Wachendorff PH5100 User manual
Universal display PH5100
Operating instruction
LABOM Mess- und Regeltechnik GmbH Im Gewerbepark 13 27798 Hude Germany
Operating instruction BA_074_2020-01_10.00
Page 1/3
BA_074e, Rev.1C5
LAB
OM Mess
-
und Regeltechnik GmbH
Im Gewerbepark 13 • 27798 Hude • Germany
Phone: +49 4408 804-0 • Fax -100
info@labom.com • www.labom.com
Universal display PH5100
Operating manual
Version: 22.02.2013
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Content
1. Introduction ............................................................................................................................. 3
2. Safety instructions .................................................................................................................. 3
2.1 General information........................................................................................................ 3
2.2 Proper usage................................................................................................................... 3
2.3 Qualified staff.................................................................................................................. 3
2.4 Remaining risk ................................................................................................................ 3
2.5 Legal responsibility ........................................................................................................ 3
2.6 CE-Conformity ................................................................................................................ 4
3. Description............................................................................................................................... 4
4. Features ................................................................................................................................... 4
4.1 Signal input ..................................................................................................................... 4
4.2 Offset-Funktion ............................................................................................................... 4
4.3 Alarms ............................................................................................................................. 4
4.4 Blocking initial of the alarm ............................................................................................ 6
4.5 Auto range function (AVTO.R) ........................................................................................ 6
4.6 Totalizing function........................................................................................................... 6
4.7 Totalizing/Integration time base (t.base) ........................................................................ 6
4.8 Totalizing/Integration scale factor (t.ScF)....................................................................... 6
4.9 Batch totalizing function ................................................................................................. 6
4.10 F1 and F2 function keys.................................................................................................. 6
4.11 Over flow alarm ............................................................................................................... 7
4.12 Minimum and maximum.................................................................................................. 7
4.13 24 VDC auxiliary voltage source..................................................................................... 7
4.14 Interface........................................................................................................................... 7
5. Installation ............................................................................................................................... 7
5.1 Mechanically installation................................................................................................ 7
5.2 Electrical installation...................................................................................................... 8
5.3
Recommendations for the installation .......................................................................... 8
6. Operation ................................................................................................................................. 9
7. Start up..................................................................................................................................... 9
8. Description of the parameters ...............................................................................................10
8.1 Operation cycle ..............................................................................................................10
8.2 Alarm cycle.....................................................................................................................10
8.3 Input Signal level parameters .......................................................................................10
8.4 Totalizing cycle ..............................................................................................................11
8.5 Calibration cycle.............................................................................................................12
8.6 Password protection ......................................................................................................12
9. Specifications.......................................................................................................................14
10. Error messages, default and calibration .............................................................................14
10.1 Error messages ..............................................................................................................14
10.2 Calibration and factor setting ........................................................................................15
11. Copyright..............................................................................................................................15
12. Disclaimer.............................................................................................................................15
13. Other regulations and standards........................................................................................15
14. Techncal Support.................................................................................................................15
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1. Introduction
Dear valued Customer!
Thank you for purchasing and using a product from our company. The universal digital panel meter
PH5100 from LABOM Mess- und Regeltechnik GmbH could be used for a numerous number of
applications.
For getting the highest effort out of this unit, we kindly ask you to follow the below mentioned
instructions:
Every person who is involved with the installation or usage of this unit, must read carefully
and understand the installation manual and safety instructions!
2. Safety instructions
2.1 General information
To ensure the safe operation of this unit the instructions that appear in this manual must be strictly
observed. In addition, when used all applicable legal and safety regulations for the respective
application must be observed. The same applies correspondingly to the use of accessories.
2.2 Intended usage
Units from the PH5100 are used for collecting and displaying of a variaty of analogue sensor
signals. Any other use is regarded not in accordance with the intended usage.
The LABOM universal panel meters PH5100 are not meant to be used as sole safety
means to prevent dangerous situations on machinery and installations. Machinery and
installations must be so designed that fault conditions can not lead to harmful situations to
operating personnel (e.g. by independent limit value switches, mechanical locking etc.).
2.3 Qualified personnel
Units from the LABOM universal panel meter PH5100 must only be operated in accordance with
the technical specifications by qualified personnel. Personnel regarded qualified is familiar with the
installation, assembly, putting into operation and operation of the units and possesses adequate
professional qualification for the task.
2.4 Remaining hazards
Units from the LABOM universal panel meter PH5100 are state of the art and safe to operate. A
risk of danger can occur when deployed and operated improperly by untrained personnel.
In this manual remaining hazards are marked by the following warning symbol:
2.5 Legal responsibilityh
Liability for material defects and defects of this documentation, particularly for the accuracy,
correctness, freedom of protection or third party rights, completeness and/or usability - except for
willful misconduct or gross negligence - is excluded.
This symbol indicates that non
-
observance of the safety guidelines may
cause hazards to persons even serious injury or death and/or the
possibility of property damage.
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2.6 CE-Conformity
The CE certificate is available at our company. We are pleased to send you a copy of it. Please feel
free and contact us to get a copy.
3. Description
The universal panel meter PH5100 is a quite versatile process indicator with totalizing function.
With a wide list of input types - thermocouples, thermo-resistance, voltage and current the PH5100
is capable of measuring the majority of the variables and sensors encountered in industrial
processes.
It contains two alarms (six functions), sensor offset, configuration of parameters protected by
password, USB communication, indication in degrees Celsius (°C) or Fahrenheit (°F), among
others.
4. Features
4.1 Signal input
Type CODE Measurement range
Thermo couple J
Range: -110 °C to +950 ºC (-166 °F to +1742 ºF)
Thermo couple K
Range: -150 °C to +1370 ºC (-238 °F to +2498 ºF)
Thermo couple T
Range: -160 °C to +400 ºC (-256 °F to 752 ºF)
Thermo couple N
Range: -270 °C to +1300 ºC (-454 °F to 2372 ºF)
Thermo couple R
Range: -50 °C to +1760 ºC (-58 °F to 3200 ºF)
Thermo couple S
Range: -50 °C to +1760 ºC (-58 °F to 3200 ºF)
Thermo couple B
Range: 400 °C to +1800 ºC (752 °F to 3272 ºF)
Thermo couple E
Range: -90 °C to +730 ºC (-130 °F to 1346 ºF)
RTD (Pt100)
Range: -200 °C to +850 ºC (-328 °F to 1562 ºF)
0 to 20 mA
Linear analogue signal
Indication programmable from -1999 to 30000.
4 to 20 mA
0 to 50 mV
0 to 5 VDC
0 to 10 VDC
Table 1: Input Types
4.2 Offset-Funktion
Allows fine adjustments to the PV indication, correcting measurement errors that appear, for
example, after the replacement of the temperature sensor.
4.3 Alarms
The LABOM digital universal panel meter PH5100 has two alarm outputs:
ALARM1 - Relay SPST - Available on terminals 5 and 6.
ALARM2 - Relay SPST- Available on terminals 3 and 4.
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The alarms can assume the functions described on Table 02:
off
Alarm off.
Alarm of the Absolute Minimum
Value. It triggers when the value
of the PV is below the value
defined by the alarm Setpoint
(SPA1 or SPA2).
SPA
1
PV
Alarm of the Absolute Maximum
Value. It triggers when the value
of the PV is above the value
defined by the alarm Setpoint.
SPA
1
PV
Alarm of the Differential Value. In this function the parameters “
SPA1
” and “
SPA2
”
represent errors (difference) between the PV and one reference value (AlrF).
ALrF
PV
ALrF+
SPA
1
ALrF–SPA1
ALrF
PV
ALrF
–
SPA
1
ALrF
+ SPA1
al ar me
SPA1 positive SPA1 negative
Alarm of the Minimum Differential Value. It triggers when the value of the PV is
below
the point defined by:
ALrF-SPA1
(using alarm 1 as an example).
ALrF
PV
ALrF
–
SPA
1
ALrF
PV
ALrF
–
SPA1
SPA1 positive SPA1 negative
Alarm of the Maximum Differential Value. It triggers when the value of the PV is
above
the point defined by:
ALrF+SPA1
(using alarm 1 as an example).
ALrF
PV
ALrF
+ SPA1
ALrF
PV
ALrF
+ SPA1
SPA1 positiv SPA1 negativ
Alarm of the Absolute Minimum Value. It triggers when the value of the totalizer (TOT) is
below
the value defined by the alarm
Setpoint.
Alarm of the Absolute Maximum Value. It triggers when the value of the totalizer (TOT)
is
above
the value defined by the alarm
Setpoint.
Alarm at overflow of totalizer.
Alarms of the Sensor Break (Sensor
Break Alarm
). It is activated when the Input
presents problems such as interrupted sensor, bad connection, etc.
Table 02: Alarm functions
Note:
The figures are also valid for Alarm 2 (SPA2).
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4.4 Blocking initial of the alarm
The initial blocking option inhibits the alarm from being recognized if an alarm condition is present
in the process when the indicator is first energized. The alarm will be enabled only after the
occurrence of no alarm condition.
The initial blocking is useful, for example, when one of the alarms is set up as a minimum value
alarm, which may cause the activation of the alarm soon upon the process start-up; an occurrence
that may undesirable in many cases.
The initial blocking feature is not valid for the functions
t.lo
,
t.Hi
,
t.ofl
and
ierr
.
4.5 Auto range function (
)
The indication limits can be set by using operator’s knowledge about the process. By knowing the
relation between the current process variable value and the desired indication in two points the
indication limits can be easily set.
The known PV values are set through
and
parameters which are presented when
the Auto Range function is enabled:
.
If the function Auto Range is used the parameters
and
are automatically defined.
This function is only available for analog linear input signals.
4.6 Totalizing function
This function allows continuous integration of instant PV values.
This continunous integration is stored in a non volatile internal memory and can also be presented
at the indicator display by choosing TOTAL screen which is identified by the symbol TOT. This
symbol is always presented when the TOTAL is being presented.
The TOTAL value is presented with up to 9 digits (999999999) but when this value is bigger than
99999 it is splitted in two separate screensindicating the most and least significant parts and
identified with the symbols
TOT HIGH
and
TOT LOW
on the display.
The TOTAL value can be erased through the keyboard or can be reset everytime the indicator is
powered up.
4.7 Totalizing/Integration time base (
)
The instant PV value integration is executed at fixed time interval which is defined by a
configuration parameter.
The Time Base options are second, minute, hour and day.
4.8 Totalizing/Integration scale factor (
)
Before being added to the total, the instant PV value is multiplied by the Scale Factor.
4.9 Batch totalizing function
This function allows the operator to execute the totalization only when a pre configured function key
is pressed.
This function allows the user to add or subtract the instant PV value to/from the total accumulated
value.
4.10 F1 and F2 function keys
The F1 and F2 Keyscan execute several different functions which should be set by the user when
configurating the indicator.
Key not used to any special function.
Executes Batch Function - Addition
Executes Batch Function - Subtraction
Reset Total value
Present maximum read value
Present minimum read value
Reset minimum and maximum values
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Two different functions can be assigned to F1 and F2 keys. The function to be executed, Primary or
Secundary, is determined by the amount of time the function key keeps pressed. If the function key
keeps pressed for less then 1 secondthe Primary function is executed.
If the key keeps pressed for more than 3 seconds then the Secundary function is executed.
The combination of the keys F1 and F2 pressed simultaneously can also execute a Special
Function. All Special Functions are available to the operator as follows:
F1_1
: F1 Key, Primary Function.
F1_2
: F1 Key, Secundary Function.
F2_1
: F2 Key, Primary Function.
F2_2
: F2 Key, Secundary Function.
F12_1
: F1+F2 Keys, Primary Function.
F12_2
: F1+F2 Keys, Secundary Function.
The totalization alarm functions
t.Lo
and
T.
i
allow the user to notify when a total value is reached.
The alarm defined as Totalization Minimum Value Alarm (
) is set when the totalization value
goes below the configured set point.
The alarm defined as Totalization Maximum Value Alarm (
) is set when the totalization value
goes above the configured set point.
As the totalization value can indicate up to 99999 99999 (or -9999 99999) the set point values
behave the same way. If the SP being set goes above 99999 (orbelow -9999) the second SP part is
displayed allowing the operator to se values up to 99999 99999 (or -9999 99999).
The flags
HIGH
and
LOW
identify if the part being displayed is the SP most significant part (HIGH)
or the least significant part (LOW).
The totalization alarm (SP) is defined through the values SPA1 and SPA2. This two parameters
behave different from other parameters. The Back key allows the operator to change the SP
decimal digit to be set.
4.11 Over flow alarm
This alarm function is set when the totalized value surpass 9999999999, which is the maximum
indication value.
4.12 Minimum and maximum
The indicator is continuously storing the extreme input indication measurements, or the the
minimum and maximum values. These values can be display edatany time by the operator by
pressing the keys F1 and F2. Notice that the function Keys should be set to
and
.
To reset the maximum and minimum values and start another another monitoring cycle, just
execute the function
, which can be assigned to the keys F1 and F2.When the indicator is
powered off these information is not stored.
4.13 24 VDC auxiliary voltage source
The standard version of the PH5100 provides an auxiliary power supply (24 VDC) for exciting field
transmitters (terminal 13 on the rear panel).
4.14 Interface
USB-Port (virtual COM-Port) to program the digital display.
5. Installation
5.1 Mechanical installation
The indicator is meant for panel mounting. The sequence of steps is:
•
Prepare a cut out of 93.0 by 45.5 mm on the panel
•
Remove the mounting clamp from the indicator
•
Insert the indicator into the cut out from the front side of the panel
•
Place the clamp on the indicator again, pressing until firm grip to the panel
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5.2 Electrical installation
The terminal configuration is shown in Figure 01.
Figure 01: Inputs connections and power supply
Figure 02:Thermocouple, Pt100 and 50 mV signal connection
Figure 03: Current (mA) and Voltage (V) signal connection
This indicator offers an auxiliary 24 Vdc +/-15% at 50 mA power supply which is typically applied to
power up two wire 4 to 20 mA field transmitters. The
Figure 04
presents the wiring for this
application.
Figure 04: Auxiliary 24 Vdc usage example
5.3 Recommendations for the installation
•
•••
To minimize the pick-up of electrical noise, the low voltage DC connections and the sensor
input wiring should be routed away from high-current power conductors. If this is impractical,
use shielded cables. In general, keep cable lengths to a minimum.
•
•••
The input signals conductors shall be positioned throughout the factory separate from the
output and the power supply conductors, in grounded conduits if possible.
•
•••
The power supply of the electronic instruments shall come from a proper source for the
instrumentation network.
•
•••
It is recommended to use RC FILTERS (0,1uF in series with 100 ohms) to suppress the noise
generated by contactors coils, solenoids, etc.
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6. Operation
The indicator front panel, together with its elements, can be seen on:
Indicators
Push buttons
Figure 02: Identification of the front panel parts.
Display
: Shows the process variable (
PV)
, the configuration parameters prompts and their
respective values/conditions.
Indicators A1 and A2
: signalize the occurrence of an alarm condition.
Key P
: Used to walk through the parameters in the menu cycles.
Increment key and Decrement key
: Used to change parameter values.
Key
: Go back to the previous displayed parameter. This key changes its behavior starting to set
the decimal digit to set.
7. Start up
When the controller is powered up, its firmware version is displayed for 3 seconds, after which the
PH5100 starts normal operation, when the value of
PV
is displayed and the outputs are enabled.
Before the indicator is ready to be used in a given process, it requires some basic configuration,
consisting of assigning values to the parameters according to the desired behavior. The user shall
understand the importance of each parameter and determine a valid condition or a valid value for
each one of them.
The configuration parameters are grouped in levels according to their affinity. The 5 parameters
levels are:
1 – Operation
2 – Alarms
3 – Input
4 – Totalizer
5 – Calibration
The
“P”
key provides the access to the levels and to the parameters of these levels.
Keeping the
P
key pressed, at every 2 seconds, the indicator jumps from one level to another,
presenting the first parameter of each level:
Measurement PV
>>
>>
>>
>>
>>
PV
…
To enter into a particular level, simply release the
P
key when the first parameter in that level is
displayed.
To walk through the parameters in a level, press the P key with short strokes. To go back to the
previous parameters, use the Key.
The display alternates the presentation of the parameter prompt and its value. The parameter value
is displayed with a light blinking to differentiate it from the parameter prompt.
Depending on the level of parameter protection adopted, the parameter
precedes the first
parameter in the level where the protection is active. See section Protection configuration.
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8. Description of the parameters
8.1 Operation cycle
Indication Display of PV
:
The value of the measured variable (PV) is shown on the main display (red).
Totalizing value
:
When this value is bigger than 99.999 it is splitted in two separate screens
indicating the most and least significant parts and identified with the symbols
TOT HIGH and TOT LOW on the display
SetPoint
Alarm
Alarm SP:
Value that defines the alarm activation point.
For the alarms set up with the functions of the type
Differential
or
Band
,
these parameters define the maximum differences accepted between
PV
and
a reference value defined in the parameter
.
For the alarm function
ierr,
this parameter is not used.
Parameters shown in this level only when enabled in the parameters
and
.
8.2 Alarm cycle
Alarm Functions. It defines the functions of the alarms among the options in
Table 02
(page 5).
Alarm
Reference
Reference value used by the alarms with differential function, minimum
differential or maximum differential.
Alarm
Referenz
Totalization alarm SP decimal point.
SetPoint
Alarm
Alarm SP: Value that defines the point of activation of the alarm outputs. For
the alarms programmed with the functions of the type
Band
and
Differential
,
these parameters represent the deviations.
For the
and
alarm functions, this parameter has no meaning.
SP enable
It allows the parameters
and
to be displayed also in the indicator
operation cycle.
:
Shows the parameters
/
in the operation cycle.
:
DOES NOT show the parameters
/
in the operation cycle.
BlockingAlarm
Alarms Initial Blocking (see section 4.5).
YES:
Enables the initial blocking
:
Inhibits the initial blocking
Hysteresis of
Alarms
Alarm Hysteresis. It defines the difference between the value of PV at which
the alarm is triggered and the value at which it is turned off.
Flash
It allows signalization of an alarm conditions occurrence by flashing the
indication of PV on the indication display.
YES:
Enables alarm signalization by flashing
PV
.
:
Disables the flashing
PV
.
8.3 Input Signal level parameters
Typ
Input Type. Selection of the input type, used by the indicator. Refer to
Table
01
on page 4.
Filter
Digital Input Filter – Used to improve the stability of the measured signal (PV).
Adjustable between 0 and 20. At 0 (zero) it means filter turned off and 20
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means maximum filter. The higher the filter value, the slower is the response
of the measured value.
Decimal Point
It determines the position of the decimal point on the display.
Unit
It defines the temperature unit to be used:
°
indication in Celsius.
°F
indication in Fahrenheit.
Offset
Parameter that allows the user to make fine adjustments to the indicated PV
value.
Auto Range
Enables the scaling of the
PV
by applying the input signal.
PV value to the first process known point when
Auto Range
function is
enabled (
avto.r
=
yes
).
PV value to the second process known point when
Auto Range
function is
enabled (
avto.r
=
yes
).
Input Low
Limit
It defines the lower value of the indication range when the input types of 0-
20
mA, 4-20 mA, 0-50 mV, 0-5 V and 0-10 V are used (
avto.r
=
).
input High
Limit
It defines the upper value of the indication range when the input types of 0-
20
mA, 4-20 mA, 0-50 mV, 0-5 V and 0-10 V are used (
avto.r
=
).
Defines the function to be executed by F1 and F2 keys:
No associated function
Executes Batch Function - Addition
Executes Batch Function - Subtraction
Reset Total value
Present maximum read value
Present minimum read value
Reset minimum and maximum values
8.4 Totalizing cycle
Defines the indicator operation mode.
on
Tatalizing function enabled
off
Totalizing function disabled
bAtch
Batch operation
Totalizer Decimal Point Position
Defines the decimal point position when presenting the total value.
Totalizer time
base
Definess the time totalizing function time base.
Sec
seconds
IN
minutes
Xovr
hours
Day
days
TotalizerScale
Factor
Totalizer Scale Factor.
Can be set from 0,001 to 65,0.
LowCut
Totalizer low cut value.
Defines the lowest PV instant value limit considered for totalization and do not
integrate any value below.
Power Up
Reset
Power up Reset
Defines if the total value is restored or reset on indicator power up
Reset Totalizer
No reset of the Totalizer
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8.5 Calibration cycle
All types of input are calibrated in the factory. In case a recalibration is required; it shall be carried
out by a specialized professional. In case this cycle is accidentally accessed, do not perform
alteration in its parameters. The factory calibration can be restored in the parameter rstr.
Password.
Entering the Access password. This parameter is presented
before the protected cycles. See item Protection of Configuration.
Calibration.
Enables the possibility for calibration of the indicator. When the
calibration is not enabled, the related parameters are hidden.
Input Low Calibration.
Indication of the low scale calibration signal applied to
the input.
Input High Calibration.
Indication of the full scale calibration signal applied to
the input.
Restore.
It restores the factory input calibration and the indicator factory
parameters, disregarding any modifications carried out by the user.
Cold Junction.
Temperature of the indicator cold junction.
Password Change
. It allows the definition of a new access password, always
different from zero.
Protection
. Sets up the Level of Protection. See
Table 03
(page 13).
Frequency.
Frequency of the local electrical network.
Serial number 4 most significant digits.
Serial number 4 least significant digits.
8.6 Password protection
The PH5100 indicator provides means for protecting the parameters configurations, not allowing
modifications to the parameters values, avoiding tampering or improper manipulation. The
parameter
Protection
(
) in the Calibration level determines the protection strategy, limiting
the access to particular levels, as shown in the table below.
ProtectionLevel ProtectedLevels
1 Only the Calibration level is protected.
2 Totalization and Calibration levels are
protected.
3 Input, Totalizationand Calibration levels are
protected.
4 Alarms, Input, Totalizationand Calibration
levels are protected.
Table 3: Levels of Protection of the configuration
ACCESS PASSWORD
The protected levels, when accessed, request the user to provide the
Access Password
for
granting permission to change the configuration of the parameters on these levels.
The prompt
PASS
precedes the parameters on the protected levels. If no password is entered, the
parameters of the protected levels can only be visualized.
The Access Password is defined by the user in the parameter
Password Change
present
in the Calibration Level.
The factory default for the password code is 1111
.
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PROTECTION OF THE ACCESS PASSWORD
The protection system built into the controller blocks for 10 minutes the access to protected
parameters after 5 consecutive frustrated attempts of guessing the correct password.
MASTER PASSWORD
The Master Password is intended for allowing the user to define a new password in the event of it
being forgotten. The Master Password doesn’t grant access to all parameters, only to the
Password
Change
parameter (
PAS.(
). After defining the new password, the protected parameters may be
accessed (and modified) using this new password.
The master password is made up by the last three digits of the serial number of the controller
added
to the number 9000.
As an example, for the equipment with serial number 07154321, the master password is 9 3 2 1.
The indicator serial number can be obtained by pressing for 5 seconds.
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9. Specifications
DIMENSIONS: 96 mm x 48 mm x 35 mm
Panel cut out 93,0 mm x 45,5 mm
Approximate weight: 110 g
POWER SUPPLY: 100 VAC to 240 VAC (±10 %), 50/60 Hz
100 VDC to 240 VDC (±10 %)
Maximum consumption 6 VA
ENVIRONMENTAL CONDITIONS:
Operation Temperature: 0 °C to50 ºC
Relative Humidity: 80 % @ 30 ºC
For temperatures above 30 ºC, reduce 3 % per ºC
Indoor use; Installation Category II, Pollution Degree 2; altitude < 2000 meters
INPUT: According to
Table 01
on page 4
Internal Resolution: 65.535 levels (16 bits)
Display Resolution: 32.000 levels (from -1.999 to 30.000)
Input reading rate: up to 55 per second
Precision: Thermocouples
J
,
K
,
T
,
E
: 0,25 % of the span
±
1 ºC
Thermocouples e
N
,
R
,
S
,
B
: 0,25 % of the span
±
3 ºC
Pt100 (RTD): 0,2 % of the span
4 to 20 mA, 0 to 50 mV, 0to 5/10 V: 0.2 % of the span
Input impedance: Pt100, T/C, 0 to 50 mV: > 10 M
Ω
0 to 5 V, 0 to10 V: > 500 k
Ω
4 to 20 mA: 100
Ω
Measuring of the Pt100: 3 wire type, (
α
=0.00385), with compensation of the cable
length, max 50 meters, excitation current of 0.170 mA.
OUTPUT:
Output ALARM1: Relay SPST; 240 VAC / 30 VDC / 1.5 A
Output ALARM2: Relay SPST; 240 VAC / 30 VDC / 1,5 A
24 VDC source: 24 VDC (±15 %) / 50 mA max.
CASE: Polycarbonat (PC) UL94 V-2
BACK PANAL: ABS+PC UL94 V-0
CONNECTIONS (WIRING):
Plug-in block terminals, 5 mm pitch
STARTS OPERATION AFTER 3 SECONDS CONNECTED TO THE POWER SUPPLY.
10. Error messages, default and calibration
10.1 Error messages
Connection errors and inadequate programming are the most common errors found during the
controller operation. A final revision may avoid loss of time and damages.
The controller displays some messages to help the user identify problems.
MESSAGE DESCRIPTION OF THE PROBLEM
---- Open input. No sensor o signal.
Connection and/or configuration errors.
Check the wiring and the configuration.
Other error messages may indicate hardware problems requiring maintenance service.
Operating instruction BA_074_2020-01_10.00 Universal panel indicator PH5100 Page 15/15
Operating manual
- 15 - BA_074e, Rev.1C5
10.2 Calibration and factor setting
All inputs are factory calibrated and recalibration should only be done by qualified personnel. If you
are not familiar with these procedures do not attempt to calibrate this instrument.
The calibration steps are:
a)
Configure the input type to be calibrated.
b)
Configure the lower and upper indication limits for the maximum span of the selected input type.
c)
Connect to the input terminals a signal corresponding to a known indication value a little above the
lower display limit.
d)
Access the parameter
. With the keys and adjust the display reading to match the
applied signal. Then press the
P
key to store.
e)
Inject a signal that corresponds to a value a little lower than the upper limit of indication.
f)
Access the parameter
. With the keys and adjust the display reading to match the
applied signal. Then press the
P
key to store.
Note: When checking the controller calibration with a Pt100 simulator, pay attention to the simulator minimum
excitation current requirement, which may not be compatible with the 0.170 mA excitation current provided by
the controller.
11. Copyright
The contents of this document are the property of the company LABOM Mess- und Regeltechnik
GmbH. Copying or reproduction is prohibited without prior approval. Contents of this document
refer to the device described therein.
12. Disclaimer
All technical content within this document can be modified without notice. The content of this
document is content of a recurring audit.
In losses due fire, earthquake, interventions by third or other accidents or intentional or accidental
misuse or incorrect using or using under unnormal conditions, repairs will be invoiced.
LABOM Mess- und Regeltechnik is not liable for inadvertently loss due using or not using this
product, such as loss of business income. LABOM Mess- und Regeltechnik is not liable for cases of
an unnormal usage.
13.Other regulations and standards
WEEE Informationen
Disposal of old electrical and electronic equipment (as in the European Union and other
European countries with separate collection systems).This symbol on the product or on its
packaging indicates that this product may not be treated as household waste. Instead, it
should be taken to an applicable collection point for the recycling of electrical and electronic
equipment. If the product is disposed of correctly, you will help prevent potential negative
environmental factors and human health, which could otherwise be caused by inappropriate
disposal. The recycling of materials will help to conserve natural resources. For more information
about recycling this product, please contact your local city office, your household waste disposal
service or the shop where you purchased the product.
14. Techncal Support
If you have any problems or questions please contact us at:
LABOM Mess- und Regeltechnik GmbH
Im Gewerbepark 13 • 27798 Hude • Germany
Phone: +49 4408 804-0 • Fax -100
www.labom.com
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