WestBond4546E半自动键合机

_______________General DescriptionThe MAX4545/MAX4546/MAX4547 are low-voltage T-switches designed for switching RF and video signals from DC to 300MHz in 50Ωand 75Ωsystems. The MAX4545 contains four normally open single-pole/single-throw (SPST) switches. The MAX4546 contains two dual SPST switches (one normally open, one normally closed.)The MAX4547 contains two single-pole/double-throw (SPDT) switches.Each switch is constructed in a “T” configuration, ensuring excellent high-frequency off isolation and crosstalk of -80dB at 10MHz. They can handle Rail-to-Rail ®analog sig-nals in either direction. On-resistance (20Ωmax) is matched between switches to 1Ωmax and is flat (0.5Ωmax) over the specified signal range, using ±5V supplies.The off leakage current is less than 5nA at +25°C and 50nA at +85°C.These CMOS switches can operate with dual power sup-plies ranging from ±2.7V to ±6V or a single supply between +2.7V and +12V. All digital inputs have 0.8V/2.4V logic thresholds, ensuring both TTL- and CMOS-logic com-patibility when using ±5V or a single +5V supply.________________________ApplicationsRF SwitchingVideo Signal RoutingHigh-Speed Data Acquisition Test Equipment ATE Equipment Networking____________________________Featureso Low 50ΩInsertion Loss: -1dB at 100MHz o High 50ΩOff Isolation: -80dB at 10MHz o Low 50ΩCrosstalk: -80dB at 10MHz o DC to 300MHz -3dB Signal Bandwidth o 20ΩSignal Paths with ±5V Supplies o 1ΩSignal-Path Matching with ±5V Supplies o 0.5ΩSignal-Path Flatness with ±5V Supplies o ±2.7V to ±6V Dual Supplies +2.7V to +12V Single Supply o Low Power Consumption: <1µW o Rail-to-Rail Bidirectional Signal Handling o Pin Compatible with Industry-Standard DG540, DG542, DG643o >2kV ESD Protection per Method 3015.7o TTL/CMOS-Compatible Inputs with Single +5V or ±5VMAX4545/MAX4546/MAX4547Quad/Dual, Low-Voltage,Bidirectional RF/Video Switches________________________________________________________________Maxim Integrated Products1_____________________Pin Configurations/Functional Diagrams/Truth Tables19-1232; Rev 0; 6/97Ordering Information continued at end of data sheet.For free samples & the latest literature: , or phone 1-800-998-8800Rail-to-Rail is a registered trademark of Nippon Motorola Ltd.M A X 4545/M A X 4546/M A X 4547Quad/Dual, Low-Voltage,Bidirectional RF/Video Switches 2_______________________________________________________________________________________ABSOLUTE MAXIMUM RATINGSELECTRICAL CHARACTERISTICS—Dual Supplies(V+ = +4.5V to +5.5V, V- = -4.5V to -5.5V, V INL = 0.8V, V INH = 2.4V, V GND_= 0V, T A = T MIN to T MAX , unless otherwise noted. Typical values are at T A = +25°C.)Stresses 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.(Voltages Referenced to GND)V+...........................................................................-0.3V, +13.0V V-............................................................................-13.0V, +0.3V V+ to V-...................................................................-0.3V, +13.0V All Other Pins (Note 1)..........................(V- - 0.3V) to (V+ + 0.3V)Continuous Current into Any Terminal..............................±25mA Peak Current into Any Terminal(pulsed at 1ms, 10% duty cycle)..................................±50mA ESD per Method 3015.7..................................................>2000V Continuous Power Dissipation (T A = +70°C) (Note 2)16-Pin Plastic DIP(derate 10.53mW/°C above +70°C)..........................842mW16-Pin Narrow SO(derate 8.70mW/°C above +70°C)............................696mW 16-Pin QSOP (derate 8.3mW/°C above +70°C)..........667mW 20-Pin Plastic DIP (derate 8.0mW/°C above +70°C)...640mW 20-Pin Wide SO (derate 10.00mW/°C above +70°C)..800mW 20-Pin SSOP (derate 8.0mW/°C above +70°C)..........640mW Operating Temperature RangesMAX454_C_ E.....................................................0°C to +70°C MAX454_E_ E..................................................-40°C to +85°C Storage Temperature Range.............................-65°C to +150°C Lead Temperature (soldering, 10sec).............................+300°CNote 1:Voltages on all other pins exceeding V+ or V- are clamped by internal diodes. Limit forward diode current to maximum cur-rent rating.MAX4545/MAX4546/MAX4547Quad/Dual, Low-Voltage,Bidirectional RF/Video Switches_______________________________________________________________________________________3ELECTRICAL CHARACTERISTICS—Dual Supplies (continued)(V+ = +4.5V to +5.5V, V- = -4.5V to -5.5V, V INL = 0.8V, V INH = 2.4V, V GND_= 0V, T A = T MIN to T MAX , unless otherwise noted. Typical values are at T A = +25°C.)M A X 4545/M A X 4546/M A X 4547Quad/Dual, Low-Voltage,Bidirectional RF/Video Switches 4_______________________________________________________________________________________ELECTRICAL CHARACTERISTICS—Single +5V Supply(V+ = +4.5V to +5.5V, V- = 0V, V INL = 0.8V, V INH = 2.4V, V GND_= 0V, T A = T MIN to T MAX , unless otherwise noted. Typical values are at T A = +25°C.)MAX4545/MAX4546/MAX4547Quad/Dual, Low-Voltage,Bidirectional RF/Video Switches_______________________________________________________________________________________5ELECTRICAL CHARACTERISTICS—Single +3V Supply(V+ = +2.7V to +3.6V, V- = 0V, V INL = 0.8V, V INH = 2.4V, V GND_ = 0V, T A = T MIN to T MAX , unless otherwise noted. Typical values are at T A = +25°C.)Note 2:The algebraic convention is used in this data sheet; the most negative value is shown in the minimum column.Note 3:Guaranteed by design.Note 4:∆R ON = ∆R ON(MAX)- ∆R ON(MIN).Note 5:Resistance flatness is defined as the difference between the maximum and the minimum value of on-resistance as mea-sured over the specified analog signal range.Note 6:Leakage parameters are 100% tested at the maximum rated hot temperature and guaranteed by correlation at +25°C.Note 7:Off isolation = 20log 10[V COM / (V NC or V NO )], V COM = output, V NC or V NO = input to off switch.Note 8:Between any two switches.Note 9:Leakage testing for single-supply operation is guaranteed by testing with dual supplies.M A X 4545/M A X 4546/M A X 4547Quad/Dual, Low-Voltage,Bidirectional RF/Video Switches 6_________________________________________________________________________________________________________________________________Typical Operating Characteristics(V+ = +5V, V- = -5V, T A = +25°C, GND = 0V, packages are surface mount, unless otherwise noted.)10010-51234-4-3-2-15ON-RESISTANCE vs. V COM(DUAL SUPPLIES)V COM (V)R O N (Ω)5111315971723192125-5-3-2-4-1012345ON-RESISTANCE vs. V COM AND TEMPERATURE (DUAL SUPPLIES)V COM (V)R O N (Ω)10001010012345678910ON-RESISTANCE vs. V COM(SINGLE SUPPLY)V COM (V)R O N (Ω)102025153040354501.0 1.50.52.0 2.53.0 3.54.0 4.55.0ON-RESISTANCE vs. V COM AND TEMPERATURE (SINGLE SUPPLY)V COM (V)R O N (Ω)050100150200250±2±3±4±5±6±8ON/OFF TIME vs.SUPPLY VOLTAGEM A X 4545 T O C 07V+, V- (V)t O N , t O F F (n s )t ONt OFF0.00010.0010.010.1110-75-50-25257550100125ON/OFF-LEAKAGE CURRENT vs.TEMPERATURETEMPERATURE (°C)L E A K A G E (n A)-20204006010080120-5-3-2-4-1012345CHARGE INJECTION vs. V COMV COM (V)Q j (p C )103050709011020406080100-75-2575125-502550100ON/OFF TIME vs.TEMPERATUREM A X 4545 T O C 08TEMPERATURE (°C)t O N , t O F F (n s )t ONt OFF0.000010.00010.001I-I+0.010.11-75-2575125-502550100POWER-SUPPLY CURRENT vs. TEMPERATUREM A X 4545 T O C 09TEMPERATURE (°C)I +, I - (µA )MAX4545/MAX4546/MAX4547Quad/Dual, Low-Voltage,Bidirectional RF/Video Switches_______________________________________________________________________________________70.40.20.61.21.41.00.81.601.0 1.52.0 2.50.53.0 3.54.0 4.55.0LOGIC-LEVEL THRESHOLD vs. POSITIVE SUPPLY VOLTAGEM A X 4545 T O C 10V+ (V)L O G I C -L E V E L T H R E S H O L D (V )-1200.11010001001MAX4545FREQUENCY RESPONSE-100-110FREQUENCY (MHz)L O S S (d B )-80-90-60-50-70-40-20-10-30-1001101001000MAX4546FREQUENCY RESPONSE-60-70-80-90-30-40-50-20-10FREQUENCY (MHz)L O S S (d B )100-20-10-1001101000FREQUENCY RESPONSE-70-80-90-30-40-50-601006080-100-40-60-8040200-20FREQUENCY (MHz)S W I T C H L O S S (d B )O N P H A S E (D E G R E E S )1001000.0001101k 100k10k100MAX4547TOTAL HARMONIC DISTORTIONvs. FREQUENCY0.001FREQUENCY (Hz)T H D (%)0.010.1110____________________________Typical Operating Characteristics (continued)(V+ = +5V, V- = -5V, T A = +25°C, GND = 0V, packages are surface mount, unless otherwise noted.)_______________Theory of OperationLogic-Level TranslatorsThe MAX4545/MAX4546/MAX4547 are constructed as high-frequency “T” switches, as shown in Figure 1. The logic-level input, IN_, is translated by amplifier A1 into a V+ to V- logic signal that drives amplifier A2. (Amplifier A2 is an inverter for normally closed switches.)Amplifier A2 drives the gates of N-channel MOSFETs N1 and N2 from V+ to V-, turning them fully on or off.The same signal drives inverter A3 (which drives the P-channel MOSFETs P1 and P2) from V+ to V-, turning them fully on or off, and drives the N-channel MOSFET N3 off and on.The logic-level threshold is determined by V+ and GND_. The voltage on GND_ is usually at ground potential, but it may be set to any voltage between (V+ - 2V) and V-. When the voltage between V+ and GND_ is less than 2V, the level translators become very slow and unreliable. Since individual switches in each package have individual GND_ pins, they may be set to different voltages. Normally, however, they should all be connected to the ground plane.Switch On ConditionWhen the switch is on, MOSFETs N1, N2, P1, and P2are on and MOSFET N3 is off. The signal path is COM_to NO_, and because both N-channel and P-channel MOSFETs act as pure resistances, it is symmetrical(i.e., signals may pass in either direction). The off MOSFET, N3, has no DC conduction, but has a small amount of capacitance to GND_. The four on MOSFETs also have capacitance to ground that,together with the series resistance, forms a lowpass fil-ter. All of these capacitances are distributed evenly along the series resistance, so they act as a transmis-sion line rather than a simple R-C filter. This helps to explain the exceptional 300MHz bandwidth when the switches are on.M A X 4545/M A X 4546/M A X 4547Quad/Dual, Low-Voltage,Bidirectional RF/Video Switches 8_____________________________________________________________________________________________________________________________________________________Pin Description*All pins have ESD diodes to V- and V+.**NO_ (or NC_) and COM_ pins are identical and interchangeable. Either may be considered as an input or output; signals passequally well in either direction.Figure 1. T-Switch ConstructionTypical attenuation in 50Ωsystems is -1dB and is rea-sonably flat up to 100MHz. Higher-impedance circuits show even lower attenuation (and vice versa), but slightly lower bandwidth due to the increased effect of the internal and external capacitance and the switch’s internal resistance.The MAX4545/MAX4546/MAX4547 are optimized for ±5V operation. Using lower supply voltages or a single supply increases switching time, increases on-resis-tance (and therefore on-state attenuation), and increas-es nonlinearity.Switch Off Condition When the switch is off, MOSFETs N1, N2, P1, and P2 are off and MOSFET N3 is on. The signal path is through the off-capacitances of the series MOSFETs, but it is shunted to ground by N3. This forms a high-pass filter whose exact characteristics are dependent on the source and load impedances. In 50Ωsystems, and below 10MHz, the attenuation can exceed 80dB. This value decreases with increasing frequency and increasing circuit impedances. External capacitance and board layout have a major role in determining over-all performance.__________Applications InformationPower-Supply ConsiderationsOverview The MAX4545/MAX4546/MAX4547 construction is typi-cal of most CMOS analog switches. It has three supply pins: V+, V-, and GND. V+ and V- are used to drive the internal CMOS switches and set the limits of the analog voltage on any switch. Reverse ESD protection diodes are internally connected between each analog signal pin and both V+ and V-. If the voltage on any pin exceeds V+ or V-, one of these diodes will conduct. During normal operation these reverse-biased ESD diodes leak, forming the only current drawn from V-. Virtually all the analog leakage current is through the ESD diodes. Although the ESD diodes on a given sig-nal pin are identical, and therefore fairly well balanced, they are reverse biased differently. Each is biased by either V+ or V- and the analog signal. This means their leakages vary as the signal varies. The difference in the two diode leakages from the signal path to the V+ and V- pins constitutes the analog signal-path leakage cur-rent. All analog leakage current flows to the supply ter-minals, not to the other switch terminal. This explains how both sides of a given switch can show leakage currents of either the same or opposite polarity.There is no connection between the analog signal paths and GND. The analog signal paths consist of an N-channel and P-channel MOSFET with their sources and drains paralleled and their gates driven out of phase with V+ and V- by the logic-level translators.V+ and GND power the internal logic and logic-level translators, and set the input logic thresholds. The logic-level translators convert the logic levels to switched V+ and V- signals to drive the gates of the analog switches. This drive signal is the only connec-tion between the logic supplies and the analog sup-plies. All pins have ESD protection to V+ and to V-. Increasing V- has no effect on the logic-level thresh-olds, but it does increase the drive to the P-channel switches, reducing their on-resistance. V- also sets the negative limit of the analog signal voltage.The logic-level thresholds are CMOS and TTL compati-ble when V+ is +5V. As V+ is raised, the threshold increases slightly; when V+ reaches +12V, the level threshold is about 3.1V, which is above the TTL output high-level minimum of 2.8V, but still compatible with CMOS outputs.Bipolar-Supply Operation The MAX4545/MAX4546/MAX4547 operate with bipolar supplies between ±2.7V and ±6V. The V+ and V- sup-plies need not be symmetrical, but their sum cannot exceed the absolute maximum rating of 13.0V. Do not connect the MAX4545/MAX4546/MAX4547 V+ pin to +3V and connect the logic-level input pins to TTL logic-level signals. TTL logic-level outputs can exceed the absolute maximum ratings, causing damage to the part and/or external circuits.CAUTION:The absolute maximum V+ to V- differential voltage is 13.0V. Typical “±6-Volt” or “12-Volt”supplies with ±10% tolerances can be as high as 13.2V. This voltage can damage the MAX4545/MAX4546/MAX4547. Even ±5% toler-ance supplies may have overshoot or noise spikes that exceed 13.0V.Single-Supply Operation The MAX4545/MAX4546/MAX4547 operate from a sin-gle supply between +2.7V and +12V when V- is con-nected to GND. All of the bipolar precautions must be observed. Note, however, that these parts are opti-mized for ±5V operation, and most AC and DC charac-teristics are degraded significantly when departing from ±5V. As the overall supply voltage (V+ to V-) is lowered, switching speed, on-resistance, off isolation, and distortion are degraded. (See Typical Operating Characteristics.) MAX4545/MAX4546/MAX4547Quad/Dual, Low-Voltage,Bidirectional RF/Video Switches _______________________________________________________________________________________9M A X 4545/M A X 4546/M A X 4547Single-supply operation also limits signal levels and interferes with grounded signals. When V- = 0V, AC sig-nals are limited to -0.3V. Voltages below -0.3V can be clipped by the internal ESD-protection diodes, and the parts can be damaged if excessive current flows.Power OffWhen power to the MAX4545/MAX4546/MAX4547 is off (i.e., V+ = 0V and V- = 0V), the Absolute Maximum Ratings still apply. This means that neither logic-level inputs on IN_ nor signals on COM_, NO_, or NC_ can exceed ±0.3V. Voltages beyond ±0.3V cause the inter-nal ESD-protection diodes to conduct, and the parts can be damaged if excessive current flows.GroundingDC Ground ConsiderationsSatisfactory high-frequency operation requires that careful consideration be given to grounding. For most applications, a ground plane is strongly recom-mended, and all GND_ pins should be connected to it with solid copper.While the V+ and V- power-supply pins are common to all switches in a given package,each switch has separate ground pins that are not internally connected to each other. This contributes to the overall high-frequency performance and provides added flexibility in some applications, but it can cause problems if it is overlooked. All the GND_ pins have ESD diodes to V+ and V-.In systems that have separate digital and analog (sig-nal) grounds, connect these switch GND_ pins to ana-log ground. Preserving a good signal ground is much more important than preserving a digital ground.Ground current is only a few nanoamps.The logic-level inputs, IN_, have voltage thresholds determined by V+ and GND_. (V- does not influence the logic-level threshold.) With +5V and 0V applied to V+ and GND_, the threshold is about 1.6V, ensuring compatibility with TTL- and CMOS-logic drivers.The various GND_ pins can be connected to separate voltage potentials if any or all of the logic-level inputs is not a normal logic signal. (The GND_ voltages cannot exceed (V+ - 2V) or V-.) Elevating GND_ reduces off isolation. For example, using the MAX4545, if GND2–GND6 are connected to 0V and GND1 is connected to V-, then switches 2, 3, and 4 would be TTL/CMOS com-patible, but switch 1 (IN1) could be driven with the rail-to-rail output of an op amp operating from V+ and V-.Note, however, that IN_ can be driven more negative than GND_, as far as V-. GND_ does not have to be removed from 0V when IN_ is driven from bipolar sources, but the voltage on IN_ should never exceed V-.GND_ should be separated from 0V only if the logic-level threshold has to be changed.Any GND_ pin not connected to 0V should be bypassed to the ground plane with a surface-mount 10nF capacitor to maintain good RF grounding. DC current in the IN_ and GND_ pins is less than 1nA, but increases with switching frequency.On the MAX4545 only, two extra ground pins—GND5and GND6—are provided to improve isolation and crosstalk. They are not connected to the logic-level cir-cuit. These pins should always be connected to the ground plane with solid copper.AC Ground and BypassingA ground plane is mandatory for satisfactory high-frequency operation.(Prototyping using hand wiring or wire-wrap boards is strongly discouraged.) Connect all 0V GND_ pins to the ground plane with solid copper.(The GND_ pins extend the high-frequency ground through the package wire-frame, into the silicon itself,thus improving isolation.) The ground plane should be solid metal underneath the device, without interruptions.There should be no traces under the device itself. For DIP packages, this applies to both sides of a two-sided board. Failure to observe this will have a minimal effect on the “on” characteristics of the switch at high frequen-cies, but it will degrade the off isolation and crosstalk.All V+ and V- pins should be bypassed to the ground plane with surface-mount 10nF capacitors. For DIP packages, they should be mounted as close as possi-ble to the pins on the same side of the board as the device. Do not use feedthroughs or vias for bypass capacitors. For surface-mount packages, the pins are so close to each other that the bypass capacitors should be mounted on the opposite side of the board from the device. In this case, use short feedthroughs or vias, directly under the V+ and V- pins. Any GND_ pin not connected to 0V should be similarly bypassed. If V-is 0V, connect it directly to the ground plane with solid copper. Keep all leads short.The MAX4547 has two V+ and V- pins. Make DC con-nections to only one of each to minimize crosstalk. Do not route DC current into one of the V+ or V- pins and out the other V+ or V- pin to other devices. The second set of V+ and V- pins is for AC bypassing only.For dual-supply operation, the MAX4547 should have four 10nF bypass capacitors connected to each V+and V- pin, as close to the package as possible. For single-supply operation, the MAX4547 should have two 10nF bypass capacitors connected (one to each V+pin), as close to the package as possible.Quad/Dual, Low-Voltage,Bidirectional RF/Video Switches 10______________________________________________________________________________________MAX4545/MAX4546/MAX4547Bidirectional RF/Video Switches______________________________________________________________________________________11On the MAX4545, GND5 and GND6 should always be connected to the ground plane with solid copper to improve isolation and crosstalk.Signal RoutingKeep all signal leads as short as possible. Separate all signal leads from each other and other traces with the ground plane on both sides of the board. Where possi-ble, use coaxial cable instead of printed circuit board traces.Board LayoutIC sockets degrade high-frequency performance and should not be used if signal bandwidth exceeds 5MHz.Surface-mount parts, having shorter internal lead frames, provide the best high-frequency performance.Keep all bypass capacitors close to the device, and separate all signal leads with ground planes. Such grounds tend to be wedge-shaped as they get closer to the device. Use vias to connect the ground planes on each side of the board, and place the vias in the apex of the wedge-shaped grounds that separate signal leads.Logic-level signal lead placement is not critical.Impedance MatchingThe typical on-resistances of the switches in the MAX4545/MAX4546/MAX4547 are 14Ω, but the off-state impedances are approximately equal to a 6pF capacitor. In coaxial systems, therefore, it is impossible to match any impedance for both the on and off state. If impedance matching is critical, the MAX4546 is best suited, since its two sections can be configured as a single on/off switch, as shown in Figure 2. This circuit “wastes” switches and has higher losses, but has bet-ter off isolation and maintains good impedance match-ing in both the on and off states. The resistance values shown in Figure 3 are optimized with ±5V supplies for both 50Ωand 75Ωsystems at room temperature.MultiplexerWith its excellent off isolation, the MAX4545 is ideal for use in high-frequency video multiplexers. Figure 3shows such an application for switching any one of four video inputs to a single output. The same circuit may be used as a demultiplexer by simply reversing the sig-nal direction.Stray capacitance of traces and the output capacitance of switches placed in parallel reduces bandwidth, so the outputs of no more than four individual switches should be placed in parallel if high bandwidth is to be main-tained. If more than four mux channels are needed, the 4-channel circuit should be duplicated and cascaded.Figure 2. Impedance Matching On/Off SwitchM A X 4545/M A X 4546/M A X 4547Bidirectional RF/Video Switches 12______________________________________________________________________________________Figure 3. 4-Channel MultiplexerMAX4545/MAX4546/MAX4547Bidirectional RF/Video Switches______________________________________________________________________________________13Figure 4. Switching Time______________________________________________Test Circuits/Timing DiagramsFigure 5. Break-Before-Make Interval (MAX4546/MAX4547 only)M A X 4545/M A X 4546/M A X 4547Bidirectional RF/Video Switches 14______________________________________________________________________________________Figure 6. Charge InjectionFigure 7. On Loss, Off Isolation, and Crosstalk_________________________________Test Circuits/Timing Diagrams (continued)MAX4545/MAX4546/MAX4547Bidirectional RF/Video Switches______________________________________________________________________________________15N.C. = NO INTERNAL CONNECTIONTRANSISTOR COUNT: 253SUBSTRATE INTERNALLY CONNECTED TO V-GND2GND5GND4NO4V-NO1COM30.101"(2.565mm)0.085"(2.159mm)COM4IN4IN3GND6V+NO2N.C.NO3GND3COM1IN1IN2COM2GND1N.C.MAX4545GND2GND4N.C.COM1N.C.N.C.NC20.101"(2.565mm)0.085"(2.159mm)V+NC1IN2COM2N.C.N.C.V-N.C.GND3GND1V-MAX4547GND2N.C.N.C.NC4V-NO1GND30.101"(2.565mm)MAX4546GND4COM4COM3N.C.V+NO2N.C.NC30.085"(2.159mm)GND1N.C.Figure 8. NO_, NC_, COM_ Capacitance_________________Chip TopographiesMaxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied 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.16__________________Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 (408) 737-7600©1997 Maxim Integrated ProductsPrinted USAis a registered trademark of Maxim Integrated Products.M A X 4545/M A X 4546/M A X 4547Bidirectional RF/Video Switches___________________________________________Ordering Information (continued)*Contact factory for dice specifications.。

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c. 具备设备升级功能：可升级配备⾼温承⽚台等推荐型号：M6 HF ⼿动微波探针台2. 管芯粘接1) ⽤途：⽤于芯⽚与电路基板的功能粘接. 有共晶与环氧树脂粘接两种⽅式共晶粘⽚:7367E: 镊⼦型共晶粘接---------如果芯⽚表⾯不能触碰。

//有此特殊应⽤需求时再沟通7374E: 梁式引线共晶粘接---主要⽤于微波⼆极管带梁式引线的粘接。

Data sheet | Item number: 750-4542-channel analog input; 4 … 20 mA; Differential input; light gray/750-454Subject to changes. Please also observe the further product documentation!WAGO Kontakttechnik GmbH & Co. KG Do you have any questions about our products?Color:Item descriptionThis analog input module processes standard 4–20 V signals.The input signal is electrically isolated and transmitted with a resolution of 12 bits.The internal system supply powers the module.The input channels of the module are differential inputs.The shield directly connects to the DIN-rail.Subject to changes. Please also observe the further product documentation!WAGO Kontakttechnik GmbH & Co. KG Do you have any questions about our products?DataTechnical dataNumber of analog inputs2Total number of channels (module)2Signal typeCurrent Signal type (current)DC 4 … 20 mA Sensor connection 2 x (2-wire)Input voltage (max.)35 V Signal characteristic Differential Resolution [bit]12Bit Input resistance (max.)220ΩData width2 x 16-bit data; 2 x 8-bit control/status (optional)Conversion time (typ.)2ms Measurement error (reference temperature)25°C Measurement error – deviation (max.) from the upper-range value 0.2% Temperature error (max.) of the upper-range value 0.01%/KSupply voltage (system)5 VDC; via data contacts Power consumption (5 V system supply)70mAIsolation500 V system/fieldConnection dataConnection technology: inputs/outputs 8 x CAGE CLAMP ®Connection type (1)Inputs/OutputsSolid conductor0.08 … 2.5 mm² / 28 … 14 AWG Fine-stranded conductor 0.08 … 2.5 mm² / 28 … 14 AWG Strip length8 … 9 mm / 0.31 … 0.35 inchPhysical dataWidth 12 mm / 0.472 inch Height 100 mm / 3.937 inch Depth69.8 mm / 2.748 inch Depth from upper edge of DIN-rail62.6 mm / 2.465 inchMechanical dataMounting typeDIN-35 railSubject to changes. Please also observe the further product documentation!WAGO Kontakttechnik GmbH & Co. KG Do you have any questions about our products?Material dataColorlight grayHousing material Polycarbonate; polyamide 6.6Fire load 0.943MJ Weight49.8g Conformity markingCEEnvironmental requirementsSurrounding air temperature (operation)0 … 55 °C Surrounding air temperature (storage)-40 … 85 °C Protection type IP20Pollution degree (5) 2 per IEC 61131-2Operating altitude 0 … 2000 mMounting positionhorizontal (standing/lying); vertical Relative humidity (without condensation)95%Vibration resistance 4g per IEC 60068-2-6Shock resistance15g per IEC 60068-2-27EMC immunity to interference per EN 61000-6-2, marine applications EMC emission of interference per EN 61000-6-4, marine applications Exposure to pollutantsPer IEC 60068-2-42 and IEC 60068-2-43Permissible H S contaminant concentration at a relative humidity 75 2%10ppmPermissible SO contaminant concentration at a relative humidity 75 2%25ppm Commercial dataProduct Group 15 (Remote I/O)Packaging type BOX Country of origin DEGTIN4045454483098Customs tariff number853********Approvals / CertificatesEx-ApprovalsLogo Approval Additional Approval Text Certificate name ATEXTUEV Nord Cert GmbHEN 60079-0TÜV 07 ATEX 554086 X en.Subject to changes. Please also observe the further product documentation!WAGO Kontakttechnik GmbH & Co. KG Do you have any questions about our products?TUEV Nord Cert GmbH554086 X en.CCCExCQST/CNExCNCA-C23-012020312310000215EACBrjansker ZertifizierungsstelleTP TC 012/2011EAC RU C-DE.AM02.B.00163/19INMETROTÜV Rheinland do Brasil Ltda.IEC 60079BR-Ex_TÜV 12.1297XTUEV NordTUEV Nord Cert GmbHIEC 60079-0IECEx TUN 09.0001XULUnderwriters Laboratories Inc. (HAZARDOUS LOCATIONS)UL 121201E198726 Sec.1Country specific ApprovalsLogo ApprovalAdditional Approval Text Certificatename KCNational Radio Research AgencyArticle 58-2, Clause 3MSIP-REM-W43-AIM750Ship ApprovalsLogo ApprovalAdditional Approval Text Certificatename ABSAmerican Bureau of Shipping-19-HG1821926BVBureau Veritas S.A.-13453/DO BVSubject to changes. Please also observe the further product documentation!WAGO Kontakttechnik GmbH & Co. KG Do you have any questions about our products?DNV GLDet Norske Veritas, Germanischer Lloyd-TAA0000194KRKorean Register of Shipping-KRHMB05880-AC001LRLloyds Register-02/20026 (E6)NKNippon Kaiji Kyokai-TA17255MPRSPolski Rejestr Statków-TE/2236/880590/19RINARINA Germany GmbH-ELE066419XGUL-ApprovalsLogo ApprovalAdditional Approval Text Certificatename ULUL International Netherlands B.V. (ORDINARY LOCATIONS)UL 508E175199 Sec.1Compatible productsCarrier railItem no.: 210-112Steel carrier rail; 35 x 7.5 mm; 1 mm thick; 2 m long; slotted; according to EN 60715; "Hole width 25 mm; silver-colored/210-112Item no.: 210-113Steel carrier rail; 35 x 7.5 mm; 1 mm thick; 2 m long; unslotted; according to EN 60715; silver-colored /210-113Item no.: 210-114Steel carrier rail; 35 x 15 mm; 1.5 mm thick; 2 m long; unslotted; similar to EN 60715; silver-colored/210-114Subject to changes. Please also observe the further product documentation!WAGO Kontakttechnik GmbH & Co. KG Do you have any questions about our products?Steel carrier rail; 35 x 15 mm; 1.5 mm thick; 2 m long; unslotted; similar to EN 60715; silver-colored/210-114Item no.: 210-115Steel carrier rail; 35 x 7.5 mm; 1 mm thick; 2 m long; slotted; according to EN 60715; "Hole width 18 mm; silver-colored/210-115Item no.: 210-118Steel carrier rail; 35 x 15 mm; 2.3 mm thick; 2 m long; unslotted; according to EN 60715; silver-colored/210-118Item no.: 210-196Aluminum carrier rail; 35 x 8.2 mm; 1.6 mm thick; 2 m long; unslotted; similar to EN 60715; silver-colored/210-196Item no.: 210-197Steel carrier rail; 35 x 15 mm; 1.5 mm thick; 2 m long; slotted; similar to EN 60715; silver-colored/210-197Item no.: 210-198Copper carrier rail; 35 x 15 mm; 2.3 mm thick; 2 m long; unslotted; according to EN 60715; copper-colored/210-198Item no.: 210-504Steel carrier rail; 35 x 7.5 mm; 1 mm thick; 2 m long; slotted; galvanized; according to EN 60715/210-504Item no.: 210-505Steel carrier rail; 35 x 7.5 mm; 1 mm thick; 2 m long; unslotted; galvanized; according to EN 60715; silver-colored/210-505Item no.: 210-506Steel carrier rail; 35 x 15 mm; 1.5 mm thick; 2 m long; unslotted; galvanized; similar to EN 60715; silver-colored/210-506Item no.: 210-508Steel carrier rail; 35 x 15 mm; 1.5 mm thick; 2 m long; slotted; galvanized; similar to EN 60715; silver-colored/210-508Marking accessoriesItem no.: 2009-145Mini-WSB Inline; for Smart Printer; 1700 pieces on roll; stretchable 5 - 5.2 mm; plain; snap-on type; white/2009-145Item no.: 2009-145/000-002Mini-WSB Inline; for Smart Printer; 1700 pieces on roll; stretchable 5 - 5.2 mm; plain; snap-on type; yellow/2009-145/000-002Item no.: 2009-145/000-005Mini-WSB Inline; for Smart Printer; 1700 pieces on roll; stretchable 5 - 5.2 mm; plain; snap-on type; red/2009-145/000-005Item no.: 2009-145/000-006Mini-WSB Inline; for Smart Printer; 1700 pieces on roll; stretchable 5 - 5.2 mm; plain; snap-on type; blue /2009-145/000-006Item no.: 2009-145/000-007Mini-WSB Inline; for Smart Printer; 1700 pieces on roll; stretchable 5 - 5.2 mm; plain; snap-on type; gray /2009-145/000-007Item no.: 2009-145/000-012Subject to changes. Please also observe the further product documentation!WAGO Kontakttechnik GmbH & Co. KG Do you have any questions about our products?Item no.: 2009-145/000-012Mini-WSB Inline; for Smart Printer; 1700 pieces on roll; stretchable 5 - 5.2 mm; plain; snap-on type; orange/2009-145/000-012Item no.: 2009-145/000-023Mini-WSB Inline; for Smart Printer; 1700 pieces on roll; stretchable 5 - 5.2 mm; plain; snap-on type; green/2009-145/000-023Item no.: 2009-145/000-024Mini-WSB Inline; for Smart Printer; 1700 pieces on roll; stretchable 5 - 5.2 mm; plain; snap-on type; violet/2009-145/000-024Item no.: 248-501Miniature WSB Quick marking system; plain; Marker width 5 mm; 10 strips with 10 markers per card /248-501Item no.: 248-501/000-002Mini-WSB marking card; as card; not stretchable; plain; snap-on type; yellow/248-501/000-002Item no.: 248-501/000-005Mini-WSB marking card; as card; not stretchable; plain; snap-on type; red /248-501/000-005Item no.: 248-501/000-006Mini-WSB marking card; as card; not stretchable; plain; snap-on type; blue /248-501/000-006Item no.: 248-501/000-007Mini-WSB marking card; as card; not stretchable; plain; snap-on type; gray /248-501/000-007Item no.: 248-501/000-012Mini-WSB marking card; as card; not stretchable; plain; snap-on type; orange /248-501/000-012Item no.: 248-501/000-017Mini-WSB marking card; as card; not stretchable; plain; snap-on type; light green /248-501/000-017Item no.: 248-501/000-023Mini-WSB marking card; as card; not stretchable; plain; snap-on type; green /248-501/000-023Item no.: 248-501/000-024Mini-WSB marking card; as card; not stretchable; plain; snap-on type; violet /248-501/000-024Item no.: 750-100Marker card; as a DIN A4 sheet; plain; white /750-100Item no.: 750-103Group marker carrier; transparent/750-103Item no.: /750-106Subject to changes. Please also observe the further product documentation!WAGO Kontakttechnik GmbH & Co. KG Do you have any questions about our products?Item no.: 750-106Group marker carrier; transparent/750-106shield connectionItem no.: 790-108Shield clamping saddle; 11 mm wide; diameter of compatible conductor; 3 ... 8 mm/790-108Item no.: 790-116Shield clamping saddle; 19 mm wide; diameter of compatible conductor; 7 ... 16 mm/790-116Item no.: 790-124Shield clamping saddle; 27 mm wide; diameter of compatible conductor; 6 ... 24 mm/790-124Item no.: 790-140Shield clamping saddle; diameter of compatible conductor/790-140Item no.: 790-208Shield clamping saddle; 12.4 mm wide; 3 ... 8 mm/790-208Item no.: 790-216Shield clamping saddle; 21.8 mm wide; 6 ... 16 mm/790-216Item no.: 790-220Shield clamping saddle; 30 mm wide; 6 ... 20 mm/790-220system boxItem no.: 850-804IP65 enclosure; Stainless steel; WxHxD (400x123x200 mm); 4 x M20, 16 x M16, 28 x M12 cable grip/850-804Item no.: 850-804/000-001IP65 enclosure; Stainless steel; WxHxD (400x123x200 mm); 2 x M20, 13 x M16, 32 x M12 cable grip /850-804/000-001Item no.: 850-805IP65 enclosure; Stainless steel; WxHxD (600x123x200 mm); 4 x M20, 19 x M16, 67 x M12 cable grip/850-805Item no.: 850-814/002-000IP65 enclosure; Sheet steel (RAL 7035); WxHxD (200x120x200 mm); without flange plate/850-814/002-000Item no.: 850-815/002-000IP65 enclosure; Sheet steel (RAL 7035); WxHxD (300x120x200 mm); without flange plate /850-815/002-000Item no.: 850-816/002-000IP65 enclosure; Sheet steel (RAL 7035); WxHxD (400x120x200 mm); without flange plate /850-816/002-000Item no.: 850-817/002-000IP65 enclosure; Sheet steel (RAL 7035); WxHxD (600x120x200 mm); without flange plate /850-817/002-000Item no.: /850-825Subject to changes. Please also observe the further product documentation!WAGO Kontakttechnik GmbH & Co. KG Do you have any questions about our products?Item no.: 850-825IP65 enclosure; Aluminium (RAL 7032); WxHxD (160x100x160 mm); 9 x M12, 4 x M20/850-825Item no.: 850-826IP65 enclosure; Aluminium (RAL 7032); WxHxD (240x100x160 mm); 4 x M20, 4 x M16, 14 x M12 cable grip/850-826Item no.: 850-826/002-000IP65 enclosure; Aluminium (RAL 7035); WxHxD (240x100x160 mm); 4 x M20, 4 x M16, 14 x M12 cable grip/850-826/002-000Item no.: 850-827IP65 enclosure; Aluminium (RAL 7032); WxHxD (320x100x160 mm); 4 x M20, 8 x M16, 17 x M12 cable grip/850-827Item no.: 850-827/002-000IP65 enclosure; Aluminium (RAL 7035); WxHxD (320x100x160 mm); 4 x M20, 8 x M16, 17 x M12 cable grip/850-827/002-000Item no.: 850-828IP65 enclosure; Aluminium (RAL 7032); WxHxD (480x100x160 mm); 4 x M20, 10 x M16, 35 x M12 cable grip/850-828Item no.: 850-828/002-000IP65 enclosure; Aluminium (RAL 7035); WxHxD (480x100x160 mm); 4 x M20, 10 x M16, 35 x M12 cablegrip/850-828/002-000Item no.: 850-834IP65 enclosure; Polyester (RAL 7032); WxHxD (164x100x164 mm); 9 x M12, 4 x M20/850-834Item no.: 850-835IP65 enclosure; Polyester (RAL 7032); WxHxD (244x100x164 mm); 4 x M20, 4 x M16, 14 x M12 cable grip/850-835Item no.: 850-836IP65 enclosure; Polyester (RAL 7032); WxHxD (324x100x164 mm); 4 x M20, 8 x M16, 17 x M12 cable grip/850-836DownloadsDocumentationManual2-channel, 4-20mA, diff.V 1.2.0pdf 2.1 MBDownloadBid Text750-454X81 - Datei Feb 19, 2019xml 4.3 kB Download750-454doc - DateiOct 17, 2017doc 29.2 kBDownloadSubject to changes. Please also observe the further product documentation!WAGO Kontakttechnik GmbH & Co. KG Do you have any questions about our products?750-454docx - Datei Oct 17, 2017docx 17.2 kBDownloadSystem Description750/753 Series I/O-System ‒ General Product Informationpdf 1.7 MB DownloadOverview on WAGO-I/O-SYSTEM 750 approvals pdf780.2 kBDownloadUse in Hazardous EnvironmentsTerm definition, marking and installation regulations V 1.0.0pdf 1.0 MBDownloadAdditional InformationDisposal; Electrical and electronic equipment, Packaging V 1.0.0pdf265.8 kBDownloadCAD/CAE-DataCAD data2D/3D Models 750-454URL DownloadCAE dataEPLAN Data Portal 750-454URL Download WSCAD Universe 750-454URL Download ZUKEN Portal 750-454URLDownloadDevice FilesDevice DriverWAGO USB Service Kabel Treiber / Serie 750 und 8576.5.3.0Sep 10, 2014zip 4.8 MBDownloadInstallation NotesData sheet | Item number: 750-454/750-454Subject to changes. Please also observe the further product documentation!WAGO Kontakttechnik GmbH & Co. KG Hansastr. 2732423 MindenPhone: +49571 887-0 | Fax: +49571 887-169 Email:****************|Web: Do you have any questions about our products?We are always happy to take your call at +49 (571) 887-44222.22.02.2021 Page /1111Product family750/753 Series I/O SystemShow all products from the family。

Parts Manual cFor Technical Assistance call: 800-227-2233, Fax: 888-329-8207 To Order Parts call: 888-227-2233, Fax: 888-329-023445E Push-Pull45E-PLS-207ModelSerial Number cascadeாcorporationPublicationsPART NO.DESCRIPTIONParts Manual686455Service Manual684945Operators Guide685531Operators Pocket Guide684944Installation Instructions680664Servicing Cascade Cylinders-VHS 679929Tool Catalog673964Literature Index Order FormDecalsFrame Group ITA III45EREF QTY PART NO DESCRIPTION204650Frame Group ITA IIl 11204652Frame222492Fitting, 6-631682992Tube41682991Tube512453Fitting, 6-6612680Fitting, 6-6712375Fitting, 6-682683001Washer92683142Capscrew⁄35E/45EREF QTY PART NO.DESCRIPTION REF QTY PART NO.DESCRIPTION682835Mounting Group 11682557Anchor Bracket 22672018■Bearing Segment 32768759Setscrew426517Cotter Pin526234Washer62678525Clevis Pin 71675548●Cylinder 82682814Bearing92666984Fitting, 4-6 101675550Washer 1147403■Grease Fitting 121686513Tube 131686514Tube1412680Fitting, 6 152683250Strip 162683218Spacer 1722669Fitting, 4-6 1822617Fitting, 6-6 1912453Fitting, 6-6 2012375Fitting, 6-6 212688387Jam Nut■Included in Bearing Service Kit 672022.●See Cylinder page for parts breakdown.Sideshift CylinderITA Class III55EREF QTY PART NO.DESCRIPTION675548Cylinder Assembly 11553857Nut21662452s Seal31553501Piston41636851s Wiper51638247s Back-up Ring61675550Washer (orifice .085 in.) 71675549Shell81553449Rod912785s O-Ring101615128s Back-up Ring 111553500Retainer121553856Retaining Ring1317202Snap Ring141641835s Seal553861Service Kits Included in Service Kit 553861.Quick-Change Lower Hook Group – ITA IIIREF QTY PART NO.DESCRIPTION683181Lower Hook Group ITA III12678832Pin22675957Hook3 4 779019Capscrew, M16 x 3542675958Guide35E/45EREF QTY PART NO.DESCRIPTION204644Mechanism Group 11204691Arm-Inner Secondary R. H.21204692Arm-Secondary Outer R. H.34683154s Bushing4q683161Shim (.030)5q683162Shim (.060)64205070Roller7q683163Shim (.030)8q683164Shim (.060)94683155s Bushing101682821Pin11156229Washer122685661Capscrew1315682999Eye-Pin142682822Pin-Head152205065Pin166683153s Bushing17q204532Shim (.12)182204694Arm-Outer Primary 194204533Pin-Frame204204535s Bushing214204695Pin221204604Arm-Inner Primary 231204693Arm-Secondary Outer L. H. 241204690Arm-Inner Secondary L. H. 252204696Pin-Outer262682823Pin-Rod272683165Spacer2813767961Capscrewq Quantity as required.s Included in Bushing Service Kit 205075.CylinderREF QTY PART NO.DESCRIPTION354764Cylinder Assembly 11685384Spacer21562553Seal s317348Snap Ring41562333Piston51562717Shell61558626Rod71559705Seal s812787O-Ring s91615130Back-Up Ring s 101558628Retainer111636853Wiper s124559697Bearing131559698Spacer141678019Nut151671048Seal Loader Kit ss Included in Service Kit 562339.Reference: S-3424Hydraulic Group35E/45EREF QTY PART NO.DESCRIPTION688383Hydraulic Group ITA III 11200649Tube22683173Hose312375Fitting, 6-641688384s Valve52765329Capscrew, M8x1.25x20-8.8 62685981Hose ITA II74605235Fitting 5-686604511Fitting, 6-691200647Tube102604510Plug, 6111200648Tubes See Valve page for parts breakdown.ValveLoad Push35E/45EREF QTY PART NO.DESCRIPTION688384Valve Assembly 11688385Body21687224Relief Valve32663694Fitting, 3Faceplate GroupPushREF QTY PART NO.DESCRIPTION205057Faceplate Group 40"x40" s 11204636Faceplate 40"x40" ss Width x height.P A R T S O R D E R I N G L O GP U R C H A S E S E R I A L R E F C A S C A D E C U S T O M E R D A T EO R D E R N U M B E RP A G E N O .Q T Y P A R T N O .P A R T N O .D E S C R I P T I O N P R I C EDo you have questions you need answered right now? Call your nearest Cascade Parts Department.Cascade (UK) Ltd.15, Orgreave Crescent Dore House Industrial Estate HandsworthSheffield S13 9NQEnglandTel: 742-697524FAX: 742-695121Cascade Scandinavia Hydraulik A.B.Muskötgatan 19, E8-9 S25466 Helsingborg SwedenTel: 42-151135FAX: 42-152997Cascade N.V. European Headquarters P.O. Box 30091300 El Almere Damsluisweg 561332 ED AlmereThe NetherlandsTel: 31-36-5492911 FAX: 31-36-5492964Cascade Norway Østerliveien 37A 1153 Oslo NorwayTel: 47-22-743160 FAX: 47-22-743157Cascade France S.A.R.L.11, Rue Jean CharcotZone Industrielle Sud orB.P. 2291421 Morangis CedexFranceTel: 1- 64547501FAX: 1-9790584Cascade Hispania S.A.Avenida De La Fabregada, 7Hospitalet De LlobregatBarcelonaSpainTel: 3-335-5158FAX: 3-335-4756Cascade Canada Inc.5570 Timberlea Blvd.Mississauga, OntarioCanada L4W-4M6Tel: 905-629-7777FAX: 905-629-7785Cascade GmbHD-41199 MonchengladbachKlosterhofweg 52GermanyTel: 21-66-602091FAX: 21-66-680947Cascade N.V.Benelux Sales and ServiceP.O. Box 30091300 El AlmereDamsluisweg 561332 ED AlmereThe NetherlandsTel: 31-36-5492950FAX: 31-36-5492974Cascade Finland01370 VantasFinlandTel: 358-0-836-1925FAX: 358-0-836-1935Cascade Corporation2501 Sheridan AvenueSpringfield, OH 45505Tel:888-CASCADE (227-2233)FAX: 888-329-0234Cascade Japan Ltd.5-5-41,Torikai KamiSettsu, OsakaJapan, 566Tel: 81-726-53-3490FAX: 81-726-53-3497Cascade KoreaRoom 508, Pum Yang Bldg. 750-14, Bang Bac-Dong Se-Cho Ku, SeoulKoreaTel: 2599-7131 ext. 512 FAX: 2533-8089HYCO-Cascade Pty. Ltd.1445 Ipswich RoadRocklea,Queensland 4107AustraliaTel: 3-274-2722FAX: 3-274-3456HYCO-Cascade (NZ) Ltd.15 Ra Ora Drive, East TamakiP.O. Box 38-440Howick, AucklandNew ZealandTel: 9-273-9136FAX: 9-273-9137Cascade (Africa) Pty. Ltd.P.O. Box 625, Isando 160060A Steel RoadSparton, Kempton ParkSouth AfricaTel: 975-9240FAX: 394-1147Cascade-Xiamen Wanshan No. 1 Workshop Huli RoadXiamen 361006Fujian, PRCTel: 592-562-4600 FAX: 592-562-4671Cascade (Singapore) Trading Co.Four Seasons Park Autumn Block - Apt. 1802 12 Cascaden Walk SingaporeTel: 65-834-1935FAX: 65-834-1936c。

Visit our website: /catalogsBulletin 150SMC™ Flex Smart Motor Controller18FeaturesDescription of FeaturesElectronic Motor Overload ProtectionThe SMC Flex controller incorporates, as standard, electronic motor overload protection. This overload protection is accomplished electronically with an I 2t algorithm.When coordinated with the proper short circuit protection, overload protection is intended to protect the motor, motor controller, and power wiring against overheating caused by excessive overcurrent.The SMC Flex controller meets applicable requirements as a motor overload protective device.The controller’s overload protection is programmable, providing the user with flexibility. The overload trip class consists of either OFF ,10, 15, 20 or 30 protection. The trip current is programmed by entering the motor full-load current rating, service factor, and selecting the trip class.Thermal memory is included to accurately model motor operating temperature. Ambient temperature insensitivity is inherent in the electronic design of the overload.Stall Protection and Jam DetectionMotors can experience locked-rotor currents and develop high torque levels in the event of a stall or a jam. These conditions can result in winding insulation breakdown or mechanical damage to the connected load. The SMC Flex controller provides both stall protection and jam detection for enhanced motor and systemprotection. Stall protection allows the user to program a maximum stall protection delay time from 0…10 seconds. The stall protection delay time is in addition to the programmed start time and begins only after the start time has timed out. If the controller senses that the motor is stalled, it will shut down after the delay period has expired. Jam detection allows the user to determine the motor jam detection level as a percentage of the motor’s full-load current rating. To prevent nuisance tripping, a jam detection delay time,from 0.0…99.0 seconds, can be programmed. This allows the user to select the time delay required before the SMC Flex controller will trip on a motor jam condition. The motor current must remain above the jam detection level during the delay time. Jam detection is active only after the motor has reached full speed.Underload ProtectionUtilizing the underload protection of the SMC Flex controller, motor operation can be halted if a drop in current is sensed.The SMC Flex controller provides an adjustable underload trip setting from 0…99% of the programmed motor full-load current rating with an adjustable trip delay time of 0…99 seconds.Undervoltage ProtectionThe SMC Flex controller’s undervoltage protection will halt motor operation if a drop in the incoming line voltage is detected.The undervoltage trip level is adjustable as a percentage of theprogrammed line voltage, from 0…99%. To eliminate nuisance trips,a programmable undervoltage trip delay time of 0…99 seconds can also be programmed. The line voltage must remain below the undervoltage trip level during the programmed delay time.Overvoltage ProtectionIf a rise in the incoming line voltage is detected, the SMC Flex controller’s overvoltage protection will halt motor operation.The overvoltage trip level is adjustable as a percentage of the programmed line voltage, from 0…199%. To eliminate nuisance trips, a programmable overvoltage trip delay time of 0…99 seconds can also be programmed. The line voltage must remain above the overvoltage trip level during the programmed delay time.Voltage Unbalance ProtectionVoltage unbalance is detected by monitoring the 3-phase supply voltage magnitudes in conjunction with the rotational relationship of the three phases. The controller will halt motor operation when the calculated voltage unbalance reaches the user-programmed trip level.The voltage unbalance trip level is programmable from 0…25%unbalance.Excessive Starts Per HourThe SMC Flex controller allows the user to program the allowed number of starts per hour (up to 99). This helps eliminate motor stress caused by repeated starting during a short time period.MeteringPower monitoring parameters include:Note:The motor thermal capacity usage allows the user to monitorthe amount of overload thermal capacity usage before the SMC Flex controller’s built-in electronic overload trips.Built-in DPI Communication CapabilitiesA serial interface port is provided as standard, which allowsconnection to a Bulletin 20 Human Interface Module and a variety of Bulletin 20-COMM Communication Modules. This includes Allen-Bradley Remote I/O, DeviceNet, ControlNet, Ethernet, ProfiBUS,Interbus, and RS485-DF1.LCD DisplayThe SMC Flex controller’s three-line 16-character backlit LCD display provides parameter identification using clear, informative text. Controller set up can be performed quickly and easily without the use of a reference manual. Parameters are arranged in an organized four-level menu structure for ease of programming and fast access to parameters.Keypad ProgrammingProgramming of parameters is accomplished through a five-button keypad on the front of the SMC Flex controller. The five buttons include up and down arrows, an Enter button, a Select button, and an Escape button. The user needs only to enter the correctsequence of keystrokes for programming the SMC Flex controller.Auxiliary ContactsFour fully programmable hard contacts are furnished as standard with the SMC Flex controller:Aux #1, Aux #2, Aux #3, Aux #4Ground Fault InputThe SMC Flex can monitor for ground fault conditions. An external core balance current transformer is required for this function. See SMC Flex User Manual for additional information.Tach InputA motor tachometer is required for the Linear Speed Start mode.Please see the Specifications section page 36 for tachometer characteristics.PTC InputA motor PTC input can be monitored by the SMC Flex. In the event of a fault, the SMC Flex will shut down and indicate a motor PTC fault.y N.O./N.C.y Normal/Up-to-Speed/External Bypass/Fault/Alarm/Network Network I/OThe SMC Flex can have up to two (2) inputs and four (4) outputs controlled via a communication network. The output contacts use the auxiliary contacts.y 3-phase current y Power Factory 3-phase voltage y Motor thermal capacity usage y Power in kW or mWy Elapsed time y Power usage in kWH or mWHy。

美国West Bond公司⼿动压焊键合机、球焊键合机：
主要特点：
• 90度深腔、最⼤19毫⽶
• X、Y、Z⼿动操纵杆
• 超声功率4W
• 12x12英⼨⾼度可调⼯作平台
• 双⼒键合压⼒设定
• 软着陆键合
• 747677E 45度/90度深腔键/球键合/⾦带／凸点制作五⽤机
• 7603D 100微⽶粗丝键合机
• 整机ESD防静电
半⾃动压焊键合机、球焊键合机：
主要特点：
• 超声功率5W
• 深腔⼤于13毫⽶
• RF器件⾸选
• 双⼒键合压⼒设定
• 软着陆键合
• 454647E 45度/90度深腔键合/球键合/⾦带／凸点制作五⽤机
• 整机ESD防静电
动⼿共晶/环氧贴⽚机：
主要特点：
• 对准精度：优于5个微⽶
• 贴⽚尺⼨： 0.2mm－1英⼨
• 360度旋转
• X、Y、Z操纵杆
• 同机完成取/ 放⽚/ 摩擦／焊接
• 整机ESD 保护
• ⾼度可调⼯作台，台⾯尺⼨： 12x12英⼨
• ⾼度、XY轴斜度可调⼯作台（可选）
• 专⽤于⼆次集成
• 7374E梁式引线贴⽚机。