Hach Polymentron 9500 Basic User Manual

Tyyppi
Basic User Manual
DOC023.98.93058
Polymetron 9500 Controller
04/2020, Edition 7
Basic User Manual
Basis-Benutzerhandbuch
Manuale di base per l'utente
Manuel d'utilisation simplifié
Manual básico del usuario
Manual básico do utilizador
基本用户手册
Základní návod k použití
Basisgebruikershandleiding
Grundlæggende brugerhåndbog
Podstawowa instrukcja obsługi
Grundläggande bruksanvisning
Peruskäyttöohje
Alapvető felhasználói útmutató
Начальное руководство пользователя
Βασικό εγχειρίδιο χρήστη
Temel Kullanım Kılavuzu
Základný návod na použitie
Table of Contents
English..............................................................................................................................3
Deutsch.......................................................................................................................... 27
Italiano............................................................................................................................ 53
Français......................................................................................................................... 78
Español........................................................................................................................ 104
Português.................................................................................................................... 130
中文............................................................................................................................... 156
Čeština......................................................................................................................... 179
Nederlands................................................................................................................. 204
Dansk............................................................................................................................230
Polski............................................................................................................................ 255
Svenska....................................................................................................................... 280
Suomi............................................................................................................................305
Magyar......................................................................................................................... 329
Русский........................................................................................................................354
Ελληνικά...................................................................................................................... 382
Türkçe...........................................................................................................................409
Slovenský jazyk......................................................................................................... 433
2
Table of Contents
1 Expanded manual version on page 3
2 Specifications on page 3
3 General information on page 4
4 Installation on page 7
5 User interface and navigation on page 20
6 System startup on page 22
7 Maintenance on page 24
8 Troubleshooting on page 24
Section 1 Expanded manual version
For additional information, refer to the expanded version of this manual, which is available on the
manufacturer's website.
Section 2 Specifications
Specifications are subject to change without notice.
Specification Details
Component description Microprocessor-controlled and menu-driven controller that operates the sensor and
displays measured values.
Operating temperature -20 to 60 ºC (-4 to 140 ºF); 95% relative humidity, non-condensing with sensor load
<7 W; -20 to 50 ºC (-4 to 104 ºF) with sensor load <28 W
Storage temperature -20 to 70 ºC (-4 to 158 ºF); 95% relative humidity, non-condensing
Enclosure NEMA 4X/IP66 metal enclosure with a corrosion-resistant finish
European standards EN 61326-1: 2006; EN 61010-1:2010
ETL approved File 65454
Power requirements AC powered controller: 100-240 VAC ±10%, 50/60 Hz; Power 50 VA with 7 W
sensor/network module load, 100 VA with 28 W sensor/network module load
(optional Modbus RS232/RS485 or Profibus DPV1 network connection).
24 VDC powered controller: 24 VDC—15%, + 20%; Power 15 W with 7 W
sensor/network module load, 40 W with 28 W sensor/network module load (optional
Modbus RS232/RS485 or Profibus DPV1 network connection).
Altitude requirements Standard 2000 m (6562 ft) ASL (Above Sea Level)
Pollution degree /
Installation category
Pollution Degree 2; Installation Category II
Outputs Two analog (0-20 mA or 4-20 mA) outputs. Each analog output can be set to
0-20 mA or 4-20 mA, and can be assigned to represent a measured parameter such
as pH, temperature, flow or calculated values. Optional 3 additional analog outputs.
Secure Digital Memory card for use in data logging and software updates.
Relays Four SPDT, user-configured contacts, rated 5A 250 VAC (resistive). Contacts are
rated 250 VAC, 5 Amp resistive maximum for the AC powered controller and 24 VDC,
5A resistive maximum for the DC powered controller. Relays are designed for
connection to AC Mains circuits (i.e., whenever the controller is operated with 115 -
240 VAC power) or DC circuits (i.e., whenever the controller is operated with 24 VDC
power).
Dimensions ½ DIN—144 x 144 x 180.9 mm (5.7 x 5.7 x 7.12 in.)
Weight 1.7 kg (3.75 lb)
Digital communication Optional Modbus RS485/RS232 or Profibus DPV1 network connection for data
transmission
English 3
Specification Details
Data logging Secure Digital Card or special RS232 cable connector for data logging and
performing software updates
Warranty 2 years
Section 3 General information
In no event will the manufacturer be liable for direct, indirect, special, incidental or consequential
damages resulting from any defect or omission in this manual. The manufacturer reserves the right to
make changes in this manual and the products it describes at any time, without notice or obligation.
Revised editions are found on the manufacturer’s website.
3.1 Safety information
N O T I C E
The manufacturer is not responsible for any damages due to misapplication or misuse of this product including,
without limitation, direct, incidental and consequential damages, and disclaims such damages to the full extent
permitted under applicable law. The user is solely responsible to identify critical application risks and install
appropriate mechanisms to protect processes during a possible equipment malfunction.
Please read this entire manual before unpacking, setting up or operating this equipment. Pay
attention to all danger and caution statements. Failure to do so could result in serious injury to the
operator or damage to the equipment.
Make sure that the protection provided by this equipment is not impaired. Do not use or install this
equipment in any manner other than that specified in this manual.
3.1.1 Use of hazard information
D A N G E R
Indicates a potentially or imminently hazardous situation which, if not avoided, will result in death or serious injury.
W A R N I N G
Indicates a potentially or imminently hazardous situation which, if not avoided, could result in death or serious
injury.
C A U T I O N
Indicates a potentially hazardous situation that may result in minor or moderate injury.
N O T I C E
Indicates a situation which, if not avoided, may cause damage to the instrument. Information that requires special
emphasis.
3.1.2 Precautionary labels
Read all labels and tags attached to the instrument. Personal injury or damage to the instrument
could occur if not observed. A symbol on the instrument is referenced in the manual with a
precautionary statement.
This is the safety alert symbol. Obey all safety messages that follow this symbol to avoid potential
injury. If on the instrument, refer to the instruction manual for operation or safety information.
This symbol indicates that a risk of electrical shock and/or electrocution exists.
4 English
This symbol indicates the presence of devices sensitive to Electro-static Discharge (ESD) and
indicates that care must be taken to prevent damage with the equipment.
This symbol, when noted on a product, indicates the instrument is connected to alternate current.
Electrical equipment marked with this symbol may not be disposed of in European domestic or
public disposal systems. Return old or end-of-life equipment to the manufacturer for disposal at no
charge to the user.
Products marked with this symbol indicates that the product contains toxic or hazardous substances
or elements. The number inside the symbol indicates the environmental protection use period in
years.
Products marked with this symbol indicates that the product conforms to relevant South Korean
EMC standards.
3.1.3 Certification
Canadian Radio Interference-Causing Equipment Regulation, IECS-003, Class A:
Supporting test records reside with the manufacturer.
This Class A digital apparatus meets all requirements of the Canadian Interference-Causing
Equipment Regulations.
FCC Part 15, Class "A" Limits
Supporting test records reside with the manufacturer. The device complies with Part 15 of the FCC
Rules. Operation is subject to the following conditions:
1. The equipment may not cause harmful interference.
2. The equipment must accept any interference received, including interference that may cause
undesired operation.
Changes or modifications to this equipment not expressly approved by the party responsible for
compliance could void the user's authority to operate the equipment. This equipment has been tested
and found to comply with the limits for a Class A digital device, pursuant to Part 15 of the FCC rules.
These limits are designed to provide reasonable protection against harmful interference when the
equipment is operated in a commercial environment. This equipment generates, uses and can
radiate radio frequency energy and, if not installed and used in accordance with the instruction
manual, may cause harmful interference to radio communications. Operation of this equipment in a
residential area is likely to cause harmful interference, in which case the user will be required to
correct the interference at their expense. The following techniques can be used to reduce
interference problems:
1. Disconnect the equipment from its power source to verify that it is or is not the source of the
interference.
2. If the equipment is connected to the same outlet as the device experiencing interference, connect
the equipment to a different outlet.
3. Move the equipment away from the device receiving the interference.
4. Reposition the receiving antenna for the device receiving the interference.
5. Try combinations of the above.
English
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3.2 Product overview
The controller displays sensor measurements and other data, can transmit analog and digital signals,
and can interact with and control other devices through outputs and relays. Outputs, relays, sensors
and sensor modules are configured and calibrated through the user interface on the front of the
controller.
Figure 1 shows the product components. Components may vary according to controller configuration.
Contact the manufacturer if parts are damaged or missing.
Figure 1 System components
1 Controller 4 Network module (optional)
2 Cable gland assembly 5 High-voltage barrier
3 Additional connection fitting 6 Sensor modules (optional)
Sensors and sensor modules
The controller accepts up to a maximum of two sensor modules along with one communication
module. A variety of sensors can be wired to the sensor modules. Sensor wiring information is given
in the specific sensor manuals and in the user instructions for specific modules.
Relays, outputs and signals
The controller has four configurable relay switches and two analog outputs. An optional analog
output module can increase the number of analog outputs to five.
Device scans
With two exceptions, the controller automatically scans for connected devices without user input
when it is powered on. The first exception is when the controller is powered on for the first time
before initial use. The second exception is after the controller configuration settings have been set to
their default values and the controller is powered on. In both cases, the controller first displays the
language, date and time edit screens. After the language, date and time entries are accepted, the
controller performs a device scan.
Controller enclosure
6
English
The controller enclosure is NEMA 4X/IP66-rated and has a corrosion-resistant finish designed to
withstand corrosive environmental constituents such as salt spray and hydrogen sulfide. Protection
against environmental damage is strongly recommended for outdoor use.
Note: Units that have the Underwriters Laboratories (UL) certification are intended for indoor use only and do not
have a NEMA 4X/IP66 rating.
Controller mounting options
The controller can be mounted to a panel, to a wall or to a vertical or horizontal pipe. A neoprene
sealing gasket is included and can be used to reduce vibration. The gasket can be used as a
template for panel mounting before the inner gasket component is separated.
Section 4 Installation
4.1 Mounting components and dimensions
C A U T I O N
Personal injury hazard. Only qualified personnel should conduct the tasks described in this section of the manual.
The controller can be installed on a surface, panel or pipe (horizontal or vertical). For mounting
options and instructions, refer to Figure 2, Figure 3 on page 9, Figure 4 on page 10, Figure 5
on page 11 and Figure 6 on page 12.
For horizontal pipe mounts, the mounting feet (Figure 2) must be attached to the mounting bracket in
a vertical position.
For both horizontal and vertical pipe mounts, attach the mounting bracket to the controller as shown
in Figure 5 on page 11.
English 7
Figure 2 Mounting components
1 Mounting foot (2x) 7 Lock washer, ¼-inch ID (4x)
2 Sealing gasket for panel mount, Neoprene 8 M5 x 0.8 Keps hexnut (4x)
3 Bracket for wall and pipe mounting 9 Pan head screws, M5 x 0.8 x 100mm (4x) (Used for
variable diameter pipe mount installations)
4 Vibration isolation gasket for pipe mount 10 Pan head screws, M5 x 0.8 x 15 mm (4x)
5 Vibration isolation washer for pipe mount (4x) 11 Bracket for panel mounting
6 Flat washer, ¼-inch ID (4x)
8 English
4.2 Controller mounting
Figure 3 Surface mounting dimensions
English 9
Figure 4 Panel mounting dimensions
Note: If using the bracket for panel mounting (supplied), push the controller through the hole in the panel and then
slide the bracket over the controller on the back side of the panel. Use the four 15 mm pan head screws (supplied)
to attach the bracket to the controller and secure the controller to the panel.
10
English
Figure 5 Pipe mounting (vertical pipe)
English 11
Figure 6 Top and bottom views
4.3 High-voltage barrier
High-voltage wiring for the controller is located behind the high-voltage barrier in the controller
enclosure. The barrier must remain in place except when installing modules or when a qualified
installation technician is wiring for power, alarms, outputs or relays. Do not remove the barrier while
power is applied to the controller.
4.4 Electrostatic discharge (ESD) considerations
N O T I C E
Potential Instrument Damage. Delicate internal electronic components can be damaged by static electricity,
resulting in degraded performance or eventual failure.
12 English
Refer to the steps in this procedure to prevent ESD damage to the instrument:
Touch an earth-grounded metal surface such as the chassis of an instrument, a metal conduit or
pipe to discharge static electricity from the body.
Avoid excessive movement. Transport static-sensitive components in anti-static containers or
packages.
Wear a wrist strap connected by a wire to earth ground.
Work in a static-safe area with anti-static floor pads and work bench pads.
4.5 Wiring overview
Figure 7 shows an overview of the wiring connections inside the controller with the high voltage
barrier removed. The left side of the figure shows the back side of the controller cover.
Note: Remove connector caps from the connectors before module installation.
Figure 7 Wiring connections overview
1 Service cable connection 4 Communication module
connector (e.g., Modbus,
Profibus, optional 4-20 mA
module, etc.)
7 Relay connections
1
2 4-20 mA output
1
5 AC and DC power connector
1
8 Discrete input wiring connector
1
3 Sensor module connector 6 Ground terminals
4.6 Wiring for power
W A R N I N G
Potential Electrocution Hazard. Always disconnect power to the instrument when making electrical connections.
W A R N I N G
Potential Electrocution Hazard. If this equipment is used outdoors or in potentially wet locations, a Ground Fault
Interrupt device must be used for connecting the equipment to its mains power source.
1
Terminals can be removed for improved access.
English 13
D A N G E R
Electrocution Hazard. Do not connect AC power to a 24 VDC powered model.
W A R N I N G
Potential Electrocution Hazard. A protective earth (PE) ground connection is required for both 100-240 VAC and
24 VDC wiring applications. Failure to connect a good PE ground connection can result in shock hazards and
poor performance due to electromagnetic interferences. ALWAYS connect a good PE ground to the controller
terminal.
N O T I C E
Install the device in a location and position that gives easy access to the disconnect device and its operation.
The controller can be purchased as either a 100-240 VAC powered model or a 24 VDC powered
model. Follow the appropriate wiring instructions for the purchased model.
The controller can be wired for line power by hard-wiring in conduit or wiring to a power cord.
Regardless of the wire used, the connections are made at the same terminals. A local disconnect
designed to meet local electrical code is required and must be identified for all types of installation. In
hard-wired applications, the power and safety ground service drops for the instrument must be 18 to
12 AWG.
Notes:
The voltage barrier must be removed before making any electrical connections. After making all
connections, replace the voltage barrier before closing the controller cover.
A sealing type cable gland and a power cord less than 3 meters (10 feet) in length with three 18-
gauge conductors (including a safety ground wire) can be used to maintain the NEMA
4X/IP66 environmental rating.
Controllers can be ordered with AC power cords pre-installed. Additional power cords may also be
ordered.
The DC power source that supplies power to the 24 VDC powered controller must maintain
voltage regulation within the specified 24 VDC-15% +20% voltage limits. The DC power source
must also provide adequate protection against surges and line transients.
Wiring procedure
Follow the numbered steps and Table 1 or Table 2 to wire the controller for power. Insert each wire
into the appropriate terminal until the insulation is seated against the connector with no bare wire
exposed. Tug gently after insertion to make a secure connection. Seal any unused openings in the
controller box with conduit opening sealing plugs.
Table 1 AC power wiring information (AC powered models only)
Terminal Description Color—N. America Color—EU
1 Hot (L1) Black Brown
2 Neutral (L2) White Blue
Protective earth (PE) Ground lug Green Green and yellow
Table 2 DC power wiring information (DC powered models only)
Terminal Description Color—N. America Color—EU
1 +24 VDC Red Red
2 24 VDC return Black Black
Protective earth (PE) Ground lug Green Green and yellow
14 English
4.7 Alarms and relays
The controller is equipped with four unpowered, single pole relays rated 100-250 VAC, 50/60 Hz,
5 amp resistive maximum. Contacts are rated 250 VAC, 5 amp resistive maximum for the AC
English
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powered controller and 24 VDC, 5A resistive maximum for the DC powered controller. The relays are
not rated for inductive loads.
4.8 Wiring relays
W A R N I N G
Potential Electrocution Hazard. Always disconnect power to the instrument when making electrical connections.
W A R N I N G
Potential fire hazard. The relay contacts are rated 5A and are not fused. External loads connected to the relays
must have current limiting devices provided to limit current to < 5 A.
W A R N I N G
Potential fire hazard. Do not daisy-chain the common relay connections or jumper wire from the mains power
connection inside the instrument.
W A R N I N G
Potential electrocution hazard. In order to maintain the NEMA/IP environmental ratings of the enclosure, use only
conduit fittings and cable glands rated for at least NEMA 4X/IP66 to route cables in to the instrument.
AC line (100—250 V) powered controllers
W A R N I N G
Potential electrocution hazard. AC mains powered controllers (115 V–230 V) are designed for relay connections
to AC mains circuits (i.e. voltages greater than 16 V-RMS, 22.6 V-PEAK or 35 VDC).
The wiring compartment is not designed for voltage connections in excess of 250 VAC.
24 VDC powered controllers
W A R N I N G
Potential electrocution hazard. 24 V powered controllers are designed for relay connections to low voltage circuits
(i.e. voltages less than 16 V-RMS, 22.6 V-PEAK or 35 VDC).
The 24 VDC controller relays are designed for connection to LOW voltage circuits (i.e., voltages less
than 30 V-RMS, 42.2 V-PEAK or 60 VDC). The wiring compartment is not designed for voltage
connections above these levels.
The relay connector accepts 18-12 AWG wire (as determined by load application). Wire gauge less
than 18 AWG is not recommended.
The Normally Open (NO) and Common (COM) relay contacts will be connected when an alarm or
other condition is active. The Normally Closed (NC) and Common relay contacts will be connected
when an alarm or other condition is inactive (unless the Fail Safe is set to Yes) or when power is
removed from the controller.
Most relay connections use either the NO and COM terminals or the NC and COM terminals. The
numbered installation steps show connection to the NO and COM terminals.
16
English
4.9 Analog output connections
W A R N I N G
Potential Electrocution Hazard. Always disconnect power to the instrument when making electrical connections.
English 17
W A R N I N G
Potential electrocution hazard. In order to maintain the NEMA/IP environmental ratings of the enclosure, use only
conduit fittings and cable glands rated for at least NEMA 4X/IP66 to route cables in to the instrument.
Two isolated analog outputs are provided. Such outputs are commonly used for analog signaling or
to control other external devices. Make wiring connections to the controller as shown in Figure 8 and
Table 3.
Note: Figure 8 shows the back of the controller cover and not the inside of the main controller compartment.
Figure 8 Analog output connections
Table 3 Output connections
Recorder wires Circuit board position
Output 2- 4
Output 2+ 3
Output 1- 2
Output 1+ 1
1. Open the controller cover.
2. Feed the wires through the cable gland.
3. Adjust the wire as necessary and tighten the cable gland.
4. Make connections with twisted-pair shielded wire and connect the shield at the controlled
component end or at the control loop end.
Do not connect the shield at both ends of the cable.
Use of non-shielded cable may result in radio frequency emission or susceptibility levels higher
than allowed.
Maximum loop resistance is 500 ohm.
5. Close the controller cover and tighten the cover screws.
6. Configure outputs in the controller.
4.10 Discrete input wiring connections
W A R N I N G
Potential Electrocution Hazard. Always disconnect power to the instrument when making electrical connections.
18 English
W A R N I N G
Potential electrocution hazard. In order to maintain the NEMA/IP environmental ratings of the enclosure, use only
conduit fittings and cable glands rated for at least NEMA 4X/IP66 to route cables in to the instrument.
Three discrete inputs are provided for switch closure inputs or logic level voltage inputs. Make wiring
connections and configure jumper settings to the controller as shown in Figure 9, Table 4 and
Figure 10.
Note: Figure 9 shows the back of the controller cover and not the inside of the main controller compartment.
Figure 9 Discrete input wiring connections
Table 4 Input connections
Discrete inputs Connector position - Switch input Connector position - Voltage
input
Input 1+ 3 2
Input 1- 2 3
Input 2+ 6 5
Input 2- 5 6
Input 3+ 8 7
Input 3- 7 8
Figure 10 Jumper settings
1 Input 1 configuration jumpers 3 Input 3 configuration jumpers 5 Jumpers positioned to the right
for voltage inputs
2 Input 2 configuration jumpers 4 Jumpers positioned to the left for
switch inputs
English 19
1. Open the controller cover.
2. Feed the wires through the cable gland.
3. Adjust the wire as necessary and tighten the cable gland.
4. The jumpers are positioned immediately behind the connector. Remove the connector for
improved access to the jumpers and configure the jumper settings according to the type of input
as shown in Figure 10.
5. Close the controller cover and tighten the cover screws.
6. Configure inputs in the controller.
Note: In switch input mode the controller supplies 12 volts to the switch and is not isolated from the controller. In
voltage input mode the inputs are isolated from the controller (user input voltage from 0 to 30 volts).
4.11 Connect the optional digital communication output
The manufacturer supports Modbus RS485, Modbus RS232 and Profibus DPV1 communication
protocols. The optional digital output module is installed in the location indicated by item 4 in Figure 7
on page 13. Refer to the manual supplied with the network module for more details.
For information about Modbus registers, refer to http://www.hach-lange.com or http://www.hach.com.
Section 5 User interface and navigation
5.1 User interface
The keypad has four menu keys and four directional keys as shown in Figure 11.
Figure 11 Keypad and front panel overview
1 Instrument display 5 back key. Moves back one level in the menu
structure.
2 Cover for secure digital memory card slot 6 menu key. Moves to the Settings Menu from other
screens and submenus.
3 home key. Moves to the Main Measurement screen
from other screens and submenus. On the graphical
measurement screen can be used to change the
graph settings.
7 Directional keys. Used to navigate through the
measurement screens, menus, change settings,
and increment or decrement digits.
4 enter key. Accepts input values, updates, or
displayed menu options. On the measurement
screen can be used to display diagnostic
information.
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Hach Polymentron 9500 Basic User Manual

Tyyppi
Basic User Manual