SA40-18GWA中文资料

W60/W80 SeriesShut Off & Divert ValvesAPPLI CATI ONWhen stopping or diverting flow in a process system, the W60 single seat valve line provides both a flexible and reliable solution. These valves are pneumatically or manually operated, and offered in a wide variety of body configurations. Available in 1” to 6” (25mm – 152mm) OD sizes.Adapters: Refer to page 27 for descriptions of W80 options.MATE R IALSProduct Wetted: ASTM 316L (UNS-S31603); (DIN-1.4404)Non-Product: ASTM 304 (UNS-S30400); (DIN-1.4301)Seat Material: T ef Flow TM (Std) See Page 3 for other available seat options.Elastomers: FKM (Std) EPDM (Opt) FFKM (Opt)Finish:< 32Ra (<0.8 µm) Other finishes available upon requestPR E S S U R E RATI N G SNote:*6” valves available in W61 Shutoff and W65 Divert only.OPTI ON S AN D ACCE S S OR I E SPR E S S U R E RATI N G SNote:For higher temperature applications than those listed, please consult the factory.*Operating conditions such as flow rate and pressure must be considered when operating near max temperaturerating.Note:3, 4 or 6 inch high pressure clamp not available.For other valve types contact factory. For all valve options see Valve Key Datasheet (DS-1204).Control T opsFEATURES AND BENEFITS• Transparent Control T op keeps all electrical components visible.• Maintainable, designed with the user in mind, making assembly and troubleshooting worry free and easy.• Waukesha Cherry-Burrell uses the industry’s most widely recognized electrical components, so access to off the shelf replacement parts is easy, ensuring quick delivery and less down time.• NEMA 4x (IP64)• Stainless Steel Control Top Option WAU K E S HA CH E R RY-B U R R E LL CONTR OL TOPCU4 & CU4plus CONTR OL TOPCONNECTOR OPTIONS• S/O Cord Grip for hard wire (std)• Quick Disconnect Pin ConnectorsINTERFACE OPTIONS • AS-i Field Bus Card• Device Net Field Bus Network CardPOSITION INDICATION • Set & Forget Switch• Inductive Proximity Switches 20-140V AC/DC, 2-Wire (Std)• Microswitches 24V DC, 110V AC • Intrinsically safe options 5-24V DCSOLENOID VALVES • 24VDC or 110V AC• Select from 0 to 3 SolenoidsFEATURES AND BENEFITS• Automated control and position monitoring for reliable processing • Reduces compressed air and electrical connections • Helps reduce external solenoid valve cabinets • Accelerates valve response time• Innovative seat lift detection is fully integrated without need for external sensor wiring to provide additional position monitoring• Reliability and long service life - robust clamp connection, reinforced stainless steel air coupling threads to avoid air leakages, and water tight seals• Ease of operation - contains manual override solenoids and adjustment screw to throttle air flow to actuator to ensure optimal opening and closing• Clarity - clear and bright indication of valve position - 5 diodes in LED panel and convenient location• Standardization - same control top used on various SPX FLOW valve lines, offers common look and controls interface • NEMA 6 (IP67) washdown rating CONNECTOR OPTIONS• S/O Cord Grip for hard wire (standard)• M12 4-pin connector (optional)INTERFACE OPTIONS • 24V DC Direct Connect • AS-i Field Bus CardSOLENOID VALVES • 24V DC or 110V AC• Select 1 solenoid or solenoid with NOT element (air/air or air assist)POSITION INDICATION OPTIONS• C U4: 2 internal feedback sensors for valve open/valve closed position detection•CU4plus: Automatic teaching of all positions with press of single button 4Air Volume Required • 4" AR = 12.7 in 3/81 cm 3• 4" AL = 14 in 3/90 cm 3• 5" AR = 21.5 in 3/138 cm 3• 5" AL = 27.1 in 3/174 cm 3• 6" AR = 36.1 in 3/223 cm 3• 6" AL = 33.1 in 3/213 cm 3Note: Normal air supply requirement: 50 PSI for 4, 5, and 6 inch, A, B and C size actuators and long stroke actuators; 75 PSI for 4, 5, and 6 inch heavy duty spring actuators. These estimates may vary depending on other factors such as air pressure, pipe line pressure and air routing through solenoid.Standard stroke length is the same for maintainable and maintenance-free actuators.STR OK E LE N GTH8681 CONTR OL TOP Actuator Options8681 Control TopsFEATURES AND BENEFITS• Contact free position sensor including (3) programmable feedback signals• Positions easily taught via intuitive push buttons or Autotune feature to ensure quick & easy set-up• Ultra-bright 360° visual LED position indication with adjustable red, yellow, & green color assignments provide clarity from all points of view and avoid confusion• Manual override and air throttle adjustable solenoids to assist start-up, maintenance, and troubleshooting • Up to IP69K washdown rating available (IP65/67 as standard) for high washdown environments • Built-in microcontroller tracks cycles and alerts operator when preventive maintenance is required • Simple and robust stainless steel adapter & chemically resistant polycarbonate head • Supplied by industry leading Burkert Fluid ControlsCONNECTOR OPTIONS• Quick Disconnect Pin Connector INTERFACE OPTIONS• AS-i Field Bus Card• DeviceNet™ Field Bus Network Card • Available on request CANOpen, IO-LinkPOSITION INDICATION• (3) programmable position sensors in control top SOLENOID VALVES• 24V DC• Manual override and air throttle adjustment • Up to (3) available in control top5All ”A” Dimension are in fully extended (open) position.*For sizing Over-Pressure valves, select a Heavy-Duty spring actuator with a holding pressure greater than the desired relief pressure. Designate with the “R” the valve model (i.e. WR61) and actuator size (i.e. 5RHAR). Refer to DS-1224 for more details on Over-Pressure Valves.“A” - D I M E N S I ON SCONTR OL TOP D I M E N S I ONAL AD D ER4AR-4" Air to RaiseMaintainableM - MicrometerH - Hand LockHLG -Hand Lock, long stroke 6YLG - Hand LockNote: Add control top dimension above to “A” dimension of selected valve and actuator size64AR3 - 4" Air to Raise, 3 position4AL3 - 4" Air to Lower, 3 position6ARY - 6" Air to Raise, extra long stroke• 4AR - 4" (101mm) Air to Raise• 4HAR³ - 4" (101mm) Air to Raise, Heavy Duty Spring• 4RHAR 4 - 4" (101mm) Air to Raise, Spring Adjustable, Heavy Duty Spring • 4ARLG - 4” (101mm) Air to Raise, Long Stroke • 4AL - 4" (101mm) Air to Lower• 4HAL³ - 4" (101mm) Air to Lower, Heavy Duty Spring• 4RHAL 4 - 4" (101mm) Air to Lower, Spring Adjustable, Heavy Duty Spring • 4ALLG - 4” (101mm) Air to Lower, Long Stroke • 4AA - 4" (101mm) Air to Air• 5AR - 5" (127mm) Air to Raise• 5HAR³ - 5" (127mm) Air to Raise, Heavy Duty Spring• 5RHAR 4 - 5" (127mm) Air to Raise, Spring Adjustable, Heavy Duty Spring • 5AL - 5" (127mm) Air to Lower• 5HAL³ - 5" (127mm) Air to Lower, Heavy Duty Spring• 5RHAL 4 - 5" (127mm) Air to Lower, Spring Adjustable, Heavy Duty Spring • 5AA - 5" (127mm) Air to Air• 6AR - 6" (152mm) Air to Raise• 6HAR³ - 6" (152mm) Air to Raise, Heavy Duty Spring • 6RHAR 4 - 6" (152mm) Air to Raise, Spring Adjustable, Heavy Duty Spring• 6ARLG - 6” (152.mm) Air to Raise, Long Stroke • 6AL - 6" (152mm) Air to Lower• 6HAL³ - 6" (152mm) Air to Lower, Heavy Duty Spring • 6RHAL 4 - 6" (152mm) Air to Lower, Spring Adjustable, Heavy Duty Spring• 6ALLG - 6" (152mm) Air to Lower, Long Stroke • 6AA - 6" (152mm) Air to Air• 6ARY² - 6" (152mm) Air to Raise, Extra Long Stroke • 6AL Y² - 6" (152mm) Air to Lower, Extra Long Stroke• A1 - 3" (74mm) Air to Raise • A2 - 3" (74mm) Air to Lower • A3 - 3" (74mm) Air to Air• B1 - 4.5" (110mm) Air to Raise • B2 - 4.5" (110mm) Air to Lower • B3 - 4.5" (110mm) Air to Air • C1 - 6.5" (165mm) Air to Raise • C2 - 6.5" (165mm) Air to Lower •C3 - 6.5" (165mm) Air to AirA1-3" (74mm) Air toRaise, Maintainance FreeActuators4ARP 4" (101 mm) Air to Raise w/positioner 4ALP 4" (101 mm) Air to Lower w/positioner 5ARP 5" (127 mm) Air to Raise w/positioner 5ALP 5" (127 mm) Air to Lower w/positioner 6ARP 6" (152 mm) Air to Raise w/positioner 6ALP6" (152 mm) Air to Lower w/positionerH Hand Lock M Micrometer7A4ALEP 4" (102 mm) Air to Lower, ElectropneumaticPositioner5ALEP 5" (127 mm) Air to Lower, ElectropneumaticPositioner6ALEP 6" (152 mm) Air to Lower, ElectropneumaticPositioner4AREP 4" (102 mm) Air to Raise, ElectropneumaticPositioner5AREP 5" (127 mm) Air to Raise, ElectropneumaticPositioner6AREP 6" (152 mm) Air to Raise, ElectropneumaticPositioner² U sed with Y-B ody valves. Consult with application engineering for use with 6" (152 mm) OD size valves.³ Use TFP metal or TR seats for heavy spring actuators.4Used with over-pressure valves, use TFP or metal seats.4AR3 4" (101 mm) Air to Raise, 3 position 4AL3 4" (101 mm) Air to Lower, 3 positionACCCBD BBCCG HCCFB ODY CON FI G U RATI ON S (1 OF 2)W61 Shut-offW63/W83 Shut-off (W68R/W88R Throttling)W61 and W63 Shut-off - One Piece BodiesCSCDTL TOP RTDTM TOP LTSCMCOPCY TBTDTSA1B1B2B3C1E1CSCDCBIVALVE D I M E N S I ONSTPS and CPS Bodies TM and CM Bodies8B ODY CON FI G U RATI ONS (2 OF 2)TTTCCTCCTTSW62/W82 DivertW65/W85 Divert (W685/W885 Throttling)VALVE D I M E N S I ON S123TTT 12345CTC 1234CTT 12345CCT 12345TCCCCCTTCTCTW64/W84 Tank Outlet (NOTE: Tank Flanges sold separately)T(W64R)C(W64R)T(W64)C(W64)9W80 valves are charted below under corresponding W60 header. Curves are based on water 70ºF (21°C).Pressure Loss Curves501001502002503003504000.00.51.01.52.02.53.03.54.04B to S CV 5353B t o SC V 2622.5B t oS C V 142 B t oS C V891.5 B t o S C V 421 B t o S C V 174 St o B C V6423 S t oBCV 2722.5 S t oB C V 1312 S t oB C V 851.5 S t o B C V 431 S t o B C V 18H e a d L o s s - F TG P M*Note: For W61 S to S curves see W62 T to T curves.M OD E L W61 & W64R100200300400024681012144B t o S CV1583 Bt o S C V 1192.5B t o SC V 842 B t o S C V 541.5 Bt o SC V 301 B t o S C V164St oB C V1743S t oBC V 1282.5St o B C V 912 St oB C V 611.5 S t o B C V 221 S t o B C V15H e a d L o s s - F TG P MM OD E L W63 & W64501001502002503003504000.00.51.01.52.02.54 Tt o T CV 643T t o T C V 3832.5T to TC V 2152 Tt oT C V 1341.5 Tt o TC V 751 T t o T C V 224 St oSCV 5373St oS C V2842.5S to S CV 1632 S t oS C V 1081.5 S to S C V581 S t o S C V 21H e a d L o s s - F TG P MM OD E L W62N OTE: Pressure drop curves shown are for estimation purposes only. Contact application engineering for specific pressure drop details.10100200300400024681012144 St o B C V2103 S t o B C V 1492.5 S t o B C V 1092 S t o B C V 761.5 S t o B C V 431 S t o B C V 174 S t oT C V 1583 S t oT CV 1192.5 S t o T C V 842 S t o T C V 541.5 S t o T C V 301 S t o T C V 16H e a d L o s s - F TG P M 0100200300400024681012144 S t oT CV 1583St oT C V1192.5St oT CV 842 S to T CV 541.5 S to T C V 301 S t oT C V 16H e a d L o s s - F TG P M 100200300400024681012144B t o SC V 2003 B t o S C V1602.5B t o SC V 1172 B t o S C V 811.5 B t o S C V361 B t o S C V 184T t o S CV 1743 T t o S C V 1282.5 Tt o SC V 912 T t o S C V 611.5 T t o S C V 221 T t o S C V 15H e a d L o s s - F TG P MM OD E L W62M OD E L W65M OD E L W62Note: Y-Body must use 6ARY/AL ActuatorW61Y-B ODY (AI R-TO-RAI S E) - E XTRA LON G STR OK EW61 & W64R Holding Pressure ChartsW61 AL/HAL (AI R-TO-LOWE R) - STAN DAR D STR OK EW61 AR (AI R-TO-RAI S E) - LON G STR OKEW61 AL (AI R-TO-LOWE R) - LON G STR OK EW61Y-B ODY (AI R-TO-LOWE R) - E XTRA LON G STR OKEW62 AR /HAR (AI R-TO-RAI S E) - STAN DAR D STR OK EW62 Holding Pressure Charts• If pressure rating is higher than documented in tables consult factory before exceeding.• Minimum air supply requirements: 50 PSI for 4, 5 and 6 inch standard spring actuators; 75 PSI for 4, 5 and 6 inch heavy spring and 4 and 6 inch long stroke actuators; 87 PSI for A, B and C size actuators.• Please contact the factory for holding pressure values not listed.W62 AR /HAR (AI R-TO-RAI S E) - STAN DAR D STR OK E (CONTI N U ED)W62 AR (AI R-TO-RAI S E) - LON G STR OKEW62 AL (AI R-TO-LOWE R) - LON G STR OKEW62 AL/HAL (AI R-TO-LOWE R) - STAN DAR D STR OK EW62 AL/HAL (AI R-TO-LOWE R) - STAN DAR D STR OK E (CONTI N U E D)W63 AR (AI R-TO-RAI S E) - LON G STR OK EW63 AR /HAR (AI R-TO-RAI S E) - STAN DAR D STR OK EW63 & 64 Holding Pressure Charts• If pressure rating is higher than documented in tables consult factory before exceeding.• Minimum air supply requirements: 50 PSI for 4, 5 and 6 inch standard spring actuators; 75 PSI for 4, 5 and 6 inch heavy spring and 4 and 6 inch long stroke actuators; 87 PSI for A, B and C size actuators.• 1For sizing Over-Pressure valves, select a Heavy-Duty spring actuator with a holding pressure greater than the desired relief pressure. Designate with the “R” valve model (i.e. WR61) and actuator size (i.e. 5RHAR).• Please contact the factory for holding pressure values not listed.W63 AL (AI R-TO-LOWE R) - LON G STR OK EW63 AL/HAL (AI R-TO-LOWE R) - STAN DAR D STR OKEW65 AR /HAR (AI R-TO-RAI S E) - STAN DAR D STR OK EW65 Holding Pressure Charts• If pressure rating is higher than documented in tables consult factory before exceeding.• Minimum air supply requirements: 50 PSI for 4, 5 and 6 inch standard spring actuators; 75 PSI for 4, 5 and 6 inch heavy spring and 4 and 6 inch long stroke actuators; 87 PSI for A, B and C size actuators.• Please contact the factory for holding pressure values not listed.21W65 AR /HAR (AI R-TO-RAI S E) - STAN DAR D STR OK E (CONTI N U ED)W65 AR (AI R-TO-RAI S E) - LON G STR OK EW65 AL (AI R-TO-LOWE R) - LON G STR OKE22W65 AL/HAL (AI R-TO-LOWE R) - STAN DAR D STR OKE23W65 AL/HAL (AI R-TO-LOWE R) - STAN DAR D STR OK E (CONTI N U ED)24AI R B OOST F OR P ORT BAI R B OOST F OR PORT AChart shows additional product holding pressure per 1 PSI or BAR of air applied to port B to:(1) air assist spring holding force 1 (spring to close)(2) calculate holding power on air to air actuator(3) calculate additional holding power above the nominal air requirement of the actuator 3 (4) Maximum Air Assist Pressures should not exceed: - 70 psi on 4”, 5”, 6” Maintainable Actuators- 15 psi on A, B or C sized Maintenance Free Actuator (5) Air Assist pressures should be air regu-lated to the lowerest required amount of air pressureNote: * Y Body Valve is only available with 6ARY and 6AL Y actuatorsPRODUCT PRESSURE APPLIED TO BOTTOM OF PLUG.• 1 Refer to W61 & W65 holding pressure charts for spring only holding force. • 2 Refer to W62 & W63 holding pressure charts for spring only holding force.• 3 Air requirements: 50 PSI to actuate 4”, 5”, & 6” Actuators 75 PSI to actuate 4”, 5” & 6” heavy spring and 4” & 5” long stroke actutators; 87 PSI for A, B, and C size actuators (refer to holding pressure charts for holding power).Air Assist ChartsExample:W61T-3" with 5" Air to Raise (Spring to Close) actuator required to hold against 75 PSI product pressure.Holding pressure required: 75 PSI Minus Spring only holding force: - 55 PSI (From page16)Additional holding power required: 20 PSIAir Assistpressure required =7.79Additional holding power required 20 Product Ratio from chart above2.6PSIAir Requiredto Port BChart shows additional product holding pressure per 1 PSI or BAR of air applied to port A to:(1) air assist spring holding force 1 (spring to close)(2) calculate holding power on air to air actuator(3) calculate additional holding power above the nominal air requirement of the actuator 3 (4) Maximum Air Assist Pressures should not exceed: - 70 psi on 4”, 5”, 6” Maintainable Actuators- 15 psi on A, B or C sized Maintenance Free Actuator (5) Air Assist pressures should be air regu-lated to the lowerest required amount of air pressure25Cleanable, Designed For Sanitary / Hygienic Applications • 316L Stainless Steel wetted parts• Minimal internal crevices and high surface finishes• Free-spinning, snap-on TFM or PEEK seats for reliable sealing: choice of T ef-Flow, T ef-Flow P, tri-ring, or metal• Captive, supported stationary seals located forward to the product zone: choice of o-ring, quad, or wiping stem seals• Free draining in multiple positions – including upside down •3-A compliant, FDA approved materialsHeavy-duty Construction • Machined-from-bar body construction can withstand mishandlings of active plant environment & lead to long service life• Consistently thick body wall dimensions & laser welded port extensions minimize body distortion during manifolding & extreme fluid temperature changes • Deep, inter-locking bodies and adapters• Heavy-Duty Clamps & High Pressure Adapters for up to 1220 PSI applications •Multiple split TFM bearing support of stemsFlexibility & Modularity • Major components (body, stem, adapter, actuators) are modular in design to quickly and easily assemble or retrofit in field a valve to meet specific applications• Choice of standard fully maintainable actuator or cost-effective maintenance-free actuator with 5-year warranty with various sizes and spring options• True-line mix body sizes and custom 45° or other angled ports available to match complicated pipe design • One-piece bodies or two-piece clamped• AL6XN alloy product zone parts available for corrosive products• Custom port lengths and center-to-center dimensions can match competitor and legacy series valves to provide easy drop-in replacements• Various control top models available to fit customer needs: cost-effective CU4 full-featured, robustWCB control tops, or state-of-the-art Burkert 8681Low Cost of Ownership • Heavy-duty construction maximizes service life• Minimum propriety parts gives off-the-shelf availability and low price of most spares and components • Available spare parts from local distributor or factory in Delavan, WI•Modular design enables multi-use parts, easy training & familiarity with whole family of valves, minimum spares required on shelf• Long life standard actuator is field-maintainable with finger-safe, caged springs and cartridge piston assemblies• Commonality of parts: same part numbers used multiple places• Simple, easy-to-maintain design is intuitive and does not require advanced mechanical skills Domestic Manufacture, Local Support• Value-Added Distributor Relationships • Face-to-Face Representation•Manufacturing, Assembly, Inventory, Engineering & Customer Service in Delavan, Wisconsin, USAW62TTHeavy-duty ConstructionW60 Series Valves: Safe, Strong and Sanitary26The ‘standard’ adapter is used on all models of short and long stroke W60 Series valves. Machined from 316LSS bar with a thick cross-section, the adapter adds strength to the valve body and provides alignment for the stem. The outer perimeter seals to the valve body with an O-ring that is located forward to the product zone to minimize crevices. The product stem passes through the adapter and is sealed to the adapter with an O-ring. A TFM split bearing guides the stem and takes up the mechanical loading imparted by hydraulic forces. This increases the service life of the stem seal. Adapters are made in 1"-6"(25mm -152mm) sizes.The pressure limitation of the W60 adapter is the sealing capability of the dynamic O-ring on the product stem. This variation of the W60 adapter uses a backing ring added on the atmospheric side to support the stem O-ring. This significantly boosts the pressure rating on the stem O-ring. The product stem passes through the adapter and is sealed to the adapter with an O-ring and is guided by a TFM split bearing.This adapter is used to convert a ‘standard’ W60 series valve to a W80. The outer perimeter seals to the valve body with an O-ring that is located forward to the product zone to minimize crevices. The product stem passes through the adapter and is sealed in the upper part and the lower part of the adapter with O-rings. The space between the O-rings is flushed with a suitable liquid or steam. The TFM split bearing is located in the flushed chamber. Adapters are made in 1"-6" (25mm - 152mm) sizes. For vacuum-rated, extended shelf-life (ESL) applications, the W80A adapter adds steam trace to the adapter-to-valve body connection.For high-risk and hard to clean product applications, the wiping stem seal fills the gap between the product zone and the traditional O-ring stem seal. The adapter is a two-piece design to allow easy inspection or replacement of the wiping stem seal. The outer perimeter seals to the valve body with an O-ring that is located forward to the product zone to minimize crevices. A TFM split bearing is used to guide and support the valve stem.27SPX FLOW, Inc. reserves the right to incorporate our latest design and material changes without notice or obligation.Design features, materials of construction, dimensional data and certifications as described in this bulletin, are provided for your information only and should not be relied upon unless confirmed in writing. Please contact your local sales representative for product availability in your region. For more information visit .The green “” and “” are trademarks of SPX FLOW, Inc.WCB_Valves-Single-Seat-DS-1201_DST_US Version: 01/2021COPYRIGHT © 2021 SPX FLOW, Inc.Identification Number: DS-1201-USS PX FLOW611 Sugar Creek Road Delavan, WI 53115P: (262) 728-1900 or (800) 252-5200E:**********************Based in Charlotte, North Carolina, SPX FLOW, Inc. (NYSE: FLOW) is a multi-industry manufacturing leader. For more information, please visit 。

Product DataSplit System Cooling4TTR6018J1000A Array 4TTR6024J1000B4TTR6030J1000A4TTR6036J1000A4TTR6042J1000A4TTR6048J1000A4TTR6049J1000A4TTR6060J1000B4TTR6061C1000BN o t e:“Graphics in this document are for representationonly.Actual model may differ in appearance.”April202022-1916-1J-E NProduct Specifications(a)Certified in accordance with the Unitary Air-conditioner equipment certification program which is based on AHRI standard210/240.(b)Calculated in accordance with N.E.C.Only use HACR circuit breakers or fuses.(c)Standard line lengths—60’,Standard lift—60’Suction and Liquid line.For Greater lengths and lifts refer to refrigerantpiping software Pub#32–3312–0*(*denotes latest revision).(d)25,30,35and50foot linesets available.For a complete listing of lineset options available from equipment or supply stores,refer to the Trane Residential and Light Commercial Product Handbook.P r o d u c t S p e c i f i c a t i o n s(a)210/240.(b)Calculated in accordance with N.E.C.Only use HACR circuit breakers or fuses.(c)Standard line lengths—60’,Standard lift—60’Suction and Liquid line.For Greater lengths and lifts refer to refrigerantpiping software Pub#32–3312–0*(*denotes latest revision).(d)25,30,35and50foot linesets available.For a complete listing of lineset options available from equipment or supply stores,refer to the Trane Residential and Light Commercial Product Handbook.P r o d u c t S p e c i f i c a t i o n s(a)Certified in accordance with the Unitary Air-conditioner equipment certification program which is based on AHRI standard210/240.(b)Calculated in accordance with N.E.C.Only use HACR circuit breakers or fuses.(c)Standard line lengths—60’,Standard lift—60’Suction and Liquid line.For Greater lengths and lifts refer to refrigerantpiping software Pub#32–3312–0*(*denotes latest revision).(d)25,30,35and50foot linesets available.For a complete listing of lineset options available from equipment or supply stores,refer to the Trane Residential and Light Commercial Product Handbook.Note:Rated in accordance with AHRI Standard270–2008Accessory Description and UsageA n t i-S h o r t C y c l e T i m e r—Solid state timing device that prevents compressor recycling untilfive(5)minutes have elapsed after satisfying call or power e in area withquestionable power delivery,commercial applications,long lineset,etc.E v a p o r a t i o n D e f r o s t C o n t r o l—SPST Temperature actuated switch that cycles the condenseroff as indoor coil reaches freeze-up ed for low ambient cooling to30°F with TXV.R u b b e r I s o l a t o r s—Five(5)large rubber donuts to isolate condensing unit from transmittingenergy into mounting frame or e on any application where sound transmission needs tobe minimized.H a r d S t a r t K i t—Start capacitor and relay to assist compressor motor e in areas withmarginal power supply,on long linesets,low ambient conditions,etc.E x t r e m e C o n d i t i o n M o u n t K i t—Bracket kits to securely mount condensing unit to a frame orpad without removing any e in areas with high winds,or on commercial roof tops,etc.A H R I S t a n d a r d C a p a c i t y R a t i n g C o n d i t i o n sAHRI Standard210/240Rating Conditions1.Cooling80°F DB,67°F WB air entering indoor coil,95°F DB air entering outdoor coil.2.High Temperature Heating47°F DB,43°F WB air entering outdoor coil,70°F DB air enteringindoor coil.3.Low Temperature Heating17°F DB air entering indoor coil.4.Rated indoor airflow for heating is the same as for cooling.A H R I S t a n d a r d270R a t i n g C o n d i t i o n s—(Noise rating numbers are determiend with the unit incooling operations.)Standard Noise Rating number is at95°F outdoor air.Model NomenclatureOutdoor Units3 = 134 = 145 = 15Schematic DiagramsFigure1.018—048ModelsD157362P08Figure2.049&061ModelsPRINTED FROM D158442P 02 S c h e m a t i c D i a g r a m sFigure 3.060ModelsS c h e m a t i c D i a g r a m sFigure 4.060ModelsS c h e m a t i c D i a g r a m sOutline DrawingMechanical Specification OptionsG e n e r a lThe outdoor condensing units are factory charged with the system charge required for theoutdoor condensing unit,ten(10)feet of tested connecting line,and the smallest rated indoorevaporative coil match.This unit is designed to operate at outdoor ambient temperatures as highas115°F.Cooling capacities are matched with a wide selection of air handlers and furnace coilsthat are AHRI certified.The unit is certified to UL1995.Exterior is designed for outdoorapplication.C a s i n gUnit casing is constructed of heavy gauge,galvanized steel and painted with a weather-resistantpowder paint finish.The corner panels are prepainted.All panels are subjected to our1,000hoursalt spray test.R e f r i g e r a n t C o n t r o l sRefrigeration system controls include condenser fan,compressor contactor and low and highpressure switches.A factory supplied,field installed liquid line drier is standard.C o m p r e s s o rThe compressor features internal over temperature and pressure protection.Other featuresinclude:Centrifugal oil pump and low vibration and noise.C o n d e n s e r C o i lThe outdoor coil provides low airflow resistance and efficient heat transfer.The coil is protectedon all four sides by louvered panels.L o w A m b i e n t C o o l i n gAs manufactured,this system has a cooling capacity to55°F.The addition of an evaporatordefrost control permits operation to40°F.The addition of an evaporator defrost control with TXVpermits low ambient cooling to30°F.The addition of the BAYLOAM107A low ambient kit permits ambient cooling to20°F.T h e r m o s t a t s—Cooling only and heat/cooling(manual and automatic change over).Sub-base tomatch thermostat and locking thermostat cover.N o t e sN o t e sN o t e sTrane-by Trane Technologies(NYSE:TT),a global innovator-creates comfortable,energy efficient indoor environments for commercial and residential applications.For more information,please visit or .The AHRI Certified mark indicates Trane U.S.Inc.participation in the AHRI Certification program.For verification of individual certified products,go to ahridirectory. org.Trane has a policy of continuous data improvement and it reserves the right to change design and specifications without notice.We are committed to using environmentally conscious print practices.22-1916-1J-EN28Apr2020。

OnCell G2111/G2151I SeriesIndustrial quad-band GSM/GPRS modemsFeatures and Benefits•Quad-band GSM/GPRS850/900/1800/1900MHz•DIN-rail mounting and wall mounting•2.5kV RMS isolation for1min.for all serial signals(G2151I only)•LED indicators for GSM/GPRS and data transmission status•Extended operating temperature from-25to70°C(G2111-T only)CertificationsIntroductionThe OnCell G2111/G2151I Series of industrial quad-band GSM/GPRS modems are designed to transmit data and short messages(SMS)over GSM/ GPRS mobile networks.The modems can be used to increase the efficiency of maintenance and communication,but do not require extensive training.In addition,the modems can be mounted on a DIN rail or wall.The OnCell G2111/G2151I Series modems accept a12to48VDC power input,making them suitable for use with a variety of field power sources.The serial ports feature15kV ESD line protection to protect the products from harmful electrical discharge,and separate RS-232and RS-422/485 interfaces are built into the OnCell G2151I,each with2.5kV RMS isolation protection for one minute.The two serial interfaces on the OnCell G2151I make it ideal for attaching all kinds of devices,such as stand-alone controllers,PC COM ports,and multi-dropped electric meters.In addition,the OnCell G2111-T has an extended operating temperature(-25to70°C)design that makes it suitable for heavy industrial use. SpecificationsCellular InterfaceCellular Standards GSM,GPRSBand Options Quad-band GSM/GPRS850MHz/900MHz/1800MHz/1900MHzGPRS Multi-Slot Class10GPRS Terminal Device Class Class BGPRS Coding Schemes CS1to CS4CSD Data Rates Up to14400bpsCellular Antenna Connectors1SMA femaleNo.of SIMs1SIM Control Voltage3VSerial InterfaceNo.of Ports1Serial Standards All models:RS-232(DB9female connector)OnCell G2151I:RS-232/422/485(5-pin terminal block connector)ESD Protection OnCell G2111:15kVIsolation OnCell G2151I:2kVData Bits8Stop Bits1Parity NoneFlow Control RTS/CTSBaudrate300bps to230.4kbpsSerial SignalsRS-232TxD,RxD,RTS,CTS,DTR,DSR,DCD,RI,GNDRS-422Tx+,Tx-,Rx+,Rx-,GNDRS-485-2w Data+,Data-,GNDRS-485-4w Tx+,Tx-,Rx+,Rx-,GNDPower ParametersInput Voltage12to48VDCPower Connector Terminal blockInput Current0.625A@12VDC,0.16A@48VDCPhysical CharacteristicsHousing ABS+PolycarbonateIP Rating IP30Dimensions27x123x79mm(1.06x4.84x3.11in)Weight155g(0.34lb)Environmental LimitsOperating Temperature OnCell G2111/G2151I:-20to55°C(-4to131°F)OnCell G2111I-T:-25to70°C(-22to158°F)Storage Temperature(package included)-40to75°C(-40to167°F)Ambient Relative Humidity5to95%(non-condensing)Standards and CertificationsSafety UL60950-1EMC EN55032/24EMI CISPR32,FCC Part15B Class AEMS IEC61000-4-2ESD:Contact:4kV;Air:8kVIEC61000-4-3RS:80MHz to1GHz:3V/mIEC61000-4-4EFT:Power:0.5kVIEC61000-4-5Surge:Power:1kVIEC61000-4-6CS:3VIEC61000-4-8PFMFRadio Frequency FCC Part22H,FCC Part24E,EN301489-1,EN301489-7,EN301511MTBFTime OnCell G2111:925,000hrsOnCell G2111-T:925,000hrsOnCell G2151I:864,000hrsStandards Telcordia SR332WarrantyWarranty Period5yearsDetails See /warrantyPackage ContentsDevice1x OnCell G2111/G2151I Series GSM/GPRS modem1Antenna1x GSM/GPRSAccessory1x terminal block for power jack connectorDocumentation1x quick installation guide1x warranty cardDimensionsOrdering InformationModel Name Cellular Standard Band Operating Temp.Serial Isolation Serial StandardsOnCell G2111GSM/GPRS 850/900/1800/1900MHz-20to55°C–RS-232OnCell G2111-T GSM/GPRS 850/900/1800/1900MHz-25to70°C–RS-232OnCell G2151I GSM/GPRS 850/900/1800/1900MHz-20to55°C✓RS-232/422/4851.An activated SIM card(not included)must be provided by a third party Cellular Service Provider.Accessories(sold separately)AntennasANT-CQB-AHSM-00-3m GSM/GPRS/EDGE,omni-directional magnetic base antenna,0dBi,3m cableANT-CQB-AHSM-03-3m GSM/GPRS/EDGE,omni-directional magnetic base antenna,3dBi,3m cableANT-CQB-AHSM-05-3m GSM/GPRS/EDGE,omni-directional magnetic base antenna,5dBi,3m cableANT-CQB-ASM-01GSM/GPRS/EDGE,omni-directional rubber duck antenna,1dBiANT-WCDMA-ANF-00GSM/GPRS/EDGE/UMTS/HSPA,omni-directional outdoor antenna,0dBiANT-WCDMA-ASM-1.5GSM/GPRS/EDGE/UMTS/HSPA,omni-directional rubber duck antenna,1.5dBiANT-WCDMA-AHSM-04-2.5m GSM/GPRS/EDGE/UMTS/HSPA,omni-directional magnetic base antenna,4dBiANT-LTE-ASM-02GPRS/EDGE/UMTS/HSPA/LTE,omni-directional rubber duck antenna,2dBiANT-LTE-ANF-04GSM/GPRS/EDGE/UMTS/HSPA/LTE,omni-directional outdoor antenna,4dBi,IP66AntennasANT-LTEUS-ASM-01GSM/GPRS/EDGE/UMTS/HSPA/LTE,omni-directional rubber duck antenna,1dBiWireless Antenna CableA-CRF-SMSF-R3-100Cellular magnetic-base SMA connector with1-meter RF cable©Moxa Inc.All rights reserved.Updated Nov12,2018.This document and any portion thereof may not be reproduced or used in any manner whatsoever without the express written permission of Moxa Inc.Product specifications subject to change without notice.Visit our website for the most up-to-date product information.。

SA5.0A Series500 Watt Peak Power MiniMOSORB t Zener Transient Voltage SuppressorsUnidirectionalThe SA5.0A series is designed to protect voltage sensitive components from high voltage, high energy transients. They have excellent clamping capability, high surge capability, low zener impedance and fast response time. The SA5.0A series is supplied in ON Semiconductor’s exclusive, cost-effective, highly reliable Surmetic t axial leaded package and is ideally-suited for use in communication systems, numerical controls, process controls, medical equipment, business machines, power supplies and many other industrial/consumer applications.Features•Working Peak Reverse V oltage Range − 5.0 to 170 V •Peak Power − 500 Watts @ 1.0 ms•ESD Rating of Class 3 (>16 kV) per Human Body Model •Maximum Clamp V oltage @ Peak Pulse Current•Low Leakage < 1 m A above 8.5 V•UL 497B for Isolated Loop Circuit Protection •Maximum Temperature Coefficient Specified •Response Time is typically < 1.0 ns•Pb−Free Packages are Available*Mechanical Characteristics:CASE:V oid-free, Transfer-molded, Thermosetting Plastic FINISH:All external surfaces are corrosion resistant and leads are readily solderableMAXIMUM LEAD TEMPERATURE FOR SOLDERING:230°C,1/16 in. from the case for 10 secondsPOLARITY:Cathode indicated by polarity bandMOUNTING POSITION:Any*For additional information on our Pb−Free strategy and soldering details, please download the ON Semiconductor Soldering and Mounting Techniques Reference Manual, SOLDERRM/D.Device Package Shipping†ORDERING INFORMATIONSAxxxA Axial Lead1000 Units / Box SAxxxAG Axial Lead(Pb−Free)1000 Units / Box†For information on tape and reel specifications, including part orientation and tape sizes, please refer to our T ape and Reel Packaging Specifications Brochure, BRD8011/D.SAxxxARL*Axial Lead5000 / Tape & Reel SAxxxARLG*Axial Lead(Pb−Free)5000 / Tape & Reel SAxxxALF**Axial Lead2000 Units / Box SAxxxALFG**Axial Lead(Pb−Free)2000 Units / Box*SA8.0A, SA130A, and SA160A Not Available in 5000/ Reel.** Lead formed device.MAXIMUM RATINGSRating Symbol Value Unit Peak Power Dissipation (Note 1)@ T L≤ 25°CP PK500WSteady State Power Dissipation@ T L≤ 75°C, Lead Length = 3/8 in Derated above T L = 75°C P D 3.030WmW/°CThermal Resistance, Junction−to−Lead R q JL33.3°C/W Forward Surge Current (Note 2)@ T A = 25°CI FSM70A Operating and Storage T emperature Range T J, T stg−55 to +175°CStresses exceeding Maximum Ratings may damage the device. Maximum Ratings are stress ratings only. Functional operation above the Recommended Operating Conditions is not implied. Extended exposure to stresses above the Recommended Operating Conditions may affect device reliability.1.Nonrepetitive current pulse per Figure 4 and derated above T A = 25°C per Figure2.2.1/2 sine wave (or equivalent square wave), PW = 8.3 ms, duty cycle = 4 pulses per minute.ELECTRICAL CHARACTERISTICS (T A = 25°C unlessotherwise noted, V F = 3.5 V Max. @ I F (Note 6) = 35 A)Symbol ParameterI PP Maximum Reverse Peak Pulse CurrentV C Clamping Voltage @ I PPV RWM Working Peak Reverse VoltageI R Maximum Reverse Leakage Current @ V RWMV BR Breakdown Voltage @ I TI T Test CurrentQ V BR Maximum Temperature Variation of V BRI F Forward CurrentV F Forward Voltage @ I FELECTRICAL CHARACTERISTICS (T A = 25°C unless otherwise noted, V F = 3.5 V Max. @ I F (Note 6)= 35 A)Device*DeviceMarkingV RWM(Note 3)I R @ V RWMBreakdown Voltage V C @ I PP(Note 5)Q V BRV BR (Note 4) (Volts)@ I T V C I PP Volts m A Min Nom Max mA Volts A mV/°CSA5.0A, G SA5.0A5600 6.4 6.77109.254.35 SA6.0A, G SA6.0A6600 6.677.027.371010.348.55 SA7.0A, G SA7.0A71507.788.198.6101241.76 SA7.5A, G SA7.5A7.5508.338.779.21112.938.87 SA8.0A, G†SA8.0A8258.899.369.83113.636.77 SA8.5A, G SA8.5A8.559.449.9210.4114.434.78 SA9.0A, G SA9.0A911010.5511.1115.432.59 SA10A, G SA10A10111.111.712.311729.410 SA11A, G SA11A11112.212.8513.5118.227.411 SA12A, G SA12A12113.31414.7119.925.112 SA13A, G SA13A13114.415.1515.9121.523.213 SA14A, G SA14A14115.616.417.2123.221.514 SA15A, G SA15A15116.717.618.5124.420.616 SA16A, G SA16A16117.818.7519.712619.217 SA17A, G SA17A17118.919.920.9127.618.119 SA18A, G SA18A1812021.0522.1129.217.220 SA20A, G SA20A20122.223.3524.5132.415.423 SA22A, G SA22A22124.425.6526.9135.514.125 SA24A, G SA24A24126.728.129.5138.912.828 SA26A, G SA26A26128.930.431.9142.111.930 SA28A, G SA28A28131.132.7534.4145.41131 SA30A, G SA30A30133.335.0536.8148.410.336 SA33A, G SA33A33136.738.6540.6153.39.439 SA36A, G SA36A3614042.144.2158.18.641 SA40A, G SA40A40144.446.5549.1164.57.846 SA43A, G SA43A43147.850.352.8169.47.250 SA45A, G SA45A4515052.6555.3172.7 6.952 SA48A, G SA48A48153.356.158.9177.4 6.556 SA51A, G SA51A51156.759.762.7182.4 6.161 SA58A, G SA58A58164.467.871.2193.6 5.370 SA60A, G SA60A60166.770.273.7196.8 5.271 SA64A, G SA64A64171.174.8578.61103 4.976 SA64ALF, G SA64A64171.174.8578.61103 4.976 SA70A, G SA70A70177.881.9861113 4.485 SA78A, G SA78A78186.791.2595.81126 4.095 SA90A, G SA90A901100105.51111146 3.4110 SA100A, G SA100A10011111171231162 3.1123 SA110A, G SA110A1101122128.51351177 2.8133 SA120A, G SA120A12011331401471193 2.5146 SA130A, G†SA130A1301144151.51591209 2.4158 SA150A, G SA150A15011671761851243 2.1184 SA160A, G†SA160A1601178187.51971259 1.9196 SA170A, G SA170A17011891992091275 1.8208 NOTE:Devices listed in bold, italic are ON Semiconductor Preferred devices. Preferred devices are recommended choices for future use and best overall value.3.MiniMOSORB t transients suppressor is normally selected according to the maximum working peak reverse voltage (V RWM), whichshould be equal to or greater than the dc or continuous peak operating voltage level.4.V BR measured at pulse test current I T at an ambient temperature of 25°C.5.Surge current waveform per Figure 4 and derate per Figures 1 and 2.6.1/2 sine wave (or equivalent square wave), PW = 8.3 ms, duty cycle = 4 pulses per minute*The “G’’ suffix indicates Pb−Free package available.†Not Available in the 5000/Tape & Reel.1001010.11ms 10msP P , P E A K P O W E R (k W )t p , PULSE WIDTHFigure 1. Pulse Rating Curve 1008060402000255075100125150175200P E A K P U L S E D E R A T I N G I N % O F P E A K P O W E R O R C U R R E N T @ T A = 25C T A , AMBIENT TEMPERATURE (°C)Figure 2. Pulse Derating Curve10,0001000C, C A P A C I T A N C E (p F )V BR , BREAKDOWN VOLTAGE (VOLTS)Figure 3. Capacitance versus Breakdown Voltage t, TIME (ms)Figure 4. Pulse Waveform543210P D , S T E A D Y S T A T E P O W E R D I S S I P A T I O N (W A T T S )T L , LEAD TEMPERATURE (°C)Figure 5. Steady State Power DeratingK °UL RECOGNITION*The entire series including the bidirectional CA suffix has Underwriters Laboratory Recognition for the classification of protectors (QVGV2) under the UL standard for safety 497B and File #E 116110. Many competitors only have one or two devices recognized or have recognition in a non-protective category. Some competitors have no recognition at all. With the UL497B recognition, our parts successfully passed several tests including Strike V oltage Breakdown test, Endurance Conditioning, Temperature test, Dielectric V oltage-Withstand test, Discharge test and several more.Whereas, some competitors have only passed a flammability test for the package material, we have been recognized for much more to be included in their protector category.*Applies to SA5.0A, CA − SA170A, CA.PACKAGE DIMENSIONSAXIAL LEADCASE 59AA−01ISSUE O(Similar to DO−204AC or DO−15)MiniMOSORB and Surmetic are trademarks of Semiconductor Components Industries, LLC.ON Semiconductor and are registered trademarks of Semiconductor Components Industries, LLC (SCILLC). SCILLC reserves the right to make changes without further notice to any products herein. SCILLC makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does SCILLC assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation special, consequential or incidental damages.“Typical” parameters which may be provided in SCILLC data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. All operating parameters, including “Typicals” must be validated for each customer application by customer’s technical experts. SCILLC does not convey any license under its patent rights nor the rights of others. SCILLC products are not designed, intended, or authorized for use as components in systems intended for surgical implant into the body, or other applications intended to support or sustain life, or for any other application in which the failure of the SCILLC product could create a situation where personal injury or death may occur. Should Buyer purchase or use SCILLC products for any such unintended or unauthorized application, Buyer shall indemnify and hold SCILLC and its officers, employees, subsidiaries, affiliates, and distributors harmless against all claims, costs, damages, and expenses, and reasonable attorney fees arising out of, directly or indirectly, any claim of personal injury or death associated with such unintended or unauthorized use, even if such claim alleges that SCILLC was negligent regarding the design or manufacture of the part. SCILLC is an Equal Opportunity/Affirmative Action Employer. This literature is subject to all applicable copyright laws and is not for resale in any manner.PUBLICATION ORDERING INFORMATION。

1. 日语假名及其发音一览平片罗平片罗平片罗平片罗平片罗假假马假假马假假马假假马假假马音音音音音______________________________________________________________________________ あゕ a い゗ i ゔ u え゛ e おゝ oかゞ ka き゠ ki くア ku けイ ke こウ koさエ sa しオ si/shi すガ su せギ se そグ soたゲ ta ちゴ chi つシ tsu てス te とセ toなソ na にゾ ni ぬタ nu ねダ ne のチ noはヂ ha ひヅ hi ふト fu へニ he ほノ hoまパ ma みヒ mi むビ mu めピ me もフ moやプ ya ゆベ yu よホ yoらボ ra りポ ri るマ ru れミ re ろム roわワ wa をヲ o/woんン nがゟ ga ぎァ gi ぐィ gu げゥ ge ごェ goざォ za じカ zi/ji ずキ zu ぜク ze ぞケ zoだコ da ぢサ ji/di づジ zu/du でズ de どゼ doばッ ba びテ bi ぶド bu べヌ be ぼハ boぱツ pa ぴデ pi ぷナ pu ぺネ pe ぽバ poきゃ゠ブkya きゅ゠ヘkyu きょ゠ペkyoしゃオブsya しゅオヘsyu しょオペsyoちゃゴブcya ちゅゴヘcyu ちょゴペcyoにゃゾブnya にゅゾヘnyu にょゾペnyoひゃヅブhya ひゅヅヘhyu ひょヅペhyoみゃヒブmya みゅヒヘmyu みょヒペmyoりゃポブrya りゅポヘryu りょポペryoぎゃァブgya ぎゅァヘgyu ぎょァペgyoじゃカブzya/ja じゅカヘyu/ju じょカペzyo/joびゃテブbya びゅテヘbyu びょテペbyoぴゃデブpya ぴゅデヘpyu ぴょデペpyo说明：* 拨音（ん/シ）用“n”表示。

适用于世伟洛克球阀的符合 ISO 5211 的执行机构 A-97A40G, 40, 60, 83 系列和 AFS 球阀■ 气动齿轮、齿条执行机构■ 执行机构符合行业接口标准：ISO 5211, NAMUR 和 VDI/VDE 3845■ 可提供工厂装配好的成品或供现场装配的成套件适用于世伟洛克球阀的符合 ISO 5211 的执行机构A-98 球阀A符合 ISO 5211 的世伟洛克齿条和齿轮气动执行机构适用于一般应用。

提供直通阀和角型阀用弹簧回程和双作用模式的产品。

世伟洛克可提供符合 ISO 5211、NAMUR 和 VDI/VDE 3845 接口标准的带全部执行机构的球阀组件、包括阀门、执行机构、传感器、支架成套件和电磁阀。

本产品目录所列阀门执行机构组件的设计条件是：■ 最高阀门压力■ 环境温度 (10 到 37°C [50 到100°F])■ 设计余量为计算操作扭矩的 20%。

欲获得关于阀门操作扭矩计算的更多信息、请参阅世伟洛克带执行机构的球阀选型指南、符合 ISO 5211 的执行机构安装支架成套件、P A-105。

执行机构工作额定值最大的执行机构压力是 116 psig (8 .0 bar)。

证书对于工厂装配的符合 ISO 5211 的世伟洛克执行机构、可在订单报价时要求提供 ATEX 认证。

现场装配不提供 ATEX 认证。

执行机构结构材料还可以提供更多材料。

请联系您的授权世伟洛克代表。

执行机构安装支架阀门阀门接地弹簧电磁阀安装支架位置指示器接头阀杆螺母锁定片固定螺钉接头面板螺母40G, 40, 83, H83 系列AFS 球阀60 系列 4 螺栓铸造不锈钢墙壁安装支架六角螺栓有头螺钉六角 螺母锁紧垫圈符合 ISO 5211 标准的气动执行机构适用于世伟洛克球阀的符合 ISO 5211 的执行机构 A-99A40G 和 40 系列阀门关于阀门特点、结构材料和技术数据、请参阅世伟洛克产品目录一体式仪表球阀—40G系列和 40 系列, P A-3。

韩语常用语中文对照发音爸爸：啊爸（阿波几）妈妈：哦妈（哦猫尼）哥哥（女生叫的）：哦罢哥哥（男生叫的）：hiang奶奶：哈拉么你爷爷：哈拉波几姐姐（女生叫的）：哦你姐姐（男生叫的）：努那大叔：阿则西小姐：啊嘎西姨妈：姨某阿姨：阿祖妈朋友：亲古舅舅：桑寸（其实是“三寸”的意思，韩国亲戚关系都是以寸记，夫妻0寸，父子1寸等等）你：挠我们：吾利谁：奴古（塞哦是说话的语气词）怒古塞呦我：那(是我，那呀；我走了：那卡哒)喜欢你;卒阿嗨我爱你：萨郎嗨非常(很)：挠木(非常喜欢你：挠木挠木卒阿嗨)是；耐/叶不是：阿尼呦（加“呦”是敬语，不加就是非敬语）不行：阿恩duai （恩发急促短音）不知道：木拉不要/不喜欢：西痨不要走：卡机马走!：卡! 快走!!：吧里卡!走啦~：卡匝!我走了!：那卡哒!起来!：一捞拿出来：纳挖进来!：偷拉挖上车：踏你好：阿尼哦哈塞呦：可以有很多用法，打招呼可以，分手再见也可以谢谢：抗撒哈米大/哭骂吾思密达不好意思：崔松哈米大对不起：米啊耐（米啊哈米大）没事/没关系：捆擦那有祝贺，恭喜：租卡嗨（呦）拜托：扑他哈米大可爱: 亏妖wao漂亮: 叶波哒傻瓜: 怕bou (加感叹词: 怕bou呀)有趣: 猜米一扫真神奇：兴给疯了：米弃（有时后会发音像比弃）什么：木奥为什么?: why（这个是完全照搬英语发音）怎么回事?: 温一里呀?怎么/怎么办: 凹刀开你说什么?: 木森素里啊? /木森骂李啊？真的: 从骂儿(也可以说"井匝")知道：阿拉扫，知道吗也是用阿拉扫，只不过最后那个扫用疑问语气快点: 吧里又：斗但是：哈几慢可是：恳带说说看/说吧!: 马儿嗨pua好吃: 马西达吃吧: 猫糕你好吗?an nyeong ha se yao1.谢谢 gam sa ham ni da2.对于不起mi an nae yao3.不打紧逼gwaen chanh na yao4.多少钱eol ma ye yao5.请自便宜些zhonm ssa ge ju se yao6.不消客套cheon man ne yao8. 失仪了/欠善意思il lye ham ni da9. 是ye/ne10. 不是a ni yo11. 拜托了pu tak ham ni da12 .再会(对于走的人说) an nyeong hi ga se yao13 .再会(对于留下的人说) an nyeong hi gye se yao14. 我想去韩国han guk ga go sip peo yao15.敬辞卫生间在哪儿hwa jang sile eo di e i搜刮引擎优化yao16.请给我ju se yao17.请给我收条yeong su jeung eul ju se yao18.请帮我忙tao wa ju se yao19.我是神州人jeo neun zhonggu sa lam im ni da20.幸会ban gap seum ni da21.是谁呀?nu gu se yao22.我爱你sa lang hae yao23.我很挂念你po gao sip peo yao教你几句韩国语--中文发音弄笑版1 、你好——平以及平静哈些腰2 、谢谢——感木刹哈姆尼大3 、再会——平以及平静一嘎些要4 、你尊姓？——生哈密额特开对于西角？5 、不妨——怪音刹那呦6 、是！不是！——内！啊你要！7 、行！不行——照四姆尼大！安对于姥尼大！8 、这位是我的伴侣——一不嫩择一亲姑一姥尼大！9 、对于不起——来安哈姆尼大10 、他是谁？——择刹拉门奴古教？11 、不懂患上——毛录姆尼大！12 、我是神州人——择嫩中姑一尼姆尼大13 、这是啥子？——1个森姆鹅西姆尼嘎？14 、很开心熟悉你！——满那北归对于额对于班嘎不四姆尼大15 、我去黉舍——择嫩哈个要也嘎姆尼大16 、母亲——阿妈妮17 、羊——羊18 、一二三四五——一儿、一、萨姆、萨、噢19 、太贵了——木比萨滚要20 、便宜点儿——胶木撒给海主些要21 、我要这个—— 1个儿老租席不希要22 、这个多少钱——1个森儿妈一姆尼姆嘎24 、卫生间在哪儿？——化妆浸礼额第几要？25 、在哪儿换钱——额第也色换真儿哈姆你嘎26 、请给我收条——择哎给赢输证儿租些要27 、去机场——工航也嘎不西大28 、快点——八九29 、这是啥子处所——一额个一嫩额第教？30 、请在这儿停一下——一额个一也色些我住些31 、在火车站下——个一擦一额给色内里姆尼大32 、请帮我照张像——纱巾胶木几个租主席列33 、等一下——暂干个一鼎力大举些要34 、几点了——米额西一姆匿嘎35 、有房间吗？——宾帮一因那要36 、有座位吗？——宾杂里嘎银那要？37 、蜜斯真标致——啊嘎西森木也不内要38 、好吃——马戏四姆尼大39 、再来一杯吧——韩赞以及哈不西大40 、请给我看看菜单——Menu盘胶木租席不西要41 、帮帮我——胶木倒洼祖些要42 、怎么样？——额带要？43、哪儿有德律风——额第ei择哪嘎因那要44、错了！——特里额色要45 、啥子呀——母额嘎要46 、为啥子——歪要47 、我买一份报纸——新门韩克日租西要48 、上、下、左、右——位、阿类、文照、袄人照49 、警惕——造西木哈要些50 、危险——为什么木还要51 、救命——萨里鹅租些要52 、克制抽烟——何不淹跟母鸡53 、失火了！——倒霉呀！54 、克制照相——串儿硬跟母鸡55 、周末去哪啊儿——租马利额底嘎些腰56 、你喜欢足球吗？——出古早啊哈些腰57 、生辰欢愉——先影儿出卡还要58 、你多的年数了——那一嘎额的开队西母尼嘎59、这段忙吗？——腰字母把不要尼嘎60、慢慢来——岑岑你哈些要61 、哥哥——昆拜62 、请再说一遍——大西韩本马儿四木还租些喂（打电话时）：呀扑赛哟吃饭：潘博死：初宝贝：爱gi亲亲：波波睡觉：嚓（二声）情人：爱宁老公：难彭朋友：亲古大婶：啊君马走：卡喜欢：促哇（诶偶，安大）爱：撒朗（诶偶，安大）不，不是：啊泥（哦）没有：噢扑嗦努力：啊杂加油：fighting不要：哈集马不喜欢：西罗还有一些同中文发音很相似，像韩国，太阳，基本同中文发音一样。

General DescriptionThe MAX4080/MAX4081 are high-side, current-sense amplifiers with an input voltage range that extends from 4.5V to 76V making them ideal for telecom, automotive,backplane, and other systems where high-voltage cur-rent monitoring is critical. The MAX4080 is designed for unidirectional current-sense applications and the MAX4081 allows bidirectional current sensing. The MAX4081 single output pin continuously monitors the transition from charge to discharge and avoids the need for a separate polarity output. The MAX4081requires an external reference to set the zero-current output level (V SENSE = 0V). The charging current is rep-resented by an output voltage from V REF to V CC , while discharge current is given from V REF to GND.For maximum versatility, the 76V input voltage range applies independently to both supply voltage (V CC )and common-mode input voltage (V RS+). H igh-side current monitoring does not interfere with the ground path of the load being measured, making the MAX4080/MAX4081 particularly useful in a wide range of high-voltage systems.The combination of three gain versions (5V/V, 20V/V,60V/V = F, T, S suffix) and a user-selectable, external sense resistor sets the full-scale current reading and its proportional output voltage. The MAX4080/MAX4081offer a high level of integration, resulting in a simple,accurate, and compact current-sense solution.The MAX4080/MAX4081 operate from a 4.5V to 76V sin-gle supply and draw only 75µA of supply current. These devices are specified over the automotive operating temperature range (-40°C to +125°C) and are available in a space-saving 8-pin µMAX or SO package.ApplicationsAutomotive (12V, 24V, or 42V Batteries)48V Telecom and Backplane Current MeasurementBidirectional Motor Control Power-Management SystemsAvalanche Photodiode and PIN-Diode Current MonitoringGeneral System/Board-Level Current Sensing Precision High-Voltage Current SourcesFeatures♦Wide 4.5V to 76V Input Common-Mode Range ♦Bidirectional or Unidirectional I SENSE ♦Low-Cost, Compact, Current-Sense Solution ♦Three Gain Versions Available5V/V (MAX4080F/MAX4081F)20V/V (MAX4080T/MAX4081T)60V/V (MAX4080S/MAX4081S)♦±0.1% Full-Scale Accuracy ♦Low 100µV Input Offset Voltage ♦Independent Operating Supply Voltage ♦75µA Supply Current (MAX4080)♦Reference Input for Bidirectional OUT (MAX4081)♦Available in a Space-Saving 8-Pin µMAX PackageMAX4080/MAX408176VVoltage Output________________________________________________________________Maxim Integrated Products 1Pin ConfigurationsOrdering Information19-2562; Rev 0; 10/02For pricing, delivery, and ordering information, please contact Maxim Direct at 1-888-629-4642,or visit Maxim’s website at .Selector Guide appears at end of data sheet.M A X 4080/M A X 408176V , High-Side, Current-Sense Amplifiers with Voltage Output 2_______________________________________________________________________________________ABSOLUTE MAXIMUM RATINGSStresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability.V CC to GND............................................................-0.3V to +80V RS+, RS- to GND....................................................-0.3V to +80V OUT to GND.............-0.3V to the lesser of +18V or (V CC + 0.3V)REF1A, REF1B to GND(MAX4081 Only)....-0.3V to the lesser of +18V or (V CC + 0.3V)Output Short Circuit to GND.......................................Continuous Differential Input Voltage (V RS + - V RS -)...............................±80V Current into Any Pin..........................................................±20mAContinuous Power Dissipation (T A = +70°C)8-Pin µMAX (derate 4.5mW/°C above +70°C).............362mW 8-Pin SO (derate 5.88mW/°C above +70°C)................471mW Operating Temperature Range .........................-40°C to +125°C Junction Temperature......................................................+150°C Storage Temperature Range.............................-65°C to +150°C Lead Temperature (soldering, 10s).................................+300°CDC ELECTRICAL CHARACTERISTICSMAX4080/MAX408176V , High-Side, Current-Sense Amplifiers withVoltage Output_______________________________________________________________________________________3DC ELECTRICAL CHARACTERISTICS (continued)M A X 4080/M A X 408176V , High-Side, Current-Sense Amplifiers with Voltage Output 4_______________________________________________________________________________________AC ELECTRICAL CHARACTERISTICSNote 2:V REF is defined as the average voltage of V REF1A and V REF1B . REF1B is usually connected to REF1A or GND.V SENSE is defined as V RS+- V RS-.Note 3:The common-mode range at the low end of 4.5V applies to the most positive potential at RS+ or RS-. Depending on thepolarity of V SENSE and the device’s gain, either RS+ or RS- can extend below 4.5V by the device’s typical full-scale value of V SENSE .Note 4:Negative V SENSE applies to MAX4081 only.Note 5:V SENSE is:MAX4080F, 10mV to 1000mV MAX4080T, 10mV to 250mV MAX4080S, 10mV to 100mV MAX4081F, -500mV to +500mV MAX4081T, -125mV to +125mV MAX4081S, -50mV to +50mVNote 6:V OS is extrapolated from the gain accuracy test for the MAX4080 and measured as (V OUT - V REF )/A V at V SENSE = 0V, for theMAX4081.Note 7:V SENSE is:MAX4080F, 500mV MAX4080T, 125mV MAX4080S, 50mV MAX4081F/T/S, 0VV REF1B = V REF1A = 2.5VNote 8:Output voltage is internally clamped not to exceed 18V.Note 9:Output settles to within 1% of final value.Note 10:The device will not experience phase reversal when overdriven.MAX4080/MAX408176V , High-Side, Current-Sense Amplifiers withVoltage Output_______________________________________________________________________________________52015105302535-125-75-50-25-1000255075100125INPUT OFFSET VOLTAGE HISTOGRAMINPUT OFFSET VOLTAGE (μV)P E R C E N T A G E (%)INPUT OFFSET VOLTAGE vs. TEMPERATURE-300-250-150-200050-50-100300100150200250I N P U T O F F S E T V O L T A G E (μV )-502550-2575100125150TEMPERATURE (°C)-0.5-0.2-0.3-0.40-0.10.40.30.20.10.5-50-250255075100125GAIN ACCURACY vs. TEMPERATURETEMPERATURE (°C)G A I N A C C U R A C Y (%)GAIN ACCURACY vs. V CCV CC (V)G A I N A C C U R A C Y (%)6452402816-0.15-0.10-0.05-0.20476M A X 4080 t o c 05FREQUENCY (Hz)C O M M O N -M ODE R E J E C T I O N R A T I O (d B )100k10k1k10010-120-100-110-90-80-60-70-50-40-20-30-100-13011M MAX4081F/T/SCOMMON-MODE REJECTION RATIOvs. FREQUENCYM A X 080 t o c 06FREQUENCY (Hz)P O W E R -S U P P L Y R E J E C T I O N R A T I O (d B )100k 10k 1k 10010-120-100-110-90-80-60-70-50-40-20-30-100-13011MMAX4081F/T/SPOWER-SUPPLY REJECTION RATIOvs. FREQUENCYM A X 4080 t o c 07FREQUENCY (Hz)R E F E R E N C E R E J E C T I O N R A T I O (dB )-110-90-100-80-60-70-50-40-20-30-100-120MAX4081F/T/SREFERENCE REJECTION RATIOvs. FREQUENCY10k1k100101100k FREQUENCY (kHz)G A I N (d B )100101510152025303540455000.11000MAX4080F/T/SSMALL-SIGNAL GAIN vs. FREQUENCYFREQUENCY (kHz)G A I N (d B )10010151015202530354045500.11000MAX4081F/T/SSMALL-SIGNAL GAIN vs. FREQUENCYTypical Operating Characteristics(V CC = V RS+= 48V, V SENSE = 0V, C LOAD = 20pF, R LOAD = ∞, T A = +25°C, unless otherwise noted.)M A X 4080/M A X 408176V , High-Side, Current-Sense Amplifiers with Voltage Output 6_______________________________________________________________________________________Typical Operating Characteristics (continued)(V CC = V RS+= 48V, V SENSE = 0V, C LOAD = 20pF, R LOAD = ∞, T A = +25°C, unless otherwise noted.)6065757080854281640526476MAX4080SUPPLY CURRENT vs. V CCV CC (V)S U P P L Y C U R R E N T (μA )V CC (V)S U P P L Y C U R R E N T (μA )6452162840859095100105110115120125476MAX4081SUPPLY CURRENT vs. V CC65807570908511010510095115-50-250255075100125MAX4080SUPPLY CURRENT vs. TEMPERATUREM A X 4080 t o c 12TEMPERATURE (°C)S U P P L Y C U R RE N T (μA )65807570908511010510095115-50-250255075100125MAX4081SUPPLY CURRENT vs. TEMPERATURETEMPERATURE (°C)S U P P L Y C U R R E N T (μA )I OUT (SOURCING) (mA)V O U T H I G H V O L T A G E (V C C - V O H ) (V )0.90.80.60.70.20.30.40.50.10.050.100.150.200.250.300.350.400.450.5001.0V OUT HIGH VOLTAGE vs. I OUT (SOURCING)450400350300250200150100505010015020025030000500V OUT LOW VOLTAGE vs. I OUT (SINKING)I OUT (SINKING) (μA)V O U T L O W V O L T A G E (m V )MAX4080 toc16INPUT 5mV/div OUTPUT 25mV/div 20μs/div MAX4080FSMALL-SIGNAL TRANSIENT RESPONSEMAX4080 toc17INPUT 5mV/div OUTPUT 100mV/div 20μs/div MAX4080TSMALL-SIGNAL TRANSIENT RESPONSEMAX4080 toc18INPUT 5mV/divOUTPUT 300mV/div20μs/divMAX4080SSMALL-SIGNAL TRANSIENT RESPONSEMAX4080/MAX408176V , High-Side, Current-Sense Amplifiers withVoltage Output_______________________________________________________________________________________7MAX4080 toc19INPUT 10mV/div OUTPUT 50mV/div 20μs/div MAX4081FSMALL-SIGNAL TRANSIENT RESPONSEMAX4080 toc20INPUT 2.5mV/div OUTPUT 50mV/div 20μs/div MAX4081TSMALL-SIGNAL TRANSIENT RESPONSEMAX4080 toc21INPUT 1mV/divOUTPUT 50mV/div20μs/divMAX4081SSMALL-SIGNAL TRANSIENT RESPONSEMAX4080 toc22INPUT 400mV/div OUTPUT 2V/div 20μs/div MAX4080FLARGE-SIGNAL TRANSIENT RESPONSEMAX4080 toc23INPUT 100mV/div OUTPUT 2V/div 20μs/div MAX4080TLARGE-SIGNAL TRANSIENT RESPONSEMAX4080 toc24INPUT 33mV/divOUTPUT 2V/div20μs/divMAX4080SLARGE-SIGNAL TRANSIENT RESPONSEMAX4080 toc25INPUT 400mV/div OUTPUT 2V/div 20μs/div MAX4081FLARGE-SIGNAL TRANSIENT RESPONSEMAX4080 toc26INPUT 100mV/div OUTPUT 2V/div 20μs/div MAX4081TLARGE-SIGNAL TRANSIENT RESPONSEMAX4080 toc27INPUT 33mV/divOUTPUT 2V/div20μs/divMAX4081SLARGE-SIGNAL TRANSIENT RESPONSETypical Operating Characteristics (continued)(V CC = V RS+= 48V, V SENSE = 0V, C LOAD = 20pF, R LOAD = ∞, T A = +25°C, unless otherwise noted.)M A X 4080/M A X 408176V , High-Side, Current-Sense Amplifiers with Voltage Output 8_______________________________________________________________________________________Typical Operating Characteristics (continued)(V CC = V RS+= 48V, V SENSE = 0V, C LOAD = 20pF, R LOAD = ∞, T A = +25°C, unless otherwise noted.)4μs/div V CC -TRANSIENT RESPONSEV CC 5V/divV OUT 1V/divV RS+ = 20V V CC = 20V STEP V REF1 = V REF2 = 2.5VV CC = 40VV CC = 20VMAX4080 toc29INPUT 500mV/divOUTPUT 2V/div 20μs/div MAX4080FSATURATION RECOVERY RESPONSE(V CC = 4.5V)MAX4080 toc30V CC (0 TO 10V)5V/divOUTPUT 2.5V/div100μs/divMAX4080T STARTUP DELAY (V SENSE = 250mV)Detailed DescriptionThe MAX4080/MAX4081 unidirectional and bidirectional high-side, current-sense amplifiers feature a 4.5V to 76V input common-mode range that is independent of supply voltage. This feature allows the monitoring of current out of a battery as low as 4.5V and also enables high-side current sensing at voltages greater than the supply voltage (V CC ). The MAX4080/MAX4081 monitors current through a current-sense resistor and amplifies the voltage across the resistor. The MAX4080 senses current unidirectionally, while the MAX4081 senses cur-rent bidirectionally.The 76V input voltage range of the MAX4080/MAX4081applies independently to both supply voltage (V CC )and common-mode, input-sense voltage (V RS+). High-side current monitoring does not interfere with the ground path of the load being measured, making the MAX4080/MAX4081 particularly useful in a wide range of high-voltage systems.Battery-powered systems require a precise bidirectional current-sense amplifier to accurately monitor the bat-tery’s charge and discharge. The MAX4081 charging current is represented by an output voltage from V REF to V CC , while discharge current is given from V REF to GND. Measurements of OUT with respect to V REF yield a positive and negative voltage during charge and dis-charge, as illustrated in Figure 1 for the MAX4081T.Current MonitoringThe MAX4080 operates as follows: current from the source flows through R SENSE to the load (Figure 2), cre-ating a sense voltage, V SENSE . Since the internal-sense amplifier’s inverting input has high impedance, negligible current flows through RG2 (neglecting the input bias current). Therefore, the sense amplifier’s inverting input voltage equals V SOURCE - (I LOAD )(R SENSE ). The ampli-fier’s open-loop gain forces its noninverting input to the same voltage as the inverting input. Therefore, the drop across RG1 equals V SENSE . The internal current mirror multiplies I RG1by a current gain factor, β, to give I A2= β✕IRG1. Amplifier A2 is used to convert the output current to a voltage and then sent through amplifier A3.Total gain = 5V/V for MAX4080F, 20V/V for the MAX4080T, and 60V/V for the MAX4080S.The MAX4081 input stage differs slightly from the MAX4080 (Figure 3). Its topology allows for monitoring of bidirectional currents through the sense resistor.When current flows from RS+ to RS-, the MAX4081matches the voltage drop across the external sense resistor, R SENSE , by increasing the current through the Q1 and RG1. In this way, the voltages at the input ter-minals of the internal amplifier A1 are kept constant and an accurate measurement of the sense voltage is achieved. In the following amplifier stages of the MAX4081, the output signal of amplifier A2 is level-shifted to the reference voltage (V REF = V REF1A =V REF1B ), resulting in a voltage at the output pin (OUT)MAX4080/MAX408176V , High-Side, Current-Sense Amplifiers withVoltage Output_______________________________________________________________________________________9Pin DescriptionM A X 4080/M A X 4081that swings above V REF voltage for positive-sense volt-ages and below V REF for negative-sense voltages.V OUT is equal to V REF when V SENSE is equal to zero.Set the full-scale output range by selecting R SENSE and the appropriate gain version of the MAX4080/MAX4081.76V , High-Side, Current-Sense Amplifiers with Voltage Output 10______________________________________________________________________________________Figure 1. MAX4081T OUT Transfer CurveFigure 3. MAX4081 Functional DiagramFigure 2. MAX4080 Functional DiagramMAX4080/MAX408176V , High-Side, Current-Sense Amplifiers withVoltage Output______________________________________________________________________________________11For the bidirectional MAX4081, the V OUT reference level is controlled by REF1A and REF1B. V REF is defined as the average voltage of V REF1A and V REF1B . Connect REF1A and REF1B to a low-noise, regulated voltage source to set the output reference level. In this mode,V OUT equals V REF1A when V SENSE equals zero (see Figure 4).Alternatively, connect REF1B to ground, and REF1A to a low-noise, regulated voltage source. In this case, the out-put reference level (V REF ) is equal to V REF1A divided by two. V OUT equals V REF1A /2 when V SENSE equals zero.In either mode, the output swings above the reference voltage for positive current-sensing (V RS+> V RS-). The output swings below the reference voltage for negative current-sensing (V RS+< V RS-).Recommended Component ValuesIdeally, the maximum load current develops the full-scale sense voltage across the current-sense resistor.Choose the gain needed to yield the maximum output voltage required for the application:V OUT = V SENSE ✕A Vwhere V SENSE is the full-scale sense voltage, 1000mV for gain of 5V/V, 250mV for gain of 20V/V, 100mV for gain of 60V/V, and A V is the gain of the device.In applications monitoring a high current, ensure that R SENSE is able to dissipate its own I 2R loss. If the resis-tor’s power dissipation is exceeded, its value may drift or it may fail altogether.The MAX4080/MAX4081 sense a wide variety of cur-rents with different sense-resistor values. Table 1 lists common resistor values for typical operation.M A X 4080/M A X 4081The full-scale output voltage is V OUT = R SENSE ✕I LOAD (MAX)✕A V , for the MAX4080 and V OUT = V REF ±R SENSE ✕ I LOAD(MAX)✕ A V for the MAX4081.V SENSE(MAX)is 1000mV for the 5V/V gain version,250mV for the 20V/V gain version, and 100mV for the 60V/V gain version.Choosing the Sense ResistorChoose R SENSE based on the following criteria:•Voltage Loss:A high R SENSE value causes the power-source voltage to degrade through IR loss. For minimal voltage loss, use the lowest R SENSE value.•Accuracy:A high R SENSE value allows lower cur-rents to be measured more accurately. This is due to offsets becoming less significant when the sense voltage is larger. For best performance, select R SENSE to provide approximately 1000mV (gain of 5V/V), 250mV (gain of 20V/V), or 100mV (gain of 60V/V) of sense voltage for the full-scale current in each application.•Efficiency and Power Dissipation:At high current levels, the I 2R losses in R SENSE can be significant.Take this into consideration when choosing the resistor value and its power dissipation (wattage)rating. Also, the sense resistor’s value might drift if it is allowed to heat up excessively.•Inductance:Keep inductance low if I SENSE has a large high-frequency component. Wire-wound resis-tors have the highest inductance, while metal film is somewhat better. Low-inductance, metal-film resis-tors are also available. Instead of being spiral-wrapped around a core, as in metal-film or wire-wound resistors, they are a straight band of metal and are available in values under 1Ω.Because of the high currents that flow through R SENSE ,take care to eliminate parasitic trace resistance from causing errors in the sense voltage. Either use a four-terminal current-sense resistor or use Kelvin (force and sense) PC board layout techniques.Dynamic Range ConsiderationAlthough the MAX4081 have fully symmetrical bidirec-tional V SENSE input capability, the output voltage range is usually higher from REF to V CC and lower from REF to GND (unless the supply voltage is at the lowest end of the operating range). Therefore, the user must con-sider the dynamic range of current monitored in both directions and choose the supply voltage and the refer-ence voltage (REF) to make sure the output swing above and below REF is adequate to handle the swings without clipping or running out of headroom.Power-Supply Bypassing and GroundingFor most applications, bypass V CC to GND with a 0.1µF ceramic capacitor. In many applications, V CC can be connected to one of the current monitor terminals (RS+or RS-). Because V CC is independent of the monitored voltage, V CC can be connected to a separate regulated supply.If V CC will be subject to fast-line transients, a series resistor can be added to the power-supply line of the MAX4080/MAX4081 to minimize output disturbance.This resistance and the decoupling capacitor reduce the rise time of the transient. For most applications, 1k Ωin conjunction with a 0.1µF bypass capacitor work well.The MAX4080/MAX4081 require no special considera-tions with respect to layout or grounding. Consideration should be given to minimizing errors due to the large charge and discharge currents in the system.76V , High-Side, Current-Sense Amplifiers with Voltage Output 12______________________________________________________________________________________Figure 4. MAX4081 Reference InputsPower ManagementThe bidirectional capability of the MAX4081 makes it an excellent candidate for use in smart battery packs. In the application diagram (Figure 5), the MAX4081 moni-tors the charging current into the battery as well as the discharge current out of the battery. The microcon-troller stores this information, allowing the system to query the battery's status as needed to make system power-management decisions.MAX4080/MAX408176V , High-Side, Current-Sense Amplifiers withVoltage Output______________________________________________________________________________________13Typical Operating CircuitChip InformationTRANSISTOR COUNT: 185PROCESS: BipolarFigure 5. MAX4081 Used In Smart-Battery ApplicationM A X 4080/M A X 408176V , High-Side, Current-Sense Amplifiers with Voltage Output 14______________________________________________________________________________________Package Information(The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline information,go to /packages .)MAX4080/MAX408176V , High-Side, Current-Sense Amplifiers withVoltage OutputMaxim cannot assume responsib ility for use of any circuitry other than circuitry entirely emb odied in a Maxim product. No circuit patent licenses are implied. Maxim reserves the right to change the circuitry and specifications without notice at any time.Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600 ____________________15©2002 Maxim Integrated Productsis a registered trademark of Maxim Integrated Products.Package Information (continued)(The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline information,go to /packages .)。

1981Technical Data SheetThe Anritsu Family of Pulse, Wideband and CW Power Meters, and Power Sensors ML2400A Power Meters and MA2400A/D Power Sensors Ideal solutions for Average, Peak, and Crest Power measurementsAnritsu Power Meters and Power Sensors: Accurate, Fast, and Affordable.IntroductionAnritsu offers the world's most comprehensive range of power meters. The ML2490A series has the performance required for narrow fast rising-edge pulse power measurements (e.g., radar), while the ML2480A series is suited for Wideband power measurements on signals such as W-CDMA, WLAN, and WiMAX. The ML2430A series of power meters are designed for CW applications, offering a combination of accuracy, speed and flexibility in a low cost package.Also available are five different families of power sensors with frequency coverage to 50 GHz and dynamic range up to 90 dB. Most of the power sensors can work in either pulsed/modulated or CW mode (the ML2480/90A series meters offer both modes). In choosing a power sensor, several factors must be considered, including: frequency range, dynamic range and the modulation. The rise time of the sensor should also be chosen to match the rise time of the modulation.2Power Meter SpecificationsML2430A Series ML2480A Series ML2490A Series Comments ML2437A ML2438A ML2487A ML2488A ML2495A ML2496ASignal Inputs121212Frequency range 100 kHz to 65 GHz (sensor dependent)Dynamic range –70 to +20 dBm (dependent on sensor, external coupler or attenuator)Continuous or PeakPerformance 100 kHz (Profile mode)Pulse/Modulated mode20 MHz with MA2491A sensorCW mode17kHz ranges 1–435 Hz range 5Pulse/Modulated mode>65 MHz range 7>38 MHz range 8>16 MHz range 9(Repetitive Sampling)20MHz (One shot)Combined B/W (with MA2411B sensor)>39 MHz range 7>29 MHz range 8>12 MHz range 9MA2411B nominal Bandwidth = 50 MHzCW mode17kHz range 1,2,3,436 Hz range 5Nominal Video BW 31.25 kS/sAuto/ManualCW Mode75kS/sPulse/Modulated Mode31.25 kS/s to 64 MS/s(dependent on trigger capture time)Auto/ManualCW Mode75kS/sPulse/Modulated Mode31.25 kS/s to 62.5 MS/s Continuous Sampling(Trigger capture time 3.2 µs to 7s,200 data points)1GS/s Random Repetitive Sampling(Trigger capture time 50 ns - 3.2 ns,200 data points)Conflicts between selected settings and otherinstrument settings are indicated through userwarnings (displayed and GPIB)Sampling rateN/A<18 ns(with MA2411B sensor)Typical 8 ns, Maximum 12 ns(with MA2411B sensor)Fall-time typically 11 nsSystem rise-time(10% to 90% at +10 dBm)N/A10% to 90% Rise-time measurement of –20 dBm to +20 dBm Peak power (with MA2491A)Rise-time measurementdynamic rangeN/A≤3% in linear power at +10 dBm Overshoot(Pulse/Modulated mode)N/A±100 ppm (1 GHz clock for RRRS mode)Sampling RateClock AccuracyAccuracy (Defined byuncertainty calculations with relevant sensor and source match conditions) <0.5%CW Mode<0.5% (±0.02 dB absolute Accuracy, ±0.04 dB relative Accuracy)Pulse/Modulated Mode<0.8% Nominal range 7, 8Instrumentation Accuracy<0.5% of full scale in most sensitive range,measured over one hour with maximumaveraging after one hour warm up at constanttemperatureEquivalent Noise Power(256 Moving Average)MA2472D MA2491ARange 10.5 µW 2µWRange 250 nW 100 nWRange 30.5 nW 2 nWRange 40.2 nW 1nWRange 550 pW 0.5 nW(CW mode)Range 720 µW 68 µWRange 8 3 µW 10 µWRange 92µW 8µW(Pulse/Modulated mode)Equivalent Noise Power(256 Moving Average)MA2472D MA2491ARange 10.5 µW2µWRange 250 nW 100 nWRange 30.5 nW 2 nWRange 40.2 nW 1nWRange 550 pW 0.5 nW(CW mode)Range 7 5 µW 15 µWRange 8 1 µW 5 µWRange 90.5 µW 2µW(Pulse/Modulated mode)Zero set and Drift3ML2430A Series ML2480A Series ML2490A Series Comments ML2437A ML2438A ML2487A ML2488A ML2495A ML2496AOperation 22(CW or Pulse/Modulated measurement modes)Measurement Display-Readout (Numerical) Power vs. Time graphic of readout dataor Profile of Peak power for analysis ofrepetitive pulse or transient waveforms2(Pulse/Modulated measurement mode)Measurement Display-Profile (Graph) Single channel power sweep or frequency sweep Source sweep±5 dB range CW (Readout mode) only Peaking meterDynamic range covered by five overlappingamplifier ranges, R1, R2, R3, R4 and R5Universal Sensor MA2481/82D ranges 1 to 6Pulse modulated mode:Dynamic range covered by three overlapping amplifier ranges, R7, R8 and R9CW mode:Dynamic range covered by five overlapping amplifier ranges, R1, R2, R3, R4 and R5Universal Sensor MA2481/82D ranges 1 to 6Amplifier RangeAuto or Manual(current range or selectable 1 through 5)Automatic or manual. When in manual clear indication given to user(display and GPIB) of fault conditions (under or over-range)Range HoldFeatures (summary)0.1 to 0.001 dBLinear power units, 3 to 6 digit, 1 to 3 digitsselectable to right of decimal nW to W;Voltage, 1 to 2 digits selectable to rightof decimal0.1 to 0.001 dB Display resolution inReadout mode0.01 dB Display resolution inProfile modeProfile and P vs. T modes:200 pixels display resolutionFor a 1 ms Profile window,cursor resolutionon the display is 5 µs16 nsPulse/Modulated mode15 µsCW Mode1ns (RSS mode)16 ns (non RSS mode)Pulse/Modulated mode15 µsCW ModeTime measurementresolutionHold, Max, Min Measurement hold Average, Min, Max Average, Min, Max, Peak, Crest, PAE (Power Added Efficiency)Measurements —PDF, CDF, CCDF Power statistics0.00 to 20.00V nominal Voltagemeasurement range Watt, %, Volts Display units (Lin)Display units (Log) dBm, dB, dBµV, dBmV, dBr dBm, dBW, dB, dBµV, dBmV–199.99 to +199.99 dB Display range1Four Independently set Gates or eight repeated GatesOne Fence per Measurement gateGate measurement supports Average, Peak, Crest, Max and MinMeasurement Gates 2Four Markers and One Delta Marker,Marker to Max/Min, Pulse Rise/Fall-time,Pulse Width, Off Period, Pulse Repetition IntervalRise Fall/Search Parameter Variable %Reference: Max Marker or Gate Power LevelMarkersFixed value high and low limits with audible,rear panel TTL output, and/or visiblePass/Fail alarm indicationFailure indication can latch fortransient failure detectionSimple pass/fail for CWComplex limits for pulsed and TDMA systems30 Limits Stores available on the instrumentLimit lines–199.99 to +199.99 dB (Fixed value or frequency dependent table)Offset rangePower Meter Specifications continued4ML2430A Series ML2480A Series ML2490A Series Comments ML2437A ML2438A ML2487A ML2488A ML2495A ML2496AAveraging Auto (Moving), Manual (Moving, Repeat)Type1to 512RangeLow, Medium and High settings applypost average low pass filter to improvevisibility at high display resolutionN/A Low-level AveragingTriggering Internal, External (TTL or RF Blanking),GPIB, Manual, ContinuousInternal, External (TTL), GPIB,Continuous, External BusContinuous (not in RandomRepetitive Sampling mode) Internal,External TTL(Rising or falling Edge),GPIB or external BusSourceManualSingle power value set to cover entire measurement dynamic range of sensorAutoAutomatically sets trigger level for signal over measurement dynamic rangeTrigger modesN/A Variable-auto set and manual20 MHz, 2 MHz, 200 kHz, 20 kHzNominal Internal TriggerBandwidthSets the trigger arming, unless the triggersource is set to EXTTTLWhen ARMING is set to Blanking ON, onlysamples taken when the rear panel DigitalInput BNC is active will be averaged in themeasurementContinuous Sampling Modes:SingleAutomaticFrame for QAM and multi-pulseRepetitive Sampling Modes:AutomaticFrame for QAM and multi-pulseContinuous Sampling Modes:SingleAutomaticFrame for QAM and multi-pulseArming SourcesN/A0 to 64 x trigger capture time range or 120s whichever is the greater Frame ArmingTime range–15 to 20 dBm (all diode sensors,selectable to –25 dBm)–15 to 20 dBm–28 dBm to +10 dBm with MA2472DCW mode–18 dBm to +14 dBm with MA2491A–30 dBm to +10 dBm with MA2472DPulse/Modulated modeInternal Trigger dynamicrange1dB Internal Trigger levelAccuracy (typical)0.1 dB Internal Triggersettable resolutionN/A±16 ns or display resolutionwhichever is the larger(Trigger Capture time 3.2 µs to 7s)±2 ns or display resolution,whichever is the larger(Trigger Capture time 50 ns to 3.2 µs)±16 ns or display resolutionwhichever is the larger(Trigger Capture time 3.2 µs to 7s)Trigger time resolutionUncertainty0.0 to 999 ms0.0 to 999 msDependent on trigger capture timePulse modulated modePretrigger (-ve): 95% of theTrigger Capture rangePost Trigger: Set by 256K bufferand sample rateCW modePost Trigger Only: 0-999 ms dependingon Trigger Capture period settingTrigger delay rangeTTL rising or falling edge (BNC input)External Trigger range N/A90% of trigger capture range Pre-trigger range0.5% of display period or 100 ns0.5% of display period or 16 ns200 display points1ns or 0.5% of trigger capture time,whichever is the larger400 display points1ns or 0.25% of trigger capture time(400 points), whichever is the largerTrigger delay settableresolutionPower Meter Specifications continued5ML2430A Series ML2480A Series ML2490A Series Comments ML2437A ML2438A ML2487A ML2488A ML2495A ML2496ATriggering N/A±2 ns for pre and post trigger (Trigger capture time of 3.2 µs or 50 ns)Trigger delay uncertainty N/A±15 ns (20 MHz trigger BW)Trigger latency Profile mode: 10 ms to 7sP v T mode: 1m to 24 hrs 3.2 µs to 7s50 ns to 7sTrigger/Displaycapture rangeN/A200 display points16 ns or 0.5% of trigger capture time,whichever is the larger400 display Points16 ns or 0.25% of trigger capture time,whichever is the larger200 display points1ns or 0.5% of trigger capture time,whichever is the larger400 display Points1ns or 0.25% of trigger capture time,whichever is the largerTrigger capture timesettable resolutionOn-screen indicator/message Trigger point depicted by trigger edge waveform. Edge represents trigger point of signal.Display position of trigger edge waveform adjustableTrigger point display(on-screen)System Configuration 10storage registersplus RESET default settings20 settings storesPreset accessible on Front PanelOffset tablesSave/Recall Wipes non-volatile memory on power up when active.Secure modeInterfaces Yes No Remote monitoring Yes No Modem Compatibility>600 readings/sec (per input channel)Emulation of Anritsu ML4803,Agilent 436, 437 and 438>400 readings/sec in CW mode.10 Sweeps/sec in Profile mode(200 data points/sweep, Binary floatoutput format, 5 µs Trigger capture time)>350 readings/sec(Fast Mode, Gate output, 1 µs gate width)>400 Readings/second CW Mode [TR3 mode]>350 Readings/second Pulse/ModulatedMode (Continuous Sampling) [1 µs pulse,readout mode, Display turned off, TR3 Mode]>10 profile transfers/sec Pulse/Modulated Mode(Profile data) [200 points per sweep, BinaryFloat Output, 5 µs Trigger Capture Time]>20 Readings/sec Pulse/Modulated Mode(Repetitive Sampling) [50 ns pulse, readoutmode, Display turned off, TR3 Mode]Back Compatible with ML2480A withAdditional functionality addedGPIB(IEEE–488.2, IEC–625)Supports software download, Instrumentcontrol and modem dial-out.1200, 2400, 4800, 9600, 19200, 38400,57600 Baud rates supportedSupports software download and Instrument control1200, 2400, 4800, 9600, 19200, 38400, 57600 Baud rates supported RS232Operating Modes:Display voltage reading on selected channelVoltage proportional to frequency forsensor calibration factor compensationBlanking Input -TTL levels onlySelectable positive or negative polarityInput Range: 0 to 20VResolution: 0.5 mVControl: Adjustable voltage tofrequency relationshipCan be configured for:Cal factor correction from synthesiser,Ext Voltage Voltmeter,Connection:- current probe for PAE applicationsCal Factor Voltage Input(BNC)TTL, maximum frequency of 800 kHz TTL, maximum frequency of 1 MHz TTL, maximum frequency of 10 MHz External trigger (BNC) Two outputs configurable to Log or LinOperating Modes:Selectable channel adjusted forcalibration factors and other powerreading correction settingsPass/Fail -Selectable TTL High or LowChannel output -Near real time analogUncalibratedAC Modulation Output -Output 1 onlyDwell Output -Output 2 onlyOutput Range: –5.0 to 5.0VResolution: 0.1 mVOutput 1 can be configured for:Analog Output,Pass/Fail TTL o/p Limits,Levelling: -Sensor Input AOutput 2 can be configured for:Analog Output,Pass/Fail TTL o/p Limits,Levelling: -Sensor Input B,Trigger OutputAnalogue Output (BNC)Power Meter Specifications continued6ML2430A Series ML2480A Series ML2490A Series Comments ML2437A ML2438A ML2487A ML2488A ML2495A ML2496AReference Calibrator 1mW Power±1.2% per year, ±0.9% RSSPower accuracy(Traceable to NationalStandards)50 MHz (nominal)50 MHz, 1 GHz (optional)Frequency<1%<1% (50 MHz)<2% (1 GHz)Frequency Accuracy<1.04<1.12 (50 MHz)<1.2 (1 GHz)VSWRN female Connector typeDisplay Monochrome LCD, with backlight andadjustable contrast Color LCD DisplayExternal Video Output N/A CRT1/4 VGA External Video OutputParallel Printer Port Compatible with Deskjet 540 and340 Models. Other 500 Series and300 Series and later are typically compatible. Also Canon BJC 80N/AGeneral MIL-T28800F, class 3Non VolatileRAM Battery Lithium (10 year life)Lithium (5 year life)Battery Option>6 hr usable with 3000 mAhr (NiMH) battery N/ADC Power Requirements12to 24 VDC, Reverse protected to –40VMaximum input 30V N/AAC Power Requirements90 to 250 VAC, 47 to 440 Hz,40 VA Maximum90 to 250 VAC, 47 to 440 HzEMI, EMC, Safety Complies with requirements for CE marking EN 61326, EN61010-1Operating Temperature0° C to 50° C Mainframe only,see sensor specificationfor performanceof sensorsStorage Temperature–40° C to 70° CMoisture Splash and rain resistant, 95% humidity non-condensingDimensions213 mm x 88 mm x 390 mm Width x Height x Depth Weight3kg(excuding battery option) 2.8 kg 3 kgWarranty1year Standard, 3 year OptionalPower Meter Specifications continued7Power Sensor SpecificationsFrequency Range CW Dynamic Range(dBm) SWR Rise Time1(ms)Sensor Linearity6RFConnector2Standard Diode SensorsMA2472D 10 MHz to18 GHz–70 to +20 CW Mode–30 to +20 (with ML2480A)–34 to +20 (with ML2490A)Pulse/Modulated Mode <1.17; 10 to 150 MHz (MA2472D only)<1.90; 10 to 50 MHz<1.17; 50 to 150 MHz<1.12; 0.15 to 2 GHz<1.22; 2 to 12.4 GHz<1.25; 12.4 to 18 GHz<1.35; 18 to 32 GHz<1.50; 32 to 40 GHz<1.63; 40 to 50 GHz<0.0041.8%, <18 GHz2.5%, 40 GHz3.5%, <50 GHzFor MA2475D4N(m)MA2473D 10 MHz to 32 GHz K(m) MA2474D 10 MHz to 40 GHz K(m) MA2475D 10 MHz to 50 GHz V(m) Temperature accuracy: <1% < 40 GHz, <1.5% <50 GHz, 5 to 50º CHigh Accuracy Diode SensorsMA2442D MA2444D 10 MHz to 18 GHz10MHz to 40 GHz–67 to +20<1.90; 10 MHz to 50 MHz<1.17; 10 MHz to 150 MHz (MA2442D only)<1.17; 50 MHz to 150 MHz<1.08; 150 MHz to 2 GHz<1.16; 2 GHz to 12.4 GHz<1.21; 12.4 GHz to 18 GHz<1.29; 18 GHz to 32 GHz<1.44; 32 GHz to 40 GHz<1.50; 40 GHz to 50 GHz<0.0041.8%, <18 GHz2.5%, <40 GHz3.5%, <50 GHzFor MA2445D5N(m)K(m)MA2445D 10 MHz to 50 GHz V(m)Temperature accuracy: <1% < 40 GHz, 5 to 50ºCUniversal Power SensorsMA2481D MA2482D 10 MHz to 6 GHz10 MHz to 18 GHz–60 to +20<1.17; 10 to 150 MHz<1.12; 0.15 to 2 GHz<1.22; 2 to 12.4 GHz<1.25; 12.4 to 18 GHz<0.004(with option 1 only)10 MHz to 6 GHz3% –60 to +20 dBm6to 18 GHz3% –60 to 0 dBm3.5% 0 to +20 dBm(1.8% CW with option 1)N(m)Temperature accuracy: <1%, 5 to 50º CMA2480/01Adds fast CW mode to Universal Power Sensors for high speed measurements of CW signal plus TDMA and pulse measurements Wideband SensorsMA2490A350 MHz to 8 GHz–60 to +20 CW Mode–25 to +20 (with ML2480A)–30 to +20 (with ML2490A)Pulse/Modulated Mode <1.17; 50 to 150 MHz<1.12; 0.15 to 2.5 GHz<1.22; 2.5 to 8 GHz<18 ns<7% 50 to 300 MHz<3.5% 0.3 to 8 GHz N(m)MA2491A350 MHz to 18 GHz <1.17; 50 to 150 MHz<1.12; 0.15 to 2.5 GHz<1.22; 2.5 to 12.4 GHz<1.25; 12.4 to 18 GHz<7% 50 to 300 MHz<3.5% 0.3 to 18 GHz N(m)Temperature accuracy: <1% 10 to 45º C Pulse SensorMA2411B Requires 1 GHz calibrator option 15 to be fitted 300 MHz to 40 GHz–20 to +20 dBm<1.15; 0.3 to 2.5 GHz<1.35; 2.5 to 26 GHz<1.50; 26 to 40 GHz<8 ns<18 ns when usedwith ML2487/8A<4.5% 0.3 to 18 GHz<7% 18 to 40 GHz K(m)Temperature accuracy: <2% 10 to 45º C10.0 dBm, room temperature with standard 1.5m sensor cable.2Each MA2400A/D Series sensor incorporates precision RF connectors with hexagon coupling nut for attachment by industry standard torque wrench.3MA2490/1A and MA2411B sensors must be used with ML2480A orML24950A Power Meters.4For Linearity on MA2475D only applicable to –70 to +15 dBm.5For Linearity on MA2445D only applicable to -67 to +15 dBm.6Sensor linearity specifications are ± value.Pulse/modulated performance only specified with 1.5m sensor cable length option ML2400A-20 supplied as standard with the power meter.89Measurement AccuracyPower measurement accuracy can be split into several parts.The table below shows how the measurement uncertainty is composed for several power sensors. The source is presumed to be a 16 GHz, 12.0 dBm signal with a source SWR of 1.5:1.The uncertainties can be calculated as an RSS term as each parameter is independent. Alternatively they can be added together for a worst-case analysis.component of the overall uncertainty budget and describes the linear voltage measurement accuracy of the power meter.Sensor linearity describes the relative response over the dynamic range of the sensor, and is included when the sen-sor is measuring power levels relative to the 0 dBm calibra-tor reference level. Temperature linearity is included when operating the sensor at other than room temperature.Noise, Zero Set and Drift are all measured on the lowest power range of the power sensor. Different types of power sensors have different noise characteristics. Noise can be reduced by averaging.Mismatch uncertainty is typically the largest component of the uncertainty budget – caused by the different impedances of the device under test and the sensor. To help resolve this issue, the sensor has been designed to have a good return loss over a wide frequency range, typically achieving significantly better results than the specification. In many cases the major contributing factor is the match of the source under test.The source match of the device under test can be improved by the use of precision attenuators with good return loss or by the use of external levelling with a high directivity coupler or splitter.Connector damage has significant accuracy and repeatabili-ty effects, and is also the most common cause of sensor damage – although it is frequently undetected. Every MA2400A/D Series includes a hex nut connection forapplication of a calibrated torque wrench. Torque wrenches assure compliance with the quality requirement and result in more consistent measurements.Sensor calibration factor uncertainty identifies the accuracy of the sensor's calibration relative to a recognized standard for absolute power level. Sensor calibration factor uncertainty is included in accuracy calculations for any absolute power measurement (in dBm or Watts) and for relative power measurements if the signals are different frequencies.Reference power uncertainty specifies the maximum possible output drift of the power meter's 50 MHz,0.0dBm power reference between calibration intervals. Reference power uncertainty and reference to sensor mismatch uncertainty do not generally impact relative power measurements.See the Anritsu website () for moreinformation and tool to calculate measurement uncertainties.10Power Meter ModelsML2495A Power Meter, Single Input ML2496A Power Meter, Dual Input ML2487A Power Meter, Single Input ML2488A Power Meter, Dual Input ML2437A Power Meter, Single Input ML2438APower Meter, Dual InputML2490A SeriesML2490A–06 Rear Mount Input AML2490A–07 Rear Input A and ReferenceML2490A–08 Rear Mount Inputs A, B and Reference ML2490A–09 Rear Mount Inputs A and B ML2490A–33 Extra Operating Manual ML2490A–34 Extra Programming Manual ML2490A–37Electronic Manuals(deletes paper version from shipment)ML2490A–98 Calibration to Z540, ISO Guide 25ML2490A–99 Premium CalibrationML2480A SeriesML2480A–06 Rear Mount Input AML2480A–07 Rear Input A and ReferenceML2480A–08 Rear Mount Inputs A, B and Reference ML2480A–09 Rear Mount Inputs A and BML2480A–15Factory Fitted 50MHz and 1GHz Calibrator (required by MA2411B Sensor)ML2480A–15R Retro Fit Calibrator Kit ML2480A–33 Extra Operating Manual ML2487/8AML2480A–34Extra Programming Manual ML2487/8A ML2480A–35 Extra Operating Manual: Japanese ML2480A–36 Extra Programming Manual: Japanese ML2480A–37 Electronic Manuals only(deletes paper version from shipment)ML2480A–98 Calibration to Z540, ISO Guide 25ML2480A–99 Premium Calibration ML2400A–32A Maintenance Manual ML2480/90A Series ML2400A–31A Option 31, Extra Operation/Prog manual ML2480A Options 1, 3 and 5 are mutually exclusive for any given ML2480/90A.Options 6, 7, 8 and 9 are mutually exclusive for any given ML2480/90A.ML2430A Series10585–00003 Maintenance Manual ML2400A SeriesML2400A–33 Extra Operating & Programming Manual ML2437/8A MA2499B Anritsu 4700 & 4600 Series Sensor Adapter ML2400A–06 Rear Mount Input A on ML2437AML2400A–07 Rear Input A and Reference on ML2437A ML2400A–08 Rear Mount Inputs A, B and Reference ML2400A–09 Rear Mount Inputs A and B on ML2438A ML2400A–11 NiMH Battery with Desktop Charger ML2400A–11A NiMH Battery with Desktop Charger (for use in Japan only)ML2400A–22 3m Sensor Cable ML2400A–23 5m Sensor Cable ML2400A–2410m Sensor CableML2400A–25 30m Sensor Cable ML2400A–26 50m Sensor Cable ML2400A–27 100m Sensor Cable ML2400A–30 Extra Operation Manual ML2437/8A ML2400A–98 Calibration to Z540, ISO Guide 25ML2400A–99 Premium Calibration ML2400A–30A Option 30, Extra Operation/Prog manual(For use in Japan, only)Options 1 to 5 above are mutually exclusive for any given ML2430A unit.Options 6, 7, 8 and 9 above are mutually exclusive for any given ML2430A.Pulse/modulated performance only specified with 1.5M sensor cable length optionSoftware upgrades, Labview drivers and application notes can bedownloaded from the Anritsu web site at Standard AccessoriesPower Cord for DestinationOne 1.5 m sensor cord per meter input Operation Manual GPIB ManualCertificate of calibration, also included with sensorsOptional Accessories760–209 Hardside Transit Case D41310 Soft Carry Case with Shoulder Strap MA2418A 50 MHz Reference Oscillator with Power Supply ML2400A–01 Rack Mount, single unit ML2400A–03 Rack Mount, side by side ML2400A–05 Front Bail Handle ML2400A–12 Front Panel Cover ML2400A–20 Spare 1.5m Sensor Cable ML2400A–21 0.3m Sensor CableML2400A–28RS232 Bootload Cable ML2400A–29 Bulkhead Adapter ML2419A Range CalibratorMA2497AAgilent/HP 84xxA Series Sensor Adaptor Power Sensor ModelsMA2470DStandard Diode Series MA2480D Universal Diode Series MA249xA Wideband Diode Series MA2411B Pulse SensorMA2440DHigh Accuracy Diode SeriesPowerSuiteFree software available for all the power meters. Continuously viewmeasurement traces on your PC in real-time, or archive data and plots for later analysis. PowerSuite runs on a standard PC running Windows ®95(or higher), via GPIB or RS232.See your Anritsu Representative or Components catalogue for available Attenuators, Limiters, Coaxial adapters, Waveguide-to-Coaxial adapter,Splitters & Dividers, Loads, Bridges, Open/Shorts, and Calibrated Torque wrenches.Power Sensor and Power Meter Selection GuideOrdering Information11T echnical Data Sheet No. 11410-00423, Rev. A Printed in United States 2007-05®Anritsu All trademarks are registered trademarks of their respective companies. Data subject to change without notice. For the most recent specifications visit:ANRITSU Corporation5-1-1 Onna, Atsugi-shi, Kanagawa, 243-8555 Japan Phone: +81-46-223-1111Fax: +81-46-296-1264-U.S.A.ANRITSU Company1155 East Collins Boulevard, Suite 100,Richardson, Texas 75081Toll Free: 1-800-ANRITSU (267-4878)Phone: +1-972-644-1777Fax: +1-972-671-1877-CanadaANRITSU Electronics Ltd.700 Silver Seven Road, Suite 120, Kanata,Ontario K2V 1C3, Canada Phone: +1-613-591-2003Fax: +1-613-591-1006-BrazilANRITSU Electrônica Ltda.Praca Amadeu Amaral, 27-1 andar 01327-010 - Paraiso, São Paulo, Brazil Phone: +55-11-3283-2511Fax: +55-11-3886940-U.K.ANRITSU EMEA Ltd.200 Capability Green, Luton, Bedfordshire LU1 3LU, U.K.Phone: +44-1582-433280Fax: +44-1582-731303-FranceANRITSU S.A.9, Avenue du Québec Z.A. de Courtaboeuf 91951Les Ulis Cedex, France Phone: +33-1-60-92-15-50Fax: +33-1-64-46-10-65-GermanyANRITSU GmbHNemetschek Haus, Konrad-Zuse-Platz 1 81829 München, Germany Phone: +49 (0) 89 442308-0Fax: +49 (0) 89 442308-55-ItalyANRITSU S.p.A.Via Elio Vittorini, 129, 00144 Roma, Italy Phone: +39-06-509-9711Fax: +39-06-502-2425-Sweden ANRITSU ABBorgafjordsgatan 13, 164 40 Kista, Sweden Phone: +46-8-534-707-00Fax: +46-8-534-707-30-Finland ANRITSU ABTeknobulevardi 3-5, FI-01530 Vantaa, Finland Phone: +358-20-741-8100Fax: +358-20-741-8111-Denmark ANRITSU A/SKirkebjerg Allé 90 DK-2605 Brondby, Denmark Phone: +45-72112200Fax: +45-72112210-SpainAnritsu EMEA Ltd.Oficina de Representación en EspañaEdificio VeganovaAvda de la Vega, nº 1 (edf 8, pl1, of 8)28108 ALCOBENDAS - Madrid, Spain Phone: +34-914905761Fax: +34-914905762-United Arab Emirates ANRITSU EMEA Ltd.Dubai Liaison OfficeP O Box 500413 - Dubai Internet CityAl Thuraya Building, Tower 1, Suite 701, 7th Floor Dubai, United Arab Emirates Phone: +971-4-3670352Fax: +971-4-3688460-SingaporeANRITSU Pte. Ltd.10, Hoe Chiang Road #07-01/02, Keppel Towers,Singapore 089315Phone: +65-6282-2400Fax: +65-6282-2533-P. R. China (Hong Kong)ANRITSU Company Ltd.Units 4 & 5, 28th Floor,Greenfield Tower, Concordia Plaza, No. 1 Science Museum Road, Tsim Sha Tsui East, Kowloon, Hong Kong, P .R. China Phone: +852-2301-4980Fax: +852-2301-3545-P. R. China (Beijing)ANRITSU Company Ltd.Beijing Representative OfficeRoom 1515, Beijing Fortune Building, No. 5 , Dong-San-Huan Bei Road,Chao-Yang District, Beijing 100004, P .R. China Phone: +86-10-6590-9230Fax: +82-10-6590-9235-KoreaANRITSU Corporation, Ltd.8F Hyunjuk Bldg. 832-41, Yeoksam-Dong,Kangnam-ku, Seoul, 135-080, Korea Phone: +82-2-553-6603Fax: +82-2-553-6604-AustraliaANRITSU Pty Ltd.Unit 21/270 Ferntree Gully Road, Notting Hill Victoria, 3168, Australia Phone: +61-3-9558-8177Fax: +61-3-9558-8255-TaiwanANRITSU Company Inc.7F,No. 316, Sec. 1, Neihu Rd., Taipei 114, Taiwan Phone: +886-2-8751-1816Fax: +886-2-8751-1817-IndiaANRITSU Pte. Ltd.India Liaison OfficeUnit No.S-3, Second Floor, Esteem Red Cross Bhavan,No.26, Race Course Road, Bangalore 560 001 India Phone: +91-80-32944707Fax: +91-80-22356648。

GW-40型钢筋弯曲机-说明书本科学生毕业设计GW-40型钢筋弯曲机系部名称: 机电工程系专业班级: 机械 08-12班学生姓名: 王海龙指导教师: 王东胜职称: 副教授黑龙江工程学院二?一二年六月The Graduation Design for Bachelor's DegreeGW-40 Steel bar bending machineCandidate:Wang HailongSpecialty:Mechanical Design andManufacture & AutomationClass:08-12Supervisor:Associate Prof. Wang DongshengHeilongjiang Institute of Technology2012-06?Harbin黑龙江工程学院本科生毕业设计,论文,,摘要钢筋加工机械是工程建筑行业不可或缺的的作业工具。

就钢筋弯曲机的具体传动两级齿轮-涡轮蜗杆传动”及“带-三级齿轮传动”两种。

方案，目前可主要划分为“带-目前，钢筋弯曲机的性能结构、操作方法和控制及综合技术指标等方面还有很大的提升空间。

本课题主要内容是通过对过去钢筋弯曲机的设计方案的比较，改变个别零件,及电动机功率等，升级为能加工直径40的GW-40型钢筋弯曲机，增大钢筋刚加加工范围，提高劳动效率，减轻钢筋加工的劳动强度，保证建筑工程的质量及进度。

同时还能准确弯曲固定角度，不像以往的钢筋弯曲机，需要凭借经验判断，使加工更精确。

关键词:钢筋弯曲机;传动方案;强度;功率;效率I黑龙江工程学院本科生毕业设计,论文,ABSTRACTSteel processing machinery construction industry indispensable working tool.Reinforcedbending machine specific transmission scheme， there can be mainly divided into" take - two stage gear - worm drive" and" take - three stage gear" two. At present， steel bendingmachine performance and structure， method of operation and control and integrated technical indicators， there is still much room for improvement. The main contents of this topic is based on the past steel bending machine design scheme comparison， changes inindividual parts and motor power， upgrade to machining diameterof40 GW-40 type steel bar bending machine， increasing reinforced just add processing， improve laborefficiency， reduce the labor intensity of steel processing，ensuring construction quality and progress.Keywords:steel bending machine;transmissionscheme;strength;power;efficiencyII黑龙江工程学院本科生毕业设计,论文,目录摘要...................................................................................................? Abstract ..........................................................................................? 第1章绪论 (1)1.1 概述 (1)1.2 钢筋弯曲机产品结构 (1)1.2.1 钢筋弯曲机的类型 (1)1.2.2 钢筋弯曲机的构造 (1)1.3 钢筋弯曲机产品质量差异 (1)1.4 发展现状 (2)1.5 本章小结 (3)第2章钢筋弯曲机的工作原理及工作盘的设计 (4)2.1 钢筋弯曲机工作原理 (4)2.2 钢筋弯曲机的机构 (4)2.3 钢筋弯曲机工作盘的设计 (5)2.4 钢筋弯曲所需弯矩 (5)2.5 本章小结 (5)第3章电动机选择及传动比的分配 (6)3.1 电动机的选择 (6)3.2 传动比的分配 (6)3.3 各轴的转速 (6)3.4 各轴的输入功率 (6)3.5 各轴的输入转矩 (6)3.6 数据整理 (7)3.7 本章小结…………………………………………………………………7 第4章带传动的设计 (8)4.1 V带的设计计算 (8)4.2 带轮结构的设计 (10)4.3 本章小结 (10)黑龙江工程学院本科生毕业设计,论文,第5章圆柱齿轮设计 (11)5.1 第一、二齿轮设计 (11)5.1.1齿轮类型 (11)5.1.2校核齿根弯曲疲劳强度 (12)5.1.3第一、二齿轮尺寸表………………………………………………12 5.2 第三、四齿轮设计 (13)5.2.1齿轮类型 (13)5.2.2校核齿根弯曲疲劳强度 (14)5.2.3第三、四齿轮尺寸表……………………………………………15 5.3 第五、六齿轮设计 (15)5.3.1齿轮类型 (15)5.3.2校核齿根弯曲疲劳强度 (16)5.3.3第五、六齿轮尺寸表...................................................17 5.4 本章小结 (17)第6章轴的设计....................................................................................18 6.1 轴?设计 (18)6.1.1估算轴的基本直径 (18)6.1.2轴的结构设计 (18)6.1.3轴的受力分析............................................................18 6.2轴?设计 (21)6.2.1估算轴的基本直径 (21)6.2.2轴的结构设计 (21)6.2.3轴的受力分析............................................................21 6.3轴?设计 (24)6.3.1估算轴的基本直径 (24)6.3.2轴的结构设计 (24)6.3.3轴的受力分析............................................................24 6.4轴?设计 (27)6.4.1估算轴的基本直径 (27)6.4.2轴的结构设计 (27)6.4.3轴的受力分析............................................................27 6.5 本章小结 (20)黑龙江工程学院本科生毕业设计,论文,结论 (31)参考文献 (32)致谢 (34)黑龙江工程学院本科生毕业设计,论文,第一章绪论1.1概论钢筋弯曲机，钢筋加工机械之一。

DOC.#6.01.01-E 改版5 2001年9月9日OAM 40-061,-073,-081-085,-092,-093,-094MAM40-039/a,-0484B-1第4B章非正常操作程序页码4B.1预防着陆……………………………………………...4B-2 4B.2绿区外的仪表指示………………….……………….4B-4 4B.3电器系统失效………………………………………..4B-5 4B.4从简易跑道起飞……………………………………..4B-7 4B.5襟翼操作系统失效……………………………….….4B-8 4B.6大重量着陆…………………………………………..4B-94B.1预防着陆说明只有由于对于下列情况有合理的怀疑时才可以使用此类着陆：燃油短缺、天气状况或者在黄昏时不能排除继续飞行就会使飞机或机上成员遭受危险的可能性。

无论如何，飞行员要决定是否在一个场地的控制着陆比试图飞往目的机场的风险要小。

说明如果没有可用的水平的着陆场地，应该考虑在上坡着陆。

1.选择合适的着陆场地。

2.考虑风的影响。

3.进近：如果可能，应该在着陆场地上方一个合适的高度通场飞行以辨识障碍物。

在起落航线每一部分的偏离角度要评估风速和风向的影响。

4.空速……………………………73节表速（1150公斤，2535磅）68节表速（1000公斤，2205磅）60节表速（850公斤，1874磅）5.空中交通管制…………………通报DOC.#6.01.01-E 改版4 2001年4月09日OAM40-067 4B-7在最后进近阶段：6. 襟翼……………………………………….着陆位7. 安全紧固装置…………………………….紧固位8. 接地……………………………………….使用尽可能小的空速注意如果还有充裕的时间，可以使用以下方法减少碰撞障碍物的风险：-燃油箱选择器……………………………….关-点火开关…………………………………….关主开关………………………………………..关DOC.#6.01.01-E 改版4 2001年4月09日OAM40-067 4B-74B.2绿区外的仪表指示(a)在外界环境温度低起动时高的滑油压力-在较高的滑油温度时减少RPM并重新检查滑油压力。

挖掘机型号参数大全质斗比是指挖掘机的质量与斗容之比。

这个值显示了挖掘机的效率和工艺水准，一般来说，这个值越低挖掘机就越有效率。

在同等质量情况下，这个值越低越好。

相反的这个值越高，就越说明挖掘机的无效质量就越多，效率就越差。

制造商 1制造商型号整机质量(kg) 标准斗容(m3) 标准斗容(m9) 质斗比阿特拉斯 Atlas 3306LC 31500 1.90 1.90 16579阿特拉斯 Atlas 2606LC 25000 1.50 1.50 16667阿特拉斯 Atlas 2006LC 18000 1.00 1.00 18000阿特拉斯 Atlas 2306LC 22000 1.20 1.20 18333邦立重机 Bonny CE400-6 40000 2.00 2.00 20000邦立重机 Bonny CE650-6 66000 4.00 4.00 16500邦立重机 Bonny CE1000-6 102000 6.00 6.00 17000邦立重机 Bonny CE460-5 46000 2.50 2.50 18400邦立重机 Bonny CE460-6 46000 2.50 2.50 18400邦立重机 Bonny CE400-5 39000 2.00 2.00 19500邦立重机 Bonny CE420-6 40000 1.80 1.80 22222邦立重机 Bonny CE220-6 23000 1.00 1.00 23000斗山中国 Doosan SL015 770 0.05 0.05 16383斗山中国 Doosan SL018-VT 770 0.04 0.04 19250斗山中国 Doosan DH225LC-7 21500 0.73~1.24 0.98 21939斗山中国 Doosan DH300LC-7 29600 1.30 1.30 22769斗山中国 Doosan DH258LC-7 24600 0.81~1.29 1.05 23429斗山中国 Doosan DH370LC-7 37500 1.20-2.01 1.60 23438斗山中国 Doosan SL035 2700 0.11 0.11 24545斗山中国 Doosan DH500LC-7 46900 0.93-2.86 1.90 24684斗山中国 Doosan DH220LC-7 21400 0.5~1.18 0.80 26750斗山中国 Doosan DH150LC-7 13900 0.28-0.75 0.51 27255斗山中国 Doosan DH80-7 7830 0.28 0.28 27964斗山中国 Doosan DH55-5 5250 0.18 0.18 29830斗山中国 Doosan DH300LC-7 29600 0.95 0.95 31158斗山中国 Doosan DH35 3240 0.10 0.10 32400斗山中国 Doosan DX300LC 29600 0.63~1.3 0.87 34023斗山中国 Doosan DH60-7 5500 0.13~0.2 0.16 34375斗山中国 Doosan DH420LC-7 41200 1.1.44~2.18 1.15 35826斗山中国 Doosan SL030 2700 0.07 0.07 36986斗山中国 Doosan SL010 770 0.02 0.02 38500斗山中国 Doosan DH55GOLD 5250 0.09-0.175 0.13 40385福田雷沃 LOVOL FR85-7 8500 0.36 0.36 23611福田雷沃 LOVOL FR65-7 6200 0.22 0.22 28182福田雷沃 LOVOL FR60-7 5730 0.20 0.20 28650福田雷沃 LOVOL FR39-7 3960 0.12 0.12 33000福田雷沃 LOVOL FR35-7 3980 0.12 0.12 33167福田雷沃 LOVOL FR230 23000 0.3-1.4 0.85 27059福田雷沃 LOVOL FR15-7 1500福田雷沃 LOVOL FR80-7 8000福田雷沃 LOVOL FR130-7 13000黄河 Huanghe HXW230 22600 1.05 1.05 21524黄河 Huanghe HXW220 22600 1.00 1.00 22600黄河 Huanghe HXW310 30600 1.34 1.34 22836黄河 Huanghe HXW230LC 23600 0.45 0.45 52444黄河 Huanghe HXW400 42230黄河 Huanghe PC300A 30000黄河 Huanghe PC400A 40000久保田 Kubota U-50-3S 5115 0.19 0.19 26921久保田 Kubota U-35-3 3515 0.11 0.11 31955卡特彼勒 Caterpillar 325C 26300 1.30 1.30 20231卡特彼勒 Caterpillar 330C 33000 1.60 1.60 20625卡特彼勒 Caterpillar 320C 19934 0.90 0.90 22149卡特彼勒 Caterpillar 365C 85700力士德 LISHIDE SC70.7 6800 0.28 0.28 24286力士德 LISHIDE SC130-7 13000 0.53 0.53 24528力士德 LISHIDE SC60.7 6000力士德 LISHIDE SC210.7 10000力士德 LISHIDE SC220SE.7 22600利勃海尔 Liebherr 974B 84850 2.2-7 4.60 18446利勃海尔 Liebherr 964B 65700 1.5-5.2 3.35 19612利勃海尔 Liebherr 924B 26850 0.3-2.0 1.15 23348利勃海尔 Liebherr 944B 38650 0.6-2.6 1.60 24156利勃海尔 Liebherr 954C 52300 1.3-3 2.15 24326利勃海尔 Liebherr 934B 31200 0.24-2.25 1.20 26000利勃海尔 Liebherr 914B 24350 0.3-1.4 0.85 28647利勃海尔 Liebherr 924Compact 24400 0.35-1.2 0.72 33889利勃海尔 Liebherr 904C 21100 0.15-1.05 0.60 35167利勃海尔 Liebherr 317.00 18000 0.14-0.85 0.50 36000 利勃海尔 Liebherr 900C 19800 0.25-0.85 0.55 36000利勃海尔 Liebherr A316 18300 0.28 0.28 65357利勃海尔 Liebherr 313.00 15500利勃海尔 Liebherr 984C 121800利勃海尔 Liebherr 994.00 298250利勃海尔 Liebherr 995.00 444000利勃海尔 Liebherr 996.00 663500柳工 Liugong CLG925LC 23250 1.10 1.10 21136柳工 Liugong CLG922LG 20700 0.95 0.95 21789柳工 Liugong CLG922LC 21000 0.95 0.95 22105柳工 Liugong CLG923LC 22850 1.00 1.00 22850柳工 Liugong CLG200-3 19800 0.80 0.80 24750柳工 Liugong CLG907 7000 0.28 0.28 25000柳工 Liugong CLG920C 20500 0.80 0.80 25625柳工 Liugong CLG210 21000柳工 Liugong CLG220 22000彭浦 Pengpu SW330LC-3(5) 33700 1.80 1.80 18722彭浦 Pengpu SW330LC 33700 1.2-2 1.60 21063彭浦 Pengpu SW130LC-8 33700 1.60 1.60 21063彭浦 Pengpu SW130LC-7 23800 1.10 1.10 21636彭浦 Pengpu SW230LC-5 23800 1.10 1.10 21636彭浦 Pengpu SW220LC 23000 0.6-1.4 1.00 23000彭浦 Pengpu SW210LC-5 21000 0.90 0.90 23333彭浦 Pengpu SW130LC-6 21000 0.90 0.90 23333彭浦 Pengpu SW200LC 20000 0.4-1.2 0.80 25000彭浦 Pengpu SW130LC-5 13500 0.52 0.52 25962日立建机 Hitachi ZX360LC 32600 1.62 1.62 20123日立建机 Hitachi ZX360LC 32800 1.62 1.62 20247日立建机 Hitachi ZX240LC 24300 1.20 1.20 20250日立建机 Hitachi ZX270 27000 1.30 1.30 20769日立建机 Hitachi ZX250LC-3 25000 1.20 1.20 20833日立建机 Hitachi ZX70 6510 0.30 0.30 21700日立建机 Hitachi ZX330 31000 1.40 1.40 22143日立建机 Hitachi ZX210LC 20500 0.91 0.91 22527日立建机 Hitachi ZX200-3 19400 0.8/0.91 0.85 22824 日立建机 Hitachi ZX230 23000 1.00 1.00 23000日立建机 Hitachi ZX450H 43800 1.90 1.90 23053日立建机 Hitachi ZX120 12200 0.52 0.52 23462日立建机 Hitachi ZX470H-3 47100 1.90 1.90 24789 日立建机 Hitachi ZX55UR 5380 0.20 0.20 26900日立建机 Hitachi ZX130W 14800 0.52 0.52 28462日立建机 Hitachi ZX160W 17300 0.52 0.52 33269日立建机 Hitachi ZX330LC 31600 0.90 0.90 35111日立建机 Hitachi ZX180W 18800 0.51 0.51 36863日立建机 Hitachi ZX210W 20600 0.51 0.51 40392日立建机 Hitachi ZX130W 14900 0.19 0.19 78421日立建机 Hitachi ZX470LCH(BE)-3 47000三一重机 SANY SY230C 23000 1.20 1.20 19167三一重机 SANY SY210C 20600 1.00 1.00 20600三一重机 SANY SY200C 19600 0.90 0.90 21778三一重机 SANY SY60C 5800 0.20 0.20 29000三一重机 SANY SY310C 29800 1.40 1.40 21286三一重机 SANY SY420C 41600 2.00 2.00 20800山河智能Sunward SWE130W 12300 0.51 0.51 24118山河智能Sunward SWE 12600 0.52 0.52 24231山河智能Sunward SWE70 6600 0.26 0.26 25385山河智能Sunward SWE85 8250 0.28-0.4 0.32 25781山河智能Sunward SWE50 4680 0.18 0.18 26000山河智能Sunward SWE78 7650 0.28 0.28 27321山河智能Sunward SWE110 11800 0.42 0.42 28095山河智能Sunward SWE60 5950 0.21 0.21 28333山河智能Sunward SWE65 6300 0.22 0.22 28636山河智能Sunward SWE35UU 3600 0.11 0.11 32727山河智能Sunward SWE38su 3800 0.11 0.11 34545山河智能Sunward SWE85SU 8250 0.13-0.33 0.23 35870山河智能Sunward SWE28su 3000 0.08 0.08 37500山河智能Sunward SWE08 880 0.02 0.02 40000山河智能Sunward SWE16 1600 0.04 0.04 40000山河智能Sunward SWE16S 1660 0.04 0.04 41500山河智能Sunward SWE17 1660 0.04 0.04 41500山河智能Sunward SWE15 1660 0.04 0.04 41500山河智能Sunward SWE28UU 2800山河智能Sunward SWE55 5500神钢Kobelco SK210LC-8 20100 1.00 1.00 20100神钢Kobelco SK250LC-6 24700 1.20 1.20 20583 神钢Kobelco SK350LC-8 34700 1.60 1.60 21688 神钢Kobelco SK70SR 6700 0.28 0.28 23929神钢Kobelco SK230LC-6 24100 1.00 1.00 24100 神钢Kobelco SK330-8 33800 1.40 1.40 24143 神钢Kobelco SK200-8 19700 0.80 0.80 24625 神钢Kobelco SK55SR 5260 0.21 0.21 25048神钢Kobelco SK450 47100 1.80 1.80 26167神钢Kobelco SK115SR 11800 0.45 0.45 26222 神钢Kobelco SK135SR 13400 0.50 0.50 26800 神钢Kobelco SK35SR 3840 0.11 0.11 34909沃尔沃Volvo EC700BLC 70000 4.00 4.00 17500 沃尔沃Volvo EC360BLC 38000 1.90 1.90 20000 沃尔沃Volvo EC240BLC 25000 1.25 1.25 20000 沃尔沃Volvo EC210BLC 22000 1.10 1.10 20000 沃尔沃Volvo EC290BLC 30000 1.40 1.40 21429 沃尔沃Volvo EW200B 20000 0.92 0.92 21739 沃尔沃Volvo EC460BLC 46000 2.10 2.10 21905 沃尔沃Volvo EW145B 14000 0.60 0.60 23333 沃尔沃Volvo EC140BLC 14000 0.52 0.52 26923 沃尔沃Volvo EC55B 5500 0.18 0.18 30556沃尔沃Volvo ECR88 8500现代Hyundai R455LC-7 44900 2.15 2.15 20884 现代Hyundai R260LC-7 25200 1.20 1.20 21000 现代Hyundai R450LC-5 43530 2.07 2.07 21029 现代Hyundai R225LC-7 22100 1.05 1.05 21048 现代Hyundai R305LC-7 29400 1.38 1.38 21304 现代Hyundai R210W-5 20050 0.92 0.92 21793 现代Hyundai R375LC-7 36100 1.62 1.62 22284 现代Hyundai R245-7 24600 1.10 1.10 22364 现代Hyundai R215-7C 20700 0.92 0.92 22500 现代Hyundai R215-7 20700 0.92 0.92 22500 现代Hyundai R370LC-7 36500 1.62 1.62 22531 现代Hyundai R335LC-7 32200 1.38 1.38 23333 现代Hyundai R190LC-5 18100 0.76 0.76 23816 现代Hyundai R110-7 11200 0.45 0.45 24889 现代Hyundai R60W-5 5250 0.21 0.21 25000现代Hyundai R130W-5 12900 0.51 0.51 25294 现代Hyundai R170LC-5 16600 0.65 0.65 25538 现代Hyundai R130LC-5 13800 0.51 0.51 27059 现代Hyundai R60W-7 5750 0.21 0.21 27381现代Hyundai R80-7 7800 0.28 0.28 27857现代Hyundai R60-7 5850 0.21 0.21 27857现代Hyundai R265LC-7 26500现代Hyundai R55-7 5500现代Hyundai R150W-7 15000现代Hyundai R210W-7 21000现代Hyundai R55-7 5500现代Hyundai R150LC-7 15000小松Komatsu PC220LC-7 24200 1.20 1.20 20167小松Komatsu PC270-7 27350 1.30 1.30 21038小松Komatsu PC210LC-7 21200 1.00 1.00 21200小松Komatsu PC210-7 19800 0.90 0.90 22000小松Komatsu PC360-7 31200 1.40 1.40 22286小松Komatsu PC300-7 31200 1.40 1.40 22286小松Komatsu PC60-7 6300 0.28 0.28 22500小松Komatsu PW130ES-6 15110 0.20-1.14 0.67 22552 小松Komatsu PC220-7 22900 1.00 1.00 22900小松Komatsu PC400-6 41400 1.80 1.80 23000小松Komatsu PC60-7 6460 0.28 0.28 23071小松Komatsu PC130-7 12600 0.53 0.53 23774小松Komatsu PW150ES-6 16490 0.20-1.14 0.67 24612 小松Komatsu PC200-7 19700 0.80 0.80 24625小松Komatsu PC55MR-2 5420 0.20 0.20 27100小松Komatsu PC50MR-2 54200 0.20 0.20 271000小松Komatsu PC35MR-2 39200 0.11 0.11 356364徐挖XCG XCG240LC-8 23600 1.20 1.20 19667徐挖XCG XCG240LC-7E 23600 1.15 1.15 20522徐挖XCG XCG240LC-7E 23600 1.15 1.15 20522徐挖XCG XCG230LC-7A 22800 1.10 1.10 20727徐挖XCG XCG230LC-7B 22800 1.10 1.10 20727徐挖XCG XCG230LC-7C 22800 1.10 1.10 20727徐挖XCG XCG230LC-8 22950 1.10 1.10 20864徐挖XCG XCG220LC-7B 22400 1.00 1.00 22400徐挖XCG XCG220LC-7A 22400 1.00 1.00 22400徐挖XCG XCG220LC-7B 22400 1.00 1.00 22400徐挖XCG XCG330LC-7 32700 1.45 1.45 22552徐挖XCG XCG210LC-7E 20600 0.90 0.90 22889徐挖XCG XCG210LC-8 20600 0.90 0.90 22889徐挖XCG XCG200-7A 19700 0.80 0.80 24625徐挖XCG XCG200-7E 19700 0.80 0.80 24625徐挖XCG XCG200-8 19700 0.80 0.80 24625徐挖XCG XCG88-7 8800 0.32 0.32 27500徐挖XCG XCG88-8 8800 0.32 0.32 27500徐挖XCG XCG60-7 5850 0.21 0.21 27857徐挖XCG XCG60-8 5990 0.21 0.21 28524玉柴Yuchai Yc18-3 1880 0.10 0.10 18800玉柴Yuchai YC135 13100 0.52 0.52 25192玉柴Yuchai YC85-5 8100 0.32 0.32 25313玉柴Yuchai YC85-3 8100 0.32 0.32 25313玉柴Yuchai YC60 5800 0.22 0.22 26364玉柴Yuchai Yc65-2 6700 0.24 0.24 27917玉柴Yuchai YC65-3 6700 0.24 0.24 27917玉柴Yuchai Yc55-2 5710 0.20 0.20 28550玉柴Yuchai Yc45-2 4460 0.15 0.15 29733玉柴Yuchai YC13-6 1500 0.05 0.05 30000玉柴Yuchai YC35-7 3740 0.12 0.12 31167玉柴Yuchai YC35-6 3740 0.12 0.12 31167玉柴Yuchai YC15 1500玉柴Yuchai YC25 2500玉柴Yuchai YC30 3000詹阳动力Jonyang JYL135C 13500 0.60 0.60 22500 詹阳动力Jonyang JYL210E 21000 0.90 0.90 23333 詹阳动力Jonyang JYL80 8000 0.35 0.35 22857詹阳动力Jonyang JY230E 23000詹阳动力Jonyang JY230LC-6 23000詹阳动力Jonyang JY210E 21000詹阳动力Jonyang JY210E 21000詹阳动力Jonyang JY35 3500詹阳动力Jonyang JY400E 40000 1.60 1.60 25000 詹阳动力Jonyang JY400E 40000詹阳动力Jonyang JYT200 20000詹阳动力Jonyang JYL210X 21000众友Zhongyou 805C 4300 0.30 0.30 14333众友Zhongyou 805B 4200 0.25 0.25 16800众友Zhongyou 913B 12500 0.65 0.65 19231众友Zhongyou 913C 12800 0.65 0.65 19692众友Zhongyou 912A 12500 0.60 0.60 20833众友Zhongyou 913A 12900 0.60 0.60 21500众友Zhongyou JCM907 7100 0.32 0.32 22188众友Zhongyou 923B 24500 1.10 1.10 22273众友Zhongyou 923C 24500 1.10 1.10 22273众友Zhongyou 921C 20500 0.90 0.90 22778众友Zhongyou 907.00 6700 0.28 0.28 23929众友Zhongyou 808.00 8100 0.32 0.32 25313竹内Takuechi TB150 4825 0.20 0.20 24125竹内Takuechi TB180 7280 0.30 0.30 24267竹内Takuechi TB1140 14230 0.50 0.50 28460竹内Takuechi TB1140 14230 0.50 0.50 28460竹内Takuechi TB140 3430 0.12 0.12 28583竹内Takuechi TB180FR 7900 0.25 0.25 32245竹内Takuechi TB153FR 5200 0.14 0.14 36879竹内Takuechi TB014 1410 0.04 0.04 37105竹内Takuechi TB125 2675 0.07 0.07 38214竹内Takuechi TB016 1500 0.04 0.04 39474竹内Takuechi TB20R 2600 0.06 0.06 40625竹内Takuechi TB28FR 3010 0.07 0.07 44265竹内Takuechi TB108 855 0.02 0.02 47500住友Sumitomo SH240 24300 0.8--1.5 1.15 21130住友Sumitomo SH240-3 23300 0.8--1.5 1.10 21182住友Sumitomo SH330-3 33000 1.2--1.8 1.50 22000住友Sumitomo SH330LC-3 33600 1.2--1.8 1.50 22400住友Sumitomo SH450HD-3 45000 1.8--2.0 1.90 23684 住友Sumitomo SH200-3 19100 0.5--1.1 0.80 23875住友Sumitomo SH200LC-3 19500 0.5--1.1 0.80 24375住友Sumitomo SH800LHD-3 78400 2.4--4.1 3.20 24500 住友Sumitomo SH210 19900 0.5--1.1 0.80 24875住友Sumitomo SH350HD-3 35200 1.4--1.6 1.40 25143 住友Sumitomo SH200HD-3 20400 0.80 0.80 25500住友Sumitomo SH120-3 12000 0.24-0.65 0.45 26667住友Sumitomo SH75X-3 7090 0.11--0.34 0.23 30826住友Sumitomo SH400-3 43600 1.4--2.2 1.30 33538山东卡特 CT40-7A 3900 0.14-0.18 0.16 24375山东卡特 CT40-6 3900 0.14-0.19 0.165 23636山东卡特 CT15-7B 1760 0.04-0.1m3 0.052 33846山东卡特 CT18-7B 1760 0.05-0.1m3 0.075 23467山东卡特 CT45-7A 4200 0.17m3 0.17 24706山东卡特 CT60-6A 5900 0.20m3 0.2 29500山东卡特 CT80-7A 8300 0.32~0.38m3 0.35 23714山东卡特 CT85-7A 8300 0.36~0.4m3 0.38 21842小桥工程 ks35 3320 0.11 0.11 30182小桥工程 ks45 4550 0.16 0.16 28438小桥工程 ks200 19600 0.8 0.8 24500山东福临 WYL120C轮式挖掘机12000 0.5 0.5 24000山东福临 WYL-80 轮式挖掘机12000 0.5 0.5 24000山东福临 WYL-80c履带式式挖掘机12000 0.5 0.5 24000 山东福临 WYL-80d 履带式挖掘机12000 0.5 0.5 24000 山东福临 WYL-5.0轮式挖掘机5000 0.15 0.15 33333。

TECHNICAL MANUAL FOR Advanced Antennas DRG-118G Horn Antenna1 - 18 GHz Double Ridged Horn AntennaADVANCED ANTENNAS10401 Roselle StreetSan Diego, CA 92121(800) 404-2832TABLE OF CONTENTSPage SECTION 1. GENERAL DESCRIPTION (3)SECTION 2. TECHNICAL SPECIFICATIONS (6)2.1. Electrical Specifications (6)2.2. Mechanical Specifications (7)2.3. Environmental Specifications (7)2.4. Typical Data (8)SECTION 3. THEORY (29)3.1. General (29)3.2. Field Measurement (29)SECTION 4. SETUP & OPERATION (31)4.1. Setup (31)4.2. Factors Affecting Operation (31)SECTION 5. MAINTENANCE (32)SECTION 6. REPLACEABLE PARTS LIST (33)Advanced Antennas10401 Roselle Street Phone: (800) 404-2832SECTION 1.GENERAL DESCRIPTIONThe DRG-118G (DRG-118/A) is a linearly-polarized wide-band Double-Ridged Horn Antenna. The DRG-118G antenna model number is identical to the old model number DRG-118/A. It is designed to transmit or receive in the frequency band from 1.0 GHz to 18.0 GHz with low VSWR, optimum antenna factor, high gain, uniform E-Plane and H-plane radiation patterns, and high transmit power capability. The antenna may be used with its typical antenna factor characteristic (see Figure 2-3) to make approximate field strength measurements. Greater accuracy requires individual calibration. The antenna is ideally suited for EMC testing, direction finding, surveillance, and antenna gain and pattern measurements.The antenna has the advantage of small size and light weight, and it can be mounted to a tripod or flat surface using the ¼-20 tapped hole on its mounting bracket, as shown in Figures 1-1, 1-2, 1-3, and 1-4.Figure 1-1 The DRG-118GAdvanced Antennas10401 Roselle Street Phone: (800) 404-2832Advanced Antennas10401 Roselle Street Phone: (800) 404-2832Figure 1-2 The DRG-118GFigure 1-3 The DRG-118GAdvanced Antennas10401 Roselle Street Phone: (800) 404-2832Figure 1-4 DRG-118G OutlineSECTION 2. TECHNICAL SPECIFICATIONS2.1. Electrical SpecificationsFrequency Range: 1.0 GHz to 18.0 GHz.Polarization: Linear.Pattern:Unidirectional Beam in E-Plane and H-Plane (see Figures 2-4 to 2-21).3 dB Beamwidth: 35° to 20° Nominal (see Figures 2-4 to 2-21).Impedance: 50 Ohms.VSWR: 2.0 : 1 Typical (see Figure 2-1).Gain: 6.0 dBi to 14.0 dBi Typical (see Figure 2-2).Antenna Factor: 36.6 dB / m Typical (see Figure 2-3).Power Handling: 400 Watts CW.Connector: Type N Female.Advanced Antennas10401 Roselle Street Phone: (800) 404-28322.2. Mechanical SpecificationsAntenna Dimensions (Maximum):Length: 7.85” (19.9 centimeter).Width: 9.50” (24.1 centimeter).Height: 5.63” (14.3 centimeter).Antenna Weight: 3.8 lbs (1.7 kg).Mounting: ¼-20 threaded hole for tripod mount.Material: Aluminum, Brass, Stainless Steel, & Black Phenolic.Finish: White Enamel, Gold Iridite.2.3. Environmental SpecificationsHumidity: Up to 100%.Advanced Antennas10401 Roselle Street Phone: (800) 404-2832Advanced Antennas10401 Roselle Street Phone: (800) 404-28322.4. Typical DataFigure 2-1 DRG-118G Typical VSWR PlotFigure 2-2 DRG-118G Typical Gain PlotAdvanced Antennas10401 Roselle Street Phone: (800) 404-2832Figure 2-3 DRG-118G Typical AFE PlotAdvanced Antennas10401 Roselle Street Phone: (800) 404-2832Advanced Antennas10401 Roselle Street Phone: (800) 404-2832FREQ: 1.000 GHZPOLARIZATION: LinearFigure 2-4 DRG-118G Typical E-Plane Pattern at 1 GHzAdvanced Antennas10401 Roselle Street Phone: (800) 404-2832FREQ: 2.000 GHZPOLARIZATION: LinearFigure 2-5 DRG-118G Typical E-Plane Pattern at 2 GHzAdvanced Antennas10401 Roselle Street Phone: (800) 404-2832FREQ: 3.000 GHZPOLARIZATION: LinearFigure 2-6 DRG-118G Typical E-Plane Pattern at 3 GHzAdvanced Antennas10401 Roselle Street Phone: (800) 404-2832FREQ: 4.000 GHZPOLARIZATION: LinearFigure 2-7 DRG-118G Typical E-Plane Pattern at 4 GHzAdvanced Antennas10401 Roselle Street Phone: (800) 404-2832FREQ: 5.000 GHZPOLARIZATION: LinearFigure 2-8 DRG-118G Typical E-Plane Pattern at 5 GHzAdvanced Antennas10401 Roselle Street Phone: (800) 404-2832FREQ: 6.000 GHZPOLARIZATION: LinearFigure 2-9 DRG-118G Typical E-Plane Pattern at 6 GHzAdvanced Antennas10401 Roselle Street Phone: (800) 404-2832FREQ: 7.000 GHZPOLARIZATION: LinearFigure 2-10 DRG-118G Typical E-Plane Pattern at 7 GHzAdvanced Antennas10401 Roselle Street Phone: (800) 404-2832FREQ: 8.000 GHZPOLARIZATION: LinearFigure 2-11 DRG-118G Typical H-Plane Pattern at 8 GHzAdvanced Antennas10401 Roselle Street Phone: (800) 404-2832FREQ: 9.000 GHZPOLARIZATION: LinearFigure 2-12 DRG-118G H-Plane pattern at 9 GHzAdvanced Antennas10401 Roselle Street Phone: (800) 404-2832FREQ: 10.000 GHZPOLARIZATION: LinearFigure 2-13 DRG-118G Typical H-Plane Pattern at 10 GHzAdvanced Antennas10401 Roselle Street Phone: (800) 404-2832FREQ: 12.000 GHZPOLARIZATION: LinearFigure 2-14 DRG-118G Typical E-Plane Pattern at 12 GHzAdvanced Antennas10401 Roselle Street Phone: (800) 404-2832FREQ: 12.000 GHZPOLARIZATION: LinearFigure 2-15 DRG-118G Typical H-Plane Pattern at 12 GHzAdvanced Antennas10401 Roselle Street Phone: (800) 404-2832FREQ: 14.000 GHZPOLARIZATION: LinearFigure 2-16 DRG-118G Typical E-Plane Pattern at 14 GHzAdvanced Antennas10401 Roselle Street Phone: (800) 404-2832FREQ: 14.000 GHZPOLARIZATION: LinearFigure 2-17 DRG-118G Typical H-Plane Pattern at 14 GHzAdvanced Antennas10401 Roselle Street Phone: (800) 404-2832FREQ: 16.000 GHZPOLARIZATION: LinearFigure 2-18 DRG-118G Typical E-Plane Pattern at 16 GHzAdvanced Antennas10401 Roselle Street Phone: (800) 404-2832FREQ: 16.000 GHZPOLARIZATION: LinearFigure 2-19 DRG-118G Typical H-Plane Pattern at 16 GHzAdvanced Antennas10401 Roselle Street Phone: (800) 404-2832FREQ: 18.000 GHZPOLARIZATION: LinearFigure 2-20 DRG-118G Typical E-Plane Pattern at 18 GHzAdvanced Antennas10401 Roselle Street Phone: (800) 404-2832FREQ: 18.000 GHZPOLARIZATION: LinearFigure 2-21 DRG-118G Typical H-Plane Pattern at 18 GHzSECTION 3. THEORY3.1. GeneralThe DRG-118G is a linearly-polarized wide-band Dual-Ridged Horn Antenna. It is designed to transmit or receive in the frequency band from 1.0 GHz to 18.0 GHz with low VSWR, high gain, uniform E-plane and H-plane radiation patterns, and high transmit power capability. The antenna is ideally suited for EMC testing, surveillance, gain measurements, and pattern measurements.3.2. Field MeasurementThe Power gain G, relative to an isotropic antenna, and the E-Field antenna factor AFE are related byAFE (dB/m) = 20*log10f - G(dBi) - 29.78 (Equation 3-1)where f is frequency in MHz. The E-field antenna factor is the ratio of the incident E-field in volts/meter to output voltage V O of the antenna across a termination resistor of stated value. The formula given above is valid only for a 50 Ohm termination.Individually calibrated Antenna Factor curves can be provided as an option (see Figure 2-3 for typical Antenna Factor calibration data) and can be used to measure electric field strengths. To measure the electric field strength, first set up the antenna (see Section 4). The incident electric field strength seen by the antenna, denoted by E, is then determined from the voltage level V O at the receiver (when the output connector of the antenna is matched to 50 Ohms). These two quantities are related through the frequency-dependent electric field antenna factor (AFE) byE (V/M) = AFE (1/m) x V O (V). (Equation 3-2)Advanced Antennas10401 Roselle Street Phone: (800) 404-2832Converting Equation 3-2 into decibel form givesE (dB V/m) = AFE (dB/m) + V O (dB V). (Equation 3-3)An example showing the application of Equation 3-2 is given below. Assume the observed antenna output voltage at 10 GHz is V O = 7.0 microvolts (-103.1 dB V) across the 50 Ohm load at the receiver and that the antenna factor is typically as followsAFE = 38.03 dB/m,henceE (dB V/m) = 38.03 - 103.1 =-65.07 dB V/m,which is equivalent toE = 10E (dB)/20 V/m (Equation 3-3)= 10-65.07/20 = 557.83 x 10-6 V/mAdvanced Antennas10401 Roselle Street Phone: (800) 404-2832SECTION 4. SETUP & OPERATION4.1. SetupThe DRG-118G, by itself, requires no assembly. Mount the DRG-118G to a tripod or mounting bracket in the desired Polarization (Vertical or Linear) using the provided ¼-20 threaded holes on the antenna mount angle (see Figures 1-1 to 1-4). Then connect the RF connector of the DRG-118G (Type N Female) to the receiver, transmitter, or test equipment using an appropriate coaxial cable. The antenna is then ready for use. For field strength measurement instructions, see Section3.2.4.2. Factors Affecting OperationFactors affecting the antenna operation include:• the distance between the antenna and the source or receiving system,• the orientation of the horn polarization with respect to the desired polarization,• the position of the antenna with respect to any large conducting objects, and• the background noise of the environment.The source or receiving system should not be located closer than 1 meter to the DRG-118G in order for the calibrated antenna factor to be accurate.Advanced Antennas10401 Roselle Street Phone: (800) 404-2832SECTION 5. MAINTENANCELittle or no maintenance will be required if care is exercised in handling the system. The antenna itself is fabricated of aluminum, which can dent or scratch if handled in a rough manner, or if otherwise abused. However, it should be recognized that small dents and scratches usually do not alter the performance of the antenna.If the antenna fails to provide satisfactory performance, it is recommended that it should be returned to Advanced Antennas for service. Address requests for replacement parts or service to: ADVANCED ANTENNAS10401 Roselle StreetSan Diego, CA 92121(800) 404-2832Advanced Antennas10401 Roselle Street Phone: (800) 404-2832SECTION 6. REPLACEABLE PARTS LISTWhen placing orders, please include the following information: Model Number, Part Number, Serial Number, Color, and Description of the item.Example: Model Number: DRG-118GPart Number: AA-DRG-118GSerial Number: 000Color: NoneDescription: DOUBLE-RIDGED HORNANTENNA, 1 - 18 GHz There are no field-replaceable parts for the DRG-118G. Any damage that may occur to the unit will require returning the unit to Advanced Antennas for servicing. All assembly hardware is American Standard for Unified Screw Threads.Part Number DescriptionAA-DRG-118G DOUBLE RIDGED HORN ANTENNA, 1 - 18 GHzTable 6-1 DRG-118G Replaceable Parts ListAdvanced Antennas10401 Roselle Street Phone: (800) 404-2832WARRANTYAll equipment manufactured by Advanced Antennas is warranted against defects in materials and workmanship for a period of one year from the date of shipment. Advanced Antennas will repair or replace any defective item or material if notified within the warranty period.You will not be charged for warranty services performed at our factory. You must, however, prepay inbound shipping costs. This warranty does not apply to:a) Products damaged during shipment EX-WORKS our plantb) Products which have been improperly installedc) Products which have been improperly used (operated outside the specification)d) Products which have been improperly maintainede) Consumable items such as batteries, lamps, fuses, customer replaceable solid-statecomponents, etc.f) Products which have been modifiedg) Normal wear of materialsh) Calibration of productsAny warranties or guarantees, whether expressed or implied, that are not specifically set forth herein, will not be considered applicable to any equipment sold or otherwise furnished by Advanced Antennas. Under no circumstances does Advanced Antennas recognize or assume any liability for any loss, damage or expense arising either directly or indirectly from the use or handling of products manufactured by Advanced Antennas, or any inability to use them separately or in combination with other equipment or materials.The warranty is void if items are shipped outside the U.S.A. without prior knowledge of Advanced Antennas.A return authorization is required for repairs under warranty. Please contact Advanced Antennasfor additional information.TM-DRG118G-042020Advanced Antennas10401 Roselle Street Phone: (800) 404-2832。

4720 Freeze Resistant Bi-Level Steel FountainSTOP!PLEASE READ THE FOLLOWINGINFORMATION.• INSTALLATION INSTRUCTIONS FOR THE 4720FR FTN. WITH 97482C DUAL VALVE CONTROL ASSEMBLY ARE LOCATED ON PAGES 2 - 5.• INSTALLATION INSTRUCTIONS FOR THE 4720FR FTN. WITH SANITARY FR2 VALVE ARE LOCATED ON PAGES6 - 12.IMPORTANTTHE GROUNDING OF ELECTRICAL EQUIPMENT SUCH AS TELEPHONE, COMPUTERS, ETC. TO WATER LINES IS A COMMON PROCEDURE. THIS GROUNDING MAY BE IN THE BUILDING OR MAY OCCUR AWAY FROM THE BUILDING. THIS GROUNDING CAN CAUSE ELECTRICAL FEEDBACK INTO A FOUNTAIN, CREATING AN ELECTROLYSIS WHICH CAUSES A METALLIC TASTE OR AN INCREASE IN THE METAL CONTENT OF THE WATER. THIS CONDITION IS AVOIDABLE BY USING THE PROPER MATERIALS AS INDICATED. ANY DRAIN FITTINGS PROVIDED BY THE INSTALLER SHOULD BE MADE OF PLASTIC TO ELECTRICALLY ISOLATE THE FOUNTAIN FROM THE BUILDING PLUMBING SYSTEM.IMPORTANTALL SERVICE TO BE PERFORMED BY AN AUTHORIZED SERVICE PERSON4720 Freeze Resistant Bi-Level Steel Fountainwith 97482C Dual Valve Control AssemblyIMPORTANT! INSTALLER PLEASE NOTEDo not pull up on lines coming out of the PVC column. Use the nylon strap (ref. 17) to lift the unit to prevent damage to the valve.General Installation Tips1. Be sure to fl ush water supply line before you connect it to the inlet fi tting on Freeze Resistant Valve System.2. There are two drain lines required for this unit. One for the drinking fountain basin drain and one for the valve/water supply line system. The bowl drain is the 3/4" PVC fi tting at the bottom of the 6" PVC tube and the valve drains through the small holes in the PVC cap. Provide ample drainage for these two items. It's always better to have too much then not enough.3. The column (6" PVC tube) must remain vertical. Be sure it remains vertical when backfi lling the excavating trench.4. When the concrete pad, for mounting the fountain, is poured, be sure to allow adequate space around the top of the column so that the fl exible cap may beremoved for servicing the valve.5. We recommend that the top of the column be fl ush or slightly above the top height of the concrete pad.6. You should test the unit before you backfi ll. Simply blow on the clear, small diameter tubing. A steady stream should fl ow from the braided tubing line. When airpressure is removed from the clear tubing the water stream should stop.7. Once you have tested the valve, backfi lled the hole and poured the concrete mounting pad you are ready to set the fountain. After bolting the fountain in placeconnect the air control valve tubing, supply water tubing and drain lines. The water supply line must have a straight run from the basin bubbler down to the control valve. If a straight run is not maintained water will become trapped and freeze leaving the unit inoperable. Test the fountain again. If it fails to work, the air control line may be kinked or connected improperly. Be sure to keep water out of the air control line.8. These products are designed to operate on 20 PSI to 105 PSI supply line pressure. If inlet pressure above 105 PSI, a pressure regulator must be installed in thesupply line. Any damage caused by reason of connecting this product to supply line pressure lower than 20 PSI or higher than 105 PSI is not covered bywarranty.LEGENDA = ACCESS PANELB = REMOVABLE BOTTOM COVERC = 1" PVC DRAIND = PRESSURE FITTING 1-1/4" x 3/4"E = CONNECTOR 1-1/4" TO 1-1/4"F = 1-1/4" DRAIN TUBEG = AIR CONTROL LINEH = 1/4" WATER LINEJ = CONNECTOR FOR AIR CONTROL LINESITE PREPARATION DETAIL FOR THE4720FR FTN. WHEN USING 97482C DUAL VALVE CONTROL ASSY.FIG. 12222 CAMDEN COURT OAK BROOK, IL 60523 630.574.3500 PRINTED IN U.S.A.7, 132910414530213428257, 138292533102835272716181161552232283117121514213334241519111261515303FIG. 3Stream HeightAdjustmentDetail2329Stream HeightAdjustment20, 263Dual Valve Assy.(Item 36)38FOR PARTS, CONTACT YOUR LOCAL DISTRIBUTOR OR VISIT OUR WEBSITE Halsey Taylor Owners Manual4720 Freeze Resistant Floor Mounted Steel Fountainwith Sanitary FR2 ValveIMPORTANT! INSTALLER PLEASE NOTETubing must be cut to the right length. Do not coil any excess tubing or it will cause valve to malfunction.General Installation Tips1. Prepare trench for water supply and waste drain lines. The hole should be deep enough to accommodate the PVC column.Additional porous fi ll and drain pipe may be required due to local ground conditions. Cut the PVC column to fi t desired burydepth. Set PVC column in excavating pit.2. Lay drain lines and water supply lines. Provide service shut-off valve for maintenance. Flush the water supply line beforeattaching to the shut-off valve.Other Notes:• The details on the attached pages show a suggested installation method. Depending on the climate and environmental conditions the suggested installation may be modifi ed.• Overall - for the freeze resistant to function properly the valve must be installed in a non-freezing area.SUGGESTED SITE PREPARATION DETAIL FOR THE 4720FR FTN. WHEN USING THE SANITARY FR2 VALVE1-1/2 DRAIN TUBE SUPPLIED WITH FTN.AIR GAP ASSY.SUPPLIED WITH VALVE1-1/2 DRAIN TUBE SUPPLIED BY INSTALLERDetail ALEGENDA = ACCESS PANEL ( 8" X 10" )B = REMOVABLE BOTTOM COVERFIG. 2INSTRUCTIONS FOR CONNECTING TUBES FROM VALVE TO FOUNTAIN(S)Step 1 - Insert the 1/8” O.D. tube(s) (Labeled A & B) into the connector(s) (provided with fountain). Insert the 1/8” O.D. tube(s) coming from the fountain(s) push button actuator(s) into the connector(s). Trim any excess length.Step 2 - Secure the 1/8” O.D. tube(s) (Labeled C & D) to the waste line assembly. This line is a vent line and should be open to the air.Step 3 - Insert the 1/4” O.D. tube(s) (Labeled E & F) into the 1/4” union(s) (provided with valve assembly). Insert the 1/4” O.D. water lines coming from the fountain(s) into union(s). Trim any excess length.Step 4 - Insert the 1/4” O.D. tube (Labeled G) into the air gap assembly.Step 5 - Secure the 1/4” O.D. tube (Labeled H) to the waste line assembly. This line is a vent line and should be open to the air.FOUNTAIN CONNECTIONSLABEL A(ON/OFF CONTROL LINE FOR BUBBLER ONE)LABEL F (WATER LINE)LABEL G (DRAIN LINE)LABEL E (WATER LINE)LABEL B(ON/OFF CONTROL LINEFOR BUBBLER TWO)LABEL C (VENT LINE)LABEL H (VENT LINE)LABEL D (VENT LINE)FOUNTAIN CONNECTIONSFIG. 3PLUMBING CONDUIT (BY INSTALLER)TO VALVEFIG. 6166324121571771475, 137SEE DETAIL BDETAIL B88881517FIG. 4FIG. 5Stream Height AdjustmentPAGE 1197709C (Rev. G - 1/17)1110919181FIG. 7FIG. 8FIG. 9DESCRIPTION11017544389028424C 40045C 45807C 50986C 56082C 56092C 56123C 56185C 56187C 56203C 56235C 61313C 70817C 70828C 75639C 75642C 75652C 75653C 70683C12345678910111213141516171819NSPART NO.Hex Nut - 3/8-16Bracket - Regulator Holder Hex Nut - 1-5/16Dual ValveRegulator Holder Regulator NutPoly Tubing - 1/4” (Cut To Length)Poly Tubing - 1/8” (Cut To Length)CanisterTrap - Adaptor 1-1/2Air Gap Assy.Fitting - 1/2” Union w/Strainer RegulatorFitting - Elbow 1/4 Stem x 1/4 Tube Fitting - Connector 1/4 x 1/4 NPTF Fitting - Elbow 1/4 x 1/4 NPTFFitting - Adaptor 1/4 NPT x 1/2 NPT U-BoltNylon Strap - 6 ft.Fitting - Union 1/4ITEM NO.PARTS LISTthe Sanitary FR2 ValvePAGE 1297709C (Rev. G - 1/17)TroubleshootingInsuf fi cient Bubbler Flow: Check that the shut-off valve is wide open. Verify minimum20 PSI supply pressure. Clean inlet strainer screen located in the valve body. Clean rubber ori fi ce in fl ow control located below frost line in bushing between barb fi tting and valve.No Flow: Check for leaks in the air tubing going from the push button to the valve. Make sure the air tubing compression nut is hand tight. Disconnect air tube from push button. Place fi nger over air outlet. Push button to test diaphragm. Tighten diaphragm cap screws. Replace diaphragm if necessary.Continued Insuf fi cient or Varied Height of Bubbler Flow:• Replace fl ow control.• Check for kinks in the tubing.• Remove the cleanout plug from the PVC column. Remove the valve assembly from thePVC column by carefully pulling up on the strap and connecting tubing at the same time. Pressure test the valve assembly for leaks. Check stream height from the bubbler. Stream height is factory set at 35 PSI. If supply pressure varies greatly from this, adjust the screw on the regulator (Item 13, Fig. 5, Page 10). Clockwise adjustment will raise stream and counter-clockwise adjustment will lower stream. For best adjustment stream height should be approx. 1-1/2" (38mm) above the bubbler guard. Replace the valve into the PVC column. Make sure the supply hose coils into the bottom of the PVC column without any kinks and double check that the valve is positioned fully at the bottom of the PVC column. Cap the PVC column.Continuous Bubbler Flow: Insure that push button is not obstructed and springs back to normal position. Remove four screws which secure plastic diaphragm block to valve body. Pull plastic and rubber diaphragm assembly out of valve body. Locate tiny hole in rubber diaphragm just under lip of plastic part. Clean debris from this hole. Inspect valve seat for grooves. If valve seat was OK and diaphragm hole was free from debris, inspect rubber button located at center of fl oating steel disc in valve diaphragm block assembly. If button is worn, turn disc over or replace it. If diaphragm and seats are in good condition, stretch spring slightly. Spring is located behind fl oating stainless steel plate. Insure that air bleed port on valve plastic block assembly is not plugged.FOR PARTS, CONTACT YOUR LOCAL DISTRIBUTOR OR VISIT OUR WEBSITE 2222 CAMDEN COURT OAK BROOK, IL 60523630.574.3500PRINTED IN U.S.A.Included with Sanitary FR2ValveFIG. 1044453842232128272125, 3132333324293733303536234233333945444134432722204028372122293024203326264025, 312110014714056010032274056010157054056015013C 15014C 11054494255011086864255016027050864017070504283028091C 40045C 45851C 40250C 45403C 45476C 45830C 45842C 45663C 55913C 56121C 60098545164066346C 70683C 75534C 75588C 75589C 75520C 75565C 75596C 56092C 56123C 75539C2021222324252627282930313233343536373839404142434445NS NS NS NS NS NSDrain Gasket GasketDrain GasketBubbler Tube Assy.Retaining NutSet Screw #8-32 x .125Socket Head Screw #10-24 x .75Strainer Plate BasinNameplate Insert Hex Nut 1-5/16"BubblerTailpipe 1-1/4" x 5-3/8"Push Button Actuator Drain Tube Fountain Body Access PanelPush Button Sleeve Drain AdapterDrain Elbow 1-1/4"Drain Plug Assy.Drain Tube Union 1/4Pinned Torx Screw #10-24Slip Joint Nut 1-1/4"GasketBit - Pinned Torx T-25Fitting - Double Male Connector Paint Touch-up (Pen)Poly Tubing - 1/4" (Cut To Length) - To Bubbler Poly Tubing - 1/8" (Cut To Length) - To Actuator Allen WrenchITEM NO.PART NO.PARTS LISTDESCRIPTIONthe 4720FR Fountain。