Delta OHM HD2305.0, HD2305 User Manual

Our instruments' quality level is the results of the product continuous development. This
can bring about differences between the information written in this manual and the
instrument that you have purchased. We cannot entirely exclude errors in the manual, for
which we apologize.
The data, figures and descriptions contained in this manual cannot be legally asserted. We
reserve the right to make changes and corrections without prior notice.

HD2305.0

REV. 1.3

Nov.,10th2005

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pH meter - Thermometer

HD2305

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HD2305.0

1. Input for probes, 8-pole DIN45326 connector.

2. pH/mV input, female BNC

3. Battery symbol: displays the battery charge level.

4. Function indicators.

5. Secondary display line.

6. DATA/ENTER key: during normal operation displays the maximum (MAX), the minimum

(MIN) and the average (AVG) of current measurements. In the menu, confirms the current
selection. In calibration mode, acquires the nominal buffer value.

7. pH-mV/ESC key: during normal operation switches the display between pH and mV; in the

menu, resets the value set with the arrows. In calibration mode, allows you to exit calibration.

8.  key: in the menu, increases the current value. In calibration mode, increases the displayed

nominal buffer value.

9. °C/°F/MENU key: it allows selection of the unit of measurement; when pressed together with

the DATA key, it allows to open the menu.

10. CAL: starts the calibration procedure.

11. /REL-mV key: during normal operation enables the relative measurement (displays the

difference between the current value and the logged value when the key is pressed); press the
key again to return to the normal measurement. It works only if you are displaying the mV. In
the menu, decreases the current value. In calibration mode, decreases the displayed nominal
buffer value.

12. ON-OFF/AUTO-OFF key: turns the instrument on and off; when pressed together with the

°C/°F/MENU key, disables the AutoPowerOff function.

13. MAX (maximum value), MIN (minimum value) and AVG (average value) symbols.

14. Main display line.

15. Line for symbols and comments.

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TABLE OF CONTENTS

1. GENERAL CHARACTERISTICS............................................................................................................................. 5

2. DESCRIPTION OF THE FUNCTIONS .................................................................................................................... 6

3. THE PROGRAMMING MENU ................................................................................................................................. 9

4. PROBES AND MEASUREMENTS.......................................................................................................................... 10

4.1 THE ELECTRODE FOR pH MEASUREMENT ................................................................................................................10

4.1.1 Automatic or manual pH compensation ......................................................................................................... 11

4.1.2 How to manually change the temperature ...................................................................................................... 11

4.2 pH ELECTRODE CALIBRATION .................................................................................................................................12

4.2.1 Calibration procedure..................................................................................................................................... 12

Temperature characteristics of Delta OHM buffer solutions .................................................................................. 14

4.3 Pt100 AND 2 WIRE Pt1000 TEMPERATURE PROBES ................................................................................................ 15

4.3.1 Temperature measurement............................................................................................................................. 15

4.3.2 Connecting the TP47 connector for the 4 wire Pt100 and 2 wire Pt1000 probes........................................... 15

4.3.3 Direct connection of 4 wire Pt100 sensors..................................................................................................... 17

5. WARNINGS................................................................................................................................................................ 18

6. INSTRUMENT SIGNALS AND FAULTS .............................................................................................................. 19

7. INSTRUMENT STORAGE....................................................................................................................................... 20

8. LOW BATTERY WARNING AND BATTERY REPLACEMENT ..................................................................... 21

8.1 WARNING ABOUT BATTERY USE.............................................................................................................................. 21

9. NOTES ABOUT WORKING AND OPERATIVE SAFETY ................................................................................. 22

10. TECHNICAL CHARACTERISTICS ....................................................................................................................23

10.1 TECHNICAL INFORMATION ON THE pH METER – THERMOMETER.......................................................................... 23

10.2 ON LINE INSTRUMENT PROBES AND MODULES TECHNICAL DATA................................................... 24

10.2.1 Temperature probes Pt100 and SICRAM module........................................................................................ 24

10.2.2 4 wire Pt100 and 2 wire Pt1000 Probes........................................................................................................24

11. ORDER CODES....................................................................................................................................................... 25

11.1 PH ELECTRODES ................................................................................................................................................... 25

11.2 ORP ELECTRODES (REDOX) ...............................................................................................................................25

11.3 PH BUFFER SOLUTIONS ......................................................................................................................................... 25

11.4 ORP BUFFER SOLUTIONS (REDOX) ......................................................................................................................26

11.5 TEMPERATURE PROBES COMPLETE WITH SICRAM MODULE ................................................................................ 26

11.6 TEMPERATURE PROBES WITHOUT SICRAM MODULE .......................................................................................... 26

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1. GENERAL CHARACTERISTICS

The pH meter - Thermometer Model HD2305.0 is a portable instrument that allows measurement of
pH and redox potential (ORP) in mV.
It also measures the temperature using Pt100 or Pt1000 immersion, penetration or contact probes.

The electrode calibration can be carried out on one, two or three points at 4.01pH, 6.86pH and

9.18pH.

The probes are fitted with the SICRAM automatic detection module, with the factory calibration
settings already being memorized inside.

The units of measurement for the measurable quantities are:

• pH

• mV

• °C

• °F

Using the Max, Min and Avg function of this instrument respectively obtains the maximum,
minimum or average values.

Other available functions are:

• the relative measurement REL;

• the automatic turning off which can also be disabled.

For further details see chapter 2.

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2. DESCRIPTION OF THE FUNCTIONS

The keyboard of the pH meter Model HD2305.0 is composed of double-function keys. The function
on the key is the "main function", while the one above the key is the "secondary function".
When the instrument is in standard measurement mode, the main function is active.
Once the Settings Menu has been opened, by pressing simultaneously the DATA+°C/°F keys, the
secondary function is enabled.
The pressing of a key is accompanied by a short confirmation "beep": a longer "beep" sounds if the
wrong key is pressed. Each key specific function is described in detail below.

This key has two functions:

• ON/OFF: to turn the instrument on press ON, to turn it off press OFF.
The turning on enables all display segments for a few seconds, starts an Auto-test including the
detection of the probe connected to the input, and sets the instrument ready for normal
measurement. The following is displayed:

MIN

cm

min

s

2
3

m

µmk

>>>

• AUTO/OFF: the AutoPowerOff function can be disabled by simultaneously pressing this key

and the "°C/°F-MENU" key when turning the instrument on.

During turning on, should no probes be connected, the "NO_PRBE_SER_NUM" message is
displayed in the line for symbols for a few seconds, while the "ERR" message is shown in the
central part of the display, and the last manually-set temperature appears in the secondary line.
The unit of measurement symbol (°C or °F) starts blinking, and a letter "m" meaning "manual"
appears next to the battery symbol.
When the probe fitted with SICRAM module is inserted into a functioning instrument, the
"NEW_PROB_DET" (New probe detected) message appears, while the "ERR" message is
shown in the central part of the display, and a sequence of "beeps" is simultaneously issued. As the
data are captured upon turning the instrument on, it is necessary to turn it off and on again.

Caution! Replace the probes when the instrument is off.

ON-OFF and AUTO-OFF key

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The "pH-mV" key has three functions:

• pH-mV: pressing this key once switches the display between pH and mV;

• ESC: once the MENU has been opened with the DATA+°C/°F keys, the "pH-mV" key will

allow to cancel the parameters set using the  and  arrows.

• In calibration mode, it allows to exit calibration.

The "DATA" key is used for the following functions:

• DATA: during normal measurement, by pressing this key once the maximum (MAX) value of

the measurements captured by the probe connected to the instrument is displayed, updating it
with the acquisition of new samples;

- by pressing this key again the minimum (MIN) value is displayed;

- by pressing this key a third time the average (AVG) value is displayed.

The acquisition frequency is once a second.

The MAX, MIN and AVG values remain in the memory until the instrument is on, even after
exiting the DATA display function. When the instrument is off, the previously memorized data
are cleared. Upon turning on, the instrument automatically starts memorizing the MAX, MIN
and AVG values.
To reset the previous values and start with a new measurement session:

• press DATA until the FUNC_CLRD message appears;

• use the  and  arrows to select YES;

• confirm by pressing ENTER.

• ENTER: once the MENU has been opened with the DATA+°C/°F keys, the DATA key will

perform the ENTER function and the MENU can be browsed and the displayed parameter
confirmed. In calibration mode, acquires the nominal buffer value.

Once the MENU has been opened with the DATA and °C/°F keys, the  key will allow to increase
the value of the selected parameter. In calibration mode, it allows to increase the nominal buffer
value.

The " C/°F" key is used for the following functions:

• °C/°F: when the temperature probe is connected, the key changes the unit of measurement from

degrees Celsius to Fahrenheit. If the probe is not present, the compensation temperature must be
entered manually: to manually change the value shown in the display lower line, press °C/°F
once. The temperature indicated starts blinking. While the display is blinking, it is possible to
change the compensation temperature using the arrows ( and ). Confirm using

DATA/ENTER key

pH-mV/ESC key

 key

°C/°F/MENU key

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DATA/ENTER. The display stops blinking, and the temperature displayed is used for
compensation. If the temperature probe is not present, to change the unit of measurement
between °C and °F, it is necessary to press twice the °C/°F key.

• MENU: to access to the menu press simultaneously DATA+°C/°F: the Probe Type will be

displayed.

− use the  and  arrows (respectively located above the HOLD and REL keys) to modify

the displayed value;

− press DATA/ENTER to confirm the modification and go onto the next item;

− press CLR/ESC to cancel the modification;

− to exit the menu, press the °C/°F key again.

For further information see chapter 3.

Press this key to start the calibration procedure (see par. 4.2 pH electrode calibration).

The "/ REL-mV" key is used for the following functions:

• REL-mV: it displays the difference between the current value and that measured on pressing

the key. The "REL" message is displayed on the left. To return to the normal measurement,
press the key again. It only works with mV, so to enable the REL function select the "mV" unit
of measurement using the "pH-mV" key.

• : Once the MENU has been opened with the °C/°F/MENU key, the  key will allow to

decrease the value of the selected parameter. During electrode calibration, it allows to decrease
the nominal buffer value.

/ REL-mV key

CAL key

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3. THE PROGRAMMING MENU

To access to the menu press simultaneously the following keys:

The item to be set is:

Probe type: the "PRBE_TYPE_RTD_" message is displayed in the comment line. The main line
in the center of the display shows the type of probe connected to the instrument. The following
probes can be connected to the input:

• temperature probes Pt100 complete with SICRAM module

• 4 wire Pt100 probes

• 2 wire Pt1000 probes

The probes fitted with SICRAM module, and Delta Ohm Pt1000 probes, are automatically detected
by the instrument upon turning on: the Probe Type menu item is configured by the instrument and
cannot be modified by the user.
The temperature probes direct 4 wire Pt100, and the Pt1000 probes that are not manufactured by
Delta OHM, when turned on display the message "NO_PRBE_SER_NUM". In this case the probe
type must be entered manually.

Access to the menu by selecting Probe type using the DATA and °C/°F keys at the same time:

- use the  and  arrows to modify the displayed value;

- press DATA/ENTER to confirm the modification and go onto the next item;

- press pH-mV/ESC to cancel the modification;

- to exit the menu, press the °C/°F key again.

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4. PROBES AND MEASUREMENTS

The instrument works with the following probes:

• electrodes for pH measurement;

• electrodes for redox potential ORP measurement (REDOX);

• specific ion electrodes.

Caution! The pH measurement is influenced by the temperature measurement.

The temperature is used for the automatic compensation of the Nernst coefficient with the pH
electrode.

The measurement can be performed using probes with the following sensor:

• 4 wire Pt100;

• 2 wire Pt1000;

Some probes are fitted with SICRAM module that acts as an interface between the sensor on the
probe and the instrument. There is a microprocessor circuit with a permanent memory inside the
module that enables the instrument to recognize the type of probe connected and to read its
calibration information.

The Delta Ohm Pt1000 probes are automatically detected while the direct 4 wire Pt100 temperature
probe is not automatically detected by the instrument and must be set up in the Probe type menu
item (please see the menu description on chapter 3).

The pH or mV indication is displayed in the main line; the secondary line shows the temperature.

The probes are detected during turn on, and this cannot be performed when the instrument is
already on, therefore if a probe is connected and the instrument is on, it is necessary to turn it
off and on.

The probes fitted with SICRAM module are calibrated in the factory; no calibration is required by
the user.

4.1 THE ELECTRODE FOR pH MEASUREMENT

The electrode for pH measurement, generally in glass, generates an electrical signal proportional to
the pH according to Nernst law. Of this signal the following aspects are considered:

• Zero point: The pH where the electrode generates a potential of 0 mV. In most electrodes, this

value is found at about 7 pH.

•

Offset or Asymmetry Potential: represents the potential (in mV) generated by an electrode when
immersed in a buffer solution at 7 pH. Generally oscillates between ± 20 mV.

• Slope: response of the electrode expressed in mV per pH units. The theoretical electrode slope at

25°C is 59.16 mV/pH. When the electrode is new the slope is close to the theoretical value.

• Sensitivity: it is the electrode's slope expression in relative terms. It is obtained by dividing the

actual value of the slope by the theoretical value, and is expressed as a %. The asymmetry
potential and the slope vary in time with the use of the electrode, which necessitates regular
calibration.

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The pH electrodes must be calibrated using the buffer solutions (see paragraph 4.2 pH electrode
calibration).

The ORP and specific ion electrodes do not need calibration as their absolute voltage is measured.
The ORP (REDOX) buffer solutions are only used to check the quality of an ORP (REDOX)
electrode.

User calibration of the temperature sensor is not required: the sensor is calibrated in the
factory and the Callendar Van Dusen parameters are recorded in the SICRAM module using
the DO9847 multifunction device.

4.1.1 Automatic or manual pH compensation

In a correct measurement of pH, the results need to be expressed together with the temperature
value at which the reading is performed.
The electrode slope varies according to the temperature in a known mode according to Nernst law:
e.g., a 1pH variation, that at 25°C means 59.16mV, at 100°C means 74.04mV.

6pH 7pH

pH

8pH

74.04mV

-74.04mV

59.16mV

-59.16mV

54.20mV

-54.20mV

0mV

mV

T=100°C, 74.04mV/pH

T=25°C, 59.16mV/pH

T=0°C, 54.20mV/pH

When a temperature probe is present, the instrument automatically applies the ATC function:
automatic temperature compensation. To disable it, the temperature probe must be disconnected.
If the temperature probe is not present, and the correct value is not entered manually, the extent of
the error committed in pH measurement is proportional to temperature and pH value itself.

In absence of the temperature probe, the lower part of the display shows the manually set
compensation temperature. By default it is equal to 25°C (see par. 4.1.2 how to manually change
the temperature).
To point this condition out, the °C or °F symbol blinks intermittently near the temperature value.
Moreover, in the main line an "m" (that is, manual) is turned on near the battery symbol.

4.1.2 How to manually change the temperature

In absence of the temperature probe, it is possible to manually set the temperature. Proceed as
follows:

• press the °C/°F key once: the indicated temperature value starts blinking;

• select the solution temperature value by using the arrows;

• confirm by pressing DATA: the display stops blinking, and the temperature displayed is used

for compensation.

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• During manual compensation, to change the unit of measurement between °C and °F, it is

necessary to press twice the °C/°F key.

4.2 pH ELECTRODE CALIBRATION

The electrode calibration is used to compensate the zero potential and slope departures to which the
electrode is subject with time.
The calibration frequency depends on the accuracy desired by the user and by the effects that the
measured sample have on the electrode.
Generally, we recommend daily calibration, but it is the user's responsibility from personal
experience, to establish the most appropriate frequency.

The calibration may be carried out using 1, 2 or 3 points.

• when using 1 point, the electrode offset is corrected;

• with 2 points the offset and the gain is corrected;

• finally, in case a three points calibration is carried out two offsets and two slopes are calculated,

the second point is the one in which the zero is performed.

The instrument has a memory of 3 buffers with relevant temperature compensation tables (ATC),
one for the acid, one for the neutral, and one for the alkaline band:

@25°C

BUFR_1 (NEUTRAL)

6.860

BUFR_2 (ACID)

4.010

BUFR_3 (ALKALINE)

9.180

If electrode calibration was not carried out on the instrument, or the batteries have been changed or
the last calibration failed, the display blinks the CAL message.

4.2.1 Calibration procedure

1) Insert the temperature probe and the electrode in the solution of a calibration buffer. If no

temperature probe is available, use another thermometer and enter the value manually as
indicated in the paragraph 4.1.1.

2) The electrode calibration is started by pressing CAL.

3) Among the three prepared buffers, the instrument automatically detects the closest to the pH

value being read and flags it up on the lower part of the display.
If the buffer is not detected the first buffer BUFR_1 is proposed.

4) At this point the CAL symbol is not blinking on the display and the following is shown from the
upper side downward:
a) the chosen buffer nominal value at 25°C (scrolling indication)
b) the pH measurement value with the current calibration
c) the temperature compensated buffer value

The detected and temperature compensated buffer value, shown in the lower line, can be
modified using the arrows.

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5) Press DATA/ENTER to proceed with the calibration. The electrode offset mV value (OFFS) is
shown on the display for few seconds.
After a few seconds the instrument shows the measurement again, corrected according to the
new calibration, but remains in calibration mode.
Pressed repeatedly the DATA/ENTER key allows the calibration on the point to be repeated, for
example, in order to obtain a more stable value.

6) To end the electrode calibration press pH/mV (ESC), or continue the calibration for the second
point.

7) Extract the electrode from the buffer, clean it carefully, and insert it in the following buffer.

8) Press one time the °C/°F key (MENU).

9) The instrument displays the value detected on the new buffer: continue by repeating the steps

from point 3.

NOTES:

• After calibration, the instrument displays an electrode quality indication:

- no signal: electrode functioning.

- a small square blinking on the lower right: electrode almost exhausted.

- two small squares blinking on the lower right: electrode exhausted to be replaced.

• The 3 point calibration must always be carried out according to the fixed sequence:
NEUTRAL>>ACID>>BASIC. The basic buffer must be the last in the sequence.

• Without having pressed DATA/ENTER at all, the calibration is interrupted by pressing
pH/mV (ESC); the previous values will continue to be used.

• The buffers are always presented in the sequence set in the menu with the parameters:

- BUFR_1,

- BUFR_2,

- BUFR_3.

• The 2 point calibration is possible using the sequence BUFR_1 - BUFR_2 or BUFR_2 -
BUFR_3 or even BUFR_1 - BUFR_3.

• The 3 point calibration is only possible using the exact sequence BUFR_1 - BUFR_2 -
BUFR_3.

Allowed calibration sequences

1 BUFR_1 BUFR_2 BUFR_3

2 BUFR_1 - BUFR_2 BUFR_2 - BUFR_3 BUFR_1 - BUFR_3

Number of

calibration

points

3 BUFR_1 - BUFR_2 - BUFR_3

• In any case where no operation is performed, the “calibration” mode automatically stops
after 60 seconds.

• If the calibration is rejected by the instrument because it is considered to be excessively
corrupted, the CAL ERR message will appear, followed by a long beep. The instrument remains
in calibration mode and maintains the previous calibration values: at this point, if the calibration
is interrupted using pH-mV/ESC, the instrument signals the anomaly through the CAL message
blinking.

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Temperature characteristics of Delta OHM buffer solutions

The 3 standard buffers are memorized in the instruments with relevant variations according to
temperature: the characteristics of the three Delta Ohm standard buffers at 6.86pH, 4.01pH and

9.18pH (@25°C) are reported below.

6.86 pH @ 25°C 4.01 pH @ 25°C

°C pH °C pH °C pH °C pH

0 6.98 50 6.83 0 4.01 50 4.06

5 6.95 55 6.83 5 4.00 55 4.07
10 6.92 60 6.84 10 4.00 60 4.09
15 6.90 65 6.85 15 4.00 65 4.10
20 6.88 70 6.85 20 4.00 70 4.13
25 6.86 75 6.86 25 4.01 75 4.14
30 6.85 80 6.86 30 4.01 80 4.16
35 6.84 85 6.87 35 4.02 85 4.18
40 6.84 90 6.88 40 4.03 90 4.20
45 6.83 95 6.89 45 4.05 95 4.23

9.18 pH @ 25°C

°C pH °C pH

0 9.46 50 9.01

5 9.39 55 8.99
10 9.33 60 8.97
15 9.28 65 8.94
20 9.22 70 8.92
25 9.18 75 8.90
30 9.14 80 8.88
35 9.10 85 8.86
40 9.07 90 8.85
45 9.04 95 8.83

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4.3 Pt100 AND 2 WIRE Pt1000 TEMPERATURE PROBES

The instrument accepts the input of Platinum temperature probes with resistances of 100Ω (Pt100)
and 1000Ω (Pt1000).
The Pt100 are connected to 4 wires, the Pt1000 to 2 wires; the excitation current was chosen in
order to minimize the sensor self-heating effects.

All probes with SICRAM module are calibrated in the factory; the 2 or 4 wire probes with direct
input are checked for conformity with class A tolerance according to norm IEC751 - BS1904 ­DIN43760.
For the temperature probes without SICRAM module (Pt100 4 wires, and Pt1000) the model
configuration is required (please see the description of the Probe Type menu, chapter 3).

4.3.1 Temperature measurement

The response time for the measurement of the temperature in air is greatly reduced if the air is
moving. If the air is still, stir the probe. Please remember that the response times in any case are
longer than those for liquid measurements.

The temperature measurement by immersion is carried out by inserting the probe in the liquid for at
least 60 mm; the sensor is housed in the end part of the probe.

In the temperature measurement by penetration the probe tip must be inserted to a depth of at least
60 mm, the sensor is housed in the end part of the probe.

NOTE: when measuring the temperature on frozen blocks it is convenient to use a mechanical tool
to bore a cavity in which to insert the tip probe.

In order to perform a correct contact measurement, the measurement surface must be even and
smooth, and the probe must be perpendicular to the measurement plane.

So as to obtain the correct measurement, the insertion of a drop of oil or heat-conductive
paste between the surface and the probe is useful (do not use water or solvents). This method
also improves the response time.

4.3.2 Connecting the TP47 connector for the 4 wire Pt100 and 2 wire Pt1000 probes

All probes produced by Delta Ohm are provided with a connector.
The HD2305.0 instrument also work with direct 4 wire Pt100, and 2 wire Pt1000 probes
manufactured by other producers: for the instrument connection is prescribed the TP47 connector to
which the probe's wires should be welded.

The instructions to connect the Platinum probe to the TP47 module are provided below. The TP47
module is supplied complete with fairlead and gasket for 5 mm maximum diameter cables. Do the
following to open the module and connect a probe:

1. unscrew the fairlead;

2. extract the gasket;

3. remove the label using a cutter;

4. unscrew the ring on the opposite side as illustrated in the figure:

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16

5. open the two module shells: the printed circuit to which the probe must be connected is

housed inside. On the left there are the 1…4 points on which the sensor wires must be
welded. The JP1…JP4 jumpers are in the center of the board. These must be closed with a
tin bead for some type of sensors:

1

2

3

4

Pt100 3 wires

Pt1000

Ni1000

Not Used

Caution! Before welding, pass the probe cable through the fairlead and gasket.

6. Weld the wires as shown in the table:

Sensor Board connection Jumper to close

Pt100 4 wires

4

JP4

3

JP3

1

JP1

2JP2

Pt100
4 wires

None

Pt1000 2 wires

JP4

4

JP3

3

JP1

1

JP22

Pt1000
2 wires

JP2

Ensure the welds are clean and perfect.

7. Once the welding operation is complete, close the two shells;

8. insert the gasket in the module;

9. screw the fairlead and the ring. Make sure the cable is not twisted while you are screwing

the fairlead. Now the probe is ready.

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4.3.3 Direct connection of 4 wire Pt100 sensors

4 wire Pt100 sensors can be soldered directly

to the pins of the flying female connector
without making use of the TP47 board. The 4
wires of the Pt100 sensors have to be soldered
as indicated in the figure on the left. In order to
use this type of probe it is necessary to set up
the menu item “Probe Type” as described at
page 9. The P100 probe is recognized upon
turning on the instrument: connect the probe
when the instrument is switched off and then
turn it on.

Sensor Direct soldering to the connector

Pt100 4

wires

View of the soldering side

of the flying female connector

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18

5. WARNINGS

1. Do not expose the probes to gases or liquids that could corrode the material of the sensor or the

probe itself. Clean the probe carefully after each measurement.

2. Do not bend the probe connectors or force them upward or downward.

3. Do not bend or force the contacts when inserting the probe connector into the instrument.

4. Do not bend, deform or drop the probes, as this could cause irreparable damage.

5. Always select the most suitable probe for your application.

6. Do not use the temperature probes in presence of corrosive gases or liquids. The sensor

container is made of AISI 316 stainless steel, while the contact probe container is made from
AISI 316 stainless steel plus silver. Avoid contact between the probe surface and any sticky
surface or product that could corrode or damage it.

7. Above 400°C and below –40°C, avoid violent blows or thermal shocks to Platinum temperature

probes as this could cause irreparable damage.

8. To obtain reliable measurements, temperature variations that are too rapid must be avoided.

9. Temperature probes for surface measurements (contact probes) must be held perpendicular

against the surface. Apply oil or heat-conductive paste between the surface and the probe in
order to improve contact and reduce reading time. Whatever you do, do not use water or solvent
for this purpose. A contact measurement is always very hard to perform. It has high levels of
uncertainty and depends on the ability of the operator.

10. Temperature measurements on non-metal surfaces usually require a great deal of time due to the

low heat conductivity of non-metal materials.

11. Probes are not insulated from their external casing; be very careful not to come into contact with

live parts (above 48V). This could be extremely dangerous for the instrument as well as
for the operator, who could be electrocuted.

12. Avoid taking measurements in presence of high frequency sources, microwave ovens or large

magnetic fields; results may not be very reliable.

13. Clean the probe carefully after use.

14. The instrument is water resistant and IP67, but should not be immersed in water. The probe

connectors must be fitted with sealing gaskets. Should the instrument fall into the water, check
for any water infiltration. Gently handle the instrument in such a way as to prevent any water
infiltration from the connectors' side.

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6. INSTRUMENT SIGNALS AND FAULTS

The following table lists all error indications and information displayed by the instrument and
supplied to the user in different operating situations:

Display indications Explanation

>>>_PRBE_TYPE

type of probe connected

BATT TOO LOW - CHNG NOW

battery discharged - replace it immediately

BAUDRATE >>>

baud rate value

BUFR_1

first buffer value

BUFR_2

second buffer value

BUFR_3

third buffer value

CAL

LOST

Program error: it appears after turning on for a few seconds. Contact the
instrument's supplier.

CAL

blinking

Calibration not completed correctly.

CAL ERR

calibration error

ERR

This message appears if the pH measurement exceeds the

-2.000pH…19.999pH limits, if the mV measurement exceeds the ±2.4V limits,
if the temperature probe, already detected by the instrument, is disconnected.
At the same time an intermittent beep is issued.

FUNC CLRD

max, min and average values cleared

NEW_PROB_DET

new probe detected

OFFS

offset

OVER

Measurement overflow: this appears when the probe measures a value
exceeding the measurement range or the mV measurement is included in the
+2.0…+2.4V range.

PLS_EXIT >>> FUNC

RES_FOR_FACT ONLY

please exit using ESC >>> function reserved to factory calibration

PRBE_SER #### ####

serial number #### #### of the connected probe

PROB

ERR

A probe with SICRAM module has been inserted when not admissible for that
specific instrument.

PROB COMM LOST

This appears if the probe, has already been detected by the instrument, but is
disconnected. At the same time an intermittent beep is issued.

SLPE%

gain %

SYS

ERR

#

Instrument management program error. Contact the instrument's supplier and
communicate the numeric code # reported by the display.

UNDR

Measurement overflow: this appears when the mV measurement is included in
the -2.4…-2.0V range.

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20

7. INSTRUMENT STORAGE

Instrument storage conditions:

• Temperature: -25…+65°C.

• Humidity: less than 90%RH without condensation.

• Do not store the instrument in places where:

• humidity is high;

• the instrument may be exposed to direct sunlight;

• the instrument may be exposed to a source of high temperature;

• the instrument may be exposed to strong vibrations;

• the instrument may be exposed to steam, salt or any corrosive gas.

The instrument case is made of ABS plastic: do not use any incompatible solvent for cleaning.

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21

8. LOW BATTERY WARNING AND BATTERY REPLACEMENT

The battery symbol
on the display constantly shows the battery charge status. To the extent that batteries have
discharged, the symbol "empties". When the charge decreases still further it starts blinking.

In this case, batteries should be replaced as soon as possible.
If you continue to use it, the instrument can no longer ensure correct measurement. The memory
data are maintained.

If the battery charge level is insufficient, the following message appears when you turn the
instrument on:

BATT TOO LOW

CHNG NOW

The instrument issues a long beep and turns off. In this case, replace the batteries in order to
turn the instrument back on.

To replace the batteries, proceed as follows:

1. switch the instrument off;

2. unscrew the battery cover counter clockwise;

3. replace the batteries (3 1.5V alkaline batteries - type AA);

4. screw the cover on clockwise.

Malfunctioning upon turning on after battery replacement

After replacing the batteries, the instrument may not restart correctly; in this case, repeat the
operation.
After disconnecting the batteries, wait a few minutes in order to allow circuit condensers to
discharge completely; then reinsert the batteries.

8.1 WARNING ABOUT BATTERY USE

• Batteries should be removed when the instrument is not used for an extended time.

• Flat batteries must be replaced immediately.

• Avoid batteries leaking.

• Always use good quality leakproof alkaline batteries. Sometimes on the market, it is

possible to find new batteries with an insufficient charge capacity.

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22

9. NOTES ABOUT WORKING AND OPERATIVE SAFETY

Authorized use

The technical specifications as given in chapter TECHNICAL CHARACTERISTICS must be
observed. Only the operation and running of the measuring instrument according to the instructions
given in this operating manual is authorized. Any other use is considered unauthorized.

General safety instructions

This measuring system is constructed and tested in compliance with the EN 61010-1 safety
regulations for electronic measuring instruments. It left the factory in a safe and secure technical
condition.
The smooth functioning and operational safety of the measuring system can only be guaranteed if
the generally applicable safety measures and the specific safety instructions in this operating
manual are followed during operation.
The smooth functioning and operational safety of the instrument can only be guaranteed under the
environmental and electrical operating conditions that are in specified in chapter TECHNICAL
CHARACTERISTICS.

Do not use or store the product in places such as listed below:

• Rapid changes in ambient temperature which may cause condensation.

• Corrosive or inflammable gases.

• Direct vibration or shock to the instrument.

• Excessive induction noise, static electricity, magnetic fields or noise.

If the measuring system was transported from a cold environment to a warm environment, the
formation of condensate can impair the functioning of the measuring system. In this event, wait
until the temperature of the measuring system reaches room temperature before putting the
measuring system back into operation.

Obligations of the purchaser

The purchaser of this measuring system must ensure that the following laws and guidelines are
observed when using dangerous substances:

 EEC directives for protective labour legislation
 National protective labour legislation
 Safety regulations

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23

10. TECHNICAL CHARACTERISTICS

10.1 TECHNICAL INFORMATION ON THE pH METER – THERMOMETER

Instrument

Dimensions (Length x Width x Height) 140x88x38mm

Weight 160g (complete with batteries)

Material ABS

Display 2x4½ digits plus symbols

Visible area: 52x42mm

Operating conditions

Operating temperature -5…50°C

Warehouse temperature -25…65°C

Working relative humidity 0…90%RH without condensation

Protection degree IP67

Power

Batteries 3 x 1.5V type AA batteries

Autonomy 200 hours with 1800mAh alkaline

batteries

Power absorbed with instrument off < 20μA

Connections

Input module for the temperature probes 8-pole male DIN45326 connector

pH/mV input Female BNC

Unit of Measurement pH - mV

°C - °F;

Measurement of pH by Instrument

Measurement range -2.00…+19.999pH

Resolution 0.01

Accuracy ±0.01pH ±1digit

Input impedance >10

12

Ω

Calibration error @25°C |Offset| > 20mV

Slope < 50mV/pH or Slope > 63mV/pH

Sensitivity < 85% or Sensitivity > 106.5%

Measurement of mV by Instrument

Measurement range -1999.9…+1999.9mV

Resolution 0.1mV

Accuracy ±0.1mV ±1digit

Drift after 1 year 0.5mV/year

Measurement of temperature by Instrument

Pt100 measurement range -200…+650°C

Pt1000 measurement range -200…+650°C

Resolution 0.1°C

Accuracy ±0.1°C ±1digit

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24

Drift after 1 year 0.1°C/year

EMC standard regulations

Security EN61000-4-2, EN61010-1 level 3

Electrostatic discharge EN61000-4-2 level 3

Electric fast transients EN61000-4-4 level 3,

EN61000-4-5 level 3

Voltage variations EN61000-4-11

Electromagnetic interference susceptibility IEC1000-4-3

Electromagnetic interference emission EN55020 class B

10.2 ON LINE INSTRUMENT PROBES AND MODULES TECHNICAL DATA

10.2.1 Temperature probes Pt100 and SICRAM module

Model Type Application range Accuracy

TP87 Immersion

-50°C…+200°C ±0.25°C (-50°C…+200°C)

TP472I.0 Immersion

-50°C…+400°C

±0.25°C (-50°C…+350°C)

±0.4°C (+350°C…+400°C)

TP473P.0 Penetration

-50°C…+400°C

±0.25°C (-50°C…+350°C)

±0.4°C (+350°C…+400°C)

TP474C.0 Contact

-50°C…+400°C

±0.3°C (-50°C…+350°C)

±0.4°C (+350°C…+400°C)

TP475A.0 Air

-50°C…+250°C ±0.3°C (-50°C…+250°C)

TP472I.5 Immersion

-50°C…+400°C

±0.3°C (-50°C…+350°C)

±0.4°C (+350°C…+400°C)

TP472I.10 Immersion

-50°C…+400°C

±0.3°C (-50°C…+350°C)

±0.4°C (+350°C…+400°C)

Common characteristics

Resolution 0.1°C
Temperature drift @20°C 0.003%/°C

10.2.2 4 wire Pt100 and 2 wire Pt1000 Probes

Model Type Application range Accuracy

TP87.100 4 wire Pt100 -50…+200°C Class A

TP87.1000 2 wire Pt1000 -50…+200°C Class A

Common characteristics

Resolution 0.1°C
Temperature drift @20°C 0.005%/°C

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25

11. ORDER CODES

HD2305.0KE The kit is composed of: instrument HD2305.0, KP30 electrode, TP87

temperature probe, 4.01pH and 6.86pH buffer solutions, 3 1.5V alkaline

batteries, operating manual and case.

HD2305.0K The kit is composed of: instrument HD2305.0, TP87 temperature probe, 3 1.5V

alkaline batteries, operating manual and case. The electrodes and the solutions

must be ordered separately.

11.1 PH ELECTRODES

KP20 Combined pH electrode, gel-filled, with screw connector S7, body in Epoxy,

Ag/AgCl sat. KCl.

KP30 Combined pH electrode, cable 1m, gel-filled, body in Epoxy, Ag/AgCl sat. KCl.

KP60 Combined pH electrode, 1 diaphragm, gel-filled, with screw connector S7, body

in glass, Ag/AgCl sat. KCl.

KP61 Combined pH electrode, 3 diaphragms for milk, cream, etc. gel-filled, with screw

connector S7, body in glass, Ag/AgCl sat. KCl.

KP62 Combined pH electrode, 1 diaphragm for pure water, paints, etc. gel-filled, with

screw connector S7, body in glass, Ag/AgCl sat. KCl.

KP70 Combined pH electrode, micro diam. 6 x L=70 mm, gel-filled, with screw

connector S7, body in glass, Ag/AgCl sat. KCl.

KP80 Combined pointed pH electrode, gel-filled, with screw connector S7, body in

glass, Ag/AgCl sat. KCl.

CP Extension cable 1.5m with BNC connectors on one side and S7 on the other side

for electrode without cable.

CE Screw connector S7 for pH electrode.

BNC Female BNC for electrode extension.

11.2 ORP ELECTRODES (REDOX)

KP90 ORP PLATINUM electrode (REDOX), with screw connector S7, gel-filled, body

in glass.

11.3 PH BUFFER SOLUTIONS

HD8642 Buffer solution 4.01pH - 200cc.

HD8672 Buffer solution 6.86pH - 200cc.

HD8692 Buffer solution 9.18pH - 200cc.

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26

11.4 ORP BUFFER SOLUTIONS (REDOX)

HDR220 ORP buffer solution (REDOX) 220mV 0.5 l.

HDR468 ORP buffer solution (REDOX) 468mV 0.5 l.

11.5 TEMPERATURE PROBES COMPLETE WITH SICRAM MODULE

TP87 Pt100 sensor immersion probe. Probe's stem Ø 3 mm, length 70 mm. Cable length

1 metre.

TP472I.0 Pt100 sensor immersion probe. Stem Ø 3 mm, length 230 mm. Cable length 2

metres.

TP473P.0 Pt100 sensor penetration probe. Stem Ø 4 mm, length 150 mm. Cable length 2

metres.

TP474C.0 Pt100 sensor contact probe. Stem Ø 4 mm, length 230 mm, contact surface Ø 5

mm. Cable length 2 metres.

TP475A.0 Pt100 sensor air probe. Stem Ø 4 mm, length 230 mm. Cable length 2 metres.

TP472I.5 Pt100 sensor immersion probe. Stem Ø 6 mm, length 500 mm. Cable length 2

metres.

TP472I.10 Pt100 sensor immersion probe. Stem Ø 6 mm, length 1000 mm. Cable length 2

metres.

11.6 TEMPERATURE PROBES WITHOUT SICRAM MODULE

TP87.100 Pt100 sensor immersion probe. Probe's stem Ø 3 mm, length 70 mm. Connection

cable 4 wires with connector, length 1 metre.

TP87.1000 Pt1000 sensor immersion probe. Probe's stem Ø 3 mm, length 70 mm. Connection

cable 2 wires with connector, length 1 metre.

TP47 Only connector for probe connection: direct 4 wire Pt100, 2 wire Pt1000.

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27

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28

GARANZIA GUARANTEE

GARANTIE

GARANTIA

Questo certificato deve accompagnare l'apparecchio spedito al centro assistenza.
IMPORTANTE: La garanzia è operante solo se il presente tagliando sarà compilato in tutte le sue parti.

This guarantee must be sent together with the instrument to our service centre.
N.B.: Guarantee is valid only if coupon has been correctly filled in all details.

Le certificat doit porter le cachet du revendeur et la date d'achat. A défaut, la garantie sera comptée à partir
de la date de la sortie d'usine.

ATTENTION: Pour bénéficier de la garantie, le présent certificat doit obligatoirement accompagner
l'appareil présumé défectueux.

Dieser Garantieschein muss der Spedition beigelegt werden, wenn das Gerät an das
Kundendienstzentrum gesandt wird.

WICHTIG: Die Garantie ist nur gültig, wenn dieser Abschnitt bis ins Einzelne ausgefüllt ist.

Este certificado debe acompañar al aparato enviado al centro de asistencia.
IMPORTANTE: La garantía es válida solo si el presente cupón ha sido completado en su totalidad.

Instrument type

 HD2305.0

Serial number

RENEWALS

Date Date

Inspector Inspector

Date Date

Inspector Inspector

Date Date

Inspector Inspector

CE CONFORMITY

Safety

EN61000-4-2, EN61010-1 LEVEL 3

Electrostatic discharge EN61000-4-2 LEVEL 3

Electric fast transients EN61000-4-4 LEVEL 3

Voltage variations EN61000-4-11

Electromagnetic interference susceptibility IEC1000-4-3

Electromagnetic interference emission EN55020 class B