Operating Manual touchMATRIX® Indicator DX350 / DX355 Frequency counter, tachometer and speed indicator with touchscreen and graphic display Product features: Multifunctional unit with several operating modes, e. g.
Version: DX350_01a_oi/sn- tg /May-18 DX350_01d_oi/cn/Okt-16 DX350_02a_oi/cn/Nov-16 DX350_02c_oi/cn/Jan-17 DX350_03a_oi/cn/Apr-17 DX350_03b_oi/cn/Jun-17 DX350_04a_oi/cn/Sep-17 DX350_05a_oi/cn/April-18 Description First Version Revised first Version Second Version Revised Version Revised Version Other small changes Extension DX355, software customization Extension of serial interface with Modbus protocol Legal notices: All contents included in this manual are protected by the terms of use and copyrights of
Table of Contents 1. Safety Instructions and Responsibility........................................................................... 4 1.1 1.2 1.3 1.4 2 Introduction ................................................................................................................... 6 2.1 2.2 3 Screen structure for parametrization ......................................................................................... 13 Screen structure in operation....................................................
1. Safety Instructions and Responsibility 1.1 General Safety Instructions This operation manual is a significant component of the unit and includes important rules and hints about the installation, function and usage.
1.3 Installation The device is only allowed to be installed and operated within the permissible temperature range. Please ensure an adequate ventilation and avoid all direct contact between the device and hot or aggressive gases and liquids. Before installation or maintenance, the unit must be disconnected from all voltage-sources. Further it must be ensured that no danger can arise by touching the disconnected voltage-sources.
2 Introduction This series of display unit is suitable for HTL impulse signals and panel mounting. It is very versatile in use, due to the intuitive handling and the extensive range of functions and options. 2.1 Operation mode All functions are can be configured in the parameter menu.
3 Electrical Connections The terminal screws should be tightened with a slotted screwdriver (blade width 2mm). 3.1 DC Power Supply The unit accepts DC supply from 18 to 30 V at the terminals 1 and 2. The power consumption depends on the level of the supply voltage with aprox. 100 mA and the additional current required at the Auxiliary Voltage Output. All GND terminals are internally interconnected. 3.
3.3 DX350: Incremental Input A, B The unit provides two inputs at terminal 5 and 7 for HTL signals. The characteristics of the incremental input (PNP, NPN, Namur or Tri-State) can be set in the GENERAL MENU. Wiring of the incremental inputs: PNP NPN Namur Tri-State Unconnected PNP inputs are always “LOW” and unconnected NPN inputs are always “HIGH”. All inputs are designed to receive impulses from electrical impulse sources.
3.4 DX355: Incremental Input A, /A, B, /B The unit provides two pulse inputs at terminal 5, 6, 7 and 8 for HTL/RS422 signals. The characteristics of the incremental input can be set in the GENERAL MENU. Wiring of the incremental inputs: RS422 HTL DIFFERENTIAL HTL PNP, single ended HTL NPN, single ended Unconnected PNP inputs are always “LOW” and unconnected NPN inputs are always “HIGH”. All inputs are designed to receive impulses from electrical impulse sources. Dx350_05a_oi_e.
3.5 Control Inputs The three control inputs at terminal 10, 11 and 12 have HTL PNP characteristics. In the COMMAND MENU the programmable functions for the control inputs can be assigned. Available functions are: reset the display value, display switching, locking the touch screen or release the lock function of the control or relay outputs. Wiring of the control inputs: Unconnected control inputs are always “LOW”. All inputs are designed to receive impulses from an electronic impulse source.
3.7 Serial interface (Option AO/AR/CO/CR) An Klemme 16, 17 und 18 steht eine Serielle Schnittstelle (RS232 oder RS485) zur Verfügung. Diese Schnittstelle ist im SERIAL MENU konfigurierbar. Die RS232- oder RS485 Schnittstelle kann wie folgt verwendet werden: Zur Parametrierung des Gerätes bei Inbetriebnahme Zum Ändern von Parametern während des Betriebes Zum Auslesen von Istwerten über SPS oder PC Das untenstehende Bild zeigt den Anschluss an einen PC mit Standard-Stecker (D-SUB 9-pol.
Wiring of the control-outputs: 3.9 AC Power supply (Option AC) The unit accepts AC supply from 115 to 230 V at the terminals 24 and 25. The power consumption depends on the level of the supply voltage with aprox. 3VA and the additional current required at the auxiliary voltage output. Devices with option AC can also be supplied with a DC voltage between 18 and 30 VDC at terminals 1 and 2. 3.
4 Display and touch screen 4.1 Screen structure for parametrization The parameter menus and the parameters are described in chapter 5. Start setup procedure: To edit the parameters, press the touchscreen for 3 seconds. Menu selection: Select the parameter menu via arrow buttons and confirm with “OK”. The menu selection can be terminated with „C“. Parameter selection: Select the parameter via arrow buttons and confirm with „OK“. The parameter selection can be terminated with „C“.
4.2 Screen structure in operation The following screens are available during operation. Depending on the device version and the selected operation mode, not all displays will be shown. Display with unit and status bar To switch to the next display, press the touch screen. Control - or Relay status are only shown with Option AO, CO, RL. Display counter und batch counter To switch to the next display, press the top of the screen. This is only possible in operation mode COUNTER BATCH MODE.
5 Parameter / Overview-Menu Structure This section provides an overview of the menus and their parameters. The menu names are printed bold and the associated parameters are listed under the menu name. Depending on the device version and the selected operation mode, only the necessary menus / parameters are shown.
Menu / Parameter PRESELECTION VALUES PRESELECTION 1 PRESELECTION 2 PRESELECTION 3 PRESELECTION 4 PRESELECTION 1 MENU MODE 1 HYSTERESIS 1 PULSE TIME 1 OUTPUT TARGET 1 OUTPUT POLARITY 1 OUTPUT LOCK 1 START UP DELAY 1 EVENT COLOR 1 PRESELECTION 2 MENU MODE 2 HYSTERESIS 2 PULSE TIME 2 OUTPUT TARGET 2 OUTPUT POLARITY 2 OUTPUT LOCK 2 START UP DELAY 2 EVENT COLOR 2 PRESELECTION 3 MENU MODE 3 HYSTERESIS 3 PULSE TIME 3 OUTPUT TARGET 3 OUTPUT POLARITY 3 OUTPUT LOCK 3 START UP DELAY 3 EVENT COLOR 3 PRESELECTION 4 MENU
5.1 General Menu OPERATIONAL MODE This parameter specifies the selected measuring function.
Continuation „General Menu“: SCALE UNITS This parameter defines the required engineering unit. This parameter does not affect the calculation of the display value. The number of decimal places must be defined with the parameter DECIMAL POINT.
Continuation „General Menu“: LINEARIZATION MODE This parameter defines the linearization function. See chapter 6.1. 0 1 2 OFF 1 QUADRANT 4 QUADRANT No linearization Linearization in the 1. quadrant Linearization in all 4 quadrants PIN PRESELECTION This parameter defines the PIN-code to lock the quick start of the menu PRESELECTION VALUE for entering the preselection values. (Master PIN 6079). This Lock function is only useful in conjunction with active lock function in PIN PARAMETER.
5.2 Mode Speed This menu defines the operation as speed indicator (RPM), tachometer or frequency meter. In this operation mode only input A is active or Input A and Input B with 90 ° phase offset for forward / reverse rotation detection. This menu is only displayed when the appropriate OPERATIONAL MODE in GENERAL MENU is selected. DISPLAY VALUE Desired value, which should be displayed at the setting of BASE FREQUENCY.
Continuation „Mode Speed“: WAIT TIME (S) This parameter defines the period time of the lowest frequency, accordingly the time between two rising signal edges detecting frequency 0 Hz. Frequencies with a period time higher than the set “WAIT TIME” will be detected as frequency = 0 Hz. 0.01 Frequency = 0 Hz, for frequencies below 100 Hz 1.00 Default value 99.99 Frequency = 0 Hz, for frequencies below 0,1 Hz STANDSTILL TIME (S) This parameter defines the time setting for standstill definition.
Continuation „Mode Speed“: FOR/REV DETECTION This parameter enables the detection of direction of rotation (Input A, Input B with 90°).. 0 1 OFF ON 5.3 Direction of rotation detection off Direction of rotation detection on Mode Process Time In this menu the operation is defined as baking time or processing time indicator (reciprocal speed) Only input A is used. This menu is only displayed when the appropriate OPERATIONAL MODE in the GENERAL MENU is selected.
Continuation „Mode Process Time“: WAIT TIME (S) This parameter defines the period time of the lowest frequency, accordingly the time between two rising signal edges detecting frequency 0 Hz. Frequencies with a period time higher than the set “WAIT TIME” will be detected as frequency = 0 Hz. 0.01 Frequency = 0 Hz, for frequencies below 100 Hz 1.00 Default value 99.99 Frequency = 0 Hz, for frequencies below 0,1 Hz STANDSTILL TIME (S) This parameter defines the time setting for standstill definition.
5.4 Mode Timer In this menu the operation of timer or stopwatch is defined. Depending on the parameterization only input A or both are used. This menu is only displayed when the appropriate OPERATIONAL MODE in the GENERAL MENU is selected. TIME BASE This parameter defines the time base or resolution of the measurement. 0 1 2 3 4 5 6 7 1/1000 SEC 1/100 SEC 1/10 SEC SECONDS MIN.00 MIN.
5.5 Mode Counter In this menu the operation as position indicator, impulse counting, sum of 2 inputs, difference of 2 inputs or up-down counter is defined. Input A and Input B are used. This menu is only displayed when the appropriate OPERATIONAL MODE in GENERAL MENU is selected. COUNT MODE This parameter defines the counter operation. 0 A SINGLE 1 2 3 4 5 A+B A-B A/B 90 x1 A/B 90 x2 A/B 90 x4 Input A is a counting input.
Continuation „Mode Counter“: BATCH MODE Setting of the batch counter. The function of batch counting according to a preset value (PRESELECTION 1... 3) is only possible with the switch condition “automatic reset to zero” (RESULT <= PRES-> 0) or “set the counter value” (RESULT <=0-> SET). The PRESELECTION 4 is the preset value of the batch counter, when the BATCH MODE is active. For example: If the batch counter should increment 1 all 1000 pulses, the value e.g.
Continuation „Mode Velocity“: BASE TIME (S) Reference time for the desired DISPLAY VALUE. 0.001 Smallest value 1 Default value 999.999 Highest value DECIMAL POINT This value defines the position of the decimal point. No decimal point 0 NO Decimal point at the specified position 1 0000000.0 Decimal point at the specified position 2 000000.00 Decimal point at the specified position 3 00000.000 Decimal point at the specified position 4 0000.0000 Decimal point at the specified position 5 000.
5.7 Preselection Values This menu is used to set the preselection values or the switching points. The preselection values / switching points are always referred to the display value. This menu is only available for devices with option CO, AO or RL.
5.8 Preselection 1 Menu This function is only available for devices with option CO, AO or RL. MODE 1 Switching conditions for preselection 1.
Continuation „PRESELECTION 1 MENU“: HYSTERESIS 1 This parameter defines the switching hysteresis of the switch-off point for preselection 1 0 No switching hysteresis … 9999 Switching hysteresis of 99999 PULSE TIME 1 (S) Duration of output pulse for the switching condition of preselection 1 0.000 No output pulse (static signal) … 60.000 Pulse duration of 60 seconds OUTPUT TARGET 1 Assignment of an output or relay for the switching condition of preselection 1.
Continuation „PRESELECTION 1 MENU“: EVENT COLOR 1 Event-depending change of the display color for the switching condition of preselection 1. EVENT COLOR 1 has the lowest priority. EVENT COLOR 2 … 4 are allowed to overwrite this color change. 0 1 2 3 5.9 NO CHANGE CHANGE TO RED CHANGE TO GREEN CHANGE TO YELLOW No color change. Color change to red Color change to green Color change to yellow Preselection 2 Menu MODE 2 Switching conditions for preselection 2.
5.10 Preselection 3 Menu MODE 3 Switching conditions for preselection 3. Output/ relay/ display switches under the following conditions: 9 RES>=PRES-TRAIL See chapter PRESELECTION 1 MENU Trailing preselection 3: Display value is greater or equal to PRESELECTION 4 – PRESELECTION 3 ON, PRESELECTION 3 is the trailing preselection from PRESELECTION 4. HYSTERESIS 3 This parameter defines the switching hysteresis of the switch-off point for preselection 3. See chapter PRESELECTION 1 MENU.
5.11 Preselection 4 Menu If the BATCH MODE is active, the batch counter is compared with the preselection value 4. MODE 4 Switching conditions for preselection 4. Output/ relay/ display switches under the following conditions: 9 RES>=PRES-TRAIL See chapter PRESELECTION 1 MENU Trailing preselection 4: Display value is greater or equal to PRESELECTION 3 – PRESELECTION 4 ON, PRESELECTION 4 is the trailing preselection from PRESELECTION 3.
5.12 Serial Menu This menu defines the basic settings of serial interface. This function is only available for devices with option CO or AO. UNIT NUMMER This parameter defines serial device addresses. The addresses between 11 and 99 can be assigned to the devices. Addresses with zero are not allowed, there are used as broadcast addresses.
Continuation „Serial Menu”: SERIAL PROTOCOL Determines the sequence of characters send, when using the serial output for cyclic data transmission under time control (xxxxxxx = value SERIAL VALUE). Setting „1“ removes the unit address from the string which allows a slight faster transmission cycle. 0 1 Transmission report = Unit Nr.
5.13 Analog Menu This menu defines the basic settings of the analog output. This function is only available for devices with option AO. ANALOG FORMAT This parameter defines the output characteristics. The analogue output is proportional to the display value. With setting ANALOG FORMAT (-10 … +10 V) in MODE COUNTER the polarity of the analog output depends on the polarity of the display value.
5.14 Command Menu INPUT 1 ACTION (function Input 1) This parameter defines the function of the input “Ctrl. In 1”. 0 (s) = (d) = NO 1 RESET/SET VALUE 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 FREEZE KEY LOCK LOCK RELEASE RESET MIN/MAX SERIAL PRINT TEACH PRESEL. 1 TEACH PRESEL. 2 TEACH PRESEL. 3 TEACH PRESEL.
Continuation “Command Menu”: INPUT 1 CONFIG This parameter defines the switching characteristics of the input “Ctrl. In 1”. 0 1 2 3 ACTIVE LOW ACTIVE HIGH RISING EDGE FALLING EDGE Active at „LOW“ (static) Active at „HIGH“ (static) Activate at rising edge Activate at falling edge INPUT 2 ACTION This parameter defines the function of the input “Ctrl. In 2”. See parameter INPUT 1 ACTION. INPUT 2 CONFIG This parameter defines the switching characteristics of the input “Ctrl. In 2”.
5.15 Display Menu Parameter changes become active only after closing the menu selection. COLOR This parameter defines the display color. Event-depending change of the display color by a switching condition is possible (see PRESELECTION 1…4 MENU) Event-depending changes are only available for devices with option CO, AO or RL. 0 RED Red display 1 GREEN Green display 2 YELLOW Yellow display BRIGHTNESS (%) This parameter defines the brightness of the display in percent 10 90 100 Min.
5.16 Linearization Menu The linearization function is defined in this menu. The linearization points are only used in operation mode SPEED, PROCESS TIME or COUNTER. This menu will only be showed, if the LINEARIZATION MODE in GENERAL MENU is selected. Linearization description and examples are shown in the appendix. P1(X) - P24(X) X-coordinate of the linearization point. This value representing the display value which the unit show in the display without linearization.
6 Appendix 6.1 Data readout via serial interface All codes shown in the parameter SERIAL VALUE are available for serial readout by PC or PLC. For communication the monitors use the Drivecom Protocol according to ISO 1745. All protocol details can be found in our manual SERPRO which is available for download from our homepage www.motrona.com.
6.
Fortsetzung „Parameterliste“: # 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 Menue MODE VELOCITY MODE VELOCITY MODE VELOCITY MODE VELOCITY MODE VELOCITY MODE VELOCITY MODE VELOCITY MODE VELOCITY PRESELECTION VALUES PRESELECTION VALUES PRESELECTION VALUES PRESELECTION VALUES PRESELECTION 1 MENU PRESELECTION 1 MENU PRESELECTION 1 MENU PRESELECTION 1 MENU PRESELECTION 1 MENU PRESELECTION 1 MENU PRESELECTION 1 MENU PRESELECT
Fortsetzung „Parameterliste“: # 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 Menue SERIAL MENU SERIAL MENU SERIAL MENU SERIAL MENU SERIAL MENU SERIAL MENU SERIAL MENU SERIAL MENU ANALOG MENU ANALOG MENU ANALOG MENU ANALOG MENU ANALOG MENU ANALOG MENU ANALOG MENU COMMAND MENU COMMAND MENU COMMAND MENU COMMAND MENU COMMAND MENU COMMAND MENU COMMAND MENU COMMAND MENU COMMAN
Fortsetzung „Parameterliste“ # 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 Menue LINEARIZATION MENU LINEARIZATION MENU LINEARIZATION MENU LINEARIZATION MENU LINEARIZATION MENU LINEARIZATION MENU LINEARIZATION MENU LINEARIZATION MENU LINEARIZATION MENU LINEARIZATION MENU LINEARIZATION MENU LINEARIZATION MENU LINEARIZATION MENU LINEARIZATION MENU LINEARIZATION MENU LINEARIZATION MENU LINEARIZATION MENU LINEARIZATION M
Serial codes of commands: Serial code 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 Dx350_05a_oi_e.
6.3 Linearization The linearization function of this unit allows converting a linear input signal into a non-linear developing (or vice versa). There are 24 programmable x/y coordinates available, which can be set in any desired distance over the full conversion range. Between two coordinates, the unit uses linear interpolation. Therefore it is advisable to use more coordinates in a range with strong curves and only a few coordinates where the curvature is less.
Application Example: The picture below shows a watergate where the opening is picked up by means of an incremental encoder. We would like to display the clearance of the gate "d", but the existing encoder information is proportional to the angular information φ. Dx350_05a_oi_e.
6.4 Dimensions Dx350_05a_oi_e.
6.
Relay outputs: (Option RL) Serielle Schnittstelle: (Option AO/AR/CO/CR) Display: Housing: Ambient temperature: Conformity and standards: Number of outputs: Configuration: AC-Switching capacity: DC-Switching capacity Reaction time: Format (Option A0/CO): Format (Option AR/CR) Baudrate: Type: Display range: Digit height Color: Operation: Material: Mounting: Dimensions (w x h x d): Cut out (w x h): Protection class: Weight: Operation: Storage: EMC 2004/108/EC: LV 2006/95/EC RoHS 2011/65/EU: Dx350_05a_oi_e