M203566TGN中文资料

N-TypeMONO-FACIAL MODULEPositive power tolerance of 0~+3%ISO9001:2015: Quality Management System ISO14001:2015: Environment Management System ISO45001:2018Occupational health and safety management systemsIEC61215(2016), IEC61730(2016)Key FeaturesSMBB TechnologyBetter light trapping and current collection to improve module power output and reliability.LINEAR PERFORMANCE WARRANTYTiger Neo N-type 78HL4-(V)595-615 WattCertified to withstand: wind load (2400 Pascal) and snow load (5400 Pascal).Enhanced Mechanical Load2400 Pa 5400 PaPID ResistanceExcellent Anti-PID performance guarantee via optimized mass-production process and materials control.2.0Hot 2.0 TechnologyThe N-type module with Hot 2.0 technology has better reliability and lower LID/LETID.HOT12Year Produ ct Warrant y 30Year Linea r Power Wa rranty0.40%Annual De gradation Over 30 ye ars99%100%11230yearsGuar an tee dP o w e r P e r f o r m a n c e87.4%High salt mist and ammonia resistance.Durability Against Extreme Environmental ConditionsIrradiance 1000W/m2AM=1.5Irradiance 800W/m 2AM=1.5NOCT:*STC:Wind Speed 1m/sModule TypeMaximum Power (Pmax) Maximum Power Voltage (Vmp) Maximum Power Current (Imp) Open-circuit Voltage (Voc)Short-circuit Current (Isc)Module Efficiency STC (%)Operating Temperature(℃) Maximum system voltage Maximum series fuse rating Power toleranceTemperature coefficients of Pmax Temperature coefficients of Voc Temperature coefficients of IscNominal operating cell temperature (NOCT)Cell Temperature 25°CAmbient Temperature 20°C( Two pallets = One stack )31pcs/pallets, 62pcs/stack, 496pcs/ 40'HQ ContainerTemperature Dependence ofIsc,Voc,PmaxCurrent-Voltage & Power-VoltageCurves (605W)NOCT STCNOCT STC NOCT STC JKM595N-78HL4JKM595N-78HL4-V JKM600N-78HL4JKM600N-78HL4-V JKM605N-78HL4JKM605N-78HL4-V JKM610N-78HL4JKM610N-78HL4-V JKM615N-78HL4JKM615N-78HL4-V JKM595-615N-78HL4-(V)-F1-EN (IEC 2016)©2021 Jinko Solar Co., Ltd. All rights reserved.Specifications included in this datasheet are subject to change without notice.-40℃~+85℃1000/1500VDC (IEC)30A 0~+3%-0.30%/℃-0.25%/℃0.046%/℃45±2℃C u r r e n t (A )Voltage (V)Cell Temperature (℃）P o w e r (W )N o r m a l i z e d I s c , V o c , P m a x (%)NOCT STC NOCT STC 0246810120701402103502804204905606301416051015202530354045505560Length: ±2mmWidth: ±2mmHeight: ±1mm Row Pitch: ±2mm00ⅠⅡFrontSideBackB-BA-A Cell Type No. of cells Dimensions WeightFront Glass Frame Junction Box Output Cables30.6 kg (67.46 lbs)IP68 RatedTUV 1×4.0mm(+): 400mm , (-): 200mm or Customized Length3.2mm,Anti-Reflection Coating,High Transmission, Low Iron, Tempered GlassAnodized Aluminium Alloy2465×1134×35mm (97.05×44.65×1.38 inch)156 (2×78)N type Mono-crystalline000000-50-25025507510020406080100120140160180IscVocPmax21.29%595Wp 45.29V 13.14A 54.80V 13.90A447Wp 10.67A 41.93V 52.05V 11.22A21.46%600Wp 45.39V 13.22A 54.95V 13.97A451Wp 10.73A 42.05V 52.20V 11.28A21.64%605Wp 45.49V 13.30A 55.10V 14.04A455Wp 10.79A 42.16V 52.34V 11.34A21.82%610Wp 45.59V 13.38A 55.25V 14.11A459Wp 10.85A 42.28V 52.48V 11.39A22.00%615Wp 45.69V 13.46A 55.40V 14.18A462Wp 10.91A 42.39V 52.62V 11.45A。

常用电源磁芯参数MnZn 功率铁氧体EPC功率磁芯特点：具有热阻小、衰耗小、功率大、工作频率宽、重量轻、结构合理、易表面贴装、屏蔽效果好等优点，但散热性能稍差。

用途：广泛应用于体积小而功率大且有屏蔽和电磁兼容要求的变压器，如精密仪器、程控交换机模块电源、导航设备等。

EPC型功率磁芯尺寸规格磁芯型号Type尺寸Dimensions(mm)A B C D Emin F G HminEPC10/8 10.20±0.20 4.05±0.30 3.40±0.20 5.00±0.20 7.60 2.65±0.20 1.90±0.20 5.30 EPC13/13 13.30±0.30 6.60±0.30 4.60±0.20 5.60±0.20 10.50 4.50±0.30 2.05±0.20 8.30 EPC17/17 17.60±0.50 8.55±0.30 6.00±0.30 7.70±0.30 14.30 6.05±0.30 2.80±0.20 11.50 EPC19/20 19.60±0.50 9.75±0.30 6.00±0.30 8.50±0.30 15.80 7.25±0.30 2.50±0.20 13.10 EPC25/25 25.10±0.50 12.50±0.30 8.00±0.30 11.50±0.30 20.65 9.00±0.30 4.00±0.20 17.00 EPC27/32 27.10±0.50 16.00±0.30 8.00±0.30 13.00±0.30 21.60 12.00±0.30 4.00±0.20 18.50 EPC30/35 30.10±0.50 17.50±0.30 8.00±0.30 15.00±0.30 23.60 13.00±0.30 4.00±0.20 19.50 EPC39/39 39.00±0.50 19.60±0.30 15.60±0.30 18.00±0.30 30.70 14.00±0.30 10.00±0.30 24.50 EPC42/44 42.40±1.00 22.00±0.30 15.00±0.40 17.00±0.30 33.50 16.00±0.30 7.40±0.30 26.50EPC功率磁芯电气特性及有效参数注：AL值测试条件为1KHz,0.25v,100Ts,25±3℃Pc值测试条件为100KHz,200mT,100℃EE、EEL、EF型功率磁芯特点：引线空间大，绕制接线方便。

Ordering InformationMT352/CG/GP1N 64 Pin LQFP TraysMT352/CG/GP1Q 64 Pin LQFP Tape & Reel MT352/CG/GP2Q 64 Pin LQFP*Tape & Reel MT352/CG/GP2N 64 Pin LQFP*Trays* Pb Free Matte Tin0o C to +70o CMT352COFDM DemodulatorData SheetFigure 1 - Block DiagramRF inADCAGCSecondary Tuner controlImpulse SuppressionIF to Baseband conversion &InterpolatorFFTSymbol,Carrier &Timing RecoveryPilot &Channel Processor Control engineSymbol & Bit De-interleaver & DemapperFECMPEGTS2-wire busPrimary 2-wire busMT352Data SheetUnique algorithms that actively filter out impulse noise, without affecting normal performance, have been implemented. This reduces the interference effect from vehicles and electrical appliances, which is known to have significant detrimental effect on the quality of digital TV reception.Programming is simplified utilizing a high level command driven interface. A sophisticated engine controls all acquisition and tracking operations as well as controlling the tuner via a 2-wire bus. Any frequency range can be automatically scanned for digital TV channels. This mechanism ensures minimal interaction, maximum flexibility,fastest acquisition and the fastest auto scan capability of any chip in the market.Blind acquisition mode enables automatic detection of all OFDM signal parameters, including mode, guard and spectral inversion. The frequency capture range is sufficient to compensate for the combined offset introduced by the tuner and broadcaster.The device is packaged in a 64 pin LQFP and consumes less than 220mW of power.Figure 2 - Package OutlineMT352 CG YYWW *W ∆•Pin 1 CornerMT352Data Sheet Pin DescriptionPin Description TablePin No Name Description I/O Type V mA MPEG pins47MOSTRT MPEG packet start OCMOS Tristate 3·3148MOVAL MPEG data valid O3·31 49-53, 56-58MDO(0:7)MPEG data bus O3·31 61MOCLK MPEG clock out O3·31 62BKERR Block error O3·31 63MICLK MPEG clock in I CMOS 3·311STATUS Status output O3·31 6IRQ Interrupt output O Open drain56 Control pins4CLK1Serial clock I CMOS55DATA1Serial data I/O Open drain 56 23XTI Low phase noiseoscillatorICMOS24XTO O10SLEEP Device power down I3·3 12, 15-18SADD(4:0)Serial address set I3·344SMTEST Scan mode enable I3·335CLK2/GPP0Serial clock tuner I/OOpen drain 5636DATA2/GPP1Serial data tuner I/O56 42AGC1Primary AGC O56 41AGC2/GPP2Secondary AGC I/O56 43GPP(3)General purpose I/O I/O56 9RESET Device reset I CMOS527OSCMODE Crystal oscillator mode I CMOS3·326PLLTEST PLL analogue test OAnalog inputs30VIN positive input I31VIN negative input ISupply pinsMT352Data Sheet21PLLVDD PLL supplyS 1·822PLLGND S 07, 19, 37, 39, 59, 64CVDD Core logic power S 1·82, 13, 45, 54, VDD I/O ring power S 3·31, 3, 8, 14, 20, 25, 38, 40, 46, 55, 60GND Core and I/O ground S 028AVDD ADC analog supplyS 1·829, 32AGND S 033DVDD ADC digital supply S 1·834DGNDSPin Description Table (continued)Pin NoName Description I/O TypeV mATable of ContentsFeatures . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 Applications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 Pin Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 1.0 Functional Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .81.1 Analogue-to-Digital Converter. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .91.2 Automatic Gain Control. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .91.3 IF to Baseband Conversion. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .91.4 Adjacent Channel Filtering . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .101.5 Interpolation and Clock Synchronisation. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .101.6 Carrier Frequency Synchronisation. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .101.7 Symbol Timing Synchronisation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .101.8 Fast Fourier Transform . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .101.9 Common Phase Error Correction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .101.10 Channel Equalisation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .101.11 Impulse Filtering . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .101.12 Transmission Parameter Signalling (TPS) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .111.13 De-Mapper. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .111.14 Symbol and Bit De-Interleaving. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .111.15 Viterbi Decoder . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .111.16 MPEG Frame Aligner . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .111.17 De-interleaver . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .111.18 Reed-Solomon Decoder . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .111.19 De-scrambler. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .121.20 MPEG Transport Interface. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .122.0 Software control. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .123.0 Interfaces . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .123.1 2-Wire Bus. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .133.2 Host. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .133.2.1 Tuner . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .133.2.2 Examples of 2-Wire Bus Messages. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .143.2.3 Primary 2-Wire Bus Timing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .143.3 MPEG . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .153.3.1 Data Output Header Format. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .153.3.2 MPEG data output signals. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .163.3.3 MPEG Output Timing. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .163.3.3.1 MOCLKINV = 1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .173.3.3.2 MOCLKINV = 0. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .174.0 Electrical Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .194.1 Recommended Operating Conditions. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .194.2 Absolute maximum ratings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .194.3 DC Electrical Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .204.4 Crystal Specification and External Clocking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .215.0 Application Circuit. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .22Figure 1 - Block Diagram. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 Figure 2 - Package Outline . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2 Figure 3 - OFDM Demodulator Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 Figure 4 - FEC Block Diagram. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 Figure 5 - Primary Interfaces. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 Figure 6 - Primary 2-Wire Bus Timing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14 Figure 7 - DVB Transport Packet Header Byte . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15 Figure 8 - MPEG Output Data Waveforms. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16 Figure 9 - MPEG Timing - MOCLKINV = 1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17 Figure 10 - MPEG Timing - MOCLKINV = 0 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18 Figure 11 - Crystal Oscillator Circuit. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21 Figure 12 - Typical Application Circuit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22Table 1 - Programmable Address Details for 2-Wire Bus in TNIM Evaluation Application. . . . . . . . . . . . . . . . . . . 13 Table 2 - Timing of 2-Wire Bus. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15 Table 3 - MOCLKINV = 1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17 Table 4 - MDOSWAP = 0. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17 Table 5 - MDOSWAP = 1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 181.0 Functional DescriptionA functional block diagram of the MT352 OFDM demodulator is shown in Figure 3. This accepts an IF analogue signal and delivers a stream of demodulated soft decision data to the on-chip Viterbi decoder. Clock, timing and frequency synchronization operations are all digital and there are no analogue control loops except the AGC. The frequency capture range is large enough for all practical applications. This demodulator has novel algorithms to combat impulse noise as well as co-channel and adjacent channel interference. If the modulation is hierarchical, the OFDM outputs both high and low priority data streams. Only one of these streams is FEC-decoded, but the FEC can be switched from one stream to another with minimal interruption to the transport stream.Figure 3 - OFDM Demodulator DiagramThe FEC module shown in Figure 4 consists of a concatenated convolutional (Viterbi) and Reed-Solomon decoder separated by a depth-12 convolutional de-interleaver. The Viterbi decoder operates on 5-bit soft decisions to provide the best performance over a wide range of channel conditions. The trace-back depth of 128 ensures minimum loss of performance due to inevitable survivor truncation, especially at high code rates. Both the Viterbi and Reed-Solomon decoders are equipped with bit-error monitors. The former provides the bit error rate (BER) at the OFDM output. The latter is the more useful measure as it gives the Viterbi output BER. The error collecting intervals of these are programmable over a very wide range.Figure 4 - FEC Block DiagramThe FSM controller shown in Figure 3 above controls both the demodulator and the FEC. It also drives the 2-wire bus to the tuner. The controller facilitates the automated search of all parameters or any sub-set of parameters of the received signal. It can also be used to scan any defined frequency range searching for OFDM channels. Thismechanism provides the fast channel scan and acquisition performance, whilst requiring minimal software overhead in the host driver.The algorithms and architectures used in the MT352 have been heavily optimized to minimize hardware and chip area. This is proven by its 220mW (typical) power consumption, which is the lowest of any OFDM device in the market today.1.1 Analogue-to-Digital ConverterThe MT352 has a high performance 10-bit analogue-to-digital converter (ADC) which can sample a 6, 7 or 8MHz bandwidth OFDM signal, with its spectrum centred at:• 4.57MHz near-zero IF•36.17MHz IF•43.75MHz IFThe ADC can be clocked using:•Crystal oscillator with a 20.48MHz crystal• 4 MHz or 27MHz clock inputAn on-chip programmable phase locked loop (PLL) is used to generate the ADC sampling clock. The crystal frequency of 20.48MHz is used for 36.17MHz IF sampling and 19.6267MHz is used for 43.75MHz IF sampling. Note that this 19.6267MHz sampling clock can be generated from the 20.48MHz crystal by appropriately programming the PLL. Hence the same 20.48MHz crystal can support 6, 7 and 8MHz OFDM as well as 36.17 and 43.75MHz IF.1.2 Automatic Gain ControlAn AGC module compares the absolute value of the digitized signal with a programmable reference. The error signal is filtered and is used to control the gain of the amplifier. A sigma-delta modulated output is provided, which has to be RC low-pass filtered to obtain the voltage to control the amplifier. Upper and lower limits can be set to the AGC control voltage using registers.The programmable AGC reference has been optimized. A large value for the reference leads to excessive ADC clipping and a small value results in excessive quantization noise. Hence the optimum value has been determined assuming the input signal amplitude to be Gaussian distributed. The latter is justified by applying the central limit theorem in statistics to the OFDM signal, which consists of a large number of randomly modulated carriers. This reference or target value may have to be lowered slightly for some applications. Slope control bits have been provided for the AGCs and these have to be set correctly depending on the Gain-versus-Voltage slope of the gain control amplifiers.The bandwidth of the AGC is set to a large value for quick acquisition then reduced to a small value for tracking. The AGC is free running during OFDM channel changes and locks to the new channel while the tuner lock is being established. This is one of the features of MT352 used to minimize acquisition time. A robust AGC lock mechanism is provided and the other parts of the MT352 begin to acquire only after the AGC has locked. Two AGC control outputs are available, one to drive an RF amplifier and the other to control an IF amplifier. The parameters for both loops are programmable. In the default mode, only the IF AGC loop is activated.1.3 IF to Baseband ConversionSampling a 36.17MHz IF signal at 20.48MHz results in a spectrally inverted OFDM signal centred at 4.79MHz. Sampling a 43.75MHz IF signal at 19.6267MHz gives a non-inverted signal at 4.5MHz. The first step of the demodulation process is to convert this signal to a complex (in-phase and quadrature) signal in baseband. A correction for spectral inversion is implemented during this conversion process. Note also that the MT352 has control mechanisms to search automatically for an unknown spectral inversion status.1.4 Adjacent Channel FilteringAdjacent channels, in particular the Nicam digital sound signal associated with analogue channels, are filtered prior to the FFT.1.5 Interpolation and Clock SynchronisationMT352 uses digital timing recovery and this eliminates the need for an external VCXO. The ADC samples the signal at a fixed rate, for example, 20.48MHz. Conversion of the 20.48MHz signal to the OFDM sample rate is achieved using the time-varying interpolator. The OFDM sample rate is 64/7MHz for 8 MHz and this is scaled by factors 6/8 and 7/8 for 6 and 7MHz channel bandwidths. The nominal ratio of the ADC to OFDM sample rate is programmed in a MT352 register (defaults are for 20.48MHz sampling and 8MHz OFDM). The clock recovery phase locked loop in the MT352 compensates for inaccuracies in this ratio due to uncertainties of the frequency of the sampling clock.1.6 Carrier Frequency SynchronisationThere can be frequency offsets in the signal at the input to OFDM, partly due to tuner step size and partly due to broadcast frequency shifts, typically 1/6MHz. These are tracked out digitally, without the need for an analogue frequency control (AFC) loop.The default frequency capture range has been set to ±285kHz in the 2K mode and ±142kHz in the 8K mode. However, these values can be doubled, if necessary, by programming an on-chip register. It is recommended that this larger capture range be used for channel scan in order to find channels with broadcast frequency shifts, without having to adjust the tuner.After the OFDM module has locked, the frequency offset can be read from an on-chip register.1.7 Symbol Timing SynchronisationThis module computes the optimum sample position to trigger the FFT in order to eliminate or minimize inter-symbol interference in the presence of multi-path distortion. Furthermore, this trigger point is continuously updated to dynamically adapt to time-variations in the transmission channel.1.8 Fast Fourier TransformThe FFT module uses the trigger information from the timing synchronization module to set the start point for an FFT. It then uses either a 2K or 8K FFT to transform the data from the time domain to the frequency domain. An extremely hardware-efficient and highly accurate algorithm has been used for this purpose.1.9 Common Phase Error CorrectionThis module subtracts the common phase offset from all the carriers of the OFDM signal to minimize the effect of the tuner phase noise on system performance.1.10 Channel EqualisationThis consists of two parts. The first part involves estimating the channel frequency response from pilot information. Efficient algorithms have been used to track time-varying channels with a minimum of hardware. The second part involves applying a correction to the data carriers based on the estimated frequency response of the channel. This module also generates dynamic channel state information (CSI) for every carrier in every symbol.1.11 Impulse FilteringMT352 contains several mechanisms to reduce the impact of impulse noise on system performance.1.12 Transmission Parameter Signalling (TPS)An OFDM frame consists of 68 symbols and a superframe is made up of four such frames. There is a set of TPS carriers in every symbol and all these carry one bit of TPS. These bits, when combined, include information about the transmission mode, guard ratio, constellation, hierarchy and code rate, as defined in ETS 300 744. In addition, the first eight bits of the cell identifier are contained in even frames and the second eight bits of the cell identifier are in odd frames. The TPS module extracts all the TPS data, and presents these to the host processor in a structured manner.1.13 De-MapperThis module generates soft decisions for demodulated bits using the channel-equalized in-phase and quadrature components of the data carriers as well as per-carrier channel state information (CSI). The de-mapping algorithm depends on the constellation (QPSK, 16QAM or 64QAM) and the hierarchy α = 0, 1, 2 or 3). Soft decisions for both low- and high-priority data streams are generated.1.14 Symbol and Bit De-InterleavingThe OFDM transmitter interleaves the bits within each carrier and also the carriers within each symbol. The de-interleaver modules consist largely of memory to invert these interleaving functions and present the soft decisions to the FEC in the original order.1.15 Viterbi DecoderThe Viterbi decoder accepts the 5-bit soft decision data from the OFDM demodulator and outputs a decoded bit-stream. The decoder does the de-puncturing of the input data for all code rates other than 1/2. It then evaluates the branch metrics and passes these to a 64-state path-metric updating unit, which in turn outputs a 64-bit word to the survivor memory. The Viterbi decoded bits are obtained by tracing back the survivor paths in this memory. A trace-back depth of 128 is used to minimize any loss in performance, especially at high code rates.The decoder re-encodes the decoded bits and compares these with received data (delayed) to compute bit errors at its input, on the assumption that the Viterbi output BER is significantly lower than its input BER.1.16 MPEG Frame AlignerThe Viterbi decoded bit stream is aligned into 204-byte frames. A robust synchronization algorithm is used to ensure correct lock and to prevent loss of lock due to noise impulses.1.17 De-interleaverErrors at the Viterbi output occur in bursts and the function of the de-interleaver is to spread these errors over a number of 204-byte frames to give the Reed-Solomon decoder a better chance of correcting these. The de-interleaver is a memory unit which implements the inverse of the convolutional interleaving function introduced by the transmitter.1.18 Reed-Solomon DecoderEvery 188-byte transport packet is encoded by the transmitter into a 204-byte frame, using a truncated version of a systematic (255,239) Reed-Solomon code. The corresponding (204,188) Reed-Solomon decoder is capable of correcting up to eight byte errors in a 204-byte frame. It may also detect frames with more than eight byte errors. In addition to efficiently performing this decoding function, the Reed-Solomon decoder in MT352 keeps a count of the number of bit errors corrected over a programmable period and the number of uncorrectable blocks. This information can be used to compute the post-Viterbi BER.1.19 De-scramblerThe de-scrambler de-randomizes the Reed-Solomon decoded data by generating the exclusive-OR of this with a pseudo-random bit sequence (PRBS). This outputs 188-byte MPEG transports packets. The TEI bit of the packet header is set to indicate uncorrectable packets.1.20 MPEG Transport InterfaceMPEG data can be output in parallel or serial mode. The output clock frequency is automatically chosen to present the MPEG data as uniformly spaced as possible to the transport processor. This frequency depends on the guard ratio, constellation, hierarchy and code rate. There is also an option for the data to be extracted from the MT352 with a clock provided by the user.2.0 Software controlAcquisition of an OFDM channel and frequency scan for OFDM channels are controlled by an on-chip state machine, which minimizes the software requirement in the host processor. To acquire a channel, the host programs the channel frequency in the MT352. The on-chip state machine then writes the frequency information to the tuner, awaits tuner lock and acquires the OFDM channel to generate the transport stream. The controller can be made to automatically search for every parameter in the OFDM signal, including spectral inversion status. Furthermore, this controller will re-acquire the channel in the event of an interruption to the incoming signal.To scan a frequency range, the host programs the start and end frequencies for the search as well as the step size, which defaults to 8 MHz. The MT352 then automatically scans the frequency range by appropriately programming the tuner and searching for OFDM signals. Once a channel has been located, the host is interrupted to read the channel information from the MT352. Then MT352 continues the search. By default, only the channels which can generate a reliable transport stream are reported, but there is also provision for locating very weak channels. The frequency capture range of MT352 can be maximized to capture channels with frequency offsets without re-programming the tuner, in both 2K and 8K modes.The above approach to channel acquisition and scan has resulted in very fast acquisition and scan times whilst minimizing software overhead in the host processor. Furthermore, all this functionality has very efficiently been mapped into hardware to result in a device consuming less than 220mW of power.3.0 InterfacesFigure 5 - Primary InterfacesThe MT352 interfaces to other parts of a terrestrial receiver system can be partitioned into three groups: the host controller, the tuner and the MPEG decoder. One other pin, the Status output, is multi-functional and can directlydrive a LED to show the status of a range of different internal lock flags. Alternatively, it can drive an audio transducer to give an audio frequency that is dependent upon the error rate of the received signal.This feature can be used for faster installation of a system where the aerial may need to be adjusted, as signal strength is not the best guide for the optimum aerial position for COFDM reception.3.1 2-Wire Bus3.2 HostThe primary 2-wire bus serial interface uses pins:•DATA1 (pin 5) serial data, the most significant bit is sent first.•CLK1 (pin 4) serial clock.The 2-wire bus address is determined by applying VDD or VSS to the SADD[4:0] pins.In the current TNIM evaluation application, the 2-wire bus address is 0001 111 R/ W with the pins connected as follows:ADDR[7] ADDR[6] ADDR[5] ADDR[4] ADDR[3] ADDR[2] ADDR[1]Not programmable SADD[4] SADD[3] SADD[2] SADD[1] SADD[0]VSS VSS VSS VDD VDD VDD VDD Table 1 - Programmable Address Details for 2-Wire Bus in TNIM Evaluation ApplicationWhen the MT352 is powered up, the RESET pin 28 should be held low for at least 50ms after VDD has reached normal operation levels. As the RESET pin goes high, the logic levels on SADD[4:0] are latched as the 2-wire bus address. ADDR[0] is the R/ W bit.The circuit works as a slave transmitter with the lsb set high or as a slave receiver with the lsb set low. In receive mode, the first data byte is written to the RADD virtual register, which forms the register sub-address. The RADD register takes an 8-bit value that determines which of 256 possible register addresses is written to by the following byte. Not all addresses are valid and many are reserved registers that must not be changed from their default values. Multiple byte reads or writes will auto-increment the value in RADD, but care should be taken not to access the reserved registers accidentally.Following a valid chip address, the 2-wire bus STOP command resets the RADD register to 00. If the chip address is not recognized, the MT352 will ignore all activity until a valid chip address is received. The 2-wire bus START command does NOT reset the RADD register to 00. This allows a combined 2-wire bus message, to point to a particular read register with a write command, followed immediately with a read data command. If required, this could next be followed with a write command to continue from the latest address. RADD would not be sent in this case. Finally, a STOP command should be sent to free the bus.When the 2-wire bus is addressed (after a recognized STOP command) with the read bit set, the first byte read out is the contents of register 00.3.2.1 TunerThe MT352 has a General Purpose Port that can be configured to provide a secondary 2-wire bus. Master control mode is selected by a single register control bit.The allocation of the pins is: GPP0 pin 35 = CLK2, GPP1 pin 36 = DATA2.。

2N3系列三极管参数三2N3440DCSM LAB 2个硅NPN高压中功率三极管0.35 0.5 300 250 15M 40/160 3DK304B 2N3440L MICROSEMI 硅NPN小信号三极管 1 1 450 15M 3DK304B 2N3440S LAB 硅NPN三极管 5 1 300 250 15M 40/160 3DK304B 2N3441LAB 硅NPN中功率三极管25 3 160 140 15/75 3DD61E 2N3441A MOSPEC 硅NPN功率三极管25 3 160 80 800K 3DD61E 2N3441B MC 硅NPN功率三极管25 3 160 80 800K 3DD61E 2N3442MSOPEC 硅NPN功率三极管117 10 160 1M 3DD167C 2N3442A MC 硅NPN功率三极管117 10 160 1M 3DD167C 2N3442B BOCA 硅NPN功率三极管117 10 160 1M 3DD167C 2N3442M MOTOROLA 硅NPN功率三极管117 10 160 1M 3DD167C 2N3443DZ 硅NPN大功率三极管0.3 -0.1 -20 -15 75M 20 3AG87A 2N3444ASI 硅NPN三极管 1 1 80 150M 20 3DK30C 2N3444A CENTRAL 硅NPN小信号三极管,用于驱动 1 1 80 50 150M 20/60 3DK30C 2N3445LAB 硅NPN三极管,TO3115 7.5 80 10M 3DA74A 2N3446ASI 硅NPN三极管115 7.5 80 10M 20 3DA74B 2N3447LAB 硅PNP三极管,TO3115 7.5 80 10M 3DA74A 2N3448ASI 硅NPN三极管115 7.5 100 10M 40 3DA74B 2N3449锗PNP三极管0.15 -0.1 -15 300M 3AG55C 2N345SPRAGUE 锗PNP三极管,用于开关0.02 -0.005 -5 25/110 3AG53B 2N3450DZ 硅NPN开关三极管0.6 0.15 60 100M 120 3DK4B 2N3450A DZ 硅NPN小功率三极管0.6 0.8 120 60 100M 40 3DK4B 2N3451ASI 硅PNP三极管0.3 -0.05 -6 300M 30 3CK2C 2N346SPRAGUE 锗PNP三极管,用于开关0.02 -0.005 -5 10 3AG53B 2N3461锗PNP三极管 5 -0.6 -32 10K 3AD50A 2N3462DZ 硅NPN小功率三极管0.3 0.03 50 35 10M 150 3DG170A 2N3463DZ 硅NPN小功率三极管0.3 0.03 60 45 45M 150 3DG170A 2N3464硅PNP三极管0.8 -60 30M 3CG180A 2N3467SEMICOA 硅PNP三极管 1 -1 -40 175M 3CK10D 2N3467A LAB 硅PNP三极管 1 -1 -40 175M 40/125 3CK10D 2N3467A1CENTRAL 硅PNP小信号三极管,用于驱动-0.15 -40 -40 175M 40/120 3CK10D型号PDF资料厂商特性用途集电极最大直流耗散功率Pcm(W)集电极最大允许直流电流Icm(A)集电极-基极击穿电压BVcbo(V)集电极-发射极击穿电压BVceo(V)特征频率ft(Hz)放大倍数代换型号2N3467L SEMICOA 硅PNP三极管 1 -1 -40 175M 3CK10D 2N3468SEMICOA 硅PNP三极管 1 -1 -50 150M 3CK10E 2N3468A CENTRAL 硅PNP小信号三极管,用于驱动-0.15 -50 -50 150M 25/75 3CK10E 2N3468L SEMICOA 硅PNP三极管 1 -1 -50 150M 3CK10E 2N3469ASI 硅NPN三极管 1.2 5 35 20M 100 3DK14A 2N347DZ 硅NPN小功率三极管0.75 60 3M 49 3DG180A 2N3470硅NPN三极管150 10 50 7K 3DD72B 2N3471硅NPN三极管150 10 100 7K 3DD72D 2N3472硅NPN三极管150 10 150 7K 3DD72E 2N3473硅NPN三极管150 10 200 7K 3DD167C 2N3474硅NPN三极管150 10 50 4K 3DD72B 2N3475硅NPN三极管150 10 100 4K 3DD72D 2N3476硅NPN三极管150 10 150 4K 3DD72E 2N3477硅NPN三极管150 10 200 4K 3DD167C 2N3478BOCA 硅NPN三极管0.2 30 750M 3DG112D小信号硅NPN三极管,2N3478A CENTRAL 小信号硅NPN三极管,用于VHF/UHF低噪声放大0.2 0.003 30 15 750M 25/150 3DG112D2N348DZ 硅NPN小功率三极管0.75 90 3M 24 3DG180B 2N3485SEMICOA 硅PNP三极管 2 0.6 60 200M CA783A 2N3485A CEN 硅PNP三极管0.4 0.6 60 200M 3CK9D 2N3485B SEMICOA 硅PNP三极管 2 0.6 60 200M CA783A 2N3486A CEN 硅PNP小功率三极管 2 0.6 60 200M CA783A 2N3486CSM LAB 硅PNP三极管0.4 -0.6 -60 200M 100/300 CA783A 2N3487DZ 硅NPN功率三极管115 7.5 80 60 10M 20/60 3DA74B 2N3488DZ 硅NPN功率三极管115 7.5 100 80 10M 20/60 3DD167B 2N3489DZ 硅NPN功率三极管115 7.5 120 100 10M 15/45 3DD167B 2N349DZ 硅NPN小功率三极管0.75 125 3M 19 3DG180C 2N3490DZ 硅NPN功率三极管115 7.5 80 60 10M 40/120 3DA74B 2N3491DZ 硅NPN功率三极管115 7.5 100 80 10M 40/120 3DD167B 2N3492DZ 硅NPN功率三极管115 7.5 120 100 10M 30/90 3DD167B 2N3493硅NPN三极管0.15 0.025 12 400M 3DG112M型号PDF资料厂商特性用途集电极最大直流耗散功率Pcm(W)集电极最大允许直流电流Icm(A)集电极-基极击穿电压BVcbo(V)集电极-发射极击穿电压BVceo(V)特征频率ft(Hz)放大倍数代换型号2N3846MICROSEMI 硅NPN功率三极管 4 20 300 10M 3DK204G 2N3847MICROSEMI 硅NPN功率三极管 4 20 400 10M 3DK204G 2N3848DZ 硅NPN功率三极管20 300 200 10M 10/60 3DK204G 2N3849DZ 硅NPN功率三极管20 400 300 10M 10/602N385锗NPN三极管0.15 0.2 25 6M 3BX85C 2N3850DZ 硅NPN功率三极管30 5 100 80 60M 50/150 3DA27A 2N3851DZ 硅NPN功率三极管30 5 100 80 60M 30/90 3DA27A 2N3852DZ 硅NPN功率三极管30 5 60 40 60M 50/150 3DA27A 2N3853DZ 硅NPN功率三极管30 5 60 40 60M 30/90 3DA27A 2N3854DZ 硅NPN通用三极管0.36 0.01 36 200M 3DG121M 2N3854A DZ 硅NPN通用三极管0.36 0.01 36 200M 3DG121M 2N3855DZ 硅NPN通用三极管0.36 0.01 36 200M 3DG121M 2N3855A DZ 硅NPN通用三极管0.36 0.01 36 200M 3DG121M 2N3856DZ 硅NPN通用三极管0.36 0.01 36 200M 3DG121M 2N3856A DZ 硅NPN通用三极管0.36 0.01 36 200M 3DG121M 2N3857硅PNP三极管0.6 -0.5 -45 20M 3CK10E 2N3858ETC 硅NPN通用三极管0.2 0.1 30 135M 3DG121M 2N3859CENTRAL 硅NPN小信号三极管0.2 0.1 30 135M 3DG121M 2N3859B ETC 硅NPN通用放大三极管0.2 0.1 30 135M 3DG121M 2N3859C FAIRCHILD 硅NPN通用放大三极管0.2 0.1 30 135M 3DG121M 2N386DZ 锗PNP大功率三极管-3 -60 -60 700K 202N3860CENTRAL 硅NPN小信号三极管0.2 0.1 30 135M 3DG121M 2N3861硅NPN三极管 2 0.025 530 50M 3DK304D 2N3862硅NPN三极管0.36 0.2 50 600M 3DK40A 2N3863DZ 硅NPN功率三极管117 7.5 70 50 500K 30/60 3DD72C 2N3864DZ 硅NPN功率三极管117 7.5 110 90 500K 30/90 3DD72C 2N3865硅NPN三极管117 7.5 150 500K 3DD72E 2N3866PHILIPS 硅NPN小功率三极管 5 0.4 55 500M 3DA21B 2N3866A MC 硅NPN小功率三极管 5 0.4 55 500M 3DA21B 2N3866A1CENTRAL 硅NPN小信号三极管,用于VHF/UHF振荡器0.1 55 30 500M 10/200 3DA21B型号PDF厂商特性用途集电极最大直流耗集电极最大允许直流集电极-基极击穿电集电极-发射极击穿特征频率放大倍数代换型号资料散功率Pcm(W)电流Icm(A)压BVcbo(V)电压BVceo(V)ft(Hz)2N3917DZ 硅NPN功率三极管20 2 80 40 80M 30/120 3DK03D 2N3918LAB 硅NPN三极管,TO320 2 80 80M 3DK03D 2N3919LAB 硅NPN三极管15 10 60 80M 40/120 3DK206C 2N392DZ 锗PNP功率三极管48 -5 -60 -40 6K 60/150 3AD57A 2N3920API 硅NPN三极管15 10 120 60 80M 100/300 3DK206C 2N3923CENTRAL 硅NPN小信号三极管,用于放大/开关0.8 0.025 150 150 40M 30/1202N3924DZ 硅NPN UHF/VHF 功率三极管4 0.5 36 18 250M 3DA106A2N3926DZ 硅NPN UHF/VHF 功率三极管7 1.5 36 18 250M 3DA107A2N3927DZ 硅NPN UHF/VHF 功率三极管12 3 36 18 200M 3DA23A 2N3928DZ 硅NPN功率三极管 5 3 80 40 60M 40/150 3DA23C 2N3929DZ 硅NPN功率三极管20 3 80 40 60M 40/150 3DA23C 2N393SPRAGUE 锗PNP高速三极管0.025 -0.05 -6 50M 20 3AG55A 2N3930DZ 硅PNP高压放大三极管0.4 -0.1 -180 40M 80/300 3CG180C 2N3931LAB 硅PNP三极管,TO30.7 -0.1 -180 40M 3CG180C 2N3932DZ 硅NPN三极管0.01 30 20 750M 40/150 3DG82A 2N3933DZ 硅NPN三极管0.01 40 30 750M 60/200 3DG82A 2N394DZ 锗PNP三极管0.15 -0.2 -30 4M 3AX53C 2N3941DZ 硅NPN三极管3DA103 2N3942DZ 硅NPN三极管3DA103 2N3943DZ 硅NPN三极管3DG130C 2N3944DZ 硅NPN三极管3DG130C 2N3945LAB 硅NPN三极管,TO39 5 1 70 60M 3DA10A2N3945A CENTRAL 硅NPN小信号三极管,用于放大/开关0.15 70 50 60M 40/250 3DA10A2N3946CEN 硅NPN三极管,用于放大/开关0.36 0.2 60 250M 3DG130B2N3946A FAIRCHILD 硅NPN三极管,用于放大/开关0.36 0.2 60 250M 3DG130B2N3947CEN 硅NPN三极管,用于放大/开关0.36 0.2 60 300M 3DG130B 2N3947A LAB 硅NPN三极管0.36 0.2 40 300M 100 3DG130B 2N3948DZ 硅NPN三极管 5 0.4 36 20 700M 3DA392N3948A DZ 407-512 MHz FM 晶体管2N394A DZ 锗PNP三极管0.15 -0.2 -30 -10 4M 44 3AX53C型号PDF资料厂商特性用途集电极最大直流耗散功率Pcm(W)集电极最大允许直流电流Icm(A)集电极-基极击穿电压BVcbo(V)集电极-发射极击穿电压BVceo(V)特征频率ft(Hz)放大倍数代换型号2N395DZ 锗PNP三极管0.15 -0.2 -30 -20 3M 60 3AX53C 2N3950硅NPN三极管70 3.3 45 100M 3DK208B 2N3953硅NPN三极管0.2 0.03 15 1.3G 3DG44B 2N3959MOTOROLA 高速开关三极管0.4 0.03 20 1.3G 3DG82B 2N396DZ 锗PNP三极管0.15 -0.2 -20 -20 5M 70 3AX53C 2N3960SEMICOA 硅NPN通用三极管0.4 0.03 20 1.6G 3DG82B 2N3960UB SEMICOA 硅NPN通用三极管0.4 0.03 20 1.6G 3DG82B 2N3961硅NPN三极管10 1 85 350M 3DA21A 2N3962CEN 硅PNP低噪声三极管0.36 -0.2 -60 40M 3CG20B 2N3962A LAB 硅PNP三极管0.36 -0.2 -60 40M 100/450 3CG20B 2N3962CSM LAB 硅PNP三极管0.36 -0.2 -60 40M 100/450 3CG20B硅PNP低噪声三极2N3962M MICRO 硅PNP低噪声三极管0.36 -0.2 -60 40M 3CG20B2N3963CEN 硅PNP低噪声三极管0.36 -0.2 -80 40M 3CG20D2N3963A LAB 硅PNP三极管0.36 -0.2 -80 40M 100/450 3CG20D 2N3963CSM LAB 硅PNP三极管0.36 -0.2 -80 40M 100/450 3CG20D2N3964CEN 硅PNP低噪声三极管0.36 -0.2 -45 50M 3CG130C 2N3964A LAB 硅PNP三极管0.36 -0.2 -45 40M 250/600 3CG130C 2N3964CSM LAB 硅PNP三极管0.36 -0.2 -45 40M 250/600 3CG130C 2N3964DCSM LAB 2个硅PNP三极管0.36 -0.2 -45 40M 250/600 3CG130C2N3965CEN 硅PNP低噪声三极管0.36 -0.2 -60 50M 3CG20B 2N3965A LAB 硅PNP三极管0.36 -0.2 -45 40M 250/600 3CG20B 2N3965CSM LAB 硅PNP三极管0.36 -0.2 -45 40M 250/600 3CG20B2N3965M MICRO 硅PNP低噪声三极管0.36 -0.2 -60 50M 3CG20B 2N396A DZ 锗PNP三极管0.2 -0.2 -30 -20 8M 70 3AX53C 2N397DZ 锗PNP三极管0.2 -0.2 -30 -15 10M 100 3AK322N3973SPRAGUE 硅NPN小信号三极管0.36 0.15 60 30 200M 35/100 3DG84B2N3974SPRAGUE 硅NPN小信号三极管0.36 0.15 60 30 200M 55/200 3DG84B 2N3975DZ 硅NPN三极管0.36 0.4 60 200M 3DG84B 2N3976DZ 硅NPN三极管0.36 0.4 60 200M 3DG84B2N3977DZ 硅PNP三极管,用于开关、放大、断路器0.4 -0.1 -15 -10 1M 40 3CG120A型号PDF资料厂商特性用途集电极最大直流耗散功率Pcm(W)集电极最大允许直流电流Icm(A)集电极-基极击穿电压BVcbo(V)集电极-发射极击穿电压BVceo(V)特征频率ft(Hz)放大倍数代换型号2N3978DZ 硅PNP三极管,用于开关、放大、断路器0.4 -0.1 -25 -20 1M 30 3CG120B2N3979DZ 硅PNP三极管,用于开关、放大、断路器0.4 -0.1 -40 -35 1M 20 3CG120C 2N398DZ 硅PNP三极管0.05 -0.1 -105 -105 0.5M 40 3AX54D 2N3980CENTRAL 三极管2N3981DZ 硅NPN小功率三极管0.8 1 60 30 250M 30 3DK1150B2N3982DZ 硅NPN小功率三极管0.8 1 50 20 250M 40 3DK1150A2N3983DZ 硅NPN高频放大三极管0.2 0.03 30 12 500M 30/ 3DG44A2N3984DZ 硅NPN高频放大三极管0.2 0.03 30 12 400M 20/ 3DG44A2N3985DZ 硅NPN高频放大三极管0.2 0.03 30 12 300M 20/ 3DG44A2N398A DZ 锗PNP三极管0.15 -0.2 -105 -105 0.5M 40 3AX54D 2N399DZ 锗PNP功率三极管25 -3 -35 3AD54C2N3996SSDI 硅NPN三极管,高速晶体管2 5 100 40M 3DK204B2N3996SMD LAB 硅NPN功率三极管30 5 80 40M 40/120 3DK204B 2N3996SMD05LAB 硅NPN功率三极管20 5 80 40M 40/120 3DK204B2N3997SSDI 硅NPN三极管,高速晶体管2 5 100 40M 3DK204B2N3997SMD LAB 硅NPN功率三极管30 5 80 40M 80/240 3DK204B 2N3997SMD05LAB 硅NPN功率三极管20 5 80 40M 80/240 3DK204B 2N3998SMD LAB 硅NPN功率三极管30 5 80 40M 40/120 3DK204B 2N3998SMD05LAB 硅NPN功率三极管20 5 80 40M 40/120 3DK204B 2N3999SMD LAB 硅NPN功率三极管30 5 80 40M 80/240 3DK204B 2N3999SMD05LAB 硅NPN功率三极管20 5 80 40M。

Dimensions: [mm]sectional drawing A-AScale - 2:1Product Marking:Start of Winding•7447452683744745268374474526837447452683T e m p e r a t u r eT T T 7447452683Cautions and Warnings:The following conditions apply to all goods within the product series of WE-TI of Würth Elektronik eiSos GmbH & Co. KG:General:•This electronic component was designed and manufactured for use in general electronic equipment.•Würth Elektronik must be asked for written approval (following the PPAP procedure) before incorporating the components into any equipment in fields such as military, aerospace, aviation, nuclear control, submarine, transportation (automotive control, train control, ship control), transportation signal, disaster prevention, medical, public information network, etc. where higher safety and reliability are especially required and/or if there is the possibility of direct damage or human injury.•Electronic components that will be used in safety-critical or high-reliability applications, should be pre-evaluated by the customer. •The component is designed and manufactured to be used within the datasheet specified values. If the usage and operation conditions specified in the datasheet are not met, the wire insulation may be damaged or dissolved.•Do not drop or impact the components, the component may be damaged.•Würth Elektronik products are qualified according to international standards, which are listed in each product reliability report. Würth Elektronik does not warrant any customer qualified product characteristics beyond Würth Elektroniks’ specifications, for its validity and sustainability over time.•The customer is responsible for the functionality of their own products. All technical specifications for standard products also apply to customer specific products.Product specific:Soldering:•The solder profile must comply with the technical product specifications. All other profiles will void the warranty.•All other soldering methods are at the customers’ own risk.Cleaning and Washing:•Washing agents used during the production to clean the customer application might damage or change the characteristics of the wire insulation, marking or plating. Washing agents may have a negative effect on the long-term functionality of the product. Potting:•If the product is potted in the costumer application, the potting material might shrink or expand during and after hardening. Shrinking could lead to an incomplete seal, allowing contaminants into the core. Expansion could damage the components. We recommend a manual inspection after potting to avoid these effects. Storage Conditions:• A storage of Würth Elektronik products for longer than 12 months is not recommended. Within other effects, the terminals may suffer degradation, resulting in bad solderability. Therefore, all products shall be used within the period of 12 months based on the day of shipment.•Do not expose the components to direct sunlight.•The storage conditions in the original packaging are defined according to DIN EN 61760-2.•The storage conditions stated in the original packaging apply to the storage time and not to the transportation time of the components. Packaging:•The packaging specifications apply only to purchase orders comprising whole packaging units. If the ordered quantity exceeds or is lower than the specified packaging unit, packaging in accordance with the packaging specifications cannot be ensured. Handling:•Violation of the technical product specifications such as exceeding the nominal rated current will void the warranty.•Applying currents with audio-frequency signals might result in audible noise due to the magnetostrictive material properties. •Due to heavy weight of the components, strong forces and high accelerations might have the effect to damage the electrical connection or to harm the circuit board and will void the warranty.•Please be aware that products provided in bulk packaging may get bent and might lead to derivations from the mechanical manufacturing tolerances mentioned in our datasheet, which is not considered to be a material defect.•The temperature rise of the component must be taken into consideration. The operating temperature is comprised of ambient temperature and temperature rise of the component.The operating temperature of the component shall not exceed the maximum temperature specified.These cautions and warnings comply with the state of the scientific and technical knowledge and are believed to be accurate and reliable.However, no responsibility is assumed for inaccuracies or incompleteness.Würth Elektronik eiSos GmbH & Co. KGEMC & Inductive SolutionsMax-Eyth-Str. 174638 WaldenburgGermanyCHECKED REVISION DATE (YYYY-MM-DD)GENERAL TOLERANCE PROJECTIONMETHODTRi002.0072019-08-05DIN ISO 2768-1mDESCRIPTIONWE-TI Radial Leaded Wire WoundInductor ORDER CODE7447452683SIZE/TYPE BUSINESS UNIT STATUS PAGEImportant NotesThe following conditions apply to all goods within the product range of Würth Elektronik eiSos GmbH & Co. KG:1. General Customer ResponsibilitySome goods within the product range of Würth Elektronik eiSos GmbH & Co. KG contain statements regarding general suitability for certain application areas. These statements about suitability are based on our knowledge and experience of typical requirements concerning the areas, serve as general guidance and cannot be estimated as binding statements about the suitability for a customer application. The responsibility for the applicability and use in a particular customer design is always solely within the authority of the customer. Due to this fact it is up to the customer to evaluate, where appropriate to investigate and decide whether the device with the specific product characteristics described in the product specification is valid and suitable for the respective customer application or not.2. Customer Responsibility related to Specific, in particular Safety-Relevant ApplicationsIt has to be clearly pointed out that the possibility of a malfunction of electronic components or failure before the end of the usual lifetime cannot be completely eliminated in the current state of the art, even if the products are operated within the range of the specifications.In certain customer applications requiring a very high level of safety and especially in customer applications in which the malfunction or failure of an electronic component could endanger human life or health it must be ensured by most advanced technological aid of suitable design of the customer application that no injury or damage is caused to third parties in the event of malfunction or failure of an electronic component. Therefore, customer is cautioned to verify that data sheets are current before placing orders. The current data sheets can be downloaded at .3. Best Care and AttentionAny product-specific notes, cautions and warnings must be strictly observed. Any disregard will result in the loss of warranty.4. Customer Support for Product SpecificationsSome products within the product range may contain substances which are subject to restrictions in certain jurisdictions in order to serve specific technical requirements. Necessary information is available on request. In this case the field sales engineer or the internal sales person in charge should be contacted who will be happy to support in this matter.5. Product R&DDue to constant product improvement product specifications may change from time to time. As a standard reporting procedure of the Product Change Notification (PCN) according to the JEDEC-Standard inform about minor and major changes. In case of further queries regarding the PCN, the field sales engineer or the internal sales person in charge should be contacted. The basic responsibility of the customer as per Section 1 and 2 remains unaffected.6. Product Life CycleDue to technical progress and economical evaluation we also reserve the right to discontinue production and delivery of products. As a standard reporting procedure of the Product Termination Notification (PTN) according to the JEDEC-Standard we will inform at an early stage about inevitable product discontinuance. According to this we cannot guarantee that all products within our product range will always be available. Therefore it needs to be verified with the field sales engineer or the internal sales person in charge about the current product availability expectancy before or when the product for application design-in disposal is considered. The approach named above does not apply in the case of individual agreements deviating from the foregoing for customer-specific products.7. Property RightsAll the rights for contractual products produced by Würth Elektronik eiSos GmbH & Co. KG on the basis of ideas, development contracts as well as models or templates that are subject to copyright, patent or commercial protection supplied to the customer will remain with Würth Elektronik eiSos GmbH & Co. KG. Würth Elektronik eiSos GmbH & Co. KG does not warrant or represent that any license, either expressed or implied, is granted under any patent right, copyright, mask work right, or other intellectual property right relating to any combination, application, or process in which Würth Elektronik eiSos GmbH & Co. KG components or services are used.8. General Terms and ConditionsUnless otherwise agreed in individual contracts, all orders are subject to the current version of the “General Terms and Conditions of Würth Elektronik eiSos Group”, last version available at .Würth Elektronik eiSos GmbH & Co. KGEMC & Inductive SolutionsMax-Eyth-Str. 174638 WaldenburgGermanyCHECKED REVISION DATE (YYYY-MM-DD)GENERAL TOLERANCE PROJECTIONMETHODTRi002.0072019-08-05DIN ISO 2768-1mDESCRIPTIONWE-TI Radial Leaded Wire WoundInductor ORDER CODE7447452683SIZE/TYPE BUSINESS UNIT STATUS PAGE。

20(25)W,AC-DC converterFEATURES●Universal input range:85~264V AC,100～370VDC ●Regulated output,low ripple and noise ●Efficiency up to 87%●Over-current,shortcircuitand over-voltageprotection●Plastic case,meets UL94V-0●IEC60950,UL60950,EN60950Approval●PCB mounting,Chassis mounting,DIN-Rail mountingCBRoHSLH 20-25series -----a compact size power converter offered by Mornsun.It features universal input voltage,taking both DC and AC input voltage,low power consumption,high efficiency,high reliability,safer isolation.It offers good EMC performance,which meetIEC/EN61000-4,CISPR22/EN55022,UL60950and EN60950standards,and it’s widely used in industrial,office and civil applications.For harsh EMC environment,the application circuit in the datasheet is strongly recommended.Selection GuideCertificationPart No.*Output PowerNominal Output Voltage andCurrent Efficiency (230V AC,%/Typ.)Max.CapacitiveLoad(µF)(Vo1/Io1)(Vo2/Io2)Vo1Vo2UL/CE/CBLH20-10B0313.53W3.3V/4100mA --7448000--LH20-10B0517.5W5V/3500mA --7812240--LH20-10B0920W9V/2100mA --807200--LH20-10B1212V/1600mA --825400--LH20-10B1515V/1300mA --832720--LH20-10B2424V/850mA --851840----LH20-10A05+5V/2000mA -5V/2000mA 7580008000LH20-10A12+12V/830mA -12V/830mA 82960960LH20-10A15+15V/650mA -15V/650mA 83880880LH20-10C0505-055V/2500mA ±5V/500mA 74112004480LH20-10C0512-045V/2000mA ±12V/400mA 75160001600LH20-10C0515-035V/2000mA ±15V/300mA 7613520370LH20-10C0524-025V/2000mA ±24V/200mA 7711200370LH20-10D0512-065V/2500mA 12V/600mA 75324003250LH20-10D0515-055V/2500mA 15V/500mA 76280001980LH20-10D0524-035V/2500mA 24V/300mA7728000720UL/CE/CBLH25-10B0313.53W 3.3V/4100mA --7448000--LH25-10B0520.5W5V/4100mA --7912240--LH25-10B0925W 9V/2500mA --815600--LH25-10B1212V/2100mA --835400--LH25-10B1515V/1600mA --842400--LH25-10B2424V/1100mA --851440--LH25-10B4848V/500mA--87500--Note:*About LH20-10AXX,use both positive and negative output as sampling feedback;and all others use Vo1as sampling feedback.Input SpecificationsItemOperating Conditions Min.Typ.Max.Unit Input Voltage Range AC input 85--264V AC DC input100--370VDC Input frequency 47--63HzInput current 115V AC ----0.6A 230V AC ----0.34Inrush current 115V AC --16--230V AC--30--Leakage current0.3mA RMS typ./230V AC/50Hz Recommended External InputFuse(Special package series include fuse) 3.15A/250V,slow fusing Hot PlugUnavailableOutput SpecificationsItemOperating Conditions Min.Typ.Max.UnitOutput Voltage Accuracy Main circuit --±2--%Line RegulationFull loadMain circuit --±0.5--Auxiliary circuit --±1.5--Load Regulation10%-100%loadSingle output--±1--Dual output(balanced load)--±2--Isolated triple output (balanced load)Main circuit --±3--Auxiliary circuit --±5--Isolated and separated twin output (balanced load)Main circuit --±3--Auxiliary circuit--±5--Ripple &Noise*20MHz bandwidth (peak-peak value)--50100mV Temperature Coefficient Main circuit--±0.02--%/°C Short Circuit Protection Continuous,self-recovery Over-current Protection≥110%Io self-recoveryOver-voltage ProtectionMain circuit3.3/5VDC Output ≤7.5VDC 9VDC Output≤13VDC 12/15VDC Output ≤20VDC 24VDC Output ≤30VDC 48VDC Output≤60VDCMin.LoadSingle output models0----%Dual output models (balanced load)10----Isolated and separated twin output (balanced load)10----Isolated triple output (balanced load)10----Hold-up Time115V AC input --15--ms 230V AC input--80--Note:*Ripple and noise are measured by “parallel cable”method,please see AC-DC Converter Application Notes for specific operation.General SpecificationsItemOperating Conditions Min.Typ.Max.Unit Isolation VoltageInput-outputTest time:1min 3000----V ACOperating Temperature LH20-10A/C/D series -25--+70°C LH20(25)-10B series -40--+70Storage Temperature LH20-10A/C/D series -25--+85LH20(25)-10B series-40--+85Storage Humidity----95%RHWelding Temperature Wave-soldering 260±5℃;time:5~10s Manual-welding360±10℃;time:3~5sSwitching Frequency--65--kHzPower Derating-25℃~-10℃(LH20-10A/C/D Series)2.0-----40℃~-10℃(LH20(25)-10B Series) 2.0----+50℃~+70℃(LH25-10B Series)3.0----+55℃~+70℃(LH20-10A/B/C/D Series)4.0----Safety Standard IEC60950/EN60950/UL60950Safety Certification IEC60950/EN60950/UL60950Safety Class CLASS IMTBFMIL-HDBK-217F@25°C >300,000h Physical SpecificationsCasing MaterialBlack flame-retardant and heat-resistant plastic (UL94-V0)DimensionHorizontal packageg70.00x48.00x23.50mm A2chassis mounting 96.10x54.00x32.00mm A3chassis mounting 99.00x54.00x32.00mm A4Din-Rail mountin96.10x54.00x36.60mm WeightHorizontal package/A2chassis mounting/A3chassis mounting/A4Din-Rail mounting120g/170g /170g /210g (Typ.)Cooling methodFree convectionEMC SpecificationsEMICE CISPR22/EN55022,CLASS B RE CISPR22/EN55022,CLASS B EMSESD IEC/EN61000-4-2±6KV/±8KV Perf.Criteria B RSIEC/EN61000-4-310V/m perf.Criteria A EFT IEC/EN61000-4-4±2KVperf.Criteria B IEC/EN61000-4-4±4KV (See Fig.5for recommended circuit)perf.Criteria B Surge IEC/EN61000-4-5±1KV/±2KVperf.Criteria B IEC/EN61000-4-5±2KV/4KV (See Fig.5for recommended circuit)perf.Criteria B EMSCSIEC/EN61000-4-610Vr.m.s perf.Criteria A PFMIEC/EN61000-4-810A/m perf.Criteria A Immunities of voltage dip,drop and short interruptionIEC/EN61000-4-110%-70%perf.Criteria BProduct Characteristic Curve-401007020-1055704050Te mperature Der ating C ur veL 25-10B s eriesH LH20-10A/B/C/D se rie s Ambient Temperature()℃O u t p u t P o w e r P e r c e n t a g e (%)L 20-10A/C/D s eries H LH20(25)-10B s eries -25Input voltage:85~264VAC 100~370VDC100240852642040100608075Input VoltageAmbient temperature:25℃Input Voltage Derating CurveO u t p u t P o w e r P e r c e n t a g e (%)VAC 120340100370VDCNote:①When input 85~100VAC/240~264VAC/100~120VDC/340~370VDC,it need to be voltage derated on basis of temperature derating;②This product is suitable for use in natural air cooling environments,if in a closed environment,please contact our company’s FAE.Design Reference1.Typical application circuitAC(L)+Vo-VoAC(L)AC(N)AC(N )C 1C 2TV SRLF USE AC DC MO VNTCFig.1:LH20(25)-10B series (Single Output)Typical application circuitF USE+VoAC(L)AC(N)-VoAC(N )C omC 4C 2C 1C 3RLTV S1TV S2RLNTCAC(L)AC DC MO VFig.2:LH20-10A series (Dual Output)typical application circuit+-C 1C 4C 3C 2-Vo1Vo2TV S1TV S2RLRLFUSE AC(L)AC(N)AC(N )NTC+AC(L)ACDCM OVFig.3:LH20-10D series (Isolate Twin Output)typical application circuit+C 1C 4C 3C 2-Vo1C om TV S1TV S2RLRLFUSE AC(L)AC(N)AC(N )AC(L)ACDCMO V+Vo2C 6C 5TV S3RL-Vo2NTCFig.4:LH20-10C series (Triple Output)typical application circuitModel C2(µF)C4(µF)C6(µF)TVS1TVS2TVS3LH20-10B03330SMBJ7.0A LH20-10B05330SMBJ7.0A LH20-10B09220SMBJ12A LH20-10B12220SMBJ20A LH20-10B15220SMBJ20A LH20-10B24220SMBJ30A LH20-10A05470470SMBJ7.0A SMBJ7.0A LH20-10A12120120SMBJ20A SMBJ20A LH20-10A156868SMBJ20A SMBJ20A LH20-10C0505-0533*******SMBJ7.0A SMBJ7.0A SMBJ7.0A LH20-10C0512-0433*******SMBJ7.0A SMBJ20A SMBJ20A LH20-10C0515-03330120120SMBJ7.0A SMBJ20A SMBJ20A LH20-10C0524-023304747SMBJ7.0A SMBJ30A SMBJ30ALH20-10D0512-********SMBJ7.0A SMBJ20A LH20-10D0515-********SMBJ7.0A SMBJ20A LH20-10D0524-03330120SMBJ7.0A SMBJ30ALH25-10B03330SMBJ7.0A LH25-10B05330SMBJ7.0A LH25-10B09330SMBJ12A LH25-10B12330SMBJ20A LH25-10B15330SMBJ20A LH25-10B24120SMBJ30A LH25-10B4868SMBJ64ANote:Note:Output filtering capacitors C2,C4,C6are electrolytic capacitors,it is recommended to use high frequency and low impedance electrolytic capacitor.For capacitance and current of capacitor please refer to manufacture’s datasheet.Capacitor withstand voltage derating should be 80%or above.C1,C3,C5are ceramic capacitors,which is used to filter high-frequency S is a recommended component to protect post-circuits if converter fails.External input NTC is recommended to use 5D-9.External input MOV model is recommended to use S14K300.2.EMC solution-recommended circuitACDCAC(N)AC(L)LCMMOV1CXCY1CY2FUSEAC(N)AC(L)+Vo-Vo+LDMC1C2TVS1RLCan use MORNSUN s FC-LX1D' Fig 5:EMC Recommended circuit with higher requirementsElement Recommended valueMOV1S14K300CY1,CY21000pF/400V AC CX 0.1μF/275V ACLCM 10mH,recommended to use MORNSUN’s FL2D-Z5-103LDM 4.7μH/2A FC-LX1D 2KV/4KV EMC filterFUSE3.15A/250V slow fusing,necessary3.Application of Trim and calculation of Trim resistance0V R 2R 1R 3V ref R TTrim+Vot0V R 2R 1R 3V ref R TTrim+VotTrim upTrim downApplied circuits of Trim (Part in broken line is the interior of models ):Calculation formula of Trim resistance:up: R 1R =T aR 2R -a 2-R 3down: a=VrefVot-Vref R 2R =T aR 1R -a1-R 3R T is Trim resistancea is a self-defined parameter,withno real meaning.Vout R1(K Ω)R2(K Ω)R3(K Ω)Vref(V)Vot(V)3.3V 3.3 1.981 1.24Output voltage after regulation,variation ≤±10%5V 3.3 3.31 2.59V 7.5 2.871 2.512V 3.8311 2.515V 7.5 1.51 2.524V 8.6611 2.548V683.7312.54.For more information about Mornsun EMC Filter products,please visit todownload the Selection Guide of EMC FilterDimensions and Recommended Layout LHXXA2DimensionsLHXXA3Dimensions LHXXA4DimensionsNotes:1.Packing information please refer to Product Packing Information which can be downloaded from .Packingbag number of Horizontal package:58220006,the Packing bag number of A2/A3/A4package:58220010;2.If the product is not operated within the required load range,the product performance cannot be guaranteed to comply with allparameters in the datasheet;3.Unless otherwise specified,parameters in this datasheet were measured under the conditions of Ta=25℃,humidity<75%with nominalinput voltage and rated output load;4.All index testing methods in this datasheet are based on our Company’s corporate standards;5.The performance parameters of the product models listed in this manual are as above,but some parameters of non-standard modelproducts may exceed the requirements mentioned above.Please contact our technicians directly for specific information;6.We can provide product customization service;7.Specifications are subject to change without prior notice.MORNSUN Guangzhou Science&Technology Co.,Ltd.Address:No.5,Kehui St.1,Kehui Development Center,Science Ave.,Guangzhou Science City,Luogang District,Guangzhou,P.R.China Tel:86-20-38601850-8801Fax:86-20-38601272E-mail:***************。

Scotchcast 环氧粉末产品采用100％固体单组分系统，其优势包括：快速固化，优异的电气性能，强大的抗热冲击及抗机械冲击性能，坚固的划伤抵御能力，良好的附着力，优秀的抗化学及潮湿腐蚀能力，适应高低温度的流动特性和优异的静电涂敷能力。

这类树脂产品由先进的熔结－共混工艺生产，保证了每个单一粉末颗粒都包含用于固化和提供上述性能的所有有效组分。

5555电气绝缘树脂著名绝缘树脂产品，一种绿色，快速热固化的单组分粉末环氧树脂，能用静电流化床，静电喷涂或流化床浸涂的方法涂敷，应用于各种类型的绝缘电枢、定子、汇流条和和环形铁芯的绝缘保护。

它拥有极其优异的耐温性能，通过了UL认证的耐温等级H级。

5230N电气绝缘树脂3M电气绝缘树脂5230N是一种蓝色，快速热固化的单组分粉末环氧树脂，它是为各种类型的底材提供持续的湿热稳定性、化学稳定性的绝缘涂层。

并且通过了UL认证。

260电气绝缘树脂3M电气绝缘树脂260是通用性的绿色、快速热固化的单组分双酚A型粉末环氧树脂。

是为各种类型的底材提供持续的抗热冲击和抗冲击性能、湿热稳定性、化学稳定性的绝缘涂层。

通过UL认证。

260 8G电气绝缘树脂3M电气绝缘树脂260 8G是通用性的绿色、快速热固化的单组分双酚A型粉末环氧树脂。

它拥有更快的固化速度，适用于更快的成产效率，是为各种类型的底材提供持续的抗热冲击和抗冲击性能、湿热稳定性、化学稳定性的绝缘涂层。

260 C-free电气绝缘树脂3M电气绝缘树脂260 C-free是通用性的绿色、快速热固化的、不含重金属铬的环保绿色单组分双酚A型粉末环氧树脂。

它拥有更快的固化速度，适用于更快的生产效率，是为各种类型的底材提供持续的抗热冲击和抗冲击性能、湿热稳定性、化学稳定性的绝缘涂层。

263电气绝缘树脂3M电气绝缘树脂263是通用性的绿色、快速热固化的单组分双酚A型粉末环氧树脂。

是为各种类型的底材提供持续优异的抗热切割性能、抗热冲击和抗冲击性能、湿热稳定性、化学稳定性的绝缘涂层。

AVX钽电容简单规格认识及全部型号————————————————————————————————作者：————————————————————————————————日期：AVX钽电容规格认识学习及全部型号例：TAJ B 106 K 016 RNJ解释：TAJ:品牌B：型号（封装）A：3216 2K装B：3528 2K装C：6032 500装D：7343 500装E：7343-43 400装106：容值1UF=1000NF=1000000PFK:精度10%（档位）（容值上7的是高容，高容用M=20%档）016：电压006=6.3V/6V 010=10V 016=16V 025=25VRNJ：尾缀AVX钽电容大致就是按照这个规格去翻译对应的正确型号！序号产品全称产品简称产品型号描述品牌最小包装单位1 贴片钽电容钽电容TAJA105M020RNJ±20% 1UF 20V20% 1206AVX2000PCS2 贴片钽电容钽电容TAJA335K066RNJ±10% 3.3UF16V 10% 1206AVX2000PCS3 贴片钽电容钽电容TAJA225K020RNJ±10% 2.2UF20V 10% 1206AVX2000PCS4 贴片钽电容钽电容TAJA685M006RNJ±20% 6.8UF6.3V 20% 1206AVX2000PCS钽电容电容K006RNJ 6.3V 10% 1206 VX006 贴片钽电容钽电容TAJA685K060RNJ±10% 6.8UF10V 10% 1206AVX2000PCS7 贴片钽电容钽电容TAJA226K060RNJ±10% 22UF 10V10% 1206AVX2000PCS8 贴片钽电容钽电容TAJA156K060RNJ±10% 15UF 10V10% 1206AVX2000PCS9 贴片钽电容钽电容TAJA156M060RNJ±20% 15UF 10V20% 1206AVX2000PCS1 0 贴片钽电容钽电容TAJA336K004RNJ±10% 33UF 4V10% 1206AVX2000PCS1 1 贴片钽电容钽电容TAJA105K035RNJ±10% 1UF 35V10% 1206AVX2000PCS1 2 贴片钽电容钽电容TAJB106M006RNJ±20% 10UF6.3V 20% 1210AVX2000PCS1 4 贴片钽电容钽电容TAJB685K020RNJ±10% 6.8UF20V 10% 1210AVX2000PCS1 5 贴片钽电容钽电容TAJA684K035RNJ±10% 0.68UF35V 10% 1206AVX2000PCS1 6 贴片钽电容钽电容TAJA476M004RNJ±20% 47UF 4V20% 1206AVX2000PCS1 7 贴片钽电容钽电容TAJA685K006RNJ±10% 6.8UF6.3V 10% 1206AVX2000PCS1 8 贴片钽电容钽电容TAJA155K025RNJ±10% 1.5UF25V 10% 1206AVX2000PCS1 9 贴片钽电容钽电容TAJA474K025RNJ±10% 0.47UF25V 10% 1206AVX2000PCS2 0 贴片钽电容钽电容TAJA104K035RNJ±10% 0.1UF35V 10% 1206AVX2000PCS2 2 贴片钽电容钽电容TAJB225K020RNJ±10% 2.2UF20V 10% 1210AVX2000PCS2 3 贴片钽电容钽电容TAJB475K020RNJ±10% 4.7UF20V 10% 1210AVX2000PCS2 4 贴片钽电容钽电容TAJA155K020RNJ±10% 1.5UF20V 10% 1206AVX2000PCS2 5 贴片钽电容钽电容TAJA334K035RNJ±10% 0.33UF35V 10% 1206AVX2000PCS2 6 贴片钽电容钽电容TAJA476K004RNJ±10% 47UF 4V10% 1206AVX2000PCS2 7 贴片钽电容钽电容TAJB474K035RNJ±10% 0.47UF35V 10% 1210AVX2000PCS2 8 贴片钽电容钽电容TAJA106K066RNJ±10% 10UF 16V10% 1206AVX2000PCS3 0 贴片钽电容钽电容TAJA106M006RNJ±20% 10UF6.3V 20% 1206AVX2000PCS3 1 贴片钽电容钽电容TAJA475K006RNJ±10% 4.7UF6.3V 10% 1206AVX2000PCS3 2 贴片钽电容钽电容TAJB476K060RNJ±10% 47UF 10V10% 1210AVX2000PCS3 3 贴片钽电容钽电容TAJA335M060RNJ±20% 3.3UF10V 20% 1206AVX2000PCS3 4 贴片钽电容钽电容TAJA105M025RNJ±20% 1UF 25V20% 1206AVX2000PCS3 5 贴片钽电容钽电容TAJA225M066RNJ±20% 2.2UF16V 20% 1206AVX2000PCS3 6 贴片钽电容钽电容TAJA335K060RNJ±10% 3.3UF10V 10% 1206AVX2000PCS3 8 贴片钽电容钽电容TAJB476K006RNJ±10% 47UF 6.3V10% 1210AVX2000PCS3 9 贴片钽电容钽电容TAJA225M020RNJ±20% 2.2UF20V 20% 1206AVX2000PCS4 0 贴片钽电容钽电容TAJA105M066RNJ±20% 1UF 16V20% 1206AVX2000PCS4 1 贴片钽电容钽电容TAJA156K006RNJ±10% 15UF6.3V 10% 1206AVX2000PCS4 2 贴片钽电容钽电容TAJA224K050RNJ±10% 0.22UF50V 10% 1206AVX2000PCS4 3 贴片钽电容钽电容TAJB226K066RNJ±10% 22UF 16V10% 1210AVX2000PCS4 4 贴片钽电容钽电容TAJA106K006RNJ±10% 10UF6.3V 10% 1206AVX2000PCS4 6 贴片钽电容钽电容TAJA105M035RNJ±20% 1UF 35V20% 1206AVX2000PCS4 7 贴片钽电容钽电容TAJA106M066RNJ±20% 10UF 16V20% 1206AVX2000PCS4 8 贴片钽电容钽电容TAJA106K060RNJ±10% 10UF 10V10% 1206AVX2000PCS4 9 贴片钽电容钽电容TAJA106M060RNJ±20% 10UF 10V20% 1206AVX2000PCS5 0 贴片钽电容钽电容TAJA475K060RNJ±10% 4.7UF10V 10% 1206AVX2000PCS5 1 贴片钽电容钽电容TAJA225K066RNJ±10% 2.2UF16V 10% 1206AVX2000PCS5 2 贴片钽电容钽电容TAJB225K025RNJ±10% 2.2UF25V 10% 1210AVX2000PCS5 4 贴片钽电容钽电容TAJB335K025RNJ±10% 3.3UF25V 10% 1210AVX2000PCS5 5 贴片钽电容钽电容TAJA105K020RNJ±10% 1UF 20V10% 1206AVX2000PCS5 6 贴片钽电容钽电容TAJA225M006RNJ±20% 2.2UF6.3V 20% 1206AVX2000PCS5 7 贴片钽电容钽电容TAJA156M006RNJ±20% 15UF6.3V 20% 1206AVX2000PCS5 8 贴片钽电容钽电容TAJA335M066RNJ±20% 3.3UF16V 20% 1206AVX2000PCS5 9 贴片钽电容钽电容TAJA475M020RNJ±20% 4.7UF20V 20% 1206AVX2000PCS6 0 贴片钽电容钽电容TAJA225K025RNJ±10% 2.2UF25V 10% 1206AVX2000PCS6 2 贴片钽电容钽电容TAJA225K060RNJ±10% 2.2UF10V 10% 1206AVX2000PCS6 3 贴片钽电容钽电容TAJA685K066RNJ±10% 6.8UF16V 10% 1206AVX2000PCS6 4 贴片钽电容钽电容TAJA225M060RNJ±20% 2.2UF10V 20% 1206AVX2000PCS6 5 贴片钽电容钽电容TAJA226M060RNJ±20% 22UF 10V20% 1206AVX2000PCS6 6 贴片钽电容钽电容TAJA685K020RNJ±10% 6.8UF20V 10% 1206AVX2000PCS6 7 贴片钽电容钽电容TAJB685K066RNJ±10% 6.8UF16V 10% 1210AVX2000PCS6 8 贴片钽电容钽电容TAJB106K020RNJ±10% 10UF 20V10% 1210AVX2000PCS7 0 贴片钽电容钽电容TAJA336M060RNJ±20% 33UF 10V20% 1206AVX2000PCS7 1 贴片钽电容钽电容TAJB685K060RNJ±10% 6.8UF10V 10% 1210AVX2000PCS7 2 贴片钽电容钽电容TAJB685M060RNJ±20% 6.8UF10V 20% 1210AVX2000PCS7 3 贴片钽电容钽电容TAJB335K020RNJ±10% 3.3UF20V 10% 1210AVX2000PCS7 4 贴片钽电容钽电容TAJB155M025RNJ±20% 1.5UF25V 20% 1210AVX2000PCS7 5 贴片钽电容钽电容TAJB335M066RNJ±20% 3.3UF16V 20% 1210AVX2000PCS7 6 贴片钽电容钽电容TAJB106M060RNJ±20% 10UF 10V20% 1210AVX2000PCS7 8 贴片钽电容钽电容TAJB225M025RNJ±20% 2.2UF25V 20% 1210AVX2000PCS7 9 贴片钽电容钽电容TAJB475M020RNJ±20% 4.7UF20V 20% 1210AVX2000PCS8 0 贴片钽电容钽电容TAJB105M035RNJ±20% 1UF 35V20% 1210AVX2000PCS8 1 贴片钽电容钽电容TAJB225M020RNJ±20% 2.2UF20V 20% 1210AVX2000PCS8 2 贴片钽电容钽电容TAJB335M020RNJ±20% 3.3UF20V 20% 1210AVX2000PCS8 3 贴片钽电容钽电容TAJB475K060RNJ±10% 4.7UF10V 10% 1210AVX2000PCS8 4 贴片钽电容钽电容TAJB475M060RNJ±20% 4.7UF10V 20% 1210AVX2000PCS8 6 贴片钽电容钽电容TAJA226M006RNJ±20% 22UF6.3V 20% 1206AVX2000PCS8 7 贴片钽电容钽电容TAJB475M025RNJ±20% 4.7UF25V 20% 1210AVX2000PCS8 8 贴片钽电容钽电容TAJB336K006RNJ±10% 33UF6.3V 10% 1210AVX2000PCS8 9 贴片钽电容钽电容TAJB225M035RNJ±20% 2.2UF35V 20% 1210AVX2000PCS9 0 贴片钽电容钽电容TAJB106K060RNJ±10% 10UF 10V10% 1210AVX2000PCS9 1 贴片钽电容钽电容TAJB475M066RNJ±20% 4.7UF16V 20% 1210AVX2000PCS9 2 贴片钽电容钽电容TAJB225K035RNJ±10% 2.2UF35V 10% 1210AVX2000PCS9 4 贴片钽电容钽电容TAJA475M025RNJ±20% 4.7UF25V 20% 1206AVX2000PCS9 5 贴片钽电容钽电容TAJA225K006RNJ±10% 2.2UF6.3V 10% 1206AVX2000PCS9 6 贴片钽电容钽电容TAJA335K006RNJ±10% 3.3UF6.3V 10% 1206AVX2000PCS9 7 贴片钽电容钽电容TAJB106M066RNJ±20% 10UF 16V20% 1210AVX2000PCS9 8 贴片钽电容钽电容TAJB226K006RNJ±10% 22UF6.3V 10% 1210AVX2000PCS9 9 贴片钽电容钽电容TAJB156M060RNJ±20% 15UF 10V20% 1210AVX2000PCS1 0 0 贴片钽电容钽电容TAJB226M006RNJ±20% 22UF6.3V 20% 1210AVX2000PCS1 02 贴片钽电容钽电容TAJC226K006RNJ±10% 22UF6.3V 10% 2312AVX50PCS1 0 3 贴片钽电容钽电容TAJB226K060RNJ±10% 22UF 10V10% 1210AVX2000PCS1 0 4 贴片钽电容钽电容TAJB106K066RNJ±10% 10UF 16V10% 1210AVX2000PCS1 0 5 贴片钽电容钽电容TAJB226M066RNJ±20% 22UF 16V20% 1210AVX2000PCS1 0 6 贴片钽电容钽电容TAJC106M066RNJ±20% 10UF 16V20% 2312AVX50PCS1 0 7 贴片钽电容钽电容TAJB475K025RNJ±10% 4.7UF25V 10% 1210AVX2000PCS1 0 8 贴片钽电容钽电容TAJB686K004RNJ±10% 68UF 4V10% 1210AVX2000PCS1 1 0 贴片钽电容钽电容TAJB155K035RNJ±10% 1.5UF35V 10% 1210AVX2000PCS1 1 1 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贴片钽电容钽电容TAJD476M066RNJ±20% 47UF 16V20% 2917AVX50PCS1 7 0 贴片钽电容钽电容TAJC475K035RNJ±10% 4.7UF35V 10% 2312AVX50PCS1 7 1 贴片钽电容钽电容TAJC475M035RNJ±20% 4.7UF35V 20% 2312AVX50PCS1 72 贴片钽电容钽电容TAJB336M066RNJ±20% 33UF 16V20% 1210AVX2000PCS1 7 4 贴片钽电容钽电容TAJB107K004RNJ±10% 100UF 4V10% 1210AVX2000PCS1 7 5 贴片钽电容钽电容TAJB336K060RNJ±10% 33UF 10V10% 1210AVX2000PCS1 7 6 贴片钽电容钽电容TAJC105M050RNJ±20% 1UF 50V20% 2312AVX50PCS1 7 7 贴片钽电容钽电容TAJC105K050RNJ±10% 1UF 50V10% 2312AVX50PCS1 7 8 贴片钽电容钽电容TAJD476K020RNJ±10% 47UF 20V10% 2917AVX50PCS1 7 9 贴片钽电容钽电容TAJD476M020RNJ±20% 47UF 20V20% 2917AVX50PCS1 8 0 贴片钽电容钽电容TAJD475M035RNJ±20% 4.7UF35V 20% 2917AVX50PCS1 82 贴片钽电容钽电容TAJB107K006RNJ±10% 100UF6.3V 10% 1210AVX2000PCS1 8 3 贴片钽电容钽电容TAJC226K020RNJ±10% 22UF 20V10% 2312AVX50PCS1 8 4 贴片钽电容钽电容TAJC336K020RNJ±10% 33UF 20V10% 2312AVX50PCS1 8 5 贴片钽电容钽电容TAJC476K066RNJ±10% 47UF 16V10% 2312AVX50PCS1 8 6 贴片钽电容钽电容TAJC685K035RNJ±10% 6.8UF35V 10% 2312AVX50PCS1 8 7 贴片钽电容钽电容TAJB105K050RNJ±10% 1UF 50V10% 1210AVX2000PCS1 8 8 贴片钽电容钽电容TAJB107M060RNJ±20% 100UF10V 20% 1210AVX2000PCS1 9 0 贴片钽电容钽电容TAJD475K050RNJ±10% 4.7UF50V 10% 2917AVX50PCS1 9 1 贴片钽电容钽电容TAJB334K050RNJ±10% 0.33UF50V 10% 1210AVX2000PCS1 92 贴片钽电容钽电容TAJC107K060RNJ±10% 100UF10V 10% 2312AVX50PCS1 9 3 贴片钽电容钽电容TAJC107M060RNJ±20% 100UF10V 20% 2312AVX50PCS1 9 4 贴片钽电容钽电容TAJC337M006RNJ±20% 330UF6.3V 20% 2312AVX50PCS1 9 5 贴片钽电容钽电容TAJC685M035RNJ±20% 6.8UF35V 20% 2312AVX50PCS1 9 6 贴片钽电容钽电容TAJC106K035RNJ±10% 10UF 35V10% 2312AVX50PCS1 9 8 贴片钽电容钽电容TAJC156K035RNJ±10% 15UF 35V10% 2312AVX50PCS1 9 9 贴片钽电容钽电容TAJD106M035RNJ±20% 10UF 35V20% 2917AVX50PCS2 0 0 贴片钽电容钽电容TAJD106K035RNJ±10% 10UF 35V10% 2917AVX50PCS2 0 1 贴片钽电容钽电容TAJC226K025RNJ±10% 22UF 25V10% 2312AVX50PCS2 0 2 贴片钽电容钽电容TAJB684M035RNJ±20% 0.68UF35V 20% 1210AVX2000PCS2 03 贴片钽电容钽电容TAJD157K066RNJ±10% 150UF16V 10% 2917AVX50PCS2 0 4 贴片钽电容钽电容TAJD106K025RNJ±10% 10UF 25V10% 2917AVX50PCS2 0 6 贴片钽电容钽电容TAJC226M025RNJ±20% 22UF 25V20% 2312AVX50PCS2 0 7 贴片钽电容钽电容TAJA475M006RNJ±20% 4.7UF6.3V 20% 1206AVX2000PCS2 0 8 贴片钽电容钽电容TAJD226M066RNJ±20% 22UF 16V20% 2917AVX50PCS2 0 9 贴片钽电容钽电容TAJD686K066RNJ±10% 68UF 16V10% 2917AVX50PCS2 1 0 贴片钽电容钽电容TAJC686K066RNJ±10% 68UF 16V10% 2312AVX50PCS2 1 1 贴片钽电容钽电容TAJD226M020RNJ±20% 22UF 20V20% 2917AVX50PCS2 1 2 贴片钽电容钽电容TAJA475K066RNJ±10% 4.7UF16V 10% 1206AVX2000PCS2 1 4 贴片钽电容钽电容TAJD107M060RNJ±20% 100UF10V 20% 2917AVX50PCS2 1 5 贴片钽电容钽电容TAJD156M035RNJ±20% 15UF 35V20% 2917AVX50PCS2 1 6 贴片钽电容钽电容TAJC106K060RNJ±10% 10UF 10V10% 2312AVX50PCS2 1 7 贴片钽电容钽电容TAJC106M020RNJ±20% 10UF 20V20% 2312AVX50PCS2 1 8 贴片钽电容钽电容TAJD107K006RNJ±10% 100UF6.3V 10% 2917AVX50PCS2 1 9 贴片钽电容钽电容TAJA155K066RNJ±10% 1.5UF16V 10% 1206AVX2000PCS2 2 0 贴片钽电容钽电容TAJC476K020RNJ±10% 47UF 20V10% 2312AVX50PCS2 2 2 贴片钽电容钽电容TAJA474K050RNJ±10% 0.47UF50V 10% 1206AVX2000PCS2 23 贴片钽电容钽电容TAJB685M006RNJ±20% 6.8UF6.3V 20% 1210AVX2000PCS2 2 4 贴片钽电容钽电容TAJB335K066RNJ±10% 3.3UF16V 10% 1210AVX2000PCS2 2 5 贴片钽电容钽电容TAJE107M066RNJ±20% 100UF16V 20% 2917AVX40PCS2 2 6 贴片钽电容钽电容TAJC475K050RNJ±10% 4.7UF50V 10% 2312AVX50PCS2 2 7 贴片钽电容钽电容TAJC107K066RNJ±10% 100UF16V 10% 2312AVX50PCS2 2 8 贴片钽电容钽电容TAJD107K066RNJ±10% 100UF16V 10% 2917AVX50PCS2 3 0 贴片钽电容钽电容TAJE337K006RNJ±10% 330UF6.3V 10% 2917AVX40PCS2 3 1 贴片钽电容钽电容TAJD686K020RNJ±10% 68UF 20V10% 2917AVX50PCS2 3 2 贴片钽电容钽电容TAJB684K050RNJ±10% 0.68UF50V 10% 1210AVX2000PCS2 3 3 贴片钽电容钽电容TAJC475K025RNJ±10% 4.7UF25V 10% 2312AVX50PCS2 3 4 贴片钽电容钽电容TAJC337K004RNJ±10% 330UF 4V10% 2312AVX50PCS2 3 5 贴片钽电容钽电容TAJC227K060RNJ±10% 220UF10V 10% 2312AVX50PCS2 3 6 贴片钽电容钽电容TAJA476K006RNJ±10% 47UF 6.3V10% 1206AVX2000PCS2 3 8 贴片钽电容钽电容TAJD157K060RNJ±10% 150UF10V 10% 2917AVX50PCS2 3 9 贴片钽电容钽电容TAJD226K035RNJ±10% 22UF 35V10% 2917AVX50PCS2 4 0 贴片钽电容钽电容TAJC227K004RNJ±10% 220UF 4V10% 2312AVX50PCS2 4 1 贴片钽电容钽电容TAJD107K060RNJ±10% 100UF10V 10% 2917AVX50PCS2 4 2 贴片钽电容钽电容TAJC337K006RNJ±10% 330UF6.3V 10% 2312AVX50PCS2 43 贴片钽电容钽电容TAJD226M035RNJ±20% 22UF 35V20% 2917AVX50PCS2 4 4 贴片钽电容钽电容TAJE227M060RNJ±20% 220UF10V 20% 2917AVX40PCS2 4 6 贴片钽电容钽电容TAJC157K006RNJ±10% 150UF6.3V 10% 2312AVX50PCS2 4 7 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多模光缆型号介绍多模光缆型号介绍多模光缆型号属于全介质自承式层绞式光缆，多模光缆型号采用芳纶增强来提高光缆的抗拉强度。

对于10KV和35KV的电力线路可采用聚乙烯护套多模光缆型号，对于110kV和220kV的电力线路则必须通过计算电场场强分布来确定光缆挂点并采用耐电痕外护套，最大跨距超过1500米，主要用于电力系统自承式架空敷设，广泛用于电力系统干线网。

多模光缆型号结构是：光纤位于带纤膏的松套管中；缆芯中心是非金属加强芯FRP（可能会加PE垫层），FRP周围由松套管、填充绳绞合而成，缆芯内、外的间隙填充缆膏。

缆芯先聚乙烯内护套，然后包上一层芳纶纱，最后再聚乙烯外护套或耐电痕（AT）外护套。

公司简介亚太线缆（AsiaPacificCable）是一家致力于：网络综合布线、计算机电缆、屏蔽控制电缆、光纤光缆、电力电缆、通讯产品等研发、生产、销售的科技公司，并提供系统解决方案的公司，是全球知名品牌，总部位于北美，通过其运营子公司在亚太地区从事通讯电缆、电力电缆及漆包线等产品的制造与分销，营运范围主要分布于新加坡、泰国、澳大利亚和中国大陆。

其客户群包括：政府机关、国家电网、系统集成商、通信运营商和跨国企业，服务亚太地区电力基础设施，光电通信设施等为用户提供完善的产品和服务。

凭借着“科技至上、品质至上，团队至上，服务至上”的理念，成为全球电缆通讯行业的领先品牌，并拥有实力雄厚的产品设计研发团队，系统方案解决团队，供应链管理团队以及市场营销团队。

亚太线缆为用户搭建稳定可靠的基础构架，帮助企业对未来市场的掌控，协助他们成功。

为促进世界经济互补性，改善世界经济贸易逆差的壁垒，鼓励货物流通、服务、资本、技术的融合。

致力于为全球经济信息化搭建平等互利的平台，为现代智慧城市，互联网带宽的提升与推进提供助力。

公司的目标追求品质可靠 追求技术领先 追求管理高效 追求服务更好当今社会互联网发展迅速，随着带宽需求的提升，网络的高效性和稳定性就越来越迫切。