PM-4060技术手册

PM-5060UVE微型精密电脑晒版机操作说明书Tabletop Micro-computer UV Exposure machineOperation instruction东莞市高宝印刷机械科技有限公司Dongguan KC Printing Machine Limited设备规格：Technology parameter:Model PM-4050UVE型PM-5060UVE型Glass size400×500mm×5mm500×600mm×5mmMax frame size380×280mm480×380mmMax exposure area380×280mm480×380mmStandard Lamp6×15W气冷型紫外线灯6×15W气冷型紫外线灯Vacuum Pump220V/0.8HP无油泵220V/0.8HP无油泵Power supply220V/5A/50HZ220V/5A/50HZOuter dimension400×500×210mm500×600×210mm Wooden case dimensionNet weight20KG20KG设备运输和安装要求：Transport and installing1、运输途中不能翻滚，上落轻放。

Please do not turn over this machine when carrying.2、如带木箱包装应小心拆卸，慎防机内玻璃和灯管易碎件的损坏。

Please open the wooden case carefully to avoid breaking Glass and UV lamp3、机器安置固定后，提起压盖，将水平仪放置在玻璃板的中央，（水平仪放置时，应小心轻放，避免磨擦，以免刮伤曝光玻璃）。

COM-4060使用说明书一、COM-4060概述COM-4060数字量输入/继电器输出模块，提供四个数字量输入通道，四个继电器输出通道，包括两个A型，两个C型。

COM-4060技术说明：通道：4路隔离数字量输入4路继电器输出，2路A型和2路C型有效分辨率：16位4路单端数字输入：高电平：5V～30V低电平：0～1V（50/60Hz）击穿电压：500VAC继电器接通时间（典型）：3毫秒继电器断开时间（典型）：1毫秒总切换时间：10毫秒绝缘电阻：最小1000MΩ（500V）DC电源：＋10～＋28VDC功耗：0.8W@24 VDC工作温度：-25℃~70℃I/O连接器类型：十针连接器外形尺寸：(长)120mm X（宽）75mm X (高)35mm内置看门狗定时器二、COM-4060硬件连线图一 COM-4060模块简单控制接线图图二 模块供电连接@ PC机和COM4520模块的连接使用直通串口线@ 建议所有模块的+VS连接直流24V正(最好使用红色线),GND连接直流24V负(最好使用黑色线)@ COM4060模块的DATA+连接COM4520的DATA+(建议使用黄色线),DATA-连接COM4520的DATA-(建议使用绿色线)图三 COM4060单刀单掷各符号含义:NO :Normal Open ,平时开路状态,送1后吸合 COM:公共端图四 COM4060单刀双掷各符号含义:NC:Normal Close 平时处于吸合状态,上位送1后,NC断开图五 COM4060接直流设备接法其中设备的供电电压由用户外接直流电源决定.COM4060接交流设备的接线与直流设备的相同,将上图的设备换成交流设备,电源换成交流供电即可.图六 COM4060 DI输入接法图七 COM-4060 A型继电器的输出图八 COM-4060C型继电器的输出三、 RTECH工具软件的使用.1.RTECH工具软件的安装双击RTECH工具软件安装包，然后按照提示一步步往下，完成工具软件的安装。

ACD-6 PROACD-6 TRMS-PROProfessional 1000AClamp MetersUsers ManualEn g l i s h ACD-6 PRO ACD-6 TRMS-PROProfessional 1000AClamp MetersUsers ManualACD6PRO_Rev002© 2013 Amprobe Test Tools.All rights reserved.Limited Warranty and Limitation of LiabilityYour Amprobe product will be free from defects in material and workmanship for 1 year from the date of purchase. This warranty does not cover fuses, disposable batteries or damage from accident, neglect, misuse, alteration, contamination, or abnormal conditions of operation or handling. Amprobe’s warranty obligation is limited, at Amprobe’s option, to refund of the purchase price, free of charge repair, or replacement of a defective product . Resellers are not authorized to extend any other warranty on Amprobe’s behalf. To obtain service during the warranty period, return the product with proof of purchase to an authorized Amprobe Test Tools Service Center or to an Amprobe dealer or distributor. See Repair Section for details. This warranty is your only remedy . All other warranties - whether express, implied or statutory - including implied warranties of fitness for a particular purpose or merchantability, are hereby excluded. Neither Amprobe nor its parent company or affiliates shall be liable for any special, indirect, incidental or consequential damages or losses, arising from any cause or theory. Since some states or countries do not allow the exclusion or limitation of an implied warranty or of incidental or consequential damages, this limitation of liability may not apply to you.RepairAll test tools returned for warranty or non-warranty repair or for calibration should be accompanied by the following: your name, company’s name, address, telephone number, and proof of purchase. Additionally, please include a brief description of the problem or the service requested and include the test leads with the meter. Non-warranty repair or replacement charges should be remitted in the form of a check, a money order, credit card with expiration date, or a purchase order made payable to Amprobe® Test Tools.In-Warranty Repairs and Replacement – All CountriesPlease read the warranty statement and check your battery before requesting repair. During the warranty period any defective test tool can be returned to your Amprobe® Test Tools distributor for an exchange for the same or like product. Please check the “Where to Buy” section on for a list of distributors near you. Additionally, in the United States and Canada In-Warranty repair and replacement units can also be sent to a Amprobe® Test Tools Service Center (see below for address).Non-Warranty Repairs and Replacement – US and CanadaNon-warranty repairs in the United States and Canada should be sent to a Amprobe® Test Tools Service Center. Call Amprobe® Test Tools or inquire at your point of purchase for current repair and replacement rates.In USA In CanadaAmprobe Test Tools Amprobe Test ToolsEverett, WA 98203 Mississauga, ON L4Z 1X9Tel: 877-993-5853 Tel: 905-890-7600Fax: 425-446-6390 Fax: 905-890-6866Non-Warranty Repairs and Replacement – EuropeEuropean non-warranty units can be replaced by your Amprobe® Test Tools distributor for a nominal charge. Please check the “Where to Buy” section on for a list of distributors near you.European Correspondence Address*Amprobe® Test Tools EuropeBeha-Amprobe GmbHIn den Engematten 1479286 Glottertal, GermanyTel.: +49 (0) 7684 8009 – 0*(Correspondence only – no repair or replacement available from this address. European customers please contact your distributor.)➊ Transformer Clamp Jaw for AC current magnetic field pick up ➋ Hand/Finger Barrier to indicate the limits of safe access of themeter during measurement ➌ Push-buttons for specialfunctions & features➍ Input Jack for all functions except ACA current➎ Common (Ground reference) Input Jack for all functionsexcept ACA➏ Function Selector and power ON/OFF switch➐ 3-3/4 digits 4000 counts LCD display➑ Transformer clamp jaw trigger ➒ Jaw center Indicators, at where best ACA accuracy is specified ➓ Jaw marking lines for ACAposition error indicationACD-6 PRO / ACD-6 TRMS-PROProfessional 1000A Clamp Meters CONTENTSSymbols (5)Safety Information (5)Unpacking and Contents (6)Introduction (6)Operation (6)Manual or Auto-ranging (6)Auto Power Off (APO) (7)HOLD � Function (7)∆ Relative mode (7)Measuring DC Voltage (see Fig. 1) (7)Measuring AC Voltage (See Fig. 1) (7)AC Current Measurement (See Fig. 3) (7)Measuring Resistance (See Fig. 2) (7)Testing for Continuity (See Fig. 2) (8)Testing Diodes (See Fig. 2) (8)Maintenance and Repair (8)Battery Replacement (see Fig. 4) (8)Specifications (9)SyMbOLS�Battery�Refer to the manual�Double insulated�Dangerous Voltage�Direct Current�Earth Ground�Alternating Current�Audible tone�Conforms to relevantAustralian standards.�Complies with EU directives�Do not dispose of this product as unsorted municipal waste. Underwriters Laboratories.[Note: Canadian and US.]�Application around and removal from hazardous live conductors ispermittedSAfETy INfORMATION• The ACD-6 PRO and ACD-6 TRMS-PRO Digital Clamp meters conform to IEC/EN/UL 61010-1 Ed. 3.0; CAN/CSA C22.2 No.61010-1-12 Ed. 3.0 to Measurement Category III 600 V, class II, pollution degree 2; IEC/EN 61010-2-032 Ed. 3.0; IEC/EN 61010-2-033 Ed. 1.0 and IEC/EN 61010-031 Ed. 1.1 (test leads).• The instrument conforms to CENELEC Low-voltage directive 2006/95/EC and Electromagnetic compatibility directive 2004/108/EC.• This instrument is EN61010-1 certified for Installation Category III (600V). It is recommended for use in distribution level and fixed installations, as well as lesserinstallations, and not for primary supply lines, overhead lines and cable systems.• Do not exceed the maximum overload limits per function (see specifications) nor the limits marked on the instrument itself. Never apply more than 600 Vdc/600 V ac rms between the test lead and earth ground.� Warnings and Precautions• Before and after hazardous voltage measurements, test the voltage function on a known source such as line voltage to determine proper meter functioning.• Disconnect the test leads from the test points before changing meter functions.• Disconnected from the meter’s test leads before measuring current.• Inspect the Clampmeter, test leads and accessories before every use. Do not use any damaged part.• Never ground yourself when taking measurements. Do not touch exposed circuit elements or test probe tips.• Do not operate the instrument in an explosive atmosphere.• To reduce the risk of fire or electric shock, do not expose this product to rain or moisture.• The meter is intended only for indoor use. To avoid electrical shock hazard, observe the proper safety precautions when working with voltages above 60 VDC, 42.4 Vpk, or 30 VAC rms. These voltage levels pose a potential shock hazard to the user.• Before and after hazardous voltage measurements, test the voltage function on a known source such as line voltage to determine proper meter functioning.• Keep your hands/fingers behind the hand/finger barriers (of the meter and the test leads) that indicate the limits of safe access of the hand-held part during measurement.• Inspect test leads, connectors, and probes for damaged insulation or exposed metal before using the instrument. If any defects are found, replace them immediately.• This Clamp-on meter is designed to apply around or remove from un-insulated hazardous live conductors. Individual protective equipment must be used if hazardous live parts of the installation could be accessible.• Exercise extreme caution when: measuring voltage >20 V // current >10 mA // AC power line with inductive loads // AC power line during electrical storms // current, when the fuse blows in a circuit with open circuit voltage >1000 V // servicing CRT equipment.• Remove test leads before opening the case to change the battery.• Disconnect circuit power and discharge all high-voltage capacitors before testing resistance, continuity, diodes, or capacitance.• To avoid false readings, which could lead to possible electric shock or personal injury, replace the batteries as soon as the low battery indicator (�) appears.• To avoid electric shock hazard, do not use the HOLD � mode to determine if a circuit is live. Unstable readings will not be captured and displayed.• Only use the accompanied test leads, or replace the same rating or better UL Listed Probe Assembly.� CAUTIONfor non-invasive ACA current measurements, clamp the jaws around only one single conductor of a circuit for load current measurement. More than 1 conductor will cause false readings.UNPACkINg AND CONTENTSYour shipping carton should include1 ACD-6 PRO or ACD-6 TRMS-PRO1 Test lead set1 3V coin battery IEC-CR2032 (installed)1 Users Manual1 Carrying CaseIf any of the items are damaged or missing, immediately return the complete package to the place of purchase for an exchange.INTRODUCTIONThe ACD-6 PRO or ACD-6 TRMS-PRO Clamp-On meters are autoranging 1000 ACA / 600 V clamp meter. The features include AC / DC voltage, AC current, Resistance, Continuity, Diode and Continuity tests.OPERATIONManual or Auto-rangingPress the RANGE button for more than 1 second to enable/disable auto-ranging. Press the button momentarily again to step through the Ranges. The LCD symbol is turned off.Auto Power Off (APO)The Auto Power Off (APO) feature will set the meter to sleep mode after approximately 30 minutes of no activity to extend battery life. Wake up the meter from APO, by set the slide-switch to the OFF and back to the desired function.HOLD � functionThe HOLD button enables/disables the reading HOLD function. After the reading has stabilized, momentarily press the HOLD button. You can remove the test leads and the reading will remain on the display.∆ Relative modeThe ∆ button enables/disables relative mode. Relative mode offsets the subsequent meter measurements with the displayed reading as a reference value. The display will now show readings relative to the stored reference value. That is, display = measured reading - stored value.Measuring DC Voltage (see fig. 1)1. Set the Function Switch to V�.2. Connect the test leads: Red to +, Black to COM.3. Connect the test probes to the circuit test points.4. Read the display, and, if necessary, correct any overload (0L) conditions.Measuring AC Voltage (See fig. 1)1. Set the Function Switch to V�.2. Connect the test leads: Red to +, Black to COM.3. Connect the test probes to the circuit test points.4. Read the display, and, if necessary, correct any overload (0L) conditions.AC Current Measurement (See fig. 3)1. Set the Function Switch to A� position.2. Open spring-loaded clamp by pressing the lever on left side of meter.3. Position clamp around one wire or conductor and release the clamp lever.4. Read the displayed value.� CAUTIONUsing Resistance, Continuity or Diode function in a live circuit will produce false results and may damage the instrument. In most cases the suspected component must be disconnected from the circuit to obtain an accurate measurement reading.Measuring Resistance (See fig. 2)1. Set the Function Switch to Ω.2. Connect the test leads: Red to +, Black to COM.3. Turn off power to the circuit being measured. Never measure resistance across a voltagesource or on a powered circuit.4. Discharge any capacitors that may influence the reading.5. Connect the test probes across the resistance.6. Read the display. If 0L appears on the highest Range, the resistance is too large to bemeasured or the circuit is an open circuit.Testing for Continuity (See fig. 2)1. Set the Function Switch to Ω and press the SELECT button until � is displayed.2. Connect the test leads: Red to +, Black to COM.3. Turn off power to the circuit being measured.4. Discharge any capacitors that may influence the reading.5. Connect the test probes across the resistance or the two points of test.6. Listen for the tone that indicates continuity (>10 Ω and < 120 Ω).Testing Diodes (See fig. 2)1. Set the Function Switch to Ω and press the SELECT button until is displayed.2. Connect the test leads: Red to +, Black to COM.3. Turn off power to the circuit being measured.4. Free at least one end of the diode from the circuit.5. Connect the test probes across the diode.6. Read the display. A good diode has a forward voltage drop of about 0.6 V. An open orreverse biased diode will read .0L.MAINTENANCE AND REPAIRIf there appears to be a malfunction during the operation of the meter, the following steps should be performed in order to isolate the cause of the problem:1. Check the battery.2. Review the operating instructions for possible mistakes in operating procedure.3. Inspect and test the test leads for a broken or intermittent connection.Except for the replacement of the battery or test probes, repair of the multimeter shouldbe performed only by a Factory Authorized Service Center or by other qualified instrument service personnel. The front panel and case can be cleaned with a mild solution of detergent and water. Apply sparingly with a soft cloth and allow to dry completely before using. Do not use aromatic hydrocarbons or chlorinated solvents for cleaning.battery Replacement (see fig. 4)� WarningTo prevent electrical shock or meter damage, disconnect the meter’s test leads from any circuit and the meter, then turn the meter off before removing the battery cover. battery replacement should be performed in a clean environment and with appropriate care taken to avoid contaminating the meter’s interior components.1. Remove the screws and lift the battery cover.2. Replace the battery with the same type, 3V coin battery (ANSI/NEDA-5004LC, IEC-CR2032).Note polarity of the battery.3. Replace the rear case and screws.SPECIfICATIONSDisplay: 3-3/4 digits 4000 counts LCD displayUpdate Rate: 3 per second nominalPolarity: AutomaticPower Supply: One 3V coin battery (ANSI/NEDA-5004LC, IEC-CR2032)Power Consumption: ACD-6 PRO: 2.2 mA typical; ACD-6 TRMS-PRO: 2.8mA typicalLow Battery: Below approx. 2.4VAPO Timing: Idle for 30 minutesAPO Consumption: 40μA typical on all model functions except that 190μA typical on ACD-6 TRMS-PRO voltage & current functionsEnvironmental: Indoor operation; below 6,562ft (2000m)Operating Temperature : 0°C to 40°C (32°F to 104°F) ; < 80% RH @ < 31°C; decreasing linearly to 50% RH @ 40°CStorage Temperature: -40ºF to 140ºF (-20ºC to 60ºC), < 80% R.H. (with battery removed) Temperature Coefficient: nominal 0.15 x (specified accuracy)/ºC @ 0ºC to 18ºC or 28ºC to 40ºC (32°F to 64°F or 82°F to 104°F)Sensing: ACD-6 PRO – Average; ACD-6 TRMS-PRO – True RMSDimension: 224 x 78 x 26mm (8.8 x 3.1 x 1.1 in.)Weight: 188 gm (6.7 oz)Jaw opening & Conductor diameter: 45mm (1.77 in) maxSafety LVD: Meets IEC/EN/UL 61010-1 Ed. 3.0; CAN/CSA C22.2 No.61010-1-12 Ed. 3.0 to Measurement Category III 600 V, class II, pollution degree 2; IEC/EN 61010-2-032 Ed. 3.0; IEC/ EN 61010-2-033 Ed. 1.0 and IEC/EN 61010-031 Ed. 1.1 (test leads).�EMC: Meets all applicable requirements in IEC/EN 61326-1. The instrument conforms to CENELEC Low-voltage directive 2006/95/EC and Electromagnetic compatibility directive 2004/108/EC. However, electrical noise or intense electromagnetic fields in the vicinity of the equipment may disturb the measurement circuit. Measuring instruments will also respondto unwanted signals that may be present within the measurement circuit. Users should exercise care and take appropriate precautions to avoid misleading results when making measurements in the presence of electronic interference.Electrical (23 °C ± 5 °C) < 75% RHDC VoltageRange Accuracy400.0 mV ± (1.0% rdg + 3d)4.000V, 40.00V, 400.0V ± (1.7% rdg + 3d)600V ± (2.0% rdg + 4d)NMRR: >50dB @ 50/60HzCMRR: >120dB @ DC, 50/60Hz, Rs=1kΩInput Impedance: 10MΩ, 30pF nominal (1000MΩ for 400.0mV Range)Overload protection: 600 Volts ac & dc.Transient protection : 6kV (1.2/50μs surge)AC VoltageRange frequency Accuracy400.0mV 1)50Hz – 500Hz± (4.0% rdg + 5d)4.000V, 40.00V, 400.0V 50Hz – 60Hz± (2.0% rdg + 5d)4.000V, 40.00V, 400.0V 60Hz – 500Hz± (2.5% rdg + 5d)600V 50Hz – 500Hz± (3.0% rdg + 5d)CMRR: >60dB @ DC to 60Hz, Rs=1kΩInput Impedance: 10MΩ, 30pF nominalTRMS Response: 5% to 100% of RangeCrest Factor (ACD-6 TRMS-PRO): < 2.5 : 1 at full scale; < 5.0 : 1 at half scaleOverload protection: 600 Volts ac & dc.Transient protection: 6.0kV (1.2/50μs surge)1) Selection by RANGE button manually, and is specified from AC 40mV (AC 60mV for True RMS model ACD-6 TRMS-PRO) and upACA Current (Clamp-on)Range frequency Accuracy 1) 2) 3)400.0A 50Hz – 60Hz± (1.5% rdg + 5d)1000A 50Hz – 60Hz± (1.5% rdg + 5d*)TRMS Response: 5% to 100% of RangeCrest Factor (ACD-6 TRMS-PRO): < 2.6 : 1 at full scale; < 5.2 : 1 at half scaleACA Clamp-on jaws : AC 1000A rms continuous1) Add 8d to specified accuracy if reading is below 15% of Range2) Induced error from adjacent current-carrying conductor: < 0.06A/A3) Specified accuracy is for measurements made at the jaw center. When the conductor is not positioned at the jaw center, position errors introduced are:Add 1% to specified accuracy for measurements made WITHIN jaw marking lines (away from jaw opening)Add 4% to specified accuracy for measurements made BEYOND jaw marking lines (toward jaws opening)ResistanceRange Accuracy400.0Ω ± (1.5% rdg + 6d) 4.000, 40.00, 400.0kΩ ± (1.0% rdg + 4d) 4.000MΩ: ± (1.5% rdg + 4d) 40.00MΩ: ± (2.5% rdg + 4d) Open Circuit Voltage: 0.4VDC typicalOverload protection: 600 Volts ac & dc.Audible Continuity TesterOpen Circuit Voltage: 0.4VDC typicalRange: 400.0Ω;Accuracy: ± (1.5% rdg + 6d)Audible threshold: between 10Ω and 120Ω. Overload protection: 600 Volts ac & dc.Diode TesterOpen Circuit Voltage: < 1.6 VDCTest Current (Typical): 0.4mAOverload protection: 600 Volts ac & dc.Fig. 1: DC voltage and AC voltage functionsFig. 2: Resistance, Continuity, DiodeFig. 3: ACA CurrentFig. 4: Battery replacementPlease Recycle。

The PMX40 provides design engineers and technicians the utility of traditional benchtop instrument, the flexibility and performance of modern USB RF power sensors, and the simplicity of a multi-touch display built with Boonton award-winning technology.As a benchtop meter, the PMX40 provides a standalone solution for capturing, displaying, and analyzing peak and average RF power in both the time and statistical domains through an intuitive, multi-touch touchscreen display.The PMX40 Power Meter utilizes up to four RTP and CPS families of USB RF power sensors with industry- leading performance and capabilities either independently or for synchronized multi-channel measurements of CW, modulated, and pulsed signals.Providing the ultimate flexibility, the PMX40 sensors can be disconnected and independently used as standalone instruments.Key Features• Capture/display/analyze peak and average power• Frequency range from 4 kHz to 40 GHz• Industry-leading video bandwidth (195 MHz) and rise time (3 ns)• Industry-leading 100,000 measurements per second• Industry-leading 100 ps time resolution• Synchronous multi-channel measurements (up to 4 channels)• Sensors can be used as standalone instruments PMX40 RF Power MeterPulsed ModeAnalysis of fast-rising single pulses or pulses with short pulserepetition intervals (PRIs) requires an instrument with sophisticated trigger and data acquisition capability. Within Pulsed Mode, more than 16 pulse parameters can be measured.Continuous ModeFor simple, intuitive measurements of repetitive waveforms, the PMX40 Continuous Mode of operation provides a numeric display of average, maximum and minimum signal powers.Statistical ModeIn Statistical Mode, the PMX40 plots the Complementary Cumulative Distribution Function (CCDF). The CCDF plot shows the rate of occurrence of a specific crest factor for signals, such as those used in 5G, 4G/LTE, and Wi-Fi applications.PMX40 RF Power Meter – Front PanelConnect up to 4 USB sensors for multi-channel measurements.Multi-touch display with intuitive user interface.One touch to quickly access presets and favorite functions.Sync ports to source or receive triggers for timing and synchronization.Test source to verify sensor operation.The PMX40’s intuitive, multi-touch display enables fast configuration of up to four sensors as well as easy access to measurement and analysis tools, providing a standalone solution for capturing, displaying, and analyzing peak and average RF power in both the time and statistical domains. The meter also incorporates a test source to verify sensor operation.High-Performance and Versatile USB Power Sensors• Real-Time Power Processing™ technology with virtually zero measurement latency • 100,000 measurements per second • 80 dB dynamic range• Synchronized multi-channel measurementsAll RTP Real-Time Power SensorsThe Boonton PMX40 Power Meter utilizes Boonton RTP and CPS families of USB RF power sensors with indus-try leading performance and capabilities. All RTP sensors incorporate the unique Boonton Real-Time Power Processing™ technology, which virtually eliminates gaps in measurement suffered by other power sensors and enables industry best measurement speeds. In terms of RF performance, the RTP5000 series Real-Time Peak Power Sensors are the fastest responding sensors with 3 ns rise times and 195 MHz of video bandwidth. The RTP4000 series Real-Time True Average Power Sensors enable the lowest frequency measurements for diode-based average power measuring sensors and can make accurate measurements virtually independent of signal modulation bandwidth. CPS sensors offer flexible connectivity and performance leadership at anexcellent price point.Real-Time Power Processing™Boonton Real-Time Power Processing 1 dramatically reduces the total cycle time for acquiring and processing power measurement samples. By combining a dedicated acquisition engine, hardware trigger, integrated sample buffer, and a real-time optimized parallel processing architecture, Real-Time Power Processing™ performs most of the sweep processing steps simultaneously, beginning immediately after the trigger instead of waiting for the end of the acquisition cycle.The advantages of the Real-Time Power Processing technique are that key processing steps take place in parallel and keep pace with the signal acquisition. With no added computational overhead to prolong the sweep cycle, the sample buffer cannot overflow. As a result, there is no need to halt acquisition for trace processing. This means gap-free signal acquisition virtually guarantees that intermittent signal phenomena such as transients or dropouts will be reliably captured and analyzed.1RTPP is available within the RTP500 and RTP4000 sensors.Software FeaturesMeasurement Buffer ModeThe RTP series Measurement Buffer Mode is a remote control function that works in conjunction with Real-Time Power Processing to provide only therelevant burst or pulse information, eliminating the need to download and post-process large sample buffers. As a result, users can collect and analyze measurements from a virtually unlimited number of consecutive pulses or events without gaps. A wide variety of parameters can be calculated and plotted, such as duty cycle, pulse repetition rate, pulse width variation, and pulse jitter. In addition, anomalies,such as dropouts, can be identified.Dropouts, such as those shown left, are the sorts of events often missed by conventional power meters due to the acquisition gaps while processing takes place.Example seven pulse waveform.Measurement buffer data returned for waveform in above.Wi-Fi and Wireless Communication Signal AnalysisCharacterization and compliance testing of Wi-Fi and LTE chipsets and devices involves significant challenges for design and test engineers. With multiple-input, multiple-output (MIMO) architectures and channel bandwidths up to 160 MHz, testing is complex, especially when measuring RF power per channel and time alignment between channels. The PMX40 enables packet power measurements to be performed independently on multiple synchronous or asynchronous transmit chains with a common timebase shared among sensors.Use markers to define a portion of the waveform on which to make measurements. “Between Marker” measurements are ideal for monitoring specific portions of a packet over long intervals.Video bandwidth (VBW) describes the ability of a power sensor to track peak (envelope) power. Insufficient VBW will result in errant envelope and average power measurements. The PMX40 offers the widest video bandwidth (195 MHz) making it ideal for measuring 80 MHz, 100 MHz, and 160MHz channels.By comparing the peak-to-average power ratio, or crest factor (CF), of input and output signals of an RF transmission chain, engineers can assess circuit linearity. Additional insight can be provided with the PMX40 statistical mode Complementary Cumulative Distribution Function (CCDF) plot displaying the rate of occurrence of a specific CF. As an amplifier output compresses, the CF will reduce and the CCDF plot will move left.Indication of amplifier output compressionCrest FactorSecondary Surveillance Radar (SSR)Design, verification, troubleshooting and maintenance of secondary surveillanceradar (e.g. IFF-based radar) has never been more demanding.Proper design and operation of SSR systems is critical to the safety and security of aviation. The PMX40 can b e u sed t o easily a nd accurately capture SSR waveforms. Markers enable measurements on specific portions of the waveform.Industry-leading rise time (<3 ns) enables characterization of the most demanding radar signals.Utilize the superior 100 ps time resolution to zoom and uncover signal characteristics that might otherwise be missed.Key Features and Functionality• Data displayed as numerical meter or waveform trace • Statistical analysis with CCDF plot• Multiple marker measurements, including between marker data and marker ratios • Automated measurements; e.g., 16 automated pulse measurements • Export measurement data in .csv or .pdf formats • Up to 8 simultaneous power measurement channels• Simulation mode available to preview functionality when a sensor is not availableKey Features and Functionality• Large numeric readout and/or analog meter display • Zoom and pan through data logging strip chart• Quickly set frequency, aperture (averaging) and offset values all from the main screen• Calculates ratios between sensor measurements • Control up to 8 sensors at once• Simulation mode available to preview functionality when a sensor is not availableSensor SoftwarePower Viewer – Simple and Intuitive Measurement Software(for standalone operation of the CPS2000 Series of sensors)Power Viewer is a complimentary PC-based software package for CPS2008 sensor control, measurement configuration, and analysis. It includes USB drivers, remote control API, firmware updater and virtual instrument application.(for standalone operation of the RTP4000 and RTP5000 series of sensors)Power Analyzer is a complimentary PC-Based software package for RTP5000 and RTP4000 sensor control, measurement configuration, and advanced analysis. It includes USB drivers, remote control API, firmwareupdater and virtual instrument application.Power Analyzer - Advanced Measurement and Analysis SoftwareSensor SpecificationsRTP5006RTP5318 RF Frequency Range50 MHz to 6 GHz50 MHz to 18 GHz Dynamic RangeSpecificationsChannels Up to 4 Sensors RTP5000 SeriesRTP4000 SeriesCPS2000 Series Display5-inch WVGA multi-touch display with intuitive graphical user interfaceDisplay Modes Trace (power vs time)Statistical measurements Meter (numeric display)CCDFAutomatic measurements (pulse, statistical, and markers measurements)Marker Measurements (in Trace View)Markers (vertical cursors)Marker IndependentlyInterval Between MarkersPair of MarkersSettable in time relative to the trigger positionAvg, Min and Max Power at a specified time offsetAvg, Min and Max Power over the defined intervalRatio of power values at each markerPulse Mode – Automatic Measurements Pulse rise-timePulse widthPulse periodPulse duty cyclePulse peakPulse overshootTop level powerEdge delayPulse fall-timePulse off-timePulse repetition frequencyWaveform averagePulse averagePulse droopBottom level powerPulse edge skew between channelsStatistical Mode –Automatic Measurements Peak powerMinimum powerDynamic rangeCrest factor at cursorAverage powerPeak to average ratioPercent at cursorCrest factor at various percentsTrigger Synchronization*ModeSourceInternal Level RangeExternal Level RangeSlopeHold-off, Min Pulse Width, Max Trigger RateAmong RTP Series(internal trig distribution)Normal, Auto, Auto Pk-to-Pk, Free Run Any connected RTP Series sensor (via SMB’s) or rearpanel external trigger -40 dBm to +20 dBm (sensor dependent)±5 volts or TTL+ or -Sensor and timebase dependentTime Base Time Base Resolution, Range, AccuracyTime Base DisplayTrigger Delay RangeTrigger Delay ResolutionSensor dependent Sweeping or Roll Mode Sensor dependent0.02 divisionsSpecifications, ContinuedInputs/Outputs (front panel)USB with SMB trigger port Test Source50 MHz(optional rear panel placement)Inputs/Outputs (rear panel)LANUSB with SMB trigger portWireless Telecom Group Inc. 25 Eastmans Rd Parsippany, NJ United StatesTel: +1 973 386 9696 Fax: +1 973 386 9191 © Copyright 2020 All rights reserved.B/PMX40/0520/ENNote: Specifications, terms and conditions are subject to change without prior notice.PMX40RF Power Meter (includes 2 active channels)OptionsPMX40-4CH PMX40-GPIB PMX40-RTSAdds 2 Active Channels (for a total of 4)GPIB Control (internally installed)Moves Test Source output to the rear panelIncluded AccessoriesInformation Card (provides information on where to download the latest manual, software, utilities)Optional AccessoriesPMX40-RMK PMX40-TCASEFull-width 19” Rack Mount Kit (includes handles & hardware for mounting one or two meters)Transit case, hold the PMX40 and up to 4 sensorsRF Power SensorsCPS2008RTP4006RTP4106RTP4018*RTP4040*RTP5006RTP5318RTP5518RTP5340RTP5540True Average Connected Power Sensor Real-Time True Average Power Sensor Real-Time True Average Power Sensor Real-Time True Average Power Sensor Real-Time True Average Power Sensor Real-Time Peak Power Sensor Real-Time Peak Power Sensor Real-Time Peak Power Sensor Real-Time Peak Power Sensor Real-Time Peak Power Sensor50 MHz to 8 GHz 10 MHz to 6 GHz 4 kHz to 6 GHz 10 MHz to 18 GHz 10 MHz to 40 GHz 50 MHz to 6 GHz 50 MHz to 18 GHz 50 MHz to 18 GHz 50 MHz to 40 GHz 50 MHz to 40 GHzIncluded AccessoriesInformation Card (provides information on where to download the latest manual, software, utilities)0.9 m BNC (m) to SMB (m) cable (RTP sensors)0.9 m SMB (m) to SMB (m) cable (RTP sensors)1.8 m USB A (m) to USB B (m) locking SeaLATCH cable (RTP sensors)1.6 m USB A (m) to USB B (m) cable (CPS sensors)Ordering Information*RTP4018 and RTP4040 are currently in development. Specifications and performance subject to change。

HEF4060BD中文资料DATA SHEETProduct speci?cationFile under Integrated Circuits, IC04January 1995INTEGRATED CIRCUITSHEF4060B MSI14-stage ripple-carry binary counter/divider and oscillator For a complete data sheet, please also download:The IC04 LOCMOS HE4000B Logic Family Specifications HEF, HEC ?The IC04 LOCMOS HE4000B LogicPackage Outlines/Information HEF, HECPhilips Semiconductors Product speci?cation14-stage ripple-carry binary counter/divider and oscillator HEF4060BMSIDESCRIPTIONThe HEF4060B is a 14-stage ripple-carry binarycounter/divider and oscillator with three oscillator terminals (RS, R TC and C TC ), ten buffered outputs (O 3to O 9and O 11to O 13)and an overriding asynchronous master reset input (MR). The oscillator configuration allows design of either RC or crystal oscillator circuits. The oscillator maybe replaced by an external clock signal at input RS. The counter advances on the negative-going transition of RS.A HIGH level on MR resets the counter (O 3to O 9and O 11to O 13= LOW), independent of other input conditions.Schmitt-trigger action in the clock input makes the circuit highly tolerant to slower clock rise and fall times.Fig.1 Functional diagram.Fig.2 Pinning diagram.PINNING FAMILY DATA, I DD LIMITS category MSI See Family SpecificationsMR master resetRS clock input/oscillator pin R TC oscillator pinC TC external capacitor connection O 3to O 9counter outputsO 11to O 13HEF4060BP(N):16-lead DIL; plastic (SOT38-1)HEF4060BD(F): 16-lead DIL; ceramic (cerdip)(SOT74)HEF4060BT(D):16-lead SO; plastic (SOT109-1)(): Package Designator North AmericaPhilips Semiconductors Product speci?cation14-stage ripple-carry binary counter/dividerand oscillator HEF4060B MSIFig.3 Logic diagram.and oscillator MSIAC CHARACTERISTICSV SS=0 V; T amb=25°C;C L= 50 pF; input transition times≤20 nsV DD V SYMBOL MIN.TYP.MAX.TYPICAL EXTRAPOLATIONFORMULAPropagation delaysRS→O35210420ns183ns+(0,55 ns/pF) C L HIGH to LOW10t PHL80160ns69ns+(0,23 ns/pF) C L1550100ns42ns+(0,16 ns/pF) C L5210420ns183ns+(0,55 ns/pF) C L LOW to HIGH10t PLH80160ns69ns+(0,23 ns/pF) C L1550100ns42ns+(0,16 ns/pF) C L O n→O n+152550nsHIGH to LOW10t PHL1020ns15612ns52550nsLOW to HIGH10t PLH1020ns15612nsMR→O n5100200ns73ns+(0,55 ns/pF) C L HIGH to LOW10t PHL4080ns29ns+(0,23 ns/pF) C L153060ns22ns+(0,16 ns/pF) C L Output transition560120ns10ns+(1,0 ns/pF) C L times10t THL3060ns9ns+(0,42 ns/pF) C L HIGH to LOW152040ns6ns+(0,28 ns/pF) C L560120ns10ns+(1,0 ns/pF) C L LOW to HIGH10t TLH3060ns9ns+(0,42 ns/pF) C L152040ns6ns+(0,28 ns/pF) C L Minimum clock pulse512060nswidth input RS10t WRSH5025nsHIGH153015nsMinimum MR pulse55025nswidth; HIGH10t WMRH3015ns152010nsRecovery time516080nsfor MR10t RMR8040ns156030nsMaximum clock pulse548MHzfrequency input RS10f max1020MHz151530MHzand oscillatorMSIAC CHARACTERISTICSV SS =0 V; T amb =25°C; input transition times ≤20 nsNotes 1.where:f i =input frequency (MHz)f o =output frequency (MHz)C L =load capacitance (pF)V DD =supply voltage (V)C t =timing capacitance (pF)f osc =oscillator frequency (MHz)RC oscillatorV DD VTYPICAL FORMULA FOR P (μW)(1)Dynamic power dissipation5700f i +f o C L V DD 2per package 103300f i +f o C L V DD 2(P)158900f i+f o C L V DD 2Total power dissipation5700f osc +f o C L V DD 2+2C t V DD 2f osc +690V DD when using the 103300f osc +f o C L V DD 2+2C t V DD 2f osc + 6900V DDon-chip oscillator (P)158900f osc +f o C L V DD 2+2C t V DD 2f osc +22000V DDFig.4 External component connection for RC oscillator.Typical formula for oscillator frequency:f osc 12,3R t C t××--------------------------------=and oscillator MSITiming component limitationsThe oscillator frequency is mainly determined byR t C t,provided R t<<="" p="" r2c2<of R2 is to minimize the influence of the forward voltageacross the input protection diodes on the frequency. Thestray capacitance C2 should be kept as small as possible.In consideration of accuracy, C t must be larger than theinherent stray capacitance. R t must be larger than theLOCMOS ‘ON’ resistance in series with it, which typically is 500?at V DD=5 V, 300?at V DD=10 V and 200?atV DD=15 V.The recommended values for these components tomaintain agreement with the typical oscillation formula are:C t≥100 pF, up to any practical value,10 k?≤R t≤1 M?.Typical crystal oscillator circuitIn Fig.5, R2 is the power limiting resistor. For starting andmaintaining oscillation a minimum transconductance isnecessary.Fig.5External component connection for crystaloscillator.Fig.6Test set-up for measuring forward transconductance g fs=di o/dv i at v o is constant (see also graph Fig.7);MR = LOW.and oscillator MSIFig.7Typical forward transconductance g fs as a function of the supply voltage at T amb = 25°C.A: averageB: average + 2 s,C: average ?2 s, where ‘s’ is the observed standard deviation.Fig.8RC oscillator frequency as a function of R t and C t at V DD = 5 to 15 V; T amb =25°C.C t curve at R t =100 k ?; R2 = 470 k ?.R t curve at C t =1 nF; R2 = 5 R t .Fig.9Oscillator frequency deviation (?f osc )as a function of ambient temperature; referenced at: f osc at T amb =25°C and V DD =10 V.___R t =100 k ?; C t =1 nF; R2=0.---R t =100 k ?;C t =1 nF; R2= 300 k ?.。

34020201EN/AB - Page 1MGE UPS SYSTEMSInstallation and usermanualPowerManagement Module250AT H E U N I N T E RRUPTIBLP OWERPR OVI D E RPage 2 - 34020201EN/AB34020201EN/AB - Page 3IntroductionThank you for selecting an MGE UPS SYSTEMS product to protect your electrical equipment.The Power Management Module (PMM) has been designed with the utmost care. We recommend that you take the time to read this manual to take full advantage of the many features of your new equipment.MGE UPS SYSTEMS pays great attention to the environmental impact of its products.The considerable resources put into developing the Power Management Module make it a reference in terms of environmental protection. Of particular importance are:◗ the eco-design approach during product development,◗ recycling of the Power Management Module at the end of its service life.MGE UPS SYSTEMS warrants this hardware product against defects in materials and workmanship for a period of one year.Limitation of warranty: the above warranty shall not apply to defects resulting from: misure, non-MGE UPSSYSTEMS modification, operation or storage outside the environmental specifications for the product, improper maintenance, or defects resulting from use of non-MGE UPS SYSTEMS software, accessories, -media or such items not designed for use with the product.Moreover, the warranty does not include the consumable goods and the replacements or repairs which would result from the abnormal wear of the products, and deteriorations or accidents coming from an external cause such as fire, damage of water, damage caused by other equipment...We invite you to discover the entire MGE UPS SYSTEMS range of products and services including the options for the Power Management Module by visiting our Web site at or by contacting your nearest sales representative.To take into account evolving standards and technology, equipment may be modified without notice. Indications concerning technical characteristics and dimensions are not binding unless confirmed by MGE UPS SYSTEMS.This document may be copied only with the written consent of MGE UPS SYSTEMS. Authorized copies must be marked "Power Management ModuleUser Manual nr 3402020100".Page 4 - 34020201EN/ABStructure of this documentMandatory instructionsGeneral instructions, advice, helpIndicationActionSymbolsInformation may be found via:◗ the contents,◗ the index.Earth cablesOther cablesForewordContents1.Presentation1.1250 A PMM modules (6)1.2Access to the circuit breakers (7)Version with 126 circuit breakers (doors open) (7)Version with 60 circuit breakers (doors open) (7)1.3Access to connections (8)1.4Control panel (8)2.Installation2.1Setting up the module (9)Module 825 mm deep (9)Module 425 mm deep (10)2.2Input power connections (12)2.3Output circuit connections (14)2.4Alarm and remote shutdown connections (14)2.5Communication connections (15)3.Operation3.1Turning on the PMM module (16)3.2Display (16)3.3Metering (16)Output-circuit metering (17)General metering (17)3.4Alarms (17)3.5Setup (18)Communication settings (18)Operation settings (display and alarms) (18)3.6Turning off the PMM module (18)4Maintenance4.1Trouble-shooting and solutions (19)5Environment (20)6.Appendices6.1Technical data sheets (21)Electrical characteristics (21)Thermal characteristics (21)Noise level (21)Maximum wire sizes for terminal blocks (21)Recommended upstream protection devices (21)Standards (21)6.2Simplified diagrams (22)Version with isolation transformer (22)Version without isolation transformer (22)6.3Auxiliary contact functions (23)6.4Modbus communication information (23)Access to communicated information (23)Cards BCM1, BCM2 and BCM3 (status and measurements for 42 or 21 output circuits) (24)Card MCM (general status and measurements) (31)6.5Glossary (32)6.6Index (33)34020201EN/AB - Page 5Page 6 - 34020201EN/AB1. Presentation1.1 250 A PMM modulesModule characteristicsYou can choose from 6 different modules depending on:◗ the number of output circuits required and the type of protection (126 standard circuit breakers or 60 circuit breakers with earth-leakage protection),◗ the presence of an isolation transformer,◗the depth (825 with or without an isolation transformer and 425 without).Control panel with display1. Presentation1.2Access to the circuit breakersVersion with 126 circuit breakers (doors open)Version with 60 circuit breakers (doors open)F1 disconnector-fuse for protection of thecontrol electronicsUpstream general protection circuit breaker(only in modules with an isolationtransformer)General protection circuit breaker for the 126output circuits2 x 21 circuit breakers for phase A (A-1 to A-41 and A-2 to A-42)2 x 21 circuit breakers for phase B (B-1 to B-41 and B-2 to B-42)2 x 21 circuit breakers for phase C (C-1 toC-41 and C-2 to C-42)Upstream general protection circuit breaker(only in modules with an isolationtransformer)General protection circuit breaker for the 60output circuitsF2 disconnector-fuse for protection of thevoltage measurement inputsF1 disconnector-fuse for protection of thecontrol electronics2 x 10 circuit breakers with earth-leakageprotection for phase A (A-1 to A-19 and A-2to A-20)2 x 10 circuit breakers with earth-leakageprotection for phase B (B-1 to B-19 and B-2to B-20)2 x 10 circuit breakers with earth-leakageprotection for phase C (C-1 to C-19 and C-2to C-20)F2 disconnector-fuse for protection of thevoltage measurement inputsEight connection cover panelsEight connection cover panels34020201EN/AB - Page 7Page 8 - 34020201EN/AB1. Presentation1.3Access to connectionsRemove the eight cover panels (each secured with two screws).Example showing the version with 126 output circuits:Metal trunking for passage and securing of output cablesConnection bars for earth wires of output cablesTerminal block for remote shutdown function and minor and major alarmsIn modules with an isolation transformer, of the three input phases to circuit breaker Q1In modules without an isolation transformer,connection of the three input phases and the neutral to circuit breaker Q2Phase connections for output-circuit cables1.4Control panelAlphanumeric displaySystem status LED: see table on page 23Scroll through different types ofmeasurements or return to display of measurementsScroll through different system settings Previous measurement or setting Next measurement or settingMain earthing bar of the module34020201EN/AB - Page 92. Installation2.1Setting up the moduleModule 825 mm deep1.Install the lower base panels 23 on the sides that will not be accessible (not mandatory).2.Position the module.3.Level the module using the adjustable feet 24 .4.Install the lower base panels 23 on the visible sides.Footprint of moduleWeight exerted on the floor by the four feet:◗ 28 kg/cm 2 (module without transformer),◗ up to 72 kg/cm 2 (module with transformer).Connection cables run under the false floor or in a cable trough.Important.At least 400 mm of free space is required above the module to ensure correct ventilation.At least 720 mm of free space is required in front to open the doors.Page 10 - 34020201EN/AB2. InstallationModule 425 mm deepFootprint of moduleForce exerted on the floor by the four feet:◗ 28 kg/cm 2.Installation against a wall1.Turn to horizontal position the twobrackets 25 at the back used to secure the module (see figure).Back-to-back assembly2. InstallationLevel the modules using the adjustablefeet 24 .Install the base panels 23 on the sides Caution: during handling, make sure the modules do not fall over.Remove the brackets 25 on the back ofPosition the modules and use thebrackets 26 on the top to interconnect the(see figure).2.22. Installation2.32.4Alarm and remote shutdown connections1.Connect the NO remote shutdown contact to terminals 1 and 2 on terminal block 13 .2.The alarm signals are transmitted by dry contacts (Umax = 250 V AC / 30 V DC, Imax = 7 A AC / 10 A DC) between terminals 3and 4 for the type 1 alarm and between 5and 6 for the type 2 alarm.3.Tie the cable down to the module frame.It is advised to use crimped ferrules on the phase wires and lugs on the earth wires.1.Connect the earth wire of each output cable to the earth connection bar located to the left of the metal trunking.2.Connect the phase and neutral wires to each circuit breaker.3.Tie the cables to the metal trunking.Note : it is advised to make the connections from the top down.Warning: the remote shutdown function is not implemented using a very low safety voltage.Consequently, the usual safetymeasures must be taken to avoid all risk of electrical shock when making connections for this function.2. Installation 2.5Communication connections1.Connect the communication cable to theRS232 or RS485 connector on the right-hand door of the module.2.Run the cable as shown in the figureopposite.3.Tie the cable down to the module frame.Communication connector detailsRS485 connector2 wiresGNDTx+Tx-Tx+ / Rx+Tx- / Rx-RS485 connector4 wiresGNDRx+Rx-Not usedNot usedExample of an RS485 2-wireconnection:Example of an RS485 4-wire connection:Master SlaveMaster or slavex-/Rx-x+/Rx+ND x-x+NDx-x+x-x+NDx-x+3.Operation3.1Turning on the PMM module1.Close the upstream switching device (external and not supplied) on the circuit supplying the PMM module.2.In a module with an isolation transformer, close ("I" or ON position) circuit breaker Q1 5 (see page 7) .3.Make sure disconnector-fuses F1 and F2 are closed and close ("I" or ON position) circuit breaker Q2 5 (see page 7) .◗ The system status LED 17 (see page 8) flashes yellow a few seconds, then green and should subsequently remaingreen.◗ After a few seconds, the first page of measurements is displayed:3.2Display4.Close the circuit breakers on the output circuits to be powered.Metering modeThe display unit for the PMM module offers three operating modes: metering, alarm and setup.3. Operation3.4AlarmsAlarm text:WARNING: indicates that the current on the indicated circuit (number25, phase B) is between 60 and 80% of the maximum value.This mode displays the list of stored major and minor faults that have occurred in the PMM or on the output circuits.When an alarm is present in the memory, LED 17 goes on:◗yellow for fault that does not hinder normal operation;◗red for a fault requiring intervention.3.3MeteringPh-A:measurements on phase ADisplay of the current drawn by the output circuit in amperesOutput-circuit meteringGeneral meteringGENE: general measurements.Measurement units:KWH: total energy consumed by the PMM module in kWh.This value can be reset via the communication function.KW: total active power drawn by the PMM module in kW.KVAR: reactive power drawn by the PMM module in kVAR.rotation). The display flashes and the measurement is not updated.KVA: apparent power drawn by the PMM module in kVA.PF: average power factor on the three phases of thePMM module.V-LL: average phase-to-phase voltage on the three phases of the PMM module in volts.V-LN: average phase-to-neutral voltage on the three phases of thePMM module in volts.AMPS: average current on the three phases of the PMM module in amperes.FREQ: frequency of the voltage supplied by the PMM module in Hertz.KW-A, KW-B, KW-C: active power drawn by phases A, B and C of the PMM module in kW.PF-A, PF-B, PF-C: power factor on phases A, B and C of the PMM module.V-AB, V-BC, V-AC: phase-to-phase voltages supplied by the PMM module in volts.V-AN, V-BN, V-CN: phase-to-neutral voltages supplied by the PMM module in volts.AMPA, AMPB, AMPC, AMPN: current on the three phases A, B, C and on the neutral of the PMMmodule in amperes.MIN: minimum power (stored in memory) supplied by the PMM module in kW since the last reset.MAX: maximum power (stored in memory) supplied by the PMM module in kW since the last reset.The minimum, maximum and average power values are reset via the communication function.Ph-B: alarm on phase B.CH-25: alarm on output circuit 25.These alarms are stored in memory:◗◗The display automatically returns to metering mode if buttons 19 to 22 are not used for ten seconds.ALARM: indicates that the current on the indicated circuit is higher than 80% of the maximum value.OVER VOLTAGE: the voltage supplied by the PMM exceeds the permissible range by over 10%.OVER CURRENT: there is an overload on the PMM.AUX INPUT ALARM: this alarm signals either:◗ excessive temperature rise in the isolation transformer,◗ or activation of the remote shutdown button.CH-01:measurements on output circuit 013.Operation3.5SetupCommunication settingsSettings include:◗ Routing Address (ON, OFF): internal setting reserved for MGE UPS SYSTEMS, must not be modified (ON).◗ Modbus Address (1 to 225): Modbus address, must be selected from 1 to 225 (by steps of 16).◗ Upstream Type (RS-485, RS-232, INFRARED): type of serial link.◗ Upstream Duplex (2-WIRE, 4-WIRE): 2 or 4-wire link.◗ Upstream Baudrate (2400, 4800, 9600, 19200): speed of transmission in Bauds.◗ Upstream Parity (NONE, ODD, EVEN): parity.◗ Downstream Duplex : internal setting reserved for MGE UPS SYSTEMS, must not be modified (2-WIRE).◗ Downstream Baudrate : internal setting reserved for MGE UPS SYSTEMS, must not be modified (9600).◗ Downstream Parity : internal setting reserved for MGE UPS SYSTEMS, must not be modified(NONE).Operation settings (display and alarms)The user-settable parameters are listed below.◗ Blacklight Brightness (0 to 9): adjustment of the display luminosity.◗ Auxiliary INPUT ALARM : internal setting reserved for MGE UPS SYSTEMS, must not be modified (CLOSED).◗ Rotate parameters(NO, YES) : fixed display or autoscroll.3.6Turning off the PMM module1.Open ("O" or OFF position) all the circuit breakers on the output circuits.2.Open ("O" or OFF position) circuit breaker Q24 .3.In a module with an isolation transformer, open ("O" or OFF position) circuit breaker Q1 5.4.Open the upstream switching device of the installation on the circuit supplying the PMM. LED 17 and the display go off.Caution: dangerous voltage levels are present inside the PMM, even if Q1 and Q2 are open.This mode presents the functions listed below.View System Info , Find Meters and Review Meters : these functions are reserved for MGE UPS SYSTEMS.Setup Communication : access to the communication settings.Setup Operation : access to the display settings (luminosity, autoscroll) and selection of the alarm operating mode (open or closed contacts).The display automatically returns to metering mode if buttons are not used for ten seconds.4. Maintenance 4.1Trouble-shooting and solutions5. EnvironmentThis product has been designed to respect the environment.It does not contain CFCs or HCFCs.Recycling at the end of service lifeMGE UPS SYSTEMS undertakes to have all products recovered at the end of their service life recycled by certifiedcompanies in compliance with applicable regulations (contact your branch office).Packing materialsComply with all applicable regulations for recycling of packing materials.Web Site: 34020201EN/AB - Page 216. Appendices6.1Technical data sheetsElectrical characteristicsRated input current:250 A per phase and 400 A for the neutral Rated output current:16 A per phaseInput voltages:◗ Rated voltage:380 V / 400 V / 415 V ◗ Maximum voltage:457 V (415 V +10%)◗ Minimum voltage:342 V (380 V -10%)◗ Rated frequency:50 or 60 Hz (47 Hz minimum, 63 Hz maximum)Output voltages:220 V / 230 V / 240 V F1 and F2 fuses:0.5 A aM - 600 V - 100 kAThermal characteristicsHeat loss (with isolation transformer):◗ At full rated power: 5000 W ◗ At 50% rated power: 2000 WNoise levelRecommended upstream protection devicesMaximum wire sizes for terminal blocksAcoustic noise as defined by standard ISO 3746: 62 dBa (with isolation transformer)◗ Input phases: 120 mm 2◗ Input neutral: 2 x 120 mm 2◗ PE: 120 mm 2◗ PEN: 2 x 120 mm 2◗ Output circuits: 2.5 mm 2◗ Auxiliary wires (remote shutdown, remote alarms): 1.5 mm 2◗ Communication wires: shielded cable (telephone type)(1) I 0 and I R are thermal settings, I i and I m are magnetic settings.Selection of the protection devices must comply with applicable standards and regulations using the information presented above and taking into account discrimination requirements.The models in the table are only intended as a general indication and in no way engage the responsibility of MGE UPS SYSTEMS.StandardsProtection level: IP 20C (standard CEI 529).Environment: 2 (standard EN 60439-1).6. Appendices6.2Simplified diagramsVersion with isolation transformerVersion without isolation transformerPage 22 - 34020201EN/AB34020201EN/AB - Page 236. Appendices6.3Auxiliary contact functionsAccess to communicated informationEach status indication or measurement displayed on the module is accessible via the RS232 or RS485 communication port.Each PMMmodule uses a series of 16 addresses .If the network communicates with a number of PMM modules, use an available series among the following series of 16addresses for each module: 1 to 16 ,17 to 32, 33 to 48, 49 to 64, 65 to 80, 81 to 96, 97 to 112, 113 to 128, 129 to 144, 145to 160, 161 to 176, 177 to 192, 193 to 208, 209 to 224 and 225 to 241.The 16 addresses in each series are assigned the following functions:1st address in the series: reserved for MGE UPS SYSTEMS,2nd address in the series : access to card BCM1 (status and measurements for output circuits of phase A),3rd address in the series : access to card BCM2 (status and measurements for output circuits of B),4th address in the series : access to card BCM3 (status and measurements for output circuits of C),5th to 8th address in the series: reserved for MGE UPS SYSTEMS,9th address in the series : access to card MCM (general status and measurements),10th to 16th address in the series: reserved for MGE UPS SYSTEMS.As indicated above, four addresses in each series are used to access the information in the registers of four cards,corresponding to all the status and measurement information presented in the tables on the following pages.Key for tables:# :register using 2 bytes,R/W :read only (R ) or read/write (R/W ) information,Bit :detail of each bit of the address,NV :non-volatile information,Description :description of the concerned information.Additional explications are provided in the right-hand column if necessary.Warning: Do not modify the registers reserved for MGE UPS SYSTEMS. Changing these registers can cause the PMM module to malfunction.6.4 Modbus communication informationPage 24 - 34020201EN/AB6. AppendicesThese bits go to 1 when the current in a corresponding output circuit is greater than the minor alarm threshold (60% in theexample opposite) and less than the major alarm threshold (80% in the example opposite). This state is stored in memoryuntil the alarm is reset by setting the bit to 0.2R Current in circuit 02........................41R Current in circuit 4142R Current in circuit 4243RNVGlobal alarm register0for the register with address 441for the register with address 452for the register with address 463for the register with address 474for the register with address 485for the register with address 496 to 15Unused bits44R/WNVMinor alarms on circuits 1 to 16060% < Current in circuit 01 < 80%160% < Current in circuit 02 < 80%260% < Current in circuit 03 < 80%360% < Current in circuit 04 < 80%460% < Current in circuit 05 < 80%560% < Current in circuit 06 < 80%660% < Current in circuit 07 < 80%760% < Current in circuit 08 < 80%860% < Current in circuit 09 < 80%960% < Current in circuit 10 < 80%1060% < Current in circuit 11 < 80%1160% < Current in circuit 12 < 80%1260% < Current in circuit 13 < 80%1360% < Current in circuit 14 < 80%1460% < Current in circuit 15 < 80%1560% < Current in circuit 16 < 80%45R/WNVMinor alarms on circuits 17 to 32060% < Current in circuit 17 < 80%160% < Current in circuit 18 < 80%260% < Current in circuit 19 < 80%360% < Current in circuit 20 < 80%460% < Current in circuit 21 < 80%560% < Current in circuit 22 < 80%660% < Current in circuit 23 < 80%760% < Current in circuit 24 < 80%860% < Current in circuit 25 < 80%960% < Current in circuit 26 < 80%1060% < Current in circuit 27 < 80%1160% < Current in circuit 28 < 80%1260% < Current in circuit 29 < 80%1360% < Current in circuit 30 < 80%1460% < Current in circuit 31 < 80%1560% < Current in circuit 32 < 80%46R/WNVMinor alarms on circuits 33 to 42060% < Current in circuit 33 < 80%160% < Current in circuit 34 < 80%260% < Current in circuit 35 < 80%360% < Current in circuit 36 < 80%460% < Current in circuit 37 < 80%560% < Current in circuit 38 < 80%660% < Current in circuit 39 < 80%760% < Current in circuit 40 < 80%860% < Current in circuit 41 < 80%960% < Current in circuit 42 < 80%10 to 15Unused bits (all set to 0)Each element represents the value in mA of the current in the given output circuit.Cards BCM1, BCM2 and BCM3 (status and measurements for 42 or 21 output circuits of one phase)This register provides a rapid overview of the status of the alarms on the card.The global alarm bit is 1 if any one of the 16bits of the indicated register is 1.All the variables are whole numbers.6. Appendices0Current in circuit 01 > 80%1Current in circuit 02 > 80%2Current in circuit 03 > 80%3Current in circuit 04 > 80%4Current in circuit 05 > 80%5Current in circuit 06 > 80%6Current in circuit 07 > 80%7Current in circuit 08 > 80%8Current in circuit 09 > 80%9Current in circuit 10 > 80%10Current in circuit 11 > 80%11Current in circuit 12 > 80%12Current in circuit 13 > 80%13Current in circuit 14 > 80%14Current in circuit 15 > 80%15Current in circuit 16 > 80%48R/W NV Major alarms on circuits 17 to 320Current in circuit 17 > 80%1Current in circuit 18 > 80%2Current in circuit 19 > 80%3Current in circuit 20 > 80%4Current in circuit 21 > 80%5Current in circuit 22 > 80%6Current in circuit 23 > 80%7Current in circuit 24 > 80%8Current in circuit 25 > 80%9Current in circuit 26 > 80%10Current in circuit 27 > 80%11Current in circuit 28 > 80%12Current in circuit 29 > 80%13Current in circuit 30 > 80%14Current in circuit 31 > 80%15Current in circuit 32 > 80%49R/W NV Major alarms on circuits 33 to 420Current in circuit 33 > 80%1Current in circuit 34 > 80%2Current in circuit 35 > 80%3Current in circuit 36 > 80%4Current in circuit 37 > 80%5Current in circuit 38 > 80%6Current in circuit 39 > 80%7Current in circuit 40 > 80%8Current in circuit 41 > 80%9Current in circuit 42 > 80%10 to 15Unused bits (all set to 0)50R NV Reserved for MGE UPS SYSTEMS51R NV Reserved for MGE UPS SYSTEMS52R/W NV Rating of breaker on circuit 01 53R/W NV Rating of breaker on circuit 02 54R/W NV Rating of breaker on circuit 03 55R/W NV Rating of breaker on circuit 04 56R/W NV Rating of breaker on circuit 05 57R/W NV Rating of breaker on circuit 06 58R/W NV Rating of breaker on circuit 07 59R/W NV Rating of breaker on circuit 08 60R/W NV Rating of breaker on circuit 09 61R/W NV Rating of breaker on circuit 10 62R/W NV Rating of breaker on circuit 11 63R/W NV Rating of breaker on circuit 12 64R/W NV Rating of breaker on circuit 13 65R/W NV Rating of breaker on circuit 14 66R/W NV Rating of breaker on circuit 15 67R/W NV Rating of breaker on circuit 16 68R/W NV Rating of breaker on circuit 17Circuit breaker ratings in amps (16).Must not be modified.These bits go to 1 when the current in a corresponding output circuit is greater than the major alarm threshold (80% in the example opposite). This state is stored in memory until the alarm is reset by setting the bit to 0.34020201EN/AB - Page 256. Appendices70R/W NV Rating of breaker on circuit 1971R/W NV Rating of breaker on circuit 2072R/W NV Rating of breaker on circuit 2173R/W NV Rating of breaker on circuit 2274R/W NV Rating of breaker on circuit 2375R/W NV Rating of breaker on circuit 2476R/W NV Rating of breaker on circuit 2577R/W NV Rating of breaker on circuit 2678R/W NV Rating of breaker on circuit 2779R/W NV Rating of breaker on circuit 2880R/W NV Rating of breaker on circuit 2981R/W NV Rating of breaker on circuit 3082R/W NV Rating of breaker on circuit 3183R/W NV Rating of breaker on circuit 3284R/W NV Rating of breaker on circuit 3385R/W NV Rating of breaker on circuit 3486R/W NV Rating of breaker on circuit 3587R/W NV Rating of breaker on circuit 3688R/W NV Rating of breaker on circuit 3789R/W NV Rating of breaker on circuit 3890R/W NV Rating of breaker on circuit 3991R/W NV Rating of breaker on circuit 4092R/W NV Rating of breaker on circuit 4193R/W NV Rating of breaker on circuit 4294R/W NV Minor alarm threshold (%) for circuit 01 95R/W NV Minor alarm threshold (%) for circuit 02 96R/W NV Minor alarm threshold (%) for circuit 03 97R/W NV Minor alarm threshold (%) for circuit 04 98R/W NV Minor alarm threshold (%) for circuit 05 99R/W NV Minor alarm threshold (%) for circuit 06 100R/W NV Minor alarm threshold (%) for circuit 07 101R/W NV Minor alarm threshold (%) for circuit 08 102R/W NV Minor alarm threshold (%) for circuit 09 103R/W NV Minor alarm threshold (%) for circuit 10 104R/W NV Minor alarm threshold (%) for circuit 11 105R/W NV Minor alarm threshold (%) for circuit 12 106R/W NV Minor alarm threshold (%) for circuit 13 107R/W NV Minor alarm threshold (%) for circuit 14 108R/W NV Minor alarm threshold (%) for circuit 15 109R/W NV Minor alarm threshold (%) for circuit 16 110R/W NV Minor alarm threshold (%) for circuit 17 111R/W NV Minor alarm threshold (%) for circuit 18 112R/W NV Minor alarm threshold (%) for circuit 19 113R/W NV Minor alarm threshold (%) for circuit 20 114R/W NV Minor alarm threshold (%) for circuit 21 115R/W NV Minor alarm threshold (%) for circuit 22 116R/W NV Minor alarm threshold (%) for circuit 23 117R/W NV Minor alarm threshold (%) for circuit 24 118R/W NV Minor alarm threshold (%) for circuit 25 119R/W NV Minor alarm threshold (%) for circuit 26 120R/W NV Minor alarm threshold (%) for circuit 27 121R/W NV Minor alarm threshold (%) for circuit 28 122R/W NV Minor alarm threshold (%) for circuit 29 123R/W NV Minor alarm threshold (%) for circuit 30 124R/W NV Minor alarm threshold (%) for circuit 31 125R/W NV Minor alarm threshold (%) for circuit 32 126R/W NV Minor alarm threshold (%) for circuit 33 127R/W NV Minor alarm threshold (%) for circuit 34 128R/W NV Minor alarm threshold (%) for circuit 35 129R/W NV Minor alarm threshold (%) for circuit 36 130R/W NV Minor alarm threshold (%) for circuit 37 131R/W NV Minor alarm threshold (%) for circuit 38 132R/W NV Minor alarm threshold (%) for circuit 39 133R/W NV Minor alarm threshold (%) for circuit 40 134R/W NV Minor alarm threshold (%) for circuit 41 135R/W NV Minor alarm threshold (%) for circuit 42These registers define the minor alarm thresholds.A minor alarm occurs when the current in a given output circuit is greater than the minor alarm threshold and less than the major alarm threshold for a duration exceeding the minor alarm time delay.The units are in % (60 = 60%).The setting range is from 0 to 100.The factory setting is 60.A minor alarm is not activated if the current goes instantaneously from one threshold to the other.Page 26 - 34020201EN/AB。

开关电源驱动模块（PM40XXA）图1是为大功率开关电源设计的专业驱动模块，模块型号定义为：PM4020A和PM4060A两种，PM4020A最大驱动为（以MOS 管为例25A；MOS管）在应用驱动最老的MOS管是IRFP460内部电容大约6000P。

图2是PM4060A最大驱动能力为60A的MOS管或者IGBT管，两个电路图相同、不同的是所使用的驱动IC有区别，前面是使用的IR2101驱动IC、后面是使用IR2181驱动IC，两个驱动电路的脚列完全相同！可以直接代替使用。

上面两种模块的全部技术资料由（老铎）设计！所有出版在“电子制作网”上面。

并且由本网站提供完整的成品（如上图片）。

PM4020A每块30元；PM4060A每块 35元；具体订购方法请参考最后页。

采用该模块设计一个大功率1000W的开关电源是十分简单的事情，你不必花费更多的时间就可以完成，下面的设计是一个标准的开关电源电路图。

我们将连续出版模块的开发电路图和音响的开关电源，供爱好制作的朋友提供最大的方便。

电子制作网技术资料下载连接表凡是我们出版的制作技术资料的PDF文档，均在这里保留每个技术资料的PDF文档的连接。

发表技术问题到：我们的电子制作网 电子制作网提供关键套件 (电信站) (网通站)设计人：刘铎 实验人：老铎165v@ KA KB HOR VSRLOR DTHOL VSL LOL GND ISVCC 12345678910111213141516PIN16脚 标准单列直插全桥通用开关电源驱动模块IO GND 输入功率控制脉宽设置稳压控制（光耦K ）稳压控制（光耦A ）地右下驱动输出工作电压13V-18V输出电流控制(5V)右上驱动中点右上驱动输出地左下驱动输出左上驱动中点左上驱动输出工作频率 60KHz-80KHz-100KHz 误差2%最大能驱动65A 的MOS 管子VSL+HOL 和VSR+HOR 可工作在0V-600V如果没有特殊说明所有不同型号的半桥和半桥脚列相同及不同型号全桥和全桥脚列相同！不同型号半桥和半桥可以互相代换。