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Summary of Contents for Kistler 5018A Series
- Page 1 Instruction Manual Charge Amplifier Type 5018A... ä 5018A_002-490e-06.23...
- Page 3 Information in this document is subject to change without notice. Kistler reserves the right to change or improve its products and make changes in the content without obligation to notify any person or organization of such changes or improvements.
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Page 4: Table Of Contents
Charge Amplifier Type 5018A... Content Introduction ........................... 4 Important Guidelines ........................6 For your Safety ........................6 Unpack ..........................7 Transportation and Storage ....................7 Supply Voltage Select ......................8 ... - Page 5 Testing and Calibration ....................... 68 Instrument Test ........................68 8.3.1 Calibration .......................... 68 8.3.2 Kistler Calibration Service ....................69 8.3.3 Loading New Firmware ....................... 69 Fuse Replacement ....................... 70 ...
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Page 6: Introduction
By choosing this Kistler quality product you have opted for an instrument distinguished by technical innovation precision and long life. To the extent permitted by law Kistler does not accept any liability if this instruction manual is not followed or products other than those listed under Accessories are used. - Page 7 If there are particular questions which you still want to raise after studying this manual, the worldwide Kistler customer service is available to you. The Kistler sales centres are competent to advise you on problems in particular applications.
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Page 8: Important Guidelines
If safe operation is no longer guaranteed as a result of the reasons listed above, the instrument must be returned immediately to the Kistler distributor for repair. When opening covers or removing parts, except where this is possible by hand, live parts may be exposed if the device remains connected. -
Page 9: Unpack
Kistler distributor. Before you get started, please check that your Charge Amplifier package includes the items listed in Section 2.7. If any parts are missing, contact your Kistler distributor immediately. 2.3 Transportation and Storage If the instrument is to be transported or stored for a... -
Page 10: Supply Voltage Select
Charge Amplifier Type 5018A... 2.4 Supply Voltage Select Before first use, ensure that the line voltage and the supply voltage set on the instrument are the same. The supply voltage set is shown on the back of the instrument next to Screwdriver the instrument socket ... -
Page 11: Tips For Using This Manual
If you lose the instruction manual, please contact your Kistler distributors and ask them for a replacement. Equipment modifications (conversions, upgrades etc.) usually also result in amendments to the instruction manual. In this case, contact your Kistler distributors for updating facilities for your documentation. 5018A_002-490e-06.23 Page 9... -
Page 12: Accessories Included
Charge Amplifier Type 5018A... 2.7 Accessories Included Charge Amplifier Type 5018A... with country-specific power cord USB connecting cable Type A to B; length 1,8m Type 5.590.303 plug for 'Remote Control' article number 5.510.305 self-adhesive label with supply voltage details ... -
Page 13: Manual Nomenclature
Important Guidelines 2.9 Manual Nomenclature Below is a key to the indications and abbreviations used in this handbook along with explanatory notes on the meaning of special typefaces. Abbreviation Definition Full Scale M.U. Mechanical Unit = Mechanical unit according to sensor type used Pressure... -
Page 14: Units Of Measure
Charge Amplifier Type 5018A... 2.10 Units of Measure Units of measure are used to assign a value to physical quantities. A system of units is a set of rules which dictates how the unit of measure of every quantity used in natural science and technology is determined in a consistent manner. -
Page 15: Piezoelectric Measurement Concept
Important Guidelines For the measurement of mechanical and electrical quanti- ties the Charge Amplifier supports the following units: Quantity Set Unit SI Unit Force 1 kN 1 MN 1 grf –3 9,80710 1 kgf 9,807 N 1 lbf 4,448 N Pressure 1 bar 1 mbar... - Page 16 Polarity As defined by Kistler, an increase in pressure at the sensor elements produces a negative charge. The Charge Amplifier inverts the sensor signal and in this case generates a positive read-out and output voltage.
- Page 17 Important Guidelines In case the charge exceeds at least 10-times the selected as full scale value an unacceptably high voltage can be generated. The magnitude of the voltage will depend on the charge fed in, the total internal capacitance (sensor and cable capacitance) and the range capacitor.
- Page 18 Charge Amplifier Type 5018A... Measuring mode: DC (Long) x(t) x(t) x(t) Measuring mode: AC (Short, Medium) x(t) x(t) x(t) Page 16 5018A_002-490e-06.23...
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Page 19: Drift Compensation Of The Piezoelectric Amplifier Type 5018A
The standard operating mode for cylinder pressure measurements is Kistler's "Drift Compensation". Any drift that occurs is continuously eliminated. using a time constant ('Short') when the engine is... -
Page 20: Piezosmart Automatic Sensor Identification
Charge Amplifier Type 5018A... If drift compensation is not possible or if no combustion cycles are detected, the module automatically switches the charge amplifier stage to the 'Short' mode. This is indicated by the disappearing of the symbol. In this mode the function still compensates for drift, but the signal is slightly falsified (high-pass filter). -
Page 21: Automatic Operating Data Acquisition - Updating For Piezoelectric Sensors
Important Guidelines This system guarantees a reliable and clear allocation of sensor data in day to-day operation. A seal respectively a sticker serves to provide additional protection against any inadvertent mixing of sensor and TEDS. In principle, all engine-indication pressure sensors and all current cable and plug combinations are available with PiezoSmart. -
Page 22: Disposal Instruments For Electrical And Electronic Equipment
Kistler Instrument sales office for return instructions. 2.16 Software Upgrades and Updates Kistler may from time to time supply upgrades or updates for embedded software. Such upgrades or updates must always be installed. Kistler declines any liability whatsoever for any direct or... -
Page 23: Functional Description
Functional Description 3. Functional Description The Charge Amplifier is operated from the power line and receives the charge from the piezoelectric sensor and converts it into a proportional voltage. The electronic system provides clear and simple operating facilities for the instrument enabling sensitivity, measuring range, filter characteristics etc. -
Page 24: Block Diagram
Charge Amplifier Type 5018A... 3.1 Block Diagram Fig 1: Block diagram of charge amplifier Type 5018A... The individual function blocks of the amplifier unit, control unit and power supply are more detailed described on the following pages. Page 22 5018A_002-490e-06.23... -
Page 25: Amplifier Unit
Functional Description 3.2 Amplifier Unit 'Charge' Input The input stage consists of a high gain, high insulating operational amplifier with high insulating range capacitors as negative feedback. The charge fed in is converted into a proportional voltage. In most cases, the adjacent approximation formula will be adequate for calculating the voltage signal. -
Page 26: Control Unit
Charge Amplifier Type 5018A... 'Voltage' Input (Optional) On the one hand, Piezotron sensors can be connected directly to the voltage input, in which the 'PIEZOTRON' mode must be activated. This switches in the 1 …15 mA current source to supply the Piezotron. The capacitor C converts the voltage present at the input to a charge in accordance with the adjacent formula, and feeds this to the ... -
Page 27: Power Supply Unit
PC and Charge Amplifier. The USB driver will be supplied on CD-ROM for installation under Microsoft Windows and is also available on the Kistler webpage. The interface is electrically isolated. The RS- 232C interface will be inactive when USB port is connected to a PC. -
Page 28: Assembly, Installation And Operation
Charge Amplifier Type 5018A... 4. Assembly, Installation and Operation The instrument must be operated only under the specified operating conditions (see Section 7). It must be protected against excessive dust as well as mechanical stress (shock, vibration). High atmospheric humidity, which can lead to condensation as a result of changes in temperature, must be avoided. -
Page 29: Connections
Assembly, Installation and Operation The Charge Amplifier is controlled with the following two buttons. Definable function button (see Section 5.12). [Meas] This button is used to manually start and stop the measuring cycle (see also Section 6.2) 4.2 Connections The electrical connections are at the back of the instrument case. - Page 30 Charge Amplifier Type 5018A... Type 5018A1001 TRIAX / Charge Input with PiezoSmart Serial interface 'RS-232C' 'USB' interface Control LED’s 'Remote Control' 'Voltage Output 10 ' Grounding screw M2,5x5 'Charge' input (TRIAX) / PiezoSmart Power plug Protective ground (flat connector tab 6,3mm) Power switch Type 5018A1002 BNC/Charge Input with Voltage Piezotron Input...
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Page 31: Connecting The Instrument
Assembly, Installation and Operation Type 5018A1003 TRIAX/Charge Input with PiezoSmart and Voltage Piezotron Input Serial interface 'RS-232C' 'USB' interface Control LED’s 'Remote Control' 'Voltage Output 10 ' Grounding screw M2,5x5 Shielding cap 'Voltage'/Piezotron input 'Charge' input (TRIAX) / PiezoSmart Power plug Protective ground (flat connector tab 6,3mm) 'Power' switch 4.3 Connecting the Instrument... - Page 32 Charge Amplifier Type 5018A... Charge and Voltage Input In order to allow smaller potential differences between the 'Charge' and 'Voltage/Piezotron' sensor inputs and the 'Output 10 ' voltage output, a differential amplifier is included at the input. These input and output reference potentials can be connected together with the switch S provided for this purpose (on the amplifier unit).
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Page 33: Instrument Operation
Assembly, Installation and Operation 4.4 Instrument Operation 4.4.1 Display and Main Menu Measuring range see section 5.3 Mechanical unit see section 5.13 Additional menus see section 6 Sensor sensitivity value see section 5.5 Sensor sensitivity unit ... -
Page 34: Menu Operation
Charge Amplifier Type 5018A... 4.4.2 Menu Operation On each occasion when the instrument is switched on, the cursor is always placed on the right side on the top. The individual fields/symbols can be selected by turning the control knob. The appropriate menu windows can be opened by pressing the control knob. -
Page 35: Step By Step Measuring Guidance
Assembly, Installation and Operation 4.5 Step by Step Measuring Guidance The step-by-step instructions described below should make you quickly familiar with carrying out pressure and force measurement. Cylinder Pressure Measurement 4.5.1 The following example shows the setup procedure for a measuring chain of a piezoelectric measuring spark plug with the charge Amplifier Type 5018A…. - Page 36 Charge Amplifier Type 5018A... Navigation in the individual menus is described in Section 4.4.2. Changing the operating language e.g. from German to English (see Section 6.7). Defining the sensor input The basic setting for the sensor input is 'CHARGE'. ...
- Page 37 The prefix is set permanently to minus. Since piezoelec- tric sensors from Kistler standardly produce a negative charge for an increase in pressure, a positive change in voltage occurs at the voltage output of the Charge Amplifier.
- Page 38 Charge Amplifier Type 5018A... Adjustment of the measuring mode. For engines applications recommend drift compensation 'DrCo (Engine)'. To suppress any interference signals, a low-pass filter can be switched on as an option. In the present example, a 2 order low-pass filter with a cutoff frequency of 30 kHz is activated.
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Page 39: Software
Reading in and displaying the measured data You can download the latest software release onto your PC from our website www.kistler.com. For the installation (see section 8.4), select the Setup.exe file on the relevant disk or directory – double click and the installation process will run practically automatically. -
Page 40: Instrument Operation
Charge Amplifier Type 5018A... 5. Instrument operation Adjustment facilities and the functions supported by the instrument are described below. 5.1 Contrast Setting In some lighting conditions it may be necessary to adjust the contrast of the liquid crystal display. Do this by selecting the relevant icon with the blue control knob and press [Enter]. -
Page 41: Stepwise Range Setting
Instrument operation 5.3.1 Stepwise Range Setting Stepwise means that the range can be varied in steps of e.g. 100.0, 200.0, 500.0, 1 000, 2 000 etc. 5.3.2 Variable Range Setting Variable means that any value can be set, e.g. 100.0, 100.1, 100.2 etc. -
Page 42: Sensor Sensitivity Value
Charge Amplifier Type 5018A... In addition, the sensitivity indicated can be converted as follows: Conv. Return Force pC/N pC/kN pC/kgf pC/lbf Torque pC/Nm pC/Ncm pC/lb.t. Pressure pC/bar pC/MPa pC/psi Acceleration pC/g pC/m/s pC/ft/s 5.5 Sensor Sensitivity value To set the sensitivity value, select the relevant field and... -
Page 43: Teds/Sensor Identification Piezosmart
Instrument operation Example: Measuring range = 100 bar, offset = -8 V produces a scaling of 5.556 bar/V. 5.7 TEDS/Sensor Identification PiezoSmart The automatic sensor identification/TEDS function can be activated or deactivated in the settings as follows: Settings are only possible for PiezoSmart charge amplifier types 5018Axxx1 and 5018Axxx3. -
Page 44: Display Of Active Drift Compensation
Charge Amplifier Type 5018A... 5.9 Display of active Drift Compensation Activity of the drift compensation will be displayed by a symbol for an engine cycle. For any further information about drift compensation, see in section 2.12 Symbol indicates when drift compensation is active 5.10 Low-Pass Filter Higher frequency interference signals can be attenuated... -
Page 45: High-Pass Filter
Instrument operation 5.11 High-Pass Filter The filter characteristic can be defined by the user cut-off frequency at -3dB with a time constant. On 'DC (Long)', the high-pass filter is switched out of circuit to allow quasi- static measurements. The 'Medium' and 'Short' time constants are also available as with the Type 5011B Charge Amplifier. -
Page 46: Mechanical Unit
Charge Amplifier Type 5018A... 5.13 Mechanical Unit Depending on the choice of sensor, you will want to measure forces, pressures, accelerations or torque. In order to define the unit of measurement, select the appropriate field with the blue control knob and [Enter]. The following window will then open to enable you, for example, to set metric units. -
Page 47: Additional Menus
Additional menus 6. Additional menus Additional menu and setting options are described as follows. 6.1 Function Key Definition This menu item allows the [F]-key assignment to be defined. The [F]-key can be assigned for the signal display function by selecting the following menu. Show signal: The measuring value will be display by pressing the [F]-key. -
Page 48: Zero Error Adjustment
Charge Amplifier Type 5018A... 6.3 Zero Error Adjustment This function enables the input stage of the charge amplifier to be set electronically to zero. Close off the input with the cover provided. No sensor or cable must be connected during zero setting! The adjustment takes approx. -
Page 49: Store And Recall Instrument Settings
Additional menus 6.4 Store and Recall Instrument Settings The instrument can store up to 8 different user settings. All settings will remain, when instrument is switched off and Saving instrument settings (e.g. in memory location 2): Select with the control knob [Select] and press [Enter] to save. -
Page 50: Signal Dispaly
Charge Amplifier Type 5018A... 6.5 Signal dispaly With this function the measuring value can be displayed. 6.6 Demo Mode A demonstration mode can be activated for training purposes. This allows transfer of the display data to a PC. A special Demo-Program is required for this. Activating the demo mode: For operation in demo mode, baud rate should be set to 115200. -
Page 51: Display Of Instrument Information
Additional menus 6.8 Display of Instrument Information This function makes it easy for the user to check which hardware options are fitted and which software version is loaded. Displaying the instrument information: 6.9 Messages This section explains the messages which can appear on the display. - Page 52 Charge Amplifier Type 5018A... Errors UNKNOWN COMMAND Unknown command on RS-232C or USB CARD UNAVAILABLE Plug-in unit (amplifier unit or communication module) not available CA OVERLOAD Amplifier input stage overloaded UNKN. CARD ERROR General error on amplifier unit INPUT OFFSET RANGE Input offset voltage out of range WRONG CALIB.
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Page 53: Communication Rs-232C/Usb Interface
Additional menus 6.10 Communication RS-232C/USB Interface Baud rate setting: Default settings for the baud rate is 9600 For compatibility reasons, the Type 5011B commands have been retained. Extended instruction record see Section 8.8. The protocol structure is defined in the syntax diagrams below. - Page 54 Charge Amplifier Type 5018A... Write parameter Separator Command Command code Parameter Terminator Replay no answer! Example: Write parameters Command (PC Instrument): TS4.325E+0<cr> Reply (Instrument PC): None! Control Commands Measure control n = 0 inactive (previously Reset) n = 1 active (previously Operate) CEnn Query error code nn (2 characters decimal coded)
- Page 55 Additional menus TSn.nn Set sensitivity Range: 0.01 ... 9999 Example: 2,45 pC/M.U. TS2.45 SCn.nnnEe Set scale voltage output Range: 1.000E-5 ... 9.999E+8, Example: 100 M.U./V SC1.00E+2 SCn.nn Set scale voltage output Range: 0.01 ... 9999 Example: 100 M.U./V SC100 No function Local control n = 0 ...
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Page 56: Teds Options/Scan Options
Charge Amplifier Type 5018A... 6.11 TEDS Options/Scan Options Depending on the particular application, the charge amplifier Types 5018Axxx1 5018Axxx3 with PiezoSmart function have different TEDS options concerning the sensor identification and the time at which the operating data is saved. The settings are described in the following overview. -
Page 57: Teds Options/Set Default
Additional menus TEDS couplings on the PiezoSmart Sensor 42/07 New TEDS version with engraved Earlier TEDS version TEDS Functions date of production from 42/2007 (calendar week/year) TEDS identification in the MEASURE mode. When a PiezoSmart sensor is changed the TEDS data is read first and set in the amplifier. -
Page 58: Technical Data
Charge Amplifier Type 5018A... 7. Technical Data 7.1 Charge Input Connector type BNC neg. or TRIAX neg. 2 ... 2 200 000 Measuring range FS Measuring error Range FS 10 pC 2 Range FS 100 pC 0,6 Range FS 100 pC 0,3 Drift, measuring mode 'DC (Long)'... -
Page 59: Voltage Output
Technical Data 7.3 Voltage Output Connector type BNC neg. 10/-8 … 10 Output range FS 0 … 2 Output current 10 Output impedance Measure-jump Compensated Measure jump (Long) Correction time, incl. 15 reed-relay delay time 2 Offset error (Reset) Output interference, 0,1 Hz ... -
Page 60: Time Constant (Short/Medium)
Charge Amplifier Type 5018A... 7.4.1 Time constant (Short/Medium) Time constant for Short/Medium Range FS charge (Voltage) 2 pC … <217 pC ≈0,033/3,3 (20 mV … <2170 mV) 217 pC … <4717 pC ≈0,42/42 (2170 mV … <47170 mV) 4717 pC … <102400 pC ≈10/1000 102400 pC …... -
Page 61: Low-Pass Filter
Technical Data 7.4.4 Low-pass Filter Low pass filters and delay time of the measure signal from input to output Filter (2 order) s 26300 10 Hz s 13100 20 Hz s 8700 30 Hz s 2500 100 Hz s 870 300 Hz s 440... - Page 62 Charge Amplifier Type 5018A... Frequency response vs. filter settings/Frequency range 300 Hz … 1 kHz 2'200 2'000 1'800 LP=300Hz LP=600Hz LP=1kHz 1'600 -3dB 1'400 1'200 1'000 Delay LP=300Hz Delay LP=600Hz Delay LP=1kHz 1'000 10'000 Frequency [Hz] Frequency response vs. filter settings/Frequency range 2 … 10 kHz LP=2kHz LP=3kHz LP=6kHz...
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Page 63: Remote Control
Pin 5 (input) /Remote measure Pin 6 DGND Remote Control Connector Input voltage Kistler Art. No. 5.510.305 logic inactive 3,5 ... 30 logic active V (mA) 0 ... 1 (0 ... 4) Delay time /Remote measure 15... -
Page 64: Data Communication
Charge Amplifier Type 5018A... 7.6 Data Communication The Charge Amplifier offers a RS-232C and a USB interface. RS-232C Interface (Electrically Separated) EIA standard RS-232C Connector type DB-9S (D-Sub) Pin allocation Pin 2 Pin 3 Pin 5 Max. cable length at 15 1 200 bps 15... -
Page 65: Power Supply Connection
Technical Data USB Interface Standard USB 2.0 Connector type Driver FTDI VCP (Virtual COM Port) Pin allocation Pin 1 VCC5V Pin 2 USB- Pin 3 USB+ Pin 4 Max. cable length 7.7 Power Supply Connection Power plug (2P+E, IEC 320C14 protection class I) Supply voltage settable... -
Page 66: Environmental Data
Charge Amplifier Type 5018A... 7.8 Environmental Data 9 10 IP-Degree of protection IP40, IEC 60529 C Temperature range 0 ... 50 C min/max temperature –10/60 10 Vibration steadiness (20 Hz ... 2 kHz, duration 16 min., cycle 2 min.) 200 Shock steadiness (1 ms) Housing dimensions ... - Page 67 Technical Data Fig. 2: Variations of Type 5018A1… Fig. 3: 19" rack plug-in Type 5018A0… 5018A_002-490e-06.23 Page 65...
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Page 68: Maintenance And Diagnosis
Charge Amplifier Type 5018A... 8. Maintenance and Diagnosis 8.1 Precautions Please comply with the requirements specified in Section 2.1. 8.2 Causes of Drift The slow change in the zero point of the output signal during the measuring cycle in the 'DC (Long)' measuring mode is called drift. - Page 69 Action: First check whether the 'DC (Long)' measuring mode is set. If the problem persists, the cause is due to poor insulation resistance of the range capacitor. To cure this problem, the instrument must be sent in to the Kistler distributor for repair. Cause 2 In this case, the output drifts linearly in the positive or negative direction.
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Page 70: Testing And Calibration
As already described above, the Charge Amplifier can also be calibrated with a DC reference voltage source and a calibration capacitor. Calibration with the Kistler precision charge calibrator Type 5357B can provide advantages. You will find further details in this respect in the data sheet or in the instruction manual for this instrument. -
Page 71: Kistler Calibration Service
Traceability must be guaranteed. Kistler offers the follow- ing calibration services: Swiss Calibration Service (SCS) Kistler is accredited as an SCS calibration station (Number 049) for the measurands: pressure, force, acceleration and electric charge. In order to ensure traceability and proven measuring accuracy, calibration devices and methods are regularly checked and updated. -
Page 72: Fuse Replacement
Charge Amplifier Type 5018A... 8.5 Fuse Replacement Electronic components can be destroyed by electrostatic discharges. When handling electronic equipment, comply with the ESD protective measures. Proceed as follows when changing the fuses 'F1' and 'F2': First disconnect the instrument from the power supply. ... -
Page 73: Remote Control Connection
Maintenance and Diagnosis 8.6 Remote Control Connection An example of a connection for controlling the measuring cycle, e.g. with a stored program control (SPC). An example of a connection for controlling the measuring cycle, e.g. with switches. To control measure cycle please refer to Section 6.2.. 5018A_002-490e-06.23 Page 71... -
Page 74: Rs-232C Cable
Charge Amplifier Type 5018A... 8.7 RS-232C Cable Connection with null-modem cable Type 1200A27 Type 5018A… Legend: TxD = Transmit data RxD = Receive data GND = Signal ground Page 72 5018A_002-490e-06.23... -
Page 75: Extended Instruction Record Of The Rs-232C/Usb Interfaces
Maintenance and Diagnosis 8.8 Extended Instruction Record of the RS-232C/USB Interfaces The protocol structure is defined in the syntax diagrams below. Data transfer takes place as a simple ASCII protocol with: Command code: Colon followed by 1 ... 3 digits ... - Page 76 Charge Amplifier Type 5018A... Command Description No. of Parameters code parameters Mechanical units of the measurands force units: (according to the mode selected) 20 = N 21 = kN 22 = grf (gram-force) 23 = kgf (kilogram-force) 24 = lbf (pound-force) 25 = MN torque units: 30 = Nm...
- Page 77 Maintenance and Diagnosis HP filter 1. Value = x (of no relevance) 2. Exponent = x (of no relevance) 3. Filter order: 0 = no filter (Long) -1 = Short -2 = Medium 4. Filter type = x (of no relevance) Example: :30,0,-1,0 ...
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Page 78: Event Messages
Charge Amplifier Type 5018A... Status code description of the handshake signal: Number of Parameters parameters 0 = OK 1 = Unknown command 2 = Parameter outside permitted range 3 = Wrong number of parameters 4 = Overflow of EEPROM range 5 = General error 6 = --- 7 = Check sum error... -
Page 79: Event Messager From Measure Card
Maintenance and Diagnosis 8.9.2 Event messager from measure card Number Event Codes Charge Amp. Overflow Input offset out of range wrong calibration data remote measure μController received illegible data from TEDS μController received invalid sensitivity from TEDS wrong MID data non supported TEDS template Drift compensation working dependent parameter changed... -
Page 80: Declaration Of Conformity Type 5018A
Charge Amplifier Type 5018A... 9. Declaration of Conformity Type 5018A… Page 78 5018A_002-490e-06.23... -
Page 81: Index
Index Index Accessories ............10 Ground ..............8 Amplifier unit ............23 Ground loops ............30 Grounding screw ......8, 27, 28, 29, 30 Baud rate Setting ............51 High impedance sensors ........13 Highly insulating cables ........14 High-pass filter CAN-bus ............. - Page 82 Charge Amplifier Type 5018A... Packing list ............10 Safety ..............6 Piezoelectric measurement technique Sensitivity Tips ..............14 Setting ............. 39, 40 Piezotron input ........... 34 Sensor input ..........34, 39 Piezotron mode ..........24 Sensors in parallel ..........14 Piezotron sensors ..........
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