2SB649A-C-T6C-B中文资料

W W W .M K S I N S T .C OMFlow MeasurementT ype 649ELECTRONIC PRESSURE CONTROLLER TM WITH MASS-FLO ® METERThe MKS Type 649 is a single instrument that provides both pressure control and flow metering. The Type 649 replaces multiple component subassemblies, for example pressure controllers with separate flow meters used in applications such as backside wafer cooling systems (BWCS). The compact Type 649 design allows for significant reduction in BWCS size and complexity.The 649 Series Pressure Controller contains a capacitance manometer, mass flow meter,normally-closed proportioning control valve, and closed-loop control electronics. The Type 649 controls absolute pressure. The pressure transducer is a Baratron ® Capacitance Manometer, with Full Scale pressure ranges from 10 Torr to 1000 Torr. BaratronCapacitance Manometers – well-known for their percent of Reading accuracy, stability,and resolution – provide precise measurements at lower pressures and over wider dynamic ranges than strain gage transducers. The patented mass flow sensor provides exceptional zero stability and accuracy of flow measurement. Full Scale ranges from 10sccm to 5000 sccm nitrogen equivalent are available.The 649 is powered by ±15 VDC at only 300 mA. The pressure output and input control signals are 0-10 VDC. Two trip points are included in the 649, with LED status indicators,for use as simple on/off process limits. The 649’s control loop tuning parameters are preset for typical installation conditions, but are field adjustable for different conditions and optimum performance. The Proportional and Integral Term adjustments are simple rotary switches, providing a wide dynamic control range.In the Type 649, a pressure transducer monitors the pressure to be controlled at the downstream end of the controller. Actual pressure is compared in the electronics to the pressure set point signal. An appropriate signal is then generated to adjust theproportioning control valve to bring actual pressure into agreement with the desired set point. The internal control valve can be specified with one of four orifices allowing pressure control in systems with Full Scale flows from 10 sccm to 5 slm.Features & BenefitsDesigned For The Most Demanding Processes •Backside wafer cooling•Fast response to set point with minimal overshoot•Metal-sealed, cleanroom manufactured units meet critical high purity application needs Reliable, Rugged, Repeatable •Integral Baratron ® CapacitanceManometer provides accuracy, reliability,and wide rangeEasily Integrated•Integral pressure measurement and control with flow metering in a single package requires less space and reduces system cost•Two alarm trip points for process limit control•CE Mark compliant meets requirements for European Union•Patented mass flow sensor* provides exceptional long-term accuracy and zero stability *US Patent 5461913. Foreign patent pending.Figure 1 — Index Number T ableFigure 2 — Orifice Selection GraphDifferential Pressure (psi)Differential Pressure (Torr)> 5 05 03 01 584210 . 51 0 0> 5 8 55 8 54 8 03 5 526 51 9 01 3 59 56 55 17 05 0–2 9 52 9 52 4 018 51 3 09 56 55 02 5 8 53 0––1 7 51 7 51 4 01 0 07 55 04 01 5 5 12 0–––1 1 51 1 08 06 04 03 01 0 3 41 5–––9 09 07 05 03 52 57 7 61 0––––6 05 54 03 02 05 1 75–––––3 02 52 01 52 5 92––––––1 01 091 0 31–––––––665 1 . 7>2585 25851 5 5 17 7 64 1 42 0 71 0 35 1 . 72 5 . 9I n l e t P r e s s u r e (p s i a )I n l e t P r e s s u r e (T o r r )Pressure RangeIn the Type 649 Controller, the Baratron ®PressureT ransducer measures absolute pressure. Full Scale ranges of 10, 100, or 1000 Torr are available. Each 649 can control pressure from Full Scale to less than 2% of Full Scale. Prudent design suggests choosing the lowest possible Full Scale for the application, taking intoconsideration the overpressure to which the sensor may be exposed (both normal and accidental).Valve OrificeThe flow through any orifice depends on the size of the orifice, the inlet and outlet pressures, and gas density. To simplify 649 orifice selection, use the following procedure:1.On the Index Number T able in Figure 1, choose your inlet pressure from the column of pressures on the left–the pressure that will be applied to the inlet of your 649. (Note that the values are absolute pressure.)Next, from the row of pressures at the top of that table,select your differential (delta) pressure – this is the inlet pressure minus your outlet pressure.Locate the Index Number – where your selected row and column intersect.2.If you are using N 2, skip to step #3.For other gases, calculate the Density Correction Factor by the following formula:Multiply this Density Correction Factor times the Index Number found in step 3, to determine your density-corrected Index Number.3. Go to the Orifice Selection Graph (Figure 2) and locate your Index Number along the bottom axis.Draw a vertical line at your Index Number. This line will intersect with the Max. Flow Rate lines for available valve orifices.Choose the orifice whose maximum flow rate exceeds your requirements.Flow MeteringThe flow meter is simply sized.1.Determine Full Scale flow rate and gas.If gas is N 2, skip to #3.2.Divide the Full Scale flow rate by the thermal gas correction factor 1 of the gas of choice relative to configuration.3.Choose the flow rate whose flow just exceeds/equals the equivalent N 2 requirement.1Contact MKS Applications Engineering for gas correction factor.Note: The above procedure is a useful tool for most typical configurationsand applications. If your particular pressure control application falls outside these parameters, please contact our Applications Engineers for assistance in selecting the proper instrument configuration.Example 1Y ou want to control your process pressure at 5 psia,with a flow rate of 1000 sccm of N 2 . Y our inlet pressure is 15 psig, or 30 psia, giving a differential pressure (delta P) of 25 psi. Approximating your delta P as 30 psi gives an Index Number value of 175. Drawing a vertical line on the Orifice Selection Chart at 175 indicates Orifice #2would be the best choice.Example 2Y ou want to control a vacuum process at a pressure of 0.5 psia, with a flow rate of 2000 sccm of He. Y our inlet pressure is 15 psia, giving a differential pressure (delta P) of 215 psi, resulting in an uncorrected Index Number value of 90. The gas density correction for He is calculated as N 2 density/He density = 1.250/0.179 = 2.6. Multiplying 2.6 by 90 gives a density-corrected Index Number of 234.Drawing a vertical line on the Orifice Selection Chart at 234 indicates Orifice #2 would be the best choice.SpecificationsPressure Transducer Type T ype 649Pressure Ranges (Full Scales)10, 20, 50, 100, 1000 mmHg (T orr)Flow Ranges (Full Scales)10, 20, 50, 100, 200, 500, 1000, 2000, 5000 sccm Transducer Overpressure Limit 45 psia or 2x F .S., whichever is greaterOrifice Full Scale Ranges 50, 200, 1000, 5000 sccm (nominal F .S. flow rates for N 2 with atm on inlet and vacuum on outlet)Maximum Differential Pressure 150 psi (consistent with transducer overpressure limit)Pressure Control Mode DownstreamPressure ReadingAccuracy±0.5% of Reading (includes linearity, hysteresis, and repeatability)T emp. CoefficientsZero: ±0.04% of F .S./°CSpan: ±0.04% of Reading/°C Time Response <100 msecPressure ControlRange 2 to 100% of F .S.Accuracy±0.2% of F .S.Time Response 1.0 sec (excluding systemtime constant)Flow ReadingMeasurement Range1% to 100% of F .S.Accuracy (including non-linearity, hysteresis,and non-repeatability referenced to 760 mmHg and 0°C)±1.0% of F .S.Repeatability ±0.2% of F .S.Resolution0.1% of F .S.T emperature CoefficientsZero: < 0.05% of F .S./°C Span: < 0.08% of Rdg./°CPressure Coefficient <0.02% of Rdg./psi Meter Warm-up Time (w/in 0.2% of F .S. steady state)<2 min Meter Response Time <100 msec Operating Temperature 0° to 50°C (32° to 122°F)Storage Temperature -20° to 80°C (-4° to 176°F)Power Required ±15 VDC ±5%, 300 mA max.Input/Output Signals Pressure: 0-10 VDC, standard (0-5 VDC optional)Flow: 0-5 VDCConnector 15-pin male T ype “D”Cable Length 100 ft. (30 m) max.RFI Sensitivity SAMA 33.1, 1-abc: <0.2% of F .S.Trip PointsPressure T wo open-collector transistors Rated 250 mA @ 30 VDC Adjustable 1 to 100% of F .S.Hysteresis 3% of F .S.Indicators Green LED’s on when actuated Electromagnetic Compatibility Fully CE Compliant to EMC Directive 2004/108/EC when used with anoverall metal braided shielded cable, properly grounded at both endsMaterials Exposed to GasStandard (metal sealed)316L S.S., 316L/VAR S.S., Inconel ®, Nickel Optional (valve plug)Viton ®, Kalrez ®, Kel-F ®, or metal Leak IntegrityExternal < 10-9 scc/sec He Internal (through closed valve)*Elastomer valve: < 10-3 scc/sec HeKel-F/metal valve: < 2% of F .S. (N 2 @ 25 psig to atm.)Fittings (compatible with)Male Swagelok ® 4 VCR ®, 8 VCR Dimensions 1.5" (38.1 mm) x 6.66" (169.2 mm) (4 VCR) x 5.50" (140 mm) max.Weight 3.5 lbs. (1.59 kg)*Type 649 Control Valves should not be used for positive shutoff. Where positive shutoff is required, a separate valve should be installed. When selecting the location of an external shutoff valve, consideration should be given to the maximum pressure rating of the internal transducer and to the possibility that leakage across the internal valve over time can build up and result in a sudden surge of gas.Note: The 649 Series controllers require flow to operate, but will not control pressure in “dead-ended” (zero flow) applications.Ordering Inf ormation。

SPECIFICATION FOR FORGED STEEL ROLLS USEDFOR CORRUGATINGSA-649/SA-649M(Identical with ASTM Specification A649/A649M-94a.)1.Scope1.1This specification covers two kinds of rolls usedin machinery for producing corrugated paperboard.Rollsare fabricated of forged bodies and trunnions.Thetrunnions may be bolted or shrink assembled on oneor both ends of the body.A seal weld may be madeat the body/trunnion interface.Roll shells are madeof carbon/manganese,or low alloy steel as herein-after described,and are heat treated prior to assembly.Pressure rolls are surface hardened.Provision is madein supplementary requirement S1for the optional surfacehardening of corrugating rolls.1.2Corrugating and pressure rolls made to thisspecification shall not exceed18in.[455mm]in insidediameter.The wall thickness of the roll body shall notbe less than1/12of the inside diameter or1in.[25mm],whichever is greater,but shall not exceed3in.[75mm].The wall thickness of the corrugating rollis measured at the bottom of the corrugations in thelocation of the trunnionfit.The maximum operatingtemperature of the roll is425°F[225°C]and themaximum allowable working pressure is250psi[1.70MPa].The minimum design temperature shall be40°F[4°C].The maximum stresses on the roll bodies andthe trunnions from the combined internal and externalloading are limited to15000psi[103.4MPa]for thetrunnions,18750psi[129MPa]for the Class2pressureroll bodies,and20000psi[138MPa]for Class1A,1B,or5pressure roll or corrugating roll bodies inGrade1or2.1.3Referring to Table1,material to Classes1A,1B,or5shall be used for the manufacture of corrugatingor pressure roll shells,and Class2shall be used only1117for pressure roll shells.Trunnions shall be made fromforgings in either Class3or Class4.1.4The values stated in either inch-pound units orSI[metric]units are to be regarded separately asstandards.Within the text and tables,the SI units areshown in brackets.The values stated in each systemare not exact equivalents;therefore,each system mustbe used independent of the bining valuesfrom the two systems may result in nonconformancewith the specification.1.5Unless the order specifies the applicable“M”specification designation,the material shall be furnishedto the inch-pound units.1.6Except as specifically required in this standard,all of the provisions of Specification A788apply.2.Referenced Documents2.1ASTM Standards:A275/A275M Test Method for Magnetic Particle Exam-ination of Steel ForgingsA370Test Methods and Definitions for Mechanical Test-ing of Steel ProductsA788Specification for Steel Forgings,General Require-mentsE30Test Methods for Chemical Analysis of Steel,CastIron Open-Hearth Iron,and Wrought Iron3.Ordering Information3.1Orders for material under this specification shallinclude the information required by Specification ASA-649/SA-649M1998SECTION II788.The purchaser should refer to Specification A788for other relevant information.3.2The additional ordering information given in Specification A788shall be specified as necessary to describe adequately the desired material.4.Materials and Manufacture4.1Forging Process:4.1.1Roll body forgings may be made as solid forgings and subsequently bored.4.1.2Trunnions or gudgeons which are to be subsequently assembled to form the roll shall be madeas a solid forging or where practical upset from segmentscut from billets or bars.4.2Heat Treatment:4.2.1Heat Treatment for Mechanical Properties (Requirements do not apply to surface treatment.):4.2.1.1Machining—The forged roll body shall have all surfaces rough machined,including boring, prior to heat treatment for mechanical properties.4.2.1.2Roll bodies shall be normalized,liquid quenched,and tempered to produce the required me-chanical properties,except that for Class2forgings, and when Grade2strength requirements are specified,a normalize and temper heat treatment may be applied.4.2.1.3The trunnions shall be normalized and tempered or annealed to produce the required mechani-cal properties.4.2.2Surface Hardening of Pressure Roll Forg-ings—The working face of pressure rolls shall be surface hardened either before or afterfitting the trun-nions,at the manufacturer’s option.4.3Assembly and Weld—Except for integrally forged or bolted-on trunnions,the assembly shall be made by shrinkfitting trunnions into the prepared body ends.If used,welding of the trunnion to the roll bodyis restricted to a3⁄8in.(9.5mm)max.seal weld,made with low hydrogen materials.A minimum preheat of 400°F(205°C)and a minimum postweld heat treatmentof850°F(455°C)for8h shall be used.The maximum post weld heat treatment shall be not higher than t−50°F(t−28°C)where t is thefinal tempering temperature.All welds shall be machined or ground for thefinal magnetic particle examination.11185.Chemical Composition5.1The steel shall conform to the requirements for chemical composition prescribed in Table1.5.2Method of Analysis—Test Methods E30shall be used for referee purposes.6.Mechanical Properties6.1Tensile Requirements:6.1.1The material shall conform to the require-ments for tensile properties prescribed in Table2when tested in accordance with Test Methods and Definitions A370.Tension test specimens shall be the standard round1⁄2in.[12.5mm]diameter,2in.[50mm]gage length.The yield strength prescribed in Table2shall be determined by the0.2%offset method.6.1.1.1Tests for acceptance shall be made after the heat treatment of the forgings,for mechanical properties in accordance with4.2.1.6.1.2Number,Location,and Orientation of Test Specimens:6.1.2.1Roll Body Forgings—A full-size prolon-gation shall be provided on a roll body forging represent-ing each heat of steel in each heat-treatment furnace charge.One longitudinal tension test specimen shall be taken from the prolongation and the axis of the specimen shall be located midway between the inner and outer surfaces of the wall body.6.1.2.2Trunnions—Test material shall be provided from each heat of steel in each heat-treatment furnace charge.One longitudinal tension specimen shall be taken from each test piece and the axis of the specimen shall be located at any point midway between the center and surface of the solid forging.6.2Hardness:6.2.1Roll body forgings shall have a Brinell hardness from352HB to415HB(Grade1)or207 HB to285HB(Grade2).No less than three hardness determinations shall be made on each roll.The hardness readings are to be taken on the outside of the roll bodies using care to prepare locations for tests that are free of decarburization but not so deep as to affect the usefulness of the material.6.2.2The surface hardened pressure roll body forgings shall have a hardness of58HRC to65HRC or equivalent.No less than three hardness determinations shall be made on each roll.The hardness depth shall not exceed1⁄4[6mm].PART A—FERROUS MATERIAL SPECIFICATIONS SA-649/SA-649M7.Retreatment7.1If the results of the mechanical tests of any forging do not conform to the specified requirements,the manufacturer may retreat the forging one or more times,but not more than three additional times without approval of the purchaser.8.Magnetic Particle Examination8.1The entire surface of the roll including the seal weld area shall be examined by a wet continuous method in accordance with Test Method A275/A 275M after machining or grinding.The use of prodsis not permitted.8.2Only indications with major dimensions greater than1⁄8in[3.2mm]are considered relevant.8.3Acceptance Standards—The following relevant indications are unacceptable:8.3.1Any linear indications greater than3⁄16in. [4.8mm]long.8.3.2Rounded indications greater than3⁄16in. [4.8mm].11198.3.3Four or more indications in a line separated by1⁄16in.[1.6mm]or less edge to edge.8.3.4Ten or more indications in any6in.2[38.71 cm2]of surface.9.Hydrostatic Testing9.1The machined roll assembly shall be hydrostatic tested at11⁄2times the maximum operating pressure.The operating pressure shall be furnished by the purchaser.9.2The recommended minimum hydrostatic test tem-perature is70°F[21°C].10.Package Marking,Packaging,and Loading 10.1Packaging and loading shall be done so the forging is not damaged during shipment to the purchaser.11.Keywords11.1internal pressure;machinery—corrugating;roll assembly—forged;rolls—corrugating;rolls—pressure;steel forgings—alloy;steel forgings—carbon;steel rolls;surface-hardened;trunnions—shrink-fittedSA-649/SA-649M1998SECTION IITABLE1CHEMICAL REQUIREMENTSComposition,%Class1A Class1B Class2Class3Class4Class5 Carbon0.45–0.600.40–0.600.55max0.35max0.35max0.50–0.60 Manganese0.55–1.050.60–0.950.50–0.900.40–0.700.60–1.050.90–1.50 Phosphorus0.025max0.025max0.025max0.025max0.025max0.025max Sulfur0.025max0.025max0.025max0.025max0.025max0.025max Silicon[Note(1)]0.15–0.350.15–0.350.15–0.35max0.15–0.350.15–0.35max0.15–0.35 Nickel... 1.55–2.00.........0.60max Chromium0.80–1.150.65–0.93...0.80–1.15...0.30max Molybdenum0.15–0.500.20–0.30...0.15–0.25...0.15maxNOTE:(1)When vacuum carbon deoxidation(VCD)is used the silicon content shall be0.010%maximum.TABLE2TENSILE REQUIREMENTSYield Strength,min[Note(1)]Tensile Strength,min Elongation in Reduction Class Grade2in.or50min,ofksi[MPa]ksi[MPa]%Area,%1A,1B or51130[890]150[1030]12.0301A,1B or5265[450]100[690]14.030 2...37.5[260]75[515]20.050.03or4...30[205]60[415]22.055 NOTE:(1)0.2%offset.1120PART A—FERROUS MATERIAL SPECIFICATIONS SA-649/SA-649M SUPPLEMENTARY REQUIREMENTSThe following supplementary requirements shall apply only when specified by thepurchaser on the order and agreed to by the manufacturer.S1.Surface-Hardened Corrugating RollsS1.1After all surfaces have been machined,the outer surface of the corrugating rolls may be surface-hardenedto a surface hardness of Rockwell53HRC to65HRC. The depth of hardness shall not exceed3⁄8in.[9.5 mm].A minimum of three hardness determinations shall be made on the surface.Additional hardness tests shall be made to establish the depth of hardness.The hardened surface shall be magnetic particle tested(see Section8).S2.Notch ToughnessS2.1For applications where minimum notch tough-ness limits are required,impact testing shall be specified1121for both roll bodies and trunnions.The following re-quirements shall be specified:S2.1.1Type of impact specimen and test standard (for example,ASTM A370specimen Type A or B).S2.1.2Minimum value for absorbed energy or lateral expansion.S2.1.3Test temperature.S2.1.4Frequency of testing.S2.2Trunnion and pressure rolls may be liquid quenched and tempered instead of the heat treatments specified in4.2when impact testing is required.。

Features Array•Fast Read Access Time – 70 ns•Automatic Page Write Operation–Internal Address and Data Latches for 64 Bytes•Fast Write Cycle Times–Page Write Cycle Time: 10 ms Maximum (Standard)2 ms Maximum (Option – Ref. AT28HC64BF Datasheet)–1 to 64-byte Page Write Operation•Low Power Dissipation–40 mA Active Current–100µA CMOS Standby Current•Hardware and Software Data Protection•DATA Polling and Toggle Bit for End of Write Detection•High Reliability CMOS Technology–Endurance: 100,000 Cycles–Data Retention: 10 Years•Single 5 V ±10% Supply•CMOS and TTL Compatible Inputs and Outputs•JEDEC Approved Byte-wide Pinout•Industrial Temperature Ranges•Green (Pb/Halide-free) Packaging Option Only1.DescriptionThe AT28HC64B is a high-performance electrically-erasable and programmable read-only memory (EEPROM). Its 64K of memory is organized as 8,192 words by 8 bits. Manufactured with Atmel’s advanced nonvolatile CMOS technology, the device offers access times to 55 ns with power dissipation of just 220 mW. When the device is deselected, the CMOS standby current is less than 100µA.The AT28HC64B is accessed like a Static RAM for the read or write cycle without the need for external components. The device contains a 64-byte page register to allow writing of up to 64 bytes simultaneously. During a write cycle, the addresses and 1 to 64 bytes of data are internally latched, freeing the address and data bus for other operations. Following the initiation of a write cycle, the device will automatically write the latched data using an internal control timer. The end of a write cycle can be detected by DATA polling of I/O7. Once the end of a write cycle has been detected, a new access for a read or write can begin.Atmel’s AT28HC64B has additional features to ensure high quality and manufactura-bility. The device utilizes internal error correction for extended endurance and improved data retention characteristics. An optional software data protection mecha-nism is available to guard against inadvertent writes. The device also includes anextra 64 bytes of EEPROM for device identification or tracking.20274L–PEEPR–2/3/09AT28HC64B2.Pin Configurations2.128-lead SOIC Top ViewPin Name Function A0 - A12Addresses CE Chip Enable OE Output Enable WE Write Enable I/O0 - I/O7Data Inputs/Outputs NC No Connect DCDon’t Connect2.232-lead PLCC Top ViewNote:PLCC package pins 1 and 17 are Don’t Connect.2.328-lead TSOP Top View30274L–PEEPR–2/3/09AT28HC64B3.Block Diagram4.Device Operation4.1ReadThe AT28HC64B is accessed like a Static RAM. When CE and OE are low and WE is high, the data stored at the memory location determined by the address pins is asserted on the out-puts. The outputs are put in the high-impedance state when either CE or OE is high. This dual line control gives designers flexibility in preventing bus contention in their systems.4.2Byte WriteA low pulse on the WE or CE input with CE or WE low (respectively) and OE high initiates a write cycle. The address is latched on the falling edge of CE or WE, whichever occurs last. The data is latched by the first rising edge of CE or WE. Once a byte write has been started, it will automatically time itself to completion. Once a programming operation has been initiated and for the duration of t WC , a read operation will effectively be a polling operation.4.3Page WriteThe page write operation of the AT28HC64B allows 1 to 64 bytes of data to be written into the device during a single internal programming period. A page write operation is initiated in the same manner as a byte write; after the first byte is written, it can then be followed by 1 to 63 additional bytes. Each successive byte must be loaded within 150 µs (t BLC ) of the previous byte. If the t BLC limit is exceeded, the AT28HC64B will cease accepting data and commence the internal programming operation. All bytes during a page write operation must reside on the same page as defined by the state of the A6 to A12 inputs. For each WE high-to-low transition during the page write operation, A6 to A12 must be the same.The A0 to A5 inputs specify which bytes within the page are to be written. The bytes may be loaded in any order and may be altered within the same load period. Only bytes which are specified for writing will be written; unnecessary cycling of other bytes within the page does not occur.4.4DATA PollingThe AT28HC64B features DATA Polling to indicate the end of a write cycle. During a byte or page write cycle, an attempted read of the last byte written will result in the complement of the written data to be presented on I/O7. Once the write cycle has been completed, true data is valid on all outputs, and the next write cycle may begin. DATA Polling may begin at any time during the write cycle.40274L–PEEPR–2/3/09AT28HC64B4.5Toggle BitIn addition to DATA Polling, the AT28HC64B provides another method for determining the end of a write cycle. During the write operation, successive attempts to read data from the device will result in I/O6 toggling between one and zero. Once the write has completed, I/O6 will stop toggling, and valid data will be read. Toggle bit reading may begin at any time during the write cycle.4.6Data ProtectionIf precautions are not taken, inadvertent writes may occur during transitions of the host system power supply. Atmel ® has incorporated both hardware and software features that will protect the memory against inadvertent writes.4.6.1Hardware ProtectionHardware features protect against inadvertent writes to the AT28HC64B in the following ways: (a) V CC sense – if V CC is below 3.8 V (typical), the write function is inhibited; (b) V CC power-on delay – once V CC has reached 3.8 V, the device will automatically time out 5 ms (typical) before allowing a write; (c) write inhibit – holding any one of OE low, CE high or WE high inhib-its write cycles; and (d) noise filter – pulses of less than 15 ns (typical) on the WE or CE inputs will not initiate a write cycle.4.6.2Software Data ProtectionA software-controlled data protection feature has been implemented on the AT28HC64B. When enabled, the software data protection (SDP), will prevent inadvertent writes. The SDP feature may be enabled or disabled by the user; the AT28HC64B is shipped from Atmel with SDP disabled.SDP is enabled by the user issuing a series of three write commands in which three specific bytes of data are written to three specific addresses (refer to the “Software Data Protection Algorithm” diagram on page 10). After writing the 3-byte command sequence and waiting t WC , the entire AT28HC64B will be protected against inadvertent writes. It should be noted that even after SDP is enabled, the user may still perform a byte or page write to the AT28HC64B. This is done by preceding the data to be written by the same 3-byte command sequence used to enable SDP.Once set, SDP remains active unless the disable command sequence is issued. Power transi-tions do not disable SDP, and SDP protects the AT28HC64B during power-up and power-down conditions. All command sequences must conform to the page write timing specifica-tions. The data in the enable and disable command sequences is not actually written into the device; their addresses may still be written with user data in either a byte or page write operation.After setting SDP, any attempt to write to the device without the 3-byte command sequence will start the internal write timers. No data will be written to the device, however. For the dura-tion of t WC , read operations will effectively be polling operations.4.7Device IdentificationAn extra 64 bytes of EEPROM memory are available to the user for device identification. By raising A9 to 12 V ±0.5 V and using address locations 1FC0H to 1FFFH, the additional bytes may be written to or read from in the same manner as the regular memory array.50274L–PEEPR–2/3/09AT28HC64BNotes:1.X can be VIL or VIH.2.See “AC Write Waveforms” on page 8.3.VH = 12.0 V ±0.5 V.Note:1.I SB1 and I SB2 for the 55 ns part is 40 mA maximum.5.DC and AC Operating RangeAT28HC64B-70AT28HC64B-90AT28HC64B-120Operating Temperature (Case)-40°C - 85°C -40°C - 85°C -40°C - 85°C V CC Power Supply5 V ±10%5 V ±10%5 V ±10%6.Operating ModesMode CE OE WE I/O Read V IL V IL V IH D OUT Write (2)V IL V IH V IL D IN Standby/Write Inhibit V IH X (1)X High ZWrite Inhibit X X V IH Write Inhibit X V IL X Output Disable X V IH XHigh ZChip Erase V ILV H (3)V IL High Z7.Absolute Maximum Ratings*Temperature Under Bias................................-55°C to +125°C *NOTICE:Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent dam-age to the device. This is a stress rating only and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of this specification is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliabilityStorage Temperature.....................................-65°C to +150°C All Input Voltages(including NC Pins)with Respect to Ground.................................-0.6 V to +6.25 V All Output Voltageswith Respect to Ground...........................-0.6 V to V CC + 0.6 V Voltage on OE and A9with Respect to Ground..................................-0.6 V to +13.5V8.DC CharacteristicsSymbol Parameter ConditionMinMax Units I LI Input Load Current V IN = 0 V to V CC + 1 V 10µA I LO Output Leakage Current V I/O = 0 V to V CC10µA I SB1V CC Standby Current CMOS CE = V CC - 0.3 V to V CC + 1 V 100(1)µA I SB2V CC Standby Current TTL CE = 2.0 V to V CC + 1 V 2(1)mA I CC V CC Active Current f = 5 MHz; I OUT = 0 mA40mA V IL Input Low Voltage 0.8V V IH Input High Voltage 2.0V V OL Output Low Voltage I OL = 2.1 mA 0.40V V OH Output High VoltageI OH = -400 µA2.4V60274L–PEEPR–2/3/09AT28HC64B10.AC Read Waveforms (1)(2)(3)(4)Notes:1.CE may be delayed up to t ACC - t CE after the address transition without impact on t ACC .2.OE may be delayed up to t CE - t OE after the falling edge of CE without impact on t CE or by t ACC - t OE after an address changewithout impact on t ACC .3.t DF is specified from OE or CE whichever occurs first (C L = 5 pF).4.This parameter is characterized and is not 100% tested.9.AC Read CharacteristicsSymbol ParameterAT28HC64B-70AT28HC64B-90AT28HC64B-120Units MinMax MinMax MinMax t ACC Address to Output Delay 7090120ns t CE (1)CE to Output Delay 7090120ns t OE (2)OE to Output Delay 035040050ns t DF (3)(4)OE to Output Float 035040050ns t OHOutput Hold00ns70274L–PEEPR–2/3/09AT28HC64B11.Input Test Waveforms and Measurement Level12.Output Test LoadNote:1.This parameter is characterized and is not 100% tested.R F 13.Pin Capacitancef = 1 MHz, T = 25°C (1)Symbol Typ Max Units Conditions C IN 46pF V IN = 0 V C OUT 812pFV OUT = 0 V815.AC Write Waveforms15.1WE Controlled15.2CE Controlled14.AC Write CharacteristicsSymbol ParameterMin MaxUnits t AS , t OES Address, OE Setup Time 0ns t AH Address Hold Time 50ns t CS Chip Select Setup Time 0ns t CH Chip Select Hold Time 0ns t WP Write Pulse Width (WE or CE)100ns t DS Data Setup Time 50ns t DH , t OEHData, OE Hold Timens90274L–PEEPR–2/3/09AT28HC64B17.Page Mode Write Waveforms (1)(2)Notes: 1.A6 through A12 must specify the same page address during each high to low transition of WE (or CE).2.OE must be high only when WE and CE are both low.18.Chip Erase Waveformst S = t H = 5 µs (min.)t W = 10 ms (min.)V H = 12.0 V ±0.5 V16.Page Mode CharacteristicsSymbol Parameter MinMax Units t WC Write Cycle Time10ms t WC Write Cycle Time (Use AT28HC64BF))2ms t AS Address Setup Time 0ns t AH Address Hold Time 50ns t DS Data Setup Time 50ns t DH Data Hold Time 0ns t WP Write Pulse Width 100ns t BLC Byte Load Cycle Time 150µs t WPHWrite Pulse Width High50ns100274L–PEEPR–2/3/09AT28HC64B19.Software Data Protection EnableAlgorithm (1)Notes:1.Data Format: I/O7 - I/O0 (Hex);Address Format: A12 - A0 (Hex).2.Write Protect state will be activated at end of writeeven if no other data is loaded.3.Write Protect state will be deactivated at end of writeperiod even if no other data is loaded.4.1 to 64 bytes of data are loaded.20.Software Data Protection DisableAlgorithm (1)Notes:1.Data Format: I/O7 - I/O0 (Hex);Address Format: A12 - A0 (Hex).2.Write Protect state will be activated at end of writeeven if no other data is loaded.3.Write Protect state will be deactivated at end of writeperiod even if no other data is loaded.4. 1 to 64 bytes of data are loaded.21.Software Protected Write Cycle Waveforms (1)(2)Notes:1.A6 through A12 must specify the same page address during each high to low transition of WE (or CE) after the softwarecode has been entered.2.OE must be high only when WE and CE are both low.11AT28HC64BNote:1.These parameters are characterized and not 100% tested. See “AC Read Characteristics” on page 6.23.Data Polling WaveformsNotes:1.These parameters are characterized and not 100% tested.2.See “AC Read Characteristics” on page 6.25.Toggle Bit Waveforms (1)(2)(3)Notes: 1.Toggling either OE or CE or both OE and CE will operate toggle bit.2.Beginning and ending state of I/O6 will vary.3.Any address location may be used, but the address should not vary.22.Data Polling Characteristics (1)Symbol Parameter Min TypMaxUnits t DH Data Hold Time 0ns t OEH OE Hold Time 0ns t OE OE to Output Delay (1)ns t WR Write Recovery Timens24.Toggle Bit Characteristics (1)Symbol Parameter Min TypMaxUnits t DH Data Hold Time 10ns t OEH OE Hold Time 10ns t OE OE to Output Delay (2)ns t OEHP OE High Pulse 150ns t WR Write Recovery Timens12AT28HC64B26.Normalized I CCGraphs13AT28HC64B27.Ordering Information27.1Green Package Option (Pb/Halide-free)t ACC (ns)I CC (mA)Ordering Code Package Operation RangeActive Standby 70400.1AT28HC64B-70TU 28T Industrial (-40°C to 85°C)AT28HC64B-70JU 32J AT28HC64B-70SU 28S 90400.1AT28HC64B-90JU 32J AT28HC64B-90SU 28S AT28HC64B-90TU 28T 120400.1AT28HC64B-12JU 32J AT28HC64B-12SU28SPackage Type32J 32-lead, Plastic J-leaded Chip Carrier (PLCC)28S 28-lead, 0.300" Wide, Plastic Gull Wing Small Outline (SOIC)28T28-lead, Plastic Thin Small Outline Package (TSOP)27.2Die ProductsContact Atmel Sales for die sales options.28.Packaging Information 28.132J – PLCC14AT28HC64BAT28HC64B 28.228S – SOIC1528.328T – TSOP16AT28HC64BHeadquarters InternationalAtmel Corporation 2325 Orchard Parkway San Jose, CA 95131 USATel: 1(408) 441-0311 Fax: 1(408) 487-2600Atmel AsiaUnit 1-5 & 16, 19/FBEA Tower, Millennium City 5418 Kwun Tong RoadKwun Tong, KowloonHong KongTel: (852) 2245-6100Fax: (852) 2722-1369Atmel EuropeLe Krebs8, Rue Jean-Pierre TimbaudBP 30978054 Saint-Quentin-en-Yvelines CedexFranceTel: (33) 1-30-60-70-00Fax: (33) 1-30-60-71-11Atmel Japan9F, Tonetsu Shinkawa Bldg.1-24-8 ShinkawaChuo-ku, Tokyo 104-0033JapanTel: (81) 3-3523-3551Fax: (81) 3-3523-7581Product ContactWeb SiteTechnical Support******************Sales Contact/contactsLiterature Requests/literatureDisclaimer: The information in this document is provided in connection with Atmel products. No license, express or implied, by estoppel or otherwise, to any intellectual property right is granted by this document or in connection with the sale of Atmel products. EXCEPT AS SET FORTH IN ATMEL’S TERMS AND CONDI-TIONS OF SALE LOCATED ON ATMEL’S WEB SITE, ATMEL ASSUMES NO LIABILITY WHATSOEVER AND DISCLAIMS ANY EXPRESS, IMPLIED OR STATUTORY WARRANTY RELATING TO ITS PRODUCTS INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTY OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE, OR NON-INFRINGEMENT. IN NO EVENT SHALL ATMEL BE LIABLE FOR ANY DIRECT, INDIRECT, CONSEQUENTIAL, PUNITIVE, SPECIAL OR INCIDEN-TAL DAMAGES (INCLUDING, WITHOUT LIMITATION, DAMAGES FOR LOSS OF PROFITS, BUSINESS INTERRUPTION, OR LOSS OF INFORMATION) ARISING OUT OF THE USE OR INABILITY TO USE THIS DOCUMENT, EVEN IF ATMEL HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. Atmel makes no representations or warranties with respect to the accuracy or completeness of the contents of this document and reserves the right to make changes to specifications and product descriptions at any time without notice. Atmel does not make any commitment to update the information contained herein. Unless specifically provided otherwise, Atmel products are not suitable for, and shall not be used in, automotive applications. Atmel’s products are not intended, authorized, or warranted for use as components in applications intended to support or sustain life.© 2009 Atmel Corporation. All rights reserved. Atmel®, logo and combinations thereof, and others are registered trademarks or trademarks of Atmel Corporation or its subsidiaries. Other terms and product names may be trademarks of others.。

其他信息：在一个AO可以被写入之前，如果这两个数据相等，还是保留原来的数据。

，为了不降低EEPROM使用寿命，数据将不被写入。

这也将包含相同的信息（例外的排除任何周期性的写入指令地址1E和87）。

主机没有任何反应，因为从器件将继续作出反应的正常的方式。

在地址08和1E，未定义的位状态不一定它们以同样的方式，读出通过串行接口设置。

地址80〜87，也可以同时设置通过单个地址1E。

没有调节器的校准值可以被改变。

如果发生任何变化的校准值，然后测量的实际值将是错误的，和调节器将必须重新校准。

如果校准的操纵变量通过总线被激活的通信处于非活动状态为1.28秒。

Modbus协议设定的设定值的示例：设置一个新的内部设定值：从机地址01（地址70十六进制）。

Modbus传输如下： 01 06 00 70 0D 77 + CRC（十六进制）设定值0D77（hex）= 3447dec 将是一个值，测量范围0 .. 300°C的20％的将是60°C的值（对于转换的描述，请参阅下面的值分配-物理绝对值（1））。

没有发生错误，从站的响如下：01 06 00 70 0D 77 + CRC（十六进制）赋值：物理绝对值（1）（实际值和内部/外部模拟量设定值，SP2，AL-（alarm B ）。

1808（DEC）等于di.L （显示低）= 0％10000（DEC）等于di.H（显示高）= 100％例如：测量范围为0 .. 300°C（di.L = 0°C，di.H = 300°C）。

给从机提供一个1808（DEC）实际值就是对应0°C。

一个实际值10000（DEC）就是对应300℃。

因此，5904的实际值（DEC）等于150℃。

从内部表示转换成物理表示如下：物理=（内部- 1808）*（di.H - di.L）/ 8192 + di.L的范例：内部值= 3428。

物理表示的计算方法如下：物理=（3428 - 1808）*（300°C - 0°C）/ 8192 + 0°C = 59.3°C从PC发送给从机，转换过程是相反，即物理值被转换成的内部值。

UNISONIC TECHNOLOGIES CO., LTD2SB649/APNP SILICON TRANSISTORBIPOLAR POWER GENERAL PURPOSE TRANSISTORAPPLICATIONS* Low frequency power amplifier complementary pair with UTC 2SB669/A*Pb-free plating product number: 2SB649L/2SB649ALORDERING INFORMATIONOrder Number Pin AssignmentNormal Lead Free PlatingPackage 1 2 3 Packing2SB649-x-AB3-R 2SB649L-x-AB3-R SOT-89 B C E Tape Reel 2SB649-x-T6C-K 2SB649L-x-T6C-K TO-126C E C B Bulk 2SB649-x-T60-K 2SB649L-x-T60-K TO-126 E C B Bulk 2SB649-x-T92-B 2SB649L-x-T92-B TO-92 E C B Tape Box 2SB649-x-T92-K 2SB649L-x-T92-K TO-92 E C B Bulk 2SB649A-x-AB3-R 2SB649AL-x-AB3-R SOT-89 B C E Tape Reel 2SB649A-x-T6C-K 2SB649AL-x-T6C-K TO-126C E C B Bulk 2SB649A-x-T60-K 2SB649AL-x-T60-K TO-126 E C B Bulk 2SB649A-x-T92-B 2SB649AL-x-T92-B TO-92 E C B Tape Box 2SB649A-x-T92-K 2SB649AL-x-T92-K TO-92 E C B BulkABSOLUTE MAXIMUM RATING (Ta=25℃, unless otherwise specified)PARAMETER SYMBOL RATING UNITCollector-Base Voltage V CBO -180 V2SB649-120Collector-Emitter Voltage 2SB649A V CEO -160VEmitter-Base Voltage V EBO -5 V Collector Current I C -1.5 A Collector Peak Current l C(PEAK)-3 ATO-126/TO-126C 1.4 WTO-92 1 WCollector Power Dissipation SOT-89 P D 500 mWJunction Temperature T J +150 °C Storage Temperature T STG -40 ~ +150 °C Note: Absolute maximum ratings are those values beyond which the device could be permanently damaged.Absolute maximum ratings are stress ratings only and functional device operation is not implied.ELECTRICAL CHARACTERISTICS (Ta=25℃, unless otherwise specified)PARAMETER SYMBOL TEST CONDITIONS MIN TYP MAX UNITCollector to Base Breakdown Voltage BV CBO I C =-1mA, I E =0 -180 V 2SB649 -120Collector to Emitter Breakdown Voltage 2SB649A BV CEO I C =-10mA, R BE =∞ -160 VEmitter to Base Breakdown Voltage BV EBO I E =-1mA, I C =0 -5 V Collector Cut-off Current I CBO V CB =-160V, I E =0 -10µAh FE1 V CE =-5V, I C =-150mA (note) 60 3202SB649 h FE2 V CE =-5V, I C =-500mA (note) 30h FE1 V CE =-5V, I C =-150mA (note) 60 200DC Current Gain2SB649A h FE2 V CE =-5V, I C =-500mA (note) 30Collector-Emitter Saturation Voltage V CE(SAT)Ic=-600mA, I B =-50mA -1 V Base-Emitter Voltage V BE V CE =-5V, I C =-150mA -1.5V Current Gain Bandwidth Product f T V CE =-5V,I C =-150mA 140 MHz Output Capacitance Cob V CB =-10V, I E =0, f=1MHz 27 pF Note: Pulse test.CLASSIFICATION OF h FERANK B C D RANGE 60-120 100-200 160-320TYPICAL CHARACTERISTICS0-10-20-30-40-500.20.40.60.81.0Typical Output Characteristecs Collector to Emitter Voltage, V CE (V)C o l l e c t o r C u r r e n t , I C (A )Base to Emitter Voltage , V BE (V)0-0.2-0.4-0.6-0.8-1.0-1-10-100-500Typical Transfer CharacteristicsC o l l e c t o r C ur r e n t ,I C (m A )150100150200250300-1-10-100-1,000Collector Current, I C (mA)D C C u r r e n t T r a n s f e r R a t i o , h F EDC Current Transfer Ratio vs. Collector CurrentCollector to Emitter Saturation Voltagevs. Collector Current-1-10-100-1,000Collector Current, I C (mA)-0.2-0.4-0.6-0.8-1.0-1.2C o l l e c t o r t o 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 )3501310301003001,00000.20.40.60.81.01.2Collector C urrent, I C (mA)Base to Emitter Saturation Voltagevs. Collector Current B a s e t o 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 B E (S A T ) (V )10301003001,000Collector Current, I C (mA)04080120160200240G a i n B a n d w i d t h P r o d u c t , f T (M H z )Gain Bandwidth Product vs. Collector CurrentTYPICAL CHARACTERISTICS(Cont.)-1-10-30-100-325102050100200Collector to Base Voltage, V CB (V)Collector Output Capacitance vs. Collector to Base VoltageC o l l e c t o r O u t p u t C a p a c i t a n c e , C o b (p F )Area of Safe OperationCollector to Emitter Voltage, V CE (V)-1-3-10-100-300-0.1-0.3-1.0-3-30C o l l e c t o r C u r r e n t, I C (A )。

BD244/A/B/CBD244/A/B/CBD244/A/B/CTRADEMARKSThe following are registered and unregistered trademarks Fairchild Semiconductor owns or is authorized to use and is not intended to be an exhaustive list of all such trademarks.ACEx™Bottomless™CoolFET™CROSSVOLT™E2CMOS™FACT™FACT Quiet Series™FAST®FASTr™GTO™HiSeC™ISOPLANAR™MICROWIRE™POP™PowerTrench®QFET™QS™Quiet Series™SuperSOT™-3SuperSOT™-6SuperSOT™-8SyncFET™TinyLogic™UHC™VCX™DISCLAIMERFAIRCHILD SEMICONDUCTOR RESERVES THE RIGHT TO MAKE CHANGES WITHOUT FURTHER NOTICE TO ANY PRODUCTS HEREIN TO IMPROVE RELIABILITY, FUNCTION OR DESIGN. FAIRCHILD DOES NOT ASSUME ANY LIABILITY ARISING OUT OF THE APPLICATION OR USE OF ANY PRODUCT OR CIRCUIT DESCRIBED HEREIN; NEITHER DOES IT CONVEY ANY LICENSE UNDER ITS PATENT RIGHTS, NOR THE RIGHTS OF OTHERS.LIFE SUPPORT POLICYFAIRCHILD’S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF FAIRCHILD SEMICONDUCTOR INTERNATIONAL.As used herein:1. Life support devices or systems are devices or systems which, (a) are intended for surgical implant into the body, or (b) support or sustain life, or (c) whose failure to perform when properly used in accordance with instructions for use provided in the labeling, can be reasonably expected to result in significant injury to the user.2. A critical component is any component of a life support device or system whose failure to perform can be reasonably expected to cause the failure of the life support device or system, or to affect its safety or effectiveness.PRODUCT STATUS DEFINITIONSDefinition of TermsDatasheet Identification Product Status DefinitionAdvance Information Formative or InDesign This datasheet contains the design specifications for product development. Specifications may change in any manner without notice.Preliminary First Production This datasheet contains preliminary data, andsupplementary data will be published at a later date.Fairchild Semiconductor reserves the right to makechanges at any time without notice in order to improvedesign.No Identification Needed Full Production This datasheet contains final specifications. FairchildSemiconductor reserves the right to make changes atany time without notice in order to improve design. Obsolete Not In Production This datasheet contains specifications on a productthat has been discontinued by Fairchild semiconductor.The datasheet is printed for reference information only.分销商库存信息:FAIRCHILDBD244B BD244A BD244BTU BD244C BD244ATU BD244TU。

2SB1051罗姆AF-20 2SB1052松下PA252SB1053松下AF-40 2SB1054松下PA60-100 2SB1055松下PA-120 2SB1056松下PA-140 2SB1057松下PA-150 2SB1058日立LF PA-16 2SB1059日立LF PA-55 2SB106日电AF.PA-30 2SB1060日立AF-55 2SB1061日电15-300 2SB1062松下AF-10 2SB1063松下PA40-100 2SB1064罗姆LF PA-40 2SB1065罗姆LF PA-40 2SB1066罗姆AF.PA-40 2SB1066M罗姆PA-40 2SB1067东芝10-80 2SB1068日电LF PA-16 2SB1069松下AF.PA-40 2SB1069A松下LV.SW-40 2SB107日电AF.PA-30 2SB1070松下LV SW25-40 2SB1070A松下LV SW25-40 2SB1071松下LV SW25-40 2SB1071A松下LV SW25-40 2SB1072日立AF.PA-100 2SB1072L日立MS PA20-80 2SB1072S日立MS PA20-80 2SB1073松下LF A1-30 2SB1074松下AF.PA-100 2SB1075松下AF.PA-20 2SB1076罗姆PA-24 2SB1076M罗姆LF PA-24 2SB1077日立LF PA40-60 2SB1078日立AF-120 2SB1078K日立LF PA40-120 2SB1079日立LF PA100-100 2SB107A日电AF.PA-602SB108日电PA-402SB10822SB10832SB10842SB1085罗姆LF PA20-100 2SB1085A罗姆LF PA20-120 2SB1086罗姆LF PA10-100 2SB1086A罗姆LF PA10-120 2SB1087日电30-100 2SB1088日电PA.SW-100 2SB1089日电LF PA30-60 2SB108A日电PA-60 2SB108B日电PA-80 2SB109日电PA-40 2SB1090日电LF PA40-100 2SB1091日立AF.PA-60 2SB1092日立AF.PA-80 2SB1093日电-80 2SB1094日电LF PA15-60 2SB1095日电LF PA20-100 2SB1096日电TV Vout25-150 2SB1097日电30-60 2SB1098日电20-100 2SB1099日电25-100 2SB109A日电PA-60 2SB109B日电PA-80 2SB110日电AF-62SB1100日电30-100 2SB1101日立LF PA40-60 2SB1102日立LF PA40-60 2SB1103日立LF PA40-60 2SB1104日立LF PA40-60 2SB1105日立LF PA30-120 2SB1106日立LF PA40-120 2SB1107日立AF.PA-120 2SB1108松下MS SW50-120 2SB1109日立LF HV A-140 2SB111日电AF-62SB1110日立LF HV A-160 2SB1111日电10-40 2SB1112日立AF.PA-120 2SB1113日立AF.PA-120 2SB1114日电LF PA2-16 2SB1115日电LF PA2-60 2SB1115A日电LF PA2-80 2SB1116日电-60 2SB1116A日电-60 2SB1117日电-30 2SB1118三洋LF PA 1.3-15 2SB1119三洋LF PA 1.3-20 2SB112日电AF-62SB1120三洋PD 1.3-162SB1130罗姆AF.PA-100 2SB1130AM罗姆PA-120 2SB1130M罗姆PA-100 2SB1131三洋PSW/PD-20 2SB1132罗姆PA1-20 2SB1133三洋LF PA25-40 2SB1134三洋PSW/PD25-40 2SB1135三洋PSW/PD30-40 2SB1136三洋PSW/PD30-40 2SB1137日电LS PSW65-100 2SB11382SB11392SB114日电PA-62SB1140三洋PSW/PD10-20 2SB1141三洋LF PA10-15 2SB1142三洋10-50 2SB1143三洋10-40 2SB1144三洋10-100 2SB1145日立AF.PA-120 2SB1146日立AF.PA-120 2SB1147日立AF.PA-120 2SB1148松下LV SW15-40 2SB1148A松下LV SW15-50 2SB1149日电LF PA15-100 2SB115日电PA-62SB1150日电LF PA15-40 2SB1151日电20-50 2SB1152松下AF.PA-160 2SB1153松下AF.PA-170 2SB1154松下PSW70100 2SB1155松下PSW80-100 2SB1156松下AF.PA-100 2SB1157松下AF.PA-100 2SB1158松下AF.PA-120 2SB1159松下AF.PA-140 2SB116日电PA-62SB1160松下AF.PA-150 2SB1161松下AF.PA-160 2SB1162松下AF.PA-160 2SB1163松下AF.PA-170 2SB1164日电AF.PA-60 2SB1165三洋PSW/PD20-402SB1166三洋PSW/PD20-402SB1170松下PA152SB1171松下15-200 2SB1171A松下15-200 2SB1172松下LF PA152SB1172A松下LF PA152SB1173松下LF PA152SB1173A松下LF PA152SB1174松下PSW15-100 2SB1175松下PSW15-100 2SB1176松下PSW15-100 2SB1177松下PSW15-100 2SB1178松下LF PA15-60 2SB1178A松下LF PA15-80 2SB1179松下PA/SW15-60 2SB1179A松下PA/SW15-80 2SB118松下PA-14 2SB1180松下MS PSW15-60 2SB1180A松下MS PSW15-60 2SB1181罗姆LF PA10-60 2SB1181F5罗姆LF PA10-60 2SB1182罗姆LF PA10-20 2SB1182F5罗姆LF PA10-20 2SB1183罗姆LF PA10-24 2SB1183F5罗姆LF PA10-24 2SB1184罗姆LF PA15-40 2SB1184F5罗姆LF PA15-40 2SB1185罗姆LF PA25-40 2SB1186罗姆LF PA20-100 2SB1186A罗姆LF PA20-120 2SB1187罗姆AF.PA-50 2SB1188罗姆PA2-20 2SB1189罗姆PA2-50 2SB119松下PA-14 2SB1190松下AF.PA-200 2SB1190A松下PA/TV-200 2SB1191松下25-200 2SB1191A松下25-200 2SB1192松下25-200 2SB1192A松下25-200 2SB1193松下MS SW50-120 2SB1194松下PSW30-100 2SB1195松下AF.PA-100 2SB1196日立AF.PA-50 2SB1197罗姆AF.PA-20 2SB1198罗姆AF.PA-50 2SB1199罗姆AF.PA-12 2SB12富士通AF-302SB120富士通AF-122SB1201三洋PSW/PD15-50 2SB1202三洋PSW/PD15-40 2SB1203三洋PSW/PD20-40 2SB1204三洋PSW/PD20-40 2SB1205三洋PSW/PD10-20 2SB1206松下AF-10 2SB1207松下LV A-10 2SB1208松下LF A-20 2SB1209松下LF A-400 2SB121富士通SW-2.5 2SB1210罗姆AF.PA-16 2SB1211罗姆AF.PA-16 2SB1212罗姆AF.PA-120 2SB1213日立AF.PA-120 2SB1214三洋PD15-60 2SB1215三洋PSW/PD20-100 2SB1216三洋PSW/PD20-100 2SB1217日电10-60 2SB1218松下AF-20 2SB1218A松下G A-20 2SB1219松下G A-20 2SB1219A松下G A-20 2SB122东芝SW-12 2SB1220松下HV LN A-100 2SB1221松下G A-120 2SB1222松下SW-30 2SB1223三洋PD20-40 2SB1224三洋PD25-40 2SB1225三洋PD30-40 2SB1226三洋PD20-80 2SB1227三洋PD25-80 2SB1228三洋PD30-80 2SB1229三洋PSW/PD-50 2SB123东芝SW-40 2SB1230三洋PSW100-100 2SB1231三洋PSW120-100 2SB1232三洋PSW150-100 2SB1233松下PA15-200 2SB1233A松下PA15-200 2SB1234三洋PD-60 2SB1235三洋PD-60 2SB1236罗姆PA-100 2SB1237罗姆PA-20 2SB1238罗姆PA-50 2SB1239罗姆LF PA-24 2SB124东芝SW-12 2SB1240罗姆PA-20 2SB1241罗姆AF-60 2SB1242罗姆AF-30 2SB1243罗姆PA-40 2SB1244日立LF HV A-1402SB1245日立LF HV A-1602SB1261-Z日电10-60 2SB1262日立AF.PA-60 2SB1263日立AF.PA-60 2SB1264松下G A-120 2SB1265松下AF-400 2SB1266三洋LF PA30-40 2SB1267三洋PSW/PD30-40 2SB1268三洋PSW/PD30-40 2SB1269三洋PSW/PD40-40 2SB127松下PA-14 2SB1270三洋PSW/PD30-80 2SB1271三洋PSW/PD40-80 2SB1272罗姆LF PA/D10-100 2SB1273三洋LF PA30-40 2SB1274三洋LF PA20-40 2SB1275罗姆AF.PA-120 2SB1276罗姆LN A-30 2SB1277罗姆PA-20 2SB1278罗姆PA-50 2SB1279罗姆AF-12 2SB128松下PA-14 2SB1280日立AF.PA-120 2SB1281日立AF.PA-120 2SB1282LS SW252SB1283LS SW302SB1284LS SW352SB1285LF SW1002SB1286罗姆25-100 2SB1287罗姆20-100 2SB1288松下-10 2SB1289罗姆40-80 2SB128A松下PA-14 2SB129松下PA-142SB1290罗姆30-802SB1298罗姆AF-20 2SB1299松下PA40-60 2SB129A松下PA-14 2SB13富士通AF-30 2SB130松下PA-14 2SB1300日电-20 2SB1301日电2-20 2SB1302三洋PSW/PD 1.3-20 2SB1303三洋PD10-80 2SB1304日立AF.PA-80 2SB1305罗姆AF-20 2SB1306罗姆-20 2SB1307罗姆AF-20 2SB1307M罗姆1-20 2SB1308罗姆AF-20 2SB1309罗姆AF.PA-50 2SB131富士通PA-30 2SB1310罗姆AF.PA-24 2SB1311罗姆AF.PA-20 2SB1312罗姆PA-50 2SB1313罗姆PA-50 2SB1314三菱LF PA15-50 2SB1315日电LF PA65-120 2SB1316罗姆LF PA/D10-100 2SB1317松下PA150-180 2SB1318日电LF PA-100 2SB1319松下LF PA-10 2SB131A富士通PA-30 2SB132富士通PA-30 2SB1320松下AF-20 2SB1320A松下G A-20 2SB1321松下AF-20 2SB1321A松下LF A/ D-20 2SB1322松下PA-20 2SB1322A松下LF PA-20 2SB1323三洋Motor D-30 2SB1324三洋Motor D-30 2SB1325三洋Motor D-20 2SB1326罗姆1-20 2SB1327三菱AF.PA-50 2SB13282SB13292SB13302SB13312SB13322SB1333罗姆LF PA/ D-1002SB1335罗姆30-80 2SB1335A罗姆G302SB13362SB1337罗姆AF.PA-150 2SB1338罗姆AF.PA-150 2SB1339罗姆PD402SB134三菱AF.LN-25 2SB1340罗姆PD302SB1341罗姆PD352SB1342罗姆PD302SB1343罗姆PD402SB1344罗姆PD302SB1345罗姆AF.PA-100 2SB1346三洋LF PA30-40 2SB1347松下PA120-160 2SB1348日立LF HV A-140 2SB1349日立LF HV A-160 2SB135三菱AF-25 2SB13502SB1351PSW-60 2SB1352PSW-60 2SB1353罗姆HV D2SB1354罗姆AF.PA-60 2SB1355罗姆G2SB1356罗姆G2SB1357罗姆SW2SB1358罗姆G2SB1359罗姆D2SB136三菱PA-25 2SB1360罗姆G2SB1361松下PA100-150 2SB1362松下PA100-150 2SB1363日立AF.PA-350 2SB1364日立AF-20 2SB1365日立LF PA1-16 2SB1366韩国电子PA.SW-60 2SB1367韩国电子PA-100 2SB1368韩国电子PA-80 2SB1369罗姆G402SB136A2SB137三菱PA-20 2SB1370罗姆G302SB1371松下PA70-120 2SB1372松下PA80-140 2SB1373松下PA120-160 2SB13742SB1375东芝LF PA25-60 2SB1376松下G PA-20 2SB1377松下LF PA-20 2SB1378松下LF PA-252SB13792SB1381东芝PSW/PD30-100 2SB1382PSW-120 2SB1383PSW-120 2SB13842SB13852SB1386罗姆-20 2SB1387日立LF PA1-100 2SB1388三洋PD45-80 2SB1389日立LF PA25-50 2SB1390日立LF PA25-50 2SB1391日立MS PSW25-100 2SB1392日立LF PA25-60 2SB1393松下PA252SB1393A松下PA252SB1394三洋Motor D-30 2SB1395三洋-12 2SB1396三洋 1.3-12 2SB1397三洋Motor D-20 2SB1398松下LF PA1-10 2SB1399日立LF PA30-100 2SB14富士通LN-30 2SB140索尼PA-40 2SB1400日立LF PA25-100 2SB1401日立LF PA25-300 2SB1402日立LF PA25-100 2SB1403日立LF PA25-100 2SB1404日立LF PA25-100 2SB1405三洋G D-40 2SB1406三洋G D-40 2SB1407L/S日立LF PA18-35 2SB14082SB1409L/S日立LF PA18-160 2SB141索尼PA-60 2SB14102SB14112SB14122SB1413松下LF PA-20 2SB1414松下LF PA/D2SB1415松下LF.A-25 2SB1416松下PA2SB1417松下PA152SB1417A松下PA152SB1418松下PA15-60 2SB1418A松下PA15-80 2SB1419松下LF PA120-160 2SB142索尼PA-30 2SB1421松下LF PA80-140 2SB1422松下LF.PA-25 2SB14232SB1424罗姆LF PA-202SB14252SB1428罗姆LF PA-20 2SB14292SB143索尼PA-30 2SB1430日电20-100 2SB1431日电25-100 2SB1432日电30-100 2SB1433日立LF A-40 2SB1434松下LF PA-20 2SB1435松下LF PA-20 2SB14362SB1437松下LF.A-50 2SB1438松下LF A-50 2SB1439松下LF A-50 2SB144索尼PA-30 2SB1440松下LF A2SB14412SB14422SB14432SB14442SB14452SB1446松下LF A-20 2SB1447松下LF A-20 2SB1448LS SW652SB1449三洋PSW30-40 2SB145索尼PA-30 2SB1450三洋PSW40-40 2SB1451三洋PSW30-80 2SB1452三洋PSW40-80 2SB14532SB1454三洋PSW25-80 2SB1455三洋PSW30-80 2SB1456松下LF.A-75 2SB14572SB14582SB1459日立LF A-65 2SB146索尼PA-30 2SB14602SB14612SB1462松下G A-20 2SB1463松下LF HV A-100 2SB1464松下MS SW25-60 2SB1465日电25-300 2SB1466日立LF PA100-80 2SB1467三洋PSW20-40 2SB1468三洋PSW25-40 2SB1469松下PA100-160 2SB147索尼PA-50 2SB1470松下PA150-160 2SB1471三洋PD30-40 2SB1472三洋PD35-402SB1473松下LF A2SB14772SB14782SB14792SB148东芝SW-12 2SB14812SB14822SB1483日电-50 2SB1484日电-100 2SB14852SB14862SB14872SB1488松下PSW-400 2SB1489松下SW-400 2SB149东芝SW-12 2SB1490松下PA100-160 2SB14912SB1492松下PA70-130 2SB1493松下PA70-160 2SB1494日立LF PA120-100 2SB14952SB1496罗姆G2SB14972SB1498松下PSW15-600 2SB14992SB15富士通AF-60 2SB150东芝SW-105 2SB1500松下PA45-100 2SB1501松下PA50-110 2SB1502松下PA60-120 2SB1503松下PA120-160 2SB1504松下PSW-50 2SB1505日立LF A /SW-24 2SB15062SB1507三洋PSW40-40 2SB1508三洋PSW45-40 2SB1509三洋PSW50-40 2SB151富士通SW-30 2SB1510三洋D-60 2SB1511三洋PSW40-40 2SB15122SB15142SB15152SB1516罗姆LF PA10-80 2SB15172SB1518日立LF A /SW-24 2SB1519日立HV A-40 2SB152富士通SW-30 2SB1520日立HV A-65 2SB15222SB1522K罗姆-122SB15252SB15262SB15272SB15282SB1529松下PA150-180 2SB152A富士通SW-100 2SB153日立AF-12 2SB1530日立LF PA20-120 2SB1531松下PA50-130 2SB1532富士电机PA402SB15332SB15342SB1535罗姆LF PA10-100 2SB1536松下LF A-10 2SB15372SB15382SB15392SB154日立PA-12 2SB15402SB1541松下LF A-20 2SB1542松下LF A-20 2SB1543松下PA2SB1544松下LF A-40 2SB1545松下LF A-75 2SB15462SB15482SB15492SB155日立AF-12 2SB15502SB15512SB15522SB15532SB15542SB15552SB15562SB15572SB15582SB1559LFA802SB156日立PA-12 2SB1560LFA1002SB15612SB15622SB15632SB15642SB15652SB15662SB15672SB15682SB15692SB156A日立PA-202SB157松下AF-22SB15712SB15722SB15732SB15742SB15752SB15762SB15772SB1578日电-50 2SB15792SB158松下AF-2 2SB15802SB15812SB15822SB15832SB15842SB15852SB15862SB1587LFA752SB1588LFA802SB15892SB159松下AF-2 2SB15902SB15922SB15932SB15942SB15952SB15962SB15972SB15982SB15992SB16富士通PA-5 2SB160松下PA-2 2SB16002SB16012SB16022SB16032SB16042SB16052SB16062SB16072SB16092SB161日电PA-6 2SB16102SB16112SB16122SB16132SB16142SB16152SB16162SB16172SB16182SB16192SB1621LFA2002SB1622LFA852SB16232SB1624LFA602SB1625LFA602SB1626LFA302SB16272SB16282SB16292SB163日电PA-6 2SB16302SB16312SB16322SB16332SB16342SB16352SB16362SB16372SB16382SB16392SB164日电PA-6 2SB16402SB16412SB16422SB165日电PA-6 2SB166日电PA-6 2SB168富士通AF-9 2SB169富士通PA-9 2SB16A富士通PA-5 2SB17富士通PA-5 2SB170松下AF-10 2SB171松下AF-10 2SB172松下PA-10 2SB173松下LN-10 2SB174松下PA-12 2SB175松下AF-10 2SB176松下PA-10 2SB177松下PA-10 2SB178松下PA-12 2SB178A松下PA-12 2SB179东芝AF-30 2SB17A富士通PA-5 2SB18富士通PA-5 2SB180富士通PA-40 2SB180A富士通PA-30 2SB181富士通PA-60 2SB181A富士通PA-30 2SB183日立AF-12 2SB184日立PA-12 2SB185三洋PA-202SB186三洋PA-202SB19富士通PA-52SB190冲AF-25 2SB191冲AF-25 2SB192冲AF-25 2SB193冲AF-25 2SB194冲AF-25 2SB195冲AF-25 2SB196冲AF-30 2SB197冲AF-50 2SB198冲AF-70 2SB199富士通PA-12 2SB20富士通PA-52SB200东芝PA-12 2SB201东芝SW-12 2SB202东芝PA-12 2SB203新电元PA-40 2SB204新电元PA-40 2SB205新电元PA-80 2SB206新电元PA-80 2SB207新电元PA-100 2SB208新电元PA-100 2SB209新电元PA-40 2SB21富士通PA-52SB210新电元SW-40 2SB211新电元SW-80 2SB212新电元SW-80 2SB213新电元SW-100 2SB214新电元SW-100 2SB215三洋SW-12 2SB216三洋PA-12 2SB217三洋PA-12 2SB218日电SW-50 2SB219日电PA-25 2SB219A日电PA-25 2SB22三洋PA-20 2SB220日电PA-25 2SB220A日电PA-25 2SB221日电PA-25 2SB221A日电PA-25 2SB222日电PA-25 2SB222A日电PA-25 2SB223日电PA-25 2SB223A日电PA-25 2SB224日电PA-30 2SB225日电PA-30 2SB226日电PA-30 2SB227日电PA-30 2SB228日立PA-802SB229日立PA-1002SB265东芝SW-12 2SB266通用AF-12 2SB267通用PA-122SB268三菱PA-252SB271三洋PA-12 2SB272三洋PA-12 2SB273三洋PA-12 2SB274日立PA-80 2SB275日立SW-120 2SB276日立SW-120 2SB277松下LN-22SB278松下AF-10 2SB279松下AF-10 2SB28东芝PA-15 2SB280松下AF-10 2SB281松下AF-10 2SB282松下SW-0.5 2SB283松下SW-0.5 2SB284松下SW-0.5 2SB285松下SW-0.5 2SB286松下SW-14 2SB287松下SW-14 2SB288松下SW-10 2SB289松下SW-10 2SB29东芝PA-15 2SB290东芝LN-12 2SB291东芝AF-12 2SB292东芝PA-12 2SB292A东芝PA-12 2SB293通用PA-12 2SB294通用AF-12 2SB295富士通SW-100 2SB296东芝SW-50 2SB2972SB2982SB299通用SW-12 2SB30东芝PA-15 2SB300东芝PA-12 2SB301东芝PA-12 2SB302日立LN-10 2SB303三洋LN.AF-15 2SB304富士通SW-30 2SB304A富士通SW-35 2SB3052SB306东芝SW-105 2SB3072SB3082SB309松下PA-0.5 2SB31东芝PA-15 2SB310松下SW-0.5 2SB311松下SW-0.5 2SB312松下SW-0.52SB313松下SW-0.52SB326日电PA-30 2SB327日电PA-30 2SB328日电PA-15 2SB329日电PA-15 2SB33富士通PA-12 2SB330日电SW-50 2SB331日立SW-40 2SB332日立SW-60 2SB333日立SW-80 2SB334日立SW-100 2SB335松下AF-10 2SB336松下PA-10 2SB337日立PA-30 2SB338日立PA-30 2SB339日立PA-30 2SB34富士通PA-12 2SB340日立PA.SW-30 2SB341日立PA.SW-30 2SB342三洋PA.SW-120 2SB343三洋PA.SW-150 2SB3442SB345松下AF-10 2SB346松下AF-10 2SB347松下LN-10 2SB348松下LN-10 2SB349三洋AF-10 2SB350三洋PA-10 2SB351富士通SW-40 2SB352富士通SW-60 2SB353富士通SW-80 2SB354富士通SW-100 2SB355三菱PA-12 2SB356三菱PA-50 2SB357三菱PA-50 2SB358三菱PA-80 2SB359三菱SW-80 2SB360三菱SW-80 2SB361日立PA-40 2SB362日立PA-302SB363日电SW-1402SB37富士通PA-30 2SB370日立PA-12 2SB370A日立PA-12 2SB371松下PA-10 2SB372三洋PA-20 2SB373三洋PA-20 2SB374三洋PA-20 2SB375三洋SW-150 2SB376松下PA-12 2SB377索尼LN-32 2SB378索尼AF.PA-18 2SB378A索尼AF.PA-23 2SB378B索尼AF.PA-23 2SB379索尼AF.PA-18 2SB379A索尼AF.PA-23 2SB379B索尼AF.PA-23 2SB38富士通PA-30 2SB380索尼AF.PA-18 2SB380A索尼AF.PA-23 2SB381索尼AF.PA-32 2SB382索尼AF.PA-32 2SB383索尼PA-32 2SB384通用AF-12 2SB385通用PA-12 2SB386三菱SW2SB387日立AF-12 2SB3882SB389富士通LN-12 2SB39富士通LN-10 2SB390三洋PA.SW-15 2SB391三洋PA.SW-50 2SB392冲AF.SW-12 2SB393冲AF.SW-12 2SB394冲AF.SW-12 2SB395冲AF.SW-12 2SB396冲AF.SW-12 2SB397冲SW-12 2SB398冲SW-100 2SB399冲SW-100 2SB40东芝SW-12 2SB400三洋LN-10 2SB401松下SW-10 2SB402松下SW-10 2SB403松下SW-10 2SB404三洋SW-100 2SB405三洋PA-202SB406三洋SW-302SB427富士通SW-45 2SB428富士通PA-45 2SB429日电PA-30 2SB43东芝PA-12 2SB430松下PA-70 2SB431富士通PA-12 2SB432富士通PA.SW-40 2SB433富士通SW-30 2SB434东芝PA-30 2SB434G东芝25-40 2SB435东芝PA-30 2SB435G东芝25-40 2SB436冲AF-12 2SB437冲AF-12 2SB438冲AF-12 2SB439东芝AF-12 2SB43A东芝PA2SB44东芝AF-12 2SB440东芝LN-12 2SB441日立PA-30 2SB442日立SW-30 2SB443日立AF.LN-12 2SB444日立AF.LN-12 2SB445富士通PA-12 2SB446富士通PA-12 2SB447富士通PA.SW-50 2SB448松下PA-32 2SB449松下PA-14 2SB450通用PA-122SB451三菱PA-122SB453三菱PA.SW-25 2SB454三菱PA.SW-80 2SB455三菱PA.SW-105 2SB456富士通PA.SW-80 2SB457三菱PA-12 2SB457A三菱PA-12 2SB458三菱PA-12 2SB458A三菱PA-12 2SB458B三菱PA-50 2SB459日立AF.LN-20 2SB46东芝AF-12 2SB460日立AF.LN-20 2SB461东芝PA-12 2SB462东芝PA-12 2SB463东芝PA-12 2SB464东芝PA-12 2SB465东芝PA-12 2SB466富士通PA-30 2SB467富士通PA-30 2SB468日立SW-30 2SB4692SB47东芝LN-25 2SB470富士通AF-20 2SB471日立PA-30 2SB472日立PA-30 2SB473松下PA-10 2SB474三洋PA-25 2SB475松下PA-12 2SB476松下PA-20 2SB477三菱PA.SW-30 2SB478三菱PA.SW-60 2SB479三菱PA.SW-80 2SB48索尼AF.PA-16 2SB480三菱PA.SW-100 2SB481松下PA-32 2SB482东芝AF-12 2SB483新电元PA.SW-80 2SB484新电元PA.SW-100 2SB485新电元PA.SW-140 2SB486东芝AF.LN-12 2SB487富士通PA-12 2SB488富士通PA-12 2SB4892SB49索尼AF.PA-16 2SB4902SB491三洋2SB492三洋PA-20 2SB493松下PA.SW-40 2SB494三菱PA-12 2SB495三菱PA-122SB496日立PA-252SB50索尼AF.PA-16 2SB5002SB5012SB502东芝PA-50 2SB502A东芝25-110 2SB503东芝PA-50 2SB503A东芝LF.PA-110 2SB504日电PA.SW-60 2SB504A东芝LF.PA-60 2SB505日电PA.SW-60 2SB506日电PA.SW-100 2SB506A日电LF.PA-150 2SB507三洋LF PA30-20 2SB508三洋LF PA30-20 2SB509三洋PA-20 2SB51索尼PA-25 2SB510日电PA.SW-60 2SB511三洋LF PA10-20 2SB512松下PA-20 2SB512A2SB513松下PA-20 2SB513A2SB514三洋PA-20 2SB515三洋PA-20 2SB516日立PA-12 2SB5172SB518索尼PA-50 2SB519索尼PA-50 2SB52索尼PA-25 2SB520索尼PA-50 2SB521索尼PA-50 2SB522索尼PA-50 2SB523三菱PA-25 2SB524三菱PA-25 2SB525三菱PA-25 2SB526三菱PA-25 2SB527三菱PA-25 2SB528三菱PA-25 2SB529三菱PA-25 2SB53索尼PA-30 2SB530东芝PA-50 2SB531东芝PA-50 2SB532松下PA-50 2SB533松下PA-20 2SB534日立PA-12 2SB535日立PA-12 2SB536日电20-120 2SB537日电20-120 2SB538日立PA-652SB539日电PA-1202SB544三洋-20 2SB5452SB546日电PA-150 2SB546A日电TV Vout25-150 2SB547日电PA-150 2SB547A日电TV Vout25-150 2SB548日电LF PA10-80 2SB549日电LF PA10-80 2SB55东芝PA-25 2SB550日电25-80 2SB551日立PA-20 2SB552东芝150-150 2SB553东芝PSW/PA40-70 2SB554东芝PA150-90 2SB555东芝PA-60 2SB556东芝PA-60 2SB557东芝PA-60 2SB558东芝PA-50 2SB559三洋8-15 2SB56东芝PA-30 2SB560三洋LF PA-20 2SB561日立LF PA-20 2SB562日立LF PA-20 2SB563日电PA.SW-70 2SB564日电LF PA-30 2SB565日立PA-20 2SB566日立PA-20 2SB566AK日立40-50 2SB566K日立40-50 2SB567日立PA-120 2SB568日立PA-120 2SB569莫托罗PA-40 2SB56A东芝PA-25 2SB57富士通AF-30 2SB570莫托罗PA-60 2SB571莫托罗PA-80 2SB572莫托罗PA-40 2SB573莫托罗PA-60 2SB574莫托罗PA-80 2SB575莫托罗PA-40 2SB576莫托罗PA-60 2SB577莫托罗PA-80 2SB578莫托罗PA-70 2SB579莫托罗PA-60 2SB58富士通AF-12 2SB580莫托罗PA-80 2SB581莫托罗PA-1002SB582莫托罗PA-602SB584莫托罗PA-1002SB585莫托罗PA-602SB586莫托罗PA-802SB587莫托罗PA-502SB588莫托罗PA-802SB589莫托罗PA-1002SB59富士通SW-302SB5902SB5912SB5922SB5932SB5942SB595东芝PA40-1002SB596东芝PA30-802SB5972SB598三洋-202SB599日电PA-2002SB60富士通AF-122SB600日电PA-2002SB601日电30-1002SB6022SB603日电15-5002SB604松下PA-702SB605日电LF PA-602SB606富士通SW-2002SB607松下PA-102SB608日立PA-1202SB609日立PA VCE-80 2SB60A富士通AF-122SB61富士通AF-302SB6102SB611日立PA-1202SB611A2SB612日立PA-1602SB612A2SB613日立PA-2202SB6142SB615三菱2SB616日电PA-802SB616A2SB617日电PA-1002SB618日电PA-1202SB619松下PA-102SB62东芝PA-122SB620松下PA-102SB621松下LF A-202SB621A松下LF A-202SB622三肯PA-4002SB6232SB624日电LF A-302SB625松下PA-602SB626松下PA-702SB63东芝PA-12 2SB630日电PA-150 2SB631三洋8-50 2SB631K三洋8-50 2SB632三洋10-20 2SB632K三洋10-20 2SB633三洋40-40 2SB634三洋PA-80 2SB635松下AF-10 2SB636松下PA-10 2SB637日立AF-18 2SB637(K)2SB637K日立LF A-18 2SB638日立PA-100 2SB638(H)2SB638H日立LF PA80-100 2SB639日立PA-100 2SB639(H)2SB639H日立LF PA100-100 2SB64东芝PA-12 2SB640松下PA-12 2SB641松下PA-20 2SB642松下G A-20 2SB643松下G A-20 2SB644松下G A-20 2SB645东芝PA-100 2SB646日立LF HV A-100 2SB646A日立LF HV A-100 2SB647日立LF PA-100 2SB647A日立LF PA-100 2SB648日立LF HV A-160 2SB648A日立LF HV A-160 2SB649日立LF PA20-160 2SB649A日立LF PA20-160 2SB65富士通SW-30 2SB650日立PA-100 2SB650(H)2SB650H日立LF PA100-100 2SB6512SB6522SB653日立PA-100 2SB653A日立PA-100 2SB654日立PA-100 2SB654A日立PA-100 2SB655日立PA-140 2SB655A日立PA-140 2SB656日立PA-140 2SB656A日立PA-140 2SB6572SB6582SB66日立AF-30 2SB6602SB6612SB6622SB6632SB6642SB6652SB6662SB6672SB668松下PA-60 2SB668A松下PA-60 2SB669松下PA-70 2SB669A松下PA-80 2SB67日立PA-12 2SB6702SB6712SB6722SB673东芝PSW/PD40-100 2SB674东芝PSW/PD40-80 2SB675东芝PSW/PD40-60 2SB676东芝30-100 2SB677东芝25-60 2SB678东芝PA .SW-100 2SB679东芝10-100 2SB68日立SW-2.5 2SB6802SB681东芝PA-100 2SB682三菱PA-100 2SB683三菱PA-100 2SB6842SB685三菱PA-110 2SB686东芝PA60-100 2SB6872SB688东芝PA80-120 2SB689日立PA-80 2SB69东芝PA-12 2SB690日立PA-80 2SB691松下PA-80 2SB692松下PA-100 2SB693日立SW.PA-80 2SB693(H)2SB693H日立125-80 2SB694日立PA-80 2SB694(H)2SB694H日立125-80 2SB695松下PA-120 2SB696三洋PA-80 2SB697三洋PA-80 2SB698三洋-20 2SB699日立PA-120 2SB70松下AF-102SB700日立PA-1202SB705日电PA-140 2SB705A日电PA-140 2SB705B日电PA-140 2SB706日电PA-180 2SB706A日电PA-180 2SB707日电40-60 2SB708日电40-60 2SB709松下AF-10 2SB709A松下G A-20 2SB71松下AF-10 2SB710松下G A-20 2SB710A松下G A-20 2SB711三肯PA-80 2SB712三肯PA-100 2SB713松下PA-140 2SB714松下PA-20 2SB715日立LF HV A-80 2SB716日立LF HV A-100 2SB716A日立LF HV A-100 2SB717日立PA-140 2SB718日立PA-160 2SB719日立PA-140 2SB720日立PA-160 2SB721日立PA-20 2SB722日立PA-140 2SB723日立PA-160 2SB724松下PA-20 2SB725松下AF-10 2SB726松下G A-10 2SB727日立SW-120 2SB727(K)2SB727K日立MS PSW40-120 2SB7282SB7292SB73日立LN-10 2SB7302SB731日电10-50 2SB7322SB733日电LF PA-16 2SB734日电LF PA-50 2SB7352SB736日电LF A-60 2SB736A日电LF A-80 2SB737罗姆LN A-30 2SB738日立LF PA-162SB739日立LF PA-162SB741日立LF PA-55 2SB742日电PA-16 2SB743日电PA.SW-30 2SB744松下LF LN A-10 2SB744A日电LF PA/D10-45 2SB745松下LF LN A-10 2SB745A2SB746日立PA-18 2SB747松下PA-80 2SB748松下PA/SW35-80 2SB748A日立PA-80 2SB749日立PA-100 2SB749A日立PA-100 2SB75日立AF-30 2SB750松下PA.SW-60 2SB750A2SB750B松下PA.SW-100 2SB751松下PA.SW-60 2SB751A2SB751B松下PA.SW-100 2SB7522SB7532SB754东芝PSW/PA60-50 2SB7542SB755东芝PA-150 2SB757富士电机80-40 2SB758东芝PSW/PA40-100 2SB758A松下PA/SW40-80 2SB759松下AF.RF-10 2SB759A松下AF-10 2SB75A日立AF-45 2SB76日立AF-12 2SB760松下PA-60 2SB760A松下PA-80 2SB760B2SB761松下PA-60 2SB761A松下LF.PA2SB761B松下PA-100 2SB762日电LF PA/D10-45 2SB762A2SB762B松下PA-100 2SB763松下PA-60 2SB763A松下PA-80 2SB763B松下PA-100 2SB764三洋Reg/D/-50 2SB765日立SW-120 2SB765K日立MS PSW30-120 2SB766松下LF PA1-20 2SB766A松下LF PA1-20 2SB767松下LF PA1-202SB768日电20-1502SB77日立PA-25 2SB7702SB7712SB772日电10-30 2SB773日电PA-90 2SB773A日电PA-100 2SB774松下LF A-10 2SB775三洋LF PA60-40 2SB776三洋LF PA70-80 2SB777富士电机80-80 2SB778富士电机AF.PA-120 2SB779松下LF A-25 2SB77A日立PA-45 2SB78日立PA-12 2SB780松下AF-20 2SB781日立PA-50 2SB782日立PA-50 2SB783日立PA-60 2SB7842SB7852SB786罗姆LF PA5-24 2SB787日立AF.PA-100 2SB788松下HV LN A-50 2SB789松下LF PD12SB789A松下LF PD12SB79日立PA-30 2SB790松下LF A-25 2SB791日立SW-120 2SB791K日立MS PSW40-120 2SB792松下HV LN A-100 2SB792A松下HV LN A-100 2SB793松下LF PA1-20 2SB793A松下LF PA1-20 2SB794日电10-60 2SB795日电10-60 2SB796日电PA-200 2SB7972SB798日电LF PA2-30 2SB799日电LF PA2-60 2SB80日立PA-12 2SB800日电LF A2-80 2SB801日电AF-30 2SB802日电AF-30 2SB803日电AF-30 2SB804日电LF A2-100 2SB805日电LF PA2-100 2SB806日电LF PA2-120 2SB807松下AF-100 2SB808三洋LV PA-15 2SB8092SB81日立PA-502SB810日电LF A-302SB812松下PA-602SB812A松下PA-802SB813三洋-402SB814松下AF.LN-502SB815三洋LF A-152SB816三洋LF PA80-802SB817三洋LF PA100-802SB818日立AF.PA-100 2SB819松下LF PA1-202SB82日立PA-502SB820日电PA-300 2SB821罗姆LN A-302SB822罗姆PA-202SB823三洋PA-402SB824三洋PA-402SB825三洋40-402SB826三洋40-402SB827三洋60-402SB828三洋80-402SB829三洋PA.SW-402SB83日立PA-402SB830日立PA-162SB831日立LF A-202SB832索尼SW.PA-1000 2SB833东芝PSW150-802SB834东芝LF PA30-602SB835松下LF PA1-102SB836日立PA-252SB837日立PA-352SB837L日立LF.PA-352SB837S日立LF.PA-352SB838日立PA-502SB839日立PA-802SB84日立PA-602SB840日立PA-160 2SB841日立PA-160 2SB841L日立LF.PA-160 2SB841S日立LF.PA-160 2SB842日立PA-160 2SB843日立AF.PA-202SB844日立PA-100 2SB845日立PA-100 2SB846日立PA-202SB8472SB848日电PA-100 2SB8482SB849日电LF PA80-120 2SB849A日电LF PA80-120 2SB85日立PA-402SB850富士电机50-402SB850A富士电机PA502SB851罗姆PA-502SB861日立30-120 2SB862富士电机30-120 2SB863东芝PA100-140 2SB864日立-18 2SB865三洋PD-40 2SB8662SB867松下PA.SW-100 2SB868松下PA.SW-100 2SB869松下PA.SW-100 2SB87日立PA-80 2SB870松下PA.SW-100 2SB871松下PA.SW-40 2SB871A松下LV SW40-50 2SB872松下PA.SW-60 2SB872A松下MS SW45-80 2SB873松下LF PA-10 2SB874日立LF PA20-80 2SB875日立AF.PA-80 2SB876日立AF.PA-100 2SB877日立AF.PA-100 2SB878日立AF.PA-160 2SB879日立AF.PA-160 2SB88日立PA-100 2SB880三洋PD30-40 2SB881三洋PD35-40 2SB882三洋PD40-40 2SB883三洋PD70-40 2SB884三洋PD30-80 2SB885三洋PD35-80 2SB886三洋PD40-80 2SB887三洋PD70-80 2SB888三洋PD-40 2SB889罗姆LF PA5-50 2SB89日立PA-25 2SB890罗姆AF-30 2SB891罗姆LF PA5-20 2SB892三洋PSW-50 2SB893三洋PD-20 2SB894松下AF-10 2SB895松下AF-25 2SB895A松下AF-402SB896松下PA.SW-402SB929A松下LF PA352SB93松下AF-20 2SB930松下LF PA402SB930A松下LF PA402SB931松下PSW30-100 2SB932松下PSW35-1002SB933松下PSW40-1002SB941A松下LF PA352SB942松下LF PA402SB942A松下LF PA402SB943松下PSW30-100 2SB944松下PSW35-100 2SB945松下PSW40-100 2SB946松下PSW40-100 2SB947松下LV SW35-40 2SB947A松下LV SW35-50 2SB948松下LV SW40-40 2SB948A松下LV SW40-40 2SB949松下PA/SW35-60 2SB949A松下PA/SW35-80 2SB95东芝PA-30 2SB950松下PA/SW40-60 2SB950A松下PA/SW40-80 2SB951松下MS SW45-60 2SB951A松下MS SW45-80 2SB952松下LV SW30-40 2SB952A松下LV SW30-50 2SB953松下LV SW30-40 2SB953A松下LV SW30-50 2SB954松下PA302SB954A松下PA302SB955日立PA120 2SB955A2SB955K日立PSW50-120 2SB956松下LF PA1-10 2SB957日立PA-80 2SB958日立PA-80 2SB959日立PA-100 2SB96松下PA-10 2SB960日立PA-100 2SB9612SB962日电10-30 2SB962Z2SB962-Z日电10-302SB963日电8-602SB963-Z日电8-60 2SB964日电PA-60 2SB965日电LF PA70-120 2SB966日电LF PA80-120 2SB967松下LF PA20-10 2SB968松下PA-20 2SB969日电PA-100 2SB97东芝LN-30 2SB970松下LF A-10 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RATIONALE综述This revision was issued to add requirements for examination of carburized surfaces and to remove requirements for （1) blasting or abrading to prepare the parts and (2) approval of the anti—smut chemical. Other changes were deemed necessary as part of the SAE Five Year Review process.这次改版增加了检查渗碳表面的要求，并去除了（1）喷砂或研磨零件的预处理要求以及（2)防污化学物的批准要求.其他的变化是SAE五年评审程序的必要更改。

1. SCOPE范围1。

1 Purpose目的This specification establishes the requirements for etch inspection of bare high-strength low-alloy steel parts having tensile strength of 180 ksi (1241 MPa) and higher and of carburized parts to detect overheating caused by abusive machining or grinding in the heat treated condition, and to detect localized discontinuous carburization. This process is not applicable to surface hardened steels produced by nitriding or carbonitriding. This process may remove 0.0001 to 0.0005 inch (2。