SEN-R-956-013中文资料

TECHNICAL DATA SHEET 4200…SURFACE MOUNT DIE WITH HEAT ABSORBING STANDOFF TERMINAL STRIPS TRANSIENT VOLTAGE SUPPRESSOR 500 WATT SERIES Glass Passivated Die Plus Dual Heat StripsFeatures:• Low Profile• Broad Voltage Range Available - - 6.8 to 200 Volts • Broad Spectrum Transient Suppression• Rapid Response - - 4 nanoseconds typical• Built-in Heat Absorbing Terminations• Electrically Similar to Mil-Prf-19500/516 Applications:• Connector I/O Surge Suppression• Data Line Protection Description: This is a bipolar transient voltage suppressor series extending from 6.8 volts to 200 volts intended for surface mount applications.Each device comes as a “Cell” with its own heat absorbing terminals pre-bonded at high temperature. This permits mounting on printed circuit boards that cannot provide their own heat sinking. Each terminal is silver plated and is solderable permitting solder down attachment with a very small footprint. Each unit is bi-symmetrical so any orientation can be used.ELECTRICAL CHARACTERISTICSPARAMETER SYMBOL Test Conditions Min TYP Max.Units Response Turn-on Time ton 2 5 nsTransient Energy Pulse (Cell) Ep 1 10uS rise, I= 0.5Ip at t=100us (exponentialdecay)1500 WTransient Energy Pulse (Cell) Ep 2 10uS rise, I= 0.5Ip at t=1.0mS (exponentialdecay)500 WTransient Energy Pulse (Cell) Ep 3 10uS rise, I= 0.5Ip at t=10mS (exponentialdecay)150 WTransient Energy Pulse (Cell) Ep 4 10uS rise, I= 0.5Ip at t=50mS (exponentialdecay)70 WTransient Energy Pulse(Cell)Ep 5 10uS rise, I= 0.5Ip at t=50mS (step pulse) 50 W Electrical Parameters See TableMaximum SolderTemperatureTmax 10 second exposure 300 ºC Thermal Resistance (J-C) ΤJC Assume heat sink on terminal strip ends 18 30 ºC/WNote 1: “Die Only” configuration requires user to provide adequate energy absorption. Note 2: Terminal strips are 0.009” to 0.011” thick copper with nickel and silver plate.0.034"0.039"Typ0.052"0.056"0.0115"0.0155"Bipolar Die OnlySEN-R-956-XXX 500Watt TVS SeriesNominal Vz min Vz max TC (nom) Ir max Part Vz Iz @ Iz @ Iz of Vz Vr @ Vr Vcc Ip Number (V) (mA) (V) (V) (%.°C) (V) (uA) (V) (A) SEN-R-956-001 6.8 10 6.40 7.25 0.050 5.0 1600 9.2 54.3 SEN-R-956-002 7.2 10 6.67 7.67 0.060 6.0 1600 10.3 48.5 SEN-R-956-003 7.8 10 7.22 8.30 0.060 6.5 1000 11.2 44.6 SEN-R-956-004 8.4 10 7.78 8.95 0.060 7.0 400 12.0 41.7 SEN-R-956-005 9.0 1 8.33 9.58 0.070 7.5 200 12.9 38.8 SEN-R-956-006 9.6 1 8.89 10.23 0.070 8.0 100 13.6 36.8 SEN-R-956-007 10 1 9.44 10.82 0.070 8.5 20 14.4 34.7 SEN-R-956-008 11 1 10.00 11.50 0.080 9.0 10 15.4 32.5 SEN-R-956-009 12 1 11.10 12.80 0.080 10.0 5 17.0 29.4 SEN-R-956-010 13 1 12.20 14.00 0.080 11.0 5 18.2 27.5 SEN-R-956-011 14 1 13.30 15.50 0.085 12.0 5 19.9 25.1 SEN-R-956-012 15 1 14.40 16.50 0.085 13.0 5 21.5 23.3 SEN-R-956-013 17 1 15.60 17.90 0.085 14.0 5 23.2 21.6 SEN-R-956-014 18 1 16.70 19.20 0.090 15.0 5 24.4 20.5 SEN-R-956-015 19 1 17.80 20.50 0.090 16.0 5 26.0 19.2 SEN-R-956-016 20 1 18.90 21.70 0.090 17.0 5 27.6 18.1 SEN-R-956-017 22 1 20.00 23.30 0.095 18.0 5 29.2 17.1 SEN-R-956-018 24 1 22.20 25.50 0.095 20.0 5 32.4 15.4 SEN-R-956-019 26 1 24.40 28.00 0.095 22.0 5 35.5 14.1 SEN-R-956-020 29 1 26.70 30.70 0.095 24.0 5 38.9 12.9 SEN-R-956-021 31 1 28.90 33.20 0.095 26.0 5 42.1 11.9 SEN-R-956-022 33 1 31.10 35.80 0.095 28.0 5 45.4 11.0 SEN-R-956-023 36 1 33.30 38.30 0.095 30.0 5 48.4 10.3 SEN-R-956-024 39 1 36.70 42.20 0.100 33.0 5 53.3 9.4 SEN-R-956-025 43 1 40.00 46.00 0.100 36.0 5 58.1 8.6 SEN-R-956-026 48 1 44.40 51.10 0.100 40.0 5 64.5 7.8 SEN-R-956-027 51 1 47.80 54.90 0.100 43.0 5 69.4 7.2 SEN-R-956-028 54 1 50.00 57.50 0.100 45.0 5 72.7 6.9 SEN-R-956-029 57 1 53.30 61.30 0.100 48.0 5 77.4 6.5 SEN-R-956-030 61 1 56.7 65.2 0.100 51.0 5 82.4 6.1 SEN-R-956-031 65 1 60.0 69.0 0.100 54.0 5 87.1 5.7 SEN-R-956-032 69 1 64.4 74.1 0.105 58.0 5 93.6 5.3 SEN-R-956-033 72 1 66.7 76.7 0.105 60.0 5 96.8 5.2 SEN-R-956-034 76 1 71.1 81.8 0.105 64.0 5 103.0 4.9 SEN-R-956-035 84 1 77.8 89.5 0.110 70.0 5 113.0 4.4 SEN-R-956-036 90 1 83.3 95.8 0.110 75.0 5 121.0 4.1 SEN-R-956-037 93 1 86.7 99.7 0.110 78.0 5 126.0 4.0 SEN-R-956-038 101 1 94.4 108.2 0.110 85.0 5 137.0 3.6 SEN-R-956-039 108 1 100.0 115.5 0.110 90.0 5 146.0 3.4 SEN-R-956-040 120 1 111.0 128.0 0.110 100.0 5 162.0 3.1 SEN-R-956-041 131 1 122.0 140.5 0.110 110.0 5 177.0 2.8 SEN-R-956-042 143 1 133.0 153.0 0.110 120.0 5 193.0 2.6 SEN-R-956-043 155 1 144.0 165.5 0.110 130.0 5 209.0 2.4 SEN-R-956-044 180 1 167.0 192.5 0.110 150.0 5 243.0 2.1 SEN-R-956-045 192 1 178.0 205.0 0.110 160.0 5 259.0 1.9 SEN-R-956-046 203 1 189.0 217.5 0.110 170.0 5 275.0 1.81Time (s)Clamp Power vs Time for Sensitron 500W TVS SeriesTime (mS)Exponential Decay Pulse WaveformRated Vz of Device (V)Reverse Junction Capacitance for Sensitron 500W TVSSENSITRONSEMICONDUCTORTECHNICAL DATADISCLAIMER:1- The information given herein, including the specifications and dimensions, is subject to change without prior notice to improve product characteristics. Before ordering, purchasers are advised to contact the Sensitron Semiconductor sales department for the latest version of the datasheet(s).2- In cases where extremely high reliability is required (such as use in nuclear power control, aerospace and aviation, traffic equipment, medical equipment, and safety equipment), safety should be ensured by using semiconductor devices that feature assured safety or by means of users’ fail-safe precautions or other arrangement.3- In no event shall Sensitron Semiconductor be liable for any damages that may result from an accident or any other cause during operation of the user’s units according to the datasheet(s). Sensitron Semiconductor assumes no responsibility for any intellectual property claims or any other problems that may result from applications of information, products or circuits described in the datasheets.4- In no event shall Sensitron Semiconductor be liable for any failure in a semiconductor device or any secondary damage resulting from use at a value exceeding the absolute maximum rating.5- No license is granted by the datasheet(s) under any patents or other rights of any third party or Sensitron Semiconductor.6- The datasheet(s) may not be reproduced or duplicated, in any form, in whole or part, without the expressed written permission of Sensitron Semiconductor.7- The products (technologies) described in the datasheet(s) are not to be provided to any party whose purpose in their application will hinder maintenance of international peace and safety nor are they to be applied to that purpose by their direct purchasers or any third party. When exporting these products (technologies), the necessary procedures are to be taken in accordance with related laws and regulations.。

SPECIFICATIONSNI USB-7845R OEMR Series for USB Multifunction RIO with Kintex-7 70T FPGA Français Deutsch日本語한국어简体中文/manualsThis document contains the specifications for the National InstrumentsUSB-7845R OEM device. Specifications are typical at 25 °C unless otherwise noted.Caution Using the NI USB-7845R OEM device in a manner not described in thisdocument may impair the protection the NI USB-7845R OEM device provides. Analog InputNumber of channels8 ............................................................................Input modes DIFF, NRSE, RSE (software-selectable; ............................................................................selection applies to all channels)Type of ADC Successive approximation register (SAR) ............................................................................Resolution16 bits ............................................................................Conversion time 2 µs ............................................................................Maximum sampling rate500 kS/s (per channel) ............................................................................Input impedancePowered on 1.25 GΩ ║ 2 pF....................................................................Powered off/overload 4.0 kΩ min....................................................................Input signal range±1 V, ±2 V, ±5 V, ±10 V (software-selectable) ............................................................................Input bias current±5 nA ............................................................................ ............................................................................Input offset current±5 nAInput coupling DC ............................................................................Overvoltage protection....................................................................Powered on±42 V maxPowered off±35 V max....................................................................Table 1. AI Operating Voltage Ranges Over TemperatureAI Absolute AccuracyAbsolute accuracy at full scale numbers is valid immediately following internal calibration and assumes the device is operating within 10 °C of the last external calibration. Accuracies listed are valid for up to one year from the device external calibration.Absolute accuracy at full scale on the analog input channels is determined using the following assumptions:•TempChangeFromLastExternalCal = 10 °C •TempChangeFromLastInternalCal = 1 °C•number_of_readings = 10,000•CoverageFactor = 3 σ1The minimum measurement voltage range is the largest voltage the NI USB-7845R OEM device is guaranteed to accurately measure.2| | NI USB-7845R OEM SpecificationsTable 2. AI Absolute Accuracy (Calibrated) (Continued)Table 3. AI Absolute Accuracy (Uncalibrated)Calculating Absolute AccuracyAbsoluteAccuracy=Reading⋅(GainError)+Range*(OffsetError)+NoiseUncertaintyGainError=ResidualGainError+GainTempco*(TempChangeFromLastInternalCal)+ReferenceTempco*(TempChangeFromLastExternalCal)OffsetError=ResidualOffsetError+OffsetTempco*(TempChangeFromLastInternalCal)+INL_ErrorNoiseUncertainty=Refer to the following equation for an example of calculating absolute accuracy.NI USB-7845R OEM Specifications| © National Instruments| 3Absolute accuracy at full scale on the analog input channels is determined using the following assumptions:•TempChangeFromLastExternalCal = 10 °C •TempChangeFromLastInternalCal = 1 °C•number_of_readings = 10,000•CoverageFactor = 3 σGainError=104.4ppm+20ppm*1+4ppm*10GainError=164.4ppmOffsetError=16.4ppm+4.18ppm*1+42.52ppmOffsetError=63.1ppmNoiseUncetainty=NoiseUncertainty=7.89µVAbsoluteAccuracy=10V*(GainError)+10V*(OffsetError)+NoiseUncertaintyAbsoluteAccuracy=2,283µVDC Transfer Characteristics ............................................................................INL Refer to the AI Accuracy TableDNL±0.4 LSB typ, ±0.9 LSB max ............................................................................No missing codes16 bits guaranteed ............................................................................CMRR, DC to 60 Hz-100 dB ............................................................................Dynamic CharacteristicsBandwidthSmall signal 1 MHz........................................................................................................................................Large signal500 kHz4| | NI USB-7845R OEM Specifications............................................................................Crosstalk-80 dB, DC to 100 kHzAnalog Output ............................................................................Output type Single-ended, voltage output ............................................................................Number of channels8 ............................................................................Resolution16 bits ............................................................................Update time 1.0 µs ............................................................................Maximum update rate 1 MS/sType of DAC Enhanced R-2R ............................................................................ ............................................................................Range±10 V ............................................................................Output coupling DCOutput impedance0.5 Ω............................................................................NI USB-7845R OEM Specifications| © National Instruments| 5............................................................................Minimum current drive±2.5 mAProtection Short circuit to ground ............................................................................Overvoltage protectionPowered on±15 V max....................................................................Powered off±10 V max....................................................................Power-on state User-configurable ............................................................................Power-on glitch-1 V for 1 µs ............................................................................Table 4. AO Operating Voltage Ranges for Over TemperatureAO Absolute AccuracyAbsolute accuracy at full scale numbers is valid immediately following internal calibration and assumes the device is operating within 10 °C of the last external calibration. Accuracies listed are valid for up to one year from the device external calibration.Absolute accuracy at full scale on the analog output channels is determined using the following assumptions:•TempChangeFromLastExternalCal = 10 °C •TempChangeFromLastInternalCal = 1 °C2The minimum measurement voltage range is the largest voltage the NI USB-7845R OEM device is guaranteed to accurately measure.6| | NI USB-7845R OEM SpecificationsTable 5. AO Absolute Accuracy (Calibrated) (Continued)Calculating Absolute AccuracyAbsoluteAccuracy=OutputValue*(GainError)+Range*(OffsetError)GainError=ResidualGainError+GainTempco*(TempChangeFromLastInternalCal)+ReferenceTempco*(TempChangeFromLastExternalCal)OffsetError=ResidualOffsetError+AOOffsetTempco*(TempChangeFromLastInternalCal)+INL_Error Refer to the following equation for an example of calculating absolute accuracy.Absolute accuracy at full scale on the analog output channels is determined using thefollowing assumptions:•TempChangeFromLastExternalCal = 10 °C•TempChangeFromLastInternalCal = 1 °CGainError=87.3ppm+12.6ppm*1+4ppm*10GainError=139.9ppmNI USB-7845R OEM Specifications| © National Instruments| 7OffsetError=41.1ppm+7.8ppm*1+61ppmOffsetError=109.9ppmAbsoluteAccuracy=10V*(GainError)+10V*(OffsetError)AbsoluteAccuracy=2,498µVDC Transfer CharacteristicsINL Refer to the AO Accuracy Table ............................................................................DNL±0.5 LSB typ, ±1 LSB max ............................................................................Monotonicity16 bits, guaranteed ............................................................................Dynamic CharacteristicsSlew rate-10 V/µs ............................................................................Noise250 µV rms, DC to 1 MHz ............................................................................Glitch energy at midscale transition±10 mV for 3 µs ............................................................................5V OutputOutput voltage 4.75 V to 5.1 V ............................................................................Output current0.5 A max ............................................................................Overvoltage protection±30 V ............................................................................ ............................................................................Overcurrent protection650 mA8| | NI USB-7845R OEM SpecificationsDigital I/OCompatibility LVTTL ............................................................................Logic family User-selectable ............................................................................Default software setting 3.3 V ............................................................................Maximum input 3.6 V ............................................................................NI USB-7845R OEM Specifications| © National Instruments| 9Table 10. Digital Output Logic Levels (Continued)Output currentSource 4.0 mA....................................................................Sink 4.0 mA....................................................................Input leakage current±15 µA max ............................................................................Input impedance50 kΩ typ, pull-down ............................................................................Power-on state Programmable, by line ............................................................................Protection±20 V, single line ............................................................................Digital I/O voltage switching time 2 ms max ............................................................................Note Refer to NI RIO Software Help for more information about switching times.Reconfigurable FPGAFPGA type Kintex-7 70T ............................................................................Number of flip-flops82,000 ............................................................................Number of LUTs41,000 ............................................................................Embedded block RAM4,860 kbits ............................................................................Number of DSP48 slices240 ............................................................................Timebase40, 80, 120, 160, or 200 MHz ............................................................................Timebase accuracy, onboard clock±100 ppm ............................................................................Calibration ............................................................................Recommended warm-up time15 minutesCalibration interval 1 year ............................................................................10| | NI USB-7845R OEM SpecificationsOnboard calibration referenceDC level3 5.000 V (±2 mV)....................................................................Temperature coefficient±4 ppm/°C max....................................................................Long-term stability±25 ppm/1,000 h....................................................................Note Refer to Calibration Certifications at /calibration to generate acalibration certificate for the NI USB-7845R OEM deviceBus Interface ............................................................................USB compatibility USB 2.0 Hi-Speed or Full-Speed4Data transfers DMA, interrupts, programmed I/O ............................................................................Number of DMA channels3 ............................................................................Power RequirementInput voltage9 V to 30 V ............................................................................Max power20 W ............................................................................ ............................................................................Overvoltage protection40 VNote You must use a UL Listed ITE power supply marked LPS with theNI USB-7845R OEM device.PhysicalNote If you need to clean the device, wipe it with a dry, clean towel.Dimensions (PCB)17.5 cm × 16.3 cm (6.9 in. × 6.4 in.) ............................................................................Weight183 g (6.45 oz) ............................................................................I/O connectors Analog- 1 × 50 pin box header, ............................................................................Digital- 3 × 34 pin box header3Actual value stored in Flash memory4Operating on a full-speed bus will result in lower performance and you might not be able to achieve maximum sampling/update rates.NI USB-7845R OEM Specifications| © National Instruments| 11Maximum Working VoltageMaximum working voltage refers to the signal voltage plus the common-mode voltage. Channel-to-earth±12 V, Measurement Category I ............................................................................Channel-to-channel±24 V, Measurement Category I ............................................................................Measurement Category I is for measurements performed on circuits not directly connected to the electrical distribution system referred to as MAINS voltage. MAINS is a hazardous live electrical supply system that powers equipment. This category is for measurements of voltages from specially protected secondary circuits. Such voltage measurements include signal levels, special equipment, limited-energy parts of equipment, circuits powered by regulated low-voltage sources, and electronics.Caution Do not use the NI USB-7845R OEM device for connection to signals inMeasurement Categories II, III, or IV.Note Measurement Categories CAT I and CAT O (Other) are equivalent. Thesetest and measurement circuits are not intended for direct connection to the MAINSbuilding installations of Measurement Categories CAT II, CAT III, or CAT IV. Environmental-40 °C to 70 °COperating temperature ............................................................................(IEC 60068-2-1, IEC 60068-2-2)Storage temperature-40 °C to 85 °C ............................................................................(IEC 60068-2-1, IEC 60068-2-2)10% to 90% RH, noncondensingOperating humidity ............................................................................(IEC 60068-2-56)Storage humidity (IEC 60068-2-56)5% to 95% RH, noncondensing ............................................................................ ............................................................................Pollution Degree2Maximum altitude2,000 m ............................................................................Indoor use only.Online Product CertificationTo obtain product certifications and the DoC for this product, visit /certification, search by model number or product line, and click the appropriate link in the Certification column.12| | NI USB-7845R OEM SpecificationsEnvironmental ManagementNI is committed to designing and manufacturing products in an environmentally responsible manner. NI recognizes that eliminating certain hazardous substances from our products is beneficial to the environment and to NI customers.For additional environmental information, refer to the Minimize Our Environmental Impact web page at /environment. This page contains the environmental regulations and directives with which NI complies, as well as other environmental information not included in this document.Waste Electrical and Electronic Equipment (WEEE)EU Customers At the end of the product life cycle, all products must be sent to aWEEE recycling center. For more information about WEEE recycling centers,National Instruments WEEE initiatives, and compliance withWEEE Directive 2002/96/EC on Waste Electrical and Electronic Equipment, visit/environment/weee.电子信息产品污染控制管理办法（中国RoHS）中国客户National Instruments符合中国电子信息产品中限制使用某些有害物质指令(RoHS)。

INSTALLATION INSTRUCTIONS60-2119-05M436A/M836A,B Damper MotorsAPPLICATIONM436A/M836A,B Damper Motors are spring return (SR)motors used for residential and light commercial applications in Series 40 and Series 80 circuits.A 2-wire, line voltage thermostat or other line voltage, spst controller must be used to control the M436A. A 24V spst controller or thermostat without heat anticipation is required to operate the M836A. The M836B requires 24V thermostat with a 0.75 A heat anticipator adjustment.Each damper motor is supplied with a shaft coupling assembly and a crank arm assembly. With these accessories the motor shaft may be connected to the damper shaft directly or through a linkage.FEATURES•Motors provide two-position zone control.•Used to operate outdoor air dampers for combustion or makeup air, changeover dampers for heating and cooling systems, minimum position dampers for ventilation and similar applications.•Damper motors have an internal spdt switch forcontrolling auxiliary equipment, additional motors, or to provide a burner interlock switch.•M436 Damper Motors require 120 or 240 Vac, 60 Hz power; M836 Damper Motors require 24 Vac, 60 Hz power.•All models are supplied with a case and cover.•Spring returns motor to start position in event of power interruption or failure.•Hexagonal output shafts on both ends of motor with rotational direction stamped on motor case.•M436A and M836A equipped with thermal breaker for overload protection during lifting stroke or when motor stalls.•M836A Damper Motor with 128499 Bracket directly replaces M87A Damper Motor.•These damper motors operate:—Outdoor air dampers for combustion air in boiler rooms.—Backdraft dampers for exhaust fans.—Outdoor air inlet dampers for industrial makeup air units.—Changeover dampers for heating and cooling sys-tems.—Minimum position damper for ventilation from outdoor air.—Two-position zone control dampers.—Both motor types have an adjustable auxiliary switch (spdt) for operating auxiliary equipment or cascadingmotors, or to act as a burner interlock switch.M436A/M836A,B DAMPER MOTORS60-2119—052SPECIFICATIONSIMPORTANTThe specifications given in this publication do not include normal manufacturing tolerances. Therefore, an individual unit may not exactly match the listed specifications. Also, this product is tested and cali-brated under closely controlled conditions and some minor differences in performance can be expected if those conditions are changed.TRADELINE® Models:TRADELINE® models are selected and packaged to provide ease of stocking, ease of handling, and maximum replace-ment value. TRADELINE® model specifications are the same as those of the standard models except as noted below.TRADELINE® Models Available:M436A Damper Motor: 120 or 240 Vac, 60 Hz.M836A,B Damper Motors: 24 Vac, 60 Hz.Accessories: See Table 1. Crank arm, mounting bracket #198545, and shaft coupling bag assemblies are included with motors; brackets listed in Table 1 must be ordered separately.Additional Features:TRADELINE® pack with cross reference label and instruction sheet.Standard Models (See Table 2):M436A Damper Motor: 120 or 240 Vac spring return motor for use with two-wire thermostats or other spst controllers. Includes internal adjustable spdt switch for controlling aux-iliary equipment.M836A Damper Motor: 24 Vac spring return motor for use with spst controllers without heat anticipation. Includes internal adjustable spdt switch for controlling auxiliary equipment.M836B Damper Motor: 24 Vac spring return motor for use with spst controllers. If circuit has thermostat heat anticipation, set the anticipator at 0.75A. Includes internal adjustable spdt switch for controlling auxiliary equipment.aBreakaway torque is available to overcome an occasionally frozen or seized damper or valve. The motor must not be used continuously at this rating.b40 sec maximum.Ambient Temperature Rating: 32° to 125°F (0° to 52°C).Finish: Gray.Dimensions: See Fig. 1.Approvals:Underwriters Laboratories Inc. Listed (M436A, M836A):File No. E4436, Guide No. XAPX.Auxiliary Switch Ratings (In Amperes): See Table 3.Pilot Duty: 40 VA at 120 or 240 Vac.Auxiliary Switch Action:Spdt, normally open (R-B) contacts close during the power stroke and open during the return stroke. Can be adjusted to operate at any point between 5 and 70 degrees of motor stroke.Table 1. Accessories AvailableType Bag Assembly Bag Assembly Part Number Bracket Included BracketHeight Bracket16254AC 128499 2.25 in.Bracket - Mounting 7640JM 126809N/A Bracket 7640JN 1263360.5 in.Crank Arm 7640JL N/A N/A Shaft Coupling 7640JE N/A N/A Bracket1985451985452.25 in.Table 2. M436/M836 standard models.Model Number Voltage(Vac)Nominal Current (amperes)Nominal Power (watts)Maximum Load Torque (lb-in.)Breakawa y Torque a (lb-in.)Opening Time b (sec)Closing Time b (sec)DamperBlade Area (sq ft)Opening Holding Opening Holding M436A 1200.370.1227.08.5203030 (nominal)25 (nominal)132400.190.0627.08.5M836A 24 1.850.627.08.5203030 (nominal)25 (nominal)13M836B241.340.7320.311.2153025 (nominal)25 (nominal)10Table 3. Auxiliary switch ratings (in amperes).Power 120 Vac240 VacFull Load 7.2 3.6Locked Rotor43.221.6M436A/M836A,B DAMPER MOTORS360-2119—05Angular Stroke: 75 degrees.Weight: 4 lb, 10 oz (2.1 kg).Optional Specifications:M436 with crank arm.M436A Damper Motor, 50 Hz for international applications. Models for 220 or 240 Vac, with 50 second opening stroke, 25 second closing stroke. Includes ground and cover screws and 7640JL Bag Assembly.M836A Damper Motor, 50 Hz for international applications. Model is for 24 Vac, with 50 second opening stroke and 25 second closing stroke. Includes ground and cover screws and 7640JL Bag Assembly.Accessories:16254AC Bag Assembly, includes 128499 Mounting Bracket and screws (see Fig. 2 and 6).7640JE Bag Assembly, includes drive bushings, adapter, and coupling for direct drive (see Fig. 4 and 7).7640JL Bag Assembly, includes clamp and crank arm lever for crank arm drive (see Fig. 5 and 6).7640JM Bag Assembly, includes 126809 Mounting Bracket and screws (see Fig. 3, 4 and 7).7640JN Bag Assembly, includes 128336 Mounting Bracket and screws (see Fig. 2 and 6).4074BRU Bag Assembly, includes extension adapter and screws for mounting Q607 Auxiliary Switch to M436A Damper Motor.Q298B Linkage, includes damper crank arms, bushings, 1/4 in. (6.5 mm) and ball joint assemblies (see Fig. 6).Fig. 1. M436 and M836 Damper Motors dimensions in in. (mm).M436A/M836A,B DAMPER MOTORS60-2119—054Fig. 2. 128336, 128499 Mounting Brackets dimensions inin. (mm).Fig. 3. 198545 Bracket dimensions in in. (mm).Fig. 4. 126809 Bracket dimensions in in. (mm).INSTALLATIONWhen Installing this Product...1.Read these instructions carefully. Failure to follow them could damage the product or cause a hazardous condi-tion.2.Check the ratings and descriptions given on the product to make sure the product is suitable for your application.3.Installer must be a trained, experienced service techni-cian.4.After installation is complete, check out productopera-tion as provided in this specification.Can cause severe injury, death or property damage.1.Disconnect power supply before installation to prevent electrical shock or equipment damage.2.To prevent damage to the gear train, never turn the motor shaft by hand or with a wrench.3.Do not install the actuator in areas with acid fumes or other deteriorating vapors that might attack the metal parts of the motor.4.Do not install the actuator in areas with escaping gas or other explosive vapors that could be ignited by a spark from the actuator or attached accessories.Location and MountingIMPORTANTMount M436 and M836 Damper Motors with the shaft in the horizontal position.Install the motor in a location where the ambient temperature range is within 32° to 125°F, free from acid fumes or other deteriorating vapors that might attack the metal parts of theM436A/M836A,B DAMPER MOTORS560-2119—05motor. Also, make sure the location is free from escaping gas or other explosive vapors that could be accidentally ignited by a spark from the motor or its attached parts.Install the motor in a location that allows enough clearance for mounting accessories and for servicing.Locate as near as possible to the equipment to be controlled. The 198545 Mounting Bracket and 7640JE Bag Assembly are for direct coupling to the damper shaft from either end of the motor, depending upon the desired rotational direction.The 198545 Mounting Bracket may also be used for offset mounting with the 7640JL Bag Assembly and a standard damper linkage, such as Q605. 128336 Mounting Bracket must be used with 7640JL Bag Assembly and a standard damper linkage.Mounting brackets and crankarm drives are furnished with TRADELINE® models of these motors or can be ordered separately if required for the installation. Refer to the Accessories section for specifications, Fig. 2 and 4 for dimensions, and Fig. 5 through 8 for installation drawings.Fig. 5. Exploded view showing how to mount 7640JE Damper Shaft Coupling and 7640JM Mounting BracketAssembly to motor.Fig. 6. Exploded view showing how to mount 7640JLCrankarm Assembly to motor.Fig. 7. Offset mounting with 7640JL Crankarm Assemblyand Q298B Linkage.M436A/M836A,B DAMPER MOTORS60-2119—056Fig. 8. Damper motor directly coupled to damper using 7640JM Mounting Bracket Assembly and 7640JE DriveCoupling Assembly.WiringDisconnect the power supply before wiring to prevent electrical shock or equipment damage.Disconnect the power supply before beginning wiring toprevent electrical shock or equipment damage. All wiring must comply with local electrical codes, ordinances and regulations. Refer to Fig. 9 and 10 for typical hookup diagrams and to information furnished with the system equipment.Fig. 9. Typical wiring diagram for M436 Damper Motor.Fig. 10. Typical wiring diagram for M836 Damper Motor.ADJUSTMENT AND CHECKOUTAuxiliary Switch AdjustmentAdjust the internal spdt auxiliary switch of the M436/M836 Damper Motor to operate at any point between 5 degrees and 70 degrees of the motor stroke. The switch has a 1 to 2 degree nonadjustable differential. The switch makes R to B contact during the power stroke (motor shaft moves in the direction of the OPEN arrow on the outside of the case).Apply power to the motor so that the motor runs to the OPEN position. Note the point of the motor stroke where the switch operates (audible click or check for continuity across the R to B terminals) If the switch operates correctly for the application, proceed to check out the installation. If the switch needs to be adjusted, perform the following steps:1.Determine the number of degrees that the switch cam must be adjusted to operate the switch at the desired point of the motor stroke.IMPORTANTDo not adjust switch to operate closer than five degrees from the ends of the motor stroke.2.Remove the motor cover.To prevent electrical shock or equipment damage, disconnect the power supply before adjusting the switch cam.M436A/M836A,B DAMPER MOTORS760-2119—053.Insert a narrow bladed common-point screwdriver in a slot in the switch cam (white plastic) located near the center of the motor. Refer to Fig. 10. Each slot in the cam equals approximately 20 degrees of motor rotation.4.Select a reference point and move the cam the correct number of degrees, as follows:a.To adjust the switch to operate nearer the open(maximum rotation) motor position, move the cam in the direction of the CLOSE arrow on the outside of the motor case.b.To adjust the switch to operate nearer the closedmotor position, move the cam in the direction of the OPEN arrow on the outside of the motor case.Repower the motor and check the point at which the switch makes and breaks. Readjust as necessary.Fig. 11. Using screwdriver to adjust auxiliary switch cam.CheckoutOperate the motor through the complete open-close stroke.Be prepared to release one of the previously tightened linkage connections, if necessary, to prevent damage. Check for proper operation, making sure that the linkage does not bindand that the motor travels smoothly through the fully open and fully closed positions. Cut any excess linkage rod length to the correct size.Make necessary minor adjustments until desired operation is obtained and tighten all nuts and setscrews. A motor checkout should prove that:1.The motor operates the load.2.The motor responds properly to the controller.3.There is no linkage binding or motor stalling at any point of travel.If the motor does not operate properly, check for proper voltage or mechanical linkage or damper binding.LubricationTo assure long motor life, annually lubricate the felt padslocated on each of the motor bearings and on the two shafts in the gear train. See Fig. 11. Use Anderol® 465 Oil or an equivalent. Light sewing machine oil is an acceptableequivalent. Do not over lubricate. One drop at each lubrication point is sufficient.Fig. 12. M436/M836 Damper Motor lubrication points.M436A/M836A,B DAMPER MOTORSAutomation and Control Solutions Honeywell International Inc.1985 Douglas Drive NorthGolden Valley, MN 55422Honeywell Limited-Honeywell Limitée 35 Dynamic DriveToronto, Ontario M1V 4Z9 ® U.S. Registered Trademark© 2010 Honeywell International Inc. 60-2119—05 M.S. Rev. 10-10 Printed in U.S.A.By using this Honeywell literature, you agree that Honeywell will have no liability for any damages arising out of your use or modification to, the literature. You will defend and indemnify Honeywell, its affiliates and subsidiaries, from and against any liability, cost, or damages, including attorneys’ fees, arising out of, or resulting from, any modification to the literature by you.。

Solutions for Industrial Packaging MachinesMINAS A6 SERIESADDITIONAL TECHNICAL INFORMATIONFor Catalog 4247 Servo DrivesCONTENTS 2MINAS A6 SERIES – Servo drivers – Specifications (3)Basic specifications 200V AC (3)Functions 200V AC (4)Specifications 400V AC (5)Power supply for servo driver MINAS A6 Multi (6)Servo driver MINAS A6 Multi 400V AC (7)MINAS A6 SERIES – Servo drivers – Frames (8)200/400V AC (8)Power supply for servo driver MINAS A6 Multi (10)Servo driver MINAS A6 Multi 400V AC (10)MINAS A6 SERIES – Servo motors – Specifications (11)200V AC (11)MSMF (low inertia moment) 50–1500W, 200V AC (11)MDMF (medium inertia moment) 1000–1500W, 200V AC (12)MHMF (high inertia moment) 50–1500W, 200V AC (13)400V AC (14)MSMF (low inertia moment) 1kW–5kW, 400V AC (14)MDMF (medium inertia moment) 1kW–5kW, 400V AC (15)MHMF (high inertia moment) 200V–5kW, 400V AC (16)MINAS A6 SERIES – Servo motors – Torque characteristics (17)200V AC (17)MSMF (low inertia moment), 200V AC (17)MDMF (medium inertia moment), 200V AC (19)MHMF (high inertia moment), 200V AC (20)400V AC (22)MSMF (low inertia moment), 400V AC (22)MDMF (medium inertia moment), 400V AC (23)MHMF (high inertia moment), 400V AC (24)MINAS A6 SERIES – Servo motors – Dimensions (25)200V AC (25)MSMF (low inertia moment) 50–1500W, 200V AC (26)MDMF (medium inertia moment) 1000–1500W, 200V AC (28)MHMF (high inertia moment) 50–1500W, 200V AC (29)400V AC (31)MSMF (low inertia moment) 1kW–5kW, 400V AC (31)MDMF (medium inertia moment) 1kW–5kW, 400V AC (33)MHMF (high inertia moment) 200V–5kW, 400V AC (35)Basic specifications 200V ACFunctions 200V ACSpecifications 400V AC2) Please refer to the Collaboration catalog for suitable scale manufacturers and part numbers.3) Do not use a wireless LAN dongle in countries where the use of such a dongle is prohibited by law.Power supply for servo driver MINAS A6 MultiServo driver MINAS A6 Multi 400V ACXA:X1:USB1. Main circuit X2:RS232/4852. Control circuit X3:Safety function connectorXB:X4:I/O signals1. Braking resistor2. MotorX5:External encoder(encoder, linear scale, etc.)X6:EncoderFrame A, B200/400V ACAll dimensions are in mm Frame C, DXA: ①②XB: ①②(front mounting optional)Wall mountingFrame EFrame FAll dimensions are in mm3D-CAD data is available in stp format for downloading from our website:https://industry.panasonic.eu/service/downloadsFrame AFrame AFrame BFrame BPower supply for servo driver MINAS A6 MultiServo driver MINAS A6 Multi 400V ACAll dimensions are in mm200V AC□□ Motor type, see brochure Servo drives 4247euen page 20* Explanation, see MINAS A6 Series, Additional Technical Information page 12Radial load, P direction Thrust load, A and B direction *□□ Motor type, see brochure Servo drives 4247euen page 20* Explanation, see MINAS A6 Series, Additional Technical Information page 12400V AC□□ Motor type, see brochure Servo drives 4247euen page 22* Explanation, see MINAS A6 Series, Additional Technical Information page 12□□ Motor type, see brochure Servo drives 4247euen page 22* Explanation, see MINAS A6 Series, Additional Technical Information page 12MHMF (high inertia moment) 200W–1kW, 400V AC□□Motor type, see brochure Servo drives 4247euen page 22* Explanation, see MINAS A6 Series, Additional Technical Information page 12□□ Motor type, see brochure Servo drives 4247euen page 22* Explanation, see MINAS A6 Series, Additional Technical Information page 12200V ACMDMF (medium inertia moment), 200V ACMHMF (high inertia moment), 200V AC200V ACMHMF (high inertia moment), 200V AC400V ACMSMF (low inertia moment), 400V ACMDMF (medium inertia moment), 400V ACMHMF (high inertia moment), 400V ACMINAS A6 SERIES – SERVO MOTORS – TORQUE CHARACTERISTICSTICS 26MHMF (high inertia moment), 400V ACMSMF012L1 .Without brake With brakeWithout brake With brake200V ACMSMF (low inertia moment) 50–1500W, 200V ACTop view of the motor:›The encoder connection is rotated 30° to the axial direction of the motor for MSMF5AZL1 and MSMF012L1 . ›The brake connection is rotated 30° to the axial direction of the motor for MSMF5AZL1 and MSMF012L1 (only motors with holding brake).MSMF5AZL1 .MSMF (low inertia moment) 50–1500W, 200V ACLB1) Encoder connector (JN2)2) Brake connector 3) Motor connector1) Encoder connector (JN2)2) Brake connector 3) Motor connector1) Encoder connector (JN2)2) Motor/brake connectorNote: All illustrations show motors with holding brake.□LCøL A4x øLZ□LCøL A4x øLZ□□ Motor type, see brochure Servo drives 4247euen page 20R1) Encoder connector (JN2)2) Motor/brake connectorNote: Illustration shows motor with holding brakeMDMF (medium inertia moment) 1000–1500W, 200V AC□□ Motor type, see brochure Servo drives 4247euen page 20MDMF (medium inertia moment) 1000–1500W, 200V ACMHMF (high inertia moment) 50–1500W, 200V AC1) Encoder connector (JN2)2) Motor/brake connectorNote: All illustrations show motors with holding brake.MHMF (high inertia moment) 50–1500W, 200V AC□□ Motor type, see brochure Servo drives 4247euen page 20 * With oil sealMSMF (low inertia moment) 1kW–5kW, 400V AC400V ACMSMF (low inertia moment) 1kW–5kW, 400V ACMDMF (medium inertia moment) 1kW–5kW, 400V ACMDMF (medium inertia moment) 1kW–5kW, 400V AC□□ Motor type, see brochure Servo drives 4247euen page 22MHMF (high inertia moment) 200W–1kW, 400V AC□□Motor type, see brochure Servo drives 4247euen page 22MHMF (high inertia moment) 1kW–5kW, 400V ACMHMF (high inertia moment) 1kW–5kW, 400V AC□□ Motor type, see brochure Servo drives 4247euen page 22。

Rinstrum 1203 reference Manual1203WEIGHTTRANSMITTERReferenceManualFor use with SoftwareVersions 1.x1203-600 Rev 1.41. INTRODUCTION (4)1.1. Document Conventions (4)2. SPECIFICATIONS (5)3. INSTALLATION (6)3.1. Introduction (6)3.2. Power Supply (6)3.3. Load Cell Signals and Scale Build (6)3.4. Cable Shield Connection and Earthing (6)3.5. Load Cell Connection (7)Connection (7)3.5.1. 6-WireConnections (8)3.5.2. 4-Wire3.6. Intrinsic Safety (9)3.7. Serial Communication Ports (9)3.7.1. Serial 1: RS-232 Port (10)3.7.2. Serial 2: RS-485 Port (10)Networking (11)3.7.3. Multi-DropConnection (11)3.7.4. RS-232Connection (12)3.7.5. RS-4853.8. Input / Output: Setpoints (13)3.9. Input / Output: Inputs (14)3.10. Analog Output (15)3.11. LEDs (15)3.12. 1203 Viewer Software (15)4. CONTROLS (16)SETUP (17)5. DIGITAL5.1. Introduction (17)5.2. Basic Weighing Terminology (17)5.3. Direct mV/V Operation (18)5.4. Filtering Techniques (18)Filter (18)5.4.1. FIRAveraging (18)5.4.2. Digital6. CALIBRATION (19)6.1. Introduction (19)6.2. Digital Calibration with Test Weights (19)6.2.1. Digital Zero Calibration Routine (19)6.2.2. Digital Span Calibration Routine (19)6.3. Digital Direct mV/V Calibration (20)6.3.1. Digital Zero Calibration Routine (20)6.3.2. Digital Span Calibration Routine (20)6.4. Analog Output Calibration (20)6.4.1. Analog Calibration Routine (20)OUTPUTS (21)7. SERIAL7.1. Introduction (21)7.2. Automatic Weight Output (21)7.3. Networking the 1203 (21)7.3.1. RS-485Resistors (21)TerminationFUNCTIONS (22)8. EXTENDED8.1. Setpoints (22)8.1.1. Introduction (22)8.1.2. StatusIndication (22)8.1.3. Connection (22)8.1.4. Operation (22)8.1.5. Example 1: Control Level of Product in 2000kg Tank (23)8.1.6. Example 2: Control Weighing of Product Out of Silo into 100kg Drums (23)8.2. Remote Input (23)9. OPTIONS (24)9.1. Display/Keys (24)9.1.1. Installation (24)9.1.2. Setup and Calibration (24)10. COMMANDS (25)10.1. Overview (25)10.1.1. Commands and Queries (25)10.1.2. Responses (25)10.1.3. Parameters (25)10.1.4. Termination (25)10.2. Command Details (26)10.2.1. ACL: Set Automatic Temperature Calibration On/Off (26)10.2.2. ADR: Set Address (27)10.2.3. ANL: Set Analog Output (28)10.2.4. ANM: Set Analog Output Maximum and Minimum (29)10.2.5. ASF: Set Filtering (30)10.2.6. BDR: Set Baud Rate (31)10.2.7. COF: Set Output Format (32)10.2.8. ESR: Query Error Status (35)10.2.9. FCN: Execute A Function (36)10.2.10. HYS: Set Hysteresis (37)10.2.11. IAD: Set Scale Build (38)10.2.12. IDN: Set Identification (39)10.2.13. LDW: Calibrate Zero Dead Weight (40)10.2.14. LIV: Set Limit Value (41)10.2.15. LWT: Calibrate Span (42)10.2.16. MSV?: Query Measured Weight Value (43)10.2.17. RBT: Remote Button Settings (44)10.2.18. RES: Reset (46)10.2.19. SER: Set Serial Communications Settings (47)10.2.20. STP: Stop Continuous Transfer (48)10.2.21. Sxx: Select Unit (49)10.2.22. TAR: Tare (50)10.2.23. TDD: Load/Save Setup (51)11. APPENDIX (52)11.1. Glossary (52)11.2. List of Figures and Tables (52)12. INDEX (53)This is a “Table of Contents preview” for quality assuranceThe full manual can be found at /estore/catalog/ We also offer free downloads, a free keyboard layout designer, cable diagrams, free help andsupport. : the biggest supplier of cash register and scale manuals on the net。

AVL PRODUCT DESCRIPTIONProduct DescriptionPROFESSIONAL DATA POST-PROCESSINGAVL CONCERTO 4™EXPERIENCE THE HARMONYAVL CONCERTO 4™ is a graphical data evaluation and visualization software package specifically designed to handle all the different kinds of data that can be acquired on test beds or in the test bed environment and in vehicles. It is the ideal tool for professional data browsing and data management as well as for presentation, calculation, report generation and batch processing of the acquired data.The uniform access to different data sources - located on file servers or in data bases (e.g. ASAM ODS) - and different data formats (like indicating data, crank angle data, log point data or time based recorder data) makes additional data conversion tools unnecessary and also allows easy correlation of different kinds of data. AVL CONCERTO 4™ is designed to squeeze all required results out of the mass of acquired data.Due to its wizard support AVL CONCERTO 4™ is easy-to-use and intuitive. Creating sophisticated diagram displays or impressive reports is just a matter of a few mouse clicks and makesAVL CONCERTO 4™ to the engineers preferred tool for data evaluation within automotive industry.Areas of usageAVL CONCERTO 4™ is a unique tool for evaluating test bed data, analyzing engine maps, supporting calibration engineers, for file comparison to reference data, series data processing, analyzing dynamic test runs as well as combustion analysis, statistical evaluation, etc.AVL CONCERTO 4™ substantially reduces data processing time wherever:a large number of files with different contents has to be manageddata at different locations has to be organised logicallyrepeated tests have to be evaluateddata with different formats, resolutions or file lengths have to be combinedcalculations using standard or customer-specific algorithms have to be performedautomated (batch) or remote data processing is requiredfast and high quality printouts and reports are requiredetc.Characteristics of modern post-processing solutionsThe software package AVL CONCERTO 4™ focuses on the continuously growing and changing market requirements within the automotive industry. The following characteristics of software solutions for data post processing are combined and ideally achieved in AVL CONCERTO 4™ within one compact tool.Quick adaptation to changing requirements and safety of investment: due to quickly changing demands from the market, it becomes essential that solutions for new customer requirements are implemented in the evaluation software in short time. The software has to be flexible and open to assure that future demands for additional functions and extensions can be implemented. A continuous development has to provide the necessary integration of new standards and it has to consider new trends in engine development and engine calibration.Functionality and ease of use at the same time: the software has to fulfil different requirements from different user groups. On one hand it has to offer the maximum flexibility and power to the expert user, and on the other hand it has to be easy and safe to use for beginners.Data access and data management: the ever increasing amount of collected data, require quick and easy data access and flexible interfaces to implement further new data formats. Additionally the post-processing software must support the logical organisation, management and navigation through the measurement data. More than this, nowadays it is necessary to support numerous of different data types and professional data processing software has to be able to harmonize all this different data. To be effective AVL CONCERTO 4™ offers multiple conversion functionalities to get all the data in the same style.User and application support: for most efficient use it is crucial to have access to a professional, competent and fast support organisation. Problem solving support is the minimum requirement, but ideally the supplier of the evaluation software is capable of giving application support and developing customer specific solutions and applications.Additionally to these standard characteristics AVL CONCERTO 4™ provides you with additional essential benefits for the user.One window to engine development data: AVL CONCERTO 4™ offers access to different data formats independent from the type of data sources such as automation, indicating, emission,simulation, etc. Therefore all different data can be evaluated and analyzed within one single tool.The CONCERTO-DataExplorer provides a clear overview and the easy access to all supported formats.Global standards for data evaluation and comparison:AVL CONCERTO 4™ allows today’s globally acting users to exchange data and evaluation routines like layouts, formulas and scripts witha single click of a button. This is the basis for common worldwide engineering; it generatescomparable results and helps to improve data security as well as efficiency, and promotes standards within an organization.Time and cost saving through automation: the automation of repeatedly used procedures saves time and costs in the evaluation process, helps to reduce errors and ensures consistent, repeatable and comparable results in the data evaluation process. AVL CONCERTO 4™ supports automation procedures by using standard scripts as well as customer specific scripts.Fast growing range of applications: more than 8000 licenses of AVL CONCERTO 4™ are in daily use by engineers of the automotive industry worldwide. The feedback from these users make AVL CONCERTO 4™ a fast growing software package with new and optimized functionalities made available with every new release.Access to international support network:besides local supporters, an international team of software and application supporters is available to assist the customers to optimize the use AVL CONCERTO 4™ in accordance to the specific needs.Technical FeaturesIntuitive user interface: Drag-and-drop functionality, task oriented toolbars, wizards, dock-able windows, quick access to parameter settings via context-sensitive menus, etc.As a result AVL CONCERTO 4™ is easy to use, intuitive and requires minimum training. Property dialogs and data selection and visualization via comprehensive explorer trees for data and graphic objects help to reduce the time for daily data evaluation. Other strong points are easy and intuitive definition of diagrams and partly or fully automated data processing using flexible layouts, macros and scripts.Flexible data access: AVL CONCERTO 4™ offers interfaces not only to AVL specific data formats but also to customer specific data formats and to generic standardized database formats like ASAM ODS. Nowadays more than 30 data formats are supported and new formats become available with each new release to constantly broaden the application area of the software.DataExplorer:comprehensive overview and convenient access to all available files, data sets, formulas and result data, look and feel quite similar to MS Windows™ Explorer but deeper browser functionality down to single data channel level.Fast and easy data-search:The new data-search mechanism combined with a local SolR-index-based data server allows to search through all indexed data within milliseconds for relevant data. The indexing mechanism stores statistic information like minimum, maximum, average and standard deviation in addition to the file name, path and all channel names.Modularity and flexibility:To deal with the wide range of user levels and requirements, CONCERTO supports user groups, offering the full functionality and flexibility to expert users and configurable functionality and simple user interfaces for the standard users and beginners.Additionally the CONCERTO concept allows creating interactive and intuitive evaluation environments adapted for customer specific evaluation tasks, which make the full power of CONCERTO available to any user at the click of a button.Powerful display features:CONCERTO offers a wide range of visualization and presentation methods and objects (graphics, tables, lists, combined reports, etc.).CONCERTO offers manifold different diagram objects from simple 2D-diagrams (line-, bar-, stacked bar-, band-, x/y-, stair-diagrams, etc.) over 3D-diagrams (3D-engine-maps, waterfall-diagrams, 3D-bars, 3D-curves, etc.) up to specific diagrams (radar-diagrams, Campbell-diagrams, scatter-diagrams, pV-diagrams, indicating curves, full load curves with ISO-lines, etc.). The datasets can be time based as well as cycle based, crank angle based or log-point based.The usage of user definable layouts, templates and report windows and the possibility to combine test results from many different measurement systems makes CONCERTO a versatile data evaluation tool.ActiveX-Controls / Movie-Object:CONCERTO also allows you to insert ActiveX-Controls in its display windows. A Movie-Object can be displayed (e.g. AVI-File from simulation systems) synchronously to diagrams in which measurement data is displayed over time.Interactive Data Analysis:a wide set of cursor tools for detailed interactive analysis of data is accessible directly via the user interface in CONCERTO.Powerful calculation features:CONCERTO offers several powerful built-in tools for definition of calculation algorithms and data editing. To further extend the calculation power, an interface to Mathworks Matlab™ is available.Calculator: the calculator tool of CONCERTO enables the user to create single-line formulas (with up to 4 input variables) and transformation macro functions quickly and easily. In addition to several arithmetical and mathematical standard functions free definable macros can be included too. The knowledge of a programming language is not required.Formula/Script Editor- Formula Compiler:high-level programming tool for sophisticated evaluation algorithms and scripting.A large library of predefined functions for mathematics, statistics, combustion analysis, data handling,string handling, logical and Boolean operators, etc. is available and makes the creation of new formulas, scripts and macros easy. The Formula/Script Editor also supports a MS Intellisense™ like programming style.CalcGraf- graphical formula editor:the CalcGraf-tool allows calculations to be defined as graphical models. The models include single or multiple input channels that are transformed to single or multiple output channels via operators, function blocks, etc. Therefore it is used for fast creation of formulas for cycle-based as well as time-based datasets. No knowledge of a programming language is required.The comprehensive graphical visualization of complex calculations is an additional benefit of this tool.Automation possibilities: With the possibility of automating evaluation procedures, using macros, scripts and batch files, CONCERTO offers a great potential for time and cost saving. Reports can be created immediately after the test run or already during the test run automatically.Open interfaces: To ensure the extendibility and usability in quickly changing environments, CONCERTO offers standard interfaces to communicate with other application programs.CONCERTO supports customer-written file access, Active-X and COM, ASAM ODS (AVL Santorin) and ASAM CEA, import/export of graphs and tables, etc.Data correlation: data sets from different measurement types are correlated easily, e.g. test bed data and combustion datao Evaluation of inhomogeneous data: data sets of different length can be easily evaluated o Evaluation of manifold test bed data: stationary tests (log point-based), dynamic tests (e.g.full load curves), endurance tests, engine maps, emission measurements (e.g. full FTP cycles), combustion data (crank angle-/time-/cycle-based), etc.o Support of different data sources: local or network drive, host system, ASAM ODS database, SQL-access, etc.Wizards: easy creation of diagrams, reports, etc. for presentation and documentation with self-explaining step-by-step guidesAPI for customer-specific file access methodsTechnical information, licensing and packagesDesigned for Microsoft Windows 7 , Windows 8.1 and Windows 10Recommended PC configuration: Intel Core i5 2.5 GHz (or equivalent AMD ) processor, DVD-Drive, 1GB RAM (or higher)Single (via USB-dongle) or network licenses (via Network License Manager)Packages:- CONCERTO- Key:is the base package and provides a set of basic functions for generic data post-processing (e.g. 2D diagrams, tables, text objects, simple formula functions, access to basic file formats, etc.)- CONCERTO- Advanced for Indicating:incl. the full functionality of CONCERTO-Key and additional specific functions for combustion analysis tasks (e.g. CalcGraf with function library for combustion analysis, etc.)- CONCERTO- Advanced for Test Bed:incl. the full functionality of CONCERTO-Key and additional specific functions for test bed data evaluation (e.g. access to ASAM-ODS data bases, 3D engine maps, etc.)- CONCERTO- Premium:incl. full functionality of CONCERTO-Key, CONCERTO-Advanced for Indicating, CONCERTO-Advanced for Test Bed and additionally a set of expert functionalities (e.g.extended data access, COM- and Active-X-Interface, user interface - adaptability, etc.) - In addition to this preconfigured license packages further application oriented packages and optional extensions are available (e.g. for analysis of emission test data, evaluation of hybrid test bed data, extended combustion analysis like gas exchange or injection rate, etc.)。