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Enerdis mDIGI2-TAC Instruction Manual

Programmable tachometer
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PROGRAMMABLE TACHOMETER
With the setting of "INP1" and "DSP1", the instrument should be able to operate correctly. Notwithstand, depending on the system
characteristics, it may be necessary to modify the internal measurement times.
After programming the "DSP1" parameter with decimal point, a push of
values of sampling and limit times.
SAMPLING TIME (TIME)
With irregular input signals, the display may present fluttering
or unwanted variations due that the number of input cycles
detected at each reading are not equal.
The "TIME" parameter allows stretching the measurement
interval while making an average of the readings taken along
the programmed time. This reduces possible display jittering.
The sampling time is programmable from 0.0 to 9.9 seconds.
A value of 0.0 means that no average will be made. It is set
at the factory to 1 second.
To help stabilizing the display in case of irregular input
signals it is recommended to increment this parameter, taking
into account that the display readout will be update at the
programmed time.
The sampling time can be reduced, if the input signal is
stable at the operating frequency, to increment the display
update rate.
µDIGI2-TAC
INSTRUCTIONS MANUAL
LIMIT TIME (LIM)
The limit time, programmable from 1 to 10 seconds, is
applied in order to limitate the waiting time for at least 1
pulse is produced at the input before considering it to be
zero.
The limit time is initialized at the reception of each input
pulse. If no pulse is detected before completion of the
programmed time, the display goes to zero.
The instrument is shipped from the factory with a limit time
of 10 seconds.
Decreasing the limit time makes the instrument be able to
respond more quickly to the zero condition when the system
stops but this reduction leads to an increment of the
minimum displayable reading before the display goes to zero.
For example suppose that the desired readout for an input
frequency of 1KHz is 1000 lit/s.
With a limit time of 10s, the minimum frequency is 0.1Hz and
the display readout at this frequency is 0.1 lit/s. Since this
value would not be readable in a display of 1000 counts, the
limit time could be reduced to 1s, so the minimum frequency
will be 1Hz and the minimum readout before displaying zero
will be 1 lit/s.
15
of approx. 3s provides access to set the numerical
ENTER
Code:
Edición:

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Summary of Contents for Enerdis mDIGI2-TAC

  • Page 1 PROGRAMMABLE TACHOMETER µDIGI2-TAC INSTRUCTIONS MANUAL Code: Edición: With the setting of "INP1" and "DSP1", the instrument should be able to operate correctly. Notwithstand, depending on the system characteristics, it may be necessary to modify the internal measurement times. After programming the "DSP1" parameter with decimal point, a push of of approx.
  • Page 2 RATE METER PROGRAMMING INSTRUCTIONS [18.1] Display module From the Pro stage (see fig. 15.1), press to get access to the different ENTER configuration modules (InP = input, dSP = display, and, if option installed, SEt = setpoints). Select the display module by a press of (the indication given in figure 18.1 appears on the display).

  • Page 3: Table Of Contents

    DIGITAL PANEL INSTRUMENT µDIGI2 FAMILY µDIGI2-TAC INDEX 1 . MODELS µD-TAC OVERVIEW ............................3 1.1. – FRONT-PANEL DESCRIPTION ........................4-5 2 . SETUP AND OPERATION..............................6 2.1 – POWER SUPPLY AND CONNECTORS ......................7-8 2.2 – PROGRAMMING INSTRUCTIONS ........................9 2.3 –...
  • Page 4 2.6.2 RPM TACHOMETER PROGRAMMING SAMPLING TIME (TIME) PULSES PER REVOLUTION (PPR) The “PPr" parameter is the number of pulses given by a With irregular input signals, the display may present fluttering complete revolution of the sensor connected to the or unwanted variations due that the number of input cycles instrument’s input..
  • Page 5 1. MODEL µDIGI2-TAC This manual describes the models µDIGI2-TAC instrument is The basic instrument is a soldered assembly composed of the small format. main board, and the display and keyboard module. In this manual model is referred with the generic name of Optionally, it can be equipped with a 2-relay control output µD-TAC.
  • Page 6 FRONT-PANEL FUNCTIONS DESCRIPTION (RUN MODE) SHIFT DATA KEYBOARD IN RUN MODE LABEL ENTER Engineering units. LED SET1 Indicates setpoint 1 status. LED SET2 Indicates setpoint 2 status. KEY UP Disabled in run mode. KEY DATA Shows programming data. KEY SHIFT Gives access to PROG mode.
  • Page 7 FRONT-PANEL FUNCTIONS DESCRIPTION (PROG MODE) SHIFT DATA KEYBOARD IN PROG MODE LABEL ENTER Engineering units LED SET1 LED SET2 Indicates programming Indicates programming of the setpoint1. of the setpoint2. Gives access to the setpoint values. KEY ENTER Increments the active digit value. Validates programmed data.

  • Page 8: Operating Instructions

    2. OPERATING INSTRUCTIONS PACKING CONTENTS Programming instructions (page 11) Instructions manual in English including Declaration of The software inside the instrument allows configuring the Conformity. input and display parameters. If a two-relay output option The digital panel instrument µD-TAC. is installed ref. 2RE (page 27), the software detects it on Accessories for panel mounting (sealing gasket and fixing power up enabling a specific routine for setpoints clips).

  • Page 9: Power Supply And Connectors

    2.1 – Power supply and connectors To change the meter’s physical configuration remove the case as shown in figure 9.1. 115/230 V AC: The instruments with 115/230 V AC power are set up at fabrication for 230 V AC (USA market 115 V AC), see figure 9.2.
  • Page 10 POWER CONNECTION INSTALLATION To meet the requirements of the directive EN61010-1, where the unit is permanently connected to the mains supply it is obligatory to install a circuit breaking device easy reachable to the operator and clearly marked as the disconnect device. WARNING In order to guarantee the electromagnetic compatibility, the following guidelines should be kept in mind :...

  • Page 11: Programming Instructions

    2.2 – Programming Instructions To enter in the programming mode Connect the meter to the main supply, for approx. 1s a self-test routine automatically activates all the digits of the display. After, the instrument goes to the normal operating mode (RUN). To enter in the programming mode press for 5 seconds until the the indication Pro shown in figure 11.1 appears on the display.

  • Page 12: Instrument Setup

    2.3 – Instrument’s setup The enclosed diagram shows the complete programming routines for models µD-TAC. The basic parameters, which refer to the input and display configuration are organized into two modules: "InP" and "dSP". If a 2-relay option is installed (see page 27), the module "Set", that allows configuring the option, is automatically included in the...

  • Page 13: Input Configuration

    2.4 – INPUT CONFIGURATION To configure the input to the indicator, set the switch SW1 as indicated in the table 1./ Sensor type switch settings Before connecting the input signal to the instrument, set the 5-position DIP-switch SW1 (see figure) according to the sensor type as indicated in the table below.
  • Page 14 2./ Signal connections. 3./ Sensor wiring schematics. Consult wiring advisements given in page 10. Consult wiring advisements given in page 10. INPUT SIGNAL CONNECTION (CN2) PIN 1 = -IN [common (-)] PIN 2 = +IN [LOW] PIN 3 = +EXC [24V DC (+)] PIN 4 = +EXC [8V DC (+)] PIN 5 = NOT CONNECTED...
  • Page 15 ACCESS TO THE PROGRAMMING MODE [15.1] Programming mode Connect the instrument to the main supply, it automatically enters in a self-test routine which briefly illuminates all segments and LED’s then shows the software version and finally goes to the normal reading ("RUN" mode). Press to acceed the programming mode.

  • Page 16: Display Configuration

    2.6 - DISPLAY CONFIGURATION The display configuration depends on the input type selected in the input module. As RATE METER, the display module includes programming of the input frequency with decimal point and the desired display with decimal point. The display/frequency ratio may be set for direct or reverse operation. As RPM METER, the only parameter necessary to configure the display is the number of pulses per revolution that delivers the sensor.