Parker SciLog DINCon, SciLog DINPres, SciLog DINTemp Maintenance Manual

SciLog® DINCon®, DINPres®,

®

& DINTemp

Installation, Operating & Maintenance Instructions

Modules

SciLog

®

and DINCon®, DINPres®, and DINTemp®, are registered trademarks of

Parker Hannifin Corporation.

Parker Hannifin Corporation has a continuous policy of product development and although the Company reserves the right to

change specification, it attempts to keep customers informed of any alterations. This publication is for general information only and

customers are requested to contact your local Parker Sales Representative for detailed information and advice on a product’s

suitability for specific applications. All products are sold subject to the company’s Standard conditions of sale.

2

Contents

Introduction ................................................................................................................................. 6

Calibration .................................................................................................................................. 6

Warranty ..................................................................................................................................... 7

Standards ................................................................................................................................... 7

Installation & Start-Up ................................................................................................................. 7

Maintenance & Cleaning ............................................................................................................. 7

DIN Module Specifications .......................................................................................................... 8

Sensor Specifications ................................................................................................................. 9

SciCon Sensors .......................................................................................................................... 9

SciPres Sensors ......................................................................................................................... 9

SciTemp Sensors ..................................................................................................................... 10

Installation ................................................................................................................................ 11

Operating Instructions............................................................................................................... 14

Modbus Register List ................................................................................................................ 16

DINCon Registers ..................................................................................................................... 16

DINPres Registers .................................................................................................................... 20

DINTemp Registers .................................................................................................................. 25

Reference Information .............................................................................................................. 29

3

Precautions

READ this manual BEFORE operating or servicing this equipment.

FOLLOW these instructions carefully.

SAVE this manual for future reference.

DO NOT allow untrained personnel to operate, clean, inspect, service or tamper with
this equipment.

ALWAYS DISCONNECT this equipment from the power source before cleaning or
performing maintenance.

Contact your local Parker Division for parts, information and service.

DISCONNECT ALL POWER TO THIS UNIT BEFORE INSTALLING,
SERVICING, CLEANING OR REMOVING THE FUSE. FAILURE TO DO
SO COULD RESULT IN BODILY HARM AND/OR PROPERTY DAMAGE.

OBSERVE PRECAUTIONS FOR HANDLING ELECTROSTATIC
SENSITIVE DEVICES.

ONLY PERMIT QUALIFIED PERSONNEL TO SERVICE THIS
EQUIPMENT. EXERCISE CARE WHEN MAKING CHECKS, TEST AND
ADJUSTMENTS THAT MUST BE MADE WITH POWER ON. FAILING TO
OBSERVE THESE PRECAUTIONS CAN RESULT IN BODILY HARM.

FOR CONTINUED PROTECTION AGAINST SHOCK HAZARD, CONNECT
TO PROPERLY GROUNDED OUTLET ONLY. DO NOT REMOVE THE
GROUND PRONG.

WARNING

CAUTION

WARNING

WARNING

USE ONLY CLASS 2 LISTED EXTERNAL 24 VDC POWER SUPPLY WITH
THESE DEVICES.

4

CAUTION

Précautions

LISEZ ce manual AVANT de faire fonctionner ou d’entretenir cet équipment.

SUIVEZ attentivement ces instructions.

CONSERVEZ ce manuel pour future référence.

NE LAISSEZ PAS du personnel non qualifié utiliser, nettoyer, inspecter, entretenir, réparer ou
manipuler cet équipement.

DÉBRANCHEZ TOUJOURS cet équipement de la source de courant avant de nettoyer ou
d’exécuter l’entretien.

APPELEZ PARKER pour pièces détachées, renseignements et entretien.

DÉBRANCHEZ TOUT COURANT DE CETTE UNITÉ AVANT DE FAIRE
L’INSTALLATION, D’EFFECTUER L’ENTRETIEN, LE NETTOYAGE OU
AVANT DE RETIRER LE FUSIBLE. NE PAS OBSERVER CES
PRÉCAUTIONS RISQUERAIT DE CAUSER DES BLESSURES
CORPORELLES OU/ET D’ENDOMMAGER L’ÉQUIPEMENT.

SOYEZ PRUDENT LORSQUE VOUS MANIPULEZ DES APPAREILS
SENSIBLES À L’ÉLECTROSTATIQUE.

ONLY PERMIT QUALIFIED PERSONNEL TO SERVICE THIS
EQUIPMENT. EXERCISE CARE WHEN MAKING CHECKS, TEST AND
ADJUSTMENTS THAT MUST BE MADE WITH POWER ON. FAILING TO
OBSERVE THESE PRECAUTIONS CAN RESULT IN BODILY HARM.

POUR ASSURER UNE PROTECTION CONTINUE CONTRE UNE
DÉCHARGE ÉLECTRIQUE, BRANCHEZ UNIQUEMENT SUR UNE PRISE
CORRECTEMENT RELIÉE Á LA TERRE. NE RETIREZ PAS LA FICHE DE
TERRE.

ATTENTION

PRUDENCE

ATTENTION

ATTENTION

PRUDENCE

N'UTILISER QUE DE L'ALIMENTATION ÉLECTRIQUE 24 VDC
EXCLUSIVE DE CLASSE 2 AVEC CES DISPOSITIFS.

5

Introduction

You will find the SciLog® DINCon, DINPres and DINTemp Modules and sensors easy to use. The state­of-the-art hardware and software design of the SciLog
to measure and document the conductivity, pressure or temperature of many filtration / separation
processes. With proper maintenance, the SciLog
service and performance.

Please read the following instructions carefully!

Inspections: Remove the products carefully from the shipping container. Check the contents against
the purchase order to verify that all parts are included and undamaged.

Please do the inspection now, even if the products are not used immediately. Many carriers must
receive damage claims within seven days of delivery. Please retain all packing material so unit may be
shipped safely, if necessary.

Customer Service: Parker Bioscience customer service: If assistance is required, please contact us at:

Parker Hannifin Corporation
Bioscience & Water Filtration
2340 Eastman Avenue
Oxnard, California, USA 93030
toll free: 877 784 2234
phone: +1 805 604 3400
fax: +1 805 604 3401
email: dhpsales.na@parker.com
www.parker.com/dhsingleuse

Parker customer service personnel will be able to serve you more efficiently if you have the following
information:

®

DIN Module and sensor combination allows you

®

DIN Modules will provide many years of excellent

Parker Hannifin Manufacturing Ltd
Bioscience Engineering Filtration
Durham Road
Birtley, Co. Durham
DH3 2SF, England
phone +44 (0)191 4105121
fax +44 (0)191 4105312
email: dhprocess@parker.com
www.parker.com/dhsingleuse

 Serial number and model name of the equipment
 Installation procedure being used
 Concise list of symptoms
 List of operating procedures and conditions in use when problem arose

Calibration

The SciLog® DIN Modules are calibrated devices, and are calibrated with test equipment that is
traceable to SI through NIST.

A Calibration Certificate is included with each unit, and has a one year expiration date.
It is highly recommended that the Module be calibrated on an annual basis or more often if your

Metrology Department deems it necessary.
Parker Bioscience provides this Calibration Service, complete with a new certificate, showing the “as

found” and “as left” data.
Contact your local Parker Bioscience representative.

6

Warranty

Country specific information can be found at: www.parker.com/termsandconditions

Standards

EN 61326-1:2006, Class B
EN 61010-1:2010 Ed.3+ C1; C2
Conforms to UL STD 61010-1:2012 Ed.3+ R: 29Apr2016
Certified to CSA STD C22.2 No 61010-1-12:2012 Ed.3+U1;U2

Caution: The maximum recommended pressure for the sensors is 60 psi.

If this is exceeded, problems with leakage and functionality can occur.

Installation & Start Up

Installation of the SciLog® DINCon® DINPres®, and DINTemp® Modules must be carried out only by
trained personnel in accordance with the relevant regulations and this operations manual.

Make sure that the technical specifications and input ratings of the SciLog
the appropriate Sensor Specifications page.

The protection provided by this equipment may be impaired if the SciLog
manner inconsistent with this manual or for purposes not specified by the manufacturer.

®

sensors are observed. See

®

sensors are used in a

Maintenance & Cleaning

The SciLog® DIN Modules are maintenance free. The single-use SciLog® sensors come pre-calibrated
from the factory and require no maintenance.

To remove dust, dirt and stains, the outer surfaces of the DIN Modules may be wiped using a soft, non­fluffing cloth moistened with water. If required, you may also use a mild detergent or 2-propanol.

The single-use sensors may be sanitized with 0.1 Molar NaOH, or 2-propanol. They may be autoclaved
up to 2 times, or gamma-irradiated with exposure up to 45 kGy.

7

Hardware

Specifications – All Modules

Dimensions

Enclosure

Electrical

Weight

Power

Battery

I/O Port Top

I/O Port – 2

I/O Port - 3

I/O Port
Bottom

DISPLAY

W: 0.875¨ (2.2 cm); Height 4.0¨ (10.2 cm); D: 4.75¨ (12.1 cm)

0.3 lb. (0.14 Kg)

Molded Plastic

24 VDC, 250 mA. Use only Class 2 External Power Supply

CR1632, used for internal clock, not user serviceable

8 pin Terminal Block, numbered from rear:

1: +24 VDC 2: 24 VDC Return 3: N/C 4: Signal GND (COM)

5: RS-232 RX 6: RS-232 TX 7: RS-485 A 8: RS-485 B

RJ45, Ethernet Connection

USB Connection

8 Pin Sensor Connection, DINCon has 1, DINPres and

DINTemp have 3.

Power Status LED, Sensor Status LED’s

Environmental

8

Software

Modbus

Temperature

Altitude

IP Rating

Rel. Humidity

Voltage

Pollution

Modbus RTU via RS-232
Modbus RTU via RS-485

Modbus RTU via USB

Modbus TCP via Ethernet

4 – 60° C

Up to 2000 Meters

IP20, Indoor dry environments, unit is wipe-down only

0 – 95%

Fluctuation allowed: +/- 10%

Degree: 2

Specifications – Sensors

SciCon:

Power

Fluid Connections

Wetted Materials

®

5 VDC provided by DINCon

Choice of five sizes: Luer, 3/8” Barb, 1/2” Barb,

3/4” Tri-Clover (TC) Sanitary and 1” Tri-Clover

(‘Ladish’) Sanitary.

Polysulphone meets USP Class VI and FDA 21

CFR 177.1520, all wetted materials made with

animal-free compounds.

Module

SciPres:

Sensor Type

Conductivity Range

Accuracy

Temperature Range

Temperature Accuracy

Temperature Probe

Pre-Calibration

Sensor Microchip

Sensor Connector & Cables

Power

4-Electrode Conductivity Cell, gold plated pins.

1 μS/cm to 200 mS/cm; Resolution: 0.1 μS/cm.

High: ± 0.25 mS in the 0.1 - 200 mS range;

Low: ± 3 μS in the 0 - 100 μS range

4-50° C

+/- 0.5° C

Thermistor

0.10 M KCI Solution, 12.88 mS at 25.0° C

EPROM, Stores Sensor ID, and

Calibration Factor.

Lockable and Waterproof.

5 VDC provided by DINPres

®

Module

Choice of five sizes: Luer, 3/8” Barb, 1/2” Barb,

Fluid Connections

Wetted Materials

Sensor Type

Sensor Isolation

Pressure Range

3/4” Tri-Clover (TC) Sanitary and 1” Tri-Clover

(‘Ladish’) Sanitary.

Polysulphone meets USP Class VI and FDA 21

CFR 177.1520, all wetted materials made with

animal-free compounds.

Medical grade, silicone piezoresistive sensing

element with on-chip temperature compensation.

Insoluble silicone dielectric gel isolates sensing

element from process solution. The gel is a non-

toxic, non-allergenic elastomeric system.

-5 to 60 psi (-0.34 to 4.14 bar).

9

+/- 0.30 psi at -5 to 30 psi for 2 point calibrated

Accuracy

sensors (can be improved to -5 to 60 psi with 3

point calibration, also available)

Sensor Connector & Cables

SciTemp:

Resolution

Temperature Range

Sensor Microchip

Power

Fluid Connections

Wetted Materials

Sensor Type

Temperature Range

0.01 psi

0 to 60 °C (32 to 140 °F).

EPROM, Stores Sensor ID, and

Calibration Factor.

Lockable and Waterproof.

5 VDC provided by DINTemp

®

Module

Choice of five sizes: Luer, 3/8” Barb, 1/2” Barb,

3/4” Tri-Clover (TC) Sanitary and 1” Tri-Clover

(‘Ladish’) Sanitary.

Polysulphone meets USP Class VI and FDA 21

CFR 177.1520, all wetted materials made with

animal-free compounds.

Thermistor, Epoxy coated, 2252 Ω

-40 to +150° Celsius

Accuracy

Resolution

Sensor Microchip

Sensor Connector & Cables

+/- 0.10° Celsius in the 4.0 to 70° Celsius range.

0.01 ° Celsius

EPROM, Stores Sensor ID, and

Calibration Factor.

Lockable and Waterproof.

10

Installation:

Overview:

The DINCon, DINPres, and DINTemp Modules are designed to be installed as part of a
control system inside a control cabinet that has a 24 VDC source available and has
Modbus communication protocol capability.

The DIN Modules are installed on standard DIN rail. They are usually mounted with the
red locking tab located at the bottom of the unit. This places the Power and
Communication connections at the top of the Module and the Sensor connections at the
bottom.

Wiring Power and Communication:

Connect 24 Volts DC, 250 mA power to Pins 1 (+) and 2 (-) of the 8 pin terminal block.
(Note - pin 1 is at the rear.)

All data acquisition is via Modbus registers in either RTU or ASCII. The available
physical layers are RS-232, RS-485, Ethernet and USB. The recommended physical

layer for installation of multiple units is Modbus/RTU over RS-485 with Modbus/TCP via

Ethernet a close second.

For RS-232, connect to the following: Pin 4 = Signal Ground, Pin 5 = RX, Pin 6 = TX.

For RS-485, connect to the following: Pin 4 = Signal Ground, Pin 7 = B, Pin 8 = A.

For Ethernet connect an Ethernet cable to the provided RJ45 jack.

For USB connect to the provided USB Type A jack.

11

A

Pin 1: +24VDC
Pin 2: Common
Pin 3: Not
Pin 4: Signal
Pin 5: RS-232 RX
Pin 6: RS-232 TX
Pin 7: RS-485
Pin 8: RS-485 B

RJ45 Ethernet

USB

Connecting Sensors:

All Sensors, SciCon for use with the DINCon Module, SciPres for use with the DINPres
Module and SciTemp for use with the DINTemp Module are disposable flow through
sensors that are purchased separately from Parker and come Pre-Calibrated.

The Sensors connect to a provided cable that has a watertight connector on the sensor
end and an 8 pin connector on the other end that plugs into a matching port on the
bottom of the Module. The DINCon has only one port, and uses only one SciCon
Sensor. The DINPres and DINTemp have 3 ports, can support up to 3 SciPres or
SciTemp Sensors, and they are referred to as P1 – P3 or T1 – T3 beginning with P1
and T1 at the rear, or the closest connector to the DIN rail.

12

DIN Rail locking clip

Sensor 1

Sensor 2

Sensor 3

When powered up and connected the Sensor Status LEDs on the front of the Module
are colored as follows:

 Green = Connected
 Red = Disconnected
 Yellow = Connected but not calibrated.

If the LED shows Yellow, it’s time to replace the affected Sensor with a new one.
Connecting the wrong type of Sensor to the module also results in a Yellow indication.

13

Operating Instructions:

Modbus Overview:

The Parker DIN modules communicate via the Modbus protocol. All data is transferred
using the Modbus holding registers. The default connection is RS-485 at 115,200 baud,
8 bits, even parity and one stop bit.

Note: If parity setting (register 109) is changed to “none” then two stop bits must be
used.

The default Modbus mode is RTU. The Default Modbus addresses (register 105) for the
various Modules are:

DINCon: 10
DINPres: 20
DINTemp: 30
Four physical layer interfaces are available for DIN Module communications:
RS232 – Modbus/RTU or Modbus/ASCII
RS485 – Modbus/RTU or Modbus/ASCII
Ethernet - Modbus/TCP
USB - Modbus/RTU or Modbus/ASCII
The active Modbus interface is selected by connecting to the modules built-in web

server. Connect using an Ethernet patch cable and a hub on your network, or directly to
the unit with an Ethernet crossover cable. The default IP addresses are 192.168.0.142
for the DINCon, 192.168.0.143 for the DINPres, and 192.168.0.144 for the DINTemp. It
may be necessary to create a new connection, or modify and existing one. Make any
changes required to configuration and click on “Submit” to save them to the module.

14

Any changes made via this interface require a power cycle of the module to take effect.

Modbus register definitions are listed below for each type – DINCon, DINPres, and
DINTemp.

For floating point values the DIN modules use the standard IEEE-754 format.

The Modbus address and communication parameters for a module can be changed by
writing to registers 104-109 as a block (at the same time).

The Modules contain a Real Time Clock that will be set to the current date and the end
users time zone prior to shipment from Parker. If re-setting the Real Time Clock is
needed, the data must also be written in one continuous Modbus multi-register write
operation to registers 130-137.

The DINPres Module has a selectable Data Refresh Rate, with the default of 13
milliseconds being raw data. (Register 143) If the default setting is not used, a
conditioned signal is provided.

The Sensors have individual ID numbers and calibration information stored in, and
printed on them. Values relating to the ID numbers can be found in registers 201-206
for Sensor 1, 241-246 for Sensor 2 and 281-286 for Sensor 3. (Note: The first letter of
this ID number, a “C”, “S” or “T”, is not in any of the registers.)

Units and Alarm Limits:

The Modules provide the ability to set the desired Units for the outputs, as well as
appropriate High and Low Alarm Limits. The alarms are absolute and not dependent
upon signal direction. (i.e. The signal does not have to be above the low alarm limit
value first to trip it.) The register list in section C below lists the available units for each
Module. All Alarm Limits default to 0.0 and are thereby initially disabled.

DINCon:

Conductivity Units: Default: µS Register 140
Temperature Units: Default: ⁰C Register 143
Conductivity Limits: Low: Registers 160-161

High: Registers 162-163

Temperature Limits: Low: Registers 164-165

High: Registers 166-167

DINPres:

Pressure Units: Default: psi Register 140
P1 Pressure Limits: Low: Registers 160-161

High: Registers 162-163

P2 Pressure Limits: Low: Registers 164-165

High: Registers 166-167

P3 Pressure Limits: Low: Registers 168-169

High: Registers 170-171

15

DINTemp:

Temperature Units: Default: ⁰C Register 140
T1 Temperature Limits: Low: Registers 160-161

High: Registers 162-163

T2 Temperature Limits: Low: Registers 164-165

High: Registers 166-167

T3 Temperature Limits: Low: Registers 168-169

High: Registers 170-171

Hardware Calibration:

The factory hardware calibration data is available as read only values and is only
performed on new modules with a special test fixture at the time of manufacture.

User Calibration of the Sensors:

If User Custom Calibration of a Sensor is desired, it can be accomplished by adjusting
the Cal Concentration, Cal Temperature or Cal Pressure values, and setting the proper
Start Bit in the appropriate User Cal Status Register.

Custom Calibration of SciPres and SciTemp Sensors is rare, and it is only
recommended on the SciCon Sensors if a much lower Cal Concentration is desired.
(12.88 mS is standard, and functions with satisfactory results.)

Factory Calibration of SciPres Sensors:

The DINPres reads and utilizes calibration data from SciPres Sensors that have been
calibrated to two points, 0 and 30 psi, or three points, 0, 54 and 6 psi depending upon the
type of stock purchased. It has also been equipped a Max Pressure Watchdog feature.

The Max Pressure Watchdog feature records in the sensor’s memory the maximum
pressure seen by the sensor while it is connected to the DINPres. The maximum
recommended pressure for the sensors is 60 psi. If this is exceeded, problems with
leakage and functionality can occur. This value is available in the appropriate register;
see the list in the next section.

Please Note: If the company Metrology Department tests the Sensors using a regulated
air source, care must be taken to avoid hi inrush pressure. Much like inrush current in
electronics, if the valve to the regulator is opened too fast, this can expose the Sensor to
higher pressures than the regulator is set for. This will be reflected in the Max Pressure
value, and may risk damage to the sensor if this is done near the 54 psi calibration point
or above.

existing factory two or three point calibration. This can be reset or cleared if desired.

16

Modbus Register List:

DINCon Register List:

ADDRESS ACCESS FORMAT VALUE Default

90-99 R ASCII String DINCon Serial Number

100 R 16 bit Model Number

101-102 R IEEE Float Software Version

103 R/W 16 bit Reset Control

104-105 R/W 16 bit Modbus Address

106 R/W 16 bit Modbus Mode

107 R/W 16 bit Modbus Baud Rate (115200 default)

108 R/W 16 bit Modbus Serial Word Length ( 7 or 8)
109 R/W 16 bit Modbus Serial Parity (Even, 1 Stop Bit default)

110 R/W 16 bit TCP Address P1
111

0 = DINCon

bit 0 = System Reset
bit 1 = Reset to Defaults
bit 2 = Alarm Reset

104 must be set to 0xa55a (hex)

registers 104-109 must be written as a block

105 contains Modbus address

0 = RS485 RTU
1 = RS485 ASCII
2 = RS232 RTU
3 = RS232 ASCII
4 = USB RTU
5 = USB ASCII
6 = TCP

0 = 1200
1 = 2400
2 = 4800
3 = 9600
4 = 19200
5 = 28800
6 = 38400
7 = 57600
8 = 115200

0 = none, 2 Stop Bits
1 = odd, 1 Stop Bit
2 = even, 1 Stop Bit

TCP Address P2

0

0xa55a

10

0

8

8
2

192
168

17

112
113

TCP Address P3

TCP Address P4
114 R/W 16 bit TCP Mask P1
115
116
117

TCP Mask P2

TCP Mask P3

TCP Mask P4
118 R/W 16 bit TCP Gateway P1
119
120
121

TCP Gateway P2

TCP Gateway P3

TCP Gateway P4
130 R/W 16 bit RTCC Control

bit0: Set Clock Values

Registers 130-137 must be written as a block

131 R/W 16 bit Day of Week (1-7)
132 R/W 16 bit Month
133 R/W 16 bit Day
134 R/W 16 bit Year
135 R/W 16 bit Hour (24)
136 R/W 16 bit Minute
137 R/W 16 bit Second
140 R/W 16 bit Conductivity Units

141-142 R/W IEEE Float

0 = uS

1 = mS

2 = ppm KCl

3 = ppm NaCl

4 = ppm 442

Cal Concentration (default 12.88mS)

(Only change for use with a Custom Calibration)
143 R/W 16 bit Temperature Units

144-145 R/W IEEE Float

0 = C

1 = F

Cal Temperature (default 25.0C)

(Only change for use with a Custom Calibration)

150 R 16 bit Conductivity Status

bit0 = disconnected

bit1 = uncalibrated

bit2 = low alarm

bit3 = high alarm

151-152 R IEEE Float Conductivity Value

153 R 16 bit Temperature Status

bit0 = disconnected

bit1 = uncalibrated

bit2 = low alarm

0
142
255
255
255

0
192
168

0

1

0

12.88

0

25.0

18

bit3 = high alarm
154-155 R IEEE Float Temperature Value
160-161 R/W IEEE Float Conductivity Alarm Limit - Low
162-163 R/W IEEE Float Conductivity Alarm Limit - High
164-165 R/W IEEE Float Temperature Alarm Limit - Low
166-167 R/W IEEE Float Temperature Alarm Limit - High

180 R/W IEEE Float Temperature Reference
182 R/W IEEE Float Temperature Coefficient

0.0

0.0

0.0

0.0

25.0

1.90

184 R/W IEEE Float Temperature Offset
186 R/W 16 bit Temperature Comp. Disabled if NZ

0.0

201 R/W 16 bit Sensor ID Type

0 = Luer

1 = 3/8" Barb

2 = 1/2" Barb

3 = 3/4" TC

4 = 1" TC

100 = Cal Fixture

202 R/W 16 bit Sensor ID Material

0 = Polypropylene

1 = Polysulfone

203 R/W 16 bit Sensor ID Month
204 R/W 16 bit Sensor ID Year
205 R/W 16 bit Sensor ID Lot
206 R/W 16 bit Sensor ID Unit Number
208 R/W IEEE Float Sensor Temperature Offset (TO)
210 R/W IEEE Float Sensor Cal Factor (CCF)
220 R/W 16 bit Sensor Custom Cal Status

bit 0 = Invalid

bit 2 = Start Cal

bit 6 = Cal in Progress

bit 7 = Write Cal Data

221 R/W IEEE Float Sensor Custom Temperature Offset (CTO)
223 R/W IEEE Float Sensor Custom Cal Factor (CCF)

19

DINPres Register List:

ADDRESS ACCESS FORMAT VALUE DEFAULT

90-99 R ASCII String DINPres Serial Number

100 R 16 bit Model Number

101-102 R IEEE Float Software Version

103 R/W 16 bit Reset Control

104-105 R/W 16 bit Modbus Address

106 R/W 16 bit Modbus Mode

107 R/W 16 bit Modbus Baud Rate (115200 Default)

108 R/W 16 bit Modbus Serial Word Length (7 or 8)
109 R/W 16 bit Modbus Serial Parity (Even, 1 Stop Bit default)

110 R/W 16 bit TCP Address P1
111
112
113

1 = DINPres

bit 0 = System Reset
bit 1 = Reset to Defaults
bit 2 = Alarm Reset

104 must be set to 0xa55a

registers 104-109 must be written as a block

105 contains Modbus address

0 = RS485 RTU
1 = RS485 ASCII
2 = RS232 RTU
3 = RS232 ASCII
4 = USB RTU
5 = USB ASCII
6 = TCP

0 = 1200
1 = 2400
2 = 4800
3 = 9600
4 = 19200
5 = 28800
6 = 38400
7 = 57600
8 = 115200

0 = none, 2 Stop Bits
1 = odd, 1 Stop Bit
2 = even, 1 Stop Bit

TCP Address P2
TCP Address P3
TCP Address P4

1

0xa55a

20

0

8

8
2

192
168

0

143

20

114 R/W 16 bit TCP Mask P1
115
116
117

TCP Mask P2
TCP Mask P3

TCP Mask P4
118 R/W 16 bit TCP Gateway P1
119
120
121

TCP Gateway P2

TCP Gateway P3

TCP Gateway P4
130 R/W 16 bit RTCC Control

bit0: Set Clock Values

Registers 130-137 must be written as a block

131 R/W 16 bit Day of Week (1-7)
132 R/W 16 bit Month
133 R/W 16 bit Day
134 R/W 16 bit Year
135 R/W 16 bit Hour (24)
136 R/W 16 bit Minute
137 R/W 16 bit Second
140 R/W 16 bit Pressure Units

141-142 R/W IEEE Float

0 = psi

1 = kPa

2 = bar

3 = mmHg

Cal Pressure (Default 30psi)

(Only change for use with a Custom Calibration)
143 R/W 16 bit Data Refresh Rate

0 = 13 milliseconds

1 = 25 ms

2 = 50 ms

3 = 125 ms

4 = 250 ms

5 = 350 ms

6 = 500 ms

7 = 750 ms

8 = 1 second

9 = 1.5 seconds

10 = 2 seconds

11 = 4 seconds
150 R 16 bit P1 Status

bit 0 = Disconnected

bit 1 = Uncalibrated

bit 2 = Low Alarm

255
255
255

0
192
168

0

1

0

30.0

0

21

bit 3 = High Alarm

151-152 R IEEE Float P1 Pressure Value

153 R 16 bit P2 Status

bit 0 = Disconnected
bit 1 = Uncalibrated
bit 2 = Low Alarm
bit 3 = High Alarm

154-155 R IEEE Float P2 Pressure Value

156 R 16 bit P3 Status

bit 0 = Disconnected
bit 1 = Uncalibrated
bit 2 = Low Alarm

bit 3 = High Alarm
157-158 R IEEE Float P3 Pressure Value
160-161 R/W IEEE Float P1 Pressure Alarm Limit - Low
162-163 R/W IEEE Float P1 Pressure Alarm Limit - High
164-165 R/W IEEE Float P2 Pressure Alarm Limit - Low
166-167 R/W IEEE Float P2 Pressure Alarm Limit - High
168-169 R/W IEEE Float P3 Pressure Alarm Limit - Low
170-171 R/W IEEE Float P3 Pressure Alarm Limit - High

201 R/W 16 bit P1 Sensor ID Type

0 = Luer

1 = 3/8" Barb

2 = 1/2" Barb

3 = 3/4" TC

4 = 1" TC

100 = Cal Fixture

202 R/W 16 bit P1 Sensor ID Material

0 = Polypropylene

1 = Polysulfone

203 R/W 16 bit P1 Sensor ID Month
204 R/W 16 bit P1 Sensor ID Year
205 R/W 16 bit P1 Sensor ID Lot
206 R/W 16 bit P1 Sensor ID Unit Number
208 R/W IEEE Float P1 Sensor Pressure Offset (PZ)
210 R/W IEEE Float P1 Sensor Cal Factor (CF)
212 R/W IEEE Float P1 Sensor Cal Pressure (CP1)
214 R/W IEEE Float P1 Sensor Cal Factor 2 (CF2)
216 R/W IEEE Float P1 Sensor Cal Pressure 2 (CP2)
220 R/W 16 bit P1 Sensor Custom Cal Status

bit 0 = Invalid

bit 1 = Start Zero

0.0

0.0

0.0

0.0

0.0

0.0

22

bit 2 = Start Span

bit 6 = Cal in Progress

bit 7 = Write Cal Data

221 R/W IEEE Float P1 Sensor Custom Pressure Offset (CPZ)
223 R/W IEEE Float P1 Sensor Custom Cal Factor (CCF)
235 R/W IEEE Float P1 Sensor Max Pressure
237 R/W 16 bit P1 Sensor MaxP, Day
238 R/W 16 bit P1 Sensor MaxP, Month
239 R/W 16 bit P1 Sensor MaxP, Year
241 R/W 16 bit P2 Sensor ID Type

0 = Luer

1 = 3/8" Barb

2 = 1/2" Barb

3 = 3/4" TC

4 =1" TC

100 = Cal Fixture

242 R/W 16 bit P2 Sensor ID Material

0 = Polypropylene

1 = Polysulfone

243 R/W 16 bit P2 Sensor ID Month
244 R/W 16 bit P2 Sensor ID Year
245 R/W 16 bit P2 Sensor ID Lot
246 R/W 16 bit P2 Sensor ID Unit Number
248 R/W IEEE Float P2 Sensor Pressure Offset (PZ)
250 R/W IEEE Float P2 Sensor Cal Factor (CF)
252 R/W IEEE Float P2 Sensor Cal Pressure (CP1)
254 R/W IEEE Float P2 Sensor Cal Factor 2 (CF2)
256 R/W IEEE Float P2 Sensor Cal Pressure 2 (CP2)
260 R/W 16 bit P2 Sensor Custom Cal Status

bit 0 = Invalid

bit 1 = Start Zero

bit 2 = Start Span

bit 6 = Cal in Progress

bit 7 = Write Cal Data

261 R/W IEEE Float P2 Sensor Custom Pressure Offset (CPZ)
263 R/W IEEE Float P2 Sensor Custom Cal Factor (CCF)
275 R/W IEEE Float P2 Sensor Max Pressure
277 R/W 16 bit P2 Sensor MaxP, Day
278 R/W 16 bit P2 Sensor MaxP, Month
279 R/W 16 bit P2 Sensor MaxP, Year
281 R/W 16 bit P3 Sensor ID Type

0 = Luer

23

1 = 3/8" Barb

2 = 1/2" Barb

3 = 3/4" TC

4 = 1" TC

100 = Cal Fixture

282 R/W 16 bit P3 Sensor ID Material

0 = Polypropylene

1 = Polysulfone

283 R/W 16 bit P3 Sensor ID Month
284 R/W 16 bit P3 Sensor ID Year
285 R/W 16 bit P3 Sensor ID Lot
286 R/W 16 bit P3 Sensor ID Unit Number
288 R/W IEEE Float P3 Sensor Pressure Offset (PZ)
290 R/W IEEE Float P3 Sensor Cal Factor (CF)
292 R/W IEEE Float P3 Sensor Cal Pressure (CP1)
294 R/W IEEE Float P3 Sensor Cal Factor 2 (CF2)
296 R/W IEEE Float P3 Sensor Cal Pressure 2 (CP2)
300 R/W 16 bit P3 Sensor Custom Cal Status

bit 0 = Invalid

bit 1 = Start Zero

bit 2 = Start Span

bit 6 = Cal in Progress

bit 7 = Write Cal Data

301 R/W IEEE Float P3 Sensor Custom Pressure Offset (CPZ)
303 R/W IEEE Float P3 Sensor Custom Cal Factor (CCF)
315 R/W IEEE Float P3 Sensor Max Pressure
317 R/W 16 bit P3 Sensor MaxP, Day
318 R/W 16 bit P3 Sensor MaxP, Month
319 R/W 16 bit P3 Sensor MaxP, Year

24

DINTemp Register List:

ADDRESS ACCESS FORMAT VALUE DEFAULT

90-99 R ASCII String DINTemp Serial Number

100 R 16 bit Model Number

101-102 R IEEE Float Software Version

103 R/W 16 bit Reset Control

104-105 R/W 16 bit Modbus Address

106 R/W 16 bit Modbus Mode

107 R/W 16 bit Modbus Baud Rate (115200 Default)

108 R/W 16 bit Modbus Serial Word Length (7 or 8)
109 R/W 16 bit Modbus Serial Parity (Even, 1 Stop Bit default)

110 R/W 16 bit TCP Address P1
111
112
113

2 = DINTemp

bit 0 = System Reset
bit 1 = Reset to Defaults
bit 2 = Alarm Reset

104 must be set to 0xa55a

registers 104-109 must be written as a block

105 contains Modbus address

0 = RS485 RTU
1 = RS485 ASCII
2 = RS232 RTU
3 = RS232 ASCII
4 = USB RTU
5 = USB ASCII
6 = TCP

0 = 1200
1 = 2400
2 = 4800
3 = 9600
4 = 19200
5 = 28800
6 = 38400
7 = 57600
8 = 115200

0 = none, 2 Stop Bits
1 = odd, 1 Stop Bit
2 = even, 1 Stop Bit

TCP Address P2
TCP Address P3
TCP Address P4

2

0xa55a

30

0

8

8
2

192
168

0

144

25

114 R/W 16 bit TCP Mask P1
115
116
117

TCP Mask P2
TCP Mask P3

TCP Mask P4
118 R/W 16 bit TCP Gateway P1
119
120
121

TCP Gateway P2

TCP Gateway P3

TCP Gateway P4
130 R/W 16 bit RTCC Control

bit 0 = Set Clock Values

Registers 130-137 must be written as a block

131 R/W 16 bit Day of Week (1-7)
132 R/W 16 bit Month
133 R/W 16 bit Day
134 R/W 16 bit Year
135 R/W 16 bit Hour (24)
136 R/W 16 bit Minute
137 R/W 16 bit Second
140 R/W 16 bit Temperature Units

141-142 R/W IEEE Float

0 = C

1 = F

Cal Temperature (Default 25C)

(Only change for use with a Custom Calibration)
150 R 16 bit T1 Status

bit 0 = Disconnected

bit 1 = Uncalibrated

bit 2 = Low Alarm

bit 3 = High Alarm

bit 6 = Cal in Progress

151-152 R IEEE Float T1 Temperature Value

153 R 16 bit T2 Status

bit 0 = Disconnected

bit 1 = Uncalibrated

bit 2 = Low Alarm

bit 3 = High Alarm

bit 6 = Cal in Progress

154-155 R IEEE Float T2 Temperature Value

156 R 16 bit T3 Status

bit 0 = Disconnected

bit 1 = Uncalibrated

bit 2 = Low Alarm

bit 3 = High Alarm

255
255
255

0
192
168

0

1

0

25.0

26

bit 6 = Cal in Progress
157-158 R IEEE Float T3 Temperature Value
160-161 R/W IEEE Float T1 Temperature Alarm Limit - Low
162-163 R/W IEEE Float T1 Temperature Alarm Limit - High
164-165 R/W IEEE Float T2 Temperature Alarm Limit - Low
166-167 R/W IEEE Float T2 Temperature Alarm Limit - High
168-169 R/W IEEE Float T3 Temperature Alarm Limit - Low
170-171 R/W IEEE Float T3 Temperature Alarm Limit - High

201 R/W 16 bit T1 Sensor ID Type

0 = Luer

1 = 3/8" Barb

2 = 1/2" Barb

3 = 3/4" TC

4 = 1" TC

100 = Cal Fixture

202 R/W 16 bit T1 Sensor ID Material

0 = Polypropylene

1 = Polysulfone

203 R/W 16 bit T1 Sensor ID Month
204 R/W 16 bit T1 Sensor ID Year
205 R/W 16 bit T1 Sensor ID Lot
206 R/W 16 bit T1 Sensor ID Unit Number
210 R/W IEEE Float T1 Sensor Cal Factor (CF)
220 R/W 16 bit T1 Sensor Custom Cal Status

bit 0 = Invalid

bit 1 = Start Zero

bit 6 = Cal in Progress

bit 7 = Write Cal Data

223 R/W IEEE Float T1 Sensor Custom Cal Factor (CCF)
241 R/W 16 bit T2 Sensor ID Type

0 = Luer

1 = 3/8" Barb

2 = 1/2" Barb

3 = 3/4" TC

4 = 1" TC

100 = Cal Fixture

242 R/W 16 bit T2 Sensor ID Material

0 = Polypropylene

1 = Polysulfone

243 R/W 16 bit T2 Sensor ID Month
244 R/W 16 bit T2 Sensor ID Year
245 R/W 16 bit T2 Sensor ID Lot

0.0

0.0

0.0

0.0

0.0

0.0

27

246 R/W 16 bit T2 Sensor ID Unit Number
250 R/W IEEE Float T2 Sensor Cal Factor (CF)
260 R/W 16 bit T2 Sensor Custom Cal Status

bit 0 = Invalid

bit 1 = Start Zero

bit 6 = Cal in Progress

bit 7 = Write Cal Data

263 R/W IEEE Float T2 Sensor Custom Cal Factor(CCF)
281 R/W 16 bit T3 Sensor ID Type

0 = Luer

1 = 3/8" Barb

2 = 1/2" Barb

3 = 3/4" TC

4 = 1" TC

100 = Cal Fixture

282 R/W 16 bit T3 Sensor ID Material

0 = Polypropylene

1 = Polysulfone

283 R/W 16 bit T3 Sensor ID Month
284 R/W 16 bit T3 Sensor ID Year
285 R/W 16 bit T3 Sensor ID Lot
286 R/W 16 bit T3 Sensor ID Number
290 R/W IEEE Float T3 Sensor Cal Factor (CF)
300 R/W 16 bit T3 Sensor Custom Cal Status

bit 0 = Invalid

bit 1 = Start Zero

bit 6 = Cal in Progress

bit 7 = Write Cal Data

303 R/W IEEE Float T3 Sensor Custom Cal Factor (CCF)

28

SciCon Disposable Conductivity / Temperature Sensors:

CONNECTOR TYPE Max FLOW RATE Max PRESSURE NOMINAL CELL VOLUME

1” Ladish TC

Luer
3/8" Barb
1/2" Barb

3/4" TC

1 liter/min 60 psi 80 µl

8 liters/min 60 psi 0.5 ml
17 liters/min 60 psi 0.8 ml
31 liters/min 60 psi 1.2 ml
60 liters/min 60 psi 2.3 ml

Specifications for all SciCon™ Conductivity Flow Thru Sensors

Polysulfone (PS) w/Gold Electrodes; Medical Grade meets USP Class VI

Material, Fluid Contact:

Sensor Type:

Conductivity Range:

Accuracy:

Temperature Range:

Temperature Probe:

Temp. Accuracy:

Sensor Microchip:

and FDA 21 CFR 177.1520. All Wetted Materials are made of Animal-Free

Compounds. Most Sanitizing Agents such as NaOH, Hypochlorite. Sensors

can be autoclaved..

4-electrode conductivity cell

Factory calibrated, Ready to use

1 µS/cm to 200 mS/cm

High Range:

Low Range: ± 3 μS in the 0 - 100 μS range.

EPROM, stores Device ID, Cell Constant, Temp Offset & Factory Cal Data

± 0.25 mS in the 0.1 - 200 mS range;

0 - 50 Celsius

Thermistor, Factory Calibrated

+/- 0.5 Celsius

29

E

SciPres Disposable Pressure Sensors:

CONNECTOR TYPE Max FLOW RATE * Max PRESSURE NOMINAL CELL VOLUM

Luer
3/8" Barb
1/2" Barb

3/4" TC

1” Ladish TC

*At a 1.0 psi drop across the sensor

Specifications for all SciPres Flow Thru Pressure Sensors

Material, Fluid Contact:

Sensor Type:

Sensor Isolation:

Pressure Sensor Range:

Pressure Sensor Accuracy:

Pressure Sensor Resolution:

Temperature Range:

Pressure Sensor Microchip:

Pressure Sensor Cleaning:

Sensor Connector and Cables: Lockable & Waterproof

The maximum recommended pressure for the sensors is 60 psi. If this is
exceeded, problems with leakage and functionality can occur.

1 liter/min 60 psi 80 µl

8 liters/min 60 psi 0.5 ml
17 liters/min 60 psi 0.8 ml
31 liters/min 60 psi 1.2 ml
60 liters/min 60 psi 2.3 ml

Medical Grade Polysulfone meets USP Class VI and FDA 21CFR177.1520.

All Wetted Materials are made of Animal-Free Compounds. Compatible with

Most Sanitizing Agents such as NaOH, Hypochlorite. Sensors can be

Medical grade silicone piezoresistive sensing element with on-chip

Insoluble silicone dielectric gel isolates sensing element from process

EPROM, stores Device ID, Cell Constant, Temp Offset & Factory Cal Data

Sensors may be flushed with Alcohol, 0.1M or 0.5M NaOH, dilute Bleach, or

Formaldehyde for inline sanitization several times. The Sensors may also

autoclaved.

temperature compensation

solution.

0-60 psi for all sizes.

+/- 0.30 psi 0-60 psi.

0.01 psi.

0 - 60 Celsius

be autoclaved.

30

SciTemp Disposable Temperature Sensors:

CONNECTOR TYPE Max FLOW RATE * Max Pressure

Luer
3/8" Barb
1/2" Barb

3/4" TC

1” Ladish TC

*At a 1.0 psi drop across the sensor

Specifications for all SciTemp™ Temperature Sensor Flow Thru Temperature Sensors

Material, Fluid Contact:

Sensor Type:

Temperature Sensor Range:

Temperature Sensor

Accuracy:

Temperature Sensor

Resolution:

Temperature Sensor

Microchip:

Temperature Sensor

Cleaning:

Sensor Connector and Cables: Lockable & Waterproof

1 liter/min 60 psi

8 liters/min 60 psi
17 liters/min 60 psi
31 liters/min 60 psi
60 liters/min 60 psi

Natural PP, meets USP Class VI and FDA 21 CFR 177.1520

Medical Grade Polysulfone meets USP Class VI and FDA 21CFR177.1520.

All Wetted Materials are made of Animal-Free Compounds. Compatible with

Most Sanitizing Agents such as NaOH, Hypochlorite. Sensors can be

Thermistor, Epoxy Coated, 2252 ohm.

EPROM, stores Device ID & Factory Cal Data

Sensors may be flushed with Alcohol, 0.1M or 0.5M NaOH, dilute Bleach, or

Formaldehyde for inline sanitization several times. The Sensors may also

autoclaved.

-40 to +150 ° C for all sizes.

0.01° C In the 4.0 to 70.0° C Range.

0.01° C.

be autoclaved.

31

SciCon Sensor Sanitization Test Protocol

Parker/Scilog DN 3023: SciCon Sanitization, 1.0 Molar NaOH @ 22 ºC and 50 ºC, 2 Hours

Group 1: SciCon Sensor Conductivity Response after Exposure to 1.0 N NaOH Solution, Temperature

(1.0 N NaOH) at 22 º C, 2 Hours

Group 1 TRIAL 1 TRIAL 2 TRIAL 3

Temperature 22 ºC NIST SciCon NIST SciCon NIST SciCon NIST SciCon NIST SciCon NIST SciCon

Sensor ID Cond. Cond. Temp Temp Cond. Cond. Temp Temp. Cond. Cond. Temp. Temp.

C1-240173-0308 13.04 13.10 25.64 25.4 13.04 13.14 24.70 24.3 13.04 13.10 24.99 24.8

C1-240251-0308 13.04 13.06 25.64 25.5 13.04 13.11 24.70 24.4 13.04 13.08 24.99 24.8

C1-240302-0308 13.04 13.00 25.64 25.7 13.04 13.05 24.70 24.6 13.04 13.04 24.99 25.0

Group Average. 13.04 13.05 25.64 25.5 13.04 13.10 24.7 24.4 13.04 13.07 24.99 24.9

Group SD* 0.05 0.2 0.05 0.2 0.03 0.1

SD* = Standard Deviation

Group 2: SciCon Sensor Conductivity Response after Exposure to 1.0 N NaOH Solution, Temperature

Group 2 TRIAL 1 TRIAL 2 TRIAL 3

Temperature 50 ºC NIST SciCon NIST SciCon NIST SciCon NIST SciCon NIST SciCon NIST SciCon

(1.0 N NaOH) at 50º C, 2 Hours.

Sensor ID Cond. Cond. Temp Temp Cond. Cond. Temp Temp. Cond. Cond. Temp. Temp.

C1-240010-0208 13.04 13.02 25.64 25.7 13.04 13.12 24.70 24.6 13.04 13.10 24.99 25.0

C1-240060-0208 13.04 13.20 25.64 25.5 13.04 13.26 24.70 24.4 13.04 13.21 24.99 24.9

C1-240100-0208 13.04 12.91 25.64 25.5 13.04 12.93 24.70 24.7 13.04 12.84 24.99 25.2

Group Average: 13.04 13.04 25.64 25.6 13.04 13.10 24.7 24.6 13.04 13.05 24.99 25.0

Group SD 0.15 0.1 0.17 0.2 0.19 0.2

NOTE: Parker sensors are designed for disposable, single-use applications. However, with proper care, the
Parker sensors can be re-used repeatedly while maintaining good accurate and precision. If required, SciCon
sensors can be re-calibrated.

CAUTION: Do Not Exceed Maximum Pressure of 60 psi

Test Protocol: Six pre-calibrated (13.04 mS) SciCon Luer conductivity sensors were exposed 3 times to 1.0

molar NaOH for two hours each at 22 ºC (Group1) and at 50 ºC (Group 2). After each 2-hour exposure, the
sensors were flushed 3x with distilled water and inserted into a temperature controlled glove box. A solution was
then circulated through the sensors utilizing a peristaltic recirculation pump. The sensors were conductivity-tested
and temperature-tested at the indicated standard values. The conductivity standard of the solution was tested
using a NIST-traceable (YSI Model 30) conductivity meter. The temperature standard was measured using a
NIST traceable temperature thermometer. The sensor responses were tabulated. The original factory calibration
was maintained during the trials; no additional sensor calibrations were carried out before or during the trials. For
this test, SciCon sensors were randomly selected from Parker inventory.

32

SciCon Sensor Autoclave Test Protocol

Parker/SciLog DN 3130: SciCon Conductivity Sensor, Post Autoclaving Sensor
Response.

For accurate performance, SciCon sensors should not be autoclaved more than
two times.

Objective: Test SciCon Sensor Response after Repeated (4) Autoclave Cycles.
Sterilization Conditions: Sterilization Temperature; 257ºF (125ºC), Sterilization Time: 30
min. Pressure: 19psi, Drying Time: 30 min. Conductivity Test Solution: 12.99mS (KCl)

Pre-Autoclave Post Trial 1 Post Trial 2 Post Trial 3 Post Trial 4

SciCon, Luer Response Response Response Response Response

mS

Sensor ID

C1-240061-0208

C1-240058-0208

C1-240406-0208

C1-240059-0208

C1-240062-0208

Group Average

Group SD*

* SD = Standard Deviation

NOTE: Parker sensors have been designed for disposable, single-use applications. However, with proper care, the
sensors can be re-used repeatedly while maintaining good accuracy and precision. If required, sensors can be re­calibrated.

CAUTION: Do Not Exceed Maximum Pressure of 60 psi
Test Protocol: Prior to autoclaving, factory-calibrated SciCon conductivity sensors (5) were removed from inventory

and tested against a conductivity solution (12.99 mS) in a temperature equilibrated glove box. The "out-of-box"
sensor response data is listed as "Pre-Autoclave" in the table above. The 8-pin sensor connectors were sealed with
autoclavable tape (Cole-Parmer P/N: EG-08277-62) The sensors were place into paper bag (6 1/2"x 4" x12 3/8") and
placed in a Tuttnauer EZ9 Autoclave. The following conditions were maintained throughout the four autoclaving trials:

1.Sterilization Temperature: 257ºF (125 ºC); 2.Sterilization Time: 30 min; 3.Sterilization Pressure: 18 psi, 4.Drying
Time 30 min. After each trial, the SciCon sensors were allowed to cool for one hour inside the temperature controlled
(25.0 ºC) glove box. 12.99 mS test solution was re-circulated through the five, in-line sensors assembly for 30 min
before reading the conductivity values. The SciCon sensor response data (displayed by the SciPres Monitor) is listed
in the table above as "Post-Trial 1", "Post-Trial 2", "Post-Trial 3" and "Post Trial 4." Post-autoclave sensor response
tests were carried out with the original factory calibration. No sensor re-calibration were made before, during or after
the three trials.

Summary: All SciCon sensors survived the four autoclave trials. However, sensor accuracy becomes increasingly
compromised after multiple autoclave cycles. For accurate performance, SciCon sensors should not be

autoclaved more than two times.

mS mS mS mS

12.86 12.91 12.94 12.84 12.80

12.96 12.93 12.96 12.67 12.77

12.93 12.99 12.41 12.66 12.60

13.08 13.06 13.09 12.93 13.20

13.02 12.97 13.14 13.01 13.09

12.97 12.97 12.91 12.82 12.89

0.08 0.06 0.29 0.16 0.25

33

SciPres Sensor Sanitization Test Protocol

Parker/SciLog DN 3021: SciPres Pressure Sensor Sanitization Protocol (1):

Sanitizing

Agent

(2)

NaOH 0.10 N 20-30 13 0 - 10 15-30 10 0.20%

NaOH 0.50 N 20-30 13.5 0 - 10 15-30 10 0.25%

NaOCl (5) 500 ppm 20-30 7 - 8 0 - 10 15-30 10 0.70%

Formaldehyde

Solution

Isopropyl

Alcocol

Conc.

1 - 2% 20-30 5 - 8 0 - 10 30 10 0.10%

70% 20-30 N/A 0 - 10 15-30 10 0.10%

Temp.

º C

pH

Pressure

psi (4)

Contact

Time, Min

NOTE:

1. SciPres pressure sensors have been designed for disposable, single-use applications. However,
with proper care, SciPres sensors can be re-used repeatedly while maintaining good accuracy and
precision. If required, the SciPres sensor can be re-calibrated.

2. SciPres sensors can be repeatedly sanitized with any of the listed sanitizing solutions. Do not
exceed the recommended number of of sanitization cycles. Sensor accuracy and precision will be
affected adversely by excessive cleaning/sanitization.

3. Recommended number of cleaning / sanitization cycles.

4. Do not exceed recommended sanitization pressure range.

5. 1:100 dilution of Clorox Bleach, 500 ppm of active chlorine.

6. Response variance (% standard deviation) of pre-calibrated (30 psi) sensors over 10 sanitization
cycles

CAUTION: Do Not Exceed Maximum Pressure of 60 psi

Test Protocol: Pre-calibrated (30.00 psi) SciPres pressure sensors were exposed to sanitizing

solution by pumping the solution through the sensor for 30 minutes, followed by a distilled-water flush.
Sensor response recovery was tested after each sanitization cycle by applying 30.00 psi of air pressure
while monitoring the sensor response. Ten, 30-minute sanitization cycles were implemented; 5 hours
of total cumulative exposure.

Sani-

Cycles

Limit

(3)

%SD

10 Cycles

(6)

34

SciPres Sensor Autoclave Test Protocols

Parker/SciLog DN 3127: SciPres Pressure Sensor, Post Autoclaving Sensor Response.

Objective: Test SciPres Sensor Response after Repeated (3) Autoclaving Cycles. Autoclaving

Conditions: Sterilization Temperature: 257ºF (125ºC); Sterilization Time: 30min., Pressure: 19 psi,
Drying Time: 30min.

For accurate performance, sensors should not be autoclaved more than two times.

SciPres Pre-Autoclave Post Trial 1 Post Trial 2 Post Trial 3

0.50" Barb psi psi psi psi psi psi psi psi
Sensor ID NIST 0.00 NIST 30.00 NIST 0.00 NIST 30.02 NIST 0.00 NIST 30.00 NIST 0.00 NIST 30.02

S3-220221-1007

S3-220227-1007

S3-220229-1007

S3-220230-1007

S3-220234-1007

S3-220240-1007

Group Average

Group SD*

* SD = Standard Deviation NR = No and/or Erratic Respone

0.00 29.99 0.01 30.06 0.02 30.04 0.04 30.04

0.00 29.99 0.00 30.06 0.02 30.05 0.04 30.06

0.00 29.99 0.02 30.10 0.03 30.06 0.04 30.07

0.00 29.99 0.01 30.06 0.30 30.24 NR NR

0.00 29.99 0.00 30.05 0.10 30.22 0.05 30.06

0.00 30.00 0.02 30.06 0.79 31.06 NR NR

0.00 29.99 0.01 30.07 0.21 30.28 0.04 30.06

Test Protocol: Prior to autoclaving, factory-calibrated SciPres sensors (6) were removed from inventory and
pressure-tested at 0.00 and 30.00 psi. The "out-of-box" sensor response data are listed as "Pre-Autoclave" in the
table above. The SciPres sensor ambient air-vent as well as the 8-pin sensor connector were covered with
autoclavable tape (Cole-Parmer P/N: EG-08277-62). The sensors were placed into a paper bag (6 1/2"x 4" x12
3/8"), sealed with tape and placed in a Tuttnauer EZ9 Autoclave. The following conditions were maintained
throughout the three autoclaving trials: 1.Sterilization Temperature: 257ºF (125 ºC); 2.Sterilization Time: 30 min;

3.Sterilization Pressure: 19 psi, 4.Drying Time 30 min.
After each trial, the SciPres sensors were allowed to cool to room temperature for one hour, followed by pressure
tests at 0.00 psi and at 30.00psi. The applied pressure (30 psi) was generated with a regulated nitrogen gas
source while monitoring the applied pressure with a NIST-traceable pressure gauge. The SciPres sensor
response data (displayed by the SciPres Monitor) are listed in the table above as "Post-Trial 1", "Post-Trial 2" and
"Post-Trial 3".
Post-autoclave sensor response tests were carried out with the original factory calibration. No sensor re­calibrations were made before, during or after the three trials.

Summary: The tested SciPres sensors survived the autoclave conditions. However, sensor accuracy becomes
increasingly compromised after multiple autoclave cycles. For accurate performance, sen sors should not be

autoclaved more than two times.

NOTE: Parker sensors have been designed for disposable, single-use applications. However, with
proper care, the sensors can be re-used while maintaining good accuracy and precision. If required,
sensors can be re-calibrated. CAUTION: Do Not Exceed Maximum Pressure of 60 psi

0.00 0.02 0.39

0.01

35

SciTemp™ Temperature Sensor Sanitization Test Protocols

SciTemp Sanitization Protocol

Sanitizing Conc. Temp. pH Pressure Contact Sani-Cycles

Agent

(2)

0.10 N 20-30 13 0 - 10 15-30 10

0.50 N 20-30 13 0 - 10 15-30 10

500 ppm 20-30 7 - 8 0 - 10 15-30 10

1 - 2% 20-30 5 - 8 0 - 10 30 10

70% 20-30 0 - 10 15-30 10

Notes:

(1)

(2)

NaOH

NaOH

NaOCl

Formaldehyde

Isopropyl

SciTemp sensor sanitization should be performed after flow cell has been thoroughly cleaned and flushed
with distilled water.

SciTemp sensors can be repeatedly sanitized with any of the listed sanitizing solutions.
Do not exceed the recommended number of sanitization cycles. Sensor accuracy and precision will be
affected by excessive cleaning / sanitization.

(5)

Solution

Alcocol

(1)

:

º C

psi

(4)

Time, Min

Limit

(3)

Recommended, Maximum Number of Cleaning / Sanitization cycles.

(3)

Do Not Exceed Recommended Sanitizating Pressure Range

(4)

1:100 dilution of Clorox Bleach, 500 ppm of Active Chlorine

(5)

Test Protocol:

pumping the solution through the sensor for 30 minutes, followed by a distilled-water flush. Sensor response recovery
was tested after each sanitization cycle.

Pre-calibrated SciTemp flow-through Temperature sensors were exposed to sanitizing solution by

36

SciTemp Sensor Autoclave Test Protocols

Parker/SciLog DN 3131: SciTemp Temperature Sensor, Post Autoclaving Sensor Response

Objective: Test SciTemp Sensor Response after Repeated (3) Autoclaving Cycles. Autoclaving

Conditions: Sterilization Temperature: 257ºF (125ºC); Sterilization Time: 30min., Pressure: 19 psi,
Drying Time: 30min.

For accurate performance, sensors should not be autoclaved more than two times.

SciTemp, Luer NIST SciTemp NIST SciTemp NIST SciTemp NIST SciTemp

A1-210164-0108

A1-210165-0108

A1-210166-0108

A1-210167-0108

A1-210168-0108

Group Average

* SD = Standard Deviation NR = No and/or Erratic Response

Test Protocol: Prior to autoclaving, factory-calibrated SciTemp sensors (5) were removed from inventory and
temperature-tested at 25.00 ºC in a temperature equilibrated glove box. The "out-of-box" sensor response data is
listed as "Pre-Autoclave" in the table above. The SciTemp sensor air-vent as well as the 8-pin sensor connector
were sealed with autoclavable tape (Cole-Parmer P/N: EG-08277-62). The sensors were placed into a paper bag
(6 1/2"x 4" x12 3/8"), sealed with tape and placed in a Tuttnauer EZ9 Autoclave. The following conditions were
maintained throughout the three autoclaving trials: 1.Sterilization Temperature: 257ºF (125 ºC); 2.Sterilization
Time: 30 min; 3.Sterilization Pressure: 18 psi, 4.Drying Time 30 min.
After each trial, the SciTemp sensors were placed in a temperature equilibrated glove box for 45 minutes. Utilizing
a peristaltic pump, a temperature equilibrated solution (0.100 molar KCl, 25 ºC) was re-circulated through the in­line SciTemp sensor assembly. An in-line NIST-traceable thermistor was used as a temperature reference.
Four of the five SciTemp sensors survived the three autoclaving trials while maintaining good sensor accuracy
and precision during the initial autoclave cycles. All trial measurements were carried out with the original factory
calibration. No sensor re-calibration were made before, during or after the three post-autoclave trials.

Summary: Sensor accuracy becomes increasingly compromised after the multiple autoclave cycles. For
accurate performance, sensors should not be autoclaved more than two times.

NOTE: Parker sensors have been designed for disposable, single-use applications. However, with
proper care, the sensors can be re-used while maintaining good accuracy and precision. If required,
sensors can be re-calibrated. CAUTION: Do Not Exceed Maximum Pressure of 60 psi.

Sensor ID T1 T2 ∆T T1 T2 ∆T T1 T2 ∆T T1 T2 ∆T

Group SD*

Pre-Autoclave Post Trial 1 Post Trial 2 Post Trial 3

25.07 25.00 0.07 25.01 25.03 -0.02 24.88 24.96 -0.08 25.05 24.96 0.09

25.07 25.02 0.05 25.01 25.05 -0.04 24.88 24.96 -0.08 25.05 25.05 0.00

25.07 25.04 0.03 25.01 25.06 -0.05 24.88 24.98 -0.10 25.05 NR

25.07 25.05 0.02 25.01 25.04 -0.03 24.88 24.91 -0.03 25.05 24.98 0.07

25.07 25.06 0.01 25.01 25.05 -0.04 24.88 24.94 -0.06 25.05 25.07 -0.02

25.03 25.05 24.95 25.02

0.02

0.01 0.03 0.05

37

Din Module Manual Revision History

Rev. # Date Author Description

A

B
C1
C2

C3

IOMI

11/1/08 A.Dawson Creation of preliminary manual

11/20/08 A.Dawson First Release

A.Dawson Updated to reflect cable changes based on testing from ETL.

11/19/09 A.Dawson Addition of note in Modbus section and correction of register 109

settings to reflect pre-set stop bit values, even, odd =1, none =2

3/26/10 A.Dawson Corrected error in RS485 A/B pin designation, it was reversed.

Removed Bit 4 Error from Sensor Status Registers, it is unused.

02/07/18 A.Dawson Converted to Parker format, minor technical corrections.

38

Notes

39

Notes

40

Notes

41

© 2015 Parker Hannifin Corporation. All rights reserved.

IOMI-AK1-004_RevB

Parker Hannifin Corporation
Bioscience Division – N.A.
2340 Eastman Avenue
Oxnard, California, USA 93030
toll free: 877 784 2234
phone: +1 805 604 3400
fax: +1 805 604 3401
email: bioscience.na@parker.com
www.parker.com/bioprocessing

Parker Hannifin Manufacturing Ltd
Bioscience Division - EMEA
Durham Road
Birtley, Co. Durham
DH3 2SF, England
phone +44 (0)191 4105121
fax +44 (0)191 4105312
email: bioscience.emea@parker.com
www.parker.com/bioprocessing