TSP10S45SP-Rev 1.0

MAX6618PECI-to-I 2C TranslatorGeneral DescriptionThe MAX6618 PECI(1.0)-to-I 2C translator provides an efficient, low-cost solution for PECI(1.0)-to-SMBus/I 2C protocol conversion. The PECI(1.0)-compliant host reads temperature data directly from up to four PECI(1.0)-enabled CPUs. This translator will only com-municate with CPUs that support PECI 1.0.The I 2C interface provides an independent serial com-munication channel to communicate synchronously with peripheral devices in a multiple master or multiple slave system. This interface allows a maximum serial-data rate of 400kbps.The MAX6618 is designed to operate from a +3.0V to +3.6V supply voltage and ambient temperature range of -20°C to +120°C.ApplicationsServers Workstations Desktop ComputersFeatures♦400kbps I 2C-Compatible, 2-Wire Serial Interface ♦+3V to +3.6V Supply Voltage ♦PECI(1.0)-Compliant Port ♦PECI(1.0)-to-I 2C Translation♦Programmable Temperature Offsets♦-20°C to +120°C Operating Temperature Range ♦V REF Input Refers Logic Levels to the PECI Supply Voltage♦Automatic I 2C Bus Lockup Timeout Reset ♦Lead-Free, 10-Pin µMAX ®PackageTypical Application CircuitPin Configuration appears at end of data sheet.Ordering InformationT = Tape and reel.µMAX is a registered trademark of Maxim Integrated Products.MAX6618PECI-to-I 2C TranslatorABSOLUTE MAXIMUM RATINGSELECTRICAL CHARACTERISTICS(Typical Application Circuit , V CC = +3V to +3.6V, V REF = +0.95V to +1.26V, T A = -20°C to +120°C, unless otherwise noted. TypicalStresses 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.(All voltages with respect to GND.)V CC ..........................................................................-0.3V to +4V AD0, AD1, AD2,..........................................-0.3V to (V CC + 0.3V)SCL, SDA .................................................................-0.3V to +6V V REF .........................................................................-0.3V to +4V PECI .........................................................-0.3V to (V REF + 0.3V)DC Current through SDA ...................................................10mAContinuous Power Dissipation (T A = +70°C)µMAX (derate 5.6mW/°C over T A = +70°C).................444mW Operating Temperature Range .........................-20°C to +120°C Junction Temperature......................................................+150°C Storage Temperature Range.............................-65°C to +150°C Lead Temperature (soldering, 10s).................................+300°C Soldering Temperature (reflow).......................................+260°CMAX6618PECI-to-I2C TranslatorELECTRICAL CHARACTERISTICS (continued)(Typical Application Circuit, V CC= +3V to +3.6V, V REF= +0.95V to +1.26V, T A= -20°C to +120°C, unless otherwise noted. Typical values are at V CC= +3.3V, V REF= +1.0V, T A= +25°C.) (Note 1)TIMING CHARACTERISTICS(Typical Application Circuit, V CC= +3V to +3.6V, V REF= +0.95V to +1.26V, T A= -20°C to +120°C, unless otherwise noted. TypicalMAX6618PECI-to-I 2C TranslatorNote 3: A master device must provide a hold time of at least 300ns for the SDA signal (referred to V IL of the SCL signal) to bridgethe undefined region of SCL’s falling edge.Note 4:C b = total capacitance of one bus line in pF. t R and t F measured between 0.3 x V CC and 0.7 x V CC .Note 5:I SINK ≤6mA. C b = total capacitance of one bus line in pF. t R and t F measured between 0.3 x V CC and 0.7 x V CC . Note 6:Input filters on the SDA and SCL inputs suppress noise spikes less than 50ns.Note 7:The MAX6618 must drive a more restrictive time to allow for quantized sampling errors by a client yet still attain the mini-mum time less than 500µs. t BIT limits apply equally to t BIT-A and t BIT-M .Note 8:The minimum and maximum bit times are relative to t BIT defined in the timing negotiation pulse.Note 9:Extended trace lengths can appear as additional nodes.Note 10:The client may deassert its low idle drive prior to the falling edge of the first bit of the message by using the rising edge todetect a message start. However, the time delay must be sufficient to qualify the rising edge as a true message rather than a noise spike.Note 11:The message stop is defined by two consecutive periods when the bus has no rising edge. Tolerance around this time isbased on the t BIT-M error budget.Note 12:t SETUP is not additive with t STOP . Rather, these times may overlap.TIMING CHARACTERISTICS (continued)(Typical Application Circuit , V = +3V to +3.6V, V = +0.95V to +1.26V, T = -20°C to +120°C, unless otherwise noted. TypicalMAX6618PECI-to-I2C TranslatorBlock DiagramMAX6618PECI-to-I2C TranslatorConfiguration The MAX6618 has four configuration registers (Table 1). CONFIG0 is the main configuration register that enables the PECI sockets, I2C bus timeout, PEC, alert activation, and polling delay. CONFIG1 sets the number of retries,CONFIG2 sets the temperature offset, and CONFIG3 controls the temperature averaging. You can write to the configuration registers to set the configuration or read from the configuration registers to get the current settings.Detailed Description The MAX6618 obtains temperature data from an inter-nal temperature sensor in PECI-compliant hosts. Up to four PECI hosts can be connected to the PECI I/O inter-face. The MAX6618 handles all the PECI transmissions and uses a 2-wire, I2C-compatible serial interface to communicate with the PECI host.Registers and Commands The following is an overview of the I2C/SMBus regis-MAX6618 PECI-to-I2C TranslatorCONFIG0 The CONFIG0 register holds a bit mask for PECI sock-ets and domains that are enabled for polling as well as a polling delay (minimum delay between sets of polls) and features enable/disable bits. Table 2 shows the various options for CONFIG0. The optional polling delay (bits 2:0) inserts after polling the set of all sockets and domains that are enabled in bits 15:8 with a minimal pause of 2.5ms between PECI reads. After polling all enabled sockets and domains, the device pauses PECI communications for the config-ured time before starting to poll the set of enabled sockets and domains again. Table 3 shows the various polling delay options.The CONFIG1 register configures the maximum num-ber of retries before aborting a PECI temperature read as well as the originated (suggested) PECI bit time. Table 4 shows the various options for CONFIG1. Software must configure this value as the register default may cause improper operation.MAX6618PECI-to-I 2C TranslatorCONFIG2The CONFIG2 register holds the offset that is added to all temperature return values that are not error codes.The offset is enabled in CONFIG 0, bit 6; +95°C is set as 17C0h or 005Fh, depending on the data format. To represent +95°C in 16-bit representation, convert +95°C to binary using two’s complement and left-shift six times. The MAX6618 automatically converts the off-set value to the equivalent value when the data format is changed. See Table 5 for the default offset and Table 6 for some example values.When configured in CONFIG2 and the return code is not an error code (see the Error Codes section), the device adds the offset value stored in CONFIG 2 to the return value. For example, if the CPU’s thermal control circuit activation point is at +95°C, CONFIG 2 can be set to +95°C (005Fh or 17C0h) and all return values are con-verted to absolute temperatures. Note that the thermal control circuit activation point is CPU specific. The offset value is represented in the current data format.CONFIG3CONFIG3 register configures the temperature averaging function. See the Temperature Averaging section for more information. Table 7 shows the default settings.Temperature RepresentationTemperature data is formatted in 16-bit two’s comple-ment representing a range from -512°C to +512°C in steps of 1/64°C (Figure 1). Internally, the device always uses the 16-bit data format. The temperature is given in two’s complement and left-shifted so that the +1°C bit is bit 6 (Figure 2). Temperatures can be represented externally in alternate data format if fractional readings are not needed. Table 8 shows some examples.Table 6. Example Offset Values in 16-Bit Table 7. CONFIG3 RegisterTable 8. Example of 16-Bit RepresentationMAX6618 PECI-to-I2C TranslatorAlternate Temperature Value Representation This optional feature can be enabled using bit 6 of CONFIG0. When the alternate data format is enabled, the temperature value is shifted right as shown in Table 9. The most significant bits are set to all 0s or all 1s depending on the sign bit 15, also shown as S in Figure 3.Table 10 shows some example values. This translation is not per-formed for error codes (16-bit values from 8000h through 81FFh).Excluding error codes, the software only has to exam-ine the RESLO data byte, as it represents an integer value in the range from -128°C to +127°C in 1°C steps. The RESHI byte is all 0s or all 1s for valid return codes, and either 80h or 81h for all error codes.Temperature Averaging The MAX6618 can average several temperature read-ings and return a value as calculated by:where T OLD is the previously stored temperature, T PECI is the new value read from PECI, and T NEW is the newly stored temperature ready to be returned through I2C. This calculation can cause significant bits to be lost. Enable temperature averaging by writing the desired averaging amount to the CONFIG3 register. Writing 00hto the CONFIG3 register disables temperature averaging.Figure 3. Alternate Temperature RepresentationTable 9. Alternate TemperatureTable 10. Example of Alternate Representation with No Offset (Activation Point = +95°C)MAX6618PECI-to-I2C TranslatorTemperature Commands Table 11 shows the different commands for selecting one of the PECI hosts or getting the maximum tempera-ture. Read commands are initiated by the MAX6618, and the result returned is a 16-bit word with the least significant bit (LSB) clocked in first for the selected PECI host.The result consists of RESLO for the 8 LSBs and RESHI for the 8 MSBs, resulting in a 16-bit word. The 16-bit words are temperature values read from the PECI interface. PECI-enabled Intel microprocessors return temperature data in fractions of 1°C below the thermal-control-circuit activation point, resulting in negative return values that do not represent absolute tempera-tures. Absolute temperatures can be achieved by set-ting the temperature offset in CONFIG2.Table 12 shows example return values for an Intel CPU. Note that the MAX6618 does not interpret the returnPECI-to-I 2C Translatordata (with the exception of error codes) and the relative temperatures are listed for reference only. Table 12shows the values with 16-bit and alternate word format. The read maximum temperature command from Table 11returns the highest temperature that is not an error code from the enabled PECI sockets and domains. This operation works on signed numbers only and does not give information as to what socket the temperature result comes from. To find the socket and domain, use the read maximum temperature address command as shown in Table 13.The read maximum temperature address command returns the register that had the highest temperature when read maximum temperature was last called. An error is returned if the read maximum temperature has not been called or when the read maximum tempera-ture itself returns an error.Return Value Flow ChartFigure 4 shows the operations performed on tempera-ture data read through PECI.Table 13. Read Maximum TemperaturePECI-to-I2C TranslatorError Codes Error codes are represented as 16-bit words in the range 8000h–81FFh as shown in Table 14.Version Information Command Table 15 shows the command to read the firmware version.high byte second), e.g., 0100h for the MAX6618 firmware version 1.0.Bus Lockout Timeout Reset If an I2C transaction starts and gets locked up for greater than 20ms, the MAX6618 asserts the internal bus lockup reset that restarts itself in the default startup condition.Serial Interface The MAX6618 operates as a slave that sends and receives data through an I2C-compatible, 2-wire inter-face. The interface uses a serial-data line (SDA) and a serial-clock line (SCL) to achieve bidirectional commu-nication between master and slave. A master (typically a microcontroller) initiates all data transfers to and from the MAX6618 and generates the SCL clock that syn-chronizes the data transfer (Figure 5).PECI-to-I2C TranslatorThe MAX6618 SCL and SDA lines operate as both inputs and open-drain outputs. A pullup resistor is required on SCL and SDA.Each transmission consists of a START condition sent by a master, followed by the MAX6618 7-bit slave address, plus an R/W bit, one or more data bytes, and finally a STOP condition (Figure 6). To write to a MAX6618 register, a write transmission consists of a START condition, followed by the MAX6618 7-bit slave address plus R/W= 0, a register address byte, one data byte, and finally a STOP condition. To read from a MAX6618 register, a combined write and read trans-missions are required. The first write transmission con-sists of a START condition, followed by the MAX6618 7-bit slave address plus R/W= 0, a register address byte, and finally a STOP condition that sets the register to be read. The second read transmission consists of a START condition, followed by the MAX6618 7-bit slave address plus R/W= 1, one or more data bytes, and finally a STOP condition that reads the data from the specified register. These write and read transmissions must be joined using a repeated START without a STOP after the write transaction, even though the MAX6618 7-bit slave address needs to be present pre-ceding the R/W bits.Start and Stop Conditions Both SCL and SDA remain high when the interface is not busy. A master signals the beginning of a transmis-sion with a START (S) condition by transitioning SDA from high to low while SCL is high. When the master has finished communicating with the slave, it issues a STOP (P) condition by transitioning SDA from low to high while SCL is high. The bus is then free for another transmission (Figure 6).Figure 6. Start and Stop Conditions Figure 7. Bit TransferPECI-to-I2C TranslatorData Transfer and Acknowledge One data bit is transferred during each clock pulse. The data on SDA must remain stable while SCL is high (Figure 7).The acknowledge bit is a clocked 9th bit that the recipi-ent uses to handshake receipt of each byte of data (Figure 8). Thus, each byte transferred effectively requires 9 bits. The master generates the 9th clock pulse, and the recipient pulls down SDA during the acknowledge clock pulse so that the SDA line is stable low during the high period of the clock pulse. When the master is transmitting to the MAX6618, the MAX6618 generates the acknowledge bit because the MAX6618 is the recipient. When the MAX6618 is transmitting to the master, the master generates the acknowledge bit because the master is the recipient.Slave Address The MAX6618 has a 7-bit long slave address (Figure 9). The 8th bit following the 7-bit slave address is the R/W bit. The R/W bit is low for a write command and high for a read command.The first four bits of the MAX6618 slave address (A6:A3) are always 0101. Bits A2:A1 are set during the manufac-turing process to 0:1. A0 is selected by the address input AD0. AD0 can be connected to GND or V CC. The MAX6618 has two possible slave addresses selectable by AD0. Therefore, a maximum of two MAX6618 devices can be controlled independently from the same interface (see the I2C Address Range section).Message Format for Writing to the MAX6618 A write to the MAX6618 consists of the transmission of the MAX6618’s slave address with the R/W bit set to zero, followed by at least 1 byte of information. The first byte of information is the command byte. The com-mand byte determines which register of the MAX6618 is to be written to by the next byte or read from during the next read transmission. If a STOP condition is detected after the command byte is received, then the MAX6618 takes no further action beyond setting the register address.The bytes received after the command byte are data bytes. The data bytes go into the register of thePECI-to-I2C TranslatorMAX6618 specified by the command byte. Only the last data byte or word transmitted before a STOP condition is stored by the device (Figure 10).Message Format for Reading the MAX6618 The MAX6618 is read using the MAX6618’s internally stored command byte as an address pointer the same way the stored command byte is used as an address pointer for a write. The pointer autoincrements after each data byte is read. Thus, a read is initiated by firstPackage InformationFor the latest package outline information and land patterns (foot-prints), 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.PECI-to-I 2C Translatorconfiguring the MAX6618’s command byte by perform-ing a write. The master can now read N consecutive bytes from the MAX6618 with the first data byte being read from the register addressed by the initialized com-mand byte (Figure 10).Packet Error Checksum (PEC)All MAX6618 I 2C packets have an optional packet error checksum (PEC). The PEC is implemented in accor-dance with the SMBus specification, versions 1.1 and 2. The MAX6618 accepts commands with or without PEC. The PEC for device responses is optional and can be disabled in the CONFIG0 register.Applications InformationOperation with Multiple MastersIf the MAX6618 is operated on a 2-wire interface with multiple masters, a master reading the MAX6618should use a repeated START between the write that sets the MAX6618’s address pointer, and the read(s)that takes the data from the location(s) (Table 16). This is because it is possible for master 2 to take over thebus after master 1 has set up the MAX6618’s address pointer, but before master 1 has read the data. If mas-ter 2 subsequently changes the MAX6618’s address pointer, master 1’s delayed read can be from an unex-pected location. The use of multiple masters is not rec-ommended.I 2C Address RangeIn addition to the four MSBs (0101), the I 2C slaveaddress includes bit A0 (set by the address input AD0)and bits A2:A1 (set to 01). See Table 16.Choosing Pullup ResistorsI 2C requires pullup resistors to provide a logic-high level to data and clock lines. There are tradeoffs between power dissipation and speed, and a compromise must be made in choosing pullup resistor values. Every device connected to the bus introduces some capacitance even when the device is not in operation. I 2C specifies a mini-mum 300ns rise time to go from low to high (30% to 70%)for fast mode, which is defined for a date rate of 400kbps (refer to the I 2C specifications for details). To meet the rise time requirement, choose pullup resistors so that the rise time t R = 0.85R PULLUP x C BUS < 300ns. For typicalPin ConfigurationTable 16. MAX6618 Slave AddressesChip InformationPROCESS:CMOSPECI-to-I2C TranslatorMaxim 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.。

“The SP45 addresses the market’s shortfall in size, with combined pan and tilt functionality. For entry size, image quality and even subsea applications, this 45mm diameter is the solution… Ticks the box in every respect.”Industries &ApplicationsMunicipal (Sewer/Water)Oil & Gas (Onshore/Offshore)Petrochemical— J. De Silveria, Director, Nexxis Key SpecificationsDiameter: 45mm / 1.75in Length: 163mm / 6.4in Weight: 0.5kg / 1.1lbMaterial: Aluminum (optional 316 stainless steel) Depth Rating: 30m / 100ft (optional 150m / 500ft ) Maximum Tether Length: 500m / 1,650ftOperating Temperature: 0°- 40° C / 32°- 104° F Inuktun’s robust Spectrum 45™ camera offers precision pan and tilt capability in an extremely compact waterproofpackage. Easy to deploy and operate, the system incorporates controls for remote focus and built-in LED lighting allowing maximum visibility in low light conditions and confined spaces. And, with long cable deployment options and the ability to function effectively in air or underwater, it can be used almostSpectrum 45™STANDARDIM3 OPTIONSCustom configurations:See dealer for detailsSpectrum 45™ Dimensions MaterialAluminumorStainless SteelDepth Rating30m / 100ftMiniature size for confinedspaces.High intensity built-in LEDsfor maximum penetration,visibility & image quality30m/100ft version150m/500ft versionCall for imperial/metric fastener measurements209mm168mm162mm178mmControl SystemSpectrum™ or Versatrax™controller; Pelican® case;membrane panel with joystickinput, video text overlay withkeyboard entry, date/time &camera feedback.Carbon Fibre PoleTelescopic deployment pole for ad-hoc or scheduled inspectionsin confined, restricted or out-of-reach spaces: length to 5m / 16ft.Tether ManagementHard shell roller case with customfoam for miniature cable reel.Connect or Pin-outAll specifications are subject to changeor150m / 500ftSacrificial anodes for subseaapplications availableØ45mm。

承插焊管件(一）Socket Welding FittingsGB/T 14383、SH 3410、HG/T 21634、ASME B16。

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mm管件坡口形式压力等级表（HG 5010.10～16—58,HGJ 514-87，SY 7510—87）mm注：表中HG为HG5010-87标准，HGJ为HGJ514—87，SY为SY7510-87标准。

管件尺寸公差mm壁厚分级表ANSI B36.10 ＆ B36。

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Description:Basic protection Class G size-rejecting, current limiting fuses. ½ to 6A Fast-acting, 7 to 60A time-delay. Time-delay – 12 seconds (minimum) at 200% of rated current. Catalog Symbol:SC-(amp)Ratings:Volts— 600Vac/170Vdc (½-20A)— 480Vac/300Vdc (25-60A)Amps— ½-60AIR— 100kA Vac RMS Sym.— 10kA VdcAgency Information:CE, UL Listed, Std. 248-5, Class G, Guide JDDZ, File E4273 CSA Certified, C22.2 No. 248.5, Class 1422-01, File 53787 Catalog Numbers (amps)SC-1⁄2SC-6SC-30SC-1SC-7SC-35SC-11⁄2SC-8SC-40SC-2SC-10SC-45SC-21⁄2SC-12SC-50SC-3SC-15SC-60SC-4SC-20SC-5SC-25Carton Quantity and WeightAmp Rating Carton Qty.½-15420425–30235–602Dimensions - in Amp RatingA½-15 1.31 (33.3)20 1.41 (35.8)25 to 30 1.62 (41.1)35 to 60 2.25 (57.1)Features:•Compact branch-circuit units with high interrupting ratingand current-limitation•With up to a 600V rating, they can be used in 120/208V,120/240V and 277/480V circuits•Size rejection by length helps prevent overfusing•In general, SC fuses are about 1⁄2the size of the 600V NEC®fuse type•SC fuses 7 amps and above have a degree of overloadtime-delay which permits them to pass temporary overloadsRecommended Fuse BlocksFuse Amps1-Pole2-Pole3-Pole1⁄2-15BG30011_BG30012_BG30013_20BG30021_BG30022_BG30023_25-30BG30031_BG30032_BG30033_35-60G30060-1C_G30060-2C_G30060-2C_For additional information on the BG and G Series of Class Gfuse blocks, see Data Sheet # 1006.CMA/Flodyne/Hydradyne▪MotionControl▪Hydraulic▪Pneumatic▪Electrical▪Mechanical▪(8)426-548▪wwTime-Current Curves - Average MeltC M A /F l o d y n e /H y d r a d y n e ▪ M o t i o n C o n t r o l ▪ H y d r a u l i c ▪ P n e u m a t i c ▪ E l e c t r i c a l ▪ M e c h a n i c a l ▪ (800) 426-5480 ▪ w wCurrent-Limitation CurvesThe only controlled copy of this Data Sheet is the electronic read-only version located on the Cooper Bussmann Network Drive. All other copies of this document are by definition uncontrolled. This bulletin is C M A /F l o d y n e /H y d r a d y n e ▪ M o t i o n C o n t r o l ▪ H y d r a u l i c ▪ P n e u m a t i c ▪ E l e c t r i c a l ▪ M e c h a n i c a l ▪ (800) 426-5480 ▪ w w。

GENERAL DESCRIPTIONQUICK REFERENCE DATAGlass passivated,sensitive gate SYMBOL PARAMETER MAX.MAX.MAX.MAX.UNIT thyristor in a plastic envelope,suitable for surface mounting,intended for use BT169BW DW EW GW in general purpose switching and V DRM ,Repetitive peak 200400500600V phase control applications.This V RRM off-state voltages device is intended to be interfaced I T(AV)Average on-state 0.50.50.50.5A directly to microcontrollers,logic currentintegrated circuits and other low I T(RMS)RMS on-state current 0.80.80.80.8A power gate trigger circuits.I TSMNon-repetitive peak 8888Aon-state currentPINNING - SOT223PIN CONFIGURATIONSYMBOLLIMITING VALUESLimiting values in accordance with the Absolute Maximum System (IEC 134).SYMBOLPARAMETERCONDITIONSMIN.MAX.UNIT B D E G V DRM , V RRM Repetitive peak off-state-2001400150016001V voltages I T(AV)Average on-state current half sine wave;-0.63A T sp ≤ 112 ˚CI T(RMS)RMS on-state current all conduction angles -1A I TSMNon-repetitive peak half sine wave;on-state currentT j = 25 ˚C prior to surge t = 10 ms -8A t = 8.3 ms -9A I 2t I 2t for fusingt = 10 ms-0.32A 2s dI T /dt Repetitive rate of rise of I TM = 2 A; I G = 10 mA;-50A/µs on-state current after dI G /dt = 100 mA/µstriggeringI GM Peak gate current -1A V GM Peak gate voltage-5V V RGM Peak reverse gate voltage -5V P GM Peak gate power -2W P G(AV)Average gate power over any 20 ms period -0.1W T stg Storage temperature -40150˚C T jOperating junction -125˚Ctemperature1 Although not recommended, off-state voltages up to 800V may be applied without damage, but the thyristor may switch to the on-state. The rate of rise of current should not exceed 15 A/µs.THERMAL RESISTANCESSYMBOL PARAMETER CONDITIONSMIN.TYP.MAX.UNIT R th j-sp Thermal resistance --15K/W junction to solder point R th j-aThermal resistance pcb mounted, minimum footprint -156-K/W junction to ambientpcb mounted; pad area as in fig:14-70-K/WSTATIC CHARACTERISTICST j = 25 ˚C unless otherwise stated SYMBOL PARAMETER CONDITIONSMIN.TYP.MAX.UNIT I GT Gate trigger current V D = 12 V; I T = 10 mA; gate open circuit -50200µA I L Latching current V D = 12 V; I GT = 0.5 mA; R GK = 1 k Ω-26mA I H Holding current V D = 12 V; I GT = 0.5 mA; R GK = 1 k Ω-25mA V T On-state voltage I T = 2 A- 1.35 1.5V V GT Gate trigger voltage V D = 12 V; I T = 10 mA; gate open circuit -0.50.8V V D = V DRM(max); I T = 10 mA; T j = 125 ˚C;0.20.3-V gate open circuitI D , I ROff-state leakage currentV D = V DRM(max); V R = V RRM(max); T j = 125 ˚C;-0.050.1mAR GK = 1 k ΩDYNAMIC CHARACTERISTICST j = 25 ˚C unless otherwise stated SYMBOL PARAMETER CONDITIONSMIN.TYP.MAX.UNIT dV D /dt Critical rate of rise of V DM =67% V DRM(max); T j = 125 ˚C;-25-V/µs off-state voltageexponential waveform; R GK = 1k Ωt gt Gate controlled turn-on I TM = 2 A; V D = V DRM(max); I G = 10 mA;-2-µs timedI G /dt = 0.1 A/µst qCircuit commutated V D = 67% V DRM(max); T j = 125 ˚C;-100-µsturn-off timeI TM = 1.6 A; V R = 35 V; dI TM /dt = 30 A/µs;dV D /dt = 2 V/µs; R GK = 1 k ΩMOUNTING INSTRUCTIONSPRINTED CIRCUIT BOARDMECHANICAL DATANotes1. For further information, refer to Philips publication SC18 " SMD Footprint Design and Soldering Guidelines".Order code: 9397 750 00505.2. Epoxy meets UL94 V0 at 1/8".DEFINITIONSData sheet statusObjective specification This data sheet contains target or goal specifications for product development. Preliminary specification This data sheet contains preliminary data; supplementary data may be published later. Product specification This data sheet contains final product specifications.Limiting valuesLimiting values are given in accordance with the Absolute Maximum Rating System (IEC 134). Stress above one or more of the limiting values may cause permanent damage to the device. These are stress ratings only and operation of the device at these or at any other conditions above those given in the Characteristics sections of this specification is not implied. Exposure to limiting values for extended periods may affect device reliability. Application informationWhere application information is given, it is advisory and does not form part of the specification.© Philips Electronics N.V. 1997All rights are reserved. Reproduction in whole or in part is prohibited without the prior written consent of the copyright owner.The information presented in this document does not form part of any quotation or contract, it is believed to be accurate and reliable and may be changed without notice. No liability will be accepted by the publisher for any consequence of its use. Publication thereof does not convey nor imply any license under patent or other industrial or intellectual property rights.LIFE SUPPORT APPLICATIONSThese products are not designed for use in life support appliances, devices or systems where malfunction of these products can be reasonably expected to result in personal injury. Philips customers using or selling these products for use in such applications do so at their own risk and agree to fully indemnify Philips for any damages resulting from such improper use or sale.。

贝克DESP型封隔器（潜油电泵）产品号：H78560目录概述特性参数指南标准管柱操作下入/坐封程序坐封过程解封程序解封过程预拆装 45 和47型拆卸装配预拆装 51AB型拆卸装配悬重零件清单45A4型零件清单47型零件清单51AB型贝克DESP型封隔器（潜油电泵）产品号：H78560 简介潜油电泵封隔器是与潜油电泵配套使用，封隔器可用丝扣连接，以便于实现带猪尾巴的电缆的穿越，或用电缆机械密封直接穿越。

其余可选择的孔，可用于环空高压气体排出、液体注入、或通过仪表电缆。

特性1.零件少：潜油电泵封隔器专门为下潜油电泵设计的，而不是从双管生产封隔器改装而成的。

它的设计简单，零部件少，易于回收和检修；2.易于坐封和解封：液压坐封，直接上提剪切解封；3.长度短，结构紧凑：其长度（不足3英尺）易于下入和处理，比长度大的封隔器安装更可靠；4.独立的排气管线：在第1和第2管柱上没有气体排出；5.可为特殊需要进行设计：可选择通过封隔器的孔数；6.电缆和油管之间没有相对运动：消除了电缆的损坏；7.在坐封位置机械锁紧：由一个锁紧环将封隔器保持在坐封位置；8.双爪、笼式卡瓦：不需要持续施加液压力，上下锥面推动卡瓦咬住套管壁，并可承受双向载荷；9.可从上下两个方向承受压力：当液体从上下两个方向加压时，密封胶筒和卡瓦都将越来越紧；10.螺纹连接可适用于许多穿越系统。

套管 规格 外径in 重量最大通过外径外型结构 增加孔额定压差PSI 额定温度°F 45A4 5-1/2 15.5-17# 4.645 47 26-29# 5.99047C4 7 20-26# 6.121 20051 43.5-47#8.468 51AB 9-5/8 36-47# 8.500 见下表 是 2500* 250 *件第7页标准管柱结构规格 第1管柱 第2管柱 第3管柱 第4管柱 第5管柱 2.375 4.6#NU Box X Box 1.931”孔 (3)3/8”NPT Box X 盲孔 0.563”孔45A4 1.900 2.7#NU Box X Box 1.350” 孔 1.900 2.7#NU Box X Box 1.350” 孔3/8”NPT Box X 盲孔 0.485”孔 2.875 6.4# New Vam Box X Box 2.360”孔 1.900 2.7# NU Box X Box 1.375”孔2.875 6.4# MNNTDS Box X Box 2.360”孔 1.900 2.9#Hydril CS Box X Box 1.375”孔 1/2”NPT Box X 盲孔0.688”孔 47 3.500 9.2# NU Box X Box 2.919”孔 1.25 Stub Acme Box X 盲孔0.686”孔 1/2”NPT Box X 盲孔 0.688”孔47C4 2.875 EU Box X Pin 2.360”孔 1.900 2.9# Hydril CS Box X Box 1.375”孔1.25 Stub Acme Box0.688”孔* 供货时两端带标准的1/2”NPT Box x 1.0”NPT Pin 转换接头(最小0.704孔)。

信泓日佳销售产品目录表信泓日佳模具钢材公司销售模具钢，进口模具钢，高速钢，粉末高速钢，钨钢，铝材，铜材，铝板，铝棒如：日本：PX4 PX5 PDS-3 PDS-5 PAK90 PD555 PD613 SGT S50C SC5C SUS303 SUS304 SUS410 SUS420 SUS630 SCM440 SMC420 SUP9 SK3 SK4 SKD4 SKD5 SKD7 SKD8 SKD11 SKD12 SKD61 SKD62 SKH-9 SKH-51SKH-55 SKH57 SKH59 SKT4 SKS3 SKS41 SLD SLD8 SLD10 SM400A SNC815 SPHD SS41 SS330 SS400 SS490 S-Star GFA GOA GENA1 G-Star DAC DAC10 DAC45 DAC55 DEX20 DEX40 DEX60 DH21 DH31-S DH42 DH62 DHA DH2F DC11 DC53 DM FDAC YEM YEM-K YHD3 YHD27 YHD28 YHD45 YK30 YSS YXR3 YXR33 YXM1 YXM4 YXM42 MH51 MH85 NAK55 NAK80 NP8 NP9 ARK1 H3100 HAP10 HAP40 HAP72 HPM1 HPM2 HPM38 HPM50 HPM57 HPM77 化学成分瑞典：618S 618H 718 718S 718H S136 S136H 8407 8416 STAVAX ASP-23 ASP-30 UHB2311 RAMAX S ALVAR14 ASSAB88 DF3 DF2 ELMAX KM2 HMP41 HOTVAR V4 V10 ORO90 UHB20 UHB4006 UHB4462 UHB5752 UHB5860 UHB5919 UHB8159 UHB709 UHB8550 XW5 XW10 XW41 XW42 Q0R090化学成分奥国：A903 S500 S600 S709 S790 S705 S390PM S590PM S690PM M201 M202 M238 M261 M310 M238ESR W300 M330 M340 M461 W302 W303 W304 W321 W500 K100 K105 K110 K305 K340 K460 K600 K720 K990 VMRM300ESRM310ESR N100 N320 N540 N350 E116 E200 E220 E230 E400 F300 F530 V320 V155 V800 V820 化学成分德国：21NICRMO2 14NICR14 15CRNI6 20CRMO5 18CRNI8 55CR3 50CRV4 42CRMO4 34CRNIMO6 34CRALNI7 40CRNIMOA 638 2711 2316 2316H 2344 2379 2436 2510 2688 2738 1285 1292 2363 2767 2842 3207 1.3343 4125 1.7225 1.0037 1.1210 1.2101 1.1545 1.2080 1.2311 1.2312 1.2343 1.2365 1.2367 1.2550 1.2601 1.2606 1.2714 1.2840 1.2842 1.2885 1.3243 1.3247 1.3343 1.4006 1.4021 1.4034 1.4057 1.4313 1.4462 1.4542 1.4548 1.5752 1.5860 1.5919 1.6582 1.6523 1.7147 1.5920 1.7176 1.7225 1.7220 1.8509 1.8159中国：Cr12 Cr12MoV 6542 W18 W9 3Cr2W8V 15-40CrNiMo 15-42CrMo H13 20CrMnTi 30CrMnTi T8 T8A T10A T12 Y35CA Y12 Y15 Y20 Y30 Y40化学成分美国：P2 P3 P20 H11 H13 H10A F1 F2 F8 L2 L3 L6 M1 M2 M3 M4 M35 M42 M1008 M1020 W110 O1 O2 O6 L2 L3 T1 T15 S1 S7 D2 D3 D6 D7 A2 A3 A6 A8 A10 420 S7 1005 1018 1020 1035 1042 1050 1053 1069 1071 1086 1095 1018 13115 1513 1524 1548 1566 2024 2317 3135 3245 3450 4012 4024 4121 4130 4140 4150 4608 4715 4820 5015 5120 5052 5083 6061 6062 6115 6195 7055 7058 7072 7075 7260 8120 8620 8622 8742 9254 9260 A570.Gr.A K52440钨钢：G1 G2 G3 G4 G5 G6 G7 G8 G9 G10 G11 V30 V40 D30 D40 D50 D60 KE11 SF-05 SF-15 SF-20 SF-30 SF-X K05 K10 K20 YG8 YG9 YG12 YG15 YG20 YG25 YG28 CD650 CD636 CD750 化学成分高速钢：SKH-9 SKH-51 SKH-55 M2 M35 M42 ASP-23 ASP-30 V10 S600 S790铜料：日本三宝红铜银铜铜材紫铜杯士铜铬铜铍铜钨铜合金铜磷青铜锡青铜 C5191 C3604 C3600 C2801 C1100化学成分轧辊钢：9Cr2Mo 9Cr2MoV 718 P20不锈钢：301 302 303 304 310 316 401 410 420 430 440 630 1CR13 2CR13 3CR13 3CR13 4CR13 S31500 S31803 S31220 S36550 321铝板：6061-T651 50527075 8011 8005 8079 6056 6012 5086 2024 1200 1100 5050 1050化学成分易切削结构钢:15S10 1.0710 10S20 1.0721 15S20 15S22 1.0723 35S20 1.0726 45S20 46S20 1.0727 60S20 60S22 1.0728 10SPb20 1.0722 35SPb 1.0756 45SPb20 46SPb20 1.0757 60SPb20 60SPb22 1.0758 9SMn28 11SMn30 1.0736 9SMn36 11SMn37 1.0736 9SMnPb28 11SMnPb30 1.0718 9SMnPb36 11SMnPb37 1.0737 9S20 11SMn28 11SMnPb28 12SMnPb35 12SMn35 10Pb20 10SPb20 17SMn2035S20 35SMn20 44SmN28 46S20 …….冷镦钢和冷挤压钢：Cq15 C15C 1.1132 Cq22 C22C 1.1152 Cq35 C35C 1.1172 Cq45 C45C 1.1192 38Cr1 1.7001 46Cr1 1.7002 38Cr1 1.700 46Cr2 1.7006 15Cr3 1.7015 34Cr4 1.7033 37Cr4 1.7034 41Cr4 1.7035 25CrMo4 1.7218 34CrMo4 1.7220 42CrMo4 1.7225 20MoCr4 1.7321 16MnCr5 1.7131 15CrNi6 1.5919 30CrNiMo8 1.6580 34CrNiMo6 1.6582 20NiCrMo2-21 21NiCrMo2 1.6523 CC4X CC4A CC8S CC8A CC11X CC11A CE10 CE15E4 CE16E4 CE20E4 20CRE4 16MnCr5E 18MnCr4E 18CrMo4E 20NiMo2E CE20E4 CE28E4 CE35E4 CE40E4 CE45E4 42Mn6E 37Cr2E 46Cr2E 34Cr4E 37Cr4e 41Cr4E 41Cr4E 36Mo3E 25CrMo4e 34CrMo4e 42CrMo4e 41CrNiMo2E 41NiCrMo7E31CrNiMo8e CE20BG1 CE20BG2 CE28B CE35B 35MnB5E 37CrBLE …弹簧钢和轴承钢：C67ECK67 1.1231 C75E CK75 1.1248 C85E CK85 1.1269 C10E CK101 1.1274 38Si6 1.5022 38Si7 1.5023 46Si7 1.5024 51Si7 1.5025 55Si7 56Si7 1.5026 65Si7 1.5028 71Si7 1.5029 60SiMn5 1.5142 51MnV7 1.5225 54SiCr6 1.7102 60SiCr7 1.7108 67SiCr5 1.7103 55Cr3 1.7176 51CrC4 50CrV4 1.8159 58CrV4 1.8161 ......刀具用钢：SKS11 SKS2 SKS21 SKS5 SKS7 SKS81 SKS8 ……….耐冲击工具钢：SKS4 SKS41 SKS43 SKS44……….冷作模具钢：SKS3 SKS31 SKS93 SKS94 SKS95 SKD1 SKD2 SKD10 SKD12 SKD11 ……….热作模具钢：SKD4 SKD5 SKD6 SKD61 SKD62 SKD7 SKD8 SKT3 SKT4 SKT6…………）日本JIS标准结构钢牌号：SS330 SS400 SS490 SS540 SCM4400A SM400B SM400C SM490A SM490 SM490C SM490YA SM490YB SM570 CUP-Ten CUP-Ten60 FTW-52 FTW-60 FTW-70 HI-Z HI-Z Super HI-YAW-TEN HTP-52W NK-HITEN50 NK-HITE60 NK-HITEN70 NK-HITEN80 NK-HTEN100 RiverAce60 RiverAce70 RiverAce80 Welten50 Welten60 Welten70 Welten80 Welten80C Welten100N YAW-TEN50 Zirten SMA400AW SMA400BW SMA400CW SMA400AP SMA400BP SMA400CP SMA490AW SMA490BW SMA490CW SMA490AP SMA490BP SMA490CP SWA570W SWA570P SPA-H APA-C SPV315 SPV355 SPV410 SPV410 SPV450 SPV490 SPV235 SG255 SG295 SG325 SG365 SGV410 SGV450 SGV480 SGV42 SGV46 SGV49 SLA235A ALA235B ALA325B ALA325B ALA365 ALA410 SL2N255 SL3N255日本JIS标准机械结构用钢牌号：S10C S12C S15C S17C S20C S22C S25C S28C S30C S33C S35C S38C S40C S43C S45C S48C S50C S53C S58C S09CK S15CK S20CK日本JIS标准淬透性结构用钢牌号：SMn420H SMn433H SMn438H SMn4443H SCr415H SCr420H SCr435H SCr440HSCM415H SCM418H SCM420H SCM435H SCM440H SCM822H SNC415H SNC631H SNC220H SNC420H日本JIS标准易切削钢牌号：SUM11 SUN12 SUM21 SUM22 SUM22L SUM23 SUM23L SUM24L SUM25 SUM31 SUM31L SUM41 SUM42 SUM43 …………日本JIS标准合金钢牌号：SNB5 SNB7 SNB16 SNB21-1-5日本JIS标准轴承钢牌号：SUP3 SUP6 SUP7 SUP9 SUP9A AUP10 AUP11A AUP12 AUP13 SUJ1 SUJ2 SUJ3 SUJ4 SUJ5日本JIS标准不绣钢耐热钢牌号：SUS201 SUS202 SUS301 SUS302 SUS303 SUS303Se SUS303Cu SUS304 SUS304L SUS304N1 SUS304N2 SUS304LN SUS304J3 SUS305 SUS309S SUS309S SUS310S SUS316 SUS316L SUS316NSUS316LN SUS316F SUS317 SUS317L SUS317LN SUS317J1 SUS836L SUS890L SUS321 SUS347 SUSXM7 SUSXM15J1 SUS329J1 SUS329J1 SUS329J1 SUS329J4L SUS405 SUS410L SUS430 SUS430F SUS44J1 SUUSXM27 SUS403 SUS410 SUS410J1 SUS410F2 SUS416 SUS420J1 SUS420J2 SUS420F SUS420F2 SUS431 SUS440A SUS440F SUS630SUS631 SUS304TP SUS304HTP SUS309TP SUS310TP SUS890LTP SUS347HTP SUS304TKA SUS304TKC SUS316TKA SUS316TK SUS321TKA SUSTKC SUS420J1TKA SUS430TKA SUSTKC SUH31 SUH35 SUH36 SUH37 SUH38 SUH309 SUH310 SUH330 SUH660 SUH661 SUH446 SUH1 SUH3 SUH4 SUH11日本JIS标准高温合金钢耐蚀钢牌号：NCF600 NCF601 NCT625 NCF690 NCF718 NCF718 NCF750 NCF751 NCE800 NCF800H NCF825 NCF80A NCF600TP NCF600TB NCF625TP NCF800TP NCF825TP NCF825TB日本JIS标准工具钢牌号：SK140 SK120 SK105 SK95 SK90 SK85 SK80 SK75 SK70 SK65 SK60日本JIS标准高速钢牌号：SKH2 SKH3 SKH4 SKH10 SKH40 SKH50 SKH51 SKH52 SKH53 SKH54 SKH55 SKH56 SKH57 SKH58 SKH59………日本JIS标准特殊钢中空钢牌号：SK3M SK3M SK4M SK5M SK6M SK7M SK2M SK5M SKS51M SKS81MSKS95M SKC3 SKC11 SKC24 SKC25 SKC31日本JIS标准钨钢（硬质合金钢）牌号：切削工具用：P01 P15 P10 P20 P30 P40 M10 M20 M30 M40 K01 K10 K20 K30………拉丝模和顶尖工具用：V10 V20 V30……….矿山的质地工具用：,E1 E2 E4 E5………超微粒硬质合金：Z01 Z10 Z20 Z30 …………A1 A40 CC F0 F1 G2 G3 G5 G8 G10E H1 H2 H3 ST10E ST15E ST20E ST25E ST30E ST40E T12A T3S U1 U10E AC720 AC805 AC835………日本JIS标准结构用铸钢牌号:SC360 SC37 SC410 SC42 SC450 SC46 SC480 SC49 SC360 SC410 SC450 SC480 200-400 200-400W 230-450 230-450W 270-480W 340-550 340-550W SCW410 SCW42 SCW450 SCW46 SCW480 SCW49 SCW63SCC3 SCC5 SCMn1 SCMn2 SCMn3 SCMn5 SCMnCr2…….SCC3A SCC3B……….瑞典SS标准,碳素结构钢:1211 1225 1226 1232 1233 1234 1250 1265 1300 1310 1311 1312 1313 1330 1331 1332 1350 1357 1370 1410 1411 1412 1413 1414 1421 1422 1423 1424 1430 1431 1432 1434 1435 1450 1500 1510 1550 1550 1572 1600 1650 1655 1660 1665 1672 1674 1678合金结构钢:2085 2090 2101 2102 2103 2106 2107 2108 2110 2112 2114 2116 2117 2120 2121 2122 2127 2128 2130 2131 2132 2134 2135 2142 2143 2144 2145 2165 2168 2172 2173 2174 2203 2216 2218 2225 2228 2230 2231 2233 2243 2240 2244 2245 2253 2254 2258 2506 2511 2512 2520 2523 2530 2532 2534 2536 2541 2316 2615 2624 2625 2632 2634 2642 2644 2652 2654 2662 2664 2942 2940……弹簧钢: 1770 1774 1778…….易切削钢: 1912 1214 1922 1926 1940 1957 1973……..不绣钢和耐热钢：2301 2302 2303 2304 2317 2320 2321 2322 2323 2324 2325 2326 2327 2328 2331 2332 2333 2337 2338 2340 2343 2346 2347 2348 2350 2352 2353 2357 2360 2361 2366 2367 2368 2370 2371 2372 2374 7376 2377 2378 2380 2382 2383 2384 2387 2388 2562 2564 2570 2584 2662 2301-02 2301-22 2301-23 2302-02 2302-03 2303-02 2303-03 0303-04 2303-08 2304-02 2304-08 2317-03 2321-02 2321-03 2324-02 2325-02 2326-02 2326-22 2326-23 2326-26 2326-28 2340-04 2343-04 2343-22 2343-23 2343-24 2343-26 2343-27 2343-28 2343-29 2346-02 2346-02 2347-02 2347-22 2347-23 2347-26 2347-27 2347-28 2347-29 2348-02 2348-22 2348-23 2348-24 2348-25 2348-27 2348-28 2348-29 2350-02 2350-27 2350-28 2350-29 2352-02 2352-27 2352-29 2353-02 2353-28 2353-29 2366-27 2366-28 2366-29 2367-02 2367-28 2367-29 2370-02 2370-27 2370-28 2370-29 2371-02 2371-27 2371-29 2374-02 2374-27 2374-28 2374-29 2375-02 2380-02 2380-03 2570-03 2570-04 2570-04 2750-08 2375-27 2375-28 2375-29瑞典SS标准,碳素工具钢：1770 1778 1880 1885………..合金工具钢: 2092 2140 2242 2260 2310 2312 2314 2511 2514 2540 2550 2700 2705 2710 2730 2900 2940………高速工具钢：2715 2716 2722 2723 2724 2725 2736 2750 2752 2754 2756 2782 HSP-6 HSP-11 HSP-15 HSP-16 SHP-17 HSP41 HSP-42 ASP-23PM ASP-30PM ASP-60PM ASP-23 ASP-30 ASP-60….….工具钢及硬质合金钢：2726 2727 2736 2750 2752 2754 2756 2782 CG20 CG35 CG40 CG60 CN02 CN10 CN30 CN40 CS05 CS10 CS20 CS35 CT30 CT45 CT50 CT60 CT75 CT60 CT75 CT85 F02 H05 H10 H20 HIP HM HML RIP R4 S2 S4 S6 SIP SH SM …….涂层硬质合金：GC015 GC135 GC315 GC1025 PO5 P35 K05 K20 P25 P45 M15 M20 K05 K25 P10 P35 K20 ………..末涂层硬质合金：B1 B2 B23 B45 G4 G5 G27 K40 M40 H5 H13 K01 K10 H20 K20 H30 K30 H45 HX K10 K30 M10 M20 S1F P01 P15 S1G P01 P10 S2 P10 P20 S4 M20 P20 P30 S6 M30 P10 P40 S25M SU41 K10 K20 M10 M20 SecoticKSecticTP15 SecticTP25 Secotic TP35….非合金钢和合金钢牌号:1305 1306 1505 1606 2120 2133 2172 2183 2223 2224 2225………不绣耐蚀铸钢：2302 2324 2333 2343 2343-12 2366 2377 2385 2387 2564 2564……..瑞典灰铸铁:0110-00 0115-00 0125-00 0130-00 0140-00 215 217 219 221 223 ….球墨铸铁: 0717-00 0717-02 0717-15 0722-00 0727-02 0732-01 0772-00 0776-03 ….可锻铸铁: 0814-00 0815-00 0852-00 0854-00 0856-00 0862-03 0864-03……..经营美国“ALCOA”优质铝板、铝棒范围：6061-T6,7075-T651,A5052-H32,7075-T6,6061-T651,5052-H112,5086-H32,5083-H111,5083-H112,1100,1050,1 060 6063,5083,5086,2011,2017,2024,3003,7022,7050,7072,6060,6061,7075,5052等合金铝板/棒/管材等★经营国产优质铝板、铝棒范围:6061-T6,7075-T651,A5052-H32,7075-T6,6061-T651, 5083-H111, 1050,1060,6061,7075,5052,6063,5083, 5086,6062,6082-T6,6262,5154,5754,5356,3000,491,LY12,LC4,1XXX,7009等合金铝板/棒/管材等常备现货铝板/厚度如下:6061: 2mm-280mm; 7075: 2mm-180mm 5052: 1mm-80mm 5083: 8mm-80mm7075-T651: 10mm-180mm 6063: 2mm-280mm 2017: 4mm-80mm6061-T6: 3mm-280mm A5052-H32: 0.5mm-10mm 5083-H111: 1mm-10mm合金铸铁: 0457-00 0466-00 0512-00 0513-00 0747-03 0747-04 ……瑞典常用钢:618 618S 718 718S 718H S136 S136H 8407 8416 STAVAX UHB33 RAMAXS ALVAR14 ASSAB88 DF3 DF2 ELMAX KM2 HMP41 HOTVAR V4 V10 ORO90 UHB20 UHB4006 UHB4462 UHB5752 UHB5860 UHB5919 UHB8159 UHB709 UHB8550 ASP-23 ASP-30 ASP-60 ………….上海扩进模具材料有限公司大量销售模具钢，进口模具钢，高速钢，粉末高速钢，钨钢，铝材，铜材，铝板，铝棒如：日本 :PX4 PX5 PDS-3 PDS-5 PAK90 PD555 PD613 SGT S50C SC5C SUS303 SUS304 SUS410 SUS420 SUS630 SCM440 SMC420 SUP9 SK3 SK4 SKD4 SKD5 SKD7 SKD8 SKD11 SKD12 SKD61 SKD62 SKH-9 SKH-51 SKH-55SKH57 SKH59 SKT4 SKS3 SKS41 SLD SLD8 SLD10 SM400A SNC815 SPHD SS41 SS330 SS400 SS490 S-Star GFA GOA GENA1 G-Star DAC DAC10 DAC45 DAC55 DEX20 DEX40 DEX60 DH21 DH31-S DH42 DH62 DHA DH2F DC11 DC53 DM FDAC YEM YEM-K YHD3 YHD27 YHD28 YHD45 YK30 YSS YXR3 YXR33 YXM1 YXM4 YXM42 MH51 MH85 NAK55 NAK80 NP8 NP9 ARK1 H3100 HAP10 HAP40 HAP72 HPM1 HPM2 HPM38 HPM50 HPM57 HPM77 化学成分瑞典：618S 618H 718 718S 718H S136 S136H 8407 8416 STAVAX ASP-23 ASP-30 UHB2311 RAMAX S ALVAR14 ASSAB88 DF3 DF2 ELMAX KM2 HMP41 HOTVAR V4 V10 ORO90 UHB20 UHB4006 UHB4462 UHB5752 UHB5860 UHB5919 UHB8159 UHB709 UHB8550 XW5 XW10 XW41 XW42 Q0R090化学成分奥国：A903 S500 S600 S709 S790 S705 S390PM S590PM S690PM M201 M202 M238 M261 M310 M238ESR W300 M330 M340 M461 W302 W303 W304 W321 W500 K100 K105 K110 K305 K340 K460 K600 K720 K990 VMRM300ESRM310ESR N100 N320 N540 N350 E116 E200 E220 E230 E400 F300 F530 V320 V155 V800 V820 化学成分德国：21NICRMO2 14NICR14 15CRNI6 20CRMO5 18CRNI8 55CR3 50CRV4 42CRMO4 34CRNIMO6 34CRALNI7 40CRNIMOA 638 2711 2316 2316H 2344 2379 2436 2510 2688 2738 1285 1292 2363 2767 2842 3207 1.3343 4125 1.7225 1.0037 1.1210 1.2101 1.1545 1.2080 1.2311 1.2312 1.2343 1.2365 1.2367 1.2550 1.2601 1.2606 1.2714 1.2840 1.2842 1.2885 1.3243 1.3247 1.3343 1.4006 1.4021 1.4034 1.4057 1.4313 1.4462 1.4542 1.4548 1.5752 1.5860 1.5919 1.6582 1.6523 1.7147 1.5920 1.7176 1.7225 1.7220 1.8509 1.8159中国：Cr12 Cr12MoV 6542 W18 W9 3Cr2W8V 15-40CrNiMo 15-42CrMo H13 20CrMnTi 30CrMnTi T8 T8A T10A T12 Y35CA Y12 Y15 Y20 Y30 Y40化学成分美国：P2 P3 P20 H11 H13 H10A F1 F2 F8 L2 L3 L6 M1 M2 M3 M4 M35 M42 M1008 M1020 W110 O1 O2 O6 L2 L3 T1 T15 S1 S7 D2 D3 D6 D7 A2 A3 A6 A8 A10 420 S7 1005 1018 1020 1035 1042 1050 1053 1069 1071 1086 1095 1018 13115 1513 1524 1548 1566 2024 2317 3135 3245 3450 4012 4024 4121 4130 4140 4150 4608 4715 4820 5015 5120 5052 5083 6061 6062 6115 6195 7055 7058 7072 7075 7260 8120 8620 8622 8742 9254 9260 A570.Gr.A K52440钨钢如：G1 G2 G3 G4 G5 G6 G7 G8 G9 G10 G11 V30 V40 D30 D40 D50 D60 KE11 SF-05 SF-15 SF-20 SF-30 SF-X K05 K10 K20 YG8 YG9 YG12 YG15 YG20 YG25 YG28 CD650 CD636 CD750 化学成分高速钢:SKH-9 SKH-51 SKH-55 M2 M35 M42 ASP-23 ASP-30 V10 S600 S790铜料如：日本三宝红铜银铜铜材紫铜杯士铜铬铜铍铜钨铜合金铜磷青铜锡青铜 C5191 C3604C3600 C2801 C1100化学成分轧辊钢：9Cr2Mo 9Cr2MoV 718 P20不锈钢：301 302 303 304 310 316 401 410 420 430 440 630 1CR13 2CR13 3CR13 3CR13 4CR13 S31500 S31803 S31220 S36550 321铝板：6061-T651 50527075 8011 8005 8079 6056 6012 5086 2024 1200 1100 5050 1050化学成分易切削结构钢:15S10 1.0710 10S20 1.0721 15S20 15S22 1.0723 35S20 1.0726 45S20 46S20 1.0727 60S20 60S22 1.0728 10SPb20 1.0722 35SPb 1.0756 45SPb20 46SPb20 1.0757 60SPb20 60SPb22 1.0758 9SMn28 11SMn30 1.0736 9SMn36 11SMn37 1.0736 9SMnPb28 11SMnPb30 1.0718 9SMnPb36 11SMnPb37 1.0737 9S20 11SMn28 11SMnPb28 12SMnPb35 12SMn35 10Pb20 10SPb20 17SMn2035S20 35SMn20 44SmN28 46S20 …….冷镦钢和冷挤压钢:Cq15 C15C 1.1132 Cq22 C22C 1.1152 Cq35 C35C 1.1172 Cq45 C45C 1.1192 38Cr1 1.7001 46Cr1 1.7002 38Cr1 1.700 46Cr2 1.7006 15Cr3 1.7015 34Cr4 1.7033 37Cr4 1.7034 41Cr4 1.7035 25CrMo4 1.7218 34CrMo4 1.7220 42CrMo4 1.7225 20MoCr4 1.7321 16MnCr5 1.7131 15CrNi6 1.5919 30CrNiMo8 1.6580 34CrNiMo6 1.6582 20NiCrMo2-21 21NiCrMo2 1.6523 CC4X CC4A CC8S CC8A CC11X CC11A CE10 CE15E4 CE16E4 CE20E4 20CRE4 16MnCr5E 18MnCr4E 18CrMo4E 20NiMo2E CE20E4 CE28E4 CE35E4 CE40E4 CE45E4 42Mn6E 37Cr2E 46Cr2E 34Cr4E 37Cr4e 41Cr4E 41Cr4E 36Mo3E 25CrMo4e 34CrMo4e 42CrMo4e 41CrNiMo2E 41NiCrMo7E31CrNiMo8e CE20BG1 CE20BG2 CE28B CE35B 35MnB5E 37CrBLE …..弹簧钢和轴承钢:C67ECK67 1.1231 C75E CK75 1.1248 C85E CK85 1.1269 C10E CK101 1.1274 38Si6 1.5022 38Si7 1.5023 46Si7 1.5024 51Si7 1.5025 55Si7 56Si7 1.5026 65Si7 1.5028 71Si7 1.5029 60SiMn5 1.5142 51MnV7 1.5225 54SiCr6 1.7102 60SiCr7 1.7108 67SiCr5 1.7103 55Cr3 1.7176 51CrC4 50CrV4 1.8159 58CrV4 1.8161 ......刀具用钢：SKS11 SKS2 SKS21 SKS5 SKS7 SKS81 SKS8 ……….耐冲击工具钢：SKS4 SKS41 SKS43 SKS44……….冷作模具钢：SKS3 SKS31 SKS93 SKS94 SKS95 SKD1 SKD2 SKD10 SKD12 SKD11 ……….热作模具钢：SKD4 SKD5 SKD6 SKD61 SKD62 SKD7 SKD8 SKT3 SKT4 SKT6…………）日本JIS标准结构钢牌号:SS330 SS400 SS490 SS540 SCM4400A SM400B SM400C SM490A SM490 SM490C SM490YA SM490YB SM570 CUP-Ten CUP-Ten60 FTW-52 FTW-60 FTW-70 HI-Z HI-Z Super HI-YAW-TEN HTP-52W NK-HITEN50 NK-HITE60 NK-HITEN70 NK-HITEN80 NK-HTEN100 RiverAce60 RiverAce70 RiverAce80 Welten50 Welten60 Welten70 Welten80 Welten80C Welten100N YAW-TEN50 Zirten SMA400AW SMA400BW SMA400CW SMA400AP SMA400BP SMA400CP SMA490AW SMA490BW SMA490CW SMA490AP SMA490BP SMA490CP SWA570W SWA570P SPA-H APA-C SPV315 SPV355 SPV410 SPV410 SPV450 SPV490 SPV235 SG255 SG295 SG325 SG365 SGV410 SGV450 SGV480 SGV42 SGV46 SGV49 SLA235A ALA235B ALA325B ALA325B ALA365 ALA410 SL2N255 SL3N255日本JIS标准机械结构用钢牌号:S10C S12C S15C S17C S20C S22C S25C S28C S30C S33C S35C S38C S40C S43C S45C S48C S50C S53C S58C S09CK S15CK S20CK日本JIS标准淬透性结构用钢牌号:SMn420H SMn433H SMn438H SMn4443H SCr415H SCr420H SCr435H SCr440H SCM415H SCM418H SCM420H SCM435H SCM440H SCM822H SNC415H SNC631H SNC220H SNC420H日本JIS标准易切削钢牌号:SUM11 SUN12 SUM21 SUM22 SUM22L SUM23 SUM23L SUM24L SUM25 SUM31 SUM31L SUM41 SUM42 SUM43 …………日本JIS标准合金钢牌号:SNB5 SNB7 SNB16 SNB21-1-5日本JIS标准轴承钢牌号:SUP3 SUP6 SUP7 SUP9 SUP9A AUP10 AUP11A AUP12 AUP13 SUJ1 SUJ2 SUJ3 SUJ4 SUJ5日本JIS标准不绣钢耐热钢牌号:SUS201 SUS202 SUS301 SUS302 SUS303 SUS303Se SUS303Cu SUS304 SUS304L SUS304N1 SUS304N2 SUS304LN SUS304J3 SUS305 SUS309S SUS309S SUS310S SUS316 SUS316L SUS316NSUS316LN SUS316F SUS317 SUS317L SUS317LN SUS317J1 SUS836L SUS890L SUS321 SUS347 SUSXM7 SUSXM15J1 SUS329J1 SUS329J1 SUS329J1 SUS329J4L SUS405 SUS410L SUS430 SUS430F SUS44J1 SUUSXM27 SUS403 SUS410 SUS410J1 SUS410F2 SUS416 SUS420J1 SUS420J2 SUS420F SUS420F2 SUS431 SUS440A SUS440F SUS630SUS631 SUS304TP SUS304HTP SUS309TP SUS310TP SUS890LTP SUS347HTP SUS304TKA SUS304TKC SUS316TKA SUS316T SUS321TKA SUSTKC SUS420J1TKA SUS430TKA SUSTKC SUH31 SUH35 SUH36 SUH37 SUH38 SUH309 SUH310 SUH330 SUH660 SUH661 SUH446 SUH1 SUH3 SUH4 SUH11日本JIS标准高温合金钢耐蚀钢牌号:NCF600 NCF601 NCT625 NCF690 NCF718 NCF718 NCF750 NCF751 NCE800 NCF800H NCF825 NCF80A NCF600TP NCF600TB NCF625TP NCF800TP NCF825TP NCF825TB日本JIS标准工具钢牌号:SK140 SK120 SK105 SK95 SK90 SK85 SK80 SK75 SK70 SK65 SK60日本JIS标准高速钢牌号:SKH2 SKH3 SKH4 SKH10 SKH40 SKH50 SKH51 SKH52 SKH53 SKH54 SKH55 SKH56 SKH57 SKH58 SKH59………..日本JIS标准特殊钢中空钢牌号:SK3M SK3M SK4M SK5M SK6M SK7M SK2M SK5M SKS51M SKS81MSKS95M SKC3 SKC11 SKC24 SKC25 SKC31日本JIS标准钨钢（硬质合金钢）牌号:切削工具用：P01 P15 P10 P20 P30 P40 M10 M20 M30 M40 K01 K10 K20 K30。