LEOPARD FAMILY
(cid:127) External transmitters or signal conditioners can be eliminated
by direct connection of the sensor output to more than
38 Plug-in Input Signal Conditioners that include:
AC/DC Current
Pressure
Resistance
AC/DC Voltage
Process
Temperature
Load Cell
Prototype
4 to 20 mA
(cid:127)
(cid:127)
24 V DC excitation is available to power external transmitters and 5 or 10 V DC excitation is available for resistance bridge type sensors such as Load Cells and Pressure Transducers.
A red, 51 segment high brightness bargraph.
(cid:127) Red 4-digit LED display with a range of 1999 to 9999
(12000 counts).
(cid:127)
(cid:127)
(cid:127)
(cid:127)
Front panel LED annunciators provide indication of setpoint status.
Two 10 Amp Form C and two 5 Amp Form A relays available for the BL-B51D40.
Auto-sensing AC/DC power supply. For voltages between 85-265 V AC/95-370 V DC (PS1).
Provision for external DIM switch to reduce the brightest display setting by 50%.
(cid:127) Automatic intelligent averaging smooths noisy signals, while providing a fast display response to real level changes.
(cid:127) The bargraph can display, full scale, any desired portion of the digital reading.
(cid:127) Bargraph center zero function. (cid:127) Four programmable setpoints. (cid:127) Setpoint 1 has delay-onmake and delay-on-break
plus a special pump on pump off mode that creates a Hysteresis Band between SP1 and SP2.
(cid:127) Relay activation can be
selected to occur above (hi) or below (Lo) each setpoint.
(cid:127) Digital display blanking. (cid:127) Decimal point setting. (cid:127) Four-level brightness control of the bargraph and digital display.
(cid:31)
LEOPARD FAMILY: More than 40 different Plug-in I-Series Input Signal Conditioners are approved for Texmates Leopard Family of meters.
Some examples are shown on pages 12 - 13.
See www.texmate.com for an up to date listing.
LEOPARD
Input Specs:..............Depends on Input signal conditioner A/D Converter:..........14 bit single slope Accuracy:..................(0.05% of reading + 2 counts) Temp. Coeff.:............100 ppm/C (Typical) Warm up time:..........2 minutes Conversion Rate:......3 to 16 conversions per second Display:......................4 digit 0.31" Red LED display (std).
Polarity:....................Assumed positive. Displays ve sign.
Decimals:..................User programmable
Positive Overrange:....Bargraph and top segments of digital display flash.
Negative Overrange:..First segment of bargraph and bottom
segments of digital display flash.
Display Range:..........1999 to 9999 counts - 101 segment digital display
0 to 101 segments on bargraph
Relay Output:............Two 5A Form A relays.
Power Supply:..........AC/DC Auto sensing wide range supply
85-265V AC / 95-370V DC@3W
Operating Temp.:......0 to 60C Storage Temp:..........20C to 70C.
Relative Humidity:....95% (non condensing) Case Dimensions:....1/16 DIN, Bezel: 96x24mm (3.78 x 0.95),
Depth behind bezel 122.2 mm (4.83") Plus 12.7mm (0.5) for Right-angled conn.
Weight:......................6.5 oz., 8.5 oz when packed.
Bargraph Center Point Display Mode Selection...6 Case Dimensions......................7 Component Layout...................11 Connector Pinouts....................10 Connectors.........................11 Controls and Indicators.................2 Custom Faceplates and Scales...........9 Decimal Point and Brightness Selection....5 Digital Span Selection for Display.........5
Digital Span Selection for Analog Range Output..6 Functional Diagram...................10 General Features......................1 I-Series Input Signal Conditioning Modules..12-13 Input Module Calibration Procedures.....15 Input Module Component Glossary.......14 Ordering Information..................16 Pin Descriptions......................10 Programming Conventions..............2
Setpoint Setting & Relay Configuration Mode....8 Software Features.....................1 Software Logic Tree....................3 Specifications........................1 Two Point Analog Range Setting & Calibration...7 Two Point Digital Calibration Mode........4
BL-B51D40 (BL8)
Texmate, Inc. Tel. (760) 598-9899 (cid:127) www.texmate.com
Page 1
LED
Annunciators
for Setpoints
1-2
100
Display with Faceplate and Bezel
Program Button
The
When pressed at the same time as the
button is used to move from one program step to the next. button, it initiates the
To explain software programming procedures, logic diagrams are used to visually assist in following the programming steps. The following symbols are used throughout the logic diagrams to represent the buttons and indicators on the meter:
This symbol represents the OPERATIONAL DISPLAY.
This is the PROGRAM button.
This is the UP button.
This is the DOWN button.
When a button is shown, press and release it to go onto the next step in the direction indicated by the arrow. When an alternative dotted line is shown, this indicates that an alternative logic branch will be followed when a particular option is present.
When two buttons are shown side by side and enclosed by a dotted line, they must be pressed at the same time then released to go onto the next programming step.
If an X appears through a digit, it means that any number displayed in that digit is not relevant to the function being explained.
calibration mode.When pressed at the same time as the it initiates the setpoint setting mode.
button,
Up Button
When in the operational display, pressing the allows you to view, but not change, the setting of Setpoint SP1.
button alone,
When in the calibration mode or the setpoint setting mode the button is used to increase the value of the displayed parameter.
Down Button
When in the operational display, pressing the allows you to view, but not change, the setting of setpoint SP2.
button alone,
When in the calibration mode or the setpoint setting mode the button is used to decrease the value of the displayed parameter.
Annunciator LEDs
The annunciator LEDs indicate the alarm status. They are labeled from bottom to top: SP1, SP2, SP3, SP4.
Digital LED Displays
The digital LED displays are used to display the meter input signal readings. They also display the programming settings during programming.
Setpoint Indication
The position of setpoints on the bargraph display are indicated by an ON or OFF segment dependent on the bargraph display being above or below the setpoint.
and
When the buttons are shown together, the display value can be increased button by pressing and releasing the or decreased by pressing and releasing the
button.
and
When the buttons are shown with two displays, either display can be or selected by pressing and releasing the
buttons.
When two displays are shown together with bursts, this indicates that the display is toggling (flashing) between the name of the function and the value.
[Span]
[10000]
Text or numbers shown between square brackets in a procedure indicate the programming code name of the function or the value displayed on the meter display.
When there are more than two display selections they are shown in brackets below the first display and are also selectable by pressing and releasing the
buttons.
A dotted line enclosing an entire logic diagram indicates that programming branch will appear only when a particular option is present.
Software Logic Tree
This is an intelligent bargraph meter with a hierarchical software structure designed for easy programming and operation, as shown below in the software logic tree.
Software Version is Displayed on Power-up When power is applied, all segments of the bargraph and digital display light up for 3 seconds. The version number of the installed software is then displayed for 2 seconds, after which, the operational display indicates the input signal.
15 Second Program Timeout Except for ZERO and SPAN settings in the Two Point Digital Calibration Mode and the Analog Output Range Setting and Calibration Mode (cLo and chi), the meter has a 15 second program timeout. If no buttons are pressed for 15 seconds in any of the other programming sequences, the meter will exit the programming mode and return to the operational display. Any program changes that were made prior to pressing the button in the preceding step will not be saved.
This mode enables the meter to be calibrated by applying a zero or low input signal, entering the desired reading for that signal, then applying a high input signal, and then entering the desired reading for that signal. The meter then automatically calculates and programs in the requisite scale factor, within the following parameters.
1. Positive and negative signals may be applied, but the difference between the low and the high signal inputs must be at least 1000 counts or Err will be indicated.
2. Positive and Negative values for the desired reading can be entered, but the scale factor created can not exceed the Digital Display Span capability of the meter which is 12,000 counts between 1999 to 9999.
3. The internal Signal Span is limited to 3 V DC between 1 V DC to + 2 V DC. Any outputs from an Input Signal Conditioning module that exceed these limits will cause the meter to indicate overrange regardless of the Digital Display Span scaled.
Note: Many input signal conditioners have provisions for analog calibration and scaling. If the meter is digitally set to read zero with a zero input (shorted input), and to read 1000 with a 1.000 V input, any pre-calibrated analog signal conditioner, with an output that does not exceed 1 V to + 2 V, will read correctly without any further calibration when it is inserted in the meter.
MAIN MENU
Operational Display
Sub-menu
MODE
STEP A Enter the Calibration Mode
and
1) Press the
between [CAL] and [oFF].
2) Press the
3) Press the
buttons at the same time. Display toggles
button. Display changes from [oFF] to [on].
button. Display toggles between [CAL] and [out].
Note: If at this point, the display skips directly to STEP C and toggles between [SPAn] and the previous [SPan] setting, the software is detecting that the optional analog output hardware is NOT installed.
STEP B Select Two Point Digital Calibration of Input Signal
button to select CAL [iP] for input signal cali-
button. Display toggles between [ZEro] and the pre-
1) Press the
bration.
2) Press the
vious zero setting.
STEP C Set the Meters Low Input Signal Reading on the Digital Display
1) Apply a zero or low signal to the meter. (Positive or negative values are allowed).
2) Using the
desired reading for the applied low input signal.
3) Press the
vious span setting.
button. Display toggles between [SPAn] and the pre-
buttons, adjust the meter display to the
and
STEP A Calibration
Mode
To Digital Span Selection for Bargraph Display
See Page 6
STEP B Calibration
Mode
To Two Point Analog Output Range Setting
and Calibration
See Page 7
TWO POINT DIGITAL
CALIBRATION MODE
STEP D Set the Meters High Input Signal Reading on the Digital Display
STEP C Zero
1) Apply a high input signal to the meter.
2) Using the and desired reading for the applied high input signal.
3) Press the
button.
buttons, adjust the digital display to the
The Digital Calibration Procedure is now complete.
If the digital calibration was successfully completed, the menu branches to the Digital Span Selection for Bargraph Display (see page 5), and the display flashes [bhi] and the previous setting.
STEP D Span
ERROR Indicates Unsuccessful Calibration
If the calibration was unsuccessful, the display indicates [Err], the new calibration settings just entered will not take effect and the previously stored setting will remain. The three most likely causes of an error during calibration are:
The full scale and zero signals were too similar. The full scale signal must be at least 1000 counts greater than the zero or low input signal (positive and negative values are allowed).
The scaling requirement exceeded the digital display span capability of the meter (12,000 counts between 1999 to 9999).
No input signal present, or incorrect input signal connections.
Err. Any new setting canceled and previous
settings are retained
To Digital Span Selection for Bargraph Display Page 5
The bargraph can be set to display full scale (0-51 bars) any portion of the
digital reading from a minimum of 100 counts to a maximum of 12,000
counts. This provides higher resolution bargraph indication for those appli-
cations where the normal operating input signal range is less than the
desired full scale display range of the digital display.
For Example:
If the full scale range of the meter has been set from -1999 to
9999 (0-12,000 counts), but the normal operating range of the
input signal is between 4000 & 6000. The bargraph high parame-
ter [bhi] can be set to 6000 and the bargraph low parameter [bLo]
can be set to 4000.
This means that although the meter could digitally display a signal
from -1999 to 9999 (0-12,000 counts), the bargraph display only
Bargraph Display Scale Range Setting Example
begins to function at a reading of 4000, and reaches full scale indi-
cation at a reading of 6000. Although the digital display will con-
tinue reading up to 9999 before indicating overrange, the bargraph
display will indicate its overrange by flashing for readings above
6000.
Input Signal of 3999 counts Bargraph does not light up
Input Signal of 5000 counts Bargraph lights up from 4000 to 5000 counts
STEP A Enter the Calibration Sub Menu Mode
1) Press the
and
buttons at the same time. Display toggles
between [CAL] and [oFF].
2) Press the
button. Display toggles between [bhi] and the
previous setting.
STEP B Set the Digital Span of the Bargraph Display (See example above) buttons, adjust the display to the desired
1) Using the
and
high parameter reading, e.g. 6000 counts.
2) Press the
button. Display toggles between [bLo] and the
previous setting.
3) Using the
and
buttons, adjust the display to the desired
low parameter reading, e.g. 4000 counts.
4) Press the
button. Display changes from [4000] to [dP].
STEP C Set the Decimal Point 1) Using the
and
buttons, adjust the display to the desired
decimal point setting.
2) Press the
button. Display toggles between [br] and the
previous brightness setting.
STEP D Set the Bargraph and Digital Display Brightness
1) Using the
and
buttons, adjust the display to the desired
brightness setting (4 is the brightest setting).
2) Press the
previous [Anhi] setting.
button. Display toggles between [Anhi] and the
Note: If at this point, the display skips directly to STEP G and toggles between [Cto] and [oFF], the software is detecting that the optional analog output hardware is NOT installed.
STEP E Selecting the [Anhi] Digital Value for Analog High Output
1) Using the
and
buttons, adjust the display to the desired digital value at which the [chi] Calibrated Analog High output will occur. For digital readings outside the digital span selected, the analog output will linearly rise above the value set for chi, up to the maximum analog output capability. However, the analog output will not go lower than the calibrated value set for cLo (see below).
2) Press the
button. Display toggles between [AnLo] and previous
[AnLo] setting.
STEP F Selecting the [AnLo] Digital Value for Analog Low Output
1) Using the
and
buttons, adjust the display to the desired
digital value at which the [cLo] Calibrated Analog Low output will occur. For Digital readings outside the Digital Span selected, the analog output will not go lower than the calibrated value set for cLo. button. The display toggles between [cto] and
2) Press the
[oFF].
Note: Any two digital span points from 1999 to 9999 can be selected. The digital values for [Anhi] analog high and [AnLo] analog low can be reversed to provide a 20 to 4mA output. The digital span selected can be as small as two counts, when using the analog output to function as a Control or Alarm Driver. Small digital spans will cause the high resolution 16 bit D to A to increment digitally in stair case steps.
See Two Point Analog Output Range Setting and Calibration at the top of the next page.
Bargraph Center Point Display Mode Selection
Example of Using the Center Point Bargraph Display Mode with a Unipolar Input
If the meter's full scale range is set to 5000 counts, the midpoint would be
2500 counts. If a signal of 2500 counts is applied only one segment at the
2500 count mark will light up. If a signal of 4000 counts is applied the segments between the center segment (2500 counts) and the 4000 count mark light up.
If a signal of 1000 counts is applied, the segments between the center segment (2500 counts) and the 1000 count mark will light up.
Example of Using the Center Point Bargraph Display Mode with Bipolar Signal Inputs
The meter may also be calibrated to display symmetrical bipolar signals such as 1 V or 10 V. When the center point display mode is selected, it will then function as a center zero meter. When positive signals are applied, the bar will go up from the center point, and when negative signals are applied, the bar will go down from the center point.
STEP G Bargraph Center Point Mode Selection (See example above) 1) To select bargraph center point mode, press the
button. Display changes from [oFF] to [on].
2) Press the
or [oFF].
button. Display toggles between [diSP] and [on]
STEP H Digital Display ON/OFF Selection
1) To set the display to [oFF], press the toggles between [diSP] and [oFF].
button. Display
2) Press the
button. The display exits the calibration mode
and returns to the operational display. Only the bargraph display is on and the digital display is off.
If the digital display is selected to be off, pressing any button to make programming changes or to view setpoints activates the digital display.
When the procedure is complete, the digital display will then automatically switch off.
The Display/Bargraph settings are now complete.
Determine if the Analog Output Selection Header is in the 4 to 20mA (0-20mA) position or the 0 to 10VDC position. If necessary, the module may have to be removed and the header position changed (see Component Layout below).
Note: Always disconnect power from the meter before removing the analog output module to adjust the mA or Volts output selection header and reinstalling it. When power is reconnected, the meters software will automatically detect the presence or absence of the analog output module.
STEP A Enter the Calibration Mode
1) Press the
and [oFF].
2) Press the
Press the
and
buttons at the same time. Display toggles between [cAL]
button. Display changes from [oFF] to [on]. button. Display toggles between [cAL] and [out] input calibration.
Note: If at this point the display skips directly to toggle between Zero and the previous Zero setting, the software is detecting that the optional analog output hardware is NOT installed.
STEP B Enter the Two Point Analog [ouT] Output Range Setting and Calibration Mode button. Display toggles between [cLo] and an internal scale factor.
1) Press the
and
STEP E Set or Calibrate [cLo] the Low Analog Value of the Analog Output Range 1) Connect a multimeter to analog output pins 17 and 18 (see Rear Panel Pinouts on page 10). Using the buttons, adjust the analog output to the desired low value as measured on the multimeter. cLo may be adjusted to any value from 0.3 mA to 18 mA (mA output selected) or from 0.6 V to 8 V (volt output selected). However, the output of cLo must always be less than the value selected for chi. If a reversed analog output is desired, the values selected to establish the Digital Span can be reversed (see top of page 6). For digital readings outside the Digital Span selected, the analog output will not go any lower than the calibrated value set for cLo. However, the analog output will linearly rise above the value set for chi, up to the the maximum analog output capability (see chi below).
2) Press the
button. Display toggles between [chi] and an internal scale factor.
and
STEP F Set or Calibrate [chi] the High Analog Value of the Analog Output Range 1) Using the buttons, adjust the analog output to the desired high value as measured on the multimeter display. chi may be adjusted to any value from 18 mA to 24 mA (mA output) or from 8 V to 10.3 V (volt output).
However, the value must be higher than the value selected for cLo. For digital readings outside the Digital Span selected, the analog output will linearly rise above the value set for chi, up to the maximum analog output capability.
2) Press the button. The meter exits the calibration mode and returns to the operational display.
Note: The analog output range established by the values selected for cLo and chi will occur, automatically scaled, between the two digital values selected for AnHi and AnLo.
However, the analog output can linearly rise above the chi value set for digital readings outside the digital span selected. See Digital Span Selection on page 6.
SIDE VIEW
TOP VIEW
The following programming steps are required to enter the setpoint values and configure the relay functions in a meter with four relays using four setpoints. Generally if less than four relays are installed, the setpoints without relays are operational in software for tricolor control or display only purposes. To remove unwanted setpoint indications, set them to 9999 or -1999 depending on the relay activation mode selected.
STEP A Enter the Setpoint Mode
1) Press the
and
buttons at the same time. Display toggles
between [SP1] and the previous SP1 setting.
STEP B Set Setpoint 1 (SP1) 1) Using the
2) Press the
buttons, adjust the display to the desired SP1 value.
and
button. Display toggles between [doM] and the previous
[doM] setting.
STEP C Set the SP1 Delay-on-Make (doM) Delay Time Setting
1) Using the
and
buttons, adjust the display to the desired [doM] value
(0 to 9999 seconds). The reading must continuously remain in an alarm condition until this delay time has elapsed before the relay will make contact (energize).
2) Press the
button. Display toggles between [dob] and the previous
[dob] setting.
STEP D Set the SP1 Delay-on-Break (dob) Delay Time Setting
1) Using the
and
buttons, adjust the display to the desired [dob] value
(0 to 9999 seconds). The reading must continuously remain in a non-alarm condition until this delay time has elapsed before the relay will break
contact (de-energize).
2) Press the
button. Display toggles between [hYSt] and the previous
[hYSt] setting.
STEP E Select the Hysteresis (hYSt)
1) Using the
2) Press the
and
SP2 setting.
buttons, select the Hysteresis to be ON or OFF.
button. Display toggles between [SP2] and the previous
Note: When hYSt is selected ON, and SP2 is set at a value higher than SP1, the SP1 relay will operate in a special "pump on pump off" Hysteresis mode. SP2 acts as the upper limit and SP1 acts as the lower limit of the Hysteresis Band on the SP1 relay.
For filling applications:
rLYS should be set to LhLh (see step I). The SP1 relay and SP1 LED Annunciator will then activate for inputs less than the SP1 setpoint, and remain ON until the SP2 setpoint is reached.
For emptying applications:
rLYS should be set to hhhh (see step I). The SP1 relay and SP1 LED Annunciator will then activate for inputs greater than the SP2 setpoint, and remain ON until the SP1 setpoint is reached.
STEP F Set Setpoint 2 (SP2) 1) Using the
2) Press the
buttons, adjust the display to the desired SP2 value.
and
button. Display toggles between [doM] and the previous
[doM] setting.
STEP G Set Setpoint 3 (SP3) (No [doM] or [dob])
1) Using the
2) Press the
SP4 setting.
and
buttons, adjust the display to the desired SP3 value.
button. Display toggles between [SP4] and the previous
SETPOINT SETTING
AND RELAY
CONFIGURATION MODE
STEP H Set Setpoint 4 (SP4) (No [doM] or [dob])
1) Using the
2) Press
the
and
buttons, adjust the display to the desired SP4 value.
button. Display
toggles between
[rLYS] and
the
previous relay setting.
STEP I
Set Relay Activation mode [rLYS]
(H) High the relay energizes when the setpoint is exceeded. (L) Low the relay energizes below the setpoint. The setpoint is indicated from left to right SP1, SP2, SP3, SP4.
1) Using the
the desired relay settings: [LLLL], [LhLh], [LLhh], [hhhh].
2) Press the
buttons, adjust the reading on the display to
button.
and
Connector Pinouts
Rear Panel Pinout Diagram The BL-B51D40 uses plug-in type screw terminal
connectors for all input and output connections.
Input Signal Pins 1 to 6 Pins 1 to 6 are reserved for the input signal conditioner. See the data sheet for the selected input signal conditioner.
Pins 14 and 15 AC/DC Power Input
Auto sensing AC/DC power supply. For voltages between 85-265 VAC or 95-370 VDC (PS1).
Pin 14 & Pin 15 - AC/DC Power Input: These pins are the power pins of the meter and they only accept a special polarized screw terminal plug that can not be inserted into any other input socket. The standard meter has a auto sensing AC/DC power supply that operates from 85-
265 VAC/95-370 VDC (PS1 Std). An optional isolated low voltage power supply that operates from 15-48 VAC/10-72 VDC (PS2) is also available.
Typical Input Signal Conditioner
Input Signal Conditioner
100
Relay Activation LEDs
Bargraph Segments
Digital Display
Programming Buttons
Output Module
Default setting is Lock off (switch to opposite
position to turn Lock on).
Processor Board
WARNING
AC and DC input signals and power supply voltages can be hazardous.
Do Not connect live wires to terminal blocks, and do not insert, remove or handle terminal blocks with live wires connected.
Standard plug-in screw terminal blocks provided:
BL-B51D40 (BL8)
Texmate, Inc. Tel. (760) 598-9899 (cid:127) www.texmate.com
Page 11
Many additional input modules are available and others are constantly being developed. Check with your local distributor.
Precalibrated I-Series input modules, that have span or zero potentiometers, can be interchanged between any I-Series compatible meter, without recalibration, because all of the analog scaling and reference circuitry is self-contained within the module. Where appropriate, all the standard ranges shown are designed to be header selectable by the user, and Texmate's unique SPAN ADJUST Header facilitates scaling to almost any required engineering unit. See Input Module Component Glossary and Calibration on pages 14 and 15.
Unless otherwise specified Texmate will ship all modules precalibrated with factory preselected ranges and/or scalings as shown in BOLD type. Other precalibrated standard ranges or custom ranges may be ordered. Factory installed custom scaling and other custom options are also available (see Ordering Information, Special Options on last page).
Symbols Indicate Module Compatibility Within Meter Families
ALL MODELS
SOME MODELS MODEL SPECIFIC
IA12: AC Millivolt RMS Sigma Delta
IS07: Pressure/Load Cell Ext Exc. High Impedance,
On most modules Pin 1 is the Signal High input and Pin 3 is the Signal Low input. Typically Pin 2 is used for Excitation Voltage output.
Range values are marked on the PCB.Typically two to four positions are provided, which are selected with either a single or multiple jumper clip. When provided, a custom range position is only functional when the option has been factory installed.
If provided, the 15 turn SPAN pot is always on the right side (as viewed from the rear of the meter).
Typical adjustment is 20% of the input signal range.
This unique five-position header expands the adjustment range of the SPAN pot into five equal 20% steps, across 100% of the input Signal Span.
Any input Signal Span can then be precisely scaled down to provide any required Digital Display span from 1999 counts to 001 (one count).
On some modules this header enables a 24V DC 25mA (max) Excitation/Auxiliary output to be connected to Pin 2.
If provided, the ZERO pot is always to the left of the SPAN pot (as viewed from the rear of the meter). Typically it enables the input signal to be offset 5% of full scale (-100 to +100 counts).
When provided, this three position header increases the ZERO pots capability to offset the input signal, to 25% of the digital display span. For example a Negative offset enables a 1 to 5V input to display 0 to full scale. The user can select negative offset, positive offset, or no offset (ZERO pot disabled for two step non-interactive span and offset calibration).
SPAN RANGE Header
When this header is provided it works in conjunction with the SPAN ADJUST Header by splitting its adjustment range into a Hi and a Lo range. This has the effect of dividing the adjustment range of the SPAN pot into ten equal 10% steps across 100% of the input Signal Span.
ZERO ADJUST Header
When this header is provided, it works in conjunction with the ZERO OFFSET RANGE Header, and expands the ZERO pots offset capability into five equal negative steps or five equal positive steps.
This enables virtually any degree of input signal offset required to display any desired engineering unit of measure.
Input Module Calibration Procedures Basic standard range calibration of direct reading modules that utilize either Auto Zero or a ZERO pot, an INPUT RANGE Header and or a SPAN pot.
1 If the module has an INPUT RANGE Header, reposition the
jumper clip to select the desired input signal range.
2. Apply a zero input or short the input pins. The display will auto zero, or if the module has a ZERO pot, it should be adjusted until the display reads zero.
3 Apply a known input signal that is at least 20% of the full scale input range and adjust the SPAN pot until the display reads the exact input value.
4 Decimal Points. The selection or positioning of decimal points
those process signals that require large offsets. This eliminates the back and forth interaction, between zero and span settings, that is often required to calibrate less finely engineered products.
The first step is to set the ZERO OFFSET RANGE Header to the center position (No Offset) and scale down the Input Signal Span to a percentage that will enable calibration with the SPAN pot to reach the required Digital Display Span.
The second step is to set the ZERO ADJUST and or ZERO OFFSET RANGE Header to provide a positive or negative offset of sufficient counts that calibration with the ZERO pot will offset the Digital Display Span to produce the required digital reading.
has no effect on the calibration of the modules
Example B: 1 to 5 V to read 100 to 1500 C.
Signal Span = 4V, Digital Display Span = 1600 counts
Wide range scaling, in engineering units not requiring offsets, with modules that utilize auto-zero or a ZERO pot, a SPAN RANGE Header and or a SPAN ADJUST Header.
The unique SPAN ADJUST and SPAN RANGE Headers provide the circuit equivalent of an ultra-precision one megohm 75 or 150 turn potentiometer that can infinitely scale down any Input Signal SPAN to provide any full scale Digital Display Span from 1999 (counts) to 001 (one count).
If the module has an INPUT RANGE Header, and the required full scale Digital Display Span (counts) is to be larger than the directly measured value of the input Signal Span, then the next lower range on the INPUT RANGE Header should be selected. The resulting over range Signal Span is then scaled down, by selecting the position of the SPAN RANGE Header and or the SPAN ADJUST Header, which will reduce the input Signal Span to a percentage, that the required Digital Display Span can be reached by calibration with the SPAN pot.
Example A: 0 to 10 V to read 0 to 1800 gallons.
Signal Span = 10V, Digital Display Span = 1800 counts
1 Select the 2 V INPUT RANGE Header position. This will provide a digital display of 1800 counts with an input of only 1.8 V which is (1.810)=18% of the examples 10 V Signal Span.
2 To scale down the Signal Span to 18% select the 20% Signal Span position on the SPAN ADJUST Header (position 1) or if the module has a SPAN RANGE Header, select (LO Range) and 20% Signal Span position on the SPAN ADJUST Header (position 2).
3 Apply a zero input or short the input pins. The display will auto zero, or if the module has a ZERO pot, it should be adjusted until the display reads zero.
4 Apply 10 V and adjust the SPAN pot until the display reads
1800.
Large offset scaling and calibration of process signal inputs with modules that utilize ZERO ADJUST Headers and or ZERO OFFSET RANGE Headers.
Texmates unique ZERO OFFSET RANGE Header enables the use of a simple two step scaling and calibration procedure for
1 If the module has an INPUT RANGE Header the 2 V position should be selected. This will provide a digital display of 1600 counts for an input of 1.6 V which is (1.6 4) = 40% of the examples 4 V signal span. To scale down the Signal Span to 40% select the 40% Signal Span position on the SPAN ADJUST Header (position 2).
2 If the module is a Process Input 1-5 V DC type, select the (Hi Range) position on the SPAN RANGE Header and the 100% Signal Span position on the SPAN ADJUST Header (position 5, max increase). This will provide a digital display of 1600 counts for an input of 4V which is 100% of the examples 4V Signal Span.
3 Set the ZERO OFFSET RANGE Header to the center position (no offset). Apply 1 V and adjust the SPAN pot until the display reads 400. A 4V input would then read 1600 counts.
4 Set the ZERO OFFSET RANGE Header to the negative offset position. If the module has a ZERO ADJUST Header select the position that will provide a negative offset of 500 counts. Apply 1 V and adjust the ZERO pot until the display reads 100. Apply 5 V and check that the display reads 1500.
Example C: 4 to 20 mA to read 00.0 to +100.0%
Signal Span = 16 mA, Digital Display Span = 1000 counts.
1 The full scale Signal Span of the Process Input 4-20 mA modules is 0 to 20 mA for a full scale Digital Display Span of
0 to 2000 counts. This will provide a digital display of 1000 counts with an input of only 10 mA which is (1016)=62.5% of the examples 16 mA signal span.
2 To scale down the Signal Span to 62.5% select the (Hi Range) Position on the Span Range Header and the 70% Signal Span position on the SPAN ADJUST Header (position 2).
3 Set the ZERO OFFSET RANGE Header to the center position (no offset). Apply 4 mA and adjust the SPAN pot until the display reads 250. A 16 mA input would then read 1000 counts.
4 Set the ZERO OFFSET RANGE Header to the positive offset position. If the module has a ZERO ADJUST Header select the position that will provide a negative offset of 250 counts. Apply 4 mA and adjust the ZERO pot until the display reads 000. Apply 20 mA and check that the display reads 1000.
BASIC MODEL #
DISPLAY
POWER SUPPLY
INPUT MODULES
RELAY OUTPUT
OPTIONS / ACCESSORIES
Add to the basic model number the order code suffix for each standard option required. The last suffix is to indicate how many different special options and or accessories that you may require to be included with this product.
Ordering Example: BL-B51D40-HRR-PS1-IA01-0IC-R1-OA2, the 2 OAs are, HD-CHANGE and a GN.CAS96X24L
Tel: 1-760-598-9899 USA 1-800-839-6283 Thats 1-800-TEXMATE Fax: 1-760-598-9828 Email: [email protected] Web: www.texmate.com
For product details visit www.texmate.com
Local Distributor Address
Texmate is an American manufacturer of high durability industrial grade panel meters, bar graphs, and transducers. Texmate's meters are frequently equipped with relays and various signal outputs for industrial automation applications and are known for their extremely long service life.