HBM QuantumX MX1615B Operating Manual
  1. Manuals
  2. Brands
  3. HBM Manuals
  4. Amplifier
  5. MX1615B
  6. Operating manual

HBM QuantumX MX1615B Operating Manual

Hide thumbs Also See for QuantumX MX1615B:
Table of Contents

Advertisement

Quick Links

Operating Manual
English
X
Quantum

Advertisement

Table of Contents
loading
Need help?

Need help?

Do you have a question about the QuantumX MX1615B and is the answer not in the manual?

Questions and answers

Related Manuals for HBM QuantumX MX1615B

Summary of Contents for HBM QuantumX MX1615B

  • Page 1 Operating Manual English Quantum...
  • Page 2 Tel. +49 6151 803-0 Fax +49 6151 803-9100 info@hbm.com www.hbm.com Mat.: 7-2002.3031 DVS: A3031-15.0 HBM: public 04.2017 E Hottinger Baldwin Messtechnik GmbH. Subject to modifications. All product descriptions are for general information only. They are not to be understood as a guarantee of quality or...

  • Page 3: Table Of Contents

    ........6.4.5 Backplane with Ethernet connection ......Quantum A3031-15.0 HBM: public...
  • Page 4 ........Quantum A3031-15.0 HBM: public...
  • Page 5 ........Quantum A3031-15.0 HBM: public...
  • Page 6 ..........Quantum A3031-15.0 HBM: public...
  • Page 7 ..........Quantum A3031-15.0 HBM: public...

  • Page 8: Safety Instructions

    In the event of a fault, these precautions establish safe operating conditions. This can be done, for example, by mechanical interlocking, error signaling, limit value switches, etc. Quantum A3031-15.0 HBM: public...
  • Page 9 After making settings and carrying out activities that are password-protected, you must make sure that any controls that may be connected remain in safe condition until the switching performance of the module has been tested. Quantum A3031-15.0 HBM: public...
  • Page 10 S When cleaning, ensure that no liquid gets into the module or connections. Outputs Particular attention must be paid to safety when using the digital, analog or CAN bus outputs of a module. Ensure Quantum A3031-15.0 HBM: public...
  • Page 11 Consequences of non-compliance Averting the danger S Warning sign: draws attention to the danger S Signal word: indicates the severity of the danger (see table below) S Type of danger: identifies the type or source of the danger Quantum A3031-15.0 HBM: public...
  • Page 12 The supply connection, as well as the signal and sensor leads, must be installed in such a way that electromagnetic interference does not adversely affect device functionality (HBM recommendation: "Greenline shielding design", downloadable from the Internet at http://www.hbm.com/Greenline). Automation equipment and devices must be covered over in such a way that adequate protection or locking against unintentional actuation is provided (e.g.
  • Page 13 In particular, any repair or soldering work on motherboards (exchanging components) is prohibited. When exchanging complete modules, use only original parts from HBM. The module is delivered from the factory with a fixed hardware and software configuration. Changes can only be made within the possibilities documented in the manuals.
  • Page 14 It is also essential to comply with the legal and safety requirements for the application concerned during use. The same applies to the use of accessories. Quantum A3031-15.0 HBM: public...

  • Page 15: Electro Magnetic Conformity

    When used in residential or commercial environments, additional ar­ rangements may be required to limit electro-magnetic emissions. An example is voltage supply of the modules by battery. In this case please wrap the power supply cable Quantum A3031-15.0 HBM: public...
  • Page 16 (KAB271-3) around the inductive coil included in the package four times. ODU plug When the NTX001 power supply from HBM is used, the system complies with Emissions: Class B without the necessity to carry out the meaasure described above. Quantum...

  • Page 17: Markings Used

    Sampling rate, 500 Bold text in italics indicates inputs and input fields in the user interfaces. Emphasis Italics are used to emphasize and highlight text and See … identify references to sections, diagrams, or external documents and files. Quantum A3031-15.0 HBM: public...

  • Page 18: Symbols On The Device

    CE marking enables the manufacturer to guarantee that the product complies with the requirements of the relevant EC directives (the Declaration of Conformity can be found on the HBM website (www.hbm.com) under HBMdoc). Statutory waste disposal mark In accordance with national and local environmental...

  • Page 19: Introduction

    (e.g. QuantumX Assistant, cat­ man®EASY). Information about module and channel configuration can also be found here. EtherCAT® is a registered brand and patented technology, licensed by Beckhoff Automation GmbH, Germany Quantum A3031-15.0 HBM: public...

  • Page 20: The Quantumx Family

    96,000 measured values per channel per second). S MX430B QuantumX precision bridge measurement module. The module has 4 inputs and supports full bridge SG-based transducers with an accuracy class of 100 ppm. Quantum A3031-15.0 HBM: public...
  • Page 21 25 ppm. S MX460B Digital module (counter, frequency, timer) The module has 4 individually configurable inputs for connecting HBM torque measurement shafts (T12, T40, T10), rotational speed sensors, crankshaft sen­ sors with gap (TDC sensor), pulse width modulated...
  • Page 22 The module has 8 scalable voltage outputs and 32 configurable digital inputs/outputs. Signals can also be calculated in real time. All modules have the following in common: S Supply voltage range 10 … 30 V DC (nominal rated voltage 24 V DC) Quantum A3031-15.0 HBM: public...
  • Page 23 S Configurable sampling rate S Configurable digital filter (Bessel, Butterworth) S configurable scaling Sensors assigned using the sensor database can be cal­ ibrated via the channel and written back into the sensor database. TEDS = Transducer Electronic Data Sheet Quantum A3031-15.0 HBM: public...

  • Page 24: Module Overview/Transducer Technologies

    Introduction Module overview/transducer technologies Quantum A3031-15.0 HBM: public...

  • Page 25: Digitalization And Signal Path

    FireWire bus and the signals need to be made available "isochronously", for example, to be com­ puted and/or output via another module (analog, CAN, EtherCAT). To give this parallel operation optimum support, each QuantumX measurement channel generates two signals. Quantum A3031-15.0 HBM: public...

  • Page 26: Synchronization

    When modules such as the MX840B are set to this syn­ chronization mode and interconnected using a switch with PTP capability, they automatically synchronize with each other or a Grandmaster Clock. Transparent Clock (TC) mode is supported here. Quantum A3031-15.0 HBM: public...
  • Page 27 PTPv2, and included in the synchronization (auto­ matic clock distribution). The converted modules must be restarted. The system as a whole therefore supports the classic HBM sample rates only. Converted modules need to be restarted. After restart, check the system LEDs at the module front ­ green means synchronous.
  • Page 28 NTP master is being used. Modules located close together should be synchronized via IEEE1394b FireWire. If the synchronization source for a module is changed to NTP, the system must be restarted once. The HBM cat­ Quantum A3031-15.0 HBM: public...
  • Page 29 The amplifiers can record IRIG‐B signals of type B000 to B007 and B120 to B127. All modules connected via IEEE1394b FireWire are also automatically synchro­ nized. The coding includes the time, year and optionally the seconds of the day. Quantum A3031-15.0 HBM: public...
  • Page 30 (with recom­ mended PTPv2 switches up to 100 ns) Synchroniza­ Immediate Up to 20 s Up to 30 min Immediate Immediate tion settling (on initial during first time start­up) start, up to 2 min during restart Quantum A3031-15.0 HBM: public...
  • Page 31 Ethernet EtherCAT® IRIG-B FireWire (PTPv2) (NTP) Synchroniza­ Auto Auto oder External Syn­ External External tion 1 QuantumX Grandmas­ cMaster , SyncMaster IRIG-B master module ter‐ e.g. PC master Clock Voltage sup­ < 1.5 A, looped through Quantum A3031-15.0 HBM: public...
  • Page 32 (IEEE1394b FireWire to the modules) Auto Auto Auto Time base: NTP server Ethernet Synchronizing via Ethernet / NTP (without IEEE1394b FireWire) Time base: NTP server Ethernet switch CX27 or the module with the highest serial number Quantum A3031-15.0 HBM: public...
  • Page 33 The filter runtimes are shown in the respec­ tive data sheet. After booting and successful synchro­ nization, the system LED is lit green. If synchronization is disturbed, or not yet established, the system LED is lit orange. Quantum A3031-15.0 HBM: public...
  • Page 34 There are several synchronization methods to choose from (also see Fig. 4.1 page 33): S Synchronization via IEEE1394b FireWire S Synchronization via EtherCAT® (CX27) S Synchronization via NTP (Network Time Protocol) with IEEE1394b FireWire S Synchronization via NTP without IEEE1394b FireWire Quantum A3031-15.0 HBM: public...

  • Page 35: Software

    - Drivers for LabVIEW, Visual Studio .NET, CANape, DIAdem, MATLAB, mlab, InNova etc. - Windows device driver for IEEE1394b FireWire MX Assistant The HBM "QuantumX Assistant" software offers the fol­ lowing functions: System: S Create overview (modules, host PC) Modules:...
  • Page 36 S Map signals to CAN messages or route CAN to CAN, including adaptation of data types, and save configu­ ration as database (*.dbc) S Map signals to EtherCAT messages and save confi­ guration as database (*.esi) Quantum A3031-15.0 HBM: public...

  • Page 37: Catman®Ap

    S Write/Read sensor data sheets to TEDS S Add user-defined sensor data sheets, import CANdb (*.dbc) catman®AP The HBM "catman®AP" software is optimally suited for the following tasks: S Setting the communication and measurement chan­ nels (integrated TEDS editor and extendable sensor database) S Configuration of measurement or test tasks (chan­...
  • Page 38 S EasyScript is based on the current VBA standard (Visual Basic for Applications) and allows users to write their own scripts for individual measurement tasks S EasyMath allows mathematical post­process analysis and export of measurement data Quantum A3031-15.0 HBM: public...

  • Page 39: Labview® Driver / Library

    The HBM LabVIEW driver is based on the HBM com­ mon.NET API. The installation includes some examples and extensive help.

  • Page 40: Other Drivers

    S If you want to expand your system with new modules You can also determine the firmware status of your mod­ ules using the QuantumX Assistant: S Right­click on the computer in the device overview *> Details *> System overview Quantum A3031-15.0 HBM: public...

  • Page 41: Mechanical

    Protection against contact with No water protection fingers, protection against for­ eign substances with  >12 Both housing types can be connected together with the aid of two lateral housing clips (1-CASECLIP, not in­ Quantum A3031-15.0 HBM: public...

  • Page 42: Mounting Case Clips On Modules

    Case protection MX840 housing Cover Fig. 6.1 Amplifier MX840 with case protection The mounting of the housing clips shown in the following pictures must be implemented on both sides of the hous­ ing. Quantum A3031-15.0 HBM: public...
  • Page 43 Mechanical 2.5 a.f. Fig. 6.2 Removing the case protection Cover Fig. 6.3 Removing the cover Quantum A3031-15.0 HBM: public...
  • Page 44 Mechanical Case clip 2.5 a.f. Fig. 6.4 Mounting the case clip CASECLIP 2.5 a.f. Fig. 6.5 Mounting the case protection CASEPROT Quantum A3031-15.0 HBM: public...

  • Page 45: Connecting Housings

    Mechanical Connecting housings The following pictures show the connection of two hous­ ings. Press Fig. 6.6 Unclip the case clip CASECLIP Lever Catch Fig. 6.7 Unclip the lever and catch Quantum A3031-15.0 HBM: public...
  • Page 46 Mechanical Fig. 6.8 Close the lever Fig. 6.9 Connected housings Quantum A3031-15.0 HBM: public...

  • Page 47: Mounting The Housing With Casefit

    (RACK) allows up to 9 modules to be connected with hardly any wiring. The backplane also has two additional FireWire inter­ faces for integrating distributed modules or for direct con­ nection to a PC or data recorder. The IEEE1394b FireWire interfaces are actively interconnected. Quantum A3031-15.0 HBM: public...
  • Page 48 The BPX002 backplane for rack mounting in a 19” enclosure. The BPX002 backplane is an extension of the BPX001. Slot 9 Slot 1 Fig. 6.11 Example of QuantumX backplane fitting Quantum A3031-15.0 HBM: public...

  • Page 49: Connection

    VG strip Module connection IEEE1394b FireWire X1 / X2 (PC, external modules) Fuses with control LEDs 4 x 4 A/T Supply voltage 18 V ... 30 V DC 5 A max. Grounding Fig. 6.12 BPX001 connections Quantum A3031-15.0 HBM: public...

  • Page 50: Backplane Bpx001

    ( 6.5 mm). We recommend using the outer 4 drill holes for wall mounting. Notice Only use countersunk screws for fastening. Otherwise the modules cannot be mounted correctly. 56.75 140.75 229.75 318.75 407.75 Fig. 6.13 BPX001 drilling pattern and dimensions Quantum A3031-15.0 HBM: public...
  • Page 51 S Depending on the installation situation, sufficient vent­ ilation (vertical air flow) or cooling must be provided (the maximum total output on a backplane is approx. 150 watts) S The ventilation slots of the modules must not be covered (by cable ducts, etc.) Quantum A3031-15.0 HBM: public...

  • Page 52: Backplane Bpx002

    Mechanical 6.4.3 Backplane BPX002 214.5 482.6 448.5 Fig. 6.14 Rackmontage BPX002 6.4.4 Mounting the modules Tools We recommend a T-handle Allen wrench 4x150 (4 mm across flats, length 150 mm). Quantum A3031-15.0 HBM: public...
  • Page 53 (the screws are secured against falling out!). 3. Position the module vertically on the backplane and push it in carefully on the lower guide rail back up to the stop. Quantum A3031-15.0 HBM: public...
  • Page 54 Mechanical Upper screwed clamping gland 4,0 a.f. Opening for con­ nection to Ethernet Guide rails Lower screwed clamping gland Fig. 6.16 Mounting the module Fig. 6.17 Centering above the connection plug Quantum A3031-15.0 HBM: public...
  • Page 55 Mechanical 4. Tighten the lower then the upper screwed clamping gland. Fig. 6.18 Tightening the screwed clamping glands, sequence Quantum A3031-15.0 HBM: public...

  • Page 56: Backplane With Ethernet Connection

    The individual modules can also be connected directly via Ethernet on the back, with maximum sampling rate. In this case, no gateway is required. BPX001 + CX27 Fig. 6.19 Connecting a backplane via Ethernet Quantum A3031-15.0 HBM: public...

  • Page 57: Backplane With Ieee1394B Firewire Connection

    FireWire directly to a PC or data recorder. The second IEEE1394b FireWire socket on the back­ plane can be used to integrate distributed modules into the system. FireWire KAB293-5 BPX001 Fig. 6.20 Connecting a backplane via IEEE1394b FireWire Quantum A3031-15.0 HBM: public...

  • Page 58: System Layout With Several Backplanes

    6.4.7 System layout with several backplanes Multiple BPX backplanes can be synchronized via CX27 gateway modules. Connection of CX27 to CX27 via KAB272­2 or ­5, via front IEEE1394b FireWire connec­ tion. Fig. 6.21 Synchronizing multiple backplanes Quantum A3031-15.0 HBM: public...

  • Page 59: Connecting Individual Quantumx Modules

    We recommend installing an uninterruptible power supply (UPS) in vehicles with battery operation between battery and module to compensate for voltage drops during start procedures. Module Typical power consumption, includ­ ing transducer excitation (watts) MX840B MX440B MX410B MX430B MX238B MX460B Quantum A3031-15.0 HBM: public...
  • Page 60 The maximum permissible current on the IEEE1394b FireWire connection cable is 1.5 A. If the chain is longer, repeating the supply connection is mandatory. If several amplifiers are operated non-synchronously (see Fig. 7.3), they must be supplied separately. Quantum A3031-15.0 HBM: public...
  • Page 61 Connecting individual QuantumX modules NTX001 X104 1-Kab271-3 X101/X102 1-KAB272 FireWire Fig. 7.1 Connecting socket for supply voltage Quantum A3031-15.0 HBM: public...

  • Page 62: Connection To Host Pc Or Data Recorder

    KAB293-2 X100 Fig. 7.2 Single Ethernet connection Notice You must use an Ethernet crossover cable with older computers. Newer PCs/laptops have Ethernet interfaces with autocrossing function. You can also use Ethernet patch cables for this purpose. Quantum A3031-15.0 HBM: public...

  • Page 63: Multiple Ethernet Connection With Ptp Synchronization

    Modules can be connected to the PC via Ethernet PTPv2‐compliant switches. We recommend patch cables. Here are some examples: - EX23-R from HBM - Scalance XR324-12M from Siemens - RSP20 or MACH1000 from Hirschmann - Ha-VIS FTS 3100-PTP from Harting...

  • Page 64: Multiple Ethernet Connection And Firewire Synchronization

    Example of multiple connection via Ethernet with synchronization The supply voltage for the modules is looped through FireWire in the configuration shown above (max. 1.5 A through FireWire; for power consumption of the modules, see Chapter 7). Quantum A3031-15.0 HBM: public...

  • Page 65: Connecting One Or More Quantumx Modules To The Pc

    S FireWire adapter addressing (e.g. expressCard/34 or PCIexpress) at the PC or data logger end uses a pre­ viously installed Windows device driver from HBM, and cannot be modified. The modules are automatic­ ally addressed (plug­and­play and USB), and are available immediately.
  • Page 66 The network connection can be influenced by: S An activated WiFi connection on your PC: Switch off this connection, if necessary, and restart the network search. S The relevant scan ports not being enabled in the fire­ wall settings of your PC. Quantum A3031-15.0 HBM: public...
  • Page 67 Please set any PC directly connected to QuantumX to DHCP as well. S Manual configuration: Deactivate DHCP and enter the same subnet mask address as used with your PC. Change the IP address of your module so that it permits communication (see example below) Quantum A3031-15.0 HBM: public...
  • Page 68 172.21.108.51 255.255.248.0 Module after 172.21.108.1 255.255.248.0 The first three digit groups of the PC and module IP addresses should be the same. The subnet mask address digit groups must be identical in the module and PC! Quantum A3031-15.0 HBM: public...
  • Page 69 Connecting individual QuantumX modules Automatic configuration Module settings PC settings 172.21.108.1 Module settings 255.255.248.0 Manual configuration PC settings Fig. 7.5 Example of settings for a direct connection Quantum A3031-15.0 HBM: public...
  • Page 70 S Mark your LAN connection with a right-click and select “ ” Properties in the context menu. “ ” “ S Select the General tab and under This connection ” uses the following items mark Internet (TCP/IP). “ ” Click on the Properties button. Quantum A3031-15.0 HBM: public...
  • Page 71 “ ” address Subnet mask lines. Example: – Setting the IP address manually PC side Settings IP address Subnet mask Module before 169.1.1.22 255.255.255.0 PC / notebook before 172.21.108.51 255.255.248.0 PC / notebook after 169.1.1.1 255.255.255.0 Quantum A3031-15.0 HBM: public...
  • Page 72 “ ” S Activate the DHCP checkbox and click on . The following confirmation window then appears: “ ” S Confirm the settings with the button. The module will then be restarted with the current settings. Quantum A3031-15.0 HBM: public...

  • Page 73: Firmware Update Via Ethernet

    Firmware update via Ethernet We recommend that the firmware and software used to operate QuantumX are always kept up to date. S Download the latest firmware from the HBM website. ® If you do not work with catman , please download the QuantumX software package from the HBM website.

  • Page 74: Connection Via Firewire (Ieee 1394B)

    Connection via FireWire (IEEE 1394b) General information S Baud rate of 400 MBaud (approx. 50 MByte/s) S Asynchronous (all nodes) or isochronous (in real time) data transmission S Data synchronization S Supply voltage via FireWire connection cable (max. 1.5 A) Quantum A3031-15.0 HBM: public...

  • Page 75: Setting Up Firewire 1394B On The Pc

    Setting up FireWire 1394b on the PC S Integrate the FireWire PC adapter into your computer. S Start the Wizard provided by HBM to install the PC­FireWire driver. The Wizard is part of the Quan­ tumX system software package or catman.
  • Page 76 S The modules have not been properly registered. Click on the FireWire driver in the systray, check the driver after the modules and reinstall it if necessary (hbm1394.sys). S Check all connections between modules. Quantum A3031-15.0 HBM: public...

  • Page 77: Multiple Firewire Connection

    Example of multiple connection via FireWire with synchronization Data is transferred, modules are synchronized in timing and voltage is supplied via the FireWire connections. You can connect a maximum of 12 modules in series with each other. Quantum A3031-15.0 HBM: public...

  • Page 78: Layout With Data Recorder Cx22B-W

    Make certain that at least 10 V is still applied to the last module. 7.2.9 Layout with data recorder CX22B‐W 10 V ... 30 V DC (NTX001, etc.) Connection via Ethernet cable or wireless (WLAN) CX22B-W FireWire connection Fig. 7.8 Layout with CX22‐W Quantum A3031-15.0 HBM: public...

  • Page 79: Output Measurement Signals To Can Bus (Mx840B)

    CAN port. The parameterization is perman­ ently stored in the modules (EEPROM). To simplify integ­ ration at the opposite end (e.g. logger/test bench), the MX Assistant can generate a CAN database of signals (*.dbc). Quantum A3031-15.0 HBM: public...

  • Page 80: Output Of Signals With Standardized Voltage In Real Time (Mx878B Or Mx879B)

    These modules also allow on­board different input chan­ nel calculations, such as matrix calculation for compens­ ation of parasitic effects in multi­component transducers, ADD­MUL, PID controls or limit value switches. ® This mode is configured using the catman or MX As­ Quantum A3031-15.0 HBM: public...

  • Page 81: Output Signals In Real Time Via Ethercat® And In Parallel Via Ethernet

    Each source in a QuantumX system is distributed into two signals, to which different data rate and filtering para­ meters can be assigned. For example, the first signal of an input channel with a high data rate, e.g. acceleration sensor with 100 kS/sec Quantum A3031-15.0 HBM: public...

  • Page 82: Quantumx In The Firewire Group

    Ethernet 7.2.14 QuantumX in the FireWire group The number of modules connected in series (daisy chain) is limited to 12. If you want to connect more modules (maximum 24), you must use hubs. Hubs are devices Quantum A3031-15.0 HBM: public...
  • Page 83 Total number of modules: 15 Total number of hops: 12 QuantumX module Data sink Longest chain to data sink (max. 12) P3 = Port 3 Fig. 7.13 Example of a star topology with two chains and one Quantum A3031-15.0 HBM: public...

  • Page 84: Modules And Transducers

    (EMI) and the permissible electromag­ netic interference emissions (EME), has become increas­ ingly important over the years. The HBM Greenline shielding design The measuring chain is completely enclosed by a Faraday cage by appropriate routing of the cable shield.
  • Page 85 EMC-proof shield. Shield junc­ tions must represent a full contact, closed and low-im­ pedance connection. This is the case for original HBM plug connections. Ground connection and grounding...

  • Page 86: Active Transducer Connection

    (or shielding) are designed to be physically separ­ ate in the HBM devices. The grounded supply connector or a separate ground potential lead should serve as the ground connection, as is the case for potential compens­...
  • Page 87 Adjustable via software Hsg. = Housing CAUTION Check the correct voltage setting when connecting a sensor. Too high a voltage can destroy the sensor. The sensor supply is switched off in condition at the time of delivery. Quantum A3031-15.0 HBM: public...

  • Page 88: Teds

    S the unit of the electrical output signal (mV/V for bridge transducers, for example) S the linear characteristics as the relation between the measured quantity and the electrical signal Quantum A3031-15.0 HBM: public...
  • Page 89 S Amplifiers with direct connection of IEPE transducers support TEDS Version 1.0. S A special TEDS module is integrated in some HBM transducers. It can transmit TEDS data via the feed­ back line of a sensor (patented "zero‐wire circuit").
  • Page 90 The bridge between Pin 4 and Pin 9 is used for plug identification of the transducer. It starts automatic read­ ing of the TEDS. ® HBM recommends the TEDS­module (1­Wire EEP­ ROM) DS24B33 from Dallas Maxim. HBM offers a pack­ age with 10 TEDS: order no. :1-TEDS-PAK Quantum A3031-15.0 HBM: public...

  • Page 91: Background Calibration / Autoadjustment

    Background calibration briefly interrupts measurement and - in place of the measured values from the trans­ ducer - sends signals from an internal calibration source to the AD converter (zero and reference signal). Quantum A3031-15.0 HBM: public...
  • Page 92 Background calibration can be parameterized with the QuantumX Assistant or using catmanEASY®. Background calibration is switched on the default set­ tings. The cyclical calibration can be parameterized the QuantumX Assistants and via catmanEASY®. Quantum A3031-15.0 HBM: public...

  • Page 93: Mx840/A/B Universal Amplifier

    D­SUB­15HD. All measuring channels are electrically isolated from one another and from the mains. When us­ ing the adjustable transducer excitation, electrical isola­ tion from the supply voltage of the amplifier is not re­ quired. Quantum A3031-15.0 HBM: public...
  • Page 94 High-voltage via external adapter 1 ... 8 (300 V CAT II) Electrical current 1 ... 8 Piezoresistive transducer 1 ... 8 Current-fed piezoelectric transducer ICP® (IEPE, ) via an external ad­ 1 ... 8 apter Potentiometer 1 ... 8 Quantum A3031-15.0 HBM: public...

  • Page 95: Mx840B Pin Assignment

    1 ... 8 PT1000 Thermocouple 1 ... 8 Incremental encoder 5 ... 8 from 157 SSI protocol 5 ... 8 Torque/speed (HBM torque trans­ 5 ... 8 158, 166 ducer) Frequency measurement, pulse 5 ... 8 from 157 counting CAN bus 8.2.1...
  • Page 96 (+) signal differential, SSI data (+) Active sensor supply 5 ... 24 V (0 V) Active sensor supply 5 ... 24 V (+) Current input "30 mA (+) Voltage input 10 V (+), 60 V (+) Digital output Quantum A3031-15.0 HBM: public...

  • Page 97: Mx840B Status Display

    Boot procedure running (system is not ready) All LEDs are flashing Firmware download active (system is not ready) orange Orange Connection newly assigned, transducer identification running (calibration) Green Error-free operation Flashing green (5s), TEDS data being read in then green Quantum A3031-15.0 HBM: public...

  • Page 98: Mx440B Universal Amplifier

    15-pin D-SUB-15HD device connectors. All measuring channels are electrically isolated from one another and from the power supply. Connectable transducer types and the status display are identical with the universal amplifier MX840A (without CAN) (see page 97). Quantum A3031-15.0 HBM: public...
  • Page 99 Flashing orange (5 s), then Manual configuration ongoing (ignore TEDS) green No sensor connected Channel error (incorrectly parameterized, connection error, invalid TEDS data) General rule: Brief flashing  TEDS identified (green: is used, orange: is not used). Quantum A3031-15.0 HBM: public...

  • Page 100: Mx410B Highly Dynamic Universal Amplifier

    1 ... 4 SG half bridge 1 ... 4 SG quarter bridge via adapter 1 ... 4 Inductive full bridge 1 ... 4 Inductive half bridge 1 ... 4 Electrical voltage 1 ... 4 146, 147 Quantum A3031-15.0 HBM: public...

  • Page 101: Mx410B Pin Assignment

    Pin 4 and Pin 9 in the connector plug must be bridged! If this bridge is missing, no measurement values will be recorded at the connec­ tion! Bridge Fig. 8.5 Pin arrangement of connector plug, view from the solder side Quantum A3031-15.0 HBM: public...
  • Page 102 Current input "30 mA (+) Voltage input 10 V, IEPE (+) Digital output, for external charge amplifier, etc., 5 V/max. 10 mA The analog output can be tapped via BNC. For configura­ tion instructions see section 10 "Functions and outputs". Quantum A3031-15.0 HBM: public...

  • Page 103: Mx410B Status Display

    Firmware download active (system is not ready) orange Orange Connection newly assigned, transducer identification running (calibration) Green Error-free operation Flashing green (5s), TEDS data being read in then green Flashing orange (5 s), Manual configuration ongoing (ignore TEDS) then green Quantum A3031-15.0 HBM: public...
  • Page 104 MX430B. The transducers are connected via 15-pin D-SUB-15HD device connectors. All measuring channels are electrically isolated from one another and from the power supply. MX430B connectable transducers Transducer type Connection sockets See page SG full bridge 1 ... 4 Quantum A3031-15.0 HBM: public...

  • Page 105: Mx430B Pin Assignment

    Bridge excitation voltage (+) Always connect with Pin 9! (Plug-in detection) Measurement signal (+) TEDS (-) Sense lead (-) Sense lead (+) Signal ground Measurement signal (-) Active sensor supply 5 ... 24 V , (-) Quantum A3031-15.0 HBM: public...

  • Page 106: Mx430B Status Display

    System is not ready, boot procedure running Flashing orange Download active, system is not ready Error Connection LEDs All LEDs are orange Boot procedure running (system is not ready) All LEDs are flashing Firmware download active (system is not ready) orange Quantum A3031-15.0 HBM: public...
  • Page 107 You can connect up to four transducers to the universal amplifier MX238B. The transducers are connected via 15-pin D-SUB-15HD device connectors. All measuring channels are electrically isolated from one another and from the power supply. Quantum A3031-15.0 HBM: public...

  • Page 108: Mx238B Pin Assignment

    Bridge Fig. 8.9 Pin arrangement of connector plug, view from the solder side Connector TEDS (+) Bridge excitation voltage (-) Bridge excitation voltage (+) Always connect with Pin 9! (Plug-in detection) Measurement signal (+) Quantum A3031-15.0 HBM: public...

  • Page 109: Mx238B Status Display

    Active sensor supply 5 ... 24 V (+) Free Free Digital output 8.6.2 MX238B status display System LED Connection LED Fig. 8.10 MX238B front view System LED Green Error-free operation Orange System is not ready, boot procedure running Quantum A3031-15.0 HBM: public...

  • Page 110: Mx460B Frequency Amplifier

    General rule: Brief flashing  TEDS identified (green: is used, orange: is not used). MX460B frequency amplifier You can connect up to four transducers to the frequency measuring amplifier MX460B. The transducers are con­ nected via 15-pin D-SUB-15HD device connectors. All Quantum A3031-15.0 HBM: public...

  • Page 111: Mx460B Pin Assignment

    MX460B connectable transducers Transducer type Connection sockets See page Torque/speed (HBM torque 1 ... 4 158, 166 transducer) Frequency measurement, pulse 1 ... 4 from 157...
  • Page 112 Active sensor supply 5 ... 24 V (-) Active sensor supply 5 ... 24 V (+) Not in use AC+ (for passive inductive transducers) Digital output, for example to activate a calibration signal for T10F(S) and T40, 5 V/max. 10 mA Quantum A3031-15.0 HBM: public...

  • Page 113: Mx460B Status Display

    Green Error-free operation Flashing green (5s), then TEDS data being read in green Flashing orange (5 s), then Manual configuration ongoing (ignore TEDS) green No sensor connected Channel error (incorrectly parameterized, connection error, invalid TEDS data) Quantum A3031-15.0 HBM: public...

  • Page 114: Mx1609Kb And Mx1609Tb Thermocouple Amplifier

    Up to 16 type T thermocouples (Cu-CuNi) can be con­ nected to the module MX1609T/TB for measuring tem­ peratures. Connectable to MX1609 transducers Transducer type Connection sockets See page Thermocouple type K, type T 1 ... 16 Quantum A3031-15.0 HBM: public...
  • Page 115 MX1609 Thermocouple Type Thermocouple material 1 (+) Thermocouple material 2 (–) Nickel-chrome (color code green) Nickel-aluminum (color code white) Copper (color code brown) Copper-nickel (color code white) Connection of the thermocouple plug in the miniature design. Quantum A3031-15.0 HBM: public...

  • Page 116: Thermocouple With Teds Functionality (Rfid)

    C or K). Data is entered with the quired physical unit ( TEDS Editor provided by HBM. It is then written to the RFID chip via a corresponding RFID transponder in the amplifier.
  • Page 117 S Maximum distance chip to housing: 1 mm S For self-assembly: Check position of chip on plug Thermocouple plug with integrated RFID chip from RFID chip The chip for measuring point identification is already in­ tegrated in the HBM THERMO-MINI. Quantum A3031-15.0 HBM: public...

  • Page 118: Mx1609 Status Display

    Connection newly assigned, transducer identification run­ ning (calibration) Green Error-free operation ("Ignore TEDS" or "if available" set, channel is manually configured) Flashing green (5s), then Error-free operation ("Use TEDS" or "if available" set green and TEDS data valid) Quantum A3031-15.0 HBM: public...

  • Page 119: Mx471B Can Module

    (e.g. rotational speed or engine temperature). The identifier also signifies the priority of the message. Message = identifier + signal + additional information Device connected to the bus = node Quantum A3031-15.0 HBM: public...
  • Page 120 For decoding signals at a rate greater than 2000/s, please set up signal inputs 1 to 8 on the MX471. The sig­ nal buffers of these signal inputs have been expanded accordingly. Quantum A3031-15.0 HBM: public...

  • Page 121: Mx471B Pin Assignment

    Modules and transducers 8.9.2 MX471B pin assignment Fig. 8.14 Pin arrangement of connector plug, view from the solder side Connector No function CAN Low No function CAN Shield CAN High No function No function Quantum A3031-15.0 HBM: public...

  • Page 122: Leds Status Display

    Bus is error-free and no activity on CAN Yellow flickering Intermittent bus errors (warning) and activity on CAN Constant yellow Intermittent bus errors (warning) and no activity on CAN Red on Bus error, CAN interface in "Bus-OFF" status Quantum A3031-15.0 HBM: public...

  • Page 123: Receiving Can Messages

    Editors for this purpose are provided by different companies. Received CAN messages are instantly "time-stamped" in measurement mode. This enables directly acquired measured quantities and CAN messages to be acquired and analyzed in parallel and synchronously in the entire system. Quantum A3031-15.0 HBM: public...

  • Page 124: Mx1601B Amplifier

    So that insertion or removal of a transducer connection can be unmistakably identified, Pin 2 and Pin 5 in the connector plug must be bridged! If this bridge is missing, no measurement values will be recorded at the connec­ tion! Quantum A3031-15.0 HBM: public...
  • Page 125 Voltage output 10 V (+), 100 mV (+), IEPE (+) Signal ground, TEDS (-) Current input 20 mA (+) TEDS (+) Always connect with Pin 2! (Plug-in detection) Active sensor supply (+) Active sensor supply (-) Housing (shield connection) Quantum A3031-15.0 HBM: public...

  • Page 126: Mx1601B Status Display

    The front panel of the universal amplifier has a system LED and 16 connection LEDs. The system LED indicates the status of the device, the connection LEDs the states of the individual connections. Connection LED System Connection LED Fig. 8.17 MX1601B front view Quantum A3031-15.0 HBM: public...
  • Page 127 Manual configuration ongoing (ignore TEDS) then green Amplifier overload, no sensor connected Channel error (incorrectly parameterized, connection error, invalid TEDS data) Flashing red Sensor supply overload General rule: Brief flashing  TEDS identified (green: is used, orange: is not used). Quantum A3031-15.0 HBM: public...

  • Page 128: Mx1615B Amplifier

    0.5 V; 1 V, 2.5 V or 5 When TEDS or T−ID is used, the measurement channel is automatically parameterized after connection. Extended functionality for MX1615B : S Potentiometer When TEDS or T­ID is used, the measurement channel is automatically parameterized after connection. Quantum A3031-15.0 HBM: public...
  • Page 129 Potentiometer (only MX1615B) 1 ... 16 The transducers are connected via 8-pin plug terminal connectors (Phoenix Contact FMC 1.5/8-ST-3.5-RFBKBD1-8Q). The measurement channels are only electrically isolated from the power supply of the MX1615, not from each other. Quantum A3031-15.0 HBM: public...

  • Page 130: Mx1615B Pin Assignment

    This is automatically so for all bridge transducers. The bridge only needs to be completed for voltage measurements. If this bridge is missing, no measurement values will be recorded at the connection! Quantum A3031-15.0 HBM: public...
  • Page 131 Bridge excitation voltage (-), (TEDS) (-) Sense lead (-) Measurement signal (+), voltage input 10 V / 30 V (+) Measurement signal (-), voltage input 0 V / 10 V (-), bridge excitation voltage (+) for quarter bridges Housing (shield connection) Quantum A3031-15.0 HBM: public...

  • Page 132: Mx1615B Status Display

    Connection LEDs All LEDs are orange Boot procedure running (system is not ready) All LEDs are flashing orange Firmware download active (system is not ready) Orange Connection newly assigned, transducer identification running (calibration) Green Error-free operation Quantum A3031-15.0 HBM: public...
  • Page 133 Manual configuration ongoing (ignore TEDS) green Amplifier overload, no sensor connected Channel error (incorrectly parameterized, connection error, invalid TEDS data) Flashing red Sensor supply overload General rule: Brief flashing  TEDS identified (green: is used, orange: is not used). Quantum A3031-15.0 HBM: public...

  • Page 134: Transducer Connection

    Sense lead (-) 2 Data 3 No function 1 2 3 1-wire EEPROM (optional) view from below Hsg. = Housing Cable color code: wh= white; bk= black; bu= blue; rd= red; ye = yellow; gn= green; gy= gray Quantum A3031-15.0 HBM: public...

  • Page 135: Full Bridge, Inductive

    Sense lead (-) 2 Data 1 2 3 3 No function 1-wire EEPROM (optional) Hsg. = Housing view from below Cable color code: wh= white; bk= black; bu= blue; rd= red; ye = yellow; gn= green; gy= gray Quantum A3031-15.0 HBM: public...

  • Page 136: Full Bridge, Piezoresistive

    Measurement signal (+) Excitation (-) Excitation (+) Measurement signal (-) Cable shield Hsg. Sense lead (+) Sense lead (-) 2 Data 3 No function 1 2 3 1-wire EEPROM (optional) view from below Hsg. = Housing Quantum A3031-15.0 HBM: public...

  • Page 137: Half Bridge, Sg

    Sense lead (-) 2 Data 1 2 3 3 No function 1-wire EEPROM (optional) view from below Hsg. = Housing Cable color code: wh= white; bk= black; bu= blue; rd= red; ye= yellow; gn= green; gy= gray Quantum A3031-15.0 HBM: public...

  • Page 138: Half Bridge, Inductive

    Sense lead (-) 2 Data 1 2 3 3 No function 1-wire EEPROM (optional) view from below Hsg. = Housing Cable color code: wh= white; bk= black; bu= blue; rd= red; ye = yellow; gn= green; gy= gray Quantum A3031-15.0 HBM: public...

  • Page 139: Quarter Bridge, Sg

    Cable shield Cable color code: wh= white; bk= black; 2 Data bu= blue; rd= red; 1 2 3 ye = yellow; 3 No function gn= green; 1-wire EEPROM (optional) gy= gray Hsg. = Housing view from below Quantum A3031-15.0 HBM: public...

  • Page 140: Adapter Quarter Bridge, Sg

    MX840B, MX440B, MX430B, MX238B, MX410B Available adapters SG with 120 ohms: order number: SCM-SG120 Variations:SCM-SG350, SG700, SG1000 1’ Solder pads SG 120 / 350 For technical details see the leaflet entitled QuantumX / SCM-SG120/350/700/1000. Quantum A3031-15.0 HBM: public...

  • Page 141: Connecting Transducers With Double Shield Technique

    This applies for all bridge connections. With cable lengths >50 m, a resistor with half the value of the bridge resistance (RB/2) must be connected in each sense lead of the transducer. Quantum A3031-15.0 HBM: public...

  • Page 142: Potentiometric Transducers

    Transducer connection Potentiometric transducers Supported by the following modules: MX840B, MX440A, MX1615B MX1615B Push in Measurement signal (+) Cable shield Hsg. 2 Data 3 No function 1 2 3 1-wire EEPROM (optional) (view from below) Quantum A3031-15.0 HBM: public...

  • Page 143: Lvdt Transducers

    Measurement signal (+) Excitation (-) Excitation (+) Measurement signal (-) Hsg. Cable shield Sense lead (+) Sense lead (-) 2 Data 1 2 3 3 No function 1-wire EEPROM (optional) view from below Hsg. = Housing Quantum A3031-15.0 HBM: public...

  • Page 144: Current-Fed Piezoelectric Transducer (Icp/Iepe)

    IEPE is short for "Integrated Electronics Piezo Electric"  ) is a registered trademark of "PCB Piezotronics". Supported by the following modules: MX410B, MX1601B MX840B, MX440B An adapter on SubHD15 (1­SUBHD15­BNC) is available for connecting IEPE transducers with a BNC connector. Quantum A3031-15.0 HBM: public...
  • Page 145 Transducer connection MX1601B Push in BNC adapter option (1-SUBHD15-BNC) IEPE Cable shield Hsg. Hsg. = Housing Notice IEPE transducers with TEDS version 1.0 are supported. Quantum A3031-15.0 HBM: public...

  • Page 146: Electrical Voltage 100 Mv

    Cable shield 2 Data 3 No function 1-wire EEPROM (optional) 1 2 3 view from below Hsg. = Housing 5 V … 24 V: Adjustable sensor supply: Pin 12 Pin 6 0 V: Pin 11 Pin 7 Quantum A3031-15.0 HBM: public...

  • Page 147: Dc Voltage Sources 10 V

    Pin 6 0 V: Pin 11 Pin 7 MX1601B: Only channels 1-8 offer an individual sensor supply of 5-24 V Channels 9-16 can be activated with a fixed sensor sup­ ply (-1 V module supply voltage). Quantum A3031-15.0 HBM: public...

  • Page 148: Dc Voltage Sources 60 V

    5 V … 24 V: Sensor supply: Pin 12 Pin 6 0 V: Pin 11 Pin 7 MX840B and MX440B: You can select two measuring ranges (10 V or 60 V), depending on the parameterization. Quantum A3031-15.0 HBM: public...

  • Page 149: Voltage Sources Up To 300 V (Cat Ii)

    The PC software is capable of linearizing the input and saving it to the ad­ apter. Separate operating instructions are included in the scope of delivery for the SCM‐HV. Measurement voltage 300 V DC / 300 V eff. Quantum A3031-15.0 HBM: public...

  • Page 150: Dc Current Sources 20 Ma

    1 2 3 3 No function 1-wire EEPROM (optional) Hsg. = Housing view from below 5 V … 24 V: Pin 6 Adjustable sensor supply: Pin 12 Pin 7 0 V: Pin 11 Maximum current "30 mA Quantum A3031-15.0 HBM: public...

  • Page 151: Dc Current Sources 20 Ma - Voltage-Fed

    3 No function 1 2 3 1-wire EEPROM (optional) Hsg. = Housing view from below 5 V … 24 V: Adjustable sensor supply: Pin 12 Pin 6 0 V: Pin 11 Pin 7 Maximum current "30 mA Quantum A3031-15.0 HBM: public...

  • Page 152: Ohmic Resistance (E.g. Ptc, Ntc, Kty

    Hsg. When connecting a two-wire sensor, wire bridges must be soldered in the connector (between measurement line and supply) 2 Data 3 No function 1 2 3 1-wire EEPROM (optional) Hsg. = Housing view from below Quantum A3031-15.0 HBM: public...

  • Page 153: Resistance Thermometer Pt100, Pt1000

    Supported by the following modules: PT100 / PT1000: MX840B, MX440BA PT100: MX1615B MX1615B Push in Four-wire circuit  Cable shield Hsg. 2 Data 3 No function 1 2 3 1-wire EEPROM (optional) Hsg. = Housing view from below Quantum A3031-15.0 HBM: public...

  • Page 154: Thermocouples

    SubHD plug (see next page). Connection for MX840B, MX440B Maximum input voltage to housing and supply ground: "60 V Thermocouple 1-THERMO-MX BOARD (soldered into the Sub-HD connector plug and contains a cold spot compensation element and TEDS) Quantum A3031-15.0 HBM: public...
  • Page 155 MX840B or MX440B, you must solder the "1-THERMO-MX BOARD" board into the connector plug. Position of board in plug PT1000 PINs to be soldered S Insert the 1-THERMO-MX BOARD in the correct posi­ tion between the plug pins Quantum A3031-15.0 HBM: public...
  • Page 156 S PIN 1 TEDS PIN 6 TEDS PIN 5 Thermocouple (+) PIN 10 Thermocouple (-) PIN 9 Signal ground PIN 7 PT1000 cold junction PIN 8 PT1000 cold junction PIN 2 Excitation (-) PIN 3 Excitation (+) Quantum A3031-15.0 HBM: public...

  • Page 157: Frequency, Differential, Without Directional Signal

    Supported by the following modules: MX840B, MX440B, MX460 NOTE Maximum input voltage: 5 V to ground Differential signal (RS 485); schematic diagram 200 mV HBM torque transducer: Signal level: TTL only Voltage supply: separate Plug 1 Cable shield Hsg. Shunt calibration...

  • Page 158: Frequency, Differential, With Directional Signal

    Supported by the following modules: MX840B, MX440B, MX460B NOTE Maximum input voltage: 5 V to ground Differential signal (RS 485); schematic diagram 200 mV HBM torque transducer: Signal level: TTL only Voltage supply: separate bk and Plug 2 Ground Cable shield Hsg.

  • Page 159: Frequency, Single-Pole, With Directional Signal

    1.5 V Industrial Hsg. pulse Cable shield encoder 2 Data 3 No function 1 2 3 1-wire EEPROM (optional) view from below Hsg. = Housing Adjustable sensor supply: Pin12: 5 V ... 24 V Pin 11: Quantum A3031-15.0 HBM: public...

  • Page 160: Encoder And Pulse Encoder, Differential

    Zeroing pulse - Industrial Hsg. Cable shield pulse encoder 2 Data 3 No function 1 2 3 1-wire EEPROM (optional) view from below Hsg. = Housing Adjustable sensor supply: Pin12: 5 V ... 24 V Pin 11: Quantum A3031-15.0 HBM: public...

  • Page 161: Encoder And Pulse Encoder, Single-Pole

    Hsg. Cable shield Zeroing pulse + 2 Data 3 No function 1 2 3 1-wire EEPROM (optional) Hsg. = Housing view from below Adjustable sensor supply: Pin12: 5 V ... 24 V Pin 11: Quantum A3031-15.0 HBM: public...

  • Page 162: Rotary Encoder And Pulse Generator, Single Pole With Static Directional Signal

    3,5 V 1,5 V Left Impulse Direction Industrial pulse gen­ eratos Hsg. Cable shield Zeroing pulse + Not included in TEDS standard Hsg. = Housing Adjustable sensor supply: Pin12: 5 V ... 24 V Pin 11: Quantum A3031-15.0 HBM: public...

  • Page 163: Absolute Value Encoder With Ssi Protocol

    They can include current tem­ perature values of the encoder or the electrical data of the servo motor on which the encoder is mounted (the "electronic rating plate") Supported by the following modules: MX840, MX840B, MX440B Quantum A3031-15.0 HBM: public...
  • Page 164 = Data (-) 1 (-) = Data (+) 1 (+) = Shift clock (-) 2 (-) = Shift clock (+) 2 (+) Adjustable sensor supply: Pin12: 5 V ... 24 V Pin 11: Hsg. = Housing Quantum A3031-15.0 HBM: public...

  • Page 165: Passive Inductive Encoder (Pickups, Crankshaft Sensor)

    "60 V Cable shield Hsg. Ground Example for a crankshaft wheel with gap Crankshaft sensor / OT sensor 3 No function 2 Data 1 2 3 1-wire EEPROM (optional) view from below Hsg. = Housing Quantum A3031-15.0 HBM: public...

  • Page 166: Measurement Of Rotational Speed, Crankshaft Sensor (Digital, Ttl)

    1-wire EEPROM (optional) view from below Hsg. = Housing Adjustable sensor supply: Pin12: 5 V ... 24 V Pin 11: Cable color code: wh= white; bk= black; bu= blue; rd= red; ye = yellow; gn= green; gy= gray Quantum A3031-15.0 HBM: public...

  • Page 167: Pwm - Pulse Width, Pulse Duration, Period Duration

    9.30 PWM - Pulse width, pulse duration, period duration Supported by the following modules: MX460B Transducer Hsg. Cable shield 2 Data 3 No function 1 2 3 Hsg. = housing Adjustable sensor supply: Pin12: 5 V ... 24 V Pin 11: Quantum A3031-15.0 HBM: public...

  • Page 168: Pwm - Pulse Width, Pulse Duration, Period Duration, Single-Pole

    9.31 PWM - Pulse width, pulse duration, period duration, single-pole Supported by the following modules: MX460B Transducer Hsg. Cable shield 2 Data 3 No function 1 2 3 Hsg. = housing Adjustable sensor supply: Pin12: 5 V ... 24 V Pin 11: Quantum A3031-15.0 HBM: public...

  • Page 169: Can Bus

    Receiving CCP or XCP­over­CAN signals: MX471B MX471B MX840B Channel 1 Sub-HD 15-pin Sub-D 9-pin CAN High CAN Low CAN-GND Adjustable sensor supply: Pin12: 5 V ... 24 V (at MX840B) Pin 11: Quantum A3031-15.0 HBM: public...
  • Page 170 120 Node 1 ..Node n Fig. 9.1 Bus termination resistors The adapter cable 1-KAB418 is used to connect the D-SUB-15HD device sockets of the MX840B to standard CAN plugs (D-SUB-9). Quantum A3031-15.0 HBM: public...

  • Page 171: Functions And Outputs

    “isochronous data transfer” (for example in the QuantumX Assistant software, ”Signals” tab). Notice The module configuration is immediately active after sys­ tem reboot (Auto Startup). No operating PC is required for configured signal outputs to run standalone. Quantum A3031-15.0 HBM: public...

  • Page 172: Amplifier With Analog Outputs

    Modules such as MX410B or MX430B provide one ana­ log output each per measurement channel that is acces­ sible via a BNC socket on the front. The outputs are directly assigned to the inputs located above them. Fig. 10.1 MX410B front view Quantum A3031-15.0 HBM: public...
  • Page 173 S These channels are always unfiltered. However, the input signal is filtered. S The peak value units do not accept other peak value units or RMS as input. Only the 4 analog inputs are allowed. Quantum A3031-15.0 HBM: public...
  • Page 174 Graph for the peak value function Measurement Output signal Function Hold Operating mode Peak value Follow Function for Root Mean Square (RMS) calculation ’ RMS is computed from one of the module s 4 analog input channels according to the formula: Quantum A3031-15.0 HBM: public...

  • Page 175: Mx460B

    These channels are always unfiltered. However, the input signal is filtered. 10.2 MX460B The MX460B supports 4 special math channels for analy­ sis of rotational parts: Rotational vibration and angle dif­ ference. Fig. 10.2 MX460B front view Quantum A3031-15.0 HBM: public...

  • Page 176: Mx878B

    MX878B Fig. 10.3 MX878B front view Two analog outputs each (1 and 2, 3 and 4, etc.) have the same ground potentials, for the others electrical isola­ tion applies between them and the voltage supply ground. Quantum A3031-15.0 HBM: public...
  • Page 177 Providing the data via isochronous transfer may use up significant computing power on the module (in particular on the MX410B module and the MX460B high-speed module). Do not activate the isochronous data transfer unless it is actually needed! Quantum A3031-15.0 HBM: public...
  • Page 178 Fx = a1*Ufx + a2*Ufy + a3*Ufz + a4*Umx + a5*Umy + a6*Umz etc. for Fy, Fz, Mx, My, Mz ” ” Matrix computation function can be used for math­ ematical compensation of interdependencies (crosstalk) of multi-component transducers for force and torque measurement. Quantum A3031-15.0 HBM: public...
  • Page 179 S Filters set for the MX878B/879B do not apply to RMS channels. These channels are always unfiltered. How­ ever, the input signal is filtered. Quantum A3031-15.0 HBM: public...
  • Page 180 S FOLLOW: peak value detection disabled, i.e. the channel returns the original signal of the input channel The following combinations are possible: RUN MAX PEAK VALUE HOLD MAX PEAK VALUE FOLLOW HOLD MAX This also applies to minima. Quantum A3031-15.0 HBM: public...
  • Page 181 Providing the data via isochronous transfer may use up significant computing power on the module (in particular on the MX410B module and the MX460B high-speed module). Do not activate the isochronous data transfer unless it is actually needed! Quantum A3031-15.0 HBM: public...
  • Page 182 The PID controller function block allows setup of a con­ troller with proportional, integrating and differential share with limiting component and anti­windup. Signals can be assigned to measured or actual value as well as setpoint value. Quantum A3031-15.0 HBM: public...
  • Page 183 Rate time Td [seconds], D component Upper limit of the controller output ymax Lower limit of the controller output ymin Additional value input: as fix output value Default output: default is output when Enable input = Quantum A3031-15.0 HBM: public...

  • Page 184: Mx879B Multi-I/O Module

    In addition, the rate for DAC is reduced to 96 kS/s through interpolation. The MX879B functions are similar to those of the MX878B. In addition, the MX879B offers a limit value monitoring function. Quantum A3031-15.0 HBM: public...
  • Page 185 Switching level Switching on Hysteresis value Over limit Switch off Switch off Under limit Hysteresis value Switching on Switching level LV1 logic 1 24 V LV2 logic 1 24 V Fig. 10.5 Limit value functions and parameters Quantum A3031-15.0 HBM: public...
  • Page 186 Functions and outputs Examples of connections for MX879B Digital output 24 V (1) 24 V 24 V Ground 1 … 32 Digital output 5 V, internal (1) 24 V 1 … 32 Bridge Quantum A3031-15.0 HBM: public...
  • Page 187 Digital input 24 V (1) 24 V (optional) 24 V 1 … 32 Note: Each twin unit comes with one power supply. To supply all I/Os with power, bridging is required or each twin unit needs to be powered separately. Quantum A3031-15.0 HBM: public...
  • Page 188 3 or 7 4 or 8 Gnd 2 or Gnd 4 Note: GND 1: Terminals 1 and 2 GND 2: Terminals 3 and 4 GND 3: Terminals 5 and 6 GND 4: Terminals 7 and 8 Quantum A3031-15.0 HBM: public...
  • Page 189 The analog output sockets are coded. The push-in plugs need to be prepared accordingly. Coding of the analog output sockets: A tip needs to be cut off when preparing Analog output sockets are coded for plug connections for analog outputs protection. (coding). Quantum A3031-15.0 HBM: public...

  • Page 190: Mx471B

    Four CAN interfaces are available, all working indepen­ dently of each other. The measurement system can read in CANbus signals and also output them The “QuantumX CANbus” operating manual explicitly describes all matters concerning the bus and the modu­ les. Quantum A3031-15.0 HBM: public...

  • Page 191: Faq

    S Wireless network adapters (WLAN). These can, de­ pending on the configuration, take priority in operating the network and thereby disturb the wired network scan. If a WLAN adapter is present on the notebook or laptop, it must be deactivated. Quantum A3031-15.0 HBM: public...
  • Page 192 Windows Start ­> Search and start "cmd" and enter the following at the C:> prompt: ping xxx.xxx.xxx.xxx (ENTER) The xxx.xxx.xxx.xxx represents the IP address of your QuantumX device. If correctly connected, the device will reply positively. An example is shown in the following screenshot: Quantum A3031-15.0 HBM: public...
  • Page 193 S If you want to use the QuantumX module in a larger network, please contact your network administrator. There are a series of options in administrated net­ works to limit or completely prevent data transmission between individual subscribers. Administrative en­ abling may also be necessary here. Quantum A3031-15.0 HBM: public...
  • Page 194 PC and QuantumX module addresses lie in the same subnet, i.e. the IP address may only have different digit groups where a 0 is present in the subnet mask. Also refer to Changing the Ethernet interface para­ meters of the QuantumX Quantum A3031-15.0 HBM: public...

  • Page 195: Accessories

    QuantumX Backplane‐Rack for maximum 9 1-BPX002 modules in IP 20: - 19'' rack mounting with handles left and right; - Connection of external modules via FireWire possible; - Power supply: 24 V DC / max. 5 A (150 W) Quantum A3031-15.0 HBM: public...
  • Page 196 (1-CASECLIP), lash­ see section 6.3, ing strap or cable ties. Basic fastening by 4 page 47 screws. Case protection for Case protection (X enclosure frame) for 1-CASEPROT QuantumX modules, QuantumX modules. see section 6.1, page 42 Quantum A3031-15.0 HBM: public...
  • Page 197 Package consisting of 2 elements for extending the FireWire connection up to 50 m. Also required: 2x1‐KAB269‐x and industrial Ethernet cable (M12, CAT5e/6, up to 50 m). Connection via KAB270‐-3 not possible. Ethernet Ethernet Ethernet crossover cable, 2 m; CAT5e 1-KAB239-2 Quantum A3031-15.0 HBM: public...
  • Page 198 3­wire configuration. D­Sub­HD 15‐pin to BNC­socket­to­D­Sub­HD­15­pin­plug adap­ 1-SUBHD15- adapter BNC ter for connection of current­fed, piezoelec­ tric sensors (IEPE) or voltage ("10 V) with BNC to MX410B, MX840B or MX440B (length approx. 5 cm) Quantum A3031-15.0 HBM: public...
  • Page 199 MX879B). Note: Do not connect these gold plugs to MX1601 or MX615 devices (risk of corro­ sion!). 1-wire EEPROM Package consisting of 10 units 1-wire EEP­ 1-TEDS-PAK DS24B33 ROM DS24B33 (for TEDS as per IEEE 1451.4.). Quantum A3031-15.0 HBM: public...
  • Page 200 Accessories Software and product packages Article Description Order no.  1−CATMAN−EASY Easy­to­use HBM software for data ac­ catman EASY quisition and analysis. Configuration of data acquisition system, channels and signals. Creation of indi­ vidual panels for signal visualization. Data storage in different formats (e.g.
  • Page 201 Shrouded plug Pluggable artificial star for attaching to the 1-G068-2 „Artificial star“ to banana plug adapter MX403B. Safety laboratory Insulated black/red lead set, 1.5 meters with 1-KAB282-1,5 cable safety­shrouded banana plugs and alligator clips 1000V CAT II. Quantum A3031-15.0 HBM: public...
  • Page 202 Internally uses 4 resistor wire connection to reduce inaccuracy caused by the currents running to the bur­ den resistor. Using banana input connectors and banana output pins. Directly compatible with GN610, GN611, GN610B and GN611B acquisition cards. Quantum A3031-15.0 HBM: public...
  • Page 203 QuantumX family; type T: Cu- CuNi, RFID integrated, brown, male. MX879B, MX1601B, 1615B accessories Article Description Order no. 1−CON−S1005 Push­In connector (8 10 Push­In connectors, Phoenix Contact, 8 pins) pins (modules: MX1601B, MX1615B, MX879B). Phönix Push-In-Connector with strain relief Quantum A3031-15.0 HBM: public...
  • Page 204 Kit comprising a total of 4 insulating caps 1-CON-A1018 lating cap (ISOCAP) to allow for self-assembly of Thermo Mini sockets of type K, J, T, B, E, N, R, S, C or copper thermocouples for measu­ ring voltages of ± 5 V. Quantum A3031-15.0 HBM: public...

  • Page 205: System Accessories

    Accessories 12.1 System accessories 12.1.1 BPX001 backplane 56.75 140.75 229.75 318.75 407.75 Quantum A3031-15.0 HBM: public...
  • Page 206 Accessories 12.1.2 BPX002 backplane 214.5 482.6 448.5 Quantum A3031-15.0 HBM: public...

  • Page 207: Housing Connection Elements

    Covers for housings with protection class Case clip IP65 Case clip 12.2 Voltage supply 12.2.1 Power pack NTX001 Europe mains cable NTX001 Modules Mains UK mains cable USA mains cable Australia mains cable Order number: 1-NTX001 Quantum A3031-15.0 HBM: public...

  • Page 208: Supply Cable

    Accessories 12.2.2 Supply cable Approx. 10-15 Twisted and tinned Plug ODU Medi‐Snap Cable LIYY 2x0.5 mm S11M08-P04MJGO-5280 black brown Supply voltage Order number: 1-Kab271-3 (length 3 m) Quantum A3031-15.0 HBM: public...

  • Page 209: Ieee1394B Firewire

    12.3.1 IEEE1394b FireWire cable (module-to-module; IP67) L1=0,2 m; 2,0 m; 5,0 m Order numbers: 1-KAB272-0.2 (length 0.2 m) 1-KAB27-2 (length 2 m) 1-KAB272-5 (length 5 m) 12.3.2 Connection cable (PC to module) Order number: 1-KAB293-5 (length 5 m) Quantum A3031-15.0 HBM: public...

  • Page 210: Connection Cable (Pc To Hub)

    Accessories 12.3.3 Connection cable (PC to hub) IEEE1394b FireWire B plug PC adapter socket Order number: 1-KAB276-3 (length 3 m) Quantum A3031-15.0 HBM: public...

  • Page 211: General Information

    Order number: 1-SUBHD15-MALE 12.4.2 Port saver Sub-HD 15-pin Front Rear Order number: 1-SUBHD15-SAVE When frequently connecting and disconnecting trans­ ducers we recommend that you use port savers for pro­ tecting the transducer sockets of the QuantumX module. Quantum A3031-15.0 HBM: public...

  • Page 212: Adapter D-Sub-Hd 15-Pin To D-Sub 15-Pin

    D‐SUB‐HD plug D‐SUB socket Wire bridge Order number: 1-KAB416 CAUTION This cable is only for transducers with full bridge and 6-wire circuits! If other transducers are connected, the universal amplifier can be damaged or even destroyed. Quantum A3031-15.0 HBM: public...

  • Page 213: Accessories For Mx840B, Mx440B

    View from above View from below PINs to be soldered Cold junction TEDS chip Position of the board in the plug (TEDS facing All dimensions in mm down) Height with components: 3 mm Order number: 1-THERMO-MXBOARD Quantum A3031-15.0 HBM: public...

  • Page 214: Subhd15 To Bnc Adapter

    The adapter from D-Sub-HD plug male to BNC socket is used to connect current fed piezoelectric transducers (IEPE = Integrated Electronics Piezo Electric) or elec­ trical voltages with BNC connector cable to universal amplifier MX410B as well as MX840B or MX440B. Quantum A3031-15.0 HBM: public...

  • Page 215: Scm-Hv Accessories

    Order number: 1-SCM-HV High-voltage signal conditioner for measuring differential voltages within the rated data indicated in the specifica­ tions together with a suitable QuantumX module. Connection to 15-pin sockets of QuantumX modules MX840B, MX440B or MX410B Quantum A3031-15.0 HBM: public...

  • Page 216: Scm-Sg120/350 Quarter Bridge Adapter

    View from below Order number: 1-SCM-SG120/350 Bridge adapter SCM-SG120/350 is inserted into Quan­ tumX modules with SG full bridge input (D-Sub-HD15). This makes it possible to connect a SG in quarter bridge circuit in 3‐wire configuration. Quantum A3031-15.0 HBM: public...

  • Page 217: Mx1609/Kb/Tb Accessories

    Connectors for thermocouple amplifiers: MX1609 / MX1609KB: type K Package unit: 10 mini connectors for thermocouples type K Order number: 1-THERMO-MINI MX1609T/TB: Type T Package unit: 10 mini connectors for thermocouples type T Order number: 1-THERMO-MINI-T Quantum A3031-15.0 HBM: public...

  • Page 218: Support

    Im Tiefen See 45, 64293 Darmstadt, Germany Tel. +49 6151 8030, Fax +49 6151 8039100 E-mail: info@hbm.com www.hbm.com North and South America HBM, Inc., 19 Bartlett Street, Marlborough, MA 01752, Tel. +1-800-578-4260 / +1-508-624-4500, Fax +1-508-485-7480 E-mail: info@usa.hbm.com Asia Hottinger Baldwin Measurement (Suzhou) Co., Ltd.
  • Page 219 Support Quantum A3031-15.0 HBM: public...
  • Page 220 HBM Test and Measurement Tel. +49 6151 803-0 Fax +49 6151 803-9100 info@hbm.com measure and predict with confidence...

This manual is also suitable for:

Quantumx mx1616bQuantumx cx27bQuantumx mx879bQuantumx mx878bQuantumx mx1601bQuantumx mx403b ... Show all

Table of Contents

Save PDF