RT8074富佳维

RT8074®DS8074-08 November 20201©Copyright 2020 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.Applications●LCD TVs and Monitors ●Notebook Computers●Distributed Power Systems ●IP Phones●Digital CamerasGeneral DescriptionThe RT8074 is a simple, easy-to-use current mode controlled 4A synchronous step-down DC-DC converter with an input supply voltage range from 2.7V to 5.5V.The device build-in an accurate 0.8V reference voltage and integrates low R DS(ON) power MOSFETs to achieve high efficiency in SOP-8 (Exposed Pad) package.The RT8074 operates in automatic PSM that maintains high efficiency during light load operation. The device features cycle-by-cycle current-limit protection to prevent the device from the catastrophic damage in output short circuit, over-current or inductor saturation. Built-in soft-start function prevents inrush current during start-up. The device also features input under-voltage lockout, output under-voltage protection, and over-temperature protection to provide safe and smooth operation in all operating conditions.Ordering Information4A, 2MHz, Synchronous Step-Down ConverterNote :Richtek products are :❝ RoHS compliant and compatible with the current require-ments of IPC/JEDEC J-STD-020.❝ Suitable for use in SnPb or Pb-free soldering processes.Features●Input Voltage Range from 2.7V to 5.5V ●Integrated 110m Ω and 70m Ω FETs●100% Duty Cycle for Lowest Dropout ●Power Saving Mode for Light Loads ●Adjustable Frequency : 200kHz to 2MHz ●0.8V Reference Allows Low Output Voltage ●Enable Function ●Internal Soft-Start●Input Under-Voltage Lockout Protection ●Output Under-Voltage Protection ●Over-Temperature Protection●RoHS Compliant and Halogen FreePin Configurations(TOP VIEW)SOP-8 (Exposed Pad)COMP GND EN VINFB RT LXLXRT8074G : Green (Halogen Free and Pb Free)RT8074GSP : Product NumberYMDNN : Date CodeRT80742DS8074-08 November 2020 ©Copyright 2020 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.Functional Pin DescriptionTypical Application CircuitTable 1. Recommended Components Selection for f SW = 1MHzNote:Considering the effective capacitance de-rated with biased voltage level and size, the C OUT component needs satisfy theeffective capacitance at least 15μF or above at targeted output level for stable and normal operation.V OUTRT80743DS8074-08 November 2020©Copyright 2020 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.Function Block DiagramRT80744DS8074-08 November 2020©Copyright 2020 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.Absolute Maximum Ratings (Note 1)●Supply Input Voltage, VIN ---------------------------------------------------------------------------------------------- −0.3V to 6.5V ●LX Pin Switch Voltage --------------------------------------------------------------------------------------------------- −0.3V to 6.5V <10ns ----------------------------------------------------------------------------------------------------------------------- −2.5V to 8.5V ●Other I/O Pin Voltages -------------------------------------------------------------------------------------------------- −0.3V to 6.5V ●Power Dissipation, P D @ T A = 25°CSOP-8 (Exposed Pad)--------------------------------------------------------------------------------------------------1.33W●Package Thermal Resistance (Note 2)SOP-8 (Exposed Pad), θJA ---------------------------------------------------------------------------------------------75°C/W SOP-8 (Exposed Pad), θJC --------------------------------------------------------------------------------------------15°C/W ●Junction T emperature ----------------------------------------------------------------------------------------------------150°C ●Lead Temperature (Soldering, 10 sec.)------------------------------------------------------------------------------260°C●Storage T emperature Range ------------------------------------------------------------------------------------------- −65°C to 150°C ●ESD Susceptibility (Note 3)HBM (Human Body Model)---------------------------------------------------------------------------------------------2kVElectrical CharacteristicsRecommended Operating Conditions (Note 4)●Supply Input Voltage, VIN ----------------------------------------------------------------------------------------------2.7V to 5.5V ●Junction T emperature Range ------------------------------------------------------------------------------------------- −40°C to 125°C ●Ambient T emperature Range ------------------------------------------------------------------------------------------- −40°C to 85°CRT80745DS8074-08 November 2020©Copyright 2020 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.Note 1. Stresses beyond those listed “Absolute Maximum Ratings ” may cause permanent damage to the device. These arestress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions may affect device reliability.Note 2. θJA is measured at T A = 25°C on a high effective thermal conductivity four-layer test board per JEDEC 51-7. θJC ismeasured at the exposed pad of the package.Note 3. Devices are ESD sensitive. Handling precaution is recommended.Note 4. The device is not guaranteed to function outside its operating conditions.RT80746DS8074-08 November 2020 ©Copyright 2020 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.Typical Operating CharacteristicsReference Voltage vs. Temperature0.760.770.780.790.800.810.820.830.84-50-25255075100125Temperature (°C)R e f e r e n c e V o l t a g e (V)Switching Frequency vs. Temperature1.001.011.021.031.041.051.061.071.081.091.10-50-25255075100125Temperature (°C)S w i t c h i n g F r e q u e n c y (M H z )Output Voltage vs. Output Current1.0941.0961.0981.1001.1021.1041.1061.1081.1101.11200.511.522.533.54Output Current (A)O u t p u t V o l t a g e (V)V IN UVLO vs. Temperature2.102.152.202.252.302.352.402.452.50-50-25255075100125Temperature (°C)V I N U V L O (V )Enable Voltage vs. Temperature0.60.70.80.91.01.11.21.31.4-50-25255075100125Temperature (°C)E n a b l e V o l t a g e (V)Efficiency vs. Output Current1020304050607080901000.0010.010.1110Output Current (A)E f f i c i en c y (%)RT80747DS8074-08 November 2020©Copyright 2020 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.Output RippleTime (500ns/Div)V OUT (20mV/Div)V LX (2V/Div)V IN = 5V, I OUT = 4APower Off from ENTime (100μs/Div)V IN = 5V, V OUT = 1.1V, I OUT = 4AI OUT (5A/Div)V LX (5V/Div)V EN (5V/Div)V OUT (1V/Div)Time (500μs/Div)Power On from ENI OUT (5A/Div)V LX (5V/Div)V IN = 5V, V OUT = 1.1V, I OUT = 4A V EN (5V/Div)V OUT (1V/Div)Load Transient ResponseTime (100μs/Div)I OUT (2A/Div)V OUT(200mV/Div)V IN = 5V, V OUT = 1.1V, I OUT = 1 to 4A,R COMP = 10k Ω, C COMP = 560pFRT80748DS8074-08 November 2020 ©Copyright 2020 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.0.00.20.40.60.81.01.21.41.61.82.025050075010001250150017502000R RT (k Ω)S w i t c h i n g F r e q u e n c y (M H z )Application InformationThe basic IC application circuit is shown in Typical Application Circuit. External component selection is determined by the maximum load current and begins with the selection of the inductor value and operating frequency followed by C IN and C OUT .Main Control LoopDuring normal operation, the internal high side power switch (P-MOSFET) is turned on at the beginning of each clock cycle. The inductor current increases until it reaches the value defined by the output voltage (V COMP ) of the error amplifier. The error amplifier adjusts its output voltage by comparing the feedback signal from a resistive voltage divider on the FB pin with an internal 0.8V reference. When the load current increases, it causes a reduction in the feedback voltage relative to the reference. The error amplifier increases its output voltage until the average inductor current matches the new load current. When the high side power MOSFET shuts off, the synchronous power switch (N-MOSFET) turns on until the beginning of the next clock cycle.Output Voltage SettingThe output voltage is set by an external resistive voltage divider according to the following equation :OUT REF R1V = V x (1)R2where V REF is 0.8V typical. The resistive voltage divider allows the FB pin to sense a fraction of the output voltage as shown in Figure 1.V OUTFigure 1. Setting the Output VoltageSoft-StartThe RT8074 includes an internal soft-start function thatgradually raises the clamp on the COMP pin.Switching Frequency SettingThe RT8074 offers adjustable switching frequency setting and the switching frequency can be set by using external resistor RT . Switching frequency range is from 200kHz to 2MHz. Selection of the operating frequency is a tradeoff between efficiency and component size. High frequency operation allows the use of smaller inductor and capacitor values. Operation at lower frequencies improves efficiency by reducing internal gate charge and transition losses,but requires larger inductance values and capacitance to maintain low output ripple voltage. An additional constraint on operating frequency are the minimum on-time and minimum off-time. The minimum on-time, t ON_MIN , is the smallest duration of time in which the high-side switch can be in its “on ” state. This time is 90ns (typically). In continuous mode operation, the minimum on-time limit imposes a maximum operating frequency, f SW_MAX , of :f SW_MAX = V OUT / (t ON_MIN x V IN_MAX )where V IN_MAX is the maximum operating input voltage.Through external resistor RT connect between RT pin and ground to set the switching frequency f SW . The equation below shows the relation between setting frequency and RT value.The switching frequency vs R RT value can be short with the formula below : f SW (MHz) = K x 0.9 / R RT (k Ω),where K = 3.67 x 105Note that the variation of f SW is ±15%.Figure 2. Switching Frequency vs. R RT ResistorRT80749DS8074-08 November 2020©Copyright 2020 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.Having a lower ripple current reduces not only the ESRlosses in the output capacitors but also the output voltage ripple. Highest efficiency operation is achieved by reducing ripple current at low frequency, but it requires a large inductor to attain this goal.For the ripple current selection, the value of ΔI L = 0.4 (I MAX )will be a reasonable starting point. The largest ripple current occurs at the highest V IN . To guarantee that the ripple current stays below a specified maximum, the inductor value should be chosen according to the following equation :OUT OUT L(MAX)IN(MAX)V V L 1f x I V ⎡⎤⎡⎤=-⎢⎥⎢⎥∆⎢⎥⎢⎥⎣⎦⎣⎦Using Ceramic Input and Output CapacitorsHigher value, lower cost ceramic capacitors are now becoming available in smaller case sizes. Their high ripple current, high voltage rating and low ESR make them ideal for switching regulator applications. However, care must be taken when these capacitors are used at the input and output. When a ceramic capacitor is used at the input and the power is supplied by a wall adapter through long wires, a load step at the output can induce ringing at the input V IN . At best, this ringing can couple to the output and be mistaken as loop instability. At worst, a sudden inrush of current through the long wires can potentially cause a voltage spike at V IN large enough to damage the part.Slope Compensation and Inductor Peak Current Slope compensation provides stability in constant frequency architectures by preventing sub harmonic oscillations at duty cycles greater than 50%. It is accomplished internally by adding a compensating ramp to the inductor current signal. Normally, the maximum inductor peak current is reduced when slope compensationInductor SelectionFor a given input and output voltage, the inductor value and operating frequency determine the ripple current. The ripple current, ΔI L , increases with higher V IN and decreases with higher inductance :OUT OUT L IN V VI 1f x L V ⎡⎤⎡⎤∆=-⎢⎥⎢⎥⎣⎦⎣⎦is added. For the RT8074, however, a separate inductor current signal is used to monitor over current condition,so this keeps the maximum output current relatively constant regardless of duty cycle.Hiccup Mode Under-Voltage ProtectionA Hiccup Mode under-voltage protection (UVP) function is provided for the IC. When the FB voltage drops below half of the feedback reference voltage, V REF , the UVP function will be triggered to auto re-soft-start the power stage continuously until this event is cleared. The Hiccup Mode UVP reduces input current in short circuit conditions and prevents false triggering during soft-start process.Under-Voltage Lockout ThresholdThe IC features input under-voltage lockout protection (UVLO). If the input voltage exceeds the UVLO rising threshold voltage, the converter will reset and prepare the PWM for operation. If the input voltage falls below the UVLO falling threshold voltage during normal operation,the device will stop switching. The UVLO rising and falling threshold voltage has a hysteresis to prevent noise-caused reset.Over-Temperature ProtectionThe RT8074 includes an over-temperature protection (OTP)circuitry to prevent overheating due to excessive power dissipation. The OTP will shut down switching operation when junction temperature exceeds a thermal shutdown threshold T SD (150°C). Once the junction temperature cools down by a thermal shutdown hysteresis (ΔT SD = 20°C),the IC will resume normal operation with a complete soft-start.Thermal ConsiderationsFor continuous operation, do not exceed absolute maximum junction temperature. The maximum power dissipation depends on the thermal resistance of the IC package, PCB layout, rate of surrounding airflow, and difference between junction and ambient temperature. The maximum power dissipation can be calculated by the following formula :P D(MAX) = (T J(MAX) − T A ) / θJAwhere T J(MAX) is the maximum junction temperature, T A isRT807410DS8074-08 November 2020 ©Copyright 2020 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.the ambient temperature, and θJA is the junction to ambient thermal resistance.For recommended operating condition specifications, the maximum junction temperature is 125°C. The junction to ambient thermal resistance, θJA , is layout dependent. For SOP-8 (Exposed Pad) packages, the thermal resistance,θJA , is 75°C/W on a standard JEDEC 51-7 four-layer thermal test board. The maximum power dissipation at T A = 25°C can be calculated by the following formula :P D(MAX) = (125°C − 25°C) / (75°C/W) = 1.333W for SOP-8 (Exposed Pad) package.The maximum power dissipation depends on the operating ambient temperature for fixed T J(MAX) and thermal resistance, θJA . The derating curve in Figure 3 allows the designer to see the effect of rising ambient temperature on the maximum power dissipation.Figure 3. Derating Curve of Maximum Power Dissipation0.00.20.40.60.81.01.21.4255075100125Ambient Temperature (°C)M a x i m u m P o w e r D i s s i p a t i o n (W )Layout ConsiderationsFollow the PCB layout guidelines for optimal performance of the IC.❝ Connect the terminal of the input capacitor(s), C IN , asclose as possible to the VIN pin. This capacitor provides the AC current into the internal power MOSFETs.❝ LX node experiences high frequency voltage swing andshould be kept within a small area.❝ Keep all sensitive small signal nodes away from the LXnode to prevent stray capacitive noise pick up.❝ Connect the FB pin directly to the feedback resistors.The resistive voltage divider must be connected between V OUT and GND.RT807411DS8074-08 November 2020©Copyright 2020 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.Figure 4. PCB Layout GuidePlace the compensation as close to the IC as possible.RT807412DS8074-08 November 2020 Richtek Technology Corporation14F, No. 8, Tai Yuen 1st Street, Chupei City Hsinchu, Taiwan, R.O.C.Tel: (8863)5526789Richtek products are sold by description only. Richtek reserves the right to change the circuitry and/or specifications without notice at any time. Customers shouldobtain the latest relevant information and data sheets before placing orders and should verify that such information is current and complete. Richtek cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Richtek product. Information furnished by Richtek is believed to be accurate and reliable. However, no responsibility is assumed by Richtek or its subsidiaries for its use; nor for any infringements of patents or other rights of third parties which may result from its use. No license is granted by implication or otherwise under any patent or patent rights of Richtek or its subsidiaries.Outline DimensionBFHMI(Bottom of Package)8-Lead SOP (Exposed Pad) Plastic Package。

DR.FISCHER导航灯泡P30S 00842069 12V/1.9A联吴：1885 9564 765 Q ：2781 499 592DR.FISCHER导航灯泡CC8 S11 00842465 (12V,3A P30S)DR.FISCHER导航灯泡CC8/ S11 12V 1.9A 00842069Dr.Fisher灯泡12v 1.9A P/N：185.1048－00（cc8 s11)Tideland导航灯泡185.1048-00ORGA 灯泡model : 12V,3A P30S CC8 S11 00842465Orga灯泡34B00800ORGA 导航板15S75030（010267）15S80010（010266）主轴承A200122J/WH主轴承A200122H/WH主轴承A200122D/WH主轴承A200025M/WH主轴承A200022N/WH主轴承装备918/313/WH汽缸盖密封垫片装置977-49/WH底部垫片装置900-1025/WH高压套筒工具包932-200/WH套筒工具包932-182/WH低压缩活塞205504P/WH气缸套205130S/WH气缸套205130R/WH盖气缸AD204702P/WH阀门O/H装备936-1017/WH阀门排气装置204436E/WH阀门进气装置204236K/WH阀门导管排气装置204109T/WH阀门导管进气装置204209N/WH座阀176450E/WH座阀176352K/WH座阀176352P/WH盖气缸AD204702P/WH阀门O/H装备936-1017/WH阀门排气装置204436E/WH阀门进气装置204236K/WH阀门导管排气装置204109T/WH阀门导管进气装置204209N/WH座阀176450E/WHORGA 导航板15S75030（010267）15S80010（010266）ORGA配件ORGA障碍灯L85EX-R-AC-32ORGA灯泡34B00800ORGALAMP RED BIAX\18W\ORGA/34S02420 EVX4070 （013691）ORGA34s02420（013691）BIAX 18wORGA 灯泡34T12075 （012202）荷兰ORGA控制模块010954。

2013—066(2)J O U R N A L O F上海电气技术S H A N G H A I E I。

EC T R I C T E C H N O L O G Y文章编号：1674—540X(2013)02—23—05以I)SP为控制器的蛔壳断路器四段保护功能检测系统设计郑刚1’(1．上海大学，上海200072；2．上海人民电器厂，上海200072)摘要：设计了一个塑壳断路器四段保护功能检测系统并对其进行了分析。

该系统以数字信号处理器(D SP)TM$320F28035为核心，配合相应的外围电路对塑壳断路器四段保护功能进行了测试，并给出了该测试系统的总体结构框图及各接口电路。

采用RS一485串行总线与上位机进行通信，并可在上位机设置相应的测试参数和显示测试结果。

关键词：塑壳断路器；数字信号处理器；四段保护功能中图分类号：TM56；T P274文献标识码：AD es i gn of M ol ded C as e C i r cui t—br e aker Four L evel Pr ot ect Funct i onT es t i ng Syst em B ased on D i gi t al Si gna l Pr oce s s orZ H E N G G a ng(1．Shanghai U ni ver s i t y，S hangha i200072，C hi na；2．S hanghai R e nm i n El ect r i cal A ppar at us W or ks，Shanghai200072，C hi na)A bst r act：A t es t i ng s yst em of m ol ded ca s e ci r cui t—br eaker f our l evel pr ot ec t f unct i on w a s des i gnedand anal y zed．T he s yst em m a de t he di gi t al s i gnal pr oce s sor(D S P)T M S320F28035as t he c or e，w i t h t he cor r espondi ng ci r cui t s and t es t i ng m ol ded cas e ci r cui t—br eaker f our l evel pr ot ec t f unct i on．O ver a l l st r uct ur e di agr am and t he i nt er f ace ci r cui t of t he pr ot ec t f unct i on t es t i ng s yst em w er e expounded．Thi s s ys t em adopt ed R S一485s er i al bus t o com m uni cat e w i t h t he PC．T he PC s et t he param et er s and di s pl ayed t he re sul t．K e y w or ds：m ol ded cas e ci r cui t—br eaker；di gi t al s i gnal pr oce ss or(D SP)；f our l evel pr ot ect f unc t i on采用选择性保护‘1：的低压配电系统可以保证供电的可靠性与连续性，是智能电网中低压配电端的发展方向之一。

C i r c u i t b r e a k e r sCircuit breakersTeSys GV, GBC ontrol and P rotection C omponentsChapterB60.75g g 1.1g g 1.5375 2.533.5 LR2 K0308GV2LE071.1g g –––––– 2.533.5 LR2 K0308GV2LE071.5g g 1.5g g 3375451 LR2 K0310GV2LE08––– 2.2g g –––451 LR2 K0312GV2LE082.2g g 3501004375 6.378 LR2 K0312GV2LE103g g 410100 5.537510138 LR2 K0314GV2LE144g g 5.510100–––10138 LR2 K0316GV2LE14––––––7.537510138 LRD 14GV2LE14––––––937514170 LRD 16GV2LE165.515507.56751137514170 LR2 K0321GV2LE167.5155096751537518223 LRD 21GV2LE20915401147518.537525327 LRD 22GV2LE2211154015475–––25327 LRD 22GV2LE2215105018.54752237532416LRD 32GV2LE32(1) As % of Icu.g ) > 100 kA.GV2 LE10D F 526144.t i fC i r c u i t b r e a k e r s0.09––––––0.45LRD 03GV2L030.12g g –––0.37g g 0.638LRD 04GV2L040.18g g ––––––0.638LRD 04GV2L04––––––0.55g g 113LRD 05GV2L050.25g g ––––––113LRD 05GV2L05––––––0.75g g 113LRD 06GV2L050.37g g 0.37g g –––113LRD 05GV2L050.55g g 0.55g g 1.1g g 1.622.5LRD 06GV2L06–––0.75g g ––– 1.622.5LRD 06GV2L060.75g g 1.1g g 1.54100 2.533.5LRD 07GV2L07Example: GV3 L32 becomes GV3 L326.(1) As % of Icu. Associated current limiter or fuses, where required. See characteristics page B6/33.g > 100 kA.GV2 L10D F 526145.t i fGV3 L65D F 526146.t i fTeSys GVThermal-magnetic motor circuit breakers GV2 ME0.06gg––––––0.16…0.252.4GV2ME020.09g g––––––0.25…0.405GV2ME030.12 0.18g g g g – –– –– – 0.37 –g–g –0.40…0.638GV2ME040.25gg––– 0.55gg0.63…113GV2ME050.37 0.55 –g g –g g –0.37 0.55 0.75g g g g g g – 0.75 1.1– g g – g g 1…1622.5GV2ME060.75g g1.1gg1.5375 1.6...2.533.5GV2ME071.1 1.5g g g g 1.5 2.2g g g g 2.2 3 3 375 75 2.5 (4)51GV2ME082.2gg350100 43754...6.378GV2ME103 4g g g g 4 5.510 10100 100 5.5 7.5 3 375 756 (10)138GV2ME145.5 –15 –50 –7.5 – 6 –75 – 9 11 3 375 759…14170GV2ME167.5155096751537513…18223GV2ME209154011475 18.537517…23327GV2ME2111154015475 –––20…25327GV2ME22 (3)15105018.54752237524 (32)416GV2ME32Motor circuit breakers from 0.06 to 15 kW / 400 V, with lugsTo order thermal magnetic circuit breakers with connection by lugs, add the digit 6 to the end of reference selected above.Example: GV2 ME08 becomes GV2 ME086.Thermal magnetic circuit breakers GV2 ME with built-in auxiliary contact block With instantaneous auxiliary contact block (composition, see page B6/11):b GV AE1, add suffix AE1TQ to the motor circuit breaker reference selected above. Example: GV2 ME01AE1TQ .b GV AE11, add suffix AE11TQ to the motor circuit breaker reference selected above. Example: GV2 ME01AE11TQ .b GV AN11, add suffix AN11TQ to the motor circuit breaker reference selected above. Example: GV2 ME01AN11TQ .These circuit breakers with built-in contact block are sold in lots of 20 units in a single pack.(1) As % of Icu.(2) The thermal trip setting must be within the range marked on the graduated knob.(3) Maximum rating which can be mounted in enclosures GV2 MC or MP , please consult your Regional Sales Office. g > 100 kA.GV2 ME10D F 526134.t i fC i r c u i t b r e a k e r sTeSys GVTeSys protection componentsThermal-magnetic motor circuit breakers GV2 MEReferences0.06g g ––– 0.16…0.25 2.4GV2ME0230.09g g ––– 0.25…0.405GV2ME0330.120.18g g g g –––0.40…0.638GV2ME0430.250.37g g g g 0.37g g 0.63…113GV2ME0530.370.55g g g g 0.370.550.75g g g g g g 1…1.622.5GV2ME0630.75g g1.1g g 1.6…2.533.5GV2ME0731.11.5g g g g 1.52.2g g g g 2.5…451GV2ME0832.2g g 350100 4…6.378GV2ME10334g g g g 45.510101001006…10138GV2ME1435.515507.5675 9…14170GV2ME1637.515509675 13…18223GV2ME203911151540401147517…23327GV2ME2131115401547520 (25)327GV2ME223Contact blocksDescription Mounting Maximum number Type of contacts Sold in lots of Unitreference Instantaneous auxiliary contactsFront 1N/O + N/C 10GVAE113N/O + N/O 10GVAE203LH side2N/O + N/C 1GVAN113N/O + N/O1GVAN203AccessoryDescriptionApplicationSold in lots of Unitreference Cable end reducerFor connection of conductors from 1 to 1.5 mm 220LA9D99(1) For connection of conductors from 1 to 1.5 mm 2, the use of an LA9 D99 cable end reducer is recommended.(2) Maximum rating which can be mounted in enclosures GV2 MC or MP , please consult your Regional Sales Office (3) The thermal trip setting must be within the range marked on the graduated knob.g > 100 kA.GV2 ME pp 3D F 526135.t i fLA9 D99D F 533898.e p sTeSys GVReferencesTeSys protection componentsThermal-magnetic motor circuit breakersGV2 P, GV3 P and GV3 ME80GV2 P10D F 526137.t i fGV3 P65D F 526139.t i fGV3 P651D F 526140.t i fC i r c u i t b r e a k e r sTeSys GVReferences93610011181001581007.59707010010091150501001001115101010010012…20GV7RS20 2.0109113636100100111518181001001518.58810010015…25GV7RE25 2.0109117070100100111550501001001518.5101010010015…25GV7RS25 2.01018.53610018.522181810010022810025…40GV7RE40 2.01018.57010018.550100221010025…40GV7RS40 2.0102236100301810030810030…50GV7RE50 2.01522701003050100301010030 (50)GV7RS502.01537361004555181810010055810048...80GV7RE80 2.040377010045555050100100551010048...80GV7RS80 2.0404536100–1810075810060...100GV7RE100 2.0404570100–50100751010060...100GV7RS100 2.0405575353510010075903030100100901108810010090 (150)GV7RE1502.020557570701001007590505010010090110101010010090…150GV7RS150 2.02090110353510010011013216030303010010010016020088100100132…220GV7RE220 2.3509011070701001001101321605050501001001001602001010100100132…220GV7RS220 2.350(1) As % of lcu.TeSys protection componentsThermal-magnetic motor circuit breakers GV7 RGV7 RE40D F 526138.t i fGV7 RS220D F 526141.t i f0.12–0.120.180.18–0.370.40…0.6313GV2RT040.090.120.250.370.250.370.370.550.63…122GV2RT050.180.250.370.550.370.550.370.550.750.751.11…1.633GV2RT060.370.750.751.1 1.11.51.6…2.551GV2RT070.550.75 1.11.5 1.51.52.2 2.23 2.5…478GV2RT081.12.22.23344…6.3138GV2RT101.52.234445.5 5.57.56…10200GV2RT142.23 5.55.57.57.59119…14280GV2RT1647.57.5991513…18400GV2RT205.5911111118.517…23400GV2RT21(1) The thermal trip setting must be within the range marked on the graduated knob.GV2 RTD F 526142.t i fC i r c u i t b r e a k e r sblack handle, blue legend plate(1) The thermal trip setting must be within the range marked on the graduated knob.(2) Other accessories such as mounting, cabling and marking accessories are identical to those used for GV2 ME motor circuit breakers, see page B6/13.GV2 RTD F 526142.t i fD F 526340.e p sC i r c u i t b r e a k e r sTeSys GVDescription Mounting Maximum number Type of contacts Sold inlots of Unitreference Instantaneous auxiliary contactsFront (1)1N/O or N/C (2)10GVAE1N/O + N/C 10GVAE11N/O + N/O10GVAE20Side (LH)2N/O + N/C1GVAN11N/O + N/O1GVAN20Fault signalling contact + instantaneous auxiliary contact Side (3) (LH)1N/O (fault)+ N/O1GVAD1010+ N/C1GVAD1001N/C (fault)+ N/O1GVAD0110+ N/C1GVAD0101Short-circuit signalling contactSide (LH)1C/O common point1GVAM11(1 block on RH sideof circuit breaker GV2 ME)50 Hz GVAX11560 Hz GVAX116127 V60 Hz GVAX115220…240 V 50 Hz GVAX22560 Hz GVAX226380…400 V50 Hz GVAX38560 Hz GVAX386415…440 V 50 Hz GVAX415440 V60 Hz GVAX385Add-on contact blocksDescriptionMountingMaximum number Reference Visible isolation block (5)Front (1)1GV2AK00 (6)LimitersAt top(GV2 ME and GV2 P)1GV1L3Independent1LA9LB920(1) Mounting of a GV AE contact block or a GV2 AK00 visible isolation block on GV2 P and GV2 L .(2) Choice of N/C or N/O contact operation, depending on which way round the reversible block is mounted.(3) The GV AD is always mounted next to the circuit breaker.(4) To order an undervoltage trip: replace the dot (p ) in the reference with a U , example: GV AU025. To order a shunt trip: replace the dot (p ) in the reference with an S , example: GV AS025.(5) Visible isolation of the 3 poles upstream of circuit breaker GV2 P and GV2 L .Visible isolation block GV2 AK00 cannot be used with motor circuit breakers GV2 P32 and GV2 L32 (Ith max = 25 A).(6) Ie Max = 32 A.ReferencesTeSys protection componentsThermal-magnetic and magnetic motor circuit breakers GV2 with screw clamp connectionsAdd-on blocks and accessoriesCharacteristics:pages B6/89 and B6/94Dimensions, schemes:pages B6/70 to B6/82LA9LB920D B 126629.e p sC i r c u i t b r e a k e r sTeSys GVTerminal blockfor supply to one or more GV2 G busbar setsConnection from the top1GV1G09Can be fitted with current limiter GV1 L3 (GV2 ME and GV2 P)1GV2G05Cover for terminal block For mounting in modular panels10LA9E07Flexible 3-pole connection for connecting a GV2 to a contactor LC1-D09…D25 Centre distance between mounting rails: 100…120 mm10GV1G02Set of connections upstream/downstream For connecting GV2 ME to a printed circuit board 10GV2GA01“Large Spacing” adapter UL 508 type EFor GV2 P pp H7 (except 32 A)1GV2GH7Clip-in marker holders (supplied with each circuit breaker)For GV2 P , GV2 L, GV2 LE and GV2 RT (8 x 22 mm)100LA9D92ReferencesTeSys protection componentsThermal-magnetic and magnetic motor circuit breakers GV2 with screw clamp connectionsAccessoriesDimensions, schemes:pages B6/70 to B6/82D B 417942.e p sTeSys GVD B 126631.e p sD B 126630.e p sD B 126632.e p s7P B 106297_45.e p sExtended Rotary HandleAllows a circuit breaker or a starter-controller installed in back of an enclosure to be operated from the front of the enclosure.A rotary handle can be black or red/yellow, IP54 or IP65. It includes a function for locking the circuit breaker or the starter in the O (Off) or I (On) position(depending of the type of rotary handle) by means of up to 3 padlocks with a shank diameter of 4 to 8 mm. The extended shaft must be adjusted to use in different size enclosures. The IP54 rotary handle is fixed with a nut (Ø22) to make easierthe assembling. The new Laser Square tool brings the accuracy to align the circuit breaker and the rotary handle.device(padlocks not included)ReferencesTeSys protection componentsThermal-magnetic and magnetic motor circuit breakers GV2 with screw clamp connectionsC i r c u i t b r e a k e r sTeSys GVDescriptionMounting Maximum number Type of contacts Sold inlots of Unitreference Instantaneous auxiliary contactsFront1N/O or N/C (1)10GVAE1N/O + N/C 10GVAE11 (2)N/O + N/O10GVAE20 (2)Side (LH)2N/O + N/C1GVAN11 (2)N/O + N/O1GVAN20 (2)Fault signalling contact + instantaneous auxiliary contactFront 1N/O (fault)+ N/O1GVAED101 (2)N/O (fault)+ N/C1GVAED011 (2)Side (3) (LH)1N/O (fault)+ N/O1GVAD1010+ N/C1GVAD1001N/C (fault)+ N/O1GVAD0110+ N/C1GVAD0101Short-circuit signalling contact Side (LH)1C/O common point 1GVAM11(4)MountingVoltage ReferenceSide(1 block on RH side of circuit breaker)24 V 50 Hz GVA p 02560 Hz GVA p 02648 V 50 Hz GVA p 05560 Hz GVA p 05610050 Hz GVA p 107100…110 V 60 Hz GVA p 107110…115 V 50 Hz GVA p 11560 Hz GVA p 116120…127 V 50 Hz GVA p 125127 V 60 Hz GVA p 115200 V50 Hz GVA p 207200…220 V 60 Hz GVA p 207220…240 V 50 Hz GVA p 22560 Hz GVA p 226380…400 V 50 Hz GVA p 38560 Hz GVA p 386415…440 V 50 Hz GVA p 415415 V 60 Hz GVA p 416440 V 60 Hz GVA p 385480 V 60 Hz GVA p 415500 V 50 Hz GVA p 505600 V60 HzGVA p 505AccessoriesDescription Reference Sets of 3-pole 115 A busbars Pitch: 64 mm2 tap-off GV3 P pp and GV3 L pp GV3G2643 tap-off GV3 P pp and GV3 L pp GV3G364Cover “Large Spacing” UL 508 type E (Only one cover required on supply side)GV3 P ppGV3G66(1) Choice of N/C or N/O contact operation, depending on which way round the reversible block is mounted.(2) Contact blocks available in version with spring terminal connections. Add a figure 3 at the end of the references selected above. Example: GV AED101 becomes GV AED1013.(3) The GV AD pp is always mounted next to the circuit breaker.(4) To order an undervoltage trip: replace the dot (p ) in the reference with a U , example: GV AU025. To order a shunt trip: replace the dot (p ) in the reference with an S , example: GV AS025.Add-on blocks and accessoriesGV3 G66D F 537424.e p sTeSys GVD B 126637.e p sD B 126636.e p sD B 126632.e p s7P B 106297_45.e p sExtended Rotary HandleAllows a circuit breaker or a starter-controller installed in back of an enclosure to be operated from the front of the enclosure.A rotary handle can be black or red/yellow, IP54 or IP65. It includes a function for locking the circuit breaker or the starter in the O (Off) or I (On) position(depending of the type of rotary handle) by means of up to 3 padlocks with a shank diameter of 4 to 8 mm. The extended shaft must be adjusted to use in different size enclosures. The IP54 rotary handle is fixed with a nut (Ø22) to make easierthe assembling. The new Laser Square tool brings the accurency to align the circuit breaker and the rotary handle.For English 10-GVAPSEN For German 10-GVAPSDE For Spanish10-GVAPSES For Chinese 10-GVAPSCN For Portuguese 10-GVAPSPT For Russian 10-GVAPSRU For Italian10-GVAPSITD F 526342.e p sB6/21C i r c u i t b r e a k e r sTeSys GVfor locking the Start button (on open-mounted product)using up to 3 padlocks(padlocks to be ordered separately)External operator for mounting on enclosure door.Red Ø40 knob on yellow plate, padlockable in position O (with up to 3 padlocks). Door locked when knob in position I, and when knob padlocked in position O.GK3AP03(1) 1 voltage trip OR 1 fault signalling contact to be fitted inside the motor circuit breaker.Other versions24 to 690 V, 50 or 60 Hz voltage trips for circuit breakers GV3 ME80.Please consult your Regional Sales Office.ReferencesTeSys protection componentsMotor circuit breakers GV3 ME80 and GK3 EF80Add-on blocks and accessoriesCharacteristics:pages B6/89 and B6/92Dimensions:page B6/47B6/22D F 526344.e p sB6/23C i r c u i t b r e a k e r sTeSys GVThese allow remote indication of the circuit breaker contact states. They can be used for signalling, electrical locking, relaying, etc. They are available in two versions: standard and low level. They include a terminal block and the auxiliary circuits leave the circuit breaker through a hole provided for this purpose.They perform the following functions, depending on where they are located in the circuit breaker:Low levelGV7AB11Fault discrimination devicesThese make it possible to:b either differentiate a thermal fault from a magnetic fault,b or open the contactor only in the event of a thermal fault.VoltageReference a 24...48 and c 24…72 V GV7AD111 (1)z 110…240 VGV7AD112 (1)Electric tripsThese allow the circuit breaker to be tripped via an electrical control signal.b Undervoltage trip GV7 AUv Trips the circuit breaker when the control voltage drops below the tripping threshold, which is between 0.35 and 0.7 times the rated voltage.v Circuit breaker closing is only possible if the voltage exceeds 0.85 times the rated voltage. Circuit breaker tripping by a GV7 AU trip meets the requirements of IEC 60947-2.b Shunt trip GV7 ASTrips the circuit breaker when the control voltage rises above 0.7 times the rated voltage.b Operation (GV7 AU or GV7 AS)v When the circuit breaker has been tripped by a GV7 AU or AS, it must be reset either locally or by remote control. (For remote control, please consult your Regional Sales Office).v Tripping has priority over manual closing: if a tripping instruction is present, manual action does not result in closing, even temporarily, of the contacts.v Durability: 50 % of the mechanical durability of the circuit breaker.TypeVoltageReference Undervoltage trip48 V, 50/60 HzGV7AU055 (1)110…130 V, 50/60 Hz GV7AU107 (1)200…240 V, 50/60 Hz GV7AU207 (1)380…440 V, 50/60 Hz GV7AU387 (1)525 V, 50 HzGV7AU525 (1)Shunt trip48 V, 50/60 HzGV7AS055 (1)110…130 V, 50/60 Hz GV7AS107 (1)200…240 V, 50/60 Hz GV7AS207 (1)380…440 V, 50/60 Hz GV7AS387 (1)525 V, 50 HzGV7AS525 (1)(1) For mounting of a GV7 AD or a GV7 AU or AS.ReferencesTeSys protection componentsThermal-magnetic motor circuit breakers GV7 R with screw clamp connectionsAdd-on blocks and accessoriesCharacteristics:pages B6/51, B6/52 and B6/56Dimensions:pages B6/79 to B6/81Schemes:page B6/83B6/24B6/25C i r c u i t b r e a k e r sTeSys GVDescription ApplicationFor use on contactors Sold in lots of Unitreference Clip-on connectors for GV7 RUp to 150 A, 1.5…95 mm 2–3GV7AC021Up to 220 A, 1.5…185 mm 2–3GV7AC022Spreader 3-pole (1)To increase the pitch to 45 mm–1GV7AC03Terminal shields IP 405 (1)Supplied with sealing accessory–1GV7AC01Phase barriersSafety accessories used when fitting of shields is impossible –2GV7AC04Insulating screens Ensure insulation between the connections and the backplate –2GV7AC05Kits for combination with contactor (2)Allowing link between thecircuit breaker and the contactor. The cover provides protection against direct finger contactLC1 F115…F1851GV7AC06LC1 F225 and F2651GV7AC07LC1 D115 and D1501GV7AC08Replaces the circuit breaker front cover; secured by screws. It includes a device for locking the circuit breaker in the O (Off) position by means of up to 3 padlocks with a shank diameter of 5 to 8 mm (padlocks not included). A conversion accessory allows the direct rotary handle to be mounted on the enclosure door. In this case, the door cannot be opened if the circuit breaker is in the “ON” position. Circuit breaker closing is inhibited if the enclosure door is open.Description TypeDegree of protection Reference Direct rotary handleBlack handle, black legend plate IP 40GV7AP03Red handle, yellow legend plateIP 40GV7AP04Adapter plate (3)Four mounting direct rotary handle on enclosure doorIP 43GV7AP05Allows a circuit breaker installed in the back of an enclosure to be operated from the front of the enclosure. It comprises:b a unit which screws onto the front cover of the circuit breaker,b an assembly (handle and front plate) to be fitted on the enclosure door,b an extension shaft which must be adjusted (distance between the mounting surface and the door: 185 mm minimum, 600 mm maximum). It includes a device for locking the circuit breaker in the O (Off) position by means of up to 3 padlocks with a shank diameter of 5 to 8 mm (padlocks not included). This prevents the enclosure door from being opened.DescriptionTypeDegree of protection Reference Extended rotary handleBlack handle, black legend plate IP 55GV7AP01Red handle, yellow legend plateIP 55GV7AP02Allows circuit breakers not fitted with a rotary handle to be locked in the O (Off) position by means of up to 3 padlocks with a shank diameter of 5 to 8 mm (padlocks not included).Description ApplicationReference Locking deviceFor circuit breaker not fitted with a rotary handleGV7V01(1) Terminal shields cannot be used together with spreaders.(2) The kit comprises links, a protective shield and a depth adjustable metal bracket for the breaker.(3) This conversion accessory makes it impossible to open the door if the device is closed and prevents the device from being closed if the door is open.ReferencesTeSys protection componentsThermal-magnetic motor circuit breakers GV7 R with screw clamp connectionsAccessoriesGV7 AC07D F 537429.e p sGV7 AC08D F 537428.e p sDimensions:pages B6/79 to B6/81B6/260.5 6.63GB2DB051143GB2DB062263GB2DB073403GB2DB084503GB2DB095663GB2DB106833GB2DB1281083GB2DB14101383GB2DB16121653GB2DB20162203GB2DB21202703GB2DB22(1) Conforming to IEC 60947-1.GB2 CBppD F 526243.t i fGB2 CD ppD F 526244.t i fGB2 DBppD F 526245.t i fPresentation, selection :page B6/84Characteristics :pages B6/85 to B6/87Dimensions :page B6/88Schemes :page B6/88B6/27C i r c u i t b r e a k e r s(1) Conforming to IEC 60947-1.Accessories for circuit breakers GB2-CB, DB and CSDescriptionSold in lots of Unitreference Busbar set for supply to 10 GB2 DB or20 GB2 CB or GB2 CS with 2 connectors1GB2G210Supply connector 10GB2G01GB2 CS ppD F 526246.t i fPresentation, selection :page B6/84Characteristics :pages B6/85 to B6/87Dimensions :page B6/88Schemes :page B6/88B6/28B6/29B6/30TeSys GVCharacteristicsTeSys protection componentsMagnetic motor circuit breakers GV2 LE and GV2 LReferences:pages B6/2 and B6/3Dimensions:pages B6/43 to B6/47Schemes:page B6/48add-on contact blocks. Side by side mounting is possible up to 40 °C.(2) When mounting on a vertical rail, fit a stop to prevent any slippage.(1) As % of Icu.Average operating times at 20 °C related to multiples of the setting currentD F 534092.e p s1 3 poles from cold state2 2 poles from cold state3 3 poles from hot stateDynamic stressI peak = f (prospective Isc) at 1.05 Ue = 435 VD F 534093.e p s1 Maximum peak current2 32 A3 25 A4 18 A5 14 A6 10 A7 6.3 A8 4 A9 2.5 A 10 1.6 A11 Limit of rated ultimate breaking capacity on short-circuit of GV2 LE (14, 18, 23 and 25 A ratings).Dynamic stressI peak = f (prospective Isc) at 1.05 Ue = 435 VD F 534094.e p s1 Maximum peak current2 32 A3 25 A4 18 A5 14 A6 10 A7 6.3 A8 4 A9 2.5 A 10 1.6 A11 Limit of rated ultimate breaking capacity on short-circuit of GV2 LE (14, 18, 23 and 25 A ratings).Thermal limit in kA 2s in the magnetic operating zone Sum of I 2dt = f (prospective Isc) at 1.05 Ue = 435 V22Prospective Isc (kA)D F 534095.e p s1 32 A 2 25 A3 18 A4 14 A5 10 A6 6.3 A7 4 A8 2.5 A9 1.6 AThermal limit in kA 2s in the magnetic operating zone Sum of I 2dt = f (prospective Isc) at 1.05 Ue = 435 V22D F 534096.e p s1 25 A and 32 A 2 18 A3 14 A 4 10 A5 6.3 A6 4 A7 2.5 A8 1.6 AThermal limit in kA 2s in the magnetic operating zone Sum of I 2dt = f (prospective Isc) at 1.05 Ue = 435 V22D F 534097.e p s1 32 A (GV2 LE32)2 25 A and 32 A (GV2 L32)3 18 A4 14 A5 10 A6 6.3 A7 4 A8 2.5 A9 1.6 A10 Limit of rated ultimate breaking capacity on short-circuit of GV2 LE (14, 18, 23 and 25 A ratings).Average operating time at 20 °C without prior current flowx the setting current (Ir)D F 534098.e p s1 3 poles from cold state2 2 poles from cold state3 3 poles from hot stateA Thermal overload relay protection zoneB GV3 L protection zoneDynamic stressI peak = f (prospective Isc) at 1.05 Ue = 435 VProspective Isc (kA)D B 418280.e p s1 Maximum peak current2 GV3 L653 GV3 L504 GV3 L405 GV3 L326 GV3 L25Thermal limit in A 2sSum of I 2dt = f (prospective Isc) at 1.05 Ue = 435 V2Prospective Isc (kA)D B 418279.e p s1 GV3 L652 GV3 L503 GV3 L404 GV3 L325 GV3 L25TeSys GVDimensions, mountingD F 537440.e p sD F 537441.e p sD F 537444.e p sTeSys protection componentsMagnetic motor circuit breakers GV2 L and GV2 LETeSys GVDimensions, mounting TeSys protection componentsMagnetic motor circuit breakers GV2 L and GV2 LED B 127415.e p sD B 127414.e p sa b Mini Maxi Mini Maxi GV2 APN pp140250GV2 APN pp + GV APH02151250GV2 APN pp + GV APK11250434--GV2 APN pp + GV APH02 + GV APK11--250445TeSys GVDimensions,mounting Sets of busbars GV2 G445, GV2 G454, GV2 G472, with terminal block GV2 G05D F 537451.e p sGV2 G445224269314359GV2 G454260314368422GV2 G472332404476548D F 537452.e p sD F 537454.e p sGV2 G345 (3 x 45 mm)134GV2 G354 (3 x 54 mm)152TeSys protection componentsMagnetic motor circuit breakers GV2 L and GV2 LED F 537480.e psD F 537435.e p sD F 510637.e p sD F 510638.e p sD B 127416.e p sD B 127417.e p sa b Mini Maxi Mini Maxi GV3 APN pp189300--GV3 APN pp + GV APK12300481GV3 APN pp + GV APH03--200300GV3 APN pp + GV APH03 + GV APK12--300492TeSys GVSchemesTeSys protection componentsMagnetic motor circuit breakers GV2 L, GV2 LE, GV3 LD F 537474.e p sD F 537475.e p sD F 537476.e p sGV2 ME, GV2 P , GV3 ME, GV3 P and GV7 R motor circuit breakers are 3-pole thermal-magnetic circuit breakers specifically designed for the control and protection of motors , conforming to standards IEC 60947-2 and IEC 60947-4-1.Connection GV2GV2 ME and GV2 P circuit breakers are designed for connection by screw clamp terminals.Circuit breaker GV2 ME can be supplied with lugs or spring terminal connections.Spring terminal connections ensure secure, permanent and durable clamping that is resistant to harsh environments, vibration and impact and are even more effective when conductors without cable ends are used. Each connection can take two independent conductors.GV3GV3 circuit breakers feature connection by BTR screws (hexagon socket head), tightened using a n° 4 Allen key.This type of connection uses the Ever Link ® system with creep compensation (1) (Schneider Electric patent).This technique makes it possible to achieve accurate and durable tightening torque, in order to avoid cable creep.GV3 circuit breakers are also available with connection by lugs. This type of connection meets the requirements of certain Asian markets and is suitable for applications subject to strong vibration, such as railway transport.GV7GV7 circuit breakers: with connection by screw clamp terminals (for bars and lugs) and by clip-on connectors.OperationControl is manual and local when the motor circuit breaker is used on its own.Control is automatic and remote when it is associated with a contactor.GV2 ME and GV3 ME80Pushbutton control.Energisation is controlled manually by operating the Start button “I” 1.De-energisation is controlled manually by operating the Stop button “O” 2, or automatically by the thermal-magnetic protection elements or by a voltage trip attachment.GV2 P , GV3 P and GV7 Rb Control by rotary knob: for GV2 P and GV3 P b Control by rocker lever: for GV7 R.Energisation is controlled manually by moving the knob or rocker lever to position “I” 1.De-energisation is controlled manually by moving the knob or rocker lever to position “O” 2.De-energisation due to a fault automatically places the knob or rocker lever in the “Trip” position 3.Re-energisation is possible only after having returned the knob or rocker lever to position “O”.(1) Creep: normal crushing phenomenon of copper conductors, that is accentuated over time.GV2 MEwith screw clamp terminals124D F 526134.t i fGV2 MEwith spring terminals connections124D F 526135.t i fGV3 P1324D F 526136.t ifGV2 P1342D F 526137.t i fGV7 R132D F 526138.t i f。

190003844559六角头自攻螺钉--自攻螺钉GB5285-85-ST6.3*22-C 190014040008平垫圈199100720020橡胶密封垫AZ1600230261左后挡泥板AZ1600240016新款U型踏板架总成（左）AZ1600441102驾驶室固定横梁焊接总成(济南沃德)AZ1608110001前围护面AZ1608210025左车门内板/85626302003AZ1608210026右车门内板（与左件对称）/85626302004见2003 AZ1608271001左地板带骨架总成AZ1608271002右地板带骨架总成AZ1608740004雨刮电机支架/852********AZ1608840035风机操纵标志/81619900069AZ1630240080下防滑板AZ1630330028摇把(内饰件厂）AZ1630820312空调线束总成AZ1632190001后围总成（带中间后窗、带侧窗、四点悬浮）AZ1632274012右地板带骨架总成（EGR、TGA车架）AZ1633170001顶盖总成(无顶窗）AZ1642160011左除霜风道总成（5310025）AZ1642160014右侧除霜风道总成（5310030）与5310025对称）AZ1642160017左下风道总成（5310035）AZ1642160023右下风道总成（5310040）AZ1642160025前除霜风道总成（5310050）AZ1642160031左侧风道总成（5310055）AZ1642160037右侧风道总成（5310070）AZ1642160042中后风道总成（5310065）AZ1642160124水杯架前端盖（5310801）AZ1642160138装饰条总成-中部（5310295）AZ1642160146塑料销座（5310294）AZ1642160150出风口总成（5310300）AZ1642160175副司机侧装饰条总成（5310375）AZ1642160214仪表台中上部软垫（5310564）AZ1642160232转向柱左侧装饰条总成（5310625）AZ1642160234转向柱右侧装饰条总成（5310630）AZ1642160243便携式烟灰缸总成（5310720）AZ1642161242点烟器孔盖AZ1642180007风窗下骨架/1592143AZ1642180016油缸支架总成/1592467AZ1642210031加强板/1610671AZ1642210039下后视镜加强板/1082116AZ1642210049加强板/1592190AZ1642210055加强板/1592244AZ1642210060加强板1614543AZ1642210061左车门内板加强板/1592208AZ1642241302保险杠总成AZ1642430051左摆臂总成AZ1642430052右摆臂总成（与左件对称）AZ1642430093上限位拉杆3AZ1642430097橡胶限位块AZ1642430110左悬支架总成AZ1642430120右悬支架总成AZ1642440011左下支架AZ1642440013左下支架AZ1642440014右下支架（与左件对称）AZ1642440081左下支架AZ1642440081左下支架AZ1642440082右下支架（与左件对称）AZ1642448083左下支架（320sus/+114.5/940车架） 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左挡泥板主支架总成AZ1664230061 高地板低位踏板左托架总成AZ1664230062 高地板低位踏板右托架总成（与左件对称）AZ1664230074 高地板高位上级踏板右托架（与左件对称）AZ1664230185 上堵盖AZ1664230205 下堵盖AZ1664233025 高地板低位翼子板左中支架总成AZ1664233030 高地板低位翼子板左前支架总成AZ1664233032 高地板低位翼子板右前支架总成（与左件对称）AZ1664233035 高地板低位左后支架总成AZ1664233036 高地板低位右后支架总成（与左件对称）AZ1664233155 高地板低位翼子板右中支架总成(与左件对称) AZ1664233225 左固定支架AZ1664233226 右固定支架（与左件对称）AZ1664430021 翻转轴装配总成AZ1664430080 限位拉杆总成AZ1664430093 驾驶室前悬上限位块AZ1664430094 驾驶室前悬下限位块总成AZ1664430103 驾驶室前减振器总成（空气弹簧/305sus/115直径）AZ1664430245 调整杆总成(济南沃德)AZ1664440069 驾驶室后减振器总成（空气弹簧/395sus）AZ1664820106 压-冷软管(大马力)AZ1664820111 冷-蒸软管冷凝器段(大马力)AZ1664870055 橡胶垫AZ1672870106 橡胶垫AZ1672870130 密封胶垫AZ1684820009 蒸、压连接管AZ1684820010 压、冷软管总成AZ9100530126 Y型件AZ9112531076 护风罩总成AZ9114520516 前簧吊耳总成AZ9118180201 减压阀支架AZ9125477032 螺旋回油管AZ9125477033 螺旋回油管AZ9125510474 前支撑板AZ9125510476 前支撑板AZ9125931001 鞍座安装板（济南沃德）AZ9130360014 橡胶垫片（前）AZ9325930041 踏板支架左拉板AZ9325930042 踏板支架右拉板AZ9325930045 踏板支架左拉板AZ9325930046 踏板支架右拉板AZ9632530006 护风罩总成（济南沃德）AZ9716772001 EGR驾驶室电线束AZ9716772010 EGR驾驶室电线束AZ9718580002 ECU安装支架（WABCO）AZ9719360050 组合支架AZ9719471050 转向轴带管柱总成AZ9719770003 驾驶室顶蓬电线束（普通收放机）AZ9719770005 标准驾驶室底部电线束AZ9719770006 驾驶室顶蓬电线束AZ9719770007 阅读灯电线束AZ9719770009 加长驾驶室底部电线束AZ9719820008 驾驶室翻转油缸支承轴IAZ9719820010 驾驶室翻转油缸支承轴IIAZ9719820030 限位拉带支座(济南沃德)AZ9719930314 左后支架总成AZ9719930395 举升油泵支架总成(用于右置车)AZ9725316041 支承角板AZ9725316048 支承角板AZ9725316052 支承角板AZ9725316053 支承角板AZ9725360001 HOWO组合踏板操纵总成AZ9725360002 HOWO组合踏板操纵总成(带离合器制动）AZ9725360021 HOWO组合踏板操纵总成AZ9725360023 HOWO组合踏板操纵总成AZ9725360024 HOWO组合踏板操纵总成(带离合器制动) AZ9725512021 右支承板AZ9725512024 后支承板AZ9725516015 衬板AZ9725516016 衬板AZ9725520042 间隔板AZ9725530227 风扇护风罩总成(济南沃德)AZ9725538242 风扇护风罩总成AZ9725540132 斜支撑梁AZ9725540135 隔热板（济南沃德）AZ9725540138 橡胶垫AZ9725540157 橡胶垫AZ9725570050 电子油门总成(HW8)AZ9725584002 继电器支架总成AZ9725590361 弯管AZ9725770010 驾驶室电线束（BW）AZ9725776100 驾驶室电线束AZ9725778001 驾驶室电线束AZ9725778005 高顶驾驶室顶蓬电线束AZ9725778007 加长驾驶室顶蓬电线束AZ9725778009 高顶驾驶室顶蓬电线束(MTCO1324)AZ9725778126 牵引车底盘电线束（STR双桥/出口伊朗用）AZ9725930002 保险杠支架AZ9725930040 洗涤器水箱支架总成AZ9725930535 踏板支架左拉板(济南沃德)AZ9725930536 踏板支架右拉板(济南沃德)AZ9725930600 牵引座总成(高：150mm)AZ9725930610 牵引座总成(90#高:165mm)AZ9725930701 前防钻保护架总成(标准保险杠用)AZ9725930702 保险杠前支架(右)AZ9725930704 标准保险杠下支架总成AZ9725930706 上车踏板支架总成AZ9725930708 保险杠前支架(左)AZ9725930710 支撑板AZ9725930711 踏板支架总成AZ9725930801 前防钻保护架总成(豪沃10款新保险杠) AZ9725930816 支架总成AZ9725930820 保险杠前支架总成AZ9725930830 上车踏板支架总成AZ9725930837 前防钻支架拉板总成AZ9725951010 左支架总成AZ9725951011 右支架总成AZ9770770005 70矿车驾驶室顶蓬电线束AZ9770772101 国Ⅱ70矿车驾驶室电线束AZ9770772201 国Ⅲ70矿车驾驶室电线束AZ9918770001 驾驶室线束(VDO/国Ⅲ)AZ9918770061 左车门电线束（高配/RKE）AZ9918770062 右车门电线束（高配/RKE）AZ9918770101 驾驶室线束(VDO/国Ⅲ)AZ9925190021 管夹（沃德）AZ9925190070 空滤器支架总成AZ9925190071 辅助支架（沃德）AZ9925360020 组合支架AZ9925360501 手制动阀支架总成(济南沃德)AZ9925530026 管夹（沃德）AZ9925540080 消声器总成AZ9925720001 前大灯左支架AZ9925720002 前大灯右支架(与左件对称)AZ9925770005 左前照灯线束AZ9925770006 右前照灯线束AZ9925820020 驾驶室举升撑条总成(济南沃德)Q150B1255 六角头螺栓[常熟二标]Q151B1690 六角头螺栓Q151B20200 六角头螺栓Q151B20240TF2 六角头螺栓Q151B2090 六角头螺栓Q2140610F31 十字槽盘头螺钉Q340B20 I型六角螺母Q3720616 铆接螺母Q40120 平垫圈Q43660F3 开口挡圈Q43680F3 开口挡圈Q4400410T19 开口型扁园头抽芯铆Q4410418 抽芯铆钉Q675210 软管卡箍Q675240 软管卡箍Q675290 软管卡箍Q67535 软管环箍Q676B29 软管卡箍19/29SZ9130772003 内照明灯/示高灯线束（平顶）VG1099040018 摇臂上罩密封圈WG1095139011 制冷压缩机（多楔带）WG1500010079 带纤维夹层的橡胶软管WG1500139004 制冷压缩机WG1600111040 STEYR标牌总成WG1600860202+001 风窗洗涤器WG1603840072 暖风胶管20*1380WG1608230076 外压板WG1608230078 内压条WG1608241160 08版整体保险杠总成(钢制)WG1608330036塑料卡扣WG1608330038带裙螺栓WG1608740005异形簧片螺母(M6)WG1608741002王子右置刮水器装置WG1608771103右后视镜支架总成WG1630740002+005雨刮片WG1630741002雨刮器总成WG1630840323英文版操纵面板总成WG1631230003标准右翼子板WG1631231021王子左后翼子板WG1631231022王子右后翼子板WG1632110004卡簧螺母WG1632110015左导风罩(与右件对称）WG1632110016右导风罩WG1632110019散热器面罩WG1632230121右后翼子板WG1632230122左后翼子板(与右件对称)WG1632231005左翼子板WG1632231006右翼子板WG1632241021左上车踏板（与右件对称）WG1632241022右上车踏板WG1632340001门锁总成WG1641230020短驾驶室左前翼子板WG1641230021短驾驶室右前翼子板（与左件对称）WG1641230028后挡板WG1641230029左连接支架WG1641230030右连接支架WG1641230051左前翼子板后段总成WG1641230052右前翼子板后段总成WG1641230053后挡板WG1641230054后挡板左支架总成WG1641230055右连接支架WG1641240001保险杠总成WG1641240005保险杠内支架焊接总成WG1641240011右下踏板WG1641240012左下踏板（与右件对称）WG1641240113左下踏板WG1641240114右下踏板(与左件对称)WG1641240115左下踏板防滑板WG1641240116右下踏板防滑板(与左件对称)WG1641560010HOWO短驾驶室用安全带WG1641610002顶盖内衬WG1641690040后围保温板（短驾驶室）WG1642110013散热器面罩WG1642110027面罩右锁总成WG1642110028面罩左锁总成（与右件对称）WG1642111013左导风罩WG1642111014右导风罩WG1642111015面罩网(一)WG1642111016面罩网(二)WG1642111017左面罩网WG1642111018右面罩网WG1642111019左A立柱装饰板WG1642111020右A立柱装饰板WG1642111021车门左下铰链盖WG1642111022车门右下铰链盖(与左件对称)WG1642111023车门左上铰链盖WG1642111024车门右上铰链盖(与左件对称)WG164211103010款HOWO气体弹簧支撑栓WG1642160065横梁（5310101）WG1642160123水杯架盒体总成（5310800）WG1642160132水杯架壳体总成（5310820）WG1642160137塑料卡扣WG1642160141主仪表台定位销WG1642160192烟灰盒总成WG1642210007左车门玻璃导轨/1085406WG1642210008右车门玻璃导轨(与左件对称）/1085407 WG1642230003左后翼子板WG1642230004右后翼子板WG1642230007后翼子板缓冲衬层WG1642230008垫圈WG1642230013右前翼子板（与左件对称）WG1642230018左防滑板WG1642230019右防滑板(与左件对称）WG1642230041前翼子板压条总成（市中宝泉）WG1642230103左后翼子板WG1642230104右后翼子板WG1642230105左前翼子板前段总成WG1642230106右前翼子板前段总成WG1642230107左前翼子板后段总成WG1642230108右前翼子板后段总成WG1642230111后翼子板缓冲衬层WG1642230115灯口盖WG1642230121左连接支架WG1642230122右连接支架WG1642230130左后翼子板(立式消声器) WG1642240032左下踏板防滑板（与右件对称）WG1642240033右下踏板防滑板WG1642240042中间支架WG1642240060HOWO防滑踏板WG1642240101HOWO保险杠总成WG1642240103左内堵盖WG1642240104右内堵盖(与左件对称)WG1642240105左外堵盖WG1642240106右外堵盖(与左件对称)WG1642240111左下踏板WG1642240112右下踏板(与左件对称)WG1642240113左下踏板防滑板WG1642240114右下踏板防滑板(与左件对称) WG1642241021HOWO保险杠WG1642241023左堵盖WG1642241024右堵盖WG1642241027保险杠装饰网WG1642241029保险杠支架总成WG164224103110款HOWO左下踏板WG164224103210款HOWO右下踏板WG1642242103左下踏板WG1642242104右下踏板WG1642242105保险杠装饰网WG1642270039冲孔螺母WG1642290002工具箱铰链总成WG1642290003工具箱锁总成WG1642290004垫板WG1642290005工具箱锁销总成WG1642290006工具箱密封条WG1642340008左车门锁芯总成WG1642340009右车门锁芯总成WG1642340014左车门锁体总成WG1642340015右车门锁体总成WG1642340032内开启手柄盖(武汉佳特) WG1642340033内开启手柄WG1642340101左车门外手柄总成（与右件对称）WG1642340102右车门外手柄总成(武汉佳特）WG1642341001门锁总成WG1642430010前悬左下支架总成WG1642430020前悬右下支架总成WG1642430035推杆总成I（济南沃德）WG1642430086管接头总成WG1642430285前悬减振器总成（螺旋弹簧）WG1642440040左上支架总成WG1642440041右上支架总成（与左件对称）WG1642440051高度控制阀总成WG1642440055左推杆支架（济南沃德）WG1642440056右推杆支架（与左件对称）（济南沃德）WG1642440060推杆总成II（济南沃德）WG1642440082后悬减振器总成（螺旋弹簧IV）WG1642440102配空气弹簧液压锁总成WG1642560013HOWO中长驾驶室安全带(Emark)WG1642610020顶盖内衬WG1642610021出风口WG1642610022限位片WG1642610023预留孔盖WG1642610027堵塞WG1642610028左侧围门框压条WG1642610034导轨限位挡块总成WG1642620008左隔热地板垫WG1642690001隔热吸音垫WG1642690005中后支撑杆WG1642690021左侧发动机保温板（长）WG1642690022右侧发动机保温板（长）WG1642740001驾驶室刮水器装置WG1642741001驾驶室刮水器装置WG1642770001HOWO车外左后视镜WG1642770003HOWO车外右后视镜WG1642770004下视镜WG1642770099HOWO补盲镜总成WG1642770201左后视镜总成WG1642770202右后视镜总成WG1642777010豪泺经济型左后视镜总成WG1642777011豪泺经济型后视镜WG1642777012豪泺经济型下后视镜WG1642777020豪泺经济型右后视镜总成WG1642820001HOWO车驾驶室空调装置外供件清单WG1642820015储液器总成WG1642820018储-蒸高压管WG1642820027冷-储软管总成WG1642820028储-蒸高压管WG1642820029蒸-压软管总成WG1642820042WO车驾驶室空调外供件清单(D12、Behr、重汽插接件WG1642828020冷凝器总成（汇众达）WG1642840092成型软管ⅡWG1642848013暖风钢管总成WG1642848014管口在翻转下面的暖风钢管总成WG1642860000风窗洗涤器装置WG1642860000+001风窗洗涤器泵WG1642860001风窗洗涤器总成WG1642910001发动机罩衬面WG1642910002右前地板垫衬面WG1642910006沥青板WG1642910007左前地板垫衬面WG1642950013H-IX标牌WG1644170005高顶前支架右WG1644170006高顶前支架左WG1644170007高顶中支架WG1644170008高顶后支架WG1644770103中隔板支架总成WG1644770105CD机支架总成WG1644770108左垂直隔板总成WG1644770116右垂直隔板总成WG1644770117左隔板总成WG1644770120右隔板总成WG1644770122橡胶缓冲块WG1644770127中间箱盖总成WG1644770135左箱盖总成WG1644770138右箱盖总成WG1644770140左侧CD机面板（左置车用）WG1644770145中间隔板（右）WG1644770147冰箱支架WG1644770149中间支架总成WG1644770150两侧支架总成WG1644771055海绵垫WG1644870011下导流板（右）WG1644870012下导流板（左）WG1644870013上支架（左）WG1644870014支架（中）WG1644870015下支架（右）WG1644870016上导流板WG1644870017上导流板侧支架WG1644870018下支架（左）（与右件对称）WG1644870019上支架（右）WG1644870020上导流板中支架WG1644870051带装饰栅格的右下导流板WG1644870052下导流板（左）WG1645330001左后车门内饰板WG1645330002右后车门内饰板（与左件对称）WG1645610001HOWO四开门前顶衬WG1645610002HOWO四开门后顶衬WG1646160017右下风道总成WG1646160023左下风道总成WG1646160031右侧风道总成WG1646160037左侧风道总成WG1646160042中后风道总成WG1646160124水杯架前端盖WG1646160136中央储物盒盖板WG1646160139装饰条-中部WG1646160171仪表台-副司机侧WG1646160172副司机侧仪表台下护面侧盖总成WG1646160176装饰条-副司机侧WG1646160177副司机侧仪表台下护面总成WG1646160183仪表板盖板总成WG1646160186手制动阀盖板总成WG1646160190开关面板总成WG1646160213仪表台中上部盖板WG1646160214仪表台中上部软垫WG1646160216电器箱盖WG1646160218转向柱左侧下护面总成WG1646160230转向柱右侧下护面总成WG1646160233装饰条-司机侧/右WG1646160235装饰条-司机侧/左WG1646160238仪表台右前部螺钉盖板WG1646160239仪表台左前部螺钉盖板WG1646160242发动机罩储物盒WG1646161217转向柱下护罩WG1646290603工具箱锁总成(与WG1642290003对称) WG1646570010卧铺支撑总成WG1646610001HOWO右置右侧围内衬WG1646620006右地板垫（右置车）（抬高114.5）WG1646741001HOWO驾驶室刮水器装置(右置 重汽插接器) WG1646741010右置雨刮臂及刮片总成WG1646770001HOWO车左后视镜（右置车）WG1646770002HOWO车右后视镜（右置车）WG1651160300矿用车上车扶手(前)WG1651160310矿用车上车扶手(后)WG1651620012矿车地板垫WG1651933003保护条WG1651950010文字商标（HOWO 矿山霸王）WG1661610033右侧装饰板（短）（与左件对称）WG1661740020刮水器装置WG1662611045低地板左安全带护框WG1662611046低地板右安全带护框（与左件对称）WG1662621004低地板驾驶室左门槛WG1662621005低地板驾驶室右门槛WG1664110011散热器面罩WG1664110025气体弹簧支撑栓WG1664110027面罩左锁总成WG1664110028面罩右锁总成（与左件对称）WG1664110031铰链座(左）WG1664110032铰链座(右）（与左件对称）WG1664110051高地板左导风罩总成WG1664110052高地板右导风罩总成（与左件对称）WG1664160210仪表面板总成WG1664160225下储物盒总成-中左侧面板WG1664160280杯架总成（长春富奥江森）WG1664160340副司机侧下护板总成（高地板）WG1664160360左前上车扶手WG1664160390副司机侧下护板下件总成WG1664230006高地板低位右前翼子板WG1664230007高地板低位左前翼子板WG1664230008高地板右翼子板后段（长）（与左件对称）WG1664230009高地板左翼子板后段(长)WG1664230011左翼子板装饰板WG1664230012右翼子板装饰板（与左件对称）WG1664230049左挡泥板WG1664230050右挡泥板（与左件对称）WG1664230057簧片螺母WG1664230093低位踏板左防滑板IWG1664230095低位踏板左防滑板IIWG1664230133翼子板后段左支架WG1664230134翼子板后段右支架（与左件对称）WG1664230180后翼子板左上支架总成WG1664230190后翼子板右上支架总成(与左件对称)WG1664231044低位右下踏板WG1664231048高位右下踏板总成WG1664232043低位左下踏板WG1664232044低位右下踏板WG1664240018保险杠左下连接板总成(台州屹信源)WG1664240038保险杠右下连接总成（与左件对称）（台州屹信源）WG1664240213保险杠左连接板总成（台州屹信源）WG1664240214保险杠右连接板总成（与左件对称）（台州屹信源）WG1664290016左锁体总成WG1664290018左工具箱装饰框总成WG1664290030右工具箱装饰框总成(与左件对称)WG1664330003左玻璃升降器总成WG1664330004右玻璃升降器总成（与左件对称）WG1664330007左车门下装饰内板WG1664330008右车门下装饰内板WG1664330016右车门玻璃（带玻璃托架）WG1664330038右车门玻璃外密封条WG1664330151内开启手柄盖板－右车门WG1664330404右玻璃升降器总成（手动）（与左件对称）WG1664331062右门控开关面板WG1664331064右门控开关控制器（豪华）WG1664332064右门控开关控制器（遥控、豪华）WG1664332067右门控开关控制器（遥控、标准）WG1664340004左车门外手柄总成（江苏皓月）WG1664340008左车门锁体及内开启总成（江苏皓月）WG1664340009右车门锁体及内开启总成（与左件对称）（江苏皓月）WG1664340010左门锁控制拉杆总成Ⅰ（江苏皓月）WG1664340011左门锁控制拉杆总成Ⅱ（江苏皓月）WG1664340012右门锁控制拉杆总成Ⅰ（与左件对称)（江苏皓月）WG1664340013右门锁控制拉杆总成Ⅱ（与左件对称）（江苏皓月）WG1664341002高地板门锁总成(遥控）WG1664430078驾驶室前减振器总成（空气弹簧）WG1664430079平地板驾驶室前减振器总成（空气弹簧）WG1664440101液压锁总成WG1664560010驾驶室安全带WG1664710001风窗玻璃WG1664710040后窗玻璃WG1664770004杂物箱右装饰条WG1664770115CD机安装孔盖板IWG1664770116CD机安装孔盖板IIWG1664770118行程开关座WG1664771010左后视镜总成WG1664771020右后视镜总成WG1664771030前下视镜总成WG1664820005室外温度传感器总成WG1664820006进风口网罩WG1664820017鼓风机总成WG1664820104冷-蒸软管驾驶室段(平地板)WG1664820105蒸-压软管驾驶室段(平地板WG1664820112冷-蒸软管冷凝器段(中小马)WG1664820118压-冷软管(低地板、10L机)WG1664820119蒸-压软管车架部分(10L机)WG1664820121调系统外购零件清单（中小马力,平地板,左置,左压WG1664820122调系统外购零件清单（中小马力,低地板,左置,左压WG1664860010高地板驾驶室风窗洗涤器总成WG1664870222导流罩WG1664930002堵盖WG1682110023空气弹簧支座WG1682230095挡泥板支架WG1682231001左后翼子板WG1682231002右后翼子板(与左件对称)WG1682231005后翼子板下支架卡箍垫板WG1682235363左前翼子板WG1682235364右前翼子板(与左件对称)WG1682240001主保险杠总成WG1682240017高位副保险杠WG1682240225左门台阶(高位踏板)WG1682240226右门台阶(高位踏板)WG1682241166右上挡板WG1682241167左上挡板WG1682245161左装饰件总成(高位踏板)WG1682245162右装饰件总成(高位踏板)WG1682245163左装饰件总成WG1682690684隔音板支架WG1682870002HOKA半高顶驾驶室导流罩装配总成WG1682870003左下侧后导流板WG1682870005标准顶左中侧后导流板WG1682870006标准顶右中侧后导流板WG1682870007标准顶上部侧后导流板WG1684240229左下踏板（低位）(与右件对称) WG1684240230右下踏板（低位）WG1684870005高顶左中侧后导流板WG1692610081顶盖衬层WG2229250011消音器(NPT 1/8)WG880 680027垫板WG9000270004长筒气喇叭WG9000270005短筒气喇叭WG9100470082成型软管WG9120935022手柄弹簧座(济南汽车零部件) WG9120935055手柄杆(济南汽车零部件)WG9120935056拉杆(济南汽车零部件)WG9125191091空滤器支架总成WG9125589001组合仪表总成WG9130939050右盖板焊接总成(济南汽车零部件) WG9130939054手柄拉环(济南汽车零部件) WG9130939055手柄杆(济南汽车零部件)WG9130939056拉杆(济南汽车零部件)WG9200720042雾灯(吊装)WG9325530078膨胀水箱支架WG9325931035走台板总成WG9325931038紧固拉板总成WG9625531268铝散热器总成WG9716270005双音气喇叭总成（无支架）WG9716570002油门拉索总成(HOWO7右置车) WG9716580005CNG组合仪表（CMIC）WG9716580011左控制模块（北京万里科济）WG9716580013右控制模块总成（北京万里科济）WG9716580015组合仪表（北京万里科济）WG9716580033纸盘式行驶记录仪总成WG9716580037智能型传感器WG9718710004制动灯开关（感应式）WG9719190013进气道总成IWG9719521054垫板WG9719580001左控制摸块及软件WG9719580035组合仪表WG9719581018组合仪表（英文版/有安全带报警）WG9719581022右控制模块总成WG9719582008冷起动开关WG9719582009取力器空档开关WG9719582013全轮驱动开关WG9719582014ABS检测开关WG9719582037空载运行开关WG9719582039空载运行开关WG9719582044PTO开关WG9719720011左前照灯装饰框（浙江嘉利）WG9719720012右前照灯装饰框（浙江嘉利）WG9719720015左前组合灯总成WG9719720016右前组合灯总成WG9719720017左侧转向灯WG9719720018右侧转向灯WG9719720020工作灯WG9719720025前组合灯(左)WG9719720026前组合灯(右)WG9719720105四灯制左前照灯(右置车)WG9719720106四灯制右前照灯(右置车)WG9719780001汽车收放音机（电子调谐）WG9719780006扬声器（8欧，8瓦）WG9719820031电机总成WG9719820201单弯软管(2100)WG9719826001液压手动油泵（右置车）WG9724777001AMT驾驶室附加电线束WG9725190012双筒式旋风管进气道总成WG9725190013旋风管进气道总成WG9725190054油滤器支架总成(重汽客车)WG9725190142下进气道(自卸长驾驶室)WG9725190143下支架组件(自卸长驾驶室)WG9725190144空气软管WG9725190145油滤器支架总成(重汽客车)WG9725190160双筒式旋风管进气道总成WG9725240117操纵器（右置车）WG9725240173选挡软轴总成（带隔热装置）WG9725240210选挡软轴总成（2900）WG9725240214选挡软轴总成（3200）WG9725240216选挡软轴总成（3300）WG9725240232换挡软轴总成（2900）WG9725240236换挡软轴总成（3100）WG9725240238换挡软轴总成（3200）WG9725240240换挡软轴总成（3450）WG9725240255操纵器(右置)WG9725240262选挡软轴总成（带隔热装置/2900）WG9725240266选挡软轴总成（带隔热装置/3400）WG9725240270选挡软轴总成（带隔热装置/3900）WG9725240276换挡软轴总成（带隔热装置/3200）WG9725240278换挡软轴总成（带隔热装置/3900）WG9725525105均衡梁总成（瀚瑞森）WG9725525112法兰螺母（M8x1.25，10级，瀚瑞森）WG9725525113六角法兰螺栓（M8x1.25x40，10.9级，瀚瑞森）WG9725525114六角法兰螺栓（M20x1.5x160，10.9级，瀚瑞森）WG9725525115法兰螺母（M20x1.5，10级，瀚瑞森）WG9725525116垂直变刚度橡胶簧（瀚瑞森）WG9725525117弹簧垫板（瀚瑞森）WG9725525120法兰螺栓（M20x2.5x95，10.9级，瀚瑞森）WG9725525121底盖（瀚瑞森）WG9725525122横向管（瀚瑞森）WG9725530401风扇护风罩总成(济南沃德)WG9725533037风扇护风罩总成（济南沃德）WG9725538136暖风成型胶管1500mmWG9725538235膨胀箱胶管（内径20外径29长1050）WG9725540043消音器端排气管WG9725540310前拉杆WG9725570010电子油门总成WG972558001310A保险装置WG972558001820A保险装置WG9725580020PTO旋钮WG9725584009巡航组合开关WG9725584011怠速调节器WG9725586002组合开关（右置车）WG9725764002电源总开关钥匙WG9725786001收放机（自动翻带、液晶显示频率）WG9725796005左前示廓灯WG9725796006后示廓灯WG9725796007后示廓灯WG9725820010举升油缸IIWG9725821002液压手动油泵（右置车）WG9725930049上车踏板支架总成WG9725930054高位保险杠下支架总成WG9725930172油底壳保温罩总成WG9725930850左大灯支架总成WG9725930855右大灯支架总成WG9727540002消声器支架总成（济南沃德）WG9731360005紧固带总成（市中宝泉）WG9918530009防虫网总成(A7/420)WG9918580015左组合开关总成WG9918780001带MP5的收放机WG9925190046空气软管WG9925190051进气管WG9925190053进气管支架总成WG9925191016空气软管WG9925191039软管接头WG9925192016空气软管WG9925530033护风罩总成WG9925530060散热器出水钢管总成WG9925581064危急报警开关(VDO系统)WG9925710001盆形电喇叭(双线)WG9925710003气压传感器WG9925720001组合前照灯总成(左)WG9925720002组合前照灯总成(右)WG9925720003前示廓灯(左)WG9925720004前示廓灯(右)WG9925720005后示廓灯(左)WG9925720006后示廓灯(右)WG9925720009阅读灯(可旋转)WG9925720010阅读灯WG9925720011室内照明灯WG9925720014侧标志灯WG9925720015门灯WG9925720016杂物箱灯WG9925720017杂物箱灯门控开关WG9925780001带USB接口的CD机WG9925780020扬声器WG9925810001带侧标志灯7功能组合后灯（左）WG9925810002带侧标志灯7功能组合后灯（右）WG9925820031电机总成(安装孔在中间)WG9925820040电动泵双弯头高压软管(150) WG9925820041电动泵双弯头低压软管(160) WG9925821031电机总成(安装孔在侧面)WG9925823014低地板驾驶室举升油缸WG9925824014高地板驾驶室85行程减震器举升油缸WG9931190007气管支架总成WG9931191003油浴式空滤器支架总成WG9931191005紧固带总成WS1662160125右中部装饰件WS1662165163左仪表板总成WS1662166178电器箱盖总成WS1662330015杯座WS1662330017左杂物箱WS1662346095左车门锁总成WS1662346096右车门锁总成AZ1642430036半球垫片AZ1642440012右下支架（与左件对称）AZ1642620005发动机罩衬垫/8183533AZ1642870145支座[商贸公司]AZ1642870146后支架[商贸公司]AZ1642870148前支架[商贸公司]AZ1642870153侧导流板支架AZ1643570001卧铺总成/1087613AZ1644570001上卧铺总成AZ1644610008窗帘导轨AZ1644771000下视镜支架焊接总成AZ1644870003支架AZ1644870004橡胶垫AZ1646950002SINOTRUK商标AZ1672570020上铺后铰链AZ9719190036小进气道支架AZ9719770011高顶驾驶室杂品箱电线束AZ9719770015高顶驾驶室顶蓬电线束AZ9725770028高顶驾驶室顶蓬电线束（MTCO1324）AZ9725770029高顶驾驶室杂品箱电线束（电调谐、MTCO1324）Q218B0635内六角圆柱头螺钉Q2540620十字槽沉头螺钉Q2764813十字槽半沉头自攻螺钉-C型Q33016全金属六角法兰面自锁螺母Q40408弹簧垫圈Q40508弹簧垫圈Q72316T5F密封垫圈WG1614760001冰箱总成WG1642230012左前翼子板WG1642290007工具箱锁拉环WG1642510007HOWO空气悬挂左座椅总成WG1642510008HOWO空气悬挂座椅座盒总成（左）WG1642610003右窗帘导轨WG1642610004左窗帘导轨（与右件对称）WG1642870141导流罩总成WG1642910003后地板垫衬面WG1643570008卧铺右支腿总成WG1643570010卧铺支撑总成WG1644170001HOWO高顶总成WG1644610002高顶前围内护面WG1644610003高顶左内护面总成WG1644610004高顶右内护面总成WG1644610006高顶后围内护面WG1644770102高顶型HOWO驾驶室上杂品箱本体WG1644770123主支架总成IWG1644770125主支架总成IIWG1644770155两侧支架总成（外）WG1644870002遮阳罩WG1664770101高顶驾驶室杂物箱总成WG167261200172驾驶室后围内衬（带后窗）WG1672612009半高顶型驾驶室右侧围内护面[带侧窗] 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AzoteqFEATURES OF MA510-GL-00 Dimension: 22.2 x 20.2 x 2.1 mm Package: LCC + LGA, 86 Pin Operating frequency band:Cat.M1: B 1/B2/B3/B4/B5/B8/B12/B13/B14/B18/B19/B20/B25/B26/B27/B28/B66/B85Cat.NB2: B 1/B2/B3/B4/B5/B8/B12/B13/B18/B19/B20/B25/B26/B28/B66/B71/B85EGPRS: 850/900/1800/1900MHz GNSS: GPS / GLONASS / BeiDou / Galileo Power supply: 3.3 V ~ 4.5 V (typical 3.8 V) Operating temperature: -40 °C ~ +85 °C Cat.M1 (kbps): 589 (DL) / 1119 (UL) Cat.NB2 (kbps): 136 (DL) / 150 (UL) GPRS (kbps): 107 (DL) / 85.6 (UL) EDGE (kbps): 296 (DL) / 236.8 (UL) Antenna: Main x 1, GNSS x 1 Functional interfaces: SIM 1.8V / USB 2.0 x 1 / UART x 3, I2C, I2S, GPIO, SPI / ADC / System Indicator / ANT_TUNER Global certificationsAPPLICATIONSAsset trackingIndustrial monitoring and control Security systems Smart home Smart meteringAPPLICATIONS PC Peripherals IoT Mobile Application White Goods Home AutomationIQS620A IQS621IQS622IQS624The triple-mode (LTE Cat.M1, LTE Cat.NB2 and EGPRS), the dual-mode (LTE Cat.M1 and LTE Cat.NB2), as well as the single-mode module (LTE Cat.M1) are all compatible. The series is based on Qualcomm IC MDM9205, available with LCC and LGA footprint (22.2 x 20.2 x 2.1 mm), supports GNSS (GPS / GLONASS / BeiDou / Galileo), and has given all needed global certifications.The first generation of ProxFusion ® offers capacitive sensing, Hall-effect, IR, PIR, inductive, temperature and ambient light sensing.Replace up to 4 sensors with a single IC Reduce BOMLow Power Consumption High Reliability Less Board Space Less GPIO to MCU Reduce Cost The series is characterized by low power consumption and robust accessibility even inside buildings. In addition, it is very cost effective and has an enormous range, which opens up new possibilities for applications in cities or agriculture.The modules are primarily recommended for applications in which low data throughput rates have to be transmitted securely, like asset tracking, industrial monitoring and control, security systems, smart home, smart metering, etc.Fibocom has developed the brand new LPWA module series namedMA510-GL which will be available in several versions. The derivates enable your application to connect to the network types LTE Cat.M1, LTE Cat.NB2 and EGPRS.PIRH AL LI n du c it v eALSC a p a c i t i v eA c ti v eI RProxFusion ®HAVE A LOOKHAVE A LOOKHAVE A LOOKHAVE A LOOKHAVE A LOOKHAVE A LOOKHAVE A LOOK20CR08F-1-38ND-W 28CRG08-2-N50BD-W 28KUG04X-W 32-8C-2-W36CS08FN-21-N50BT-W 39KUG04XNT-2-W 40KT08-W 4028KSG08-WCSMS18S4.8-8S0.3-P580F CSMS29R8-8S0.6-P700F CMS40R5C-8N1-2A600R CLS50R14-16N3-T700-C32W150R CLS50RN18.2E-8F1.5-B380R CLS87S32.5-8F6-E500RCPA26D12-3.2R CPA36B515TU2C17W80VMW4015B-RRAC383G-7FA VMW6027B-8C464G-7FA32-8C-2-W CSMS18S4.8A-8S0.3-P580F 28CRG08-2-N50BD-W HAVE A LOOK HAVE A LOOK HAVE A LOOK HAVE ALOOK HAVE A LOOK HAVE A LOOK HAVE A LOOK HAVE A LOOK HAVE A LOOKHAVE A LOOK HAVE A LOOK HAVE A LOOK HAVE A LOOK HAVE A LOOK HAVE ALOOK HAVE A LOOKHAVE A LOOKHAVE A LOOKHAVE A LOOKLOCOSYS RTK-4671-SHDR/MHDR is a high-precision GNSS RTK solution targeting for the smart driving and lane level navigation markets. The newly designed LOCO II engine architecture is optimized to offer a seamless experience in dense urban canyons. The high-precision Positioning/Dead Reckoning receiver offers centimeter-accurate positioning and heading with low-power consumption, takes the shortest time to fix position and continues to work wherever they are.LOCOSYS RTK-4671-SHPF /MHPF is a high-precision GNSSRTK board for accurate positioning and heading and direction. It supports GPS, GLONASS, BeiDou, GALILEO, QZSS and SBAS constellations to improve the continuity and reliability of the RTK solution even in harsh environment. This board offers real-time, cost-efficient and cm-level-positioning. It supports flexible interfaces, inside great anti-jamming performance (thanks to multi-tone active interference compensator) for a variety of applications, such as precision navigation, precision agriculture, surveying and UAVs.APPLICATIONSAutonomous Vehicle Guidance Autonomous Vehicle Internet of Vehicles Unmanned Aerial Vehicles Precision Agriculture Hand-Held Device AGV Robotics V2V / V2X System Geographical Measurement Geographical Survey Points Offshore / Marine Applications TrackerAPPLICATIONSAutonomous Vehicle Guidance Unmanned Aerial Vehicles Precision Agriculture AGV Robotics V2X / ETC / 5G Station Structural / Land Monitoring Offshore / Marine ApplicationFEATURESSupports GPS, GLONASS, BeiDou, GALILEO and QZSS L1 Capable of SBAS (WAAS, EGNOS, MSAS) Precise navigation, positioning Great anti-jamming performance(due to multi-tone active interference canceller) Built-in LOCOSYS Dead Reckoning (ADR / UDR) both technology software Built-in MEMS sensor(3-axis gyroscope and 3-axis accelerometer) Supports odometer (wheel-tick pulse) inputFEATURESLow cost, commercial chip level, with high precision and accuracy Centimeter-level positioning in RTK mode Supports GPS, GLONASS, BeiDou, GALILEO and QZSS L1 Capable of SBAS (WAAS, EGNOS, MSAS) Precise navigation, positioning Great anti-jamming performance(due to multi-tone active interference compensator) Dual antenna input and precise heading calculation Current limited feature (limited to 50 mA typ.) 2 x 99 channels each independent signal chains Heading accuracy (RMS) < 0.2 degree Industrial operating temperature range -40 °C to +85 °C Low-power consumption and compact size Easy and simple to integrate LOCOSYS IATF 16949 certified production sitesRTK-4671-SHDR/MHDR not only supports GPS, GLONASS, Beidou, GALILEO, QZSS and SBAS, but also has a flash memory, TCXO, RTC crystal, LNA and SAW filter, and embedded MEMS sensors (6-axis accelerometers + gyros).Supports MEMS raw data output, high update rate(up to 100 Hz) Supports sensors data feed through the UART port Supports ADR / UDR automatic fast learning calibration Low-power consumption and compact size Current limited feature (limited to 50 mA typ.) with active GNSS antennas Industrial operating temperature range -40 °C to +85 °C Easy and simply to integrate LOCOSYS IATF 16949 certified production sitesHAVE ALOOKHAVE A LOOKHAVE A LOOKHAVE A LOOK@ SALES OFFICES IN EUROPESwitzerland − Novitronic Zurich:T +41/44 306 91 91info @novitronic.chFrance Paris:T +33/186653215france @ Lyon:T +33/186653215france2@Bulgaria Sofia:bulgaria @Spain Barcelona:T +34/93 217 31 44spain @ Hungary Budapest:T +361/2 97 41 91hungary @ Austria & Slovenia Brunn am Gebirge:T +43/1 665 25 25austria @ Romania Timisoara:romania @On September 12, 2019, the award ceremony of the magazine Elektronik for "Distributor of the Year" took place.1st placeActive Components:Technical Competence & Support2nd placeActive Components: Delivery service Volume3rd placeActive Components: Samples delivery serviceWe would like to thank you very much for your trust! Thanks to your votes we were awarded 3 prizes which we see as a confirmation of our efforts to support you as a reliable partner! We will continue to offer our customers the best possible service, from the component up to the finished solution for their applications.。

RT80751DS8075-04 April 2011Featuresz 2.5V to 5.5V Input Rangez 1A Output Currentz 1.25MHz Fixed Frequency PWM Operation z 95% Efficiencyz No Schottky Diode Requiredz 0.6V Reference Allows Low Output Voltage z Low Dropout Operation : 100% Duty Cycle z Small 10-Lead WDFN PackagezRoHS Compliant and Halogen FreeApplicationsz Portable Instrumentsz Microprocessors and DSP Core Supplies z Cellular Phonesz Wireless and DSL Modems zPC CardsDual 1A, 1.25MHz Synchronous Step-Down ConverterGeneral DescriptionThe RT8075 is a high efficiency Pulse-Width-Modulated (PWM) dual step-down DC/DC converter. Capable of delivering up to 1A output current over a wide input voltage range from 2.5V to 5.5V, the RT8075 is ideally suited for portable electronic devices that are powered from 1-cell Li-ion battery or from other power sources such as cellular phones, PDAs, PC WLAN card and hand-held devices.Three operating modes are available including : PWM mode, Low Dropout Mode and shut-down mode. The Internal synchronous rectifier with low R DS(ON) dramatically reduces conduction loss at PWM mode. No external Schottky diode is required in practical application. The RT8075 enters Low Dropout mode when normal PWM cannot provide regulated output voltage by continuously turning on the upper P-MOSFET . The RT8075 enters shut-down mode and consumes less than 0.1μA when the EN pin is pulled low.The switching ripple is easily smoothed-out by small package filtering elements due to the fixed operating frequency of 1.25MHz. The RT8075 is available in the WDFN-10L 3x3 package.Ordering InformationMarking InformationNote :Richtek products are :` RoHS compliant and compatible with the current require-ments of IPC/JEDEC J-STD-020.` Suitable for use in SnPb or Pb-free soldering processes.Pin Configurations(TOP VIEW)WDFN-10L 3x3EN1FB1LX2GND LX1GND VIN1EN2FB2VIN2RT8075GQW38= : Product CodeYMDNN : Date CodeRT8075ZQW38 : Product CodeYMDNN : Date CodeG : Green (Halogen Free and Pb Free)Z : ECO (Ecological Element with Halogen Free and Pb free)RT80752DS8075-04 April 2011 Function Block DiagramTypical Application CircuitGNDOUT1OUT2RT80753DS8075-04 April 2011Absolute Maximum Ratings (Note 1)z Supply Input Voltage VIN1, VIN2---------------------------------------------------------------------------------−0.3V to 6.5Vz LX1, LX2 Pin Voltage ------------------------------------------------------------------------------------------------−0.3V to (V IN + 0.3V)z Other Pins Voltage ---------------------------------------------------------------------------------------------------−0.3V to 6.5V zPower Dissipation, P D @ T A = 25°CWDFN-10L 3x3--------------------------------------------------------------------------------------------------------1.471W zPackage Thermal Resistance (Note 2)WDFN-10L 3x3, θJA --------------------------------------------------------------------------------------------------68°C/W WDFN-10L 3x3, θJC --------------------------------------------------------------------------------------------------7.8°C/W z Lead Temperature (Soldering, 10 sec.)--------------------------------------------------------------------------260°C z Junction T emperature ------------------------------------------------------------------------------------------------150°Cz Storage T emperature Range ---------------------------------------------------------------------------------------−65°C to 150°C zESD Susceptibility (Note 3)HBM (Human Body Mode)-----------------------------------------------------------------------------------------2kV MM (Machine Mode)-------------------------------------------------------------------------------------------------200VElectrical CharacteristicsRecommended Operating Conditions (Note 4)z Supply Input Voltage -------------------------------------------------------------------------------------------------2.5V to 5.5V z Junction T emperature Range --------------------------------------------------------------------------------------- −40°C to 125°C zAmbient T emperature Range --------------------------------------------------------------------------------------- −40°C to 85°CRT80754DS8075-04 April 2011 Note 1. Stresses listed as the above “Absolute Maximum Ratings ” may cause permanent damage to the device. These are forstress ratings. Functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may remain possibility to affect device reliability.Note 2. θJA is measured in the natural convection at T A = 25°C on a high effective thermal conductivity four-layer test board ofJEDEC 51-7 thermal measurement standard. The case point of θJC is on the exposed pad of the package.Note 3. Devices are ESD sensitive. Handling precaution is recommended.Note 4. The device is not guaranteed to function outside its operating conditions.Note 5. Guarantee by design.RT80755DS8075-04 April 2011Reference Voltage vs. Temperature0.5800.5850.5900.5950.6000.6050.6100.6150.620-50-25255075100125Temperature (°C)R e f e r e n c e V o l t a g e (V )Reference Voltage vs. Input Voltage0.5800.5850.5900.5950.6000.6050.6100.6150.6202.533.544.555.5Input Voltage (V)R e f e r e n c e V o l t a g e (V )Efficiency vs. Output Current1020304050607080901000.0010.010.11Output Current (A)E f f i c i e n c y (%)Output Voltage vs. Output Current1.1801.1851.1901.1951.2001.2051.2101.2151.2201.2251.23000.10.20.30.40.50.60.70.80.91Output Current (A)O u t p u t V o l t a g e (V )Typical Operating CharacteristicsFrequency vs. Temperature1.001.051.101.151.201.251.301.351.401.451.50-50-25255075100125Temperature (°C)F r e q u e n cy (M H z )Current Limit vs. Temperature0.50.70.91.11.31.51.71.92.1-50-25255075100125Temperature (°C)C u r r e n t Li m i t (A )RT80756DS8075-04 April 2011 Power On from V INTime (5ms/Div)V OUT (1V/Div)V IN (1V/Div)I OUT (1A/Div)V IN = 2.5V, V OUT = 1.2V I OUT = 0.8APower On from ENTime (250μs/Div)V OUT (1V/Div)V EN (1V/Div)I OUT (1A/Div)V IN = 2.5V,V OUT = 1.2V,I OUT = 0.8APower Off from ENTime (50μs/Div)V OUT (1V/Div)V EN (1V/Div)I OUT (1A/Div)V IN = 2.5V,V OUT = 1.2V,I OUT = 0.8ASwitchingTime (250ns/Div)V OUT (5mV/Div)V LX (2V/Div)I OUT (1A/Div)V IN = 2.5V, V OUT = 1.2V, I OUT = 0.8ALoad Transient Response Time (100μs/Div)V OUT (50mV/Div)I OUT (1A/Div)V IN = 2.5V, V OUT = 1.2V, I OUT = 0.4A to 0.8ALoad Transient ResponseTime (100μs/Div)V OUT (50mV/Div)I OUT (1A/Div)V IN = 2.5V, V OUT = 1.2V, I OUT = 0.1A to 0.8ART80757DS8075-04 April 2011Applications InformationThe basic RT8075 application circuit is shown in Typical Application Circuit. External component selection is determined by the maximum load current and begins with the selection of the inductor value and operating frequency followed by C IN and C OUT .Inductor SelectionFor a given input and output voltage, the inductor value and operating frequency determine the ripple current. The ripple current ΔI L increases with higher V IN and decreases with higher inductance.Having a lower ripple current reduces the ESR losses in the output capacitors and the output voltage ripple. Highest efficiency operation is achieved at low frequency with small ripple current. This, however, requires a large inductor.A reasonable starting point for selecting the ripple current is ΔI L = 0.4(I MAX ). The largest ripple current occurs at the highest V IN . To guarantee that the ripple current stays below a specified maximum, the inductor value should be chosen according to the following equation :Inductor Core SelectionOnce the value for L is known, the type of inductor mustbe selected. High efficiency converters generally cannot afford the core loss found in low cost powdered iron cores,forcing the use of more expensive ferrite or mollypermalloy cores. Actual core loss is independent of core size for a fixed inductor value but it is very dependent on the inductance selected. As the inductance increases, core losses decrease. Unfortunately, increased inductance requires more turns of wire and therefore copper losses will increase.Ferrite designs have very low core losses and are preferred at high switching frequencies, so design goals can concentrate on copper loss and preventing saturation.Ferrite core material saturates “hard ”, which means that inductance collapses abruptly when the peak designcurrent is exceeded. This results in an abrupt increase ininductor ripple current and consequent output voltage ripple.Do not allow the core to saturate!Different core materials and shapes will change the size/current and price/current relationship of an inductor.T oroid or shielded pot cores in ferrite or permalloy materials are small and don't radiate energy but generally cost more than powdered iron core inductors with similar characteristics. The choice of which style inductor to use mainly depends on the price vs size requirements and any radiated field/EMI requirements.C IN and C OUT SelectionThe input capacitance, C IN , is needed to filter the trapezoidal current at the source of the top MOSFET. To prevent large ripple voltage, a low ESR input capacitor sized for the maximum RMS current should be used. RMS current is given by :This formula has a maximum at V IN = 2V OUT , where I RMS = I OUT /2. This simple worst-case condition is commonly used for design because even significant deviations do not offer much relief. Note that ripple current ratings from capacitor manufacturers are often based on only 2000 hours of life which makes it advisable to further derate the capacitor, or choose a capacitor rated at a higher temperature than required. Several capacitors may also be paralleled to meet size or height requirements in the design.The selection of C OUT is determined by the Effective Series Resistance (ESR) that is required to minimize voltage ripple and load step transients, as well as the amount of bulk capacitance that is necessary to ensure that the control loop is stable. Loop stability can be checked by viewing the load transient response as described in a later section. The output ripple, ΔV OUT , is determined by :⎡⎤⎡⎤Δ−⎢⎥⎢⎥⎣⎦⎣⎦OUT OUT L IN V V I = x1f x L V ⎡⎤⎡⎤−⎢⎥⎢⎥Δ⎢⎥⎢⎥⎣⎦⎣⎦OUT OUT L(MAX)IN(MAX)V V L = x 1f x IV RMS OUT(MAX)I = I 1⎡⎤Δ≤Δ⎢⎥⎣⎦OUT L OUT 1V I ESR + 8fCRT80758DS8075-04 April 2011 The output ripple is highest at maximum input voltage since ΔI L increases with input voltage. Multiple capacitors placed in parallel may be needed to meet the ESR and RMS current handling requirements. Dry tantalum, special polymer, aluminum electrolytic and ceramic capacitors are all available in surface mount packages. Special polymer capacitors offer very low ESR but have lower capacitance density than other types. Tantalum capacitors have the highest capacitance density but it is important to only use types that have been surge tested for use in switching power supplies. Aluminum electrolytic capacitors have significantly higher ESR but can be used in cost-sensitive applications provided that consideration is given to ripple current ratings and long term reliability. Ceramic capacitors have excellent low ESR characteristics but can have a high voltage coefficient and audible piezoelectric effects.The high Q of ceramic capacitors with trace inductance can also lead to significant ringing.Using Ceramic Input and Output CapacitorsHigher values, lower cost ceramic capacitors are now becoming available in smaller case sizes. Their high ripple current, high voltage rating and low ESR make them ideal for switching regulator applications. However, care must be taken when these capacitors are used at the input and output. When a ceramic capacitor is used at the input and the power is supplied by a wall adapter through long wires, a load step at the output can induce ringing at the input, V IN . At best, this ringing can couple to the output and be mistaken as loop instability. At worst, a sudden inrush of current through the long wires can potentially cause a voltage spike at V IN large enough to damage the part.Output Voltage SettingThe resistive divider allows the FB pin to sense a fraction of the output voltage as shown in Figure 1.Figure 1. Setting Output Voltagewhere V REF is the internal reference voltage (0.6V typ.)Checking Transient ResponseThe regulator loop response can be checked by looking at the load transient response. Switching regulators take several cycles to respond to a step in load current. When a load step occurs, V OUT immediately shifts by an amount equal to ΔI LOAD (ESR), where ESR is the effective series resistance of C OUT . ΔI LOAD also begins to charge or discharge C OUT generating a feedback error signal used by the regulator to return V OUT to its steady-state value.During this recovery time, V OUT can be monitored for overshoot or ringing that would indicate a stability problem.Thermal ConsiderationsFor continuous operation, do not exceed absolute maximum operation junction temperature. The maximum power dissipation depends on the thermal resistance of IC package, PCB layout, the rate of surroundings airflow and temperature difference between junction to ambient.The maximum power dissipation can be calculated by following formula :P D(MAX) = (T J(MAX) − T A ) / θJAWhere T J(MAX) is the maximum operation junction temperature, T A is the ambient temperature and the θJA is the junction to ambient thermal resistance.For recommended operating conditions specification of the RT8075, The maximum junction temperature is 125°C .The junction to ambient thermal resistance θJA is layout dependent. For WDFN-10L 3x3 package, the thermal resistance θJA is 68°C /W on the standard JEDEC 51-7four layers thermal test board. The maximum power dissipation at T A = 25°C can be calculated by following formula :P D(MAX) = (125°C − 25°C ) / (68°C /W) = 1.471W for WDFN-10L 3x3For adjustable voltage mode, the output voltage is set by an external resistive divider according to the following equation :V OUT⎛⎞+⎜⎟⎝⎠OUT REF R1V = V 1R2RT80759DS8075-04 April 2011Layout ConsiderationsFollow the PCB layout guidelines for optimal performance of RT8075.` Keep the trace of the main current paths as short andwide as possible.` Put the input capacitor as close as possible to the devicepins (VIN1 / VIN2 and GND).` LX 1 / LX 2 node is with high frequency voltage swingand should be kept at small area. Keep analog components away from the LX 1 / LX 2 node to prevent stray capacitive noise pick-up.` Place the feedback components as close as possible tothe FB1 / FB2 pins.` The GND and Exposed Pad must be connected to astrong ground plane for heat sinking and noise protection.Figure 2. Derating Curves for RT8075 PackageThe maximum power dissipation depends on operating ambient temperature for fixed T J(MAX) and thermal resistance θJA . For RT8075 package, the Figure 2 of derating curve allows the designer to see the effect of rising ambient temperature on the maximum power dissipation allowed.C Figure 3. PCB Layout Guide0.00.20.40.60.81.01.21.41.6255075100125Ambient Temperature (°C)M a x i m u m P o w e r D i s s i p a t i o n (W )RT807510DS8075-04 April 2011Table 2. Recommended Capacitors for Cand C11DS8075-04 April 2011Information that is provided by Richtek Technology Corporation is believed to be accurate and reliable. Richtek reserves the right to make any change in circuit design, specification or other related things if necessary without notice at any time. No third party intellectual property infringement of the applications should be guaranteed by users when integrating Richtek products into any application. No legal responsibility for any said applications is assumed by Richtek.Richtek Technology CorporationHeadquarter5F, No. 20, Taiyuen Street, Chupei City Hsinchu, Taiwan, R.O.C.Tel: (8863)5526789 Fax: (8863)5526611Richtek Technology CorporationTaipei Office (Marketing)5F, No. 95, Minchiuan Road, Hsintien City Taipei County, Taiwan, R.O.C.Tel: (8862)86672399 Fax: (8862)86672377Email:*********************W-Type 10L DFN 3x3 Package。