFDP CH_D0/SERRESET REFEN//AVDD AGNDDB15/SDO_DSTBY RD CS PAR WRFS C H _C 0R E F C PA G N DA V D DR E F C NC H _C 1A G N DA V D DR E F I OR E F NC H _B 1R E F B NA V D DA G N DR E F B P C H _B 0D B 14/S D O _CD B 13/S D O _BD B 12/S D O _AD B 11/D B 10/S C L KD B 9/S D ID B 8/D CE ND G N DD V D DD B 7D B 6/SE L _BD B 5/SE L _C DD B 4D B 3/D C I N _AD B 2/D C I N _BD B 1/D C I N _C REF B U F E N7.3-mm x 7.3-mm Exposed Thermal PadPIN CONFIGURATIONSRGC PACKAGEQFN-64(TOP VIEW)48474645444342414039383736353433HVDD CH_A1REFAN AVDD AGND REFAP CH_A0/SW CONVST_D CONVST_C CONVST_B CONVST_A ASLEEP BUSY/INT RANGE/XCLK DB0/DCIN_DHW 12345678910111213141516HVSS CH_D1REFDN AVDD AGND REFDP CH_D0/SERRESET REFEN//AVDD AGNDDB15/SDO_DSTBY RD CS PAR WRFS C H _C 0R E F C PA G N DA V D DR E F C NC H _C 1A G N DA V D DR E F I OR E F NC H _B 1R E F B NA V D DA G N DR E F B P C H _B 0D B 14/S D O _CD B 13/S D O _BD B 12/S D O _AD B 11/D B 10/S C L KD B 9/S D ID B 8/D CE ND G N DD V D DD B 7D B 6/SE L _BD B 5/SE L _C DD B 4D B 3/D C I N _AD B 2/D C I N _BD B 1/D C I N _CR E F B U F E N1718192021222324252627282930313264636261605958575655545352515049PM PACKAGE LQFP-64(TOP VIEW)PIN DESCRIPTIONSDESCRIPTIONPIN#NAME TYPE(1)PARALLEL INTERFACE(PAR/SER=0)SERIAL INTERFACE(PAR/SER=1)Negative supply voltage for the analog inputs.1HVSS PDecouple according to the Power Supply section.Analog input of channel D1.The input voltage range is controlled by the RANGE pin in hardware mode or by the Configuration Register 2CH_D1AI(CONFIG)bit C19(RANGE_D)in software mode.This pin can be powered down using CONFIG bit C18(PD_D)in software mode.Decoupling capacitor input for reference of channel pair D.3REFDN AIConnect to the decoupling capacitor and AGND according to the Power Supply section.4,14,Analog power supply.45,52,AVDD PDecouple according to the Power Supply section.57,615,15,44,51,AGND P Analog ground;connect to the analog ground plane.58,62Decoupling capacitor input for the channel pair D reference.6REFDP AIConnect to the decoupling capacitor according to the Power Supply section.Analog input of channel D0.7CH_D0AI The input voltage range is controlled by the RANGE pin in hardware mode or by CONFIG bit C19(RANGE_D)insoftware mode.This pin can be powered down using CONFIG bit C18(PD_D)in software mode.Interface mode selection input.8PAR/SER DIWhen low,the parallel interface is selected.When high,the serial interface is enabled.Hardware mode(HW/SW=0):standby mode input.When low,the entire device is powered down(including the internal conversion clock source and reference).When high,the device operates in normal mode.9STBY DISoftware mode(HW/SW=1):connect to DGND or DVDD.The standby mode can be activated using CONFIG bit C25(STBY).Reset input,active high.10RESET DI This pin aborts any ongoing conversions and resets the internal Configuration Register(CONFIG)to000003FFh.A valid reset pulse should be at least50ns long.Hardware mode(HW/SW=0):internal reference Hardware mode(HW/SW=0):internal referenceenable input.enable input.When high,the internal reference is enabled(the When high,the internal reference is enabled(thereference buffers are also enabled).reference buffers are also enabled).When low,the internal reference is disabled and an When low,the internal reference is disabled and an 11REFEN/WR DI/DI external reference is applied at REFIO.external reference is applied at REFIO.Software mode(HW/SW=1):write input.Software mode(HW/SW=1):connect to DGND orThe parallel data input is enabled when CS and WR areDVDD.The internal reference is enabled by CONFIG bitlow.The internal reference is enabled by CONFIG bitC15(REFEN).C15(REFEN).Read data input.12RD DI/DI When low,the parallel data output is enabled(if CS=0).Must be connected to DGND.When high,the data output is disabled.Chip select input.Frame synchronization.13CS/FS DI/DI When low,the parallel interface is enabled.When high,The FS falling edge controls the frame transfer.the interface is disabled.When SEL_CD=1,this pin is the data output forData bit15(MSB)input/output.16DB15/SDO_D DIO/DO channel pair D.Output is sign extension for the ADS8528/48.When SEL_CD=0,this pin should be tied to DGND.When SEL_CD=1,this pin is the data output forData bit14input/output.17DB14/SDO_C DIO/DO channel pair C.Output is sign extension for the ADS8528/48.When SEL_CD=0,this pin should be tied to DGND.When SEL_B=1,this pin is the data output for channelData bit13input/output.pair B.When SEL_B=0,this pin should be tied to 18DB13/SDO_B DIO/DO Output is sign extension for the ADS8528and MSB forDGND.When SEL_CD=0,data from channel pair Dthe ADS8548.are also available on this output.Data output for channel pair A.When SEL_CD=0,data from channel pair C are alsoData bit12input/output.19DB12/SDO_A DIO/DO available on this output.Output is sign extension for the ADS8528.When SEL_CD=0and SEL_B=0,SDO_A acts assingle data output for all eight channels.(1)AI=analog input;AIO=analog input/output;DI=digital input;DO=digital output;DIO=digital input/output;and P=power supply.DESCRIPTIONPIN#NAME TYPE(1)PARALLEL INTERFACE(PAR/SER=0)SERIAL INTERFACE(PAR/SER=1)Hardware mode(HW/SW=0):reference bufferenable input.When low,all internal reference buffers are enabled(mandatory if internal reference is used).DB11/REFBUFE Data bit11input/output.When high,all reference buffers are disabled.20DIO/DIN Output is MSB for the ADS8528.Software mode(HW/SW=1):connect toDGND or DVDD.The internal reference buffers are controlled by bit C14(REFBUFEN)in the Configuration Register(CONFIG). 21DB10/SCLK DIO/DI Data bit10input/output Serial interface clock input.Hardware mode(HW/SW=0):connect to DGND.22DB9/SDI DIO/DI Data bit9input/outputSoftware mode(HW/SW=1):serial data input.Daisy-chain enable input.When high,DB[3:0]serve as daisy-chain inputs23DB8/DCEN DIO/DI Data bit8input/outputDCIN_[A:D].If daisy-chain mode is not used,connect to DGND.24DGND P Buffer I/O ground,connect to digital ground planeBuffer I/O supply,connect to digital supply.25DVDD PDecouple according to the Power Supply section.26DB7DIO Data bit7input/output Must be connected to DGNDSelect SDO_B input.When low,SDO_B is disabled and data from all eightchannels are only available through SDO_A.27DB6/SEL_B DIO/DI Data bit6input/outputWhen high and SEL_CD=0,data from channel pairs Band D are available on SDO_B.When SEL_CD=1,data from channel pair B are available on SDO_B.Select SDO_C and SDO_D input.When high,data from channel pair C are available onSDO_C while data from channel pair D are available onSDO_D.When low and SEL_B=1,data from channel 28DB5/SEL_CD DIO/DI Data bit5input/outputpairs A and C are available on SDO_A while data fromchannel pairs B and D are available on SDO_B.Whenlow and SEL_B=0,data from all eight channels areavaiable on SDO_A.29DB4DIO Data bit4input/output Connect to DGNDWhen DCEN=1,this pin is the daisy-chain data input 30DB3/DCIN_A DIO/DI Data bit3input/output for SDO_A of the previous device in the chain.WhenDCEN=0,connect to DGND.When DCEN=1and SEL_B=1,this pin is the31DB2/DCIN_B DIO/DI Data bit2input/output daisy-chain data input for SDO_B of the previous devicein the chain.When DCEN=0,connect to DGND.When DCEN=1and SEL_CD=1,this pin is thedaisy-chain data input for SDO_C of the previous32DB1/DCIN_C DIO/DI Data bit1input/outputdevice in the chain.When DCEN=0,connect to DGND.When DCEN=1and SEL_CD=1,this pin is thedaisy-chain data input for SDO_D of the previous33DB0/DCIN_D DIO/DI Data bit0(LSB)input/outputdevice in the chain.When DCEN=0,connect to DGND.Hardware mode(HW/SW=0):analog input voltage range select input.When low,the analog input voltage range is±4VREF.When high,the analog input voltage range is±2VREF.34RANGE/XCLK DI/DI/DO Sofware mode(HW/SW=1):this pin is an external conversion clock input if CONFIG bit C29=1(CLKSEL);or aninternal conversion clock output if CONFIG bit C28=1(CLKOUT_EN).If this pin is not used,connect to DGND.When CONFIG bit C27=0(BUSY/INT)this pin is a converter busy status output.This pin transitions high when a conversion has been started and transitions low for a single conversion clock cycle(t CCLK)whenever a channel pair conversion is completed and stays low when the conversion of the last channel pairhas completed.35BUSY/INT DOWhen bit C27=1(BUSY/INT in CONFIG),this pin is an interrupt output.This pin transitions high after a conversionhas been completed and remains high until the next read access.This mode can only be used if all eight channelsare sampled simultaneously(all CONVST_x tied together).The polarity of the BUSY/INT output can be changedusing bit C26(BUSY L/H)in the Configuration Register.。

【校花系列】华东师范大学校花桂晶晶本期校花资料:华东师范大学校花桂晶晶桂晶晶，（英语：jenny Gui Jingjing）国内知名平面模特、演员、主持人。

毕业于华东师范大学，国内知名美女公会YOU物公馆X迷之女郎，曾经在Chinajoy上以腾讯展台Showgirl身份令游戏圈众多人士熟知。

以性感夏日泳装写真回应NBA篮球专家美国名记者谢里丹的征婚，连顶级NBA球星：卡梅隆安东尼都夸她很有魅力，并且录制视频帮谢里丹说媒，希望桂晶晶能嫁给他，她以率真洒脱性格得到无数粉丝喜爱和追捧。

她有着非常火爆热辣的F罩杯身材，与性感不同的是她又多了份甜美，就像美国甜心的味道，她还是“封面鲜活美少女”评选冠军，2012CJ腾讯展台SG COSER，腾讯灌篮鞋蜜女郎！中文名:桂晶晶外文名:jenny别名:晶晶国籍:中国民族:回族语言：国语、英语罩杯：70F鞋码：36or37三围：92、64、90血型：O型体重：48KG[2]星座：双鱼座[2]出生地:安徽出生日期:03月09日职业:模特、演员、主持人毕业院校:华东师范大学经纪公司:YOU物公馆代表作品:玩转大都会主要成就09全国校园热舞派对最优才艺奖10年安徽淮南旅游形象大使【从业经历】2008年担任华东师范大学多场晚会主持2010年在安徽淮南《今晚800》实习2010年至2011年，在上海云峰大剧院做双语主持、2011年，在上海《玩转大都会》节目做外景主持，走访嘉兴、上海动漫科技馆、游红船等多期节目2011年，雪弗兰汽车在各地的车展主持2011年5月，主持上海歌舞团赴江苏等地演出2012年7月chinajoy腾讯展台showgil2012年8月天翼手机视频，《助威奥运》节目嘉宾2012年8月为上海傲泰按摩仪器担任代言人,并拍摄广告/宣传照2012年9月“4+1超跑比基尼摄影派对”担任车模2012年10月拍摄IDX鞋子宣传照2012年11月参加湖南卫视&lt;&lt;我们约会吧&gt;&gt;女嘉宾2012年11月tga 腾讯嘉年华showgirl2013年腾讯灌篮鞋蜜女郎盛大游戏星辰杀-杀女郎2013年1月作客腾讯微博女神栏目嘉宾-糖心女神2013年1月拍摄大众汽车宣传片tvc2013年参加尚趣网中国时尚新锐大典，走红毯，担任领奖嘉宾2013年4月20至29日担任上海国际车展耐特通轮胎展台车模，主持人2013年上海车展期间宽带山网站独家采访2013年为腾讯游戏“自由足球”宣传片2013年腾讯nba总决赛拍摄宣传片2013年为手游女王大人拍摄平面2013年为海宁皮草拍摄tvc和平面腾讯体育讯，NBA名记克里斯-谢里丹在腾讯微博上征婚，引发网友强势围观。

看8090模特，怎么保养身材?唐朝女人以胖为美，当今社会减肥成了年轻女孩们热门讨论的话题。

女孩们为了减肥节食，甚至绝食。

其实这些都是错误的，对身体身体健康非常不利。

现在虽然流行瘦，但不流行骨感。

健康是最重要的，在保持健康的状况下完善身材岂不是一举两得，这里给大家分享一个美女标准体重计算方式：标准体重（kg）=【身高（cm）×1.37－110】×0.45。

正在减肥的女女们可以参照这个公式看自己的体重是否在标准范围内。

减肥其实不难，关键是看我们有没有用对方式。

很多人都羡慕模特们的完美身材，他们是通过什么样的方式来维持自己的身材呢？是不是每天就一个苹果一杯牛奶？现在我们来看看来自8090中国好身材模特大赛的新模们他们是怎样拥有这么完美的身材的！8090模特网于茜：看到如此动感的照片，相信大家都能猜出于茜是个热爱运动的女生，在大学的时候还是女足队的一员哦!问到关于如何保养身材的问题，于茜说，“我平时在饮食上并没有怎么苛求自己，反正饿了就吃，从来不暴饮暴食，也很少吃那些高热量的东西，我不太喜欢。

我想我有现在的身材一是天生，二是我比较喜欢运动，后天的锻炼起到很好的效果，早上起来我会慢跑四十分钟，下午还会去健身房练一个小时左右的瑜伽，这样可以让自己有个健美的身材，又不至于小腿肌肉增多”减肥注意事项：1、饿了就吃，可以少食多餐。

2、不暴饮暴食，少吃高热量的食品。

3、坚持有氧运动和定时拉伸身体各部位肌肉。

8090模特网许雅青：如此火辣性感的身材是怎么打造出来的？许雅青告诉我们，她从十九岁开始对舞蹈有了狂热的追求，会很多种舞蹈，其中希腊舞蹈是她唯爱的，她觉得希腊舞可以展现女性的美，风韵，性情，是打造S型身材的主要原因之一。

从谈话种雅青透露，平时她饮食按照正常的早餐吃好，午餐吃饱，晚餐吃少的规律来，早午餐都是吃到七分饱的，晚餐一般六分饱就好，吃一些水果比较好消化。

打造S型身材关键：1、可以选择柔美的舞蹈进行锻炼。

PC853/PC853HPC852 Series s Applicationss Features1. High collector-emitter voltage2. High current transfer ratio3. High isolation voltage between input and output (V iso4. Compact dual-in-line package5. Large collector power dissipation.6. Recognized by UL 1. Telephone sets 2. Copiers, facsimiles3. Interface with various power supply cir- cuits, power distribution boards4. Numerical control machinesF =1mA, V CE =2V )()PC852, PC853, PC853H (1-channel type )PC852 Series , PC853 (V CEO :300V ) PC853H (V CEO :350V ) PC8D52 (2-channel type ) PC8Q52 (4-channel type ) PC853, PC853H (P C :300mW )High Collector-emitter Voltage Type Photocouplers(CTR:MIN. 1 000% at I g Lead forming type (I type ) and taping reel type (P type ) are also available. (PC852I/PC852P/PC853I/PC853P ):5 000V rms )(NO. E64380)0-301002550751001252030405060Fig. 1 Forward Current vs. Ambient TemperatureAmbient temperature T a (˚C )0012510020050150255075100-30-250255075100125050100150200250300350C o l l e c t o r p o w e r d i s s i p a t io n P C (m W )Ambient temperature T a (˚C )Duty ratio55Pulse width <=100µs 102010050200500210-310-25210-1525Fig. 3 Peak Forward Current vs. Duty RatioP e a k f o r w a r d c u r r e n t I F M (m A )20.51.01.52.02.53.03.551020501002005001Forward voltage V F (V )Fig. 4 Forward Current vs. Forward Voltage00.1C u r r e n t t r a n s f e r r a t i o C T R (%)0.20.510125Forward current I F (mA )Ambient TemperatureAmbient TemperatureF o r w a r d c u r r e n t I F (m A )(PC852 Series )C o l l e c t o r p o w e r d i s s i p a t i o n P C (m W )(PC853/PC853H )F o r w a r d c u r r e n t I F (m A )(PC852 Series )Forward CurrentFig. 2-a Collector Power Dissipation vs.Fig. 2-b Collector Power Dissipation vs.Fig. 5-a Current Transfer Ratio vs. 1V CE =2V T a =25˚CAmbient temperature T a (˚C )10 0005 0002 0001 000T a =25˚C5 0004 0003 0002 0001 000Forward current I F (mA )00.1C u r r e n t t r a n s f e r r a t i o C T R (%)0.20.51251000100200123450.5mA1mA1.5mA 2mA2.5mA3mA 5mA Collector-emitter VoltageC o l l e c t o r c u r r e n t I C (m A )Collector-emitter voltage V CE (V )0010020012345C o l l e c t o r c u r r e n t I C (m A )Collector-emitter voltage V CE (V )Collector-emitter Voltage204060801005001001500R e l a t i v e c u r r e n t t r a n s f e r r a t i o (%)0-300.20204060801000.40.60.81.01.2Fig. 8 Collector-emitter SaturationVoltage vs. Ambient TemperatureAmbient temperature T a (˚C )C E (s a t ) (V )2004060-118010010-1010-910-810-710-610-5Fig. 9 Collector Dark Current vs.Ambient TemperatureC o l l e c t o r d a r k c u r r e n t I C E O (A )Ambient temperature T a (˚C )Forward Current(PC853/PC853H )(PC852 Series )(PC853/PC853H )P C (MAX.)Fig. 5-b Current Transfer Ratio vs.Fig. 6-a Collector Current vs.Fig. 6-b Collector Current vs.Fig. 7 Relative Current Transfer Ratio vs. Ambient TemperatureAmbient Temperature T a (˚C )C o l l e c t o r -e m i t t e r s a t u r a t i o n v o l t a g e V 0.5mA1mA1.5mA2mA2.5mA3mA5mAV CE =2V T a =25˚CT a =25˚CI F =10mA T a =25˚CP C (MAX.)I F =10mAI F =1mAV CE =2VI F =20mA I C =100mAV CE =200V5 0004 0003 0002 0001 000-30-3010R e s p o n s e t i m e (µs )2151020501002005000.010.1110Fig.11 Frequency ResponseFrequency f (kHz )00.1110100100Ω10ΩV o l t a g e g a i n A v (d B )C o l l e c t o r -e m i t t e r s a t u r a t i o n v o l t a g e V C E (s a t )(V )Forward current I F (mA )12345Fig.12 Collector-emitter Saturation Voltage vs. Forward CurrentV CE =2V I C =20mA T a =25˚Ct rt ft d t s V CE =2V I C =20mA T a =25˚CR L =1k Ω1 000 1 000-25-20-15-10-5Please refer to the chapter “Precautions for Use ”Fig.10 Response Time vs. Load ResistanceLoad resistance R L (k Ω)q。

Additional FeaturesADDITIONAL FEATURES HOOD RELEASEThe hood release handle is located below the instrument panel.Pull the handle toward you to release.From the front of your vehicle,release the auxiliary latch under the front center of the hood and lift until the lift cylinders hold it open.POWER WINDOWSPress the bottom portion of the switch to lower;the upper portion to raise.To use the one touch down feature,press the double arrow and release quickly;the window will open fully.Depress again to stop windowoperation.The window lock feature allows only the driver to operate the power windows.Press the left side of the window lock to preventpassengers from lowering power windows;press the right side to restore use of the controls.EXTERIOR MIRRORSPower Side View Mirrors:To adjust these mirrors,select the left arrow to adjust to the left mirror;the right arrow to adjust the right mirror.Move the control in the direction you would like to adjust the mirror.Return to the center position to lock the mirrors in place.Heated Mirrors (If equipped):These mirrors warm up to remove ice,mist and fog when the rear window defrost is activated;attempting to remove ice from these mirrors by hand can damage the glass.Fold-Away Mirrors:Pull the side mirrors in carefully when driving through a narrow space,like an automatic car wash.Ford Motor CompanyCustomer Relationship Center P .O.Box 6248Dearborn,MI 481211-800-392-3673 (FORD)(TDD for the hearing impaired:1-800-232-5952)All information contained in this Mercury Quick Reference Guide was accurate at the time of duplication.We reserve the right to change features,operation and/or functionality of any vehicle specification at any time.Your Mercury dealer is the best source for the most current information.For detailed operating and safety information,please consult your Owner’s Guide.May 2005 First Printing Quick Reference Guide 2006MERCURY GRAND MARQUISQUICK REFERENCE GUIDEMERCURY GRAND MAR QUISLitho in U.S.A.SPECIFICATIONSMessage Center (If equipped)With the ignition in the ON position,the message center (located on your instrument cluster) displays important vehicle information through a constant monitor of vehicle systems.You can select different features for the message center to display by using the message center controls located in the center of the instrument panel.Press the SETUP control to display SYSTEMS CHECK,DISPLAY(odometer/speedometer),FONT SIZE (normal/large),UNITS (english/metric),LANGUAGE,COMPASS ZONE/CALIBRATION,OIL MINDER and START VALUE.Press the SELECT control to select functions in the INFO and SETUP menu.Press the INFO control to display the trip odometer,distance to empty,average fuel economy and the instantaneous fuel economy.Press the RESET control to reset the functions shown in the INFO and SETUP menus.Please refer to your Owner's Guide for complete details on the message center display features.TRUNK RELEASEYour trunk release is located on the trim panel of the driver’s door;press the control to open the trunk.ELECTRONIC COMPASS (If equipped)Located in the overhead console,this compass may be affected when you drive near large buildings,bridges,power lines and powerful broadcastantennas.To make compass adjustments,please consult your Owner’s Guide.POWER SEATS (If equipped)The power seat controls are located inside each front door.Press the top control to tilt the seat back forward or backward.Slide the lower control to move the seat forward or backward.Press either end of the lower control to move the seat cushion up or down.REMOTE ENTRY SYSTEMThe remote entry system allows you to lock or unlock all vehicle doors without a key.Unlocking the doorsPress this control to unlock the driver’s door.The interior lamps will illuminate with the ignition OFF.Press the control a second time within five seconds to unlock all doors.Locking the doorsPress this control to lock all doors.Press again to confirm that all doors are locked.The horn will chirp and the parking lamps and tail lamps will flash.Opening the trunkPress this control once to open the trunk.Sounding the panic alarmThe panic feature operates with the key in the OFF position.Press this control to activate the alarm.To deactivate the alarm,press the control again,or turn the ignition to ACC or ON.CAUTION:Do not use CD with adhesive label**1|VOLUME/POWER CONTROLPress the control to turn the audio system on or off.Turn the control to raise or lower the volume.2|AM/FM AND CDIn radio mode,press AM/FM to select AM,FM1and FM2 frequency bands.In CD mode,press to stop play and begin radio play.Press CD to enter CD mode and to play a CD already in the system.3|SAT AND SCAN/SHUFSCAN/SHUF -Press to hear a brief sampling of all listenable stations in radio mode,or to sample all selections in CD mode.Press again to stop at the desired selection.SHUF -Press and hold to play CD tracks in random order,press again to stop.SAT -SAT is only available when equipped with Satellite radio.Your Audiophile radio comes equipped with Satellite ready capability.The kit to enable Satellite reception is available through your Mercury dealer.Detailed Satellite instructions are included with the dealer installed kit.The dealer installed Satellite kit is available only in the continental United States.4|SEEK FUNCTIONThe SEEK function control works in radio,tape and CD modes.In radio mode,press the left arrow to find the next listenable station down the frequency band;press the right arrow to find the next listenable station up the frequencyband.In tape or CD mode,press the left arrow for the previous selection or track;press the right arrow for the next selection or track.5|TUNE-CATTo move to the next frequency down the radio band,press the left arrow.Press the right arrow to move up the band to the next station;hold the arrow to move quickly through the other stations.6|BASS + TREBLE CONTROLPress the BASS or TREB control,then press the left SEL arrow to decrease the level of BASS or TREB;press the right SEL arrow to increase the level.7|BALANCE + FADEPress BAL and use the left SEL arrow to shift the sound to the left speakers;press the right SEL arrow to shift sound to the right speakers.Press FADE and the right SEL arrow to shift sound to the front speakers;press the left SEL arrow to shift sound to the rear.8|RADIO STATION MEMORY PRESETThese controls can be used to select up to six preset AM stations and twelve FM stations (six in FM1 and six in FM2).Choose the frequency band with the AM/FM select control.Select a station,then press and hold the memory preset control until the sound returns.Your selection will be held in the memory.9|EJECTING THE CDPress this button to stop and eject a CD.For more detailed information on the functions of this audio system,please consult your Owner's Guide.*If your Grand Marquis is equipped with an AM/FM stereo with cassette radio,please consult your Owner’s Guide for more detailed information.** CDs with adhesive labels and irregularly shaped CDs may get stuck in the CD player.Homemade CDs should be identified with permanent felt tip marker rather than adhesive labels.Premium/Audiophile AM/FM StereoIn-Dash Six CD Sound System (If equipped*)MODEL YEAR2006GRAND MARQUISQUICK REFERENCE GUIDE45672398881ROADSIDE ASSISTANCEDuring your vehicle’s 3-year/36,000-mile limited warranty period,every new Mercury vehicle includes the assurance and support of a 24-hour emergency Roadside Assistance program.Roadside Assistance includes such services as fuel delivery,tire changes,jump starts,and help when you are locked out of your vehicle.Please complete your Roadside Assistance identification card and keep it in your wallet for quick reference.This card can be found in your glove compartment,in your Mercury Owner's Guide portfolio.FUEL PUMP SHUT-OFF SWITCHIf you’re involved in a collision and attempt to restart your vehicle,your engine may crank but not start.That may mean the fuel shut-off switch has been activated.You’ll find the switch on the left side of the trunk,behind the left rear tail light and the trunk liner.For information on resetting,please consult your Owner’s Guide.All information contained in this Mercury Quick Reference Guide was accurate at the time ofduplication.We reserve the right to change features,operation and/or functionality of any vehicle specification at any time.Your Mercury dealer is the best source for the most current information.For detailed operating and safety information,please consult your Owner’s Guide.LOCATION OF THE SPARE TIRE AND JACKYour vehicle will be equipped with either a full-size spare or a temporary spare.The temporary spare is smaller than a regular tire and designed for emergency use only.Either spare will be located on a shelf in the trunk,just under the rear window.The jack may be located behind the mini spare tire or behind the full size spare tire.FUSESIf electrical components in your vehicle are not working,a fuse may have blown.Blown fuses are identified by a broken wire within the fuse.To learn about changing fuses,please consult your Owner’s Guide for details.UNLEADED FUEL RECOMMENDATIONSUse “Regular”unleaded gasoline with an(R+M)/2 octane rating of 87.Mercury does not recommend using “Regular”gasoline with an octane rating of 86 or lower in high altitude areas.TIRE PRESSUREAdjust the tire pressure to the recommended specifications found on the Certification label.When checking pressure,use an accurate tire pressure gauge.Check tire pressure when the tires are cold,after the vehicle has been parked for at least one hour or has been driven less than 1 mile (1.6 km).Warning:Improperlyinflated tires can affect vehicle handling and can fail suddenly,possibly resulting in loss of vehicle control.6W3J-19G217-AA*F6W3J19G217AA*INTERIOR FEATURES1Thank you for choosing the Mercury Grand Marquis.This luxurious sedan will give you and yourpassengers room to stretch out,whether your trips take you around the corner or across the country.En route,you’re sure to appreciate responsive V8power,rear-wheel drive performance and the added confidence of advanced safety features.Your new Grand Marquis also has many sophisticated features designed for your comfort,convenience and security.This guide will help you get acquainted with them.(For a comprehensive review of all vehicle features,please take time to review your Owner’s Guide.)We wish you and yours many pleasant miles.2006 GRAND MARQUISElectronic Automatic Temperature Control System (If equipped)4|TRACTION CONTROL™ (If equipped)The Traction Control™ system allows your vehicle to make better use of available traction on slippery surfaces,especially snow and ice covered roads.If you get stuck in snow or ice or on a very slippery road surface,try switching the system off.This may allow excess wheel spin to “dig”thevehicle out and enable a successful “rocking”maneuver.The traction control indicator flashes during a Traction Control™ system event.5|ANTI-LOCK BRAKESABS provides enhanced security by detecting wheel lockup in hard braking situations.The light will illuminate when you start your engine;however,if it stays on,continues to flash or fails to illuminate,see your dealership's service department immediately.(Wheels sometimes accumulate brake dust.Clean them with Detail Wash,available from your authorized Ford,Lincoln or Mercury dealer.)6|SPEED CONTROLTo engage your speed control,make sure you’re traveling at or above30 mph (48 km/h) and press ON.To set a speed,press SET +.To set a higher speed,press and hold SET +;release when you’ve reached the desired speed.To return to a previously set speed,press RESUME (you must be traveling above 30 mph [48 km/h]).To disengage,depress the brake pedal or press OFF.7|CHECK ENGINEIt's normal for warning and control lights to illuminate when you start your engine.If the light remains on,have your vehicle serviced at your first available opportunity.If the light is flashing,it indicates engine misfire,which could damage your catalytic converter.Drive cautiously (avoiding heavy acceleration and deceleration) and have your vehicle serviced as soon as possible.8|STEERING WHEEL,RADIO AND CLIMATE CONTROLS Radio control features:Press VOL up or down to adjust the volume.In radio mode,press NEXT to select a preset station from memory.In tape or CD mode,press NEXT to listen to the next selection or track.Climate Control features:Press TEMP up or down to adjust the temperature.9|OVERDRIVEThe normal driving position for the best fuel economy with your automatic transmission is Overdrive.It will increase your fuel economy when cruising at a constant speed for an extended period of time.Overdrive:Overdrive on (off switch not depressed) is the normal driving position for this automatic overdrive transaxle.To deactivate Overdrive:If your vehicle is equipped with a column-shift transmission,press the transmission control switch located on the end of the gearshift lever.10|REAR WINDOW DEFROSTERPush to clear the rear window of thin ice and fog.The defroster turns off automatically after a predetermined amount of time,or when the ignition is turned OFF.11|CLOCKPress MENU until SELECT HOUR or SELECT MINS is e the left arrow of the SEL control to decrease hours/minutes,or the right arrow of the SEL control to increase hours/minutes.Press AUTOMATIC and use the temperature controls to select the temperature you prefer.This system will then heat or cool to achieve that temperature,determining fan speed,airflow location and choosing between use of outside or recirculated air.If unusual conditions exist,the manual overrides allow you to select airflow locations and fan speed.To return to automatic control,press AUTOMATIC.Press OUTSIDE TEMP to display the outside temperature.Please consult your Owner’s Guide for details.2345678910(If equipped)111|HEADLAMP CONTROLHeadlamps:The first position clockwise will illuminate the parking lamps,instrument panel,license plate and tail lamps.The second position clockwise will illuminate the headlamps.Autolamps:Turn the control counterclockwise to have the light-sensitive system automatically control your headlamps.High Beams:Your high beam controls are located in your turn signal stalk.Push it forward to activate your high beams;pull it towards you to deactivate.Daytime Running Lamps(If equipped):To turn your high beam headlamps on with reduced output,initiate the high beams while the key is in the ON position,the parking brake is released and the headlamp is in the OFF or parking lamps position.Dimmer:To adjust the brightness of your instrument panel,rotate the dimmer control to the left or right.Fog Lamps(If equipped):To turn on the fog lamps when the headlamps or autolamps are selected,pull out the headlamp switch.2|ADJUSTABLE PEDALS (If equipped)Your accelerator and brake pedals can be adjusted within approximately 2.5”of original placement to provide you with an extra measure of driving comfort.Stop your vehicle,put the gearshift lever in P (Park) andpress the rocker control to adjust the pedals towards you or away from you;adjust until you find the position that offers the greatest comfort and control.3|TURN SIGNAL AND WINDSHIELD WIPER/WASHERPush the stalk down to activate your left turn signal;push up to activate the right turn signal.Rotate the windshield wiper control forward or backward to the desired interval – low- or high-speed position.The bars of varying length indicate the timing of your intermittent wipers.When in theintermittent mode,rotate the control forward for fast intervals;backward for slow intervals.Push the end of the stalk to activate the washer.For a longer wash cycle,push and hold.。

Tech Date Box 1 - CRATE1Wt: 275 lbs. Dim: 32" x 48" x 37"Part No.Description Quantity Yes Remarks 1FUSA1800Rack Console 12FM8900S Radio (Installed in Console)13FS2575CONT Cont Unit (Installed in Console)14PP520Printer (Installed in Console)25RC1-800-031Meter Box Assy (Installed in Console)16RC1-800-041Emergency Light (Installed in Console)17RC1-800-019Printer Cables (Installed in Console)28RC1-800-038Printer Switch (Installed in Console)19RC1-800-039Printer SW Bracket (Installed in Console)110IF2550/1NMEA Distributor (Installed in Console)1Box 2 - FS1575T Wt: 50 lbs. Dim: 13"x17"x23"Yes Remarks Part No.Description Quantity 1FS1575T Transceiver Unit 1CP05-120012000-162-614Tapping Screw 6x306"3000-166-977Coaxial Connector M Type 2"4000-165-859Mini Pin Assy L=3801"5000-168-259Polycarbonate Washer 6"6001-115-850Connector (D-SUB)17OME-567-70Z Operators Manual 18IME-567-70Z Installation Manual 19OSE-567-70Z Operators Guide 1Box 3 - AT1575Wt: 20 lbs. Dim: 8"x16"x22"Yes Remarks Part No.Description Quantity 1AT1575Antenna Coupler 1CP05-129012000-163-871-10Tapping Screw 6x20 SUS3044"3000-158-854Flat Washer M6 SUS3044Box 4 - 000-125-984Wt: 10 lbs. Dim: 7"x15"x15"Yes RemarksPart No.Description Quantity 1000-125-98410m Coupler Control Cable 1AT1575000-125-984PACKING LIST FOR RC1815DFCRATE1FS1575TTech Date Box 5- FELCOM18 Wt: 32 lbs Dim: 16" X 17" X 20"Yes Remarks Part No.Description Quantity 1IC218A Terminal Unit 12000-154-025Power Cable Assy 5M 13000-176-235-10Mini Keyboard 1CP16-052014100-292-140Fuse Label 1"5590-300-310Copper Strap 1"6100-369-610LAN CBL Support 1"7100-369-620Sponge for LAN 1"8000-162-608Tapping Screw 4"9000-167-183Cable Tie 150mm 2"10000-155-8317A Fuse 1CP16-0520211100-237-670Hook Loop Fastener 4"12100-237-680Hook Loop Fastener 4"13100-373-800Label 1SP16-0130114000-155-8317A Fuse 1"15000-155-827-105A Fuse 116000-809-352Distress Communications 117OME-563-51Z Operator's Manual (SSAS)118OSE-567-40Z Operator's Guide 119IME-567-40Z Installation Manual 120OME-567-40Z Operator's Manual 121000-807-330Registration for Service Activation 122000-809-353Before Delivering to Owner Notice 123000-147-004Change of Fuse Notice 124IC118/30Antenna Unit 125000-159-52330M Cable Assy 1CP16-0551126000-165-300Insulation Sleeve 1"27000-173-169Cable Tie CV-450B 5"28000-174-646Self Bonding Tape 1"29000-566-000Ground Wire Assy 30CM 1"30000-158-483Silicone Sealant 1"31000-173-370Antenna Install/Replace Document 132IC318Junction Box 1CP16-0510133000-162-605Tapping Screw M4x164PACKING LIST FOR RC1815DFFELCOM18Serial No.Checked By: Tech Date Box 6- FELCOM18 Wt: 32 lbs Dim: 16" X 17" X 20"Yes Remarks Part No.Description Quantity 1IC218A Terminal Unit 12000-154-025Power Cable Assy 5M 13000-176-235-10Mini Keyboard 1CP16-052014100-292-140Fuse Label 1"5590-300-310Copper Strap 1"6100-369-610LAN CBL Support 1"7100-369-620Sponge for LAN 1"8000-162-608Tapping Screw 4"9000-167-183Cable Tie 150mm 2"10000-155-8317A Fuse 1CP16-0520211100-237-670Hook Loop Fastener 4"12100-237-680Hook Loop Fastener 4"13100-373-800Label 1SP16-0130114000-155-8317A Fuse 1"15000-155-827-105A Fuse 116000-809-352Distress Communications 117OME-563-51Z Operator's Manual (SSAS)118OSE-567-40Z Operator's Guide 119IME-567-40Z Installation Manual 120OME-567-40Z Operator's Manual 121000-807-330Registration for Service Activation 122000-809-353Before Delivering to Owner Notice 123000-147-004Change of Fuse Notice 124IC118/30Antenna Unit 125000-159-52330M Cable Assy 1CP16-0551126000-165-300Insulation Sleeve 1"27000-173-169Cable Tie CV-450B 5"28000-174-646Self Bonding Tape 1"29000-566-000Ground Wire Assy 30CM 1"30000-158-483Silicone Sealant 1"31000-173-370Antenna Install/Replace Document 132IC318Junction Box 1CP16-0510133000-162-605Tapping Screw M4x164For Internal Use Only PACKING LIST FOR RC1815DFFELCOM18Box 7 - FM-8900Wt: 14lbs Dim: 16"x15"x9" Part No.Description Quantity 1FM-8900Marine VHF Radiotelephone 12Operator's Manual 13Operator's Guide 14Installation Manual 15Procedure for Distress6Transmission on VHF FM-890017001-174-170-00Installation Materials 18001-174-160-00Spare Parts 19005-951-920-00Accessories- Handset 110000-021-362-00Handset 411005-951-790-00Handset Bracket 412000-176-274-10Power Cable 1PACKING LIST FOR RC1815DF。

胸围腰围臀围尺寸对比算换表 之马矢奏春创作文胸型号与胸围尺寸对比表文胸型号（国际尺码）文胸型号（英美尺码）胸围（CM)上胸围（CM)70A32A80-8468-7270B32B84-8670C32C86-8870D32D88-9070E32E90-9275A34A85-8873-7775B34B89-9175C34C91-9375D 34D93-9575E34E95-9780A36A90-9378-8280B36B94-9680C36C96-9880D36D98-10080E36E100-10285A38A95-9883-8785B38B99-10185C38C101-10385D38D103-10585E38E105-10790A40A100-10388-9290B40B104-10690C40C106-10890D40D108-11090E40E110-112腰围尺寸对比表：26号牛仔裤：1尺9寸,臀围2尺6；裤长：一米零三（厘米）；27号牛仔裤：2尺0寸,臀围2尺7；裤长：一米零五（厘米）；28号牛仔裤：2尺1寸,臀围2尺8：裤长：一米零八（厘米）；26-28号牛仔裤是比力多人适合的尺码！！！ 29号牛仔裤：2尺2寸,臀围2尺9； 30号牛仔裤：2尺3寸,臀围3尺；31号牛仔裤：2尺4寸,臀围3尺1 ；32号牛仔裤：2尺5寸,臀围3尺2；33号牛仔裤：2尺6寸,臀围3尺3 从34号到38号是属于超年夜尺寸的超年夜号牛子裤了服装尺寸的丈量方法及尺码对比表尺寸的丈量方法：图1：[a]身高：从空中到头顶的垂直距离[b]胸围（女性）：经过乳头的水平丈量的周长[c]胸围（男性及儿童）：经过腋下的水平丈量的周长[d]腰围：上身最细处的周长[e]臀围：臀部围度最年夜处的周长[f]脚的尺寸-脚围的尺寸：脚的尺寸是指：从最长的脚尖开始到脚后跟最突出部位的直线长度；脚围是指：经过年夜拇指和小拇指指根部突出来的骨头部位的周长.[g]头围：头部围度最年夜处的（眉毛上）周长图2：[A]肩宽：从左肩点到右肩点的直线长度[B]背中+袖长：从后背中缝与领子的接缝处,经过肩点到袖口的长度.[C]袖长：从肩点到袖口的长度[D]上衣、连衣裙的总长：上衣类及衬衣等上装外套、连衣裙等,从肩线与领子的接缝处到衣边的长度[E]裙长：后身中央的腰带上部到裙边的长度[F]裤长：沿外侧缝线,从腰带上部到裤脚的长度[G]档长：从腰带上部,沿前中心线到立档的长度[H]裤腿长：从立档开始沿内侧缝线到裤脚的长度[I]身围：前身、左右腋下袖拢缝线之间的宽度[J]底档宽：底档线位置的裤腿宽度图3：我们的服装夏装年夜多是均码,秋冬装一般有分S/M/L三个码量身时,要贴身怀抱,软尺不要拉得太紧.注意:适合您的上衣号码和裙子或者裤子号码可能纷歧样,请细怀抱以后再作选择.请注意衣服长度怀抱时坚持水平.1.胸围:胸部最年夜处围量一周长度.2.腰部:腰部最细处转量一周长度.坚持全身松,不要吸气.3.臀围:臀围最年夜处围量一周长度本码表适应于服装纺织品牌产物,只供参考用途依您的身高,胸围及腰围,试穿对应尺码的外套或裤,方便选购合身的服装.例如您身高160-165cm,建议试穿S码或M码的外套.WOMEN女装尺码XXS XS S M L XL XXL150 155 160 165 170 175 180 身高(cm)76 80 84 88 92 96 100胸围(cm)腰围60 64 68 72 76 80 84(cm)女性尺码对比表:（均码相当于M码）上装:外衣、年夜衣、连衣裙、针织毛衣选购号码S M L臀围(cm) 84-8888-9292-96胸围(cm) 78-8282-8686-90下装：长裤、短裤、长裙、短裙选购号码S M L腰围(cm) 64-6868-7070-72服装尺码换算参照表女装（外衣、裙装、恤衫、上装、套装）看不懂的还可以参照下面的：尺码对比表:26号----- 腰围1尺9寸27号------腰围2尺0寸(也有1尺9的)臀围2尺728号------腰围2尺1寸臀围2尺829号------腰围2尺2寸臀围2尺930号------腰围2尺3寸臀围3尺31号------腰围2尺4寸臀围3尺132号------腰围2尺5寸臀围3尺233号------腰围2尺6寸臀围3尺334号------腰围2尺7寸臀围3尺436号------腰围2尺8寸臀围3尺5-6注意：以上对比表,只是一个相对的数据.实际中,分歧裤型的号码,对应的腰围和臀围都纷歧样,为准确起见,最好请各位买家量一下自己穿过裤子的腰围和臀围来购买对应的裤子.我们在每款裤子的产物介绍中,都有标明臀围和腰围尺寸（该数据以厘米计算,平放丈量）1inch(英寸)=2.54CM(厘米)60厘米=1尺8 62厘米=1尺85 64厘米=1尺966厘米=2尺68厘米=2尺05 70厘米=2尺1 72厘米=2尺16 74厘米=2尺276厘米=2尺3 78厘米=2尺35 80厘米=2尺4 82厘米=2尺45 84厘米=2尺586厘米=2尺6 88厘米=2尺65 90厘米=2尺7 92厘米=2尺75 94厘米=2尺896厘米=2尺85 98厘米=2尺9 100厘米=3尺。

Typical Applications• Off-road, Construction/Agricultural vehicles • Material handling equipment • Articulating, scissor, and bucket lift controls• Outdoor industrial equipment• Lift gate controlsSpecificationsUL ELECTRICAL RATINGS: UL 61058-1MAINTAINED FUNCTIONS: 15A GP, 277VAC 50/60Hz T85 15(4)A, 277VAC 50/60Hz T85 1/2 hp, 125VAC 50/60Hz T85 1 hp, 250VAC 50/60Hz T85MOMENTARY FUNCTIONS: 10A GP, 277VAC 50/60Hz T85 10(4)A, 277VAC 50/60Hz T85 1/4hp, 125VAC 50/60Hz T85 1/2 hp, 250VAC 50/60Hz T85ELECTRICAL LIFE: 10,000 cycles DC ELECTRICAL RATINGS: Resistive Loads ALL FUNCTIONS: Up to 25A, 24VDC 0.75A, 125VDC0.5A, 250VDC MAINTAINED FUNCTIONS: 15A, 28VDC MOMENTARY FUNCTIONS: 10A, 28VDCDIELECTRIC STRENGTH: 2500V min. initial (terminal to toggle)INSULATION RESISTANCE: 1000 MΩ min. initialCONTACT RESISTANCE: 50 mΩ max. initial(terminal to toggle)OPERATING AND STORAGE TEMPERATURE: -40°C to +85°C IP RATINGS: IP66/IP68 VersatileTogglePT SeriesSealed Power Toggle SwitchFeatures/Benefits • IP66/IP68 versatile rating to withstand harsh outdoor environments, intense, wet weather, wind blown rain, dirt• U L 61058-1 certified has global acceptancewith no additional testing needed• Integrated panel seal for extraprotection• Superior oil and fuel resistance• High strength, heat resistant housingdesigned for demanding applications subject-ed to vibration and harsh conditions MaterialsCASE: Thermoset ACTUATOR: Stainless Steel PIVOT PIN: Stainless Steel BUSHING: Zinc Die Cast SEAL: SiliconeMOVEABLE CONTACT(S): Copper alloy, silver plated BUTTON: Silver CadmiumTERMINALS: Brass for Quick connect, silver platedbrass for solder and screw terminalsHARDWARE: Hex nut & locking ring: brass, nickel plated Screws: brass Lock washer: brass, nickel plated PACKAGING: TraysBuild-A-SwitchTo order, simply select desired option from each category and place in the appropriate box. Available options areshown and described on pages F-53 thru F-56. For additional options not shown in catalog, consult Customer Service Center.N E WT o g g l eDimensions are shown: mmSpecifications and dimensions subject to change22 Mar 2210FLATS21.324.332.315PT SeriesSealed Power Toggle SwitchE WToggleDimensions are shown: Inches (mm)Specifications and dimensions subject to change22 Mar 22PT SeriesSealed Power Toggle SwitchS STANDARDTERMINALSS SCREW TERMINALQ QUICK CONNECTE WT o g gleDimensions are shown: Inches (mm)Specifications and dimensions subject to change22 Mar 22PT SeriesSealed Power Toggle SwitchesZSOLDER TERMINAL SPE WMOUNTING HARDWAREPART NO.700302202 NIICKEL PLATED Note: Standard hardware shipped with each switch is 1 pc eachPART NO.707100201 NIICKEL PLATED PART NO.707200201 NIICKEL PLATED WITH KEYWAY。

MM ——瑞丽新签约的MODEL编号：1101生日：1983—1身高：163cm体重：41kg肩宽：37cm胸围：75cm腰围：58cm臀围：80cm鞋号：38#编号：1102生日：1983—3身高：163cm体重：44kg肩宽：36cm胸围：77cm腰围：58cm臀围：83cm鞋号：35#编号：1103生日：1983—12身高：164cm体重：46kg肩宽：41cm胸围：78cm腰围：61cm臀围：85cm鞋号：36#编号：1104生日：1982—7身高：168cm体重：46kg肩宽：41cm胸围：79cm腰围：56cm臀围：84cm鞋号：38#编号：1105生日：1981—5身高：160cm体重：40kg肩宽：39cm胸围：75cm腰围：53cm臀围：80cm鞋号：35#编号：1106生日：1981—1身高：155cm体重：41kg肩宽：35cm胸围：72cm腰围：59cm臀围：84cm鞋号：35#编号：1108生日：1982—11身高：167cm体重：44kg肩宽：41cm胸围：77cm腰围：56cm臀围：86cm鞋号：37#编号：1110生日：1982—12身高：163cm体重：40kg肩宽：41cm胸围：74cm腰围：56cm臀围：80cm鞋号：37#编号：1111生日：1982—8身高：160cm体重：44kg肩宽：38cm胸围：75cm腰围：58cm臀围：82cm鞋号：37#编号：1112生日：1985—11身高：156cm体重：41kg肩宽：38cm胸围：73cm腰围：62cm臀围：81cm鞋号：37#编号：1113生日：1982—10身高：160cm体重：44kg肩宽：40cm胸围：83cm腰围：58cm臀围：83cm鞋号：36#编号：1115生日：1984—8身高：166cm体重：50kg肩宽：40cm胸围：81cm腰围：62cm臀围：87cm鞋号：38#编号：1112生日：1985—11身高：156cm体重：41kg肩宽：38cm胸围：73cm腰围：62cm臀围：81cm鞋号：37#编号：1120生日：1983—6身高：161cm体重：41kg肩宽：39cm胸围：78cm腰围：58cm臀围：83cm鞋号：36#编号：1121生日：1982—1身高：161cm体重：41kg肩宽：40cm胸围：75cm腰围：60cm臀围：85cm鞋号：36#编号：1122生日：1983身高：170cm体重：50kg肩宽：42cm胸围：83cm腰围：59cm臀围：87cm鞋号：37#编号：1123生日：1982身高：166cm体重：48kg肩宽：40cm胸围：79cm腰围：59cm臀围：85cm鞋号：35#编号：1601生日：1986—12身高：168cm体重：45kg肩宽：36cm胸围：76cm腰围：59cm臀围：84cm鞋号：37#编号：1602生日：1983身高：163cm体重：43kg肩宽：37cm胸围：75cm腰围：56cm臀围：80cm鞋号：37#编号：1603生日：1984—6身高：170cm体重：48.5kg肩宽：39cm胸围：79cm腰围：60cm臀围：87cm鞋号：38#编号：1604生日：1983—3身高：165cm体重：48kg肩宽：37cm胸围：81cm腰围：61cm臀围：89cm鞋号：37#编号：1605生日：1980身高：162cm体重：44kg肩宽：38cm胸围：78cm腰围：60cm臀围：85cm鞋号：36#编号：1606生日：1981—4身高：172cm体重：45kg肩宽：36cm胸围：76cm腰围：57cm臀围：87cm鞋号：37#编号：1607生日：1979—7身高：165cm体重：47kg肩宽：38cm胸围：80cm腰围：63cm臀围：89cm鞋号：37#编号：1608生日：1981—3身高：158cm体重：42kg肩宽：37cm胸围：83cm腰围：64cm臀围：86cm鞋号：35#编号：1610生日：1980—8身高：160cm体重：44kg肩宽：38cm胸围：80cm腰围：60cm臀围：85cm鞋号：37#编号：1611生日：1981—12身高：164cm体重：46kg肩宽：38cm胸围：79cm腰围：56cm臀围：88cm鞋号：38#编号：1612生日：1982—7身高：165cm体重：45kg肩宽：38cm胸围：75cm腰围：58cm臀围：84cm鞋号：38#。

金属和氧化物覆盖层厚度测定截面显微镜测量法1 范围1.1本方法描述了运用光学显微镜测量金属和氧化物覆盖层截面局部厚度的方法。

1.2在较优的条件下，当使用光学显微镜时，本方法可以给出0.8 μm的绝对测量准确度。

以此精度确定本方法对测量薄层厚度的可行性。

1.3使用者有义务建立使用本方法所遵照的安全和健康规则。

2测试方法概况2.1本方法包括切割试样、镶嵌，并将镶嵌截面部分以打磨、抛光和刻蚀处理。

截面的厚度以光学显微镜测量。

3．重要性和使用3.1 覆盖层厚度是使用中的覆盖层的性能的重要指标，常在覆盖层说明中阐明。

3.2 本方法适用于验收测试。

4．影响测试结果的因素4.1 表面粗糙度——如果覆盖层或其底物具有粗糙表面，与覆盖层接触表面的一个或两个可能因太不规则，导致不能准确测量覆盖层厚度。

4.2 横截面锥形化——如果横截面不垂直于覆盖层平面，测量厚度可能大于实际厚度。

例如，相比于垂直面倾斜10o会造成1.5%的误差。

4.3 覆盖层变形——在镶嵌和准备软覆盖层或低温熔融覆盖层样品时，受到产生的过高温度或压力的影响，以及试样准备过程中对脆性材料的过度打磨，覆盖层会发生不利的变形。

4.4 覆盖层边缘倒角——如果覆盖层横断面边缘倒角，即覆盖层横断面与边缘不完全平整，采用显微镜测量则得不到真实厚度。

不正确的镶嵌、研磨、抛光和浸蚀都会引起边缘倒角，因此在镶嵌之前，待测试样常要附加镀层，这样可以减小边缘倒角。

4.5 附加镀层——在制备横断面时，为了保护覆盖层的边缘，以避免测量误差，常在待测试样上附加镀层。

在表面准备过程中，镀层的去除会导致厚度测量值偏低。

4.6 浸蚀——适当的浸蚀能在两种金属的界面线上产生细而清晰的黑线，过度的浸蚀会使界面线不清晰或线条变宽，使测量产生误差。

4.7 遮盖——不适当的抛光会使一种金属覆盖在另一金属上，使得金属间真正的界限变得模糊，或不成直线。

为减轻遮盖的影响，应反复制备金属镀层的横断面并测量厚度。