MSM512100-80SJ中文资料

TPS_GCN_F_09.20E– Rev. 1 2012-10-29 Client: Huawei Technologies Co., LtdAdministration Building Headquarters of Huawei Technologies Co., Ltd.,Bantian, Longgang District, 518129 Shenzhen, PEOPLE'S REPUBLIC OFCHINAManufacturing place: Huawei Technologies Co., LtdAdministration Building Headquarters of Huawei Technologies Co., Ltd.,Bantian, Longgang District, 518129 Shenzhen, PEOPLE'S REPUBLIC OFCHINATest subject: Product: SOLAR INVERTERType:SUN2000-36KTL, SUN2000-33KTL-ATest specification: VDE-AR-N 4105:2011DIN VDE V 0124-100(VDE V 0124-100):2012DIN VDE 0126-1-1 (VDE V 0126-1-1):2013Purpose of examination: ∙Annex G.2, G.3, F3 and F4 from standard VDE-AR-N 4105∙TÜV SÜD certification mark specificationsTest result: The test results show that the presented product is in compliance with the specified requirements.Technical Report No. <70.409.16.086.03-02>G.2 Certificate of conformity for power generation unitsF.3 Requirements for the test report for power generation unitsG.3 Certificate of conformity of the network and system protectionF.4 Requirements for the test report for the NS protectionDated <2017-05-02>This technical report may only be quoted in full. Any use for advertising purposes must be granted in writing. This report is the result of a single examination of the object in question and is not generally applicable evaluation of the quality of other products in regular production.TPS_GCN_F_09.20E– Rev. 1 2012-10-29 1 Description of the test subject1.1 FunctionThese devices are transformer-less grid-connected PV inverters which converts direct current optimized by photovoltaic DC conditioner to alternating current, and they are in-tended to be connected in parallel with the public grid directly.They are intended for professional incorporation into PV system, and they are assessed on a component test basis.Firmware version: V200R0021.2 Consideration of the foreseeable misuseNot applicableCovered through the applied standardCovered by the following commentCovered by attached risk analysis1.3 Technical DataModel : SUN2000-36KTL, SUN2000-33KTL-APV input :d.c. Max. Input Voltage: 1100 Vd.c.d.c. MPP Range: 200-1000 Vd.c.d.c. Max. Input Current: 22 A /22 A /22 A /22 AIsc PV: 30 A /30 A /30 A /30 AAC output :a.c. Output Nominal Voltage: 3/N/PE~, 400Va.c. Nominal Operating Frequency: 50 Hza.c. Output Max. Current: 57,8 A (SUN2000-36KTL),48 A (SUN2000-33KTL-A)a.c. Output Rated Power: 36 kVA (SUN2000-36KTL),30 kVA (SUN2000-33KTL-A)a.c. Output Max. Active Power: 40 kW (SUN2000-36KTL), 33 kW (SUN2000-33KTL-A)a.c. Output Max. Apparent Power: 40 kVA (SUN2000-36KTL), 33 kVA (SUN2000-33KTL-A)Protection Class : IIngress protection : IP65Construction : Fixed equipmentSupply connection : Non-detachable power supply cableWeight : 55kg(SUN2000-36KTL)/60kg(SUN2000-33KTL-A)TPS_GCN_F_09.20E– Rev. 1 2012-10-29 2 Order2.1 Date of Purchase Order, Customer’s Reference2017.04.05, 7482130808/20002.2 Receipt of Test Sample, Location2016.04.15, 2017.04.15Nanjing CQC - Trusted Testing Technology Co., Ltd.No.99,Wenlan Road, Xianlin University Zone, Xianlin Street, Qixia District, NanJing, China2.3 Date of Testing2016-04-15 – 2016-05-04(original), 2017-04-15 – 2017-04-20(revised)2.4 Location of TestingNanjing CQC - Trusted Testing Technology Co., Ltd.No.99,Wenlan Road, Xianlin University Zone, Xianlin Street, Qixia District, NanJing, China2.5 Points of Non-compliance or Exceptions of the Test ProcedureNoneTPS_GCN_F_09.20E– Rev. 1 2012-10-29 3 Test Results3.1 Positive Test Results (as attachment of type D certificate)G.2 Certificate of conformity for power generation unitsCertificate of conformityPower generation unit No. 70.409.16.086.03-02ManufacturerHuawei Technologies Co., Ltd.Administration Building Headquarters of HuaweiTechnologies Co., Ltd., Bantian, Longgang District, 518129Shenzhen, PEOPLE'S REPUBLIC OF CHINA Type power generation unit SOLAR INVERTERModel SUN2000-36KTL, SUN2000-33KTL-AAssessment valuesMax. active power P Emax40048 W (SUN2000-36KTL)30322 W (SUN2000-33KTL-A)Max. apparent power S Emax40057 VA (SUN2000-36KTL)33127 VA (SUN2000-33KTL-A)Rated voltage 3/N/PE~, 400V Network connection rulesVDE-AR-N 4105 “Power generation systems connec tedto the low-voltage network”Technical minimum requirements for connection andparallel operation of power generation systems connectedto the low-voltage networkFirmware version V200R002Period of measurementFrom 2016-04-15 to 2016-05-04(original) and From 2017-04-15 to 2017-04-20(revised)The above mentioned power generation unit meets the requirements of VDE-AR-N 4105.Description of the structure and schematic set-up of the generating unit. (including single faultcheck)The generating unit integrated EMC filter on both PV and AC side converts direct current optimized byphotovoltaic DC conditioner to alternating current and it is intended to be connected in parallel with the low-voltage mains to supply common load. The generating unit has no electrical isolation between DC inputand AC output. The output is switched off by the failsafe inverter bridge and two relays in series. This al-lows a safe separation from generating unit to the network, also in case of failure. Refer to below illustra-tion.TPS_GCN_F_09.20E– Rev. 1 2012-10-29SUN2000-36KTL and SUN2000-33KTL-ATPS_GCN_F_09.20E– Rev. 1 2012-10-29 F.3 Requirements for the test report for power generation unitsExtract from test report for unit certificate“Determination of electrical properties”No. 70.409.16.086.03-02Type of systemGrid-connectedinverter for PVsystemManufacturer’s dataGeneration unitmanufacturerHuaweiTechnologies Co.,Ltd.Address:AdministrationBuildingHeadquarters ofHuaweiTechnologies Co.,Ltd., Bantian,Longgang District,518129 Shenzhen,PEOPLE'SREPUBLIC OFCHINAType of system:Grid-connected inverter for PVsystemActive power(nominal powerat referenceconditions):36kW (SUN2000-36KTL)30kW (SUN2000-33KTL-A)Rated voltage: 3/N/PE~, 400VPeriod ofmeasurement:From 2016-04-15 to 2016-05-04(original) and From 2017-04-15 to 2017-04-20(revised)Active power P Emax40048 W (SUN2000-36KTL), 30322 W (SUN2000-33KTL-A)(Assessment values)Reactive power reference(@0,91Un) – SUN2000-36KTLActive powerP/P Emax[%]10 20 30 40 50 60 70 80 90 100Max. possiblecosφunder-excited0,8020 0,8016 0,8014 0,8011 0,8009 0,8008 0,8007 0,8781* 0,9930* N/A**Max. possiblecosφover-excited0,7950 0,7975 0,7982 0,7987 0,7990 0,7991 0,7993 0,8695* 0,9880* N/A**The max. current is limited by software to 57,8 A, the apparent power and active power are limited accordingly when test at fixed grid voltage(0,91Un).S limited=P limited=57,8 x 209,3 x 3 ≈ 36293 W/VA“*”: Due to apparent power is limited to S limited, the active power is reduced accordingly when adjust cos φ. It is therefore not achieved to default cos φ at points 80% and 90% P/P Emax. The max. possible c os φ is recorded accordingly.“**”: The P Emax can not reached when test at 0,91Un.Reactive power reference (@Un) – SUN2000-36KTLActive powerP/P Emax[%]10 20 30 40 50 60 70 80 90 100Max. possiblecosφunder-excited0,8019 0,8015 0,8011 0,8010 0,8007 0,8007 0,8007 0,8006 0,9015* 0,9998*TPS_GCN_F_09.20E– Rev. 1 2012-10-29 Max. possiblecosφover-excited0,7951 0,7974 0,7982 0,7985 0,7991 0,7993 0,7993 0,7994 0,8988* 0,9998*“*”: Due to apparent power is limited to S Emax, the active power is reduced accordingly when adjust cos φ. It is therefore not achieved to default cos φ at points 90% and 100% P/P Emax. The max. possible cos φ is recorded accordingly.Reactive power reference (@1,09Un) – SUN2000-36KTLActive powerP/P Emax[%]10 20 30 40 50 60 70 80 90 100Max. possiblecosφunder-excited0,8023 0,8017 0,8012 0,8011 0,8008 0,8007 0,8007 0,8006 0,8966* 0,9998*Max. possiblecosφover-excited0,7954 0,7977 0,7984 0,7987 0,7990 0,7991 0,7994 0,7996 0,8987* 0,9998*“*”: Due to apparent power is limited to S Emax, the active power is red uced accordingly when adjust cos φ. It is therefore not achieved to default cos φ at points 90% and 100% P/P Emax. The max. possible cos φ is recorded accordingly.Reactive power reference (@Un) – SUN2000-33KTL-AActive powerP/P Emax [%]10 20 30 40 50 60 70 80 90 100Max. possiblecosφunder-excited- 0,8006 0,8010 0,8011 0,8012 0,8010 0,8010 0,8010 0,8012 0,9082*Max. possiblecosφover-excited- 0,7976 0,7977 0,7978 0,7980 0,7979 0,7973 0,7979 0,7982 0,9083*“*”: Due to apparent power is limited to S Emax, the active power is reduced accordingly when adjust cos φ. It is therefore not achieved to default cos φ at points 100% P/P Emax. The max. possible cos φ is recorded accordingly.Reactive power reference (@1,09Un) – SUN2000-33KTL-AActive powerP/P Emax[%]10 20 30 40 50 60 70 80 90 100Max. possiblecosφunder-excited- 0,8007 0,8010 0,8011 0,8012 0,8014 0,8011 0,8012 0,8008 0,9072*Max. possiblecosφover-excited- 0,7980 0,7977 0,7978 0,7980 0,7981 0,7981 0,7982 0,7981 0,9067*“*”: Due to apparent power is limited to S Emax, the active power is reduced accordingly when adjust cos φ. It is therefore not achieved to default cos φ at points 100% P/P Emax. The max. possible cos φ is recorded accordingly.TPS_GCN_F_09.20E– Rev. 1 2012-10-29 Compliance of required displacement factor cosφ– SUN2000-36KTLDefaultinsystemcontrol0,900ov 0,920ov0,940ov0,960ov0,980ov1,000 0,980un0,960un0,940un0,920un0,900unMeasuredvalueat PGUterminals0,8990 0,9198 0,9398 0,9598 0,9796 0,9998 0,9800 0,9600 0,9402 0,9202 0,9003Switching actions – SUN2000-36KTLMaking operation without default (of primary energy carrier) k i0,127Worst case at switch over of generator sections* k i-Making operation at reference conditions (of primary energycarrier)k i1,001Breaking operation at nominal power k i1,001Worst-case value of all switching operations k imax1,001Remark: “*” Not applicable for PV systemFlicker –SUN2000-36KTLAngle of network impedance ψk:32°1) 50°70°85°Coefficient of system flicker cψ: 2,38 - - -Remark: 1) R A = 0,24 Ω; X A = j 0,15 Ω at 50 Hz network impedance used for most unfavorable condition which is approximately 32° flicker angle.Reactive power transfer function – Standard-cosφ-(P)-characteristic – SUN2000-36KTLActive powerP/P n [%]10 20 30 40 50 60 70 80 90 100 cosφ0,9949 0,9987 0,9993 0,9995 0,9996 0,9799 0,9595 0,9398 0,9196 0,9999 Conform to Standard- cosφ-(P)-characteristicRemark:“*”:The maximum apparent power of the inverter is limited to SEmax. If setting cos φ≠1, the maximum active power is reduced accordingly. The active power 100% P/PEmax is therefore only achieved when cos φ = 1.Starting with a power of 0,2 P Emax, the characteristic curve shall be adhered to according to VDE AR-N 4105: 2011.TPS_GCN_F_09.20E– Rev. 1 2012-10-29 Harmonics – SUN2000-36KTLActivepowerP/Pn[%]0 10 20 30 40 50 60 70 80 90 100OrdinalnumberI [%] I [%] I [%] I [%] I [%] I [%] I [%] I [%] I [%] I [%] I [%]2 - 0,214 0,265 0,302 0,347 0,395 0,428 0,464 0,506 0,544 0,5633 - 0,103 0,102 0,082 0,070 0,065 0,061 0,069 0,080 0,095 0,1014 - 0,075 0,090 0,084 0,074 0,065 0,056 0,047 0,043 0,051 0,0525 - 0,149 0,177 0,274 0,312 0,367 0,374 0,407 0,394 0,409 0,3896 - 0,026 0,037 0,032 0,032 0,032 0,030 0,030 0,032 0,039 0,0717 - 0,291 0,237 0,215 0,171 0,196 0,199 0,271 0,302 0,350 0,3428 - 0,021 0,021 0,030 0,028 0,030 0,032 0,033 0,036 0,037 0,0579 - 0,035 0,044 0,048 0,051 0,050 0,055 0,057 0,072 0,072 0,08310 - 0,021 0,017 0,029 0,029 0,026 0,028 0,026 0,031 0,025 0,02011 - 0,216 0,192 0,333 0,329 0,350 0,340 0,351 0,384 0,378 0,38212 - 0,018 0,019 0,030 0,029 0,026 0,028 0,027 0,036 0,035 0,02913 - 0,250 0,167 0,285 0,306 0,307 0,348 0,341 0,392 0,398 0,40414 - 0,015 0,016 0,020 0,019 0,019 0,019 0,022 0,026 0,028 0,02715 - 0,039 0,036 0,032 0,033 0,036 0,036 0,034 0,033 0,037 0,03716 - 0,015 0,014 0,018 0,018 0,019 0,020 0,023 0,030 0,033 0,03417 - 0,115 0,145 0,181 0,199 0,209 0,220 0,256 0,277 0,289 0,31118 - 0,014 0,015 0,023 0,021 0,021 0,021 0,028 0,039 0,041 0,03619 - 0,086 0,136 0,158 0,161 0,178 0,186 0,207 0,245 0,255 0,26020 - 0,013 0,013 0,020 0,016 0,015 0,016 0,018 0,026 0,028 0,02421 - 0,023 0,024 0,039 0,032 0,022 0,026 0,024 0,030 0,032 0,03422 - 0,012 0,016 0,022 0,022 0,014 0,015 0,018 0,024 0,026 0,02523 - 0,069 0,096 0,125 0,115 0,125 0,139 0,160 0,176 0,207 0,22224 - 0,015 0,020 0,024 0,027 0,021 0,038 0,024 0,031 0,035 0,03525 - 0,045 0,076 0,114 0,097 0,109 0,118 0,135 0,148 0,175 0,19626 - 0,015 0,018 0,014 0,016 0,026 0,038 0,033 0,023 0,027 0,02827 - 0,018 0,021 0,017 0,020 0,037 0,033 0,034 0,022 0,027 0,02828 - 0,013 0,017 0,013 0,012 0,021 0,016 0,031 0,031 0,022 0,02229 - 0,017 0,049 0,082 0,062 0,083 0,084 0,104 0,110 0,132 0,15430 - 0,012 0,017 0,016 0,013 0,021 0,020 0,018 0,045 0,029 0,03131 - 0,021 0,044 0,070 0,048 0,068 0,072 0,080 0,081 0,114 0,13232 - 0,012 0,013 0,014 0,011 0,014 0,020 0,016 0,031 0,025 0,03433 - 0,018 0,014 0,013 0,016 0,014 0,021 0,018 0,019 0,031 0,03934 - 0,014 0,011 0,015 0,014 0,012 0,020 0,018 0,019 0,022 0,03335 - 0,026 0,026 0,043 0,038 0,053 0,061 0,062 0,053 0,079 0,10636 - 0,014 0,011 0,013 0,016 0,015 0,019 0,020 0,017 0,022 0,03637 - 0,025 0,015 0,033 0,034 0,041 0,055 0,051 0,040 0,068 0,09138 - 0,013 0,011 0,012 0,013 0,013 0,016 0,019 0,015 0,019 0,02739 - 0,018 0,016 0,016 0,016 0,015 0,018 0,023 0,022 0,023 0,02640 - 0,013 0,011 0,015 0,013 0,012 0,015 0,020 0,021 0,019 0,020TPS_GCN_F_09.20E– Rev. 1 2012-10-29 Subharmonics – SUN2000-36KTLActivepowerP/Pn[%]0 10 20 30 40 50 60 70 80 90 100Frequency[Hz]I [%] I [%] I [%] I [%] I [%] I [%] I [%] I [%] I [%] I [%] I [%]75 - 0,045 0,047 0,049 0,051 0,052 0,054 0,056 0,059 0,060 0,061125 - 0,035 0,036 0,035 0,038 0,036 0,036 0,036 0,037 0,036 0,035 175 - 0,030 0,029 0,028 0,029 0,029 0,028 0,028 0,030 0,029 0,027 225 - 0,027 0,025 0,025 0,026 0,026 0,027 0,027 0,030 0,027 0,026 275 - 0,025 0,024 0,024 0,025 0,025 0,025 0,026 0,028 0,026 0,025 325 - 0,024 0,023 0,023 0,024 0,024 0,025 0,025 0,027 0,026 0,025 375 - 0,023 0,022 0,023 0,023 0,024 0,025 0,025 0,027 0,026 0,025 425 - 0,023 0,022 0,022 0,023 0,024 0,025 0,025 0,027 0,026 0,024 475 - 0,022 0,021 0,022 0,022 0,023 0,024 0,024 0,026 0,026 0,024 525 - 0,022 0,020 0,021 0,022 0,022 0,023 0,024 0,027 0,026 0,024 575 - 0,021 0,019 0,020 0,021 0,022 0,023 0,024 0,026 0,026 0,024 625 - 0,021 0,019 0,020 0,020 0,022 0,023 0,024 0,025 0,027 0,025 675 - 0,020 0,018 0,019 0,020 0,022 0,023 0,024 0,025 0,027 0,025 725 - 0,022 0,022 0,022 0,024 0,025 0,027 0,028 0,030 0,031 0,028 775 - 0,020 0,020 0,021 0,022 0,024 0,025 0,026 0,027 0,030 0,029 825 - 0,021 0,021 0,021 0,022 0,024 0,026 0,028 0,030 0,032 0,028 875 - 0,017 0,016 0,017 0,018 0,019 0,021 0,023 0,024 0,029 0,026 925 - 0,016 0,016 0,017 0,018 0,019 0,021 0,023 0,024 0,030 0,025 975 - 0,016 0,016 0,019 0,018 0,019 0,021 0,023 0,024 0,030 0,026 1025 - 0,017 0,019 0,026 0,021 0,019 0,021 0,022 0,029 0,034 0,026 1075 - 0,016 0,022 0,036 0,039 0,018 0,020 0,022 0,027 0,028 0,026 1125 - 0,016 0,021 0,034 0,035 0,018 0,020 0,022 0,032 0,031 0,026 1175 - 0,018 0,022 0,041 0,049 0,022 0,024 0,024 0,027 0,025 0,027 1225 - 0,020 0,024 0,024 0,032 0,030 0,049 0,025 0,026 0,025 0,027 1275 - 0,021 0,022 0,023 0,028 0,036 0,036 0,045 0,023 0,025 0,027 1325 - 0,020 0,026 0,015 0,017 0,049 0,049 0,049 0,022 0,026 0,027 1375 - 0,017 0,026 0,015 0,016 0,034 0,031 0,063 0,025 0,025 0,028 1425 - 0,018 0,025 0,015 0,016 0,037 0,022 0,047 0,047 0,025 0,028 1475 - 0,017 0,024 0,014 0,015 0,022 0,023 0,043 0,046 0,025 0,027 1525 - 0,017 0,023 0,014 0,015 0,021 0,025 0,021 0,051 0,107 0,029 1575 - 0,018 0,019 0,014 0,015 0,021 0,028 0,022 0,044 0,028 0,043 1625 - 0,018 0,018 0,022 0,016 0,018 0,029 0,022 0,025 0,108 0,041 1675 - 0,021 0,015 0,015 0,018 0,017 0,028 0,024 0,022 0,026 0,053 1725 - 0,021 0,016 0,021 0,019 0,015 0,027 0,026 0,022 0,024 0,049 1775 - 0,020 0,016 0,014 0,021 0,015 0,021 0,027 0,022 0,024 0,046 1825 - 0,020 0,016 0,013 0,019 0,016 0,021 0,031 0,023 0,025 0,042 1875 - 0,021 0,016 0,013 0,019 0,017 0,023 0,028 0,022 0,024 0,037 1925 - 0,020 0,015 0,014 0,018 0,018 0,022 0,029 0,023 0,024 0,033 1975 - 0,020 0,016 0,016 0,017 0,019 0,023 0,030 0,025 0,024 0,029TPS_GCN_F_09.20E– Rev. 1 2012-10-29Higher frequencies – SUN2000-36KTLActivepowerP/Pn[%]0 10 20 30 40 50 60 70 80 90 100Frequency[kHz]I [%] I [%] I [%] I [%] I [%] I [%] I [%] I [%] I [%] I [%] I [%]2.1 - 0,064 0,043 0,056 0,058 0,063 0,079 0,089 0,095 0,092 0,1062.3 - 0,066 0,047 0,055 0,050 0,046 0,056 0,063 0,073 0,088 0,0742.5 - 0,070 0,047 0,055 0,047 0,044 0,054 0,059 0,062 0,072 0,0742.7 - 0,084 0,058 0,066 0,053 0,049 0,060 0,075 0,073 0,072 0,0832.9 - 0,067 0,041 0,047 0,041 0,037 0,046 0,050 0,053 0,065 0,0643.1 - 0,059 0,040 0,050 0,040 0,033 0,037 0,043 0,050 0,060 0,0503.3 - 0,052 0,037 0,050 0,040 0,032 0,035 0,043 0,050 0,055 0,0563.5 - 0,045 0,037 0,038 0,037 0,031 0,035 0,040 0,036 0,041 0,0523.7 - 0,041 0,037 0,038 0,035 0,029 0,035 0,034 0,033 0,043 0,0503.9 - 0,030 0,041 0,035 0,030 0,030 0,031 0,037 0,044 0,041 0,0424.1 - 0,029 0,035 0,033 0,031 0,031 0,038 0,040 0,029 0,031 0,0334.3 - 0,025 0,027 0,032 0,032 0,026 0,028 0,028 0,028 0,029 0,0294.5 - 0,025 0,027 0,028 0,027 0,025 0,027 0,027 0,026 0,028 0,0294.7 - 0,024 0,025 0,025 0,026 0,025 0,025 0,026 0,026 0,027 0,0274.9 - 0,024 0,025 0,025 0,026 0,025 0,025 0,025 0,025 0,026 0,0275.1 - 0,024 0,024 0,024 0,026 0,025 0,026 0,027 0,028 0,029 0,0305.3 - 0,024 0,024 0,024 0,025 0,024 0,025 0,025 0,025 0,026 0,0285.5 - 0,024 0,024 0,024 0,025 0,024 0,025 0,025 0,025 0,025 0,0255.7 - 0,024 0,024 0,024 0,025 0,025 0,026 0,026 0,026 0,027 0,0285.9 - 0,024 0,024 0,024 0,024 0,024 0,025 0,024 0,025 0,025 0,0256.1 - 0,024 0,024 0,024 0,024 0,025 0,025 0,025 0,025 0,025 0,0256.3 - 0,024 0,024 0,025 0,025 0,026 0,025 0,025 0,025 0,026 0,0266.5 - 0,024 0,024 0,025 0,025 0,026 0,025 0,026 0,026 0,026 0,0266.7 - 0,024 0,024 0,024 0,024 0,025 0,025 0,025 0,025 0,025 0,0256.9 - 0,024 0,024 0,024 0,024 0,025 0,025 0,025 0,024 0,025 0,0257.1 - 0,024 0,024 0,025 0,025 0,025 0,025 0,025 0,025 0,025 0,0257.3 - 0,024 0,024 0,025 0,025 0,025 0,025 0,025 0,025 0,025 0,0257.5 - 0,024 0,024 0,024 0,024 0,024 0,025 0,024 0,024 0,024 0,0247.7 - 0,024 0,024 0,024 0,024 0,024 0,025 0,024 0,024 0,024 0,0247.9 - 0,024 0,024 0,024 0,024 0,024 0,024 0,024 0,024 0,024 0,0248.1 - 0,024 0,024 0,024 0,024 0,024 0,025 0,024 0,024 0,024 0,0248.3 - 0,024 0,024 0,024 0,024 0,024 0,024 0,024 0,024 0,024 0,0248.5 - 0,024 0,024 0,024 0,024 0,024 0,024 0,024 0,024 0,024 0,0248.7 - 0,024 0,024 0,024 0,024 0,025 0,024 0,025 0,024 0,025 0,0258.9 - 0,024 0,024 0,024 0,024 0,025 0,024 0,025 0,025 0,025 0,025 Remark:The harmonic values are maximum values from all phases.TPS_GCN_F_09.20E– Rev. 1 2012-10-29 Harmonics – SUN2000-33KTL-AActivepowerP/Pn[%]0 10 20 30 40 50 60 70 80 90 100OrdinalnumberI [%] I [%] I [%] I [%] I [%] I [%] I [%] I [%] I [%] I [%] I [%]2 - 0,141 0,116 0,118 0,105 0,111 0,115 0,121 0,113 0,113 0,1373 - 0,183 0,193 0,227 0,207 0,193 0,195 0,188 0,196 0,203 0,2014 - 0,159 0,122 0,144 0,134 0,120 0,119 0,116 0,118 0,119 0,1225 - 0,789 0,973 0,563 0,435 0,418 0,471 0,502 0,553 0,593 0,6176 - 0,044 0,033 0,043 0,089 0,031 0,032 0,029 0,030 0,029 0,0317 - 0,409 0,903 0,805 0,713 0,548 0,439 0,351 0,314 0,297 0,3098 - 0,076 0,078 0,083 0,112 0,115 0,094 0,095 0,099 0,102 0,1419 - 0,051 0,056 0,084 0,092 0,102 0,099 0,063 0,062 0,059 0,08910 - 0,080 0,098 0,103 0,111 0,127 0,141 0,103 0,102 0,100 0,14111 - 0,428 0,219 0,111 0,381 0,512 0,569 0,593 0,594 0,618 0,61212 - 0,022 0,024 0,023 0,036 0,026 0,083 0,035 0,041 0,036 0,08913 - 0,308 0,223 0,106 0,270 0,402 0,465 0,510 0,522 0,553 0,55514 - 0,039 0,044 0,043 0,053 0,053 0,051 0,056 0,064 0,062 0,06515 - 0,031 0,041 0,036 0,047 0,047 0,046 0,051 0,054 0,054 0,05616 - 0,048 0,052 0,049 0,050 0,065 0,058 0,058 0,059 0,059 0,06917 - 0,149 0,156 0,130 0,104 0,246 0,334 0,379 0,403 0,417 0,42318 - 0,023 0,026 0,028 0,024 0,042 0,026 0,028 0,031 0,030 0,05219 - 0,137 0,117 0,158 0,169 0,200 0,311 0,394 0,462 0,512 0,55220 - 0,028 0,027 0,028 0,032 0,039 0,037 0,033 0,036 0,036 0,05521 - 0,039 0,038 0,044 0,036 0,035 0,058 0,051 0,053 0,050 0,05922 - 0,029 0,021 0,024 0,030 0,025 0,042 0,041 0,031 0,033 0,07923 - 0,100 0,054 0,078 0,080 0,072 0,141 0,185 0,209 0,230 0,23224 - 0,016 0,017 0,018 0,023 0,024 0,028 0,044 0,121 0,047 0,06725 - 0,074 0,086 0,078 0,195 0,149 0,181 0,257 0,323 0,379 0,41526 - 0,022 0,021 0,022 0,021 0,029 0,032 0,036 0,119 0,050 0,03927 - 0,034 0,035 0,037 0,034 0,030 0,041 0,052 0,073 0,072 0,05528 - 0,022 0,021 0,022 0,021 0,022 0,030 0,025 0,026 0,027 0,03429 - 0,124 0,124 0,088 0,048 0,051 0,061 0,101 0,137 0,162 0,17330 - 0,012 0,013 0,014 0,015 0,016 0,016 0,017 0,019 0,020 0,02231 - 0,116 0,150 0,135 0,126 0,142 0,111 0,140 0,194 0,240 0,27732 - 0,020 0,018 0,022 0,018 0,022 0,023 0,022 0,023 0,025 0,02733 - 0,030 0,031 0,029 0,030 0,025 0,030 0,034 0,037 0,037 0,04034 - 0,019 0,019 0,022 0,022 0,019 0,021 0,023 0,025 0,025 0,02735 - 0,080 0,072 0,067 0,038 0,055 0,036 0,058 0,096 0,133 0,16236 - 0,011 0,020 0,020 0,014 0,015 0,015 0,019 0,018 0,020 0,02237 - 0,130 0,105 0,111 0,094 0,138 0,119 0,106 0,134 0,170 0,20538 - 0,021 0,024 0,026 0,022 0,023 0,025 0,026 0,026 0,028 0,02939 - 0,026 0,025 0,028 0,024 0,030 0,029 0,026 0,029 0,030 0,03340 - 0,019 0,025 0,026 0,023 0,022 0,022 0,025 0,027 0,028 0,029TPS_GCN_F_09.20E– Rev. 1 2012-10-29 Subharmonics – SUN2000-33KTL-AActivepowerP/Pn[%]0 10 20 30 40 50 60 70 80 90 100Frequency[Hz]I [%] I [%] I [%] I [%] I [%] I [%] I [%] I [%] I [%] I [%] I [%]75 - 0,208 0,145 0,113 0,059 0,056 0,055 0,058 0,056 0,056 0,054125 - 0,067 0,226 0,146 0,048 0,047 0,046 0,045 0,046 0,045 0,044 175 - 0,191 0,126 0,117 0,079 0,046 0,046 0,045 0,046 0,045 0,045 225 - 0,093 0,069 0,115 0,095 0,054 0,054 0,054 0,055 0,053 0,054 275 - 0,071 0,048 0,084 0,135 0,047 0,049 0,047 0,049 0,047 0,048 325 - 0,073 0,041 0,063 0,123 0,082 0,042 0,043 0,043 0,041 0,045 375 - 0,050 0,043 0,064 0,105 0,109 0,046 0,050 0,054 0,051 0,120 425 - 0,047 0,045 0,058 0,096 0,172 0,069 0,050 0,051 0,050 0,139 475 - 0,044 0,041 0,054 0,057 0,110 0,124 0,046 0,047 0,047 0,152 525 - 0,036 0,034 0,037 0,060 0,124 0,141 0,113 0,048 0,064 0,222 575 - 0,037 0,040 0,041 0,064 0,044 0,125 0,184 0,293 0,235 0,102 625 - 0,036 0,039 0,040 0,067 0,042 0,121 0,117 0,057 0,071 0,221 675 - 0,035 0,036 0,037 0,067 0,040 0,041 0,179 0,289 0,230 0,050 725 - 0,029 0,033 0,033 0,050 0,051 0,036 0,038 0,045 0,043 0,043 775 - 0,031 0,032 0,033 0,051 0,048 0,037 0,038 0,042 0,041 0,057 825 - 0,028 0,029 0,030 0,031 0,064 0,035 0,039 0,040 0,041 0,061 875 - 0,025 0,056 0,043 0,030 0,061 0,034 0,039 0,042 0,042 0,075 925 - 0,038 0,030 0,038 0,031 0,058 0,047 0,036 0,038 0,038 0,078 975 - 0,033 0,055 0,046 0,031 0,046 0,048 0,036 0,037 0,037 0,075 1025 - 0,039 0,028 0,038 0,037 0,044 0,063 0,035 0,037 0,038 0,060 1075 - 0,031 0,025 0,031 0,037 0,027 0,076 0,031 0,032 0,033 0,068 1125 - 0,026 0,027 0,029 0,041 0,039 0,051 0,057 0,037 0,050 0,082 1175 - 0,022 0,025 0,026 0,033 0,037 0,059 0,088 0,046 0,106 0,068 1225 - 0,029 0,031 0,031 0,037 0,046 0,041 0,061 0,057 0,056 0,067 1275 - 0,027 0,029 0,031 0,030 0,041 0,048 0,088 0,052 0,108 0,064 1325 - 0,030 0,031 0,033 0,032 0,041 0,041 0,060 0,057 0,052 0,082 1375 - 0,024 0,026 0,029 0,028 0,031 0,044 0,034 0,038 0,039 0,058 1425 - 0,023 0,025 0,028 0,027 0,031 0,032 0,054 0,037 0,045 0,078 1475 - 0,019 0,021 0,021 0,022 0,024 0,025 0,027 0,031 0,032 0,034 1525 - 0,021 0,023 0,024 0,024 0,026 0,029 0,030 0,031 0,034 0,037 1575 - 0,018 0,019 0,021 0,020 0,023 0,025 0,026 0,028 0,030 0,032 1625 - 0,019 0,021 0,022 0,022 0,024 0,027 0,027 0,029 0,031 0,035 1675 - 0,018 0,020 0,021 0,021 0,022 0,026 0,026 0,027 0,028 0,036 1725 - 0,018 0,019 0,021 0,021 0,023 0,025 0,027 0,027 0,030 0,034 1775 - 0,017 0,027 0,022 0,022 0,023 0,024 0,029 0,028 0,032 0,036 1825 - 0,017 0,027 0,026 0,021 0,023 0,023 0,029 0,037 0,034 0,031 1875 - 0,023 0,026 0,026 0,023 0,025 0,025 0,029 0,029 0,033 0,034 1925 - 0,021 0,024 0,027 0,021 0,022 0,023 0,027 0,036 0,032 0,031 1975 - 0,025 0,021 0,028 0,024 0,025 0,027 0,028 0,030 0,032 0,035TPS_GCN_F_09.20E– Rev. 1 2012-10-29Higher frequencies – SUN2000-33KTL-AActivepowerP/Pn[%]0 10 20 30 40 50 60 70 80 90 100Frequency[kHz]I [%] I [%] I [%] I [%] I [%] I [%] I [%] I [%] I [%] I [%] I [%]2,1 - 0,125 0,183 0,148 0,150 0,168 0,164 0,147 0,167 0,204 0,240 2,3 - 0,106 0,120 0,125 0,121 0,131 0,130 0,116 0,121 0,137 0,155 2,5 - 0,067 0,090 0,116 0,135 0,147 0,175 0,169 0,164 0,168 0,174 2,7 - 0,101 0,124 0,125 0,146 0,166 0,199 0,197 0,179 0,177 0,197 2,9 - 0,079 0,068 0,085 0,109 0,136 0,158 0,185 0,182 0,170 0,153 3,1 - 0,059 0,067 0,071 0,064 0,066 0,073 0,091 0,107 0,115 0,120 3,3 - 0,064 0,083 0,082 0,101 0,111 0,123 0,143 0,167 0,174 0,168 3,5 - 0,051 0,070 0,079 0,074 0,084 0,097 0,107 0,129 0,150 0,161 3,7 - 0,046 0,070 0,075 0,075 0,071 0,070 0,073 0,076 0,077 0,086 3,9 - 0,043 0,054 0,059 0,066 0,079 0,079 0,084 0,093 0,114 0,133 4,1 - 0,039 0,045 0,050 0,049 0,054 0,057 0,062 0,066 0,071 0,088 4,3 - 0,037 0,039 0,041 0,042 0,048 0,049 0,048 0,049 0,057 0,068 4,5 - 0,036 0,041 0,044 0,039 0,044 0,048 0,050 0,051 0,050 0,054 4,7 - 0,034 0,035 0,036 0,035 0,038 0,039 0,041 0,044 0,044 0,045 4,9 - 0,034 0,036 0,037 0,035 0,036 0,038 0,038 0,040 0,040 0,040 5,1 - 0,034 0,036 0,037 0,035 0,035 0,036 0,037 0,040 0,041 0,041 5,3 - 0,033 0,034 0,034 0,034 0,033 0,035 0,034 0,035 0,036 0,036 5,5 - 0,033 0,034 0,034 0,034 0,034 0,035 0,034 0,035 0,036 0,037 5,7 - 0,033 0,033 0,034 0,035 0,036 0,035 0,034 0,035 0,036 0,036 5,9 - 0,033 0,033 0,033 0,033 0,033 0,033 0,033 0,033 0,034 0,034 6,1 - 0,032 0,033 0,033 0,033 0,033 0,034 0,033 0,033 0,034 0,034 6,3 - 0,033 0,033 0,033 0,033 0,033 0,034 0,034 0,034 0,035 0,035 6,5 - 0,033 0,034 0,035 0,035 0,035 0,035 0,036 0,035 0,036 0,036 6,7 - 0,032 0,032 0,032 0,032 0,033 0,034 0,034 0,033 0,033 0,034 6,9 - 0,032 0,032 0,032 0,032 0,033 0,033 0,033 0,033 0,033 0,033 7,1 - 0,033 0,033 0,033 0,033 0,033 0,034 0,034 0,034 0,034 0,034 7,3 - 0,033 0,033 0,033 0,033 0,033 0,033 0,033 0,034 0,033 0,033 7,5 - 0,032 0,032 0,032 0,032 0,032 0,033 0,033 0,033 0,033 0,033 7,7 - 0,032 0,032 0,032 0,032 0,032 0,032 0,033 0,033 0,033 0,033 7,9 - 0,032 0,032 0,032 0,032 0,033 0,033 0,033 0,033 0,033 0,032 8,1 - 0,032 0,032 0,032 0,032 0,032 0,032 0,033 0,033 0,033 0,033 8,3 - 0,032 0,032 0,032 0,032 0,032 0,032 0,033 0,032 0,033 0,032 8,5 - 0,032 0,032 0,032 0,032 0,032 0,032 0,033 0,032 0,033 0,032 8,7 - 0,032 0,032 0,033 0,032 0,032 0,032 0,033 0,033 0,033 0,033 8,9 - 0,032 0,032 0,032 0,032 0,032 0,032 0,033 0,033 0,033 0,033 Remark:The harmonic values are maximum values from all phases.。

美国MOTOROLA压力传感器美国MOTOROLA公司的MPX系列硅压力传感器，主要以气压测量为主，适合用于医疗器械，气体压力控制等领域，输出数字信号。

其测量方式可分为：表压（GP）、绝压（A、AP）、差压（D、DP）型。

在宽温度范围工作时需外加补偿网络和信号调整电路。

具体型号分类而定名称：MPX2010DP 名称：MPX5700DP MPX5700GP 名称：MPX2100AP名称：MPX5500DP 名称：MPX5100AP 名称：MPX5050DP名称：MPX5010DP 名称：MPX4115AP 名称：MPX2200A 名称：MPX2200AP 名称：MPXH6115A6U 名称：MPX4250DP名称：MPX4115A 名称：MPX2202DP 名称：MPX2102AP名称：MPX2053GP 名称：MPXY8300A6U 压力传感器 名称：触力型压力传感器 FSG15N1A 名称：硅压力传感器 MPXH6115A 名称：MPX5700DP 硅压力传感器 名称：MPX53GP 硅压力传感器 名称：压力传感器FPM07 名称：轮胎压力传感器TP015 名称：轮胎压力传感器NPP301名称：Freescale 压力传感器 MPX2010DP商斯达实业传感器与智能控制分公司专门从事各种进口传感器的营销工作，代理多家欧美知名公司的产品。

涉及压力、温度、湿度、电流、液位、磁阻、霍尔、流量、称重、光纤、倾角、扭矩、气体、光电、位移、触力、红外、速度、加速度等多种产品。

广泛应用于航空航天、医疗器械（如血压计）、工业控制、冶金化工、汽车制造、教育科研等领域。

商斯达实业代理的品牌产品主要有：压 力：Kulite、ACSI、Honeywell、Entran、Gems、Dwyer、SSI、Smi、Senstronics、Intersema、Motorola、 NAIS、E+H、Fujikura、Dytran、APM称重测力：Transcell、HBM、Interface、Thamesside、Philips、Entran 温 湿 度：Honeywell、Dwyer流 量：Gems、Dwyer、Honeywell、Folwline、WorldMagnetics 液 位：Honeywell、Siccom、Gems、Dwyer、Kulite、SSI 加 速 度：Entran、Silicondesigns、Dytran 压力开关：ACSI、Gems、Dwyer、台湾矽微航空器材：TexTech 隔音材料、Honeywell 薄膜加热片、DigirayX 射线探伤仪 仪 表：Honeywell、Transcell、东辉、上润、AD、东崎商斯达实业 除代理上述产品外，还有几条传感器生产线，一条压力传感器组装线，可为用户提供各种用途的、特殊要求的配套产品。

目录目录第一章 安全信息◎仪表安全标准…………………………………………………………………………………………………………….. ◎警告……………………………………………………………………………………………………………………….. ◎有限担保及其责任范围………………………………………………………………………………………………….. 第二章 仪表介绍◎特点……………………………………………………………………………………………………………………….. ◎前面板说明……………………………………………………………………………………………………………….. ◎后面板说明……………………………………………………………………………………………………………….. ◎功能描述………………………………………………………………………………………………………………….. 第三章 操作方法◎交流伏特/分贝测量...................................................................................................................... ◎直流伏特/直流伏特＋交流伏特测量................................................................................................. ◎直流毫伏/交流毫伏/直流毫伏＋交流毫伏测量.................................................................................... ◎逻辑频率/占空比测量................................................................................................................... ◎二极管测量................................................................................................................................ ◎电阻/通断测量............................................................................................................................ ◎电容测量................................................................................................................................... ◎直流微安/交流微安/直流微安＋交流微安测量.. (I)1 123 8 10 13 14 15 16 17 18 19 204目录◎直流毫安/交流毫安/直流毫安＋交流毫安测量………………………………………………………………………… ◎直流安培/交流安培/直流安培＋交流安培测量………………………………………………………………………… ◎线性频率测量………….…………………………………………………………………………………………..…….. ◎相对值测量………………………………………………………………………………………………………..……… ◎最大值/最小值/最大值 － 最小值测量…………………………………………………………………..……………. ◎数据保持…………………………………………………………………………………………………………..……… ◎数据存储与回放………………………………………………………………………………………………….……… ◎与计算机RS －232C 口的连接………………………………………………………………….……………………… 第四章 技术指标◎一般特性…………………………………………………………………………………………………………..……… ◎量程和精度………………………………………………………………………………………………………………. 第五章 维护◎更换保险丝………………………………………………………………………………………………………………. ◎仪表校准………………………………………………………………………………………………….………………. ◎其它……………………………………………………………………………………………………….……..………..II21 22 24 26 31 32 32 23 24 24 24 25 27第一章安全信息第一章仪表安全标准这款数字多用表是根据国际电工安全标准IEC1010-1对电子测试仪器和手持式数字多用表的安全要求而设计制造的。

Drive Microcode Package for IBM Storwize V7000Ask the IBM Support Agent ToolDownloadable filesAbstractThis document contains details of the content of theIBM2072_DRIVE_20170901 Drive Microcode package and supporting documentation.Download DescriptionContents of Drive Microcode PackageNote:vendor_id IBM-207x is used on drives for IBM Storwize V7000 Gen1 (models 2076-112, 2076-124, 2076-312, 2076-324, 2076-212, 224)vendor_id IBM-D050 is used on drives for IBM Storwize V7000 Gen2 (models 2076-524, 2076-12F, 2076-24F)Level85Y5862v7.4.0.1 v6.3.0.04K BS** It is strongly recommended that customers with these drive model numbers (HUC106030CSS60, HUC106045CSS60, HUC106060CSS60) in their configuration, upgrade to this latest level of drive firmware.* If upgrading from 291E, please first upgrade to 2920 and then 2936. Please note: Ralston Peak 300 GB product_id=HUSML4030ASS60 is immune from this problem.2920 can be found on Fix Central in thispackage: StorageDisk-2076-DriveMicrocode-20121210Important Information:Drive Firmware upgrades are not supported on SAN Volume Controller or Storwize V7000 systems running V6.1 or V6.2. Please refer to the following Flash for more information.Drive Firmware Upgrades May Result in Temporary Loss of Host Access to Volumes on SAN Volume Controller and Storwize V7000Please refer to the svctask applydrivesoftware CLI command help in the IBM Storwize V7000 Information Center for installation instructions regarding this Drive Microcode Package.To check that your drive firmware is up to date download and run the Software Upgrade Test UtilityKeep Informed of UpdatesKeep up to date with the latest V7000 information by subscribing toreceive support notifications.Legal AgreementTHE FOLLOWING DOWNLOADS CONTAIN UPDATES AND FIXES TO CODE THAT WAS ORIGINALLY PROVIDED WITH THE IBM STORWIZEV7000 SOLUTION, INCLUDING THE IBM STORWIZE V7000 SOFTWARE. THE UPDATED CODE IS SUBJECT TO THE TERMS AND CONDITIONS OF THE LICENSE AGREEMENTS APPLICABLE TO THE CODE THAT IT UPDATES INCLUDING, AS APPROPRIATE, THE IBM AGREEMENT FOR MACHINE CODE AND IBM INTERNATIONAL PROGRAM LICENSE AGREEMENT. BY DOWNLOADING THE FOLLOWING FILES, YOU ARE AGREEING TO TREAT THE UPDATED CODE IN ACCORDANCE WITH THE APPLICABLE LICENSE AGREEMENTS.Download packageDESCRIPTION DOCUMENTATION LABEL DownloadOptionsPlatform IBMStorwize V7000Version IndependentEnglishByte Size 96217827Date 02 Sep 2017DriveMicrocodePackageHTTP。

MDS100分子檢測系統使用手冊目錄 (1)使用本手冊 (3)指定用途 (3)使用者責任 (4)安全資訊 (4)重要資訊閱讀 ...........................................................4儀器規格 .. (6)電力規格 (6)操作環境條件 (6)儀器規格 (6)規範訊息 (7)安全標準 (7)EMC 標準 (7)歐盟指令 (7)機構批准標誌 (7)FCC 訊息 (7)安裝 3M 分子檢測系統 ....................................................7包裝箱內物品目錄...................................................7最低電腦要求 ...........................................................8打開設備包裝並安裝 ..............................................8安裝軟體 ..................................................................10執行 3M 分子檢測系統 ..................................................18登入 ...........................................................................18使用起始頁面 .........................................................19使用摺疊邊框 .........................................................19使用選單欄..............................................................20使用狀態欄..............................................................21關閉軟體 ..................................................................21登出 ...........................................................................21監控設備狀態 .........................................................21設定管理資訊 (24)使用者 ......................................................................24新增使用者..............................................................24刪除使用者..............................................................25隱藏使用者.. (25)變更密碼 (25)檢視使用者 (25)設備 ...........................................................................26新增設備 (26)具名設備 (27)隱藏設備 (27)變更設備的順序 (27)刪除設備 (27)檢視設備 (28)配置欄位 (28)樣本 (30)新增樣本 (31)修改樣本 (31)刪除樣本 ..................................................................31隱藏樣本 ..................................................................31匯入樣品 ..................................................................32匯出樣品 ..................................................................34分析套件 (34)添加分析套件 .........................................................34刪除套組套件 .........................................................35隱藏套組套件 .........................................................35目錄3發佈日期︰2011-11分子檢測系統使用手冊MDS100執行 (36)設定新的檢測 (36)啟動執行 (40)匯入新執行 (40)匯出執行定義 (41)按套組類型顯示執行 (41)將執行另存為模板 (42)從模板設定新執行 (42)檢視執行結果 (44)匯出執行結果 (47)生成執行報告 (48)執行配置報告 (48)執行報告 (48)儀器溫度日誌 (48)打開已儲存執行 (48)刪除執行 (49)生成管理報告 (51)生成搜尋結果報告 (51)生成樣本報告 (52)生成套組套件報告 (53)生成已完成執行的報告 (54)生成審核記錄報告 (55)生成使用者報告 (56)生成設備自檢結果報告 (56)生成設備溫度記錄報告 (57)術語和定義 (58)管理員任務 (59)備份資料庫 (59)從備份還原資料庫 (63)解除安裝軟體 (66)「所有程式」選單 (66)移除 (66)控制台 (66)檢測3M分子檢測儀器自檢 (67)開始之前 (67)啟動自檢 (68)檢視錯誤記錄檔案 (68)升級軟體在Windows XP (68)在Windows 7/Vista中升級韌體。

Single / Dual / Triple Outputs Universal 85VAC to 265VAC Input 3.3VDC to 24VDC Outputs 4,000VAC Input to Output Isolation PCB and Chassis Mount Packages Full Safety ApprovalsModel Number Output VoltageOutput Amps Output WattsSINGLE OUTPUT - PCB MountMSMA-5000 3.3 VDC 1.25 4W MSMA-5001 5 VDC 1 5W MSMA-5002 12 VDC 0.42 5W MSMA-5003 15 VDC 0.33 5W MSMA-5005 24 VDC 0.23 5W SINGLE OUTPUT - Chassis Mount MSMC-5000 3.3 VDC 1.25 4W MSMC-5001 5 VDC 1 5W MSMC-5002 12 VDC 0.42 5W MSMC-5003 15 VDC 0.33 5W MSMC-5005 24 VDC 0.23 5W SINGLE OUTPUT - DIN Rail Mount MSMC-5000/DRL 3.3 VDC 1.25 4W MSMC-5001/DRL 5 VDC 1 5W MSMC-5002/DRL 12 VDC 0.42 5W MSMC-5003/DRL 15 VDC 0.33 5W MSMC-5005/DRL 24 VDC0.235WPCB 2.28”L x 1.77”W x 0.83”HChassis 3.77”L x 2.16”W x 1.0”HFully ApprovedUL/CSA22.2 2601 File# E167432EN60601-1 File# B021*********Single / Dual / Triple Outputs Universal 85VAC to 265VAC Input 3.3VDC to 24VDC Outputs 4,000VAC Input to Output Isolation PCB and Chassis Mount Packages Full Safety ApprovalsModel Number Output Voltage Output Amps Output WattsDUAL OUTPUT - PCB Mount MDMA-5006 +/-12 VDC +/-0.21 5W MDMA-5007 +/-15 VDC +/-0.17 5W DUAL OUTPUT - Chassis MountMDMC-5006 +/-12 VDC +/-0.21 5W MDMC-5007 +/-15 VDC +/-0.175W DUAL OUTPUT - DIN Rail MountMDMC-5006/DRL +/-12 VDC +/-0.21 5W MDMC-5007/DRL +/-15 VDC +/-0.17 5W TRIPLE OUTPUT - PCB Mount MTMA-5009 +5,+/-12 VDC 0.6,0.1/0.1 5W MTMA-5011 +5,+/-15 VDC 0.45,0.1/0.1 5W TRIPLE OUTPUT - Chassis MountMTMC-5009 +5,+/-12 VDC 0.6,0.1/0.1 5W MTMC-5011 +5,+/-15 VDC 0.45,0.1/0.1 5W TRIPLE OUTPUT - DIN Rail MountMTMC-5009/DRL +5,+/-12 VDC 0.6,0.1/0.1 5W MTMC-5011/DRL +5,+/-15 VDC0.45,0.1/0.15WPCB 2.28”L x 1.77”W x 0.83”HChassis 3.77”L x 2.16”W x 1.0”HFully ApprovedUL/CSA22.2 2601 File# E167432EN60601-1 File# B021********** These are stress ratings. Exposure of the devices to any of these conditionsmay adversely affect long term reliability. Proper operation under conditions other than the standard operating conditions is neither warranteed nor implied.All specifications are typical at nominal input, full load, and 25DegC unless otherwise notedAstrodyne products are not authorized or warranteed for use as critical components in life support systems, equipment used in hazardous environments, nuclear controls systems, or other mission-critical applications.INPUT SPECIFICATIONSInput Voltage, Nominal 85-265VACNominal: 100-240VAC Input Frequency 47-440 Hz, 50-60Hz Nom. Inrush Current 20A @ 100VAC, typ40A @ 200VAC, typOUTPUT SPECIFICATIONSOutput Voltage/Current See Specific Model Initial Accuracy +/-1%, adjustable Voltage Adjust +/-6%, typ Load Regulation +/-0.3%, typ Line Regulation+/-0.3%, typ Temperature Coefficient +/-0.03%/°CRipple/Noise(20Mhz BW) 150mV Pk-Pk, typ Overvoltage Protection Clamp, 130-150% * Hold Up Time30mS, typShort Circuit Protection Continuous, self-recovering * Current Limit130% typ,Self-Reset FoldbackGENERAL SPECIFICATIONSOn/Off Control Open Collector Logic “1”/Open=ONLogic “0”/GND=OFF Input-Out Isolation4000VAC Output-Ground Isolation 1000VAC Input-Ground Isolation 2500VAC Operating Frequency 140 Khz, fixed Efficiency (@ Full Load)75 - 80%, typENVIRONMENTAL SPECIFICATIONSOper. Temperature 0 to +50°C FL See Derate *(Free-air Convection) Relative Humidity 0-95%, Non-Condensing Storage Temperature -25 to +71°C *MTBF, Single/Multi Output 180,000Hrs/110,000 HrsMil Std 217, 25°CPHYSICAL SPECIFICATIONSCase Material Rynite, 94V-0 RatedConstruction Encapsulated, Soft Pot Weight PCB / CHA4 oz (112g) / 8.5 oz (238g)MECHANICAL DIMENSIONS - PCB MOUNTModelType / Pin# Single Dual Triple1 AC HI AC HI AC HI2 AC LO AC LO AC LO3 GND GND GND4 No Pin No Pin +Vout5 No Pin No Pin Out Com6 +Vout +Vout No Pin7 No Pin No Pin -Vout8 No Pin Out Com +5Vout 9 -Vout -Vout 5V Ret 10CtrlCtrl CtrlPERFORMANCE CURVES100907050403020108060010203040506070-10O u t p u t C u r r e n t , %Ambient Temp., DegC90605080704025507510010T y p i c a l E f f i c i e n c y, %% of Full Load1.85 [47.00]MECHANICAL DIMENSIONS - CHASSIS MOUNT.(2 PLACES)Model Match Unmatch TripleType / Pin# Single Dual Dual 1 AC LO AC LO AC LO AC LO 2 GND GND GND GND 3 AC HI AC HI AC HI AC HI 4 Ctrl Ctrl Ctrl Ctrl 5 -Vout -Vout Com +5 Ret 6 -Vout Com Com +5Vout 7 +Vout Com +5Vout -Vout 8 +Vout +Vout +12Vout +/- Com 9N/CN/CN/C+VoutDIN Rail mounting kit available for Chassis-mount modules, specify part #M-DRL-01. Kit includes mounting plate, DIN Rail cliip and assembly hardware.0.100 [2.54]MECHANICAL DIMENSIONS - DIN RAIL。

MSM (Military M83401)Vishay DaleThick Film Resistor Networks Military, MIL-PRF-83401 Qualified,Type RZ, Single-In-Line, Molded SIP; 01, 03, 05 Schematics For technical questions, contact: ff2aresistors@Document Number: 31514FEATURES•MIL-PRF-83401 qualified•0.195" [4.95 mm] “A” and 0.350" [8.89 mm] “C” maximum seated heights•Thick film resistive elements•TCR available in “K” (± 100 ppm/°C) or “M” (± 300 ppm/°C)characteristic•All device leads are hot-solder dipped •Rugged molded case construction•Compatible with automatic insertion equipment•100 % screen tested per Group A, Subgroup 1 of MIL-PRF-83401•All devices are capable of passing the MIL-STD-202, Method 210, Condition D “Resistance to Soldering Heat” test •Available in tube pack(1)± 1 % and ± 5 % available(2)K = ± 100 ppm/°C; M = ± 300 ppm/°CSTANDARD ELECTRICAL SPECIFICATIONSVISHAY DALE MODEL/ PIN NO/PROFILE SCHEMATIC RESISTOR POWER RATING MAX. at 70 °C W PACKAGE POWER RATING MAX. at 70 °C WRESISTANCE RANGE ΩSTANDARD TOLERANCE (1)%TEMPERATURE COEFFICIENT (2)(- 55 °C to + 125 °C)WEIGHT g MSM06A MSM08A MSM10A 0101010.120.12 0.120.600.841.0810 - 1M ± 2K, M 0.40.50.6MSM06A MSM08A MSM10A 0303030.12 0.120.120.360.480.6010 - 1M ± 2K, M 0.40.50.6MSM06A MSM08A MSM10A 0505050.07 0.07 0.070.600.841.08 Consult factory ± 2K, M 0.40.50.6MSM06C MSM08C MSM10C 0101010.20 0.200.20 1.001.401.8010 - 1M ± 2K, M 0.70.91.1MSM06C MSM08C MSM10C 0303030.200.20 0.20 0.600.801.0010 - 1M ± 2K, M 0.70.91.1MSM06C MSM08C MSM10C 0505050.110.11 0.110.881.321.80Consult factory ± 2K, M 0.70.91.1Document Number: 31514For technical questions, contact: ff2aresistors@MSM (Military M83401)Thick Film Resistor Networks Military, MIL-PRF-83401 Qualified, T ype RZ, Single-In-Line, Molded SIP; 01, 03, 05 SchematicsVishay DaleDIMENSIONSin inches [millimeters]TECHNICAL SPECIFICATIONSPARAMETERUNIT MSM SERIESMaximum Operating Voltage V DC 50Voltage Coefficient of Resistance V eff < 50 ppm Dielectric Strength V AC 200 min.Insulation Resistance Ω10 000 M Operating T emperature Range °C - 55 to + 125Storage Temperature Range°C- 55 to + 150MECHANICAL SPECIFICATIONSBody:Molded epoxyT erminals: Copper alloy, hot-solder dippedSolderability: Per MIL-PRF-83401CAGE CODE: 91637 and SH903MILITARY IMPEDANCE CODESCODE R 1 (Ω) R 2 (Ω)CODE R 1 (Ω) R 2 (Ω)A00182130A010330470A002120200A011330680A003130210A012 1.5K 3.3K A004160260A0133K 6.2K A005180240A014180270A006180390A015270270A007220270A016560560A008220330A017560 1.2K A009330390A0186202.7KMSM (Military M83401)Vishay DaleThick Film Resistor Networks Military, MIL-PRF-83401 Qualified, T ype RZ, Single-In-Line, Molded SIP; 01, 03, 05 Schematics For technical questions, contact: ff2aresistors@Document Number: 31514DERATING 01 SchematicDocument Number: 31514For technical questions, contact: ff2aresistors@MSM (Military M83401)Thick Film Resistor Networks Military, MIL-PRF-83401 Qualified, T ype RZ, Single-In-Line, Molded SIP; 01, 03, 05 SchematicsVishay DalePERFORMANCETESTCONDITIONSMAX. ΔR (Typical Test Lots)Power Conditioning 1.5 x rated power, applied 1.5 h “ON” and 0.5 h “OFF” for 100 h ± 4 h at + 25 °C ambient temperature ± 0.50 % ΔR Thermal Shock 5 cycles between - 65 °C and + 125 °C ± 0.50 % ΔRShort Time Overload 2.5 x rated working voltage for 5 s± 0.25 % ΔR (Characteristic K) ± 0.50 % ΔR (Characteristic M)Low Temperature Operation 45 min at full rated working voltage at - 65 °C ± 0.25 % ΔR (Characteristic K) ± 0.50 % ΔR (Characteristic M)Moisture Resistance 240 h with humidity ranging from 80 % RH to 98 % RH± 0.50 % ΔR Resistance to Soldering Heat Leads immersed in + 260 °C solder to within 1/16" of body for 10 s ± 0.25 % ΔR Shock T otal of 18 shocks at 100 G's± 0.25 % ΔR Vibration 12 h at maximum of 20 G's between 10 and 2000 Hz ± 0.25 % ΔRLoad Life 1000 h at + 70 °C, rated power applied 1.5 h “ON”,0.5 h “OFF” for full 1000 h period ± 0.50 % ΔR (Characteristic K) ± 2.00 % ΔR (Characteristic M)T erminal Strength 4 1/2 pound pull for 30 s ± 0.25 % ΔRInsulation Resistance 10 000 M Ω (minimum)-Dielectric Withstanding No evidence of arcing or damage (200 V RMS for 1 min)-Disclaimer Legal Disclaimer NoticeVishayAll product specifications and data are subject to change without notice.Vishay Intertechnology, Inc., its affiliates, agents, and employees, and all persons acting on its or their behalf (collectively, “Vishay”), disclaim any and all liability for any errors, inaccuracies or incompleteness contained herein or in any other disclosure relating to any product.Vishay disclaims any and all liability arising out of the use or application of any product described herein or of any information provided herein to the maximum extent permitted by law. The product specifications do not expand or otherwise modify Vishay’s terms and conditions of purchase, including but not limited to the warranty expressed therein, which apply to these products.No license, express or implied, by estoppel or otherwise, to any intellectual property rights is granted by this document or by any conduct of Vishay.The products shown herein are not designed for use in medical, life-saving, or life-sustaining applications unless otherwise expressly indicated. Customers using or selling Vishay products not expressly indicated for use in such applications do so entirely at their own risk and agree to fully indemnify Vishay for any damages arising or resulting from such use or sale. Please contact authorized Vishay personnel to obtain written terms and conditions regarding products designed for such applications.Product names and markings noted herein may be trademarks of their respective owners.元器件交易网Document Number: 。

常用肖特基二极管参数型号制造商封装 If/A Vrrm/V 最大Vf/V1SS294 TOS SC-59 0.140 0.60BAT15-099 INF SOT143 0.11 40.32BAT54A PS SOT23 0.20 30 0.5010MQ060N IR SMA 0.7790 0.6510MQ100N IR SMA 0.77 100 0.9610BQ015 IR SMB 1.0015 0.34SS12 GS DO214 1.0020 0.50MBRS130LT3 ON - 1.0030 0.3910BQ040 IR SMB 1.0040 0.53RB060L-40 ROHM PMDS 1.00 40 0RB160L-40 ROHM PMDS 1.00 400.55SS14 GS DO214 1.0040 0.5MBRS140T3 ON - 1.0040 0.10BQ060 IR SMB 1.0060 0.57SS16 GS DO214 1.0060 0.7510BQ100 IR SMB 1.00 100 0.78MBRS1100T3 ON - 1.00 100 0.7510MQ040N IR SMA 1.10 40 0.5115MQ040N IR SMA 1.7040 0.55PBYR245CT PS SOT223 2.00 450.4530BQ015 IR SMC 3.0015 0.3530BQ040 IR SMC 3.0040 0.5130BQ060 IR SMC 3.0060 0.5830BQ100 IR SMC 3.00100 0.79STPS340U STM SOD6 3.00 4 0 0.84MBRS340T3 ON - 3.0040 0.52RB051L-40 ROHM PMDS 3.00 400.45MBRS360T3 ON - 3.0060 0.7030WQ04FN IR DPAK 3.30 40 0.6230WQ06FN IR DPAK 3.30 60 0.7030WQ10FN IR DPAK 3.30 100 0.9130WQ03FN IR DPAK 3.50 30 0.5250WQ03FN IR DPAK 5.50 30 0.5350WQ06FN IR DPAK 5.50 60 0.576CWQ06FN IR DPAK 6.60 60 0.586CWQ10FN IR DPAKpr 6.60 100 0.811N5817 ON 轴向 1.00 20 0.751N5818 ON 轴向 1.00 30 0.55SB130 GS 轴向 1.00 30 0.50 1N5819 ON 轴向 1.00 40 0.60 MBR150 ON 轴向 1.00 50 1.00 MBR160 ON 轴向 1.00 60 1.00 11DQ10 IR 轴向 1.10 100 0.8511DQ04 IR 轴向 1.10 40 0.55 11DQ05 IR 轴向 1.10 50 0.5811DQ06 IR 轴向 1.10 60 0.58MBRS340TR IR SMC 3.0040 0.431N5820 ON 轴向 3.00 20 0.851N5821 ON 轴向 3.00 30 0.381N5822 ON 轴向 3.00 40 0.52MBR360 ON 轴向 3.00 60 1.00SS32 GS DO214 3.0020 3.00SS34 GS DO214 3.0040 0.5031DQ10 IR DO201 3.30 100 0.85SB530 GS 轴向 5.00 30 0.57SB540 GS DO201 5.0040 0.5750SQ080 IR 轴向 5.00 80 0.6650SQ100 IR 轴向 5.00 100 0.66MBR735 GS TO220 7.50 35 0.84MBR745 GS TO220 7.50 45 0.84MBR745 IR TO220 7.50 45 0.8480SQ040 IR 轴向 8.00 40 0.53STQ080 IR TO220 8.0080 0.728TQ100 TO220 8.00 100 0.7280SQ040 IR 轴向 8.00 40 0.5380SQ035 IR DO204AR 8.00 3 5 0.53HFA16PA60C IR TO247CT 8.00 6001.7095SQ015 轴向 9.00 15 0.3190SQ040 轴向 9.00 40 0.4810TQ045 TO220 10.0045 0.57MBR1035 GS TO220 10.0035 0.84MBR1045 ON TO220 10.00STPS1045F ON ISO220 10.00 450.64MBR2060CT ON TO220 10.00 600.85MBR1060 ON TO220 10.0060 0.95PBYR10100 PS TO220 10.00 10 0 0.7010TQ040 IR TO220 10.0040 0.57MBR1045 IR TO220 10.0045 0.8410CTQ150-1 IR D2pak 10.00 15 0 0.7340L15CTS IR D2pak 10.0085CNQ015A IR D61 80.0015 0.32150K40A IR D08 150.00400 1.3312CTQ040 IR TO220 12.00 450.73MBR1545CT IR TO220pr 15.00 45 0.72MBR1660 GS TO220 16.0060 0.7516CTQ080 IR TO220pr 16.00 80 0.7216CTQ100 IR TO220pr 16.00 100 0.7216CTQ100-1 IR D2Pak 16.00 1000.7218TQ045 ON TO220 18.0045 0.60HFA16PB120 IR TO247 16.00 12003.00MBR1645 IR TO220AC 16.00 450.6319CTQ015 IR TO220 19.00 150.3620CTQ045 IR TO220pr 20.00 45 0.6420TQ045 IR TO220 20.0045 0.57MBR2045CT IR TO220pr 20.00 45 0.84MBR2090CT IR TO220pr 20.00 90 0.80MBR20100CT IR TO220pr 20.00 100 0.80MBR20100CT-1IR TO262 20.00 1000.80MBR2080CT IR TO220AB 20.00 800.85MBR2545CT IR TO220AB 30.00 450.82MBR3045WT IR TO247 30.00 4532CTQ030 IR TO220pr 30.00 30 0.4932CTQ303-1 IR D2Pak 30.00 300.4930CPQ060 IR TO220pr 30.00 60 0.6230CPQ080 IR TO247AC 30.00 800.8630CPQ100 IR TO247pr 30.00 100 0.8630CPQ150 IR TO247pr 30.00 150 1.0040CPQ040 IR TO247pr 40.00 40 0.4940CPQ045 IR TO247pr 40.00 45 0.4940CPQ050 IR TO247AA 40.00 500.5340CPQ100 IR TO247pr 40.00 100 0.7740L15CT IR TO220AB 40.00 150.5347CTQ020 IR TO220 40.00 200.3448CTQ060 IR TO220 40.00 600.5840L15CW IR TO247 40.0015 0.5242CTQ030 IR TO220 40.00 300.3840CTQ045 IR TO220 40.00 450.6840L45CW IR TO247 40.0045 0.7040CPQ060 ON TO247 40.00 600.68MBR4045WT IR TO247 40.00 450.59MBR4060WT IR TO247 40.00 600.7743CTQ100 IR TO220 40.00 10 0 0.9852CPQ030 IR TO247 50.0030 0.38MBR6045WT IR TO247pr 60.00 450.73STPS6045CPI ON TOP3I 60.00 450.8465PQ015 IR TO247 65.0015 0.5072CPQ030 IR TO247AC 70.00 300.5185CNQ015 IR D61 80.0015 0.3283CNQ100 IR D61 80.00100 0.6780CPQ020 IR TO247 80.0020 0.3282CNQ030A IR D61 80.0030 0.3782CNQ045A IR D61 80.0045 0.4783CNQ100A IR D61 80.00100 0.67120NQ045 IR HALFPAK 120.00 450.52125NQ015 IR D67 120.0015 0.33122NQ030 IR D67 120.0030 0.41STPS16045TV ON ISOTOP 160.00 450.95182NQ030 IR D67 180.0030 0.41200CNQ040 IR TO244AB 200.00 400.54200CNQ045 IR TO244AB 200.00 450.54200CNQ030 IR TO244AB 200.00 300.48STPS24045TV ON ISOTOP 240.00 450.91203CMQ080 IR TO244 200.00 8 0 1.03240NQ045 IR HALFPAK 240.00 450.55301CNQ045 IR TO244 300.00 4 5 0.59403CNQ100 IR TO244AB 400.00 1000.83440CNQ030 IR TO244AB 440.00 300.41。

1Product OverviewThe silicon carbide (SiC) power MOSFET product line from Microsemi increases the performance oversilicon MOSFET and silicon IGBT solutions while lowering the total cost of ownership for high-voltageapplications. The MSC080SMA120B device is a 1200 V, 80 mΩ SiC MOSFET in a TO-247 package.1.1FeaturesThe following are key features of the MSC080SMA120B device:Low capacitances and low gate chargeFast switching speed due to low internal gate resistance (ESR)Stable operation at high junction temperature, T = 175 °CJ(max)Fast and reliable body diodeSuperior avalanche ruggednessRoHS compliant1.2BenefitsThe following are benefits of the MSC080SMA120B device:High efficiency to enable lighter, more compact systemSimple to drive and easy to parallelImproved thermal capabilities and lower switching lossesEliminates the need for external freewheeling diodeLower system cost of ownership1.3ApplicationsThe MSC080SMA120B device is designed for the following applications:PV inverter, converter, and industrial motor drivesSmart grid transmission and distributionInduction heating and weldingH/EV powertrain and EV chargerPower supply and distribution1. 2Device SpecificationsThis section shows the device specifications for the MSC080SMA120B device.2.1Absolute Maximum RatingsThe following table shows the absolute maximum ratings for the MSC080SMA120B device.Table 1 • Absolute Maximum RatingsSymbol ParameterRatings Unit V DSS Drain source voltage1200V I DContinuous drain current at T = 25 °C C 37AContinuous drain current at T = 100 °CC 26I DM Pulsed drain current 191V GS Gate-source voltage23 to –10V P DTotal power dissipation at T = 25 °C C 200W Linear derating factor1.33W/°CNote:Repetitive rating: pulse width and case temperature limited by maximum junction temperature.The following table shows the thermal and mechanical characteristics of the MSC080SMA120B device.Table 2 • Thermal and Mechanical CharacteristicsSymbol CharacteristicMinTyp Max Unit R θJC Junction-to-case thermal resistance 0.500.75°C/W T J Operating junction temperature –55175°CT STG Storage temperature–55150T LSoldering temperature for 10 seconds (1.6 mm from case)260Mounting torque, 6-32 or M3 screw10lbf-in 1.1N-m WtPackage weight0.22oz 6.2g 2.2Electrical PerformanceThe following table shows the static characteristics for the MSC080SMA120B device. T = 25 °C unless J otherwise specified.Table 3 • Static CharacteristicsSymbol CharacteristicTest Conditions Min TypMaxUnit V (BR) DSSDrain-source breakdown voltageV GS = 0 V ,I = 100 µAD 1200V1. Symbol CharacteristicTest Conditions Min Typ Max Unit R DS(on)Drain-source on resistance 1V GS = 20 V , I D = 15 A 80100mΩV GS(th)Gate-source threshold voltageV GS = V DS , I D = 1 mA 1.8 2.8V ΔV /ΔT GS(th)J Threshold voltage coefficient V = V GS DS , I D = 1 mA -4.5mV/°CI DSSZero gate voltage drain currentV DS = 1200 V ,V = 0 V GS 100µAV DS = 1200 V ,T J = 125 °C V = 0 VGS 500I GSS Gate-source leakage current V = 20 V / –10 V GS ±100nANote:Pulse test: pulse width < 380 µs, duty cycle < 2%.The following table shows the dynamic characteristics for the MSC080SMA120B device. T = 25 °C unless J otherwise specified.Table 4 • Dynamic CharacteristicsSymbol Characteristic Test Conditions MinTyp MaxUnit C iss Input capacitanceV = 0 V GS V = 1000 V DD V = 25 mV AC ƒ = 1 MHz 838pFC rss Reverse transfer capacitance 9C oss Output capacitance 84Q g Total gate charge V = –5 V/20 V GS V = 800 V DD I = 15 AD 64nCQ gs Gate-source charge 12Q gd Gate-drain charge 19t d(on)Turn-on delay time V DD = 800 V V GS = -5 V/20 V I D = 15 A R G (ext) = 4 Ω1Freewheeling diode =MSC080SMA120B (V GS = –5V)5ns t r Current rise time 4t d(off)Turn-off delay time 21t f Current fall time15E on Turn-on switching energy 2µJ E off Turn-off switching energy t d(on)Turn-on delay time V DD = 800 V V GS = -5 V/20 V I D = 15 A R G (ext) = 4 Ω1Freewheeling diode = MSC015SDA120B 4ns t r Current rise time 4t d(off)Turn-off delay time 24t f Current fall time19E on Turn-on switching energy 2µJ E off Turn-off switching energy ESR Equivalent series resistance f = 1 MHz, 25 mV, drain short 1.9ΩSCWT Short circuit withstand time V DS = 960 V, V GS = 20 V,3µS E ASAvalanche energy, single pulseV DS = 150 V, I D = 15 A,1000mJ Notes:31952199501.2. R G is total gate resistance excluding internal gate driver impedance. E on includes energy of the freewheeling diode.2.3Body Diode CharacteristicsThe following table shows the body diode characteristics for the MSC080SMA120B device. T = 25 °C J unless otherwise specified.Table 5 • Body Diode CharacteristicsSymbol ParameterTest Conditions MinTyp MaxUnit VSD Diode forward voltage I = 15 A, V = 0 V SD GS 4.0V V SD Diode forward voltage I = 15 A, V = –5 V SD GS 4.2V t rr Reverse recovery time I = 15 A, V = –5 V SD GS V = 800 VDD dl/dt = –1000 A/µs34ns Q rr Reverse recovery charge 200nC I rrmReverse recovery current6.5A2.4Typical Performance CurvesThis section shows the typical performance curves for the MSC080SMA120B device.Figure 1 • Drain Current vs. Drain-to-Source VoltageFigure 2 • Drain Current vs. Drain-to-Source VoltageFigure 3 • Drain Current vs. Drain-to-Source VoltageFigure 4 • Drain Current vs. Drain-to-Source VoltageFigure 6 • Gate Charge CharacteristicsFigure 7 • Capacitance vs. Drain-to-Source Voltage Figure 8 • IDM vs. Gate-to-Source VoltageFigure 8 • IDM vs. VDS Third Quadrant Conduction Figure 9 • IDM vs. VDS Third Quadrant ConductionFigure 5 •RDS(on) vs. Junction TemperatureFigure 9 • IDM vs. VDS Third Quadrant Conduction Figure 10 • IDM vs. VDS Third Quadrant ConductionFigure 11 • VGS(th) vs. Junction Temp.Figure 12 • Forward Safe Operating AreaFigure 13 • Maximum Transient Thermal Impedance3Package SpecificationThis section shows the package specification for the MSC080SMA120B device.3.1Package Outline DrawingThis section shows the TO-247 package drawing for the MSC080SMA120B device. The dimensions in thefigure below are in millimeters and (inches).Figure 13 • Package Outline DrawingThe following table shows the MSC040SMA120B dimensions and should be used in conjunction with the package outline drawing.Table 6 • TO-247 DimensionsSymbol Min (mm)Max (mm)Min (in.)Max (in.)A 4.69 5.310.1850.209B 1.49 2.490.0590.098C 2.21 2.590.0870.102D0.400.790.0160.031E 5.38 6.200.2120.244F 3.50 3.810.1380.150G 6.15 BSC0.242 BSCH20.8021.460.8190.845I19.8120.320.7800.800J 4.00 4.500.1570.177K 1.01 1.400.0400.055L 2.87 3.120.1130.123M 1.65 2.130.0650.084N15.4916.260.6100.640O13.5014.500.5310.571P16.5017.500.6500.689Q 5.45 BSC0.215 BSCR 2.00 2.750.0790.108S7.107.500.2800.295Terminal 1GateTerminal 2DrainTerminal 3SourceTerminal 4DrainMicrosemi HeadquartersOne Enterprise, Aliso Viejo,CA 92656 USAWithin the USA: +1 (800) 713-4113Outside the USA: +1 (949) 380-6100Sales: +1 (949) 380-6136Fax: +1 (949) 215-4996Email:***************************© 2019 Microsemi. All rights reserved. Microsemi and the Microsemi logo are trademarks of Microsemi Corporation. All other trademarks and service marks are the property of their respective owners.Microsemi makes no warranty, representation, or guarantee regarding the information contained herein or the suitability of its products and services for any particular purpose, nor does Microsemi assume any liability whatsoever arising out of the application or use of any product or circuit. The products sold hereunder and any other products sold by Microsemi have been subject to limited testing and should not be used in conjunction with mission-critical equipment or applications. Any performance specifications are believed to be reliable but are not verified, and Buyer must conduct and complete all performance and other testing of the products, alone and together with, or installed in, any end-products. Buyer shall not rely on any data and performance specifications or parameters provided by Microsemi. It is the Buyer's responsibility to independently determine suitability of any products and to test and verify the same. The information provided by Microsemi hereunder is provided "as is, where is" and with all faults, and the entire risk associated with such information is entirely with the Buyer. Microsemi does not grant, explicitly or implicitly, to any party any patent rights, licenses, or any other IP rights, whether with regard to such information itself or anything described by such information. Information provided in this document is proprietary to Microsemi, and Microsemi reserves the right to make any changes to the information in this document or to any products and services at any time without notice.Microsemi, a wholly owned subsidiary of Microchip Technology Inc. (Nasdaq: MCHP), offers a comprehensive portfolio of semiconductor and system solutions for aerospace & defense, communications, data center and industrial markets. Products include high-performance and radiation-hardened analog mixed-signal integrated circuits, FPGAs, SoCs and ASICs; power management products; timing and synchronization devices and precise time solutions, setting the world's standard for time; voice processing devices; RF solutions; discrete components; enterprise storage and communication solutions; security technologies and scalable anti-tamper products; Ethernet solutions; Power-over-Ethernet ICs and midspans; as well as custom design capabilities and services. Microsemi is headquartered in Aliso Viejo, California, and has approximately 4,800 employees globally. Learn more at www. .050-7736 | November 2019 | Released。

80 Amp80CNQ...A SERIESBulletin PD-20038 rev. A 09/011I F(AV)Rectangular80Awaveform V RRM range35 to 45V I FSM @ tp = 5 µs sine 5800A V F @ 40 Apk, T J = 125°C 0.47V(per leg)T Jrange- 55 to 150°CCharacteristics80CNQ...A UnitsMajor Ratings and Characteristics The 80CNQ...A center tap Schottky rectifier module series has been optimized for very low forward voltage drop, with moderate leakage. The proprietary barrier technology allows for reliable operation up to 150° C junction temperature.Typical applications are in switching power supplies, convert-ers, free-wheeling diodes, and reverse battery protection.150° C T J operation Center tap moduleVery low forward voltage dropHigh purity, high temperature epoxy encapsulation for enhanced mechanical strength and moisture resistance High frequency operationGuard ring for enhanced ruggedness and long term reliabilityNew fully transfer-mould low profile, small footprint, high current packageDescription/FeaturesSCHOTTKY RECTIFIER New GenIII D-61 PackageCase StylesD61-880CNQ...A80CNQ...ASM80CNQ...ASLD61-8-SM D61-8-SL查询80CNQ...A SERIES供应商捷多邦，专业PCB打样工厂，24小时加急出货80CNQ...A SeriesBulletin PD-20038 rev. A 09/012I F(AV)Max. Average Forward(Per Leg)40A50% duty cycle @ T C = 114 °C, rectangular wave form Current * See Fig. 5(Per Device)80I FSM Max. Peak One Cycle Non-Repetitive 58005µs Sine or 3µs Rect. pulse Surge Current (Per Leg) * See Fig. 775010ms Sine or 6ms Rect. pulse E AS Non-Repetitive A valanche E nergy 54mJ T J = 25 °C, I AS = 8 Amps, L = 1.7 mH(Per Leg)I ARRepetitive A valanche C urrent 8A Current decaying linearly to zero in 1 µsec(Per Leg)Frequency limited by T J max. V A = 1.5 x V R typicalT J Max. Junction Temperature Range -55 to 150°C T stgMax. Storage Temperature Range-55 to 150°C R thJC Max. Thermal Resistance Junction0.85°C/W DC o peration * See Fig. 4to Case (Per Leg)R thJC Max. Thermal Resistance Junction0.42°C/W DC o perationto Case (Per Package)R thCS Typical Thermal Resistance, Case0.30°C/WMounting surface , smooth and greased to Heatsink (D61-8 Only)Device flatness < 5 milswt Approximate W eight 7.8 (0.28)g (oz.)TMounting T orque Min.40 (35)(D61-8 Only)Max.58 (50)Thermal-Mechanical SpecificationsKg -cm (Ibf-in)V FMMax. Forward Voltage Drop 0.52V @ 40A (Per Leg) * See Fig. 1(1)0.66V @ 80A 0.47V @ 40A 0.61V @ 80AI RMMax. Reverse Leakage Current 5mA T J = 25 °C (Per Leg) * See Fig. 2(1)250mA T J = 125 °C V F(TO)Threshold Voltage 0.26V T J = T J max.r t Forward Slope Resistance3.93m ΩC T Max. Junction Capacitance (Per Leg)2600pF V R = 5V DC , (test signal range 100Khz to 1Mhz) 25°C L STypical Series Inductance (Per Leg)5.5nH Measured lead to lead 5mm from package bodydv/dt Max. Voltage Rate of Change10000V/ µs(Rated V R )T J = 25 °C T J = 125 °C Electrical Specifications(1) Pulse Width < 300µs, Duty Cycle <2%V R = rated V RAbsolute Maximum RatingsFollowing any rated load condition and withrated V RRM applied Parameters80CNQ UnitsConditionsA Part number80CNQ035A 80CNQ040A 80CNQ045AV RMax. DC Reverse Voltage (V)V RWM Max. Working Peak Reverse Voltage (V)Voltage Ratings354045Parameters80CNQ UnitsConditionsParameters80CNQ UnitsConditions80CNQ...A Series3Bulletin PD-20038 rev. A 09/0180CNQ...A SeriesBulletin PD-20038 rev. A 09/014Fig. 5 - Max. Allowable Case Temperature Vs. Average Forward Current (Per Leg)Fig. 6 - Forward Power Loss Characteristics(Per Leg)(2)Formula used: T C = T J - (Pd + Pd REV ) x R thJC ;Pd = Forward Power Loss = I F(AV) x V FM @ (I F(AV) / D) (see Fig. 6);Pd REV = Inverse Power Loss = V R1 x I R (1 - D); I R @ V R1 = 80% rated V RA l l o w a b l e C a s e T e m p e r a t u r e (°C )Average Forward Current - I F(AV) (A)A v e r a g e P o w e r L o s s (W a t t s )Average Forward Current - I F(AV) (A)N o n -R e p e t i t i v e S u r g e C u r r e n t - I F S M (A )Square Wave Pulse Duration - t p (microsec)8000204060010203040506010010001000010100100010000Fig. 7 - Max. Non-Repetitive Surge Current (Per Leg)51015202530010203040506080CNQ...A SeriesBulletin PD-20038 rev. A 09/0180CNQ...A SeriesBulletin PD-20038 rev. A 09/016Outline Table80CNQ...A Series780CNQ...A SeriesBulletin PD-20038 rev. A 09/018IR WORLD HEADQUARTERS: 233 Kansas St., El Segundo, California 90245, USA Tel: (310) 252-7105TAC Fax: (310) 252-7309Visit us at for sales contact information. 09/01Data and specifications subject to change without notice.This product has been designed and qualified for Industrial Level.Qualification Standards can be found on IR's Web site.。

ms5n100的参数
摘要：
一、ms5n100的基本参数
二、ms5n100的性能特点
三、ms5n100的应用领域
四、选购与使用建议
正文：
ms5n100是一款具有高性能、高稳定性的产品，其参数如下：
一、ms5n100的基本参数
1.产品型号：ms5n100
2.制造商：某知名品牌
3.规格：符合国际标准
4.尺寸：根据实际需求而定
5.重量：适量
二、ms5n100的性能特点
1.高灵敏度：ms5n100具有较高的灵敏度，能够快速响应变化
2.高精度：具备高精度测量能力，保证数据准确性
3.抗干扰能力强：在复杂环境下，仍能保持稳定工作
4.长期稳定性：经过长时间使用，性能依然可靠
5.节能环保：低功耗设计，符合环保要求
三、ms5n100的应用领域
1.工业生产：用于自动化生产线、机器人控制等领域
2.科学研究：适用于各类实验室研究项目
3.交通运输：用于交通监控、车辆检测等场景
4.医疗健康：用于生物信号采集、医疗设备控制等
5.智能家居：应用于智能家居控制系统
四、选购与使用建议
1.选购时，请关注产品品牌、性能参数、售后服务等要素
2.使用前，请仔细阅读产品说明书，了解使用方法和注意事项
3.定期检查和维护，确保设备正常运行
4.注意保管，避免潮湿、高温等不良环境
5.及时更新软件，以获取更好的性能和功能
总之，ms5n100凭借其优异的性能和广泛的应用领域，成为了市场上的一款热门产品。